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using com.esendex.sdk.rest; using com.esendex.sdk.rest.resources; using NUnit.Framework; namespace com.esendex.sdk.test.rest.resources { [TestFixture] public class SessionResourceTests { [Test] public void DefaultConstructor() { // Arrange string expectedResourcePath = "session/constructor"; // Act RestResource resource = new SessionResource(); // Assert Assert.AreEqual(expectedResourcePath, resource.ResourcePath); } } }
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<? // Цепляем шапку сайта include "templates/includes/header.html"; // Цепляем шаблон первой либо внутренней страниц include "templates/$template.html"; // Цепляем общий для всех страниц футер include "templates/includes/footer.html"; ?>
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'use strict'; // MODULES // var tape = require( 'tape' ); var proxyquire = require( 'proxyquire' ); var exitCode = require( './../lib/exit_code.js' ); // TESTS // tape( 'main export is a function', function test( t ) { t.ok( true, __filename ); t.strictEqual( typeof exitCode, 'function', 'main export is a function' ); t.end(); }); tape( 'the function sets the process exit code (Node.js versions >0.x.x)', function test( t ) { var exitCode; var proc; var mock; mock = { 'versions': { 'node': '1.0.0' } }; exitCode = proxyquire( './../lib/exit_code.js', { './process.js': mock }); proc = { 'exit': exit, 'exitCode': -1 }; exitCode( proc, 1 ); t.strictEqual( proc.exitCode, 1, 'returns expected value' ); t.end(); function exit() { t.fail( 'should not be called' ); } }); tape( 'the function sets the process exit code (Node.js versions >0.10.x)', function test( t ) { var exitCode; var proc; var mock; mock = { 'versions': { 'node': '0.11.0' } }; exitCode = proxyquire( './../lib/exit_code.js', { './process.js': mock }); proc = { 'exit': exit, 'exitCode': -1 }; exitCode( proc, 1 ); t.strictEqual( proc.exitCode, 1, 'returns expected value' ); t.end(); function exit() { t.fail( 'should not be called' ); } }); tape( 'the function sets the process "exit code" and forcefully exits the calling process on older Node.js versions (Node.js versions <=0.10.x)', function test( t ) { var exitCode; var proc; var mock; mock = { 'versions': { 'node': '0.10.9999999' } }; exitCode = proxyquire( './../lib/exit_code.js', { './process.js': mock }); proc = { 'exit': exit, 'exitCode': -1 }; exitCode( proc, 1 ); t.strictEqual( proc.exitCode, 1, 'returns expected value' ); function exit( code ) { t.ok( true, 'forcefully exits' ); t.strictEqual( code, 1, 'sets exit code' ); t.end(); } });
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<?php namespace Emayk\Ics\Repo\Transaction\Prints; use Emayk\Ics\Controllers\BaseController; class Controller extends BaseController{ protected $print; function __construct(iPrints $Prints) { $this->print = $Prints; } /** * Display a listing of the resource. * * @return Response */ public function index() { return $this->print->all(); } /** * Show the form for creating a new resource. * * @return Response */ public function create() { return $this->print->create(); } /** * Store a newly created resource in storage. * * @return Response */ public function store() { return $this->print->store(); } /** * Display the specified resource. * * @param int $id * @return Response */ public function show($id) { return $this->print->show($id); } /** * Show the form for editing the specified resource. * * @param int $id * @return Response */ public function edit($id) { return $this->print->edit($id); } /** * Update the specified resource in storage. * * @param int $id * @return Response */ public function update($id) { return $this->print->update($id); } /** * Remove the specified resource from storage. * * @param int $id * @return Response */ public function destroy($id) { return $this->print->destroy($id); } }
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$(function () { $('#slickQuiz').slickQuiz(); // set up a "tweet your results" page });
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package bytecounting import ( "io/ioutil" "net" "sync/atomic" "testing" "time" "github.com/stretchr/testify/assert" ) var ( req = []byte("Hello There") resp = []byte("Hello Yourself") dataLoops = 10 clientTimeout = 25 * time.Millisecond serverTimeout = 10 * clientTimeout slightlyLessThanClientTimeout = time.Duration(int64(float64(clientTimeout.Nanoseconds()) * 0.9)) slightlyMoreThanClientTimeout = time.Duration(int64(float64(clientTimeout.Nanoseconds()) * 1.1)) ) func TestCounting(t *testing.T) { lr := int64(0) lw := int64(0) cr := int64(0) cw := int64(0) l, err := net.Listen("tcp", "localhost:0") if err != nil { t.Fatalf("Unable to listen: %s", err) } il := &Listener{ Orig: l, OnRead: func(bytes int64) { atomic.AddInt64(&lr, bytes) }, OnWrite: func(bytes int64) { atomic.AddInt64(&lw, bytes) }, } defer func() { if err := il.Close(); err != nil { t.Fatalf("Unable to close listener: %v", err) } }() go func() { conn, err := il.Accept() if err != nil { t.Fatalf("Unable to accept: %s", err) } b := make([]byte, len(req)) if _, err := conn.Read(b); err != nil { t.Fatalf("Unable to read from connection: %v", err) } if _, err := conn.Write(resp); err != nil { t.Fatalf("Unable to write to connection: %v", err) } if err := conn.Close(); err != nil { t.Fatalf("Unable to close connection: %v", err) } }() addr := il.Addr().String() c, err := net.Dial("tcp", addr) if err != nil { t.Fatalf("Unable to dial %s: %s", addr, err) } conn := &Conn{ Orig: c, OnRead: func(bytes int64) { atomic.AddInt64(&cr, bytes) }, OnWrite: func(bytes int64) { atomic.AddInt64(&cw, bytes) }, } // Test info methods assert.Equal(t, c.LocalAddr(), conn.LocalAddr(), "LocalAddr should be same as on underlying") assert.Equal(t, c.RemoteAddr(), conn.RemoteAddr(), "RemoteAddr should be same as on underlying") // Test short ReadDeadline if err := conn.SetReadDeadline(time.Now().Add(-1 * time.Second)); err != nil { t.Fatalf("Unable to set read deadline: %v", err) } b := make([]byte, len(resp)) _, err = conn.Read(b) assertTimeoutError(t, err) if err := conn.SetReadDeadline(time.Now().Add(1 * time.Hour)); err != nil { t.Fatalf("Unable to set read deadline: %v", err) } // Test short WriteDeadline if err := conn.SetWriteDeadline(time.Now().Add(-1 * time.Second)); err != nil { t.Fatalf("Unable to set read deadline: %v", err) } _, err = conn.Write([]byte{}) assertTimeoutError(t, err) if err := conn.SetWriteDeadline(time.Now().Add(1 * time.Hour)); err != nil { t.Fatalf("Unable to set read deadline: %v", err) } // Test short Deadline if err := conn.SetDeadline(time.Now().Add(-1 * time.Second)); err != nil { t.Fatalf("Unable to set read deadline: %v", err) } _, err = conn.Read(b) assertTimeoutError(t, err) _, err = conn.Write([]byte{}) assertTimeoutError(t, err) if err := conn.SetDeadline(time.Now().Add(1 * time.Hour)); err != nil { t.Fatalf("Unable to set read deadline: %v", err) } if _, err = conn.Write(req); err != nil { t.Fatalf("Unable to write: %v", err) } if _, err := ioutil.ReadAll(conn); err != nil { t.Fatalf("Unable to read: %v", err) } assert.Equal(t, int64(len(resp)), atomic.LoadInt64(&cr), "Wrong number of bytes read by conn") assert.Equal(t, int64(len(req)), atomic.LoadInt64(&cw), "Wrong number of bytes written by conn") assert.Equal(t, atomic.LoadInt64(&cr), atomic.LoadInt64(&lw), "Listener written should equal conn read") assert.Equal(t, atomic.LoadInt64(&cw), atomic.LoadInt64(&lr), "Listener read should equal conn written") } func assertTimeoutError(t *testing.T, err error) { switch e := err.(type) { case net.Error: assert.True(t, e.Timeout(), "Error should be timeout") default: assert.Fail(t, "Error should be net.Error") } }
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package com.sun.max.ve.sched; import java.util.*; /** * A ring implementation for the run queue. We implement our own to make sure no allocation * and no synchronization is done. This works with objects that implement the RingEntry interface, * which is a doubly-linked list abstraction, i.e., the queue is actually a ring, with one entry * specially designated as the head. Moving down the queue involves following the "next" * link, moving up the queue involves following the "link". The last entry of the queue * can be accessed simply by following the "prev" link from the head entry. * * The empty queue is denoted by _head == null; * A queue of one entry has the next and prev links pointing to itself. * * @author Harald Roeck * @suthor Mick Jordan * */ public class RingRunQueue<T extends RingRunQueueEntry> extends RunQueue<T> { private T _head; private int _entries; @Override public void buildtimeInitialize() { } public RingRunQueue() { _head = null; } @Override public void insert(T entry) { if (_head == null) { _head = entry; entry.setNext(entry); // point next at ourself entry.setPrev(entry); // point prev at ourself } else { entry.setPrev(_head.getPrev()); // old last is prev to entry entry.setNext(_head); // next for entry is head _head.getPrev().setNext(entry); // old last now points at entry _head.setPrev(entry); // entry is now the last } _entries++; } @Override public T head() { return (T) _head; } @SuppressWarnings("unchecked") @Override public T next() { if (_head == null) { return null; } else { final RingRunQueueEntry next = _head.getNext(); if (next == _head) { return null; } else { return (T) next; } } } @Override public boolean empty() { return _head == null; } @Override public int size() { return _entries; } @SuppressWarnings("unchecked") @Override public void remove(T entry) { if (_head == entry) { _head = (T) entry.getNext(); } if (_head == entry) { _head = null; } else { entry.getNext().setPrev(entry.getPrev()); entry.getPrev().setNext(entry.getNext()); entry.setNext(entry); entry.setPrev(entry); } _entries--; } @SuppressWarnings("unchecked") @Override public void moveHeadToEnd() { if (_head != null) { _head = (T) _head.getNext(); } } @Override public Iterator<T> iterator() { return new QIterator(); } class QIterator implements Iterator<T> { private RingRunQueueEntry _next; QIterator() { _next = _head; } public boolean hasNext() { return _next != null; } @SuppressWarnings("unchecked") public T next() { final T result = (T) _next; _next = _next.getNext(); if (_next == _head) { _next = null; } return result; } public void remove() { } } }
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'use strict'; var _ = require('lodash'); var chalk = require('chalk'); var gutil = require('gulp-util'); /** * Interns */ var Helpers = require('./helpers.js'); /** * Constants */ var PLUGIN_NAME = 'gulp-angular-translate-extract'; function ExtractTranslations (options, content) { /* jshint validthis: true */ var self = this; this.content = content; this.customRegex = _.isArray(options.customRegex) ? options.customRegex : []; this.interpolation = options.interpolation || { startDelimiter: '{{', endDelimiter: '}}' }; this.interpolationEscapeChar = _.first(this.interpolation.startDelimiter); this.namespace = (options.namespace) ? options.namespace : false; this.verbose = (options.verbose) ? options.verbose : false; // Regexs that will be executed on files this.regexs = { commentSimpleQuote: '\\/\\*\\s*i18nextract\\s*\\*\\/\'((?:\\\\.|[^\'\\\\])*)\'', commentDoubleQuote: '\\/\\*\\s*i18nextract\\s*\\*\\/"((?:\\\\.|[^"\\\\])*)"', HtmlFilterSimpleQuote: Helpers.escapeRegExp(this.interpolation.startDelimiter) + '\\s*\'((?:\\\\.|[^\'\\\\])*)\'\\s*\\|\\s*translate(:.*?)?\\s*' + Helpers.escapeRegExp(this.interpolation.endDelimiter), HtmlFilterDoubleQuote: Helpers.escapeRegExp(this.interpolation.startDelimiter) + '\\s*"((?:\\\\.|[^"\\\\\])*)"\\s*\\|\\s*translate(:.*?)?\\s*' + Helpers.escapeRegExp(this.interpolation.endDelimiter), HtmlFilterSimpleQuoteOneTimeBinding: Helpers.escapeRegExp(this.interpolation.startDelimiter) + '::\\(\\s*\'((?:\\\\.|[^\'\\\\])*)\'\\s*\\|\\s*translate(:.*?)?\\s*\\)' + Helpers.escapeRegExp(this.interpolation.endDelimiter), HtmlFilterDoubleQuoteOneTimeBinding: Helpers.escapeRegExp(this.interpolation.startDelimiter) + '::\\(\\s*"((?:\\\\.|[^"\\\\])*)"\\s*\\|\\s*translate(:.*?)?\\s*\\)' + Helpers.escapeRegExp(this.interpolation.endDelimiter), HtmlDirective: '<[^>]*translate[^{>]*>([^' + this.interpolationEscapeChar + '<]*)<\/[^>]*>', HtmlDirectiveStandalone: 'translate="((?:\\\\.|[^' + this.interpolationEscapeChar + '"\\\\])*)"', HtmlDirectivePluralLast: 'translate="((?:\\\\.|[^' + this.interpolationEscapeChar + '"\\\\])*)".*angular-plural-extract="((?:\\\\.|[^"\\\\])*)"', HtmlDirectivePluralFirst: 'angular-plural-extract="((?:\\\\.|[^"\\\\])*)".*translate="((?:\\\\.|[^' + this.interpolationEscapeChar + '"\\\\])*)"', HtmlNgBindHtml: 'ng-bind-html="\\s*\'((?:\\\\.|[^' + this.interpolationEscapeChar + '\'\\\\])*)\'\\s*\\|\\s*translate(:.*?)?\\s*"', JavascriptServiceSimpleQuote: '\\$translate\\(\\s*\'((?:\\\\.|[^\'\\\\])*)\'[^\\)]*.*\\)', JavascriptServiceDoubleQuote: '\\$translate\\(\\s*"((?:\\\\.|[^"\\\\])*)"[^\\)]*.*\\)', JavascriptServiceArraySimpleQuote: '\\$translate\\((?:\\s*(\\[\\s*(?:(?:\'(?:(?:\\.|[^.*\'\\\\])*)\')\\s*,*\\s*)+\\s*\\])\\s*).*\\)', JavascriptServiceArrayDoubleQuote: '\\$translate\\((?:\\s*(\\[\\s*(?:(?:"(?:(?:\\.|[^.*\'\\\\])*)")\\s*,*\\s*)+\\s*\\])\\s*).*\\)', JavascriptServiceInstantSimpleQuote: '\\$translate\\.instant\\(\\s*\'((?:\\\\.|[^\'\\\\])*)\'[^\\)]*.*\\)', JavascriptServiceInstantDoubleQuote: '\\$translate\\.instant\\(\\s*"((?:\\\\.|[^"\\\\])*)"[^\\)]*.*\\)', JavascriptFilterSimpleQuote: '\\$filter\\(\\s*\'translate\'\\s*\\)\\s*\\(\\s*\'((?:\\\\.|[^\'\\\\])*)\'[^\\)]*\\)', JavascriptFilterDoubleQuote: '\\$filter\\(\\s*"translate"\\s*\\)\\s*\\(\\s*"((?:\\\\.|[^"\\\\\])*)"[^\\)]*\\)' }; this.setCustomRegex(); this.results = {}; } ExtractTranslations.prototype.setCustomRegex = function() { var self = this; _.forEach(this.customRegex, function (regex, key) { self.regexs['others_' + key] = regex; }); }; ExtractTranslations.prototype.process = function () { var _regex; // Execute all regex defined at the top of this file for (var i in this.regexs) { _regex = new RegExp(this.regexs[i], "gi"); switch (i) { // Case filter HTML simple/double quoted case "HtmlFilterSimpleQuote": case "HtmlFilterSimpleQuoteOneTimeBinding": case "HtmlFilterDoubleQuote": case "HtmlFilterDoubleQuoteOneTimeBinding": case "HtmlDirective": case "HtmlDirectivePluralLast": case "HtmlDirectivePluralFirst": case "JavascriptFilterSimpleQuote": case "JavascriptFilterDoubleQuote": // Match all occurences var matches = this.content.match(_regex); if (_.isArray(matches) && matches.length) { // Through each matches, we'll execute regex to get translation key for (var index in matches) { if (matches[index] !== "") { this.extract(i, _regex, matches[index]); } } } break; // Others regex default: this.extract(i, _regex, this.content); } } return this.results; }; // Extract regex strings from content and feed results object ExtractTranslations.prototype.extract = function (regexName, regex, content) { var self = this; var r; if (this.verbose) { gutil.log('----------------------------------------------'); gutil.log('Process extraction with regex : "' + regexName + '"'); gutil.log(regex); } regex.lastIndex = 0; while ((r = regex.exec(content)) !== null) { if (r.length < 2) { return; } // Result expected [STRING, KEY, SOME_REGEX_STUF] // Except for plural hack [STRING, KEY, ARRAY_IN_STRING] var translationKey, evalString, translationDefaultValue = ""; switch (regexName) { case 'HtmlDirectivePluralFirst': var tmp = r[1]; r[1] = r[2]; r[2] = tmp; break; case 'HtmlDirectivePluralLast': evalString = eval(r[2]); if (_.isArray(evalString) && evalString.length >= 2) { translationDefaultValue = "{NB, plural, one{" + evalString[0] + "} other{" + evalString[1] + "}" + (evalString[2] ? ' ' + evalString[2] : ''); } translationKey = r[1].trim(); break; default: translationKey = r[1].trim(); } // Avoid empty translation if (translationKey === "" || translationKey === undefined) { return; } if (this.namespace && translationKey.split('.').length < 2) { throw new Error(chalk.red( 'Namespace option need tokens with "." delimiter.' + '\n Your token conflicts with namespaces: ') + translationKey + chalk.red('.\n')); } switch (regexName) { case "commentSimpleQuote": case "HtmlFilterSimpleQuote": case "HtmlFilterSimpleQuoteOneTimeBinding": case "JavascriptServiceSimpleQuote": case "JavascriptServiceInstantSimpleQuote": case "JavascriptFilterSimpleQuote": case "HtmlNgBindHtml": translationKey = translationKey.replace(/\\\'/g, "'"); break; case "commentDoubleQuote": case "HtmlFilterDoubleQuote": case "HtmlFilterDoubleQuoteOneTimeBinding": case "JavascriptServiceDoubleQuote": case "JavascriptServiceInstantDoubleQuote": case "JavascriptFilterDoubleQuote": translationKey = translationKey.replace(/\\\"/g, '"'); break; case "JavascriptServiceArraySimpleQuote": case "JavascriptServiceArrayDoubleQuote": var key; if(regexName === "JavascriptServiceArraySimpleQuote") { key = translationKey.replace(/'/g, ''); } else { key = translationKey.replace(/"/g, ''); } key = key.replace(/[\][]/g, ''); key = key.split(','); key.forEach(function(item){ item = item.replace(/\\\"/g, '"').trim(); self.results[item] = translationDefaultValue; }); break; } if( regexName !== "JavascriptServiceArraySimpleQuote" && regexName !== "JavascriptServiceArrayDoubleQuote") { self.results[translationKey] = translationDefaultValue; } } }; module.exports = ExtractTranslations;
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package com.devbrackets.android.exomediademo.service; import android.app.PendingIntent; import android.content.Intent; import android.graphics.Bitmap; import android.graphics.BitmapFactory; import android.graphics.drawable.Drawable; import android.support.annotation.Nullable; import com.devbrackets.android.exomedia.listener.EMAudioFocusCallback; import com.devbrackets.android.exomedia.service.EMPlaylistService; import com.devbrackets.android.exomediademo.App; import com.devbrackets.android.exomediademo.R; import com.devbrackets.android.exomediademo.StartupActivity; import com.devbrackets.android.exomediademo.data.MediaItem; import com.devbrackets.android.exomediademo.manager.PlaylistManager; import com.squareup.picasso.Picasso; import com.squareup.picasso.Target; /** * A simple service that extends {@link EMPlaylistService} in order to provide * the application specific information required. */ public class AudioService extends EMPlaylistService<MediaItem, PlaylistManager> implements EMAudioFocusCallback { private static final int NOTIFICATION_ID = 1564; //Arbitrary private static final int FOREGROUND_REQUEST_CODE = 332; //Arbitrary private static final float AUDIO_DUCK_VOLUME = 0.1f; private Bitmap defaultLargeNotificationImage; private Bitmap largeNotificationImage; private Bitmap lockScreenArtwork; private NotificationTarget notificationImageTarget = new NotificationTarget(); private LockScreenTarget lockScreenImageTarget = new LockScreenTarget(); //Picasso is an image loading library (NOTE: google now recommends using glide for image loading) private Picasso picasso; @Override public void onCreate() { super.onCreate(); picasso = Picasso.with(getApplicationContext()); } @Override public void onDestroy() { super.onDestroy(); } @Override protected String getAppName() { return getResources().getString(R.string.app_name); } @Override protected int getNotificationId() { return NOTIFICATION_ID; } @Override protected float getAudioDuckVolume() { return AUDIO_DUCK_VOLUME; } @Override protected PlaylistManager getMediaPlaylistManager() { return App.getPlaylistManager(); } @Override protected PendingIntent getNotificationClickPendingIntent() { Intent intent = new Intent(getApplicationContext(), StartupActivity.class); return PendingIntent.getActivity(getApplicationContext(), FOREGROUND_REQUEST_CODE, intent, PendingIntent.FLAG_UPDATE_CURRENT); } @Override protected Bitmap getDefaultLargeNotificationImage() { if (defaultLargeNotificationImage == null) { defaultLargeNotificationImage = BitmapFactory.decodeResource(getResources(), R.mipmap.ic_launcher); } return defaultLargeNotificationImage; } @Nullable @Override protected Bitmap getDefaultLargeNotificationSecondaryImage() { return null; } @Override protected int getNotificationIconRes() { return R.mipmap.ic_launcher; } @Override protected int getLockScreenIconRes() { return R.mipmap.ic_launcher; } @Override protected void updateLargeNotificationImage(int size, MediaItem playlistItem) { picasso.load(playlistItem.getThumbnailUrl()).into(notificationImageTarget); } @Override protected void updateLockScreenArtwork(MediaItem playlistItem) { picasso.load(playlistItem.getArtworkUrl()).into(lockScreenImageTarget); } @Nullable @Override protected Bitmap getLockScreenArtwork() { return lockScreenArtwork; } @Nullable @Override protected Bitmap getLargeNotificationImage() { return largeNotificationImage; } /** * A class used to listen to the loading of the large notification images and perform * the correct functionality to update the notification once it is loaded. * * <b>NOTE:</b> This is a Picasso Image loader class */ private class NotificationTarget implements Target { @Override public void onBitmapLoaded(Bitmap bitmap, Picasso.LoadedFrom from) { largeNotificationImage = bitmap; onLargeNotificationImageUpdated(); } @Override public void onBitmapFailed(Drawable errorDrawable) { largeNotificationImage = null; } @Override public void onPrepareLoad(Drawable placeHolderDrawable) { //Purposefully left blank } } /** * A class used to listen to the loading of the large lock screen images and perform * the correct functionality to update the artwork once it is loaded. * * <b>NOTE:</b> This is a Picasso Image loader class */ private class LockScreenTarget implements Target { @Override public void onBitmapLoaded(Bitmap bitmap, Picasso.LoadedFrom from) { lockScreenArtwork = bitmap; onLockScreenArtworkUpdated(); } @Override public void onBitmapFailed(Drawable errorDrawable) { lockScreenArtwork = null; } @Override public void onPrepareLoad(Drawable placeHolderDrawable) { //Purposefully left blank } } }
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<?php class Model_Usersearch extends \Model { protected static $_table_name = 'usersearches'; protected static $_properties = array( 'id', 'UserAccount_id', 'search', 'rows', 'active', 'created_at', 'updated_at', ); }
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package com.google.schemaorg.core; /** * Interface of <a * href="http://schema.org/MedicalObservationalStudyDesign}">http://schema.org/MedicalObservationalStudyDesign}</a>. */ public interface MedicalObservationalStudyDesign extends Enumeration, MedicalEnumeration {}
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"""Package loc."""
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.class Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1; .super Ljava/lang/Object; .source "WifiApSetDataLimitDialog.java" # interfaces .implements Landroid/text/TextWatcher; # annotations .annotation system Ldalvik/annotation/EnclosingClass; value = Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; .end annotation .annotation system Ldalvik/annotation/InnerClass; accessFlags = 0x0 name = null .end annotation # instance fields .field final synthetic this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; # direct methods .method constructor <init>(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)V .locals 0 iput-object p1, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-direct {p0}, Ljava/lang/Object;-><init>()V return-void .end method # virtual methods .method public afterTextChanged(Landroid/text/Editable;)V .locals 1 iget-object v0, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v0}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-wrap0(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)V return-void .end method .method public beforeTextChanged(Ljava/lang/CharSequence;III)V .locals 0 return-void .end method .method public onTextChanged(Ljava/lang/CharSequence;III)V .locals 5 invoke-interface {p1}, Ljava/lang/CharSequence;->toString()Ljava/lang/String; move-result-object v0 invoke-virtual {v0}, Ljava/lang/String;->length()I move-result v1 const/16 v2, 0xa if-lt v1, v2, :cond_0 iget-object v2, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v2}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-get4(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)Landroid/widget/TextView; move-result-object v2 const/4 v3, 0x0 invoke-virtual {v2, v3}, Landroid/widget/TextView;->setVisibility(I)V iget-object v2, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v2}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-get3(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)Landroid/widget/EditText; move-result-object v2 iget-object v3, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v3}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-get1(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)Landroid/content/Context; move-result-object v3 invoke-virtual {v3}, Landroid/content/Context;->getResources()Landroid/content/res/Resources; move-result-object v3 const v4, 0x7f0602a6 invoke-virtual {v3, v4}, Landroid/content/res/Resources;->getColorStateList(I)Landroid/content/res/ColorStateList; move-result-object v3 invoke-virtual {v2, v3}, Landroid/widget/EditText;->setBackgroundTintList(Landroid/content/res/ColorStateList;)V :goto_0 return-void :cond_0 iget-object v2, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v2}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-get4(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)Landroid/widget/TextView; move-result-object v2 const/16 v3, 0x8 invoke-virtual {v2, v3}, Landroid/widget/TextView;->setVisibility(I)V iget-object v2, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v2}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-get3(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)Landroid/widget/EditText; move-result-object v2 iget-object v3, p0, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog$1;->this$0:Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog; invoke-static {v3}, Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;->-get1(Lcom/samsung/android/settings/wifi/mobileap/WifiApSetDataLimitDialog;)Landroid/content/Context; move-result-object v3 invoke-virtual {v3}, Landroid/content/Context;->getResources()Landroid/content/res/Resources; move-result-object v3 const v4, 0x7f0600b4 invoke-virtual {v3, v4}, Landroid/content/res/Resources;->getColorStateList(I)Landroid/content/res/ColorStateList; move-result-object v3 invoke-virtual {v2, v3}, Landroid/widget/EditText;->setBackgroundTintList(Landroid/content/res/ColorStateList;)V goto :goto_0 .end method
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using namespace std; using namespace boost; #include "script.h" #include "keystore.h" #include "bignum.h" #include "key.h" #include "main.h" #include "sync.h" #include "util.h" bool CheckSig(vector<unsigned char> vchSig, const vector<unsigned char> &vchPubKey, const CScript &scriptCode, const CTransaction& txTo, unsigned int nIn, int nHashType, int flags); typedef vector<unsigned char> valtype; static const valtype vchFalse(0); static const valtype vchZero(0); static const valtype vchTrue(1, 1); static const CBigNum bnZero(0); static const CBigNum bnOne(1); static const CBigNum bnFalse(0); static const CBigNum bnTrue(1); static const size_t nMaxNumSize = 4; CBigNum CastToBigNum(const valtype& vch) { if (vch.size() > nMaxNumSize) throw runtime_error("CastToBigNum() : overflow"); // Get rid of extra leading zeros return CBigNum(CBigNum(vch).getvch()); } bool CastToBool(const valtype& vch) { for (unsigned int i = 0; i < vch.size(); i++) { if (vch[i] != 0) { // Can be negative zero if (i == vch.size()-1 && vch[i] == 0x80) return false; return true; } } return false; } // // Script is a stack machine (like Forth) that evaluates a predicate // returning a bool indicating valid or not. There are no loops. // #define stacktop(i) (stack.at(stack.size()+(i))) #define altstacktop(i) (altstack.at(altstack.size()+(i))) static inline void popstack(vector<valtype>& stack) { if (stack.empty()) throw runtime_error("popstack() : stack empty"); stack.pop_back(); } const char* GetTxnOutputType(txnouttype t) { switch (t) { case TX_NONSTANDARD: return "nonstandard"; case TX_PUBKEY: return "pubkey"; case TX_PUBKEYHASH: return "pubkeyhash"; case TX_SCRIPTHASH: return "scripthash"; case TX_MULTISIG: return "multisig"; } return NULL; } const char* GetOpName(opcodetype opcode) { switch (opcode) { // push value case OP_0 : return "0"; case OP_PUSHDATA1 : return "OP_PUSHDATA1"; case OP_PUSHDATA2 : return "OP_PUSHDATA2"; case OP_PUSHDATA4 : return "OP_PUSHDATA4"; case OP_1NEGATE : return "-1"; case OP_RESERVED : return "OP_RESERVED"; case OP_1 : return "1"; case OP_2 : return "2"; case OP_3 : return "3"; case OP_4 : return "4"; case OP_5 : return "5"; case OP_6 : return "6"; case OP_7 : return "7"; case OP_8 : return "8"; case OP_9 : return "9"; case OP_10 : return "10"; case OP_11 : return "11"; case OP_12 : return "12"; case OP_13 : return "13"; case OP_14 : return "14"; case OP_15 : return "15"; case OP_16 : return "16"; // control case OP_NOP : return "OP_NOP"; case OP_VER : return "OP_VER"; case OP_IF : return "OP_IF"; case OP_NOTIF : return "OP_NOTIF"; case OP_VERIF : return "OP_VERIF"; case OP_VERNOTIF : return "OP_VERNOTIF"; case OP_ELSE : return "OP_ELSE"; case OP_ENDIF : return "OP_ENDIF"; case OP_VERIFY : return "OP_VERIFY"; case OP_RETURN : return "OP_RETURN"; // stack ops case OP_TOALTSTACK : return "OP_TOALTSTACK"; case OP_FROMALTSTACK : return "OP_FROMALTSTACK"; case OP_2DROP : return "OP_2DROP"; case OP_2DUP : return "OP_2DUP"; case OP_3DUP : return "OP_3DUP"; case OP_2OVER : return "OP_2OVER"; case OP_2ROT : return "OP_2ROT"; case OP_2SWAP : return "OP_2SWAP"; case OP_IFDUP : return "OP_IFDUP"; case OP_DEPTH : return "OP_DEPTH"; case OP_DROP : return "OP_DROP"; case OP_DUP : return "OP_DUP"; case OP_NIP : return "OP_NIP"; case OP_OVER : return "OP_OVER"; case OP_PICK : return "OP_PICK"; case OP_ROLL : return "OP_ROLL"; case OP_ROT : return "OP_ROT"; case OP_SWAP : return "OP_SWAP"; case OP_TUCK : return "OP_TUCK"; // splice ops case OP_CAT : return "OP_CAT"; case OP_SUBSTR : return "OP_SUBSTR"; case OP_LEFT : return "OP_LEFT"; case OP_RIGHT : return "OP_RIGHT"; case OP_SIZE : return "OP_SIZE"; // bit logic case OP_INVERT : return "OP_INVERT"; case OP_AND : return "OP_AND"; case OP_OR : return "OP_OR"; case OP_XOR : return "OP_XOR"; case OP_EQUAL : return "OP_EQUAL"; case OP_EQUALVERIFY : return "OP_EQUALVERIFY"; case OP_RESERVED1 : return "OP_RESERVED1"; case OP_RESERVED2 : return "OP_RESERVED2"; // numeric case OP_1ADD : return "OP_1ADD"; case OP_1SUB : return "OP_1SUB"; case OP_2MUL : return "OP_2MUL"; case OP_2DIV : return "OP_2DIV"; case OP_NEGATE : return "OP_NEGATE"; case OP_ABS : return "OP_ABS"; case OP_NOT : return "OP_NOT"; case OP_0NOTEQUAL : return "OP_0NOTEQUAL"; case OP_ADD : return "OP_ADD"; case OP_SUB : return "OP_SUB"; case OP_MUL : return "OP_MUL"; case OP_DIV : return "OP_DIV"; case OP_MOD : return "OP_MOD"; case OP_LSHIFT : return "OP_LSHIFT"; case OP_RSHIFT : return "OP_RSHIFT"; case OP_BOOLAND : return "OP_BOOLAND"; case OP_BOOLOR : return "OP_BOOLOR"; case OP_NUMEQUAL : return "OP_NUMEQUAL"; case OP_NUMEQUALVERIFY : return "OP_NUMEQUALVERIFY"; case OP_NUMNOTEQUAL : return "OP_NUMNOTEQUAL"; case OP_LESSTHAN : return "OP_LESSTHAN"; case OP_GREATERTHAN : return "OP_GREATERTHAN"; case OP_LESSTHANOREQUAL : return "OP_LESSTHANOREQUAL"; case OP_GREATERTHANOREQUAL : return "OP_GREATERTHANOREQUAL"; case OP_MIN : return "OP_MIN"; case OP_MAX : return "OP_MAX"; case OP_WITHIN : return "OP_WITHIN"; // crypto case OP_RIPEMD160 : return "OP_RIPEMD160"; case OP_SHA1 : return "OP_SHA1"; case OP_SHA256 : return "OP_SHA256"; case OP_HASH160 : return "OP_HASH160"; case OP_HASH256 : return "OP_HASH256"; case OP_CODESEPARATOR : return "OP_CODESEPARATOR"; case OP_CHECKSIG : return "OP_CHECKSIG"; case OP_CHECKSIGVERIFY : return "OP_CHECKSIGVERIFY"; case OP_CHECKMULTISIG : return "OP_CHECKMULTISIG"; case OP_CHECKMULTISIGVERIFY : return "OP_CHECKMULTISIGVERIFY"; // expanson case OP_NOP1 : return "OP_NOP1"; case OP_NOP2 : return "OP_NOP2"; case OP_NOP3 : return "OP_NOP3"; case OP_NOP4 : return "OP_NOP4"; case OP_NOP5 : return "OP_NOP5"; case OP_NOP6 : return "OP_NOP6"; case OP_NOP7 : return "OP_NOP7"; case OP_NOP8 : return "OP_NOP8"; case OP_NOP9 : return "OP_NOP9"; case OP_NOP10 : return "OP_NOP10"; // template matching params case OP_PUBKEYHASH : return "OP_PUBKEYHASH"; case OP_PUBKEY : return "OP_PUBKEY"; case OP_INVALIDOPCODE : return "OP_INVALIDOPCODE"; default: return "OP_UNKNOWN"; } } bool IsCanonicalPubKey(const valtype &vchPubKey) { if (vchPubKey.size() < 33) return error("Non-canonical public key: too short"); if (vchPubKey[0] == 0x04) { if (vchPubKey.size() != 65) return error("Non-canonical public key: invalid length for uncompressed key"); } else if (vchPubKey[0] == 0x02 || vchPubKey[0] == 0x03) { if (vchPubKey.size() != 33) return error("Non-canonical public key: invalid length for compressed key"); } else { return error("Non-canonical public key: compressed nor uncompressed"); } return true; } bool IsCanonicalSignature(const valtype &vchSig) { // See https://bitcointalk.org/index.php?topic=8392.msg127623#msg127623 // A canonical signature exists of: <30> <total len> <02> <len R> <R> <02> <len S> <S> <hashtype> // Where R and S are not negative (their first byte has its highest bit not set), and not // excessively padded (do not start with a 0 byte, unless an otherwise negative number follows, // in which case a single 0 byte is necessary and even required). if (vchSig.size() < 9) return error("Non-canonical signature: too short"); if (vchSig.size() > 73) return error("Non-canonical signature: too long"); unsigned char nHashType = vchSig[vchSig.size() - 1] & (~(SIGHASH_ANYONECANPAY)); if (nHashType < SIGHASH_ALL || nHashType > SIGHASH_SINGLE) return error("Non-canonical signature: unknown hashtype byte"); if (vchSig[0] != 0x30) return error("Non-canonical signature: wrong type"); if (vchSig[1] != vchSig.size()-3) return error("Non-canonical signature: wrong length marker"); unsigned int nLenR = vchSig[3]; if (5 + nLenR >= vchSig.size()) return error("Non-canonical signature: S length misplaced"); unsigned int nLenS = vchSig[5+nLenR]; if ((unsigned long)(nLenR+nLenS+7) != vchSig.size()) return error("Non-canonical signature: R+S length mismatch"); const unsigned char *R = &vchSig[4]; if (R[-2] != 0x02) return error("Non-canonical signature: R value type mismatch"); if (nLenR == 0) return error("Non-canonical signature: R length is zero"); if (R[0] & 0x80) return error("Non-canonical signature: R value negative"); if (nLenR > 1 && (R[0] == 0x00) && !(R[1] & 0x80)) return error("Non-canonical signature: R value excessively padded"); const unsigned char *S = &vchSig[6+nLenR]; if (S[-2] != 0x02) return error("Non-canonical signature: S value type mismatch"); if (nLenS == 0) return error("Non-canonical signature: S length is zero"); if (S[0] & 0x80) return error("Non-canonical signature: S value negative"); if (nLenS > 1 && (S[0] == 0x00) && !(S[1] & 0x80)) return error("Non-canonical signature: S value excessively padded"); return true; } bool EvalScript(vector<vector<unsigned char> >& stack, const CScript& script, const CTransaction& txTo, unsigned int nIn, unsigned int flags, int nHashType) { CAutoBN_CTX pctx; CScript::const_iterator pc = script.begin(); CScript::const_iterator pend = script.end(); CScript::const_iterator pbegincodehash = script.begin(); opcodetype opcode; valtype vchPushValue; vector<bool> vfExec; vector<valtype> altstack; if (script.size() > 10000) return false; int nOpCount = 0; bool fStrictEncodings = flags & SCRIPT_VERIFY_STRICTENC; try { while (pc < pend) { bool fExec = !count(vfExec.begin(), vfExec.end(), false); // // Read instruction // if (!script.GetOp(pc, opcode, vchPushValue)) return false; if (vchPushValue.size() > MAX_SCRIPT_ELEMENT_SIZE) return false; if (opcode > OP_16 && ++nOpCount > 201) return false; if (opcode == OP_CAT || opcode == OP_SUBSTR || opcode == OP_LEFT || opcode == OP_RIGHT || opcode == OP_INVERT || opcode == OP_AND || opcode == OP_OR || opcode == OP_XOR || opcode == OP_2MUL || opcode == OP_2DIV || opcode == OP_MUL || opcode == OP_DIV || opcode == OP_MOD || opcode == OP_LSHIFT || opcode == OP_RSHIFT) return false; // Disabled opcodes. if (fExec && 0 <= opcode && opcode <= OP_PUSHDATA4) stack.push_back(vchPushValue); else if (fExec || (OP_IF <= opcode && opcode <= OP_ENDIF)) switch (opcode) { // // Push value // case OP_1NEGATE: case OP_1: case OP_2: case OP_3: case OP_4: case OP_5: case OP_6: case OP_7: case OP_8: case OP_9: case OP_10: case OP_11: case OP_12: case OP_13: case OP_14: case OP_15: case OP_16: { // ( -- value) CBigNum bn((int)opcode - (int)(OP_1 - 1)); stack.push_back(bn.getvch()); } break; // // Control // case OP_NOP: case OP_NOP1: case OP_NOP2: case OP_NOP3: case OP_NOP4: case OP_NOP5: case OP_NOP6: case OP_NOP7: case OP_NOP8: case OP_NOP9: case OP_NOP10: break; case OP_IF: case OP_NOTIF: { // <expression> if [statements] [else [statements]] endif bool fValue = false; if (fExec) { if (stack.size() < 1) return false; valtype& vch = stacktop(-1); fValue = CastToBool(vch); if (opcode == OP_NOTIF) fValue = !fValue; popstack(stack); } vfExec.push_back(fValue); } break; case OP_ELSE: { if (vfExec.empty()) return false; vfExec.back() = !vfExec.back(); } break; case OP_ENDIF: { if (vfExec.empty()) return false; vfExec.pop_back(); } break; case OP_VERIFY: { // (true -- ) or // (false -- false) and return if (stack.size() < 1) return false; bool fValue = CastToBool(stacktop(-1)); if (fValue) popstack(stack); else return false; } break; case OP_RETURN: { return false; } break; // // Stack ops // case OP_TOALTSTACK: { if (stack.size() < 1) return false; altstack.push_back(stacktop(-1)); popstack(stack); } break; case OP_FROMALTSTACK: { if (altstack.size() < 1) return false; stack.push_back(altstacktop(-1)); popstack(altstack); } break; case OP_2DROP: { // (x1 x2 -- ) if (stack.size() < 2) return false; popstack(stack); popstack(stack); } break; case OP_2DUP: { // (x1 x2 -- x1 x2 x1 x2) if (stack.size() < 2) return false; valtype vch1 = stacktop(-2); valtype vch2 = stacktop(-1); stack.push_back(vch1); stack.push_back(vch2); } break; case OP_3DUP: { // (x1 x2 x3 -- x1 x2 x3 x1 x2 x3) if (stack.size() < 3) return false; valtype vch1 = stacktop(-3); valtype vch2 = stacktop(-2); valtype vch3 = stacktop(-1); stack.push_back(vch1); stack.push_back(vch2); stack.push_back(vch3); } break; case OP_2OVER: { // (x1 x2 x3 x4 -- x1 x2 x3 x4 x1 x2) if (stack.size() < 4) return false; valtype vch1 = stacktop(-4); valtype vch2 = stacktop(-3); stack.push_back(vch1); stack.push_back(vch2); } break; case OP_2ROT: { // (x1 x2 x3 x4 x5 x6 -- x3 x4 x5 x6 x1 x2) if (stack.size() < 6) return false; valtype vch1 = stacktop(-6); valtype vch2 = stacktop(-5); stack.erase(stack.end()-6, stack.end()-4); stack.push_back(vch1); stack.push_back(vch2); } break; case OP_2SWAP: { // (x1 x2 x3 x4 -- x3 x4 x1 x2) if (stack.size() < 4) return false; swap(stacktop(-4), stacktop(-2)); swap(stacktop(-3), stacktop(-1)); } break; case OP_IFDUP: { // (x - 0 | x x) if (stack.size() < 1) return false; valtype vch = stacktop(-1); if (CastToBool(vch)) stack.push_back(vch); } break; case OP_DEPTH: { // -- stacksize CBigNum bn(stack.size()); stack.push_back(bn.getvch()); } break; case OP_DROP: { // (x -- ) if (stack.size() < 1) return false; popstack(stack); } break; case OP_DUP: { // (x -- x x) if (stack.size() < 1) return false; valtype vch = stacktop(-1); stack.push_back(vch); } break; case OP_NIP: { // (x1 x2 -- x2) if (stack.size() < 2) return false; stack.erase(stack.end() - 2); } break; case OP_OVER: { // (x1 x2 -- x1 x2 x1) if (stack.size() < 2) return false; valtype vch = stacktop(-2); stack.push_back(vch); } break; case OP_PICK: case OP_ROLL: { // (xn ... x2 x1 x0 n - xn ... x2 x1 x0 xn) // (xn ... x2 x1 x0 n - ... x2 x1 x0 xn) if (stack.size() < 2) return false; int n = CastToBigNum(stacktop(-1)).getint(); popstack(stack); if (n < 0 || n >= (int)stack.size()) return false; valtype vch = stacktop(-n-1); if (opcode == OP_ROLL) stack.erase(stack.end()-n-1); stack.push_back(vch); } break; case OP_ROT: { // (x1 x2 x3 -- x2 x3 x1) // x2 x1 x3 after first swap // x2 x3 x1 after second swap if (stack.size() < 3) return false; swap(stacktop(-3), stacktop(-2)); swap(stacktop(-2), stacktop(-1)); } break; case OP_SWAP: { // (x1 x2 -- x2 x1) if (stack.size() < 2) return false; swap(stacktop(-2), stacktop(-1)); } break; case OP_TUCK: { // (x1 x2 -- x2 x1 x2) if (stack.size() < 2) return false; valtype vch = stacktop(-1); stack.insert(stack.end()-2, vch); } break; case OP_SIZE: { // (in -- in size) if (stack.size() < 1) return false; CBigNum bn(stacktop(-1).size()); stack.push_back(bn.getvch()); } break; // // Bitwise logic // case OP_EQUAL: case OP_EQUALVERIFY: //case OP_NOTEQUAL: // use OP_NUMNOTEQUAL { // (x1 x2 - bool) if (stack.size() < 2) return false; valtype& vch1 = stacktop(-2); valtype& vch2 = stacktop(-1); bool fEqual = (vch1 == vch2); // OP_NOTEQUAL is disabled because it would be too easy to say // something like n != 1 and have some wiseguy pass in 1 with extra // zero bytes after it (numerically, 0x01 == 0x0001 == 0x000001) //if (opcode == OP_NOTEQUAL) // fEqual = !fEqual; popstack(stack); popstack(stack); stack.push_back(fEqual ? vchTrue : vchFalse); if (opcode == OP_EQUALVERIFY) { if (fEqual) popstack(stack); else return false; } } break; // // Numeric // case OP_1ADD: case OP_1SUB: case OP_NEGATE: case OP_ABS: case OP_NOT: case OP_0NOTEQUAL: { // (in -- out) if (stack.size() < 1) return false; CBigNum bn = CastToBigNum(stacktop(-1)); switch (opcode) { case OP_1ADD: bn += bnOne; break; case OP_1SUB: bn -= bnOne; break; case OP_NEGATE: bn = -bn; break; case OP_ABS: if (bn < bnZero) bn = -bn; break; case OP_NOT: bn = (bn == bnZero); break; case OP_0NOTEQUAL: bn = (bn != bnZero); break; default: assert(!"invalid opcode"); break; } popstack(stack); stack.push_back(bn.getvch()); } break; case OP_ADD: case OP_SUB: case OP_BOOLAND: case OP_BOOLOR: case OP_NUMEQUAL: case OP_NUMEQUALVERIFY: case OP_NUMNOTEQUAL: case OP_LESSTHAN: case OP_GREATERTHAN: case OP_LESSTHANOREQUAL: case OP_GREATERTHANOREQUAL: case OP_MIN: case OP_MAX: { // (x1 x2 -- out) if (stack.size() < 2) return false; CBigNum bn1 = CastToBigNum(stacktop(-2)); CBigNum bn2 = CastToBigNum(stacktop(-1)); CBigNum bn; switch (opcode) { case OP_ADD: bn = bn1 + bn2; break; case OP_SUB: bn = bn1 - bn2; break; case OP_BOOLAND: bn = (bn1 != bnZero && bn2 != bnZero); break; case OP_BOOLOR: bn = (bn1 != bnZero || bn2 != bnZero); break; case OP_NUMEQUAL: bn = (bn1 == bn2); break; case OP_NUMEQUALVERIFY: bn = (bn1 == bn2); break; case OP_NUMNOTEQUAL: bn = (bn1 != bn2); break; case OP_LESSTHAN: bn = (bn1 < bn2); break; case OP_GREATERTHAN: bn = (bn1 > bn2); break; case OP_LESSTHANOREQUAL: bn = (bn1 <= bn2); break; case OP_GREATERTHANOREQUAL: bn = (bn1 >= bn2); break; case OP_MIN: bn = (bn1 < bn2 ? bn1 : bn2); break; case OP_MAX: bn = (bn1 > bn2 ? bn1 : bn2); break; default: assert(!"invalid opcode"); break; } popstack(stack); popstack(stack); stack.push_back(bn.getvch()); if (opcode == OP_NUMEQUALVERIFY) { if (CastToBool(stacktop(-1))) popstack(stack); else return false; } } break; case OP_WITHIN: { // (x min max -- out) if (stack.size() < 3) return false; CBigNum bn1 = CastToBigNum(stacktop(-3)); CBigNum bn2 = CastToBigNum(stacktop(-2)); CBigNum bn3 = CastToBigNum(stacktop(-1)); bool fValue = (bn2 <= bn1 && bn1 < bn3); popstack(stack); popstack(stack); popstack(stack); stack.push_back(fValue ? vchTrue : vchFalse); } break; // // Crypto // case OP_RIPEMD160: case OP_SHA1: case OP_SHA256: case OP_HASH160: case OP_HASH256: { // (in -- hash) if (stack.size() < 1) return false; valtype& vch = stacktop(-1); valtype vchHash((opcode == OP_RIPEMD160 || opcode == OP_SHA1 || opcode == OP_HASH160) ? 20 : 32); if (opcode == OP_RIPEMD160) RIPEMD160(&vch[0], vch.size(), &vchHash[0]); else if (opcode == OP_SHA1) SHA1(&vch[0], vch.size(), &vchHash[0]); else if (opcode == OP_SHA256) SHA256(&vch[0], vch.size(), &vchHash[0]); else if (opcode == OP_HASH160) { uint160 hash160 = Hash160(vch); memcpy(&vchHash[0], &hash160, sizeof(hash160)); } else if (opcode == OP_HASH256) { uint256 hash = Hash(vch.begin(), vch.end()); memcpy(&vchHash[0], &hash, sizeof(hash)); } popstack(stack); stack.push_back(vchHash); } break; case OP_CODESEPARATOR: { // Hash starts after the code separator pbegincodehash = pc; } break; case OP_CHECKSIG: case OP_CHECKSIGVERIFY: { // (sig pubkey -- bool) if (stack.size() < 2) return false; valtype& vchSig = stacktop(-2); valtype& vchPubKey = stacktop(-1); ////// debug print //PrintHex(vchSig.begin(), vchSig.end(), "sig: %s\n"); //PrintHex(vchPubKey.begin(), vchPubKey.end(), "pubkey: %s\n"); // Subset of script starting at the most recent codeseparator CScript scriptCode(pbegincodehash, pend); // Drop the signature, since there's no way for a signature to sign itself scriptCode.FindAndDelete(CScript(vchSig)); bool fSuccess = (!fStrictEncodings || (IsCanonicalSignature(vchSig) && IsCanonicalPubKey(vchPubKey))); if (fSuccess) fSuccess = CheckSig(vchSig, vchPubKey, scriptCode, txTo, nIn, nHashType, flags); popstack(stack); popstack(stack); stack.push_back(fSuccess ? vchTrue : vchFalse); if (opcode == OP_CHECKSIGVERIFY) { if (fSuccess) popstack(stack); else return false; } } break; case OP_CHECKMULTISIG: case OP_CHECKMULTISIGVERIFY: { // ([sig ...] num_of_signatures [pubkey ...] num_of_pubkeys -- bool) int i = 1; if ((int)stack.size() < i) return false; int nKeysCount = CastToBigNum(stacktop(-i)).getint(); if (nKeysCount < 0 || nKeysCount > 20) return false; nOpCount += nKeysCount; if (nOpCount > 201) return false; int ikey = ++i; i += nKeysCount; if ((int)stack.size() < i) return false; int nSigsCount = CastToBigNum(stacktop(-i)).getint(); if (nSigsCount < 0 || nSigsCount > nKeysCount) return false; int isig = ++i; i += nSigsCount; if ((int)stack.size() < i) return false; // Subset of script starting at the most recent codeseparator CScript scriptCode(pbegincodehash, pend); // Drop the signatures, since there's no way for a signature to sign itself for (int k = 0; k < nSigsCount; k++) { valtype& vchSig = stacktop(-isig-k); scriptCode.FindAndDelete(CScript(vchSig)); } bool fSuccess = true; while (fSuccess && nSigsCount > 0) { valtype& vchSig = stacktop(-isig); valtype& vchPubKey = stacktop(-ikey); // Check signature bool fOk = (!fStrictEncodings || (IsCanonicalSignature(vchSig) && IsCanonicalPubKey(vchPubKey))); if (fOk) fOk = CheckSig(vchSig, vchPubKey, scriptCode, txTo, nIn, nHashType, flags); if (fOk) { isig++; nSigsCount--; } ikey++; nKeysCount--; // If there are more signatures left than keys left, // then too many signatures have failed if (nSigsCount > nKeysCount) fSuccess = false; } while (i-- > 0) popstack(stack); stack.push_back(fSuccess ? vchTrue : vchFalse); if (opcode == OP_CHECKMULTISIGVERIFY) { if (fSuccess) popstack(stack); else return false; } } break; default: return false; } // Size limits if (stack.size() + altstack.size() > 1000) return false; } } catch (...) { return false; } if (!vfExec.empty()) return false; return true; } uint256 SignatureHash(CScript scriptCode, const CTransaction& txTo, unsigned int nIn, int nHashType) { if (nIn >= txTo.vin.size()) { printf("ERROR: SignatureHash() : nIn=%d out of range\n", nIn); return 1; } CTransaction txTmp(txTo); // In case concatenating two scripts ends up with two codeseparators, // or an extra one at the end, this prevents all those possible incompatibilities. scriptCode.FindAndDelete(CScript(OP_CODESEPARATOR)); // Blank out other inputs' signatures for (unsigned int i = 0; i < txTmp.vin.size(); i++) txTmp.vin[i].scriptSig = CScript(); txTmp.vin[nIn].scriptSig = scriptCode; // Blank out some of the outputs if ((nHashType & 0x1f) == SIGHASH_NONE) { // Wildcard payee txTmp.vout.clear(); // Let the others update at will for (unsigned int i = 0; i < txTmp.vin.size(); i++) if (i != nIn) txTmp.vin[i].nSequence = 0; } else if ((nHashType & 0x1f) == SIGHASH_SINGLE) { // Only lock-in the txout payee at same index as txin unsigned int nOut = nIn; if (nOut >= txTmp.vout.size()) { printf("ERROR: SignatureHash() : nOut=%d out of range\n", nOut); return 1; } txTmp.vout.resize(nOut+1); for (unsigned int i = 0; i < nOut; i++) txTmp.vout[i].SetNull(); // Let the others update at will for (unsigned int i = 0; i < txTmp.vin.size(); i++) if (i != nIn) txTmp.vin[i].nSequence = 0; } // Blank out other inputs completely, not recommended for open transactions if (nHashType & SIGHASH_ANYONECANPAY) { txTmp.vin[0] = txTmp.vin[nIn]; txTmp.vin.resize(1); } // Serialize and hash CHashWriter ss(SER_GETHASH, 0); ss << txTmp << nHashType; return ss.GetHash(); } // Valid signature cache, to avoid doing expensive ECDSA signature checking // twice for every transaction (once when accepted into memory pool, and // again when accepted into the block chain) class CSignatureCache { private: // sigdata_type is (signature hash, signature, public key): typedef boost::tuple<uint256, std::vector<unsigned char>, CPubKey> sigdata_type; std::set< sigdata_type> setValid; boost::shared_mutex cs_sigcache; public: bool Get(const uint256 &hash, const std::vector<unsigned char>& vchSig, const CPubKey& pubKey) { boost::shared_lock<boost::shared_mutex> lock(cs_sigcache); sigdata_type k(hash, vchSig, pubKey); std::set<sigdata_type>::iterator mi = setValid.find(k); if (mi != setValid.end()) return true; return false; } void Set(const uint256 &hash, const std::vector<unsigned char>& vchSig, const CPubKey& pubKey) { // DoS prevention: limit cache size to less than 10MB // (~200 bytes per cache entry times 50,000 entries) // Since there are a maximum of 20,000 signature operations per block // 50,000 is a reasonable default. int64 nMaxCacheSize = GetArg("-maxsigcachesize", 50000); if (nMaxCacheSize <= 0) return; boost::unique_lock<boost::shared_mutex> lock(cs_sigcache); while (static_cast<int64>(setValid.size()) > nMaxCacheSize) { // Evict a random entry. Random because that helps // foil would-be DoS attackers who might try to pre-generate // and re-use a set of valid signatures just-slightly-greater // than our cache size. uint256 randomHash = GetRandHash(); std::vector<unsigned char> unused; std::set<sigdata_type>::iterator it = setValid.lower_bound(sigdata_type(randomHash, unused, unused)); if (it == setValid.end()) it = setValid.begin(); setValid.erase(*it); } sigdata_type k(hash, vchSig, pubKey); setValid.insert(k); } }; bool CheckSig(vector<unsigned char> vchSig, const vector<unsigned char> &vchPubKey, const CScript &scriptCode, const CTransaction& txTo, unsigned int nIn, int nHashType, int flags) { static CSignatureCache signatureCache; CPubKey pubkey(vchPubKey); if (!pubkey.IsValid()) return false; // Hash type is one byte tacked on to the end of the signature if (vchSig.empty()) return false; if (nHashType == 0) nHashType = vchSig.back(); else if (nHashType != vchSig.back()) return false; vchSig.pop_back(); uint256 sighash = SignatureHash(scriptCode, txTo, nIn, nHashType); if (signatureCache.Get(sighash, vchSig, pubkey)) return true; if (!pubkey.Verify(sighash, vchSig)) return false; if (!(flags & SCRIPT_VERIFY_NOCACHE)) signatureCache.Set(sighash, vchSig, pubkey); return true; } // // Return public keys or hashes from scriptPubKey, for 'standard' transaction types. // bool Solver(const CScript& scriptPubKey, txnouttype& typeRet, vector<vector<unsigned char> >& vSolutionsRet) { // Templates static map<txnouttype, CScript> mTemplates; if (mTemplates.empty()) { // Standard tx, sender provides pubkey, receiver adds signature mTemplates.insert(make_pair(TX_PUBKEY, CScript() << OP_PUBKEY << OP_CHECKSIG)); // Bitcoin address tx, sender provides hash of pubkey, receiver provides signature and pubkey mTemplates.insert(make_pair(TX_PUBKEYHASH, CScript() << OP_DUP << OP_HASH160 << OP_PUBKEYHASH << OP_EQUALVERIFY << OP_CHECKSIG)); // Sender provides N pubkeys, receivers provides M signatures mTemplates.insert(make_pair(TX_MULTISIG, CScript() << OP_SMALLINTEGER << OP_PUBKEYS << OP_SMALLINTEGER << OP_CHECKMULTISIG)); } // Shortcut for pay-to-script-hash, which are more constrained than the other types: // it is always OP_HASH160 20 [20 byte hash] OP_EQUAL if (scriptPubKey.IsPayToScriptHash()) { typeRet = TX_SCRIPTHASH; vector<unsigned char> hashBytes(scriptPubKey.begin()+2, scriptPubKey.begin()+22); vSolutionsRet.push_back(hashBytes); return true; } // Scan templates const CScript& script1 = scriptPubKey; BOOST_FOREACH(const PAIRTYPE(txnouttype, CScript)& tplate, mTemplates) { const CScript& script2 = tplate.second; vSolutionsRet.clear(); opcodetype opcode1, opcode2; vector<unsigned char> vch1, vch2; // Compare CScript::const_iterator pc1 = script1.begin(); CScript::const_iterator pc2 = script2.begin(); loop { if (pc1 == script1.end() && pc2 == script2.end()) { // Found a match typeRet = tplate.first; if (typeRet == TX_MULTISIG) { // Additional checks for TX_MULTISIG: unsigned char m = vSolutionsRet.front()[0]; unsigned char n = vSolutionsRet.back()[0]; if (m < 1 || n < 1 || m > n || vSolutionsRet.size()-2 != n) return false; } return true; } if (!script1.GetOp(pc1, opcode1, vch1)) break; if (!script2.GetOp(pc2, opcode2, vch2)) break; // Template matching opcodes: if (opcode2 == OP_PUBKEYS) { while (vch1.size() >= 33 && vch1.size() <= 120) { vSolutionsRet.push_back(vch1); if (!script1.GetOp(pc1, opcode1, vch1)) break; } if (!script2.GetOp(pc2, opcode2, vch2)) break; // Normal situation is to fall through // to other if/else statements } if (opcode2 == OP_PUBKEY) { if (vch1.size() < 33 || vch1.size() > 120) break; vSolutionsRet.push_back(vch1); } else if (opcode2 == OP_PUBKEYHASH) { if (vch1.size() != sizeof(uint160)) break; vSolutionsRet.push_back(vch1); } else if (opcode2 == OP_SMALLINTEGER) { // Single-byte small integer pushed onto vSolutions if (opcode1 == OP_0 || (opcode1 >= OP_1 && opcode1 <= OP_16)) { char n = (char)CScript::DecodeOP_N(opcode1); vSolutionsRet.push_back(valtype(1, n)); } else break; } else if (opcode1 != opcode2 || vch1 != vch2) { // Others must match exactly break; } } } vSolutionsRet.clear(); typeRet = TX_NONSTANDARD; return false; } bool Sign1(const CKeyID& address, const CKeyStore& keystore, uint256 hash, int nHashType, CScript& scriptSigRet) { CKey key; if (!keystore.GetKey(address, key)) return false; vector<unsigned char> vchSig; if (!key.Sign(hash, vchSig)) return false; vchSig.push_back((unsigned char)nHashType); scriptSigRet << vchSig; return true; } bool SignN(const vector<valtype>& multisigdata, const CKeyStore& keystore, uint256 hash, int nHashType, CScript& scriptSigRet) { int nSigned = 0; int nRequired = multisigdata.front()[0]; for (unsigned int i = 1; i < multisigdata.size()-1 && nSigned < nRequired; i++) { const valtype& pubkey = multisigdata[i]; CKeyID keyID = CPubKey(pubkey).GetID(); if (Sign1(keyID, keystore, hash, nHashType, scriptSigRet)) ++nSigned; } return nSigned==nRequired; } // // Sign scriptPubKey with private keys stored in keystore, given transaction hash and hash type. // Signatures are returned in scriptSigRet (or returns false if scriptPubKey can't be signed), // unless whichTypeRet is TX_SCRIPTHASH, in which case scriptSigRet is the redemption script. // Returns false if scriptPubKey could not be completely satisfied. // bool Solver(const CKeyStore& keystore, const CScript& scriptPubKey, uint256 hash, int nHashType, CScript& scriptSigRet, txnouttype& whichTypeRet) { scriptSigRet.clear(); vector<valtype> vSolutions; if (!Solver(scriptPubKey, whichTypeRet, vSolutions)) return false; CKeyID keyID; switch (whichTypeRet) { case TX_NONSTANDARD: return false; case TX_PUBKEY: keyID = CPubKey(vSolutions[0]).GetID(); return Sign1(keyID, keystore, hash, nHashType, scriptSigRet); case TX_PUBKEYHASH: keyID = CKeyID(uint160(vSolutions[0])); if (!Sign1(keyID, keystore, hash, nHashType, scriptSigRet)) return false; else { CPubKey vch; keystore.GetPubKey(keyID, vch); scriptSigRet << vch; } return true; case TX_SCRIPTHASH: return keystore.GetCScript(uint160(vSolutions[0]), scriptSigRet); case TX_MULTISIG: scriptSigRet << OP_0; // workaround CHECKMULTISIG bug return (SignN(vSolutions, keystore, hash, nHashType, scriptSigRet)); } return false; } int ScriptSigArgsExpected(txnouttype t, const std::vector<std::vector<unsigned char> >& vSolutions) { switch (t) { case TX_NONSTANDARD: return -1; case TX_PUBKEY: return 1; case TX_PUBKEYHASH: return 2; case TX_MULTISIG: if (vSolutions.size() < 1 || vSolutions[0].size() < 1) return -1; return vSolutions[0][0] + 1; case TX_SCRIPTHASH: return 1; // doesn't include args needed by the script } return -1; } bool IsStandard(const CScript& scriptPubKey) { vector<valtype> vSolutions; txnouttype whichType; if (!Solver(scriptPubKey, whichType, vSolutions)) return false; if (whichType == TX_MULTISIG) { unsigned char m = vSolutions.front()[0]; unsigned char n = vSolutions.back()[0]; // Support up to x-of-3 multisig txns as standard if (n < 1 || n > 3) return false; if (m < 1 || m > n) return false; } return whichType != TX_NONSTANDARD; } unsigned int HaveKeys(const vector<valtype>& pubkeys, const CKeyStore& keystore) { unsigned int nResult = 0; BOOST_FOREACH(const valtype& pubkey, pubkeys) { CKeyID keyID = CPubKey(pubkey).GetID(); if (keystore.HaveKey(keyID)) ++nResult; } return nResult; } class CKeyStoreIsMineVisitor : public boost::static_visitor<bool> { private: const CKeyStore *keystore; public: CKeyStoreIsMineVisitor(const CKeyStore *keystoreIn) : keystore(keystoreIn) { } bool operator()(const CNoDestination &dest) const { return false; } bool operator()(const CKeyID &keyID) const { return keystore->HaveKey(keyID); } bool operator()(const CScriptID &scriptID) const { return keystore->HaveCScript(scriptID); } }; bool IsMine(const CKeyStore &keystore, const CTxDestination &dest) { return boost::apply_visitor(CKeyStoreIsMineVisitor(&keystore), dest); } bool IsMine(const CKeyStore &keystore, const CScript& scriptPubKey) { vector<valtype> vSolutions; txnouttype whichType; if (!Solver(scriptPubKey, whichType, vSolutions)) return false; CKeyID keyID; switch (whichType) { case TX_NONSTANDARD: return false; case TX_PUBKEY: keyID = CPubKey(vSolutions[0]).GetID(); return keystore.HaveKey(keyID); case TX_PUBKEYHASH: keyID = CKeyID(uint160(vSolutions[0])); return keystore.HaveKey(keyID); case TX_SCRIPTHASH: { CScript subscript; if (!keystore.GetCScript(CScriptID(uint160(vSolutions[0])), subscript)) return false; return IsMine(keystore, subscript); } case TX_MULTISIG: { // Only consider transactions "mine" if we own ALL the // keys involved. multi-signature transactions that are // partially owned (somebody else has a key that can spend // them) enable spend-out-from-under-you attacks, especially // in shared-wallet situations. vector<valtype> keys(vSolutions.begin()+1, vSolutions.begin()+vSolutions.size()-1); return HaveKeys(keys, keystore) == keys.size(); } } return false; } bool ExtractDestination(const CScript& scriptPubKey, CTxDestination& addressRet) { vector<valtype> vSolutions; txnouttype whichType; if (!Solver(scriptPubKey, whichType, vSolutions)) return false; if (whichType == TX_PUBKEY) { addressRet = CPubKey(vSolutions[0]).GetID(); return true; } else if (whichType == TX_PUBKEYHASH) { addressRet = CKeyID(uint160(vSolutions[0])); return true; } else if (whichType == TX_SCRIPTHASH) { addressRet = CScriptID(uint160(vSolutions[0])); return true; } // Multisig txns have more than one address... return false; } bool ExtractDestinations(const CScript& scriptPubKey, txnouttype& typeRet, vector<CTxDestination>& addressRet, int& nRequiredRet) { addressRet.clear(); typeRet = TX_NONSTANDARD; vector<valtype> vSolutions; if (!Solver(scriptPubKey, typeRet, vSolutions)) return false; if (typeRet == TX_MULTISIG) { nRequiredRet = vSolutions.front()[0]; for (unsigned int i = 1; i < vSolutions.size()-1; i++) { CTxDestination address = CPubKey(vSolutions[i]).GetID(); addressRet.push_back(address); } } else { nRequiredRet = 1; CTxDestination address; if (!ExtractDestination(scriptPubKey, address)) return false; addressRet.push_back(address); } return true; } bool VerifyScript(const CScript& scriptSig, const CScript& scriptPubKey, const CTransaction& txTo, unsigned int nIn, unsigned int flags, int nHashType) { vector<vector<unsigned char> > stack, stackCopy; if (!EvalScript(stack, scriptSig, txTo, nIn, flags, nHashType)) return false; if (flags & SCRIPT_VERIFY_P2SH) stackCopy = stack; if (!EvalScript(stack, scriptPubKey, txTo, nIn, flags, nHashType)) return false; if (stack.empty()) return false; if (CastToBool(stack.back()) == false) return false; // Additional validation for spend-to-script-hash transactions: if ((flags & SCRIPT_VERIFY_P2SH) && scriptPubKey.IsPayToScriptHash()) { if (!scriptSig.IsPushOnly()) // scriptSig must be literals-only return false; // or validation fails // stackCopy cannot be empty here, because if it was the // P2SH HASH <> EQUAL scriptPubKey would be evaluated with // an empty stack and the EvalScript above would return false. assert(!stackCopy.empty()); const valtype& pubKeySerialized = stackCopy.back(); CScript pubKey2(pubKeySerialized.begin(), pubKeySerialized.end()); popstack(stackCopy); if (!EvalScript(stackCopy, pubKey2, txTo, nIn, flags, nHashType)) return false; if (stackCopy.empty()) return false; return CastToBool(stackCopy.back()); } return true; } bool SignSignature(const CKeyStore &keystore, const CScript& fromPubKey, CTransaction& txTo, unsigned int nIn, int nHashType) { assert(nIn < txTo.vin.size()); CTxIn& txin = txTo.vin[nIn]; // Leave out the signature from the hash, since a signature can't sign itself. // The checksig op will also drop the signatures from its hash. uint256 hash = SignatureHash(fromPubKey, txTo, nIn, nHashType); txnouttype whichType; if (!Solver(keystore, fromPubKey, hash, nHashType, txin.scriptSig, whichType)) return false; if (whichType == TX_SCRIPTHASH) { // Solver returns the subscript that need to be evaluated; // the final scriptSig is the signatures from that // and then the serialized subscript: CScript subscript = txin.scriptSig; // Recompute txn hash using subscript in place of scriptPubKey: uint256 hash2 = SignatureHash(subscript, txTo, nIn, nHashType); txnouttype subType; bool fSolved = Solver(keystore, subscript, hash2, nHashType, txin.scriptSig, subType) && subType != TX_SCRIPTHASH; // Append serialized subscript whether or not it is completely signed: txin.scriptSig << static_cast<valtype>(subscript); if (!fSolved) return false; } // Test solution return VerifyScript(txin.scriptSig, fromPubKey, txTo, nIn, SCRIPT_VERIFY_P2SH | SCRIPT_VERIFY_STRICTENC, 0); } bool SignSignature(const CKeyStore &keystore, const CTransaction& txFrom, CTransaction& txTo, unsigned int nIn, int nHashType) { assert(nIn < txTo.vin.size()); CTxIn& txin = txTo.vin[nIn]; assert(txin.prevout.n < txFrom.vout.size()); const CTxOut& txout = txFrom.vout[txin.prevout.n]; return SignSignature(keystore, txout.scriptPubKey, txTo, nIn, nHashType); } static CScript PushAll(const vector<valtype>& values) { CScript result; BOOST_FOREACH(const valtype& v, values) result << v; return result; } static CScript CombineMultisig(CScript scriptPubKey, const CTransaction& txTo, unsigned int nIn, const vector<valtype>& vSolutions, vector<valtype>& sigs1, vector<valtype>& sigs2) { // Combine all the signatures we've got: set<valtype> allsigs; BOOST_FOREACH(const valtype& v, sigs1) { if (!v.empty()) allsigs.insert(v); } BOOST_FOREACH(const valtype& v, sigs2) { if (!v.empty()) allsigs.insert(v); } // Build a map of pubkey -> signature by matching sigs to pubkeys: assert(vSolutions.size() > 1); unsigned int nSigsRequired = vSolutions.front()[0]; unsigned int nPubKeys = vSolutions.size()-2; map<valtype, valtype> sigs; BOOST_FOREACH(const valtype& sig, allsigs) { for (unsigned int i = 0; i < nPubKeys; i++) { const valtype& pubkey = vSolutions[i+1]; if (sigs.count(pubkey)) continue; // Already got a sig for this pubkey if (CheckSig(sig, pubkey, scriptPubKey, txTo, nIn, 0, 0)) { sigs[pubkey] = sig; break; } } } // Now build a merged CScript: unsigned int nSigsHave = 0; CScript result; result << OP_0; // pop-one-too-many workaround for (unsigned int i = 0; i < nPubKeys && nSigsHave < nSigsRequired; i++) { if (sigs.count(vSolutions[i+1])) { result << sigs[vSolutions[i+1]]; ++nSigsHave; } } // Fill any missing with OP_0: for (unsigned int i = nSigsHave; i < nSigsRequired; i++) result << OP_0; return result; } static CScript CombineSignatures(CScript scriptPubKey, const CTransaction& txTo, unsigned int nIn, const txnouttype txType, const vector<valtype>& vSolutions, vector<valtype>& sigs1, vector<valtype>& sigs2) { switch (txType) { case TX_NONSTANDARD: // Don't know anything about this, assume bigger one is correct: if (sigs1.size() >= sigs2.size()) return PushAll(sigs1); return PushAll(sigs2); case TX_PUBKEY: case TX_PUBKEYHASH: // Signatures are bigger than placeholders or empty scripts: if (sigs1.empty() || sigs1[0].empty()) return PushAll(sigs2); return PushAll(sigs1); case TX_SCRIPTHASH: if (sigs1.empty() || sigs1.back().empty()) return PushAll(sigs2); else if (sigs2.empty() || sigs2.back().empty()) return PushAll(sigs1); else { // Recur to combine: valtype spk = sigs1.back(); CScript pubKey2(spk.begin(), spk.end()); txnouttype txType2; vector<vector<unsigned char> > vSolutions2; Solver(pubKey2, txType2, vSolutions2); sigs1.pop_back(); sigs2.pop_back(); CScript result = CombineSignatures(pubKey2, txTo, nIn, txType2, vSolutions2, sigs1, sigs2); result << spk; return result; } case TX_MULTISIG: return CombineMultisig(scriptPubKey, txTo, nIn, vSolutions, sigs1, sigs2); } return CScript(); } CScript CombineSignatures(CScript scriptPubKey, const CTransaction& txTo, unsigned int nIn, const CScript& scriptSig1, const CScript& scriptSig2) { txnouttype txType; vector<vector<unsigned char> > vSolutions; Solver(scriptPubKey, txType, vSolutions); vector<valtype> stack1; EvalScript(stack1, scriptSig1, CTransaction(), 0, SCRIPT_VERIFY_STRICTENC, 0); vector<valtype> stack2; EvalScript(stack2, scriptSig2, CTransaction(), 0, SCRIPT_VERIFY_STRICTENC, 0); return CombineSignatures(scriptPubKey, txTo, nIn, txType, vSolutions, stack1, stack2); } unsigned int CScript::GetSigOpCount(bool fAccurate) const { unsigned int n = 0; const_iterator pc = begin(); opcodetype lastOpcode = OP_INVALIDOPCODE; while (pc < end()) { opcodetype opcode; if (!GetOp(pc, opcode)) break; if (opcode == OP_CHECKSIG || opcode == OP_CHECKSIGVERIFY) n++; else if (opcode == OP_CHECKMULTISIG || opcode == OP_CHECKMULTISIGVERIFY) { if (fAccurate && lastOpcode >= OP_1 && lastOpcode <= OP_16) n += DecodeOP_N(lastOpcode); else n += 20; } lastOpcode = opcode; } return n; } unsigned int CScript::GetSigOpCount(const CScript& scriptSig) const { if (!IsPayToScriptHash()) return GetSigOpCount(true); // This is a pay-to-script-hash scriptPubKey; // get the last item that the scriptSig // pushes onto the stack: const_iterator pc = scriptSig.begin(); vector<unsigned char> data; while (pc < scriptSig.end()) { opcodetype opcode; if (!scriptSig.GetOp(pc, opcode, data)) return 0; if (opcode > OP_16) return 0; } /// ... and return its opcount: CScript subscript(data.begin(), data.end()); return subscript.GetSigOpCount(true); } bool CScript::IsPayToScriptHash() const { // Extra-fast test for pay-to-script-hash CScripts: return (this->size() == 23 && this->at(0) == OP_HASH160 && this->at(1) == 0x14 && this->at(22) == OP_EQUAL); } class CScriptVisitor : public boost::static_visitor<bool> { private: CScript *script; public: CScriptVisitor(CScript *scriptin) { script = scriptin; } bool operator()(const CNoDestination &dest) const { script->clear(); return false; } bool operator()(const CKeyID &keyID) const { script->clear(); *script << OP_DUP << OP_HASH160 << keyID << OP_EQUALVERIFY << OP_CHECKSIG; return true; } bool operator()(const CScriptID &scriptID) const { script->clear(); *script << OP_HASH160 << scriptID << OP_EQUAL; return true; } }; void CScript::SetDestination(const CTxDestination& dest) { boost::apply_visitor(CScriptVisitor(this), dest); } void CScript::SetMultisig(int nRequired, const std::vector<CPubKey>& keys) { this->clear(); *this << EncodeOP_N(nRequired); BOOST_FOREACH(const CPubKey& key, keys) *this << key; *this << EncodeOP_N(keys.size()) << OP_CHECKMULTISIG; } bool CScriptCompressor::IsToKeyID(CKeyID &hash) const { if (script.size() == 25 && script[0] == OP_DUP && script[1] == OP_HASH160 && script[2] == 20 && script[23] == OP_EQUALVERIFY && script[24] == OP_CHECKSIG) { memcpy(&hash, &script[3], 20); return true; } return false; } bool CScriptCompressor::IsToScriptID(CScriptID &hash) const { if (script.size() == 23 && script[0] == OP_HASH160 && script[1] == 20 && script[22] == OP_EQUAL) { memcpy(&hash, &script[2], 20); return true; } return false; } bool CScriptCompressor::IsToPubKey(CPubKey &pubkey) const { if (script.size() == 35 && script[0] == 33 && script[34] == OP_CHECKSIG && (script[1] == 0x02 || script[1] == 0x03)) { pubkey.Set(&script[1], &script[34]); return true; } if (script.size() == 67 && script[0] == 65 && script[66] == OP_CHECKSIG && script[1] == 0x04) { pubkey.Set(&script[1], &script[66]); return pubkey.IsFullyValid(); // if not fully valid, a case that would not be compressible } return false; } bool CScriptCompressor::Compress(std::vector<unsigned char> &out) const { CKeyID keyID; if (IsToKeyID(keyID)) { out.resize(21); out[0] = 0x00; memcpy(&out[1], &keyID, 20); return true; } CScriptID scriptID; if (IsToScriptID(scriptID)) { out.resize(21); out[0] = 0x01; memcpy(&out[1], &scriptID, 20); return true; } CPubKey pubkey; if (IsToPubKey(pubkey)) { out.resize(33); memcpy(&out[1], &pubkey[1], 32); if (pubkey[0] == 0x02 || pubkey[0] == 0x03) { out[0] = pubkey[0]; return true; } else if (pubkey[0] == 0x04) { out[0] = 0x04 | (pubkey[64] & 0x01); return true; } } return false; } unsigned int CScriptCompressor::GetSpecialSize(unsigned int nSize) const { if (nSize == 0 || nSize == 1) return 20; if (nSize == 2 || nSize == 3 || nSize == 4 || nSize == 5) return 32; return 0; } bool CScriptCompressor::Decompress(unsigned int nSize, const std::vector<unsigned char> &in) { switch(nSize) { case 0x00: script.resize(25); script[0] = OP_DUP; script[1] = OP_HASH160; script[2] = 20; memcpy(&script[3], &in[0], 20); script[23] = OP_EQUALVERIFY; script[24] = OP_CHECKSIG; return true; case 0x01: script.resize(23); script[0] = OP_HASH160; script[1] = 20; memcpy(&script[2], &in[0], 20); script[22] = OP_EQUAL; return true; case 0x02: case 0x03: script.resize(35); script[0] = 33; script[1] = nSize; memcpy(&script[2], &in[0], 32); script[34] = OP_CHECKSIG; return true; case 0x04: case 0x05: unsigned char vch[33] = {}; vch[0] = nSize - 2; memcpy(&vch[1], &in[0], 32); CPubKey pubkey(&vch[0], &vch[33]); if (!pubkey.Decompress()) return false; assert(pubkey.size() == 65); script.resize(67); script[0] = 65; memcpy(&script[1], pubkey.begin(), 65); script[66] = OP_CHECKSIG; return true; } return false; }
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@interface Gist : NSObject { NSDate *created; NSString *description, *owner, *repository,*ftype; NSDictionary *files; BOOL public; NSDictionary *fileCache; NSDictionary *ftypeCache; NSMutableDictionary *textCache; } @property (nonatomic, retain) NSDate *created; @property (nonatomic, copy) NSString *description, *owner, *repository,*ftype; @property (nonatomic, retain) NSDictionary *files; @property BOOL public; //- (id)initWithDictionary:(NSDictionary *)aDictionary; - (id)initWithRepository:(NSString *)aRepository; - (NSArray *)fullURLs; - (NSString *)textForURL:(NSURL *)url; - (NSString *)cachedTextForFile:(NSString *)file; - (NSArray *)ftypeList; - (NSString *)firstFileName; - (NSString *)objectFromFirstFile:(NSString*)key; - (NSURL *)repositoryURL; - (void)openRepositoryURL; @end
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title: Eulerian Cycles localeTitle: دورات اويلريان --- ## المشكلة 289: دورات Eulerian هذا هو كعب. [ساعد مجتمعنا على توسيعه](https://github.com/freecodecamp/guides/tree/master/src/pages/certifications/coding-interview-prep/project-euler/problem-289-eulerian-cycles/index.md) . [سيساعدك دليل النمط السريع هذا على ضمان قبول طلب السحب](https://github.com/freecodecamp/guides/blob/master/README.md) .
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sap.ui.define([ "com/leerbennett/odata/controller/BaseController" ], function(Controller) { "use strict"; return Controller.extend("com.leerbennett.odata.controller.App", { }); });
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import java.io.File; import java.io.IOException; import java.security.InvalidParameterException; import java.util.*; public class Directory { private File path; /** * @var array */ private ArrayList<Directory> directories; /** * @var array */ private ArrayList<File> files; public Directory(File path){ if(path.exists() && path.isDirectory()) { this.path = path; this.directories = new ArrayList<Directory>(); this.files = new ArrayList<File>(); } else throw new InvalidParameterException(); } public void scan() throws IOException { String[] paths; paths = this.path.list(); for(String path:paths){ File tmp = new File(this.path, path); if(tmp.isDirectory()){ Directory dir = new Directory(tmp); this.directories.add(dir); } else this.files.add(tmp); } } public File getPath() { return path; } public void setPath(File path) { this.path = path; } public ArrayList<Directory> getDirectories() { return directories; } public void setDirectories(ArrayList<Directory> directories) { this.directories = directories; } public ArrayList<File> getFiles() { return files; } public void setFiles(ArrayList<File> files) { this.files = files; } }
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#ifndef _INC_COMMCTRL #define _INC_COMMCTRL #ifndef _WINRESRC_ #ifndef _WIN32_IE #define _WIN32_IE 0x0501 #else #if (_WIN32_IE < 0x0400) && defined(_WIN32_WINNT) && (_WIN32_WINNT >= 0x0500) #error _WIN32_IE setting conflicts with _WIN32_WINNT setting #endif #endif #endif #ifndef _HRESULT_DEFINED #define _HRESULT_DEFINED typedef LONG HRESULT; #endif // _HRESULT_DEFINED #ifndef NOUSER // // Define API decoration for direct importing of DLL references. // #ifndef WINCOMMCTRLAPI #if !defined(_COMCTL32_) && defined(_WIN32) #define WINCOMMCTRLAPI DECLSPEC_IMPORT #else #define WINCOMMCTRLAPI #endif #endif // WINCOMMCTRLAPI // // For compilers that don't support nameless unions // #ifndef DUMMYUNIONNAME #ifdef NONAMELESSUNION #define DUMMYUNIONNAME u #define DUMMYUNIONNAME2 u2 #define DUMMYUNIONNAME3 u3 #define DUMMYUNIONNAME4 u4 #define DUMMYUNIONNAME5 u5 #else #define DUMMYUNIONNAME #define DUMMYUNIONNAME2 #define DUMMYUNIONNAME3 #define DUMMYUNIONNAME4 #define DUMMYUNIONNAME5 #endif #endif // DUMMYUNIONNAME #ifdef __cplusplus extern "C" { #endif // // Users of this header may define any number of these constants to avoid // the definitions of each functional group. // // NOTOOLBAR Customizable bitmap-button toolbar control. // NOUPDOWN Up and Down arrow increment/decrement control. // NOSTATUSBAR Status bar control. // NOMENUHELP APIs to help manage menus, especially with a status bar. // NOTRACKBAR Customizable column-width tracking control. // NODRAGLIST APIs to make a listbox source and sink drag&drop actions. // NOPROGRESS Progress gas gauge. // NOHOTKEY HotKey control // NOHEADER Header bar control. // NOIMAGEAPIS ImageList apis. // NOLISTVIEW ListView control. // NOTREEVIEW TreeView control. // NOTABCONTROL Tab control. // NOANIMATE Animate control. // NOBUTTON Button control. // NOSTATIC Static control. // NOEDIT Edit control. // NOLISTBOX Listbox control. // NOCOMBOBOX Combobox control. // NOSCROLLBAR Scrollbar control. // //============================================================================= #include <prsht.h> #ifndef SNDMSG #ifdef __cplusplus #ifndef _MAC #define SNDMSG ::SendMessage #else #define SNDMSG ::AfxSendMessage #endif #else #ifndef _MAC #define SNDMSG SendMessage #else #define SNDMSG AfxSendMessage #endif //_MAC #endif #endif // ifndef SNDMSG #ifdef _MAC #ifndef RC_INVOKED #ifndef _WLM_NOFORCE_LIBS #ifndef _WLMDLL #ifdef _DEBUG #pragma comment(lib, "comctld.lib") #else #pragma comment(lib, "comctl.lib") #endif #pragma comment(linker, "/macres:comctl.rsc") #else #ifdef _DEBUG #pragma comment(lib, "msvcctld.lib") #else #pragma comment(lib, "msvcctl.lib") #endif #endif // _WLMDLL #endif // _WLM_NOFORCE_LIBS #endif // RC_INVOKED #endif //_MAC WINCOMMCTRLAPI void WINAPI InitCommonControls(void); #if (_WIN32_IE >= 0x0300) typedef struct tagINITCOMMONCONTROLSEX { DWORD dwSize; // size of this structure DWORD dwICC; // flags indicating which classes to be initialized } INITCOMMONCONTROLSEX, *LPINITCOMMONCONTROLSEX; #define ICC_LISTVIEW_CLASSES 0x00000001 // listview, header #define ICC_TREEVIEW_CLASSES 0x00000002 // treeview, tooltips #define ICC_BAR_CLASSES 0x00000004 // toolbar, statusbar, trackbar, tooltips #define ICC_TAB_CLASSES 0x00000008 // tab, tooltips #define ICC_UPDOWN_CLASS 0x00000010 // updown #define ICC_PROGRESS_CLASS 0x00000020 // progress #define ICC_HOTKEY_CLASS 0x00000040 // hotkey #define ICC_ANIMATE_CLASS 0x00000080 // animate #define ICC_WIN95_CLASSES 0x000000FF #define ICC_DATE_CLASSES 0x00000100 // month picker, date picker, time picker, updown #define ICC_USEREX_CLASSES 0x00000200 // comboex #define ICC_COOL_CLASSES 0x00000400 // rebar (coolbar) control #if (_WIN32_IE >= 0x0400) #define ICC_INTERNET_CLASSES 0x00000800 #define ICC_PAGESCROLLER_CLASS 0x00001000 // page scroller #define ICC_NATIVEFNTCTL_CLASS 0x00002000 // native font control #endif #if (_WIN32_WINNT >= 0x501) #define ICC_STANDARD_CLASSES 0x00004000 #define ICC_LINK_CLASS 0x00008000 #endif WINCOMMCTRLAPI BOOL WINAPI InitCommonControlsEx(LPINITCOMMONCONTROLSEX); #endif // _WIN32_IE >= 0x0300 #define ODT_HEADER 100 #define ODT_TAB 101 #define ODT_LISTVIEW 102 //====== Ranges for control message IDs ======================================= #define LVM_FIRST 0x1000 // ListView messages #define TV_FIRST 0x1100 // TreeView messages #define HDM_FIRST 0x1200 // Header messages #define TCM_FIRST 0x1300 // Tab control messages #if (_WIN32_IE >= 0x0400) #define PGM_FIRST 0x1400 // Pager control messages #if (_WIN32_WINNT >= 0x501) #define ECM_FIRST 0x1500 // Edit control messages #define BCM_FIRST 0x1600 // Button control messages #define CBM_FIRST 0x1700 // Combobox control messages #endif #define CCM_FIRST 0x2000 // Common control shared messages #define CCM_LAST (CCM_FIRST + 0x200) #define CCM_SETBKCOLOR (CCM_FIRST + 1) // lParam is bkColor typedef struct tagCOLORSCHEME { DWORD dwSize; COLORREF clrBtnHighlight; // highlight color COLORREF clrBtnShadow; // shadow color } COLORSCHEME, *LPCOLORSCHEME; #define CCM_SETCOLORSCHEME (CCM_FIRST + 2) // lParam is color scheme #define CCM_GETCOLORSCHEME (CCM_FIRST + 3) // fills in COLORSCHEME pointed to by lParam #define CCM_GETDROPTARGET (CCM_FIRST + 4) #define CCM_SETUNICODEFORMAT (CCM_FIRST + 5) #define CCM_GETUNICODEFORMAT (CCM_FIRST + 6) #if (_WIN32_IE >= 0x0500) #if (_WIN32_WINNT >= 0x501) #define COMCTL32_VERSION 6 #else #define COMCTL32_VERSION 5 #endif #define CCM_SETVERSION (CCM_FIRST + 0x7) #define CCM_GETVERSION (CCM_FIRST + 0x8) #define CCM_SETNOTIFYWINDOW (CCM_FIRST + 0x9) // wParam == hwndParent. #if (_WIN32_WINNT >= 0x501) #define CCM_SETWINDOWTHEME (CCM_FIRST + 0xb) #define CCM_DPISCALE (CCM_FIRST + 0xc) // wParam == Awareness #endif #endif // (_WIN32_IE >= 0x0500) #endif // (_WIN32_IE >= 0x0400) #if (_WIN32_IE >= 0x0400) // for tooltips #define INFOTIPSIZE 1024 #endif //====== WM_NOTIFY Macros ===================================================== #define HANDLE_WM_NOTIFY(hwnd, wParam, lParam, fn) \ (fn)((hwnd), (int)(wParam), (NMHDR *)(lParam)) #define FORWARD_WM_NOTIFY(hwnd, idFrom, pnmhdr, fn) \ (LRESULT)(fn)((hwnd), WM_NOTIFY, (WPARAM)(int)(idFrom), (LPARAM)(NMHDR *)(pnmhdr)) //====== Generic WM_NOTIFY notification codes ================================= #define NM_OUTOFMEMORY (NM_FIRST-1) #define NM_CLICK (NM_FIRST-2) // uses NMCLICK struct #define NM_DBLCLK (NM_FIRST-3) #define NM_RETURN (NM_FIRST-4) #define NM_RCLICK (NM_FIRST-5) // uses NMCLICK struct #define NM_RDBLCLK (NM_FIRST-6) #define NM_SETFOCUS (NM_FIRST-7) #define NM_KILLFOCUS (NM_FIRST-8) #if (_WIN32_IE >= 0x0300) #define NM_CUSTOMDRAW (NM_FIRST-12) #define NM_HOVER (NM_FIRST-13) #endif #if (_WIN32_IE >= 0x0400) #define NM_NCHITTEST (NM_FIRST-14) // uses NMMOUSE struct #define NM_KEYDOWN (NM_FIRST-15) // uses NMKEY struct #define NM_RELEASEDCAPTURE (NM_FIRST-16) #define NM_SETCURSOR (NM_FIRST-17) // uses NMMOUSE struct #define NM_CHAR (NM_FIRST-18) // uses NMCHAR struct #endif #if (_WIN32_IE >= 0x0401) #define NM_TOOLTIPSCREATED (NM_FIRST-19) // notify of when the tooltips window is create #endif #if (_WIN32_IE >= 0x0500) #define NM_LDOWN (NM_FIRST-20) #define NM_RDOWN (NM_FIRST-21) #define NM_THEMECHANGED (NM_FIRST-22) #endif #ifndef CCSIZEOF_STRUCT #define CCSIZEOF_STRUCT(structname, member) (((int)((LPBYTE)(&((structname*)0)->member) - ((LPBYTE)((structname*)0)))) + sizeof(((structname*)0)->member)) #endif //====== Generic WM_NOTIFY notification structures ============================ #if (_WIN32_IE >= 0x0401) typedef struct tagNMTOOLTIPSCREATED { NMHDR hdr; HWND hwndToolTips; } NMTOOLTIPSCREATED, * LPNMTOOLTIPSCREATED; #endif #if (_WIN32_IE >= 0x0400) typedef struct tagNMMOUSE { NMHDR hdr; DWORD_PTR dwItemSpec; DWORD_PTR dwItemData; POINT pt; LPARAM dwHitInfo; // any specifics about where on the item or control the mouse is } NMMOUSE, *LPNMMOUSE; typedef NMMOUSE NMCLICK; typedef LPNMMOUSE LPNMCLICK; // Generic structure to request an object of a specific type. typedef struct tagNMOBJECTNOTIFY { NMHDR hdr; int iItem; #ifdef __IID_DEFINED__ const IID *piid; #else const void *piid; #endif void *pObject; HRESULT hResult; DWORD dwFlags; // control specific flags (hints as to where in iItem it hit) } NMOBJECTNOTIFY, *LPNMOBJECTNOTIFY; // Generic structure for a key typedef struct tagNMKEY { NMHDR hdr; UINT nVKey; UINT uFlags; } NMKEY, *LPNMKEY; // Generic structure for a character typedef struct tagNMCHAR { NMHDR hdr; UINT ch; DWORD dwItemPrev; // Item previously selected DWORD dwItemNext; // Item to be selected } NMCHAR, *LPNMCHAR; #endif // _WIN32_IE >= 0x0400 //====== WM_NOTIFY codes (NMHDR.code values) ================================== #define NM_FIRST (0U- 0U) // generic to all controls #define NM_LAST (0U- 99U) #define LVN_FIRST (0U-100U) // listview #define LVN_LAST (0U-199U) // Property sheet reserved (0U-200U) - (0U-299U) - see prsht.h #define HDN_FIRST (0U-300U) // header #define HDN_LAST (0U-399U) #define TVN_FIRST (0U-400U) // treeview #define TVN_LAST (0U-499U) #define TTN_FIRST (0U-520U) // tooltips #define TTN_LAST (0U-549U) #define TCN_FIRST (0U-550U) // tab control #define TCN_LAST (0U-580U) // Shell reserved (0U-580U) - (0U-589U) #define CDN_FIRST (0U-601U) // common dialog (new) #define CDN_LAST (0U-699U) #define TBN_FIRST (0U-700U) // toolbar #define TBN_LAST (0U-720U) #define UDN_FIRST (0U-721) // updown #define UDN_LAST (0U-740) #if (_WIN32_IE >= 0x0300) #define MCN_FIRST (0U-750U) // monthcal #define MCN_LAST (0U-759U) #define DTN_FIRST (0U-760U) // datetimepick #define DTN_LAST (0U-799U) #define CBEN_FIRST (0U-800U) // combo box ex #define CBEN_LAST (0U-830U) #define RBN_FIRST (0U-831U) // rebar #define RBN_LAST (0U-859U) #endif #if (_WIN32_IE >= 0x0400) #define IPN_FIRST (0U-860U) // internet address #define IPN_LAST (0U-879U) // internet address #define SBN_FIRST (0U-880U) // status bar #define SBN_LAST (0U-899U) #define PGN_FIRST (0U-900U) // Pager Control #define PGN_LAST (0U-950U) #endif #if (_WIN32_IE >= 0x0500) #ifndef WMN_FIRST #define WMN_FIRST (0U-1000U) #define WMN_LAST (0U-1200U) #endif #endif #if (_WIN32_WINNT >= 0x0501) #define BCN_FIRST (0U-1250U) #define BCN_LAST (0U-1350U) #endif #define MSGF_COMMCTRL_BEGINDRAG 0x4200 #define MSGF_COMMCTRL_SIZEHEADER 0x4201 #define MSGF_COMMCTRL_DRAGSELECT 0x4202 #define MSGF_COMMCTRL_TOOLBARCUST 0x4203 #if (_WIN32_IE >= 0x0300) //==================== CUSTOM DRAW ========================================== // custom draw return flags // values under 0x00010000 are reserved for global custom draw values. // above that are for specific controls #define CDRF_DODEFAULT 0x00000000 #define CDRF_NEWFONT 0x00000002 #define CDRF_SKIPDEFAULT 0x00000004 #define CDRF_NOTIFYPOSTPAINT 0x00000010 #define CDRF_NOTIFYITEMDRAW 0x00000020 #if (_WIN32_IE >= 0x0400) #define CDRF_NOTIFYSUBITEMDRAW 0x00000020 // flags are the same, we can distinguish by context #endif #define CDRF_NOTIFYPOSTERASE 0x00000040 // drawstage flags // values under 0x00010000 are reserved for global custom draw values. // above that are for specific controls #define CDDS_PREPAINT 0x00000001 #define CDDS_POSTPAINT 0x00000002 #define CDDS_PREERASE 0x00000003 #define CDDS_POSTERASE 0x00000004 // the 0x000010000 bit means it's individual item specific #define CDDS_ITEM 0x00010000 #define CDDS_ITEMPREPAINT (CDDS_ITEM | CDDS_PREPAINT) #define CDDS_ITEMPOSTPAINT (CDDS_ITEM | CDDS_POSTPAINT) #define CDDS_ITEMPREERASE (CDDS_ITEM | CDDS_PREERASE) #define CDDS_ITEMPOSTERASE (CDDS_ITEM | CDDS_POSTERASE) #if (_WIN32_IE >= 0x0400) #define CDDS_SUBITEM 0x00020000 #endif // itemState flags #define CDIS_SELECTED 0x0001 #define CDIS_GRAYED 0x0002 #define CDIS_DISABLED 0x0004 #define CDIS_CHECKED 0x0008 #define CDIS_FOCUS 0x0010 #define CDIS_DEFAULT 0x0020 #define CDIS_HOT 0x0040 #define CDIS_MARKED 0x0080 #define CDIS_INDETERMINATE 0x0100 #if (_WIN32_WINNT >= 0x501) #define CDIS_SHOWKEYBOARDCUES 0x0200 #endif typedef struct tagNMCUSTOMDRAWINFO { NMHDR hdr; DWORD dwDrawStage; HDC hdc; RECT rc; DWORD_PTR dwItemSpec; // this is control specific, but it's how to specify an item. valid only with CDDS_ITEM bit set UINT uItemState; LPARAM lItemlParam; } NMCUSTOMDRAW, *LPNMCUSTOMDRAW; typedef struct tagNMTTCUSTOMDRAW { NMCUSTOMDRAW nmcd; UINT uDrawFlags; } NMTTCUSTOMDRAW, *LPNMTTCUSTOMDRAW; #endif // _WIN32_IE >= 0x0300 //====== IMAGE APIS =========================================================== #ifndef NOIMAGEAPIS #define CLR_NONE 0xFFFFFFFFL #define CLR_DEFAULT 0xFF000000L #ifndef HIMAGELIST struct _IMAGELIST; typedef struct _IMAGELIST* HIMAGELIST; #endif #ifndef IMAGELISTDRAWPARAMS #if (_WIN32_IE >= 0x0300) typedef struct _IMAGELISTDRAWPARAMS { DWORD cbSize; HIMAGELIST himl; int i; HDC hdcDst; int x; int y; int cx; int cy; int xBitmap; // x offest from the upperleft of bitmap int yBitmap; // y offset from the upperleft of bitmap COLORREF rgbBk; COLORREF rgbFg; UINT fStyle; DWORD dwRop; #if (_WIN32_IE >= 0x501) DWORD fState; DWORD Frame; COLORREF crEffect; #endif } IMAGELISTDRAWPARAMS, *LPIMAGELISTDRAWPARAMS; #define IMAGELISTDRAWPARAMS_V3_SIZE CCSIZEOF_STRUCT(IMAGELISTDRAWPARAMS, dwRop) #endif // _WIN32_IE >= 0x0300 #endif #define ILC_MASK 0x00000001 #define ILC_COLOR 0x00000000 #define ILC_COLORDDB 0x000000FE #define ILC_COLOR4 0x00000004 #define ILC_COLOR8 0x00000008 #define ILC_COLOR16 0x00000010 #define ILC_COLOR24 0x00000018 #define ILC_COLOR32 0x00000020 #define ILC_PALETTE 0x00000800 // (not implemented) #if (_WIN32_WINNT >= 0x501) #define ILC_MIRROR 0x00002000 // Mirror the icons contained, if the process is mirrored #define ILC_PERITEMMIRROR 0x00008000 // Causes the mirroring code to mirror each item when inserting a set of images, verses the whole strip #endif WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_Create(int cx, int cy, UINT flags, int cInitial, int cGrow); WINCOMMCTRLAPI BOOL WINAPI ImageList_Destroy(HIMAGELIST himl); WINCOMMCTRLAPI int WINAPI ImageList_GetImageCount(HIMAGELIST himl); #if (_WIN32_IE >= 0x0300) WINCOMMCTRLAPI BOOL WINAPI ImageList_SetImageCount(HIMAGELIST himl, UINT uNewCount); #endif WINCOMMCTRLAPI int WINAPI ImageList_Add(HIMAGELIST himl, HBITMAP hbmImage, HBITMAP hbmMask); WINCOMMCTRLAPI int WINAPI ImageList_ReplaceIcon(HIMAGELIST himl, int i, HICON hicon); WINCOMMCTRLAPI COLORREF WINAPI ImageList_SetBkColor(HIMAGELIST himl, COLORREF clrBk); WINCOMMCTRLAPI COLORREF WINAPI ImageList_GetBkColor(HIMAGELIST himl); WINCOMMCTRLAPI BOOL WINAPI ImageList_SetOverlayImage(HIMAGELIST himl, int iImage, int iOverlay); #define ImageList_AddIcon(himl, hicon) ImageList_ReplaceIcon(himl, -1, hicon) #define ILD_NORMAL 0x00000000 #define ILD_TRANSPARENT 0x00000001 #define ILD_MASK 0x00000010 #define ILD_IMAGE 0x00000020 #if (_WIN32_IE >= 0x0300) #define ILD_ROP 0x00000040 #endif #define ILD_BLEND25 0x00000002 #define ILD_BLEND50 0x00000004 #define ILD_OVERLAYMASK 0x00000F00 #define INDEXTOOVERLAYMASK(i) ((i) << 8) #define ILD_PRESERVEALPHA 0x00001000 // This preserves the alpha channel in dest #define ILD_SCALE 0x00002000 // Causes the image to be scaled to cx, cy instead of clipped #define ILD_DPISCALE 0x00004000 #define ILD_SELECTED ILD_BLEND50 #define ILD_FOCUS ILD_BLEND25 #define ILD_BLEND ILD_BLEND50 #define CLR_HILIGHT CLR_DEFAULT #define ILS_NORMAL 0x00000000 #define ILS_GLOW 0x00000001 #define ILS_SHADOW 0x00000002 #define ILS_SATURATE 0x00000004 #define ILS_ALPHA 0x00000008 WINCOMMCTRLAPI BOOL WINAPI ImageList_Draw(HIMAGELIST himl, int i, HDC hdcDst, int x, int y, UINT fStyle); #ifdef _WIN32 WINCOMMCTRLAPI BOOL WINAPI ImageList_Replace(HIMAGELIST himl, int i, HBITMAP hbmImage, HBITMAP hbmMask); WINCOMMCTRLAPI int WINAPI ImageList_AddMasked(HIMAGELIST himl, HBITMAP hbmImage, COLORREF crMask); WINCOMMCTRLAPI BOOL WINAPI ImageList_DrawEx(HIMAGELIST himl, int i, HDC hdcDst, int x, int y, int dx, int dy, COLORREF rgbBk, COLORREF rgbFg, UINT fStyle); #if (_WIN32_IE >= 0x0300) WINCOMMCTRLAPI BOOL WINAPI ImageList_DrawIndirect(IMAGELISTDRAWPARAMS* pimldp); #endif WINCOMMCTRLAPI BOOL WINAPI ImageList_Remove(HIMAGELIST himl, int i); WINCOMMCTRLAPI HICON WINAPI ImageList_GetIcon(HIMAGELIST himl, int i, UINT flags); WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_LoadImageA(HINSTANCE hi, LPCSTR lpbmp, int cx, int cGrow, COLORREF crMask, UINT uType, UINT uFlags); WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_LoadImageW(HINSTANCE hi, LPCWSTR lpbmp, int cx, int cGrow, COLORREF crMask, UINT uType, UINT uFlags); #ifdef UNICODE #define ImageList_LoadImage ImageList_LoadImageW #else #define ImageList_LoadImage ImageList_LoadImageA #endif #if (_WIN32_IE >= 0x0300) #define ILCF_MOVE (0x00000000) #define ILCF_SWAP (0x00000001) WINCOMMCTRLAPI BOOL WINAPI ImageList_Copy(HIMAGELIST himlDst, int iDst, HIMAGELIST himlSrc, int iSrc, UINT uFlags); #endif WINCOMMCTRLAPI BOOL WINAPI ImageList_BeginDrag(HIMAGELIST himlTrack, int iTrack, int dxHotspot, int dyHotspot); WINCOMMCTRLAPI void WINAPI ImageList_EndDrag(); WINCOMMCTRLAPI BOOL WINAPI ImageList_DragEnter(HWND hwndLock, int x, int y); WINCOMMCTRLAPI BOOL WINAPI ImageList_DragLeave(HWND hwndLock); WINCOMMCTRLAPI BOOL WINAPI ImageList_DragMove(int x, int y); WINCOMMCTRLAPI BOOL WINAPI ImageList_SetDragCursorImage(HIMAGELIST himlDrag, int iDrag, int dxHotspot, int dyHotspot); WINCOMMCTRLAPI BOOL WINAPI ImageList_DragShowNolock(BOOL fShow); WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_GetDragImage(POINT *ppt,POINT *pptHotspot); #define ImageList_RemoveAll(himl) ImageList_Remove(himl, -1) #define ImageList_ExtractIcon(hi, himl, i) ImageList_GetIcon(himl, i, 0) #define ImageList_LoadBitmap(hi, lpbmp, cx, cGrow, crMask) ImageList_LoadImage(hi, lpbmp, cx, cGrow, crMask, IMAGE_BITMAP, 0) #ifdef __IStream_INTERFACE_DEFINED__ WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_Read(LPSTREAM pstm); WINCOMMCTRLAPI BOOL WINAPI ImageList_Write(HIMAGELIST himl, LPSTREAM pstm); #if (_WIN32_WINNT >= 0x0501) #define ILP_NORMAL 0 // Writes or reads the stream using new sematics for this version of comctl32 #define ILP_DOWNLEVEL 1 // Write or reads the stream using downlevel sematics. WINCOMMCTRLAPI HRESULT WINAPI ImageList_ReadEx(DWORD dwFlags, LPSTREAM pstm, REFIID riid, PVOID* ppv); WINCOMMCTRLAPI HRESULT WINAPI ImageList_WriteEx(HIMAGELIST himl, DWORD dwFlags, LPSTREAM pstm); #endif #endif #ifndef IMAGEINFO typedef struct _IMAGEINFO { HBITMAP hbmImage; HBITMAP hbmMask; int Unused1; int Unused2; RECT rcImage; } IMAGEINFO, *LPIMAGEINFO; #endif WINCOMMCTRLAPI BOOL WINAPI ImageList_GetIconSize(HIMAGELIST himl, int *cx, int *cy); WINCOMMCTRLAPI BOOL WINAPI ImageList_SetIconSize(HIMAGELIST himl, int cx, int cy); WINCOMMCTRLAPI BOOL WINAPI ImageList_GetImageInfo(HIMAGELIST himl, int i, IMAGEINFO *pImageInfo); WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_Merge(HIMAGELIST himl1, int i1, HIMAGELIST himl2, int i2, int dx, int dy); #if (_WIN32_IE >= 0x0400) WINCOMMCTRLAPI HIMAGELIST WINAPI ImageList_Duplicate(HIMAGELIST himl); #endif #endif #endif //====== HEADER CONTROL ======================================================= #ifndef NOHEADER #ifdef _WIN32 #define WC_HEADERA "SysHeader32" #define WC_HEADERW L"SysHeader32" #ifdef UNICODE #define WC_HEADER WC_HEADERW #else #define WC_HEADER WC_HEADERA #endif #else #define WC_HEADER "SysHeader" #endif // begin_r_commctrl #define HDS_HORZ 0x0000 #define HDS_BUTTONS 0x0002 #if (_WIN32_IE >= 0x0300) #define HDS_HOTTRACK 0x0004 #endif #define HDS_HIDDEN 0x0008 #if (_WIN32_IE >= 0x0300) #define HDS_DRAGDROP 0x0040 #define HDS_FULLDRAG 0x0080 #endif #if (_WIN32_IE >= 0x0500) #define HDS_FILTERBAR 0x0100 #endif #if (_WIN32_WINNT >= 0x501) #define HDS_FLAT 0x0200 #endif // end_r_commctrl #if (_WIN32_IE >= 0x0500) #define HDFT_ISSTRING 0x0000 // HD_ITEM.pvFilter points to a HD_TEXTFILTER #define HDFT_ISNUMBER 0x0001 // HD_ITEM.pvFilter points to a INT #define HDFT_HASNOVALUE 0x8000 // clear the filter, by setting this bit #ifdef UNICODE #define HD_TEXTFILTER HD_TEXTFILTERW #define HDTEXTFILTER HD_TEXTFILTERW #define LPHD_TEXTFILTER LPHD_TEXTFILTERW #define LPHDTEXTFILTER LPHD_TEXTFILTERW #else #define HD_TEXTFILTER HD_TEXTFILTERA #define HDTEXTFILTER HD_TEXTFILTERA #define LPHD_TEXTFILTER LPHD_TEXTFILTERA #define LPHDTEXTFILTER LPHD_TEXTFILTERA #endif typedef struct _HD_TEXTFILTERA { LPSTR pszText; // [in] pointer to the buffer containing the filter (ANSI) INT cchTextMax; // [in] max size of buffer/edit control buffer } HD_TEXTFILTERA, *LPHD_TEXTFILTERA; typedef struct _HD_TEXTFILTERW { LPWSTR pszText; // [in] pointer to the buffer contiaining the filter (UNICODE) INT cchTextMax; // [in] max size of buffer/edit control buffer } HD_TEXTFILTERW, *LPHD_TEXTFILTERW; #endif // _WIN32_IE >= 0x0500 #if (_WIN32_IE >= 0x0300) #define HD_ITEMA HDITEMA #define HD_ITEMW HDITEMW #else #define HDITEMW HD_ITEMW #define HDITEMA HD_ITEMA #endif #define HD_ITEM HDITEM typedef struct _HD_ITEMA { UINT mask; int cxy; LPSTR pszText; HBITMAP hbm; int cchTextMax; int fmt; LPARAM lParam; #if (_WIN32_IE >= 0x0300) int iImage; // index of bitmap in ImageList int iOrder; // where to draw this item #endif #if (_WIN32_IE >= 0x0500) UINT type; // [in] filter type (defined what pvFilter is a pointer to) void * pvFilter; // [in] fillter data see above #endif } HDITEMA, *LPHDITEMA; #define HDITEMA_V1_SIZE CCSIZEOF_STRUCT(HDITEMA, lParam) #define HDITEMW_V1_SIZE CCSIZEOF_STRUCT(HDITEMW, lParam) typedef struct _HD_ITEMW { UINT mask; int cxy; LPWSTR pszText; HBITMAP hbm; int cchTextMax; int fmt; LPARAM lParam; #if (_WIN32_IE >= 0x0300) int iImage; // index of bitmap in ImageList int iOrder; #endif #if (_WIN32_IE >= 0x0500) UINT type; // [in] filter type (defined what pvFilter is a pointer to) void * pvFilter; // [in] fillter data see above #endif } HDITEMW, *LPHDITEMW; #ifdef UNICODE #define HDITEM HDITEMW #define LPHDITEM LPHDITEMW #define HDITEM_V1_SIZE HDITEMW_V1_SIZE #else #define HDITEM HDITEMA #define LPHDITEM LPHDITEMA #define HDITEM_V1_SIZE HDITEMA_V1_SIZE #endif #define HDI_WIDTH 0x0001 #define HDI_HEIGHT HDI_WIDTH #define HDI_TEXT 0x0002 #define HDI_FORMAT 0x0004 #define HDI_LPARAM 0x0008 #define HDI_BITMAP 0x0010 #if (_WIN32_IE >= 0x0300) #define HDI_IMAGE 0x0020 #define HDI_DI_SETITEM 0x0040 #define HDI_ORDER 0x0080 #endif #if (_WIN32_IE >= 0x0500) #define HDI_FILTER 0x0100 #endif #define HDF_LEFT 0x0000 #define HDF_RIGHT 0x0001 #define HDF_CENTER 0x0002 #define HDF_JUSTIFYMASK 0x0003 #define HDF_RTLREADING 0x0004 #define HDF_OWNERDRAW 0x8000 #define HDF_STRING 0x4000 #define HDF_BITMAP 0x2000 #if (_WIN32_IE >= 0x0300) #define HDF_BITMAP_ON_RIGHT 0x1000 #define HDF_IMAGE 0x0800 #endif #if (_WIN32_WINNT >= 0x501) #define HDF_SORTUP 0x0400 #define HDF_SORTDOWN 0x0200 #endif #define HDM_GETITEMCOUNT (HDM_FIRST + 0) #define Header_GetItemCount(hwndHD) \ (int)SNDMSG((hwndHD), HDM_GETITEMCOUNT, 0, 0L) #define HDM_INSERTITEMA (HDM_FIRST + 1) #define HDM_INSERTITEMW (HDM_FIRST + 10) #ifdef UNICODE #define HDM_INSERTITEM HDM_INSERTITEMW #else #define HDM_INSERTITEM HDM_INSERTITEMA #endif #define Header_InsertItem(hwndHD, i, phdi) \ (int)SNDMSG((hwndHD), HDM_INSERTITEM, (WPARAM)(int)(i), (LPARAM)(const HD_ITEM *)(phdi)) #define HDM_DELETEITEM (HDM_FIRST + 2) #define Header_DeleteItem(hwndHD, i) \ (BOOL)SNDMSG((hwndHD), HDM_DELETEITEM, (WPARAM)(int)(i), 0L) #define HDM_GETITEMA (HDM_FIRST + 3) #define HDM_GETITEMW (HDM_FIRST + 11) #ifdef UNICODE #define HDM_GETITEM HDM_GETITEMW #else #define HDM_GETITEM HDM_GETITEMA #endif #define Header_GetItem(hwndHD, i, phdi) \ (BOOL)SNDMSG((hwndHD), HDM_GETITEM, (WPARAM)(int)(i), (LPARAM)(HD_ITEM *)(phdi)) #define HDM_SETITEMA (HDM_FIRST + 4) #define HDM_SETITEMW (HDM_FIRST + 12) #ifdef UNICODE #define HDM_SETITEM HDM_SETITEMW #else #define HDM_SETITEM HDM_SETITEMA #endif #define Header_SetItem(hwndHD, i, phdi) \ (BOOL)SNDMSG((hwndHD), HDM_SETITEM, (WPARAM)(int)(i), (LPARAM)(const HD_ITEM *)(phdi)) #if (_WIN32_IE >= 0x0300) #define HD_LAYOUT HDLAYOUT #else #define HDLAYOUT HD_LAYOUT #endif typedef struct _HD_LAYOUT { RECT *prc; WINDOWPOS *pwpos; } HDLAYOUT, *LPHDLAYOUT; #define HDM_LAYOUT (HDM_FIRST + 5) #define Header_Layout(hwndHD, playout) \ (BOOL)SNDMSG((hwndHD), HDM_LAYOUT, 0, (LPARAM)(HD_LAYOUT *)(playout)) #define HHT_NOWHERE 0x0001 #define HHT_ONHEADER 0x0002 #define HHT_ONDIVIDER 0x0004 #define HHT_ONDIVOPEN 0x0008 #if (_WIN32_IE >= 0x0500) #define HHT_ONFILTER 0x0010 #define HHT_ONFILTERBUTTON 0x0020 #endif #define HHT_ABOVE 0x0100 #define HHT_BELOW 0x0200 #define HHT_TORIGHT 0x0400 #define HHT_TOLEFT 0x0800 #if (_WIN32_IE >= 0x0300) #define HD_HITTESTINFO HDHITTESTINFO #else #define HDHITTESTINFO HD_HITTESTINFO #endif typedef struct _HD_HITTESTINFO { POINT pt; UINT flags; int iItem; } HDHITTESTINFO, *LPHDHITTESTINFO; #define HDM_HITTEST (HDM_FIRST + 6) #if (_WIN32_IE >= 0x0300) #define HDM_GETITEMRECT (HDM_FIRST + 7) #define Header_GetItemRect(hwnd, iItem, lprc) \ (BOOL)SNDMSG((hwnd), HDM_GETITEMRECT, (WPARAM)(iItem), (LPARAM)(lprc)) #define HDM_SETIMAGELIST (HDM_FIRST + 8) #define Header_SetImageList(hwnd, himl) \ (HIMAGELIST)SNDMSG((hwnd), HDM_SETIMAGELIST, 0, (LPARAM)(himl)) #define HDM_GETIMAGELIST (HDM_FIRST + 9) #define Header_GetImageList(hwnd) \ (HIMAGELIST)SNDMSG((hwnd), HDM_GETIMAGELIST, 0, 0) #define HDM_ORDERTOINDEX (HDM_FIRST + 15) #define Header_OrderToIndex(hwnd, i) \ (int)SNDMSG((hwnd), HDM_ORDERTOINDEX, (WPARAM)(i), 0) #define HDM_CREATEDRAGIMAGE (HDM_FIRST + 16) // wparam = which item (by index) #define Header_CreateDragImage(hwnd, i) \ (HIMAGELIST)SNDMSG((hwnd), HDM_CREATEDRAGIMAGE, (WPARAM)(i), 0) #define HDM_GETORDERARRAY (HDM_FIRST + 17) #define Header_GetOrderArray(hwnd, iCount, lpi) \ (BOOL)SNDMSG((hwnd), HDM_GETORDERARRAY, (WPARAM)(iCount), (LPARAM)(lpi)) #define HDM_SETORDERARRAY (HDM_FIRST + 18) #define Header_SetOrderArray(hwnd, iCount, lpi) \ (BOOL)SNDMSG((hwnd), HDM_SETORDERARRAY, (WPARAM)(iCount), (LPARAM)(lpi)) // lparam = int array of size HDM_GETITEMCOUNT // the array specifies the order that all items should be displayed. // e.g. { 2, 0, 1} // says the index 2 item should be shown in the 0ths position // index 0 should be shown in the 1st position // index 1 should be shown in the 2nd position #define HDM_SETHOTDIVIDER (HDM_FIRST + 19) #define Header_SetHotDivider(hwnd, fPos, dw) \ (int)SNDMSG((hwnd), HDM_SETHOTDIVIDER, (WPARAM)(fPos), (LPARAM)(dw)) // convenience message for external dragdrop // wParam = BOOL specifying whether the lParam is a dwPos of the cursor // position or the index of which divider to hotlight // lParam = depends on wParam (-1 and wParm = FALSE turns off hotlight) #endif // _WIN32_IE >= 0x0300 #if (_WIN32_IE >= 0x0500) #define HDM_SETBITMAPMARGIN (HDM_FIRST + 20) #define Header_SetBitmapMargin(hwnd, iWidth) \ (int)SNDMSG((hwnd), HDM_SETBITMAPMARGIN, (WPARAM)(iWidth), 0) #define HDM_GETBITMAPMARGIN (HDM_FIRST + 21) #define Header_GetBitmapMargin(hwnd) \ (int)SNDMSG((hwnd), HDM_GETBITMAPMARGIN, 0, 0) #endif #if (_WIN32_IE >= 0x0400) #define HDM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define Header_SetUnicodeFormat(hwnd, fUnicode) \ (BOOL)SNDMSG((hwnd), HDM_SETUNICODEFORMAT, (WPARAM)(fUnicode), 0) #define HDM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #define Header_GetUnicodeFormat(hwnd) \ (BOOL)SNDMSG((hwnd), HDM_GETUNICODEFORMAT, 0, 0) #endif #if (_WIN32_IE >= 0x0500) #define HDM_SETFILTERCHANGETIMEOUT (HDM_FIRST+22) #define Header_SetFilterChangeTimeout(hwnd, i) \ (int)SNDMSG((hwnd), HDM_SETFILTERCHANGETIMEOUT, 0, (LPARAM)(i)) #define HDM_EDITFILTER (HDM_FIRST+23) #define Header_EditFilter(hwnd, i, fDiscardChanges) \ (int)SNDMSG((hwnd), HDM_EDITFILTER, (WPARAM)(i), MAKELPARAM(fDiscardChanges, 0)) // Clear filter takes -1 as a column value to indicate that all // the filter should be cleared. When this happens you will // only receive a single filter changed notification. #define HDM_CLEARFILTER (HDM_FIRST+24) #define Header_ClearFilter(hwnd, i) \ (int)SNDMSG((hwnd), HDM_CLEARFILTER, (WPARAM)(i), 0) #define Header_ClearAllFilters(hwnd) \ (int)SNDMSG((hwnd), HDM_CLEARFILTER, (WPARAM)-1, 0) #endif #define HDN_ITEMCHANGINGA (HDN_FIRST-0) #define HDN_ITEMCHANGINGW (HDN_FIRST-20) #define HDN_ITEMCHANGEDA (HDN_FIRST-1) #define HDN_ITEMCHANGEDW (HDN_FIRST-21) #define HDN_ITEMCLICKA (HDN_FIRST-2) #define HDN_ITEMCLICKW (HDN_FIRST-22) #define HDN_ITEMDBLCLICKA (HDN_FIRST-3) #define HDN_ITEMDBLCLICKW (HDN_FIRST-23) #define HDN_DIVIDERDBLCLICKA (HDN_FIRST-5) #define HDN_DIVIDERDBLCLICKW (HDN_FIRST-25) #define HDN_BEGINTRACKA (HDN_FIRST-6) #define HDN_BEGINTRACKW (HDN_FIRST-26) #define HDN_ENDTRACKA (HDN_FIRST-7) #define HDN_ENDTRACKW (HDN_FIRST-27) #define HDN_TRACKA (HDN_FIRST-8) #define HDN_TRACKW (HDN_FIRST-28) #if (_WIN32_IE >= 0x0300) #define HDN_GETDISPINFOA (HDN_FIRST-9) #define HDN_GETDISPINFOW (HDN_FIRST-29) #define HDN_BEGINDRAG (HDN_FIRST-10) #define HDN_ENDDRAG (HDN_FIRST-11) #endif #if (_WIN32_IE >= 0x0500) #define HDN_FILTERCHANGE (HDN_FIRST-12) #define HDN_FILTERBTNCLICK (HDN_FIRST-13) #endif #ifdef UNICODE #define HDN_ITEMCHANGING HDN_ITEMCHANGINGW #define HDN_ITEMCHANGED HDN_ITEMCHANGEDW #define HDN_ITEMCLICK HDN_ITEMCLICKW #define HDN_ITEMDBLCLICK HDN_ITEMDBLCLICKW #define HDN_DIVIDERDBLCLICK HDN_DIVIDERDBLCLICKW #define HDN_BEGINTRACK HDN_BEGINTRACKW #define HDN_ENDTRACK HDN_ENDTRACKW #define HDN_TRACK HDN_TRACKW #if (_WIN32_IE >= 0x0300) #define HDN_GETDISPINFO HDN_GETDISPINFOW #endif #else #define HDN_ITEMCHANGING HDN_ITEMCHANGINGA #define HDN_ITEMCHANGED HDN_ITEMCHANGEDA #define HDN_ITEMCLICK HDN_ITEMCLICKA #define HDN_ITEMDBLCLICK HDN_ITEMDBLCLICKA #define HDN_DIVIDERDBLCLICK HDN_DIVIDERDBLCLICKA #define HDN_BEGINTRACK HDN_BEGINTRACKA #define HDN_ENDTRACK HDN_ENDTRACKA #define HDN_TRACK HDN_TRACKA #if (_WIN32_IE >= 0x0300) #define HDN_GETDISPINFO HDN_GETDISPINFOA #endif #endif #if (_WIN32_IE >= 0x0300) #define HD_NOTIFYA NMHEADERA #define HD_NOTIFYW NMHEADERW #else #define tagNMHEADERA _HD_NOTIFY #define NMHEADERA HD_NOTIFYA #define tagHMHEADERW _HD_NOTIFYW #define NMHEADERW HD_NOTIFYW #endif #define HD_NOTIFY NMHEADER typedef struct tagNMHEADERA { NMHDR hdr; int iItem; int iButton; HDITEMA *pitem; } NMHEADERA, *LPNMHEADERA; typedef struct tagNMHEADERW { NMHDR hdr; int iItem; int iButton; HDITEMW *pitem; } NMHEADERW, *LPNMHEADERW; #ifdef UNICODE #define NMHEADER NMHEADERW #define LPNMHEADER LPNMHEADERW #else #define NMHEADER NMHEADERA #define LPNMHEADER LPNMHEADERA #endif typedef struct tagNMHDDISPINFOW { NMHDR hdr; int iItem; UINT mask; LPWSTR pszText; int cchTextMax; int iImage; LPARAM lParam; } NMHDDISPINFOW, *LPNMHDDISPINFOW; typedef struct tagNMHDDISPINFOA { NMHDR hdr; int iItem; UINT mask; LPSTR pszText; int cchTextMax; int iImage; LPARAM lParam; } NMHDDISPINFOA, *LPNMHDDISPINFOA; #ifdef UNICODE #define NMHDDISPINFO NMHDDISPINFOW #define LPNMHDDISPINFO LPNMHDDISPINFOW #else #define NMHDDISPINFO NMHDDISPINFOA #define LPNMHDDISPINFO LPNMHDDISPINFOA #endif #if (_WIN32_IE >= 0x0500) typedef struct tagNMHDFILTERBTNCLICK { NMHDR hdr; INT iItem; RECT rc; } NMHDFILTERBTNCLICK, *LPNMHDFILTERBTNCLICK; #endif #endif // NOHEADER //====== TOOLBAR CONTROL ====================================================== #ifndef NOTOOLBAR #ifdef _WIN32 #define TOOLBARCLASSNAMEW L"ToolbarWindow32" #define TOOLBARCLASSNAMEA "ToolbarWindow32" #ifdef UNICODE #define TOOLBARCLASSNAME TOOLBARCLASSNAMEW #else #define TOOLBARCLASSNAME TOOLBARCLASSNAMEA #endif #else #define TOOLBARCLASSNAME "ToolbarWindow" #endif typedef struct _TBBUTTON { int iBitmap; int idCommand; BYTE fsState; BYTE fsStyle; #ifdef _WIN64 BYTE bReserved[6]; // padding for alignment #elif defined(_WIN32) BYTE bReserved[2]; // padding for alignment #endif DWORD_PTR dwData; INT_PTR iString; } TBBUTTON, NEAR* PTBBUTTON, *LPTBBUTTON; typedef const TBBUTTON *LPCTBBUTTON; typedef struct _COLORMAP { COLORREF from; COLORREF to; } COLORMAP, *LPCOLORMAP; WINCOMMCTRLAPI HWND WINAPI CreateToolbarEx(HWND hwnd, DWORD ws, UINT wID, int nBitmaps, HINSTANCE hBMInst, UINT_PTR wBMID, LPCTBBUTTON lpButtons, int iNumButtons, int dxButton, int dyButton, int dxBitmap, int dyBitmap, UINT uStructSize); WINCOMMCTRLAPI HBITMAP WINAPI CreateMappedBitmap(HINSTANCE hInstance, INT_PTR idBitmap, UINT wFlags, LPCOLORMAP lpColorMap, int iNumMaps); #define CMB_MASKED 0x02 #define TBSTATE_CHECKED 0x01 #define TBSTATE_PRESSED 0x02 #define TBSTATE_ENABLED 0x04 #define TBSTATE_HIDDEN 0x08 #define TBSTATE_INDETERMINATE 0x10 #define TBSTATE_WRAP 0x20 #if (_WIN32_IE >= 0x0300) #define TBSTATE_ELLIPSES 0x40 #endif #if (_WIN32_IE >= 0x0400) #define TBSTATE_MARKED 0x80 #endif #define TBSTYLE_BUTTON 0x0000 // obsolete; use BTNS_BUTTON instead #define TBSTYLE_SEP 0x0001 // obsolete; use BTNS_SEP instead #define TBSTYLE_CHECK 0x0002 // obsolete; use BTNS_CHECK instead #define TBSTYLE_GROUP 0x0004 // obsolete; use BTNS_GROUP instead #define TBSTYLE_CHECKGROUP (TBSTYLE_GROUP | TBSTYLE_CHECK) // obsolete; use BTNS_CHECKGROUP instead #if (_WIN32_IE >= 0x0300) #define TBSTYLE_DROPDOWN 0x0008 // obsolete; use BTNS_DROPDOWN instead #endif #if (_WIN32_IE >= 0x0400) #define TBSTYLE_AUTOSIZE 0x0010 // obsolete; use BTNS_AUTOSIZE instead #define TBSTYLE_NOPREFIX 0x0020 // obsolete; use BTNS_NOPREFIX instead #endif #define TBSTYLE_TOOLTIPS 0x0100 #define TBSTYLE_WRAPABLE 0x0200 #define TBSTYLE_ALTDRAG 0x0400 #if (_WIN32_IE >= 0x0300) #define TBSTYLE_FLAT 0x0800 #define TBSTYLE_LIST 0x1000 #define TBSTYLE_CUSTOMERASE 0x2000 #endif #if (_WIN32_IE >= 0x0400) #define TBSTYLE_REGISTERDROP 0x4000 #define TBSTYLE_TRANSPARENT 0x8000 #define TBSTYLE_EX_DRAWDDARROWS 0x00000001 #endif #if (_WIN32_IE >= 0x0500) #define BTNS_BUTTON TBSTYLE_BUTTON // 0x0000 #define BTNS_SEP TBSTYLE_SEP // 0x0001 #define BTNS_CHECK TBSTYLE_CHECK // 0x0002 #define BTNS_GROUP TBSTYLE_GROUP // 0x0004 #define BTNS_CHECKGROUP TBSTYLE_CHECKGROUP // (TBSTYLE_GROUP | TBSTYLE_CHECK) #define BTNS_DROPDOWN TBSTYLE_DROPDOWN // 0x0008 #define BTNS_AUTOSIZE TBSTYLE_AUTOSIZE // 0x0010; automatically calculate the cx of the button #define BTNS_NOPREFIX TBSTYLE_NOPREFIX // 0x0020; this button should not have accel prefix #if (_WIN32_IE >= 0x0501) #define BTNS_SHOWTEXT 0x0040 // ignored unless TBSTYLE_EX_MIXEDBUTTONS is set #endif // 0x0501 #define BTNS_WHOLEDROPDOWN 0x0080 // draw drop-down arrow, but without split arrow section #endif #if (_WIN32_IE >= 0x0501) #define TBSTYLE_EX_MIXEDBUTTONS 0x00000008 #define TBSTYLE_EX_HIDECLIPPEDBUTTONS 0x00000010 // don't show partially obscured buttons #endif // 0x0501 #if (_WIN32_WINNT >= 0x501) #define TBSTYLE_EX_DOUBLEBUFFER 0x00000080 // Double Buffer the toolbar #endif #if (_WIN32_IE >= 0x0400) // Custom Draw Structure typedef struct _NMTBCUSTOMDRAW { NMCUSTOMDRAW nmcd; HBRUSH hbrMonoDither; HBRUSH hbrLines; // For drawing lines on buttons HPEN hpenLines; // For drawing lines on buttons COLORREF clrText; // Color of text COLORREF clrMark; // Color of text bk when marked. (only if TBSTATE_MARKED) COLORREF clrTextHighlight; // Color of text when highlighted COLORREF clrBtnFace; // Background of the button COLORREF clrBtnHighlight; // 3D highlight COLORREF clrHighlightHotTrack; // In conjunction with fHighlightHotTrack // will cause button to highlight like a menu RECT rcText; // Rect for text int nStringBkMode; int nHLStringBkMode; #if (_WIN32_WINNT >= 0x501) int iListGap; #endif } NMTBCUSTOMDRAW, * LPNMTBCUSTOMDRAW; // Toolbar custom draw return flags #define TBCDRF_NOEDGES 0x00010000 // Don't draw button edges #define TBCDRF_HILITEHOTTRACK 0x00020000 // Use color of the button bk when hottracked #define TBCDRF_NOOFFSET 0x00040000 // Don't offset button if pressed #define TBCDRF_NOMARK 0x00080000 // Don't draw default highlight of image/text for TBSTATE_MARKED #define TBCDRF_NOETCHEDEFFECT 0x00100000 // Don't draw etched effect for disabled items #endif #if (_WIN32_IE >= 0x0500) #define TBCDRF_BLENDICON 0x00200000 // Use ILD_BLEND50 on the icon image #define TBCDRF_NOBACKGROUND 0x00400000 // Use ILD_BLEND50 on the icon image #endif #define TB_ENABLEBUTTON (WM_USER + 1) #define TB_CHECKBUTTON (WM_USER + 2) #define TB_PRESSBUTTON (WM_USER + 3) #define TB_HIDEBUTTON (WM_USER + 4) #define TB_INDETERMINATE (WM_USER + 5) #if (_WIN32_IE >= 0x0400) #define TB_MARKBUTTON (WM_USER + 6) #endif #define TB_ISBUTTONENABLED (WM_USER + 9) #define TB_ISBUTTONCHECKED (WM_USER + 10) #define TB_ISBUTTONPRESSED (WM_USER + 11) #define TB_ISBUTTONHIDDEN (WM_USER + 12) #define TB_ISBUTTONINDETERMINATE (WM_USER + 13) #if (_WIN32_IE >= 0x0400) #define TB_ISBUTTONHIGHLIGHTED (WM_USER + 14) #endif #define TB_SETSTATE (WM_USER + 17) #define TB_GETSTATE (WM_USER + 18) #define TB_ADDBITMAP (WM_USER + 19) #ifdef _WIN32 typedef struct tagTBADDBITMAP { HINSTANCE hInst; UINT_PTR nID; } TBADDBITMAP, *LPTBADDBITMAP; #define HINST_COMMCTRL ((HINSTANCE)-1) #define IDB_STD_SMALL_COLOR 0 #define IDB_STD_LARGE_COLOR 1 #define IDB_VIEW_SMALL_COLOR 4 #define IDB_VIEW_LARGE_COLOR 5 #if (_WIN32_IE >= 0x0300) #define IDB_HIST_SMALL_COLOR 8 #define IDB_HIST_LARGE_COLOR 9 #endif // icon indexes for standard bitmap #define STD_CUT 0 #define STD_COPY 1 #define STD_PASTE 2 #define STD_UNDO 3 #define STD_REDOW 4 #define STD_DELETE 5 #define STD_FILENEW 6 #define STD_FILEOPEN 7 #define STD_FILESAVE 8 #define STD_PRINTPRE 9 #define STD_PROPERTIES 10 #define STD_HELP 11 #define STD_FIND 12 #define STD_REPLACE 13 #define STD_PRINT 14 // icon indexes for standard view bitmap #define VIEW_LARGEICONS 0 #define VIEW_SMALLICONS 1 #define VIEW_LIST 2 #define VIEW_DETAILS 3 #define VIEW_SORTNAME 4 #define VIEW_SORTSIZE 5 #define VIEW_SORTDATE 6 #define VIEW_SORTTYPE 7 #define VIEW_PARENTFOLDER 8 #define VIEW_NETCONNECT 9 #define VIEW_NETDISCONNECT 10 #define VIEW_NEWFOLDER 11 #if (_WIN32_IE >= 0x0400) #define VIEW_VIEWMENU 12 #endif #if (_WIN32_IE >= 0x0300) #define HIST_BACK 0 #define HIST_FORWARD 1 #define HIST_FAVORITES 2 #define HIST_ADDTOFAVORITES 3 #define HIST_VIEWTREE 4 #endif #endif #if (_WIN32_IE >= 0x0400) #define TB_ADDBUTTONSA (WM_USER + 20) #define TB_INSERTBUTTONA (WM_USER + 21) #else #define TB_ADDBUTTONS (WM_USER + 20) #define TB_INSERTBUTTON (WM_USER + 21) #endif #define TB_DELETEBUTTON (WM_USER + 22) #define TB_GETBUTTON (WM_USER + 23) #define TB_BUTTONCOUNT (WM_USER + 24) #define TB_COMMANDTOINDEX (WM_USER + 25) #ifdef _WIN32 typedef struct tagTBSAVEPARAMSA { HKEY hkr; LPCSTR pszSubKey; LPCSTR pszValueName; } TBSAVEPARAMSA, *LPTBSAVEPARAMSA; typedef struct tagTBSAVEPARAMSW { HKEY hkr; LPCWSTR pszSubKey; LPCWSTR pszValueName; } TBSAVEPARAMSW, *LPTBSAVEPARAMW; #ifdef UNICODE #define TBSAVEPARAMS TBSAVEPARAMSW #define LPTBSAVEPARAMS LPTBSAVEPARAMSW #else #define TBSAVEPARAMS TBSAVEPARAMSA #define LPTBSAVEPARAMS LPTBSAVEPARAMSA #endif #endif // _WIN32 #define TB_SAVERESTOREA (WM_USER + 26) #define TB_SAVERESTOREW (WM_USER + 76) #define TB_CUSTOMIZE (WM_USER + 27) #define TB_ADDSTRINGA (WM_USER + 28) #define TB_ADDSTRINGW (WM_USER + 77) #define TB_GETITEMRECT (WM_USER + 29) #define TB_BUTTONSTRUCTSIZE (WM_USER + 30) #define TB_SETBUTTONSIZE (WM_USER + 31) #define TB_SETBITMAPSIZE (WM_USER + 32) #define TB_AUTOSIZE (WM_USER + 33) #define TB_GETTOOLTIPS (WM_USER + 35) #define TB_SETTOOLTIPS (WM_USER + 36) #define TB_SETPARENT (WM_USER + 37) #define TB_SETROWS (WM_USER + 39) #define TB_GETROWS (WM_USER + 40) #define TB_SETCMDID (WM_USER + 42) #define TB_CHANGEBITMAP (WM_USER + 43) #define TB_GETBITMAP (WM_USER + 44) #define TB_GETBUTTONTEXTA (WM_USER + 45) #define TB_GETBUTTONTEXTW (WM_USER + 75) #define TB_REPLACEBITMAP (WM_USER + 46) #if (_WIN32_IE >= 0x0300) #define TB_SETINDENT (WM_USER + 47) #define TB_SETIMAGELIST (WM_USER + 48) #define TB_GETIMAGELIST (WM_USER + 49) #define TB_LOADIMAGES (WM_USER + 50) #define TB_GETRECT (WM_USER + 51) // wParam is the Cmd instead of index #define TB_SETHOTIMAGELIST (WM_USER + 52) #define TB_GETHOTIMAGELIST (WM_USER + 53) #define TB_SETDISABLEDIMAGELIST (WM_USER + 54) #define TB_GETDISABLEDIMAGELIST (WM_USER + 55) #define TB_SETSTYLE (WM_USER + 56) #define TB_GETSTYLE (WM_USER + 57) #define TB_GETBUTTONSIZE (WM_USER + 58) #define TB_SETBUTTONWIDTH (WM_USER + 59) #define TB_SETMAXTEXTROWS (WM_USER + 60) #define TB_GETTEXTROWS (WM_USER + 61) #endif // _WIN32_IE >= 0x0300 #ifdef UNICODE #define TB_GETBUTTONTEXT TB_GETBUTTONTEXTW #define TB_SAVERESTORE TB_SAVERESTOREW #define TB_ADDSTRING TB_ADDSTRINGW #else #define TB_GETBUTTONTEXT TB_GETBUTTONTEXTA #define TB_SAVERESTORE TB_SAVERESTOREA #define TB_ADDSTRING TB_ADDSTRINGA #endif #if (_WIN32_IE >= 0x0400) #define TB_GETOBJECT (WM_USER + 62) // wParam == IID, lParam void **ppv #define TB_GETHOTITEM (WM_USER + 71) #define TB_SETHOTITEM (WM_USER + 72) // wParam == iHotItem #define TB_SETANCHORHIGHLIGHT (WM_USER + 73) // wParam == TRUE/FALSE #define TB_GETANCHORHIGHLIGHT (WM_USER + 74) #define TB_MAPACCELERATORA (WM_USER + 78) // wParam == ch, lParam int * pidBtn typedef struct { int iButton; DWORD dwFlags; } TBINSERTMARK, * LPTBINSERTMARK; #define TBIMHT_AFTER 0x00000001 // TRUE = insert After iButton, otherwise before #define TBIMHT_BACKGROUND 0x00000002 // TRUE iff missed buttons completely #define TB_GETINSERTMARK (WM_USER + 79) // lParam == LPTBINSERTMARK #define TB_SETINSERTMARK (WM_USER + 80) // lParam == LPTBINSERTMARK #define TB_INSERTMARKHITTEST (WM_USER + 81) // wParam == LPPOINT lParam == LPTBINSERTMARK #define TB_MOVEBUTTON (WM_USER + 82) #define TB_GETMAXSIZE (WM_USER + 83) // lParam == LPSIZE #define TB_SETEXTENDEDSTYLE (WM_USER + 84) // For TBSTYLE_EX_* #define TB_GETEXTENDEDSTYLE (WM_USER + 85) // For TBSTYLE_EX_* #define TB_GETPADDING (WM_USER + 86) #define TB_SETPADDING (WM_USER + 87) #define TB_SETINSERTMARKCOLOR (WM_USER + 88) #define TB_GETINSERTMARKCOLOR (WM_USER + 89) #define TB_SETCOLORSCHEME CCM_SETCOLORSCHEME // lParam is color scheme #define TB_GETCOLORSCHEME CCM_GETCOLORSCHEME // fills in COLORSCHEME pointed to by lParam #define TB_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define TB_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #define TB_MAPACCELERATORW (WM_USER + 90) // wParam == ch, lParam int * pidBtn #ifdef UNICODE #define TB_MAPACCELERATOR TB_MAPACCELERATORW #else #define TB_MAPACCELERATOR TB_MAPACCELERATORA #endif #endif // _WIN32_IE >= 0x0400 typedef struct { HINSTANCE hInstOld; UINT_PTR nIDOld; HINSTANCE hInstNew; UINT_PTR nIDNew; int nButtons; } TBREPLACEBITMAP, *LPTBREPLACEBITMAP; #ifdef _WIN32 #define TBBF_LARGE 0x0001 #define TB_GETBITMAPFLAGS (WM_USER + 41) #if (_WIN32_IE >= 0x0400) #define TBIF_IMAGE 0x00000001 #define TBIF_TEXT 0x00000002 #define TBIF_STATE 0x00000004 #define TBIF_STYLE 0x00000008 #define TBIF_LPARAM 0x00000010 #define TBIF_COMMAND 0x00000020 #define TBIF_SIZE 0x00000040 #if (_WIN32_IE >= 0x0500) #define TBIF_BYINDEX 0x80000000 // this specifies that the wparam in Get/SetButtonInfo is an index, not id #endif typedef struct { UINT cbSize; DWORD dwMask; int idCommand; int iImage; BYTE fsState; BYTE fsStyle; WORD cx; DWORD_PTR lParam; LPSTR pszText; int cchText; } TBBUTTONINFOA, *LPTBBUTTONINFOA; typedef struct { UINT cbSize; DWORD dwMask; int idCommand; int iImage; BYTE fsState; BYTE fsStyle; WORD cx; DWORD_PTR lParam; LPWSTR pszText; int cchText; } TBBUTTONINFOW, *LPTBBUTTONINFOW; #ifdef UNICODE #define TBBUTTONINFO TBBUTTONINFOW #define LPTBBUTTONINFO LPTBBUTTONINFOW #else #define TBBUTTONINFO TBBUTTONINFOA #define LPTBBUTTONINFO LPTBBUTTONINFOA #endif // BUTTONINFO APIs do NOT support the string pool. #define TB_GETBUTTONINFOW (WM_USER + 63) #define TB_SETBUTTONINFOW (WM_USER + 64) #define TB_GETBUTTONINFOA (WM_USER + 65) #define TB_SETBUTTONINFOA (WM_USER + 66) #ifdef UNICODE #define TB_GETBUTTONINFO TB_GETBUTTONINFOW #define TB_SETBUTTONINFO TB_SETBUTTONINFOW #else #define TB_GETBUTTONINFO TB_GETBUTTONINFOA #define TB_SETBUTTONINFO TB_SETBUTTONINFOA #endif #define TB_INSERTBUTTONW (WM_USER + 67) #define TB_ADDBUTTONSW (WM_USER + 68) #define TB_HITTEST (WM_USER + 69) // New post Win95/NT4 for InsertButton and AddButton. if iString member // is a pointer to a string, it will be handled as a string like listview // (although LPSTR_TEXTCALLBACK is not supported). #ifdef UNICODE #define TB_INSERTBUTTON TB_INSERTBUTTONW #define TB_ADDBUTTONS TB_ADDBUTTONSW #else #define TB_INSERTBUTTON TB_INSERTBUTTONA #define TB_ADDBUTTONS TB_ADDBUTTONSA #endif #define TB_SETDRAWTEXTFLAGS (WM_USER + 70) // wParam == mask lParam == bit values #endif // _WIN32_IE >= 0x0400 #if (_WIN32_IE >= 0x0500) #define TB_GETSTRINGW (WM_USER + 91) #define TB_GETSTRINGA (WM_USER + 92) #ifdef UNICODE #define TB_GETSTRING TB_GETSTRINGW #else #define TB_GETSTRING TB_GETSTRINGA #endif #endif // _WIN32_IE >= 0x0500 #if (_WIN32_WINNT >= 0x501) #define TBMF_PAD 0x00000001 #define TBMF_BARPAD 0x00000002 #define TBMF_BUTTONSPACING 0x00000004 typedef struct { UINT cbSize; DWORD dwMask; int cxPad; // PAD int cyPad; int cxBarPad; // BARPAD int cyBarPad; int cxButtonSpacing; // BUTTONSPACING int cyButtonSpacing; } TBMETRICS, * LPTBMETRICS; #define TB_GETMETRICS (WM_USER + 101) #define TB_SETMETRICS (WM_USER + 102) #endif #if (_WIN32_WINNT >= 0x501) #define TB_SETWINDOWTHEME CCM_SETWINDOWTHEME #endif #define TBN_GETBUTTONINFOA (TBN_FIRST-0) #define TBN_BEGINDRAG (TBN_FIRST-1) #define TBN_ENDDRAG (TBN_FIRST-2) #define TBN_BEGINADJUST (TBN_FIRST-3) #define TBN_ENDADJUST (TBN_FIRST-4) #define TBN_RESET (TBN_FIRST-5) #define TBN_QUERYINSERT (TBN_FIRST-6) #define TBN_QUERYDELETE (TBN_FIRST-7) #define TBN_TOOLBARCHANGE (TBN_FIRST-8) #define TBN_CUSTHELP (TBN_FIRST-9) #if (_WIN32_IE >= 0x0300) #define TBN_DROPDOWN (TBN_FIRST - 10) #endif #if (_WIN32_IE >= 0x0400) #define TBN_GETOBJECT (TBN_FIRST - 12) // Structure for TBN_HOTITEMCHANGE notification // typedef struct tagNMTBHOTITEM { NMHDR hdr; int idOld; int idNew; DWORD dwFlags; // HICF_* } NMTBHOTITEM, * LPNMTBHOTITEM; // Hot item change flags #define HICF_OTHER 0x00000000 #define HICF_MOUSE 0x00000001 // Triggered by mouse #define HICF_ARROWKEYS 0x00000002 // Triggered by arrow keys #define HICF_ACCELERATOR 0x00000004 // Triggered by accelerator #define HICF_DUPACCEL 0x00000008 // This accelerator is not unique #define HICF_ENTERING 0x00000010 // idOld is invalid #define HICF_LEAVING 0x00000020 // idNew is invalid #define HICF_RESELECT 0x00000040 // hot item reselected #define HICF_LMOUSE 0x00000080 // left mouse button selected #define HICF_TOGGLEDROPDOWN 0x00000100 // Toggle button's dropdown state #define TBN_HOTITEMCHANGE (TBN_FIRST - 13) #define TBN_DRAGOUT (TBN_FIRST - 14) // this is sent when the user clicks down on a button then drags off the button #define TBN_DELETINGBUTTON (TBN_FIRST - 15) // uses TBNOTIFY #define TBN_GETDISPINFOA (TBN_FIRST - 16) // This is sent when the toolbar needs some display information #define TBN_GETDISPINFOW (TBN_FIRST - 17) // This is sent when the toolbar needs some display information #define TBN_GETINFOTIPA (TBN_FIRST - 18) #define TBN_GETINFOTIPW (TBN_FIRST - 19) #define TBN_GETBUTTONINFOW (TBN_FIRST - 20) #if (_WIN32_IE >= 0x0500) #define TBN_RESTORE (TBN_FIRST - 21) #define TBN_SAVE (TBN_FIRST - 22) #define TBN_INITCUSTOMIZE (TBN_FIRST - 23) #define TBNRF_HIDEHELP 0x00000001 #define TBNRF_ENDCUSTOMIZE 0x00000002 #endif // (_WIN32_IE >= 0x0500) #if (_WIN32_IE >= 0x0500) typedef struct tagNMTBSAVE { NMHDR hdr; DWORD* pData; DWORD* pCurrent; UINT cbData; int iItem; int cButtons; TBBUTTON tbButton; } NMTBSAVE, *LPNMTBSAVE; typedef struct tagNMTBRESTORE { NMHDR hdr; DWORD* pData; DWORD* pCurrent; UINT cbData; int iItem; int cButtons; int cbBytesPerRecord; TBBUTTON tbButton; } NMTBRESTORE, *LPNMTBRESTORE; #endif // (_WIN32_IE >= 0x0500) typedef struct tagNMTBGETINFOTIPA { NMHDR hdr; LPSTR pszText; int cchTextMax; int iItem; LPARAM lParam; } NMTBGETINFOTIPA, *LPNMTBGETINFOTIPA; typedef struct tagNMTBGETINFOTIPW { NMHDR hdr; LPWSTR pszText; int cchTextMax; int iItem; LPARAM lParam; } NMTBGETINFOTIPW, *LPNMTBGETINFOTIPW; #ifdef UNICODE #define TBN_GETINFOTIP TBN_GETINFOTIPW #define NMTBGETINFOTIP NMTBGETINFOTIPW #define LPNMTBGETINFOTIP LPNMTBGETINFOTIPW #else #define TBN_GETINFOTIP TBN_GETINFOTIPA #define NMTBGETINFOTIP NMTBGETINFOTIPA #define LPNMTBGETINFOTIP LPNMTBGETINFOTIPA #endif #define TBNF_IMAGE 0x00000001 #define TBNF_TEXT 0x00000002 #define TBNF_DI_SETITEM 0x10000000 typedef struct { NMHDR hdr; DWORD dwMask; // [in] Specifies the values requested .[out] Client ask the data to be set for future use int idCommand; // [in] id of button we're requesting info for DWORD_PTR lParam; // [in] lParam of button int iImage; // [out] image index LPSTR pszText; // [out] new text for item int cchText; // [in] size of buffer pointed to by pszText } NMTBDISPINFOA, *LPNMTBDISPINFOA; typedef struct { NMHDR hdr; DWORD dwMask; //[in] Specifies the values requested .[out] Client ask the data to be set for future use int idCommand; // [in] id of button we're requesting info for DWORD_PTR lParam; // [in] lParam of button int iImage; // [out] image index LPWSTR pszText; // [out] new text for item int cchText; // [in] size of buffer pointed to by pszText } NMTBDISPINFOW, *LPNMTBDISPINFOW; #ifdef UNICODE #define TBN_GETDISPINFO TBN_GETDISPINFOW #define NMTBDISPINFO NMTBDISPINFOW #define LPNMTBDISPINFO LPNMTBDISPINFOW #else #define TBN_GETDISPINFO TBN_GETDISPINFOA #define NMTBDISPINFO NMTBDISPINFOA #define LPNMTBDISPINFO LPNMTBDISPINFOA #endif // Return codes for TBN_DROPDOWN #define TBDDRET_DEFAULT 0 #define TBDDRET_NODEFAULT 1 #define TBDDRET_TREATPRESSED 2 // Treat as a standard press button #endif #ifdef UNICODE #define TBN_GETBUTTONINFO TBN_GETBUTTONINFOW #else #define TBN_GETBUTTONINFO TBN_GETBUTTONINFOA #endif #if (_WIN32_IE >= 0x0300) #define TBNOTIFYA NMTOOLBARA #define TBNOTIFYW NMTOOLBARW #define LPTBNOTIFYA LPNMTOOLBARA #define LPTBNOTIFYW LPNMTOOLBARW #else #define tagNMTOOLBARA tagTBNOTIFYA #define NMTOOLBARA TBNOTIFYA #define LPNMTOOLBARA LPTBNOTIFYA #define tagNMTOOLBARW tagTBNOTIFYW #define NMTOOLBARW TBNOTIFYW #define LPNMTOOLBARW LPTBNOTIFYW #endif #define TBNOTIFY NMTOOLBAR #define LPTBNOTIFY LPNMTOOLBAR #if (_WIN32_IE >= 0x0300) typedef struct tagNMTOOLBARA { NMHDR hdr; int iItem; TBBUTTON tbButton; int cchText; LPSTR pszText; #if (_WIN32_IE >= 0x500) RECT rcButton; #endif } NMTOOLBARA, *LPNMTOOLBARA; #endif #if (_WIN32_IE >= 0x0300) typedef struct tagNMTOOLBARW { NMHDR hdr; int iItem; TBBUTTON tbButton; int cchText; LPWSTR pszText; #if (_WIN32_IE >= 0x500) RECT rcButton; #endif } NMTOOLBARW, *LPNMTOOLBARW; #endif #ifdef UNICODE #define NMTOOLBAR NMTOOLBARW #define LPNMTOOLBAR LPNMTOOLBARW #else #define NMTOOLBAR NMTOOLBARA #define LPNMTOOLBAR LPNMTOOLBARA #endif #endif #endif // NOTOOLBAR #if (_WIN32_IE >= 0x0300) //====== REBAR CONTROL ======================================================== #ifndef NOREBAR #ifdef _WIN32 #define REBARCLASSNAMEW L"ReBarWindow32" #define REBARCLASSNAMEA "ReBarWindow32" #ifdef UNICODE #define REBARCLASSNAME REBARCLASSNAMEW #else #define REBARCLASSNAME REBARCLASSNAMEA #endif #else #define REBARCLASSNAME "ReBarWindow" #endif #define RBIM_IMAGELIST 0x00000001 // begin_r_commctrl #if (_WIN32_IE >= 0x0400) #define RBS_TOOLTIPS 0x0100 #define RBS_VARHEIGHT 0x0200 #define RBS_BANDBORDERS 0x0400 #define RBS_FIXEDORDER 0x0800 #define RBS_REGISTERDROP 0x1000 #define RBS_AUTOSIZE 0x2000 #define RBS_VERTICALGRIPPER 0x4000 // this always has the vertical gripper (default for horizontal mode) #define RBS_DBLCLKTOGGLE 0x8000 #else #define RBS_TOOLTIPS 0x00000100 #define RBS_VARHEIGHT 0x00000200 #define RBS_BANDBORDERS 0x00000400 #define RBS_FIXEDORDER 0x00000800 #endif // _WIN32_IE >= 0x0400 // end_r_commctrl typedef struct tagREBARINFO { UINT cbSize; UINT fMask; #ifndef NOIMAGEAPIS HIMAGELIST himl; #else HANDLE himl; #endif } REBARINFO, *LPREBARINFO; #define RBBS_BREAK 0x00000001 // break to new line #define RBBS_FIXEDSIZE 0x00000002 // band can't be sized #define RBBS_CHILDEDGE 0x00000004 // edge around top & bottom of child window #define RBBS_HIDDEN 0x00000008 // don't show #define RBBS_NOVERT 0x00000010 // don't show when vertical #define RBBS_FIXEDBMP 0x00000020 // bitmap doesn't move during band resize #if (_WIN32_IE >= 0x0400) // #define RBBS_VARIABLEHEIGHT 0x00000040 // allow autosizing of this child vertically #define RBBS_GRIPPERALWAYS 0x00000080 // always show the gripper #define RBBS_NOGRIPPER 0x00000100 // never show the gripper #if (_WIN32_IE >= 0x0500) // #define RBBS_USECHEVRON 0x00000200 // display drop-down button for this band if it's sized smaller than ideal width #if (_WIN32_IE >= 0x0501) // #define RBBS_HIDETITLE 0x00000400 // keep band title hidden #define RBBS_TOPALIGN 0x00000800 // keep band title hidden #endif // 0x0501 // #endif // 0x0500 // #endif // 0x0400 // #define RBBIM_STYLE 0x00000001 #define RBBIM_COLORS 0x00000002 #define RBBIM_TEXT 0x00000004 #define RBBIM_IMAGE 0x00000008 #define RBBIM_CHILD 0x00000010 #define RBBIM_CHILDSIZE 0x00000020 #define RBBIM_SIZE 0x00000040 #define RBBIM_BACKGROUND 0x00000080 #define RBBIM_ID 0x00000100 #if (_WIN32_IE >= 0x0400) #define RBBIM_IDEALSIZE 0x00000200 #define RBBIM_LPARAM 0x00000400 #define RBBIM_HEADERSIZE 0x00000800 // control the size of the header #endif typedef struct tagREBARBANDINFOA { UINT cbSize; UINT fMask; UINT fStyle; COLORREF clrFore; COLORREF clrBack; LPSTR lpText; UINT cch; int iImage; HWND hwndChild; UINT cxMinChild; UINT cyMinChild; UINT cx; HBITMAP hbmBack; UINT wID; #if (_WIN32_IE >= 0x0400) UINT cyChild; UINT cyMaxChild; UINT cyIntegral; UINT cxIdeal; LPARAM lParam; UINT cxHeader; #endif } REBARBANDINFOA, *LPREBARBANDINFOA; typedef REBARBANDINFOA CONST *LPCREBARBANDINFOA; #define REBARBANDINFOA_V3_SIZE CCSIZEOF_STRUCT(REBARBANDINFOA, wID) #define REBARBANDINFOW_V3_SIZE CCSIZEOF_STRUCT(REBARBANDINFOW, wID) typedef struct tagREBARBANDINFOW { UINT cbSize; UINT fMask; UINT fStyle; COLORREF clrFore; COLORREF clrBack; LPWSTR lpText; UINT cch; int iImage; HWND hwndChild; UINT cxMinChild; UINT cyMinChild; UINT cx; HBITMAP hbmBack; UINT wID; #if (_WIN32_IE >= 0x0400) UINT cyChild; UINT cyMaxChild; UINT cyIntegral; UINT cxIdeal; LPARAM lParam; UINT cxHeader; #endif } REBARBANDINFOW, *LPREBARBANDINFOW; typedef REBARBANDINFOW CONST *LPCREBARBANDINFOW; #ifdef UNICODE #define REBARBANDINFO REBARBANDINFOW #define LPREBARBANDINFO LPREBARBANDINFOW #define LPCREBARBANDINFO LPCREBARBANDINFOW #define REBARBANDINFO_V3_SIZE REBARBANDINFOW_V3_SIZE #else #define REBARBANDINFO REBARBANDINFOA #define LPREBARBANDINFO LPREBARBANDINFOA #define LPCREBARBANDINFO LPCREBARBANDINFOA #define REBARBANDINFO_V3_SIZE REBARBANDINFOA_V3_SIZE #endif #define RB_INSERTBANDA (WM_USER + 1) #define RB_DELETEBAND (WM_USER + 2) #define RB_GETBARINFO (WM_USER + 3) #define RB_SETBARINFO (WM_USER + 4) #if (_WIN32_IE < 0x0400) #define RB_GETBANDINFO (WM_USER + 5) #endif #define RB_SETBANDINFOA (WM_USER + 6) #define RB_SETPARENT (WM_USER + 7) #if (_WIN32_IE >= 0x0400) #define RB_HITTEST (WM_USER + 8) #define RB_GETRECT (WM_USER + 9) #endif #define RB_INSERTBANDW (WM_USER + 10) #define RB_SETBANDINFOW (WM_USER + 11) #define RB_GETBANDCOUNT (WM_USER + 12) #define RB_GETROWCOUNT (WM_USER + 13) #define RB_GETROWHEIGHT (WM_USER + 14) #if (_WIN32_IE >= 0x0400) #define RB_IDTOINDEX (WM_USER + 16) // wParam == id #define RB_GETTOOLTIPS (WM_USER + 17) #define RB_SETTOOLTIPS (WM_USER + 18) #define RB_SETBKCOLOR (WM_USER + 19) // sets the default BK color #define RB_GETBKCOLOR (WM_USER + 20) // defaults to CLR_NONE #define RB_SETTEXTCOLOR (WM_USER + 21) #define RB_GETTEXTCOLOR (WM_USER + 22) // defaults to 0x00000000 #if (_WIN32_WINNT >= 0x0501) #define RBSTR_CHANGERECT 0x0001 // flags for RB_SIZETORECT #endif #define RB_SIZETORECT (WM_USER + 23) // resize the rebar/break bands and such to this rect (lparam) #endif // _WIN32_IE >= 0x0400 #define RB_SETCOLORSCHEME CCM_SETCOLORSCHEME // lParam is color scheme #define RB_GETCOLORSCHEME CCM_GETCOLORSCHEME // fills in COLORSCHEME pointed to by lParam #ifdef UNICODE #define RB_INSERTBAND RB_INSERTBANDW #define RB_SETBANDINFO RB_SETBANDINFOW #else #define RB_INSERTBAND RB_INSERTBANDA #define RB_SETBANDINFO RB_SETBANDINFOA #endif #if (_WIN32_IE >= 0x0400) // for manual drag control // lparam == cursor pos // -1 means do it yourself. // -2 means use what you had saved before #define RB_BEGINDRAG (WM_USER + 24) #define RB_ENDDRAG (WM_USER + 25) #define RB_DRAGMOVE (WM_USER + 26) #define RB_GETBARHEIGHT (WM_USER + 27) #define RB_GETBANDINFOW (WM_USER + 28) #define RB_GETBANDINFOA (WM_USER + 29) #ifdef UNICODE #define RB_GETBANDINFO RB_GETBANDINFOW #else #define RB_GETBANDINFO RB_GETBANDINFOA #endif #define RB_MINIMIZEBAND (WM_USER + 30) #define RB_MAXIMIZEBAND (WM_USER + 31) #define RB_GETDROPTARGET (CCM_GETDROPTARGET) #define RB_GETBANDBORDERS (WM_USER + 34) // returns in lparam = lprc the amount of edges added to band wparam #define RB_SHOWBAND (WM_USER + 35) // show/hide band #define RB_SETPALETTE (WM_USER + 37) #define RB_GETPALETTE (WM_USER + 38) #define RB_MOVEBAND (WM_USER + 39) #define RB_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define RB_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #endif // _WIN32_IE >= 0x0400 #if (_WIN32_WINNT >= 0x501) #define RB_GETBANDMARGINS (WM_USER + 40) #define RB_SETWINDOWTHEME CCM_SETWINDOWTHEME #endif #if (_WIN32_IE >= 0x0500) #define RB_PUSHCHEVRON (WM_USER + 43) #endif // _WIN32_IE >= 0x0500 #define RBN_HEIGHTCHANGE (RBN_FIRST - 0) #if (_WIN32_IE >= 0x0400) #define RBN_GETOBJECT (RBN_FIRST - 1) #define RBN_LAYOUTCHANGED (RBN_FIRST - 2) #define RBN_AUTOSIZE (RBN_FIRST - 3) #define RBN_BEGINDRAG (RBN_FIRST - 4) #define RBN_ENDDRAG (RBN_FIRST - 5) #define RBN_DELETINGBAND (RBN_FIRST - 6) // Uses NMREBAR #define RBN_DELETEDBAND (RBN_FIRST - 7) // Uses NMREBAR #define RBN_CHILDSIZE (RBN_FIRST - 8) #if (_WIN32_IE >= 0x0500) #define RBN_CHEVRONPUSHED (RBN_FIRST - 10) #endif // _WIN32_IE >= 0x0500 #if (_WIN32_IE >= 0x0500) #define RBN_MINMAX (RBN_FIRST - 21) #endif #if (_WIN32_WINNT >= 0x0501) #define RBN_AUTOBREAK (RBN_FIRST - 22) #endif typedef struct tagNMREBARCHILDSIZE { NMHDR hdr; UINT uBand; UINT wID; RECT rcChild; RECT rcBand; } NMREBARCHILDSIZE, *LPNMREBARCHILDSIZE; typedef struct tagNMREBAR { NMHDR hdr; DWORD dwMask; // RBNM_* UINT uBand; UINT fStyle; UINT wID; LPARAM lParam; } NMREBAR, *LPNMREBAR; // Mask flags for NMREBAR #define RBNM_ID 0x00000001 #define RBNM_STYLE 0x00000002 #define RBNM_LPARAM 0x00000004 typedef struct tagNMRBAUTOSIZE { NMHDR hdr; BOOL fChanged; RECT rcTarget; RECT rcActual; } NMRBAUTOSIZE, *LPNMRBAUTOSIZE; #if (_WIN32_IE >= 0x0500) typedef struct tagNMREBARCHEVRON { NMHDR hdr; UINT uBand; UINT wID; LPARAM lParam; RECT rc; LPARAM lParamNM; } NMREBARCHEVRON, *LPNMREBARCHEVRON; #endif #if (_WIN32_WINNT >= 0x0501) #define RBAB_AUTOSIZE 0x0001 // These are not flags and are all mutually exclusive #define RBAB_ADDBAND 0x0002 typedef struct tagNMREBARAUTOBREAK { NMHDR hdr; UINT uBand; UINT wID; LPARAM lParam; UINT uMsg; UINT fStyleCurrent; BOOL fAutoBreak; } NMREBARAUTOBREAK, *LPNMREBARAUTOBREAK; #endif #define RBHT_NOWHERE 0x0001 #define RBHT_CAPTION 0x0002 #define RBHT_CLIENT 0x0003 #define RBHT_GRABBER 0x0004 #if (_WIN32_IE >= 0x0500) #define RBHT_CHEVRON 0x0008 #endif typedef struct _RB_HITTESTINFO { POINT pt; UINT flags; int iBand; } RBHITTESTINFO, *LPRBHITTESTINFO; #endif // _WIN32_IE >= 0x0400 #endif // NOREBAR #endif // _WIN32_IE >= 0x0300 //====== TOOLTIPS CONTROL ===================================================== #ifndef NOTOOLTIPS #ifdef _WIN32 #define TOOLTIPS_CLASSW L"tooltips_class32" #define TOOLTIPS_CLASSA "tooltips_class32" #ifdef UNICODE #define TOOLTIPS_CLASS TOOLTIPS_CLASSW #else #define TOOLTIPS_CLASS TOOLTIPS_CLASSA #endif #else #define TOOLTIPS_CLASS "tooltips_class" #endif #if (_WIN32_IE >= 0x0300) #define LPTOOLINFOA LPTTTOOLINFOA #define LPTOOLINFOW LPTTTOOLINFOW #define TOOLINFOA TTTOOLINFOA #define TOOLINFOW TTTOOLINFOW #else #define TTTOOLINFOA TOOLINFOA #define LPTTTOOLINFOA LPTOOLINFOA #define TTTOOLINFOW TOOLINFOW #define LPTTTOOLINFOW LPTOOLINFOW #endif #define LPTOOLINFO LPTTTOOLINFO #define TOOLINFO TTTOOLINFO #define TTTOOLINFOA_V1_SIZE CCSIZEOF_STRUCT(TTTOOLINFOA, lpszText) #define TTTOOLINFOW_V1_SIZE CCSIZEOF_STRUCT(TTTOOLINFOW, lpszText) #define TTTOOLINFOA_V2_SIZE CCSIZEOF_STRUCT(TTTOOLINFOA, lParam) #define TTTOOLINFOW_V2_SIZE CCSIZEOF_STRUCT(TTTOOLINFOW, lParam) #define TTTOOLINFOA_V3_SIZE CCSIZEOF_STRUCT(TTTOOLINFOA, lpReserved) #define TTTOOLINFOW_V3_SIZE CCSIZEOF_STRUCT(TTTOOLINFOW, lpReserved) typedef struct tagTOOLINFOA { UINT cbSize; UINT uFlags; HWND hwnd; UINT_PTR uId; RECT rect; HINSTANCE hinst; LPSTR lpszText; #if (_WIN32_IE >= 0x0300) LPARAM lParam; #endif #if (_WIN32_WINNT >= 0x0501) void *lpReserved; #endif } TTTOOLINFOA, NEAR *PTOOLINFOA, *LPTTTOOLINFOA; typedef struct tagTOOLINFOW { UINT cbSize; UINT uFlags; HWND hwnd; UINT_PTR uId; RECT rect; HINSTANCE hinst; LPWSTR lpszText; #if (_WIN32_IE >= 0x0300) LPARAM lParam; #endif #if (_WIN32_WINNT >= 0x0501) void *lpReserved; #endif } TTTOOLINFOW, NEAR *PTOOLINFOW, *LPTTTOOLINFOW; #ifdef UNICODE #define TTTOOLINFO TTTOOLINFOW #define PTOOLINFO PTOOLINFOW #define LPTTTOOLINFO LPTTTOOLINFOW #define TTTOOLINFO_V1_SIZE TTTOOLINFOW_V1_SIZE #else #define PTOOLINFO PTOOLINFOA #define TTTOOLINFO TTTOOLINFOA #define LPTTTOOLINFO LPTTTOOLINFOA #define TTTOOLINFO_V1_SIZE TTTOOLINFOA_V1_SIZE #endif // begin_r_commctrl #define TTS_ALWAYSTIP 0x01 #define TTS_NOPREFIX 0x02 #if (_WIN32_IE >= 0x0500) #define TTS_NOANIMATE 0x10 #define TTS_NOFADE 0x20 #define TTS_BALLOON 0x40 #define TTS_CLOSE 0x80 #endif // end_r_commctrl #define TTF_IDISHWND 0x0001 // Use this to center around trackpoint in trackmode // -OR- to center around tool in normal mode. // Use TTF_ABSOLUTE to place the tip exactly at the track coords when // in tracking mode. TTF_ABSOLUTE can be used in conjunction with TTF_CENTERTIP // to center the tip absolutely about the track point. #define TTF_CENTERTIP 0x0002 #define TTF_RTLREADING 0x0004 #define TTF_SUBCLASS 0x0010 #if (_WIN32_IE >= 0x0300) #define TTF_TRACK 0x0020 #define TTF_ABSOLUTE 0x0080 #define TTF_TRANSPARENT 0x0100 #if (_WIN32_IE >= 0x0501) #define TTF_PARSELINKS 0x1000 #endif // _WIN32_IE >= 0x0501 #define TTF_DI_SETITEM 0x8000 // valid only on the TTN_NEEDTEXT callback #endif // _WIN32_IE >= 0x0300 #define TTDT_AUTOMATIC 0 #define TTDT_RESHOW 1 #define TTDT_AUTOPOP 2 #define TTDT_INITIAL 3 // ToolTip Icons possible wParam values for TTM_SETTITLE message #define TTI_NONE 0 #define TTI_INFO 1 #define TTI_WARNING 2 #define TTI_ERROR 3 // values larger thant TTI_ERROR are assumed to be an HICON value // Tool Tip Messages #define TTM_ACTIVATE (WM_USER + 1) #define TTM_SETDELAYTIME (WM_USER + 3) #define TTM_ADDTOOLA (WM_USER + 4) #define TTM_ADDTOOLW (WM_USER + 50) #define TTM_DELTOOLA (WM_USER + 5) #define TTM_DELTOOLW (WM_USER + 51) #define TTM_NEWTOOLRECTA (WM_USER + 6) #define TTM_NEWTOOLRECTW (WM_USER + 52) #define TTM_RELAYEVENT (WM_USER + 7) #define TTM_GETTOOLINFOA (WM_USER + 8) #define TTM_GETTOOLINFOW (WM_USER + 53) #define TTM_SETTOOLINFOA (WM_USER + 9) #define TTM_SETTOOLINFOW (WM_USER + 54) #define TTM_HITTESTA (WM_USER +10) #define TTM_HITTESTW (WM_USER +55) #define TTM_GETTEXTA (WM_USER +11) #define TTM_GETTEXTW (WM_USER +56) #define TTM_UPDATETIPTEXTA (WM_USER +12) #define TTM_UPDATETIPTEXTW (WM_USER +57) #define TTM_GETTOOLCOUNT (WM_USER +13) #define TTM_ENUMTOOLSA (WM_USER +14) #define TTM_ENUMTOOLSW (WM_USER +58) #define TTM_GETCURRENTTOOLA (WM_USER + 15) #define TTM_GETCURRENTTOOLW (WM_USER + 59) #define TTM_WINDOWFROMPOINT (WM_USER + 16) #if (_WIN32_IE >= 0x0300) #define TTM_TRACKACTIVATE (WM_USER + 17) // wParam = TRUE/FALSE start end lparam = LPTOOLINFO #define TTM_TRACKPOSITION (WM_USER + 18) // lParam = dwPos #define TTM_SETTIPBKCOLOR (WM_USER + 19) #define TTM_SETTIPTEXTCOLOR (WM_USER + 20) #define TTM_GETDELAYTIME (WM_USER + 21) #define TTM_GETTIPBKCOLOR (WM_USER + 22) #define TTM_GETTIPTEXTCOLOR (WM_USER + 23) #define TTM_SETMAXTIPWIDTH (WM_USER + 24) #define TTM_GETMAXTIPWIDTH (WM_USER + 25) #define TTM_SETMARGIN (WM_USER + 26) // lParam = lprc #define TTM_GETMARGIN (WM_USER + 27) // lParam = lprc #define TTM_POP (WM_USER + 28) #endif #if (_WIN32_IE >= 0x0400) #define TTM_UPDATE (WM_USER + 29) #endif #if (_WIN32_IE >= 0x0500) #define TTM_GETBUBBLESIZE (WM_USER + 30) #define TTM_ADJUSTRECT (WM_USER + 31) #define TTM_SETTITLEA (WM_USER + 32) // wParam = TTI_*, lParam = char* szTitle #define TTM_SETTITLEW (WM_USER + 33) // wParam = TTI_*, lParam = wchar* szTitle #endif #if (_WIN32_WINNT >= 0x0501) #define TTM_POPUP (WM_USER + 34) #define TTM_GETTITLE (WM_USER + 35) // wParam = 0, lParam = TTGETTITLE* typedef struct _TTGETTITLE { DWORD dwSize; UINT uTitleBitmap; UINT cch; WCHAR* pszTitle; } TTGETTITLE, *PTTGETTITLE; #endif #ifdef UNICODE #define TTM_ADDTOOL TTM_ADDTOOLW #define TTM_DELTOOL TTM_DELTOOLW #define TTM_NEWTOOLRECT TTM_NEWTOOLRECTW #define TTM_GETTOOLINFO TTM_GETTOOLINFOW #define TTM_SETTOOLINFO TTM_SETTOOLINFOW #define TTM_HITTEST TTM_HITTESTW #define TTM_GETTEXT TTM_GETTEXTW #define TTM_UPDATETIPTEXT TTM_UPDATETIPTEXTW #define TTM_ENUMTOOLS TTM_ENUMTOOLSW #define TTM_GETCURRENTTOOL TTM_GETCURRENTTOOLW #if (_WIN32_IE >= 0x0500) #define TTM_SETTITLE TTM_SETTITLEW #endif #else #define TTM_ADDTOOL TTM_ADDTOOLA #define TTM_DELTOOL TTM_DELTOOLA #define TTM_NEWTOOLRECT TTM_NEWTOOLRECTA #define TTM_GETTOOLINFO TTM_GETTOOLINFOA #define TTM_SETTOOLINFO TTM_SETTOOLINFOA #define TTM_HITTEST TTM_HITTESTA #define TTM_GETTEXT TTM_GETTEXTA #define TTM_UPDATETIPTEXT TTM_UPDATETIPTEXTA #define TTM_ENUMTOOLS TTM_ENUMTOOLSA #define TTM_GETCURRENTTOOL TTM_GETCURRENTTOOLA #if (_WIN32_IE >= 0x0500) #define TTM_SETTITLE TTM_SETTITLEA #endif #endif #if (_WIN32_WINNT >= 0x501) #define TTM_SETWINDOWTHEME CCM_SETWINDOWTHEME #endif #if (_WIN32_IE >= 0x0300) #define LPHITTESTINFOW LPTTHITTESTINFOW #define LPHITTESTINFOA LPTTHITTESTINFOA #else #define LPTTHITTESTINFOA LPHITTESTINFOA #define LPTTHITTESTINFOW LPHITTESTINFOW #endif #define LPHITTESTINFO LPTTHITTESTINFO typedef struct _TT_HITTESTINFOA { HWND hwnd; POINT pt; TTTOOLINFOA ti; } TTHITTESTINFOA, *LPTTHITTESTINFOA; typedef struct _TT_HITTESTINFOW { HWND hwnd; POINT pt; TTTOOLINFOW ti; } TTHITTESTINFOW, *LPTTHITTESTINFOW; #ifdef UNICODE #define TTHITTESTINFO TTHITTESTINFOW #define LPTTHITTESTINFO LPTTHITTESTINFOW #else #define TTHITTESTINFO TTHITTESTINFOA #define LPTTHITTESTINFO LPTTHITTESTINFOA #endif #define TTN_GETDISPINFOA (TTN_FIRST - 0) #define TTN_GETDISPINFOW (TTN_FIRST - 10) #define TTN_SHOW (TTN_FIRST - 1) #define TTN_POP (TTN_FIRST - 2) #define TTN_LINKCLICK (TTN_FIRST - 3) #ifdef UNICODE #define TTN_GETDISPINFO TTN_GETDISPINFOW #else #define TTN_GETDISPINFO TTN_GETDISPINFOA #endif #define TTN_NEEDTEXT TTN_GETDISPINFO #define TTN_NEEDTEXTA TTN_GETDISPINFOA #define TTN_NEEDTEXTW TTN_GETDISPINFOW #if (_WIN32_IE >= 0x0300) #define TOOLTIPTEXTW NMTTDISPINFOW #define TOOLTIPTEXTA NMTTDISPINFOA #define LPTOOLTIPTEXTA LPNMTTDISPINFOA #define LPTOOLTIPTEXTW LPNMTTDISPINFOW #else #define tagNMTTDISPINFOA tagTOOLTIPTEXTA #define NMTTDISPINFOA TOOLTIPTEXTA #define LPNMTTDISPINFOA LPTOOLTIPTEXTA #define tagNMTTDISPINFOW tagTOOLTIPTEXTW #define NMTTDISPINFOW TOOLTIPTEXTW #define LPNMTTDISPINFOW LPTOOLTIPTEXTW #endif #define TOOLTIPTEXT NMTTDISPINFO #define LPTOOLTIPTEXT LPNMTTDISPINFO #define NMTTDISPINFOA_V1_SIZE CCSIZEOF_STRUCT(NMTTDISPINFOA, uFlags) #define NMTTDISPINFOW_V1_SIZE CCSIZEOF_STRUCT(NMTTDISPINFOW, uFlags) typedef struct tagNMTTDISPINFOA { NMHDR hdr; LPSTR lpszText; char szText[80]; HINSTANCE hinst; UINT uFlags; #if (_WIN32_IE >= 0x0300) LPARAM lParam; #endif } NMTTDISPINFOA, *LPNMTTDISPINFOA; typedef struct tagNMTTDISPINFOW { NMHDR hdr; LPWSTR lpszText; WCHAR szText[80]; HINSTANCE hinst; UINT uFlags; #if (_WIN32_IE >= 0x0300) LPARAM lParam; #endif } NMTTDISPINFOW, *LPNMTTDISPINFOW; #ifdef UNICODE #define NMTTDISPINFO NMTTDISPINFOW #define LPNMTTDISPINFO LPNMTTDISPINFOW #define NMTTDISPINFO_V1_SIZE NMTTDISPINFOW_V1_SIZE #else #define NMTTDISPINFO NMTTDISPINFOA #define LPNMTTDISPINFO LPNMTTDISPINFOA #define NMTTDISPINFO_V1_SIZE NMTTDISPINFOA_V1_SIZE #endif #endif // NOTOOLTIPS //====== STATUS BAR CONTROL =================================================== #ifndef NOSTATUSBAR // begin_r_commctrl #define SBARS_SIZEGRIP 0x0100 #if (_WIN32_IE >= 0x0500) #define SBARS_TOOLTIPS 0x0800 #endif #if (_WIN32_IE >= 0x0400) // this is a status bar flag, preference to SBARS_TOOLTIPS #define SBT_TOOLTIPS 0x0800 #endif // end_r_commctrl WINCOMMCTRLAPI void WINAPI DrawStatusTextA(HDC hDC, LPRECT lprc, LPCSTR pszText, UINT uFlags); WINCOMMCTRLAPI void WINAPI DrawStatusTextW(HDC hDC, LPRECT lprc, LPCWSTR pszText, UINT uFlags); WINCOMMCTRLAPI HWND WINAPI CreateStatusWindowA(LONG style, LPCSTR lpszText, HWND hwndParent, UINT wID); WINCOMMCTRLAPI HWND WINAPI CreateStatusWindowW(LONG style, LPCWSTR lpszText, HWND hwndParent, UINT wID); #ifdef UNICODE #define CreateStatusWindow CreateStatusWindowW #define DrawStatusText DrawStatusTextW #else #define CreateStatusWindow CreateStatusWindowA #define DrawStatusText DrawStatusTextA #endif #ifdef _WIN32 #define STATUSCLASSNAMEW L"msctls_statusbar32" #define STATUSCLASSNAMEA "msctls_statusbar32" #ifdef UNICODE #define STATUSCLASSNAME STATUSCLASSNAMEW #else #define STATUSCLASSNAME STATUSCLASSNAMEA #endif #else #define STATUSCLASSNAME "msctls_statusbar" #endif #define SB_SETTEXTA (WM_USER+1) #define SB_SETTEXTW (WM_USER+11) #define SB_GETTEXTA (WM_USER+2) #define SB_GETTEXTW (WM_USER+13) #define SB_GETTEXTLENGTHA (WM_USER+3) #define SB_GETTEXTLENGTHW (WM_USER+12) #ifdef UNICODE #define SB_GETTEXT SB_GETTEXTW #define SB_SETTEXT SB_SETTEXTW #define SB_GETTEXTLENGTH SB_GETTEXTLENGTHW #if (_WIN32_IE >= 0x0400) #define SB_SETTIPTEXT SB_SETTIPTEXTW #define SB_GETTIPTEXT SB_GETTIPTEXTW #endif #else #define SB_GETTEXT SB_GETTEXTA #define SB_SETTEXT SB_SETTEXTA #define SB_GETTEXTLENGTH SB_GETTEXTLENGTHA #if (_WIN32_IE >= 0x0400) #define SB_SETTIPTEXT SB_SETTIPTEXTA #define SB_GETTIPTEXT SB_GETTIPTEXTA #endif #endif #define SB_SETPARTS (WM_USER+4) #define SB_GETPARTS (WM_USER+6) #define SB_GETBORDERS (WM_USER+7) #define SB_SETMINHEIGHT (WM_USER+8) #define SB_SIMPLE (WM_USER+9) #define SB_GETRECT (WM_USER+10) #if (_WIN32_IE >= 0x0300) #define SB_ISSIMPLE (WM_USER+14) #endif #if (_WIN32_IE >= 0x0400) #define SB_SETICON (WM_USER+15) #define SB_SETTIPTEXTA (WM_USER+16) #define SB_SETTIPTEXTW (WM_USER+17) #define SB_GETTIPTEXTA (WM_USER+18) #define SB_GETTIPTEXTW (WM_USER+19) #define SB_GETICON (WM_USER+20) #define SB_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define SB_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #endif #define SBT_OWNERDRAW 0x1000 #define SBT_NOBORDERS 0x0100 #define SBT_POPOUT 0x0200 #define SBT_RTLREADING 0x0400 #if (_WIN32_IE >= 0x0500) #define SBT_NOTABPARSING 0x0800 #endif #define SB_SETBKCOLOR CCM_SETBKCOLOR // lParam = bkColor /// status bar notifications #if (_WIN32_IE >= 0x0400) #define SBN_SIMPLEMODECHANGE (SBN_FIRST - 0) #endif #if (_WIN32_IE >= 0x0500) // refers to the data saved for simple mode #define SB_SIMPLEID 0x00ff #endif #endif // NOSTATUSBAR //====== MENU HELP ============================================================ #ifndef NOMENUHELP WINCOMMCTRLAPI void WINAPI MenuHelp(UINT uMsg, WPARAM wParam, LPARAM lParam, HMENU hMainMenu, HINSTANCE hInst, HWND hwndStatus, UINT *lpwIDs); WINCOMMCTRLAPI BOOL WINAPI ShowHideMenuCtl(HWND hWnd, UINT_PTR uFlags, LPINT lpInfo); WINCOMMCTRLAPI void WINAPI GetEffectiveClientRect(HWND hWnd, LPRECT lprc, LPINT lpInfo); #define MINSYSCOMMAND SC_SIZE #endif //====== TRACKBAR CONTROL ===================================================== #ifndef NOTRACKBAR #ifdef _WIN32 #define TRACKBAR_CLASSA "msctls_trackbar32" #define TRACKBAR_CLASSW L"msctls_trackbar32" #ifdef UNICODE #define TRACKBAR_CLASS TRACKBAR_CLASSW #else #define TRACKBAR_CLASS TRACKBAR_CLASSA #endif #else #define TRACKBAR_CLASS "msctls_trackbar" #endif // begin_r_commctrl #define TBS_AUTOTICKS 0x0001 #define TBS_VERT 0x0002 #define TBS_HORZ 0x0000 #define TBS_TOP 0x0004 #define TBS_BOTTOM 0x0000 #define TBS_LEFT 0x0004 #define TBS_RIGHT 0x0000 #define TBS_BOTH 0x0008 #define TBS_NOTICKS 0x0010 #define TBS_ENABLESELRANGE 0x0020 #define TBS_FIXEDLENGTH 0x0040 #define TBS_NOTHUMB 0x0080 #if (_WIN32_IE >= 0x0300) #define TBS_TOOLTIPS 0x0100 #endif #if (_WIN32_IE >= 0x0500) #define TBS_REVERSED 0x0200 // Accessibility hint: the smaller number (usually the min value) means "high" and the larger number (usually the max value) means "low" #endif #if (_WIN32_IE >= 0x0501) #define TBS_DOWNISLEFT 0x0400 // Down=Left and Up=Right (default is Down=Right and Up=Left) #endif // end_r_commctrl #define TBM_GETPOS (WM_USER) #define TBM_GETRANGEMIN (WM_USER+1) #define TBM_GETRANGEMAX (WM_USER+2) #define TBM_GETTIC (WM_USER+3) #define TBM_SETTIC (WM_USER+4) #define TBM_SETPOS (WM_USER+5) #define TBM_SETRANGE (WM_USER+6) #define TBM_SETRANGEMIN (WM_USER+7) #define TBM_SETRANGEMAX (WM_USER+8) #define TBM_CLEARTICS (WM_USER+9) #define TBM_SETSEL (WM_USER+10) #define TBM_SETSELSTART (WM_USER+11) #define TBM_SETSELEND (WM_USER+12) #define TBM_GETPTICS (WM_USER+14) #define TBM_GETTICPOS (WM_USER+15) #define TBM_GETNUMTICS (WM_USER+16) #define TBM_GETSELSTART (WM_USER+17) #define TBM_GETSELEND (WM_USER+18) #define TBM_CLEARSEL (WM_USER+19) #define TBM_SETTICFREQ (WM_USER+20) #define TBM_SETPAGESIZE (WM_USER+21) #define TBM_GETPAGESIZE (WM_USER+22) #define TBM_SETLINESIZE (WM_USER+23) #define TBM_GETLINESIZE (WM_USER+24) #define TBM_GETTHUMBRECT (WM_USER+25) #define TBM_GETCHANNELRECT (WM_USER+26) #define TBM_SETTHUMBLENGTH (WM_USER+27) #define TBM_GETTHUMBLENGTH (WM_USER+28) #if (_WIN32_IE >= 0x0300) #define TBM_SETTOOLTIPS (WM_USER+29) #define TBM_GETTOOLTIPS (WM_USER+30) #define TBM_SETTIPSIDE (WM_USER+31) // TrackBar Tip Side flags #define TBTS_TOP 0 #define TBTS_LEFT 1 #define TBTS_BOTTOM 2 #define TBTS_RIGHT 3 #define TBM_SETBUDDY (WM_USER+32) // wparam = BOOL fLeft; (or right) #define TBM_GETBUDDY (WM_USER+33) // wparam = BOOL fLeft; (or right) #endif #if (_WIN32_IE >= 0x0400) #define TBM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define TBM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #endif #define TB_LINEUP 0 #define TB_LINEDOWN 1 #define TB_PAGEUP 2 #define TB_PAGEDOWN 3 #define TB_THUMBPOSITION 4 #define TB_THUMBTRACK 5 #define TB_TOP 6 #define TB_BOTTOM 7 #define TB_ENDTRACK 8 #if (_WIN32_IE >= 0x0300) // custom draw item specs #define TBCD_TICS 0x0001 #define TBCD_THUMB 0x0002 #define TBCD_CHANNEL 0x0003 #endif #endif // trackbar //====== DRAG LIST CONTROL ==================================================== #ifndef NODRAGLIST typedef struct tagDRAGLISTINFO { UINT uNotification; HWND hWnd; POINT ptCursor; } DRAGLISTINFO, *LPDRAGLISTINFO; #define DL_BEGINDRAG (WM_USER+133) #define DL_DRAGGING (WM_USER+134) #define DL_DROPPED (WM_USER+135) #define DL_CANCELDRAG (WM_USER+136) #define DL_CURSORSET 0 #define DL_STOPCURSOR 1 #define DL_COPYCURSOR 2 #define DL_MOVECURSOR 3 #define DRAGLISTMSGSTRING TEXT("commctrl_DragListMsg") WINCOMMCTRLAPI BOOL WINAPI MakeDragList(HWND hLB); WINCOMMCTRLAPI void WINAPI DrawInsert(HWND handParent, HWND hLB, int nItem); WINCOMMCTRLAPI int WINAPI LBItemFromPt(HWND hLB, POINT pt, BOOL bAutoScroll); #endif //====== UPDOWN CONTROL ======================================================= #ifndef NOUPDOWN #ifdef _WIN32 #define UPDOWN_CLASSA "msctls_updown32" #define UPDOWN_CLASSW L"msctls_updown32" #ifdef UNICODE #define UPDOWN_CLASS UPDOWN_CLASSW #else #define UPDOWN_CLASS UPDOWN_CLASSA #endif #else #define UPDOWN_CLASS "msctls_updown" #endif typedef struct _UDACCEL { UINT nSec; UINT nInc; } UDACCEL, *LPUDACCEL; #define UD_MAXVAL 0x7fff #define UD_MINVAL (-UD_MAXVAL) // begin_r_commctrl #define UDS_WRAP 0x0001 #define UDS_SETBUDDYINT 0x0002 #define UDS_ALIGNRIGHT 0x0004 #define UDS_ALIGNLEFT 0x0008 #define UDS_AUTOBUDDY 0x0010 #define UDS_ARROWKEYS 0x0020 #define UDS_HORZ 0x0040 #define UDS_NOTHOUSANDS 0x0080 #if (_WIN32_IE >= 0x0300) #define UDS_HOTTRACK 0x0100 #endif // end_r_commctrl #define UDM_SETRANGE (WM_USER+101) #define UDM_GETRANGE (WM_USER+102) #define UDM_SETPOS (WM_USER+103) #define UDM_GETPOS (WM_USER+104) #define UDM_SETBUDDY (WM_USER+105) #define UDM_GETBUDDY (WM_USER+106) #define UDM_SETACCEL (WM_USER+107) #define UDM_GETACCEL (WM_USER+108) #define UDM_SETBASE (WM_USER+109) #define UDM_GETBASE (WM_USER+110) #if (_WIN32_IE >= 0x0400) #define UDM_SETRANGE32 (WM_USER+111) #define UDM_GETRANGE32 (WM_USER+112) // wParam & lParam are LPINT #define UDM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define UDM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #endif #if (_WIN32_IE >= 0x0500) #define UDM_SETPOS32 (WM_USER+113) #define UDM_GETPOS32 (WM_USER+114) #endif WINCOMMCTRLAPI HWND WINAPI CreateUpDownControl(DWORD dwStyle, int x, int y, int cx, int cy, HWND hParent, int nID, HINSTANCE hInst, HWND hBuddy, int nUpper, int nLower, int nPos); #if (_WIN32_IE >= 0x0300) #define NM_UPDOWN NMUPDOWN #define LPNM_UPDOWN LPNMUPDOWN #else #define NMUPDOWN NM_UPDOWN #define LPNMUPDOWN LPNM_UPDOWN #endif typedef struct _NM_UPDOWN { NMHDR hdr; int iPos; int iDelta; } NMUPDOWN, *LPNMUPDOWN; #define UDN_DELTAPOS (UDN_FIRST - 1) #endif // NOUPDOWN //====== PROGRESS CONTROL ===================================================== #ifndef NOPROGRESS #ifdef _WIN32 #define PROGRESS_CLASSA "msctls_progress32" #define PROGRESS_CLASSW L"msctls_progress32" #ifdef UNICODE #define PROGRESS_CLASS PROGRESS_CLASSW #else #define PROGRESS_CLASS PROGRESS_CLASSA #endif #else #define PROGRESS_CLASS "msctls_progress" #endif // begin_r_commctrl #if (_WIN32_IE >= 0x0300) #define PBS_SMOOTH 0x01 #define PBS_VERTICAL 0x04 #endif // end_r_commctrl #define PBM_SETRANGE (WM_USER+1) #define PBM_SETPOS (WM_USER+2) #define PBM_DELTAPOS (WM_USER+3) #define PBM_SETSTEP (WM_USER+4) #define PBM_STEPIT (WM_USER+5) #if (_WIN32_IE >= 0x0300) #define PBM_SETRANGE32 (WM_USER+6) // lParam = high, wParam = low typedef struct { int iLow; int iHigh; } PBRANGE, *PPBRANGE; #define PBM_GETRANGE (WM_USER+7) // wParam = return (TRUE ? low : high). lParam = PPBRANGE or NULL #define PBM_GETPOS (WM_USER+8) #if (_WIN32_IE >= 0x0400) #define PBM_SETBARCOLOR (WM_USER+9) // lParam = bar color #endif // _WIN32_IE >= 0x0400 #define PBM_SETBKCOLOR CCM_SETBKCOLOR // lParam = bkColor #endif // _WIN32_IE >= 0x0300 #if (_WIN32_WINNT >= 0x0501) #define PBS_MARQUEE 0x08 #define PBM_SETMARQUEE (WM_USER+10) #endif // _WIN32_WINNT >= 0x0501 #endif // NOPROGRESS //====== HOTKEY CONTROL ======================================================= #ifndef NOHOTKEY #define HOTKEYF_SHIFT 0x01 #define HOTKEYF_CONTROL 0x02 #define HOTKEYF_ALT 0x04 #ifdef _MAC #define HOTKEYF_EXT 0x80 #else #define HOTKEYF_EXT 0x08 #endif #define HKCOMB_NONE 0x0001 #define HKCOMB_S 0x0002 #define HKCOMB_C 0x0004 #define HKCOMB_A 0x0008 #define HKCOMB_SC 0x0010 #define HKCOMB_SA 0x0020 #define HKCOMB_CA 0x0040 #define HKCOMB_SCA 0x0080 #define HKM_SETHOTKEY (WM_USER+1) #define HKM_GETHOTKEY (WM_USER+2) #define HKM_SETRULES (WM_USER+3) #ifdef _WIN32 #define HOTKEY_CLASSA "msctls_hotkey32" #define HOTKEY_CLASSW L"msctls_hotkey32" #ifdef UNICODE #define HOTKEY_CLASS HOTKEY_CLASSW #else #define HOTKEY_CLASS HOTKEY_CLASSA #endif #else #define HOTKEY_CLASS "msctls_hotkey" #endif #endif // NOHOTKEY // begin_r_commctrl //====== COMMON CONTROL STYLES ================================================ #define CCS_TOP 0x00000001L #define CCS_NOMOVEY 0x00000002L #define CCS_BOTTOM 0x00000003L #define CCS_NORESIZE 0x00000004L #define CCS_NOPARENTALIGN 0x00000008L #define CCS_ADJUSTABLE 0x00000020L #define CCS_NODIVIDER 0x00000040L #if (_WIN32_IE >= 0x0300) #define CCS_VERT 0x00000080L #define CCS_LEFT (CCS_VERT | CCS_TOP) #define CCS_RIGHT (CCS_VERT | CCS_BOTTOM) #define CCS_NOMOVEX (CCS_VERT | CCS_NOMOVEY) #endif // end_r_commctrl //====== LISTVIEW CONTROL ===================================================== #ifndef NOLISTVIEW #ifdef _WIN32 #define WC_LISTVIEWA "SysListView32" #define WC_LISTVIEWW L"SysListView32" #ifdef UNICODE #define WC_LISTVIEW WC_LISTVIEWW #else #define WC_LISTVIEW WC_LISTVIEWA #endif #else #define WC_LISTVIEW "SysListView" #endif // begin_r_commctrl #define LVS_ICON 0x0000 #define LVS_REPORT 0x0001 #define LVS_SMALLICON 0x0002 #define LVS_LIST 0x0003 #define LVS_TYPEMASK 0x0003 #define LVS_SINGLESEL 0x0004 #define LVS_SHOWSELALWAYS 0x0008 #define LVS_SORTASCENDING 0x0010 #define LVS_SORTDESCENDING 0x0020 #define LVS_SHAREIMAGELISTS 0x0040 #define LVS_NOLABELWRAP 0x0080 #define LVS_AUTOARRANGE 0x0100 #define LVS_EDITLABELS 0x0200 #if (_WIN32_IE >= 0x0300) #define LVS_OWNERDATA 0x1000 #endif #define LVS_NOSCROLL 0x2000 #define LVS_TYPESTYLEMASK 0xfc00 #define LVS_ALIGNTOP 0x0000 #define LVS_ALIGNLEFT 0x0800 #define LVS_ALIGNMASK 0x0c00 #define LVS_OWNERDRAWFIXED 0x0400 #define LVS_NOCOLUMNHEADER 0x4000 #define LVS_NOSORTHEADER 0x8000 // end_r_commctrl #if (_WIN32_IE >= 0x0400) #define LVM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define ListView_SetUnicodeFormat(hwnd, fUnicode) \ (BOOL)SNDMSG((hwnd), LVM_SETUNICODEFORMAT, (WPARAM)(fUnicode), 0) #define LVM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #define ListView_GetUnicodeFormat(hwnd) \ (BOOL)SNDMSG((hwnd), LVM_GETUNICODEFORMAT, 0, 0) #endif #define LVM_GETBKCOLOR (LVM_FIRST + 0) #define ListView_GetBkColor(hwnd) \ (COLORREF)SNDMSG((hwnd), LVM_GETBKCOLOR, 0, 0L) #define LVM_SETBKCOLOR (LVM_FIRST + 1) #define ListView_SetBkColor(hwnd, clrBk) \ (BOOL)SNDMSG((hwnd), LVM_SETBKCOLOR, 0, (LPARAM)(COLORREF)(clrBk)) #define LVM_GETIMAGELIST (LVM_FIRST + 2) #define ListView_GetImageList(hwnd, iImageList) \ (HIMAGELIST)SNDMSG((hwnd), LVM_GETIMAGELIST, (WPARAM)(INT)(iImageList), 0L) #define LVSIL_NORMAL 0 #define LVSIL_SMALL 1 #define LVSIL_STATE 2 #define LVM_SETIMAGELIST (LVM_FIRST + 3) #define ListView_SetImageList(hwnd, himl, iImageList) \ (HIMAGELIST)SNDMSG((hwnd), LVM_SETIMAGELIST, (WPARAM)(iImageList), (LPARAM)(HIMAGELIST)(himl)) #define LVM_GETITEMCOUNT (LVM_FIRST + 4) #define ListView_GetItemCount(hwnd) \ (int)SNDMSG((hwnd), LVM_GETITEMCOUNT, 0, 0L) #define LVIF_TEXT 0x0001 #define LVIF_IMAGE 0x0002 #define LVIF_PARAM 0x0004 #define LVIF_STATE 0x0008 #if (_WIN32_IE >= 0x0300) #define LVIF_INDENT 0x0010 #define LVIF_NORECOMPUTE 0x0800 #endif #if (_WIN32_WINNT >= 0x501) #define LVIF_GROUPID 0x0100 #define LVIF_COLUMNS 0x0200 #endif #define LVIS_FOCUSED 0x0001 #define LVIS_SELECTED 0x0002 #define LVIS_CUT 0x0004 #define LVIS_DROPHILITED 0x0008 #define LVIS_GLOW 0x0010 #define LVIS_ACTIVATING 0x0020 #define LVIS_OVERLAYMASK 0x0F00 #define LVIS_STATEIMAGEMASK 0xF000 #define INDEXTOSTATEIMAGEMASK(i) ((i) << 12) #if (_WIN32_IE >= 0x0300) #define I_INDENTCALLBACK (-1) #define LV_ITEMA LVITEMA #define LV_ITEMW LVITEMW #else #define tagLVITEMA _LV_ITEMA #define LVITEMA LV_ITEMA #define tagLVITEMW _LV_ITEMW #define LVITEMW LV_ITEMW #endif #if (_WIN32_WINNT >= 0x501) #define I_GROUPIDCALLBACK (-1) #define I_GROUPIDNONE (-2) #endif #define LV_ITEM LVITEM #define LVITEMA_V1_SIZE CCSIZEOF_STRUCT(LVITEMA, lParam) #define LVITEMW_V1_SIZE CCSIZEOF_STRUCT(LVITEMW, lParam) typedef struct tagLVITEMA { UINT mask; int iItem; int iSubItem; UINT state; UINT stateMask; LPSTR pszText; int cchTextMax; int iImage; LPARAM lParam; #if (_WIN32_IE >= 0x0300) int iIndent; #endif #if (_WIN32_WINNT >= 0x501) int iGroupId; UINT cColumns; // tile view columns PUINT puColumns; #endif } LVITEMA, *LPLVITEMA; typedef struct tagLVITEMW { UINT mask; int iItem; int iSubItem; UINT state; UINT stateMask; LPWSTR pszText; int cchTextMax; int iImage; LPARAM lParam; #if (_WIN32_IE >= 0x0300) int iIndent; #endif #if (_WIN32_WINNT >= 0x501) int iGroupId; UINT cColumns; // tile view columns PUINT puColumns; #endif } LVITEMW, *LPLVITEMW; #ifdef UNICODE #define LVITEM LVITEMW #define LPLVITEM LPLVITEMW #define LVITEM_V1_SIZE LVITEMW_V1_SIZE #else #define LVITEM LVITEMA #define LPLVITEM LPLVITEMA #define LVITEM_V1_SIZE LVITEMA_V1_SIZE #endif #define LPSTR_TEXTCALLBACKW ((LPWSTR)-1L) #define LPSTR_TEXTCALLBACKA ((LPSTR)-1L) #ifdef UNICODE #define LPSTR_TEXTCALLBACK LPSTR_TEXTCALLBACKW #else #define LPSTR_TEXTCALLBACK LPSTR_TEXTCALLBACKA #endif #define I_IMAGECALLBACK (-1) #if (_WIN32_IE >= 0x0501) #define I_IMAGENONE (-2) #endif // 0x0501 #if (_WIN32_WINNT >= 0x501) // For tileview #define I_COLUMNSCALLBACK ((UINT)-1) #endif #define LVM_GETITEMA (LVM_FIRST + 5) #define LVM_GETITEMW (LVM_FIRST + 75) #ifdef UNICODE #define LVM_GETITEM LVM_GETITEMW #else #define LVM_GETITEM LVM_GETITEMA #endif #define ListView_GetItem(hwnd, pitem) \ (BOOL)SNDMSG((hwnd), LVM_GETITEM, 0, (LPARAM)(LV_ITEM *)(pitem)) #define LVM_SETITEMA (LVM_FIRST + 6) #define LVM_SETITEMW (LVM_FIRST + 76) #ifdef UNICODE #define LVM_SETITEM LVM_SETITEMW #else #define LVM_SETITEM LVM_SETITEMA #endif #define ListView_SetItem(hwnd, pitem) \ (BOOL)SNDMSG((hwnd), LVM_SETITEM, 0, (LPARAM)(const LV_ITEM *)(pitem)) #define LVM_INSERTITEMA (LVM_FIRST + 7) #define LVM_INSERTITEMW (LVM_FIRST + 77) #ifdef UNICODE #define LVM_INSERTITEM LVM_INSERTITEMW #else #define LVM_INSERTITEM LVM_INSERTITEMA #endif #define ListView_InsertItem(hwnd, pitem) \ (int)SNDMSG((hwnd), LVM_INSERTITEM, 0, (LPARAM)(const LV_ITEM *)(pitem)) #define LVM_DELETEITEM (LVM_FIRST + 8) #define ListView_DeleteItem(hwnd, i) \ (BOOL)SNDMSG((hwnd), LVM_DELETEITEM, (WPARAM)(int)(i), 0L) #define LVM_DELETEALLITEMS (LVM_FIRST + 9) #define ListView_DeleteAllItems(hwnd) \ (BOOL)SNDMSG((hwnd), LVM_DELETEALLITEMS, 0, 0L) #define LVM_GETCALLBACKMASK (LVM_FIRST + 10) #define ListView_GetCallbackMask(hwnd) \ (BOOL)SNDMSG((hwnd), LVM_GETCALLBACKMASK, 0, 0) #define LVM_SETCALLBACKMASK (LVM_FIRST + 11) #define ListView_SetCallbackMask(hwnd, mask) \ (BOOL)SNDMSG((hwnd), LVM_SETCALLBACKMASK, (WPARAM)(UINT)(mask), 0) #define LVNI_ALL 0x0000 #define LVNI_FOCUSED 0x0001 #define LVNI_SELECTED 0x0002 #define LVNI_CUT 0x0004 #define LVNI_DROPHILITED 0x0008 #define LVNI_ABOVE 0x0100 #define LVNI_BELOW 0x0200 #define LVNI_TOLEFT 0x0400 #define LVNI_TORIGHT 0x0800 #define LVM_GETNEXTITEM (LVM_FIRST + 12) #define ListView_GetNextItem(hwnd, i, flags) \ (int)SNDMSG((hwnd), LVM_GETNEXTITEM, (WPARAM)(int)(i), MAKELPARAM((flags), 0)) #define LVFI_PARAM 0x0001 #define LVFI_STRING 0x0002 #define LVFI_PARTIAL 0x0008 #define LVFI_WRAP 0x0020 #define LVFI_NEARESTXY 0x0040 #if (_WIN32_IE >= 0x0300) #define LV_FINDINFOA LVFINDINFOA #define LV_FINDINFOW LVFINDINFOW #else #define tagLVFINDINFOA _LV_FINDINFOA #define LVFINDINFOA LV_FINDINFOA #define tagLVFINDINFOW _LV_FINDINFOW #define LVFINDINFOW LV_FINDINFOW #endif #define LV_FINDINFO LVFINDINFO typedef struct tagLVFINDINFOA { UINT flags; LPCSTR psz; LPARAM lParam; POINT pt; UINT vkDirection; } LVFINDINFOA, *LPFINDINFOA; typedef struct tagLVFINDINFOW { UINT flags; LPCWSTR psz; LPARAM lParam; POINT pt; UINT vkDirection; } LVFINDINFOW, *LPFINDINFOW; #ifdef UNICODE #define LVFINDINFO LVFINDINFOW #else #define LVFINDINFO LVFINDINFOA #endif #define LVM_FINDITEMA (LVM_FIRST + 13) #define LVM_FINDITEMW (LVM_FIRST + 83) #ifdef UNICODE #define LVM_FINDITEM LVM_FINDITEMW #else #define LVM_FINDITEM LVM_FINDITEMA #endif #define ListView_FindItem(hwnd, iStart, plvfi) \ (int)SNDMSG((hwnd), LVM_FINDITEM, (WPARAM)(int)(iStart), (LPARAM)(const LV_FINDINFO *)(plvfi)) #define LVIR_BOUNDS 0 #define LVIR_ICON 1 #define LVIR_LABEL 2 #define LVIR_SELECTBOUNDS 3 #define LVM_GETITEMRECT (LVM_FIRST + 14) #define ListView_GetItemRect(hwnd, i, prc, code) \ (BOOL)SNDMSG((hwnd), LVM_GETITEMRECT, (WPARAM)(int)(i), \ ((prc) ? (((RECT *)(prc))->left = (code),(LPARAM)(RECT *)(prc)) : (LPARAM)(RECT *)NULL)) #define LVM_SETITEMPOSITION (LVM_FIRST + 15) #define ListView_SetItemPosition(hwndLV, i, x, y) \ (BOOL)SNDMSG((hwndLV), LVM_SETITEMPOSITION, (WPARAM)(int)(i), MAKELPARAM((x), (y))) #define LVM_GETITEMPOSITION (LVM_FIRST + 16) #define ListView_GetItemPosition(hwndLV, i, ppt) \ (BOOL)SNDMSG((hwndLV), LVM_GETITEMPOSITION, (WPARAM)(int)(i), (LPARAM)(POINT *)(ppt)) #define LVM_GETSTRINGWIDTHA (LVM_FIRST + 17) #define LVM_GETSTRINGWIDTHW (LVM_FIRST + 87) #ifdef UNICODE #define LVM_GETSTRINGWIDTH LVM_GETSTRINGWIDTHW #else #define LVM_GETSTRINGWIDTH LVM_GETSTRINGWIDTHA #endif #define ListView_GetStringWidth(hwndLV, psz) \ (int)SNDMSG((hwndLV), LVM_GETSTRINGWIDTH, 0, (LPARAM)(LPCTSTR)(psz)) #define LVHT_NOWHERE 0x0001 #define LVHT_ONITEMICON 0x0002 #define LVHT_ONITEMLABEL 0x0004 #define LVHT_ONITEMSTATEICON 0x0008 #define LVHT_ONITEM (LVHT_ONITEMICON | LVHT_ONITEMLABEL | LVHT_ONITEMSTATEICON) #define LVHT_ABOVE 0x0008 #define LVHT_BELOW 0x0010 #define LVHT_TORIGHT 0x0020 #define LVHT_TOLEFT 0x0040 #if (_WIN32_IE >= 0x0300) #define LV_HITTESTINFO LVHITTESTINFO #else #define tagLVHITTESTINFO _LV_HITTESTINFO #define LVHITTESTINFO LV_HITTESTINFO #endif #define LVHITTESTINFO_V1_SIZE CCSIZEOF_STRUCT(LVHITTESTINFO, iItem) typedef struct tagLVHITTESTINFO { POINT pt; UINT flags; int iItem; #if (_WIN32_IE >= 0x0300) int iSubItem; // this is was NOT in win95. valid only for LVM_SUBITEMHITTEST #endif } LVHITTESTINFO, *LPLVHITTESTINFO; #define LVM_HITTEST (LVM_FIRST + 18) #define ListView_HitTest(hwndLV, pinfo) \ (int)SNDMSG((hwndLV), LVM_HITTEST, 0, (LPARAM)(LV_HITTESTINFO *)(pinfo)) #define LVM_ENSUREVISIBLE (LVM_FIRST + 19) #define ListView_EnsureVisible(hwndLV, i, fPartialOK) \ (BOOL)SNDMSG((hwndLV), LVM_ENSUREVISIBLE, (WPARAM)(int)(i), MAKELPARAM((fPartialOK), 0)) #define LVM_SCROLL (LVM_FIRST + 20) #define ListView_Scroll(hwndLV, dx, dy) \ (BOOL)SNDMSG((hwndLV), LVM_SCROLL, (WPARAM)(int)(dx), (LPARAM)(int)(dy)) #define LVM_REDRAWITEMS (LVM_FIRST + 21) #define ListView_RedrawItems(hwndLV, iFirst, iLast) \ (BOOL)SNDMSG((hwndLV), LVM_REDRAWITEMS, (WPARAM)(int)(iFirst), (LPARAM)(int)(iLast)) #define LVA_DEFAULT 0x0000 #define LVA_ALIGNLEFT 0x0001 #define LVA_ALIGNTOP 0x0002 #define LVA_SNAPTOGRID 0x0005 #define LVM_ARRANGE (LVM_FIRST + 22) #define ListView_Arrange(hwndLV, code) \ (BOOL)SNDMSG((hwndLV), LVM_ARRANGE, (WPARAM)(UINT)(code), 0L) #define LVM_EDITLABELA (LVM_FIRST + 23) #define LVM_EDITLABELW (LVM_FIRST + 118) #ifdef UNICODE #define LVM_EDITLABEL LVM_EDITLABELW #else #define LVM_EDITLABEL LVM_EDITLABELA #endif #define ListView_EditLabel(hwndLV, i) \ (HWND)SNDMSG((hwndLV), LVM_EDITLABEL, (WPARAM)(int)(i), 0L) #define LVM_GETEDITCONTROL (LVM_FIRST + 24) #define ListView_GetEditControl(hwndLV) \ (HWND)SNDMSG((hwndLV), LVM_GETEDITCONTROL, 0, 0L) #if (_WIN32_IE >= 0x0300) #define LV_COLUMNA LVCOLUMNA #define LV_COLUMNW LVCOLUMNW #else #define tagLVCOLUMNA _LV_COLUMNA #define LVCOLUMNA LV_COLUMNA #define tagLVCOLUMNW _LV_COLUMNW #define LVCOLUMNW LV_COLUMNW #endif #define LV_COLUMN LVCOLUMN #define LVCOLUMNA_V1_SIZE CCSIZEOF_STRUCT(LVCOLUMNA, iSubItem) #define LVCOLUMNW_V1_SIZE CCSIZEOF_STRUCT(LVCOLUMNW, iSubItem) typedef struct tagLVCOLUMNA { UINT mask; int fmt; int cx; LPSTR pszText; int cchTextMax; int iSubItem; #if (_WIN32_IE >= 0x0300) int iImage; int iOrder; #endif } LVCOLUMNA, *LPLVCOLUMNA; typedef struct tagLVCOLUMNW { UINT mask; int fmt; int cx; LPWSTR pszText; int cchTextMax; int iSubItem; #if (_WIN32_IE >= 0x0300) int iImage; int iOrder; #endif } LVCOLUMNW, *LPLVCOLUMNW; #ifdef UNICODE #define LVCOLUMN LVCOLUMNW #define LPLVCOLUMN LPLVCOLUMNW #define LVCOLUMN_V1_SIZE LVCOLUMNW_V1_SIZE #else #define LVCOLUMN LVCOLUMNA #define LPLVCOLUMN LPLVCOLUMNA #define LVCOLUMN_V1_SIZE LVCOLUMNA_V1_SIZE #endif #define LVCF_FMT 0x0001 #define LVCF_WIDTH 0x0002 #define LVCF_TEXT 0x0004 #define LVCF_SUBITEM 0x0008 #if (_WIN32_IE >= 0x0300) #define LVCF_IMAGE 0x0010 #define LVCF_ORDER 0x0020 #endif #define LVCFMT_LEFT 0x0000 #define LVCFMT_RIGHT 0x0001 #define LVCFMT_CENTER 0x0002 #define LVCFMT_JUSTIFYMASK 0x0003 #if (_WIN32_IE >= 0x0300) #define LVCFMT_IMAGE 0x0800 #define LVCFMT_BITMAP_ON_RIGHT 0x1000 #define LVCFMT_COL_HAS_IMAGES 0x8000 #endif #define LVM_GETCOLUMNA (LVM_FIRST + 25) #define LVM_GETCOLUMNW (LVM_FIRST + 95) #ifdef UNICODE #define LVM_GETCOLUMN LVM_GETCOLUMNW #else #define LVM_GETCOLUMN LVM_GETCOLUMNA #endif #define ListView_GetColumn(hwnd, iCol, pcol) \ (BOOL)SNDMSG((hwnd), LVM_GETCOLUMN, (WPARAM)(int)(iCol), (LPARAM)(LV_COLUMN *)(pcol)) #define LVM_SETCOLUMNA (LVM_FIRST + 26) #define LVM_SETCOLUMNW (LVM_FIRST + 96) #ifdef UNICODE #define LVM_SETCOLUMN LVM_SETCOLUMNW #else #define LVM_SETCOLUMN LVM_SETCOLUMNA #endif #define ListView_SetColumn(hwnd, iCol, pcol) \ (BOOL)SNDMSG((hwnd), LVM_SETCOLUMN, (WPARAM)(int)(iCol), (LPARAM)(const LV_COLUMN *)(pcol)) #define LVM_INSERTCOLUMNA (LVM_FIRST + 27) #define LVM_INSERTCOLUMNW (LVM_FIRST + 97) #ifdef UNICODE # define LVM_INSERTCOLUMN LVM_INSERTCOLUMNW #else # define LVM_INSERTCOLUMN LVM_INSERTCOLUMNA #endif #define ListView_InsertColumn(hwnd, iCol, pcol) \ (int)SNDMSG((hwnd), LVM_INSERTCOLUMN, (WPARAM)(int)(iCol), (LPARAM)(const LV_COLUMN *)(pcol)) #define LVM_DELETECOLUMN (LVM_FIRST + 28) #define ListView_DeleteColumn(hwnd, iCol) \ (BOOL)SNDMSG((hwnd), LVM_DELETECOLUMN, (WPARAM)(int)(iCol), 0) #define LVM_GETCOLUMNWIDTH (LVM_FIRST + 29) #define ListView_GetColumnWidth(hwnd, iCol) \ (int)SNDMSG((hwnd), LVM_GETCOLUMNWIDTH, (WPARAM)(int)(iCol), 0) #define LVSCW_AUTOSIZE -1 #define LVSCW_AUTOSIZE_USEHEADER -2 #define LVM_SETCOLUMNWIDTH (LVM_FIRST + 30) #define ListView_SetColumnWidth(hwnd, iCol, cx) \ (BOOL)SNDMSG((hwnd), LVM_SETCOLUMNWIDTH, (WPARAM)(int)(iCol), MAKELPARAM((cx), 0)) #if (_WIN32_IE >= 0x0300) #define LVM_GETHEADER (LVM_FIRST + 31) #define ListView_GetHeader(hwnd)\ (HWND)SNDMSG((hwnd), LVM_GETHEADER, 0, 0L) #endif #define LVM_CREATEDRAGIMAGE (LVM_FIRST + 33) #define ListView_CreateDragImage(hwnd, i, lpptUpLeft) \ (HIMAGELIST)SNDMSG((hwnd), LVM_CREATEDRAGIMAGE, (WPARAM)(int)(i), (LPARAM)(LPPOINT)(lpptUpLeft)) #define LVM_GETVIEWRECT (LVM_FIRST + 34) #define ListView_GetViewRect(hwnd, prc) \ (BOOL)SNDMSG((hwnd), LVM_GETVIEWRECT, 0, (LPARAM)(RECT *)(prc)) #define LVM_GETTEXTCOLOR (LVM_FIRST + 35) #define ListView_GetTextColor(hwnd) \ (COLORREF)SNDMSG((hwnd), LVM_GETTEXTCOLOR, 0, 0L) #define LVM_SETTEXTCOLOR (LVM_FIRST + 36) #define ListView_SetTextColor(hwnd, clrText) \ (BOOL)SNDMSG((hwnd), LVM_SETTEXTCOLOR, 0, (LPARAM)(COLORREF)(clrText)) #define LVM_GETTEXTBKCOLOR (LVM_FIRST + 37) #define ListView_GetTextBkColor(hwnd) \ (COLORREF)SNDMSG((hwnd), LVM_GETTEXTBKCOLOR, 0, 0L) #define LVM_SETTEXTBKCOLOR (LVM_FIRST + 38) #define ListView_SetTextBkColor(hwnd, clrTextBk) \ (BOOL)SNDMSG((hwnd), LVM_SETTEXTBKCOLOR, 0, (LPARAM)(COLORREF)(clrTextBk)) #define LVM_GETTOPINDEX (LVM_FIRST + 39) #define ListView_GetTopIndex(hwndLV) \ (int)SNDMSG((hwndLV), LVM_GETTOPINDEX, 0, 0) #define LVM_GETCOUNTPERPAGE (LVM_FIRST + 40) #define ListView_GetCountPerPage(hwndLV) \ (int)SNDMSG((hwndLV), LVM_GETCOUNTPERPAGE, 0, 0) #define LVM_GETORIGIN (LVM_FIRST + 41) #define ListView_GetOrigin(hwndLV, ppt) \ (BOOL)SNDMSG((hwndLV), LVM_GETORIGIN, (WPARAM)0, (LPARAM)(POINT *)(ppt)) #define LVM_UPDATE (LVM_FIRST + 42) #define ListView_Update(hwndLV, i) \ (BOOL)SNDMSG((hwndLV), LVM_UPDATE, (WPARAM)(i), 0L) #define LVM_SETITEMSTATE (LVM_FIRST + 43) #define ListView_SetItemState(hwndLV, i, data, mask) \ { LV_ITEM _ms_lvi;\ _ms_lvi.stateMask = mask;\ _ms_lvi.state = data;\ SNDMSG((hwndLV), LVM_SETITEMSTATE, (WPARAM)(i), (LPARAM)(LV_ITEM *)&_ms_lvi);\ } #if (_WIN32_IE >= 0x0300) #define ListView_SetCheckState(hwndLV, i, fCheck) \ ListView_SetItemState(hwndLV, i, INDEXTOSTATEIMAGEMASK((fCheck)?2:1), LVIS_STATEIMAGEMASK) #endif #define LVM_GETITEMSTATE (LVM_FIRST + 44) #define ListView_GetItemState(hwndLV, i, mask) \ (UINT)SNDMSG((hwndLV), LVM_GETITEMSTATE, (WPARAM)(i), (LPARAM)(mask)) #if (_WIN32_IE >= 0x0300) #define ListView_GetCheckState(hwndLV, i) \ ((((UINT)(SNDMSG((hwndLV), LVM_GETITEMSTATE, (WPARAM)(i), LVIS_STATEIMAGEMASK))) >> 12) -1) #endif #define LVM_GETITEMTEXTA (LVM_FIRST + 45) #define LVM_GETITEMTEXTW (LVM_FIRST + 115) #ifdef UNICODE #define LVM_GETITEMTEXT LVM_GETITEMTEXTW #else #define LVM_GETITEMTEXT LVM_GETITEMTEXTA #endif #define ListView_GetItemText(hwndLV, i, iSubItem_, pszText_, cchTextMax_) \ { LV_ITEM _ms_lvi;\ _ms_lvi.iSubItem = iSubItem_;\ _ms_lvi.cchTextMax = cchTextMax_;\ _ms_lvi.pszText = pszText_;\ SNDMSG((hwndLV), LVM_GETITEMTEXT, (WPARAM)(i), (LPARAM)(LV_ITEM *)&_ms_lvi);\ } #define LVM_SETITEMTEXTA (LVM_FIRST + 46) #define LVM_SETITEMTEXTW (LVM_FIRST + 116) #ifdef UNICODE #define LVM_SETITEMTEXT LVM_SETITEMTEXTW #else #define LVM_SETITEMTEXT LVM_SETITEMTEXTA #endif #define ListView_SetItemText(hwndLV, i, iSubItem_, pszText_) \ { LV_ITEM _ms_lvi;\ _ms_lvi.iSubItem = iSubItem_;\ _ms_lvi.pszText = pszText_;\ SNDMSG((hwndLV), LVM_SETITEMTEXT, (WPARAM)(i), (LPARAM)(LV_ITEM *)&_ms_lvi);\ } #if (_WIN32_IE >= 0x0300) // these flags only apply to LVS_OWNERDATA listviews in report or list mode #define LVSICF_NOINVALIDATEALL 0x00000001 #define LVSICF_NOSCROLL 0x00000002 #endif #define LVM_SETITEMCOUNT (LVM_FIRST + 47) #define ListView_SetItemCount(hwndLV, cItems) \ SNDMSG((hwndLV), LVM_SETITEMCOUNT, (WPARAM)(cItems), 0) #if (_WIN32_IE >= 0x0300) #define ListView_SetItemCountEx(hwndLV, cItems, dwFlags) \ SNDMSG((hwndLV), LVM_SETITEMCOUNT, (WPARAM)(cItems), (LPARAM)(dwFlags)) #endif typedef int (CALLBACK *PFNLVCOMPARE)(LPARAM, LPARAM, LPARAM); #define LVM_SORTITEMS (LVM_FIRST + 48) #define ListView_SortItems(hwndLV, _pfnCompare, _lPrm) \ (BOOL)SNDMSG((hwndLV), LVM_SORTITEMS, (WPARAM)(LPARAM)(_lPrm), \ (LPARAM)(PFNLVCOMPARE)(_pfnCompare)) #define LVM_SETITEMPOSITION32 (LVM_FIRST + 49) #define ListView_SetItemPosition32(hwndLV, i, x0, y0) \ { POINT ptNewPos; \ ptNewPos.x = x0; ptNewPos.y = y0; \ SNDMSG((hwndLV), LVM_SETITEMPOSITION32, (WPARAM)(int)(i), (LPARAM)&ptNewPos); \ } #define LVM_GETSELECTEDCOUNT (LVM_FIRST + 50) #define ListView_GetSelectedCount(hwndLV) \ (UINT)SNDMSG((hwndLV), LVM_GETSELECTEDCOUNT, 0, 0L) #define LVM_GETITEMSPACING (LVM_FIRST + 51) #define ListView_GetItemSpacing(hwndLV, fSmall) \ (DWORD)SNDMSG((hwndLV), LVM_GETITEMSPACING, fSmall, 0L) #define LVM_GETISEARCHSTRINGA (LVM_FIRST + 52) #define LVM_GETISEARCHSTRINGW (LVM_FIRST + 117) #ifdef UNICODE #define LVM_GETISEARCHSTRING LVM_GETISEARCHSTRINGW #else #define LVM_GETISEARCHSTRING LVM_GETISEARCHSTRINGA #endif #define ListView_GetISearchString(hwndLV, lpsz) \ (BOOL)SNDMSG((hwndLV), LVM_GETISEARCHSTRING, 0, (LPARAM)(LPTSTR)(lpsz)) #if (_WIN32_IE >= 0x0300) #define LVM_SETICONSPACING (LVM_FIRST + 53) // -1 for cx and cy means we'll use the default (system settings) // 0 for cx or cy means use the current setting (allows you to change just one param) #define ListView_SetIconSpacing(hwndLV, cx, cy) \ (DWORD)SNDMSG((hwndLV), LVM_SETICONSPACING, 0, MAKELONG(cx,cy)) #define LVM_SETEXTENDEDLISTVIEWSTYLE (LVM_FIRST + 54) // optional wParam == mask #define ListView_SetExtendedListViewStyle(hwndLV, dw)\ (DWORD)SNDMSG((hwndLV), LVM_SETEXTENDEDLISTVIEWSTYLE, 0, dw) #if (_WIN32_IE >= 0x0400) #define ListView_SetExtendedListViewStyleEx(hwndLV, dwMask, dw)\ (DWORD)SNDMSG((hwndLV), LVM_SETEXTENDEDLISTVIEWSTYLE, dwMask, dw) #endif #define LVM_GETEXTENDEDLISTVIEWSTYLE (LVM_FIRST + 55) #define ListView_GetExtendedListViewStyle(hwndLV)\ (DWORD)SNDMSG((hwndLV), LVM_GETEXTENDEDLISTVIEWSTYLE, 0, 0) #define LVS_EX_GRIDLINES 0x00000001 #define LVS_EX_SUBITEMIMAGES 0x00000002 #define LVS_EX_CHECKBOXES 0x00000004 #define LVS_EX_TRACKSELECT 0x00000008 #define LVS_EX_HEADERDRAGDROP 0x00000010 #define LVS_EX_FULLROWSELECT 0x00000020 // applies to report mode only #define LVS_EX_ONECLICKACTIVATE 0x00000040 #define LVS_EX_TWOCLICKACTIVATE 0x00000080 #if (_WIN32_IE >= 0x0400) #define LVS_EX_FLATSB 0x00000100 #define LVS_EX_REGIONAL 0x00000200 #define LVS_EX_INFOTIP 0x00000400 // listview does InfoTips for you #define LVS_EX_UNDERLINEHOT 0x00000800 #define LVS_EX_UNDERLINECOLD 0x00001000 #define LVS_EX_MULTIWORKAREAS 0x00002000 #endif #if (_WIN32_IE >= 0x0500) #define LVS_EX_LABELTIP 0x00004000 // listview unfolds partly hidden labels if it does not have infotip text #define LVS_EX_BORDERSELECT 0x00008000 // border selection style instead of highlight #endif // End (_WIN32_IE >= 0x0500) #if (_WIN32_WINNT >= 0x501) #define LVS_EX_DOUBLEBUFFER 0x00010000 #define LVS_EX_HIDELABELS 0x00020000 #define LVS_EX_SINGLEROW 0x00040000 #define LVS_EX_SNAPTOGRID 0x00080000 // Icons automatically snap to grid. #define LVS_EX_SIMPLESELECT 0x00100000 // Also changes overlay rendering to top right for icon mode. #endif #define LVM_GETSUBITEMRECT (LVM_FIRST + 56) #define ListView_GetSubItemRect(hwnd, iItem, iSubItem, code, prc) \ (BOOL)SNDMSG((hwnd), LVM_GETSUBITEMRECT, (WPARAM)(int)(iItem), \ ((prc) ? ((((LPRECT)(prc))->top = iSubItem), (((LPRECT)(prc))->left = code), (LPARAM)(prc)) : (LPARAM)(LPRECT)NULL)) #define LVM_SUBITEMHITTEST (LVM_FIRST + 57) #define ListView_SubItemHitTest(hwnd, plvhti) \ (int)SNDMSG((hwnd), LVM_SUBITEMHITTEST, 0, (LPARAM)(LPLVHITTESTINFO)(plvhti)) #define LVM_SETCOLUMNORDERARRAY (LVM_FIRST + 58) #define ListView_SetColumnOrderArray(hwnd, iCount, pi) \ (BOOL)SNDMSG((hwnd), LVM_SETCOLUMNORDERARRAY, (WPARAM)(iCount), (LPARAM)(LPINT)(pi)) #define LVM_GETCOLUMNORDERARRAY (LVM_FIRST + 59) #define ListView_GetColumnOrderArray(hwnd, iCount, pi) \ (BOOL)SNDMSG((hwnd), LVM_GETCOLUMNORDERARRAY, (WPARAM)(iCount), (LPARAM)(LPINT)(pi)) #define LVM_SETHOTITEM (LVM_FIRST + 60) #define ListView_SetHotItem(hwnd, i) \ (int)SNDMSG((hwnd), LVM_SETHOTITEM, (WPARAM)(i), 0) #define LVM_GETHOTITEM (LVM_FIRST + 61) #define ListView_GetHotItem(hwnd) \ (int)SNDMSG((hwnd), LVM_GETHOTITEM, 0, 0) #define LVM_SETHOTCURSOR (LVM_FIRST + 62) #define ListView_SetHotCursor(hwnd, hcur) \ (HCURSOR)SNDMSG((hwnd), LVM_SETHOTCURSOR, 0, (LPARAM)(hcur)) #define LVM_GETHOTCURSOR (LVM_FIRST + 63) #define ListView_GetHotCursor(hwnd) \ (HCURSOR)SNDMSG((hwnd), LVM_GETHOTCURSOR, 0, 0) #define LVM_APPROXIMATEVIEWRECT (LVM_FIRST + 64) #define ListView_ApproximateViewRect(hwnd, iWidth, iHeight, iCount) \ (DWORD)SNDMSG((hwnd), LVM_APPROXIMATEVIEWRECT, iCount, MAKELPARAM(iWidth, iHeight)) #endif // _WIN32_IE >= 0x0300 #if (_WIN32_IE >= 0x0400) #define LV_MAX_WORKAREAS 16 #define LVM_SETWORKAREAS (LVM_FIRST + 65) #define ListView_SetWorkAreas(hwnd, nWorkAreas, prc) \ (BOOL)SNDMSG((hwnd), LVM_SETWORKAREAS, (WPARAM)(int)(nWorkAreas), (LPARAM)(RECT *)(prc)) #define LVM_GETWORKAREAS (LVM_FIRST + 70) #define ListView_GetWorkAreas(hwnd, nWorkAreas, prc) \ (BOOL)SNDMSG((hwnd), LVM_GETWORKAREAS, (WPARAM)(int)(nWorkAreas), (LPARAM)(RECT *)(prc)) #define LVM_GETNUMBEROFWORKAREAS (LVM_FIRST + 73) #define ListView_GetNumberOfWorkAreas(hwnd, pnWorkAreas) \ (BOOL)SNDMSG((hwnd), LVM_GETNUMBEROFWORKAREAS, 0, (LPARAM)(UINT *)(pnWorkAreas)) #define LVM_GETSELECTIONMARK (LVM_FIRST + 66) #define ListView_GetSelectionMark(hwnd) \ (int)SNDMSG((hwnd), LVM_GETSELECTIONMARK, 0, 0) #define LVM_SETSELECTIONMARK (LVM_FIRST + 67) #define ListView_SetSelectionMark(hwnd, i) \ (int)SNDMSG((hwnd), LVM_SETSELECTIONMARK, 0, (LPARAM)(i)) #define LVM_SETHOVERTIME (LVM_FIRST + 71) #define ListView_SetHoverTime(hwndLV, dwHoverTimeMs)\ (DWORD)SNDMSG((hwndLV), LVM_SETHOVERTIME, 0, (LPARAM)(dwHoverTimeMs)) #define LVM_GETHOVERTIME (LVM_FIRST + 72) #define ListView_GetHoverTime(hwndLV)\ (DWORD)SNDMSG((hwndLV), LVM_GETHOVERTIME, 0, 0) #define LVM_SETTOOLTIPS (LVM_FIRST + 74) #define ListView_SetToolTips(hwndLV, hwndNewHwnd)\ (HWND)SNDMSG((hwndLV), LVM_SETTOOLTIPS, (WPARAM)(hwndNewHwnd), 0) #define LVM_GETTOOLTIPS (LVM_FIRST + 78) #define ListView_GetToolTips(hwndLV)\ (HWND)SNDMSG((hwndLV), LVM_GETTOOLTIPS, 0, 0) #define LVM_SORTITEMSEX (LVM_FIRST + 81) #define ListView_SortItemsEx(hwndLV, _pfnCompare, _lPrm) \ (BOOL)SNDMSG((hwndLV), LVM_SORTITEMSEX, (WPARAM)(LPARAM)(_lPrm), (LPARAM)(PFNLVCOMPARE)(_pfnCompare)) typedef struct tagLVBKIMAGEA { ULONG ulFlags; // LVBKIF_* HBITMAP hbm; LPSTR pszImage; UINT cchImageMax; int xOffsetPercent; int yOffsetPercent; } LVBKIMAGEA, *LPLVBKIMAGEA; typedef struct tagLVBKIMAGEW { ULONG ulFlags; // LVBKIF_* HBITMAP hbm; LPWSTR pszImage; UINT cchImageMax; int xOffsetPercent; int yOffsetPercent; } LVBKIMAGEW, *LPLVBKIMAGEW; #define LVBKIF_SOURCE_NONE 0x00000000 #define LVBKIF_SOURCE_HBITMAP 0x00000001 #define LVBKIF_SOURCE_URL 0x00000002 #define LVBKIF_SOURCE_MASK 0x00000003 #define LVBKIF_STYLE_NORMAL 0x00000000 #define LVBKIF_STYLE_TILE 0x00000010 #define LVBKIF_STYLE_MASK 0x00000010 #if (_WIN32_WINNT >= 0x501) #define LVBKIF_FLAG_TILEOFFSET 0x00000100 #define LVBKIF_TYPE_WATERMARK 0x10000000 #endif #define LVM_SETBKIMAGEA (LVM_FIRST + 68) #define LVM_SETBKIMAGEW (LVM_FIRST + 138) #define LVM_GETBKIMAGEA (LVM_FIRST + 69) #define LVM_GETBKIMAGEW (LVM_FIRST + 139) #if (_WIN32_WINNT >= 0x501) #define LVM_SETSELECTEDCOLUMN (LVM_FIRST + 140) #define ListView_SetSelectedColumn(hwnd, iCol) \ SNDMSG((hwnd), LVM_SETSELECTEDCOLUMN, (WPARAM)iCol, 0) #define LVM_SETTILEWIDTH (LVM_FIRST + 141) #define ListView_SetTileWidth(hwnd, cpWidth) \ SNDMSG((hwnd), LVM_SETTILEWIDTH, (WPARAM)cpWidth, 0) #define LV_VIEW_ICON 0x0000 #define LV_VIEW_DETAILS 0x0001 #define LV_VIEW_SMALLICON 0x0002 #define LV_VIEW_LIST 0x0003 #define LV_VIEW_TILE 0x0004 #define LV_VIEW_MAX 0x0004 #define LVM_SETVIEW (LVM_FIRST + 142) #define ListView_SetView(hwnd, iView) \ (DWORD)SNDMSG((hwnd), LVM_SETVIEW, (WPARAM)(DWORD)iView, 0) #define LVM_GETVIEW (LVM_FIRST + 143) #define ListView_GetView(hwnd) \ (DWORD)SNDMSG((hwnd), LVM_GETVIEW, 0, 0) #define LVGF_NONE 0x00000000 #define LVGF_HEADER 0x00000001 #define LVGF_FOOTER 0x00000002 #define LVGF_STATE 0x00000004 #define LVGF_ALIGN 0x00000008 #define LVGF_GROUPID 0x00000010 #define LVGS_NORMAL 0x00000000 #define LVGS_COLLAPSED 0x00000001 #define LVGS_HIDDEN 0x00000002 #define LVGA_HEADER_LEFT 0x00000001 #define LVGA_HEADER_CENTER 0x00000002 #define LVGA_HEADER_RIGHT 0x00000004 // Don't forget to validate exclusivity #define LVGA_FOOTER_LEFT 0x00000008 #define LVGA_FOOTER_CENTER 0x00000010 #define LVGA_FOOTER_RIGHT 0x00000020 // Don't forget to validate exclusivity typedef struct tagLVGROUP { UINT cbSize; UINT mask; LPWSTR pszHeader; int cchHeader; LPWSTR pszFooter; int cchFooter; int iGroupId; UINT stateMask; UINT state; UINT uAlign; } LVGROUP, *PLVGROUP; #define LVM_INSERTGROUP (LVM_FIRST + 145) #define ListView_InsertGroup(hwnd, index, pgrp) \ SNDMSG((hwnd), LVM_INSERTGROUP, (WPARAM)index, (LPARAM)pgrp) #define LVM_SETGROUPINFO (LVM_FIRST + 147) #define ListView_SetGroupInfo(hwnd, iGroupId, pgrp) \ SNDMSG((hwnd), LVM_SETGROUPINFO, (WPARAM)iGroupId, (LPARAM)pgrp) #define LVM_GETGROUPINFO (LVM_FIRST + 149) #define ListView_GetGroupInfo(hwnd, iGroupId, pgrp) \ SNDMSG((hwnd), LVM_GETGROUPINFO, (WPARAM)iGroupId, (LPARAM)pgrp) #define LVM_REMOVEGROUP (LVM_FIRST + 150) #define ListView_RemoveGroup(hwnd, iGroupId) \ SNDMSG((hwnd), LVM_REMOVEGROUP, (WPARAM)iGroupId, 0) #define LVM_MOVEGROUP (LVM_FIRST + 151) #define ListView_MoveGroup(hwnd, iGroupId, toIndex) \ SNDMSG((hwnd), LVM_MOVEGROUP, (WPARAM)iGroupId, (LPARAM)toIndex) #define LVM_MOVEITEMTOGROUP (LVM_FIRST + 154) #define ListView_MoveItemToGroup(hwnd, idItemFrom, idGroupTo) \ SNDMSG((hwnd), LVM_MOVEITEMTOGROUP, (WPARAM)idItemFrom, (LPARAM)idGroupTo) #define LVGMF_NONE 0x00000000 #define LVGMF_BORDERSIZE 0x00000001 #define LVGMF_BORDERCOLOR 0x00000002 #define LVGMF_TEXTCOLOR 0x00000004 typedef struct tagLVGROUPMETRICS { UINT cbSize; UINT mask; UINT Left; UINT Top; UINT Right; UINT Bottom; COLORREF crLeft; COLORREF crTop; COLORREF crRight; COLORREF crBottom; COLORREF crHeader; COLORREF crFooter; } LVGROUPMETRICS, *PLVGROUPMETRICS; #define LVM_SETGROUPMETRICS (LVM_FIRST + 155) #define ListView_SetGroupMetrics(hwnd, pGroupMetrics) \ SNDMSG((hwnd), LVM_SETGROUPMETRICS, 0, (LPARAM)pGroupMetrics) #define LVM_GETGROUPMETRICS (LVM_FIRST + 156) #define ListView_GetGroupMetrics(hwnd, pGroupMetrics) \ SNDMSG((hwnd), LVM_GETGROUPMETRICS, 0, (LPARAM)pGroupMetrics) #define LVM_ENABLEGROUPVIEW (LVM_FIRST + 157) #define ListView_EnableGroupView(hwnd, fEnable) \ SNDMSG((hwnd), LVM_ENABLEGROUPVIEW, (WPARAM)fEnable, 0) typedef int (CALLBACK *PFNLVGROUPCOMPARE)(int, int, void *); #define LVM_SORTGROUPS (LVM_FIRST + 158) #define ListView_SortGroups(hwnd, _pfnGroupCompate, _plv) \ SNDMSG((hwnd), LVM_SORTGROUPS, (WPARAM)_pfnGroupCompate, (LPARAM)_plv) typedef struct tagLVINSERTGROUPSORTED { PFNLVGROUPCOMPARE pfnGroupCompare; void *pvData; LVGROUP lvGroup; }LVINSERTGROUPSORTED, *PLVINSERTGROUPSORTED; #define LVM_INSERTGROUPSORTED (LVM_FIRST + 159) #define ListView_InsertGroupSorted(hwnd, structInsert) \ SNDMSG((hwnd), LVM_INSERTGROUPSORTED, (WPARAM)structInsert, 0) #define LVM_REMOVEALLGROUPS (LVM_FIRST + 160) #define ListView_RemoveAllGroups(hwnd) \ SNDMSG((hwnd), LVM_REMOVEALLGROUPS, 0, 0) #define LVM_HASGROUP (LVM_FIRST + 161) #define ListView_HasGroup(hwnd, dwGroupId) \ SNDMSG((hwnd), LVM_HASGROUP, dwGroupId, 0) #define LVTVIF_AUTOSIZE 0x00000000 #define LVTVIF_FIXEDWIDTH 0x00000001 #define LVTVIF_FIXEDHEIGHT 0x00000002 #define LVTVIF_FIXEDSIZE 0x00000003 #define LVTVIM_TILESIZE 0x00000001 #define LVTVIM_COLUMNS 0x00000002 #define LVTVIM_LABELMARGIN 0x00000004 typedef struct tagLVTILEVIEWINFO { UINT cbSize; DWORD dwMask; //LVTVIM_* DWORD dwFlags; //LVTVIF_* SIZE sizeTile; int cLines; RECT rcLabelMargin; } LVTILEVIEWINFO, *PLVTILEVIEWINFO; typedef struct tagLVTILEINFO { UINT cbSize; int iItem; UINT cColumns; PUINT puColumns; } LVTILEINFO, *PLVTILEINFO; #define LVM_SETTILEVIEWINFO (LVM_FIRST + 162) #define ListView_SetTileViewInfo(hwnd, ptvi) \ SNDMSG((hwnd), LVM_SETTILEVIEWINFO, 0, (LPARAM)ptvi) #define LVM_GETTILEVIEWINFO (LVM_FIRST + 163) #define ListView_GetTileViewInfo(hwnd, ptvi) \ SNDMSG((hwnd), LVM_GETTILEVIEWINFO, 0, (LPARAM)ptvi) #define LVM_SETTILEINFO (LVM_FIRST + 164) #define ListView_SetTileInfo(hwnd, pti) \ SNDMSG((hwnd), LVM_SETTILEINFO, 0, (LPARAM)pti) #define LVM_GETTILEINFO (LVM_FIRST + 165) #define ListView_GetTileInfo(hwnd, pti) \ SNDMSG((hwnd), LVM_GETTILEINFO, 0, (LPARAM)pti) typedef struct { UINT cbSize; DWORD dwFlags; int iItem; DWORD dwReserved; } LVINSERTMARK, * LPLVINSERTMARK; #define LVIM_AFTER 0x00000001 // TRUE = insert After iItem, otherwise before #define LVM_SETINSERTMARK (LVM_FIRST + 166) #define ListView_SetInsertMark(hwnd, lvim) \ (BOOL)SNDMSG((hwnd), LVM_SETINSERTMARK, (WPARAM) 0, (LPARAM) (lvim)) #define LVM_GETINSERTMARK (LVM_FIRST + 167) #define ListView_GetInsertMark(hwnd, lvim) \ (BOOL)SNDMSG((hwnd), LVM_GETINSERTMARK, (WPARAM) 0, (LPARAM) (lvim)) #define LVM_INSERTMARKHITTEST (LVM_FIRST + 168) #define ListView_InsertMarkHitTest(hwnd, point, lvim) \ (int)SNDMSG((hwnd), LVM_INSERTMARKHITTEST, (WPARAM)(LPPOINT)(point), (LPARAM)(LPLVINSERTMARK)(lvim)) #define LVM_GETINSERTMARKRECT (LVM_FIRST + 169) #define ListView_GetInsertMarkRect(hwnd, rc) \ (int)SNDMSG((hwnd), LVM_GETINSERTMARKRECT, (WPARAM)0, (LPARAM)(LPRECT)(rc)) #define LVM_SETINSERTMARKCOLOR (LVM_FIRST + 170) #define ListView_SetInsertMarkColor(hwnd, color) \ (COLORREF)SNDMSG((hwnd), LVM_SETINSERTMARKCOLOR, (WPARAM)0, (LPARAM)(COLORREF)(color)) #define LVM_GETINSERTMARKCOLOR (LVM_FIRST + 171) #define ListView_GetInsertMarkColor(hwnd) \ (COLORREF)SNDMSG((hwnd), LVM_GETINSERTMARKCOLOR, (WPARAM)0, (LPARAM)0) typedef struct tagLVSETINFOTIP { UINT cbSize; DWORD dwFlags; LPWSTR pszText; int iItem; int iSubItem; } LVSETINFOTIP, *PLVSETINFOTIP; #define LVM_SETINFOTIP (LVM_FIRST + 173) #define ListView_SetInfoTip(hwndLV, plvInfoTip)\ (BOOL)SNDMSG((hwndLV), LVM_SETINFOTIP, (WPARAM)0, (LPARAM)plvInfoTip) #define LVM_GETSELECTEDCOLUMN (LVM_FIRST + 174) #define ListView_GetSelectedColumn(hwnd) \ (UINT)SNDMSG((hwnd), LVM_GETSELECTEDCOLUMN, 0, 0) #define LVM_ISGROUPVIEWENABLED (LVM_FIRST + 175) #define ListView_IsGroupViewEnabled(hwnd) \ (BOOL)SNDMSG((hwnd), LVM_ISGROUPVIEWENABLED, 0, 0) #define LVM_GETOUTLINECOLOR (LVM_FIRST + 176) #define ListView_GetOutlineColor(hwnd) \ (COLORREF)SNDMSG((hwnd), LVM_GETOUTLINECOLOR, 0, 0) #define LVM_SETOUTLINECOLOR (LVM_FIRST + 177) #define ListView_SetOutlineColor(hwnd, color) \ (COLORREF)SNDMSG((hwnd), LVM_SETOUTLINECOLOR, (WPARAM)0, (LPARAM)(COLORREF)(color)) #define LVM_CANCELEDITLABEL (LVM_FIRST + 179) #define ListView_CancelEditLabel(hwnd) \ (VOID)SNDMSG((hwnd), LVM_CANCELEDITLABEL, (WPARAM)0, (LPARAM)0) // These next to methods make it easy to identify an item that can be repositioned // within listview. For example: Many developers use the lParam to store an identifier that is // unique. Unfortunatly, in order to find this item, they have to iterate through all of the items // in the listview. Listview will maintain a unique identifier. The upper bound is the size of a DWORD. #define LVM_MAPINDEXTOID (LVM_FIRST + 180) #define ListView_MapIndexToID(hwnd, index) \ (UINT)SNDMSG((hwnd), LVM_MAPINDEXTOID, (WPARAM)index, (LPARAM)0) #define LVM_MAPIDTOINDEX (LVM_FIRST + 181) #define ListView_MapIDToIndex(hwnd, id) \ (UINT)SNDMSG((hwnd), LVM_MAPIDTOINDEX, (WPARAM)id, (LPARAM)0) #endif #ifdef UNICODE #define LVBKIMAGE LVBKIMAGEW #define LPLVBKIMAGE LPLVBKIMAGEW #define LVM_SETBKIMAGE LVM_SETBKIMAGEW #define LVM_GETBKIMAGE LVM_GETBKIMAGEW #else #define LVBKIMAGE LVBKIMAGEA #define LPLVBKIMAGE LPLVBKIMAGEA #define LVM_SETBKIMAGE LVM_SETBKIMAGEA #define LVM_GETBKIMAGE LVM_GETBKIMAGEA #endif #define ListView_SetBkImage(hwnd, plvbki) \ (BOOL)SNDMSG((hwnd), LVM_SETBKIMAGE, 0, (LPARAM)(plvbki)) #define ListView_GetBkImage(hwnd, plvbki) \ (BOOL)SNDMSG((hwnd), LVM_GETBKIMAGE, 0, (LPARAM)(plvbki)) #endif // _WIN32_IE >= 0x0400 #if (_WIN32_IE >= 0x0300) #define LPNM_LISTVIEW LPNMLISTVIEW #define NM_LISTVIEW NMLISTVIEW #else #define tagNMLISTVIEW _NM_LISTVIEW #define NMLISTVIEW NM_LISTVIEW #define LPNMLISTVIEW LPNM_LISTVIEW #endif typedef struct tagNMLISTVIEW { NMHDR hdr; int iItem; int iSubItem; UINT uNewState; UINT uOldState; UINT uChanged; POINT ptAction; LPARAM lParam; } NMLISTVIEW, *LPNMLISTVIEW; #if (_WIN32_IE >= 0x400) // NMITEMACTIVATE is used instead of NMLISTVIEW in IE >= 0x400 // therefore all the fields are the same except for extra uKeyFlags // they are used to store key flags at the time of the single click with // delayed activation - because by the time the timer goes off a user may // not hold the keys (shift, ctrl) any more typedef struct tagNMITEMACTIVATE { NMHDR hdr; int iItem; int iSubItem; UINT uNewState; UINT uOldState; UINT uChanged; POINT ptAction; LPARAM lParam; UINT uKeyFlags; } NMITEMACTIVATE, *LPNMITEMACTIVATE; // key flags stored in uKeyFlags #define LVKF_ALT 0x0001 #define LVKF_CONTROL 0x0002 #define LVKF_SHIFT 0x0004 #endif //(_WIN32_IE >= 0x0400) #if (_WIN32_IE >= 0x0300) #define NMLVCUSTOMDRAW_V3_SIZE CCSIZEOF_STRUCT(NMLVCUSTOMDRW, clrTextBk) typedef struct tagNMLVCUSTOMDRAW { NMCUSTOMDRAW nmcd; COLORREF clrText; COLORREF clrTextBk; #if (_WIN32_IE >= 0x0400) int iSubItem; #endif #if (_WIN32_WINNT >= 0x501) DWORD dwItemType; // Item custom draw COLORREF clrFace; int iIconEffect; int iIconPhase; int iPartId; int iStateId; // Group Custom Draw RECT rcText; UINT uAlign; // Alignment. Use LVGA_HEADER_CENTER, LVGA_HEADER_RIGHT, LVGA_HEADER_LEFT #endif } NMLVCUSTOMDRAW, *LPNMLVCUSTOMDRAW; // dwItemType #define LVCDI_ITEM 0x00000000 #define LVCDI_GROUP 0x00000001 // ListView custom draw return values #define LVCDRF_NOSELECT 0x00010000 #define LVCDRF_NOGROUPFRAME 0x00020000 typedef struct tagNMLVCACHEHINT { NMHDR hdr; int iFrom; int iTo; } NMLVCACHEHINT, *LPNMLVCACHEHINT; #define LPNM_CACHEHINT LPNMLVCACHEHINT #define PNM_CACHEHINT LPNMLVCACHEHINT #define NM_CACHEHINT NMLVCACHEHINT typedef struct tagNMLVFINDITEMA { NMHDR hdr; int iStart; LVFINDINFOA lvfi; } NMLVFINDITEMA, *LPNMLVFINDITEMA; typedef struct tagNMLVFINDITEMW { NMHDR hdr; int iStart; LVFINDINFOW lvfi; } NMLVFINDITEMW, *LPNMLVFINDITEMW; #define PNM_FINDITEMA LPNMLVFINDITEMA #define LPNM_FINDITEMA LPNMLVFINDITEMA #define NM_FINDITEMA NMLVFINDITEMA #define PNM_FINDITEMW LPNMLVFINDITEMW #define LPNM_FINDITEMW LPNMLVFINDITEMW #define NM_FINDITEMW NMLVFINDITEMW #ifdef UNICODE #define PNM_FINDITEM PNM_FINDITEMW #define LPNM_FINDITEM LPNM_FINDITEMW #define NM_FINDITEM NM_FINDITEMW #define NMLVFINDITEM NMLVFINDITEMW #define LPNMLVFINDITEM LPNMLVFINDITEMW #else #define PNM_FINDITEM PNM_FINDITEMA #define LPNM_FINDITEM LPNM_FINDITEMA #define NM_FINDITEM NM_FINDITEMA #define NMLVFINDITEM NMLVFINDITEMA #define LPNMLVFINDITEM LPNMLVFINDITEMA #endif typedef struct tagNMLVODSTATECHANGE { NMHDR hdr; int iFrom; int iTo; UINT uNewState; UINT uOldState; } NMLVODSTATECHANGE, *LPNMLVODSTATECHANGE; #define PNM_ODSTATECHANGE LPNMLVODSTATECHANGE #define LPNM_ODSTATECHANGE LPNMLVODSTATECHANGE #define NM_ODSTATECHANGE NMLVODSTATECHANGE #endif // _WIN32_IE >= 0x0300 #define LVN_ITEMCHANGING (LVN_FIRST-0) #define LVN_ITEMCHANGED (LVN_FIRST-1) #define LVN_INSERTITEM (LVN_FIRST-2) #define LVN_DELETEITEM (LVN_FIRST-3) #define LVN_DELETEALLITEMS (LVN_FIRST-4) #define LVN_BEGINLABELEDITA (LVN_FIRST-5) #define LVN_BEGINLABELEDITW (LVN_FIRST-75) #define LVN_ENDLABELEDITA (LVN_FIRST-6) #define LVN_ENDLABELEDITW (LVN_FIRST-76) #define LVN_COLUMNCLICK (LVN_FIRST-8) #define LVN_BEGINDRAG (LVN_FIRST-9) #define LVN_BEGINRDRAG (LVN_FIRST-11) #if (_WIN32_IE >= 0x0300) #define LVN_ODCACHEHINT (LVN_FIRST-13) #define LVN_ODFINDITEMA (LVN_FIRST-52) #define LVN_ODFINDITEMW (LVN_FIRST-79) #define LVN_ITEMACTIVATE (LVN_FIRST-14) #define LVN_ODSTATECHANGED (LVN_FIRST-15) #ifdef UNICODE #define LVN_ODFINDITEM LVN_ODFINDITEMW #else #define LVN_ODFINDITEM LVN_ODFINDITEMA #endif #endif // _WIN32_IE >= 0x0300 #if (_WIN32_IE >= 0x0400) #define LVN_HOTTRACK (LVN_FIRST-21) #endif #define LVN_GETDISPINFOA (LVN_FIRST-50) #define LVN_GETDISPINFOW (LVN_FIRST-77) #define LVN_SETDISPINFOA (LVN_FIRST-51) #define LVN_SETDISPINFOW (LVN_FIRST-78) #ifdef UNICODE #define LVN_BEGINLABELEDIT LVN_BEGINLABELEDITW #define LVN_ENDLABELEDIT LVN_ENDLABELEDITW #define LVN_GETDISPINFO LVN_GETDISPINFOW #define LVN_SETDISPINFO LVN_SETDISPINFOW #else #define LVN_BEGINLABELEDIT LVN_BEGINLABELEDITA #define LVN_ENDLABELEDIT LVN_ENDLABELEDITA #define LVN_GETDISPINFO LVN_GETDISPINFOA #define LVN_SETDISPINFO LVN_SETDISPINFOA #endif #define LVIF_DI_SETITEM 0x1000 #if (_WIN32_IE >= 0x0300) #define LV_DISPINFOA NMLVDISPINFOA #define LV_DISPINFOW NMLVDISPINFOW #else #define tagLVDISPINFO _LV_DISPINFO #define NMLVDISPINFOA LV_DISPINFOA #define tagLVDISPINFOW _LV_DISPINFOW #define NMLVDISPINFOW LV_DISPINFOW #endif #define LV_DISPINFO NMLVDISPINFO typedef struct tagLVDISPINFO { NMHDR hdr; LVITEMA item; } NMLVDISPINFOA, *LPNMLVDISPINFOA; typedef struct tagLVDISPINFOW { NMHDR hdr; LVITEMW item; } NMLVDISPINFOW, *LPNMLVDISPINFOW; #ifdef UNICODE #define NMLVDISPINFO NMLVDISPINFOW #else #define NMLVDISPINFO NMLVDISPINFOA #endif #define LVN_KEYDOWN (LVN_FIRST-55) #if (_WIN32_IE >= 0x0300) #define LV_KEYDOWN NMLVKEYDOWN #else #define tagLVKEYDOWN _LV_KEYDOWN #define NMLVKEYDOWN LV_KEYDOWN #endif #ifdef _WIN32 #include <pshpack1.h> #endif typedef struct tagLVKEYDOWN { NMHDR hdr; WORD wVKey; UINT flags; } NMLVKEYDOWN, *LPNMLVKEYDOWN; #ifdef _WIN32 #include <poppack.h> #endif #if (_WIN32_IE >= 0x0300) #define LVN_MARQUEEBEGIN (LVN_FIRST-56) #endif #if (_WIN32_IE >= 0x0400) typedef struct tagNMLVGETINFOTIPA { NMHDR hdr; DWORD dwFlags; LPSTR pszText; int cchTextMax; int iItem; int iSubItem; LPARAM lParam; } NMLVGETINFOTIPA, *LPNMLVGETINFOTIPA; typedef struct tagNMLVGETINFOTIPW { NMHDR hdr; DWORD dwFlags; LPWSTR pszText; int cchTextMax; int iItem; int iSubItem; LPARAM lParam; } NMLVGETINFOTIPW, *LPNMLVGETINFOTIPW; // NMLVGETINFOTIPA.dwFlag values #define LVGIT_UNFOLDED 0x0001 #define LVN_GETINFOTIPA (LVN_FIRST-57) #define LVN_GETINFOTIPW (LVN_FIRST-58) #ifdef UNICODE #define LVN_GETINFOTIP LVN_GETINFOTIPW #define NMLVGETINFOTIP NMLVGETINFOTIPW #define LPNMLVGETINFOTIP LPNMLVGETINFOTIPW #else #define LVN_GETINFOTIP LVN_GETINFOTIPA #define NMLVGETINFOTIP NMLVGETINFOTIPA #define LPNMLVGETINFOTIP LPNMLVGETINFOTIPA #endif #endif // _WIN32_IE >= 0x0400 #if (_WIN32_WINNT >= 0x501) typedef struct tagNMLVSCROLL { NMHDR hdr; int dx; int dy; } NMLVSCROLL, *LPNMLVSCROLL; #define LVN_BEGINSCROLL (LVN_FIRST-80) #define LVN_ENDSCROLL (LVN_FIRST-81) #endif #endif // NOLISTVIEW //====== TREEVIEW CONTROL ===================================================== #ifndef NOTREEVIEW #ifdef _WIN32 #define WC_TREEVIEWA "SysTreeView32" #define WC_TREEVIEWW L"SysTreeView32" #ifdef UNICODE #define WC_TREEVIEW WC_TREEVIEWW #else #define WC_TREEVIEW WC_TREEVIEWA #endif #else #define WC_TREEVIEW "SysTreeView" #endif // begin_r_commctrl #define TVS_HASBUTTONS 0x0001 #define TVS_HASLINES 0x0002 #define TVS_LINESATROOT 0x0004 #define TVS_EDITLABELS 0x0008 #define TVS_DISABLEDRAGDROP 0x0010 #define TVS_SHOWSELALWAYS 0x0020 #if (_WIN32_IE >= 0x0300) #define TVS_RTLREADING 0x0040 #define TVS_NOTOOLTIPS 0x0080 #define TVS_CHECKBOXES 0x0100 #define TVS_TRACKSELECT 0x0200 #if (_WIN32_IE >= 0x0400) #define TVS_SINGLEEXPAND 0x0400 #define TVS_INFOTIP 0x0800 #define TVS_FULLROWSELECT 0x1000 #define TVS_NOSCROLL 0x2000 #define TVS_NONEVENHEIGHT 0x4000 #endif #if (_WIN32_IE >= 0x500) #define TVS_NOHSCROLL 0x8000 // TVS_NOSCROLL overrides this #endif #endif // end_r_commctrl typedef struct _TREEITEM *HTREEITEM; #define TVIF_TEXT 0x0001 #define TVIF_IMAGE 0x0002 #define TVIF_PARAM 0x0004 #define TVIF_STATE 0x0008 #define TVIF_HANDLE 0x0010 #define TVIF_SELECTEDIMAGE 0x0020 #define TVIF_CHILDREN 0x0040 #if (_WIN32_IE >= 0x0400) #define TVIF_INTEGRAL 0x0080 #endif #define TVIS_SELECTED 0x0002 #define TVIS_CUT 0x0004 #define TVIS_DROPHILITED 0x0008 #define TVIS_BOLD 0x0010 #define TVIS_EXPANDED 0x0020 #define TVIS_EXPANDEDONCE 0x0040 #if (_WIN32_IE >= 0x0300) #define TVIS_EXPANDPARTIAL 0x0080 #endif #define TVIS_OVERLAYMASK 0x0F00 #define TVIS_STATEIMAGEMASK 0xF000 #define TVIS_USERMASK 0xF000 #define I_CHILDRENCALLBACK (-1) #if (_WIN32_IE >= 0x0300) #define LPTV_ITEMW LPTVITEMW #define LPTV_ITEMA LPTVITEMA #define TV_ITEMW TVITEMW #define TV_ITEMA TVITEMA #else #define tagTVITEMA _TV_ITEMA #define TVITEMA TV_ITEMA #define LPTVITEMA LPTV_ITEMA #define tagTVITEMW _TV_ITEMW #define TVITEMW TV_ITEMW #define LPTVITEMW LPTV_ITEMW #endif #define LPTV_ITEM LPTVITEM #define TV_ITEM TVITEM typedef struct tagTVITEMA { UINT mask; HTREEITEM hItem; UINT state; UINT stateMask; LPSTR pszText; int cchTextMax; int iImage; int iSelectedImage; int cChildren; LPARAM lParam; } TVITEMA, *LPTVITEMA; typedef struct tagTVITEMW { UINT mask; HTREEITEM hItem; UINT state; UINT stateMask; LPWSTR pszText; int cchTextMax; int iImage; int iSelectedImage; int cChildren; LPARAM lParam; } TVITEMW, *LPTVITEMW; #if (_WIN32_IE >= 0x0400) // only used for Get and Set messages. no notifies typedef struct tagTVITEMEXA { UINT mask; HTREEITEM hItem; UINT state; UINT stateMask; LPSTR pszText; int cchTextMax; int iImage; int iSelectedImage; int cChildren; LPARAM lParam; int iIntegral; } TVITEMEXA, *LPTVITEMEXA; // only used for Get and Set messages. no notifies typedef struct tagTVITEMEXW { UINT mask; HTREEITEM hItem; UINT state; UINT stateMask; LPWSTR pszText; int cchTextMax; int iImage; int iSelectedImage; int cChildren; LPARAM lParam; int iIntegral; } TVITEMEXW, *LPTVITEMEXW; #ifdef UNICODE typedef TVITEMEXW TVITEMEX; typedef LPTVITEMEXW LPTVITEMEX; #else typedef TVITEMEXA TVITEMEX; typedef LPTVITEMEXA LPTVITEMEX; #endif // UNICODE #endif #ifdef UNICODE #define TVITEM TVITEMW #define LPTVITEM LPTVITEMW #else #define TVITEM TVITEMA #define LPTVITEM LPTVITEMA #endif #define TVI_ROOT ((HTREEITEM)(ULONG_PTR)-0x10000) #define TVI_FIRST ((HTREEITEM)(ULONG_PTR)-0x0FFFF) #define TVI_LAST ((HTREEITEM)(ULONG_PTR)-0x0FFFE) #define TVI_SORT ((HTREEITEM)(ULONG_PTR)-0x0FFFD) #if (_WIN32_IE >= 0x0300) #define LPTV_INSERTSTRUCTA LPTVINSERTSTRUCTA #define LPTV_INSERTSTRUCTW LPTVINSERTSTRUCTW #define TV_INSERTSTRUCTA TVINSERTSTRUCTA #define TV_INSERTSTRUCTW TVINSERTSTRUCTW #else #define tagTVINSERTSTRUCTA _TV_INSERTSTRUCTA #define TVINSERTSTRUCTA TV_INSERTSTRUCTA #define LPTVINSERTSTRUCTA LPTV_INSERTSTRUCTA #define tagTVINSERTSTRUCTW _TV_INSERTSTRUCTW #define TVINSERTSTRUCTW TV_INSERTSTRUCTW #define LPTVINSERTSTRUCTW LPTV_INSERTSTRUCTW #endif #define TV_INSERTSTRUCT TVINSERTSTRUCT #define LPTV_INSERTSTRUCT LPTVINSERTSTRUCT #define TVINSERTSTRUCTA_V1_SIZE CCSIZEOF_STRUCT(TVINSERTSTRUCTA, item) #define TVINSERTSTRUCTW_V1_SIZE CCSIZEOF_STRUCT(TVINSERTSTRUCTW, item) typedef struct tagTVINSERTSTRUCTA { HTREEITEM hParent; HTREEITEM hInsertAfter; #if (_WIN32_IE >= 0x0400) union { TVITEMEXA itemex; TV_ITEMA item; } DUMMYUNIONNAME; #else TV_ITEMA item; #endif } TVINSERTSTRUCTA, *LPTVINSERTSTRUCTA; typedef struct tagTVINSERTSTRUCTW { HTREEITEM hParent; HTREEITEM hInsertAfter; #if (_WIN32_IE >= 0x0400) union { TVITEMEXW itemex; TV_ITEMW item; } DUMMYUNIONNAME; #else TV_ITEMW item; #endif } TVINSERTSTRUCTW, *LPTVINSERTSTRUCTW; #ifdef UNICODE #define TVINSERTSTRUCT TVINSERTSTRUCTW #define LPTVINSERTSTRUCT LPTVINSERTSTRUCTW #define TVINSERTSTRUCT_V1_SIZE TVINSERTSTRUCTW_V1_SIZE #else #define TVINSERTSTRUCT TVINSERTSTRUCTA #define LPTVINSERTSTRUCT LPTVINSERTSTRUCTA #define TVINSERTSTRUCT_V1_SIZE TVINSERTSTRUCTA_V1_SIZE #endif #define TVM_INSERTITEMA (TV_FIRST + 0) #define TVM_INSERTITEMW (TV_FIRST + 50) #ifdef UNICODE #define TVM_INSERTITEM TVM_INSERTITEMW #else #define TVM_INSERTITEM TVM_INSERTITEMA #endif #define TreeView_InsertItem(hwnd, lpis) \ (HTREEITEM)SNDMSG((hwnd), TVM_INSERTITEM, 0, (LPARAM)(LPTV_INSERTSTRUCT)(lpis)) #define TVM_DELETEITEM (TV_FIRST + 1) #define TreeView_DeleteItem(hwnd, hitem) \ (BOOL)SNDMSG((hwnd), TVM_DELETEITEM, 0, (LPARAM)(HTREEITEM)(hitem)) #define TreeView_DeleteAllItems(hwnd) \ (BOOL)SNDMSG((hwnd), TVM_DELETEITEM, 0, (LPARAM)TVI_ROOT) #define TVM_EXPAND (TV_FIRST + 2) #define TreeView_Expand(hwnd, hitem, code) \ (BOOL)SNDMSG((hwnd), TVM_EXPAND, (WPARAM)(code), (LPARAM)(HTREEITEM)(hitem)) #define TVE_COLLAPSE 0x0001 #define TVE_EXPAND 0x0002 #define TVE_TOGGLE 0x0003 #if (_WIN32_IE >= 0x0300) #define TVE_EXPANDPARTIAL 0x4000 #endif #define TVE_COLLAPSERESET 0x8000 #define TVM_GETITEMRECT (TV_FIRST + 4) #define TreeView_GetItemRect(hwnd, hitem, prc, code) \ (*(HTREEITEM *)prc = (hitem), (BOOL)SNDMSG((hwnd), TVM_GETITEMRECT, (WPARAM)(code), (LPARAM)(RECT *)(prc))) #define TVM_GETCOUNT (TV_FIRST + 5) #define TreeView_GetCount(hwnd) \ (UINT)SNDMSG((hwnd), TVM_GETCOUNT, 0, 0) #define TVM_GETINDENT (TV_FIRST + 6) #define TreeView_GetIndent(hwnd) \ (UINT)SNDMSG((hwnd), TVM_GETINDENT, 0, 0) #define TVM_SETINDENT (TV_FIRST + 7) #define TreeView_SetIndent(hwnd, indent) \ (BOOL)SNDMSG((hwnd), TVM_SETINDENT, (WPARAM)(indent), 0) #define TVM_GETIMAGELIST (TV_FIRST + 8) #define TreeView_GetImageList(hwnd, iImage) \ (HIMAGELIST)SNDMSG((hwnd), TVM_GETIMAGELIST, iImage, 0) #define TVSIL_NORMAL 0 #define TVSIL_STATE 2 #define TVM_SETIMAGELIST (TV_FIRST + 9) #define TreeView_SetImageList(hwnd, himl, iImage) \ (HIMAGELIST)SNDMSG((hwnd), TVM_SETIMAGELIST, iImage, (LPARAM)(HIMAGELIST)(himl)) #define TVM_GETNEXTITEM (TV_FIRST + 10) #define TreeView_GetNextItem(hwnd, hitem, code) \ (HTREEITEM)SNDMSG((hwnd), TVM_GETNEXTITEM, (WPARAM)(code), (LPARAM)(HTREEITEM)(hitem)) #define TVGN_ROOT 0x0000 #define TVGN_NEXT 0x0001 #define TVGN_PREVIOUS 0x0002 #define TVGN_PARENT 0x0003 #define TVGN_CHILD 0x0004 #define TVGN_FIRSTVISIBLE 0x0005 #define TVGN_NEXTVISIBLE 0x0006 #define TVGN_PREVIOUSVISIBLE 0x0007 #define TVGN_DROPHILITE 0x0008 #define TVGN_CARET 0x0009 #if (_WIN32_IE >= 0x0400) #define TVGN_LASTVISIBLE 0x000A #endif // _WIN32_IE >= 0x0400 #if (_WIN32_WINNT >= 0x501) #define TVSI_NOSINGLEEXPAND 0x8000 // Should not conflict with TVGN flags. #endif #define TreeView_GetChild(hwnd, hitem) TreeView_GetNextItem(hwnd, hitem, TVGN_CHILD) #define TreeView_GetNextSibling(hwnd, hitem) TreeView_GetNextItem(hwnd, hitem, TVGN_NEXT) #define TreeView_GetPrevSibling(hwnd, hitem) TreeView_GetNextItem(hwnd, hitem, TVGN_PREVIOUS) #define TreeView_GetParent(hwnd, hitem) TreeView_GetNextItem(hwnd, hitem, TVGN_PARENT) #define TreeView_GetFirstVisible(hwnd) TreeView_GetNextItem(hwnd, NULL, TVGN_FIRSTVISIBLE) #define TreeView_GetNextVisible(hwnd, hitem) TreeView_GetNextItem(hwnd, hitem, TVGN_NEXTVISIBLE) #define TreeView_GetPrevVisible(hwnd, hitem) TreeView_GetNextItem(hwnd, hitem, TVGN_PREVIOUSVISIBLE) #define TreeView_GetSelection(hwnd) TreeView_GetNextItem(hwnd, NULL, TVGN_CARET) #define TreeView_GetDropHilight(hwnd) TreeView_GetNextItem(hwnd, NULL, TVGN_DROPHILITE) #define TreeView_GetRoot(hwnd) TreeView_GetNextItem(hwnd, NULL, TVGN_ROOT) #if (_WIN32_IE >= 0x0400) #define TreeView_GetLastVisible(hwnd) TreeView_GetNextItem(hwnd, NULL, TVGN_LASTVISIBLE) #endif // _WIN32_IE >= 0x0400 #define TVM_SELECTITEM (TV_FIRST + 11) #define TreeView_Select(hwnd, hitem, code) \ (BOOL)SNDMSG((hwnd), TVM_SELECTITEM, (WPARAM)(code), (LPARAM)(HTREEITEM)(hitem)) #define TreeView_SelectItem(hwnd, hitem) TreeView_Select(hwnd, hitem, TVGN_CARET) #define TreeView_SelectDropTarget(hwnd, hitem) TreeView_Select(hwnd, hitem, TVGN_DROPHILITE) #define TreeView_SelectSetFirstVisible(hwnd, hitem) TreeView_Select(hwnd, hitem, TVGN_FIRSTVISIBLE) #define TVM_GETITEMA (TV_FIRST + 12) #define TVM_GETITEMW (TV_FIRST + 62) #ifdef UNICODE #define TVM_GETITEM TVM_GETITEMW #else #define TVM_GETITEM TVM_GETITEMA #endif #define TreeView_GetItem(hwnd, pitem) \ (BOOL)SNDMSG((hwnd), TVM_GETITEM, 0, (LPARAM)(TV_ITEM *)(pitem)) #define TVM_SETITEMA (TV_FIRST + 13) #define TVM_SETITEMW (TV_FIRST + 63) #ifdef UNICODE #define TVM_SETITEM TVM_SETITEMW #else #define TVM_SETITEM TVM_SETITEMA #endif #define TreeView_SetItem(hwnd, pitem) \ (BOOL)SNDMSG((hwnd), TVM_SETITEM, 0, (LPARAM)(const TV_ITEM *)(pitem)) #define TVM_EDITLABELA (TV_FIRST + 14) #define TVM_EDITLABELW (TV_FIRST + 65) #ifdef UNICODE #define TVM_EDITLABEL TVM_EDITLABELW #else #define TVM_EDITLABEL TVM_EDITLABELA #endif #define TreeView_EditLabel(hwnd, hitem) \ (HWND)SNDMSG((hwnd), TVM_EDITLABEL, 0, (LPARAM)(HTREEITEM)(hitem)) #define TVM_GETEDITCONTROL (TV_FIRST + 15) #define TreeView_GetEditControl(hwnd) \ (HWND)SNDMSG((hwnd), TVM_GETEDITCONTROL, 0, 0) #define TVM_GETVISIBLECOUNT (TV_FIRST + 16) #define TreeView_GetVisibleCount(hwnd) \ (UINT)SNDMSG((hwnd), TVM_GETVISIBLECOUNT, 0, 0) #define TVM_HITTEST (TV_FIRST + 17) #define TreeView_HitTest(hwnd, lpht) \ (HTREEITEM)SNDMSG((hwnd), TVM_HITTEST, 0, (LPARAM)(LPTV_HITTESTINFO)(lpht)) #if (_WIN32_IE >= 0x0300) #define LPTV_HITTESTINFO LPTVHITTESTINFO #define TV_HITTESTINFO TVHITTESTINFO #else #define tagTVHITTESTINFO _TV_HITTESTINFO #define TVHITTESTINFO TV_HITTESTINFO #define LPTVHITTESTINFO LPTV_HITTESTINFO #endif typedef struct tagTVHITTESTINFO { POINT pt; UINT flags; HTREEITEM hItem; } TVHITTESTINFO, *LPTVHITTESTINFO; #define TVHT_NOWHERE 0x0001 #define TVHT_ONITEMICON 0x0002 #define TVHT_ONITEMLABEL 0x0004 #define TVHT_ONITEM (TVHT_ONITEMICON | TVHT_ONITEMLABEL | TVHT_ONITEMSTATEICON) #define TVHT_ONITEMINDENT 0x0008 #define TVHT_ONITEMBUTTON 0x0010 #define TVHT_ONITEMRIGHT 0x0020 #define TVHT_ONITEMSTATEICON 0x0040 #define TVHT_ABOVE 0x0100 #define TVHT_BELOW 0x0200 #define TVHT_TORIGHT 0x0400 #define TVHT_TOLEFT 0x0800 #define TVM_CREATEDRAGIMAGE (TV_FIRST + 18) #define TreeView_CreateDragImage(hwnd, hitem) \ (HIMAGELIST)SNDMSG((hwnd), TVM_CREATEDRAGIMAGE, 0, (LPARAM)(HTREEITEM)(hitem)) #define TVM_SORTCHILDREN (TV_FIRST + 19) #define TreeView_SortChildren(hwnd, hitem, recurse) \ (BOOL)SNDMSG((hwnd), TVM_SORTCHILDREN, (WPARAM)(recurse), (LPARAM)(HTREEITEM)(hitem)) #define TVM_ENSUREVISIBLE (TV_FIRST + 20) #define TreeView_EnsureVisible(hwnd, hitem) \ (BOOL)SNDMSG((hwnd), TVM_ENSUREVISIBLE, 0, (LPARAM)(HTREEITEM)(hitem)) #define TVM_SORTCHILDRENCB (TV_FIRST + 21) #define TreeView_SortChildrenCB(hwnd, psort, recurse) \ (BOOL)SNDMSG((hwnd), TVM_SORTCHILDRENCB, (WPARAM)(recurse), \ (LPARAM)(LPTV_SORTCB)(psort)) #define TVM_ENDEDITLABELNOW (TV_FIRST + 22) #define TreeView_EndEditLabelNow(hwnd, fCancel) \ (BOOL)SNDMSG((hwnd), TVM_ENDEDITLABELNOW, (WPARAM)(fCancel), 0) #define TVM_GETISEARCHSTRINGA (TV_FIRST + 23) #define TVM_GETISEARCHSTRINGW (TV_FIRST + 64) #ifdef UNICODE #define TVM_GETISEARCHSTRING TVM_GETISEARCHSTRINGW #else #define TVM_GETISEARCHSTRING TVM_GETISEARCHSTRINGA #endif #if (_WIN32_IE >= 0x0300) #define TVM_SETTOOLTIPS (TV_FIRST + 24) #define TreeView_SetToolTips(hwnd, hwndTT) \ (HWND)SNDMSG((hwnd), TVM_SETTOOLTIPS, (WPARAM)(hwndTT), 0) #define TVM_GETTOOLTIPS (TV_FIRST + 25) #define TreeView_GetToolTips(hwnd) \ (HWND)SNDMSG((hwnd), TVM_GETTOOLTIPS, 0, 0) #endif #define TreeView_GetISearchString(hwndTV, lpsz) \ (BOOL)SNDMSG((hwndTV), TVM_GETISEARCHSTRING, 0, (LPARAM)(LPTSTR)(lpsz)) #if (_WIN32_IE >= 0x0400) #define TVM_SETINSERTMARK (TV_FIRST + 26) #define TreeView_SetInsertMark(hwnd, hItem, fAfter) \ (BOOL)SNDMSG((hwnd), TVM_SETINSERTMARK, (WPARAM) (fAfter), (LPARAM) (hItem)) #define TVM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define TreeView_SetUnicodeFormat(hwnd, fUnicode) \ (BOOL)SNDMSG((hwnd), TVM_SETUNICODEFORMAT, (WPARAM)(fUnicode), 0) #define TVM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #define TreeView_GetUnicodeFormat(hwnd) \ (BOOL)SNDMSG((hwnd), TVM_GETUNICODEFORMAT, 0, 0) #endif #if (_WIN32_IE >= 0x0400) #define TVM_SETITEMHEIGHT (TV_FIRST + 27) #define TreeView_SetItemHeight(hwnd, iHeight) \ (int)SNDMSG((hwnd), TVM_SETITEMHEIGHT, (WPARAM)(iHeight), 0) #define TVM_GETITEMHEIGHT (TV_FIRST + 28) #define TreeView_GetItemHeight(hwnd) \ (int)SNDMSG((hwnd), TVM_GETITEMHEIGHT, 0, 0) #define TVM_SETBKCOLOR (TV_FIRST + 29) #define TreeView_SetBkColor(hwnd, clr) \ (COLORREF)SNDMSG((hwnd), TVM_SETBKCOLOR, 0, (LPARAM)(clr)) #define TVM_SETTEXTCOLOR (TV_FIRST + 30) #define TreeView_SetTextColor(hwnd, clr) \ (COLORREF)SNDMSG((hwnd), TVM_SETTEXTCOLOR, 0, (LPARAM)(clr)) #define TVM_GETBKCOLOR (TV_FIRST + 31) #define TreeView_GetBkColor(hwnd) \ (COLORREF)SNDMSG((hwnd), TVM_GETBKCOLOR, 0, 0) #define TVM_GETTEXTCOLOR (TV_FIRST + 32) #define TreeView_GetTextColor(hwnd) \ (COLORREF)SNDMSG((hwnd), TVM_GETTEXTCOLOR, 0, 0) #define TVM_SETSCROLLTIME (TV_FIRST + 33) #define TreeView_SetScrollTime(hwnd, uTime) \ (UINT)SNDMSG((hwnd), TVM_SETSCROLLTIME, uTime, 0) #define TVM_GETSCROLLTIME (TV_FIRST + 34) #define TreeView_GetScrollTime(hwnd) \ (UINT)SNDMSG((hwnd), TVM_GETSCROLLTIME, 0, 0) #define TVM_SETINSERTMARKCOLOR (TV_FIRST + 37) #define TreeView_SetInsertMarkColor(hwnd, clr) \ (COLORREF)SNDMSG((hwnd), TVM_SETINSERTMARKCOLOR, 0, (LPARAM)(clr)) #define TVM_GETINSERTMARKCOLOR (TV_FIRST + 38) #define TreeView_GetInsertMarkColor(hwnd) \ (COLORREF)SNDMSG((hwnd), TVM_GETINSERTMARKCOLOR, 0, 0) #endif /* (_WIN32_IE >= 0x0400) */ #if (_WIN32_IE >= 0x0500) // tvm_?etitemstate only uses mask, state and stateMask. // so unicode or ansi is irrelevant. #define TreeView_SetItemState(hwndTV, hti, data, _mask) \ { TVITEM _ms_TVi;\ _ms_TVi.mask = TVIF_STATE; \ _ms_TVi.hItem = hti; \ _ms_TVi.stateMask = _mask;\ _ms_TVi.state = data;\ SNDMSG((hwndTV), TVM_SETITEM, 0, (LPARAM)(TV_ITEM *)&_ms_TVi);\ } #define TreeView_SetCheckState(hwndTV, hti, fCheck) \ TreeView_SetItemState(hwndTV, hti, INDEXTOSTATEIMAGEMASK((fCheck)?2:1), TVIS_STATEIMAGEMASK) #define TVM_GETITEMSTATE (TV_FIRST + 39) #define TreeView_GetItemState(hwndTV, hti, mask) \ (UINT)SNDMSG((hwndTV), TVM_GETITEMSTATE, (WPARAM)(hti), (LPARAM)(mask)) #define TreeView_GetCheckState(hwndTV, hti) \ ((((UINT)(SNDMSG((hwndTV), TVM_GETITEMSTATE, (WPARAM)(hti), TVIS_STATEIMAGEMASK))) >> 12) -1) #define TVM_SETLINECOLOR (TV_FIRST + 40) #define TreeView_SetLineColor(hwnd, clr) \ (COLORREF)SNDMSG((hwnd), TVM_SETLINECOLOR, 0, (LPARAM)(clr)) #define TVM_GETLINECOLOR (TV_FIRST + 41) #define TreeView_GetLineColor(hwnd) \ (COLORREF)SNDMSG((hwnd), TVM_GETLINECOLOR, 0, 0) #endif #if (_WIN32_WINNT >= 0x0501) #define TVM_MAPACCIDTOHTREEITEM (TV_FIRST + 42) #define TreeView_MapAccIDToHTREEITEM(hwnd, id) \ (HTREEITEM)SNDMSG((hwnd), TVM_MAPACCIDTOHTREEITEM, id, 0) #define TVM_MAPHTREEITEMTOACCID (TV_FIRST + 43) #define TreeView_MapHTREEITEMToAccID(hwnd, htreeitem) \ (UINT)SNDMSG((hwnd), TVM_MAPHTREEITEMTOACCID, (WPARAM)htreeitem, 0) #endif typedef int (CALLBACK *PFNTVCOMPARE)(LPARAM lParam1, LPARAM lParam2, LPARAM lParamSort); #if (_WIN32_IE >= 0x0300) #define LPTV_SORTCB LPTVSORTCB #define TV_SORTCB TVSORTCB #else #define tagTVSORTCB _TV_SORTCB #define TVSORTCB TV_SORTCB #define LPTVSORTCB LPTV_SORTCB #endif typedef struct tagTVSORTCB { HTREEITEM hParent; PFNTVCOMPARE lpfnCompare; LPARAM lParam; } TVSORTCB, *LPTVSORTCB; #if (_WIN32_IE >= 0x0300) #define LPNM_TREEVIEWA LPNMTREEVIEWA #define LPNM_TREEVIEWW LPNMTREEVIEWW #define NM_TREEVIEWW NMTREEVIEWW #define NM_TREEVIEWA NMTREEVIEWA #else #define tagNMTREEVIEWA _NM_TREEVIEWA #define tagNMTREEVIEWW _NM_TREEVIEWW #define NMTREEVIEWA NM_TREEVIEWA #define NMTREEVIEWW NM_TREEVIEWW #define LPNMTREEVIEWA LPNM_TREEVIEWA #define LPNMTREEVIEWW LPNM_TREEVIEWW #endif #define LPNM_TREEVIEW LPNMTREEVIEW #define NM_TREEVIEW NMTREEVIEW typedef struct tagNMTREEVIEWA { NMHDR hdr; UINT action; TVITEMA itemOld; TVITEMA itemNew; POINT ptDrag; } NMTREEVIEWA, *LPNMTREEVIEWA; typedef struct tagNMTREEVIEWW { NMHDR hdr; UINT action; TVITEMW itemOld; TVITEMW itemNew; POINT ptDrag; } NMTREEVIEWW, *LPNMTREEVIEWW; #ifdef UNICODE #define NMTREEVIEW NMTREEVIEWW #define LPNMTREEVIEW LPNMTREEVIEWW #else #define NMTREEVIEW NMTREEVIEWA #define LPNMTREEVIEW LPNMTREEVIEWA #endif #define TVN_SELCHANGINGA (TVN_FIRST-1) #define TVN_SELCHANGINGW (TVN_FIRST-50) #define TVN_SELCHANGEDA (TVN_FIRST-2) #define TVN_SELCHANGEDW (TVN_FIRST-51) #define TVC_UNKNOWN 0x0000 #define TVC_BYMOUSE 0x0001 #define TVC_BYKEYBOARD 0x0002 #define TVN_GETDISPINFOA (TVN_FIRST-3) #define TVN_GETDISPINFOW (TVN_FIRST-52) #define TVN_SETDISPINFOA (TVN_FIRST-4) #define TVN_SETDISPINFOW (TVN_FIRST-53) #define TVIF_DI_SETITEM 0x1000 #if (_WIN32_IE >= 0x0300) #define TV_DISPINFOA NMTVDISPINFOA #define TV_DISPINFOW NMTVDISPINFOW #else #define tagTVDISPINFOA _TV_DISPINFOA #define NMTVDISPINFOA TV_DISPINFOA #define tagTVDISPINFOW _TV_DISPINFOW #define NMTVDISPINFOW TV_DISPINFOW #endif #define TV_DISPINFO NMTVDISPINFO typedef struct tagTVDISPINFOA { NMHDR hdr; TVITEMA item; } NMTVDISPINFOA, *LPNMTVDISPINFOA; typedef struct tagTVDISPINFOW { NMHDR hdr; TVITEMW item; } NMTVDISPINFOW, *LPNMTVDISPINFOW; #ifdef UNICODE #define NMTVDISPINFO NMTVDISPINFOW #define LPNMTVDISPINFO LPNMTVDISPINFOW #else #define NMTVDISPINFO NMTVDISPINFOA #define LPNMTVDISPINFO LPNMTVDISPINFOA #endif #define TVN_ITEMEXPANDINGA (TVN_FIRST-5) #define TVN_ITEMEXPANDINGW (TVN_FIRST-54) #define TVN_ITEMEXPANDEDA (TVN_FIRST-6) #define TVN_ITEMEXPANDEDW (TVN_FIRST-55) #define TVN_BEGINDRAGA (TVN_FIRST-7) #define TVN_BEGINDRAGW (TVN_FIRST-56) #define TVN_BEGINRDRAGA (TVN_FIRST-8) #define TVN_BEGINRDRAGW (TVN_FIRST-57) #define TVN_DELETEITEMA (TVN_FIRST-9) #define TVN_DELETEITEMW (TVN_FIRST-58) #define TVN_BEGINLABELEDITA (TVN_FIRST-10) #define TVN_BEGINLABELEDITW (TVN_FIRST-59) #define TVN_ENDLABELEDITA (TVN_FIRST-11) #define TVN_ENDLABELEDITW (TVN_FIRST-60) #define TVN_KEYDOWN (TVN_FIRST-12) #if (_WIN32_IE >= 0x0400) #define TVN_GETINFOTIPA (TVN_FIRST-13) #define TVN_GETINFOTIPW (TVN_FIRST-14) #define TVN_SINGLEEXPAND (TVN_FIRST-15) #define TVNRET_DEFAULT 0 #define TVNRET_SKIPOLD 1 #define TVNRET_SKIPNEW 2 #endif // 0x400 #if (_WIN32_IE >= 0x0300) #define TV_KEYDOWN NMTVKEYDOWN #else #define tagTVKEYDOWN _TV_KEYDOWN #define NMTVKEYDOWN TV_KEYDOWN #endif #ifdef _WIN32 #include <pshpack1.h> #endif typedef struct tagTVKEYDOWN { NMHDR hdr; WORD wVKey; UINT flags; } NMTVKEYDOWN, *LPNMTVKEYDOWN; #ifdef _WIN32 #include <poppack.h> #endif #ifdef UNICODE #define TVN_SELCHANGING TVN_SELCHANGINGW #define TVN_SELCHANGED TVN_SELCHANGEDW #define TVN_GETDISPINFO TVN_GETDISPINFOW #define TVN_SETDISPINFO TVN_SETDISPINFOW #define TVN_ITEMEXPANDING TVN_ITEMEXPANDINGW #define TVN_ITEMEXPANDED TVN_ITEMEXPANDEDW #define TVN_BEGINDRAG TVN_BEGINDRAGW #define TVN_BEGINRDRAG TVN_BEGINRDRAGW #define TVN_DELETEITEM TVN_DELETEITEMW #define TVN_BEGINLABELEDIT TVN_BEGINLABELEDITW #define TVN_ENDLABELEDIT TVN_ENDLABELEDITW #else #define TVN_SELCHANGING TVN_SELCHANGINGA #define TVN_SELCHANGED TVN_SELCHANGEDA #define TVN_GETDISPINFO TVN_GETDISPINFOA #define TVN_SETDISPINFO TVN_SETDISPINFOA #define TVN_ITEMEXPANDING TVN_ITEMEXPANDINGA #define TVN_ITEMEXPANDED TVN_ITEMEXPANDEDA #define TVN_BEGINDRAG TVN_BEGINDRAGA #define TVN_BEGINRDRAG TVN_BEGINRDRAGA #define TVN_DELETEITEM TVN_DELETEITEMA #define TVN_BEGINLABELEDIT TVN_BEGINLABELEDITA #define TVN_ENDLABELEDIT TVN_ENDLABELEDITA #endif #if (_WIN32_IE >= 0x0300) #define NMTVCUSTOMDRAW_V3_SIZE CCSIZEOF_STRUCT(NMTVCUSTOMDRAW, clrTextBk) typedef struct tagNMTVCUSTOMDRAW { NMCUSTOMDRAW nmcd; COLORREF clrText; COLORREF clrTextBk; #if (_WIN32_IE >= 0x0400) int iLevel; #endif } NMTVCUSTOMDRAW, *LPNMTVCUSTOMDRAW; #endif #if (_WIN32_IE >= 0x0400) // for tooltips typedef struct tagNMTVGETINFOTIPA { NMHDR hdr; LPSTR pszText; int cchTextMax; HTREEITEM hItem; LPARAM lParam; } NMTVGETINFOTIPA, *LPNMTVGETINFOTIPA; typedef struct tagNMTVGETINFOTIPW { NMHDR hdr; LPWSTR pszText; int cchTextMax; HTREEITEM hItem; LPARAM lParam; } NMTVGETINFOTIPW, *LPNMTVGETINFOTIPW; #ifdef UNICODE #define TVN_GETINFOTIP TVN_GETINFOTIPW #define NMTVGETINFOTIP NMTVGETINFOTIPW #define LPNMTVGETINFOTIP LPNMTVGETINFOTIPW #else #define TVN_GETINFOTIP TVN_GETINFOTIPA #define NMTVGETINFOTIP NMTVGETINFOTIPA #define LPNMTVGETINFOTIP LPNMTVGETINFOTIPA #endif // treeview's customdraw return meaning don't draw images. valid on CDRF_NOTIFYITEMPREPAINT #define TVCDRF_NOIMAGES 0x00010000 #endif // _WIN32_IE >= 0x0400 #endif // NOTREEVIEW #if (_WIN32_IE >= 0x0300) #ifndef NOUSEREXCONTROLS //////////////////// ComboBoxEx //////////////////////////////// #define WC_COMBOBOXEXW L"ComboBoxEx32" #define WC_COMBOBOXEXA "ComboBoxEx32" #ifdef UNICODE #define WC_COMBOBOXEX WC_COMBOBOXEXW #else #define WC_COMBOBOXEX WC_COMBOBOXEXA #endif #define CBEIF_TEXT 0x00000001 #define CBEIF_IMAGE 0x00000002 #define CBEIF_SELECTEDIMAGE 0x00000004 #define CBEIF_OVERLAY 0x00000008 #define CBEIF_INDENT 0x00000010 #define CBEIF_LPARAM 0x00000020 #define CBEIF_DI_SETITEM 0x10000000 typedef struct tagCOMBOBOXEXITEMA { UINT mask; INT_PTR iItem; LPSTR pszText; int cchTextMax; int iImage; int iSelectedImage; int iOverlay; int iIndent; LPARAM lParam; } COMBOBOXEXITEMA, *PCOMBOBOXEXITEMA; typedef COMBOBOXEXITEMA CONST *PCCOMBOEXITEMA; typedef struct tagCOMBOBOXEXITEMW { UINT mask; INT_PTR iItem; LPWSTR pszText; int cchTextMax; int iImage; int iSelectedImage; int iOverlay; int iIndent; LPARAM lParam; } COMBOBOXEXITEMW, *PCOMBOBOXEXITEMW; typedef COMBOBOXEXITEMW CONST *PCCOMBOEXITEMW; #ifdef UNICODE #define COMBOBOXEXITEM COMBOBOXEXITEMW #define PCOMBOBOXEXITEM PCOMBOBOXEXITEMW #define PCCOMBOBOXEXITEM PCCOMBOBOXEXITEMW #else #define COMBOBOXEXITEM COMBOBOXEXITEMA #define PCOMBOBOXEXITEM PCOMBOBOXEXITEMA #define PCCOMBOBOXEXITEM PCCOMBOBOXEXITEMA #endif #define CBEM_INSERTITEMA (WM_USER + 1) #define CBEM_SETIMAGELIST (WM_USER + 2) #define CBEM_GETIMAGELIST (WM_USER + 3) #define CBEM_GETITEMA (WM_USER + 4) #define CBEM_SETITEMA (WM_USER + 5) #define CBEM_DELETEITEM CB_DELETESTRING #define CBEM_GETCOMBOCONTROL (WM_USER + 6) #define CBEM_GETEDITCONTROL (WM_USER + 7) #if (_WIN32_IE >= 0x0400) #define CBEM_SETEXSTYLE (WM_USER + 8) // use SETEXTENDEDSTYLE instead #define CBEM_SETEXTENDEDSTYLE (WM_USER + 14) // lparam == new style, wParam (optional) == mask #define CBEM_GETEXSTYLE (WM_USER + 9) // use GETEXTENDEDSTYLE instead #define CBEM_GETEXTENDEDSTYLE (WM_USER + 9) #define CBEM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define CBEM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #else #define CBEM_SETEXSTYLE (WM_USER + 8) #define CBEM_GETEXSTYLE (WM_USER + 9) #endif #define CBEM_HASEDITCHANGED (WM_USER + 10) #define CBEM_INSERTITEMW (WM_USER + 11) #define CBEM_SETITEMW (WM_USER + 12) #define CBEM_GETITEMW (WM_USER + 13) #ifdef UNICODE #define CBEM_INSERTITEM CBEM_INSERTITEMW #define CBEM_SETITEM CBEM_SETITEMW #define CBEM_GETITEM CBEM_GETITEMW #else #define CBEM_INSERTITEM CBEM_INSERTITEMA #define CBEM_SETITEM CBEM_SETITEMA #define CBEM_GETITEM CBEM_GETITEMA #endif #if (_WIN32_WINNT >= 0x501) #define CBEM_SETWINDOWTHEME CCM_SETWINDOWTHEME #endif #define CBES_EX_NOEDITIMAGE 0x00000001 #define CBES_EX_NOEDITIMAGEINDENT 0x00000002 #define CBES_EX_PATHWORDBREAKPROC 0x00000004 #if (_WIN32_IE >= 0x0400) #define CBES_EX_NOSIZELIMIT 0x00000008 #define CBES_EX_CASESENSITIVE 0x00000010 typedef struct { NMHDR hdr; COMBOBOXEXITEMA ceItem; } NMCOMBOBOXEXA, *PNMCOMBOBOXEXA; typedef struct { NMHDR hdr; COMBOBOXEXITEMW ceItem; } NMCOMBOBOXEXW, *PNMCOMBOBOXEXW; #ifdef UNICODE #define NMCOMBOBOXEX NMCOMBOBOXEXW #define PNMCOMBOBOXEX PNMCOMBOBOXEXW #define CBEN_GETDISPINFO CBEN_GETDISPINFOW #else #define NMCOMBOBOXEX NMCOMBOBOXEXA #define PNMCOMBOBOXEX PNMCOMBOBOXEXA #define CBEN_GETDISPINFO CBEN_GETDISPINFOA #endif #else typedef struct { NMHDR hdr; COMBOBOXEXITEM ceItem; } NMCOMBOBOXEX, *PNMCOMBOBOXEX; #define CBEN_GETDISPINFO (CBEN_FIRST - 0) #endif // _WIN32_IE >= 0x0400 #if (_WIN32_IE >= 0x0400) #define CBEN_GETDISPINFOA (CBEN_FIRST - 0) #endif #define CBEN_INSERTITEM (CBEN_FIRST - 1) #define CBEN_DELETEITEM (CBEN_FIRST - 2) #define CBEN_BEGINEDIT (CBEN_FIRST - 4) #define CBEN_ENDEDITA (CBEN_FIRST - 5) #define CBEN_ENDEDITW (CBEN_FIRST - 6) #if (_WIN32_IE >= 0x0400) #define CBEN_GETDISPINFOW (CBEN_FIRST - 7) #endif #if (_WIN32_IE >= 0x0400) #define CBEN_DRAGBEGINA (CBEN_FIRST - 8) #define CBEN_DRAGBEGINW (CBEN_FIRST - 9) #ifdef UNICODE #define CBEN_DRAGBEGIN CBEN_DRAGBEGINW #else #define CBEN_DRAGBEGIN CBEN_DRAGBEGINA #endif #endif //(_WIN32_IE >= 0x0400) // lParam specifies why the endedit is happening #ifdef UNICODE #define CBEN_ENDEDIT CBEN_ENDEDITW #else #define CBEN_ENDEDIT CBEN_ENDEDITA #endif #define CBENF_KILLFOCUS 1 #define CBENF_RETURN 2 #define CBENF_ESCAPE 3 #define CBENF_DROPDOWN 4 #define CBEMAXSTRLEN 260 #if (_WIN32_IE >= 0x0400) // CBEN_DRAGBEGIN sends this information ... typedef struct { NMHDR hdr; int iItemid; WCHAR szText[CBEMAXSTRLEN]; }NMCBEDRAGBEGINW, *LPNMCBEDRAGBEGINW, *PNMCBEDRAGBEGINW; typedef struct { NMHDR hdr; int iItemid; char szText[CBEMAXSTRLEN]; }NMCBEDRAGBEGINA, *LPNMCBEDRAGBEGINA, *PNMCBEDRAGBEGINA; #ifdef UNICODE #define NMCBEDRAGBEGIN NMCBEDRAGBEGINW #define LPNMCBEDRAGBEGIN LPNMCBEDRAGBEGINW #define PNMCBEDRAGBEGIN PNMCBEDRAGBEGINW #else #define NMCBEDRAGBEGIN NMCBEDRAGBEGINA #define LPNMCBEDRAGBEGIN LPNMCBEDRAGBEGINA #define PNMCBEDRAGBEGIN PNMCBEDRAGBEGINA #endif #endif // _WIN32_IE >= 0x0400 // CBEN_ENDEDIT sends this information... // fChanged if the user actually did anything // iNewSelection gives what would be the new selection unless the notify is failed // iNewSelection may be CB_ERR if there's no match typedef struct { NMHDR hdr; BOOL fChanged; int iNewSelection; WCHAR szText[CBEMAXSTRLEN]; int iWhy; } NMCBEENDEDITW, *LPNMCBEENDEDITW, *PNMCBEENDEDITW; typedef struct { NMHDR hdr; BOOL fChanged; int iNewSelection; char szText[CBEMAXSTRLEN]; int iWhy; } NMCBEENDEDITA, *LPNMCBEENDEDITA,*PNMCBEENDEDITA; #ifdef UNICODE #define NMCBEENDEDIT NMCBEENDEDITW #define LPNMCBEENDEDIT LPNMCBEENDEDITW #define PNMCBEENDEDIT PNMCBEENDEDITW #else #define NMCBEENDEDIT NMCBEENDEDITA #define LPNMCBEENDEDIT LPNMCBEENDEDITA #define PNMCBEENDEDIT PNMCBEENDEDITA #endif #endif #endif // _WIN32_IE >= 0x0300 //====== TAB CONTROL ========================================================== #ifndef NOTABCONTROL #ifdef _WIN32 #define WC_TABCONTROLA "SysTabControl32" #define WC_TABCONTROLW L"SysTabControl32" #ifdef UNICODE #define WC_TABCONTROL WC_TABCONTROLW #else #define WC_TABCONTROL WC_TABCONTROLA #endif #else #define WC_TABCONTROL "SysTabControl" #endif // begin_r_commctrl #if (_WIN32_IE >= 0x0300) #define TCS_SCROLLOPPOSITE 0x0001 // assumes multiline tab #define TCS_BOTTOM 0x0002 #define TCS_RIGHT 0x0002 #define TCS_MULTISELECT 0x0004 // allow multi-select in button mode #endif #if (_WIN32_IE >= 0x0400) #define TCS_FLATBUTTONS 0x0008 #endif #define TCS_FORCEICONLEFT 0x0010 #define TCS_FORCELABELLEFT 0x0020 #if (_WIN32_IE >= 0x0300) #define TCS_HOTTRACK 0x0040 #define TCS_VERTICAL 0x0080 #endif #define TCS_TABS 0x0000 #define TCS_BUTTONS 0x0100 #define TCS_SINGLELINE 0x0000 #define TCS_MULTILINE 0x0200 #define TCS_RIGHTJUSTIFY 0x0000 #define TCS_FIXEDWIDTH 0x0400 #define TCS_RAGGEDRIGHT 0x0800 #define TCS_FOCUSONBUTTONDOWN 0x1000 #define TCS_OWNERDRAWFIXED 0x2000 #define TCS_TOOLTIPS 0x4000 #define TCS_FOCUSNEVER 0x8000 // end_r_commctrl #if (_WIN32_IE >= 0x0400) // EX styles for use with TCM_SETEXTENDEDSTYLE #define TCS_EX_FLATSEPARATORS 0x00000001 #define TCS_EX_REGISTERDROP 0x00000002 #endif #define TCM_GETIMAGELIST (TCM_FIRST + 2) #define TabCtrl_GetImageList(hwnd) \ (HIMAGELIST)SNDMSG((hwnd), TCM_GETIMAGELIST, 0, 0L) #define TCM_SETIMAGELIST (TCM_FIRST + 3) #define TabCtrl_SetImageList(hwnd, himl) \ (HIMAGELIST)SNDMSG((hwnd), TCM_SETIMAGELIST, 0, (LPARAM)(HIMAGELIST)(himl)) #define TCM_GETITEMCOUNT (TCM_FIRST + 4) #define TabCtrl_GetItemCount(hwnd) \ (int)SNDMSG((hwnd), TCM_GETITEMCOUNT, 0, 0L) #define TCIF_TEXT 0x0001 #define TCIF_IMAGE 0x0002 #define TCIF_RTLREADING 0x0004 #define TCIF_PARAM 0x0008 #if (_WIN32_IE >= 0x0300) #define TCIF_STATE 0x0010 #define TCIS_BUTTONPRESSED 0x0001 #endif #if (_WIN32_IE >= 0x0400) #define TCIS_HIGHLIGHTED 0x0002 #endif #if (_WIN32_IE >= 0x0300) #define TC_ITEMHEADERA TCITEMHEADERA #define TC_ITEMHEADERW TCITEMHEADERW #else #define tagTCITEMHEADERA _TC_ITEMHEADERA #define TCITEMHEADERA TC_ITEMHEADERA #define tagTCITEMHEADERW _TC_ITEMHEADERW #define TCITEMHEADERW TC_ITEMHEADERW #endif #define TC_ITEMHEADER TCITEMHEADER typedef struct tagTCITEMHEADERA { UINT mask; UINT lpReserved1; UINT lpReserved2; LPSTR pszText; int cchTextMax; int iImage; } TCITEMHEADERA, *LPTCITEMHEADERA; typedef struct tagTCITEMHEADERW { UINT mask; UINT lpReserved1; UINT lpReserved2; LPWSTR pszText; int cchTextMax; int iImage; } TCITEMHEADERW, *LPTCITEMHEADERW; #ifdef UNICODE #define TCITEMHEADER TCITEMHEADERW #define LPTCITEMHEADER LPTCITEMHEADERW #else #define TCITEMHEADER TCITEMHEADERA #define LPTCITEMHEADER LPTCITEMHEADERA #endif #if (_WIN32_IE >= 0x0300) #define TC_ITEMA TCITEMA #define TC_ITEMW TCITEMW #else #define tagTCITEMA _TC_ITEMA #define TCITEMA TC_ITEMA #define tagTCITEMW _TC_ITEMW #define TCITEMW TC_ITEMW #endif #define TC_ITEM TCITEM typedef struct tagTCITEMA { UINT mask; #if (_WIN32_IE >= 0x0300) DWORD dwState; DWORD dwStateMask; #else UINT lpReserved1; UINT lpReserved2; #endif LPSTR pszText; int cchTextMax; int iImage; LPARAM lParam; } TCITEMA, *LPTCITEMA; typedef struct tagTCITEMW { UINT mask; #if (_WIN32_IE >= 0x0300) DWORD dwState; DWORD dwStateMask; #else UINT lpReserved1; UINT lpReserved2; #endif LPWSTR pszText; int cchTextMax; int iImage; LPARAM lParam; } TCITEMW, *LPTCITEMW; #ifdef UNICODE #define TCITEM TCITEMW #define LPTCITEM LPTCITEMW #else #define TCITEM TCITEMA #define LPTCITEM LPTCITEMA #endif #define TCM_GETITEMA (TCM_FIRST + 5) #define TCM_GETITEMW (TCM_FIRST + 60) #ifdef UNICODE #define TCM_GETITEM TCM_GETITEMW #else #define TCM_GETITEM TCM_GETITEMA #endif #define TabCtrl_GetItem(hwnd, iItem, pitem) \ (BOOL)SNDMSG((hwnd), TCM_GETITEM, (WPARAM)(int)(iItem), (LPARAM)(TC_ITEM *)(pitem)) #define TCM_SETITEMA (TCM_FIRST + 6) #define TCM_SETITEMW (TCM_FIRST + 61) #ifdef UNICODE #define TCM_SETITEM TCM_SETITEMW #else #define TCM_SETITEM TCM_SETITEMA #endif #define TabCtrl_SetItem(hwnd, iItem, pitem) \ (BOOL)SNDMSG((hwnd), TCM_SETITEM, (WPARAM)(int)(iItem), (LPARAM)(TC_ITEM *)(pitem)) #define TCM_INSERTITEMA (TCM_FIRST + 7) #define TCM_INSERTITEMW (TCM_FIRST + 62) #ifdef UNICODE #define TCM_INSERTITEM TCM_INSERTITEMW #else #define TCM_INSERTITEM TCM_INSERTITEMA #endif #define TabCtrl_InsertItem(hwnd, iItem, pitem) \ (int)SNDMSG((hwnd), TCM_INSERTITEM, (WPARAM)(int)(iItem), (LPARAM)(const TC_ITEM *)(pitem)) #define TCM_DELETEITEM (TCM_FIRST + 8) #define TabCtrl_DeleteItem(hwnd, i) \ (BOOL)SNDMSG((hwnd), TCM_DELETEITEM, (WPARAM)(int)(i), 0L) #define TCM_DELETEALLITEMS (TCM_FIRST + 9) #define TabCtrl_DeleteAllItems(hwnd) \ (BOOL)SNDMSG((hwnd), TCM_DELETEALLITEMS, 0, 0L) #define TCM_GETITEMRECT (TCM_FIRST + 10) #define TabCtrl_GetItemRect(hwnd, i, prc) \ (BOOL)SNDMSG((hwnd), TCM_GETITEMRECT, (WPARAM)(int)(i), (LPARAM)(RECT *)(prc)) #define TCM_GETCURSEL (TCM_FIRST + 11) #define TabCtrl_GetCurSel(hwnd) \ (int)SNDMSG((hwnd), TCM_GETCURSEL, 0, 0) #define TCM_SETCURSEL (TCM_FIRST + 12) #define TabCtrl_SetCurSel(hwnd, i) \ (int)SNDMSG((hwnd), TCM_SETCURSEL, (WPARAM)(i), 0) #define TCHT_NOWHERE 0x0001 #define TCHT_ONITEMICON 0x0002 #define TCHT_ONITEMLABEL 0x0004 #define TCHT_ONITEM (TCHT_ONITEMICON | TCHT_ONITEMLABEL) #if (_WIN32_IE >= 0x0300) #define LPTC_HITTESTINFO LPTCHITTESTINFO #define TC_HITTESTINFO TCHITTESTINFO #else #define tagTCHITTESTINFO _TC_HITTESTINFO #define TCHITTESTINFO TC_HITTESTINFO #define LPTCHITTESTINFO LPTC_HITTESTINFO #endif typedef struct tagTCHITTESTINFO { POINT pt; UINT flags; } TCHITTESTINFO, *LPTCHITTESTINFO; #define TCM_HITTEST (TCM_FIRST + 13) #define TabCtrl_HitTest(hwndTC, pinfo) \ (int)SNDMSG((hwndTC), TCM_HITTEST, 0, (LPARAM)(TC_HITTESTINFO *)(pinfo)) #define TCM_SETITEMEXTRA (TCM_FIRST + 14) #define TabCtrl_SetItemExtra(hwndTC, cb) \ (BOOL)SNDMSG((hwndTC), TCM_SETITEMEXTRA, (WPARAM)(cb), 0L) #define TCM_ADJUSTRECT (TCM_FIRST + 40) #define TabCtrl_AdjustRect(hwnd, bLarger, prc) \ (int)SNDMSG(hwnd, TCM_ADJUSTRECT, (WPARAM)(BOOL)(bLarger), (LPARAM)(RECT *)prc) #define TCM_SETITEMSIZE (TCM_FIRST + 41) #define TabCtrl_SetItemSize(hwnd, x, y) \ (DWORD)SNDMSG((hwnd), TCM_SETITEMSIZE, 0, MAKELPARAM(x,y)) #define TCM_REMOVEIMAGE (TCM_FIRST + 42) #define TabCtrl_RemoveImage(hwnd, i) \ (void)SNDMSG((hwnd), TCM_REMOVEIMAGE, i, 0L) #define TCM_SETPADDING (TCM_FIRST + 43) #define TabCtrl_SetPadding(hwnd, cx, cy) \ (void)SNDMSG((hwnd), TCM_SETPADDING, 0, MAKELPARAM(cx, cy)) #define TCM_GETROWCOUNT (TCM_FIRST + 44) #define TabCtrl_GetRowCount(hwnd) \ (int)SNDMSG((hwnd), TCM_GETROWCOUNT, 0, 0L) #define TCM_GETTOOLTIPS (TCM_FIRST + 45) #define TabCtrl_GetToolTips(hwnd) \ (HWND)SNDMSG((hwnd), TCM_GETTOOLTIPS, 0, 0L) #define TCM_SETTOOLTIPS (TCM_FIRST + 46) #define TabCtrl_SetToolTips(hwnd, hwndTT) \ (void)SNDMSG((hwnd), TCM_SETTOOLTIPS, (WPARAM)(hwndTT), 0L) #define TCM_GETCURFOCUS (TCM_FIRST + 47) #define TabCtrl_GetCurFocus(hwnd) \ (int)SNDMSG((hwnd), TCM_GETCURFOCUS, 0, 0) #define TCM_SETCURFOCUS (TCM_FIRST + 48) #define TabCtrl_SetCurFocus(hwnd, i) \ SNDMSG((hwnd),TCM_SETCURFOCUS, i, 0) #if (_WIN32_IE >= 0x0300) #define TCM_SETMINTABWIDTH (TCM_FIRST + 49) #define TabCtrl_SetMinTabWidth(hwnd, x) \ (int)SNDMSG((hwnd), TCM_SETMINTABWIDTH, 0, x) #define TCM_DESELECTALL (TCM_FIRST + 50) #define TabCtrl_DeselectAll(hwnd, fExcludeFocus)\ (void)SNDMSG((hwnd), TCM_DESELECTALL, fExcludeFocus, 0) #endif #if (_WIN32_IE >= 0x0400) #define TCM_HIGHLIGHTITEM (TCM_FIRST + 51) #define TabCtrl_HighlightItem(hwnd, i, fHighlight) \ (BOOL)SNDMSG((hwnd), TCM_HIGHLIGHTITEM, (WPARAM)(i), (LPARAM)MAKELONG (fHighlight, 0)) #define TCM_SETEXTENDEDSTYLE (TCM_FIRST + 52) // optional wParam == mask #define TabCtrl_SetExtendedStyle(hwnd, dw)\ (DWORD)SNDMSG((hwnd), TCM_SETEXTENDEDSTYLE, 0, dw) #define TCM_GETEXTENDEDSTYLE (TCM_FIRST + 53) #define TabCtrl_GetExtendedStyle(hwnd)\ (DWORD)SNDMSG((hwnd), TCM_GETEXTENDEDSTYLE, 0, 0) #define TCM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define TabCtrl_SetUnicodeFormat(hwnd, fUnicode) \ (BOOL)SNDMSG((hwnd), TCM_SETUNICODEFORMAT, (WPARAM)(fUnicode), 0) #define TCM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #define TabCtrl_GetUnicodeFormat(hwnd) \ (BOOL)SNDMSG((hwnd), TCM_GETUNICODEFORMAT, 0, 0) #endif // _WIN32_IE >= 0x0400 #define TCN_KEYDOWN (TCN_FIRST - 0) #if (_WIN32_IE >= 0x0300) #define TC_KEYDOWN NMTCKEYDOWN #else #define tagTCKEYDOWN _TC_KEYDOWN #define NMTCKEYDOWN TC_KEYDOWN #endif #ifdef _WIN32 #include <pshpack1.h> #endif typedef struct tagTCKEYDOWN { NMHDR hdr; WORD wVKey; UINT flags; } NMTCKEYDOWN; #ifdef _WIN32 #include <poppack.h> #endif #define TCN_SELCHANGE (TCN_FIRST - 1) #define TCN_SELCHANGING (TCN_FIRST - 2) #if (_WIN32_IE >= 0x0400) #define TCN_GETOBJECT (TCN_FIRST - 3) #endif // _WIN32_IE >= 0x0400 #if (_WIN32_IE >= 0x0500) #define TCN_FOCUSCHANGE (TCN_FIRST - 4) #endif // _WIN32_IE >= 0x0500 #endif // NOTABCONTROL //====== ANIMATE CONTROL ====================================================== #ifndef NOANIMATE #ifdef _WIN32 #define ANIMATE_CLASSW L"SysAnimate32" #define ANIMATE_CLASSA "SysAnimate32" #ifdef UNICODE #define ANIMATE_CLASS ANIMATE_CLASSW #else #define ANIMATE_CLASS ANIMATE_CLASSA #endif // begin_r_commctrl #define ACS_CENTER 0x0001 #define ACS_TRANSPARENT 0x0002 #define ACS_AUTOPLAY 0x0004 #if (_WIN32_IE >= 0x0300) #define ACS_TIMER 0x0008 // don't use threads... use timers #endif // end_r_commctrl #define ACM_OPENA (WM_USER+100) #define ACM_OPENW (WM_USER+103) #ifdef UNICODE #define ACM_OPEN ACM_OPENW #else #define ACM_OPEN ACM_OPENA #endif #define ACM_PLAY (WM_USER+101) #define ACM_STOP (WM_USER+102) #define ACN_START 1 #define ACN_STOP 2 #define Animate_Create(hwndP, id, dwStyle, hInstance) \ CreateWindow(ANIMATE_CLASS, NULL, \ dwStyle, 0, 0, 0, 0, hwndP, (HMENU)(id), hInstance, NULL) #define Animate_Open(hwnd, szName) (BOOL)SNDMSG(hwnd, ACM_OPEN, 0, (LPARAM)(LPTSTR)(szName)) #define Animate_OpenEx(hwnd, hInst, szName) (BOOL)SNDMSG(hwnd, ACM_OPEN, (WPARAM)(hInst), (LPARAM)(LPTSTR)(szName)) #define Animate_Play(hwnd, from, to, rep) (BOOL)SNDMSG(hwnd, ACM_PLAY, (WPARAM)(rep), (LPARAM)MAKELONG(from, to)) #define Animate_Stop(hwnd) (BOOL)SNDMSG(hwnd, ACM_STOP, 0, 0) #define Animate_Close(hwnd) Animate_Open(hwnd, NULL) #define Animate_Seek(hwnd, frame) Animate_Play(hwnd, frame, frame, 1) #endif #endif // NOANIMATE #if (_WIN32_IE >= 0x0300) //====== MONTHCAL CONTROL ====================================================== #ifndef NOMONTHCAL #ifdef _WIN32 #define MONTHCAL_CLASSW L"SysMonthCal32" #define MONTHCAL_CLASSA "SysMonthCal32" #ifdef UNICODE #define MONTHCAL_CLASS MONTHCAL_CLASSW #else #define MONTHCAL_CLASS MONTHCAL_CLASSA #endif // bit-packed array of "bold" info for a month // if a bit is on, that day is drawn bold typedef DWORD MONTHDAYSTATE, *LPMONTHDAYSTATE; #define MCM_FIRST 0x1000 // BOOL MonthCal_GetCurSel(HWND hmc, LPSYSTEMTIME pst) // returns FALSE if MCS_MULTISELECT // returns TRUE and sets *pst to the currently selected date otherwise #define MCM_GETCURSEL (MCM_FIRST + 1) #define MonthCal_GetCurSel(hmc, pst) (BOOL)SNDMSG(hmc, MCM_GETCURSEL, 0, (LPARAM)(pst)) // BOOL MonthCal_SetCurSel(HWND hmc, LPSYSTEMTIME pst) // returns FALSE if MCS_MULTISELECT // returns TURE and sets the currently selected date to *pst otherwise #define MCM_SETCURSEL (MCM_FIRST + 2) #define MonthCal_SetCurSel(hmc, pst) (BOOL)SNDMSG(hmc, MCM_SETCURSEL, 0, (LPARAM)(pst)) // DWORD MonthCal_GetMaxSelCount(HWND hmc) // returns the maximum number of selectable days allowed #define MCM_GETMAXSELCOUNT (MCM_FIRST + 3) #define MonthCal_GetMaxSelCount(hmc) (DWORD)SNDMSG(hmc, MCM_GETMAXSELCOUNT, 0, 0L) // BOOL MonthCal_SetMaxSelCount(HWND hmc, UINT n) // sets the max number days that can be selected iff MCS_MULTISELECT #define MCM_SETMAXSELCOUNT (MCM_FIRST + 4) #define MonthCal_SetMaxSelCount(hmc, n) (BOOL)SNDMSG(hmc, MCM_SETMAXSELCOUNT, (WPARAM)(n), 0L) // BOOL MonthCal_GetSelRange(HWND hmc, LPSYSTEMTIME rgst) // sets rgst[0] to the first day of the selection range // sets rgst[1] to the last day of the selection range #define MCM_GETSELRANGE (MCM_FIRST + 5) #define MonthCal_GetSelRange(hmc, rgst) SNDMSG(hmc, MCM_GETSELRANGE, 0, (LPARAM)(rgst)) // BOOL MonthCal_SetSelRange(HWND hmc, LPSYSTEMTIME rgst) // selects the range of days from rgst[0] to rgst[1] #define MCM_SETSELRANGE (MCM_FIRST + 6) #define MonthCal_SetSelRange(hmc, rgst) SNDMSG(hmc, MCM_SETSELRANGE, 0, (LPARAM)(rgst)) // DWORD MonthCal_GetMonthRange(HWND hmc, DWORD gmr, LPSYSTEMTIME rgst) // if rgst specified, sets rgst[0] to the starting date and // and rgst[1] to the ending date of the the selectable (non-grayed) // days if GMR_VISIBLE or all the displayed days (including grayed) // if GMR_DAYSTATE. // returns the number of months spanned by the above range. #define MCM_GETMONTHRANGE (MCM_FIRST + 7) #define MonthCal_GetMonthRange(hmc, gmr, rgst) (DWORD)SNDMSG(hmc, MCM_GETMONTHRANGE, (WPARAM)(gmr), (LPARAM)(rgst)) // BOOL MonthCal_SetDayState(HWND hmc, int cbds, DAYSTATE *rgds) // cbds is the count of DAYSTATE items in rgds and it must be equal // to the value returned from MonthCal_GetMonthRange(hmc, GMR_DAYSTATE, NULL) // This sets the DAYSTATE bits for each month (grayed and non-grayed // days) displayed in the calendar. The first bit in a month's DAYSTATE // corresponts to bolding day 1, the second bit affects day 2, etc. #define MCM_SETDAYSTATE (MCM_FIRST + 8) #define MonthCal_SetDayState(hmc, cbds, rgds) SNDMSG(hmc, MCM_SETDAYSTATE, (WPARAM)(cbds), (LPARAM)(rgds)) // BOOL MonthCal_GetMinReqRect(HWND hmc, LPRECT prc) // sets *prc the minimal size needed to display one month // To display two months, undo the AdjustWindowRect calculation already done to // this rect, double the width, and redo the AdjustWindowRect calculation -- // the monthcal control will display two calendars in this window (if you also // double the vertical size, you will get 4 calendars) // NOTE: if you want to gurantee that the "Today" string is not clipped, // get the MCM_GETMAXTODAYWIDTH and use the max of that width and this width #define MCM_GETMINREQRECT (MCM_FIRST + 9) #define MonthCal_GetMinReqRect(hmc, prc) SNDMSG(hmc, MCM_GETMINREQRECT, 0, (LPARAM)(prc)) // set colors to draw control with -- see MCSC_ bits below #define MCM_SETCOLOR (MCM_FIRST + 10) #define MonthCal_SetColor(hmc, iColor, clr) SNDMSG(hmc, MCM_SETCOLOR, iColor, clr) #define MCM_GETCOLOR (MCM_FIRST + 11) #define MonthCal_GetColor(hmc, iColor) SNDMSG(hmc, MCM_GETCOLOR, iColor, 0) #define MCSC_BACKGROUND 0 // the background color (between months) #define MCSC_TEXT 1 // the dates #define MCSC_TITLEBK 2 // background of the title #define MCSC_TITLETEXT 3 #define MCSC_MONTHBK 4 // background within the month cal #define MCSC_TRAILINGTEXT 5 // the text color of header & trailing days // set what day is "today" send NULL to revert back to real date #define MCM_SETTODAY (MCM_FIRST + 12) #define MonthCal_SetToday(hmc, pst) SNDMSG(hmc, MCM_SETTODAY, 0, (LPARAM)(pst)) // get what day is "today" // returns BOOL for success/failure #define MCM_GETTODAY (MCM_FIRST + 13) #define MonthCal_GetToday(hmc, pst) (BOOL)SNDMSG(hmc, MCM_GETTODAY, 0, (LPARAM)(pst)) // determine what pinfo->pt is over #define MCM_HITTEST (MCM_FIRST + 14) #define MonthCal_HitTest(hmc, pinfo) \ SNDMSG(hmc, MCM_HITTEST, 0, (LPARAM)(PMCHITTESTINFO)(pinfo)) typedef struct { UINT cbSize; POINT pt; UINT uHit; // out param SYSTEMTIME st; } MCHITTESTINFO, *PMCHITTESTINFO; #define MCHT_TITLE 0x00010000 #define MCHT_CALENDAR 0x00020000 #define MCHT_TODAYLINK 0x00030000 #define MCHT_NEXT 0x01000000 // these indicate that hitting #define MCHT_PREV 0x02000000 // here will go to the next/prev month #define MCHT_NOWHERE 0x00000000 #define MCHT_TITLEBK (MCHT_TITLE) #define MCHT_TITLEMONTH (MCHT_TITLE | 0x0001) #define MCHT_TITLEYEAR (MCHT_TITLE | 0x0002) #define MCHT_TITLEBTNNEXT (MCHT_TITLE | MCHT_NEXT | 0x0003) #define MCHT_TITLEBTNPREV (MCHT_TITLE | MCHT_PREV | 0x0003) #define MCHT_CALENDARBK (MCHT_CALENDAR) #define MCHT_CALENDARDATE (MCHT_CALENDAR | 0x0001) #define MCHT_CALENDARDATENEXT (MCHT_CALENDARDATE | MCHT_NEXT) #define MCHT_CALENDARDATEPREV (MCHT_CALENDARDATE | MCHT_PREV) #define MCHT_CALENDARDAY (MCHT_CALENDAR | 0x0002) #define MCHT_CALENDARWEEKNUM (MCHT_CALENDAR | 0x0003) // set first day of week to iDay: // 0 for Monday, 1 for Tuesday, ..., 6 for Sunday // -1 for means use locale info #define MCM_SETFIRSTDAYOFWEEK (MCM_FIRST + 15) #define MonthCal_SetFirstDayOfWeek(hmc, iDay) \ SNDMSG(hmc, MCM_SETFIRSTDAYOFWEEK, 0, iDay) // DWORD result... low word has the day. high word is bool if this is app set // or not (FALSE == using locale info) #define MCM_GETFIRSTDAYOFWEEK (MCM_FIRST + 16) #define MonthCal_GetFirstDayOfWeek(hmc) \ (DWORD)SNDMSG(hmc, MCM_GETFIRSTDAYOFWEEK, 0, 0) // DWORD MonthCal_GetRange(HWND hmc, LPSYSTEMTIME rgst) // modifies rgst[0] to be the minimum ALLOWABLE systemtime (or 0 if no minimum) // modifies rgst[1] to be the maximum ALLOWABLE systemtime (or 0 if no maximum) // returns GDTR_MIN|GDTR_MAX if there is a minimum|maximum limit #define MCM_GETRANGE (MCM_FIRST + 17) #define MonthCal_GetRange(hmc, rgst) \ (DWORD)SNDMSG(hmc, MCM_GETRANGE, 0, (LPARAM)(rgst)) // BOOL MonthCal_SetRange(HWND hmc, DWORD gdtr, LPSYSTEMTIME rgst) // if GDTR_MIN, sets the minimum ALLOWABLE systemtime to rgst[0], otherwise removes minimum // if GDTR_MAX, sets the maximum ALLOWABLE systemtime to rgst[1], otherwise removes maximum // returns TRUE on success, FALSE on error (such as invalid parameters) #define MCM_SETRANGE (MCM_FIRST + 18) #define MonthCal_SetRange(hmc, gd, rgst) \ (BOOL)SNDMSG(hmc, MCM_SETRANGE, (WPARAM)(gd), (LPARAM)(rgst)) // int MonthCal_GetMonthDelta(HWND hmc) // returns the number of months one click on a next/prev button moves by #define MCM_GETMONTHDELTA (MCM_FIRST + 19) #define MonthCal_GetMonthDelta(hmc) \ (int)SNDMSG(hmc, MCM_GETMONTHDELTA, 0, 0) // int MonthCal_SetMonthDelta(HWND hmc, int n) // sets the month delta to n. n==0 reverts to moving by a page of months // returns the previous value of n. #define MCM_SETMONTHDELTA (MCM_FIRST + 20) #define MonthCal_SetMonthDelta(hmc, n) \ (int)SNDMSG(hmc, MCM_SETMONTHDELTA, n, 0) // DWORD MonthCal_GetMaxTodayWidth(HWND hmc, LPSIZE psz) // sets *psz to the maximum width/height of the "Today" string displayed // at the bottom of the calendar (as long as MCS_NOTODAY is not specified) #define MCM_GETMAXTODAYWIDTH (MCM_FIRST + 21) #define MonthCal_GetMaxTodayWidth(hmc) \ (DWORD)SNDMSG(hmc, MCM_GETMAXTODAYWIDTH, 0, 0) #if (_WIN32_IE >= 0x0400) #define MCM_SETUNICODEFORMAT CCM_SETUNICODEFORMAT #define MonthCal_SetUnicodeFormat(hwnd, fUnicode) \ (BOOL)SNDMSG((hwnd), MCM_SETUNICODEFORMAT, (WPARAM)(fUnicode), 0) #define MCM_GETUNICODEFORMAT CCM_GETUNICODEFORMAT #define MonthCal_GetUnicodeFormat(hwnd) \ (BOOL)SNDMSG((hwnd), MCM_GETUNICODEFORMAT, 0, 0) #endif // MCN_SELCHANGE is sent whenever the currently displayed date changes // via month change, year change, keyboard navigation, prev/next button // typedef struct tagNMSELCHANGE { NMHDR nmhdr; // this must be first, so we don't break WM_NOTIFY SYSTEMTIME stSelStart; SYSTEMTIME stSelEnd; } NMSELCHANGE, *LPNMSELCHANGE; #define MCN_SELCHANGE (MCN_FIRST + 1) // MCN_GETDAYSTATE is sent for MCS_DAYSTATE controls whenever new daystate // information is needed (month or year scroll) to draw bolding information. // The app must fill in cDayState months worth of information starting from // stStart date. The app may fill in the array at prgDayState or change // prgDayState to point to a different array out of which the information // will be copied. (similar to tooltips) // typedef struct tagNMDAYSTATE { NMHDR nmhdr; // this must be first, so we don't break WM_NOTIFY SYSTEMTIME stStart; int cDayState; LPMONTHDAYSTATE prgDayState; // points to cDayState MONTHDAYSTATEs } NMDAYSTATE, *LPNMDAYSTATE; #define MCN_GETDAYSTATE (MCN_FIRST + 3) // MCN_SELECT is sent whenever a selection has occured (via mouse or keyboard) // typedef NMSELCHANGE NMSELECT, *LPNMSELECT; #define MCN_SELECT (MCN_FIRST + 4) // begin_r_commctrl #define MCS_DAYSTATE 0x0001 #define MCS_MULTISELECT 0x0002 #define MCS_WEEKNUMBERS 0x0004 #if (_WIN32_IE >= 0x0400) #define MCS_NOTODAYCIRCLE 0x0008 #define MCS_NOTODAY 0x0010 #else #define MCS_NOTODAY 0x0008 #endif // end_r_commctrl #define GMR_VISIBLE 0 // visible portion of display #define GMR_DAYSTATE 1 // above plus the grayed out parts of // partially displayed months #endif // _WIN32 #endif // NOMONTHCAL //====== DATETIMEPICK CONTROL ================================================== #ifndef NODATETIMEPICK #ifdef _WIN32 #define DATETIMEPICK_CLASSW L"SysDateTimePick32" #define DATETIMEPICK_CLASSA "SysDateTimePick32" #ifdef UNICODE #define DATETIMEPICK_CLASS DATETIMEPICK_CLASSW #else #define DATETIMEPICK_CLASS DATETIMEPICK_CLASSA #endif #define DTM_FIRST 0x1000 // DWORD DateTimePick_GetSystemtime(HWND hdp, LPSYSTEMTIME pst) // returns GDT_NONE if "none" is selected (DTS_SHOWNONE only) // returns GDT_VALID and modifies *pst to be the currently selected value #define DTM_GETSYSTEMTIME (DTM_FIRST + 1) #define DateTime_GetSystemtime(hdp, pst) (DWORD)SNDMSG(hdp, DTM_GETSYSTEMTIME, 0, (LPARAM)(pst)) // BOOL DateTime_SetSystemtime(HWND hdp, DWORD gd, LPSYSTEMTIME pst) // if gd==GDT_NONE, sets datetimepick to None (DTS_SHOWNONE only) // if gd==GDT_VALID, sets datetimepick to *pst // returns TRUE on success, FALSE on error (such as bad params) #define DTM_SETSYSTEMTIME (DTM_FIRST + 2) #define DateTime_SetSystemtime(hdp, gd, pst) (BOOL)SNDMSG(hdp, DTM_SETSYSTEMTIME, (WPARAM)(gd), (LPARAM)(pst)) // DWORD DateTime_GetRange(HWND hdp, LPSYSTEMTIME rgst) // modifies rgst[0] to be the minimum ALLOWABLE systemtime (or 0 if no minimum) // modifies rgst[1] to be the maximum ALLOWABLE systemtime (or 0 if no maximum) // returns GDTR_MIN|GDTR_MAX if there is a minimum|maximum limit #define DTM_GETRANGE (DTM_FIRST + 3) #define DateTime_GetRange(hdp, rgst) (DWORD)SNDMSG(hdp, DTM_GETRANGE, 0, (LPARAM)(rgst)) // BOOL DateTime_SetRange(HWND hdp, DWORD gdtr, LPSYSTEMTIME rgst) // if GDTR_MIN, sets the minimum ALLOWABLE systemtime to rgst[0], otherwise removes minimum // if GDTR_MAX, sets the maximum ALLOWABLE systemtime to rgst[1], otherwise removes maximum // returns TRUE on success, FALSE on error (such as invalid parameters) #define DTM_SETRANGE (DTM_FIRST + 4) #define DateTime_SetRange(hdp, gd, rgst) (BOOL)SNDMSG(hdp, DTM_SETRANGE, (WPARAM)(gd), (LPARAM)(rgst)) // BOOL DateTime_SetFormat(HWND hdp, LPCTSTR sz) // sets the display formatting string to sz (see GetDateFormat and GetTimeFormat for valid formatting chars) // NOTE: 'X' is a valid formatting character which indicates that the application // will determine how to display information. Such apps must support DTN_WMKEYDOWN, // DTN_FORMAT, and DTN_FORMATQUERY. #define DTM_SETFORMATA (DTM_FIRST + 5) #define DTM_SETFORMATW (DTM_FIRST + 50) #ifdef UNICODE #define DTM_SETFORMAT DTM_SETFORMATW #else #define DTM_SETFORMAT DTM_SETFORMATA #endif #define DateTime_SetFormat(hdp, sz) (BOOL)SNDMSG(hdp, DTM_SETFORMAT, 0, (LPARAM)(sz)) #define DTM_SETMCCOLOR (DTM_FIRST + 6) #define DateTime_SetMonthCalColor(hdp, iColor, clr) SNDMSG(hdp, DTM_SETMCCOLOR, iColor, clr) #define DTM_GETMCCOLOR (DTM_FIRST + 7) #define DateTime_GetMonthCalColor(hdp, iColor) SNDMSG(hdp, DTM_GETMCCOLOR, iColor, 0) // HWND DateTime_GetMonthCal(HWND hdp) // returns the HWND of the MonthCal popup window. Only valid // between DTN_DROPDOWN and DTN_CLOSEUP notifications. #define DTM_GETMONTHCAL (DTM_FIRST + 8) #define DateTime_GetMonthCal(hdp) (HWND)SNDMSG(hdp, DTM_GETMONTHCAL, 0, 0) #if (_WIN32_IE >= 0x0400) #define DTM_SETMCFONT (DTM_FIRST + 9) #define DateTime_SetMonthCalFont(hdp, hfont, fRedraw) SNDMSG(hdp, DTM_SETMCFONT, (WPARAM)(hfont), (LPARAM)(fRedraw)) #define DTM_GETMCFONT (DTM_FIRST + 10) #define DateTime_GetMonthCalFont(hdp) SNDMSG(hdp, DTM_GETMCFONT, 0, 0) #endif // _WIN32_IE >= 0x0400 // begin_r_commctrl #define DTS_UPDOWN 0x0001 // use UPDOWN instead of MONTHCAL #define DTS_SHOWNONE 0x0002 // allow a NONE selection #define DTS_SHORTDATEFORMAT 0x0000 // use the short date format (app must forward WM_WININICHANGE messages) #define DTS_LONGDATEFORMAT 0x0004 // use the long date format (app must forward WM_WININICHANGE messages) #if (_WIN32_IE >= 0x500) #define DTS_SHORTDATECENTURYFORMAT 0x000C// short date format with century (app must forward WM_WININICHANGE messages) #endif // (_WIN32_IE >= 0x500) #define DTS_TIMEFORMAT 0x0009 // use the time format (app must forward WM_WININICHANGE messages) #define DTS_APPCANPARSE 0x0010 // allow user entered strings (app MUST respond to DTN_USERSTRING) #define DTS_RIGHTALIGN 0x0020 // right-align popup instead of left-align it // end_r_commctrl #define DTN_DATETIMECHANGE (DTN_FIRST + 1) // the systemtime has changed typedef struct tagNMDATETIMECHANGE { NMHDR nmhdr; DWORD dwFlags; // GDT_VALID or GDT_NONE SYSTEMTIME st; // valid iff dwFlags==GDT_VALID } NMDATETIMECHANGE, *LPNMDATETIMECHANGE; #define DTN_USERSTRINGA (DTN_FIRST + 2) // the user has entered a string #define DTN_USERSTRINGW (DTN_FIRST + 15) typedef struct tagNMDATETIMESTRINGA { NMHDR nmhdr; LPCSTR pszUserString; // string user entered SYSTEMTIME st; // app fills this in DWORD dwFlags; // GDT_VALID or GDT_NONE } NMDATETIMESTRINGA, *LPNMDATETIMESTRINGA; typedef struct tagNMDATETIMESTRINGW { NMHDR nmhdr; LPCWSTR pszUserString; // string user entered SYSTEMTIME st; // app fills this in DWORD dwFlags; // GDT_VALID or GDT_NONE } NMDATETIMESTRINGW, *LPNMDATETIMESTRINGW; #ifdef UNICODE #define DTN_USERSTRING DTN_USERSTRINGW #define NMDATETIMESTRING NMDATETIMESTRINGW #define LPNMDATETIMESTRING LPNMDATETIMESTRINGW #else #define DTN_USERSTRING DTN_USERSTRINGA #define NMDATETIMESTRING NMDATETIMESTRINGA #define LPNMDATETIMESTRING LPNMDATETIMESTRINGA #endif #define DTN_WMKEYDOWNA (DTN_FIRST + 3) // modify keydown on app format field (X) #define DTN_WMKEYDOWNW (DTN_FIRST + 16) typedef struct tagNMDATETIMEWMKEYDOWNA { NMHDR nmhdr; int nVirtKey; // virtual key code of WM_KEYDOWN which MODIFIES an X field LPCSTR pszFormat; // format substring SYSTEMTIME st; // current systemtime, app should modify based on key } NMDATETIMEWMKEYDOWNA, *LPNMDATETIMEWMKEYDOWNA; typedef struct tagNMDATETIMEWMKEYDOWNW { NMHDR nmhdr; int nVirtKey; // virtual key code of WM_KEYDOWN which MODIFIES an X field LPCWSTR pszFormat; // format substring SYSTEMTIME st; // current systemtime, app should modify based on key } NMDATETIMEWMKEYDOWNW, *LPNMDATETIMEWMKEYDOWNW; #ifdef UNICODE #define DTN_WMKEYDOWN DTN_WMKEYDOWNW #define NMDATETIMEWMKEYDOWN NMDATETIMEWMKEYDOWNW #define LPNMDATETIMEWMKEYDOWN LPNMDATETIMEWMKEYDOWNW #else #define DTN_WMKEYDOWN DTN_WMKEYDOWNA #define NMDATETIMEWMKEYDOWN NMDATETIMEWMKEYDOWNA #define LPNMDATETIMEWMKEYDOWN LPNMDATETIMEWMKEYDOWNA #endif #define DTN_FORMATA (DTN_FIRST + 4) // query display for app format field (X) #define DTN_FORMATW (DTN_FIRST + 17) typedef struct tagNMDATETIMEFORMATA { NMHDR nmhdr; LPCSTR pszFormat; // format substring SYSTEMTIME st; // current systemtime LPCSTR pszDisplay; // string to display CHAR szDisplay[64]; // buffer pszDisplay originally points at } NMDATETIMEFORMATA, *LPNMDATETIMEFORMATA; typedef struct tagNMDATETIMEFORMATW { NMHDR nmhdr; LPCWSTR pszFormat; // format substring SYSTEMTIME st; // current systemtime LPCWSTR pszDisplay; // string to display WCHAR szDisplay[64]; // buffer pszDisplay originally points at } NMDATETIMEFORMATW, *LPNMDATETIMEFORMATW; #ifdef UNICODE #define DTN_FORMAT DTN_FORMATW #define NMDATETIMEFORMAT NMDATETIMEFORMATW #define LPNMDATETIMEFORMAT LPNMDATETIMEFORMATW #else #define DTN_FORMAT DTN_FORMATA #define NMDATETIMEFORMAT NMDATETIMEFORMATA #define LPNMDATETIMEFORMAT LPNMDATETIMEFORMATA #endif #define DTN_FORMATQUERYA (DTN_FIRST + 5) // query formatting info for app format field (X) #define DTN_FORMATQUERYW (DTN_FIRST + 18) typedef struct tagNMDATETIMEFORMATQUERYA { NMHDR nmhdr; LPCSTR pszFormat; // format substring SIZE szMax; // max bounding rectangle app will use for this format string } NMDATETIMEFORMATQUERYA, *LPNMDATETIMEFORMATQUERYA; typedef struct tagNMDATETIMEFORMATQUERYW { NMHDR nmhdr; LPCWSTR pszFormat; // format substring SIZE szMax; // max bounding rectangle app will use for this format string } NMDATETIMEFORMATQUERYW, *LPNMDATETIMEFORMATQUERYW; #ifdef UNICODE #define DTN_FORMATQUERY DTN_FORMATQUERYW #define NMDATETIMEFORMATQUERY NMDATETIMEFORMATQUERYW #define LPNMDATETIMEFORMATQUERY LPNMDATETIMEFORMATQUERYW #else #define DTN_FORMATQUERY DTN_FORMATQUERYA #define NMDATETIMEFORMATQUERY NMDATETIMEFORMATQUERYA #define LPNMDATETIMEFORMATQUERY LPNMDATETIMEFORMATQUERYA #endif #define DTN_DROPDOWN (DTN_FIRST + 6) // MonthCal has dropped down #define DTN_CLOSEUP (DTN_FIRST + 7) // MonthCal is popping up #define GDTR_MIN 0x0001 #define GDTR_MAX 0x0002 #define GDT_ERROR -1 #define GDT_VALID 0 #define GDT_NONE 1 #endif // _WIN32 #endif // NODATETIMEPICK #if (_WIN32_IE >= 0x0400) #ifndef NOIPADDRESS /////////////////////////////////////////////// /// IP Address edit control // Messages sent to IPAddress controls #define IPM_CLEARADDRESS (WM_USER+100) // no parameters #define IPM_SETADDRESS (WM_USER+101) // lparam = TCP/IP address #define IPM_GETADDRESS (WM_USER+102) // lresult = # of non black fields. lparam = LPDWORD for TCP/IP address #define IPM_SETRANGE (WM_USER+103) // wparam = field, lparam = range #define IPM_SETFOCUS (WM_USER+104) // wparam = field #define IPM_ISBLANK (WM_USER+105) // no parameters #define WC_IPADDRESSW L"SysIPAddress32" #define WC_IPADDRESSA "SysIPAddress32" #ifdef UNICODE #define WC_IPADDRESS WC_IPADDRESSW #else #define WC_IPADDRESS WC_IPADDRESSA #endif #define IPN_FIELDCHANGED (IPN_FIRST - 0) typedef struct tagNMIPADDRESS { NMHDR hdr; int iField; int iValue; } NMIPADDRESS, *LPNMIPADDRESS; // The following is a useful macro for passing the range values in the // IPM_SETRANGE message. #define MAKEIPRANGE(low, high) ((LPARAM)(WORD)(((BYTE)(high) << 8) + (BYTE)(low))) // And this is a useful macro for making the IP Address to be passed // as a LPARAM. #define MAKEIPADDRESS(b1,b2,b3,b4) ((LPARAM)(((DWORD)(b1)<<24)+((DWORD)(b2)<<16)+((DWORD)(b3)<<8)+((DWORD)(b4)))) // Get individual number #define FIRST_IPADDRESS(x) ((x>>24) & 0xff) #define SECOND_IPADDRESS(x) ((x>>16) & 0xff) #define THIRD_IPADDRESS(x) ((x>>8) & 0xff) #define FOURTH_IPADDRESS(x) (x & 0xff) #endif // NOIPADDRESS //--------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------- /// ====================== Pager Control ============================= //--------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------- #ifndef NOPAGESCROLLER //Pager Class Name #define WC_PAGESCROLLERW L"SysPager" #define WC_PAGESCROLLERA "SysPager" #ifdef UNICODE #define WC_PAGESCROLLER WC_PAGESCROLLERW #else #define WC_PAGESCROLLER WC_PAGESCROLLERA #endif //--------------------------------------------------------------------------------------- // Pager Control Styles //--------------------------------------------------------------------------------------- // begin_r_commctrl #define PGS_VERT 0x00000000 #define PGS_HORZ 0x00000001 #define PGS_AUTOSCROLL 0x00000002 #define PGS_DRAGNDROP 0x00000004 // end_r_commctrl //--------------------------------------------------------------------------------------- // Pager Button State //--------------------------------------------------------------------------------------- //The scroll can be in one of the following control State #define PGF_INVISIBLE 0 // Scroll button is not visible #define PGF_NORMAL 1 // Scroll button is in normal state #define PGF_GRAYED 2 // Scroll button is in grayed state #define PGF_DEPRESSED 4 // Scroll button is in depressed state #define PGF_HOT 8 // Scroll button is in hot state // The following identifiers specifies the button control #define PGB_TOPORLEFT 0 #define PGB_BOTTOMORRIGHT 1 //--------------------------------------------------------------------------------------- // Pager Control Messages //--------------------------------------------------------------------------------------- #define PGM_SETCHILD (PGM_FIRST + 1) // lParam == hwnd #define Pager_SetChild(hwnd, hwndChild) \ (void)SNDMSG((hwnd), PGM_SETCHILD, 0, (LPARAM)(hwndChild)) #define PGM_RECALCSIZE (PGM_FIRST + 2) #define Pager_RecalcSize(hwnd) \ (void)SNDMSG((hwnd), PGM_RECALCSIZE, 0, 0) #define PGM_FORWARDMOUSE (PGM_FIRST + 3) #define Pager_ForwardMouse(hwnd, bForward) \ (void)SNDMSG((hwnd), PGM_FORWARDMOUSE, (WPARAM)(bForward), 0) #define PGM_SETBKCOLOR (PGM_FIRST + 4) #define Pager_SetBkColor(hwnd, clr) \ (COLORREF)SNDMSG((hwnd), PGM_SETBKCOLOR, 0, (LPARAM)(clr)) #define PGM_GETBKCOLOR (PGM_FIRST + 5) #define Pager_GetBkColor(hwnd) \ (COLORREF)SNDMSG((hwnd), PGM_GETBKCOLOR, 0, 0) #define PGM_SETBORDER (PGM_FIRST + 6) #define Pager_SetBorder(hwnd, iBorder) \ (int)SNDMSG((hwnd), PGM_SETBORDER, 0, (LPARAM)(iBorder)) #define PGM_GETBORDER (PGM_FIRST + 7) #define Pager_GetBorder(hwnd) \ (int)SNDMSG((hwnd), PGM_GETBORDER, 0, 0) #define PGM_SETPOS (PGM_FIRST + 8) #define Pager_SetPos(hwnd, iPos) \ (int)SNDMSG((hwnd), PGM_SETPOS, 0, (LPARAM)(iPos)) #define PGM_GETPOS (PGM_FIRST + 9) #define Pager_GetPos(hwnd) \ (int)SNDMSG((hwnd), PGM_GETPOS, 0, 0) #define PGM_SETBUTTONSIZE (PGM_FIRST + 10) #define Pager_SetButtonSize(hwnd, iSize) \ (int)SNDMSG((hwnd), PGM_SETBUTTONSIZE, 0, (LPARAM)(iSize)) #define PGM_GETBUTTONSIZE (PGM_FIRST + 11) #define Pager_GetButtonSize(hwnd) \ (int)SNDMSG((hwnd), PGM_GETBUTTONSIZE, 0,0) #define PGM_GETBUTTONSTATE (PGM_FIRST + 12) #define Pager_GetButtonState(hwnd, iButton) \ (DWORD)SNDMSG((hwnd), PGM_GETBUTTONSTATE, 0, (LPARAM)(iButton)) #define PGM_GETDROPTARGET CCM_GETDROPTARGET #define Pager_GetDropTarget(hwnd, ppdt) \ (void)SNDMSG((hwnd), PGM_GETDROPTARGET, 0, (LPARAM)(ppdt)) //--------------------------------------------------------------------------------------- //Pager Control Notification Messages //--------------------------------------------------------------------------------------- // PGN_SCROLL Notification Message #define PGN_SCROLL (PGN_FIRST-1) #define PGF_SCROLLUP 1 #define PGF_SCROLLDOWN 2 #define PGF_SCROLLLEFT 4 #define PGF_SCROLLRIGHT 8 //Keys down #define PGK_SHIFT 1 #define PGK_CONTROL 2 #define PGK_MENU 4 #ifdef _WIN32 #include <pshpack1.h> #endif // This structure is sent along with PGN_SCROLL notifications typedef struct { NMHDR hdr; WORD fwKeys; // Specifies which keys are down when this notification is send RECT rcParent; // Contains Parent Window Rect int iDir; // Scrolling Direction int iXpos; // Horizontal scroll position int iYpos; // Vertical scroll position int iScroll; // [in/out] Amount to scroll }NMPGSCROLL, *LPNMPGSCROLL; #ifdef _WIN32 #include <poppack.h> #endif // PGN_CALCSIZE Notification Message #define PGN_CALCSIZE (PGN_FIRST-2) #define PGF_CALCWIDTH 1 #define PGF_CALCHEIGHT 2 typedef struct { NMHDR hdr; DWORD dwFlag; int iWidth; int iHeight; }NMPGCALCSIZE, *LPNMPGCALCSIZE; // PGN_HOTITEMCHANGE Notification Message #define PGN_HOTITEMCHANGE (PGN_FIRST-3) /* The PGN_HOTITEMCHANGE notification uses these notification flags defined in TOOLBAR: #define HICF_ENTERING 0x00000010 // idOld is invalid #define HICF_LEAVING 0x00000020 // idNew is invalid */ // Structure for PGN_HOTITEMCHANGE notification // typedef struct tagNMPGHOTITEM { NMHDR hdr; int idOld; int idNew; DWORD dwFlags; // HICF_* } NMPGHOTITEM, * LPNMPGHOTITEM; #endif // NOPAGESCROLLER ////====================== End Pager Control ========================================== // // === Native Font Control === // #ifndef NONATIVEFONTCTL //NativeFont Class Name #define WC_NATIVEFONTCTLW L"NativeFontCtl" #define WC_NATIVEFONTCTLA "NativeFontCtl" #ifdef UNICODE #define WC_NATIVEFONTCTL WC_NATIVEFONTCTLW #else #define WC_NATIVEFONTCTL WC_NATIVEFONTCTLA #endif // begin_r_commctrl // style definition #define NFS_EDIT 0x0001 #define NFS_STATIC 0x0002 #define NFS_LISTCOMBO 0x0004 #define NFS_BUTTON 0x0008 #define NFS_ALL 0x0010 #define NFS_USEFONTASSOC 0x0020 // end_r_commctrl #endif // NONATIVEFONTCTL // === End Native Font Control === /// ====================== Button Control ============================= #ifndef NOBUTTON #ifdef _WIN32 // Button Class Name #define WC_BUTTONA "Button" #define WC_BUTTONW L"Button" #ifdef UNICODE #define WC_BUTTON WC_BUTTONW #else #define WC_BUTTON WC_BUTTONA #endif #else #define WC_BUTTON "Button" #endif #if (_WIN32_WINNT >= 0x501) #define BUTTON_IMAGELIST_ALIGN_LEFT 0 #define BUTTON_IMAGELIST_ALIGN_RIGHT 1 #define BUTTON_IMAGELIST_ALIGN_TOP 2 #define BUTTON_IMAGELIST_ALIGN_BOTTOM 3 #define BUTTON_IMAGELIST_ALIGN_CENTER 4 // Doesn't draw text typedef struct { HIMAGELIST himl; // Index: Normal, hot pushed, disabled. If count is less than 4, we use index 1 RECT margin; // Margin around icon. UINT uAlign; } BUTTON_IMAGELIST, *PBUTTON_IMAGELIST; #define BCM_GETIDEALSIZE (BCM_FIRST + 0x0001) #define Button_GetIdealSize(hwnd, psize)\ (BOOL)SNDMSG((hwnd), BCM_GETIDEALSIZE, 0, (LPARAM)(psize)) #define BCM_SETIMAGELIST (BCM_FIRST + 0x0002) #define Button_SetImageList(hwnd, pbuttonImagelist)\ (BOOL)SNDMSG((hwnd), BCM_SETIMAGELIST, 0, (LPARAM)(pbuttonImagelist)) #define BCM_GETIMAGELIST (BCM_FIRST + 0x0003) #define Button_GetImageList(hwnd, pbuttonImagelist)\ (BOOL)SNDMSG((hwnd), BCM_GETIMAGELIST, 0, (LPARAM)(pbuttonImagelist)) #define BCM_SETTEXTMARGIN (BCM_FIRST + 0x0004) #define Button_SetTextMargin(hwnd, pmargin)\ (BOOL)SNDMSG((hwnd), BCM_SETTEXTMARGIN, 0, (LPARAM)(pmargin)) #define BCM_GETTEXTMARGIN (BCM_FIRST + 0x0005) #define Button_GetTextMargin(hwnd, pmargin)\ (BOOL)SNDMSG((hwnd), BCM_GETTEXTMARGIN, 0, (LPARAM)(pmargin)) typedef struct tagNMBCHOTITEM { NMHDR hdr; DWORD dwFlags; // HICF_* } NMBCHOTITEM, * LPNMBCHOTITEM; #define BCN_HOTITEMCHANGE (BCN_FIRST + 0x0001) #define BST_HOT 0x0200 #endif #endif // NOBUTTON /// ===================== End Button Control ========================= /// ====================== Static Control ============================= #ifndef NOSTATIC #ifdef _WIN32 // Static Class Name #define WC_STATICA "Static" #define WC_STATICW L"Static" #ifdef UNICODE #define WC_STATIC WC_STATICW #else #define WC_STATIC WC_STATICA #endif #else #define WC_STATIC "Static" #endif #endif // NOSTATIC /// ===================== End Static Control ========================= /// ====================== Edit Control ============================= #ifndef NOEDIT #ifdef _WIN32 // Edit Class Name #define WC_EDITA "Edit" #define WC_EDITW L"Edit" #ifdef UNICODE #define WC_EDIT WC_EDITW #else #define WC_EDIT WC_EDITA #endif #else #define WC_EDIT "Edit" #endif #if (_WIN32_WINNT >= 0x501) #define EM_SETCUEBANNER (ECM_FIRST + 1) // Set the cue banner with the lParm = LPCWSTR #define Edit_SetCueBannerText(hwnd, lpcwText) \ (BOOL)SNDMSG((hwnd), EM_SETCUEBANNER, 0, (LPARAM)(lpcwText)) #define EM_GETCUEBANNER (ECM_FIRST + 2) // Set the cue banner with the lParm = LPCWSTR #define Edit_GetCueBannerText(hwnd, lpwText, cchText) \ (BOOL)SNDMSG((hwnd), EM_GETCUEBANNER, (WPARAM)(lpwText), (LPARAM)(cchText)) typedef struct _tagEDITBALLOONTIP { DWORD cbStruct; LPCWSTR pszTitle; LPCWSTR pszText; INT ttiIcon; // From TTI_* } EDITBALLOONTIP, *PEDITBALLOONTIP; #define EM_SHOWBALLOONTIP (ECM_FIRST + 3) // Show a balloon tip associated to the edit control #define Edit_ShowBalloonTip(hwnd, peditballoontip) \ (BOOL)SNDMSG((hwnd), EM_SHOWBALLOONTIP, 0, (LPARAM)(peditballoontip)) #define EM_HIDEBALLOONTIP (ECM_FIRST + 4) // Hide any balloon tip associated with the edit control #define Edit_HideBalloonTip(hwnd) \ (BOOL)SNDMSG((hwnd), EM_HIDEBALLOONTIP, 0, 0) #endif #endif // NOEDIT /// ===================== End Edit Control ========================= /// ====================== Listbox Control ============================= #ifndef NOLISTBOX #ifdef _WIN32 // Listbox Class Name #define WC_LISTBOXA "ListBox" #define WC_LISTBOXW L"ListBox" #ifdef UNICODE #define WC_LISTBOX WC_LISTBOXW #else #define WC_LISTBOX WC_LISTBOXA #endif #else #define WC_LISTBOX "ListBox" #endif #endif // NOLISTBOX /// ===================== End Listbox Control ========================= /// ====================== Combobox Control ============================= #ifndef NOCOMBOBOX #ifdef _WIN32 // Combobox Class Name #define WC_COMBOBOXA "ComboBox" #define WC_COMBOBOXW L"ComboBox" #ifdef UNICODE #define WC_COMBOBOX WC_COMBOBOXW #else #define WC_COMBOBOX WC_COMBOBOXA #endif #else #define WC_COMBOBOX "ComboBox" #endif #endif // NOCOMBOBOX #if (_WIN32_WINNT >= 0x501) // custom combobox control messages #define CB_SETMINVISIBLE (CBM_FIRST + 1) #define CB_GETMINVISIBLE (CBM_FIRST + 2) #define ComboBox_SetMinVisible(hwnd, iMinVisible) \ (BOOL)SNDMSG((hwnd), CB_SETMINVISIBLE, (WPARAM)iMinVisible, 0) #define ComboBox_GetMinVisible(hwnd) \ (int)SNDMSG((hwnd), CB_GETMINVISIBLE, 0, 0) #endif /// ===================== End Combobox Control ========================= /// ====================== Scrollbar Control ============================ #ifndef NOSCROLLBAR #ifdef _WIN32 // Scrollbar Class Name #define WC_SCROLLBARA "ScrollBar" #define WC_SCROLLBARW L"ScrollBar" #ifdef UNICODE #define WC_SCROLLBAR WC_SCROLLBARW #else #define WC_SCROLLBAR WC_SCROLLBARA #endif #else #define WC_SCROLLBAR "ScrollBar" #endif #endif // NOSCROLLBAR /// ===================== End Scrollbar Control ========================= //====== SysLink control ========================================= #ifdef _WIN32 #if (_WIN32_WINNT >= 0x501) #define INVALID_LINK_INDEX (-1) #define MAX_LINKID_TEXT 48 #define L_MAX_URL_LENGTH (2048 + 32 + sizeof("://")) #define WC_LINK L"SysLink" #define LWS_TRANSPARENT 0x0001 #define LWS_IGNORERETURN 0x0002 #define LIF_ITEMINDEX 0x00000001 #define LIF_STATE 0x00000002 #define LIF_ITEMID 0x00000004 #define LIF_URL 0x00000008 #define LIS_FOCUSED 0x00000001 #define LIS_ENABLED 0x00000002 #define LIS_VISITED 0x00000004 typedef struct tagLITEM { UINT mask ; int iLink ; UINT state ; UINT stateMask ; WCHAR szID[MAX_LINKID_TEXT] ; WCHAR szUrl[L_MAX_URL_LENGTH] ; } LITEM, * PLITEM ; typedef struct tagLHITTESTINFO { POINT pt ; LITEM item ; } LHITTESTINFO, *PLHITTESTINFO ; typedef struct tagNMLINK { NMHDR hdr; LITEM item ; } NMLINK, *PNMLINK; // SysLink notifications // NM_CLICK // wParam: control ID, lParam: PNMLINK, ret: ignored. // LinkWindow messages #define LM_HITTEST (WM_USER+0x300) // wParam: n/a, lparam: PLHITTESTINFO, ret: BOOL #define LM_GETIDEALHEIGHT (WM_USER+0x301) // wParam: n/a, lparam: n/a, ret: cy #define LM_SETITEM (WM_USER+0x302) // wParam: n/a, lparam: LITEM*, ret: BOOL #define LM_GETITEM (WM_USER+0x303) // wParam: n/a, lparam: LITEM*, ret: BOOL #endif #endif // _WIN32 //====== End SysLink control ========================================= // // === MUI APIs === // #ifndef NOMUI void WINAPI InitMUILanguage(LANGID uiLang); LANGID WINAPI GetMUILanguage(void); #endif // NOMUI #endif // _WIN32_IE >= 0x0400 #define DA_LAST (0x7FFFFFFF) #define DPA_APPEND (0x7fffffff) #define DPA_ERR (-1) #define DSA_APPEND (0x7fffffff) #define DSA_ERR (-1) // Dynamic structure array typedef struct _DSA *HDSA; typedef int (CALLBACK *PFNDPAENUMCALLBACK)(void *p, void *pData); typedef int (CALLBACK *PFNDSAENUMCALLBACK)(void *p, void *pData); WINCOMMCTRLAPI HDSA WINAPI DSA_Create(int cbItem, int cItemGrow); WINCOMMCTRLAPI BOOL WINAPI DSA_Destroy(HDSA hdsa); WINCOMMCTRLAPI void WINAPI DSA_DestroyCallback(HDSA hdsa, PFNDSAENUMCALLBACK pfnCB, void *pData); WINCOMMCTRLAPI PVOID WINAPI DSA_GetItemPtr(HDSA hdsa, int i); WINCOMMCTRLAPI int WINAPI DSA_InsertItem(HDSA hdsa, int i, void *pitem); // Dynamic pointer array typedef struct _DPA *HDPA; WINCOMMCTRLAPI HDPA WINAPI DPA_Create(int cItemGrow); WINCOMMCTRLAPI BOOL WINAPI DPA_Destroy(HDPA hdpa); WINCOMMCTRLAPI PVOID WINAPI DPA_DeletePtr(HDPA hdpa, int i); WINCOMMCTRLAPI BOOL WINAPI DPA_DeleteAllPtrs(HDPA hdpa); WINCOMMCTRLAPI void WINAPI DPA_EnumCallback(HDPA hdpa, PFNDPAENUMCALLBACK pfnCB, void *pData); WINCOMMCTRLAPI void WINAPI DPA_DestroyCallback(HDPA hdpa, PFNDPAENUMCALLBACK pfnCB, void *pData); WINCOMMCTRLAPI BOOL WINAPI DPA_SetPtr(HDPA hdpa, int i, void *p); WINCOMMCTRLAPI int WINAPI DPA_InsertPtr(HDPA hdpa, int i, void *p); WINCOMMCTRLAPI PVOID WINAPI DPA_GetPtr(HDPA hdpa, INT_PTR i); typedef int (CALLBACK *PFNDPACOMPARE)(void *p1, void *p2, LPARAM lParam); WINCOMMCTRLAPI BOOL WINAPI DPA_Sort(HDPA hdpa, PFNDPACOMPARE pfnCompare, LPARAM lParam); // Search array. If DPAS_SORTED, then array is assumed to be sorted // according to pfnCompare, and binary search algorithm is used. // Otherwise, linear search is used. // // Searching starts at iStart (0 to start search at beginning). // // DPAS_INSERTBEFORE/AFTER govern what happens if an exact match is not // found. If neither are specified, this function returns -1 if no exact // match is found. Otherwise, the index of the item before or after the // closest (including exact) match is returned. // // Search option flags // #define DPAS_SORTED 0x0001 #define DPAS_INSERTBEFORE 0x0002 #define DPAS_INSERTAFTER 0x0004 WINCOMMCTRLAPI int WINAPI DPA_Search(HDPA hdpa, void *pFind, int iStart, PFNDPACOMPARE pfnCompare, LPARAM lParam, UINT options); WINCOMMCTRLAPI BOOL WINAPI Str_SetPtrW(LPWSTR * ppsz, LPCWSTR psz); #ifdef _WIN32 //====== TrackMouseEvent ===================================================== #ifndef NOTRACKMOUSEEVENT // // If the messages for TrackMouseEvent have not been defined then define them // now. // #ifndef WM_MOUSEHOVER #define WM_MOUSEHOVER 0x02A1 #define WM_MOUSELEAVE 0x02A3 #endif // // If the TRACKMOUSEEVENT structure and associated flags havent been declared // then declare them now. // #ifndef TME_HOVER #define TME_HOVER 0x00000001 #define TME_LEAVE 0x00000002 #if (WINVER >= 0x0500) #define TME_NONCLIENT 0x00000010 #endif /* WINVER >= 0x0500 */ #define TME_QUERY 0x40000000 #define TME_CANCEL 0x80000000 #define HOVER_DEFAULT 0xFFFFFFFF typedef struct tagTRACKMOUSEEVENT { DWORD cbSize; DWORD dwFlags; HWND hwndTrack; DWORD dwHoverTime; } TRACKMOUSEEVENT, *LPTRACKMOUSEEVENT; #endif // !TME_HOVER // // Declare _TrackMouseEvent. This API tries to use the window manager's // implementation of TrackMouseEvent if it is present, otherwise it emulates. // WINCOMMCTRLAPI BOOL WINAPI _TrackMouseEvent( LPTRACKMOUSEEVENT lpEventTrack); #endif // !NOTRACKMOUSEEVENT #if (_WIN32_IE >= 0x0400) //====== Flat Scrollbar APIs========================================= #ifndef NOFLATSBAPIS #define WSB_PROP_CYVSCROLL 0x00000001L #define WSB_PROP_CXHSCROLL 0x00000002L #define WSB_PROP_CYHSCROLL 0x00000004L #define WSB_PROP_CXVSCROLL 0x00000008L #define WSB_PROP_CXHTHUMB 0x00000010L #define WSB_PROP_CYVTHUMB 0x00000020L #define WSB_PROP_VBKGCOLOR 0x00000040L #define WSB_PROP_HBKGCOLOR 0x00000080L #define WSB_PROP_VSTYLE 0x00000100L #define WSB_PROP_HSTYLE 0x00000200L #define WSB_PROP_WINSTYLE 0x00000400L #define WSB_PROP_PALETTE 0x00000800L #define WSB_PROP_MASK 0x00000FFFL #define FSB_FLAT_MODE 2 #define FSB_ENCARTA_MODE 1 #define FSB_REGULAR_MODE 0 WINCOMMCTRLAPI BOOL WINAPI FlatSB_EnableScrollBar(HWND, int, UINT); WINCOMMCTRLAPI BOOL WINAPI FlatSB_ShowScrollBar(HWND, int code, BOOL); WINCOMMCTRLAPI BOOL WINAPI FlatSB_GetScrollRange(HWND, int code, LPINT, LPINT); WINCOMMCTRLAPI BOOL WINAPI FlatSB_GetScrollInfo(HWND, int code, LPSCROLLINFO); WINCOMMCTRLAPI int WINAPI FlatSB_GetScrollPos(HWND, int code); WINCOMMCTRLAPI BOOL WINAPI FlatSB_GetScrollProp(HWND, int propIndex, LPINT); #ifdef _WIN64 WINCOMMCTRLAPI BOOL WINAPI FlatSB_GetScrollPropPtr(HWND, int propIndex, PINT_PTR); #else #define FlatSB_GetScrollPropPtr FlatSB_GetScrollProp #endif WINCOMMCTRLAPI int WINAPI FlatSB_SetScrollPos(HWND, int code, int pos, BOOL fRedraw); WINCOMMCTRLAPI int WINAPI FlatSB_SetScrollInfo(HWND, int code, LPSCROLLINFO, BOOL fRedraw); WINCOMMCTRLAPI int WINAPI FlatSB_SetScrollRange(HWND, int code, int min, int max, BOOL fRedraw); WINCOMMCTRLAPI BOOL WINAPI FlatSB_SetScrollProp(HWND, UINT index, INT_PTR newValue, BOOL); #define FlatSB_SetScrollPropPtr FlatSB_SetScrollProp WINCOMMCTRLAPI BOOL WINAPI InitializeFlatSB(HWND); WINCOMMCTRLAPI HRESULT WINAPI UninitializeFlatSB(HWND); #endif // NOFLATSBAPIS #endif // _WIN32_IE >= 0x0400 #endif /* _WIN32 */ #endif // _WIN32_IE >= 0x0300 #if (_WIN32_WINNT >= 0x501) // // subclassing stuff // typedef LRESULT (CALLBACK *SUBCLASSPROC)(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam, UINT_PTR uIdSubclass, DWORD_PTR dwRefData); BOOL WINAPI SetWindowSubclass(HWND hWnd, SUBCLASSPROC pfnSubclass, UINT_PTR uIdSubclass, DWORD_PTR dwRefData); BOOL WINAPI GetWindowSubclass(HWND hWnd, SUBCLASSPROC pfnSubclass, UINT_PTR uIdSubclass, DWORD_PTR *pdwRefData); BOOL WINAPI RemoveWindowSubclass(HWND hWnd, SUBCLASSPROC pfnSubclass, UINT_PTR uIdSubclass); LRESULT WINAPI DefSubclassProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam); #endif #if (_WIN32_WINNT >= 0x501) int WINAPI DrawShadowText(HDC hdc, LPCWSTR pszText, UINT cch, RECT* prc, DWORD dwFlags, COLORREF crText, COLORREF crShadow, int ixOffset, int iyOffset); #endif #if !defined(RC_INVOKED) /* RC complains about long symbols in #ifs */ #if defined(ISOLATION_AWARE_ENABLED) && (ISOLATION_AWARE_ENABLED != 0) #if !defined(ISOLATION_AWARE_USE_STATIC_LIBRARY) #define ISOLATION_AWARE_USE_STATIC_LIBRARY 0 #endif #if !defined(ISOLATION_AWARE_BUILD_STATIC_LIBRARY) #define ISOLATION_AWARE_BUILD_STATIC_LIBRARY 0 #endif #if !defined(ISOLATION_AWARE_INLINE) #if ISOLATION_AWARE_BUILD_STATIC_LIBRARY #define ISOLATION_AWARE_INLINE /* nothing */ #else #if defined(__cplusplus) #define ISOLATION_AWARE_INLINE inline #else #define ISOLATION_AWARE_INLINE __inline #endif #endif #endif #if !ISOLATION_AWARE_USE_STATIC_LIBRARY FARPROC WINAPI CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY(LPCSTR pszProcName); #endif /* ISOLATION_AWARE_USE_STATIC_LIBRARY */ #if !defined(ISOLATIONAWARECOMMCTRL_LPSTREAM) #if !defined(__IStream_INTERFACE_DEFINED__) #if defined(interface) interface IStream; typedef interface IStream IStream; #else struct IStream; typedef struct IStream IStream; #endif #endif typedef IStream *ISOLATIONAWARECOMMCTRL_LPSTREAM; #define ISOLATIONAWARECOMMCTRL_LPSTREAM ISOLATIONAWARECOMMCTRL_LPSTREAM #endif void WINAPI IsolationAwareInitCommonControls(void); BOOL WINAPI IsolationAwareInitCommonControlsEx(LPINITCOMMONCONTROLSEX unnamed1); HIMAGELIST WINAPI IsolationAwareImageList_Create(int cx,int cy,UINT flags,int cInitial,int cGrow); BOOL WINAPI IsolationAwareImageList_Destroy(HIMAGELIST himl); int WINAPI IsolationAwareImageList_GetImageCount(HIMAGELIST himl); BOOL WINAPI IsolationAwareImageList_SetImageCount(HIMAGELIST himl,UINT uNewCount); int WINAPI IsolationAwareImageList_Add(HIMAGELIST himl,HBITMAP hbmImage,HBITMAP hbmMask); int WINAPI IsolationAwareImageList_ReplaceIcon(HIMAGELIST himl,int i,HICON hicon); COLORREF WINAPI IsolationAwareImageList_SetBkColor(HIMAGELIST himl,COLORREF clrBk); COLORREF WINAPI IsolationAwareImageList_GetBkColor(HIMAGELIST himl); BOOL WINAPI IsolationAwareImageList_SetOverlayImage(HIMAGELIST himl,int iImage,int iOverlay); BOOL WINAPI IsolationAwareImageList_Draw(HIMAGELIST himl,int i,HDC hdcDst,int x,int y,UINT fStyle); BOOL WINAPI IsolationAwareImageList_Replace(HIMAGELIST himl,int i,HBITMAP hbmImage,HBITMAP hbmMask); int WINAPI IsolationAwareImageList_AddMasked(HIMAGELIST himl,HBITMAP hbmImage,COLORREF crMask); BOOL WINAPI IsolationAwareImageList_DrawEx(HIMAGELIST himl,int i,HDC hdcDst,int x,int y,int dx,int dy,COLORREF rgbBk,COLORREF rgbFg,UINT fStyle); BOOL WINAPI IsolationAwareImageList_DrawIndirect(IMAGELISTDRAWPARAMS*pimldp); BOOL WINAPI IsolationAwareImageList_Remove(HIMAGELIST himl,int i); HICON WINAPI IsolationAwareImageList_GetIcon(HIMAGELIST himl,int i,UINT flags); HIMAGELIST WINAPI IsolationAwareImageList_LoadImageA(HINSTANCE hi,LPCSTR lpbmp,int cx,int cGrow,COLORREF crMask,UINT uType,UINT uFlags); HIMAGELIST WINAPI IsolationAwareImageList_LoadImageW(HINSTANCE hi,LPCWSTR lpbmp,int cx,int cGrow,COLORREF crMask,UINT uType,UINT uFlags); BOOL WINAPI IsolationAwareImageList_Copy(HIMAGELIST himlDst,int iDst,HIMAGELIST himlSrc,int iSrc,UINT uFlags); BOOL WINAPI IsolationAwareImageList_BeginDrag(HIMAGELIST himlTrack,int iTrack,int dxHotspot,int dyHotspot); void WINAPI IsolationAwareImageList_EndDrag(void); BOOL WINAPI IsolationAwareImageList_DragEnter(HWND hwndLock,int x,int y); BOOL WINAPI IsolationAwareImageList_DragLeave(HWND hwndLock); BOOL WINAPI IsolationAwareImageList_DragMove(int x,int y); BOOL WINAPI IsolationAwareImageList_SetDragCursorImage(HIMAGELIST himlDrag,int iDrag,int dxHotspot,int dyHotspot); BOOL WINAPI IsolationAwareImageList_DragShowNolock(BOOL fShow); HIMAGELIST WINAPI IsolationAwareImageList_GetDragImage(POINT*ppt,POINT*pptHotspot); HIMAGELIST WINAPI IsolationAwareImageList_Read(ISOLATIONAWARECOMMCTRL_LPSTREAM pstm); BOOL WINAPI IsolationAwareImageList_Write(HIMAGELIST himl,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm); #if (_WIN32_WINNT >= 0x0501) HRESULT WINAPI IsolationAwareImageList_ReadEx(DWORD dwFlags,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm,REFIID riid,PVOID*ppv); HRESULT WINAPI IsolationAwareImageList_WriteEx(HIMAGELIST himl,DWORD dwFlags,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm); #endif /* (_WIN32_WINNT >= 0x0501) */ BOOL WINAPI IsolationAwareImageList_GetIconSize(HIMAGELIST himl,int*cx,int*cy); BOOL WINAPI IsolationAwareImageList_SetIconSize(HIMAGELIST himl,int cx,int cy); BOOL WINAPI IsolationAwareImageList_GetImageInfo(HIMAGELIST himl,int i,IMAGEINFO*pImageInfo); HIMAGELIST WINAPI IsolationAwareImageList_Merge(HIMAGELIST himl1,int i1,HIMAGELIST himl2,int i2,int dx,int dy); HIMAGELIST WINAPI IsolationAwareImageList_Duplicate(HIMAGELIST himl); HWND WINAPI IsolationAwareCreateToolbarEx(HWND hwnd,DWORD ws,UINT wID,int nBitmaps,HINSTANCE hBMInst,UINT_PTR wBMID,LPCTBBUTTON lpButtons,int iNumButtons,int dxButton,int dyButton,int dxBitmap,int dyBitmap,UINT uStructSize); HBITMAP WINAPI IsolationAwareCreateMappedBitmap(HINSTANCE hInstance,INT_PTR idBitmap,UINT wFlags,LPCOLORMAP lpColorMap,int iNumMaps); void WINAPI IsolationAwareDrawStatusTextA(HDC hDC,LPRECT lprc,LPCSTR pszText,UINT uFlags); void WINAPI IsolationAwareDrawStatusTextW(HDC hDC,LPRECT lprc,LPCWSTR pszText,UINT uFlags); HWND WINAPI IsolationAwareCreateStatusWindowA(long style,LPCSTR lpszText,HWND hwndParent,UINT wID); HWND WINAPI IsolationAwareCreateStatusWindowW(long style,LPCWSTR lpszText,HWND hwndParent,UINT wID); void WINAPI IsolationAwareMenuHelp(UINT uMsg,WPARAM wParam,LPARAM lParam,HMENU hMainMenu,HINSTANCE hInst,HWND hwndStatus,UINT*lpwIDs); BOOL WINAPI IsolationAwareShowHideMenuCtl(HWND hWnd,UINT_PTR uFlags,LPINT lpInfo); void WINAPI IsolationAwareGetEffectiveClientRect(HWND hWnd,LPRECT lprc,LPINT lpInfo); BOOL WINAPI IsolationAwareMakeDragList(HWND hLB); void WINAPI IsolationAwareDrawInsert(HWND handParent,HWND hLB,int nItem); int WINAPI IsolationAwareLBItemFromPt(HWND hLB,POINT pt,BOOL bAutoScroll); HWND WINAPI IsolationAwareCreateUpDownControl(DWORD dwStyle,int x,int y,int cx,int cy,HWND hParent,int nID,HINSTANCE hInst,HWND hBuddy,int nUpper,int nLower,int nPos); void WINAPI IsolationAwareInitMUILanguage(LANGID uiLang); LANGID WINAPI IsolationAwareGetMUILanguage(void); HDSA WINAPI IsolationAwareDSA_Create(int cbItem,int cItemGrow); BOOL WINAPI IsolationAwareDSA_Destroy(HDSA hdsa); void WINAPI IsolationAwareDSA_DestroyCallback(HDSA hdsa,PFNDSAENUMCALLBACK pfnCB,void*pData); PVOID WINAPI IsolationAwareDSA_GetItemPtr(HDSA hdsa,int i); int WINAPI IsolationAwareDSA_InsertItem(HDSA hdsa,int i,void*pitem); HDPA WINAPI IsolationAwareDPA_Create(int cItemGrow); BOOL WINAPI IsolationAwareDPA_Destroy(HDPA hdpa); PVOID WINAPI IsolationAwareDPA_DeletePtr(HDPA hdpa,int i); BOOL WINAPI IsolationAwareDPA_DeleteAllPtrs(HDPA hdpa); void WINAPI IsolationAwareDPA_EnumCallback(HDPA hdpa,PFNDPAENUMCALLBACK pfnCB,void*pData); void WINAPI IsolationAwareDPA_DestroyCallback(HDPA hdpa,PFNDPAENUMCALLBACK pfnCB,void*pData); BOOL WINAPI IsolationAwareDPA_SetPtr(HDPA hdpa,int i,void*p); int WINAPI IsolationAwareDPA_InsertPtr(HDPA hdpa,int i,void*p); PVOID WINAPI IsolationAwareDPA_GetPtr(HDPA hdpa,INT_PTR i); BOOL WINAPI IsolationAwareDPA_Sort(HDPA hdpa,PFNDPACOMPARE pfnCompare,LPARAM lParam); int WINAPI IsolationAwareDPA_Search(HDPA hdpa,void*pFind,int iStart,PFNDPACOMPARE pfnCompare,LPARAM lParam,UINT options); BOOL WINAPI IsolationAwareStr_SetPtrW(LPWSTR*ppsz,LPCWSTR psz); #if !defined(NOTRACKMOUSEEVENT) BOOL WINAPI IsolationAware_TrackMouseEvent(LPTRACKMOUSEEVENT lpEventTrack); #endif /* !defined(NOTRACKMOUSEEVENT) */ BOOL WINAPI IsolationAwareFlatSB_EnableScrollBar(HWND unnamed1,int unnamed2,UINT unnamed3); BOOL WINAPI IsolationAwareFlatSB_ShowScrollBar(HWND unnamed1,int code,BOOL unnamed2); BOOL WINAPI IsolationAwareFlatSB_GetScrollRange(HWND unnamed1,int code,LPINT unnamed2,LPINT unnamed3); BOOL WINAPI IsolationAwareFlatSB_GetScrollInfo(HWND unnamed1,int code,LPSCROLLINFO unnamed2); int WINAPI IsolationAwareFlatSB_GetScrollPos(HWND unnamed1,int code); BOOL WINAPI IsolationAwareFlatSB_GetScrollProp(HWND unnamed1,int propIndex,LPINT unnamed2); BOOL WINAPI IsolationAwareFlatSB_GetScrollPropPtr(HWND unnamed1,int propIndex,PINT_PTR unnamed2); int WINAPI IsolationAwareFlatSB_SetScrollPos(HWND unnamed1,int code,int pos,BOOL fRedraw); int WINAPI IsolationAwareFlatSB_SetScrollInfo(HWND unnamed1,int code,LPSCROLLINFO unnamed2,BOOL fRedraw); int WINAPI IsolationAwareFlatSB_SetScrollRange(HWND unnamed1,int code,int min,int max,BOOL fRedraw); BOOL WINAPI IsolationAwareFlatSB_SetScrollProp(HWND unnamed1,UINT index,INT_PTR newValue,BOOL unnamed2); BOOL WINAPI IsolationAwareInitializeFlatSB(HWND unnamed1); HRESULT WINAPI IsolationAwareUninitializeFlatSB(HWND unnamed1); #if (_WIN32_IE >= 0x560) BOOL WINAPI IsolationAwareSetWindowSubclass(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass,DWORD_PTR dwRefData); BOOL WINAPI IsolationAwareGetWindowSubclass(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass,DWORD_PTR*pdwRefData); BOOL WINAPI IsolationAwareRemoveWindowSubclass(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass); #endif /* (_WIN32_IE >= 0x560) */ LRESULT WINAPI IsolationAwareDefSubclassProc(HWND hWnd,UINT uMsg,WPARAM wParam,LPARAM lParam); int WINAPI IsolationAwareDrawShadowText(HDC hdc,LPCWSTR pszText,UINT cch,RECT*prc,DWORD dwFlags,COLORREF crText,COLORREF crShadow,int ixOffset,int iyOffset); ISOLATION_AWARE_INLINE HRESULT CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(void) { DWORD dwLastError = GetLastError(); if (dwLastError == NO_ERROR) dwLastError = ERROR_INTERNAL_ERROR; return HRESULT_FROM_WIN32(dwLastError); } #if defined(UNICODE) #define IsolationAwareCreateStatusWindow IsolationAwareCreateStatusWindowW #define IsolationAwareDrawStatusText IsolationAwareDrawStatusTextW #define IsolationAwareImageList_LoadImage IsolationAwareImageList_LoadImageW #else /* UNICODE */ #define IsolationAwareCreateStatusWindow IsolationAwareCreateStatusWindowA #define IsolationAwareDrawStatusText IsolationAwareDrawStatusTextA #define IsolationAwareImageList_LoadImage IsolationAwareImageList_LoadImageA #endif /* UNICODE */ #if !ISOLATION_AWARE_USE_STATIC_LIBRARY ISOLATION_AWARE_INLINE void WINAPI IsolationAwareInitCommonControls(void) { typedef void (WINAPI* PFN)(void); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("InitCommonControls"); if (s_pfn == NULL) __leave; } s_pfn(); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareInitCommonControlsEx(LPINITCOMMONCONTROLSEX unnamed1) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(LPINITCOMMONCONTROLSEX unnamed1); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("InitCommonControlsEx"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_Create(int cx,int cy,UINT flags,int cInitial,int cGrow) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(int cx,int cy,UINT flags,int cInitial,int cGrow); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Create"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(cx,cy,flags,cInitial,cGrow); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_Destroy(HIMAGELIST himl) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Destroy"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareImageList_GetImageCount(HIMAGELIST himl) { int nResult = 0 ; typedef int (WINAPI* PFN)(HIMAGELIST himl); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_GetImageCount"); if (s_pfn == NULL) __leave; } nResult = s_pfn(himl); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == 0 ); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_SetImageCount(HIMAGELIST himl,UINT uNewCount) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,UINT uNewCount); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_SetImageCount"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,uNewCount); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareImageList_Add(HIMAGELIST himl,HBITMAP hbmImage,HBITMAP hbmMask) { int nResult = -1; typedef int (WINAPI* PFN)(HIMAGELIST himl,HBITMAP hbmImage,HBITMAP hbmMask); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Add"); if (s_pfn == NULL) __leave; } nResult = s_pfn(himl,hbmImage,hbmMask); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareImageList_ReplaceIcon(HIMAGELIST himl,int i,HICON hicon) { int nResult = -1; typedef int (WINAPI* PFN)(HIMAGELIST himl,int i,HICON hicon); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_ReplaceIcon"); if (s_pfn == NULL) __leave; } nResult = s_pfn(himl,i,hicon); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE COLORREF WINAPI IsolationAwareImageList_SetBkColor(HIMAGELIST himl,COLORREF clrBk) { COLORREF colorResult = RGB(0,0,0); typedef COLORREF (WINAPI* PFN)(HIMAGELIST himl,COLORREF clrBk); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return colorResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_SetBkColor"); if (s_pfn == NULL) __leave; } colorResult = s_pfn(himl,clrBk); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (colorResult == RGB(0,0,0)); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return colorResult; } ISOLATION_AWARE_INLINE COLORREF WINAPI IsolationAwareImageList_GetBkColor(HIMAGELIST himl) { COLORREF colorResult = RGB(0,0,0); typedef COLORREF (WINAPI* PFN)(HIMAGELIST himl); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return colorResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_GetBkColor"); if (s_pfn == NULL) __leave; } colorResult = s_pfn(himl); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (colorResult == RGB(0,0,0)); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return colorResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_SetOverlayImage(HIMAGELIST himl,int iImage,int iOverlay) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int iImage,int iOverlay); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_SetOverlayImage"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,iImage,iOverlay); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_Draw(HIMAGELIST himl,int i,HDC hdcDst,int x,int y,UINT fStyle) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int i,HDC hdcDst,int x,int y,UINT fStyle); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Draw"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,i,hdcDst,x,y,fStyle); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_Replace(HIMAGELIST himl,int i,HBITMAP hbmImage,HBITMAP hbmMask) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int i,HBITMAP hbmImage,HBITMAP hbmMask); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Replace"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,i,hbmImage,hbmMask); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareImageList_AddMasked(HIMAGELIST himl,HBITMAP hbmImage,COLORREF crMask) { int nResult = -1; typedef int (WINAPI* PFN)(HIMAGELIST himl,HBITMAP hbmImage,COLORREF crMask); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_AddMasked"); if (s_pfn == NULL) __leave; } nResult = s_pfn(himl,hbmImage,crMask); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_DrawEx(HIMAGELIST himl,int i,HDC hdcDst,int x,int y,int dx,int dy,COLORREF rgbBk,COLORREF rgbFg,UINT fStyle) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int i,HDC hdcDst,int x,int y,int dx,int dy,COLORREF rgbBk,COLORREF rgbFg,UINT fStyle); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_DrawEx"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,i,hdcDst,x,y,dx,dy,rgbBk,rgbFg,fStyle); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_DrawIndirect(IMAGELISTDRAWPARAMS*pimldp) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(IMAGELISTDRAWPARAMS*pimldp); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_DrawIndirect"); if (s_pfn == NULL) __leave; } fResult = s_pfn(pimldp); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_Remove(HIMAGELIST himl,int i) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int i); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Remove"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,i); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE HICON WINAPI IsolationAwareImageList_GetIcon(HIMAGELIST himl,int i,UINT flags) { HICON iconResult = NULL; typedef HICON (WINAPI* PFN)(HIMAGELIST himl,int i,UINT flags); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return iconResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_GetIcon"); if (s_pfn == NULL) __leave; } iconResult = s_pfn(himl,i,flags); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (iconResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return iconResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_LoadImageA(HINSTANCE hi,LPCSTR lpbmp,int cx,int cGrow,COLORREF crMask,UINT uType,UINT uFlags) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(HINSTANCE hi,LPCSTR lpbmp,int cx,int cGrow,COLORREF crMask,UINT uType,UINT uFlags); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_LoadImageA"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(hi,lpbmp,cx,cGrow,crMask,uType,uFlags); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_LoadImageW(HINSTANCE hi,LPCWSTR lpbmp,int cx,int cGrow,COLORREF crMask,UINT uType,UINT uFlags) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(HINSTANCE hi,LPCWSTR lpbmp,int cx,int cGrow,COLORREF crMask,UINT uType,UINT uFlags); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_LoadImageW"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(hi,lpbmp,cx,cGrow,crMask,uType,uFlags); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_Copy(HIMAGELIST himlDst,int iDst,HIMAGELIST himlSrc,int iSrc,UINT uFlags) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himlDst,int iDst,HIMAGELIST himlSrc,int iSrc,UINT uFlags); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Copy"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himlDst,iDst,himlSrc,iSrc,uFlags); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_BeginDrag(HIMAGELIST himlTrack,int iTrack,int dxHotspot,int dyHotspot) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himlTrack,int iTrack,int dxHotspot,int dyHotspot); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_BeginDrag"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himlTrack,iTrack,dxHotspot,dyHotspot); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareImageList_EndDrag(void) { typedef void (WINAPI* PFN)(void); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_EndDrag"); if (s_pfn == NULL) __leave; } s_pfn(); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_DragEnter(HWND hwndLock,int x,int y) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hwndLock,int x,int y); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_DragEnter"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hwndLock,x,y); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_DragLeave(HWND hwndLock) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hwndLock); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_DragLeave"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hwndLock); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_DragMove(int x,int y) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(int x,int y); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_DragMove"); if (s_pfn == NULL) __leave; } fResult = s_pfn(x,y); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_SetDragCursorImage(HIMAGELIST himlDrag,int iDrag,int dxHotspot,int dyHotspot) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himlDrag,int iDrag,int dxHotspot,int dyHotspot); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_SetDragCursorImage"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himlDrag,iDrag,dxHotspot,dyHotspot); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_DragShowNolock(BOOL fShow) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(BOOL fShow); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_DragShowNolock"); if (s_pfn == NULL) __leave; } fResult = s_pfn(fShow); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_GetDragImage(POINT*ppt,POINT*pptHotspot) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(POINT*ppt,POINT*pptHotspot); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_GetDragImage"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(ppt,pptHotspot); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_Read(ISOLATIONAWARECOMMCTRL_LPSTREAM pstm) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(ISOLATIONAWARECOMMCTRL_LPSTREAM pstm); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Read"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(pstm); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_Write(HIMAGELIST himl,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Write"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,pstm); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } #if (_WIN32_WINNT >= 0x0501) ISOLATION_AWARE_INLINE HRESULT WINAPI IsolationAwareImageList_ReadEx(DWORD dwFlags,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm,REFIID riid,PVOID*ppv) { HRESULT result = S_OK; typedef HRESULT (WINAPI* PFN)(DWORD dwFlags,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm,REFIID riid,PVOID*ppv); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(); __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_ReadEx"); if (s_pfn == NULL) { result = CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(); __leave; } } result = s_pfn(dwFlags,pstm,riid,ppv); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return result; } ISOLATION_AWARE_INLINE HRESULT WINAPI IsolationAwareImageList_WriteEx(HIMAGELIST himl,DWORD dwFlags,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm) { HRESULT result = S_OK; typedef HRESULT (WINAPI* PFN)(HIMAGELIST himl,DWORD dwFlags,ISOLATIONAWARECOMMCTRL_LPSTREAM pstm); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(); __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_WriteEx"); if (s_pfn == NULL) { result = CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(); __leave; } } result = s_pfn(himl,dwFlags,pstm); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return result; } #endif /* (_WIN32_WINNT >= 0x0501) */ ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_GetIconSize(HIMAGELIST himl,int*cx,int*cy) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int*cx,int*cy); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_GetIconSize"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,cx,cy); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_SetIconSize(HIMAGELIST himl,int cx,int cy) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int cx,int cy); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_SetIconSize"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,cx,cy); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareImageList_GetImageInfo(HIMAGELIST himl,int i,IMAGEINFO*pImageInfo) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HIMAGELIST himl,int i,IMAGEINFO*pImageInfo); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_GetImageInfo"); if (s_pfn == NULL) __leave; } fResult = s_pfn(himl,i,pImageInfo); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_Merge(HIMAGELIST himl1,int i1,HIMAGELIST himl2,int i2,int dx,int dy) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(HIMAGELIST himl1,int i1,HIMAGELIST himl2,int i2,int dx,int dy); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Merge"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(himl1,i1,himl2,i2,dx,dy); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE HIMAGELIST WINAPI IsolationAwareImageList_Duplicate(HIMAGELIST himl) { HIMAGELIST imagelistResult = NULL; typedef HIMAGELIST (WINAPI* PFN)(HIMAGELIST himl); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return imagelistResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ImageList_Duplicate"); if (s_pfn == NULL) __leave; } imagelistResult = s_pfn(himl); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (imagelistResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return imagelistResult; } ISOLATION_AWARE_INLINE HWND WINAPI IsolationAwareCreateToolbarEx(HWND hwnd,DWORD ws,UINT wID,int nBitmaps,HINSTANCE hBMInst,UINT_PTR wBMID,LPCTBBUTTON lpButtons,int iNumButtons,int dxButton,int dyButton,int dxBitmap,int dyBitmap,UINT uStructSize) { HWND windowResult = NULL; typedef HWND (WINAPI* PFN)(HWND hwnd,DWORD ws,UINT wID,int nBitmaps,HINSTANCE hBMInst,UINT_PTR wBMID,LPCTBBUTTON lpButtons,int iNumButtons,int dxButton,int dyButton,int dxBitmap,int dyBitmap,UINT uStructSize); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return windowResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("CreateToolbarEx"); if (s_pfn == NULL) __leave; } windowResult = s_pfn(hwnd,ws,wID,nBitmaps,hBMInst,wBMID,lpButtons,iNumButtons,dxButton,dyButton,dxBitmap,dyBitmap,uStructSize); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (windowResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return windowResult; } ISOLATION_AWARE_INLINE HBITMAP WINAPI IsolationAwareCreateMappedBitmap(HINSTANCE hInstance,INT_PTR idBitmap,UINT wFlags,LPCOLORMAP lpColorMap,int iNumMaps) { HBITMAP bitmapResult = NULL; typedef HBITMAP (WINAPI* PFN)(HINSTANCE hInstance,INT_PTR idBitmap,UINT wFlags,LPCOLORMAP lpColorMap,int iNumMaps); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return bitmapResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("CreateMappedBitmap"); if (s_pfn == NULL) __leave; } bitmapResult = s_pfn(hInstance,idBitmap,wFlags,lpColorMap,iNumMaps); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (bitmapResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return bitmapResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareDrawStatusTextA(HDC hDC,LPRECT lprc,LPCSTR pszText,UINT uFlags) { typedef void (WINAPI* PFN)(HDC hDC,LPRECT lprc,LPCSTR pszText,UINT uFlags); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DrawStatusTextA"); if (s_pfn == NULL) __leave; } s_pfn(hDC,lprc,pszText,uFlags); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareDrawStatusTextW(HDC hDC,LPRECT lprc,LPCWSTR pszText,UINT uFlags) { typedef void (WINAPI* PFN)(HDC hDC,LPRECT lprc,LPCWSTR pszText,UINT uFlags); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DrawStatusTextW"); if (s_pfn == NULL) __leave; } s_pfn(hDC,lprc,pszText,uFlags); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE HWND WINAPI IsolationAwareCreateStatusWindowA(long style,LPCSTR lpszText,HWND hwndParent,UINT wID) { HWND windowResult = NULL; typedef HWND (WINAPI* PFN)(long style,LPCSTR lpszText,HWND hwndParent,UINT wID); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return windowResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("CreateStatusWindowA"); if (s_pfn == NULL) __leave; } windowResult = s_pfn(style,lpszText,hwndParent,wID); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (windowResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return windowResult; } ISOLATION_AWARE_INLINE HWND WINAPI IsolationAwareCreateStatusWindowW(long style,LPCWSTR lpszText,HWND hwndParent,UINT wID) { HWND windowResult = NULL; typedef HWND (WINAPI* PFN)(long style,LPCWSTR lpszText,HWND hwndParent,UINT wID); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return windowResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("CreateStatusWindowW"); if (s_pfn == NULL) __leave; } windowResult = s_pfn(style,lpszText,hwndParent,wID); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (windowResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return windowResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareMenuHelp(UINT uMsg,WPARAM wParam,LPARAM lParam,HMENU hMainMenu,HINSTANCE hInst,HWND hwndStatus,UINT*lpwIDs) { typedef void (WINAPI* PFN)(UINT uMsg,WPARAM wParam,LPARAM lParam,HMENU hMainMenu,HINSTANCE hInst,HWND hwndStatus,UINT*lpwIDs); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("MenuHelp"); if (s_pfn == NULL) __leave; } s_pfn(uMsg,wParam,lParam,hMainMenu,hInst,hwndStatus,lpwIDs); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareShowHideMenuCtl(HWND hWnd,UINT_PTR uFlags,LPINT lpInfo) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hWnd,UINT_PTR uFlags,LPINT lpInfo); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("ShowHideMenuCtl"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hWnd,uFlags,lpInfo); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareGetEffectiveClientRect(HWND hWnd,LPRECT lprc,LPINT lpInfo) { typedef void (WINAPI* PFN)(HWND hWnd,LPRECT lprc,LPINT lpInfo); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("GetEffectiveClientRect"); if (s_pfn == NULL) __leave; } s_pfn(hWnd,lprc,lpInfo); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareMakeDragList(HWND hLB) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hLB); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("MakeDragList"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hLB); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareDrawInsert(HWND handParent,HWND hLB,int nItem) { typedef void (WINAPI* PFN)(HWND handParent,HWND hLB,int nItem); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DrawInsert"); if (s_pfn == NULL) __leave; } s_pfn(handParent,hLB,nItem); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareLBItemFromPt(HWND hLB,POINT pt,BOOL bAutoScroll) { int nResult = -1; typedef int (WINAPI* PFN)(HWND hLB,POINT pt,BOOL bAutoScroll); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("LBItemFromPt"); if (s_pfn == NULL) __leave; } nResult = s_pfn(hLB,pt,bAutoScroll); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE HWND WINAPI IsolationAwareCreateUpDownControl(DWORD dwStyle,int x,int y,int cx,int cy,HWND hParent,int nID,HINSTANCE hInst,HWND hBuddy,int nUpper,int nLower,int nPos) { HWND windowResult = NULL; typedef HWND (WINAPI* PFN)(DWORD dwStyle,int x,int y,int cx,int cy,HWND hParent,int nID,HINSTANCE hInst,HWND hBuddy,int nUpper,int nLower,int nPos); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return windowResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("CreateUpDownControl"); if (s_pfn == NULL) __leave; } windowResult = s_pfn(dwStyle,x,y,cx,cy,hParent,nID,hInst,hBuddy,nUpper,nLower,nPos); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (windowResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return windowResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareInitMUILanguage(LANGID uiLang) { typedef void (WINAPI* PFN)(LANGID uiLang); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("InitMUILanguage"); if (s_pfn == NULL) __leave; } s_pfn(uiLang); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE LANGID WINAPI IsolationAwareGetMUILanguage(void) { LANGID languageIdResult = MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL); typedef LANGID (WINAPI* PFN)(void); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return languageIdResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("GetMUILanguage"); if (s_pfn == NULL) __leave; } languageIdResult = s_pfn(); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (languageIdResult == MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL)); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return languageIdResult; } ISOLATION_AWARE_INLINE HDSA WINAPI IsolationAwareDSA_Create(int cbItem,int cItemGrow) { HDSA result = NULL; typedef HDSA (WINAPI* PFN)(int cbItem,int cItemGrow); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return result; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DSA_Create"); if (s_pfn == NULL) __leave; } result = s_pfn(cbItem,cItemGrow); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (result == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return result; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareDSA_Destroy(HDSA hdsa) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HDSA hdsa); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DSA_Destroy"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hdsa); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareDSA_DestroyCallback(HDSA hdsa,PFNDSAENUMCALLBACK pfnCB,void*pData) { typedef void (WINAPI* PFN)(HDSA hdsa,PFNDSAENUMCALLBACK pfnCB,void*pData); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DSA_DestroyCallback"); if (s_pfn == NULL) __leave; } s_pfn(hdsa,pfnCB,pData); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE PVOID WINAPI IsolationAwareDSA_GetItemPtr(HDSA hdsa,int i) { PVOID vResult = NULL; typedef PVOID (WINAPI* PFN)(HDSA hdsa,int i); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return vResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DSA_GetItemPtr"); if (s_pfn == NULL) __leave; } vResult = s_pfn(hdsa,i); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (vResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return vResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareDSA_InsertItem(HDSA hdsa,int i,void*pitem) { int nResult = -1; typedef int (WINAPI* PFN)(HDSA hdsa,int i,void*pitem); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DSA_InsertItem"); if (s_pfn == NULL) __leave; } nResult = s_pfn(hdsa,i,pitem); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE HDPA WINAPI IsolationAwareDPA_Create(int cItemGrow) { HDPA result = NULL; typedef HDPA (WINAPI* PFN)(int cItemGrow); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return result; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_Create"); if (s_pfn == NULL) __leave; } result = s_pfn(cItemGrow); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (result == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return result; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareDPA_Destroy(HDPA hdpa) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HDPA hdpa); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_Destroy"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hdpa); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE PVOID WINAPI IsolationAwareDPA_DeletePtr(HDPA hdpa,int i) { PVOID vResult = NULL; typedef PVOID (WINAPI* PFN)(HDPA hdpa,int i); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return vResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_DeletePtr"); if (s_pfn == NULL) __leave; } vResult = s_pfn(hdpa,i); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (vResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return vResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareDPA_DeleteAllPtrs(HDPA hdpa) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HDPA hdpa); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_DeleteAllPtrs"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hdpa); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareDPA_EnumCallback(HDPA hdpa,PFNDPAENUMCALLBACK pfnCB,void*pData) { typedef void (WINAPI* PFN)(HDPA hdpa,PFNDPAENUMCALLBACK pfnCB,void*pData); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_EnumCallback"); if (s_pfn == NULL) __leave; } s_pfn(hdpa,pfnCB,pData); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE void WINAPI IsolationAwareDPA_DestroyCallback(HDPA hdpa,PFNDPAENUMCALLBACK pfnCB,void*pData) { typedef void (WINAPI* PFN)(HDPA hdpa,PFNDPAENUMCALLBACK pfnCB,void*pData); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_DestroyCallback"); if (s_pfn == NULL) __leave; } s_pfn(hdpa,pfnCB,pData); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareDPA_SetPtr(HDPA hdpa,int i,void*p) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HDPA hdpa,int i,void*p); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_SetPtr"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hdpa,i,p); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareDPA_InsertPtr(HDPA hdpa,int i,void*p) { int nResult = -1; typedef int (WINAPI* PFN)(HDPA hdpa,int i,void*p); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_InsertPtr"); if (s_pfn == NULL) __leave; } nResult = s_pfn(hdpa,i,p); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE PVOID WINAPI IsolationAwareDPA_GetPtr(HDPA hdpa,INT_PTR i) { PVOID vResult = NULL; typedef PVOID (WINAPI* PFN)(HDPA hdpa,INT_PTR i); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return vResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_GetPtr"); if (s_pfn == NULL) __leave; } vResult = s_pfn(hdpa,i); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (vResult == NULL); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return vResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareDPA_Sort(HDPA hdpa,PFNDPACOMPARE pfnCompare,LPARAM lParam) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HDPA hdpa,PFNDPACOMPARE pfnCompare,LPARAM lParam); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_Sort"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hdpa,pfnCompare,lParam); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareDPA_Search(HDPA hdpa,void*pFind,int iStart,PFNDPACOMPARE pfnCompare,LPARAM lParam,UINT options) { int nResult = -1; typedef int (WINAPI* PFN)(HDPA hdpa,void*pFind,int iStart,PFNDPACOMPARE pfnCompare,LPARAM lParam,UINT options); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DPA_Search"); if (s_pfn == NULL) __leave; } nResult = s_pfn(hdpa,pFind,iStart,pfnCompare,lParam,options); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareStr_SetPtrW(LPWSTR*ppsz,LPCWSTR psz) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(LPWSTR*ppsz,LPCWSTR psz); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("Str_SetPtrW"); if (s_pfn == NULL) __leave; } fResult = s_pfn(ppsz,psz); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } #if !defined(NOTRACKMOUSEEVENT) ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAware_TrackMouseEvent(LPTRACKMOUSEEVENT lpEventTrack) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(LPTRACKMOUSEEVENT lpEventTrack); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("_TrackMouseEvent"); if (s_pfn == NULL) __leave; } fResult = s_pfn(lpEventTrack); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } #endif /* !defined(NOTRACKMOUSEEVENT) */ ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_EnableScrollBar(HWND unnamed1,int unnamed2,UINT unnamed3) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,int unnamed2,UINT unnamed3); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_EnableScrollBar"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,unnamed2,unnamed3); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_ShowScrollBar(HWND unnamed1,int code,BOOL unnamed2) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,int code,BOOL unnamed2); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_ShowScrollBar"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,code,unnamed2); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_GetScrollRange(HWND unnamed1,int code,LPINT unnamed2,LPINT unnamed3) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,int code,LPINT unnamed2,LPINT unnamed3); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_GetScrollRange"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,code,unnamed2,unnamed3); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_GetScrollInfo(HWND unnamed1,int code,LPSCROLLINFO unnamed2) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,int code,LPSCROLLINFO unnamed2); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_GetScrollInfo"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,code,unnamed2); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareFlatSB_GetScrollPos(HWND unnamed1,int code) { int nResult = 0 ; typedef int (WINAPI* PFN)(HWND unnamed1,int code); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_GetScrollPos"); if (s_pfn == NULL) __leave; } nResult = s_pfn(unnamed1,code); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == 0 ); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_GetScrollProp(HWND unnamed1,int propIndex,LPINT unnamed2) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,int propIndex,LPINT unnamed2); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_GetScrollProp"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,propIndex,unnamed2); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_GetScrollPropPtr(HWND unnamed1,int propIndex,PINT_PTR unnamed2) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,int propIndex,PINT_PTR unnamed2); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY( #if defined(_WIN64) "FlatSB_GetScrollPropPtr" #else "FlatSB_GetScrollProp" #endif ); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,propIndex,unnamed2); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareFlatSB_SetScrollPos(HWND unnamed1,int code,int pos,BOOL fRedraw) { int nResult = 0 ; typedef int (WINAPI* PFN)(HWND unnamed1,int code,int pos,BOOL fRedraw); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_SetScrollPos"); if (s_pfn == NULL) __leave; } nResult = s_pfn(unnamed1,code,pos,fRedraw); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == 0 ); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareFlatSB_SetScrollInfo(HWND unnamed1,int code,LPSCROLLINFO unnamed2,BOOL fRedraw) { int nResult = 0 ; typedef int (WINAPI* PFN)(HWND unnamed1,int code,LPSCROLLINFO unnamed2,BOOL fRedraw); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_SetScrollInfo"); if (s_pfn == NULL) __leave; } nResult = s_pfn(unnamed1,code,unnamed2,fRedraw); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == 0 ); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareFlatSB_SetScrollRange(HWND unnamed1,int code,int min,int max,BOOL fRedraw) { int nResult = 0 ; typedef int (WINAPI* PFN)(HWND unnamed1,int code,int min,int max,BOOL fRedraw); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_SetScrollRange"); if (s_pfn == NULL) __leave; } nResult = s_pfn(unnamed1,code,min,max,fRedraw); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == 0 ); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareFlatSB_SetScrollProp(HWND unnamed1,UINT index,INT_PTR newValue,BOOL unnamed2) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1,UINT index,INT_PTR newValue,BOOL unnamed2); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("FlatSB_SetScrollProp"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1,index,newValue,unnamed2); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareInitializeFlatSB(HWND unnamed1) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND unnamed1); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("InitializeFlatSB"); if (s_pfn == NULL) __leave; } fResult = s_pfn(unnamed1); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE HRESULT WINAPI IsolationAwareUninitializeFlatSB(HWND unnamed1) { HRESULT result = S_OK; typedef HRESULT (WINAPI* PFN)(HWND unnamed1); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(); __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("UninitializeFlatSB"); if (s_pfn == NULL) { result = CommctrlIsolationAwarePrivateJVaQPGbueRfhYg(); __leave; } } result = s_pfn(unnamed1); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { (void)IsolationAwareDeactivateActCtx(0, ulpCookie); } } return result; } #if (_WIN32_IE >= 0x560) ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareSetWindowSubclass(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass,DWORD_PTR dwRefData) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass,DWORD_PTR dwRefData); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("SetWindowSubclass"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hWnd,pfnSubclass,uIdSubclass,dwRefData); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareGetWindowSubclass(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass,DWORD_PTR*pdwRefData) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass,DWORD_PTR*pdwRefData); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("GetWindowSubclass"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hWnd,pfnSubclass,uIdSubclass,pdwRefData); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } ISOLATION_AWARE_INLINE BOOL WINAPI IsolationAwareRemoveWindowSubclass(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass) { BOOL fResult = FALSE; typedef BOOL (WINAPI* PFN)(HWND hWnd,SUBCLASSPROC pfnSubclass,UINT_PTR uIdSubclass); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return fResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("RemoveWindowSubclass"); if (s_pfn == NULL) __leave; } fResult = s_pfn(hWnd,pfnSubclass,uIdSubclass); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (fResult == FALSE); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return fResult; } #endif /* (_WIN32_IE >= 0x560) */ ISOLATION_AWARE_INLINE LRESULT WINAPI IsolationAwareDefSubclassProc(HWND hWnd,UINT uMsg,WPARAM wParam,LPARAM lParam) { LRESULT result = 0 ; typedef LRESULT (WINAPI* PFN)(HWND hWnd,UINT uMsg,WPARAM wParam,LPARAM lParam); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return result; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DefSubclassProc"); if (s_pfn == NULL) __leave; } result = s_pfn(hWnd,uMsg,wParam,lParam); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (result == 0 ); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return result; } ISOLATION_AWARE_INLINE int WINAPI IsolationAwareDrawShadowText(HDC hdc,LPCWSTR pszText,UINT cch,RECT*prc,DWORD dwFlags,COLORREF crText,COLORREF crShadow,int ixOffset,int iyOffset) { int nResult = -1; typedef int (WINAPI* PFN)(HDC hdc,LPCWSTR pszText,UINT cch,RECT*prc,DWORD dwFlags,COLORREF crText,COLORREF crShadow,int ixOffset,int iyOffset); static PFN s_pfn; ULONG_PTR ulpCookie = 0; const BOOL fActivateActCtxSuccess = IsolationAwarePrivateT_SqbjaYRiRY || IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) return nResult; __try { if (s_pfn == NULL) { s_pfn = (PFN)CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY("DrawShadowText"); if (s_pfn == NULL) __leave; } nResult = s_pfn(hdc,pszText,cch,prc,dwFlags,crText,crShadow,ixOffset,iyOffset); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY) { const BOOL fPreserveLastError = (nResult == -1); const DWORD dwLastError = fPreserveLastError ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (fPreserveLastError) SetLastError(dwLastError); } } return nResult; } ISOLATION_AWARE_INLINE FARPROC WINAPI CommctrlIsolationAwarePrivatetRgCebPnQQeRff_pbZPgYQP_QYY(LPCSTR pszProcName) /* This function is shared by the other stubs in this header. */ { FARPROC proc = NULL; static HMODULE s_module; BOOL fActivateActCtxSuccess = FALSE; ULONG_PTR ulpCookie = 0; const static IsolationAwarePrivatepBAFGnAG_zBqHyr_vAsB c = { IsolationAwarePrivatezlybNQyVOeNeln, IsolationAwarePrivatezlybNQyVOeNelJ, "Comctl32.dll", L"Comctl32.dll" }; static IsolationAwarePrivatezHGnoyr_zBqHyr_vAsB m; __try { if (!IsolationAwarePrivateT_SqbjaYRiRY) { fActivateActCtxSuccess = IsolationAwarePrivatenPgViNgRzlnPgpgk(&ulpCookie); if (!fActivateActCtxSuccess) __leave; } proc = IsolationAwarePrivatezltRgCebPnQQeRff(&c, &m, pszProcName); } __finally { if (!IsolationAwarePrivateT_SqbjaYRiRY && fActivateActCtxSuccess) { const DWORD dwLastError = (proc == NULL) ? GetLastError() : NO_ERROR; (void)IsolationAwareDeactivateActCtx(0, ulpCookie); if (proc == NULL) SetLastError(dwLastError); } } return proc; } #endif /* ISOLATION_AWARE_USE_STATIC_LIBRARY */ #define CreateMappedBitmap IsolationAwareCreateMappedBitmap #define CreateStatusWindowA IsolationAwareCreateStatusWindowA #define CreateStatusWindowW IsolationAwareCreateStatusWindowW #define CreateToolbarEx IsolationAwareCreateToolbarEx #define CreateUpDownControl IsolationAwareCreateUpDownControl #define DPA_Create IsolationAwareDPA_Create #define DPA_DeleteAllPtrs IsolationAwareDPA_DeleteAllPtrs #define DPA_DeletePtr IsolationAwareDPA_DeletePtr #define DPA_Destroy IsolationAwareDPA_Destroy #define DPA_DestroyCallback IsolationAwareDPA_DestroyCallback #define DPA_EnumCallback IsolationAwareDPA_EnumCallback #define DPA_GetPtr IsolationAwareDPA_GetPtr #define DPA_InsertPtr IsolationAwareDPA_InsertPtr #define DPA_Search IsolationAwareDPA_Search #define DPA_SetPtr IsolationAwareDPA_SetPtr #define DPA_Sort IsolationAwareDPA_Sort #define DSA_Create IsolationAwareDSA_Create #define DSA_Destroy IsolationAwareDSA_Destroy #define DSA_DestroyCallback IsolationAwareDSA_DestroyCallback #define DSA_GetItemPtr IsolationAwareDSA_GetItemPtr #define DSA_InsertItem IsolationAwareDSA_InsertItem #define DefSubclassProc IsolationAwareDefSubclassProc #define DrawInsert IsolationAwareDrawInsert #define DrawShadowText IsolationAwareDrawShadowText #define DrawStatusTextA IsolationAwareDrawStatusTextA #define DrawStatusTextW IsolationAwareDrawStatusTextW #define FlatSB_EnableScrollBar IsolationAwareFlatSB_EnableScrollBar #define FlatSB_GetScrollInfo IsolationAwareFlatSB_GetScrollInfo #define FlatSB_GetScrollPos IsolationAwareFlatSB_GetScrollPos #define FlatSB_GetScrollProp IsolationAwareFlatSB_GetScrollProp #if defined(FlatSB_GetScrollPropPtr) #undef FlatSB_GetScrollPropPtr #endif #define FlatSB_GetScrollPropPtr IsolationAwareFlatSB_GetScrollPropPtr #define FlatSB_GetScrollRange IsolationAwareFlatSB_GetScrollRange #define FlatSB_SetScrollInfo IsolationAwareFlatSB_SetScrollInfo #define FlatSB_SetScrollPos IsolationAwareFlatSB_SetScrollPos #define FlatSB_SetScrollProp IsolationAwareFlatSB_SetScrollProp #define FlatSB_SetScrollRange IsolationAwareFlatSB_SetScrollRange #define FlatSB_ShowScrollBar IsolationAwareFlatSB_ShowScrollBar #define GetEffectiveClientRect IsolationAwareGetEffectiveClientRect #define GetMUILanguage IsolationAwareGetMUILanguage #define GetWindowSubclass IsolationAwareGetWindowSubclass #define ImageList_Add IsolationAwareImageList_Add #define ImageList_AddMasked IsolationAwareImageList_AddMasked #define ImageList_BeginDrag IsolationAwareImageList_BeginDrag #define ImageList_Copy IsolationAwareImageList_Copy #define ImageList_Create IsolationAwareImageList_Create #define ImageList_Destroy IsolationAwareImageList_Destroy #define ImageList_DragEnter IsolationAwareImageList_DragEnter #define ImageList_DragLeave IsolationAwareImageList_DragLeave #define ImageList_DragMove IsolationAwareImageList_DragMove #define ImageList_DragShowNolock IsolationAwareImageList_DragShowNolock #define ImageList_Draw IsolationAwareImageList_Draw #define ImageList_DrawEx IsolationAwareImageList_DrawEx #define ImageList_DrawIndirect IsolationAwareImageList_DrawIndirect #define ImageList_Duplicate IsolationAwareImageList_Duplicate #define ImageList_EndDrag IsolationAwareImageList_EndDrag #define ImageList_GetBkColor IsolationAwareImageList_GetBkColor #define ImageList_GetDragImage IsolationAwareImageList_GetDragImage #define ImageList_GetIcon IsolationAwareImageList_GetIcon #define ImageList_GetIconSize IsolationAwareImageList_GetIconSize #define ImageList_GetImageCount IsolationAwareImageList_GetImageCount #define ImageList_GetImageInfo IsolationAwareImageList_GetImageInfo #define ImageList_LoadImageA IsolationAwareImageList_LoadImageA #define ImageList_LoadImageW IsolationAwareImageList_LoadImageW #define ImageList_Merge IsolationAwareImageList_Merge #define ImageList_Read IsolationAwareImageList_Read #define ImageList_ReadEx IsolationAwareImageList_ReadEx #define ImageList_Remove IsolationAwareImageList_Remove #define ImageList_Replace IsolationAwareImageList_Replace #define ImageList_ReplaceIcon IsolationAwareImageList_ReplaceIcon #define ImageList_SetBkColor IsolationAwareImageList_SetBkColor #define ImageList_SetDragCursorImage IsolationAwareImageList_SetDragCursorImage #define ImageList_SetIconSize IsolationAwareImageList_SetIconSize #define ImageList_SetImageCount IsolationAwareImageList_SetImageCount #define ImageList_SetOverlayImage IsolationAwareImageList_SetOverlayImage #define ImageList_Write IsolationAwareImageList_Write #define ImageList_WriteEx IsolationAwareImageList_WriteEx #define InitCommonControls IsolationAwareInitCommonControls #define InitCommonControlsEx IsolationAwareInitCommonControlsEx #define InitMUILanguage IsolationAwareInitMUILanguage #define InitializeFlatSB IsolationAwareInitializeFlatSB #define LBItemFromPt IsolationAwareLBItemFromPt #define MakeDragList IsolationAwareMakeDragList #define MenuHelp IsolationAwareMenuHelp #define RemoveWindowSubclass IsolationAwareRemoveWindowSubclass #define SetWindowSubclass IsolationAwareSetWindowSubclass #define ShowHideMenuCtl IsolationAwareShowHideMenuCtl #define Str_SetPtrW IsolationAwareStr_SetPtrW #define UninitializeFlatSB IsolationAwareUninitializeFlatSB #define _TrackMouseEvent IsolationAware_TrackMouseEvent #endif /* ISOLATION_AWARE_ENABLED */ #endif /* RC */ #ifdef __cplusplus } #endif #endif #endif // _INC_COMMCTRL
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<?php /** * Created by PhpStorm. * Author: Adrian Dumitru * Date: 4/30/2017 9:55 PM */ namespace Qpdb\QueryBuilder\Traits; use Qpdb\QueryBuilder\Dependencies\QueryException; use Qpdb\QueryBuilder\Dependencies\QueryHelper; use Qpdb\QueryBuilder\Dependencies\QueryStructure; /** * Trait GroupBy * @package Qpdb\QueryBuilder\Traits * @property QueryStructure $queryStructure */ trait GroupBy { /** * @param $column * @param array $allowedColumns * @return $this * @throws QueryException */ public function groupBy( $column, array $allowedColumns = [] ) { if ( !$this->validateColumn( $column, $allowedColumns ) ) throw new QueryException( 'Invalid column name in GROUP BY clause', QueryException::QUERY_ERROR_INVALID_COLUMN_NAME ); $column = $this->queryStructure->prepare($column); $this->queryStructure->setElement( QueryStructure::ORDER_BY, $column ); $this->queryStructure->setElement( QueryStructure::GROUP_BY, $column ); return $this; } /** * @param int|string $column * @param array $allowedColumns * @return $this * @throws QueryException */ public function groupByDesc( $column, array $allowedColumns = [] ) { if ( !$this->validateColumn( $column, $allowedColumns ) ) throw new QueryException( 'Invalid column name in GROUP BY clause', QueryException::QUERY_ERROR_INVALID_COLUMN_NAME ); $column = $this->queryStructure->prepare($column); $this->queryStructure->setElement( QueryStructure::ORDER_BY, $column ); $this->queryStructure->setElement( QueryStructure::GROUP_BY, $column . ' DESC' ); return $this; } /** * @param $expression * @return $this * @throws QueryException */ public function groupByExpression( $expression ) { $this->queryStructure->setElement( QueryStructure::GROUP_BY, $expression ); return $this; } /** * @return string */ private function getGroupBySyntax() { if ( count( $this->queryStructure->getElement( QueryStructure::GROUP_BY ) ) ) return 'GROUP BY ' . QueryHelper::implode( $this->queryStructure->getElement( QueryStructure::GROUP_BY ), ', ' ); return ''; } }
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package com.lazyloris.modeler.impl; import java.io.FileInputStream; import java.util.List; import org.springframework.beans.factory.annotation.Required; import com.lazyloris.modeler.Env; import com.lazyloris.modeler.Model; import com.lazyloris.modeler.ModelAcceptor; import com.lazyloris.modeler.ModelParser; import com.lazyloris.modeler.ModelVisitor; public class ModelAcceptorImpl implements ModelAcceptor { private ModelParser parser; private List<Model> models; @Required public void setParser(ModelParser parser) { this.parser = parser; } @Override public void accept(ModelVisitor visitor) { try { if (models == null) models = parser.parse(new FileInputStream(Env.getInstance().getModelFile())); for (Model model : models) visitor.visit(model); } catch (Exception e) { throw new RuntimeException(e); } } }
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package org.apache.lens.lib.query; import java.util.List; import java.util.Map; import java.util.Properties; import org.apache.hadoop.hive.serde.serdeConstants; import org.apache.hadoop.io.Text; import org.testng.Assert; import org.testng.annotations.BeforeTest; import org.testng.annotations.Test; /** * The Class TestJSONSerde. */ @SuppressWarnings("unchecked") public class TestJSONSerde { /** * The json serde. */ private final JSonSerde jsonSerde = new JSonSerde(); /** * The props. */ private final Properties props = new Properties(); /** * Setup. * * @throws Exception the exception */ @BeforeTest public void setup() throws Exception { props.put(serdeConstants.LIST_COLUMNS, "a,b,c,d"); props.put(serdeConstants.LIST_COLUMN_TYPES, "string,varchar(20),int,char(10)"); } /** * Test deseralize. * * @throws Exception the exception */ @Test public void testDeseralize() throws Exception { jsonSerde.initialize(null, props); Text in = new Text("{\n" + " \"a\":\"hello\",\n" + " \"b\":\"yes\",\n" + " \"c\":1,\n" + " \"d\":\"char\"\n" + "}"); List<Object> row = (List<Object>) jsonSerde.deserialize(in); Assert.assertEquals("hello", row.get(0)); Assert.assertEquals("yes", row.get(1).toString()); Assert.assertEquals(1, row.get(2)); Assert.assertEquals("char", row.get(3).toString()); in = new Text("{\n" + " \"a\":\"hello\",\n" + " \"c\":1,\n" + " \"d\":\"char\"\n" + "}"); row = (List<Object>) jsonSerde.deserialize(in); Assert.assertEquals("hello", row.get(0)); Assert.assertEquals(null, row.get(1)); Assert.assertEquals(1, row.get(2)); Assert.assertEquals("char", row.get(3).toString()); in = new Text("{\n" + " \"a\":\"hello\",\n" + " \"b\":\"yes\"\n" + "}"); row = (List<Object>) jsonSerde.deserialize(in); Assert.assertEquals("hello", row.get(0)); Assert.assertEquals("yes", row.get(1).toString()); Assert.assertEquals(null, row.get(2)); Assert.assertEquals(null, row.get(3)); props.put(serdeConstants.LIST_COLUMNS, "a,b,c"); props.put(serdeConstants.LIST_COLUMN_TYPES, "array<int>,map<string,string>,struct<a:int,b:int>"); jsonSerde.initialize(null, props); in = new Text("{\n" + " \"a\": [\n" + " 1,\n" + " 2,\n" + " 3\n" + " ],\n" + " \"b\": {\n" + " \"a\": \"b\",\n" + " \"c\": \"d\",\n" + " \"e\": \"f\"\n" + " },\n" + " \"c\": {\n" + " \"a\":1,\n" + " \"b\":2\n" + " }\n" + "}"); row = (List<Object>) jsonSerde.deserialize(in); Object[] objs = (Object[]) row.get(0); Map<String, String> map = (Map<String, String>) row.get(1); Assert.assertEquals(objs.length, 3); Assert.assertEquals(objs[0], 1); Assert.assertEquals(objs[1], 2); Assert.assertEquals(objs[2], 3); Assert.assertEquals(map.size(), 3); Assert.assertEquals(map.get("a"), "b"); Assert.assertEquals(map.get("c"), "d"); Assert.assertEquals(map.get("e"), "f"); Map<String, Object> map1 = (Map<String, Object>) row.get(2); Assert.assertEquals(map1.size(), 2); Assert.assertEquals(map1.get("a"), 1); Assert.assertEquals(map1.get("b"), 2); } }
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package org.finra.datagenerator.scaffolding.spark import java.io.Serializable import java.nio.file.Paths import java.util.UUID import java.util.concurrent.atomic.AtomicInteger import org.apache.spark.SparkContext import org.apache.spark.rdd.RDD import org.apache.spark.storage.StorageLevel import org.finra.datagenerator.scaffolding.graph.GraphAppConfiguration import org.junit._ import org.junit.runner.RunWith import org.junit.runners.MethodSorters import org.slf4j.{Logger, LoggerFactory} import org.springframework.beans.factory.annotation.Autowired import org.springframework.boot.test.context.SpringBootTest import org.springframework.test.annotation.DirtiesContext import org.springframework.test.context.junit4.SpringRunner import org.springframework.util.FileSystemUtils import scala.collection.mutable.ListBuffer import scala.collection.{Seq, mutable}; /** * Created by dkopel on 9/1/16. */ @DirtiesContext(classMode = DirtiesContext.ClassMode.AFTER_EACH_TEST_METHOD) @RunWith(classOf[SpringRunner]) @SpringBootTest(classes=Array(classOf[GraphAppConfiguration])) @FixMethodOrder(value= MethodSorters.NAME_ASCENDING) class SparkTests extends Serializable { lazy val logger: Logger = LoggerFactory.getLogger(getClass()) @transient private var sc: SparkContext = _ private lazy val cacheName: String = "cache" private final lazy val tmpFile: String = "/tmp/numbers"; private var rddService: RDDService = _; @Autowired def setRddService(rddService: RDDService) { this.rddService = rddService; } @Before def before() { rddService.start(); sc = rddService.getSparkContext; sc.getConf.registerKryoClasses(Array(classOf[NumberComparison])) } @After def after() { sc.stop(); } class NumberComparison(val operator: Char, val num: Int) extends ((Int)=>Boolean) { override def apply(integer: Int): Boolean = { operator match { case '<' => num < integer case '>' => num > integer case '=' => num == integer case _ => false } } def canEqual(other: Any): Boolean = other.isInstanceOf[NumberComparison] override def equals(other: Any): Boolean = other match { case that: NumberComparison => (that canEqual this) && operator == that.operator && num == that.num case _ => false } override def hashCode(): Int = { val state = Seq(operator, num) state.map(_.hashCode()).foldLeft(0)((a, b) => 31 * a + b) } override def toString = s"NumberComparison($operator, $num)" } @Test @Ignore def test1() = { // Delete tmp file FileSystemUtils.deleteRecursively(Paths.get(tmpFile).toFile()) var predicates: collection.immutable.List[NumberComparison] = collection.immutable.List.empty[NumberComparison] var x: AtomicInteger = new AtomicInteger(-10); while(x.get() < 0) { var y: Int = x.getAndIncrement(); predicates = new NumberComparison('<', y) :: predicates } var rdd1: RDD[NumberComparison] = rddService.parallelize(predicates) rdd1.cache() logger.info("There are {} predicates", rdd1.count); predicates = collection.immutable.List.empty[NumberComparison] x.set(10) while(x.get() < 20) { var y: Int = x.getAndIncrement() predicates = new NumberComparison('>', y) :: predicates } var rdd2: RDD[NumberComparison] = rdd1.union(rddService.parallelize(predicates)) rdd2.cache() Assert.assertEquals(20, rdd2.count()) rdd2.collect().foreach(println) var filtered: RDD[NumberComparison] = rdd2.filter(nc => nc.apply(10)) filtered.cache Assert.assertEquals(19, filtered.count()); var notTrue: RDD[NumberComparison] = rdd2.filter(nc => !nc.apply(10)) Assert.assertEquals(1, notTrue.count()) Assert.assertEquals(List(4, 5), List(1,2,3,4,5).filterNot(i => List(1,2,3).contains(i))) var notFiltered: RDD[NumberComparison] = rdd2.subtract(filtered); notFiltered.cache notFiltered.collect().foreach(u => println("Not filtered: "+u+ " "+u.apply(10))) Assert.assertEquals(2, notFiltered.count()); Assert.assertEquals(18, filtered.subtract(notFiltered).count()); filtered.collect().foreach(i => { logger.info("Found predicate directly on spark with number {} and operator {}", i.num, i.operator); }); rdd2.setName(cacheName); //rdd2.persist(StorageLevel.MEMORY_AND_DISK()); rdd2.saveAsObjectFile(tmpFile); } @Test @Ignore def test2() { var loadedRdd: RDD[NumberComparison] = sc.objectFile(tmpFile); loadedRdd.setName(cacheName); loadedRdd.persist(StorageLevel.MEMORY_AND_DISK); sc.getPersistentRDDs.foreach(r => logger.info("Found RDD with name {}", r._2.name)); logger.info("Loaded rdd from disk with {} items", loadedRdd.count()); var filtered1: RDD[NumberComparison] = loadedRdd.filter((nc) => nc.apply(10)); filtered1.collect().foreach(i => { logger.info("Found predicate directly on spark with number {} and operator {}", i.num, i.operator); }); } @Test @Ignore def test3() { var map: mutable.Map[UUID, Integer] = new mutable.HashMap(); var nums: Seq[(UUID, Int)] = new ListBuffer[(UUID, Int)]; for(x <- Range.apply(0, 20)) { val id: UUID = UUID.randomUUID(); nums :+ ((id, x)); map.put(id, x); } var pairs: RDD[(UUID, Int)] = sc.parallelize(nums); map.foreach(e => Assert.assertEquals(e._2, getValue(pairs, e._1))); map.foreach(e => Assert.assertTrue(pairs.lookup(e._1).contains(e._2))); } def getValue(pairs: RDD[(UUID, Int)] , key: UUID): Integer = { return pairs.filter((t) => t._1.equals(key)).values.first(); } }
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/* --------------------------- * VertexDegreeComparator.java * --------------------------- * (C) Copyright 2003-2008, by Linda Buisman and Contributors. * * Original Author: Linda Buisman * Contributor(s): Christian Hammer * * $Id$ * * Changes * ------- * 06-Nov-2003 : Initial revision (LB); * 07-Jun-2005 : Made generic (CH); * */ package org.jgrapht.alg.util; import org.jgrapht.*; /** * Compares two vertices based on their degree. * * <p>Used by greedy algorithms that need to sort vertices by their degree. Two * vertices are considered equal if their degrees are equal.</p> * * @author Linda Buisman * @since Nov 6, 2003 */ public class VertexDegreeComparator<V, E> implements java.util.Comparator<V> { /** * The graph that contains the vertices to be compared. */ private UndirectedGraph<V, E> graph; /** * The sort order for vertex degree. <code>true</code> for ascending degree * order (smaller degrees first), <code>false</code> for descending. */ private boolean ascendingOrder; /** * Creates a comparator for comparing the degrees of vertices in the * specified graph. The comparator compares in ascending order of degrees * (lowest first). * * @param g graph with respect to which the degree is calculated. */ public VertexDegreeComparator(UndirectedGraph<V, E> g) { this(g, true); } /** * Creates a comparator for comparing the degrees of vertices in the * specified graph. * * @param g graph with respect to which the degree is calculated. * @param ascendingOrder true - compares in ascending order of degrees * (lowest first), false - compares in descending order of degrees (highest * first). */ public VertexDegreeComparator( UndirectedGraph<V, E> g, boolean ascendingOrder) { graph = g; this.ascendingOrder = ascendingOrder; } /** * Compare the degrees of <code>v1</code> and <code>v2</code>, taking into * account whether ascending or descending order is used. * * @param v1 the first vertex to be compared. * @param v2 the second vertex to be compared. * * @return -1 if <code>v1</code> comes before <code>v2</code>, +1 if <code> * v1</code> comes after <code>v2</code>, 0 if equal. */ public int compare(V v1, V v2) { int degree1 = graph.degreeOf(v1); int degree2 = graph.degreeOf(v2); if (((degree1 < degree2) && ascendingOrder) || ((degree1 > degree2) && !ascendingOrder)) { return -1; } else if ( ((degree1 > degree2) && ascendingOrder) || ((degree1 < degree2) && !ascendingOrder)) { return 1; } else { return 0; } } } // End VertexDegreeComparator.java
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$html = "<strong> cup of coffeescript </strong>";
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package fi.csc.chipster.auth.resource; import java.security.Principal; import java.util.Arrays; import java.util.HashMap; import java.util.HashSet; import java.util.Map; import java.util.Set; import fi.csc.chipster.auth.model.ChipsterToken; import fi.csc.chipster.auth.model.UserToken; /** * Wrapper for Chipster tokens to be passed through Java authentication APIs * * @author klemela * */ public class AuthPrincipal implements Principal { // are remoteAddress and details used anymore? private String remoteAddress; private Map<String, String> details = new HashMap<>(); private ChipsterToken token; private String tokenKey; public AuthPrincipal(String role) { this(null, null, new HashSet<String>(Arrays.asList(role))); } public AuthPrincipal(String username, Set<String> roles) { this(username, null, roles); } public AuthPrincipal(String username, String tokenKey, Set<String> roles) { this(new UserToken(username, null, null, roles), tokenKey); } public AuthPrincipal(ChipsterToken token, String tokenKey) { this.token = token; this.tokenKey = tokenKey; } @Override public String getName() { return token.getUsername(); } public Set<String> getRoles() { return token.getRoles(); } public String getTokenKey() { return tokenKey; } public void setRemoteAddress(String remoteAddr) { this.remoteAddress = remoteAddr; } public String getRemoteAddress() { return this.remoteAddress; } public Map<String, String> getDetails() { return details; } public void setDetails(Map<String, String> details) { this.details = details; } public ChipsterToken getToken() { return token; } }
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module Wikirick.Import ( module Export ) where import Control.Applicative as Export import Control.Lens as Export import Control.Monad as Export import Control.Monad.State as Export import Data.Default as Export import Data.Function as Export import Data.Maybe as Export import Data.Monoid as Export import Data.Text.Lens as Export
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mapamok is a tool for projection mapping originally developed by [Kyle McDonald](http://kylemcdonald.net) during the Guest Research Project v1 at Yamaguchi Center for Arts and Media. ProCamToolkit is co-developed by [YCAM Interlab](http://interlab.ycam.jp/en).
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<?php namespace SmartCafe\Http; use GrahamCampbell\Throttle\Http\Middleware\ThrottleMiddleware; use Illuminate\Foundation\Http\Kernel as HttpKernel; class Kernel extends HttpKernel { /** * The application's global HTTP middleware stack. * * @var array */ protected $middleware = [ \Illuminate\Foundation\Http\Middleware\CheckForMaintenanceMode::class, \SmartCafe\Http\Middleware\EncryptCookies::class, \Illuminate\Cookie\Middleware\AddQueuedCookiesToResponse::class, \Illuminate\Session\Middleware\StartSession::class, \Illuminate\View\Middleware\ShareErrorsFromSession::class, ]; /** * The application's route middleware. * * @var array */ protected $routeMiddleware = [ 'auth' => \SmartCafe\Http\Middleware\Authenticate::class, 'auth.basic' => \Illuminate\Auth\Middleware\AuthenticateWithBasicAuth::class, 'guest' => \SmartCafe\Http\Middleware\RedirectIfAuthenticated::class, 'throttle' => ThrottleMiddleware::class, ]; }
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<?php namespace Proces\CursosBundle\Entity; use Doctrine\ORM\Mapping as ORM; use Symfony\Component\Validator\Constraints as Assert; /** * CursosVirtuales * * @ORM\Table() * @ORM\Entity(repositoryClass="Proces\CursosBundle\Entity\CursosVirtualesRepository") */ class CursosVirtuales { /** * @var integer * * @ORM\Column(name="id", type="integer") * @ORM\Id * @ORM\GeneratedValue(strategy="AUTO") */ private $id; /** * @var string * * @ORM\ManyToOne(targetEntity="Twinpeaks\UserBundle\Entity\User") */ private $usuario; /** * @var string * * @ORM\Column(name="nombreCurso", type="string", length=80) * @Assert\NotBlank(message="Falta el nombre del Curso") * @Assert\Length( * min = "2", * max = "80", * minMessage = "El campo debe ser mayor a {{ limit }} caracteres de largo", * maxMessage = "El campo no puede tener más de {{ limit }} caracteres de largo" * ) */ private $nombreCurso; /** * @var string * * @ORM\Column(name="descripcionCurso", type="string", length=400) * @Assert\NotBlank(message="Descripcion del Curso") * @Assert\Length( * min = "2", * max = "400", * minMessage = "El campo debe ser mayor a {{ limit }} caracteres de largo", * maxMessage = "El campo no puede tener más de {{ limit }} caracteres de largo" * ) */ private $descripcionCurso; /** * @var string * * @ORM\Column(name="urlAudio", type="string", length=300, nullable=true) */ private $urlAudio; /** * @var string * * @ORM\Column(name="urlCurso", type="string", length=300) * @Assert\NotBlank(message="Enlace a la convocatoria") * @Assert\Url(message="Formato inválido") * @Assert\Length( * min = "2", * max = "300", * minMessage = "El campo debe ser mayor a {{ limit }} caracteres de largo", * maxMessage = "El campo no puede tener más de {{ limit }} caracteres de largo" * ) */ private $urlCurso; /** * @var boolean * * @ORM\Column(name="estado", type="boolean", nullable=true) */ private $estado; /** * Get id * * @return integer */ public function getId() { return $this->id; } /** * Set usuario * * @param string $usuario * @return CursosVirtuales */ public function setUsuario(\Twinpeaks\UserBundle\Entity\User $usuario) { $this->usuario = $usuario; return $this; } /** * Get usuario * * @return string */ public function getUsuario() { return $this->usuario; } /** * Set nombreCurso * * @param string $nombreCurso * @return CursosVirtuales */ public function setNombreCurso($nombreCurso) { $this->nombreCurso = $nombreCurso; return $this; } /** * Get nombreCurso * * @return string */ public function getNombreCurso() { return $this->nombreCurso; } /** * Set descripcionCurso * * @param string $descripcionCurso * @return CursosVirtuales */ public function setDescripcionCurso($descripcionCurso) { $this->descripcionCurso = $descripcionCurso; return $this; } /** * Get descripcionCurso * * @return string */ public function getDescripcionCurso() { return $this->descripcionCurso; } /** * Set urlAudio * * @param string $urlAudio * @return CursosVirtuales */ public function setUrlAudio($urlAudio) { $this->urlAudio = $urlAudio; return $this; } /** * Get urlAudio * * @return string */ public function getUrlAudio() { return $this->urlAudio; } /** * Set urlCurso * * @param string $urlCurso * @return CursosVirtuales */ public function setUrlCurso($urlCurso) { $this->urlCurso = $urlCurso; return $this; } /** * Get urlCurso * * @return string */ public function getUrlCurso() { return $this->urlCurso; } /** * Set estado * * @param boolean $estado * @return CursosVirtuales */ public function setEstado($estado) { $this->estado = $estado; return $this; } /** * Get estado * * @return boolean */ public function getEstado() { return $this->estado; } }
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package org.apache.geode.cache.query.cq.dunit; import static org.junit.Assert.assertEquals; import static org.junit.Assert.fail; import static org.junit.Assume.assumeTrue; import java.util.Arrays; import java.util.List; import java.util.concurrent.TimeUnit; import org.awaitility.Awaitility; import org.junit.Before; import org.junit.Test; import org.junit.experimental.categories.Category; import org.junit.runner.RunWith; import org.junit.runners.Parameterized; import org.apache.geode.cache.query.CqAttributesFactory; import org.apache.geode.cache.query.CqEvent; import org.apache.geode.cache.query.CqException; import org.apache.geode.cache.query.CqListener; import org.apache.geode.cache.query.CqQuery; import org.apache.geode.cache.query.QueryService; import org.apache.geode.cache.query.RegionNotFoundException; import org.apache.geode.security.query.QuerySecurityBase; import org.apache.geode.security.query.data.QueryTestObject; import org.apache.geode.test.junit.categories.DistributedTest; import org.apache.geode.test.junit.categories.SecurityTest; import org.apache.geode.test.junit.runners.CategoryWithParameterizedRunnerFactory; @Category({DistributedTest.class, SecurityTest.class}) @RunWith(Parameterized.class) @Parameterized.UseParametersRunnerFactory(CategoryWithParameterizedRunnerFactory.class) public class CqSecurityUnauthorizedUserDUnitTest extends QuerySecurityBase { @Parameterized.Parameters public static Object[] usersAllowed() { return new Object[] {"stranger", "dataReaderRegionKey", "clusterManagerQuery", "clusterManagerDataReaderRegionKey", "dataWriter"}; } @Parameterized.Parameter public String user; @Before public void configureSpecificClientAndKeyAndValues() { createClientCache(specificUserClient, user, userPerms.getUserPassword(user)); createProxyRegion(specificUserClient, regionName); keys = new Object[] {"key-0"}; values = new Object[] {new QueryTestObject(0, "John")}; } // Variables that need to be shared across invoke calls. protected static CqSecurityTestCqListener cqListener = null; public List<String> getAllUsersOnlyAllowedWrite() { return Arrays.asList("dataWriter"); } private String regexForExpectedExceptions = ".*DATA:READ:.*"; @Test public void cqExecuteNoMethodInvocationWithUsersWithoutCqPermissionsWithPrepopulatedRegionShouldThrowSecurityException() throws Exception { putIntoRegion(superUserClient, keys, values, regionName); String query = "select * from /" + regionName + " r where r.id = 0"; specificUserClient.invoke(() -> { QueryService queryService = getClientCache().getQueryService(); CqSecurityTestCqListener cqListener = new CqSecurityTestCqListener(); CqSecurityUnauthorizedUserDUnitTest.cqListener = cqListener; CqQuery cq = createCq(queryService, query, cqListener); executeCqButExpectException(cq, user, regexForExpectedExceptions); }); } @Test public void cqExecuteWithInitialResultsWithMethodInvocationWithoutPermissionWithUnpopulatedRegionThrowSecurityException() throws Exception { String query = "select * from /" + regionName + " r where r.name = 'Beth'"; specificUserClient.invoke(() -> { QueryService queryService = getClientCache().getQueryService(); CqSecurityTestCqListener cqListener = new CqSecurityTestCqListener(); CqSecurityUnauthorizedUserDUnitTest.cqListener = cqListener; CqQuery cq = createCq(queryService, query, cqListener); executeCqWithInitialResultsButExpectException(cq, user, regexForExpectedExceptions); }); } @Test public void cqExecuteWithOutPermissionsWithUnpopulatedRegionShouldNotAllowCq() throws Exception { String query = "select * from /" + regionName + " r where r.name = 'Beth'"; specificUserClient.invoke(() -> { QueryService queryService = getClientCache().getQueryService(); CqSecurityTestCqListener cqListener = new CqSecurityTestCqListener(); CqSecurityUnauthorizedUserDUnitTest.cqListener = cqListener; CqQuery cq = createCq(queryService, query, cqListener); executeCqButExpectException(cq, user, regexForExpectedExceptions); }); } @Test public void cqCreatedByAllowedUserButPutDoneByUnallowedReaderShouldStillExecuteWithCqEvent() throws Exception { assumeTrue(user.equals("dataWriter")); String query = "select * from /" + regionName + " r where r.id = 1"; superUserClient.invoke(() -> { QueryService queryService = getClientCache().getQueryService(); CqSecurityTestCqListener cqListener = new CqSecurityTestCqListener(); CqSecurityUnauthorizedUserDUnitTest.cqListener = cqListener; CqQuery cq = createCq(queryService, query, cqListener); cq.execute(); }); Object[] keys = {"key-0"}; Object[] values = {new QueryTestObject(1, "Mary")}; putIntoRegion(specificUserClient, keys, values, regionName); superUserClient.invoke(() -> { Awaitility.await().atMost(30, TimeUnit.SECONDS) .until(() -> assertEquals(1, cqListener.getNumEvent())); }); } protected CqQuery createCq(QueryService queryService, String query, CqListener cqListener) throws CqException { CqAttributesFactory cqaf = new CqAttributesFactory(); cqaf.addCqListener(cqListener); CqQuery cq = queryService.newCq(query, cqaf.create()); return cq; } protected void executeCqButExpectException(CqQuery cq, String user, String regexForExpectedException) { try { cq.execute(); fail("Expected an exception when executing cq:" + cq.getQueryString() + " with user:" + user); } catch (RegionNotFoundException | CqException e) { if (!e.getMessage().matches(regexForExpectedException)) { Throwable cause = e.getCause(); while (cause != null) { if (cause.getMessage().matches(regexForExpectedException)) { return; } cause = cause.getCause(); } e.printStackTrace(); fail("Exception thrown did not match:" + regexForExpectedException + ". Instead was:" + e); } } } private void executeCqWithInitialResultsButExpectException(CqQuery cq, String user, String regexForExpectedException) { try { cq.executeWithInitialResults(); fail("Expected an exception when executing cq:" + cq + " with user:" + user); } catch (RegionNotFoundException | CqException e) { e.printStackTrace(); if (!e.getMessage().matches(regexForExpectedException)) { Throwable cause = e.getCause(); while (cause != null) { if (cause.getMessage() != null && cause.getMessage().matches(regexForExpectedException)) { return; } cause = cause.getCause(); } e.printStackTrace(); fail("Exception thrown did not match:" + regexForExpectedException + ". Instead was:" + e); } } } public class CqSecurityTestCqListener implements CqListener { private int numEvents = 0; @Override public void onEvent(CqEvent aCqEvent) { numEvents++; } @Override public void onError(CqEvent aCqEvent) { } public int getNumEvent() { return numEvents; } @Override public void close() { } } }
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{-# LANGUAGE CPP #-} ----------------------------------------------------------------------------- -- -- Stg to C-- code generation: expressions -- -- (c) The University of Glasgow 2004-2006 -- ----------------------------------------------------------------------------- module StgCmmExpr ( cgExpr ) where #define FAST_STRING_NOT_NEEDED #include "HsVersions.h" import {-# SOURCE #-} StgCmmBind ( cgBind ) import StgCmmMonad import StgCmmHeap import StgCmmEnv import StgCmmCon import StgCmmProf (saveCurrentCostCentre, restoreCurrentCostCentre, emitSetCCC) import StgCmmLayout import StgCmmPrim import StgCmmHpc import StgCmmTicky import StgCmmUtils import StgCmmClosure import StgSyn import MkGraph import BlockId import Cmm import CmmInfo import CoreSyn import DataCon import ForeignCall import Id import PrimOp import TyCon import Type import CostCentre ( CostCentreStack, currentCCS ) import Maybes import Util import FastString import Outputable import Control.Monad (when,void) #if __GLASGOW_HASKELL__ >= 709 import Prelude hiding ((<*>)) #endif ------------------------------------------------------------------------ -- cgExpr: the main function ------------------------------------------------------------------------ cgExpr :: StgExpr -> FCode ReturnKind cgExpr (StgApp fun args) = cgIdApp fun args {- seq# a s ==> a -} cgExpr (StgOpApp (StgPrimOp SeqOp) [StgVarArg a, _] _res_ty) = cgIdApp a [] cgExpr (StgOpApp op args ty) = cgOpApp op args ty cgExpr (StgConApp con args) = cgConApp con args cgExpr (StgSCC cc tick push expr) = do { emitSetCCC cc tick push; cgExpr expr } cgExpr (StgTick m n expr) = do dflags <- getDynFlags emit (mkTickBox dflags m n) cgExpr expr cgExpr (StgLit lit) = do cmm_lit <- cgLit lit emitReturn [CmmLit cmm_lit] cgExpr (StgLet binds expr) = do { cgBind binds; cgExpr expr } cgExpr (StgLetNoEscape _ _ binds expr) = do { u <- newUnique ; let join_id = mkBlockId u ; cgLneBinds join_id binds ; r <- cgExpr expr ; emitLabel join_id ; return r } cgExpr (StgCase expr _live_vars _save_vars bndr _srt alt_type alts) = cgCase expr bndr alt_type alts cgExpr (StgLam {}) = panic "cgExpr: StgLam" ------------------------------------------------------------------------ -- Let no escape ------------------------------------------------------------------------ {- Generating code for a let-no-escape binding, aka join point is very very similar to what we do for a case expression. The duality is between let-no-escape x = b in e and case e of ... -> b That is, the RHS of 'x' (ie 'b') will execute *later*, just like the alternative of the case; it needs to be compiled in an environment in which all volatile bindings are forgotten, and the free vars are bound only to stable things like stack locations.. The 'e' part will execute *next*, just like the scrutinee of a case. -} ------------------------- cgLneBinds :: BlockId -> StgBinding -> FCode () cgLneBinds join_id (StgNonRec bndr rhs) = do { local_cc <- saveCurrentCostCentre -- See Note [Saving the current cost centre] ; (info, fcode) <- cgLetNoEscapeRhs join_id local_cc bndr rhs ; fcode ; addBindC info } cgLneBinds join_id (StgRec pairs) = do { local_cc <- saveCurrentCostCentre ; r <- sequence $ unzipWith (cgLetNoEscapeRhs join_id local_cc) pairs ; let (infos, fcodes) = unzip r ; addBindsC infos ; sequence_ fcodes } ------------------------- cgLetNoEscapeRhs :: BlockId -- join point for successor of let-no-escape -> Maybe LocalReg -- Saved cost centre -> Id -> StgRhs -> FCode (CgIdInfo, FCode ()) cgLetNoEscapeRhs join_id local_cc bndr rhs = do { (info, rhs_code) <- cgLetNoEscapeRhsBody local_cc bndr rhs ; let (bid, _) = expectJust "cgLetNoEscapeRhs" $ maybeLetNoEscape info ; let code = do { body <- getCode rhs_code ; emitOutOfLine bid (body <*> mkBranch join_id) } ; return (info, code) } cgLetNoEscapeRhsBody :: Maybe LocalReg -- Saved cost centre -> Id -> StgRhs -> FCode (CgIdInfo, FCode ()) cgLetNoEscapeRhsBody local_cc bndr (StgRhsClosure cc _bi _ _upd _ args body) = cgLetNoEscapeClosure bndr local_cc cc (nonVoidIds args) body cgLetNoEscapeRhsBody local_cc bndr (StgRhsCon cc con args) = cgLetNoEscapeClosure bndr local_cc cc [] (StgConApp con args) -- For a constructor RHS we want to generate a single chunk of -- code which can be jumped to from many places, which will -- return the constructor. It's easy; just behave as if it -- was an StgRhsClosure with a ConApp inside! ------------------------- cgLetNoEscapeClosure :: Id -- binder -> Maybe LocalReg -- Slot for saved current cost centre -> CostCentreStack -- XXX: *** NOT USED *** why not? -> [NonVoid Id] -- Args (as in \ args -> body) -> StgExpr -- Body (as in above) -> FCode (CgIdInfo, FCode ()) cgLetNoEscapeClosure bndr cc_slot _unused_cc args body = do dflags <- getDynFlags return ( lneIdInfo dflags bndr args , code ) where code = forkLneBody $ do { ; withNewTickyCounterLNE (idName bndr) args $ do ; restoreCurrentCostCentre cc_slot ; arg_regs <- bindArgsToRegs args ; void $ noEscapeHeapCheck arg_regs (tickyEnterLNE >> cgExpr body) } ------------------------------------------------------------------------ -- Case expressions ------------------------------------------------------------------------ {- Note [Compiling case expressions] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ It is quite interesting to decide whether to put a heap-check at the start of each alternative. Of course we certainly have to do so if the case forces an evaluation, or if there is a primitive op which can trigger GC. A more interesting situation is this (a Plan-B situation) !P!; ...P... case x# of 0# -> !Q!; ...Q... default -> !R!; ...R... where !x! indicates a possible heap-check point. The heap checks in the alternatives *can* be omitted, in which case the topmost heapcheck will take their worst case into account. In favour of omitting !Q!, !R!: - *May* save a heap overflow test, if ...P... allocates anything. - We can use relative addressing from a single Hp to get at all the closures so allocated. - No need to save volatile vars etc across heap checks in !Q!, !R! Against omitting !Q!, !R! - May put a heap-check into the inner loop. Suppose the main loop is P -> R -> P -> R... Q is the loop exit, and only it does allocation. This only hurts us if P does no allocation. If P allocates, then there is a heap check in the inner loop anyway. - May do more allocation than reqd. This sometimes bites us badly. For example, nfib (ha!) allocates about 30\% more space if the worst-casing is done, because many many calls to nfib are leaf calls which don't need to allocate anything. We can un-allocate, but that costs an instruction Neither problem hurts us if there is only one alternative. Suppose the inner loop is P->R->P->R etc. Then here is how many heap checks we get in the *inner loop* under various conditions Alooc Heap check in branches (!Q!, !R!)? P Q R yes no (absorb to !P!) -------------------------------------- n n n 0 0 n y n 0 1 n . y 1 1 y . y 2 1 y . n 1 1 Best choices: absorb heap checks from Q and R into !P! iff a) P itself does some allocation or b) P does allocation, or there is exactly one alternative We adopt (b) because that is more likely to put the heap check at the entry to a function, when not many things are live. After a bunch of single-branch cases, we may have lots of things live Hence: two basic plans for case e of r { alts } ------ Plan A: the general case --------- ...save current cost centre... ...code for e, with sequel (SetLocals r) ...restore current cost centre... ...code for alts... ...alts do their own heap checks ------ Plan B: special case when --------- (i) e does not allocate or call GC (ii) either upstream code performs allocation or there is just one alternative Then heap allocation in the (single) case branch is absorbed by the upstream check. Very common example: primops on unboxed values ...code for e, with sequel (SetLocals r)... ...code for alts... ...no heap check... -} ------------------------------------- data GcPlan = GcInAlts -- Put a GC check at the start the case alternatives, [LocalReg] -- which binds these registers | NoGcInAlts -- The scrutinee is a primitive value, or a call to a -- primitive op which does no GC. Absorb the allocation -- of the case alternative(s) into the upstream check ------------------------------------- cgCase :: StgExpr -> Id -> AltType -> [StgAlt] -> FCode ReturnKind cgCase (StgOpApp (StgPrimOp op) args _) bndr (AlgAlt tycon) alts | isEnumerationTyCon tycon -- Note [case on bool] = do { tag_expr <- do_enum_primop op args -- If the binder is not dead, convert the tag to a constructor -- and assign it. ; when (not (isDeadBinder bndr)) $ do { dflags <- getDynFlags ; tmp_reg <- bindArgToReg (NonVoid bndr) ; emitAssign (CmmLocal tmp_reg) (tagToClosure dflags tycon tag_expr) } ; (mb_deflt, branches) <- cgAlgAltRhss (NoGcInAlts,AssignedDirectly) (NonVoid bndr) alts ; emitSwitch tag_expr branches mb_deflt 0 (tyConFamilySize tycon - 1) ; return AssignedDirectly } where do_enum_primop :: PrimOp -> [StgArg] -> FCode CmmExpr do_enum_primop TagToEnumOp [arg] -- No code! = getArgAmode (NonVoid arg) do_enum_primop primop args = do dflags <- getDynFlags tmp <- newTemp (bWord dflags) cgPrimOp [tmp] primop args return (CmmReg (CmmLocal tmp)) {- Note [case on bool] ~~~~~~~~~~~~~~~~~~~ This special case handles code like case a <# b of True -> False -> --> case tagToEnum# (a <$# b) of True -> .. ; False -> ... --> case (a <$# b) of r -> case tagToEnum# r of True -> .. ; False -> ... If we let the ordinary case code handle it, we'll get something like tmp1 = a < b tmp2 = Bool_closure_tbl[tmp1] if (tmp2 & 7 != 0) then ... // normal tagged case but this junk won't optimise away. What we really want is just an inline comparison: if (a < b) then ... So we add a special case to generate tmp1 = a < b if (tmp1 == 0) then ... and later optimisations will further improve this. Now that #6135 has been resolved it should be possible to remove that special case. The idea behind this special case and pre-6135 implementation of Bool-returning primops was that tagToEnum# was added implicitly in the codegen and then optimized away. Now the call to tagToEnum# is explicit in the source code, which allows to optimize it away at the earlier stages of compilation (i.e. at the Core level). -} -- Note [ticket #3132]: we might be looking at a case of a lifted Id -- that was cast to an unlifted type. The Id will always be bottom, -- but we don't want the code generator to fall over here. If we -- just emit an assignment here, the assignment will be -- type-incorrect Cmm. Hence, we emit the usual enter/return code, -- (and because bottom must be untagged, it will be entered and the -- program will crash). -- The Sequel is a type-correct assignment, albeit bogus. -- The (dead) continuation loops; it would be better to invoke some kind -- of panic function here. -- -- However, we also want to allow an assignment to be generated -- in the case when the types are compatible, because this allows -- some slightly-dodgy but occasionally-useful casts to be used, -- such as in RtClosureInspect where we cast an HValue to a MutVar# -- so we can print out the contents of the MutVar#. If we generate -- code that enters the HValue, then we'll get a runtime panic, because -- the HValue really is a MutVar#. The types are compatible though, -- so we can just generate an assignment. cgCase (StgApp v []) bndr alt_type@(PrimAlt _) alts | isUnLiftedType (idType v) || reps_compatible = -- assignment suffices for unlifted types do { dflags <- getDynFlags ; when (not reps_compatible) $ panic "cgCase: reps do not match, perhaps a dodgy unsafeCoerce?" ; v_info <- getCgIdInfo v ; emitAssign (CmmLocal (idToReg dflags (NonVoid bndr))) (idInfoToAmode v_info) ; _ <- bindArgsToRegs [NonVoid bndr] ; cgAlts (NoGcInAlts,AssignedDirectly) (NonVoid bndr) alt_type alts } where reps_compatible = idPrimRep v == idPrimRep bndr cgCase scrut@(StgApp v []) _ (PrimAlt _) _ = -- fail at run-time, not compile-time do { dflags <- getDynFlags ; mb_cc <- maybeSaveCostCentre True ; _ <- withSequel (AssignTo [idToReg dflags (NonVoid v)] False) (cgExpr scrut) ; restoreCurrentCostCentre mb_cc ; emitComment $ mkFastString "should be unreachable code" ; l <- newLabelC ; emitLabel l ; emit (mkBranch l) ; return AssignedDirectly } {- case seq# a s of v (# s', a' #) -> e ==> case a of v (# s', a' #) -> e (taking advantage of the fact that the return convention for (# State#, a #) is the same as the return convention for just 'a') -} cgCase (StgOpApp (StgPrimOp SeqOp) [StgVarArg a, _] _) bndr alt_type alts = -- handle seq#, same return convention as vanilla 'a'. cgCase (StgApp a []) bndr alt_type alts cgCase scrut bndr alt_type alts = -- the general case do { dflags <- getDynFlags ; up_hp_usg <- getVirtHp -- Upstream heap usage ; let ret_bndrs = chooseReturnBndrs bndr alt_type alts alt_regs = map (idToReg dflags) ret_bndrs ; simple_scrut <- isSimpleScrut scrut alt_type ; let do_gc | not simple_scrut = True | isSingleton alts = False | up_hp_usg > 0 = False | otherwise = True -- cf Note [Compiling case expressions] gc_plan = if do_gc then GcInAlts alt_regs else NoGcInAlts ; mb_cc <- maybeSaveCostCentre simple_scrut ; let sequel = AssignTo alt_regs do_gc{- Note [scrut sequel] -} ; ret_kind <- withSequel sequel (cgExpr scrut) ; restoreCurrentCostCentre mb_cc ; _ <- bindArgsToRegs ret_bndrs ; cgAlts (gc_plan,ret_kind) (NonVoid bndr) alt_type alts } {- Note [scrut sequel] The job of the scrutinee is to assign its value(s) to alt_regs. Additionally, if we plan to do a heap-check in the alternatives (see Note [Compiling case expressions]), then we *must* retreat Hp to recover any unused heap before passing control to the sequel. If we don't do this, then any unused heap will become slop because the heap check will reset the heap usage. Slop in the heap breaks LDV profiling (+RTS -hb) which needs to do a linear sweep through the nursery. Note [Inlining out-of-line primops and heap checks] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ If shouldInlinePrimOp returns True when called from StgCmmExpr for the purpose of heap check placement, we *must* inline the primop later in StgCmmPrim. If we don't things will go wrong. -} ----------------- maybeSaveCostCentre :: Bool -> FCode (Maybe LocalReg) maybeSaveCostCentre simple_scrut | simple_scrut = return Nothing | otherwise = saveCurrentCostCentre ----------------- isSimpleScrut :: StgExpr -> AltType -> FCode Bool -- Simple scrutinee, does not block or allocate; hence safe to amalgamate -- heap usage from alternatives into the stuff before the case -- NB: if you get this wrong, and claim that the expression doesn't allocate -- when it does, you'll deeply mess up allocation isSimpleScrut (StgOpApp op args _) _ = isSimpleOp op args isSimpleScrut (StgLit _) _ = return True -- case 1# of { 0# -> ..; ... } isSimpleScrut (StgApp _ []) (PrimAlt _) = return True -- case x# of { 0# -> ..; ... } isSimpleScrut _ _ = return False isSimpleOp :: StgOp -> [StgArg] -> FCode Bool -- True iff the op cannot block or allocate isSimpleOp (StgFCallOp (CCall (CCallSpec _ _ safe)) _) _ = return $! not (playSafe safe) isSimpleOp (StgPrimOp op) stg_args = do arg_exprs <- getNonVoidArgAmodes stg_args dflags <- getDynFlags -- See Note [Inlining out-of-line primops and heap checks] return $! isJust $ shouldInlinePrimOp dflags op arg_exprs isSimpleOp (StgPrimCallOp _) _ = return False ----------------- chooseReturnBndrs :: Id -> AltType -> [StgAlt] -> [NonVoid Id] -- These are the binders of a case that are assigned -- by the evaluation of the scrutinee -- Only non-void ones come back chooseReturnBndrs bndr (PrimAlt _) _alts = nonVoidIds [bndr] chooseReturnBndrs _bndr (UbxTupAlt _) [(_, ids, _, _)] = nonVoidIds ids -- 'bndr' is not assigned! chooseReturnBndrs bndr (AlgAlt _) _alts = nonVoidIds [bndr] -- Only 'bndr' is assigned chooseReturnBndrs bndr PolyAlt _alts = nonVoidIds [bndr] -- Only 'bndr' is assigned chooseReturnBndrs _ _ _ = panic "chooseReturnBndrs" -- UbxTupALt has only one alternative ------------------------------------- cgAlts :: (GcPlan,ReturnKind) -> NonVoid Id -> AltType -> [StgAlt] -> FCode ReturnKind -- At this point the result of the case are in the binders cgAlts gc_plan _bndr PolyAlt [(_, _, _, rhs)] = maybeAltHeapCheck gc_plan (cgExpr rhs) cgAlts gc_plan _bndr (UbxTupAlt _) [(_, _, _, rhs)] = maybeAltHeapCheck gc_plan (cgExpr rhs) -- Here bndrs are *already* in scope, so don't rebind them cgAlts gc_plan bndr (PrimAlt _) alts = do { dflags <- getDynFlags ; tagged_cmms <- cgAltRhss gc_plan bndr alts ; let bndr_reg = CmmLocal (idToReg dflags bndr) (DEFAULT,deflt) = head tagged_cmms -- PrimAlts always have a DEFAULT case -- and it always comes first tagged_cmms' = [(lit,code) | (LitAlt lit, code) <- tagged_cmms] ; emitCmmLitSwitch (CmmReg bndr_reg) tagged_cmms' deflt ; return AssignedDirectly } cgAlts gc_plan bndr (AlgAlt tycon) alts = do { dflags <- getDynFlags ; (mb_deflt, branches) <- cgAlgAltRhss gc_plan bndr alts ; let fam_sz = tyConFamilySize tycon bndr_reg = CmmLocal (idToReg dflags bndr) -- Is the constructor tag in the node reg? ; if isSmallFamily dflags fam_sz then do let -- Yes, bndr_reg has constr. tag in ls bits tag_expr = cmmConstrTag1 dflags (CmmReg bndr_reg) branches' = [(tag+1,branch) | (tag,branch) <- branches] emitSwitch tag_expr branches' mb_deflt 1 fam_sz return AssignedDirectly else -- No, get tag from info table do dflags <- getDynFlags let -- Note that ptr _always_ has tag 1 -- when the family size is big enough untagged_ptr = cmmRegOffB bndr_reg (-1) tag_expr = getConstrTag dflags (untagged_ptr) emitSwitch tag_expr branches mb_deflt 0 (fam_sz - 1) return AssignedDirectly } cgAlts _ _ _ _ = panic "cgAlts" -- UbxTupAlt and PolyAlt have only one alternative -- Note [alg-alt heap check] -- -- In an algebraic case with more than one alternative, we will have -- code like -- -- L0: -- x = R1 -- goto L1 -- L1: -- if (x & 7 >= 2) then goto L2 else goto L3 -- L2: -- Hp = Hp + 16 -- if (Hp > HpLim) then goto L4 -- ... -- L4: -- call gc() returns to L5 -- L5: -- x = R1 -- goto L1 ------------------- cgAlgAltRhss :: (GcPlan,ReturnKind) -> NonVoid Id -> [StgAlt] -> FCode ( Maybe CmmAGraph , [(ConTagZ, CmmAGraph)] ) cgAlgAltRhss gc_plan bndr alts = do { tagged_cmms <- cgAltRhss gc_plan bndr alts ; let { mb_deflt = case tagged_cmms of ((DEFAULT,rhs) : _) -> Just rhs _other -> Nothing -- DEFAULT is always first, if present ; branches = [ (dataConTagZ con, cmm) | (DataAlt con, cmm) <- tagged_cmms ] } ; return (mb_deflt, branches) } ------------------- cgAltRhss :: (GcPlan,ReturnKind) -> NonVoid Id -> [StgAlt] -> FCode [(AltCon, CmmAGraph)] cgAltRhss gc_plan bndr alts = do dflags <- getDynFlags let base_reg = idToReg dflags bndr cg_alt :: StgAlt -> FCode (AltCon, CmmAGraph) cg_alt (con, bndrs, _uses, rhs) = getCodeR $ maybeAltHeapCheck gc_plan $ do { _ <- bindConArgs con base_reg bndrs ; _ <- cgExpr rhs ; return con } forkAlts (map cg_alt alts) maybeAltHeapCheck :: (GcPlan,ReturnKind) -> FCode a -> FCode a maybeAltHeapCheck (NoGcInAlts,_) code = code maybeAltHeapCheck (GcInAlts regs, AssignedDirectly) code = altHeapCheck regs code maybeAltHeapCheck (GcInAlts regs, ReturnedTo lret off) code = altHeapCheckReturnsTo regs lret off code ----------------------------------------------------------------------------- -- Tail calls ----------------------------------------------------------------------------- cgConApp :: DataCon -> [StgArg] -> FCode ReturnKind cgConApp con stg_args | isUnboxedTupleCon con -- Unboxed tuple: assign and return = do { arg_exprs <- getNonVoidArgAmodes stg_args ; tickyUnboxedTupleReturn (length arg_exprs) ; emitReturn arg_exprs } | otherwise -- Boxed constructors; allocate and return = ASSERT( stg_args `lengthIs` dataConRepRepArity con ) do { (idinfo, fcode_init) <- buildDynCon (dataConWorkId con) False currentCCS con stg_args -- The first "con" says that the name bound to this -- closure is is "con", which is a bit of a fudge, but -- it only affects profiling (hence the False) ; emit =<< fcode_init ; emitReturn [idInfoToAmode idinfo] } cgIdApp :: Id -> [StgArg] -> FCode ReturnKind cgIdApp fun_id [] | isVoidTy (idType fun_id) = emitReturn [] cgIdApp fun_id args = do dflags <- getDynFlags fun_info <- getCgIdInfo fun_id self_loop_info <- getSelfLoop let cg_fun_id = cg_id fun_info -- NB: use (cg_id fun_info) instead of fun_id, because -- the former may be externalised for -split-objs. -- See Note [Externalise when splitting] in StgCmmMonad fun_arg = StgVarArg cg_fun_id fun_name = idName cg_fun_id fun = idInfoToAmode fun_info lf_info = cg_lf fun_info node_points dflags = nodeMustPointToIt dflags lf_info case (getCallMethod dflags fun_name cg_fun_id lf_info (length args) (cg_loc fun_info) self_loop_info) of -- A value in WHNF, so we can just return it. ReturnIt -> emitReturn [fun] -- ToDo: does ReturnIt guarantee tagged? EnterIt -> ASSERT( null args ) -- Discarding arguments emitEnter fun SlowCall -> do -- A slow function call via the RTS apply routines { tickySlowCall lf_info args ; emitComment $ mkFastString "slowCall" ; slowCall fun args } -- A direct function call (possibly with some left-over arguments) DirectEntry lbl arity -> do { tickyDirectCall arity args ; if node_points dflags then directCall NativeNodeCall lbl arity (fun_arg:args) else directCall NativeDirectCall lbl arity args } -- Let-no-escape call or self-recursive tail-call JumpToIt blk_id lne_regs -> do { adjustHpBackwards -- always do this before a tail-call ; cmm_args <- getNonVoidArgAmodes args ; emitMultiAssign lne_regs cmm_args ; emit (mkBranch blk_id) ; return AssignedDirectly } -- Note [Self-recursive tail calls] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- -- Self-recursive tail calls can be optimized into a local jump in the same -- way as let-no-escape bindings (see Note [What is a non-escaping let] in -- stgSyn/CoreToStg.lhs). Consider this: -- -- foo.info: -- a = R1 // calling convention -- b = R2 -- goto L1 -- L1: ... -- ... -- ... -- L2: R1 = x -- R2 = y -- call foo(R1,R2) -- -- Instead of putting x and y into registers (or other locations required by the -- calling convention) and performing a call we can put them into local -- variables a and b and perform jump to L1: -- -- foo.info: -- a = R1 -- b = R2 -- goto L1 -- L1: ... -- ... -- ... -- L2: a = x -- b = y -- goto L1 -- -- This can be done only when function is calling itself in a tail position -- and only if the call passes number of parameters equal to function's arity. -- Note that this cannot be performed if a function calls itself with a -- continuation. -- -- This in fact implements optimization known as "loopification". It was -- described in "Low-level code optimizations in the Glasgow Haskell Compiler" -- by Krzysztof Woś, though we use different approach. Krzysztof performed his -- optimization at the Cmm level, whereas we perform ours during code generation -- (Stg-to-Cmm pass) essentially making sure that optimized Cmm code is -- generated in the first place. -- -- Implementation is spread across a couple of places in the code: -- -- * FCode monad stores additional information in its reader environment -- (cgd_self_loop field). This information tells us which function can -- tail call itself in an optimized way (it is the function currently -- being compiled), what is the label of a loop header (L1 in example above) -- and information about local registers in which we should arguments -- before making a call (this would be a and b in example above). -- -- * Whenever we are compiling a function, we set that information to reflect -- the fact that function currently being compiled can be jumped to, instead -- of called. This is done in closureCodyBody in StgCmmBind. -- -- * We also have to emit a label to which we will be jumping. We make sure -- that the label is placed after a stack check but before the heap -- check. The reason is that making a recursive tail-call does not increase -- the stack so we only need to check once. But it may grow the heap, so we -- have to repeat the heap check in every self-call. This is done in -- do_checks in StgCmmHeap. -- -- * When we begin compilation of another closure we remove the additional -- information from the environment. This is done by forkClosureBody -- in StgCmmMonad. Other functions that duplicate the environment - -- forkLneBody, forkAlts, codeOnly - duplicate that information. In other -- words, we only need to clean the environment of the self-loop information -- when compiling right hand side of a closure (binding). -- -- * When compiling a call (cgIdApp) we use getCallMethod to decide what kind -- of call will be generated. getCallMethod decides to generate a self -- recursive tail call when (a) environment stores information about -- possible self tail-call; (b) that tail call is to a function currently -- being compiled; (c) number of passed arguments is equal to function's -- arity. (d) loopification is turned on via -floopification command-line -- option. -- -- * Command line option to turn loopification on and off is implemented in -- DynFlags. -- emitEnter :: CmmExpr -> FCode ReturnKind emitEnter fun = do { dflags <- getDynFlags ; adjustHpBackwards ; sequel <- getSequel ; updfr_off <- getUpdFrameOff ; case sequel of -- For a return, we have the option of generating a tag-test or -- not. If the value is tagged, we can return directly, which -- is quicker than entering the value. This is a code -- size/speed trade-off: when optimising for speed rather than -- size we could generate the tag test. -- -- Right now, we do what the old codegen did, and omit the tag -- test, just generating an enter. Return _ -> do { let entry = entryCode dflags $ closureInfoPtr dflags $ CmmReg nodeReg ; emit $ mkJump dflags NativeNodeCall entry [cmmUntag dflags fun] updfr_off ; return AssignedDirectly } -- The result will be scrutinised in the sequel. This is where -- we generate a tag-test to avoid entering the closure if -- possible. -- -- The generated code will be something like this: -- -- R1 = fun -- copyout -- if (fun & 7 != 0) goto Lcall else goto Lret -- Lcall: -- call [fun] returns to Lret -- Lret: -- fun' = R1 -- copyin -- ... -- -- Note in particular that the label Lret is used as a -- destination by both the tag-test and the call. This is -- becase Lret will necessarily be a proc-point, and we want to -- ensure that we generate only one proc-point for this -- sequence. -- -- Furthermore, we tell the caller that we generated a native -- return continuation by returning (ReturnedTo Lret off), so -- that the continuation can be reused by the heap-check failure -- code in the enclosing case expression. -- AssignTo res_regs _ -> do { lret <- newLabelC ; let (off, _, copyin) = copyInOflow dflags NativeReturn (Young lret) res_regs [] ; lcall <- newLabelC ; updfr_off <- getUpdFrameOff ; let area = Young lret ; let (outArgs, regs, copyout) = copyOutOflow dflags NativeNodeCall Call area [fun] updfr_off [] -- refer to fun via nodeReg after the copyout, to avoid having -- both live simultaneously; this sometimes enables fun to be -- inlined in the RHS of the R1 assignment. ; let entry = entryCode dflags (closureInfoPtr dflags (CmmReg nodeReg)) the_call = toCall entry (Just lret) updfr_off off outArgs regs ; emit $ copyout <*> mkCbranch (cmmIsTagged dflags (CmmReg nodeReg)) lret lcall <*> outOfLine lcall the_call <*> mkLabel lret <*> copyin ; return (ReturnedTo lret off) } }
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FROM ubuntu:14.04 MAINTAINER Apaar Shanker <[email protected]> USER root RUN apt-get update RUN apt-get install -y build-essential #RUN add-apt-repository -y ppa:ubuntu-toolchain-r/test RUN apt-get install -y libstdc++6 # Install python RUN apt-get install -y python RUN apt-get install -y build-essential python-dev RUN apt-get install -y python-pip #RUN apt-get install -y octave #Install Python Dependencies ADD requirements.txt requirements.txt RUN pip install -r requirements.txt RUN conda install libgcc ADD Asap-3.8.4 Asap-3.8.4 RUN cd Asap-3.8.4 \ && make depend \ && make serial \ && make install #CMD octave -q compiling.m #CMD python Asap-3.8.4/setup.py install RUN ls RUN pwd ENV export PATH=/home/main/notebooks/Asap-3.8.4/x86_64:$PATH ENV export PYTHONPATH=/home/main/notebooks/Asap-3.8.4/Python:/home/main/notebooks/Asap-3.8.4/x86_64:$PYTHONPATH #RUN export PATH=/home/main/notebooks/Asap-3.8.4/Python:$PATH #RUN export PYTHONPATH=/home/main/notebooks/Asap-3.8.4/Python:$PYTHONPATH
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package com.igormaznitsa.mvngolang.cvs; import java.io.File; import javax.annotation.Nonnull; import javax.annotation.Nullable; import org.apache.maven.plugin.logging.Log; import com.igormaznitsa.mvngolang.utils.ProxySettings; class CvsNone extends AbstractRepo { CvsNone() { super("%%%+++none+++%%%"); } @Override public boolean doesContainCVS(@Nonnull final File folder) { return false; } @Override public boolean upToBranch(@Nonnull final Log logger, @Nullable final ProxySettings proxy, @Nullable final String customCommand, @Nonnull final File cvsFolder, @Nonnull final String branchId) { return false; } @Override public boolean upToTag(@Nonnull final Log logger, @Nullable final ProxySettings proxy, @Nullable final String customCommand, @Nonnull final File cvsFolder, @Nonnull final String tagId) { return false; } @Override public boolean upToRevision(@Nonnull final Log logger, @Nullable final ProxySettings proxy, @Nullable final String customCommand, @Nonnull final File cvsFolder, @Nonnull final String revisionId) { return false; } }
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<?xml version="1.0" encoding="utf-8"?> <resources> <!-- From: file:/Users/mattmckenna/AndroidStudioProjects/retrievr/ParseLoginUI/build/intermediates/exploded-aar/com.facebook.android/facebook-android-sdk/3.23.1/res/values-he/values.xml --> <eat-comment/> <string name="com_facebook_choose_friends">בחר חברים</string> <string name="com_facebook_dialogloginactivity_ok_button">אישור</string> <string name="com_facebook_image_download_unknown_error">שגיאה בעת הורדת תמונה</string> <string name="com_facebook_internet_permission_error_message">ההתחברות לתצוגת אתר דורשת אישור אינטרנט</string> <string name="com_facebook_internet_permission_error_title">AndroidManifest שגיאת</string> <string name="com_facebook_loading">..מעלה</string> <string name="com_facebook_loginview_cancel_action">בטל</string> <string name="com_facebook_loginview_log_in_button">התחבר לפייסבוק</string> <string name="com_facebook_loginview_log_out_action">התנתק</string> <string name="com_facebook_loginview_log_out_button">התנתק</string> <string name="com_facebook_loginview_logged_in_as">מחובר בשם: %1$s</string> <string name="com_facebook_loginview_logged_in_using_facebook">מחובר באמצעות פייסבוק</string> <string name="com_facebook_logo_content_description">פייסבוק לוגו</string> <string name="com_facebook_nearby">קרוב אליי</string> <string name="com_facebook_picker_done_button_text">בצע</string> <string name="com_facebook_placepicker_subtitle_catetory_only_format">%1$s</string> <string name="com_facebook_placepicker_subtitle_format">%1$s • %2$,d היו פה</string> <string name="com_facebook_placepicker_subtitle_were_here_only_format">%1$,d היו פה</string> <string name="com_facebook_requesterror_password_changed">.הסיסמה שלך בפייסבוק השתנתה, אנא חבר מחדש את האפליקציה עם פייסבוק</string> <string name="com_facebook_requesterror_permissions">.חיבור האפליקציה עם פייסבוק נכשל בשל הרשאות לא מספקות, אנא הענק הרשאות לאפליקציה בכדי שהפעולה תוכל להתבצע</string> <string name="com_facebook_requesterror_reconnect">.ארעה שגיאה בעת החיבור עם פייסבוק, חבר בבקשה מחדש את האפליקציה עם פייסבוק</string> <string name="com_facebook_requesterror_relogin">.האפליקציה אינה מחוברת לפייסבוק, אנא היכנס וחבר מחדש את האפליקציה</string> <string name="com_facebook_requesterror_web_login">.כדי לאפשר מחדש לאפליקציה להתחבר עם פייסבוק https://www.facebook.com או https://m.facebook.com אנא היכנס דרך</string> <string name="com_facebook_usersettingsfragment_log_in_button">התחבר…</string> <string name="com_facebook_usersettingsfragment_logged_in">מחובר</string> <string name="com_facebook_usersettingsfragment_not_logged_in">לא מחובר</string> </resources>
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<?php /** * @file * Contains \Drupal\Core\Entity\KeyValueStore\Query\QueryFactory. */ namespace Drupal\Core\Entity\KeyValueStore\Query; use Drupal\Core\Entity\EntityTypeInterface; use Drupal\Core\Entity\Query\QueryException; use Drupal\Core\Entity\Query\QueryFactoryInterface; use Drupal\Core\KeyValueStore\KeyValueFactoryInterface; /** * Provides a factory for creating the key value entity query. */ class QueryFactory implements QueryFactoryInterface { /** * The key value factory. * * @var \Drupal\Core\KeyValueStore\KeyValueFactoryInterface */ protected $keyValueFactory; /** * The namespace of this class, the parent class etc. * * @var array */ protected $namespaces; /** * Constructs a QueryFactory object. * */ public function __construct(KeyValueFactoryInterface $key_value_factory) { $this->keyValueFactory = $key_value_factory; $this->namespaces = Query::getNamespaces($this); } /** * {@inheritdoc} */ public function get(EntityTypeInterface $entity_type, $conjunction) { return new Query($entity_type, $conjunction, $this->namespaces, $this->keyValueFactory); } /** * {@inheritdoc} */ public function getAggregate(EntityTypeInterface $entity_type, $conjunction) { throw new QueryException('Aggregation over key-value entity storage is not supported'); } }
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/* * This var has to be outside the angular factory, otherwise when * there are multiple material apps on the same page, each app * will create its own instance of this array and the app's IDs * will not be unique. */ var nextUniqueId = 0; /** * @ngdoc module * @name material.core.util * @description * Util */ angular .module('material.core') .factory('$mdUtil', UtilFactory); /** * @ngInject */ function UtilFactory($document, $timeout, $compile, $rootScope, $$mdAnimate, $interpolate, $log, $rootElement, $window, $$rAF) { // Setup some core variables for the processTemplate method var startSymbol = $interpolate.startSymbol(), endSymbol = $interpolate.endSymbol(), usesStandardSymbols = ((startSymbol === '{{') && (endSymbol === '}}')); /** * Checks if the target element has the requested style by key * @param {DOMElement|JQLite} target Target element * @param {string} key Style key * @param {string=} expectedVal Optional expected value * @returns {boolean} Whether the target element has the style or not */ var hasComputedStyle = function (target, key, expectedVal) { var hasValue = false; if ( target && target.length ) { var computedStyles = $window.getComputedStyle(target[0]); hasValue = angular.isDefined(computedStyles[key]) && (expectedVal ? computedStyles[key] == expectedVal : true); } return hasValue; }; function validateCssValue(value) { return !value ? '0' : hasPx(value) || hasPercent(value) ? value : value + 'px'; } function hasPx(value) { return String(value).indexOf('px') > -1; } function hasPercent(value) { return String(value).indexOf('%') > -1; } var $mdUtil = { dom: {}, now: window.performance && window.performance.now ? angular.bind(window.performance, window.performance.now) : Date.now || function() { return new Date().getTime(); }, /** * Cross-version compatibility method to retrieve an option of a ngModel controller, * which supports the breaking changes in the AngularJS snapshot (SHA 87a2ff76af5d0a9268d8eb84db5755077d27c84c). * @param {!angular.ngModelCtrl} ngModelCtrl * @param {!string} optionName * @returns {Object|undefined} */ getModelOption: function (ngModelCtrl, optionName) { if (!ngModelCtrl.$options) { return; } var $options = ngModelCtrl.$options; // The newer versions of AngularJS introduced a `getOption function and made the option values no longer // visible on the $options object. return $options.getOption ? $options.getOption(optionName) : $options[optionName] }, /** * Bi-directional accessor/mutator used to easily update an element's * property based on the current 'dir'ectional value. */ bidi : function(element, property, lValue, rValue) { var ltr = !($document[0].dir == 'rtl' || $document[0].body.dir == 'rtl'); // If accessor if ( arguments.length == 0 ) return ltr ? 'ltr' : 'rtl'; // If mutator var elem = angular.element(element); if ( ltr && angular.isDefined(lValue)) { elem.css(property, validateCssValue(lValue)); } else if ( !ltr && angular.isDefined(rValue)) { elem.css(property, validateCssValue(rValue) ); } }, bidiProperty: function (element, lProperty, rProperty, value) { var ltr = !($document[0].dir == 'rtl' || $document[0].body.dir == 'rtl'); var elem = angular.element(element); if ( ltr && angular.isDefined(lProperty)) { elem.css(lProperty, validateCssValue(value)); elem.css(rProperty, ''); } else if ( !ltr && angular.isDefined(rProperty)) { elem.css(rProperty, validateCssValue(value) ); elem.css(lProperty, ''); } }, clientRect: function(element, offsetParent, isOffsetRect) { var node = getNode(element); offsetParent = getNode(offsetParent || node.offsetParent || document.body); var nodeRect = node.getBoundingClientRect(); // The user can ask for an offsetRect: a rect relative to the offsetParent, // or a clientRect: a rect relative to the page var offsetRect = isOffsetRect ? offsetParent.getBoundingClientRect() : {left: 0, top: 0, width: 0, height: 0}; return { left: nodeRect.left - offsetRect.left, top: nodeRect.top - offsetRect.top, width: nodeRect.width, height: nodeRect.height }; }, offsetRect: function(element, offsetParent) { return $mdUtil.clientRect(element, offsetParent, true); }, // Annoying method to copy nodes to an array, thanks to IE nodesToArray: function(nodes) { nodes = nodes || []; var results = []; for (var i = 0; i < nodes.length; ++i) { results.push(nodes.item(i)); } return results; }, /** * Determines the absolute position of the viewport. * Useful when making client rectangles absolute. * @returns {number} */ getViewportTop: function() { return window.scrollY || window.pageYOffset || 0; }, /** * Finds the proper focus target by searching the DOM. * * @param containerEl * @param attributeVal * @returns {*} */ findFocusTarget: function(containerEl, attributeVal) { var AUTO_FOCUS = this.prefixer('md-autofocus', true); var elToFocus; elToFocus = scanForFocusable(containerEl, attributeVal || AUTO_FOCUS); if ( !elToFocus && attributeVal != AUTO_FOCUS) { // Scan for deprecated attribute elToFocus = scanForFocusable(containerEl, this.prefixer('md-auto-focus', true)); if ( !elToFocus ) { // Scan for fallback to 'universal' API elToFocus = scanForFocusable(containerEl, AUTO_FOCUS); } } return elToFocus; /** * Can target and nested children for specified Selector (attribute) * whose value may be an expression that evaluates to True/False. */ function scanForFocusable(target, selector) { var elFound, items = target[0].querySelectorAll(selector); // Find the last child element with the focus attribute if ( items && items.length ){ items.length && angular.forEach(items, function(it) { it = angular.element(it); // Check the element for the md-autofocus class to ensure any associated expression // evaluated to true. var isFocusable = it.hasClass('md-autofocus'); if (isFocusable) elFound = it; }); } return elFound; } }, /** * Disables scroll around the passed parent element. * @param element Unused * @param {!Element|!angular.JQLite} parent Element to disable scrolling within. * Defaults to body if none supplied. * @param options Object of options to modify functionality * - disableScrollMask Boolean of whether or not to create a scroll mask element or * use the passed parent element. */ disableScrollAround: function(element, parent, options) { options = options || {}; $mdUtil.disableScrollAround._count = Math.max(0, $mdUtil.disableScrollAround._count || 0); $mdUtil.disableScrollAround._count++; if ($mdUtil.disableScrollAround._restoreScroll) { return $mdUtil.disableScrollAround._restoreScroll; } var body = $document[0].body; var restoreBody = disableBodyScroll(); var restoreElement = disableElementScroll(parent); return $mdUtil.disableScrollAround._restoreScroll = function() { if (--$mdUtil.disableScrollAround._count <= 0) { restoreBody(); restoreElement(); delete $mdUtil.disableScrollAround._restoreScroll; } }; /** * Creates a virtual scrolling mask to prevent touchmove, keyboard, scrollbar clicking, * and wheel events */ function disableElementScroll(element) { element = angular.element(element || body); var scrollMask; if (options.disableScrollMask) { scrollMask = element; } else { scrollMask = angular.element( '<div class="md-scroll-mask">' + ' <div class="md-scroll-mask-bar"></div>' + '</div>'); element.append(scrollMask); } scrollMask.on('wheel', preventDefault); scrollMask.on('touchmove', preventDefault); return function restoreElementScroll() { scrollMask.off('wheel'); scrollMask.off('touchmove'); if (!options.disableScrollMask) { scrollMask[0].parentNode.removeChild(scrollMask[0]); } }; function preventDefault(e) { e.preventDefault(); } } // Converts the body to a position fixed block and translate it to the proper scroll position function disableBodyScroll() { var documentElement = $document[0].documentElement; var prevDocumentStyle = documentElement.style.cssText || ''; var prevBodyStyle = body.style.cssText || ''; var viewportTop = $mdUtil.getViewportTop(); var clientWidth = body.clientWidth; var hasVerticalScrollbar = body.scrollHeight > body.clientHeight + 1; if (hasVerticalScrollbar) { angular.element(body).css({ position: 'fixed', width: '100%', top: -viewportTop + 'px' }); } if (body.clientWidth < clientWidth) { body.style.overflow = 'hidden'; } // This should be applied after the manipulation to the body, because // adding a scrollbar can potentially resize it, causing the measurement // to change. if (hasVerticalScrollbar) { documentElement.style.overflowY = 'scroll'; } return function restoreScroll() { // Reset the inline style CSS to the previous. body.style.cssText = prevBodyStyle; documentElement.style.cssText = prevDocumentStyle; // The body loses its scroll position while being fixed. body.scrollTop = viewportTop; }; } }, enableScrolling: function() { var restoreFn = this.disableScrollAround._restoreScroll; restoreFn && restoreFn(); }, floatingScrollbars: function() { if (this.floatingScrollbars.cached === undefined) { var tempNode = angular.element('<div><div></div></div>').css({ width: '100%', 'z-index': -1, position: 'absolute', height: '35px', 'overflow-y': 'scroll' }); tempNode.children().css('height', '60px'); $document[0].body.appendChild(tempNode[0]); this.floatingScrollbars.cached = (tempNode[0].offsetWidth == tempNode[0].childNodes[0].offsetWidth); tempNode.remove(); } return this.floatingScrollbars.cached; }, // Mobile safari only allows you to set focus in click event listeners... forceFocus: function(element) { var node = element[0] || element; document.addEventListener('click', function focusOnClick(ev) { if (ev.target === node && ev.$focus) { node.focus(); ev.stopImmediatePropagation(); ev.preventDefault(); node.removeEventListener('click', focusOnClick); } }, true); var newEvent = document.createEvent('MouseEvents'); newEvent.initMouseEvent('click', false, true, window, {}, 0, 0, 0, 0, false, false, false, false, 0, null); newEvent.$material = true; newEvent.$focus = true; node.dispatchEvent(newEvent); }, /** * facade to build md-backdrop element with desired styles * NOTE: Use $compile to trigger backdrop postLink function */ createBackdrop: function(scope, addClass) { return $compile($mdUtil.supplant('<md-backdrop class="{0}">', [addClass]))(scope); }, /** * supplant() method from Crockford's `Remedial Javascript` * Equivalent to use of $interpolate; without dependency on * interpolation symbols and scope. Note: the '{<token>}' can * be property names, property chains, or array indices. */ supplant: function(template, values, pattern) { pattern = pattern || /\{([^\{\}]*)\}/g; return template.replace(pattern, function(a, b) { var p = b.split('.'), r = values; try { for (var s in p) { if (p.hasOwnProperty(s) ) { r = r[p[s]]; } } } catch (e) { r = a; } return (typeof r === 'string' || typeof r === 'number') ? r : a; }); }, fakeNgModel: function() { return { $fake: true, $setTouched: angular.noop, $setViewValue: function(value) { this.$viewValue = value; this.$render(value); this.$viewChangeListeners.forEach(function(cb) { cb(); }); }, $isEmpty: function(value) { return ('' + value).length === 0; }, $parsers: [], $formatters: [], $viewChangeListeners: [], $render: angular.noop }; }, // Returns a function, that, as long as it continues to be invoked, will not // be triggered. The function will be called after it stops being called for // N milliseconds. // @param wait Integer value of msecs to delay (since last debounce reset); default value 10 msecs // @param invokeApply should the $timeout trigger $digest() dirty checking debounce: function(func, wait, scope, invokeApply) { var timer; return function debounced() { var context = scope, args = Array.prototype.slice.call(arguments); $timeout.cancel(timer); timer = $timeout(function() { timer = undefined; func.apply(context, args); }, wait || 10, invokeApply); }; }, // Returns a function that can only be triggered every `delay` milliseconds. // In other words, the function will not be called unless it has been more // than `delay` milliseconds since the last call. throttle: function throttle(func, delay) { var recent; return function throttled() { var context = this; var args = arguments; var now = $mdUtil.now(); if (!recent || (now - recent > delay)) { func.apply(context, args); recent = now; } }; }, /** * Measures the number of milliseconds taken to run the provided callback * function. Uses a high-precision timer if available. */ time: function time(cb) { var start = $mdUtil.now(); cb(); return $mdUtil.now() - start; }, /** * Create an implicit getter that caches its `getter()` * lookup value */ valueOnUse : function (scope, key, getter) { var value = null, args = Array.prototype.slice.call(arguments); var params = (args.length > 3) ? args.slice(3) : [ ]; Object.defineProperty(scope, key, { get: function () { if (value === null) value = getter.apply(scope, params); return value; } }); }, /** * Get a unique ID. * * @returns {string} an unique numeric string */ nextUid: function() { return '' + nextUniqueId++; }, // Stop watchers and events from firing on a scope without destroying it, // by disconnecting it from its parent and its siblings' linked lists. disconnectScope: function disconnectScope(scope) { if (!scope) return; // we can't destroy the root scope or a scope that has been already destroyed if (scope.$root === scope) return; if (scope.$$destroyed) return; var parent = scope.$parent; scope.$$disconnected = true; // See Scope.$destroy if (parent.$$childHead === scope) parent.$$childHead = scope.$$nextSibling; if (parent.$$childTail === scope) parent.$$childTail = scope.$$prevSibling; if (scope.$$prevSibling) scope.$$prevSibling.$$nextSibling = scope.$$nextSibling; if (scope.$$nextSibling) scope.$$nextSibling.$$prevSibling = scope.$$prevSibling; scope.$$nextSibling = scope.$$prevSibling = null; }, // Undo the effects of disconnectScope above. reconnectScope: function reconnectScope(scope) { if (!scope) return; // we can't disconnect the root node or scope already disconnected if (scope.$root === scope) return; if (!scope.$$disconnected) return; var child = scope; var parent = child.$parent; child.$$disconnected = false; // See Scope.$new for this logic... child.$$prevSibling = parent.$$childTail; if (parent.$$childHead) { parent.$$childTail.$$nextSibling = child; parent.$$childTail = child; } else { parent.$$childHead = parent.$$childTail = child; } }, /* * getClosest replicates jQuery.closest() to walk up the DOM tree until it finds a matching nodeName * * @param el Element to start walking the DOM from * @param check Either a string or a function. If a string is passed, it will be evaluated against * each of the parent nodes' tag name. If a function is passed, the loop will call it with each of * the parents and will use the return value to determine whether the node is a match. * @param onlyParent Only start checking from the parent element, not `el`. */ getClosest: function getClosest(el, validateWith, onlyParent) { if ( angular.isString(validateWith) ) { var tagName = validateWith.toUpperCase(); validateWith = function(el) { return el.nodeName.toUpperCase() === tagName; }; } if (el instanceof angular.element) el = el[0]; if (onlyParent) el = el.parentNode; if (!el) return null; do { if (validateWith(el)) { return el; } } while (el = el.parentNode); return null; }, /** * Build polyfill for the Node.contains feature (if needed) */ elementContains: function(node, child) { var hasContains = (window.Node && window.Node.prototype && Node.prototype.contains); var findFn = hasContains ? angular.bind(node, node.contains) : angular.bind(node, function(arg) { // compares the positions of two nodes and returns a bitmask return (node === child) || !!(this.compareDocumentPosition(arg) & 16) }); return findFn(child); }, /** * Functional equivalent for $element.filter(‘md-bottom-sheet’) * useful with interimElements where the element and its container are important... * * @param {[]} elements to scan * @param {string} name of node to find (e.g. 'md-dialog') * @param {boolean=} optional flag to allow deep scans; defaults to 'false'. * @param {boolean=} optional flag to enable log warnings; defaults to false */ extractElementByName: function(element, nodeName, scanDeep, warnNotFound) { var found = scanTree(element); if (!found && !!warnNotFound) { $log.warn( $mdUtil.supplant("Unable to find node '{0}' in element '{1}'.",[nodeName, element[0].outerHTML]) ); } return angular.element(found || element); /** * Breadth-First tree scan for element with matching `nodeName` */ function scanTree(element) { return scanLevel(element) || (!!scanDeep ? scanChildren(element) : null); } /** * Case-insensitive scan of current elements only (do not descend). */ function scanLevel(element) { if ( element ) { for (var i = 0, len = element.length; i < len; i++) { if (element[i].nodeName.toLowerCase() === nodeName) { return element[i]; } } } return null; } /** * Scan children of specified node */ function scanChildren(element) { var found; if ( element ) { for (var i = 0, len = element.length; i < len; i++) { var target = element[i]; if ( !found ) { for (var j = 0, numChild = target.childNodes.length; j < numChild; j++) { found = found || scanTree([target.childNodes[j]]); } } } } return found; } }, /** * Give optional properties with no value a boolean true if attr provided or false otherwise */ initOptionalProperties: function(scope, attr, defaults) { defaults = defaults || {}; angular.forEach(scope.$$isolateBindings, function(binding, key) { if (binding.optional && angular.isUndefined(scope[key])) { var attrIsDefined = angular.isDefined(attr[binding.attrName]); scope[key] = angular.isDefined(defaults[key]) ? defaults[key] : attrIsDefined; } }); }, /** * Alternative to $timeout calls with 0 delay. * nextTick() coalesces all calls within a single frame * to minimize $digest thrashing * * @param callback * @param digest * @returns {*} */ nextTick: function(callback, digest, scope) { //-- grab function reference for storing state details var nextTick = $mdUtil.nextTick; var timeout = nextTick.timeout; var queue = nextTick.queue || []; //-- add callback to the queue queue.push({scope: scope, callback: callback}); //-- set default value for digest if (digest == null) digest = true; //-- store updated digest/queue values nextTick.digest = nextTick.digest || digest; nextTick.queue = queue; //-- either return existing timeout or create a new one return timeout || (nextTick.timeout = $timeout(processQueue, 0, false)); /** * Grab a copy of the current queue * Clear the queue for future use * Process the existing queue * Trigger digest if necessary */ function processQueue() { var queue = nextTick.queue; var digest = nextTick.digest; nextTick.queue = []; nextTick.timeout = null; nextTick.digest = false; queue.forEach(function(queueItem) { var skip = queueItem.scope && queueItem.scope.$$destroyed; if (!skip) { queueItem.callback(); } }); if (digest) $rootScope.$digest(); } }, /** * Processes a template and replaces the start/end symbols if the application has * overriden them. * * @param template The template to process whose start/end tags may be replaced. * @returns {*} */ processTemplate: function(template) { if (usesStandardSymbols) { return template; } else { if (!template || !angular.isString(template)) return template; return template.replace(/\{\{/g, startSymbol).replace(/}}/g, endSymbol); } }, /** * Scan up dom hierarchy for enabled parent; */ getParentWithPointerEvents: function (element) { var parent = element.parent(); // jqLite might return a non-null, but still empty, parent; so check for parent and length while (hasComputedStyle(parent, 'pointer-events', 'none')) { parent = parent.parent(); } return parent; }, getNearestContentElement: function (element) { var current = element.parent()[0]; // Look for the nearest parent md-content, stopping at the rootElement. while (current && current !== $rootElement[0] && current !== document.body && current.nodeName.toUpperCase() !== 'MD-CONTENT') { current = current.parentNode; } return current; }, /** * Checks if the current browser is natively supporting the `sticky` position. * @returns {string} supported sticky property name */ checkStickySupport: function() { var stickyProp; var testEl = angular.element('<div>'); $document[0].body.appendChild(testEl[0]); var stickyProps = ['sticky', '-webkit-sticky']; for (var i = 0; i < stickyProps.length; ++i) { testEl.css({ position: stickyProps[i], top: 0, 'z-index': 2 }); if (testEl.css('position') == stickyProps[i]) { stickyProp = stickyProps[i]; break; } } testEl.remove(); return stickyProp; }, /** * Parses an attribute value, mostly a string. * By default checks for negated values and returns `false´ if present. * Negated values are: (native falsy) and negative strings like: * `false` or `0`. * @param value Attribute value which should be parsed. * @param negatedCheck When set to false, won't check for negated values. * @returns {boolean} */ parseAttributeBoolean: function(value, negatedCheck) { return value === '' || !!value && (negatedCheck === false || value !== 'false' && value !== '0'); }, hasComputedStyle: hasComputedStyle, /** * Returns true if the parent form of the element has been submitted. * * @param element An AngularJS or HTML5 element. * * @returns {boolean} */ isParentFormSubmitted: function(element) { var parent = $mdUtil.getClosest(element, 'form'); var form = parent ? angular.element(parent).controller('form') : null; return form ? form.$submitted : false; }, /** * Animate the requested element's scrollTop to the requested scrollPosition with basic easing. * * @param {!HTMLElement} element The element to scroll. * @param {number} scrollEnd The new/final scroll position. * @param {number=} duration Duration of the scroll. Default is 1000ms. */ animateScrollTo: function(element, scrollEnd, duration) { var scrollStart = element.scrollTop; var scrollChange = scrollEnd - scrollStart; var scrollingDown = scrollStart < scrollEnd; var startTime = $mdUtil.now(); $$rAF(scrollChunk); function scrollChunk() { var newPosition = calculateNewPosition(); element.scrollTop = newPosition; if (scrollingDown ? newPosition < scrollEnd : newPosition > scrollEnd) { $$rAF(scrollChunk); } } function calculateNewPosition() { var easeDuration = duration || 1000; var currentTime = $mdUtil.now() - startTime; return ease(currentTime, scrollStart, scrollChange, easeDuration); } function ease(currentTime, start, change, duration) { // If the duration has passed (which can occur if our app loses focus due to $$rAF), jump // straight to the proper position if (currentTime > duration) { return start + change; } var ts = (currentTime /= duration) * currentTime; var tc = ts * currentTime; return start + change * (-2 * tc + 3 * ts); } }, /** * Provides an easy mechanism for removing duplicates from an array. * * var myArray = [1, 2, 2, 3, 3, 3, 4, 4, 4, 4]; * * $mdUtil.uniq(myArray) => [1, 2, 3, 4] * * @param {array} array The array whose unique values should be returned. * * @returns {array} A copy of the array containing only unique values. */ uniq: function(array) { if (!array) { return; } return array.filter(function(value, index, self) { return self.indexOf(value) === index; }); } }; // Instantiate other namespace utility methods $mdUtil.dom.animator = $$mdAnimate($mdUtil); return $mdUtil; function getNode(el) { return el[0] || el; } } /* * Since removing jQuery from the demos, some code that uses `element.focus()` is broken. * We need to add `element.focus()`, because it's testable unlike `element[0].focus`. */ angular.element.prototype.focus = angular.element.prototype.focus || function() { if (this.length) { this[0].focus(); } return this; }; angular.element.prototype.blur = angular.element.prototype.blur || function() { if (this.length) { this[0].blur(); } return this; };
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var assert = require('chai').assert; var webdriver = require('selenium-webdriver'); var test = require('selenium-webdriver/testing'); test.describe("user forgets to enter necessary info for foods", function(){ var driver; this.timeout(10000); test.beforeEach(function() { driver = new webdriver.Builder() .forBrowser('firefox') .build(); }); test.afterEach(function() { driver.get('http://localhost:8080/foods.html'); driver.executeScript('window.localStorage.clear()'); driver.quit(); }); test.it("user forgets to enter calories", function() { driver.get("http://localhost:8080/foods.html"); var name = driver.findElement({id: 'name-field'}); var calories = driver.findElement({id: 'calorie-field'}); var submitButton = driver.findElement({id: 'food-submit'}); name.sendKeys('Sandwich'); name.getAttribute('value').then(function(value) { assert.equal(value, "Sandwich"); }); submitButton.click(); driver.findElement({id: 'alert-message'}).getText().then(function(textValue) { assert.include(textValue, 'Please enter a calorie amount'); }); driver.findElement({css: 'table'}).getText().then(function(textValue) { assert.notInclude(textValue, 'Sandwich'); }); }); test.it("user forgets to enter food name", function() { driver.get("http://localhost:8080/foods.html"); var name = driver.findElement({id: 'name-field'}); var calories = driver.findElement({id: 'calorie-field'}); var submitButton = driver.findElement({id: 'food-submit'}); calories.sendKeys('100'); calories.getAttribute('value').then(function(value) { assert.equal(value, "100"); }); submitButton.click(); driver.findElement({id: 'alert-message'}).getText().then(function(textValue) { assert.include(textValue, 'Please enter a food name'); }); driver.findElement({css: 'table'}).getText().then(function(textValue) { assert.notInclude(textValue, '100'); }); }); });
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class ChangeCommentThreadsScopeToForum < ActiveRecord::Migration[5.0] def change add_reference :comment_threads, :forum, foreign_key: true reversible do |dir| dir.up do Case.find_each do |c| forum = Forum.create(case: c, community: nil) CommentThread.joins(:card) .where(cards: { case_id: c.id }, group_id: nil) .update_all forum_id: forum.id end end dir.down {} end remove_reference :comment_threads, :group, foreign_key: true end end
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using System; using System.Collections; using System.Web; namespace FluentSecurity.ServiceLocation.LifeCycles { internal class HttpSessionLifecycle : ILifecycle { public const string CacheKey = "FluentSecurity-HttpSessionCache"; public static Func<bool> HasSessionResolver; public static Func<IDictionary> DictionaryResolver; public HttpSessionLifecycle() { HasSessionResolver = () => HttpContext.Current != null && HttpContext.Current.Session != null; DictionaryResolver = () => new SessionWrapper(new HttpSessionStateWrapper(HttpContext.Current.Session)); } public IObjectCache FindCache() { var items = FindHttpDictionary(); if (!items.Contains(CacheKey)) { lock (items.SyncRoot) { if (!items.Contains(CacheKey)) { var cache = new ObjectCache(); items.Add(CacheKey, cache); return cache; } } } return (ObjectCache)items[CacheKey]; } public bool HasSession() { return HasSessionResolver.Invoke(); } private IDictionary FindHttpDictionary() { if (!HasSession()) throw new InvalidOperationException("HttpContext.Current.Session is not available."); return DictionaryResolver.Invoke(); } // Based on the Structuremap SessionWrapper. // https://github.com/structuremap/structuremap/blob/master/Source/StructureMap/Pipeline/SessionWrapper.cs private class SessionWrapper : IDictionary { private readonly HttpSessionStateBase _session; public SessionWrapper(HttpSessionStateBase session) { _session = session; } #region IDictionary Members IEnumerator IEnumerable.GetEnumerator() { return GetEnumerator(); } public void CopyTo(Array array, int index) { _session.CopyTo(array, index); } public int Count { get { return _session.Count; } } public object SyncRoot { get { return _session.SyncRoot; } } public bool IsSynchronized { get { return _session.IsSynchronized; } } public bool Contains(object key) { return _session[key.ToString()] != null; } public void Add(object key, object value) { _session.Add(key.ToString(), value); } public void Clear() { _session.Clear(); } public IDictionaryEnumerator GetEnumerator() { throw new NotImplementedException("Not supported by SessionWrapper."); } public void Remove(object key) { _session.Remove(key.ToString()); } public object this[object key] { get { return _session[key.ToString()]; } set { _session[key.ToString()] = value; } } public ICollection Keys { get { return _session.Keys; } } public ICollection Values { get { throw new NotImplementedException("Not supported by SessionWrapper."); } } public bool IsReadOnly { get { return _session.IsReadOnly; } } public bool IsFixedSize { get { return false; } } #endregion } } }
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#include <gtest/gtest.h> #include <uavcan/Timestamp.hpp> TEST(DsdlConst2, Timestamp) { using uavcan::Timestamp; std::cout << &Timestamp::UNKNOWN << std::endl; }
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// Copyright (c) Microsoft. All Rights Reserved. Licensed under the Apache License, Version 2.0. See License.txt in the project root for license information. using System.Threading.Tasks; using Microsoft.CodeAnalysis.CodeFixes; using Microsoft.CodeAnalysis.CSharp; using Microsoft.CodeAnalysis.CSharp.Test.Utilities; using Microsoft.CodeAnalysis.Diagnostics; using Microsoft.CodeAnalysis.Editor.CSharp.UseAutoProperty; using Roslyn.Test.Utilities; using Xunit; namespace Microsoft.CodeAnalysis.Editor.CSharp.UnitTests.Diagnostics.UseAutoProperty { public class UseAutoPropertyTests : AbstractCSharpDiagnosticProviderBasedUserDiagnosticTest { internal override (DiagnosticAnalyzer, CodeFixProvider) CreateDiagnosticProviderAndFixer(Workspace workspace) => (new CSharpUseAutoPropertyAnalyzer(), new CSharpUseAutoPropertyCodeFixProvider()); [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleGetterFromField() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestCSharp5_1() { await TestAsync( @"class Class { [|int i|]; public int P { get { return i; } } }", @"class Class { public int P { get; private set; } }", CSharpParseOptions.Default.WithLanguageVersion(LanguageVersion.CSharp5)); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestCSharp5_2() { await TestMissingAsync( @"class Class { [|readonly int i|]; int P { get { return i; } } }", new TestParameters(CSharpParseOptions.Default.WithLanguageVersion(LanguageVersion.CSharp5))); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestInitializer() { await TestInRegularAndScriptAsync( @"class Class { [|int i = 1|]; int P { get { return i; } } }", @"class Class { int P { get; } = 1; }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestInitializer_CSharp5() { await TestMissingAsync( @"class Class { [|int i = 1|]; int P { get { return i; } } }", new TestParameters(CSharpParseOptions.Default.WithLanguageVersion(LanguageVersion.CSharp5))); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleGetterFromProperty() { await TestInRegularAndScriptAsync( @"class Class { int i; [|int P { get { return i; } }|] }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleSetter() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { set { i = value; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestGetterAndSetter() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } set { i = value; } } }", @"class Class { int P { get; set; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleGetterWithThis() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return this.i; } } }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleSetterWithThis() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { set { this.i = value; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestGetterAndSetterWithThis() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return this.i; } set { this.i = value; } } }", @"class Class { int P { get; set; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestGetterWithMutipleStatements() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { ; return i; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSetterWithMutipleStatements() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { set { ; i = value; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSetterWithMultipleStatementsAndGetterWithSingleStatement() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } set { ; i = value; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestGetterAndSetterUseDifferentFields() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int j; int P { get { return i; } set { j = value; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldAndPropertyHaveDifferentStaticInstance() { await TestMissingInRegularAndScriptAsync( @"class Class { [|static int i|]; int P { get { return i; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldUseInRefArgument1() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } void M(ref int x) { M(ref i); } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldUseInRefArgument2() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } void M(ref int x) { M(ref this.i); } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldUseInOutArgument() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } void M(out x) { M(out i); } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestNotWithVirtualProperty() { await TestMissingInRegularAndScriptAsync( @"class Class { [|int i|]; public virtual int P { get { return i; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestNotWithConstField() { await TestMissingInRegularAndScriptAsync( @"class Class { [|const int i|]; int P { get { return i; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldWithMultipleDeclarators1() { await TestInRegularAndScriptAsync( @"class Class { int [|i|], j, k; int P { get { return i; } } }", @"class Class { int j, k; int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldWithMultipleDeclarators2() { await TestInRegularAndScriptAsync( @"class Class { int i, [|j|], k; int P { get { return j; } } }", @"class Class { int i, k; int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldWithMultipleDeclarators3() { await TestInRegularAndScriptAsync( @"class Class { int i, j, [|k|]; int P { get { return k; } } }", @"class Class { int i, j; int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFieldAndPropertyInDifferentParts() { await TestInRegularAndScriptAsync( @"partial class Class { [|int i|]; } partial class Class { int P { get { return i; } } }", @"partial class Class { } partial class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestNotWithFieldWithAttribute() { await TestMissingInRegularAndScriptAsync( @"class Class { [|[A] int i|]; int P { get { return i; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestUpdateReferences() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } public Class() { i = 1; } }", @"class Class { int P { get; } public Class() { P = 1; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestUpdateReferencesConflictResolution() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } public Class(int P) { i = 1; } }", @"class Class { int P { get; } public Class(int P) { this.P = 1; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestWriteInConstructor() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } public Class() { i = 1; } }", @"class Class { int P { get; } public Class() { P = 1; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestWriteInNotInConstructor1() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } public void Goo() { i = 1; } }", @"class Class { int P { get; set; } public void Goo() { P = 1; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestWriteInNotInConstructor2() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; public int P { get { return i; } } public void Goo() { i = 1; } }", @"class Class { public int P { get; private set; } public void Goo() { P = 1; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestAlreadyAutoPropertyWithGetterWithNoBody() { await TestMissingInRegularAndScriptAsync( @"class Class { public int [|P|] { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestAlreadyAutoPropertyWithGetterAndSetterWithNoBody() { await TestMissingInRegularAndScriptAsync( @"class Class { public int [|P|] { get; set; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleLine1() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleLine2() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } } }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestSingleLine3() { await TestInRegularAndScriptAsync( @"class Class { [|int i|]; int P { get { return i; } set { i = value; } } }", @"class Class { int P { get; set; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task Tuple_SingleGetterFromField() { await TestInRegularAndScriptAsync( @"class Class { [|(int, string) i|]; (int, string) P { get { return i; } } }", @"class Class { (int, string) P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TupleWithNames_SingleGetterFromField() { await TestInRegularAndScriptAsync( @"class Class { [|(int a, string b) i|]; (int a, string b) P { get { return i; } } }", @"class Class { (int a, string b) P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TupleWithDifferentNames_SingleGetterFromField() { await TestMissingInRegularAndScriptAsync( @"class Class { [|(int a, string b) i|]; (int c, string d) P { get { return i; } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TupleWithOneName_SingleGetterFromField() { await TestInRegularAndScriptAsync( @"class Class { [|(int a, string) i|]; (int a, string) P { get { return i; } } }", @"class Class { (int a, string) P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task Tuple_Initializer() { await TestInRegularAndScriptAsync( @"class Class { [|(int, string) i = (1, ""hello"")|]; (int, string) P { get { return i; } } }", @"class Class { (int, string) P { get; } = (1, ""hello""); }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task Tuple_GetterAndSetter() { await TestInRegularAndScriptAsync( @"class Class { [|(int, string) i|]; (int, string) P { get { return i; } set { i = value; } } }", @"class Class { (int, string) P { get; set; } }"); } [WorkItem(23215, "https://github.com/dotnet/roslyn/issues/23215")] [WorkItem(23216, "https://github.com/dotnet/roslyn/issues/23216")] [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task TestFixAllInDocument() { await TestInRegularAndScriptAsync( @"class Class { {|FixAllInDocument:int i|}; int P { get { return i; } } int j; int Q { get { return j; } } }", @"class Class { int P { get; } int Q { get; } }", fixAllActionEquivalenceKey: FeaturesResources.Use_auto_property); } [WorkItem(23735, "https://github.com/dotnet/roslyn/issues/23735")] [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExplicitInterfaceImplementationGetterOnly() { await TestMissingInRegularAndScriptAsync(@" namespace RoslynSandbox { public interface IFoo { object Bar { get; } } class Foo : IFoo { public Foo(object bar) { this.bar = bar; } readonly object [|bar|]; object IFoo.Bar { get { return bar; } } } }"); } [WorkItem(23735, "https://github.com/dotnet/roslyn/issues/23735")] [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExplicitInterfaceImplementationGetterAndSetter() { await TestMissingInRegularAndScriptAsync(@" namespace RoslynSandbox { public interface IFoo { object Bar { get; set; } } class Foo : IFoo { public Foo(object bar) { this.bar = bar; } object [|bar|]; object IFoo.Bar { get { return bar; } set { bar = value; } } } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetOnly() { await TestInRegularAndScriptAsync( @"class Class { int [|i|]; int P { get => i; } }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetOnlyWithInitializer() { await TestInRegularAndScriptAsync( @"class Class { int [|i|] = 1; int P { get => i; } }", @"class Class { int P { get; } = 1; }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetOnlyWithInitializerAndNeedsSetter() { await TestInRegularAndScriptAsync( @"class Class { int [|i|] = 1; int P { get => i; } void M() { i = 2; } }", @"class Class { int P { get; set; } = 1; void M() { P = 2; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetterAndSetter() { await TestInRegularAndScriptAsync( @"class Class { int [|i|]; int P { get => i; set { i = value; } } }", @"class Class { int P { get; set; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetter() { await TestInRegularAndScriptAsync( @"class Class { int [|i|]; int P => i; }", @"class Class { int P { get; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetterWithSetterNeeded() { await TestInRegularAndScriptAsync( @"class Class { int [|i|]; int P => i; void M() { i = 1; } }", @"class Class { int P { get; set; } void M() { P = 1; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedMemberGetterWithInitializer() { await TestInRegularAndScriptAsync( @"class Class { int [|i|] = 1; int P => i; }", @"class Class { int P { get; } = 1; }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedGetterAndSetter() { await TestInRegularAndScriptAsync( @"class Class { int [|i|]; int P { get => i; set => i = value; } }", @"class Class { int P { get; set; } }"); } [Fact, Trait(Traits.Feature, Traits.Features.CodeActionsUseAutoProperty)] public async Task ExpressionBodiedGetterAndSetterWithInitializer() { await TestInRegularAndScriptAsync( @"class Class { int [|i|] = 1; int P { get => i; set => i = value; } }", @"class Class { int P { get; set; } = 1; }"); } } }
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ACCEPTED #### According to Index Fungorum #### Published in null #### Original name Xylaria striata var. striata ### Remarks null
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<?php /** * Downloadable helper * * @category Mage * @package Mage_Downloadable * @author Magento Core Team <[email protected]> */ class Mage_Downloadable_Helper_Data extends Mage_Core_Helper_Abstract { /** * Check is link shareable or not * * @param Mage_Downloadable_Model_Link | Mage_Downloadable_Model_Link_Purchased_Item $link * @return bool */ public function getIsShareable($link) { $shareable = false; switch ($link->getIsShareable()) { case Mage_Downloadable_Model_Link::LINK_SHAREABLE_YES: case Mage_Downloadable_Model_Link::LINK_SHAREABLE_NO: $shareable = (bool) $link->getIsShareable(); break; case Mage_Downloadable_Model_Link::LINK_SHAREABLE_CONFIG: $shareable = (bool) Mage::getStoreConfigFlag(Mage_Downloadable_Model_Link::XML_PATH_CONFIG_IS_SHAREABLE); } return $shareable; } }
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namespace Mgc { // squared distance measurements MAGICFM Real SqrDistance (const Triangle3& rkTri, const Parallelogram3& rkPgm, Real* pfTriP0 = NULL, Real* pfTriP1 = NULL, Real* pfPgmP0 = NULL, Real* pfPgmP1 = NULL); // distance measurements MAGICFM Real Distance (const Triangle3& rkTri, const Parallelogram3& rkPgm, Real* pfTriP0 = NULL, Real* pfTriP1 = NULL, Real* pfPgmP0 = NULL, Real* pfPgmP1 = NULL); } // namespace Mgc #endif
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This is the (partially) documented public API for Homebrew. The main class you should look at is the {Formula} class (and classes linked from there). That's the class that's used to create Homebrew formulae (i.e. package descriptions). Assume anything else you stumble upon is private. You may also find the [Formula Cookbook](Formula-Cookbook.md) and [Ruby Style Guide](https://github.com/styleguide/ruby) helpful in creating formulae. Good luck!
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<?php use \yii\helpers\Html; use \yii\bootstrap\ActiveForm; /* @var $this yii\web\View */ /* @var $products common\models\Product[] */ ?> <div class="breadcrumb"> <div class="container"> <div class="breadcrumb-inner"> <ul class="list-inline list-unstyled"> <li><a href="#">Home</a></li> <li class='active'>Checkout</li> </ul> </div><!-- /.breadcrumb-inner --> </div><!-- /.container --> </div><!-- /.breadcrumb --> <div class="container"> <div class="row"> <div class="col-sm-12"> <br /> <br /> <br /> <ol class="list-inline text-center step-indicator"> <li class="incomplete"> <div class="step">1</div> <div class="caption hidden-xs hidden-sm">Step 1</div> </li> <li class="active"> <div class="step">2</div> <div class="caption hidden-xs hidden-sm">Step 2</div> </li> <li class="active"> <div class="step">3</div> <div class="caption hidden-xs hidden-sm">Step 3</div> </li> <li class="active"> <div class="step">4</div> <div class="caption hidden-xs hidden-sm">Step 4</div> </li> </ol> </div> </div> </div> <div class="body-content outer-top-bd"> <div class="container"> <div class="checkout-box inner-bottom-sm"> <div class="row"> <div class="col-md-8"> <div class="panel-group checkout-steps" id="accordion"> <!-- checkout-step-01 --> <div class="panel panel-default checkout-step-01"> <!-- panel-heading --> <div class="panel-heading"> <h4 class="unicase-checkout-title"> <a data-toggle="collapse" class="" data-parent="#accordion" href="#collapseOne"> <span>1</span>Checkout Method </a> </h4> </div> <!-- panel-heading --> <div id="collapseOne" class="panel-collapse collapse in"> <!-- panel-body --> <div class="panel-body"> <div class="row"> <!-- guest-login --> <div class="col-md-6 col-sm-6 guest-login"> <h4 class="checkout-subtitle">Checkout as a Guest or Register Login</h4> <p class="text title-tag-line">Register with us for future convenience:</p> <!-- radio-form --> <form class="register-form" role="form"> <div class="radio radio-checkout-unicase"> <input id="guest" type="radio" name="text" value="guest" checked> <label class="radio-button guest-check" for="guest">Checkout as Guest</label> <br> <input id="register" type="radio" name="text" value="register"> <label class="radio-button" for="register">Register</label> </div> </form> <!-- radio-form --> <h4 class="checkout-subtitle outer-top-vs">Register and save time</h4> <p class="text title-tag-line ">Register with us for future convenience:</p> <ul class="text instruction inner-bottom-30"> <li class="save-time-reg">- Fast and easy check out</li> <li>- Easy access to your order history and status</li> </ul> <button type="submit" class="btn-upper btn btn-primary checkout-page-button checkout-continue " onclick="location.href='sign-in.html';">Continue</button><!------------LOOPING----------> </div> <!-- guest-login --> <!-- already-registered-login --> <div class="col-md-6 col-sm-6 already-registered-login"> <h4 class="checkout-subtitle">Already registered?</h4> <p class="text title-tag-line">Please log in below:</p> <form class="register-form" role="form"> <div class="form-group"> <label class="info-title" for="exampleInputEmail1">Email Address <span>*</span></label> <input type="email" class="form-control unicase-form-control text-input" id="exampleInputEmail1" placeholder="[email protected]"> </div> <div class="form-group"> <label class="info-title" for="exampleInputPassword1">Password <span>*</span></label> <input type="password" class="form-control unicase-form-control text-input" id="exampleInputPassword1" placeholder="Password"> <a href="#" class="forgot-password">Forgot your Password?</a> </div> </form> <button type="submit" class="btn-upper btn btn-primary checkout-page-button checkout-continue " onclick="location.href='?r=site/checkaddress';">Login</button><!------------LOOPING----------> </div> <!-- already-registered-login --> </div> </div> <!-- panel-body --> </div><!-- row --> </div> <!-- checkout-step-01 --> <!-- checkout-step-02 --> </div><!-- /.checkout-steps --> </div> <div class="col-md-4"> <!-- checkout-progress-sidebar --> <div class="checkout-progress-sidebar "> <div class="panel-group"> <div class="panel panel-default"> <div class="panel-heading"> <h4 class="unicase-checkout-title">Your Checkout Progress</h4> </div> <div class="panel-body"> <div class="table-responsive"> <table class="table table-bordered"> <thead> <tr> <th class="cart-product-name-info">Product</th> <th class="cart-qty item">Quantity</th> <th class="cart-sub-total item">Price</th> </tr> </thead><!-- /thead --> <tbody> <tr> <td class="cart-product-name-info"> <div class="cart-product-info"> <span class="product-imel">IMEL:<span>084628312</span></span><br> <span class="product-color">COLOR:<span>White</span></span> </div> </td> <td> 2 </td> <td> 15.000.000 </td> </tr> </tbody> </table> </div> </div> </div> </div> </div> <!-- checkout-progress-sidebar --> </div> </div><!-- /.row --> </div><!-- /.checkout-box --> </div> </div>
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class Solution(object): def maxProfit(self, prices, fee): """ :type prices: List[int] :type fee: int :rtype: int """ hold, not_hold = None, 0 for p in prices: hold, not_hold = max(hold, not_hold - p - fee), max(not_hold, None if hold is None else hold + p) return max(hold, not_hold)
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package com.spotify.helios.master.resources; import static javax.ws.rs.core.MediaType.APPLICATION_JSON; import com.codahale.metrics.annotation.ExceptionMetered; import com.codahale.metrics.annotation.Timed; import com.spotify.helios.master.MasterModel; import java.util.List; import javax.ws.rs.GET; import javax.ws.rs.Path; import javax.ws.rs.Produces; @Path("/masters") public class MastersResource { private final MasterModel model; public MastersResource(final MasterModel model) { this.model = model; } /** * Returns a list of names of running Helios masters. * * @return The list of names. */ @GET @Produces(APPLICATION_JSON) @Timed @ExceptionMetered public List<String> list() { return model.getRunningMasters(); } }
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package com.virtualcoinclub.common; import java.util.Enumeration; import org.slf4j.Logger; import org.slf4j.LoggerFactory; import javax.servlet.http.HttpServletRequest; /** * <h1>Common Utilities for front and back end</h1> * * Created for convenience but more specifically to utilize the same * member provided string cleanup on the fron and back ends. This is * mainly to make sure that already-used member names are not reused, * but the functions themselves are to prevent SQL injection or other * abuse of the database. * <p> * * @author Eric Peterson * @version 1.0 * @since 2014-08-22 */ public class Utility { private static Logger logger = LoggerFactory.getLogger("Utility.class"); /** * Strips all special characters from the input. Prevents SQL * injection and keeps junk characters out of the database. * Prevent member from using unprintable or other characters that * could cause confusion when comparaing user names. * @param input String to be cleaned * @return String Cleaned string */ public static String stripSpecial(String input) { String cleaned = input.replaceAll("[^a-zA-Z0-9_ ]", ""); return cleaned; } /** * Turns all instances of more than one space into a single space. * This prevents members from creating names that are identical to * other names except for the number of spaces. * @param input String to be condensed * @return String Condensed string */ public static String condenseSpaces(String input) { String cleaned = input.replaceAll(" +", " "); return cleaned; } /** * Utility function to log HTTP requests * @param input String to be condensed * @return none */ public static void printRequest(String method, HttpServletRequest request) { Enumeration e = request.getParameterNames(); logger.info( "=== start === " + method + " request: " + request.getRequestURI()); while (e.hasMoreElements()) { String name = (String) e.nextElement(); String[] values = request.getParameterValues(name); if (values.length == 1) { logger.info( name + " : " + values[0]); } else { StringBuffer sb = new StringBuffer(); sb.append(name); sb.append(" : ["); for (String value: values) { sb.append(value + ","); } sb.append("]"); logger.info(sb.toString()); } } logger.info("=== end ==="); } }
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using System; class Fort { static void Main(string[] args) { int n = int.Parse(Console.ReadLine()); // Draw first line int towerLenght = n / 2; int betweenTowers = (2 * n) - (2 * towerLenght) - 4; string firstLine = "/" + new string('^', towerLenght) + "\\" + new string('_', betweenTowers) + "/" + new string('^', towerLenght) + "\\"; Console.WriteLine(firstLine); //Console.WriteLine("{0} {1}", firstLine, firstLine.Length); // Draw middle for (int row = 0; row < n - 3; row++) { string line = "|" + new string(' ', (2 * n) - 2) + "|"; Console.WriteLine(line); //Console.WriteLine("{0} {1}", line, line.Length); } // Draw second to last line string beforeLastLine = "|" + new string(' ', towerLenght + 1) + new string('_', betweenTowers) + new string(' ', towerLenght + 1) + "|"; Console.WriteLine(beforeLastLine); //Console.WriteLine("{0} {1}", beforeLastLine, beforeLastLine.Length); // Draw last line string lastLine = "\\" + new string('_', towerLenght) + "/" + new string(' ', betweenTowers) + "\\" + new string('_', towerLenght) + "/"; Console.WriteLine(lastLine); //Console.WriteLine("{0} {1}", lastLine, lastLine.Length); } }
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package org.locationtech.geomesa.convert.scripting import java.io.File import com.typesafe.config.ConfigFactory import org.junit.runner.RunWith import org.locationtech.geomesa.convert.{DefaultCounter, EvaluationContextImpl, SimpleFeatureConverters} import org.locationtech.geomesa.utils.geotools.SimpleFeatureTypes import org.specs2.mutable.Specification import org.specs2.runner.JUnitRunner @RunWith(classOf[JUnitRunner]) class ScriptingFunctionFactoryTest extends Specification { sequential val srctestresourcesdir = new File(ClassLoader.getSystemResource("geomesa-convert-scripts/hello.js").toURI) val parent = srctestresourcesdir.getParentFile.getParentFile.getParentFile.getParent val staticPaths = Seq( s"$parent/src/test/static", // directory s"$parent/src/test/static2", // directory that doesn't exist s"$parent/src/test/static3/whatsup.js", // file that exists s"$parent/src/test/static3/random.js" // file that doesnt exists ) val path = staticPaths.mkString(":") System.setProperty("geomesa.convert.scripts.path", path) "ScriptingFunctionFactory " should { val sff = new ScriptingFunctionFactory "load functions" >> { sff.functions.flatMap(_.names) must contain("js:hello") } "execute functions" >> { implicit val ec = new EvaluationContextImpl(IndexedSeq.empty[String], Array.empty[Any], new DefaultCounter, Map.empty) val fn = sff.functions.find(_.names.contains("js:hello")).head val res = fn.eval(Array("geomesa")) res must beEqualTo("hello: geomesa") } "work in a transformer" >> { val data = """ |1,hello,45.0,45.0 |2,world,90.0,90.0 |willfail,hello """.stripMargin val conf = ConfigFactory.parseString( """ | { | type = "delimited-text", | format = "DEFAULT", | id-field = "md5(string2bytes($0))", | fields = [ | { name = "oneup", transform = "$1::string" }, | { name = "phrase", transform = "js:hello($2)" }, | { name = "gbye", transform = "js:gbye($2)" }, | { name = "whatsup", transform = "js:whatsup($2)" }, | { name = "lat", transform = "$3::double" }, | { name = "lon", transform = "$4::double" }, | { name = "lit", transform = "'hello'" }, | { name = "geom", transform = "point($lat, $lon)" } | { name = "l1", transform = "concat($lit, $lit)" } | { name = "l2", transform = "concat($l1, $lit)" } | { name = "l3", transform = "concat($l2, $lit)" } | ] | } """.stripMargin) val sft = SimpleFeatureTypes.createType( ConfigFactory.parseString( """ |{ | type-name = "testsft" | attributes = [ | { name = "oneup", type = "String", index = false }, | { name = "phrase", type = "String", index = false }, | { name = "gbye", type = "String", index = false }, | { name = "whatsup", type = "String", index = false }, | { name = "lineNr", type = "Int", index = false }, | { name = "fn", type = "String", index = false }, | { name = "lat", type = "Double", index = false }, | { name = "lon", type = "Double", index = false }, | { name = "lit", type = "String", index = false }, | { name = "geom", type = "Point", index = true, srid = 4326, default = true } | ] |} """.stripMargin )) val converter = SimpleFeatureConverters.build[String](sft, conf) val res = converter.processInput(data.split("\n").toIterator.filterNot( s => "^\\s*$".r.findFirstIn(s).isDefined)).toList converter.close() "and process some data" >> { res.size must be equalTo 2 res(0).getAttribute("phrase").asInstanceOf[String] must be equalTo "hello: hello" res(0).getAttribute("gbye").asInstanceOf[String] must be equalTo "goodbye: hello" res(0).getAttribute("whatsup").asInstanceOf[String] must be equalTo "whatsup: hello" res(1).getAttribute("phrase").asInstanceOf[String] must be equalTo "hello: world" } } } }
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var async = require('async'); var concurrencyCount = 0; var fetchUrl = function(url, callback){ var delay = parseInt(111); concurrencyCount++; console.log('async num is ', concurrencyCount, 'now fetching', url, 'used' + delay + 'ms'); setTimeout(function(){ concurrencyCount--; callback(null, url + ' html content'); }, delay); }; var urls = []; for(var i = 0; i < 30; i++){ urls.push('http://data_' + i); } async.mapLimit(urls, 5, function(url, callback){ fetchUrl(url, callback); }, function(err, result){ console.log('final:'); console.log(result); });
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<?php namespace Anomaly\RepeaterFieldType\Command; use Anomaly\RepeaterFieldType\RepeaterFieldType; use Anomaly\Streams\Platform\Entry\Contract\EntryInterface; use Anomaly\Streams\Platform\Entry\EntryCollection; use Anomaly\Streams\Platform\Field\Contract\FieldInterface; use Anomaly\Streams\Platform\Field\Contract\FieldRepositoryInterface; use Anomaly\Streams\Platform\Ui\Form\Multiple\MultipleFormBuilder; /** * Class GetMultiformFromRelation * * @link http://pyrocms.com/ * @author PyroCMS, Inc. <[email protected]> * @author Ryan Thompson <[email protected]> */ class GetMultiformFromRelation { /** * The field type instance. * * @var RepeaterFieldType */ protected $fieldType; /** * Create a new GetMultiformFromRelation instance. * * @param RepeaterFieldType $fieldType */ public function __construct(RepeaterFieldType $fieldType) { $this->fieldType = $fieldType; } /** * Get the multiple form builder from the value. * * @param FieldRepositoryInterface $fields * @param MultipleFormBuilder $forms * @return MultipleFormBuilder|null */ public function handle(FieldRepositoryInterface $fields, MultipleFormBuilder $forms) { /* @var EntryCollection $value */ if (!$value = $this->fieldType->getValue()) { return null; } /* @var EntryInterface $entry */ foreach ($value as $instance => $entry) { /* @var FieldInterface $field */ if (!$field = $fields->find($this->fieldType->id())) { continue; } /* @var RepeaterFieldType $type */ $type = $field->getType(); $type->setPrefix($this->fieldType->getPrefix()); $form = $type->form($field, $instance)->setEntry($entry->getId()); $form->setReadOnly($this->fieldType->isReadOnly()); $forms->addForm($this->fieldType->getFieldName() . '_' . $instance, $form); } return $forms; } }
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<?php include (DIR_APPLICATION.'language/en-gb/extension/d_visual_designer_module/row.php');
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package extract import ( "archive/tar" "context" "fmt" "io" "math" "os" "path" "path/filepath" "regexp" "strconv" "strings" "github.com/golang/glog" "github.com/spf13/cobra" "github.com/docker/distribution" dockerarchive "github.com/docker/docker/pkg/archive" digest "github.com/opencontainers/go-digest" "k8s.io/client-go/rest" "k8s.io/kubernetes/pkg/kubectl/cmd/templates" kcmdutil "k8s.io/kubernetes/pkg/kubectl/cmd/util" "k8s.io/kubernetes/pkg/kubectl/genericclioptions" "github.com/openshift/origin/pkg/image/apis/image/docker10" imagereference "github.com/openshift/origin/pkg/image/apis/image/reference" "github.com/openshift/origin/pkg/image/registryclient" "github.com/openshift/origin/pkg/image/registryclient/dockercredentials" "github.com/openshift/origin/pkg/oc/cli/image/archive" imagemanifest "github.com/openshift/origin/pkg/oc/cli/image/manifest" "github.com/openshift/origin/pkg/oc/cli/image/workqueue" ) var ( desc = templates.LongDesc(` Extract the contents of an image to disk Download an image or parts of an image to the filesystem. Allows users to access the contents of images without requiring a container runtime engine running. Pass images to extract as arguments. The --paths flag allows you to define multiple source to destination directory mappings. The source section may be either a file, a directory (ends with a '/'), or a file pattern within a directory. The destination section is a directory to extract to. Both source and destination must be specified. If the specified image supports multiple operating systems, the image that matches the current operating system will be chosen. Otherwise you must pass --filter-by-os to select the desired image. You may further qualify the image by adding a layer selector to the end of the image string to only extract specific layers within an image. The supported selectors are: [<index>] - select the layer at the provided index (zero-indexed) [<from_index>,<to_index>] - select layers by index, exclusive [~<prefix>] - select the layer with the matching digest prefix or return an error Negative indices are counted from the end of the list, e.g. [-1] selects the last layer.`) example = templates.Examples(` # Extract the busybox image into the current directory %[1]s docker.io/library/busybox:latest # Extract the busybox image to a temp directory (must exist) %[1]s docker.io/library/busybox:latest --path /:/tmp/busybox # Extract a single file from the image into the current directory %[1]s docker.io/library/centos:7 --path /bin/bash:. # Extract all .repo files from the image's /etc/yum.repos.d/ folder. %[1]s docker.io/library/centos:7 --path /etc/yum.repos.d/*.repo:. # Extract the last layer in the image %[1]s docker.io/library/centos:7[-1] # Extract the first three layers of the image %[1]s docker.io/library/centos:7[:3] # Extract the last three layers of the image %[1]s docker.io/library/centos:7[-3:] `) ) type LayerInfo struct { Index int Descriptor distribution.Descriptor } // TarEntryFunc is called once per entry in the tar file. It may return // an error, or false to stop processing. type TarEntryFunc func(*tar.Header, LayerInfo, io.Reader) (cont bool, err error) type Options struct { Mappings []Mapping Paths []string OnlyFiles bool PreservePermissions bool FilterOptions imagemanifest.FilterOptions MaxPerRegistry int Confirm bool DryRun bool Insecure bool genericclioptions.IOStreams // ImageMetadataCallback is invoked once per image retrieved, and may be called in parallel if // MaxPerRegistry is set higher than 1. ImageMetadataCallback func(m *Mapping, dgst digest.Digest, imageConfig *docker10.DockerImageConfig) // TarEntryCallback, if set, is passed each entry in the viewed layers. Entries will be filtered // by name and only the entry in the highest layer will be passed to the callback. Returning false // will halt processing of the image. TarEntryCallback TarEntryFunc // AllLayers ensures the TarEntryCallback is invoked for all files, and will cause the callback // order to start at the lowest layer and work outwards. AllLayers bool } func NewOptions(streams genericclioptions.IOStreams) *Options { return &Options{ Paths: []string{"/:."}, IOStreams: streams, MaxPerRegistry: 1, } } // New creates a new command func New(name string, streams genericclioptions.IOStreams) *cobra.Command { o := NewOptions(streams) cmd := &cobra.Command{ Use: "extract", Short: "Copy files from an image to the filesystem", Long: desc, Example: fmt.Sprintf(example, name+" extract"), Run: func(c *cobra.Command, args []string) { kcmdutil.CheckErr(o.Complete(c, args)) kcmdutil.CheckErr(o.Run()) }, } flag := cmd.Flags() o.FilterOptions.Bind(flag) flag.BoolVar(&o.Confirm, "confirm", o.Confirm, "Pass to allow extracting to non-empty directories.") flag.BoolVar(&o.DryRun, "dry-run", o.DryRun, "Print the actions that would be taken and exit without writing any contents.") flag.BoolVar(&o.Insecure, "insecure", o.Insecure, "Allow pull operations to registries to be made over HTTP") flag.StringSliceVar(&o.Paths, "path", o.Paths, "Extract only part of an image. Must be SRC:DST where SRC is the path within the image and DST a local directory. If not specified the default is to extract everything to the current directory.") flag.BoolVarP(&o.PreservePermissions, "preserve-ownership", "p", o.PreservePermissions, "Preserve the permissions of extracted files.") flag.BoolVar(&o.OnlyFiles, "only-files", o.OnlyFiles, "Only extract regular files and directories from the image.") flag.BoolVar(&o.AllLayers, "all-layers", o.AllLayers, "For dry-run mode, process from lowest to highest layer and don't omit duplicate files.") return cmd } type LayerFilter interface { Filter(layers []distribution.Descriptor) ([]distribution.Descriptor, error) } type Mapping struct { // Name is provided for caller convenience for associating image callback metadata with a mapping Name string // Image is the raw input image to extract Image string // ImageRef is the parsed version of the raw input image ImageRef imagereference.DockerImageReference // LayerFilter can select which images to load LayerFilter LayerFilter // From is the directory or file in the image to extract From string // To is the directory to extract the contents of the directory or the named file into. To string // ConditionFn is invoked before extracting the content and allows the set of images to be filtered. ConditionFn func(m *Mapping, dgst digest.Digest, imageConfig *docker10.DockerImageConfig) (bool, error) } func parseMappings(images, paths []string, requireEmpty bool) ([]Mapping, error) { layerFilter := regexp.MustCompile(`^(.*)\[([^\]]*)\](.*)$`) var mappings []Mapping for _, image := range images { for _, arg := range paths { parts := strings.SplitN(arg, ":", 2) var mapping Mapping switch len(parts) { case 2: mapping = Mapping{Image: image, From: parts[0], To: parts[1]} default: return nil, fmt.Errorf("--paths must be of the form SRC:DST") } if matches := layerFilter.FindStringSubmatch(mapping.Image); len(matches) > 0 { if len(matches[1]) == 0 || len(matches[2]) == 0 || len(matches[3]) != 0 { return nil, fmt.Errorf("layer selectors must be of the form IMAGE[\\d:\\d]") } mapping.Image = matches[1] var err error mapping.LayerFilter, err = parseLayerFilter(matches[2]) if err != nil { return nil, err } } if len(mapping.From) > 0 { mapping.From = strings.TrimPrefix(mapping.From, "/") } if len(mapping.To) > 0 { fi, err := os.Stat(mapping.To) if os.IsNotExist(err) { return nil, fmt.Errorf("destination path does not exist: %s", mapping.To) } if err != nil { return nil, fmt.Errorf("invalid argument: %s", err) } if !fi.IsDir() { return nil, fmt.Errorf("invalid argument: %s is not a directory", arg) } if requireEmpty { f, err := os.Open(mapping.To) if err != nil { return nil, fmt.Errorf("unable to check directory: %v", err) } names, err := f.Readdirnames(1) f.Close() if err != nil && err != io.EOF { return nil, fmt.Errorf("could not check for empty directory: %v", err) } if len(names) > 0 { return nil, fmt.Errorf("directory %s must be empty, pass --confirm to overwrite contents of directory", mapping.To) } } } src, err := imagereference.Parse(mapping.Image) if err != nil { return nil, err } if len(src.Tag) == 0 && len(src.ID) == 0 { return nil, fmt.Errorf("source image must point to an image ID or image tag") } mapping.ImageRef = src mappings = append(mappings, mapping) } } return mappings, nil } func (o *Options) Complete(cmd *cobra.Command, args []string) error { if err := o.FilterOptions.Complete(cmd.Flags()); err != nil { return err } if len(args) == 0 { return fmt.Errorf("you must specify at least one image to extract as an argument") } var err error o.Mappings, err = parseMappings(args, o.Paths, !o.Confirm && !o.DryRun) if err != nil { return err } return nil } func (o *Options) Run() error { rt, err := rest.TransportFor(&rest.Config{}) if err != nil { return err } insecureRT, err := rest.TransportFor(&rest.Config{TLSClientConfig: rest.TLSClientConfig{Insecure: true}}) if err != nil { return err } creds := dockercredentials.NewLocal() ctx := context.Background() fromContext := registryclient.NewContext(rt, insecureRT).WithCredentials(creds) stopCh := make(chan struct{}) defer close(stopCh) q := workqueue.New(o.MaxPerRegistry, stopCh) return q.Try(func(q workqueue.Try) { for i := range o.Mappings { mapping := o.Mappings[i] from := mapping.ImageRef q.Try(func() error { repo, err := fromContext.Repository(ctx, from.DockerClientDefaults().RegistryURL(), from.RepositoryName(), o.Insecure) if err != nil { return fmt.Errorf("unable to connect to image repository %s: %v", from.Exact(), err) } srcManifest, srcDigest, location, err := imagemanifest.FirstManifest(ctx, from, repo, o.FilterOptions.Include) if err != nil { if imagemanifest.IsImageNotFound(err) { var msg string if len(o.Mappings) == 1 { msg = "image does not exist" } else { msg = fmt.Sprintf("image %q does not exist", from) } return imagemanifest.NewImageNotFound(msg, err) } return fmt.Errorf("unable to read image %s: %v", from, err) } imageConfig, layers, err := imagemanifest.ManifestToImageConfig(ctx, srcManifest, repo.Blobs(ctx), location) if err != nil { return fmt.Errorf("unable to parse image %s: %v", from, err) } if mapping.ConditionFn != nil { ok, err := mapping.ConditionFn(&mapping, srcDigest, imageConfig) if err != nil { return fmt.Errorf("unable to check whether to include image %s: %v", from, err) } if !ok { glog.V(2).Infof("Filtered out image %s with digest %s from being extracted", from, srcDigest) return nil } } var alter alterations if o.OnlyFiles { alter = append(alter, filesOnly{}) } if len(mapping.From) > 0 { switch { case strings.HasSuffix(mapping.From, "/"): alter = append(alter, newCopyFromDirectory(mapping.From)) default: name, parent := path.Base(mapping.From), path.Dir(mapping.From) if name == "." || parent == "." { return fmt.Errorf("unexpected directory from mapping %s", mapping.From) } alter = append(alter, newCopyFromPattern(parent, name)) } } filteredLayers := layers if mapping.LayerFilter != nil { filteredLayers, err = mapping.LayerFilter.Filter(filteredLayers) if err != nil { return fmt.Errorf("unable to filter layers for %s: %v", from, err) } } if !o.PreservePermissions { alter = append(alter, removePermissions{}) } var byEntry TarEntryFunc = o.TarEntryCallback if o.DryRun { path := mapping.To out := o.Out byEntry = func(hdr *tar.Header, layerInfo LayerInfo, r io.Reader) (bool, error) { if len(hdr.Name) == 0 { return true, nil } mode := hdr.FileInfo().Mode().String() switch hdr.Typeflag { case tar.TypeDir: fmt.Fprintf(out, "%2d %s %12d %s\n", layerInfo.Index, mode, hdr.Size, filepath.Join(path, hdr.Name)) case tar.TypeReg, tar.TypeRegA: fmt.Fprintf(out, "%2d %s %12d %s\n", layerInfo.Index, mode, hdr.Size, filepath.Join(path, hdr.Name)) case tar.TypeLink: fmt.Fprintf(out, "%2d %s %12d %s -> %s\n", layerInfo.Index, mode, hdr.Size, hdr.Name, filepath.Join(path, hdr.Linkname)) case tar.TypeSymlink: fmt.Fprintf(out, "%2d %s %12d %s -> %s\n", layerInfo.Index, mode, hdr.Size, hdr.Name, filepath.Join(path, hdr.Linkname)) default: fmt.Fprintf(out, "%2d %s %12d %s %x\n", layerInfo.Index, mode, hdr.Size, filepath.Join(path, hdr.Name), hdr.Typeflag) } return true, nil } } // walk the layers in reverse order, only showing a given path once alreadySeen := make(map[string]struct{}) var layerInfos []LayerInfo if byEntry != nil && !o.AllLayers { for i := len(filteredLayers) - 1; i >= 0; i-- { layerInfos = append(layerInfos, LayerInfo{Index: i, Descriptor: filteredLayers[i]}) } } else { for i := range filteredLayers { layerInfos = append(layerInfos, LayerInfo{Index: i, Descriptor: filteredLayers[i]}) } } for _, info := range layerInfos { layer := info.Descriptor cont, err := func() (bool, error) { fromBlobs := repo.Blobs(ctx) glog.V(5).Infof("Extracting from layer: %#v", layer) // source r, err := fromBlobs.Open(ctx, layer.Digest) if err != nil { return false, fmt.Errorf("unable to access the source layer %s: %v", layer.Digest, err) } defer r.Close() options := &archive.TarOptions{ AlterHeaders: alter, Chown: o.PreservePermissions, } if byEntry != nil { cont, err := layerByEntry(r, options, info, byEntry, o.AllLayers, alreadySeen) if err != nil { err = fmt.Errorf("unable to iterate over layer %s from %s: %v", layer.Digest, from.Exact(), err) } return cont, err } glog.V(4).Infof("Extracting layer %s with options %#v", layer.Digest, options) if _, err := archive.ApplyLayer(mapping.To, r, options); err != nil { return false, fmt.Errorf("unable to extract layer %s from %s: %v", layer.Digest, from.Exact(), err) } return true, nil }() if err != nil { return err } if !cont { break } } if o.ImageMetadataCallback != nil { o.ImageMetadataCallback(&mapping, srcDigest, imageConfig) } return nil }) } }) } func layerByEntry(r io.Reader, options *archive.TarOptions, layerInfo LayerInfo, fn TarEntryFunc, allLayers bool, alreadySeen map[string]struct{}) (bool, error) { rc, err := dockerarchive.DecompressStream(r) if err != nil { return false, err } defer rc.Close() tr := tar.NewReader(rc) for { hdr, err := tr.Next() if err != nil { if err == io.EOF { return true, nil } return false, err } glog.V(6).Infof("Printing layer entry %#v", hdr) if options.AlterHeaders != nil { ok, err := options.AlterHeaders.Alter(hdr) if err != nil { return false, err } if !ok { glog.V(5).Infof("Exclude entry %s %x %d", hdr.Name, hdr.Typeflag, hdr.Size) continue } } // prevent duplicates from being sent to the handler if _, ok := alreadySeen[hdr.Name]; ok && !allLayers { continue } alreadySeen[hdr.Name] = struct{}{} // TODO: need to do prefix filtering for whiteouts cont, err := fn(hdr, layerInfo, tr) if err != nil { return false, err } if !cont { return false, nil } } } type alterations []archive.AlterHeader func (a alterations) Alter(hdr *tar.Header) (bool, error) { for _, item := range a { ok, err := item.Alter(hdr) if err != nil { return false, err } if !ok { return false, nil } } return true, nil } type removePermissions struct{} func (_ removePermissions) Alter(hdr *tar.Header) (bool, error) { switch hdr.Typeflag { case tar.TypeReg, tar.TypeRegA: hdr.Mode = int64(os.FileMode(0640)) default: hdr.Mode = int64(os.FileMode(0755)) } return true, nil } type writableDirectories struct{} func (_ writableDirectories) Alter(hdr *tar.Header) (bool, error) { switch hdr.Typeflag { case tar.TypeDir: hdr.Mode = int64(os.FileMode(0600) | os.FileMode(hdr.Mode)) } return true, nil } type copyFromDirectory struct { From string } func newCopyFromDirectory(from string) archive.AlterHeader { if !strings.HasSuffix(from, "/") { from = from + "/" } return &copyFromDirectory{From: from} } func (n *copyFromDirectory) Alter(hdr *tar.Header) (bool, error) { return changeTarEntryParent(hdr, n.From), nil } type copyFromPattern struct { Base string Name string } func newCopyFromPattern(dir, name string) archive.AlterHeader { if !strings.HasSuffix(dir, "/") { dir = dir + "/" } return &copyFromPattern{Base: dir, Name: name} } func (n *copyFromPattern) Alter(hdr *tar.Header) (bool, error) { if !changeTarEntryParent(hdr, n.Base) { return false, nil } matchName := hdr.Name if i := strings.Index(matchName, "/"); i != -1 { matchName = matchName[:i] } if ok, err := path.Match(n.Name, matchName); !ok || err != nil { glog.V(5).Infof("Excluded %s due to filter %s", hdr.Name, n.Name) return false, err } return true, nil } func changeTarEntryParent(hdr *tar.Header, from string) bool { if !strings.HasPrefix(hdr.Name, from) { glog.V(5).Infof("Exclude %s due to missing prefix %s", hdr.Name, from) return false } if len(hdr.Linkname) > 0 { if strings.HasPrefix(hdr.Linkname, from) { hdr.Linkname = strings.TrimPrefix(hdr.Linkname, from) glog.V(5).Infof("Updated link to %s", hdr.Linkname) } else { glog.V(4).Infof("Name %s won't correctly point to %s outside of %s", hdr.Name, hdr.Linkname, from) } } hdr.Name = strings.TrimPrefix(hdr.Name, from) glog.V(5).Infof("Updated name %s", hdr.Name) return true } type filesOnly struct { } func (_ filesOnly) Alter(hdr *tar.Header) (bool, error) { switch hdr.Typeflag { case tar.TypeReg, tar.TypeRegA, tar.TypeDir: return true, nil default: glog.V(6).Infof("Excluded %s because type was not a regular file or directory: %x", hdr.Name, hdr.Typeflag) return false, nil } } func parseLayerFilter(s string) (LayerFilter, error) { if strings.HasPrefix(s, "~") { s = s[1:] return &prefixLayerFilter{Prefix: s}, nil } if strings.Contains(s, ":") { l := &indexLayerFilter{From: 0, To: math.MaxInt32} parts := strings.SplitN(s, ":", 2) if len(parts[0]) > 0 { i, err := strconv.Atoi(parts[0]) if err != nil { return nil, fmt.Errorf("[from:to] must have valid numbers: %v", err) } l.From = int32(i) } if len(parts[1]) > 0 { i, err := strconv.Atoi(parts[1]) if err != nil { return nil, fmt.Errorf("[from:to] must have valid numbers: %v", err) } l.To = int32(i) } if l.To > 0 && l.To < l.From { return nil, fmt.Errorf("[from:to] to must be larger than from") } return l, nil } if i, err := strconv.Atoi(s); err == nil { l := NewPositionLayerFilter(int32(i)) return l, nil } return nil, fmt.Errorf("the layer selector [%s] is not valid, must be [from:to], [index], or [~digest]", s) } type prefixLayerFilter struct { Prefix string } func (s *prefixLayerFilter) Filter(layers []distribution.Descriptor) ([]distribution.Descriptor, error) { var filtered []distribution.Descriptor for _, d := range layers { if strings.HasPrefix(d.Digest.String(), s.Prefix) { filtered = append(filtered, d) } } if len(filtered) == 0 { return nil, fmt.Errorf("no layers start with '%s'", s.Prefix) } if len(filtered) > 1 { return nil, fmt.Errorf("multiple layers start with '%s', you must be more specific", s.Prefix) } return filtered, nil } type indexLayerFilter struct { From int32 To int32 } func (s *indexLayerFilter) Filter(layers []distribution.Descriptor) ([]distribution.Descriptor, error) { l := int32(len(layers)) from := s.From to := s.To if from < 0 { from = l + from } if to < 0 { to = l + to } if to > l { to = l } if from < 0 || to < 0 || from >= l { if s.To == math.MaxInt32 { return nil, fmt.Errorf("tried to select [%d:], but image only has %d layers", s.From, l) } return nil, fmt.Errorf("tried to select [%d:%d], but image only has %d layers", s.From, s.To, l) } if to < from { to, from = from, to } return layers[from:to], nil } type positionLayerFilter struct { At int32 } func NewPositionLayerFilter(at int32) LayerFilter { return &positionLayerFilter{at} } func (s *positionLayerFilter) Filter(layers []distribution.Descriptor) ([]distribution.Descriptor, error) { l := int32(len(layers)) at := s.At if at < 0 { at = l + s.At } if at < 0 || at >= l { return nil, fmt.Errorf("tried to select layer %d, but image only has %d layers", s.At, l) } return []distribution.Descriptor{layers[at]}, nil }
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package com.jxd.android.bookinventtory.bean; import io.realm.RealmModel; import io.realm.RealmObject; import io.realm.annotations.RealmClass; /** * 图书盘点 * Created by Administrator on 2017/10/17. */ @RealmClass public class ShelfBookScanBean implements RealmModel { private String title; private String barcode; private String shelfno; private String updatetime; private String uid; private String callno; private int inshelf; private String status; private String machine_mac; /** * 盘点状态 */ private String scanStatus; public String getTitle() { return title; } public void setTitle(String title) { this.title = title; } public String getBarcode() { return barcode; } public void setBarcode(String barcode) { this.barcode = barcode; } public String getShelfno() { return shelfno; } public void setShelfno(String shelfno) { this.shelfno = shelfno; } public String getUpdatetime() { return updatetime; } public void setUpdatetime(String updatetime) { this.updatetime = updatetime; } public String getUid() { return uid; } public void setUid(String uid) { this.uid = uid; } public String getCallno() { return callno; } public void setCallno(String callno) { this.callno = callno; } public int getInshelf() { return inshelf; } public void setInshelf(int inshelf) { this.inshelf = inshelf; } public String getMachine_mac() { return machine_mac; } public void setMachine_mac(String machine_mac) { this.machine_mac = machine_mac; } public String getStatus() { return status; } public void setStatus(String status) { this.status = status; } public String getScanStatus() { return scanStatus; } public void setScanStatus(String scanStatus) { this.scanStatus = scanStatus; } public void transfor(BookBean bookBean){ this.setBarcode( bookBean.getBarcode() ); this.setCallno(bookBean.getCallno()); this.setInshelf(bookBean.getInshelf()); this.setMachine_mac(bookBean.getMachine_mac()); this.setTitle(bookBean.getTitle()); this.setUid(bookBean.getUid()); this.setShelfno(bookBean.getShelfno()); this.setStatus( bookBean.getStatus() ); this.setUpdatetime(bookBean.getUpdatetime()); } @Override public int hashCode() { return super.hashCode(); } @Override public boolean equals(Object obj) { return super.equals(obj); } }
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<!DOCTYPE HTML> <!-- NewPage --> <html lang="en"> <head> <!-- Generated by javadoc --> <title>org.robolectric Class Hierarchy</title> <meta http-equiv="Content-Type" content="text/html; charset=utf-8"> <meta name="description" content="tree: package: org.robolectric"> <meta name="generator" content="javadoc/PackageTreeWriter"> <link rel="stylesheet" type="text/css" href="../../stylesheet.css" title="Style"> <link rel="stylesheet" type="text/css" href="../../script-dir/jquery-ui.css" title="Style"> <script type="text/javascript" src="../../script.js"></script> <script type="text/javascript" src="../../script-dir/jszip/dist/jszip.min.js"></script> <script type="text/javascript" src="../../script-dir/jszip-utils/dist/jszip-utils.min.js"></script> <!--[if IE]> <script type="text/javascript" src="../../script-dir/jszip-utils/dist/jszip-utils-ie.min.js"></script> <![endif]--> <script type="text/javascript" src="../../script-dir/jquery-3.4.1.js"></script> <script type="text/javascript" src="../../script-dir/jquery-ui.js"></script> </head> <body class="package-tree"> <script type="text/javascript">var pathtoroot = "../../"; 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(implements org.junit.runners.model.Annotatable) <ul> <li class="circle">org.junit.runners.model.FrameworkMethod <ul> <li class="circle">org.robolectric.<a href="RobolectricTestRunner.RobolectricFrameworkMethod.html" title="class in org.robolectric"><span class="typeNameLink">RobolectricTestRunner.RobolectricFrameworkMethod</span></a></li> </ul> </li> </ul> </li> <li class="circle">org.robolectric.<a href="MavenRoboSettings.html" title="class in org.robolectric"><span class="typeNameLink">MavenRoboSettings</span></a></li> <li class="circle">org.robolectric.<a href="Robolectric.html" title="class in org.robolectric"><span class="typeNameLink">Robolectric</span></a></li> <li class="circle">org.robolectric.<a href="RobolectricTestRunner.DeprecatedTestRunnerDefaultConfigProvider.html" title="class in org.robolectric"><span class="typeNameLink">RobolectricTestRunner.DeprecatedTestRunnerDefaultConfigProvider</span></a> (implements org.robolectric.pluginapi.config.<a href="pluginapi/config/GlobalConfigProvider.html" title="interface in org.robolectric.pluginapi.config">GlobalConfigProvider</a>)</li> <li class="circle">org.robolectric.<a href="RoboSettings.html" title="class in org.robolectric"><span class="typeNameLink">RoboSettings</span></a></li> <li class="circle">org.junit.runner.Runner (implements org.junit.runner.Describable) <ul> <li class="circle">org.junit.runners.ParentRunner&lt;T&gt; 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 #pragma once #include <aws/kms/KMS_EXPORTS.h> #include <aws/kms/KMSRequest.h> #include <aws/core/utils/memory/stl/AWSString.h> #include <aws/core/utils/memory/stl/AWSMap.h> #include <aws/kms/model/DataKeySpec.h> #include <aws/core/utils/memory/stl/AWSVector.h> #include <utility> namespace Aws { namespace KMS { namespace Model { /** */ class AWS_KMS_API GenerateDataKeyRequest : public KMSRequest { public: GenerateDataKeyRequest(); // Service request name is the Operation name which will send this request out, // each operation should has unique request name, so that we can get operation's name from this request. // Note: this is not true for response, multiple operations may have the same response name, // so we can not get operation's name from response. inline virtual const char* GetServiceRequestName() const override { return "GenerateDataKey"; } Aws::String SerializePayload() const override; Aws::Http::HeaderValueCollection GetRequestSpecificHeaders() const override; /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline const Aws::String& GetKeyId() const{ return m_keyId; } /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline bool KeyIdHasBeenSet() const { return m_keyIdHasBeenSet; } /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline void SetKeyId(const Aws::String& value) { m_keyIdHasBeenSet = true; m_keyId = value; } /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline void SetKeyId(Aws::String&& value) { m_keyIdHasBeenSet = true; m_keyId = std::move(value); } /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline void SetKeyId(const char* value) { m_keyIdHasBeenSet = true; m_keyId.assign(value); } /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline GenerateDataKeyRequest& WithKeyId(const Aws::String& value) { SetKeyId(value); return *this;} /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline GenerateDataKeyRequest& WithKeyId(Aws::String&& value) { SetKeyId(std::move(value)); return *this;} /** * <p>Specifies the symmetric encryption KMS key that encrypts the data key. You * cannot specify an asymmetric KMS key or a KMS key in a custom key store. To get * the type and origin of your KMS key, use the <a>DescribeKey</a> operation.</p> * <p>To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When * using an alias name, prefix it with <code>"alias/"</code>. To specify a KMS key * in a different Amazon Web Services account, you must use the key ARN or alias * ARN.</p> <p>For example:</p> <ul> <li> <p>Key ID: * <code>1234abcd-12ab-34cd-56ef-1234567890ab</code> </p> </li> <li> <p>Key ARN: * <code>arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab</code> * </p> </li> <li> <p>Alias name: <code>alias/ExampleAlias</code> </p> </li> <li> * <p>Alias ARN: <code>arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias</code> * </p> </li> </ul> <p>To get the key ID and key ARN for a KMS key, use * <a>ListKeys</a> or <a>DescribeKey</a>. To get the alias name and alias ARN, use * <a>ListAliases</a>.</p> */ inline GenerateDataKeyRequest& WithKeyId(const char* value) { SetKeyId(value); return *this;} /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline const Aws::Map<Aws::String, Aws::String>& GetEncryptionContext() const{ return m_encryptionContext; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline bool EncryptionContextHasBeenSet() const { return m_encryptionContextHasBeenSet; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline void SetEncryptionContext(const Aws::Map<Aws::String, Aws::String>& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext = value; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline void SetEncryptionContext(Aws::Map<Aws::String, Aws::String>&& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext = std::move(value); } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& WithEncryptionContext(const Aws::Map<Aws::String, Aws::String>& value) { SetEncryptionContext(value); return *this;} /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& WithEncryptionContext(Aws::Map<Aws::String, Aws::String>&& value) { SetEncryptionContext(std::move(value)); return *this;} /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(const Aws::String& key, const Aws::String& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(key, value); return *this; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(Aws::String&& key, const Aws::String& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(std::move(key), value); return *this; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(const Aws::String& key, Aws::String&& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(key, std::move(value)); return *this; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(Aws::String&& key, Aws::String&& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(std::move(key), std::move(value)); return *this; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(const char* key, Aws::String&& value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(key, std::move(value)); return *this; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(Aws::String&& key, const char* value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(std::move(key), value); return *this; } /** * <p>Specifies the encryption context that will be used when encrypting the data * key.</p> <p>An <i>encryption context</i> is a collection of non-secret key-value * pairs that represent additional authenticated data. When you use an encryption * context to encrypt data, you must specify the same (an exact case-sensitive * match) encryption context to decrypt the data. An encryption context is * supported only on operations with symmetric encryption KMS keys. On operations * with symmetric encryption KMS keys, an encryption context is optional, but it is * strongly recommended.</p> <p>For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/concepts.html#encrypt_context">Encryption * context</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddEncryptionContext(const char* key, const char* value) { m_encryptionContextHasBeenSet = true; m_encryptionContext.emplace(key, value); return *this; } /** * <p>Specifies the length of the data key in bytes. For example, use the value 64 * to generate a 512-bit data key (64 bytes is 512 bits). For 128-bit (16-byte) and * 256-bit (32-byte) data keys, use the <code>KeySpec</code> parameter.</p> <p>You * must specify either the <code>KeySpec</code> or the <code>NumberOfBytes</code> * parameter (but not both) in every <code>GenerateDataKey</code> request.</p> */ inline int GetNumberOfBytes() const{ return m_numberOfBytes; } /** * <p>Specifies the length of the data key in bytes. For example, use the value 64 * to generate a 512-bit data key (64 bytes is 512 bits). For 128-bit (16-byte) and * 256-bit (32-byte) data keys, use the <code>KeySpec</code> parameter.</p> <p>You * must specify either the <code>KeySpec</code> or the <code>NumberOfBytes</code> * parameter (but not both) in every <code>GenerateDataKey</code> request.</p> */ inline bool NumberOfBytesHasBeenSet() const { return m_numberOfBytesHasBeenSet; } /** * <p>Specifies the length of the data key in bytes. For example, use the value 64 * to generate a 512-bit data key (64 bytes is 512 bits). For 128-bit (16-byte) and * 256-bit (32-byte) data keys, use the <code>KeySpec</code> parameter.</p> <p>You * must specify either the <code>KeySpec</code> or the <code>NumberOfBytes</code> * parameter (but not both) in every <code>GenerateDataKey</code> request.</p> */ inline void SetNumberOfBytes(int value) { m_numberOfBytesHasBeenSet = true; m_numberOfBytes = value; } /** * <p>Specifies the length of the data key in bytes. For example, use the value 64 * to generate a 512-bit data key (64 bytes is 512 bits). For 128-bit (16-byte) and * 256-bit (32-byte) data keys, use the <code>KeySpec</code> parameter.</p> <p>You * must specify either the <code>KeySpec</code> or the <code>NumberOfBytes</code> * parameter (but not both) in every <code>GenerateDataKey</code> request.</p> */ inline GenerateDataKeyRequest& WithNumberOfBytes(int value) { SetNumberOfBytes(value); return *this;} /** * <p>Specifies the length of the data key. Use <code>AES_128</code> to generate a * 128-bit symmetric key, or <code>AES_256</code> to generate a 256-bit symmetric * key.</p> <p>You must specify either the <code>KeySpec</code> or the * <code>NumberOfBytes</code> parameter (but not both) in every * <code>GenerateDataKey</code> request.</p> */ inline const DataKeySpec& GetKeySpec() const{ return m_keySpec; } /** * <p>Specifies the length of the data key. Use <code>AES_128</code> to generate a * 128-bit symmetric key, or <code>AES_256</code> to generate a 256-bit symmetric * key.</p> <p>You must specify either the <code>KeySpec</code> or the * <code>NumberOfBytes</code> parameter (but not both) in every * <code>GenerateDataKey</code> request.</p> */ inline bool KeySpecHasBeenSet() const { return m_keySpecHasBeenSet; } /** * <p>Specifies the length of the data key. Use <code>AES_128</code> to generate a * 128-bit symmetric key, or <code>AES_256</code> to generate a 256-bit symmetric * key.</p> <p>You must specify either the <code>KeySpec</code> or the * <code>NumberOfBytes</code> parameter (but not both) in every * <code>GenerateDataKey</code> request.</p> */ inline void SetKeySpec(const DataKeySpec& value) { m_keySpecHasBeenSet = true; m_keySpec = value; } /** * <p>Specifies the length of the data key. Use <code>AES_128</code> to generate a * 128-bit symmetric key, or <code>AES_256</code> to generate a 256-bit symmetric * key.</p> <p>You must specify either the <code>KeySpec</code> or the * <code>NumberOfBytes</code> parameter (but not both) in every * <code>GenerateDataKey</code> request.</p> */ inline void SetKeySpec(DataKeySpec&& value) { m_keySpecHasBeenSet = true; m_keySpec = std::move(value); } /** * <p>Specifies the length of the data key. Use <code>AES_128</code> to generate a * 128-bit symmetric key, or <code>AES_256</code> to generate a 256-bit symmetric * key.</p> <p>You must specify either the <code>KeySpec</code> or the * <code>NumberOfBytes</code> parameter (but not both) in every * <code>GenerateDataKey</code> request.</p> */ inline GenerateDataKeyRequest& WithKeySpec(const DataKeySpec& value) { SetKeySpec(value); return *this;} /** * <p>Specifies the length of the data key. Use <code>AES_128</code> to generate a * 128-bit symmetric key, or <code>AES_256</code> to generate a 256-bit symmetric * key.</p> <p>You must specify either the <code>KeySpec</code> or the * <code>NumberOfBytes</code> parameter (but not both) in every * <code>GenerateDataKey</code> request.</p> */ inline GenerateDataKeyRequest& WithKeySpec(DataKeySpec&& value) { SetKeySpec(std::move(value)); return *this;} /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline const Aws::Vector<Aws::String>& GetGrantTokens() const{ return m_grantTokens; } /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline bool GrantTokensHasBeenSet() const { return m_grantTokensHasBeenSet; } /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline void SetGrantTokens(const Aws::Vector<Aws::String>& value) { m_grantTokensHasBeenSet = true; m_grantTokens = value; } /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline void SetGrantTokens(Aws::Vector<Aws::String>&& value) { m_grantTokensHasBeenSet = true; m_grantTokens = std::move(value); } /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& WithGrantTokens(const Aws::Vector<Aws::String>& value) { SetGrantTokens(value); return *this;} /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& WithGrantTokens(Aws::Vector<Aws::String>&& value) { SetGrantTokens(std::move(value)); return *this;} /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddGrantTokens(const Aws::String& value) { m_grantTokensHasBeenSet = true; m_grantTokens.push_back(value); return *this; } /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddGrantTokens(Aws::String&& value) { m_grantTokensHasBeenSet = true; m_grantTokens.push_back(std::move(value)); return *this; } /** * <p>A list of grant tokens.</p> <p>Use a grant token when your permission to call * this operation comes from a new grant that has not yet achieved <i>eventual * consistency</i>. For more information, see <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grants.html#grant_token">Grant * token</a> and <a * href="https://docs.aws.amazon.com/kms/latest/developerguide/grant-manage.html#using-grant-token">Using * a grant token</a> in the <i>Key Management Service Developer Guide</i>.</p> */ inline GenerateDataKeyRequest& AddGrantTokens(const char* value) { m_grantTokensHasBeenSet = true; m_grantTokens.push_back(value); return *this; } private: Aws::String m_keyId; bool m_keyIdHasBeenSet; Aws::Map<Aws::String, Aws::String> m_encryptionContext; bool m_encryptionContextHasBeenSet; int m_numberOfBytes; bool m_numberOfBytesHasBeenSet; DataKeySpec m_keySpec; bool m_keySpecHasBeenSet; Aws::Vector<Aws::String> m_grantTokens; bool m_grantTokensHasBeenSet; }; } // namespace Model } // namespace KMS } // namespace Aws
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package io.subutai.core.environment.api.exception; /** * Thrown if general error occurred in environment manager */ public class EnvironmentManagerException extends Exception { public EnvironmentManagerException( final String message, final Throwable cause ) { super( message, cause ); } public EnvironmentManagerException( final String s ) { super(s); } }
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package org.apache.syncope.core.spring.security; import static org.junit.jupiter.api.Assertions.assertNotNull; import static org.junit.jupiter.api.Assertions.assertTrue; import java.util.List; import org.apache.syncope.common.lib.policy.DefaultPasswordRuleConf; import org.apache.syncope.core.provisioning.api.serialization.POJOHelper; import org.apache.syncope.core.spring.SpringTestConfiguration; import org.apache.syncope.core.spring.implementation.ImplementationManagerTest; import org.junit.jupiter.api.Test; import org.springframework.test.context.junit.jupiter.SpringJUnitConfig; @SpringJUnitConfig(classes = { SpringTestConfiguration.class }) public class PasswordGeneratorTest { private final DefaultPasswordGenerator passwordGenerator = new DefaultPasswordGenerator(); @Test public void digit() { DefaultPasswordRuleConf pwdRuleConf = ImplementationManagerTest.createBaseDefaultPasswordRuleConf(); pwdRuleConf.setDigit(1); TestImplementation passwordRule = new TestImplementation(); passwordRule.setBody(POJOHelper.serialize(pwdRuleConf)); String generatedPassword = passwordGenerator.generate(List.of(new TestPasswordPolicy(passwordRule))); assertTrue(generatedPassword.chars().anyMatch(Character::isDigit)); } @Test public void alphabetical() { DefaultPasswordRuleConf pwdRuleConf = ImplementationManagerTest.createBaseDefaultPasswordRuleConf(); pwdRuleConf.setAlphabetical(1); TestImplementation passwordRule = new TestImplementation(); passwordRule.setBody(POJOHelper.serialize(pwdRuleConf)); String generatedPassword = passwordGenerator.generate(List.of(new TestPasswordPolicy(passwordRule))); assertTrue(generatedPassword.chars().anyMatch(Character::isAlphabetic)); } @Test public void lowercase() { DefaultPasswordRuleConf pwdRuleConf = ImplementationManagerTest.createBaseDefaultPasswordRuleConf(); pwdRuleConf.setLowercase(1); TestImplementation passwordRule = new TestImplementation(); passwordRule.setBody(POJOHelper.serialize(pwdRuleConf)); String generatedPassword = passwordGenerator.generate(List.of(new TestPasswordPolicy(passwordRule))); assertTrue(generatedPassword.chars().anyMatch(Character::isLowerCase)); } @Test public void uppercase() { DefaultPasswordRuleConf pwdRuleConf = ImplementationManagerTest.createBaseDefaultPasswordRuleConf(); pwdRuleConf.setUppercase(1); TestImplementation passwordRule = new TestImplementation(); passwordRule.setBody(POJOHelper.serialize(pwdRuleConf)); String generatedPassword = passwordGenerator.generate(List.of(new TestPasswordPolicy(passwordRule))); assertTrue(generatedPassword.chars().anyMatch(Character::isUpperCase)); } @Test public void special() { DefaultPasswordRuleConf pwdRuleConf = ImplementationManagerTest.createBaseDefaultPasswordRuleConf(); pwdRuleConf.setSpecial(1); pwdRuleConf.getSpecialChars().add('@'); pwdRuleConf.getSpecialChars().add('!'); pwdRuleConf.getSpecialChars().add('%'); TestImplementation passwordRule = new TestImplementation(); passwordRule.setBody(POJOHelper.serialize(pwdRuleConf)); String generatedPassword = passwordGenerator.generate(List.of(new TestPasswordPolicy(passwordRule))); assertTrue(generatedPassword.chars().anyMatch(c -> '@' == c || '!' == c || '%' == c)); } @Test public void issueSYNCOPE678() { String password = passwordGenerator.generate(List.of()); assertNotNull(password); DefaultPasswordRuleConf pwdRuleConf1 = ImplementationManagerTest.createBaseDefaultPasswordRuleConf(); pwdRuleConf1.setMinLength(0); TestImplementation passwordRule = new TestImplementation(); passwordRule.setBody(POJOHelper.serialize(pwdRuleConf1)); password = passwordGenerator.generate(List.of(new TestPasswordPolicy(passwordRule))); assertNotNull(password); } }
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package de.adesso.jenkinshue.exception; import org.springframework.web.bind.annotation.ResponseStatus; /** * * @author wennier * */ @ResponseStatus public class LampAlreadyExistsException extends RuntimeException { private static final long serialVersionUID = -4414373881766460981L; public LampAlreadyExistsException(String hueUniqueId) { super("Die Lampe mit der HueUniqueId '" + hueUniqueId + "' existiert schon!"); } }
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package org.switchyard.component.camel.model; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertNull; import static org.junit.Assert.assertTrue; import java.io.File; import java.lang.reflect.Modifier; import java.net.URL; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import org.junit.Before; import org.junit.Test; import org.switchyard.common.type.Classes; import org.switchyard.component.camel.model.CamelComponentImplementationModel; import org.switchyard.component.camel.model.RouteScanner; import org.switchyard.component.camel.scanner.SingleRouteService; import org.switchyard.config.model.ScannerInput; import org.switchyard.config.model.composite.ComponentImplementationModel; import org.switchyard.config.model.composite.ComponentModel; import org.switchyard.config.model.switchyard.SwitchYardModel; /** * Test scanner looking for @Route methods and generating appropriate config. * * NOTE: I lifted a fair bit of this code from the Bean scanner test - it would * probably be a good idea to create a base Scanner test class so that additional * scanner implementations can reuse the same code. */ public class RouteScannerTest { private SwitchYardModel _scannedModel; private RouteScanner _scanner; private List<URL> _scannedURLs; @Before public void setUp() throws Exception { _scanner = new RouteScanner(); _scannedURLs = new ArrayList<URL>(); _scannedURLs.add(new File("./target/test-classes").toURI().toURL()); } @Test public void componentImplementationCreated() throws Exception { scan(new URL(new File("./target/test-classes").toURI().toURL(), "#org/switchyard/component/camel/scanner")); List<ComponentModel> components = _scannedModel.getComposite().getComponents(); for(ComponentModel component : components) { System.out.println("RouteScanner found component: " + component.getName()); // Verify component details assertEquals(SingleRouteService.class.getSimpleName(), component.getName()); assertTrue(component.getServices().size() == 1); ComponentImplementationModel implementation = component.getImplementation(); assertTrue(implementation instanceof CamelComponentImplementationModel); checkCamelImplementation((CamelComponentImplementationModel)implementation); } } // verify an empty model is created @Test public void testEmptyScan() throws Exception { scan(); assertNull("Composite element should not be created if no components were found.", _scannedModel.getComposite()); } private void checkCamelImplementation(CamelComponentImplementationModel model) throws Exception { // Load the class Class<?> routeClass = Classes.forName(model.getJavaClass(), getClass()); // make sure the class itself is valid assertFalse(routeClass.isInterface()); assertFalse(Modifier.isAbstract(routeClass.getModifiers())); } // Takes a list of URLs to scan *instead* of what's defined in @Before. private void scan(URL ... urls) throws Exception { _scannedURLs.clear(); if (urls != null && urls.length > 0) { _scannedURLs.addAll(Arrays.asList(urls)); } ScannerInput<SwitchYardModel> input = new ScannerInput<SwitchYardModel>().setURLs(_scannedURLs); _scannedModel = _scanner.scan(input).getModel(); } }
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package seedu.watodo.commons.util; import static org.junit.Assert.assertNotNull; import org.junit.Rule; import org.junit.Test; import org.junit.rules.ExpectedException; public class AppUtilTest { @Rule public ExpectedException thrown = ExpectedException.none(); @Test public void getImage_exitingImage() { assertNotNull(AppUtil.getImage("/images/watodo_logo.png")); } @Test public void getImage_nullGiven_assertionError() { thrown.expect(AssertionError.class); AppUtil.getImage(null); } }
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"use strict"; module.exports = function(sequelize, DataTypes) { var Order = sequelize.define('Order', { customerName: {type: DataTypes.STRING, allowNull: false}, productCode: {type: DataTypes.STRING, allowNull: false}, unitsOrdered: {type: DataTypes.INTEGER, allowNull: false}, unitPrice: {type: DataTypes.FLOAT, allowNull: false}, status: {type: DataTypes.STRING, allowNull: false, defaultValue: 'PENDING'} }); return Order; };
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<?xml version="1.0" encoding="utf-8"?> <resources> <string name="app_name">Candy Crusher</string> </resources>
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<resources> <string name="app_name">CaTo</string> <string name="navigation_drawer_open">Open navigation drawer</string> <string name="navigation_drawer_close">Close navigation drawer</string> <string name="action_settings">Settings</string> <string name="title_activity_maps">Map</string> <string name="map_type_none">None</string> <string name="map_type_normal">Normal</string> <string name="map_type_terrain">Terrain</string> <string name="map_type_satellite">Satellite</string> <string name="map_type_hybrid">Hybrid</string> <string name="title_activity_sign_in">@string/app_name</string> <string name="title_activity_favorite_place">Favorite Place</string> <string name="title_item_list">Favorite Place</string> <string name="title_item_detail">Item Detail</string> <string name="search_hint_pembeli">Cari toko disini...</string> <string name="title_activity_sign_up">SignUp</string> <string name="title_activity_penjual_pembeli">@string/app_name</string> <string name="title_activity_forgot_password">ForgotPasswordActivity</string> <string name="title_activity_profile_pembeli_scrolling">Profile Pembeli</string> <string name="large_text"> "Material is the metaphor.\n\n" "A material metaphor is the unifying theory of a rationalized space and a system of motion." "The material is grounded in tactile reality, inspired by the study of paper and ink, yet " "technologically advanced and open to imagination and magic.\n" "Surfaces and edges of the material provide visual cues that are grounded in reality. The " "use of familiar tactile attributes helps users quickly understand affordances. Yet the " "flexibility of the material creates new affordances that supercede those in the physical " "world, without breaking the rules of physics.\n" "The fundamentals of light, surface, and movement are key to conveying how objects move, " "interact, and exist in space and in relation to each other. Realistic lighting shows " "seams, divides space, and indicates moving parts.\n\n" "Bold, graphic, intentional.\n\n" "The foundational elements of print based design typography, grids, space, scale, color, " "and use of imagery guide visual treatments. These elements do far more than please the " "eye. They create hierarchy, meaning, and focus. Deliberate color choices, edge to edge " "imagery, large scale typography, and intentional white space create a bold and graphic " "interface that immerse the user in the experience.\n" "An emphasis on user actions makes core functionality immediately apparent and provides " "waypoints for the user.\n\n" "Motion provides meaning.\n\n" "Motion respects and reinforces the user as the prime mover. Primary user actions are " "inflection points that initiate motion, transforming the whole design.\n" "All action takes place in a single environment. Objects are presented to the user without " "breaking the continuity of experience even as they transform and reorganize.\n" "Motion is meaningful and appropriate, serving to focus attention and maintain continuity. " "Feedback is subtle yet clear. Transitions are efficient yet coherent.\n\n" "3D world.\n\n" "The material environment is a 3D space, which means all objects have x, y, and z " "dimensions. The z-axis is perpendicularly aligned to the plane of the display, with the " "positive z-axis extending towards the viewer. Every sheet of material occupies a single " "position along the z-axis and has a standard 1dp thickness.\n" "On the web, the z-axis is used for layering and not for perspective. The 3D world is " "emulated by manipulating the y-axis.\n\n" "Light and shadow.\n\n" "Within the material environment, virtual lights illuminate the scene. Key lights create " "directional shadows, while ambient light creates soft shadows from all angles.\n" "Shadows in the material environment are cast by these two light sources. In Android " "development, shadows occur when light sources are blocked by sheets of material at " "various positions along the z-axis. On the web, shadows are depicted by manipulating the " "y-axis only. The following example shows the card with a height of 6dp.\n\n" "Resting elevation.\n\n" "All material objects, regardless of size, have a resting elevation, or default elevation " "that does not change. If an object changes elevation, it should return to its resting " "elevation as soon as possible.\n\n" "Component elevations.\n\n" "The resting elevation for a component type is consistent across apps (e.g., FAB elevation " "does not vary from 6dp in one app to 16dp in another app).\n" "Components may have different resting elevations across platforms, depending on the depth " "of the environment (e.g., TV has a greater depth than mobile or desktop).\n\n" "Responsive elevation and dynamic elevation offsets.\n\n" "Some component types have responsive elevation, meaning they change elevation in response " "to user input (e.g., normal, focused, and pressed) or system events. These elevation " "changes are consistently implemented using dynamic elevation offsets.\n" "Dynamic elevation offsets are the goal elevation that a component moves towards, relative " "to the component’s resting state. They ensure that elevation changes are consistent " "across actions and component types. For example, all components that lift on press have " "the same elevation change relative to their resting elevation.\n" "Once the input event is completed or cancelled, the component will return to its resting " "elevation.\n\n" "Avoiding elevation interference.\n\n" "Components with responsive elevations may encounter other components as they move between " "their resting elevations and dynamic elevation offsets. Because material cannot pass " "through other material, components avoid interfering with one another any number of ways, " "whether on a per component basis or using the entire app layout.\n" "On a component level, components can move or be removed before they cause interference. " "For example, a floating action button (FAB) can disappear or move off screen before a " "user picks up a card, or it can move if a snackbar appears.\n" "On the layout level, design your app layout to minimize opportunities for interference. " "For example, position the FAB to one side of stream of a cards so the FAB won’t interfere " "when a user tries to pick up one of cards.\n\n" </string> <string name="title_activity_edit_profile_pembeli">Edit Profile Pembeli</string> <string name="loading_fetching_user_type">Fetching user type...</string> <string name="title_activity_main_penjual">MainPenjualActivity</string> <string name="title_activity_edit_profile_penjual">Edit Toko</string> </resources>
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<?php namespace Oro\Bundle\CalendarBundle\Tests\Functional; use Oro\Bundle\TestFrameworkBundle\Test\WebTestCase; /** * @dbIsolation */ class ControllersTest extends WebTestCase { const DEFAULT_USER_CALENDAR_ID = 1; protected function setUp() { $this->initClient([], $this->generateBasicAuthHeader()); $this->client->useHashNavigation(true); } public function testDefault() { $crawler = $this->client->request('GET', $this->getUrl('oro_calendar_view_default')); $result = $this->client->getResponse(); $this->assertHtmlResponseStatusCodeEquals($result, 200); $this->assertEquals('My Calendar - John Doe', $crawler->filter('#page-title')->html()); } public function testView() { $crawler = $this->client->request( 'GET', $this->getUrl( 'oro_calendar_view', ['id' => self::DEFAULT_USER_CALENDAR_ID] ) ); $result = $this->client->getResponse(); $this->assertHtmlResponseStatusCodeEquals($result, 200); $this->assertEquals('John Doe - Calendars - John Doe', $crawler->filter('#page-title')->html()); } }
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Tutorials and examples for rosserial_tivac package. ## Building procedure: ``` catkin_make rosserial_tivac_tutorials_generate_messages source devel/setup.bash catkin_make ``` ## Tutorials and examples: ### chatter Small demo for the TM4C123GXL Launchpad. It uses the UART on the debug USB port to communicate with rosserial. Publishes on topic `/chatter` a string every few milliseconds. ### chatter129 Small demo prepared for the TM4C1294XL Connected Launchpad. It uses the UART on the debug USB port to communicate with rosserial. Publishes on topic `/chatter` a string every few milliseconds. ### buttons User button state publisher for the TM4C123GXL Launchpad. Enumerates CDC device class on the device USB port to communicate with rosserial. Publishes on topic `/button_state` a custom message `rosserial_tivac_tutorials/Buttons`. ### getparam For the TM4C123GXL Launchpad. It uses the UART on the debug USB port to communicate with rosserial. Gets private parameter 'my_param' on the rosserial node. Publishes on topic `/param` a float, with the default value is -1.0 if parameter is not found. ### rgb_led Subscriber demo for the TM4C123GXL Launchpad. Enumerates CDC device class on the device USB port to communicate with rosserial. Subscribes to topic `/led` of message `std_msgs/ColorRGBA` to change intensity and colors, value range from [0 1.0]. ### rgb_srv Service server demo for the TM4C123GXL Launchpad. Enumerates CDC device class on the device USB port to communicate with rosserial. Provides a service on topic `/led` of message `rosserial_tivac_tutorials/ColorRGBA` to change intensity and colors, value range from [0 1.0], and always responds with `true`. ### time_tf Time and TF demo for the TM4C123GXL Launchpad. Enumerates CDC device class on the device USB port to communicate with rosserial. Publishes on topic `/tf` a static transform, timestamped with the current time. ### FreeRTOS on TM4C123GXL Demo FreeRTOS application using `rosserial_tivac`. This demo creates 3 tasks. 1. spin task - handles ros::spinOnce() periodically at 100ms. 2. subscribe task - reads from the received message queue and processes data. Sends length of string to processed data queue. 3. publish task - publishes data from processed data queue.
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<?php namespace AclModule; use Nette\Application\UI\Form; /** * Resources * */ class ResourcesPresenter extends \BasePresenter { /** * Init method */ public function startup() { parent::startup(); $this->checkAccess(); } /****************** * Default ******************/ public function renderDefault() { $nodes = new \ResourcesModel(); $this->template->nodes = $nodes; $this->template->parents = $nodes->getChildNodes(NULL); } /****************** * Add and Edit ******************/ public function actionAdd() { } public function actionEdit($id) { $sql = \dibi::query('SELECT key_name, parent_id, name, comment FROM ['.TABLE_RESOURCES.'] WHERE id=%i;', $id); $form = $this->getComponent('addEdit'); if (count($sql)) { $row = $sql->fetch(); if (empty($row->parent_id)) $row->parent_id = 0; $form->setDefaults($row); } else $form->addError('This resource does not exist.'); } protected function createComponentAddEdit() { $resources[0] = ' '; $mresources = new \ResourcesModel(); $rows = $mresources->getTreeValues(); foreach ($rows as $key => $row) { // function array_merge does't work correctly with integer indexes // manual array merge $resources[$key] = $row; } $form = new Form; $renderer = $form->getRenderer(); $renderer->wrappers['label']['suffix'] = ':'; //$form->addGroup('Edit'); if (ACL_PROG_MODE) { $form->addText('name', 'Name', 30) ->addRule(Form::FILLED, 'You have to fill name.') ->getControlPrototype()->onChange("create_key()"); } else { $form->addText('name', 'Name', 30) ->addRule(Form::FILLED, 'You have to fill name.'); } $form->addText('key_name', 'Key', 30) ->setDisabled((ACL_PROG_MODE ? false : true)); $form->addSelect('parent_id', 'Parent', $resources, 15); $form->addTextArea('comment', 'Comment', 40, 4) ->addRule(Form::MAX_LENGTH, 'Comment must be at least %d characters.', 250); if ($this->getAction()=='add') $form->addSubmit('add', 'Add'); else $form->addSubmit('edit', 'Edit'); $form->onSuccess[] = callback($this, 'addEditOnFormSubmitted'); return $form; } public function addEditOnFormSubmitted($form) { // add if ($this->getAction()=='add') { try { $values = $form->getValues(); if ($values['parent_id']==0) $values['parent_id'] = NULL; \dibi::query('INSERT INTO ['.TABLE_RESOURCES.'] %v;', \get_object_vars($values)); $this->flashMessage('The resource has been added.', 'ok'); if (ACL_CACHING) { unset($this->cache['gui_acl']); // invalidate cache } $this->redirect('Resources:'); } catch (Exception $e) { $form->addError('The resource has not been added.'); throw $e; } } else { // edit try { $id = $this->getParam('id'); $values = $form->getValues(); if ($values['parent_id']==0) $values['parent_id'] = NULL; \dibi::query('UPDATE ['.TABLE_RESOURCES.'] SET %a WHERE id=%i;', \get_object_vars($values), $id); $this->flashMessage('The resource has been edited.', 'ok'); if (ACL_CACHING) { unset($this->cache['gui_acl']); // invalidate cache } $this->redirect('Resources:'); } catch (Exception $e) { $form->addError('The resource has not been edited.'); throw $e; } } } /****************** * Delete ******************/ public function actionDelete($id) { $sql = \dibi::query('SELECT name FROM ['.TABLE_RESOURCES.'] WHERE id=%i;', $id); if (count($sql)) { $this->template->resource = $sql->fetchSingle(); } else { $this->flashMessage('This resource does not exist.'); $this->redirect('Resources:'); } } protected function createComponentDelete($name) { $form = new Form; $form->addSubmit('delete', 'Delete'); $form->addSubmit('cancel', 'Cancel'); $form->onSuccess[] = callback($this, 'deleteOnFormSubmitted'); return $form; } public function deleteOnFormSubmitted($form) { if ($form['delete']->isSubmittedBy()) { try { $id = $this->getParam('id'); \dibi::query('DELETE FROM ['.TABLE_RESOURCES.'] WHERE id=%i;', $id); $this->flashMessage('The resource has been deleted.', 'ok'); if (ACL_CACHING) { unset($this->cache['gui_acl']); // invalidate cache } $this->redirect('Resources:'); } catch (Exception $e) { $form->addError('The resource has not been deleted.'); throw $e; } } else $this->redirect('Resources:'); } }
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<?php namespace Google\Service\AndroidEnterprise; class WebAppIcon extends \Google\Model { /** * @var string */ public $imageData; /** * @param string */ public function setImageData($imageData) { $this->imageData = $imageData; } /** * @return string */ public function getImageData() { return $this->imageData; } } // Adding a class alias for backwards compatibility with the previous class name. class_alias(WebAppIcon::class, 'Google_Service_AndroidEnterprise_WebAppIcon');
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from django.core.urlresolvers import reverse from django.core.urlresolvers import reverse_lazy from django.utils.translation import ugettext_lazy as _ from horizon import exceptions from horizon import forms from horizon import tables from horizon import tabs from horizon.utils import memoized from horizon import workflows from openstack_dashboard import api from openstack_dashboard.api import cinder from openstack_dashboard.usage import quotas from openstack_dashboard.dashboards.project.cgroups \ import forms as vol_cgroup_forms from openstack_dashboard.dashboards.project.cgroups \ import tables as vol_cgroup_tables from openstack_dashboard.dashboards.project.cgroups \ import tabs as vol_cgroup_tabs from openstack_dashboard.dashboards.project.cgroups \ import workflows as vol_cgroup_workflows CGROUP_INFO_FIELDS = ("name", "description") INDEX_URL = "horizon:project:cgroups:index" class CGroupsView(tables.DataTableView): table_class = vol_cgroup_tables.VolumeCGroupsTable page_title = _("Consistency Groups") def get_data(self): try: cgroups = api.cinder.volume_cgroup_list_with_vol_type_names( self.request) except Exception: cgroups = [] exceptions.handle(self.request, _("Unable to retrieve " "volume consistency groups.")) return cgroups class CreateView(workflows.WorkflowView): workflow_class = vol_cgroup_workflows.CreateCGroupWorkflow template_name = 'project/cgroups/create.html' page_title = _("Create Volume Consistency Group") class UpdateView(forms.ModalFormView): template_name = 'project/cgroups/update.html' page_title = _("Edit Consistency Group") form_class = vol_cgroup_forms.UpdateForm success_url = reverse_lazy('horizon:project:cgroups:index') submit_url = "horizon:project:cgroups:update" def get_initial(self): cgroup = self.get_object() return {'cgroup_id': self.kwargs["cgroup_id"], 'name': cgroup.name, 'description': cgroup.description} def get_context_data(self, **kwargs): context = super(UpdateView, self).get_context_data(**kwargs) context['cgroup_id'] = self.kwargs['cgroup_id'] args = (self.kwargs['cgroup_id'],) context['submit_url'] = reverse(self.submit_url, args=args) return context def get_object(self): cgroup_id = self.kwargs['cgroup_id'] try: self._object = cinder.volume_cgroup_get(self.request, cgroup_id) except Exception: exceptions.handle(self.request, _('Unable to retrieve consistency group ' 'details.'), redirect=reverse(INDEX_URL)) return self._object class RemoveVolumesView(forms.ModalFormView): template_name = 'project/cgroups/remove_vols.html' page_title = _("Remove Volumes from Consistency Group") form_class = vol_cgroup_forms.RemoveVolsForm success_url = reverse_lazy('horizon:project:cgroups:index') submit_url = "horizon:project:cgroups:remove_volumes" def get_initial(self): cgroup = self.get_object() return {'cgroup_id': self.kwargs["cgroup_id"], 'name': cgroup.name} def get_context_data(self, **kwargs): context = super(RemoveVolumesView, self).get_context_data(**kwargs) context['cgroup_id'] = self.kwargs['cgroup_id'] args = (self.kwargs['cgroup_id'],) context['submit_url'] = reverse(self.submit_url, args=args) return context def get_object(self): cgroup_id = self.kwargs['cgroup_id'] try: self._object = cinder.volume_cgroup_get(self.request, cgroup_id) except Exception: exceptions.handle(self.request, _('Unable to retrieve consistency group ' 'details.'), redirect=reverse(INDEX_URL)) return self._object class DeleteView(forms.ModalFormView): template_name = 'project/cgroups/delete.html' page_title = _("Delete Consistency Group") form_class = vol_cgroup_forms.DeleteForm success_url = reverse_lazy('horizon:project:cgroups:index') submit_url = "horizon:project:cgroups:delete" submit_label = page_title def get_initial(self): cgroup = self.get_object() return {'cgroup_id': self.kwargs["cgroup_id"], 'name': cgroup.name} def get_context_data(self, **kwargs): context = super(DeleteView, self).get_context_data(**kwargs) context['cgroup_id'] = self.kwargs['cgroup_id'] args = (self.kwargs['cgroup_id'],) context['submit_url'] = reverse(self.submit_url, args=args) return context def get_object(self): cgroup_id = self.kwargs['cgroup_id'] try: self._object = cinder.volume_cgroup_get(self.request, cgroup_id) except Exception: exceptions.handle(self.request, _('Unable to retrieve consistency group ' 'details.'), redirect=reverse(INDEX_URL)) return self._object class ManageView(workflows.WorkflowView): workflow_class = vol_cgroup_workflows.UpdateCGroupWorkflow def get_context_data(self, **kwargs): context = super(ManageView, self).get_context_data(**kwargs) context['cgroup_id'] = self.kwargs["cgroup_id"] return context def _get_object(self, *args, **kwargs): cgroup_id = self.kwargs['cgroup_id'] try: cgroup = cinder.volume_cgroup_get(self.request, cgroup_id) except Exception: exceptions.handle(self.request, _('Unable to retrieve consistency group ' 'details.'), redirect=reverse(INDEX_URL)) return cgroup def get_initial(self): cgroup = self._get_object() return {'cgroup_id': cgroup.id, 'name': cgroup.name, 'description': cgroup.description, 'vtypes': getattr(cgroup, "volume_types")} class CreateSnapshotView(forms.ModalFormView): form_class = vol_cgroup_forms.CreateSnapshotForm page_title = _("Create Consistency Group Snapshot") template_name = 'project/cgroups/create_snapshot.html' submit_label = _("Create Snapshot") submit_url = "horizon:project:cgroups:create_snapshot" success_url = reverse_lazy('horizon:project:cg_snapshots:index') def get_context_data(self, **kwargs): context = super(CreateSnapshotView, self).get_context_data(**kwargs) context['cgroup_id'] = self.kwargs['cgroup_id'] args = (self.kwargs['cgroup_id'],) context['submit_url'] = reverse(self.submit_url, args=args) try: # get number of snapshots we will be creating search_opts = {'consistencygroup_id': context['cgroup_id']} volumes = api.cinder.volume_list(self.request, search_opts=search_opts) num_volumes = len(volumes) usages = quotas.tenant_limit_usages(self.request) if usages['snapshotsUsed'] + num_volumes > \ usages['maxTotalSnapshots']: raise ValueError(_('Unable to create snapshots due to ' 'exceeding snapshot quota limit.')) else: usages['numRequestedItems'] = num_volumes context['usages'] = usages except ValueError as e: exceptions.handle(self.request, e.message) return None except Exception: exceptions.handle(self.request, _('Unable to retrieve consistency ' 'group information.')) return context def get_initial(self): return {'cgroup_id': self.kwargs["cgroup_id"]} class CloneCGroupView(forms.ModalFormView): form_class = vol_cgroup_forms.CloneCGroupForm page_title = _("Clone Consistency Group") template_name = 'project/cgroups/clone_cgroup.html' submit_label = _("Clone Consistency Group") submit_url = "horizon:project:cgroups:clone_cgroup" success_url = reverse_lazy('horizon:project:cgroups:index') def get_context_data(self, **kwargs): context = super(CloneCGroupView, self).get_context_data(**kwargs) context['cgroup_id'] = self.kwargs['cgroup_id'] args = (self.kwargs['cgroup_id'],) context['submit_url'] = reverse(self.submit_url, args=args) try: # get number of volumes we will be creating cgroup_id = context['cgroup_id'] search_opts = {'consistencygroup_id': cgroup_id} volumes = api.cinder.volume_list(self.request, search_opts=search_opts) num_volumes = len(volumes) usages = quotas.tenant_limit_usages(self.request) if usages['volumesUsed'] + num_volumes > \ usages['maxTotalVolumes']: raise ValueError(_('Unable to create consistency group due to ' 'exceeding volume quota limit.')) else: usages['numRequestedItems'] = num_volumes context['usages'] = usages except ValueError as e: exceptions.handle(self.request, e.message) return None except Exception: exceptions.handle(self.request, _('Unable to retrieve consistency ' 'group information.')) return context def get_initial(self): return {'cgroup_id': self.kwargs["cgroup_id"]} class DetailView(tabs.TabView): tab_group_class = vol_cgroup_tabs.CGroupsDetailTabs template_name = 'horizon/common/_detail.html' page_title = "{{ cgroup.name|default:cgroup.id }}" def get_context_data(self, **kwargs): context = super(DetailView, self).get_context_data(**kwargs) cgroup = self.get_data() table = vol_cgroup_tables.VolumeCGroupsTable(self.request) context["cgroup"] = cgroup context["url"] = self.get_redirect_url() context["actions"] = table.render_row_actions(cgroup) return context @memoized.memoized_method def get_data(self): try: cgroup_id = self.kwargs['cgroup_id'] cgroup = api.cinder.volume_cgroup_get(self.request, cgroup_id) cgroup.volume_type_names = [] for vol_type_id in cgroup.volume_types: vol_type = api.cinder.volume_type_get(self.request, vol_type_id) cgroup.volume_type_names.append(vol_type.name) cgroup.volume_names = [] search_opts = {'consistencygroup_id': cgroup_id} volumes = api.cinder.volume_list(self.request, search_opts=search_opts) for volume in volumes: cgroup.volume_names.append(volume.name) except Exception: redirect = self.get_redirect_url() exceptions.handle(self.request, _('Unable to retrieve consistency group ' 'details.'), redirect=redirect) return cgroup @staticmethod def get_redirect_url(): return reverse('horizon:project:cgroups:index') def get_tabs(self, request, *args, **kwargs): cgroup = self.get_data() return self.tab_group_class(request, cgroup=cgroup, **kwargs)
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'use strict'; /** * @class * Initializes a new instance of the ResourceMetricName class. * @constructor * Name of a metric for any resource . * * @member {string} [value] metric name value. * * @member {string} [localizedValue] Localized metric name value. * */ class ResourceMetricName { constructor() { } /** * Defines the metadata of ResourceMetricName * * @returns {object} metadata of ResourceMetricName * */ mapper() { return { required: false, serializedName: 'ResourceMetricName', type: { name: 'Composite', className: 'ResourceMetricName', modelProperties: { value: { required: false, readOnly: true, serializedName: 'value', type: { name: 'String' } }, localizedValue: { required: false, readOnly: true, serializedName: 'localizedValue', type: { name: 'String' } } } } }; } } module.exports = ResourceMetricName;
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/** * This class hierarchy was generated from the Yang module hcta-epc * by the <a target="_top" href="https://github.com/tail-f-systems/JNC">JNC</a> plugin of <a target="_top" href="http://code.google.com/p/pyang/">pyang</a>. * The generated classes may be used to manipulate pieces of configuration data * with NETCONF operations such as edit-config, delete-config and lock. These * operations are typically accessed through the JNC Java library by * instantiating Device objects and setting up NETCONF sessions with real * devices using a compatible YANG model. * <p> * @see <a target="_top" href="https://github.com/tail-f-systems/JNC">JNC project page</a> * @see <a target="_top" href="ftp://ftp.rfc-editor.org/in-notes/rfc6020.txt">RFC 6020: YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)</a> * @see <a target="_top" href="ftp://ftp.rfc-editor.org/in-notes/rfc6241.txt">RFC 6241: Network Configuration Protocol (NETCONF)</a> * @see <a target="_top" href="ftp://ftp.rfc-editor.org/in-notes/rfc6242.txt">RFC 6242: Using the NETCONF Protocol over Secure Shell (SSH)</a> * @see <a target="_top" href="http://www.tail-f.com">Tail-f Systems</a> */ package hctaEpc.mmeSgsn.statistics.sd;
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<? require_once 'data.php'; class Member extends BaseObject { }
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$modulePath = Resolve-Path -Path "$PSScriptRoot\..\..\.." | Select-Object -ExpandProperty Path $moduleName = Resolve-Path -Path "$PSScriptRoot\..\.." | Get-Item | Select-Object -ExpandProperty BaseName Remove-Module -Name $moduleName -Force -ErrorAction SilentlyContinue Import-Module -Name "$modulePath\$moduleName" -Force Describe 'Get-SecurityAuditPolicy' { Copy-Item -Path "$PSScriptRoot\TestData" -Destination 'TestDrive:\' -Recurse Mock 'Invoke-AuditPolGetCategoryAllCsv' -ModuleName $ModuleName { Get-Content -Path 'TestDrive:\TestData\auditpol-getcategoryall.csv' | Write-Output } Mock 'Invoke-AuditPolListSubcategoryAllCsv' -ModuleName $ModuleName { Get-Content -Path 'TestDrive:\TestData\auditpol-listsubcategoryall.csv' | Write-Output } Mock 'Test-AdministratorRole' -ModuleName $ModuleName { return $true } Context 'Verify Output' { It 'should return all audit policies' { $auditPolicies = Get-SecurityAuditPolicy $auditPolicies.Count | Should Be 53 } It 'should parse category and subcategory' { $auditPolicies = Get-SecurityAuditPolicy $auditPolicies[0].ComputerName | Should Be 'PC' $auditPolicies[0].Category | Should Be 'System' $auditPolicies[0].CategoryGuid | Should Be '{69979848-797A-11D9-BED3-505054503030}' $auditPolicies[0].Subcategory | Should Be 'Security State Change' $auditPolicies[0].SubcategoryGuid | Should Be '{0CCE9210-69AE-11D9-BED3-505054503030}' $auditPolicies[21].ComputerName | Should Be 'PC' $auditPolicies[21].Category | Should Be 'Object Access' $auditPolicies[21].CategoryGuid | Should Be '{6997984A-797A-11D9-BED3-505054503030}' $auditPolicies[21].Subcategory | Should Be 'File Share' $auditPolicies[21].SubcategoryGuid | Should Be '{0CCE9224-69AE-11D9-BED3-505054503030}' $auditPolicies[52].ComputerName | Should Be 'PC' $auditPolicies[52].Category | Should Be 'Account Logon' $auditPolicies[52].CategoryGuid | Should Be '{69979850-797A-11D9-BED3-505054503030}' $auditPolicies[52].Subcategory | Should Be 'Kerberos Authentication Service' $auditPolicies[52].SubcategoryGuid | Should Be '{0CCE9242-69AE-11D9-BED3-505054503030}' } It 'should parse "Success and Failure" setting' { $auditPolicy = Get-SecurityAuditPolicy | Where-Object { $_.Category -eq 'System' -and $_.Subcategory -eq 'Security System Extension' } $auditPolicy.AuditSuccess | Should Be $true $auditPolicy.AuditFailure | Should Be $true } It 'should parse "No Auditing" setting' { $auditPolicy = Get-SecurityAuditPolicy | Where-Object { $_.Category -eq 'Logon/Logoff' -and $_.Subcategory -eq 'Account Lockout' } $auditPolicy.AuditSuccess | Should Be $false $auditPolicy.AuditFailure | Should Be $false } It 'should parse "Success" setting' { $auditPolicy = Get-SecurityAuditPolicy | Where-Object { $_.Category -eq 'Account Logon' -and $_.Subcategory -eq 'Credential Validation' } $auditPolicy.AuditSuccess | Should Be $true $auditPolicy.AuditFailure | Should Be $false } It 'should parse "Failure" setting' { $auditPolicy = Get-SecurityAuditPolicy | Where-Object { $_.Category -eq 'Object Access' -and $_.Subcategory -eq 'File System' } $auditPolicy.AuditSuccess | Should Be $false $auditPolicy.AuditFailure | Should Be $true } } Context 'Permission' { Mock 'Test-AdministratorRole' -ModuleName $ModuleName { return $false } It 'should throw an exception if not run as administrator' { { Get-SecurityAuditPolicy } | Should Throw } } Context 'Type' { It 'should return as "SecurityFever.AuditPolicy" type' { $auditPolicies = Get-SecurityAuditPolicy ($auditPolicies | Get-Member).TypeName | Select-Object -First 1 | Should Be 'SecurityFever.AuditPolicy' } } }
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#include <map> #include "tensorflow/core/common_runtime/function.h" #include "tensorflow/core/framework/dataset.h" #include "tensorflow/core/framework/partial_tensor_shape.h" #include "tensorflow/core/framework/tensor.h" #include "tensorflow/core/kernels/data/captured_function.h" #include "tensorflow/core/kernels/data/window_dataset.h" #include "tensorflow/core/lib/random/random.h" namespace tensorflow { namespace data { namespace { // See documentation in ../../ops/dataset_ops.cc for a high-level // description of the following op. class GroupByWindowDatasetOp : public UnaryDatasetOpKernel { public: explicit GroupByWindowDatasetOp(OpKernelConstruction* ctx) : UnaryDatasetOpKernel(ctx) { OP_REQUIRES_OK(ctx, ctx->GetAttr("key_func", &key_func_)); OP_REQUIRES_OK(ctx, ctx->GetAttr("reduce_func", &reduce_func_)); OP_REQUIRES_OK(ctx, ctx->GetAttr("window_size_func", &window_size_func_)); OP_REQUIRES_OK(ctx, ctx->GetAttr("output_types", &output_types_)); OP_REQUIRES_OK(ctx, ctx->GetAttr("output_shapes", &output_shapes_)); } void MakeDataset(OpKernelContext* ctx, DatasetBase* input, DatasetBase** output) override { std::unique_ptr<CapturedFunction> captured_key_func; OP_REQUIRES_OK(ctx, CapturedFunction::Create(key_func_, ctx, "key_func_other_arguments", &captured_key_func)); std::unique_ptr<CapturedFunction> captured_reduce_func; OP_REQUIRES_OK(ctx, CapturedFunction::Create(reduce_func_, ctx, "reduce_func_other_arguments", &captured_reduce_func)); std::unique_ptr<CapturedFunction> captured_window_size_func; OP_REQUIRES_OK(ctx, CapturedFunction::Create(window_size_func_, ctx, "window_size_func_other_arguments", &captured_window_size_func)); *output = new Dataset( ctx, input, key_func_, reduce_func_, window_size_func_, std::move(captured_key_func), std::move(captured_reduce_func), std::move(captured_window_size_func), output_types_, output_shapes_); } private: class Dataset : public DatasetBase { public: Dataset(OpKernelContext* ctx, const DatasetBase* input, const NameAttrList& key_func, const NameAttrList& reduce_func, const NameAttrList& window_size_func, std::unique_ptr<CapturedFunction> captured_key_func, std::unique_ptr<CapturedFunction> captured_reduce_func, std::unique_ptr<CapturedFunction> captured_window_size_func, const DataTypeVector& output_types, const std::vector<PartialTensorShape>& output_shapes) : DatasetBase(DatasetContext(ctx)), input_(input), key_func_(key_func), reduce_func_(reduce_func), window_size_func_(window_size_func), captured_key_func_(std::move(captured_key_func)), captured_reduce_func_(std::move(captured_reduce_func)), captured_window_size_func_(std::move(captured_window_size_func)), output_types_(output_types), output_shapes_(output_shapes) { input_->Ref(); } ~Dataset() override { input_->Unref(); } std::unique_ptr<IteratorBase> MakeIteratorInternal( const string& prefix) const override { return absl::make_unique<Iterator>( Iterator::Params{this, strings::StrCat(prefix, "::GroupByWindow")}); } const DataTypeVector& output_dtypes() const override { return output_types_; } const std::vector<PartialTensorShape>& output_shapes() const override { return output_shapes_; } string DebugString() const override { return "GroupByWindowDatasetOp::Dataset"; } protected: Status AsGraphDefInternal(SerializationContext* ctx, DatasetGraphDefBuilder* b, Node** output) const override { TF_RETURN_IF_ERROR(b->AddFunction(ctx, key_func_.name())); TF_RETURN_IF_ERROR(b->AddFunction(ctx, reduce_func_.name())); TF_RETURN_IF_ERROR(b->AddFunction(ctx, window_size_func_.name())); Node* input_graph_node = nullptr; TF_RETURN_IF_ERROR(b->AddInputDataset(ctx, input_, &input_graph_node)); std::vector<Node*> key_func_other_arguments_node; DataTypeVector key_func_other_arguments_types; TF_RETURN_IF_ERROR(OtherArgumentsNodeAndType( ctx, b, captured_key_func_, &key_func_other_arguments_node, &key_func_other_arguments_types)); std::vector<Node*> reduce_func_other_arguments_node; DataTypeVector reduce_func_other_arguments_types; TF_RETURN_IF_ERROR(OtherArgumentsNodeAndType( ctx, b, captured_reduce_func_, &reduce_func_other_arguments_node, &reduce_func_other_arguments_types)); std::vector<Node*> window_size_func_other_arguments_node; DataTypeVector window_size_func_other_arguments_types; TF_RETURN_IF_ERROR( OtherArgumentsNodeAndType(ctx, b, captured_window_size_func_, &window_size_func_other_arguments_node, &window_size_func_other_arguments_types)); AttrValue key_func; b->BuildAttrValue(key_func_, &key_func); AttrValue reduce_func; b->BuildAttrValue(reduce_func_, &reduce_func); AttrValue window_size_func; b->BuildAttrValue(window_size_func_, &window_size_func); AttrValue key_func_other_arguments_types_attr; b->BuildAttrValue(key_func_other_arguments_types, &key_func_other_arguments_types_attr); AttrValue reduce_func_other_arguments_types_attr; b->BuildAttrValue(reduce_func_other_arguments_types, &reduce_func_other_arguments_types_attr); AttrValue window_size_func_other_arguments_types_attr; b->BuildAttrValue(window_size_func_other_arguments_types, &window_size_func_other_arguments_types_attr); TF_RETURN_IF_ERROR(b->AddDataset( this, {{0, input_graph_node}}, {{1, key_func_other_arguments_node}, {2, reduce_func_other_arguments_node}, {3, window_size_func_other_arguments_node}}, {{"key_func", key_func}, {"reduce_func", reduce_func}, {"window_size_func", window_size_func}, {"Tkey_func_other_arguments", key_func_other_arguments_types_attr}, {"Treduce_func_other_arguments", reduce_func_other_arguments_types_attr}, {"Twindow_size_func_other_arguments", window_size_func_other_arguments_types_attr}}, output)); return Status::OK(); } private: class Iterator : public DatasetIterator<Dataset> { public: explicit Iterator(const Params& params) : DatasetIterator<Dataset>(params) {} Status Initialize(IteratorContext* ctx) override { TF_RETURN_IF_ERROR( dataset()->input_->MakeIterator(ctx, prefix(), &input_impl_)); TF_RETURN_IF_ERROR(dataset()->captured_key_func_->Instantiate( ctx, &instantiated_key_func_)); TF_RETURN_IF_ERROR(dataset()->captured_reduce_func_->Instantiate( ctx, &instantiated_reduce_func_)); TF_RETURN_IF_ERROR(dataset()->captured_window_size_func_->Instantiate( ctx, &instantiated_window_size_func_)); return Status::OK(); } Status GetNextInternal(IteratorContext* ctx, std::vector<Tensor>* out_tensors, bool* end_of_sequence) override { mutex_lock l(mu_); do { if (current_group_iterator_) { // We are currently processing a group, so try to get the // next element. bool end_of_group; TF_RETURN_IF_ERROR(current_group_iterator_->GetNext( ctx, out_tensors, &end_of_group)); if (!end_of_group) { // Produce the subelement as output. *end_of_sequence = false; return Status::OK(); } // We have reached the end of the current group, so maybe move on // to the next group. current_group_iterator_.reset(); groups_.erase(current_key_); } // Iterate through the input dataset until we get a full // group, or reach the end. while (!end_of_input_) { std::vector<Tensor> next_input_element; TF_RETURN_IF_ERROR( input_impl_->GetNext(ctx, &next_input_element, &end_of_input_)); if (!end_of_input_) { // Run the key function on the input element to identify its // group. std::vector<Tensor> key_func_output; TF_RETURN_IF_ERROR(instantiated_key_func_->RunWithBorrowedArgs( ctx, next_input_element, &key_func_output)); if (key_func_output.size() != 1 || key_func_output[0].dtype() != DT_INT64 || key_func_output[0].NumElements() != 1) { // TODO(b/78665031): Support non-int64 keys. return errors::InvalidArgument( "`key_func` must return a scalar int64."); } const int64 key = key_func_output[0].scalar<int64>()(); if (window_sizes_.find(key) == window_sizes_.end()) { // Run the window size function on the key to identify its // window size. std::vector<Tensor> window_size_func_output; TF_RETURN_IF_ERROR(instantiated_window_size_func_->Run( ctx, std::move(key_func_output), &window_size_func_output)); if (window_size_func_output.size() != 1 || window_size_func_output[0].dtype() != DT_INT64 || window_size_func_output[0].NumElements() != 1) { // TODO(mrry): Support non-int64 window sizes. return errors::InvalidArgument( "`window_size_func` must return a scalar int64."); } const int64 window_size = window_size_func_output[0].scalar<int64>()(); if (window_size <= 0) { return errors::InvalidArgument( "Window size must be greater than zero, but got ", window_size, "."); } window_sizes_[key] = window_size; } const int64 window_size = window_sizes_[key]; std::vector<std::vector<Tensor>>& group = groups_[key]; group.push_back(std::move(next_input_element)); if (group.size() == window_size) { current_key_ = key; TF_RETURN_IF_ERROR(StartFlushingGroup(ctx, key)); break; } } } if (end_of_input_) { if (!groups_.empty()) { // We have consumed all of the input, so flush an // arbitrarily chosen group. current_key_ = groups_.begin()->first; TF_RETURN_IF_ERROR( StartFlushingGroup(ctx, groups_.begin()->first)); } } } while (current_group_iterator_ || !end_of_input_); *end_of_sequence = true; return Status::OK(); } protected: std::shared_ptr<model::Node> CreateNode( IteratorContext* ctx, model::Node::Args args) const override { return model::MakeUnknownRatioNode(std::move(args)); } Status SaveInternal(IteratorStateWriter* writer) override { mutex_lock l(mu_); TF_RETURN_IF_ERROR(SaveInput(writer, input_impl_)); if (end_of_input_) { TF_RETURN_IF_ERROR( writer->WriteScalar(full_name("end_of_input"), "")); } // Saving groups_ if (!groups_.empty()) { TF_RETURN_IF_ERROR( writer->WriteScalar(full_name("groups_size"), groups_.size())); int idx = 0; for (auto it = groups_.begin(); it != groups_.end(); it++) { int64 key = it->first; TF_RETURN_IF_ERROR(writer->WriteScalar( full_name(strings::StrCat("groups_[", idx, "]->key")), key)); TF_RETURN_IF_ERROR(SaveGroup( writer, full_name(strings::StrCat("groups_[", idx, "]")), it->second)); idx++; } } // Saving window_sizes_ if (!window_sizes_.empty()) { TF_RETURN_IF_ERROR(writer->WriteScalar(full_name("window_sizes_size"), window_sizes_.size())); int idx = 0; for (auto it = window_sizes_.begin(); it != window_sizes_.end(); it++) { TF_RETURN_IF_ERROR(writer->WriteScalar( full_name(strings::StrCat("window_sizes_[", idx, "]->key")), it->first)); TF_RETURN_IF_ERROR(writer->WriteScalar( full_name(strings::StrCat("window_sizes_[", idx, "]->value")), it->second)); idx++; } } if (current_group_iterator_) { TF_RETURN_IF_ERROR(SaveInput(writer, current_group_iterator_)); // Saving current_key_ TF_RETURN_IF_ERROR( writer->WriteScalar(full_name("current_key"), current_key_)); } else { TF_RETURN_IF_ERROR(writer->WriteScalar( full_name("current_iterator_not_initialized"), "")); } return Status::OK(); } Status RestoreInternal(IteratorContext* ctx, IteratorStateReader* reader) override { mutex_lock l(mu_); TF_RETURN_IF_ERROR(RestoreInput(ctx, reader, input_impl_)); if (reader->Contains(full_name("end_of_input"))) end_of_input_ = true; // Restoring groups if (reader->Contains(full_name("groups_size"))) { int64 size; TF_RETURN_IF_ERROR( reader->ReadScalar(full_name("groups_size"), &size)); for (int idx = 0; idx < size; idx++) { int64 key; TF_RETURN_IF_ERROR(reader->ReadScalar( full_name(strings::StrCat("groups_[", idx, "]->key")), &key)); std::vector<std::vector<Tensor>> group; TF_RETURN_IF_ERROR(RestoreGroup( reader, full_name(strings::StrCat("groups_[", idx, "]")), &group)); groups_[key] = group; } } // Restoring Windows if (reader->Contains(full_name("window_sizes_size"))) { int64 size; TF_RETURN_IF_ERROR( reader->ReadScalar(full_name("window_sizes_size"), &size)); for (int idx = 0; idx < size; idx++) { int64 key; TF_RETURN_IF_ERROR(reader->ReadScalar( full_name(strings::StrCat("window_sizes_[", idx, "]->key")), &key)); TF_RETURN_IF_ERROR(reader->ReadScalar( full_name(strings::StrCat("window_sizes_[", idx, "]->value")), &window_sizes_[key])); } } if (reader->Contains(full_name("current_iterator_not_initialized"))) { current_group_iterator_.reset(); } else { // Restore current_key_ TF_RETURN_IF_ERROR( reader->ReadScalar(full_name("current_key"), &current_key_)); // Initialize current_group_iterator_ TF_RETURN_IF_ERROR(StartFlushingGroup(ctx, current_key_)); // Restore current_group_iterator_ state TF_RETURN_IF_ERROR( RestoreInput(ctx, reader, current_group_iterator_)); } return Status::OK(); } private: Status SaveGroup(IteratorStateWriter* writer, const string& name, const std::vector<std::vector<Tensor>>& group) EXCLUSIVE_LOCKS_REQUIRED(mu_) { TF_RETURN_IF_ERROR( writer->WriteScalar(strings::StrCat(name, "_size"), group.size())); for (int i = 0; i < group.size(); i++) { TF_RETURN_IF_ERROR(writer->WriteScalar( strings::StrCat(name, "[", i, "]_size"), group[i].size())); for (int j = 0; j < group[i].size(); j++) { TF_RETURN_IF_ERROR(writer->WriteTensor( strings::StrCat(name, "[", i, "][", j, "]"), group[i][j])); } } return Status::OK(); } Status RestoreGroup(IteratorStateReader* reader, const string& name, std::vector<std::vector<Tensor>>* group) EXCLUSIVE_LOCKS_REQUIRED(mu_) { int64 group_size; TF_RETURN_IF_ERROR( reader->ReadScalar(strings::StrCat(name, "_size"), &group_size)); group->resize(group_size); for (int i = 0; i < group_size; i++) { int64 vector_size; TF_RETURN_IF_ERROR(reader->ReadScalar( strings::StrCat(name, "[", i, "]_size"), &vector_size)); group->at(i).resize(vector_size); for (int j = 0; j < vector_size; j++) { TF_RETURN_IF_ERROR(reader->ReadTensor( strings::StrCat(name, "[", i, "][", j, "]"), &group->at(i)[j])); } } return Status::OK(); } Status StartFlushingGroup(IteratorContext* ctx, int64 key) EXCLUSIVE_LOCKS_REQUIRED(mu_) { DatasetBase* group_dataset; TF_RETURN_IF_ERROR(NewWindowDataset( groups_[key], dataset()->input_->output_dtypes(), dataset()->input_->output_shapes(), &group_dataset)); Tensor key_arg(DT_INT64, TensorShape({})); key_arg.scalar<int64>()() = key; Tensor group_dataset_arg(DT_VARIANT, TensorShape({})); TF_RETURN_IF_ERROR( StoreDatasetInVariantTensor(group_dataset, &group_dataset_arg)); std::vector<Tensor> args( {std::move(key_arg), std::move(group_dataset_arg)}); std::vector<Tensor> return_values; TF_RETURN_IF_ERROR(instantiated_reduce_func_->Run(ctx, std::move(args), &return_values)); if (!(return_values.size() == 1 && return_values[0].dtype() == DT_VARIANT && TensorShapeUtils::IsScalar(return_values[0].shape()))) { return errors::InvalidArgument( "`reduce_func` must return a single scalar of dtype " "DT_VARIANT."); } // Retrieve the dataset that was created in `f`. // `returned_dataset` is borrowed from the `return_values[0]`. DatasetBase* returned_dataset; TF_RETURN_IF_ERROR( GetDatasetFromVariantTensor(return_values[0], &returned_dataset)); // Create an iterator for the dataset that was returned by `f`. return returned_dataset->MakeIterator(ctx, prefix(), &current_group_iterator_); } mutex mu_; std::unique_ptr<IteratorBase> input_impl_ GUARDED_BY(mu_); // TODO(mrry): Optimize for dense key space if appropriate. bool end_of_input_ GUARDED_BY(mu_) = false; int64 current_key_ GUARDED_BY(mu_); std::map<int64, std::vector<std::vector<Tensor>>> groups_ GUARDED_BY(mu_); std::unique_ptr<IteratorBase> current_group_iterator_ GUARDED_BY(mu_); std::map<int64, int64> window_sizes_ GUARDED_BY(mu_); std::unique_ptr<InstantiatedCapturedFunction> instantiated_key_func_; std::unique_ptr<InstantiatedCapturedFunction> instantiated_reduce_func_; std::unique_ptr<InstantiatedCapturedFunction> instantiated_window_size_func_; }; Status OtherArgumentsNodeAndType( SerializationContext* ctx, DatasetGraphDefBuilder* b, const std::unique_ptr<CapturedFunction>& captured_func, std::vector<Node*>* other_arguments_node, DataTypeVector* other_arguments_types) const { other_arguments_node->reserve(captured_func->captured_inputs().size()); other_arguments_types->reserve(captured_func->captured_inputs().size()); for (const Tensor& t : captured_func->captured_inputs()) { Node* node; DatasetBase* input; Status s = GetDatasetFromVariantTensor(t, &input); if (s.ok()) { TF_RETURN_IF_ERROR(b->AddInputDataset(ctx, input, &node)); } else { TF_RETURN_IF_ERROR(b->AddTensor(t, &node)); } other_arguments_node->emplace_back(node); other_arguments_types->emplace_back(t.dtype()); } return Status::OK(); } const DatasetBase* const input_; const NameAttrList key_func_; const NameAttrList reduce_func_; const NameAttrList window_size_func_; const std::unique_ptr<CapturedFunction> captured_key_func_; const std::unique_ptr<CapturedFunction> captured_reduce_func_; const std::unique_ptr<CapturedFunction> captured_window_size_func_; const DataTypeVector output_types_; const std::vector<PartialTensorShape> output_shapes_; }; DataTypeVector output_types_; std::vector<PartialTensorShape> output_shapes_; NameAttrList key_func_; NameAttrList reduce_func_; NameAttrList window_size_func_; }; REGISTER_KERNEL_BUILDER( Name("ExperimentalGroupByWindowDataset").Device(DEVICE_CPU), GroupByWindowDatasetOp); } // namespace } // namespace data } // namespace tensorflow
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package edu.mit.kacquah.deckviewer.action.exec; import java.awt.Point; import java.util.LinkedList; import processing.core.PApplet; import edu.mit.kacquah.deckviewer.deckobjects.FlyingObject; import edu.mit.kacquah.deckviewer.environment.Deck; import edu.mit.kacquah.deckviewer.environment.ParkingRegion; import edu.mit.kacquah.deckviewer.environment.ParkingRegion.ParkingRegionType; import edu.mit.kacquah.deckviewer.environment.ParkingSpot; import edu.mit.kacquah.deckviewer.game.DeckViewerPApplet; import edu.mit.kacquah.deckviewer.game.GlobalSettings; import edu.mit.kacquah.deckviewer.gui.shape.BlinkingCircle; import edu.mit.kacquah.deckviewer.gui.shape.StraightLineArrow; import edu.mit.kacquah.deckviewer.speech.synthesis.SpeechGraph; import edu.mit.kacquah.deckviewer.speech.synthesis.SpeechNode; import edu.mit.kacquah.deckviewer.utils.ColorUtil; import edu.mit.kacquah.deckviewer.utils.RenderGroup; /** * Action for finding an alternate destination for aircraft being moved on deck. * Note, this currently only supports moving one aircraft. * TODO(KoolJBlack) Update this to handle multiple aircraft re-routing. * @author kojo * */ public class FindAlternateTargetAction extends SpeechGraph implements ExecAction { // ---------------------------Speech Nodes------------------------------------ private class PreProcessTarget extends SpeechNode { public PreProcessTarget(SpeechGraph speechGraph) { super(speechGraph); this.speechText = null; } @Override public void preSpeechProcess() { calculateAlternateParkingSpots(); // Start the render pipeline parentGraph.setNextSpeechNode(new RenderBlocked(parentGraph)); yieldNext(); } @Override public void postSpeechProcess() { // Not called } /** * Determines alternate spots and regions for parked aircraft by looking up * closest free parking spots. */ private void calculateAlternateParkingSpots() { // Find the closest spots in the parking region target Point centroid = moveToParkingRegion.getCentroid(); LinkedList<ParkingSpot> blockSpots = new LinkedList<ParkingSpot>(); for (ParkingSpot spot: moveToParkingSpots) { if (spot != null) { blockSpots.add(spot); } } alternateParkingSpots = Deck.getInstance().closestFreeParkingSpots( centroid, numNullSpots, blockSpots, ParkingRegionType.CATAPULT_ELEVATOR_TYPES); // Get the names of the alternate parking region alternateParkingRegions = new LinkedList<ParkingRegion>(); for (ParkingSpot spot: alternateParkingSpots) { if (!alternateParkingRegions.contains(spot.parkingRegion())) { alternateParkingRegions.add(spot.parkingRegion()); } } } } private class RenderBlocked extends SpeechNode { public RenderBlocked(SpeechGraph speechGraph) { super(speechGraph); } @Override public void preSpeechProcess() { // Explain block spots. this.speechText = "Sorry, there is not enough room on the " + moveToParkingRegion.name(); // Highlight all parking spots in the target region for (ParkingSpot spot: moveToParkingRegion.parkingSpots()) { BlinkingCircle circle = new BlinkingCircle(spot.center, GlobalSettings.AIRCRAFT_RADIUS, ColorUtil.RED, true); renderGroup.addRenderObject(circle); } DeckViewerPApplet.getInstance().renderStack().addRenderGroup(renderGroup); yieldWait(); } @Override public void postSpeechProcess() { DeckViewerPApplet.getInstance().renderStack().removeRenderGroup(renderGroup); renderGroup.clear(); parentGraph.setNextSpeechNode(new RenderAlternate(parentGraph)); yieldNext(); } } private class RenderAlternate extends SpeechNode { public RenderAlternate(SpeechGraph speechGraph) { super(speechGraph); } @Override public void preSpeechProcess() { // Explain block spots. We assume there is only one parking region. this.speechText = "The next closest spot is at the " + alternateParkingRegions.get(0).name() + ". Shall I move the aircraft there instead?"; // Render the alternate placement Point center = alternateParkingSpots.get(0).center; BlinkingCircle circle = new BlinkingCircle(center, GlobalSettings.AIRCRAFT_RADIUS, ColorUtil.BLUE, false); Point start = new Point((int)(moveAircraft.get(0).positionFloat().x), (int)(moveAircraft.get(0).positionFloat().y)); StraightLineArrow lineArrow = new StraightLineArrow(start, center, ColorUtil.BLUE); renderGroup.addRenderObject(circle); renderGroup.addRenderObject(lineArrow); DeckViewerPApplet.getInstance().renderStack().addRenderGroup(renderGroup); yieldAffirmative(); } @Override public void postSpeechProcess() { DeckViewerPApplet.getInstance().renderStack().removeRenderGroup(renderGroup); renderGroup.clear(); // Our next action is based on affirmative response. Affirmative affirmative = parentGraph.getLastAffirmative(); if (affirmative == Affirmative.YES) { parentGraph.setNextSpeechNode(new DoMove(parentGraph)); } else { parentGraph.setNextSpeechNode(new DontDoMove(parentGraph)); } yieldNext(); } } private class DoMove extends SpeechNode { public DoMove(SpeechGraph speechGraph) { super(speechGraph); this.speechText = "Ok Done!"; } @Override public void preSpeechProcess() { // Move aircraft to their destinations for (int i = 0; i < moveAircraft.size(); ++i) { FlyingObject o = moveAircraft.get(i); ParkingSpot p = alternateParkingSpots.get(i); p.park(o); } // Yeild to give confirmation yieldWait(); } @Override public void postSpeechProcess() { yieldDone(); } } private class DontDoMove extends SpeechNode{ public DontDoMove(SpeechGraph speechGraph) { super(speechGraph); this.speechText = "Ok, please give another command."; } @Override public void preSpeechProcess() { yieldWait(); } @Override public void postSpeechProcess() { yieldDone(); } } // ---------------------------Speech Graph------------------------------------ // Parent action stack. private ExecActionStack actionStack; /** * List of aircraft to move. */ private LinkedList<FlyingObject> moveAircraft; /** * List of parking spot destinations corresponding to each move aircraft. */ private LinkedList<ParkingSpot> moveToParkingSpots; private int numNullSpots; /** * Parking regions specified as the target. */ private ParkingRegion moveToParkingRegion; /** * Alternate spots for parking. */ private LinkedList<ParkingSpot> alternateParkingSpots; private LinkedList<ParkingRegion> alternateParkingRegions; /** * Rendering animations. */ private RenderGroup renderGroup; public FindAlternateTargetAction(ExecActionStack actionStack, LinkedList<FlyingObject> moveAircraft, ParkingRegion target, LinkedList<ParkingSpot> moveToParkingSpots, int numNullSpots) { this.actionStack = actionStack; this.moveAircraft = moveAircraft; this.moveToParkingSpots = moveToParkingSpots; this.numNullSpots = numNullSpots; this.moveToParkingRegion = target; this.renderGroup = new RenderGroup(); } @Override protected SpeechNode rootNode() { return new PreProcessTarget(this); } @Override public void update(long elapsedTime) { super.update(elapsedTime); } @Override public void render(PApplet p) { super.render(p); } }
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* [#3](https://github.com/evangelischeomroep/npo-api-interceptor/pull/3) Add possibility to pass in a date (for easier testing), add tests ## 1.2.0 (March 3, 2017) * [#2](https://github.com/evangelischeomroep/npo-api-interceptor/pull/2) Remove the need to polyfill Object.assign() * [#1](https://github.com/evangelischeomroep/npo-api-interceptor/pull/1) Add instructions for usage with jQuery.ajax() ## 1.1.0 (February 27, 2017) * Add the version number to the generated builds * Add development instructions to the README ## 1.0.0 (February 27, 2017) First stable release. ## 0.1.1 - 0.1.6 (February 23, 2017) Fixing the published package. ## 0.1.0 (February 23, 2017) Initial public release.
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<!DOCTYPE html> <html lang="en"> <head> <meta charset="UTF-8"> <title>second-page</title> <script src="trigger-console-messages.js"></script> </head> <body> <h1>Second page</h1> <button id="triggerConsoleMessages2" onclick="triggerConsoleMessages()">Trigger console messages</button> </body> </html>
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FROM balenalib/orangepi-plus2-debian:buster-build RUN apt-get update \ && apt-get install -y --no-install-recommends \ ca-certificates \ curl \ \ # .NET Core dependencies libc6 \ libgcc1 \ libgssapi-krb5-2 \ libicu63 \ libssl1.1 \ libstdc++6 \ zlib1g \ && rm -rf /var/lib/apt/lists/* # Configure web servers to bind to port 80 when present ENV ASPNETCORE_URLS=http://+:80 \ # Enable detection of running in a container DOTNET_RUNNING_IN_CONTAINER=true # Install .NET Core ENV DOTNET_VERSION 3.1.12 RUN curl -SL --output dotnet.tar.gz "https://dotnetcli.blob.core.windows.net/dotnet/Runtime/$DOTNET_VERSION/dotnet-runtime-$DOTNET_VERSION-linux-arm.tar.gz" \ && dotnet_sha512='5d241663ef78720dacd4073f06150e0b1e085cda542436a9319beb3c14fb6dc19ade72caa738ce50d2bdd31e2936858d9f080a2f9ae43856587b165407b47314' \ && echo "$dotnet_sha512 dotnet.tar.gz" | sha512sum -c - \ && mkdir -p /usr/share/dotnet \ && tar -zxf dotnet.tar.gz -C /usr/share/dotnet \ && rm dotnet.tar.gz \ && ln -s /usr/share/dotnet/dotnet /usr/bin/dotnet CMD ["echo","'No CMD command was set in Dockerfile! Details about CMD command could be found in Dockerfile Guide section in our Docs. Here's the link: https://balena.io/docs"] RUN curl -SLO "https://raw.githubusercontent.com/balena-io-library/base-images/8accad6af708fca7271c5c65f18a86782e19f877/scripts/assets/tests/[email protected]" \ && echo "Running test-stack@dotnet" \ && chmod +x [email protected] \ && bash [email protected] \ && rm -rf [email protected] RUN [ ! -d /.balena/messages ] && mkdir -p /.balena/messages; echo 'Here are a few details about this Docker image (For more information please visit https://www.balena.io/docs/reference/base-images/base-images/): \nArchitecture: ARM v7 \nOS: Debian Buster \nVariant: build variant \nDefault variable(s): UDEV=off \nThe following software stack is preinstalled: \ndotnet 3.1-runtime \nExtra features: \n- Easy way to install packages with `install_packages <package-name>` command \n- Run anywhere with cross-build feature (for ARM only) \n- Keep the container idling with `balena-idle` command \n- Show base image details with `balena-info` command' > /.balena/messages/image-info RUN echo '#!/bin/sh.real\nbalena-info\nrm -f /bin/sh\ncp /bin/sh.real /bin/sh\n/bin/sh "$@"' > /bin/sh-shim \ && chmod +x /bin/sh-shim \ && cp /bin/sh /bin/sh.real \ && mv /bin/sh-shim /bin/sh
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(function() { 'use strict'; angular .module('mainApp') .controller('JhiLanguageController', JhiLanguageController); JhiLanguageController.$inject = ['$translate', 'JhiLanguageService', 'tmhDynamicLocale']; function JhiLanguageController ($translate, JhiLanguageService, tmhDynamicLocale) { var vm = this; vm.changeLanguage = changeLanguage; vm.languages = null; JhiLanguageService.getAll().then(function (languages) { vm.languages = languages; }); function changeLanguage (languageKey) { $translate.use(languageKey); tmhDynamicLocale.set(languageKey); } } })();
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(function(root, factory) { if (typeof define === 'function' && define.amd) { // AMD. Register as an anonymous module. define(['ApiClient'], factory); } else if (typeof module === 'object' && module.exports) { // CommonJS-like environments that support module.exports, like Node. module.exports = factory(require('../ApiClient')); } else { // Browser globals (root is window) if (!root.ForgeModelDerivative) { root.ForgeModelDerivative = {}; } root.ForgeModelDerivative.JobPayloadInput = factory(root.ForgeModelDerivative.ApiClient); } }(this, function(ApiClient) { 'use strict'; /** * The JobPayloadInput model module. * @module model/JobPayloadInput * @version 2.0.0 */ /** * Constructs a new <code>JobPayloadInput</code>. * Group of inputs * @alias module:model/JobPayloadInput * @class * @param urn {String} The design URN; returned when uploading the file to Forge The URN needs to be [Base64 (URL Safe) encoded](https://developer.autodesk.com/en/docs/model-derivative/v2/reference/http/job-POST/#id3). */ var exports = function(urn) { var _this = this; _this['urn'] = urn; }; /** * Constructs a <code>JobPayloadInput</code> from a plain JavaScript object, optionally creating a new instance. * Copies all relevant properties from <code>data</code> to <code>obj</code> if supplied or a new instance if not. * @param {Object} data The plain JavaScript object bearing properties of interest. * @param {module:model/JobPayloadInput} obj Optional instance to populate. * @return {module:model/JobPayloadInput} The populated <code>JobPayloadInput</code> instance. */ exports.constructFromObject = function(data, obj) { if (data) { obj = obj || new exports(); if (data.hasOwnProperty('urn')) { obj['urn'] = ApiClient.convertToType(data['urn'], 'String'); } if (data.hasOwnProperty('compressedUrn')) { obj['compressedUrn'] = ApiClient.convertToType(data['compressedUrn'], 'Boolean'); } if (data.hasOwnProperty('rootFilename')) { obj['rootFilename'] = ApiClient.convertToType(data['rootFilename'], 'String'); } } return obj; } /** * The design URN; returned when uploading the file to Forge The URN needs to be [Base64 (URL Safe) encoded](https://developer.autodesk.com/en/docs/model-derivative/v2/reference/http/job-POST/#id3). * @member {String} urn */ exports.prototype['urn'] = undefined; /** * Set this to `true` if the source file is compressed. If set to `true`, you need to define the `rootFilename`. * @member {Boolean} compressedUrn * @default false */ exports.prototype['compressedUrn'] = false; /** * The root filename of the compressed file. Mandatory if the `compressedUrn` is set to `true`. * @member {String} rootFilename */ exports.prototype['rootFilename'] = undefined; return exports; }));
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package com.jakewharton.u2020.data; import android.app.Application; import android.content.SharedPreferences; import android.net.Uri; import com.jakewharton.u2020.data.api.ApiModule; import com.squareup.okhttp.HttpResponseCache; import com.squareup.okhttp.OkHttpClient; import com.squareup.picasso.OkHttpDownloader; import com.squareup.picasso.Picasso; import dagger.Module; import dagger.Provides; import java.io.File; import java.io.IOException; import javax.inject.Singleton; import timber.log.Timber; import static android.content.Context.MODE_PRIVATE; @Module( includes = ApiModule.class, complete = false, library = true ) public final class DataModule { static final int DISK_CACHE_SIZE = 50 * 1024 * 1024; // 50MB @Provides @Singleton SharedPreferences provideSharedPreferences(Application app) { return app.getSharedPreferences("u2020", MODE_PRIVATE); } @Provides @Singleton OkHttpClient provideOkHttpClient(Application app) { return createOkHttpClient(app); } @Provides @Singleton Picasso providePicasso(Application app, OkHttpClient client) { return new Picasso.Builder(app) .downloader(new OkHttpDownloader(client)) .listener(new Picasso.Listener() { @Override public void onImageLoadFailed(Picasso picasso, Uri uri, Exception e) { Timber.e(e, "Failed to load image: %s", uri); } }) .build(); } static OkHttpClient createOkHttpClient(Application app) { OkHttpClient client = new OkHttpClient(); // Install an HTTP cache in the application cache directory. try { File cacheDir = new File(app.getCacheDir(), "http"); HttpResponseCache cache = new HttpResponseCache(cacheDir, DISK_CACHE_SIZE); client.setResponseCache(cache); } catch (IOException e) { Timber.e(e, "Unable to install disk cache."); } return client; } }
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/* @flow */ import express, { Router } from 'express'; const app = express(); // $FlowExpectedError property `foo` Property not found in Application: app.foo(); app.locals.title = 'My Express App'; // $FlowExpectedError Symbol: This type is incompatible with string app.locals[Symbol('bad')] = 'Should not work'; // $FlowExpectedError const num: number = app.mountpath; const myRouter = new express.Router(); myRouter.use('/dang', (req, res: express$Response, next: express$NextFunction) => { res.set('My Header', 'Value'); res.header('Another-Header', 'different value'); res.set({'third-header': '123', 'forth-header': 'abc'}); res.header({'fifth-header': '456', 'sixth-header': 'def'}); res.status(200); res.render('someTemplate', {}, (err, html: ?string) => null); res.render('someTemplate', (err, html: ?string) => null); // $FlowExpectedError String: This type is incompatible with Function | {[name: string]: mixed} res.render('someTemplate', 'Error'); // $FlowExpectedError res.sendFile('/myfile.txt', { dotfiles: 'none' }) // $FlowExpectedError next('Error'); }); function handleRequest<MiddleWare>(req: express$Request, res: express$Response, next: express$NextFunction): void { (Math.random() >= 0.5 ? Promise.resolve({ books: ['Catcher and the Rye'] }) : Promise.reject(new Error('Something went wrong'))) .then((data) => { res.json(data); }) .catch((err) => { next(err); }); } myRouter.use(handleRequest, (err: Error, req: express$Request, res: express$Response, next: express$NextFunction): void => { console.error(err); next(err); }); app.on('mount', (parent: express$Application<>) => { console.log('Parent Loaded', parent); // $FlowExpectedError parent.fail(); }) app.use('/foo', (req: express$Request, res: express$Response, next) => { // $FlowExpectedError res.status('400'); res.send('should work') .status(300); }); const bar: express$Router<> = new Router(); bar.get('/', (req: express$Request, res: express$Response): void => { // $FlowExpectedError should be of type object const locals: Array<any> = res.locals; res.locals.title = 'Home Page'; // $FlowExpectedError should not allow to set keys to non string value. res.locals[0] = 'Fail'; res.send('bar') .status(200); }); app.use('/bar', bar) app.listen(9000); app.listen(9001, '127.0.0.1'); app.listen(9002, '127.0.0.1', 256); app.listen(9003, '127.0.0.1', 256, () => { console.log('Example app listening on port 9003!'); }); app.listen(9004, () => { console.log('Example app listening on port 9004!'); }); // $FlowExpectedError backlog should be number app.listen(9005, '127.0.0.1', '256', () => { console.log('Example app listening on port 9005!'); }) app.set('foo'); app.get('foo'); // $FlowExpectedError app.enable(100); // $FlowExpectedError const f: number = app.enabled('100'); const g: express$Application<> = app.enable('foo'); app.render('view', { title: 'News Feed' }, (err: ?Error, html: ?string): void => { if (err) return console.log(err); console.log(html); }); app.use('/somewhere', (req: express$Request, res: express$Response) => { res.redirect('/somewhere-else'); }); app.use('/again', (req: express$Request, res: express$Response) => { res.redirect(200, '/different'); }); app.use('/something', (req: express$Request, res: express$Response) => { // $FlowExpectedError res.redirect('/different', 200); }); // False positive since 0.39 // app.use('/failure', (req: express$Request, res: express$Response) => { // res.redirect(); // }); app.use((err: Error, req: express$Request, res: express$Response, next: express$NextFunction) => { // test req req.accepts('accepted/type'); req.accepts(['json', 'text']); req.is('json'); if (typeof req.query.foo === 'string') console.log((req.query.foo: string)); else console.log((req.query.foo: Array<string>)); // test response res.redirect('/somewhere'); // test next next(); next(err); }); // $FlowExpectedError path could not be an Object const invalidPath: express$Path = {}; let validPath: express$Path = 'string_path'; validPath = 'pattern?path'; validPath = new RegExp('some.*regexp'); const validPaths = ['string', 'pattern?', /a[b-f]+g/]; app.get(validPaths, (req: express$Request, res: express$Response) => { res.end(); });
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require 'yaml' module Bitcoin # Network parameter class class ChainParams attr_reader :network attr_reader :magic_head attr_reader :message_magic attr_reader :address_version attr_reader :p2sh_version attr_reader :bech32_hrp attr_reader :privkey_version attr_reader :extended_privkey_version attr_reader :extended_pubkey_version attr_reader :bip49_pubkey_p2wpkh_p2sh_version attr_reader :bip49_privkey_p2wpkh_p2sh_version attr_reader :bip49_pubkey_p2wsh_p2sh_version attr_reader :bip49_privkey_p2wsh_p2sh_version attr_reader :bip84_pubkey_p2wpkh_version attr_reader :bip84_privkey_p2wpkh_version attr_reader :bip84_pubkey_p2wsh_version attr_reader :bip84_privkey_p2wsh_version attr_reader :default_port attr_reader :protocol_version attr_reader :retarget_interval attr_reader :retarget_time attr_reader :target_spacing attr_reader :max_money attr_reader :bip34_height attr_reader :proof_of_work_limit attr_reader :dns_seeds attr_reader :genesis attr_reader :bip44_coin_type # fork coin id. attr_accessor :fork_id # mainnet genesis def self.mainnet YAML.load(File.open("#{__dir__}/chainparams/mainnet.yml")) end # testnet genesis def self.testnet YAML.load(File.open("#{__dir__}/chainparams/testnet.yml")) end # regtest genesis def self.regtest YAML.load(File.open("#{__dir__}/chainparams/regtest.yml")) end def mainnet? network == 'mainnet' end def testnet? network == 'testnet' end def regtest? network == 'regtest' end def genesis_block header = Bitcoin::BlockHeader.new( genesis['version'], genesis['prev_hash'].rhex, genesis['merkle_root'].rhex, genesis['time'], genesis['bits'], genesis['nonce']) Bitcoin::Block.new(header) end # whether fork coin. def fork_chain? !fork_id.nil? end end end
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#ifndef VULKAN_CORE_H_ #define VULKAN_CORE_H_ 1 /* ** This header is generated from the Khronos Vulkan XML API Registry. ** */ #ifdef __cplusplus extern "C" { #endif #define VK_VERSION_1_0 1 #include "vk_platform.h" #define VK_DEFINE_HANDLE(object) typedef struct object##_T* object; #ifndef VK_USE_64_BIT_PTR_DEFINES #if defined(__LP64__) || defined(_WIN64) || (defined(__x86_64__) && !defined(__ILP32__) ) || defined(_M_X64) || defined(__ia64) || defined (_M_IA64) || defined(__aarch64__) || defined(__powerpc64__) #define VK_USE_64_BIT_PTR_DEFINES 1 #else #define VK_USE_64_BIT_PTR_DEFINES 0 #endif #endif #ifndef VK_DEFINE_NON_DISPATCHABLE_HANDLE #if (VK_USE_64_BIT_PTR_DEFINES==1) #if (defined(__cplusplus) && (__cplusplus >= 201103L)) || (defined(_MSVC_LANG) && (_MSVC_LANG >= 201103L)) #define VK_NULL_HANDLE nullptr #else #define VK_NULL_HANDLE ((void*)0) #endif #else #define VK_NULL_HANDLE 0ULL #endif #endif #ifndef VK_NULL_HANDLE #define VK_NULL_HANDLE 0 #endif #ifndef VK_DEFINE_NON_DISPATCHABLE_HANDLE #if (VK_USE_64_BIT_PTR_DEFINES==1) #define VK_DEFINE_NON_DISPATCHABLE_HANDLE(object) typedef struct object##_T *object; #else #define VK_DEFINE_NON_DISPATCHABLE_HANDLE(object) typedef uint64_t object; #endif #endif // DEPRECATED: This define is deprecated. VK_MAKE_API_VERSION should be used instead. #define VK_MAKE_VERSION(major, minor, patch) \ ((((uint32_t)(major)) << 22) | (((uint32_t)(minor)) << 12) | ((uint32_t)(patch))) // DEPRECATED: This define has been removed. Specific version defines (e.g. VK_API_VERSION_1_0), or the VK_MAKE_VERSION macro, should be used instead. //#define VK_API_VERSION VK_MAKE_VERSION(1, 0, 0) // Patch version should always be set to 0 #define VK_MAKE_API_VERSION(variant, major, minor, patch) \ ((((uint32_t)(variant)) << 29) | (((uint32_t)(major)) << 22) | (((uint32_t)(minor)) << 12) | ((uint32_t)(patch))) // Vulkan 1.0 version number #define VK_API_VERSION_1_0 VK_MAKE_API_VERSION(0, 1, 0, 0)// Patch version should always be set to 0 // Version of this file #define VK_HEADER_VERSION 231 // Complete version of this file #define VK_HEADER_VERSION_COMPLETE VK_MAKE_API_VERSION(0, 1, 3, VK_HEADER_VERSION) // DEPRECATED: This define is deprecated. VK_API_VERSION_MAJOR should be used instead. #define VK_VERSION_MAJOR(version) ((uint32_t)(version) >> 22) // DEPRECATED: This define is deprecated. VK_API_VERSION_MINOR should be used instead. #define VK_VERSION_MINOR(version) (((uint32_t)(version) >> 12) & 0x3FFU) // DEPRECATED: This define is deprecated. VK_API_VERSION_PATCH should be used instead. #define VK_VERSION_PATCH(version) ((uint32_t)(version) & 0xFFFU) #define VK_API_VERSION_VARIANT(version) ((uint32_t)(version) >> 29) #define VK_API_VERSION_MAJOR(version) (((uint32_t)(version) >> 22) & 0x7FU) #define VK_API_VERSION_MINOR(version) (((uint32_t)(version) >> 12) & 0x3FFU) #define VK_API_VERSION_PATCH(version) ((uint32_t)(version) & 0xFFFU) typedef uint32_t VkBool32; typedef uint64_t VkDeviceAddress; typedef uint64_t VkDeviceSize; typedef uint32_t VkFlags; typedef uint32_t VkSampleMask; VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkBuffer) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkImage) VK_DEFINE_HANDLE(VkInstance) VK_DEFINE_HANDLE(VkPhysicalDevice) VK_DEFINE_HANDLE(VkDevice) VK_DEFINE_HANDLE(VkQueue) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkSemaphore) VK_DEFINE_HANDLE(VkCommandBuffer) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkFence) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDeviceMemory) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkEvent) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkQueryPool) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkBufferView) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkImageView) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkShaderModule) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkPipelineCache) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkPipelineLayout) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkPipeline) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkRenderPass) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDescriptorSetLayout) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkSampler) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDescriptorSet) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDescriptorPool) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkFramebuffer) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkCommandPool) #define VK_ATTACHMENT_UNUSED (~0U) #define VK_FALSE 0U #define VK_LOD_CLAMP_NONE 1000.0F #define VK_QUEUE_FAMILY_IGNORED (~0U) #define VK_REMAINING_ARRAY_LAYERS (~0U) #define VK_REMAINING_MIP_LEVELS (~0U) #define VK_SUBPASS_EXTERNAL (~0U) #define VK_TRUE 1U #define VK_WHOLE_SIZE (~0ULL) #define VK_MAX_MEMORY_TYPES 32U #define VK_MAX_PHYSICAL_DEVICE_NAME_SIZE 256U #define VK_UUID_SIZE 16U #define VK_MAX_EXTENSION_NAME_SIZE 256U #define VK_MAX_DESCRIPTION_SIZE 256U #define VK_MAX_MEMORY_HEAPS 16U typedef enum VkResult { VK_SUCCESS = 0, VK_NOT_READY = 1, VK_TIMEOUT = 2, VK_EVENT_SET = 3, VK_EVENT_RESET = 4, VK_INCOMPLETE = 5, VK_ERROR_OUT_OF_HOST_MEMORY = -1, VK_ERROR_OUT_OF_DEVICE_MEMORY = -2, VK_ERROR_INITIALIZATION_FAILED = -3, VK_ERROR_DEVICE_LOST = -4, VK_ERROR_MEMORY_MAP_FAILED = -5, VK_ERROR_LAYER_NOT_PRESENT = -6, VK_ERROR_EXTENSION_NOT_PRESENT = -7, VK_ERROR_FEATURE_NOT_PRESENT = -8, VK_ERROR_INCOMPATIBLE_DRIVER = -9, VK_ERROR_TOO_MANY_OBJECTS = -10, VK_ERROR_FORMAT_NOT_SUPPORTED = -11, VK_ERROR_FRAGMENTED_POOL = -12, VK_ERROR_UNKNOWN = -13, VK_ERROR_OUT_OF_POOL_MEMORY = -1000069000, VK_ERROR_INVALID_EXTERNAL_HANDLE = -1000072003, VK_ERROR_FRAGMENTATION = -1000161000, VK_ERROR_INVALID_OPAQUE_CAPTURE_ADDRESS = -1000257000, VK_PIPELINE_COMPILE_REQUIRED = 1000297000, VK_ERROR_SURFACE_LOST_KHR = -1000000000, VK_ERROR_NATIVE_WINDOW_IN_USE_KHR = -1000000001, VK_SUBOPTIMAL_KHR = 1000001003, VK_ERROR_OUT_OF_DATE_KHR = -1000001004, VK_ERROR_INCOMPATIBLE_DISPLAY_KHR = -1000003001, VK_ERROR_VALIDATION_FAILED_EXT = -1000011001, VK_ERROR_INVALID_SHADER_NV = -1000012000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_ERROR_IMAGE_USAGE_NOT_SUPPORTED_KHR = -1000023000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_ERROR_VIDEO_PICTURE_LAYOUT_NOT_SUPPORTED_KHR = -1000023001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_ERROR_VIDEO_PROFILE_OPERATION_NOT_SUPPORTED_KHR = -1000023002, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_ERROR_VIDEO_PROFILE_FORMAT_NOT_SUPPORTED_KHR = -1000023003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_ERROR_VIDEO_PROFILE_CODEC_NOT_SUPPORTED_KHR = -1000023004, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_ERROR_VIDEO_STD_VERSION_NOT_SUPPORTED_KHR = -1000023005, #endif VK_ERROR_INVALID_DRM_FORMAT_MODIFIER_PLANE_LAYOUT_EXT = -1000158000, VK_ERROR_NOT_PERMITTED_KHR = -1000174001, VK_ERROR_FULL_SCREEN_EXCLUSIVE_MODE_LOST_EXT = -1000255000, VK_THREAD_IDLE_KHR = 1000268000, VK_THREAD_DONE_KHR = 1000268001, VK_OPERATION_DEFERRED_KHR = 1000268002, VK_OPERATION_NOT_DEFERRED_KHR = 1000268003, VK_ERROR_COMPRESSION_EXHAUSTED_EXT = -1000338000, VK_ERROR_OUT_OF_POOL_MEMORY_KHR = VK_ERROR_OUT_OF_POOL_MEMORY, VK_ERROR_INVALID_EXTERNAL_HANDLE_KHR = VK_ERROR_INVALID_EXTERNAL_HANDLE, VK_ERROR_FRAGMENTATION_EXT = VK_ERROR_FRAGMENTATION, VK_ERROR_NOT_PERMITTED_EXT = VK_ERROR_NOT_PERMITTED_KHR, VK_ERROR_INVALID_DEVICE_ADDRESS_EXT = VK_ERROR_INVALID_OPAQUE_CAPTURE_ADDRESS, VK_ERROR_INVALID_OPAQUE_CAPTURE_ADDRESS_KHR = VK_ERROR_INVALID_OPAQUE_CAPTURE_ADDRESS, VK_PIPELINE_COMPILE_REQUIRED_EXT = VK_PIPELINE_COMPILE_REQUIRED, VK_ERROR_PIPELINE_COMPILE_REQUIRED_EXT = VK_PIPELINE_COMPILE_REQUIRED, VK_RESULT_MAX_ENUM = 0x7FFFFFFF } VkResult; typedef enum VkStructureType { VK_STRUCTURE_TYPE_APPLICATION_INFO = 0, VK_STRUCTURE_TYPE_INSTANCE_CREATE_INFO = 1, VK_STRUCTURE_TYPE_DEVICE_QUEUE_CREATE_INFO = 2, VK_STRUCTURE_TYPE_DEVICE_CREATE_INFO = 3, VK_STRUCTURE_TYPE_SUBMIT_INFO = 4, VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_INFO = 5, VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE = 6, VK_STRUCTURE_TYPE_BIND_SPARSE_INFO = 7, VK_STRUCTURE_TYPE_FENCE_CREATE_INFO = 8, VK_STRUCTURE_TYPE_SEMAPHORE_CREATE_INFO = 9, VK_STRUCTURE_TYPE_EVENT_CREATE_INFO = 10, VK_STRUCTURE_TYPE_QUERY_POOL_CREATE_INFO = 11, VK_STRUCTURE_TYPE_BUFFER_CREATE_INFO = 12, VK_STRUCTURE_TYPE_BUFFER_VIEW_CREATE_INFO = 13, VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO = 14, VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO = 15, VK_STRUCTURE_TYPE_SHADER_MODULE_CREATE_INFO = 16, VK_STRUCTURE_TYPE_PIPELINE_CACHE_CREATE_INFO = 17, VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO = 18, VK_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_STATE_CREATE_INFO = 19, VK_STRUCTURE_TYPE_PIPELINE_INPUT_ASSEMBLY_STATE_CREATE_INFO = 20, VK_STRUCTURE_TYPE_PIPELINE_TESSELLATION_STATE_CREATE_INFO = 21, VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_STATE_CREATE_INFO = 22, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_STATE_CREATE_INFO = 23, VK_STRUCTURE_TYPE_PIPELINE_MULTISAMPLE_STATE_CREATE_INFO = 24, VK_STRUCTURE_TYPE_PIPELINE_DEPTH_STENCIL_STATE_CREATE_INFO = 25, VK_STRUCTURE_TYPE_PIPELINE_COLOR_BLEND_STATE_CREATE_INFO = 26, VK_STRUCTURE_TYPE_PIPELINE_DYNAMIC_STATE_CREATE_INFO = 27, VK_STRUCTURE_TYPE_GRAPHICS_PIPELINE_CREATE_INFO = 28, VK_STRUCTURE_TYPE_COMPUTE_PIPELINE_CREATE_INFO = 29, VK_STRUCTURE_TYPE_PIPELINE_LAYOUT_CREATE_INFO = 30, VK_STRUCTURE_TYPE_SAMPLER_CREATE_INFO = 31, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_CREATE_INFO = 32, VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_CREATE_INFO = 33, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_ALLOCATE_INFO = 34, VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET = 35, VK_STRUCTURE_TYPE_COPY_DESCRIPTOR_SET = 36, VK_STRUCTURE_TYPE_FRAMEBUFFER_CREATE_INFO = 37, VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO = 38, VK_STRUCTURE_TYPE_COMMAND_POOL_CREATE_INFO = 39, VK_STRUCTURE_TYPE_COMMAND_BUFFER_ALLOCATE_INFO = 40, VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_INFO = 41, VK_STRUCTURE_TYPE_COMMAND_BUFFER_BEGIN_INFO = 42, VK_STRUCTURE_TYPE_RENDER_PASS_BEGIN_INFO = 43, VK_STRUCTURE_TYPE_BUFFER_MEMORY_BARRIER = 44, VK_STRUCTURE_TYPE_IMAGE_MEMORY_BARRIER = 45, VK_STRUCTURE_TYPE_MEMORY_BARRIER = 46, VK_STRUCTURE_TYPE_LOADER_INSTANCE_CREATE_INFO = 47, VK_STRUCTURE_TYPE_LOADER_DEVICE_CREATE_INFO = 48, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_PROPERTIES = 1000094000, VK_STRUCTURE_TYPE_BIND_BUFFER_MEMORY_INFO = 1000157000, VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_INFO = 1000157001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_16BIT_STORAGE_FEATURES = 1000083000, VK_STRUCTURE_TYPE_MEMORY_DEDICATED_REQUIREMENTS = 1000127000, VK_STRUCTURE_TYPE_MEMORY_DEDICATED_ALLOCATE_INFO = 1000127001, VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO = 1000060000, VK_STRUCTURE_TYPE_DEVICE_GROUP_RENDER_PASS_BEGIN_INFO = 1000060003, VK_STRUCTURE_TYPE_DEVICE_GROUP_COMMAND_BUFFER_BEGIN_INFO = 1000060004, VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO = 1000060005, VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO = 1000060006, VK_STRUCTURE_TYPE_BIND_BUFFER_MEMORY_DEVICE_GROUP_INFO = 1000060013, VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_DEVICE_GROUP_INFO = 1000060014, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GROUP_PROPERTIES = 1000070000, VK_STRUCTURE_TYPE_DEVICE_GROUP_DEVICE_CREATE_INFO = 1000070001, VK_STRUCTURE_TYPE_BUFFER_MEMORY_REQUIREMENTS_INFO_2 = 1000146000, VK_STRUCTURE_TYPE_IMAGE_MEMORY_REQUIREMENTS_INFO_2 = 1000146001, VK_STRUCTURE_TYPE_IMAGE_SPARSE_MEMORY_REQUIREMENTS_INFO_2 = 1000146002, VK_STRUCTURE_TYPE_MEMORY_REQUIREMENTS_2 = 1000146003, VK_STRUCTURE_TYPE_SPARSE_IMAGE_MEMORY_REQUIREMENTS_2 = 1000146004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FEATURES_2 = 1000059000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROPERTIES_2 = 1000059001, VK_STRUCTURE_TYPE_FORMAT_PROPERTIES_2 = 1000059002, VK_STRUCTURE_TYPE_IMAGE_FORMAT_PROPERTIES_2 = 1000059003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_FORMAT_INFO_2 = 1000059004, VK_STRUCTURE_TYPE_QUEUE_FAMILY_PROPERTIES_2 = 1000059005, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MEMORY_PROPERTIES_2 = 1000059006, VK_STRUCTURE_TYPE_SPARSE_IMAGE_FORMAT_PROPERTIES_2 = 1000059007, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SPARSE_IMAGE_FORMAT_INFO_2 = 1000059008, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_POINT_CLIPPING_PROPERTIES = 1000117000, VK_STRUCTURE_TYPE_RENDER_PASS_INPUT_ATTACHMENT_ASPECT_CREATE_INFO = 1000117001, VK_STRUCTURE_TYPE_IMAGE_VIEW_USAGE_CREATE_INFO = 1000117002, VK_STRUCTURE_TYPE_PIPELINE_TESSELLATION_DOMAIN_ORIGIN_STATE_CREATE_INFO = 1000117003, VK_STRUCTURE_TYPE_RENDER_PASS_MULTIVIEW_CREATE_INFO = 1000053000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_FEATURES = 1000053001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_PROPERTIES = 1000053002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTERS_FEATURES = 1000120000, VK_STRUCTURE_TYPE_PROTECTED_SUBMIT_INFO = 1000145000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROTECTED_MEMORY_FEATURES = 1000145001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROTECTED_MEMORY_PROPERTIES = 1000145002, VK_STRUCTURE_TYPE_DEVICE_QUEUE_INFO_2 = 1000145003, VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_CREATE_INFO = 1000156000, VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_INFO = 1000156001, VK_STRUCTURE_TYPE_BIND_IMAGE_PLANE_MEMORY_INFO = 1000156002, VK_STRUCTURE_TYPE_IMAGE_PLANE_MEMORY_REQUIREMENTS_INFO = 1000156003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLER_YCBCR_CONVERSION_FEATURES = 1000156004, VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_IMAGE_FORMAT_PROPERTIES = 1000156005, VK_STRUCTURE_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_CREATE_INFO = 1000085000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_IMAGE_FORMAT_INFO = 1000071000, VK_STRUCTURE_TYPE_EXTERNAL_IMAGE_FORMAT_PROPERTIES = 1000071001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_BUFFER_INFO = 1000071002, VK_STRUCTURE_TYPE_EXTERNAL_BUFFER_PROPERTIES = 1000071003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ID_PROPERTIES = 1000071004, VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_BUFFER_CREATE_INFO = 1000072000, VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO = 1000072001, VK_STRUCTURE_TYPE_EXPORT_MEMORY_ALLOCATE_INFO = 1000072002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_FENCE_INFO = 1000112000, VK_STRUCTURE_TYPE_EXTERNAL_FENCE_PROPERTIES = 1000112001, VK_STRUCTURE_TYPE_EXPORT_FENCE_CREATE_INFO = 1000113000, VK_STRUCTURE_TYPE_EXPORT_SEMAPHORE_CREATE_INFO = 1000077000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_SEMAPHORE_INFO = 1000076000, VK_STRUCTURE_TYPE_EXTERNAL_SEMAPHORE_PROPERTIES = 1000076001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_3_PROPERTIES = 1000168000, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_SUPPORT = 1000168001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_DRAW_PARAMETERS_FEATURES = 1000063000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_1_FEATURES = 49, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_1_PROPERTIES = 50, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_2_FEATURES = 51, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_2_PROPERTIES = 52, VK_STRUCTURE_TYPE_IMAGE_FORMAT_LIST_CREATE_INFO = 1000147000, VK_STRUCTURE_TYPE_ATTACHMENT_DESCRIPTION_2 = 1000109000, VK_STRUCTURE_TYPE_ATTACHMENT_REFERENCE_2 = 1000109001, VK_STRUCTURE_TYPE_SUBPASS_DESCRIPTION_2 = 1000109002, VK_STRUCTURE_TYPE_SUBPASS_DEPENDENCY_2 = 1000109003, VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO_2 = 1000109004, VK_STRUCTURE_TYPE_SUBPASS_BEGIN_INFO = 1000109005, VK_STRUCTURE_TYPE_SUBPASS_END_INFO = 1000109006, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_8BIT_STORAGE_FEATURES = 1000177000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DRIVER_PROPERTIES = 1000196000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_ATOMIC_INT64_FEATURES = 1000180000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_FLOAT16_INT8_FEATURES = 1000082000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FLOAT_CONTROLS_PROPERTIES = 1000197000, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_BINDING_FLAGS_CREATE_INFO = 1000161000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_INDEXING_FEATURES = 1000161001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_INDEXING_PROPERTIES = 1000161002, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_VARIABLE_DESCRIPTOR_COUNT_ALLOCATE_INFO = 1000161003, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_VARIABLE_DESCRIPTOR_COUNT_LAYOUT_SUPPORT = 1000161004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEPTH_STENCIL_RESOLVE_PROPERTIES = 1000199000, VK_STRUCTURE_TYPE_SUBPASS_DESCRIPTION_DEPTH_STENCIL_RESOLVE = 1000199001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SCALAR_BLOCK_LAYOUT_FEATURES = 1000221000, VK_STRUCTURE_TYPE_IMAGE_STENCIL_USAGE_CREATE_INFO = 1000246000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLER_FILTER_MINMAX_PROPERTIES = 1000130000, VK_STRUCTURE_TYPE_SAMPLER_REDUCTION_MODE_CREATE_INFO = 1000130001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_MEMORY_MODEL_FEATURES = 1000211000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGELESS_FRAMEBUFFER_FEATURES = 1000108000, VK_STRUCTURE_TYPE_FRAMEBUFFER_ATTACHMENTS_CREATE_INFO = 1000108001, VK_STRUCTURE_TYPE_FRAMEBUFFER_ATTACHMENT_IMAGE_INFO = 1000108002, VK_STRUCTURE_TYPE_RENDER_PASS_ATTACHMENT_BEGIN_INFO = 1000108003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_UNIFORM_BUFFER_STANDARD_LAYOUT_FEATURES = 1000253000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_SUBGROUP_EXTENDED_TYPES_FEATURES = 1000175000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SEPARATE_DEPTH_STENCIL_LAYOUTS_FEATURES = 1000241000, VK_STRUCTURE_TYPE_ATTACHMENT_REFERENCE_STENCIL_LAYOUT = 1000241001, VK_STRUCTURE_TYPE_ATTACHMENT_DESCRIPTION_STENCIL_LAYOUT = 1000241002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_HOST_QUERY_RESET_FEATURES = 1000261000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TIMELINE_SEMAPHORE_FEATURES = 1000207000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TIMELINE_SEMAPHORE_PROPERTIES = 1000207001, VK_STRUCTURE_TYPE_SEMAPHORE_TYPE_CREATE_INFO = 1000207002, VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO = 1000207003, VK_STRUCTURE_TYPE_SEMAPHORE_WAIT_INFO = 1000207004, VK_STRUCTURE_TYPE_SEMAPHORE_SIGNAL_INFO = 1000207005, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BUFFER_DEVICE_ADDRESS_FEATURES = 1000257000, VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO = 1000244001, VK_STRUCTURE_TYPE_BUFFER_OPAQUE_CAPTURE_ADDRESS_CREATE_INFO = 1000257002, VK_STRUCTURE_TYPE_MEMORY_OPAQUE_CAPTURE_ADDRESS_ALLOCATE_INFO = 1000257003, VK_STRUCTURE_TYPE_DEVICE_MEMORY_OPAQUE_CAPTURE_ADDRESS_INFO = 1000257004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_3_FEATURES = 53, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_1_3_PROPERTIES = 54, VK_STRUCTURE_TYPE_PIPELINE_CREATION_FEEDBACK_CREATE_INFO = 1000192000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_TERMINATE_INVOCATION_FEATURES = 1000215000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TOOL_PROPERTIES = 1000245000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_DEMOTE_TO_HELPER_INVOCATION_FEATURES = 1000276000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRIVATE_DATA_FEATURES = 1000295000, VK_STRUCTURE_TYPE_DEVICE_PRIVATE_DATA_CREATE_INFO = 1000295001, VK_STRUCTURE_TYPE_PRIVATE_DATA_SLOT_CREATE_INFO = 1000295002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_CREATION_CACHE_CONTROL_FEATURES = 1000297000, VK_STRUCTURE_TYPE_MEMORY_BARRIER_2 = 1000314000, VK_STRUCTURE_TYPE_BUFFER_MEMORY_BARRIER_2 = 1000314001, VK_STRUCTURE_TYPE_IMAGE_MEMORY_BARRIER_2 = 1000314002, VK_STRUCTURE_TYPE_DEPENDENCY_INFO = 1000314003, VK_STRUCTURE_TYPE_SUBMIT_INFO_2 = 1000314004, VK_STRUCTURE_TYPE_SEMAPHORE_SUBMIT_INFO = 1000314005, VK_STRUCTURE_TYPE_COMMAND_BUFFER_SUBMIT_INFO = 1000314006, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SYNCHRONIZATION_2_FEATURES = 1000314007, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ZERO_INITIALIZE_WORKGROUP_MEMORY_FEATURES = 1000325000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_ROBUSTNESS_FEATURES = 1000335000, VK_STRUCTURE_TYPE_COPY_BUFFER_INFO_2 = 1000337000, VK_STRUCTURE_TYPE_COPY_IMAGE_INFO_2 = 1000337001, VK_STRUCTURE_TYPE_COPY_BUFFER_TO_IMAGE_INFO_2 = 1000337002, VK_STRUCTURE_TYPE_COPY_IMAGE_TO_BUFFER_INFO_2 = 1000337003, VK_STRUCTURE_TYPE_BLIT_IMAGE_INFO_2 = 1000337004, VK_STRUCTURE_TYPE_RESOLVE_IMAGE_INFO_2 = 1000337005, VK_STRUCTURE_TYPE_BUFFER_COPY_2 = 1000337006, VK_STRUCTURE_TYPE_IMAGE_COPY_2 = 1000337007, VK_STRUCTURE_TYPE_IMAGE_BLIT_2 = 1000337008, VK_STRUCTURE_TYPE_BUFFER_IMAGE_COPY_2 = 1000337009, VK_STRUCTURE_TYPE_IMAGE_RESOLVE_2 = 1000337010, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_SIZE_CONTROL_PROPERTIES = 1000225000, VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_REQUIRED_SUBGROUP_SIZE_CREATE_INFO = 1000225001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_SIZE_CONTROL_FEATURES = 1000225002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INLINE_UNIFORM_BLOCK_FEATURES = 1000138000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INLINE_UNIFORM_BLOCK_PROPERTIES = 1000138001, VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_INLINE_UNIFORM_BLOCK = 1000138002, VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_INLINE_UNIFORM_BLOCK_CREATE_INFO = 1000138003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXTURE_COMPRESSION_ASTC_HDR_FEATURES = 1000066000, VK_STRUCTURE_TYPE_RENDERING_INFO = 1000044000, VK_STRUCTURE_TYPE_RENDERING_ATTACHMENT_INFO = 1000044001, VK_STRUCTURE_TYPE_PIPELINE_RENDERING_CREATE_INFO = 1000044002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DYNAMIC_RENDERING_FEATURES = 1000044003, VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_RENDERING_INFO = 1000044004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_DOT_PRODUCT_FEATURES = 1000280000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_DOT_PRODUCT_PROPERTIES = 1000280001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXEL_BUFFER_ALIGNMENT_PROPERTIES = 1000281001, VK_STRUCTURE_TYPE_FORMAT_PROPERTIES_3 = 1000360000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_4_FEATURES = 1000413000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_4_PROPERTIES = 1000413001, VK_STRUCTURE_TYPE_DEVICE_BUFFER_MEMORY_REQUIREMENTS = 1000413002, VK_STRUCTURE_TYPE_DEVICE_IMAGE_MEMORY_REQUIREMENTS = 1000413003, VK_STRUCTURE_TYPE_SWAPCHAIN_CREATE_INFO_KHR = 1000001000, VK_STRUCTURE_TYPE_PRESENT_INFO_KHR = 1000001001, VK_STRUCTURE_TYPE_DEVICE_GROUP_PRESENT_CAPABILITIES_KHR = 1000060007, VK_STRUCTURE_TYPE_IMAGE_SWAPCHAIN_CREATE_INFO_KHR = 1000060008, VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_SWAPCHAIN_INFO_KHR = 1000060009, VK_STRUCTURE_TYPE_ACQUIRE_NEXT_IMAGE_INFO_KHR = 1000060010, VK_STRUCTURE_TYPE_DEVICE_GROUP_PRESENT_INFO_KHR = 1000060011, VK_STRUCTURE_TYPE_DEVICE_GROUP_SWAPCHAIN_CREATE_INFO_KHR = 1000060012, VK_STRUCTURE_TYPE_DISPLAY_MODE_CREATE_INFO_KHR = 1000002000, VK_STRUCTURE_TYPE_DISPLAY_SURFACE_CREATE_INFO_KHR = 1000002001, VK_STRUCTURE_TYPE_DISPLAY_PRESENT_INFO_KHR = 1000003000, VK_STRUCTURE_TYPE_XLIB_SURFACE_CREATE_INFO_KHR = 1000004000, VK_STRUCTURE_TYPE_XCB_SURFACE_CREATE_INFO_KHR = 1000005000, VK_STRUCTURE_TYPE_WAYLAND_SURFACE_CREATE_INFO_KHR = 1000006000, VK_STRUCTURE_TYPE_ANDROID_SURFACE_CREATE_INFO_KHR = 1000008000, VK_STRUCTURE_TYPE_WIN32_SURFACE_CREATE_INFO_KHR = 1000009000, VK_STRUCTURE_TYPE_DEBUG_REPORT_CALLBACK_CREATE_INFO_EXT = 1000011000, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_STATE_RASTERIZATION_ORDER_AMD = 1000018000, VK_STRUCTURE_TYPE_DEBUG_MARKER_OBJECT_NAME_INFO_EXT = 1000022000, VK_STRUCTURE_TYPE_DEBUG_MARKER_OBJECT_TAG_INFO_EXT = 1000022001, VK_STRUCTURE_TYPE_DEBUG_MARKER_MARKER_INFO_EXT = 1000022002, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_PROFILE_INFO_KHR = 1000023000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_CAPABILITIES_KHR = 1000023001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_PICTURE_RESOURCE_INFO_KHR = 1000023002, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_SESSION_MEMORY_REQUIREMENTS_KHR = 1000023003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_BIND_VIDEO_SESSION_MEMORY_INFO_KHR = 1000023004, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_SESSION_CREATE_INFO_KHR = 1000023005, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_SESSION_PARAMETERS_CREATE_INFO_KHR = 1000023006, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_SESSION_PARAMETERS_UPDATE_INFO_KHR = 1000023007, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_BEGIN_CODING_INFO_KHR = 1000023008, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_END_CODING_INFO_KHR = 1000023009, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_CODING_CONTROL_INFO_KHR = 1000023010, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_REFERENCE_SLOT_INFO_KHR = 1000023011, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_QUEUE_FAMILY_VIDEO_PROPERTIES_KHR = 1000023012, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_PROFILE_LIST_INFO_KHR = 1000023013, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VIDEO_FORMAT_INFO_KHR = 1000023014, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_FORMAT_PROPERTIES_KHR = 1000023015, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_QUEUE_FAMILY_QUERY_RESULT_STATUS_PROPERTIES_KHR = 1000023016, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_INFO_KHR = 1000024000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_CAPABILITIES_KHR = 1000024001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_USAGE_INFO_KHR = 1000024002, #endif VK_STRUCTURE_TYPE_DEDICATED_ALLOCATION_IMAGE_CREATE_INFO_NV = 1000026000, VK_STRUCTURE_TYPE_DEDICATED_ALLOCATION_BUFFER_CREATE_INFO_NV = 1000026001, VK_STRUCTURE_TYPE_DEDICATED_ALLOCATION_MEMORY_ALLOCATE_INFO_NV = 1000026002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TRANSFORM_FEEDBACK_FEATURES_EXT = 1000028000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TRANSFORM_FEEDBACK_PROPERTIES_EXT = 1000028001, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_STATE_STREAM_CREATE_INFO_EXT = 1000028002, VK_STRUCTURE_TYPE_CU_MODULE_CREATE_INFO_NVX = 1000029000, VK_STRUCTURE_TYPE_CU_FUNCTION_CREATE_INFO_NVX = 1000029001, VK_STRUCTURE_TYPE_CU_LAUNCH_INFO_NVX = 1000029002, VK_STRUCTURE_TYPE_IMAGE_VIEW_HANDLE_INFO_NVX = 1000030000, VK_STRUCTURE_TYPE_IMAGE_VIEW_ADDRESS_PROPERTIES_NVX = 1000030001, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_CAPABILITIES_EXT = 1000038000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_SESSION_PARAMETERS_CREATE_INFO_EXT = 1000038001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_SESSION_PARAMETERS_ADD_INFO_EXT = 1000038002, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_VCL_FRAME_INFO_EXT = 1000038003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_DPB_SLOT_INFO_EXT = 1000038004, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_NALU_SLICE_INFO_EXT = 1000038005, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_EMIT_PICTURE_PARAMETERS_INFO_EXT = 1000038006, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_PROFILE_INFO_EXT = 1000038007, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_RATE_CONTROL_INFO_EXT = 1000038008, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_RATE_CONTROL_LAYER_INFO_EXT = 1000038009, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H264_REFERENCE_LISTS_INFO_EXT = 1000038010, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_CAPABILITIES_EXT = 1000039000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_SESSION_PARAMETERS_CREATE_INFO_EXT = 1000039001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_SESSION_PARAMETERS_ADD_INFO_EXT = 1000039002, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_VCL_FRAME_INFO_EXT = 1000039003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_DPB_SLOT_INFO_EXT = 1000039004, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_NALU_SLICE_SEGMENT_INFO_EXT = 1000039005, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_EMIT_PICTURE_PARAMETERS_INFO_EXT = 1000039006, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_PROFILE_INFO_EXT = 1000039007, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_REFERENCE_LISTS_INFO_EXT = 1000039008, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_RATE_CONTROL_INFO_EXT = 1000039009, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_H265_RATE_CONTROL_LAYER_INFO_EXT = 1000039010, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H264_CAPABILITIES_EXT = 1000040000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H264_PICTURE_INFO_EXT = 1000040001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H264_PROFILE_INFO_EXT = 1000040003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H264_SESSION_PARAMETERS_CREATE_INFO_EXT = 1000040004, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H264_SESSION_PARAMETERS_ADD_INFO_EXT = 1000040005, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H264_DPB_SLOT_INFO_EXT = 1000040006, #endif VK_STRUCTURE_TYPE_TEXTURE_LOD_GATHER_FORMAT_PROPERTIES_AMD = 1000041000, VK_STRUCTURE_TYPE_RENDERING_FRAGMENT_SHADING_RATE_ATTACHMENT_INFO_KHR = 1000044006, VK_STRUCTURE_TYPE_RENDERING_FRAGMENT_DENSITY_MAP_ATTACHMENT_INFO_EXT = 1000044007, VK_STRUCTURE_TYPE_ATTACHMENT_SAMPLE_COUNT_INFO_AMD = 1000044008, VK_STRUCTURE_TYPE_MULTIVIEW_PER_VIEW_ATTRIBUTES_INFO_NVX = 1000044009, VK_STRUCTURE_TYPE_STREAM_DESCRIPTOR_SURFACE_CREATE_INFO_GGP = 1000049000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_CORNER_SAMPLED_IMAGE_FEATURES_NV = 1000050000, VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO_NV = 1000056000, VK_STRUCTURE_TYPE_EXPORT_MEMORY_ALLOCATE_INFO_NV = 1000056001, VK_STRUCTURE_TYPE_IMPORT_MEMORY_WIN32_HANDLE_INFO_NV = 1000057000, VK_STRUCTURE_TYPE_EXPORT_MEMORY_WIN32_HANDLE_INFO_NV = 1000057001, VK_STRUCTURE_TYPE_WIN32_KEYED_MUTEX_ACQUIRE_RELEASE_INFO_NV = 1000058000, VK_STRUCTURE_TYPE_VALIDATION_FLAGS_EXT = 1000061000, VK_STRUCTURE_TYPE_VI_SURFACE_CREATE_INFO_NN = 1000062000, VK_STRUCTURE_TYPE_IMAGE_VIEW_ASTC_DECODE_MODE_EXT = 1000067000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ASTC_DECODE_FEATURES_EXT = 1000067001, VK_STRUCTURE_TYPE_PIPELINE_ROBUSTNESS_CREATE_INFO_EXT = 1000068000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_ROBUSTNESS_FEATURES_EXT = 1000068001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_ROBUSTNESS_PROPERTIES_EXT = 1000068002, VK_STRUCTURE_TYPE_IMPORT_MEMORY_WIN32_HANDLE_INFO_KHR = 1000073000, VK_STRUCTURE_TYPE_EXPORT_MEMORY_WIN32_HANDLE_INFO_KHR = 1000073001, VK_STRUCTURE_TYPE_MEMORY_WIN32_HANDLE_PROPERTIES_KHR = 1000073002, VK_STRUCTURE_TYPE_MEMORY_GET_WIN32_HANDLE_INFO_KHR = 1000073003, VK_STRUCTURE_TYPE_IMPORT_MEMORY_FD_INFO_KHR = 1000074000, VK_STRUCTURE_TYPE_MEMORY_FD_PROPERTIES_KHR = 1000074001, VK_STRUCTURE_TYPE_MEMORY_GET_FD_INFO_KHR = 1000074002, VK_STRUCTURE_TYPE_WIN32_KEYED_MUTEX_ACQUIRE_RELEASE_INFO_KHR = 1000075000, VK_STRUCTURE_TYPE_IMPORT_SEMAPHORE_WIN32_HANDLE_INFO_KHR = 1000078000, VK_STRUCTURE_TYPE_EXPORT_SEMAPHORE_WIN32_HANDLE_INFO_KHR = 1000078001, VK_STRUCTURE_TYPE_D3D12_FENCE_SUBMIT_INFO_KHR = 1000078002, VK_STRUCTURE_TYPE_SEMAPHORE_GET_WIN32_HANDLE_INFO_KHR = 1000078003, VK_STRUCTURE_TYPE_IMPORT_SEMAPHORE_FD_INFO_KHR = 1000079000, VK_STRUCTURE_TYPE_SEMAPHORE_GET_FD_INFO_KHR = 1000079001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PUSH_DESCRIPTOR_PROPERTIES_KHR = 1000080000, VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_CONDITIONAL_RENDERING_INFO_EXT = 1000081000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_CONDITIONAL_RENDERING_FEATURES_EXT = 1000081001, VK_STRUCTURE_TYPE_CONDITIONAL_RENDERING_BEGIN_INFO_EXT = 1000081002, VK_STRUCTURE_TYPE_PRESENT_REGIONS_KHR = 1000084000, VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_W_SCALING_STATE_CREATE_INFO_NV = 1000087000, VK_STRUCTURE_TYPE_SURFACE_CAPABILITIES_2_EXT = 1000090000, VK_STRUCTURE_TYPE_DISPLAY_POWER_INFO_EXT = 1000091000, VK_STRUCTURE_TYPE_DEVICE_EVENT_INFO_EXT = 1000091001, VK_STRUCTURE_TYPE_DISPLAY_EVENT_INFO_EXT = 1000091002, VK_STRUCTURE_TYPE_SWAPCHAIN_COUNTER_CREATE_INFO_EXT = 1000091003, VK_STRUCTURE_TYPE_PRESENT_TIMES_INFO_GOOGLE = 1000092000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_PER_VIEW_ATTRIBUTES_PROPERTIES_NVX = 1000097000, VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_SWIZZLE_STATE_CREATE_INFO_NV = 1000098000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DISCARD_RECTANGLE_PROPERTIES_EXT = 1000099000, VK_STRUCTURE_TYPE_PIPELINE_DISCARD_RECTANGLE_STATE_CREATE_INFO_EXT = 1000099001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_CONSERVATIVE_RASTERIZATION_PROPERTIES_EXT = 1000101000, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_CONSERVATIVE_STATE_CREATE_INFO_EXT = 1000101001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEPTH_CLIP_ENABLE_FEATURES_EXT = 1000102000, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_DEPTH_CLIP_STATE_CREATE_INFO_EXT = 1000102001, VK_STRUCTURE_TYPE_HDR_METADATA_EXT = 1000105000, VK_STRUCTURE_TYPE_SHARED_PRESENT_SURFACE_CAPABILITIES_KHR = 1000111000, VK_STRUCTURE_TYPE_IMPORT_FENCE_WIN32_HANDLE_INFO_KHR = 1000114000, VK_STRUCTURE_TYPE_EXPORT_FENCE_WIN32_HANDLE_INFO_KHR = 1000114001, VK_STRUCTURE_TYPE_FENCE_GET_WIN32_HANDLE_INFO_KHR = 1000114002, VK_STRUCTURE_TYPE_IMPORT_FENCE_FD_INFO_KHR = 1000115000, VK_STRUCTURE_TYPE_FENCE_GET_FD_INFO_KHR = 1000115001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PERFORMANCE_QUERY_FEATURES_KHR = 1000116000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PERFORMANCE_QUERY_PROPERTIES_KHR = 1000116001, VK_STRUCTURE_TYPE_QUERY_POOL_PERFORMANCE_CREATE_INFO_KHR = 1000116002, VK_STRUCTURE_TYPE_PERFORMANCE_QUERY_SUBMIT_INFO_KHR = 1000116003, VK_STRUCTURE_TYPE_ACQUIRE_PROFILING_LOCK_INFO_KHR = 1000116004, VK_STRUCTURE_TYPE_PERFORMANCE_COUNTER_KHR = 1000116005, VK_STRUCTURE_TYPE_PERFORMANCE_COUNTER_DESCRIPTION_KHR = 1000116006, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SURFACE_INFO_2_KHR = 1000119000, VK_STRUCTURE_TYPE_SURFACE_CAPABILITIES_2_KHR = 1000119001, VK_STRUCTURE_TYPE_SURFACE_FORMAT_2_KHR = 1000119002, VK_STRUCTURE_TYPE_DISPLAY_PROPERTIES_2_KHR = 1000121000, VK_STRUCTURE_TYPE_DISPLAY_PLANE_PROPERTIES_2_KHR = 1000121001, VK_STRUCTURE_TYPE_DISPLAY_MODE_PROPERTIES_2_KHR = 1000121002, VK_STRUCTURE_TYPE_DISPLAY_PLANE_INFO_2_KHR = 1000121003, VK_STRUCTURE_TYPE_DISPLAY_PLANE_CAPABILITIES_2_KHR = 1000121004, VK_STRUCTURE_TYPE_IOS_SURFACE_CREATE_INFO_MVK = 1000122000, VK_STRUCTURE_TYPE_MACOS_SURFACE_CREATE_INFO_MVK = 1000123000, VK_STRUCTURE_TYPE_DEBUG_UTILS_OBJECT_NAME_INFO_EXT = 1000128000, VK_STRUCTURE_TYPE_DEBUG_UTILS_OBJECT_TAG_INFO_EXT = 1000128001, VK_STRUCTURE_TYPE_DEBUG_UTILS_LABEL_EXT = 1000128002, VK_STRUCTURE_TYPE_DEBUG_UTILS_MESSENGER_CALLBACK_DATA_EXT = 1000128003, VK_STRUCTURE_TYPE_DEBUG_UTILS_MESSENGER_CREATE_INFO_EXT = 1000128004, VK_STRUCTURE_TYPE_ANDROID_HARDWARE_BUFFER_USAGE_ANDROID = 1000129000, VK_STRUCTURE_TYPE_ANDROID_HARDWARE_BUFFER_PROPERTIES_ANDROID = 1000129001, VK_STRUCTURE_TYPE_ANDROID_HARDWARE_BUFFER_FORMAT_PROPERTIES_ANDROID = 1000129002, VK_STRUCTURE_TYPE_IMPORT_ANDROID_HARDWARE_BUFFER_INFO_ANDROID = 1000129003, VK_STRUCTURE_TYPE_MEMORY_GET_ANDROID_HARDWARE_BUFFER_INFO_ANDROID = 1000129004, VK_STRUCTURE_TYPE_EXTERNAL_FORMAT_ANDROID = 1000129005, VK_STRUCTURE_TYPE_ANDROID_HARDWARE_BUFFER_FORMAT_PROPERTIES_2_ANDROID = 1000129006, VK_STRUCTURE_TYPE_SAMPLE_LOCATIONS_INFO_EXT = 1000143000, VK_STRUCTURE_TYPE_RENDER_PASS_SAMPLE_LOCATIONS_BEGIN_INFO_EXT = 1000143001, VK_STRUCTURE_TYPE_PIPELINE_SAMPLE_LOCATIONS_STATE_CREATE_INFO_EXT = 1000143002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLE_LOCATIONS_PROPERTIES_EXT = 1000143003, VK_STRUCTURE_TYPE_MULTISAMPLE_PROPERTIES_EXT = 1000143004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BLEND_OPERATION_ADVANCED_FEATURES_EXT = 1000148000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BLEND_OPERATION_ADVANCED_PROPERTIES_EXT = 1000148001, VK_STRUCTURE_TYPE_PIPELINE_COLOR_BLEND_ADVANCED_STATE_CREATE_INFO_EXT = 1000148002, VK_STRUCTURE_TYPE_PIPELINE_COVERAGE_TO_COLOR_STATE_CREATE_INFO_NV = 1000149000, VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_ACCELERATION_STRUCTURE_KHR = 1000150007, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_BUILD_GEOMETRY_INFO_KHR = 1000150000, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_DEVICE_ADDRESS_INFO_KHR = 1000150002, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_GEOMETRY_AABBS_DATA_KHR = 1000150003, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_GEOMETRY_INSTANCES_DATA_KHR = 1000150004, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_GEOMETRY_TRIANGLES_DATA_KHR = 1000150005, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_GEOMETRY_KHR = 1000150006, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_VERSION_INFO_KHR = 1000150009, VK_STRUCTURE_TYPE_COPY_ACCELERATION_STRUCTURE_INFO_KHR = 1000150010, VK_STRUCTURE_TYPE_COPY_ACCELERATION_STRUCTURE_TO_MEMORY_INFO_KHR = 1000150011, VK_STRUCTURE_TYPE_COPY_MEMORY_TO_ACCELERATION_STRUCTURE_INFO_KHR = 1000150012, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ACCELERATION_STRUCTURE_FEATURES_KHR = 1000150013, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ACCELERATION_STRUCTURE_PROPERTIES_KHR = 1000150014, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_CREATE_INFO_KHR = 1000150017, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_BUILD_SIZES_INFO_KHR = 1000150020, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_TRACING_PIPELINE_FEATURES_KHR = 1000347000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_TRACING_PIPELINE_PROPERTIES_KHR = 1000347001, VK_STRUCTURE_TYPE_RAY_TRACING_PIPELINE_CREATE_INFO_KHR = 1000150015, VK_STRUCTURE_TYPE_RAY_TRACING_SHADER_GROUP_CREATE_INFO_KHR = 1000150016, VK_STRUCTURE_TYPE_RAY_TRACING_PIPELINE_INTERFACE_CREATE_INFO_KHR = 1000150018, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_QUERY_FEATURES_KHR = 1000348013, VK_STRUCTURE_TYPE_PIPELINE_COVERAGE_MODULATION_STATE_CREATE_INFO_NV = 1000152000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_SM_BUILTINS_FEATURES_NV = 1000154000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_SM_BUILTINS_PROPERTIES_NV = 1000154001, VK_STRUCTURE_TYPE_DRM_FORMAT_MODIFIER_PROPERTIES_LIST_EXT = 1000158000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_DRM_FORMAT_MODIFIER_INFO_EXT = 1000158002, VK_STRUCTURE_TYPE_IMAGE_DRM_FORMAT_MODIFIER_LIST_CREATE_INFO_EXT = 1000158003, VK_STRUCTURE_TYPE_IMAGE_DRM_FORMAT_MODIFIER_EXPLICIT_CREATE_INFO_EXT = 1000158004, VK_STRUCTURE_TYPE_IMAGE_DRM_FORMAT_MODIFIER_PROPERTIES_EXT = 1000158005, VK_STRUCTURE_TYPE_DRM_FORMAT_MODIFIER_PROPERTIES_LIST_2_EXT = 1000158006, VK_STRUCTURE_TYPE_VALIDATION_CACHE_CREATE_INFO_EXT = 1000160000, VK_STRUCTURE_TYPE_SHADER_MODULE_VALIDATION_CACHE_CREATE_INFO_EXT = 1000160001, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PORTABILITY_SUBSET_FEATURES_KHR = 1000163000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PORTABILITY_SUBSET_PROPERTIES_KHR = 1000163001, #endif VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_SHADING_RATE_IMAGE_STATE_CREATE_INFO_NV = 1000164000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADING_RATE_IMAGE_FEATURES_NV = 1000164001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADING_RATE_IMAGE_PROPERTIES_NV = 1000164002, VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_COARSE_SAMPLE_ORDER_STATE_CREATE_INFO_NV = 1000164005, VK_STRUCTURE_TYPE_RAY_TRACING_PIPELINE_CREATE_INFO_NV = 1000165000, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_CREATE_INFO_NV = 1000165001, VK_STRUCTURE_TYPE_GEOMETRY_NV = 1000165003, VK_STRUCTURE_TYPE_GEOMETRY_TRIANGLES_NV = 1000165004, VK_STRUCTURE_TYPE_GEOMETRY_AABB_NV = 1000165005, VK_STRUCTURE_TYPE_BIND_ACCELERATION_STRUCTURE_MEMORY_INFO_NV = 1000165006, VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_ACCELERATION_STRUCTURE_NV = 1000165007, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_MEMORY_REQUIREMENTS_INFO_NV = 1000165008, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_TRACING_PROPERTIES_NV = 1000165009, VK_STRUCTURE_TYPE_RAY_TRACING_SHADER_GROUP_CREATE_INFO_NV = 1000165011, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_INFO_NV = 1000165012, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_REPRESENTATIVE_FRAGMENT_TEST_FEATURES_NV = 1000166000, VK_STRUCTURE_TYPE_PIPELINE_REPRESENTATIVE_FRAGMENT_TEST_STATE_CREATE_INFO_NV = 1000166001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_VIEW_IMAGE_FORMAT_INFO_EXT = 1000170000, VK_STRUCTURE_TYPE_FILTER_CUBIC_IMAGE_VIEW_IMAGE_FORMAT_PROPERTIES_EXT = 1000170001, VK_STRUCTURE_TYPE_IMPORT_MEMORY_HOST_POINTER_INFO_EXT = 1000178000, VK_STRUCTURE_TYPE_MEMORY_HOST_POINTER_PROPERTIES_EXT = 1000178001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_MEMORY_HOST_PROPERTIES_EXT = 1000178002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_CLOCK_FEATURES_KHR = 1000181000, VK_STRUCTURE_TYPE_PIPELINE_COMPILER_CONTROL_CREATE_INFO_AMD = 1000183000, VK_STRUCTURE_TYPE_CALIBRATED_TIMESTAMP_INFO_EXT = 1000184000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_CORE_PROPERTIES_AMD = 1000185000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H265_CAPABILITIES_EXT = 1000187000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H265_SESSION_PARAMETERS_CREATE_INFO_EXT = 1000187001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H265_SESSION_PARAMETERS_ADD_INFO_EXT = 1000187002, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H265_PROFILE_INFO_EXT = 1000187003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H265_PICTURE_INFO_EXT = 1000187004, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_DECODE_H265_DPB_SLOT_INFO_EXT = 1000187005, #endif VK_STRUCTURE_TYPE_DEVICE_QUEUE_GLOBAL_PRIORITY_CREATE_INFO_KHR = 1000174000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GLOBAL_PRIORITY_QUERY_FEATURES_KHR = 1000388000, VK_STRUCTURE_TYPE_QUEUE_FAMILY_GLOBAL_PRIORITY_PROPERTIES_KHR = 1000388001, VK_STRUCTURE_TYPE_DEVICE_MEMORY_OVERALLOCATION_CREATE_INFO_AMD = 1000189000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VERTEX_ATTRIBUTE_DIVISOR_PROPERTIES_EXT = 1000190000, VK_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_DIVISOR_STATE_CREATE_INFO_EXT = 1000190001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VERTEX_ATTRIBUTE_DIVISOR_FEATURES_EXT = 1000190002, VK_STRUCTURE_TYPE_PRESENT_FRAME_TOKEN_GGP = 1000191000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_COMPUTE_SHADER_DERIVATIVES_FEATURES_NV = 1000201000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MESH_SHADER_FEATURES_NV = 1000202000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MESH_SHADER_PROPERTIES_NV = 1000202001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_IMAGE_FOOTPRINT_FEATURES_NV = 1000204000, VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_EXCLUSIVE_SCISSOR_STATE_CREATE_INFO_NV = 1000205000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXCLUSIVE_SCISSOR_FEATURES_NV = 1000205002, VK_STRUCTURE_TYPE_CHECKPOINT_DATA_NV = 1000206000, VK_STRUCTURE_TYPE_QUEUE_FAMILY_CHECKPOINT_PROPERTIES_NV = 1000206001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_FUNCTIONS_2_FEATURES_INTEL = 1000209000, VK_STRUCTURE_TYPE_QUERY_POOL_PERFORMANCE_QUERY_CREATE_INFO_INTEL = 1000210000, VK_STRUCTURE_TYPE_INITIALIZE_PERFORMANCE_API_INFO_INTEL = 1000210001, VK_STRUCTURE_TYPE_PERFORMANCE_MARKER_INFO_INTEL = 1000210002, VK_STRUCTURE_TYPE_PERFORMANCE_STREAM_MARKER_INFO_INTEL = 1000210003, VK_STRUCTURE_TYPE_PERFORMANCE_OVERRIDE_INFO_INTEL = 1000210004, VK_STRUCTURE_TYPE_PERFORMANCE_CONFIGURATION_ACQUIRE_INFO_INTEL = 1000210005, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PCI_BUS_INFO_PROPERTIES_EXT = 1000212000, VK_STRUCTURE_TYPE_DISPLAY_NATIVE_HDR_SURFACE_CAPABILITIES_AMD = 1000213000, VK_STRUCTURE_TYPE_SWAPCHAIN_DISPLAY_NATIVE_HDR_CREATE_INFO_AMD = 1000213001, VK_STRUCTURE_TYPE_IMAGEPIPE_SURFACE_CREATE_INFO_FUCHSIA = 1000214000, VK_STRUCTURE_TYPE_METAL_SURFACE_CREATE_INFO_EXT = 1000217000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_DENSITY_MAP_FEATURES_EXT = 1000218000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_DENSITY_MAP_PROPERTIES_EXT = 1000218001, VK_STRUCTURE_TYPE_RENDER_PASS_FRAGMENT_DENSITY_MAP_CREATE_INFO_EXT = 1000218002, VK_STRUCTURE_TYPE_FRAGMENT_SHADING_RATE_ATTACHMENT_INFO_KHR = 1000226000, VK_STRUCTURE_TYPE_PIPELINE_FRAGMENT_SHADING_RATE_STATE_CREATE_INFO_KHR = 1000226001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADING_RATE_PROPERTIES_KHR = 1000226002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADING_RATE_FEATURES_KHR = 1000226003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADING_RATE_KHR = 1000226004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_CORE_PROPERTIES_2_AMD = 1000227000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_COHERENT_MEMORY_FEATURES_AMD = 1000229000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_IMAGE_ATOMIC_INT64_FEATURES_EXT = 1000234000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MEMORY_BUDGET_PROPERTIES_EXT = 1000237000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MEMORY_PRIORITY_FEATURES_EXT = 1000238000, VK_STRUCTURE_TYPE_MEMORY_PRIORITY_ALLOCATE_INFO_EXT = 1000238001, VK_STRUCTURE_TYPE_SURFACE_PROTECTED_CAPABILITIES_KHR = 1000239000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEDICATED_ALLOCATION_IMAGE_ALIASING_FEATURES_NV = 1000240000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BUFFER_DEVICE_ADDRESS_FEATURES_EXT = 1000244000, VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_CREATE_INFO_EXT = 1000244002, VK_STRUCTURE_TYPE_VALIDATION_FEATURES_EXT = 1000247000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRESENT_WAIT_FEATURES_KHR = 1000248000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_COOPERATIVE_MATRIX_FEATURES_NV = 1000249000, VK_STRUCTURE_TYPE_COOPERATIVE_MATRIX_PROPERTIES_NV = 1000249001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_COOPERATIVE_MATRIX_PROPERTIES_NV = 1000249002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_COVERAGE_REDUCTION_MODE_FEATURES_NV = 1000250000, VK_STRUCTURE_TYPE_PIPELINE_COVERAGE_REDUCTION_STATE_CREATE_INFO_NV = 1000250001, VK_STRUCTURE_TYPE_FRAMEBUFFER_MIXED_SAMPLES_COMBINATION_NV = 1000250002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADER_INTERLOCK_FEATURES_EXT = 1000251000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_YCBCR_IMAGE_ARRAYS_FEATURES_EXT = 1000252000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROVOKING_VERTEX_FEATURES_EXT = 1000254000, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_PROVOKING_VERTEX_STATE_CREATE_INFO_EXT = 1000254001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROVOKING_VERTEX_PROPERTIES_EXT = 1000254002, VK_STRUCTURE_TYPE_SURFACE_FULL_SCREEN_EXCLUSIVE_INFO_EXT = 1000255000, VK_STRUCTURE_TYPE_SURFACE_CAPABILITIES_FULL_SCREEN_EXCLUSIVE_EXT = 1000255002, VK_STRUCTURE_TYPE_SURFACE_FULL_SCREEN_EXCLUSIVE_WIN32_INFO_EXT = 1000255001, VK_STRUCTURE_TYPE_HEADLESS_SURFACE_CREATE_INFO_EXT = 1000256000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_LINE_RASTERIZATION_FEATURES_EXT = 1000259000, VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_LINE_STATE_CREATE_INFO_EXT = 1000259001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_LINE_RASTERIZATION_PROPERTIES_EXT = 1000259002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_ATOMIC_FLOAT_FEATURES_EXT = 1000260000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INDEX_TYPE_UINT8_FEATURES_EXT = 1000265000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTENDED_DYNAMIC_STATE_FEATURES_EXT = 1000267000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_EXECUTABLE_PROPERTIES_FEATURES_KHR = 1000269000, VK_STRUCTURE_TYPE_PIPELINE_INFO_KHR = 1000269001, VK_STRUCTURE_TYPE_PIPELINE_EXECUTABLE_PROPERTIES_KHR = 1000269002, VK_STRUCTURE_TYPE_PIPELINE_EXECUTABLE_INFO_KHR = 1000269003, VK_STRUCTURE_TYPE_PIPELINE_EXECUTABLE_STATISTIC_KHR = 1000269004, VK_STRUCTURE_TYPE_PIPELINE_EXECUTABLE_INTERNAL_REPRESENTATION_KHR = 1000269005, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_ATOMIC_FLOAT_2_FEATURES_EXT = 1000273000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEVICE_GENERATED_COMMANDS_PROPERTIES_NV = 1000277000, VK_STRUCTURE_TYPE_GRAPHICS_SHADER_GROUP_CREATE_INFO_NV = 1000277001, VK_STRUCTURE_TYPE_GRAPHICS_PIPELINE_SHADER_GROUPS_CREATE_INFO_NV = 1000277002, VK_STRUCTURE_TYPE_INDIRECT_COMMANDS_LAYOUT_TOKEN_NV = 1000277003, VK_STRUCTURE_TYPE_INDIRECT_COMMANDS_LAYOUT_CREATE_INFO_NV = 1000277004, VK_STRUCTURE_TYPE_GENERATED_COMMANDS_INFO_NV = 1000277005, VK_STRUCTURE_TYPE_GENERATED_COMMANDS_MEMORY_REQUIREMENTS_INFO_NV = 1000277006, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEVICE_GENERATED_COMMANDS_FEATURES_NV = 1000277007, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INHERITED_VIEWPORT_SCISSOR_FEATURES_NV = 1000278000, VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_VIEWPORT_SCISSOR_INFO_NV = 1000278001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXEL_BUFFER_ALIGNMENT_FEATURES_EXT = 1000281000, VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_RENDER_PASS_TRANSFORM_INFO_QCOM = 1000282000, VK_STRUCTURE_TYPE_RENDER_PASS_TRANSFORM_BEGIN_INFO_QCOM = 1000282001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEVICE_MEMORY_REPORT_FEATURES_EXT = 1000284000, VK_STRUCTURE_TYPE_DEVICE_DEVICE_MEMORY_REPORT_CREATE_INFO_EXT = 1000284001, VK_STRUCTURE_TYPE_DEVICE_MEMORY_REPORT_CALLBACK_DATA_EXT = 1000284002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ROBUSTNESS_2_FEATURES_EXT = 1000286000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ROBUSTNESS_2_PROPERTIES_EXT = 1000286001, VK_STRUCTURE_TYPE_SAMPLER_CUSTOM_BORDER_COLOR_CREATE_INFO_EXT = 1000287000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_CUSTOM_BORDER_COLOR_PROPERTIES_EXT = 1000287001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_CUSTOM_BORDER_COLOR_FEATURES_EXT = 1000287002, VK_STRUCTURE_TYPE_PIPELINE_LIBRARY_CREATE_INFO_KHR = 1000290000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRESENT_BARRIER_FEATURES_NV = 1000292000, VK_STRUCTURE_TYPE_SURFACE_CAPABILITIES_PRESENT_BARRIER_NV = 1000292001, VK_STRUCTURE_TYPE_SWAPCHAIN_PRESENT_BARRIER_CREATE_INFO_NV = 1000292002, VK_STRUCTURE_TYPE_PRESENT_ID_KHR = 1000294000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRESENT_ID_FEATURES_KHR = 1000294001, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_INFO_KHR = 1000299000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_RATE_CONTROL_INFO_KHR = 1000299001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_RATE_CONTROL_LAYER_INFO_KHR = 1000299002, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_CAPABILITIES_KHR = 1000299003, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_STRUCTURE_TYPE_VIDEO_ENCODE_USAGE_INFO_KHR = 1000299004, #endif VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DIAGNOSTICS_CONFIG_FEATURES_NV = 1000300000, VK_STRUCTURE_TYPE_DEVICE_DIAGNOSTICS_CONFIG_CREATE_INFO_NV = 1000300001, VK_STRUCTURE_TYPE_EXPORT_METAL_OBJECT_CREATE_INFO_EXT = 1000311000, VK_STRUCTURE_TYPE_EXPORT_METAL_OBJECTS_INFO_EXT = 1000311001, VK_STRUCTURE_TYPE_EXPORT_METAL_DEVICE_INFO_EXT = 1000311002, VK_STRUCTURE_TYPE_EXPORT_METAL_COMMAND_QUEUE_INFO_EXT = 1000311003, VK_STRUCTURE_TYPE_EXPORT_METAL_BUFFER_INFO_EXT = 1000311004, VK_STRUCTURE_TYPE_IMPORT_METAL_BUFFER_INFO_EXT = 1000311005, VK_STRUCTURE_TYPE_EXPORT_METAL_TEXTURE_INFO_EXT = 1000311006, VK_STRUCTURE_TYPE_IMPORT_METAL_TEXTURE_INFO_EXT = 1000311007, VK_STRUCTURE_TYPE_EXPORT_METAL_IO_SURFACE_INFO_EXT = 1000311008, VK_STRUCTURE_TYPE_IMPORT_METAL_IO_SURFACE_INFO_EXT = 1000311009, VK_STRUCTURE_TYPE_EXPORT_METAL_SHARED_EVENT_INFO_EXT = 1000311010, VK_STRUCTURE_TYPE_IMPORT_METAL_SHARED_EVENT_INFO_EXT = 1000311011, VK_STRUCTURE_TYPE_QUEUE_FAMILY_CHECKPOINT_PROPERTIES_2_NV = 1000314008, VK_STRUCTURE_TYPE_CHECKPOINT_DATA_2_NV = 1000314009, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GRAPHICS_PIPELINE_LIBRARY_FEATURES_EXT = 1000320000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GRAPHICS_PIPELINE_LIBRARY_PROPERTIES_EXT = 1000320001, VK_STRUCTURE_TYPE_GRAPHICS_PIPELINE_LIBRARY_CREATE_INFO_EXT = 1000320002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_EARLY_AND_LATE_FRAGMENT_TESTS_FEATURES_AMD = 1000321000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADER_BARYCENTRIC_FEATURES_KHR = 1000203000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADER_BARYCENTRIC_PROPERTIES_KHR = 1000322000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_SUBGROUP_UNIFORM_CONTROL_FLOW_FEATURES_KHR = 1000323000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADING_RATE_ENUMS_PROPERTIES_NV = 1000326000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADING_RATE_ENUMS_FEATURES_NV = 1000326001, VK_STRUCTURE_TYPE_PIPELINE_FRAGMENT_SHADING_RATE_ENUM_STATE_CREATE_INFO_NV = 1000326002, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_GEOMETRY_MOTION_TRIANGLES_DATA_NV = 1000327000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_TRACING_MOTION_BLUR_FEATURES_NV = 1000327001, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_MOTION_INFO_NV = 1000327002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MESH_SHADER_FEATURES_EXT = 1000328000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MESH_SHADER_PROPERTIES_EXT = 1000328001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_YCBCR_2_PLANE_444_FORMATS_FEATURES_EXT = 1000330000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_DENSITY_MAP_2_FEATURES_EXT = 1000332000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_DENSITY_MAP_2_PROPERTIES_EXT = 1000332001, VK_STRUCTURE_TYPE_COPY_COMMAND_TRANSFORM_INFO_QCOM = 1000333000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_WORKGROUP_MEMORY_EXPLICIT_LAYOUT_FEATURES_KHR = 1000336000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_COMPRESSION_CONTROL_FEATURES_EXT = 1000338000, VK_STRUCTURE_TYPE_IMAGE_COMPRESSION_CONTROL_EXT = 1000338001, VK_STRUCTURE_TYPE_SUBRESOURCE_LAYOUT_2_EXT = 1000338002, VK_STRUCTURE_TYPE_IMAGE_SUBRESOURCE_2_EXT = 1000338003, VK_STRUCTURE_TYPE_IMAGE_COMPRESSION_PROPERTIES_EXT = 1000338004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ATTACHMENT_FEEDBACK_LOOP_LAYOUT_FEATURES_EXT = 1000339000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_4444_FORMATS_FEATURES_EXT = 1000340000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FAULT_FEATURES_EXT = 1000341000, VK_STRUCTURE_TYPE_DEVICE_FAULT_COUNTS_EXT = 1000341001, VK_STRUCTURE_TYPE_DEVICE_FAULT_INFO_EXT = 1000341002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RGBA10X6_FORMATS_FEATURES_EXT = 1000344000, VK_STRUCTURE_TYPE_DIRECTFB_SURFACE_CREATE_INFO_EXT = 1000346000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VERTEX_INPUT_DYNAMIC_STATE_FEATURES_EXT = 1000352000, VK_STRUCTURE_TYPE_VERTEX_INPUT_BINDING_DESCRIPTION_2_EXT = 1000352001, VK_STRUCTURE_TYPE_VERTEX_INPUT_ATTRIBUTE_DESCRIPTION_2_EXT = 1000352002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DRM_PROPERTIES_EXT = 1000353000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ADDRESS_BINDING_REPORT_FEATURES_EXT = 1000354000, VK_STRUCTURE_TYPE_DEVICE_ADDRESS_BINDING_CALLBACK_DATA_EXT = 1000354001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEPTH_CLIP_CONTROL_FEATURES_EXT = 1000355000, VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_DEPTH_CLIP_CONTROL_CREATE_INFO_EXT = 1000355001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRIMITIVE_TOPOLOGY_LIST_RESTART_FEATURES_EXT = 1000356000, VK_STRUCTURE_TYPE_IMPORT_MEMORY_ZIRCON_HANDLE_INFO_FUCHSIA = 1000364000, VK_STRUCTURE_TYPE_MEMORY_ZIRCON_HANDLE_PROPERTIES_FUCHSIA = 1000364001, VK_STRUCTURE_TYPE_MEMORY_GET_ZIRCON_HANDLE_INFO_FUCHSIA = 1000364002, VK_STRUCTURE_TYPE_IMPORT_SEMAPHORE_ZIRCON_HANDLE_INFO_FUCHSIA = 1000365000, VK_STRUCTURE_TYPE_SEMAPHORE_GET_ZIRCON_HANDLE_INFO_FUCHSIA = 1000365001, VK_STRUCTURE_TYPE_BUFFER_COLLECTION_CREATE_INFO_FUCHSIA = 1000366000, VK_STRUCTURE_TYPE_IMPORT_MEMORY_BUFFER_COLLECTION_FUCHSIA = 1000366001, VK_STRUCTURE_TYPE_BUFFER_COLLECTION_IMAGE_CREATE_INFO_FUCHSIA = 1000366002, VK_STRUCTURE_TYPE_BUFFER_COLLECTION_PROPERTIES_FUCHSIA = 1000366003, VK_STRUCTURE_TYPE_BUFFER_CONSTRAINTS_INFO_FUCHSIA = 1000366004, VK_STRUCTURE_TYPE_BUFFER_COLLECTION_BUFFER_CREATE_INFO_FUCHSIA = 1000366005, VK_STRUCTURE_TYPE_IMAGE_CONSTRAINTS_INFO_FUCHSIA = 1000366006, VK_STRUCTURE_TYPE_IMAGE_FORMAT_CONSTRAINTS_INFO_FUCHSIA = 1000366007, VK_STRUCTURE_TYPE_SYSMEM_COLOR_SPACE_FUCHSIA = 1000366008, VK_STRUCTURE_TYPE_BUFFER_COLLECTION_CONSTRAINTS_INFO_FUCHSIA = 1000366009, VK_STRUCTURE_TYPE_SUBPASS_SHADING_PIPELINE_CREATE_INFO_HUAWEI = 1000369000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBPASS_SHADING_FEATURES_HUAWEI = 1000369001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBPASS_SHADING_PROPERTIES_HUAWEI = 1000369002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INVOCATION_MASK_FEATURES_HUAWEI = 1000370000, VK_STRUCTURE_TYPE_MEMORY_GET_REMOTE_ADDRESS_INFO_NV = 1000371000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_MEMORY_RDMA_FEATURES_NV = 1000371001, VK_STRUCTURE_TYPE_PIPELINE_PROPERTIES_IDENTIFIER_EXT = 1000372000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_PROPERTIES_FEATURES_EXT = 1000372001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTISAMPLED_RENDER_TO_SINGLE_SAMPLED_FEATURES_EXT = 1000376000, VK_STRUCTURE_TYPE_SUBPASS_RESOLVE_PERFORMANCE_QUERY_EXT = 1000376001, VK_STRUCTURE_TYPE_MULTISAMPLED_RENDER_TO_SINGLE_SAMPLED_INFO_EXT = 1000376002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTENDED_DYNAMIC_STATE_2_FEATURES_EXT = 1000377000, VK_STRUCTURE_TYPE_SCREEN_SURFACE_CREATE_INFO_QNX = 1000378000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_COLOR_WRITE_ENABLE_FEATURES_EXT = 1000381000, VK_STRUCTURE_TYPE_PIPELINE_COLOR_WRITE_CREATE_INFO_EXT = 1000381001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRIMITIVES_GENERATED_QUERY_FEATURES_EXT = 1000382000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RAY_TRACING_MAINTENANCE_1_FEATURES_KHR = 1000386000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_VIEW_MIN_LOD_FEATURES_EXT = 1000391000, VK_STRUCTURE_TYPE_IMAGE_VIEW_MIN_LOD_CREATE_INFO_EXT = 1000391001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTI_DRAW_FEATURES_EXT = 1000392000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTI_DRAW_PROPERTIES_EXT = 1000392001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_2D_VIEW_OF_3D_FEATURES_EXT = 1000393000, VK_STRUCTURE_TYPE_MICROMAP_BUILD_INFO_EXT = 1000396000, VK_STRUCTURE_TYPE_MICROMAP_VERSION_INFO_EXT = 1000396001, VK_STRUCTURE_TYPE_COPY_MICROMAP_INFO_EXT = 1000396002, VK_STRUCTURE_TYPE_COPY_MICROMAP_TO_MEMORY_INFO_EXT = 1000396003, VK_STRUCTURE_TYPE_COPY_MEMORY_TO_MICROMAP_INFO_EXT = 1000396004, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_OPACITY_MICROMAP_FEATURES_EXT = 1000396005, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_OPACITY_MICROMAP_PROPERTIES_EXT = 1000396006, VK_STRUCTURE_TYPE_MICROMAP_CREATE_INFO_EXT = 1000396007, VK_STRUCTURE_TYPE_MICROMAP_BUILD_SIZES_INFO_EXT = 1000396008, VK_STRUCTURE_TYPE_ACCELERATION_STRUCTURE_TRIANGLES_OPACITY_MICROMAP_EXT = 1000396009, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BORDER_COLOR_SWIZZLE_FEATURES_EXT = 1000411000, VK_STRUCTURE_TYPE_SAMPLER_BORDER_COLOR_COMPONENT_MAPPING_CREATE_INFO_EXT = 1000411001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PAGEABLE_DEVICE_LOCAL_MEMORY_FEATURES_EXT = 1000412000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_SET_HOST_MAPPING_FEATURES_VALVE = 1000420000, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_BINDING_REFERENCE_VALVE = 1000420001, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_HOST_MAPPING_INFO_VALVE = 1000420002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEPTH_CLAMP_ZERO_ONE_FEATURES_EXT = 1000421000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_NON_SEAMLESS_CUBE_MAP_FEATURES_EXT = 1000422000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_DENSITY_MAP_OFFSET_FEATURES_QCOM = 1000425000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_DENSITY_MAP_OFFSET_PROPERTIES_QCOM = 1000425001, VK_STRUCTURE_TYPE_SUBPASS_FRAGMENT_DENSITY_MAP_OFFSET_END_INFO_QCOM = 1000425002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_LINEAR_COLOR_ATTACHMENT_FEATURES_NV = 1000430000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_COMPRESSION_CONTROL_SWAPCHAIN_FEATURES_EXT = 1000437000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_PROCESSING_FEATURES_QCOM = 1000440000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_PROCESSING_PROPERTIES_QCOM = 1000440001, VK_STRUCTURE_TYPE_IMAGE_VIEW_SAMPLE_WEIGHT_CREATE_INFO_QCOM = 1000440002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTENDED_DYNAMIC_STATE_3_FEATURES_EXT = 1000455000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTENDED_DYNAMIC_STATE_3_PROPERTIES_EXT = 1000455001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBPASS_MERGE_FEEDBACK_FEATURES_EXT = 1000458000, VK_STRUCTURE_TYPE_RENDER_PASS_CREATION_CONTROL_EXT = 1000458001, VK_STRUCTURE_TYPE_RENDER_PASS_CREATION_FEEDBACK_CREATE_INFO_EXT = 1000458002, VK_STRUCTURE_TYPE_RENDER_PASS_SUBPASS_FEEDBACK_CREATE_INFO_EXT = 1000458003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_MODULE_IDENTIFIER_FEATURES_EXT = 1000462000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_MODULE_IDENTIFIER_PROPERTIES_EXT = 1000462001, VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_MODULE_IDENTIFIER_CREATE_INFO_EXT = 1000462002, VK_STRUCTURE_TYPE_SHADER_MODULE_IDENTIFIER_EXT = 1000462003, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_FEATURES_EXT = 1000342000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_OPTICAL_FLOW_FEATURES_NV = 1000464000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_OPTICAL_FLOW_PROPERTIES_NV = 1000464001, VK_STRUCTURE_TYPE_OPTICAL_FLOW_IMAGE_FORMAT_INFO_NV = 1000464002, VK_STRUCTURE_TYPE_OPTICAL_FLOW_IMAGE_FORMAT_PROPERTIES_NV = 1000464003, VK_STRUCTURE_TYPE_OPTICAL_FLOW_SESSION_CREATE_INFO_NV = 1000464004, VK_STRUCTURE_TYPE_OPTICAL_FLOW_EXECUTE_INFO_NV = 1000464005, VK_STRUCTURE_TYPE_OPTICAL_FLOW_SESSION_CREATE_PRIVATE_DATA_INFO_NV = 1000464010, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_LEGACY_DITHERING_FEATURES_EXT = 1000465000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_PROTECTED_ACCESS_FEATURES_EXT = 1000466000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TILE_PROPERTIES_FEATURES_QCOM = 1000484000, VK_STRUCTURE_TYPE_TILE_PROPERTIES_QCOM = 1000484001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_AMIGO_PROFILING_FEATURES_SEC = 1000485000, VK_STRUCTURE_TYPE_AMIGO_PROFILING_SUBMIT_INFO_SEC = 1000485001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MUTABLE_DESCRIPTOR_TYPE_FEATURES_EXT = 1000351000, VK_STRUCTURE_TYPE_MUTABLE_DESCRIPTOR_TYPE_CREATE_INFO_EXT = 1000351002, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_CORE_BUILTINS_FEATURES_ARM = 1000497000, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_CORE_BUILTINS_PROPERTIES_ARM = 1000497001, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTER_FEATURES = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTERS_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_DRAW_PARAMETER_FEATURES = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_DRAW_PARAMETERS_FEATURES, VK_STRUCTURE_TYPE_DEBUG_REPORT_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_DEBUG_REPORT_CALLBACK_CREATE_INFO_EXT, VK_STRUCTURE_TYPE_RENDERING_INFO_KHR = VK_STRUCTURE_TYPE_RENDERING_INFO, VK_STRUCTURE_TYPE_RENDERING_ATTACHMENT_INFO_KHR = VK_STRUCTURE_TYPE_RENDERING_ATTACHMENT_INFO, VK_STRUCTURE_TYPE_PIPELINE_RENDERING_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_PIPELINE_RENDERING_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DYNAMIC_RENDERING_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DYNAMIC_RENDERING_FEATURES, VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_RENDERING_INFO_KHR = VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_RENDERING_INFO, VK_STRUCTURE_TYPE_ATTACHMENT_SAMPLE_COUNT_INFO_NV = VK_STRUCTURE_TYPE_ATTACHMENT_SAMPLE_COUNT_INFO_AMD, VK_STRUCTURE_TYPE_RENDER_PASS_MULTIVIEW_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_RENDER_PASS_MULTIVIEW_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MULTIVIEW_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FEATURES_2_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FEATURES_2, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROPERTIES_2_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PROPERTIES_2, VK_STRUCTURE_TYPE_FORMAT_PROPERTIES_2_KHR = VK_STRUCTURE_TYPE_FORMAT_PROPERTIES_2, VK_STRUCTURE_TYPE_IMAGE_FORMAT_PROPERTIES_2_KHR = VK_STRUCTURE_TYPE_IMAGE_FORMAT_PROPERTIES_2, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_FORMAT_INFO_2_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_FORMAT_INFO_2, VK_STRUCTURE_TYPE_QUEUE_FAMILY_PROPERTIES_2_KHR = VK_STRUCTURE_TYPE_QUEUE_FAMILY_PROPERTIES_2, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MEMORY_PROPERTIES_2_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MEMORY_PROPERTIES_2, VK_STRUCTURE_TYPE_SPARSE_IMAGE_FORMAT_PROPERTIES_2_KHR = VK_STRUCTURE_TYPE_SPARSE_IMAGE_FORMAT_PROPERTIES_2, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SPARSE_IMAGE_FORMAT_INFO_2_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SPARSE_IMAGE_FORMAT_INFO_2, VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO_KHR = VK_STRUCTURE_TYPE_MEMORY_ALLOCATE_FLAGS_INFO, VK_STRUCTURE_TYPE_DEVICE_GROUP_RENDER_PASS_BEGIN_INFO_KHR = VK_STRUCTURE_TYPE_DEVICE_GROUP_RENDER_PASS_BEGIN_INFO, VK_STRUCTURE_TYPE_DEVICE_GROUP_COMMAND_BUFFER_BEGIN_INFO_KHR = VK_STRUCTURE_TYPE_DEVICE_GROUP_COMMAND_BUFFER_BEGIN_INFO, VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO_KHR = VK_STRUCTURE_TYPE_DEVICE_GROUP_SUBMIT_INFO, VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO_KHR = VK_STRUCTURE_TYPE_DEVICE_GROUP_BIND_SPARSE_INFO, VK_STRUCTURE_TYPE_BIND_BUFFER_MEMORY_DEVICE_GROUP_INFO_KHR = VK_STRUCTURE_TYPE_BIND_BUFFER_MEMORY_DEVICE_GROUP_INFO, VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_DEVICE_GROUP_INFO_KHR = VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_DEVICE_GROUP_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXTURE_COMPRESSION_ASTC_HDR_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXTURE_COMPRESSION_ASTC_HDR_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GROUP_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GROUP_PROPERTIES, VK_STRUCTURE_TYPE_DEVICE_GROUP_DEVICE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_DEVICE_GROUP_DEVICE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_IMAGE_FORMAT_INFO_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_IMAGE_FORMAT_INFO, VK_STRUCTURE_TYPE_EXTERNAL_IMAGE_FORMAT_PROPERTIES_KHR = VK_STRUCTURE_TYPE_EXTERNAL_IMAGE_FORMAT_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_BUFFER_INFO_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_BUFFER_INFO, VK_STRUCTURE_TYPE_EXTERNAL_BUFFER_PROPERTIES_KHR = VK_STRUCTURE_TYPE_EXTERNAL_BUFFER_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ID_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ID_PROPERTIES, VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_BUFFER_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_BUFFER_CREATE_INFO, VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMAGE_CREATE_INFO, VK_STRUCTURE_TYPE_EXPORT_MEMORY_ALLOCATE_INFO_KHR = VK_STRUCTURE_TYPE_EXPORT_MEMORY_ALLOCATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_SEMAPHORE_INFO_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_SEMAPHORE_INFO, VK_STRUCTURE_TYPE_EXTERNAL_SEMAPHORE_PROPERTIES_KHR = VK_STRUCTURE_TYPE_EXTERNAL_SEMAPHORE_PROPERTIES, VK_STRUCTURE_TYPE_EXPORT_SEMAPHORE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_EXPORT_SEMAPHORE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_FLOAT16_INT8_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_FLOAT16_INT8_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FLOAT16_INT8_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_FLOAT16_INT8_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_16BIT_STORAGE_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_16BIT_STORAGE_FEATURES, VK_STRUCTURE_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_CREATE_INFO, VK_STRUCTURE_TYPE_SURFACE_CAPABILITIES2_EXT = VK_STRUCTURE_TYPE_SURFACE_CAPABILITIES_2_EXT, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGELESS_FRAMEBUFFER_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGELESS_FRAMEBUFFER_FEATURES, VK_STRUCTURE_TYPE_FRAMEBUFFER_ATTACHMENTS_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_FRAMEBUFFER_ATTACHMENTS_CREATE_INFO, VK_STRUCTURE_TYPE_FRAMEBUFFER_ATTACHMENT_IMAGE_INFO_KHR = VK_STRUCTURE_TYPE_FRAMEBUFFER_ATTACHMENT_IMAGE_INFO, VK_STRUCTURE_TYPE_RENDER_PASS_ATTACHMENT_BEGIN_INFO_KHR = VK_STRUCTURE_TYPE_RENDER_PASS_ATTACHMENT_BEGIN_INFO, VK_STRUCTURE_TYPE_ATTACHMENT_DESCRIPTION_2_KHR = VK_STRUCTURE_TYPE_ATTACHMENT_DESCRIPTION_2, VK_STRUCTURE_TYPE_ATTACHMENT_REFERENCE_2_KHR = VK_STRUCTURE_TYPE_ATTACHMENT_REFERENCE_2, VK_STRUCTURE_TYPE_SUBPASS_DESCRIPTION_2_KHR = VK_STRUCTURE_TYPE_SUBPASS_DESCRIPTION_2, VK_STRUCTURE_TYPE_SUBPASS_DEPENDENCY_2_KHR = VK_STRUCTURE_TYPE_SUBPASS_DEPENDENCY_2, VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO_2_KHR = VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO_2, VK_STRUCTURE_TYPE_SUBPASS_BEGIN_INFO_KHR = VK_STRUCTURE_TYPE_SUBPASS_BEGIN_INFO, VK_STRUCTURE_TYPE_SUBPASS_END_INFO_KHR = VK_STRUCTURE_TYPE_SUBPASS_END_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_FENCE_INFO_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_EXTERNAL_FENCE_INFO, VK_STRUCTURE_TYPE_EXTERNAL_FENCE_PROPERTIES_KHR = VK_STRUCTURE_TYPE_EXTERNAL_FENCE_PROPERTIES, VK_STRUCTURE_TYPE_EXPORT_FENCE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_EXPORT_FENCE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_POINT_CLIPPING_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_POINT_CLIPPING_PROPERTIES, VK_STRUCTURE_TYPE_RENDER_PASS_INPUT_ATTACHMENT_ASPECT_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_RENDER_PASS_INPUT_ATTACHMENT_ASPECT_CREATE_INFO, VK_STRUCTURE_TYPE_IMAGE_VIEW_USAGE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_IMAGE_VIEW_USAGE_CREATE_INFO, VK_STRUCTURE_TYPE_PIPELINE_TESSELLATION_DOMAIN_ORIGIN_STATE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_PIPELINE_TESSELLATION_DOMAIN_ORIGIN_STATE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTERS_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTERS_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTER_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VARIABLE_POINTERS_FEATURES_KHR, VK_STRUCTURE_TYPE_MEMORY_DEDICATED_REQUIREMENTS_KHR = VK_STRUCTURE_TYPE_MEMORY_DEDICATED_REQUIREMENTS, VK_STRUCTURE_TYPE_MEMORY_DEDICATED_ALLOCATE_INFO_KHR = VK_STRUCTURE_TYPE_MEMORY_DEDICATED_ALLOCATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLER_FILTER_MINMAX_PROPERTIES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLER_FILTER_MINMAX_PROPERTIES, VK_STRUCTURE_TYPE_SAMPLER_REDUCTION_MODE_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_SAMPLER_REDUCTION_MODE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INLINE_UNIFORM_BLOCK_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INLINE_UNIFORM_BLOCK_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INLINE_UNIFORM_BLOCK_PROPERTIES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_INLINE_UNIFORM_BLOCK_PROPERTIES, VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_INLINE_UNIFORM_BLOCK_EXT = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET_INLINE_UNIFORM_BLOCK, VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_INLINE_UNIFORM_BLOCK_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_INLINE_UNIFORM_BLOCK_CREATE_INFO, VK_STRUCTURE_TYPE_BUFFER_MEMORY_REQUIREMENTS_INFO_2_KHR = VK_STRUCTURE_TYPE_BUFFER_MEMORY_REQUIREMENTS_INFO_2, VK_STRUCTURE_TYPE_IMAGE_MEMORY_REQUIREMENTS_INFO_2_KHR = VK_STRUCTURE_TYPE_IMAGE_MEMORY_REQUIREMENTS_INFO_2, VK_STRUCTURE_TYPE_IMAGE_SPARSE_MEMORY_REQUIREMENTS_INFO_2_KHR = VK_STRUCTURE_TYPE_IMAGE_SPARSE_MEMORY_REQUIREMENTS_INFO_2, VK_STRUCTURE_TYPE_MEMORY_REQUIREMENTS_2_KHR = VK_STRUCTURE_TYPE_MEMORY_REQUIREMENTS_2, VK_STRUCTURE_TYPE_SPARSE_IMAGE_MEMORY_REQUIREMENTS_2_KHR = VK_STRUCTURE_TYPE_SPARSE_IMAGE_MEMORY_REQUIREMENTS_2, VK_STRUCTURE_TYPE_IMAGE_FORMAT_LIST_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_IMAGE_FORMAT_LIST_CREATE_INFO, VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_CREATE_INFO, VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_INFO_KHR = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_INFO, VK_STRUCTURE_TYPE_BIND_IMAGE_PLANE_MEMORY_INFO_KHR = VK_STRUCTURE_TYPE_BIND_IMAGE_PLANE_MEMORY_INFO, VK_STRUCTURE_TYPE_IMAGE_PLANE_MEMORY_REQUIREMENTS_INFO_KHR = VK_STRUCTURE_TYPE_IMAGE_PLANE_MEMORY_REQUIREMENTS_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLER_YCBCR_CONVERSION_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SAMPLER_YCBCR_CONVERSION_FEATURES, VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_IMAGE_FORMAT_PROPERTIES_KHR = VK_STRUCTURE_TYPE_SAMPLER_YCBCR_CONVERSION_IMAGE_FORMAT_PROPERTIES, VK_STRUCTURE_TYPE_BIND_BUFFER_MEMORY_INFO_KHR = VK_STRUCTURE_TYPE_BIND_BUFFER_MEMORY_INFO, VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_INFO_KHR = VK_STRUCTURE_TYPE_BIND_IMAGE_MEMORY_INFO, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_BINDING_FLAGS_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_BINDING_FLAGS_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_INDEXING_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_INDEXING_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_INDEXING_PROPERTIES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DESCRIPTOR_INDEXING_PROPERTIES, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_VARIABLE_DESCRIPTOR_COUNT_ALLOCATE_INFO_EXT = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_VARIABLE_DESCRIPTOR_COUNT_ALLOCATE_INFO, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_VARIABLE_DESCRIPTOR_COUNT_LAYOUT_SUPPORT_EXT = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_VARIABLE_DESCRIPTOR_COUNT_LAYOUT_SUPPORT, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_3_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_3_PROPERTIES, VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_SUPPORT_KHR = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_SUPPORT, VK_STRUCTURE_TYPE_DEVICE_QUEUE_GLOBAL_PRIORITY_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_DEVICE_QUEUE_GLOBAL_PRIORITY_CREATE_INFO_KHR, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_SUBGROUP_EXTENDED_TYPES_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_SUBGROUP_EXTENDED_TYPES_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_8BIT_STORAGE_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_8BIT_STORAGE_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_ATOMIC_INT64_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_ATOMIC_INT64_FEATURES, VK_STRUCTURE_TYPE_PIPELINE_CREATION_FEEDBACK_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_PIPELINE_CREATION_FEEDBACK_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DRIVER_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DRIVER_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FLOAT_CONTROLS_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FLOAT_CONTROLS_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEPTH_STENCIL_RESOLVE_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_DEPTH_STENCIL_RESOLVE_PROPERTIES, VK_STRUCTURE_TYPE_SUBPASS_DESCRIPTION_DEPTH_STENCIL_RESOLVE_KHR = VK_STRUCTURE_TYPE_SUBPASS_DESCRIPTION_DEPTH_STENCIL_RESOLVE, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADER_BARYCENTRIC_FEATURES_NV = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_FRAGMENT_SHADER_BARYCENTRIC_FEATURES_KHR, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TIMELINE_SEMAPHORE_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TIMELINE_SEMAPHORE_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TIMELINE_SEMAPHORE_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TIMELINE_SEMAPHORE_PROPERTIES, VK_STRUCTURE_TYPE_SEMAPHORE_TYPE_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_SEMAPHORE_TYPE_CREATE_INFO, VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO_KHR = VK_STRUCTURE_TYPE_TIMELINE_SEMAPHORE_SUBMIT_INFO, VK_STRUCTURE_TYPE_SEMAPHORE_WAIT_INFO_KHR = VK_STRUCTURE_TYPE_SEMAPHORE_WAIT_INFO, VK_STRUCTURE_TYPE_SEMAPHORE_SIGNAL_INFO_KHR = VK_STRUCTURE_TYPE_SEMAPHORE_SIGNAL_INFO, VK_STRUCTURE_TYPE_QUERY_POOL_CREATE_INFO_INTEL = VK_STRUCTURE_TYPE_QUERY_POOL_PERFORMANCE_QUERY_CREATE_INFO_INTEL, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_MEMORY_MODEL_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_VULKAN_MEMORY_MODEL_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_TERMINATE_INVOCATION_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_TERMINATE_INVOCATION_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SCALAR_BLOCK_LAYOUT_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SCALAR_BLOCK_LAYOUT_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_SIZE_CONTROL_PROPERTIES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_SIZE_CONTROL_PROPERTIES, VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_REQUIRED_SUBGROUP_SIZE_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_REQUIRED_SUBGROUP_SIZE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_SIZE_CONTROL_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SUBGROUP_SIZE_CONTROL_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SEPARATE_DEPTH_STENCIL_LAYOUTS_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SEPARATE_DEPTH_STENCIL_LAYOUTS_FEATURES, VK_STRUCTURE_TYPE_ATTACHMENT_REFERENCE_STENCIL_LAYOUT_KHR = VK_STRUCTURE_TYPE_ATTACHMENT_REFERENCE_STENCIL_LAYOUT, VK_STRUCTURE_TYPE_ATTACHMENT_DESCRIPTION_STENCIL_LAYOUT_KHR = VK_STRUCTURE_TYPE_ATTACHMENT_DESCRIPTION_STENCIL_LAYOUT, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BUFFER_ADDRESS_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BUFFER_DEVICE_ADDRESS_FEATURES_EXT, VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO_EXT = VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TOOL_PROPERTIES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TOOL_PROPERTIES, VK_STRUCTURE_TYPE_IMAGE_STENCIL_USAGE_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_IMAGE_STENCIL_USAGE_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_UNIFORM_BUFFER_STANDARD_LAYOUT_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_UNIFORM_BUFFER_STANDARD_LAYOUT_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BUFFER_DEVICE_ADDRESS_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_BUFFER_DEVICE_ADDRESS_FEATURES, VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO_KHR = VK_STRUCTURE_TYPE_BUFFER_DEVICE_ADDRESS_INFO, VK_STRUCTURE_TYPE_BUFFER_OPAQUE_CAPTURE_ADDRESS_CREATE_INFO_KHR = VK_STRUCTURE_TYPE_BUFFER_OPAQUE_CAPTURE_ADDRESS_CREATE_INFO, VK_STRUCTURE_TYPE_MEMORY_OPAQUE_CAPTURE_ADDRESS_ALLOCATE_INFO_KHR = VK_STRUCTURE_TYPE_MEMORY_OPAQUE_CAPTURE_ADDRESS_ALLOCATE_INFO, VK_STRUCTURE_TYPE_DEVICE_MEMORY_OPAQUE_CAPTURE_ADDRESS_INFO_KHR = VK_STRUCTURE_TYPE_DEVICE_MEMORY_OPAQUE_CAPTURE_ADDRESS_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_HOST_QUERY_RESET_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_HOST_QUERY_RESET_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_DEMOTE_TO_HELPER_INVOCATION_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_DEMOTE_TO_HELPER_INVOCATION_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_DOT_PRODUCT_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_DOT_PRODUCT_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_DOT_PRODUCT_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SHADER_INTEGER_DOT_PRODUCT_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXEL_BUFFER_ALIGNMENT_PROPERTIES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_TEXEL_BUFFER_ALIGNMENT_PROPERTIES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRIVATE_DATA_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PRIVATE_DATA_FEATURES, VK_STRUCTURE_TYPE_DEVICE_PRIVATE_DATA_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_DEVICE_PRIVATE_DATA_CREATE_INFO, VK_STRUCTURE_TYPE_PRIVATE_DATA_SLOT_CREATE_INFO_EXT = VK_STRUCTURE_TYPE_PRIVATE_DATA_SLOT_CREATE_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_CREATION_CACHE_CONTROL_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_PIPELINE_CREATION_CACHE_CONTROL_FEATURES, VK_STRUCTURE_TYPE_MEMORY_BARRIER_2_KHR = VK_STRUCTURE_TYPE_MEMORY_BARRIER_2, VK_STRUCTURE_TYPE_BUFFER_MEMORY_BARRIER_2_KHR = VK_STRUCTURE_TYPE_BUFFER_MEMORY_BARRIER_2, VK_STRUCTURE_TYPE_IMAGE_MEMORY_BARRIER_2_KHR = VK_STRUCTURE_TYPE_IMAGE_MEMORY_BARRIER_2, VK_STRUCTURE_TYPE_DEPENDENCY_INFO_KHR = VK_STRUCTURE_TYPE_DEPENDENCY_INFO, VK_STRUCTURE_TYPE_SUBMIT_INFO_2_KHR = VK_STRUCTURE_TYPE_SUBMIT_INFO_2, VK_STRUCTURE_TYPE_SEMAPHORE_SUBMIT_INFO_KHR = VK_STRUCTURE_TYPE_SEMAPHORE_SUBMIT_INFO, VK_STRUCTURE_TYPE_COMMAND_BUFFER_SUBMIT_INFO_KHR = VK_STRUCTURE_TYPE_COMMAND_BUFFER_SUBMIT_INFO, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SYNCHRONIZATION_2_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_SYNCHRONIZATION_2_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ZERO_INITIALIZE_WORKGROUP_MEMORY_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_ZERO_INITIALIZE_WORKGROUP_MEMORY_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_ROBUSTNESS_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_IMAGE_ROBUSTNESS_FEATURES, VK_STRUCTURE_TYPE_COPY_BUFFER_INFO_2_KHR = VK_STRUCTURE_TYPE_COPY_BUFFER_INFO_2, VK_STRUCTURE_TYPE_COPY_IMAGE_INFO_2_KHR = VK_STRUCTURE_TYPE_COPY_IMAGE_INFO_2, VK_STRUCTURE_TYPE_COPY_BUFFER_TO_IMAGE_INFO_2_KHR = VK_STRUCTURE_TYPE_COPY_BUFFER_TO_IMAGE_INFO_2, VK_STRUCTURE_TYPE_COPY_IMAGE_TO_BUFFER_INFO_2_KHR = VK_STRUCTURE_TYPE_COPY_IMAGE_TO_BUFFER_INFO_2, VK_STRUCTURE_TYPE_BLIT_IMAGE_INFO_2_KHR = VK_STRUCTURE_TYPE_BLIT_IMAGE_INFO_2, VK_STRUCTURE_TYPE_RESOLVE_IMAGE_INFO_2_KHR = VK_STRUCTURE_TYPE_RESOLVE_IMAGE_INFO_2, VK_STRUCTURE_TYPE_BUFFER_COPY_2_KHR = VK_STRUCTURE_TYPE_BUFFER_COPY_2, VK_STRUCTURE_TYPE_IMAGE_COPY_2_KHR = VK_STRUCTURE_TYPE_IMAGE_COPY_2, VK_STRUCTURE_TYPE_IMAGE_BLIT_2_KHR = VK_STRUCTURE_TYPE_IMAGE_BLIT_2, VK_STRUCTURE_TYPE_BUFFER_IMAGE_COPY_2_KHR = VK_STRUCTURE_TYPE_BUFFER_IMAGE_COPY_2, VK_STRUCTURE_TYPE_IMAGE_RESOLVE_2_KHR = VK_STRUCTURE_TYPE_IMAGE_RESOLVE_2, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_FEATURES_ARM = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_FEATURES_EXT, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MUTABLE_DESCRIPTOR_TYPE_FEATURES_VALVE = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MUTABLE_DESCRIPTOR_TYPE_FEATURES_EXT, VK_STRUCTURE_TYPE_MUTABLE_DESCRIPTOR_TYPE_CREATE_INFO_VALVE = VK_STRUCTURE_TYPE_MUTABLE_DESCRIPTOR_TYPE_CREATE_INFO_EXT, VK_STRUCTURE_TYPE_FORMAT_PROPERTIES_3_KHR = VK_STRUCTURE_TYPE_FORMAT_PROPERTIES_3, VK_STRUCTURE_TYPE_PIPELINE_INFO_EXT = VK_STRUCTURE_TYPE_PIPELINE_INFO_KHR, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GLOBAL_PRIORITY_QUERY_FEATURES_EXT = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_GLOBAL_PRIORITY_QUERY_FEATURES_KHR, VK_STRUCTURE_TYPE_QUEUE_FAMILY_GLOBAL_PRIORITY_PROPERTIES_EXT = VK_STRUCTURE_TYPE_QUEUE_FAMILY_GLOBAL_PRIORITY_PROPERTIES_KHR, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_4_FEATURES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_4_FEATURES, VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_4_PROPERTIES_KHR = VK_STRUCTURE_TYPE_PHYSICAL_DEVICE_MAINTENANCE_4_PROPERTIES, VK_STRUCTURE_TYPE_DEVICE_BUFFER_MEMORY_REQUIREMENTS_KHR = VK_STRUCTURE_TYPE_DEVICE_BUFFER_MEMORY_REQUIREMENTS, VK_STRUCTURE_TYPE_DEVICE_IMAGE_MEMORY_REQUIREMENTS_KHR = VK_STRUCTURE_TYPE_DEVICE_IMAGE_MEMORY_REQUIREMENTS, VK_STRUCTURE_TYPE_MAX_ENUM = 0x7FFFFFFF } VkStructureType; typedef enum VkPipelineCacheHeaderVersion { VK_PIPELINE_CACHE_HEADER_VERSION_ONE = 1, VK_PIPELINE_CACHE_HEADER_VERSION_MAX_ENUM = 0x7FFFFFFF } VkPipelineCacheHeaderVersion; typedef enum VkImageLayout { VK_IMAGE_LAYOUT_UNDEFINED = 0, VK_IMAGE_LAYOUT_GENERAL = 1, VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL = 2, VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL = 3, VK_IMAGE_LAYOUT_DEPTH_STENCIL_READ_ONLY_OPTIMAL = 4, VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL = 5, VK_IMAGE_LAYOUT_TRANSFER_SRC_OPTIMAL = 6, VK_IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL = 7, VK_IMAGE_LAYOUT_PREINITIALIZED = 8, VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_STENCIL_ATTACHMENT_OPTIMAL = 1000117000, VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_STENCIL_READ_ONLY_OPTIMAL = 1000117001, VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_OPTIMAL = 1000241000, VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_OPTIMAL = 1000241001, VK_IMAGE_LAYOUT_STENCIL_ATTACHMENT_OPTIMAL = 1000241002, VK_IMAGE_LAYOUT_STENCIL_READ_ONLY_OPTIMAL = 1000241003, VK_IMAGE_LAYOUT_READ_ONLY_OPTIMAL = 1000314000, VK_IMAGE_LAYOUT_ATTACHMENT_OPTIMAL = 1000314001, VK_IMAGE_LAYOUT_PRESENT_SRC_KHR = 1000001002, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_LAYOUT_VIDEO_DECODE_DST_KHR = 1000024000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_LAYOUT_VIDEO_DECODE_SRC_KHR = 1000024001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_LAYOUT_VIDEO_DECODE_DPB_KHR = 1000024002, #endif VK_IMAGE_LAYOUT_SHARED_PRESENT_KHR = 1000111000, VK_IMAGE_LAYOUT_FRAGMENT_DENSITY_MAP_OPTIMAL_EXT = 1000218000, VK_IMAGE_LAYOUT_FRAGMENT_SHADING_RATE_ATTACHMENT_OPTIMAL_KHR = 1000164003, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_LAYOUT_VIDEO_ENCODE_DST_KHR = 1000299000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_LAYOUT_VIDEO_ENCODE_SRC_KHR = 1000299001, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_LAYOUT_VIDEO_ENCODE_DPB_KHR = 1000299002, #endif VK_IMAGE_LAYOUT_ATTACHMENT_FEEDBACK_LOOP_OPTIMAL_EXT = 1000339000, VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_STENCIL_ATTACHMENT_OPTIMAL_KHR = VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_STENCIL_ATTACHMENT_OPTIMAL, VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_STENCIL_READ_ONLY_OPTIMAL_KHR = VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_STENCIL_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_SHADING_RATE_OPTIMAL_NV = VK_IMAGE_LAYOUT_FRAGMENT_SHADING_RATE_ATTACHMENT_OPTIMAL_KHR, VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_OPTIMAL_KHR = VK_IMAGE_LAYOUT_DEPTH_ATTACHMENT_OPTIMAL, VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_OPTIMAL_KHR = VK_IMAGE_LAYOUT_DEPTH_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_STENCIL_ATTACHMENT_OPTIMAL_KHR = VK_IMAGE_LAYOUT_STENCIL_ATTACHMENT_OPTIMAL, VK_IMAGE_LAYOUT_STENCIL_READ_ONLY_OPTIMAL_KHR = VK_IMAGE_LAYOUT_STENCIL_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_READ_ONLY_OPTIMAL_KHR = VK_IMAGE_LAYOUT_READ_ONLY_OPTIMAL, VK_IMAGE_LAYOUT_ATTACHMENT_OPTIMAL_KHR = VK_IMAGE_LAYOUT_ATTACHMENT_OPTIMAL, VK_IMAGE_LAYOUT_MAX_ENUM = 0x7FFFFFFF } VkImageLayout; typedef enum VkObjectType { VK_OBJECT_TYPE_UNKNOWN = 0, VK_OBJECT_TYPE_INSTANCE = 1, VK_OBJECT_TYPE_PHYSICAL_DEVICE = 2, VK_OBJECT_TYPE_DEVICE = 3, VK_OBJECT_TYPE_QUEUE = 4, VK_OBJECT_TYPE_SEMAPHORE = 5, VK_OBJECT_TYPE_COMMAND_BUFFER = 6, VK_OBJECT_TYPE_FENCE = 7, VK_OBJECT_TYPE_DEVICE_MEMORY = 8, VK_OBJECT_TYPE_BUFFER = 9, VK_OBJECT_TYPE_IMAGE = 10, VK_OBJECT_TYPE_EVENT = 11, VK_OBJECT_TYPE_QUERY_POOL = 12, VK_OBJECT_TYPE_BUFFER_VIEW = 13, VK_OBJECT_TYPE_IMAGE_VIEW = 14, VK_OBJECT_TYPE_SHADER_MODULE = 15, VK_OBJECT_TYPE_PIPELINE_CACHE = 16, VK_OBJECT_TYPE_PIPELINE_LAYOUT = 17, VK_OBJECT_TYPE_RENDER_PASS = 18, VK_OBJECT_TYPE_PIPELINE = 19, VK_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT = 20, VK_OBJECT_TYPE_SAMPLER = 21, VK_OBJECT_TYPE_DESCRIPTOR_POOL = 22, VK_OBJECT_TYPE_DESCRIPTOR_SET = 23, VK_OBJECT_TYPE_FRAMEBUFFER = 24, VK_OBJECT_TYPE_COMMAND_POOL = 25, VK_OBJECT_TYPE_SAMPLER_YCBCR_CONVERSION = 1000156000, VK_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE = 1000085000, VK_OBJECT_TYPE_PRIVATE_DATA_SLOT = 1000295000, VK_OBJECT_TYPE_SURFACE_KHR = 1000000000, VK_OBJECT_TYPE_SWAPCHAIN_KHR = 1000001000, VK_OBJECT_TYPE_DISPLAY_KHR = 1000002000, VK_OBJECT_TYPE_DISPLAY_MODE_KHR = 1000002001, VK_OBJECT_TYPE_DEBUG_REPORT_CALLBACK_EXT = 1000011000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_OBJECT_TYPE_VIDEO_SESSION_KHR = 1000023000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_OBJECT_TYPE_VIDEO_SESSION_PARAMETERS_KHR = 1000023001, #endif VK_OBJECT_TYPE_CU_MODULE_NVX = 1000029000, VK_OBJECT_TYPE_CU_FUNCTION_NVX = 1000029001, VK_OBJECT_TYPE_DEBUG_UTILS_MESSENGER_EXT = 1000128000, VK_OBJECT_TYPE_ACCELERATION_STRUCTURE_KHR = 1000150000, VK_OBJECT_TYPE_VALIDATION_CACHE_EXT = 1000160000, VK_OBJECT_TYPE_ACCELERATION_STRUCTURE_NV = 1000165000, VK_OBJECT_TYPE_PERFORMANCE_CONFIGURATION_INTEL = 1000210000, VK_OBJECT_TYPE_DEFERRED_OPERATION_KHR = 1000268000, VK_OBJECT_TYPE_INDIRECT_COMMANDS_LAYOUT_NV = 1000277000, VK_OBJECT_TYPE_BUFFER_COLLECTION_FUCHSIA = 1000366000, VK_OBJECT_TYPE_MICROMAP_EXT = 1000396000, VK_OBJECT_TYPE_OPTICAL_FLOW_SESSION_NV = 1000464000, VK_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_KHR = VK_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE, VK_OBJECT_TYPE_SAMPLER_YCBCR_CONVERSION_KHR = VK_OBJECT_TYPE_SAMPLER_YCBCR_CONVERSION, VK_OBJECT_TYPE_PRIVATE_DATA_SLOT_EXT = VK_OBJECT_TYPE_PRIVATE_DATA_SLOT, VK_OBJECT_TYPE_MAX_ENUM = 0x7FFFFFFF } VkObjectType; typedef enum VkVendorId { VK_VENDOR_ID_VIV = 0x10001, VK_VENDOR_ID_VSI = 0x10002, VK_VENDOR_ID_KAZAN = 0x10003, VK_VENDOR_ID_CODEPLAY = 0x10004, VK_VENDOR_ID_MESA = 0x10005, VK_VENDOR_ID_POCL = 0x10006, VK_VENDOR_ID_MAX_ENUM = 0x7FFFFFFF } VkVendorId; typedef enum VkSystemAllocationScope { VK_SYSTEM_ALLOCATION_SCOPE_COMMAND = 0, VK_SYSTEM_ALLOCATION_SCOPE_OBJECT = 1, VK_SYSTEM_ALLOCATION_SCOPE_CACHE = 2, VK_SYSTEM_ALLOCATION_SCOPE_DEVICE = 3, VK_SYSTEM_ALLOCATION_SCOPE_INSTANCE = 4, VK_SYSTEM_ALLOCATION_SCOPE_MAX_ENUM = 0x7FFFFFFF } VkSystemAllocationScope; typedef enum VkInternalAllocationType { VK_INTERNAL_ALLOCATION_TYPE_EXECUTABLE = 0, VK_INTERNAL_ALLOCATION_TYPE_MAX_ENUM = 0x7FFFFFFF } VkInternalAllocationType; typedef enum VkFormat { VK_FORMAT_UNDEFINED = 0, VK_FORMAT_R4G4_UNORM_PACK8 = 1, VK_FORMAT_R4G4B4A4_UNORM_PACK16 = 2, VK_FORMAT_B4G4R4A4_UNORM_PACK16 = 3, VK_FORMAT_R5G6B5_UNORM_PACK16 = 4, VK_FORMAT_B5G6R5_UNORM_PACK16 = 5, VK_FORMAT_R5G5B5A1_UNORM_PACK16 = 6, VK_FORMAT_B5G5R5A1_UNORM_PACK16 = 7, VK_FORMAT_A1R5G5B5_UNORM_PACK16 = 8, VK_FORMAT_R8_UNORM = 9, VK_FORMAT_R8_SNORM = 10, VK_FORMAT_R8_USCALED = 11, VK_FORMAT_R8_SSCALED = 12, VK_FORMAT_R8_UINT = 13, VK_FORMAT_R8_SINT = 14, VK_FORMAT_R8_SRGB = 15, VK_FORMAT_R8G8_UNORM = 16, VK_FORMAT_R8G8_SNORM = 17, VK_FORMAT_R8G8_USCALED = 18, VK_FORMAT_R8G8_SSCALED = 19, VK_FORMAT_R8G8_UINT = 20, VK_FORMAT_R8G8_SINT = 21, VK_FORMAT_R8G8_SRGB = 22, VK_FORMAT_R8G8B8_UNORM = 23, VK_FORMAT_R8G8B8_SNORM = 24, VK_FORMAT_R8G8B8_USCALED = 25, VK_FORMAT_R8G8B8_SSCALED = 26, VK_FORMAT_R8G8B8_UINT = 27, VK_FORMAT_R8G8B8_SINT = 28, VK_FORMAT_R8G8B8_SRGB = 29, VK_FORMAT_B8G8R8_UNORM = 30, VK_FORMAT_B8G8R8_SNORM = 31, VK_FORMAT_B8G8R8_USCALED = 32, VK_FORMAT_B8G8R8_SSCALED = 33, VK_FORMAT_B8G8R8_UINT = 34, VK_FORMAT_B8G8R8_SINT = 35, VK_FORMAT_B8G8R8_SRGB = 36, VK_FORMAT_R8G8B8A8_UNORM = 37, VK_FORMAT_R8G8B8A8_SNORM = 38, VK_FORMAT_R8G8B8A8_USCALED = 39, VK_FORMAT_R8G8B8A8_SSCALED = 40, VK_FORMAT_R8G8B8A8_UINT = 41, VK_FORMAT_R8G8B8A8_SINT = 42, VK_FORMAT_R8G8B8A8_SRGB = 43, VK_FORMAT_B8G8R8A8_UNORM = 44, VK_FORMAT_B8G8R8A8_SNORM = 45, VK_FORMAT_B8G8R8A8_USCALED = 46, VK_FORMAT_B8G8R8A8_SSCALED = 47, VK_FORMAT_B8G8R8A8_UINT = 48, VK_FORMAT_B8G8R8A8_SINT = 49, VK_FORMAT_B8G8R8A8_SRGB = 50, VK_FORMAT_A8B8G8R8_UNORM_PACK32 = 51, VK_FORMAT_A8B8G8R8_SNORM_PACK32 = 52, VK_FORMAT_A8B8G8R8_USCALED_PACK32 = 53, VK_FORMAT_A8B8G8R8_SSCALED_PACK32 = 54, VK_FORMAT_A8B8G8R8_UINT_PACK32 = 55, VK_FORMAT_A8B8G8R8_SINT_PACK32 = 56, VK_FORMAT_A8B8G8R8_SRGB_PACK32 = 57, VK_FORMAT_A2R10G10B10_UNORM_PACK32 = 58, VK_FORMAT_A2R10G10B10_SNORM_PACK32 = 59, VK_FORMAT_A2R10G10B10_USCALED_PACK32 = 60, VK_FORMAT_A2R10G10B10_SSCALED_PACK32 = 61, VK_FORMAT_A2R10G10B10_UINT_PACK32 = 62, VK_FORMAT_A2R10G10B10_SINT_PACK32 = 63, VK_FORMAT_A2B10G10R10_UNORM_PACK32 = 64, VK_FORMAT_A2B10G10R10_SNORM_PACK32 = 65, VK_FORMAT_A2B10G10R10_USCALED_PACK32 = 66, VK_FORMAT_A2B10G10R10_SSCALED_PACK32 = 67, VK_FORMAT_A2B10G10R10_UINT_PACK32 = 68, VK_FORMAT_A2B10G10R10_SINT_PACK32 = 69, VK_FORMAT_R16_UNORM = 70, VK_FORMAT_R16_SNORM = 71, VK_FORMAT_R16_USCALED = 72, VK_FORMAT_R16_SSCALED = 73, VK_FORMAT_R16_UINT = 74, VK_FORMAT_R16_SINT = 75, VK_FORMAT_R16_SFLOAT = 76, VK_FORMAT_R16G16_UNORM = 77, VK_FORMAT_R16G16_SNORM = 78, VK_FORMAT_R16G16_USCALED = 79, VK_FORMAT_R16G16_SSCALED = 80, VK_FORMAT_R16G16_UINT = 81, VK_FORMAT_R16G16_SINT = 82, VK_FORMAT_R16G16_SFLOAT = 83, VK_FORMAT_R16G16B16_UNORM = 84, VK_FORMAT_R16G16B16_SNORM = 85, VK_FORMAT_R16G16B16_USCALED = 86, VK_FORMAT_R16G16B16_SSCALED = 87, VK_FORMAT_R16G16B16_UINT = 88, VK_FORMAT_R16G16B16_SINT = 89, VK_FORMAT_R16G16B16_SFLOAT = 90, VK_FORMAT_R16G16B16A16_UNORM = 91, VK_FORMAT_R16G16B16A16_SNORM = 92, VK_FORMAT_R16G16B16A16_USCALED = 93, VK_FORMAT_R16G16B16A16_SSCALED = 94, VK_FORMAT_R16G16B16A16_UINT = 95, VK_FORMAT_R16G16B16A16_SINT = 96, VK_FORMAT_R16G16B16A16_SFLOAT = 97, VK_FORMAT_R32_UINT = 98, VK_FORMAT_R32_SINT = 99, VK_FORMAT_R32_SFLOAT = 100, VK_FORMAT_R32G32_UINT = 101, VK_FORMAT_R32G32_SINT = 102, VK_FORMAT_R32G32_SFLOAT = 103, VK_FORMAT_R32G32B32_UINT = 104, VK_FORMAT_R32G32B32_SINT = 105, VK_FORMAT_R32G32B32_SFLOAT = 106, VK_FORMAT_R32G32B32A32_UINT = 107, VK_FORMAT_R32G32B32A32_SINT = 108, VK_FORMAT_R32G32B32A32_SFLOAT = 109, VK_FORMAT_R64_UINT = 110, VK_FORMAT_R64_SINT = 111, VK_FORMAT_R64_SFLOAT = 112, VK_FORMAT_R64G64_UINT = 113, VK_FORMAT_R64G64_SINT = 114, VK_FORMAT_R64G64_SFLOAT = 115, VK_FORMAT_R64G64B64_UINT = 116, VK_FORMAT_R64G64B64_SINT = 117, VK_FORMAT_R64G64B64_SFLOAT = 118, VK_FORMAT_R64G64B64A64_UINT = 119, VK_FORMAT_R64G64B64A64_SINT = 120, VK_FORMAT_R64G64B64A64_SFLOAT = 121, VK_FORMAT_B10G11R11_UFLOAT_PACK32 = 122, VK_FORMAT_E5B9G9R9_UFLOAT_PACK32 = 123, VK_FORMAT_D16_UNORM = 124, VK_FORMAT_X8_D24_UNORM_PACK32 = 125, VK_FORMAT_D32_SFLOAT = 126, VK_FORMAT_S8_UINT = 127, VK_FORMAT_D16_UNORM_S8_UINT = 128, VK_FORMAT_D24_UNORM_S8_UINT = 129, VK_FORMAT_D32_SFLOAT_S8_UINT = 130, VK_FORMAT_BC1_RGB_UNORM_BLOCK = 131, VK_FORMAT_BC1_RGB_SRGB_BLOCK = 132, VK_FORMAT_BC1_RGBA_UNORM_BLOCK = 133, VK_FORMAT_BC1_RGBA_SRGB_BLOCK = 134, VK_FORMAT_BC2_UNORM_BLOCK = 135, VK_FORMAT_BC2_SRGB_BLOCK = 136, VK_FORMAT_BC3_UNORM_BLOCK = 137, VK_FORMAT_BC3_SRGB_BLOCK = 138, VK_FORMAT_BC4_UNORM_BLOCK = 139, VK_FORMAT_BC4_SNORM_BLOCK = 140, VK_FORMAT_BC5_UNORM_BLOCK = 141, VK_FORMAT_BC5_SNORM_BLOCK = 142, VK_FORMAT_BC6H_UFLOAT_BLOCK = 143, VK_FORMAT_BC6H_SFLOAT_BLOCK = 144, VK_FORMAT_BC7_UNORM_BLOCK = 145, VK_FORMAT_BC7_SRGB_BLOCK = 146, VK_FORMAT_ETC2_R8G8B8_UNORM_BLOCK = 147, VK_FORMAT_ETC2_R8G8B8_SRGB_BLOCK = 148, VK_FORMAT_ETC2_R8G8B8A1_UNORM_BLOCK = 149, VK_FORMAT_ETC2_R8G8B8A1_SRGB_BLOCK = 150, VK_FORMAT_ETC2_R8G8B8A8_UNORM_BLOCK = 151, VK_FORMAT_ETC2_R8G8B8A8_SRGB_BLOCK = 152, VK_FORMAT_EAC_R11_UNORM_BLOCK = 153, VK_FORMAT_EAC_R11_SNORM_BLOCK = 154, VK_FORMAT_EAC_R11G11_UNORM_BLOCK = 155, VK_FORMAT_EAC_R11G11_SNORM_BLOCK = 156, VK_FORMAT_ASTC_4x4_UNORM_BLOCK = 157, VK_FORMAT_ASTC_4x4_SRGB_BLOCK = 158, VK_FORMAT_ASTC_5x4_UNORM_BLOCK = 159, VK_FORMAT_ASTC_5x4_SRGB_BLOCK = 160, VK_FORMAT_ASTC_5x5_UNORM_BLOCK = 161, VK_FORMAT_ASTC_5x5_SRGB_BLOCK = 162, VK_FORMAT_ASTC_6x5_UNORM_BLOCK = 163, VK_FORMAT_ASTC_6x5_SRGB_BLOCK = 164, VK_FORMAT_ASTC_6x6_UNORM_BLOCK = 165, VK_FORMAT_ASTC_6x6_SRGB_BLOCK = 166, VK_FORMAT_ASTC_8x5_UNORM_BLOCK = 167, VK_FORMAT_ASTC_8x5_SRGB_BLOCK = 168, VK_FORMAT_ASTC_8x6_UNORM_BLOCK = 169, VK_FORMAT_ASTC_8x6_SRGB_BLOCK = 170, VK_FORMAT_ASTC_8x8_UNORM_BLOCK = 171, VK_FORMAT_ASTC_8x8_SRGB_BLOCK = 172, VK_FORMAT_ASTC_10x5_UNORM_BLOCK = 173, VK_FORMAT_ASTC_10x5_SRGB_BLOCK = 174, VK_FORMAT_ASTC_10x6_UNORM_BLOCK = 175, VK_FORMAT_ASTC_10x6_SRGB_BLOCK = 176, VK_FORMAT_ASTC_10x8_UNORM_BLOCK = 177, VK_FORMAT_ASTC_10x8_SRGB_BLOCK = 178, VK_FORMAT_ASTC_10x10_UNORM_BLOCK = 179, VK_FORMAT_ASTC_10x10_SRGB_BLOCK = 180, VK_FORMAT_ASTC_12x10_UNORM_BLOCK = 181, VK_FORMAT_ASTC_12x10_SRGB_BLOCK = 182, VK_FORMAT_ASTC_12x12_UNORM_BLOCK = 183, VK_FORMAT_ASTC_12x12_SRGB_BLOCK = 184, VK_FORMAT_G8B8G8R8_422_UNORM = 1000156000, VK_FORMAT_B8G8R8G8_422_UNORM = 1000156001, VK_FORMAT_G8_B8_R8_3PLANE_420_UNORM = 1000156002, VK_FORMAT_G8_B8R8_2PLANE_420_UNORM = 1000156003, VK_FORMAT_G8_B8_R8_3PLANE_422_UNORM = 1000156004, VK_FORMAT_G8_B8R8_2PLANE_422_UNORM = 1000156005, VK_FORMAT_G8_B8_R8_3PLANE_444_UNORM = 1000156006, VK_FORMAT_R10X6_UNORM_PACK16 = 1000156007, VK_FORMAT_R10X6G10X6_UNORM_2PACK16 = 1000156008, VK_FORMAT_R10X6G10X6B10X6A10X6_UNORM_4PACK16 = 1000156009, VK_FORMAT_G10X6B10X6G10X6R10X6_422_UNORM_4PACK16 = 1000156010, VK_FORMAT_B10X6G10X6R10X6G10X6_422_UNORM_4PACK16 = 1000156011, VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_420_UNORM_3PACK16 = 1000156012, VK_FORMAT_G10X6_B10X6R10X6_2PLANE_420_UNORM_3PACK16 = 1000156013, VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_422_UNORM_3PACK16 = 1000156014, VK_FORMAT_G10X6_B10X6R10X6_2PLANE_422_UNORM_3PACK16 = 1000156015, VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_444_UNORM_3PACK16 = 1000156016, VK_FORMAT_R12X4_UNORM_PACK16 = 1000156017, VK_FORMAT_R12X4G12X4_UNORM_2PACK16 = 1000156018, VK_FORMAT_R12X4G12X4B12X4A12X4_UNORM_4PACK16 = 1000156019, VK_FORMAT_G12X4B12X4G12X4R12X4_422_UNORM_4PACK16 = 1000156020, VK_FORMAT_B12X4G12X4R12X4G12X4_422_UNORM_4PACK16 = 1000156021, VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_420_UNORM_3PACK16 = 1000156022, VK_FORMAT_G12X4_B12X4R12X4_2PLANE_420_UNORM_3PACK16 = 1000156023, VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_422_UNORM_3PACK16 = 1000156024, VK_FORMAT_G12X4_B12X4R12X4_2PLANE_422_UNORM_3PACK16 = 1000156025, VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_444_UNORM_3PACK16 = 1000156026, VK_FORMAT_G16B16G16R16_422_UNORM = 1000156027, VK_FORMAT_B16G16R16G16_422_UNORM = 1000156028, VK_FORMAT_G16_B16_R16_3PLANE_420_UNORM = 1000156029, VK_FORMAT_G16_B16R16_2PLANE_420_UNORM = 1000156030, VK_FORMAT_G16_B16_R16_3PLANE_422_UNORM = 1000156031, VK_FORMAT_G16_B16R16_2PLANE_422_UNORM = 1000156032, VK_FORMAT_G16_B16_R16_3PLANE_444_UNORM = 1000156033, VK_FORMAT_G8_B8R8_2PLANE_444_UNORM = 1000330000, VK_FORMAT_G10X6_B10X6R10X6_2PLANE_444_UNORM_3PACK16 = 1000330001, VK_FORMAT_G12X4_B12X4R12X4_2PLANE_444_UNORM_3PACK16 = 1000330002, VK_FORMAT_G16_B16R16_2PLANE_444_UNORM = 1000330003, VK_FORMAT_A4R4G4B4_UNORM_PACK16 = 1000340000, VK_FORMAT_A4B4G4R4_UNORM_PACK16 = 1000340001, VK_FORMAT_ASTC_4x4_SFLOAT_BLOCK = 1000066000, VK_FORMAT_ASTC_5x4_SFLOAT_BLOCK = 1000066001, VK_FORMAT_ASTC_5x5_SFLOAT_BLOCK = 1000066002, VK_FORMAT_ASTC_6x5_SFLOAT_BLOCK = 1000066003, VK_FORMAT_ASTC_6x6_SFLOAT_BLOCK = 1000066004, VK_FORMAT_ASTC_8x5_SFLOAT_BLOCK = 1000066005, VK_FORMAT_ASTC_8x6_SFLOAT_BLOCK = 1000066006, VK_FORMAT_ASTC_8x8_SFLOAT_BLOCK = 1000066007, VK_FORMAT_ASTC_10x5_SFLOAT_BLOCK = 1000066008, VK_FORMAT_ASTC_10x6_SFLOAT_BLOCK = 1000066009, VK_FORMAT_ASTC_10x8_SFLOAT_BLOCK = 1000066010, VK_FORMAT_ASTC_10x10_SFLOAT_BLOCK = 1000066011, VK_FORMAT_ASTC_12x10_SFLOAT_BLOCK = 1000066012, VK_FORMAT_ASTC_12x12_SFLOAT_BLOCK = 1000066013, VK_FORMAT_PVRTC1_2BPP_UNORM_BLOCK_IMG = 1000054000, VK_FORMAT_PVRTC1_4BPP_UNORM_BLOCK_IMG = 1000054001, VK_FORMAT_PVRTC2_2BPP_UNORM_BLOCK_IMG = 1000054002, VK_FORMAT_PVRTC2_4BPP_UNORM_BLOCK_IMG = 1000054003, VK_FORMAT_PVRTC1_2BPP_SRGB_BLOCK_IMG = 1000054004, VK_FORMAT_PVRTC1_4BPP_SRGB_BLOCK_IMG = 1000054005, VK_FORMAT_PVRTC2_2BPP_SRGB_BLOCK_IMG = 1000054006, VK_FORMAT_PVRTC2_4BPP_SRGB_BLOCK_IMG = 1000054007, VK_FORMAT_R16G16_S10_5_NV = 1000464000, VK_FORMAT_ASTC_4x4_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_4x4_SFLOAT_BLOCK, VK_FORMAT_ASTC_5x4_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_5x4_SFLOAT_BLOCK, VK_FORMAT_ASTC_5x5_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_5x5_SFLOAT_BLOCK, VK_FORMAT_ASTC_6x5_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_6x5_SFLOAT_BLOCK, VK_FORMAT_ASTC_6x6_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_6x6_SFLOAT_BLOCK, VK_FORMAT_ASTC_8x5_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_8x5_SFLOAT_BLOCK, VK_FORMAT_ASTC_8x6_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_8x6_SFLOAT_BLOCK, VK_FORMAT_ASTC_8x8_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_8x8_SFLOAT_BLOCK, VK_FORMAT_ASTC_10x5_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_10x5_SFLOAT_BLOCK, VK_FORMAT_ASTC_10x6_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_10x6_SFLOAT_BLOCK, VK_FORMAT_ASTC_10x8_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_10x8_SFLOAT_BLOCK, VK_FORMAT_ASTC_10x10_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_10x10_SFLOAT_BLOCK, VK_FORMAT_ASTC_12x10_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_12x10_SFLOAT_BLOCK, VK_FORMAT_ASTC_12x12_SFLOAT_BLOCK_EXT = VK_FORMAT_ASTC_12x12_SFLOAT_BLOCK, VK_FORMAT_G8B8G8R8_422_UNORM_KHR = VK_FORMAT_G8B8G8R8_422_UNORM, VK_FORMAT_B8G8R8G8_422_UNORM_KHR = VK_FORMAT_B8G8R8G8_422_UNORM, VK_FORMAT_G8_B8_R8_3PLANE_420_UNORM_KHR = VK_FORMAT_G8_B8_R8_3PLANE_420_UNORM, VK_FORMAT_G8_B8R8_2PLANE_420_UNORM_KHR = VK_FORMAT_G8_B8R8_2PLANE_420_UNORM, VK_FORMAT_G8_B8_R8_3PLANE_422_UNORM_KHR = VK_FORMAT_G8_B8_R8_3PLANE_422_UNORM, VK_FORMAT_G8_B8R8_2PLANE_422_UNORM_KHR = VK_FORMAT_G8_B8R8_2PLANE_422_UNORM, VK_FORMAT_G8_B8_R8_3PLANE_444_UNORM_KHR = VK_FORMAT_G8_B8_R8_3PLANE_444_UNORM, VK_FORMAT_R10X6_UNORM_PACK16_KHR = VK_FORMAT_R10X6_UNORM_PACK16, VK_FORMAT_R10X6G10X6_UNORM_2PACK16_KHR = VK_FORMAT_R10X6G10X6_UNORM_2PACK16, VK_FORMAT_R10X6G10X6B10X6A10X6_UNORM_4PACK16_KHR = VK_FORMAT_R10X6G10X6B10X6A10X6_UNORM_4PACK16, VK_FORMAT_G10X6B10X6G10X6R10X6_422_UNORM_4PACK16_KHR = VK_FORMAT_G10X6B10X6G10X6R10X6_422_UNORM_4PACK16, VK_FORMAT_B10X6G10X6R10X6G10X6_422_UNORM_4PACK16_KHR = VK_FORMAT_B10X6G10X6R10X6G10X6_422_UNORM_4PACK16, VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_420_UNORM_3PACK16_KHR = VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_420_UNORM_3PACK16, VK_FORMAT_G10X6_B10X6R10X6_2PLANE_420_UNORM_3PACK16_KHR = VK_FORMAT_G10X6_B10X6R10X6_2PLANE_420_UNORM_3PACK16, VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_422_UNORM_3PACK16_KHR = VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_422_UNORM_3PACK16, VK_FORMAT_G10X6_B10X6R10X6_2PLANE_422_UNORM_3PACK16_KHR = VK_FORMAT_G10X6_B10X6R10X6_2PLANE_422_UNORM_3PACK16, VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_444_UNORM_3PACK16_KHR = VK_FORMAT_G10X6_B10X6_R10X6_3PLANE_444_UNORM_3PACK16, VK_FORMAT_R12X4_UNORM_PACK16_KHR = VK_FORMAT_R12X4_UNORM_PACK16, VK_FORMAT_R12X4G12X4_UNORM_2PACK16_KHR = VK_FORMAT_R12X4G12X4_UNORM_2PACK16, VK_FORMAT_R12X4G12X4B12X4A12X4_UNORM_4PACK16_KHR = VK_FORMAT_R12X4G12X4B12X4A12X4_UNORM_4PACK16, VK_FORMAT_G12X4B12X4G12X4R12X4_422_UNORM_4PACK16_KHR = VK_FORMAT_G12X4B12X4G12X4R12X4_422_UNORM_4PACK16, VK_FORMAT_B12X4G12X4R12X4G12X4_422_UNORM_4PACK16_KHR = VK_FORMAT_B12X4G12X4R12X4G12X4_422_UNORM_4PACK16, VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_420_UNORM_3PACK16_KHR = VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_420_UNORM_3PACK16, VK_FORMAT_G12X4_B12X4R12X4_2PLANE_420_UNORM_3PACK16_KHR = VK_FORMAT_G12X4_B12X4R12X4_2PLANE_420_UNORM_3PACK16, VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_422_UNORM_3PACK16_KHR = VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_422_UNORM_3PACK16, VK_FORMAT_G12X4_B12X4R12X4_2PLANE_422_UNORM_3PACK16_KHR = VK_FORMAT_G12X4_B12X4R12X4_2PLANE_422_UNORM_3PACK16, VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_444_UNORM_3PACK16_KHR = VK_FORMAT_G12X4_B12X4_R12X4_3PLANE_444_UNORM_3PACK16, VK_FORMAT_G16B16G16R16_422_UNORM_KHR = VK_FORMAT_G16B16G16R16_422_UNORM, VK_FORMAT_B16G16R16G16_422_UNORM_KHR = VK_FORMAT_B16G16R16G16_422_UNORM, VK_FORMAT_G16_B16_R16_3PLANE_420_UNORM_KHR = VK_FORMAT_G16_B16_R16_3PLANE_420_UNORM, VK_FORMAT_G16_B16R16_2PLANE_420_UNORM_KHR = VK_FORMAT_G16_B16R16_2PLANE_420_UNORM, VK_FORMAT_G16_B16_R16_3PLANE_422_UNORM_KHR = VK_FORMAT_G16_B16_R16_3PLANE_422_UNORM, VK_FORMAT_G16_B16R16_2PLANE_422_UNORM_KHR = VK_FORMAT_G16_B16R16_2PLANE_422_UNORM, VK_FORMAT_G16_B16_R16_3PLANE_444_UNORM_KHR = VK_FORMAT_G16_B16_R16_3PLANE_444_UNORM, VK_FORMAT_G8_B8R8_2PLANE_444_UNORM_EXT = VK_FORMAT_G8_B8R8_2PLANE_444_UNORM, VK_FORMAT_G10X6_B10X6R10X6_2PLANE_444_UNORM_3PACK16_EXT = VK_FORMAT_G10X6_B10X6R10X6_2PLANE_444_UNORM_3PACK16, VK_FORMAT_G12X4_B12X4R12X4_2PLANE_444_UNORM_3PACK16_EXT = VK_FORMAT_G12X4_B12X4R12X4_2PLANE_444_UNORM_3PACK16, VK_FORMAT_G16_B16R16_2PLANE_444_UNORM_EXT = VK_FORMAT_G16_B16R16_2PLANE_444_UNORM, VK_FORMAT_A4R4G4B4_UNORM_PACK16_EXT = VK_FORMAT_A4R4G4B4_UNORM_PACK16, VK_FORMAT_A4B4G4R4_UNORM_PACK16_EXT = VK_FORMAT_A4B4G4R4_UNORM_PACK16, VK_FORMAT_MAX_ENUM = 0x7FFFFFFF } VkFormat; typedef enum VkImageTiling { VK_IMAGE_TILING_OPTIMAL = 0, VK_IMAGE_TILING_LINEAR = 1, VK_IMAGE_TILING_DRM_FORMAT_MODIFIER_EXT = 1000158000, VK_IMAGE_TILING_MAX_ENUM = 0x7FFFFFFF } VkImageTiling; typedef enum VkImageType { VK_IMAGE_TYPE_1D = 0, VK_IMAGE_TYPE_2D = 1, VK_IMAGE_TYPE_3D = 2, VK_IMAGE_TYPE_MAX_ENUM = 0x7FFFFFFF } VkImageType; typedef enum VkPhysicalDeviceType { VK_PHYSICAL_DEVICE_TYPE_OTHER = 0, VK_PHYSICAL_DEVICE_TYPE_INTEGRATED_GPU = 1, VK_PHYSICAL_DEVICE_TYPE_DISCRETE_GPU = 2, VK_PHYSICAL_DEVICE_TYPE_VIRTUAL_GPU = 3, VK_PHYSICAL_DEVICE_TYPE_CPU = 4, VK_PHYSICAL_DEVICE_TYPE_MAX_ENUM = 0x7FFFFFFF } VkPhysicalDeviceType; typedef enum VkQueryType { VK_QUERY_TYPE_OCCLUSION = 0, VK_QUERY_TYPE_PIPELINE_STATISTICS = 1, VK_QUERY_TYPE_TIMESTAMP = 2, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_QUERY_TYPE_RESULT_STATUS_ONLY_KHR = 1000023000, #endif VK_QUERY_TYPE_TRANSFORM_FEEDBACK_STREAM_EXT = 1000028004, VK_QUERY_TYPE_PERFORMANCE_QUERY_KHR = 1000116000, VK_QUERY_TYPE_ACCELERATION_STRUCTURE_COMPACTED_SIZE_KHR = 1000150000, VK_QUERY_TYPE_ACCELERATION_STRUCTURE_SERIALIZATION_SIZE_KHR = 1000150001, VK_QUERY_TYPE_ACCELERATION_STRUCTURE_COMPACTED_SIZE_NV = 1000165000, VK_QUERY_TYPE_PERFORMANCE_QUERY_INTEL = 1000210000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_QUERY_TYPE_VIDEO_ENCODE_BITSTREAM_BUFFER_RANGE_KHR = 1000299000, #endif VK_QUERY_TYPE_MESH_PRIMITIVES_GENERATED_EXT = 1000328000, VK_QUERY_TYPE_PRIMITIVES_GENERATED_EXT = 1000382000, VK_QUERY_TYPE_ACCELERATION_STRUCTURE_SERIALIZATION_BOTTOM_LEVEL_POINTERS_KHR = 1000386000, VK_QUERY_TYPE_ACCELERATION_STRUCTURE_SIZE_KHR = 1000386001, VK_QUERY_TYPE_MICROMAP_SERIALIZATION_SIZE_EXT = 1000396000, VK_QUERY_TYPE_MICROMAP_COMPACTED_SIZE_EXT = 1000396001, VK_QUERY_TYPE_MAX_ENUM = 0x7FFFFFFF } VkQueryType; typedef enum VkSharingMode { VK_SHARING_MODE_EXCLUSIVE = 0, VK_SHARING_MODE_CONCURRENT = 1, VK_SHARING_MODE_MAX_ENUM = 0x7FFFFFFF } VkSharingMode; typedef enum VkComponentSwizzle { VK_COMPONENT_SWIZZLE_IDENTITY = 0, VK_COMPONENT_SWIZZLE_ZERO = 1, VK_COMPONENT_SWIZZLE_ONE = 2, VK_COMPONENT_SWIZZLE_R = 3, VK_COMPONENT_SWIZZLE_G = 4, VK_COMPONENT_SWIZZLE_B = 5, VK_COMPONENT_SWIZZLE_A = 6, VK_COMPONENT_SWIZZLE_MAX_ENUM = 0x7FFFFFFF } VkComponentSwizzle; typedef enum VkImageViewType { VK_IMAGE_VIEW_TYPE_1D = 0, VK_IMAGE_VIEW_TYPE_2D = 1, VK_IMAGE_VIEW_TYPE_3D = 2, VK_IMAGE_VIEW_TYPE_CUBE = 3, VK_IMAGE_VIEW_TYPE_1D_ARRAY = 4, VK_IMAGE_VIEW_TYPE_2D_ARRAY = 5, VK_IMAGE_VIEW_TYPE_CUBE_ARRAY = 6, VK_IMAGE_VIEW_TYPE_MAX_ENUM = 0x7FFFFFFF } VkImageViewType; typedef enum VkBlendFactor { VK_BLEND_FACTOR_ZERO = 0, VK_BLEND_FACTOR_ONE = 1, VK_BLEND_FACTOR_SRC_COLOR = 2, VK_BLEND_FACTOR_ONE_MINUS_SRC_COLOR = 3, VK_BLEND_FACTOR_DST_COLOR = 4, VK_BLEND_FACTOR_ONE_MINUS_DST_COLOR = 5, VK_BLEND_FACTOR_SRC_ALPHA = 6, VK_BLEND_FACTOR_ONE_MINUS_SRC_ALPHA = 7, VK_BLEND_FACTOR_DST_ALPHA = 8, VK_BLEND_FACTOR_ONE_MINUS_DST_ALPHA = 9, VK_BLEND_FACTOR_CONSTANT_COLOR = 10, VK_BLEND_FACTOR_ONE_MINUS_CONSTANT_COLOR = 11, VK_BLEND_FACTOR_CONSTANT_ALPHA = 12, VK_BLEND_FACTOR_ONE_MINUS_CONSTANT_ALPHA = 13, VK_BLEND_FACTOR_SRC_ALPHA_SATURATE = 14, VK_BLEND_FACTOR_SRC1_COLOR = 15, VK_BLEND_FACTOR_ONE_MINUS_SRC1_COLOR = 16, VK_BLEND_FACTOR_SRC1_ALPHA = 17, VK_BLEND_FACTOR_ONE_MINUS_SRC1_ALPHA = 18, VK_BLEND_FACTOR_MAX_ENUM = 0x7FFFFFFF } VkBlendFactor; typedef enum VkBlendOp { VK_BLEND_OP_ADD = 0, VK_BLEND_OP_SUBTRACT = 1, VK_BLEND_OP_REVERSE_SUBTRACT = 2, VK_BLEND_OP_MIN = 3, VK_BLEND_OP_MAX = 4, VK_BLEND_OP_ZERO_EXT = 1000148000, VK_BLEND_OP_SRC_EXT = 1000148001, VK_BLEND_OP_DST_EXT = 1000148002, VK_BLEND_OP_SRC_OVER_EXT = 1000148003, VK_BLEND_OP_DST_OVER_EXT = 1000148004, VK_BLEND_OP_SRC_IN_EXT = 1000148005, VK_BLEND_OP_DST_IN_EXT = 1000148006, VK_BLEND_OP_SRC_OUT_EXT = 1000148007, VK_BLEND_OP_DST_OUT_EXT = 1000148008, VK_BLEND_OP_SRC_ATOP_EXT = 1000148009, VK_BLEND_OP_DST_ATOP_EXT = 1000148010, VK_BLEND_OP_XOR_EXT = 1000148011, VK_BLEND_OP_MULTIPLY_EXT = 1000148012, VK_BLEND_OP_SCREEN_EXT = 1000148013, VK_BLEND_OP_OVERLAY_EXT = 1000148014, VK_BLEND_OP_DARKEN_EXT = 1000148015, VK_BLEND_OP_LIGHTEN_EXT = 1000148016, VK_BLEND_OP_COLORDODGE_EXT = 1000148017, VK_BLEND_OP_COLORBURN_EXT = 1000148018, VK_BLEND_OP_HARDLIGHT_EXT = 1000148019, VK_BLEND_OP_SOFTLIGHT_EXT = 1000148020, VK_BLEND_OP_DIFFERENCE_EXT = 1000148021, VK_BLEND_OP_EXCLUSION_EXT = 1000148022, VK_BLEND_OP_INVERT_EXT = 1000148023, VK_BLEND_OP_INVERT_RGB_EXT = 1000148024, VK_BLEND_OP_LINEARDODGE_EXT = 1000148025, VK_BLEND_OP_LINEARBURN_EXT = 1000148026, VK_BLEND_OP_VIVIDLIGHT_EXT = 1000148027, VK_BLEND_OP_LINEARLIGHT_EXT = 1000148028, VK_BLEND_OP_PINLIGHT_EXT = 1000148029, VK_BLEND_OP_HARDMIX_EXT = 1000148030, VK_BLEND_OP_HSL_HUE_EXT = 1000148031, VK_BLEND_OP_HSL_SATURATION_EXT = 1000148032, VK_BLEND_OP_HSL_COLOR_EXT = 1000148033, VK_BLEND_OP_HSL_LUMINOSITY_EXT = 1000148034, VK_BLEND_OP_PLUS_EXT = 1000148035, VK_BLEND_OP_PLUS_CLAMPED_EXT = 1000148036, VK_BLEND_OP_PLUS_CLAMPED_ALPHA_EXT = 1000148037, VK_BLEND_OP_PLUS_DARKER_EXT = 1000148038, VK_BLEND_OP_MINUS_EXT = 1000148039, VK_BLEND_OP_MINUS_CLAMPED_EXT = 1000148040, VK_BLEND_OP_CONTRAST_EXT = 1000148041, VK_BLEND_OP_INVERT_OVG_EXT = 1000148042, VK_BLEND_OP_RED_EXT = 1000148043, VK_BLEND_OP_GREEN_EXT = 1000148044, VK_BLEND_OP_BLUE_EXT = 1000148045, VK_BLEND_OP_MAX_ENUM = 0x7FFFFFFF } VkBlendOp; typedef enum VkCompareOp { VK_COMPARE_OP_NEVER = 0, VK_COMPARE_OP_LESS = 1, VK_COMPARE_OP_EQUAL = 2, VK_COMPARE_OP_LESS_OR_EQUAL = 3, VK_COMPARE_OP_GREATER = 4, VK_COMPARE_OP_NOT_EQUAL = 5, VK_COMPARE_OP_GREATER_OR_EQUAL = 6, VK_COMPARE_OP_ALWAYS = 7, VK_COMPARE_OP_MAX_ENUM = 0x7FFFFFFF } VkCompareOp; typedef enum VkDynamicState { VK_DYNAMIC_STATE_VIEWPORT = 0, VK_DYNAMIC_STATE_SCISSOR = 1, VK_DYNAMIC_STATE_LINE_WIDTH = 2, VK_DYNAMIC_STATE_DEPTH_BIAS = 3, VK_DYNAMIC_STATE_BLEND_CONSTANTS = 4, VK_DYNAMIC_STATE_DEPTH_BOUNDS = 5, VK_DYNAMIC_STATE_STENCIL_COMPARE_MASK = 6, VK_DYNAMIC_STATE_STENCIL_WRITE_MASK = 7, VK_DYNAMIC_STATE_STENCIL_REFERENCE = 8, VK_DYNAMIC_STATE_CULL_MODE = 1000267000, VK_DYNAMIC_STATE_FRONT_FACE = 1000267001, VK_DYNAMIC_STATE_PRIMITIVE_TOPOLOGY = 1000267002, VK_DYNAMIC_STATE_VIEWPORT_WITH_COUNT = 1000267003, VK_DYNAMIC_STATE_SCISSOR_WITH_COUNT = 1000267004, VK_DYNAMIC_STATE_VERTEX_INPUT_BINDING_STRIDE = 1000267005, VK_DYNAMIC_STATE_DEPTH_TEST_ENABLE = 1000267006, VK_DYNAMIC_STATE_DEPTH_WRITE_ENABLE = 1000267007, VK_DYNAMIC_STATE_DEPTH_COMPARE_OP = 1000267008, VK_DYNAMIC_STATE_DEPTH_BOUNDS_TEST_ENABLE = 1000267009, VK_DYNAMIC_STATE_STENCIL_TEST_ENABLE = 1000267010, VK_DYNAMIC_STATE_STENCIL_OP = 1000267011, VK_DYNAMIC_STATE_RASTERIZER_DISCARD_ENABLE = 1000377001, VK_DYNAMIC_STATE_DEPTH_BIAS_ENABLE = 1000377002, VK_DYNAMIC_STATE_PRIMITIVE_RESTART_ENABLE = 1000377004, VK_DYNAMIC_STATE_VIEWPORT_W_SCALING_NV = 1000087000, VK_DYNAMIC_STATE_DISCARD_RECTANGLE_EXT = 1000099000, VK_DYNAMIC_STATE_SAMPLE_LOCATIONS_EXT = 1000143000, VK_DYNAMIC_STATE_RAY_TRACING_PIPELINE_STACK_SIZE_KHR = 1000347000, VK_DYNAMIC_STATE_VIEWPORT_SHADING_RATE_PALETTE_NV = 1000164004, VK_DYNAMIC_STATE_VIEWPORT_COARSE_SAMPLE_ORDER_NV = 1000164006, VK_DYNAMIC_STATE_EXCLUSIVE_SCISSOR_NV = 1000205001, VK_DYNAMIC_STATE_FRAGMENT_SHADING_RATE_KHR = 1000226000, VK_DYNAMIC_STATE_LINE_STIPPLE_EXT = 1000259000, VK_DYNAMIC_STATE_VERTEX_INPUT_EXT = 1000352000, VK_DYNAMIC_STATE_PATCH_CONTROL_POINTS_EXT = 1000377000, VK_DYNAMIC_STATE_LOGIC_OP_EXT = 1000377003, VK_DYNAMIC_STATE_COLOR_WRITE_ENABLE_EXT = 1000381000, VK_DYNAMIC_STATE_TESSELLATION_DOMAIN_ORIGIN_EXT = 1000455002, VK_DYNAMIC_STATE_DEPTH_CLAMP_ENABLE_EXT = 1000455003, VK_DYNAMIC_STATE_POLYGON_MODE_EXT = 1000455004, VK_DYNAMIC_STATE_RASTERIZATION_SAMPLES_EXT = 1000455005, VK_DYNAMIC_STATE_SAMPLE_MASK_EXT = 1000455006, VK_DYNAMIC_STATE_ALPHA_TO_COVERAGE_ENABLE_EXT = 1000455007, VK_DYNAMIC_STATE_ALPHA_TO_ONE_ENABLE_EXT = 1000455008, VK_DYNAMIC_STATE_LOGIC_OP_ENABLE_EXT = 1000455009, VK_DYNAMIC_STATE_COLOR_BLEND_ENABLE_EXT = 1000455010, VK_DYNAMIC_STATE_COLOR_BLEND_EQUATION_EXT = 1000455011, VK_DYNAMIC_STATE_COLOR_WRITE_MASK_EXT = 1000455012, VK_DYNAMIC_STATE_RASTERIZATION_STREAM_EXT = 1000455013, VK_DYNAMIC_STATE_CONSERVATIVE_RASTERIZATION_MODE_EXT = 1000455014, VK_DYNAMIC_STATE_EXTRA_PRIMITIVE_OVERESTIMATION_SIZE_EXT = 1000455015, VK_DYNAMIC_STATE_DEPTH_CLIP_ENABLE_EXT = 1000455016, VK_DYNAMIC_STATE_SAMPLE_LOCATIONS_ENABLE_EXT = 1000455017, VK_DYNAMIC_STATE_COLOR_BLEND_ADVANCED_EXT = 1000455018, VK_DYNAMIC_STATE_PROVOKING_VERTEX_MODE_EXT = 1000455019, VK_DYNAMIC_STATE_LINE_RASTERIZATION_MODE_EXT = 1000455020, VK_DYNAMIC_STATE_LINE_STIPPLE_ENABLE_EXT = 1000455021, VK_DYNAMIC_STATE_DEPTH_CLIP_NEGATIVE_ONE_TO_ONE_EXT = 1000455022, VK_DYNAMIC_STATE_VIEWPORT_W_SCALING_ENABLE_NV = 1000455023, VK_DYNAMIC_STATE_VIEWPORT_SWIZZLE_NV = 1000455024, VK_DYNAMIC_STATE_COVERAGE_TO_COLOR_ENABLE_NV = 1000455025, VK_DYNAMIC_STATE_COVERAGE_TO_COLOR_LOCATION_NV = 1000455026, VK_DYNAMIC_STATE_COVERAGE_MODULATION_MODE_NV = 1000455027, VK_DYNAMIC_STATE_COVERAGE_MODULATION_TABLE_ENABLE_NV = 1000455028, VK_DYNAMIC_STATE_COVERAGE_MODULATION_TABLE_NV = 1000455029, VK_DYNAMIC_STATE_SHADING_RATE_IMAGE_ENABLE_NV = 1000455030, VK_DYNAMIC_STATE_REPRESENTATIVE_FRAGMENT_TEST_ENABLE_NV = 1000455031, VK_DYNAMIC_STATE_COVERAGE_REDUCTION_MODE_NV = 1000455032, VK_DYNAMIC_STATE_CULL_MODE_EXT = VK_DYNAMIC_STATE_CULL_MODE, VK_DYNAMIC_STATE_FRONT_FACE_EXT = VK_DYNAMIC_STATE_FRONT_FACE, VK_DYNAMIC_STATE_PRIMITIVE_TOPOLOGY_EXT = VK_DYNAMIC_STATE_PRIMITIVE_TOPOLOGY, VK_DYNAMIC_STATE_VIEWPORT_WITH_COUNT_EXT = VK_DYNAMIC_STATE_VIEWPORT_WITH_COUNT, VK_DYNAMIC_STATE_SCISSOR_WITH_COUNT_EXT = VK_DYNAMIC_STATE_SCISSOR_WITH_COUNT, VK_DYNAMIC_STATE_VERTEX_INPUT_BINDING_STRIDE_EXT = VK_DYNAMIC_STATE_VERTEX_INPUT_BINDING_STRIDE, VK_DYNAMIC_STATE_DEPTH_TEST_ENABLE_EXT = VK_DYNAMIC_STATE_DEPTH_TEST_ENABLE, VK_DYNAMIC_STATE_DEPTH_WRITE_ENABLE_EXT = VK_DYNAMIC_STATE_DEPTH_WRITE_ENABLE, VK_DYNAMIC_STATE_DEPTH_COMPARE_OP_EXT = VK_DYNAMIC_STATE_DEPTH_COMPARE_OP, VK_DYNAMIC_STATE_DEPTH_BOUNDS_TEST_ENABLE_EXT = VK_DYNAMIC_STATE_DEPTH_BOUNDS_TEST_ENABLE, VK_DYNAMIC_STATE_STENCIL_TEST_ENABLE_EXT = VK_DYNAMIC_STATE_STENCIL_TEST_ENABLE, VK_DYNAMIC_STATE_STENCIL_OP_EXT = VK_DYNAMIC_STATE_STENCIL_OP, VK_DYNAMIC_STATE_RASTERIZER_DISCARD_ENABLE_EXT = VK_DYNAMIC_STATE_RASTERIZER_DISCARD_ENABLE, VK_DYNAMIC_STATE_DEPTH_BIAS_ENABLE_EXT = VK_DYNAMIC_STATE_DEPTH_BIAS_ENABLE, VK_DYNAMIC_STATE_PRIMITIVE_RESTART_ENABLE_EXT = VK_DYNAMIC_STATE_PRIMITIVE_RESTART_ENABLE, VK_DYNAMIC_STATE_MAX_ENUM = 0x7FFFFFFF } VkDynamicState; typedef enum VkFrontFace { VK_FRONT_FACE_COUNTER_CLOCKWISE = 0, VK_FRONT_FACE_CLOCKWISE = 1, VK_FRONT_FACE_MAX_ENUM = 0x7FFFFFFF } VkFrontFace; typedef enum VkVertexInputRate { VK_VERTEX_INPUT_RATE_VERTEX = 0, VK_VERTEX_INPUT_RATE_INSTANCE = 1, VK_VERTEX_INPUT_RATE_MAX_ENUM = 0x7FFFFFFF } VkVertexInputRate; typedef enum VkPrimitiveTopology { VK_PRIMITIVE_TOPOLOGY_POINT_LIST = 0, VK_PRIMITIVE_TOPOLOGY_LINE_LIST = 1, VK_PRIMITIVE_TOPOLOGY_LINE_STRIP = 2, VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST = 3, VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP = 4, VK_PRIMITIVE_TOPOLOGY_TRIANGLE_FAN = 5, VK_PRIMITIVE_TOPOLOGY_LINE_LIST_WITH_ADJACENCY = 6, VK_PRIMITIVE_TOPOLOGY_LINE_STRIP_WITH_ADJACENCY = 7, VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST_WITH_ADJACENCY = 8, VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP_WITH_ADJACENCY = 9, VK_PRIMITIVE_TOPOLOGY_PATCH_LIST = 10, VK_PRIMITIVE_TOPOLOGY_MAX_ENUM = 0x7FFFFFFF } VkPrimitiveTopology; typedef enum VkPolygonMode { VK_POLYGON_MODE_FILL = 0, VK_POLYGON_MODE_LINE = 1, VK_POLYGON_MODE_POINT = 2, VK_POLYGON_MODE_FILL_RECTANGLE_NV = 1000153000, VK_POLYGON_MODE_MAX_ENUM = 0x7FFFFFFF } VkPolygonMode; typedef enum VkStencilOp { VK_STENCIL_OP_KEEP = 0, VK_STENCIL_OP_ZERO = 1, VK_STENCIL_OP_REPLACE = 2, VK_STENCIL_OP_INCREMENT_AND_CLAMP = 3, VK_STENCIL_OP_DECREMENT_AND_CLAMP = 4, VK_STENCIL_OP_INVERT = 5, VK_STENCIL_OP_INCREMENT_AND_WRAP = 6, VK_STENCIL_OP_DECREMENT_AND_WRAP = 7, VK_STENCIL_OP_MAX_ENUM = 0x7FFFFFFF } VkStencilOp; typedef enum VkLogicOp { VK_LOGIC_OP_CLEAR = 0, VK_LOGIC_OP_AND = 1, VK_LOGIC_OP_AND_REVERSE = 2, VK_LOGIC_OP_COPY = 3, VK_LOGIC_OP_AND_INVERTED = 4, VK_LOGIC_OP_NO_OP = 5, VK_LOGIC_OP_XOR = 6, VK_LOGIC_OP_OR = 7, VK_LOGIC_OP_NOR = 8, VK_LOGIC_OP_EQUIVALENT = 9, VK_LOGIC_OP_INVERT = 10, VK_LOGIC_OP_OR_REVERSE = 11, VK_LOGIC_OP_COPY_INVERTED = 12, VK_LOGIC_OP_OR_INVERTED = 13, VK_LOGIC_OP_NAND = 14, VK_LOGIC_OP_SET = 15, VK_LOGIC_OP_MAX_ENUM = 0x7FFFFFFF } VkLogicOp; typedef enum VkBorderColor { VK_BORDER_COLOR_FLOAT_TRANSPARENT_BLACK = 0, VK_BORDER_COLOR_INT_TRANSPARENT_BLACK = 1, VK_BORDER_COLOR_FLOAT_OPAQUE_BLACK = 2, VK_BORDER_COLOR_INT_OPAQUE_BLACK = 3, VK_BORDER_COLOR_FLOAT_OPAQUE_WHITE = 4, VK_BORDER_COLOR_INT_OPAQUE_WHITE = 5, VK_BORDER_COLOR_FLOAT_CUSTOM_EXT = 1000287003, VK_BORDER_COLOR_INT_CUSTOM_EXT = 1000287004, VK_BORDER_COLOR_MAX_ENUM = 0x7FFFFFFF } VkBorderColor; typedef enum VkFilter { VK_FILTER_NEAREST = 0, VK_FILTER_LINEAR = 1, VK_FILTER_CUBIC_EXT = 1000015000, VK_FILTER_CUBIC_IMG = VK_FILTER_CUBIC_EXT, VK_FILTER_MAX_ENUM = 0x7FFFFFFF } VkFilter; typedef enum VkSamplerAddressMode { VK_SAMPLER_ADDRESS_MODE_REPEAT = 0, VK_SAMPLER_ADDRESS_MODE_MIRRORED_REPEAT = 1, VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_EDGE = 2, VK_SAMPLER_ADDRESS_MODE_CLAMP_TO_BORDER = 3, VK_SAMPLER_ADDRESS_MODE_MIRROR_CLAMP_TO_EDGE = 4, VK_SAMPLER_ADDRESS_MODE_MIRROR_CLAMP_TO_EDGE_KHR = VK_SAMPLER_ADDRESS_MODE_MIRROR_CLAMP_TO_EDGE, VK_SAMPLER_ADDRESS_MODE_MAX_ENUM = 0x7FFFFFFF } VkSamplerAddressMode; typedef enum VkSamplerMipmapMode { VK_SAMPLER_MIPMAP_MODE_NEAREST = 0, VK_SAMPLER_MIPMAP_MODE_LINEAR = 1, VK_SAMPLER_MIPMAP_MODE_MAX_ENUM = 0x7FFFFFFF } VkSamplerMipmapMode; typedef enum VkDescriptorType { VK_DESCRIPTOR_TYPE_SAMPLER = 0, VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER = 1, VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE = 2, VK_DESCRIPTOR_TYPE_STORAGE_IMAGE = 3, VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER = 4, VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER = 5, VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER = 6, VK_DESCRIPTOR_TYPE_STORAGE_BUFFER = 7, VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC = 8, VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC = 9, VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT = 10, VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK = 1000138000, VK_DESCRIPTOR_TYPE_ACCELERATION_STRUCTURE_KHR = 1000150000, VK_DESCRIPTOR_TYPE_ACCELERATION_STRUCTURE_NV = 1000165000, VK_DESCRIPTOR_TYPE_SAMPLE_WEIGHT_IMAGE_QCOM = 1000440000, VK_DESCRIPTOR_TYPE_BLOCK_MATCH_IMAGE_QCOM = 1000440001, VK_DESCRIPTOR_TYPE_MUTABLE_EXT = 1000351000, VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK_EXT = VK_DESCRIPTOR_TYPE_INLINE_UNIFORM_BLOCK, VK_DESCRIPTOR_TYPE_MUTABLE_VALVE = VK_DESCRIPTOR_TYPE_MUTABLE_EXT, VK_DESCRIPTOR_TYPE_MAX_ENUM = 0x7FFFFFFF } VkDescriptorType; typedef enum VkAttachmentLoadOp { VK_ATTACHMENT_LOAD_OP_LOAD = 0, VK_ATTACHMENT_LOAD_OP_CLEAR = 1, VK_ATTACHMENT_LOAD_OP_DONT_CARE = 2, VK_ATTACHMENT_LOAD_OP_NONE_EXT = 1000400000, VK_ATTACHMENT_LOAD_OP_MAX_ENUM = 0x7FFFFFFF } VkAttachmentLoadOp; typedef enum VkAttachmentStoreOp { VK_ATTACHMENT_STORE_OP_STORE = 0, VK_ATTACHMENT_STORE_OP_DONT_CARE = 1, VK_ATTACHMENT_STORE_OP_NONE = 1000301000, VK_ATTACHMENT_STORE_OP_NONE_KHR = VK_ATTACHMENT_STORE_OP_NONE, VK_ATTACHMENT_STORE_OP_NONE_QCOM = VK_ATTACHMENT_STORE_OP_NONE, VK_ATTACHMENT_STORE_OP_NONE_EXT = VK_ATTACHMENT_STORE_OP_NONE, VK_ATTACHMENT_STORE_OP_MAX_ENUM = 0x7FFFFFFF } VkAttachmentStoreOp; typedef enum VkPipelineBindPoint { VK_PIPELINE_BIND_POINT_GRAPHICS = 0, VK_PIPELINE_BIND_POINT_COMPUTE = 1, VK_PIPELINE_BIND_POINT_RAY_TRACING_KHR = 1000165000, VK_PIPELINE_BIND_POINT_SUBPASS_SHADING_HUAWEI = 1000369003, VK_PIPELINE_BIND_POINT_RAY_TRACING_NV = VK_PIPELINE_BIND_POINT_RAY_TRACING_KHR, VK_PIPELINE_BIND_POINT_MAX_ENUM = 0x7FFFFFFF } VkPipelineBindPoint; typedef enum VkCommandBufferLevel { VK_COMMAND_BUFFER_LEVEL_PRIMARY = 0, VK_COMMAND_BUFFER_LEVEL_SECONDARY = 1, VK_COMMAND_BUFFER_LEVEL_MAX_ENUM = 0x7FFFFFFF } VkCommandBufferLevel; typedef enum VkIndexType { VK_INDEX_TYPE_UINT16 = 0, VK_INDEX_TYPE_UINT32 = 1, VK_INDEX_TYPE_NONE_KHR = 1000165000, VK_INDEX_TYPE_UINT8_EXT = 1000265000, VK_INDEX_TYPE_NONE_NV = VK_INDEX_TYPE_NONE_KHR, VK_INDEX_TYPE_MAX_ENUM = 0x7FFFFFFF } VkIndexType; typedef enum VkSubpassContents { VK_SUBPASS_CONTENTS_INLINE = 0, VK_SUBPASS_CONTENTS_SECONDARY_COMMAND_BUFFERS = 1, VK_SUBPASS_CONTENTS_MAX_ENUM = 0x7FFFFFFF } VkSubpassContents; typedef enum VkAccessFlagBits { VK_ACCESS_INDIRECT_COMMAND_READ_BIT = 0x00000001, VK_ACCESS_INDEX_READ_BIT = 0x00000002, VK_ACCESS_VERTEX_ATTRIBUTE_READ_BIT = 0x00000004, VK_ACCESS_UNIFORM_READ_BIT = 0x00000008, VK_ACCESS_INPUT_ATTACHMENT_READ_BIT = 0x00000010, VK_ACCESS_SHADER_READ_BIT = 0x00000020, VK_ACCESS_SHADER_WRITE_BIT = 0x00000040, VK_ACCESS_COLOR_ATTACHMENT_READ_BIT = 0x00000080, VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT = 0x00000100, VK_ACCESS_DEPTH_STENCIL_ATTACHMENT_READ_BIT = 0x00000200, VK_ACCESS_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT = 0x00000400, VK_ACCESS_TRANSFER_READ_BIT = 0x00000800, VK_ACCESS_TRANSFER_WRITE_BIT = 0x00001000, VK_ACCESS_HOST_READ_BIT = 0x00002000, VK_ACCESS_HOST_WRITE_BIT = 0x00004000, VK_ACCESS_MEMORY_READ_BIT = 0x00008000, VK_ACCESS_MEMORY_WRITE_BIT = 0x00010000, VK_ACCESS_NONE = 0, VK_ACCESS_TRANSFORM_FEEDBACK_WRITE_BIT_EXT = 0x02000000, VK_ACCESS_TRANSFORM_FEEDBACK_COUNTER_READ_BIT_EXT = 0x04000000, VK_ACCESS_TRANSFORM_FEEDBACK_COUNTER_WRITE_BIT_EXT = 0x08000000, VK_ACCESS_CONDITIONAL_RENDERING_READ_BIT_EXT = 0x00100000, VK_ACCESS_COLOR_ATTACHMENT_READ_NONCOHERENT_BIT_EXT = 0x00080000, VK_ACCESS_ACCELERATION_STRUCTURE_READ_BIT_KHR = 0x00200000, VK_ACCESS_ACCELERATION_STRUCTURE_WRITE_BIT_KHR = 0x00400000, VK_ACCESS_FRAGMENT_DENSITY_MAP_READ_BIT_EXT = 0x01000000, VK_ACCESS_FRAGMENT_SHADING_RATE_ATTACHMENT_READ_BIT_KHR = 0x00800000, VK_ACCESS_COMMAND_PREPROCESS_READ_BIT_NV = 0x00020000, VK_ACCESS_COMMAND_PREPROCESS_WRITE_BIT_NV = 0x00040000, VK_ACCESS_SHADING_RATE_IMAGE_READ_BIT_NV = VK_ACCESS_FRAGMENT_SHADING_RATE_ATTACHMENT_READ_BIT_KHR, VK_ACCESS_ACCELERATION_STRUCTURE_READ_BIT_NV = VK_ACCESS_ACCELERATION_STRUCTURE_READ_BIT_KHR, VK_ACCESS_ACCELERATION_STRUCTURE_WRITE_BIT_NV = VK_ACCESS_ACCELERATION_STRUCTURE_WRITE_BIT_KHR, VK_ACCESS_NONE_KHR = VK_ACCESS_NONE, VK_ACCESS_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkAccessFlagBits; typedef VkFlags VkAccessFlags; typedef enum VkImageAspectFlagBits { VK_IMAGE_ASPECT_COLOR_BIT = 0x00000001, VK_IMAGE_ASPECT_DEPTH_BIT = 0x00000002, VK_IMAGE_ASPECT_STENCIL_BIT = 0x00000004, VK_IMAGE_ASPECT_METADATA_BIT = 0x00000008, VK_IMAGE_ASPECT_PLANE_0_BIT = 0x00000010, VK_IMAGE_ASPECT_PLANE_1_BIT = 0x00000020, VK_IMAGE_ASPECT_PLANE_2_BIT = 0x00000040, VK_IMAGE_ASPECT_NONE = 0, VK_IMAGE_ASPECT_MEMORY_PLANE_0_BIT_EXT = 0x00000080, VK_IMAGE_ASPECT_MEMORY_PLANE_1_BIT_EXT = 0x00000100, VK_IMAGE_ASPECT_MEMORY_PLANE_2_BIT_EXT = 0x00000200, VK_IMAGE_ASPECT_MEMORY_PLANE_3_BIT_EXT = 0x00000400, VK_IMAGE_ASPECT_PLANE_0_BIT_KHR = VK_IMAGE_ASPECT_PLANE_0_BIT, VK_IMAGE_ASPECT_PLANE_1_BIT_KHR = VK_IMAGE_ASPECT_PLANE_1_BIT, VK_IMAGE_ASPECT_PLANE_2_BIT_KHR = VK_IMAGE_ASPECT_PLANE_2_BIT, VK_IMAGE_ASPECT_NONE_KHR = VK_IMAGE_ASPECT_NONE, VK_IMAGE_ASPECT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkImageAspectFlagBits; typedef VkFlags VkImageAspectFlags; typedef enum VkFormatFeatureFlagBits { VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT = 0x00000001, VK_FORMAT_FEATURE_STORAGE_IMAGE_BIT = 0x00000002, VK_FORMAT_FEATURE_STORAGE_IMAGE_ATOMIC_BIT = 0x00000004, VK_FORMAT_FEATURE_UNIFORM_TEXEL_BUFFER_BIT = 0x00000008, VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_BIT = 0x00000010, VK_FORMAT_FEATURE_STORAGE_TEXEL_BUFFER_ATOMIC_BIT = 0x00000020, VK_FORMAT_FEATURE_VERTEX_BUFFER_BIT = 0x00000040, VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT = 0x00000080, VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BLEND_BIT = 0x00000100, VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT = 0x00000200, VK_FORMAT_FEATURE_BLIT_SRC_BIT = 0x00000400, VK_FORMAT_FEATURE_BLIT_DST_BIT = 0x00000800, VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_LINEAR_BIT = 0x00001000, VK_FORMAT_FEATURE_TRANSFER_SRC_BIT = 0x00004000, VK_FORMAT_FEATURE_TRANSFER_DST_BIT = 0x00008000, VK_FORMAT_FEATURE_MIDPOINT_CHROMA_SAMPLES_BIT = 0x00020000, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_LINEAR_FILTER_BIT = 0x00040000, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_SEPARATE_RECONSTRUCTION_FILTER_BIT = 0x00080000, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_BIT = 0x00100000, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_FORCEABLE_BIT = 0x00200000, VK_FORMAT_FEATURE_DISJOINT_BIT = 0x00400000, VK_FORMAT_FEATURE_COSITED_CHROMA_SAMPLES_BIT = 0x00800000, VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_MINMAX_BIT = 0x00010000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_FORMAT_FEATURE_VIDEO_DECODE_OUTPUT_BIT_KHR = 0x02000000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_FORMAT_FEATURE_VIDEO_DECODE_DPB_BIT_KHR = 0x04000000, #endif VK_FORMAT_FEATURE_ACCELERATION_STRUCTURE_VERTEX_BUFFER_BIT_KHR = 0x20000000, VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_CUBIC_BIT_EXT = 0x00002000, VK_FORMAT_FEATURE_FRAGMENT_DENSITY_MAP_BIT_EXT = 0x01000000, VK_FORMAT_FEATURE_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = 0x40000000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_FORMAT_FEATURE_VIDEO_ENCODE_INPUT_BIT_KHR = 0x08000000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_FORMAT_FEATURE_VIDEO_ENCODE_DPB_BIT_KHR = 0x10000000, #endif VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_CUBIC_BIT_IMG = VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_CUBIC_BIT_EXT, VK_FORMAT_FEATURE_TRANSFER_SRC_BIT_KHR = VK_FORMAT_FEATURE_TRANSFER_SRC_BIT, VK_FORMAT_FEATURE_TRANSFER_DST_BIT_KHR = VK_FORMAT_FEATURE_TRANSFER_DST_BIT, VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_MINMAX_BIT_EXT = VK_FORMAT_FEATURE_SAMPLED_IMAGE_FILTER_MINMAX_BIT, VK_FORMAT_FEATURE_MIDPOINT_CHROMA_SAMPLES_BIT_KHR = VK_FORMAT_FEATURE_MIDPOINT_CHROMA_SAMPLES_BIT, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_LINEAR_FILTER_BIT_KHR = VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_LINEAR_FILTER_BIT, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_SEPARATE_RECONSTRUCTION_FILTER_BIT_KHR = VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_SEPARATE_RECONSTRUCTION_FILTER_BIT, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_BIT_KHR = VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_BIT, VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_FORCEABLE_BIT_KHR = VK_FORMAT_FEATURE_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_FORCEABLE_BIT, VK_FORMAT_FEATURE_DISJOINT_BIT_KHR = VK_FORMAT_FEATURE_DISJOINT_BIT, VK_FORMAT_FEATURE_COSITED_CHROMA_SAMPLES_BIT_KHR = VK_FORMAT_FEATURE_COSITED_CHROMA_SAMPLES_BIT, VK_FORMAT_FEATURE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkFormatFeatureFlagBits; typedef VkFlags VkFormatFeatureFlags; typedef enum VkImageCreateFlagBits { VK_IMAGE_CREATE_SPARSE_BINDING_BIT = 0x00000001, VK_IMAGE_CREATE_SPARSE_RESIDENCY_BIT = 0x00000002, VK_IMAGE_CREATE_SPARSE_ALIASED_BIT = 0x00000004, VK_IMAGE_CREATE_MUTABLE_FORMAT_BIT = 0x00000008, VK_IMAGE_CREATE_CUBE_COMPATIBLE_BIT = 0x00000010, VK_IMAGE_CREATE_ALIAS_BIT = 0x00000400, VK_IMAGE_CREATE_SPLIT_INSTANCE_BIND_REGIONS_BIT = 0x00000040, VK_IMAGE_CREATE_2D_ARRAY_COMPATIBLE_BIT = 0x00000020, VK_IMAGE_CREATE_BLOCK_TEXEL_VIEW_COMPATIBLE_BIT = 0x00000080, VK_IMAGE_CREATE_EXTENDED_USAGE_BIT = 0x00000100, VK_IMAGE_CREATE_PROTECTED_BIT = 0x00000800, VK_IMAGE_CREATE_DISJOINT_BIT = 0x00000200, VK_IMAGE_CREATE_CORNER_SAMPLED_BIT_NV = 0x00002000, VK_IMAGE_CREATE_SAMPLE_LOCATIONS_COMPATIBLE_DEPTH_BIT_EXT = 0x00001000, VK_IMAGE_CREATE_SUBSAMPLED_BIT_EXT = 0x00004000, VK_IMAGE_CREATE_MULTISAMPLED_RENDER_TO_SINGLE_SAMPLED_BIT_EXT = 0x00040000, VK_IMAGE_CREATE_2D_VIEW_COMPATIBLE_BIT_EXT = 0x00020000, VK_IMAGE_CREATE_FRAGMENT_DENSITY_MAP_OFFSET_BIT_QCOM = 0x00008000, VK_IMAGE_CREATE_SPLIT_INSTANCE_BIND_REGIONS_BIT_KHR = VK_IMAGE_CREATE_SPLIT_INSTANCE_BIND_REGIONS_BIT, VK_IMAGE_CREATE_2D_ARRAY_COMPATIBLE_BIT_KHR = VK_IMAGE_CREATE_2D_ARRAY_COMPATIBLE_BIT, VK_IMAGE_CREATE_BLOCK_TEXEL_VIEW_COMPATIBLE_BIT_KHR = VK_IMAGE_CREATE_BLOCK_TEXEL_VIEW_COMPATIBLE_BIT, VK_IMAGE_CREATE_EXTENDED_USAGE_BIT_KHR = VK_IMAGE_CREATE_EXTENDED_USAGE_BIT, VK_IMAGE_CREATE_DISJOINT_BIT_KHR = VK_IMAGE_CREATE_DISJOINT_BIT, VK_IMAGE_CREATE_ALIAS_BIT_KHR = VK_IMAGE_CREATE_ALIAS_BIT, VK_IMAGE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkImageCreateFlagBits; typedef VkFlags VkImageCreateFlags; typedef enum VkSampleCountFlagBits { VK_SAMPLE_COUNT_1_BIT = 0x00000001, VK_SAMPLE_COUNT_2_BIT = 0x00000002, VK_SAMPLE_COUNT_4_BIT = 0x00000004, VK_SAMPLE_COUNT_8_BIT = 0x00000008, VK_SAMPLE_COUNT_16_BIT = 0x00000010, VK_SAMPLE_COUNT_32_BIT = 0x00000020, VK_SAMPLE_COUNT_64_BIT = 0x00000040, VK_SAMPLE_COUNT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSampleCountFlagBits; typedef VkFlags VkSampleCountFlags; typedef enum VkImageUsageFlagBits { VK_IMAGE_USAGE_TRANSFER_SRC_BIT = 0x00000001, VK_IMAGE_USAGE_TRANSFER_DST_BIT = 0x00000002, VK_IMAGE_USAGE_SAMPLED_BIT = 0x00000004, VK_IMAGE_USAGE_STORAGE_BIT = 0x00000008, VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT = 0x00000010, VK_IMAGE_USAGE_DEPTH_STENCIL_ATTACHMENT_BIT = 0x00000020, VK_IMAGE_USAGE_TRANSIENT_ATTACHMENT_BIT = 0x00000040, VK_IMAGE_USAGE_INPUT_ATTACHMENT_BIT = 0x00000080, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_USAGE_VIDEO_DECODE_DST_BIT_KHR = 0x00000400, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_USAGE_VIDEO_DECODE_SRC_BIT_KHR = 0x00000800, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_USAGE_VIDEO_DECODE_DPB_BIT_KHR = 0x00001000, #endif VK_IMAGE_USAGE_FRAGMENT_DENSITY_MAP_BIT_EXT = 0x00000200, VK_IMAGE_USAGE_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = 0x00000100, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_USAGE_VIDEO_ENCODE_DST_BIT_KHR = 0x00002000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_USAGE_VIDEO_ENCODE_SRC_BIT_KHR = 0x00004000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_IMAGE_USAGE_VIDEO_ENCODE_DPB_BIT_KHR = 0x00008000, #endif VK_IMAGE_USAGE_ATTACHMENT_FEEDBACK_LOOP_BIT_EXT = 0x00080000, VK_IMAGE_USAGE_INVOCATION_MASK_BIT_HUAWEI = 0x00040000, VK_IMAGE_USAGE_SAMPLE_WEIGHT_BIT_QCOM = 0x00100000, VK_IMAGE_USAGE_SAMPLE_BLOCK_MATCH_BIT_QCOM = 0x00200000, VK_IMAGE_USAGE_SHADING_RATE_IMAGE_BIT_NV = VK_IMAGE_USAGE_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR, VK_IMAGE_USAGE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkImageUsageFlagBits; typedef VkFlags VkImageUsageFlags; typedef enum VkInstanceCreateFlagBits { VK_INSTANCE_CREATE_ENUMERATE_PORTABILITY_BIT_KHR = 0x00000001, VK_INSTANCE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkInstanceCreateFlagBits; typedef VkFlags VkInstanceCreateFlags; typedef enum VkMemoryHeapFlagBits { VK_MEMORY_HEAP_DEVICE_LOCAL_BIT = 0x00000001, VK_MEMORY_HEAP_MULTI_INSTANCE_BIT = 0x00000002, VK_MEMORY_HEAP_MULTI_INSTANCE_BIT_KHR = VK_MEMORY_HEAP_MULTI_INSTANCE_BIT, VK_MEMORY_HEAP_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkMemoryHeapFlagBits; typedef VkFlags VkMemoryHeapFlags; typedef enum VkMemoryPropertyFlagBits { VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT = 0x00000001, VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT = 0x00000002, VK_MEMORY_PROPERTY_HOST_COHERENT_BIT = 0x00000004, VK_MEMORY_PROPERTY_HOST_CACHED_BIT = 0x00000008, VK_MEMORY_PROPERTY_LAZILY_ALLOCATED_BIT = 0x00000010, VK_MEMORY_PROPERTY_PROTECTED_BIT = 0x00000020, VK_MEMORY_PROPERTY_DEVICE_COHERENT_BIT_AMD = 0x00000040, VK_MEMORY_PROPERTY_DEVICE_UNCACHED_BIT_AMD = 0x00000080, VK_MEMORY_PROPERTY_RDMA_CAPABLE_BIT_NV = 0x00000100, VK_MEMORY_PROPERTY_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkMemoryPropertyFlagBits; typedef VkFlags VkMemoryPropertyFlags; typedef enum VkQueueFlagBits { VK_QUEUE_GRAPHICS_BIT = 0x00000001, VK_QUEUE_COMPUTE_BIT = 0x00000002, VK_QUEUE_TRANSFER_BIT = 0x00000004, VK_QUEUE_SPARSE_BINDING_BIT = 0x00000008, VK_QUEUE_PROTECTED_BIT = 0x00000010, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_QUEUE_VIDEO_DECODE_BIT_KHR = 0x00000020, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_QUEUE_VIDEO_ENCODE_BIT_KHR = 0x00000040, #endif VK_QUEUE_OPTICAL_FLOW_BIT_NV = 0x00000100, VK_QUEUE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkQueueFlagBits; typedef VkFlags VkQueueFlags; typedef VkFlags VkDeviceCreateFlags; typedef enum VkDeviceQueueCreateFlagBits { VK_DEVICE_QUEUE_CREATE_PROTECTED_BIT = 0x00000001, VK_DEVICE_QUEUE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkDeviceQueueCreateFlagBits; typedef VkFlags VkDeviceQueueCreateFlags; typedef enum VkPipelineStageFlagBits { VK_PIPELINE_STAGE_TOP_OF_PIPE_BIT = 0x00000001, VK_PIPELINE_STAGE_DRAW_INDIRECT_BIT = 0x00000002, VK_PIPELINE_STAGE_VERTEX_INPUT_BIT = 0x00000004, VK_PIPELINE_STAGE_VERTEX_SHADER_BIT = 0x00000008, VK_PIPELINE_STAGE_TESSELLATION_CONTROL_SHADER_BIT = 0x00000010, VK_PIPELINE_STAGE_TESSELLATION_EVALUATION_SHADER_BIT = 0x00000020, VK_PIPELINE_STAGE_GEOMETRY_SHADER_BIT = 0x00000040, VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT = 0x00000080, VK_PIPELINE_STAGE_EARLY_FRAGMENT_TESTS_BIT = 0x00000100, VK_PIPELINE_STAGE_LATE_FRAGMENT_TESTS_BIT = 0x00000200, VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT = 0x00000400, VK_PIPELINE_STAGE_COMPUTE_SHADER_BIT = 0x00000800, VK_PIPELINE_STAGE_TRANSFER_BIT = 0x00001000, VK_PIPELINE_STAGE_BOTTOM_OF_PIPE_BIT = 0x00002000, VK_PIPELINE_STAGE_HOST_BIT = 0x00004000, VK_PIPELINE_STAGE_ALL_GRAPHICS_BIT = 0x00008000, VK_PIPELINE_STAGE_ALL_COMMANDS_BIT = 0x00010000, VK_PIPELINE_STAGE_NONE = 0, VK_PIPELINE_STAGE_TRANSFORM_FEEDBACK_BIT_EXT = 0x01000000, VK_PIPELINE_STAGE_CONDITIONAL_RENDERING_BIT_EXT = 0x00040000, VK_PIPELINE_STAGE_ACCELERATION_STRUCTURE_BUILD_BIT_KHR = 0x02000000, VK_PIPELINE_STAGE_RAY_TRACING_SHADER_BIT_KHR = 0x00200000, VK_PIPELINE_STAGE_FRAGMENT_DENSITY_PROCESS_BIT_EXT = 0x00800000, VK_PIPELINE_STAGE_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = 0x00400000, VK_PIPELINE_STAGE_COMMAND_PREPROCESS_BIT_NV = 0x00020000, VK_PIPELINE_STAGE_TASK_SHADER_BIT_EXT = 0x00080000, VK_PIPELINE_STAGE_MESH_SHADER_BIT_EXT = 0x00100000, VK_PIPELINE_STAGE_SHADING_RATE_IMAGE_BIT_NV = VK_PIPELINE_STAGE_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR, VK_PIPELINE_STAGE_RAY_TRACING_SHADER_BIT_NV = VK_PIPELINE_STAGE_RAY_TRACING_SHADER_BIT_KHR, VK_PIPELINE_STAGE_ACCELERATION_STRUCTURE_BUILD_BIT_NV = VK_PIPELINE_STAGE_ACCELERATION_STRUCTURE_BUILD_BIT_KHR, VK_PIPELINE_STAGE_TASK_SHADER_BIT_NV = VK_PIPELINE_STAGE_TASK_SHADER_BIT_EXT, VK_PIPELINE_STAGE_MESH_SHADER_BIT_NV = VK_PIPELINE_STAGE_MESH_SHADER_BIT_EXT, VK_PIPELINE_STAGE_NONE_KHR = VK_PIPELINE_STAGE_NONE, VK_PIPELINE_STAGE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineStageFlagBits; typedef VkFlags VkPipelineStageFlags; typedef VkFlags VkMemoryMapFlags; typedef enum VkSparseMemoryBindFlagBits { VK_SPARSE_MEMORY_BIND_METADATA_BIT = 0x00000001, VK_SPARSE_MEMORY_BIND_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSparseMemoryBindFlagBits; typedef VkFlags VkSparseMemoryBindFlags; typedef enum VkSparseImageFormatFlagBits { VK_SPARSE_IMAGE_FORMAT_SINGLE_MIPTAIL_BIT = 0x00000001, VK_SPARSE_IMAGE_FORMAT_ALIGNED_MIP_SIZE_BIT = 0x00000002, VK_SPARSE_IMAGE_FORMAT_NONSTANDARD_BLOCK_SIZE_BIT = 0x00000004, VK_SPARSE_IMAGE_FORMAT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSparseImageFormatFlagBits; typedef VkFlags VkSparseImageFormatFlags; typedef enum VkFenceCreateFlagBits { VK_FENCE_CREATE_SIGNALED_BIT = 0x00000001, VK_FENCE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkFenceCreateFlagBits; typedef VkFlags VkFenceCreateFlags; typedef VkFlags VkSemaphoreCreateFlags; typedef enum VkEventCreateFlagBits { VK_EVENT_CREATE_DEVICE_ONLY_BIT = 0x00000001, VK_EVENT_CREATE_DEVICE_ONLY_BIT_KHR = VK_EVENT_CREATE_DEVICE_ONLY_BIT, VK_EVENT_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkEventCreateFlagBits; typedef VkFlags VkEventCreateFlags; typedef enum VkQueryPipelineStatisticFlagBits { VK_QUERY_PIPELINE_STATISTIC_INPUT_ASSEMBLY_VERTICES_BIT = 0x00000001, VK_QUERY_PIPELINE_STATISTIC_INPUT_ASSEMBLY_PRIMITIVES_BIT = 0x00000002, VK_QUERY_PIPELINE_STATISTIC_VERTEX_SHADER_INVOCATIONS_BIT = 0x00000004, VK_QUERY_PIPELINE_STATISTIC_GEOMETRY_SHADER_INVOCATIONS_BIT = 0x00000008, VK_QUERY_PIPELINE_STATISTIC_GEOMETRY_SHADER_PRIMITIVES_BIT = 0x00000010, VK_QUERY_PIPELINE_STATISTIC_CLIPPING_INVOCATIONS_BIT = 0x00000020, VK_QUERY_PIPELINE_STATISTIC_CLIPPING_PRIMITIVES_BIT = 0x00000040, VK_QUERY_PIPELINE_STATISTIC_FRAGMENT_SHADER_INVOCATIONS_BIT = 0x00000080, VK_QUERY_PIPELINE_STATISTIC_TESSELLATION_CONTROL_SHADER_PATCHES_BIT = 0x00000100, VK_QUERY_PIPELINE_STATISTIC_TESSELLATION_EVALUATION_SHADER_INVOCATIONS_BIT = 0x00000200, VK_QUERY_PIPELINE_STATISTIC_COMPUTE_SHADER_INVOCATIONS_BIT = 0x00000400, VK_QUERY_PIPELINE_STATISTIC_TASK_SHADER_INVOCATIONS_BIT_EXT = 0x00000800, VK_QUERY_PIPELINE_STATISTIC_MESH_SHADER_INVOCATIONS_BIT_EXT = 0x00001000, VK_QUERY_PIPELINE_STATISTIC_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkQueryPipelineStatisticFlagBits; typedef VkFlags VkQueryPipelineStatisticFlags; typedef VkFlags VkQueryPoolCreateFlags; typedef enum VkQueryResultFlagBits { VK_QUERY_RESULT_64_BIT = 0x00000001, VK_QUERY_RESULT_WAIT_BIT = 0x00000002, VK_QUERY_RESULT_WITH_AVAILABILITY_BIT = 0x00000004, VK_QUERY_RESULT_PARTIAL_BIT = 0x00000008, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_QUERY_RESULT_WITH_STATUS_BIT_KHR = 0x00000010, #endif VK_QUERY_RESULT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkQueryResultFlagBits; typedef VkFlags VkQueryResultFlags; typedef enum VkBufferCreateFlagBits { VK_BUFFER_CREATE_SPARSE_BINDING_BIT = 0x00000001, VK_BUFFER_CREATE_SPARSE_RESIDENCY_BIT = 0x00000002, VK_BUFFER_CREATE_SPARSE_ALIASED_BIT = 0x00000004, VK_BUFFER_CREATE_PROTECTED_BIT = 0x00000008, VK_BUFFER_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT = 0x00000010, VK_BUFFER_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT_EXT = VK_BUFFER_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT, VK_BUFFER_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT_KHR = VK_BUFFER_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT, VK_BUFFER_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkBufferCreateFlagBits; typedef VkFlags VkBufferCreateFlags; typedef enum VkBufferUsageFlagBits { VK_BUFFER_USAGE_TRANSFER_SRC_BIT = 0x00000001, VK_BUFFER_USAGE_TRANSFER_DST_BIT = 0x00000002, VK_BUFFER_USAGE_UNIFORM_TEXEL_BUFFER_BIT = 0x00000004, VK_BUFFER_USAGE_STORAGE_TEXEL_BUFFER_BIT = 0x00000008, VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT = 0x00000010, VK_BUFFER_USAGE_STORAGE_BUFFER_BIT = 0x00000020, VK_BUFFER_USAGE_INDEX_BUFFER_BIT = 0x00000040, VK_BUFFER_USAGE_VERTEX_BUFFER_BIT = 0x00000080, VK_BUFFER_USAGE_INDIRECT_BUFFER_BIT = 0x00000100, VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT = 0x00020000, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_BUFFER_USAGE_VIDEO_DECODE_SRC_BIT_KHR = 0x00002000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_BUFFER_USAGE_VIDEO_DECODE_DST_BIT_KHR = 0x00004000, #endif VK_BUFFER_USAGE_TRANSFORM_FEEDBACK_BUFFER_BIT_EXT = 0x00000800, VK_BUFFER_USAGE_TRANSFORM_FEEDBACK_COUNTER_BUFFER_BIT_EXT = 0x00001000, VK_BUFFER_USAGE_CONDITIONAL_RENDERING_BIT_EXT = 0x00000200, VK_BUFFER_USAGE_ACCELERATION_STRUCTURE_BUILD_INPUT_READ_ONLY_BIT_KHR = 0x00080000, VK_BUFFER_USAGE_ACCELERATION_STRUCTURE_STORAGE_BIT_KHR = 0x00100000, VK_BUFFER_USAGE_SHADER_BINDING_TABLE_BIT_KHR = 0x00000400, #ifdef VK_ENABLE_BETA_EXTENSIONS VK_BUFFER_USAGE_VIDEO_ENCODE_DST_BIT_KHR = 0x00008000, #endif #ifdef VK_ENABLE_BETA_EXTENSIONS VK_BUFFER_USAGE_VIDEO_ENCODE_SRC_BIT_KHR = 0x00010000, #endif VK_BUFFER_USAGE_MICROMAP_BUILD_INPUT_READ_ONLY_BIT_EXT = 0x00800000, VK_BUFFER_USAGE_MICROMAP_STORAGE_BIT_EXT = 0x01000000, VK_BUFFER_USAGE_RAY_TRACING_BIT_NV = VK_BUFFER_USAGE_SHADER_BINDING_TABLE_BIT_KHR, VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT_EXT = VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT, VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT_KHR = VK_BUFFER_USAGE_SHADER_DEVICE_ADDRESS_BIT, VK_BUFFER_USAGE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkBufferUsageFlagBits; typedef VkFlags VkBufferUsageFlags; typedef VkFlags VkBufferViewCreateFlags; typedef enum VkImageViewCreateFlagBits { VK_IMAGE_VIEW_CREATE_FRAGMENT_DENSITY_MAP_DYNAMIC_BIT_EXT = 0x00000001, VK_IMAGE_VIEW_CREATE_FRAGMENT_DENSITY_MAP_DEFERRED_BIT_EXT = 0x00000002, VK_IMAGE_VIEW_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkImageViewCreateFlagBits; typedef VkFlags VkImageViewCreateFlags; typedef VkFlags VkShaderModuleCreateFlags; typedef enum VkPipelineCacheCreateFlagBits { VK_PIPELINE_CACHE_CREATE_EXTERNALLY_SYNCHRONIZED_BIT = 0x00000001, VK_PIPELINE_CACHE_CREATE_EXTERNALLY_SYNCHRONIZED_BIT_EXT = VK_PIPELINE_CACHE_CREATE_EXTERNALLY_SYNCHRONIZED_BIT, VK_PIPELINE_CACHE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineCacheCreateFlagBits; typedef VkFlags VkPipelineCacheCreateFlags; typedef enum VkColorComponentFlagBits { VK_COLOR_COMPONENT_R_BIT = 0x00000001, VK_COLOR_COMPONENT_G_BIT = 0x00000002, VK_COLOR_COMPONENT_B_BIT = 0x00000004, VK_COLOR_COMPONENT_A_BIT = 0x00000008, VK_COLOR_COMPONENT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkColorComponentFlagBits; typedef VkFlags VkColorComponentFlags; typedef enum VkPipelineCreateFlagBits { VK_PIPELINE_CREATE_DISABLE_OPTIMIZATION_BIT = 0x00000001, VK_PIPELINE_CREATE_ALLOW_DERIVATIVES_BIT = 0x00000002, VK_PIPELINE_CREATE_DERIVATIVE_BIT = 0x00000004, VK_PIPELINE_CREATE_VIEW_INDEX_FROM_DEVICE_INDEX_BIT = 0x00000008, VK_PIPELINE_CREATE_DISPATCH_BASE_BIT = 0x00000010, VK_PIPELINE_CREATE_FAIL_ON_PIPELINE_COMPILE_REQUIRED_BIT = 0x00000100, VK_PIPELINE_CREATE_EARLY_RETURN_ON_FAILURE_BIT = 0x00000200, VK_PIPELINE_CREATE_RENDERING_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = 0x00200000, VK_PIPELINE_CREATE_RENDERING_FRAGMENT_DENSITY_MAP_ATTACHMENT_BIT_EXT = 0x00400000, VK_PIPELINE_CREATE_RAY_TRACING_NO_NULL_ANY_HIT_SHADERS_BIT_KHR = 0x00004000, VK_PIPELINE_CREATE_RAY_TRACING_NO_NULL_CLOSEST_HIT_SHADERS_BIT_KHR = 0x00008000, VK_PIPELINE_CREATE_RAY_TRACING_NO_NULL_MISS_SHADERS_BIT_KHR = 0x00010000, VK_PIPELINE_CREATE_RAY_TRACING_NO_NULL_INTERSECTION_SHADERS_BIT_KHR = 0x00020000, VK_PIPELINE_CREATE_RAY_TRACING_SKIP_TRIANGLES_BIT_KHR = 0x00001000, VK_PIPELINE_CREATE_RAY_TRACING_SKIP_AABBS_BIT_KHR = 0x00002000, VK_PIPELINE_CREATE_RAY_TRACING_SHADER_GROUP_HANDLE_CAPTURE_REPLAY_BIT_KHR = 0x00080000, VK_PIPELINE_CREATE_DEFER_COMPILE_BIT_NV = 0x00000020, VK_PIPELINE_CREATE_CAPTURE_STATISTICS_BIT_KHR = 0x00000040, VK_PIPELINE_CREATE_CAPTURE_INTERNAL_REPRESENTATIONS_BIT_KHR = 0x00000080, VK_PIPELINE_CREATE_INDIRECT_BINDABLE_BIT_NV = 0x00040000, VK_PIPELINE_CREATE_LIBRARY_BIT_KHR = 0x00000800, VK_PIPELINE_CREATE_RETAIN_LINK_TIME_OPTIMIZATION_INFO_BIT_EXT = 0x00800000, VK_PIPELINE_CREATE_LINK_TIME_OPTIMIZATION_BIT_EXT = 0x00000400, VK_PIPELINE_CREATE_RAY_TRACING_ALLOW_MOTION_BIT_NV = 0x00100000, VK_PIPELINE_CREATE_COLOR_ATTACHMENT_FEEDBACK_LOOP_BIT_EXT = 0x02000000, VK_PIPELINE_CREATE_DEPTH_STENCIL_ATTACHMENT_FEEDBACK_LOOP_BIT_EXT = 0x04000000, VK_PIPELINE_CREATE_RAY_TRACING_OPACITY_MICROMAP_BIT_EXT = 0x01000000, VK_PIPELINE_CREATE_NO_PROTECTED_ACCESS_BIT_EXT = 0x08000000, VK_PIPELINE_CREATE_PROTECTED_ACCESS_ONLY_BIT_EXT = 0x40000000, VK_PIPELINE_CREATE_DISPATCH_BASE = VK_PIPELINE_CREATE_DISPATCH_BASE_BIT, VK_PIPELINE_RASTERIZATION_STATE_CREATE_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = VK_PIPELINE_CREATE_RENDERING_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR, VK_PIPELINE_RASTERIZATION_STATE_CREATE_FRAGMENT_DENSITY_MAP_ATTACHMENT_BIT_EXT = VK_PIPELINE_CREATE_RENDERING_FRAGMENT_DENSITY_MAP_ATTACHMENT_BIT_EXT, VK_PIPELINE_CREATE_VIEW_INDEX_FROM_DEVICE_INDEX_BIT_KHR = VK_PIPELINE_CREATE_VIEW_INDEX_FROM_DEVICE_INDEX_BIT, VK_PIPELINE_CREATE_DISPATCH_BASE_KHR = VK_PIPELINE_CREATE_DISPATCH_BASE, VK_PIPELINE_CREATE_FAIL_ON_PIPELINE_COMPILE_REQUIRED_BIT_EXT = VK_PIPELINE_CREATE_FAIL_ON_PIPELINE_COMPILE_REQUIRED_BIT, VK_PIPELINE_CREATE_EARLY_RETURN_ON_FAILURE_BIT_EXT = VK_PIPELINE_CREATE_EARLY_RETURN_ON_FAILURE_BIT, VK_PIPELINE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineCreateFlagBits; typedef VkFlags VkPipelineCreateFlags; typedef enum VkPipelineShaderStageCreateFlagBits { VK_PIPELINE_SHADER_STAGE_CREATE_ALLOW_VARYING_SUBGROUP_SIZE_BIT = 0x00000001, VK_PIPELINE_SHADER_STAGE_CREATE_REQUIRE_FULL_SUBGROUPS_BIT = 0x00000002, VK_PIPELINE_SHADER_STAGE_CREATE_ALLOW_VARYING_SUBGROUP_SIZE_BIT_EXT = VK_PIPELINE_SHADER_STAGE_CREATE_ALLOW_VARYING_SUBGROUP_SIZE_BIT, VK_PIPELINE_SHADER_STAGE_CREATE_REQUIRE_FULL_SUBGROUPS_BIT_EXT = VK_PIPELINE_SHADER_STAGE_CREATE_REQUIRE_FULL_SUBGROUPS_BIT, VK_PIPELINE_SHADER_STAGE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineShaderStageCreateFlagBits; typedef VkFlags VkPipelineShaderStageCreateFlags; typedef enum VkShaderStageFlagBits { VK_SHADER_STAGE_VERTEX_BIT = 0x00000001, VK_SHADER_STAGE_TESSELLATION_CONTROL_BIT = 0x00000002, VK_SHADER_STAGE_TESSELLATION_EVALUATION_BIT = 0x00000004, VK_SHADER_STAGE_GEOMETRY_BIT = 0x00000008, VK_SHADER_STAGE_FRAGMENT_BIT = 0x00000010, VK_SHADER_STAGE_COMPUTE_BIT = 0x00000020, VK_SHADER_STAGE_ALL_GRAPHICS = 0x0000001F, VK_SHADER_STAGE_ALL = 0x7FFFFFFF, VK_SHADER_STAGE_RAYGEN_BIT_KHR = 0x00000100, VK_SHADER_STAGE_ANY_HIT_BIT_KHR = 0x00000200, VK_SHADER_STAGE_CLOSEST_HIT_BIT_KHR = 0x00000400, VK_SHADER_STAGE_MISS_BIT_KHR = 0x00000800, VK_SHADER_STAGE_INTERSECTION_BIT_KHR = 0x00001000, VK_SHADER_STAGE_CALLABLE_BIT_KHR = 0x00002000, VK_SHADER_STAGE_TASK_BIT_EXT = 0x00000040, VK_SHADER_STAGE_MESH_BIT_EXT = 0x00000080, VK_SHADER_STAGE_SUBPASS_SHADING_BIT_HUAWEI = 0x00004000, VK_SHADER_STAGE_RAYGEN_BIT_NV = VK_SHADER_STAGE_RAYGEN_BIT_KHR, VK_SHADER_STAGE_ANY_HIT_BIT_NV = VK_SHADER_STAGE_ANY_HIT_BIT_KHR, VK_SHADER_STAGE_CLOSEST_HIT_BIT_NV = VK_SHADER_STAGE_CLOSEST_HIT_BIT_KHR, VK_SHADER_STAGE_MISS_BIT_NV = VK_SHADER_STAGE_MISS_BIT_KHR, VK_SHADER_STAGE_INTERSECTION_BIT_NV = VK_SHADER_STAGE_INTERSECTION_BIT_KHR, VK_SHADER_STAGE_CALLABLE_BIT_NV = VK_SHADER_STAGE_CALLABLE_BIT_KHR, VK_SHADER_STAGE_TASK_BIT_NV = VK_SHADER_STAGE_TASK_BIT_EXT, VK_SHADER_STAGE_MESH_BIT_NV = VK_SHADER_STAGE_MESH_BIT_EXT, VK_SHADER_STAGE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkShaderStageFlagBits; typedef enum VkCullModeFlagBits { VK_CULL_MODE_NONE = 0, VK_CULL_MODE_FRONT_BIT = 0x00000001, VK_CULL_MODE_BACK_BIT = 0x00000002, VK_CULL_MODE_FRONT_AND_BACK = 0x00000003, VK_CULL_MODE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkCullModeFlagBits; typedef VkFlags VkCullModeFlags; typedef VkFlags VkPipelineVertexInputStateCreateFlags; typedef VkFlags VkPipelineInputAssemblyStateCreateFlags; typedef VkFlags VkPipelineTessellationStateCreateFlags; typedef VkFlags VkPipelineViewportStateCreateFlags; typedef VkFlags VkPipelineRasterizationStateCreateFlags; typedef VkFlags VkPipelineMultisampleStateCreateFlags; typedef enum VkPipelineDepthStencilStateCreateFlagBits { VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_DEPTH_ACCESS_BIT_EXT = 0x00000001, VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_STENCIL_ACCESS_BIT_EXT = 0x00000002, VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_DEPTH_ACCESS_BIT_ARM = VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_DEPTH_ACCESS_BIT_EXT, VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_STENCIL_ACCESS_BIT_ARM = VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_STENCIL_ACCESS_BIT_EXT, VK_PIPELINE_DEPTH_STENCIL_STATE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineDepthStencilStateCreateFlagBits; typedef VkFlags VkPipelineDepthStencilStateCreateFlags; typedef enum VkPipelineColorBlendStateCreateFlagBits { VK_PIPELINE_COLOR_BLEND_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_BIT_EXT = 0x00000001, VK_PIPELINE_COLOR_BLEND_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_BIT_ARM = VK_PIPELINE_COLOR_BLEND_STATE_CREATE_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_BIT_EXT, VK_PIPELINE_COLOR_BLEND_STATE_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineColorBlendStateCreateFlagBits; typedef VkFlags VkPipelineColorBlendStateCreateFlags; typedef VkFlags VkPipelineDynamicStateCreateFlags; typedef enum VkPipelineLayoutCreateFlagBits { VK_PIPELINE_LAYOUT_CREATE_INDEPENDENT_SETS_BIT_EXT = 0x00000002, VK_PIPELINE_LAYOUT_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineLayoutCreateFlagBits; typedef VkFlags VkPipelineLayoutCreateFlags; typedef VkFlags VkShaderStageFlags; typedef enum VkSamplerCreateFlagBits { VK_SAMPLER_CREATE_SUBSAMPLED_BIT_EXT = 0x00000001, VK_SAMPLER_CREATE_SUBSAMPLED_COARSE_RECONSTRUCTION_BIT_EXT = 0x00000002, VK_SAMPLER_CREATE_NON_SEAMLESS_CUBE_MAP_BIT_EXT = 0x00000004, VK_SAMPLER_CREATE_IMAGE_PROCESSING_BIT_QCOM = 0x00000010, VK_SAMPLER_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSamplerCreateFlagBits; typedef VkFlags VkSamplerCreateFlags; typedef enum VkDescriptorPoolCreateFlagBits { VK_DESCRIPTOR_POOL_CREATE_FREE_DESCRIPTOR_SET_BIT = 0x00000001, VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT = 0x00000002, VK_DESCRIPTOR_POOL_CREATE_HOST_ONLY_BIT_EXT = 0x00000004, VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT_EXT = VK_DESCRIPTOR_POOL_CREATE_UPDATE_AFTER_BIND_BIT, VK_DESCRIPTOR_POOL_CREATE_HOST_ONLY_BIT_VALVE = VK_DESCRIPTOR_POOL_CREATE_HOST_ONLY_BIT_EXT, VK_DESCRIPTOR_POOL_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkDescriptorPoolCreateFlagBits; typedef VkFlags VkDescriptorPoolCreateFlags; typedef VkFlags VkDescriptorPoolResetFlags; typedef enum VkDescriptorSetLayoutCreateFlagBits { VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT = 0x00000002, VK_DESCRIPTOR_SET_LAYOUT_CREATE_PUSH_DESCRIPTOR_BIT_KHR = 0x00000001, VK_DESCRIPTOR_SET_LAYOUT_CREATE_HOST_ONLY_POOL_BIT_EXT = 0x00000004, VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT_EXT = VK_DESCRIPTOR_SET_LAYOUT_CREATE_UPDATE_AFTER_BIND_POOL_BIT, VK_DESCRIPTOR_SET_LAYOUT_CREATE_HOST_ONLY_POOL_BIT_VALVE = VK_DESCRIPTOR_SET_LAYOUT_CREATE_HOST_ONLY_POOL_BIT_EXT, VK_DESCRIPTOR_SET_LAYOUT_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkDescriptorSetLayoutCreateFlagBits; typedef VkFlags VkDescriptorSetLayoutCreateFlags; typedef enum VkAttachmentDescriptionFlagBits { VK_ATTACHMENT_DESCRIPTION_MAY_ALIAS_BIT = 0x00000001, VK_ATTACHMENT_DESCRIPTION_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkAttachmentDescriptionFlagBits; typedef VkFlags VkAttachmentDescriptionFlags; typedef enum VkDependencyFlagBits { VK_DEPENDENCY_BY_REGION_BIT = 0x00000001, VK_DEPENDENCY_DEVICE_GROUP_BIT = 0x00000004, VK_DEPENDENCY_VIEW_LOCAL_BIT = 0x00000002, VK_DEPENDENCY_FEEDBACK_LOOP_BIT_EXT = 0x00000008, VK_DEPENDENCY_VIEW_LOCAL_BIT_KHR = VK_DEPENDENCY_VIEW_LOCAL_BIT, VK_DEPENDENCY_DEVICE_GROUP_BIT_KHR = VK_DEPENDENCY_DEVICE_GROUP_BIT, VK_DEPENDENCY_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkDependencyFlagBits; typedef VkFlags VkDependencyFlags; typedef enum VkFramebufferCreateFlagBits { VK_FRAMEBUFFER_CREATE_IMAGELESS_BIT = 0x00000001, VK_FRAMEBUFFER_CREATE_IMAGELESS_BIT_KHR = VK_FRAMEBUFFER_CREATE_IMAGELESS_BIT, VK_FRAMEBUFFER_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkFramebufferCreateFlagBits; typedef VkFlags VkFramebufferCreateFlags; typedef enum VkRenderPassCreateFlagBits { VK_RENDER_PASS_CREATE_TRANSFORM_BIT_QCOM = 0x00000002, VK_RENDER_PASS_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkRenderPassCreateFlagBits; typedef VkFlags VkRenderPassCreateFlags; typedef enum VkSubpassDescriptionFlagBits { VK_SUBPASS_DESCRIPTION_PER_VIEW_ATTRIBUTES_BIT_NVX = 0x00000001, VK_SUBPASS_DESCRIPTION_PER_VIEW_POSITION_X_ONLY_BIT_NVX = 0x00000002, VK_SUBPASS_DESCRIPTION_FRAGMENT_REGION_BIT_QCOM = 0x00000004, VK_SUBPASS_DESCRIPTION_SHADER_RESOLVE_BIT_QCOM = 0x00000008, VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_COLOR_ACCESS_BIT_EXT = 0x00000010, VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_DEPTH_ACCESS_BIT_EXT = 0x00000020, VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_STENCIL_ACCESS_BIT_EXT = 0x00000040, VK_SUBPASS_DESCRIPTION_ENABLE_LEGACY_DITHERING_BIT_EXT = 0x00000080, VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_COLOR_ACCESS_BIT_ARM = VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_COLOR_ACCESS_BIT_EXT, VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_DEPTH_ACCESS_BIT_ARM = VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_DEPTH_ACCESS_BIT_EXT, VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_STENCIL_ACCESS_BIT_ARM = VK_SUBPASS_DESCRIPTION_RASTERIZATION_ORDER_ATTACHMENT_STENCIL_ACCESS_BIT_EXT, VK_SUBPASS_DESCRIPTION_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSubpassDescriptionFlagBits; typedef VkFlags VkSubpassDescriptionFlags; typedef enum VkCommandPoolCreateFlagBits { VK_COMMAND_POOL_CREATE_TRANSIENT_BIT = 0x00000001, VK_COMMAND_POOL_CREATE_RESET_COMMAND_BUFFER_BIT = 0x00000002, VK_COMMAND_POOL_CREATE_PROTECTED_BIT = 0x00000004, VK_COMMAND_POOL_CREATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkCommandPoolCreateFlagBits; typedef VkFlags VkCommandPoolCreateFlags; typedef enum VkCommandPoolResetFlagBits { VK_COMMAND_POOL_RESET_RELEASE_RESOURCES_BIT = 0x00000001, VK_COMMAND_POOL_RESET_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkCommandPoolResetFlagBits; typedef VkFlags VkCommandPoolResetFlags; typedef enum VkCommandBufferUsageFlagBits { VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT = 0x00000001, VK_COMMAND_BUFFER_USAGE_RENDER_PASS_CONTINUE_BIT = 0x00000002, VK_COMMAND_BUFFER_USAGE_SIMULTANEOUS_USE_BIT = 0x00000004, VK_COMMAND_BUFFER_USAGE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkCommandBufferUsageFlagBits; typedef VkFlags VkCommandBufferUsageFlags; typedef enum VkQueryControlFlagBits { VK_QUERY_CONTROL_PRECISE_BIT = 0x00000001, VK_QUERY_CONTROL_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkQueryControlFlagBits; typedef VkFlags VkQueryControlFlags; typedef enum VkCommandBufferResetFlagBits { VK_COMMAND_BUFFER_RESET_RELEASE_RESOURCES_BIT = 0x00000001, VK_COMMAND_BUFFER_RESET_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkCommandBufferResetFlagBits; typedef VkFlags VkCommandBufferResetFlags; typedef enum VkStencilFaceFlagBits { VK_STENCIL_FACE_FRONT_BIT = 0x00000001, VK_STENCIL_FACE_BACK_BIT = 0x00000002, VK_STENCIL_FACE_FRONT_AND_BACK = 0x00000003, VK_STENCIL_FRONT_AND_BACK = VK_STENCIL_FACE_FRONT_AND_BACK, VK_STENCIL_FACE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkStencilFaceFlagBits; typedef VkFlags VkStencilFaceFlags; typedef struct VkExtent2D { uint32_t width; uint32_t height; } VkExtent2D; typedef struct VkExtent3D { uint32_t width; uint32_t height; uint32_t depth; } VkExtent3D; typedef struct VkOffset2D { int32_t x; int32_t y; } VkOffset2D; typedef struct VkOffset3D { int32_t x; int32_t y; int32_t z; } VkOffset3D; typedef struct VkRect2D { VkOffset2D offset; VkExtent2D extent; } VkRect2D; typedef struct VkBaseInStructure { VkStructureType sType; const struct VkBaseInStructure* pNext; } VkBaseInStructure; typedef struct VkBaseOutStructure { VkStructureType sType; struct VkBaseOutStructure* pNext; } VkBaseOutStructure; typedef struct VkBufferMemoryBarrier { VkStructureType sType; const void* pNext; VkAccessFlags srcAccessMask; VkAccessFlags dstAccessMask; uint32_t srcQueueFamilyIndex; uint32_t dstQueueFamilyIndex; VkBuffer buffer; VkDeviceSize offset; VkDeviceSize size; } VkBufferMemoryBarrier; typedef struct VkDispatchIndirectCommand { uint32_t x; uint32_t y; uint32_t z; } VkDispatchIndirectCommand; typedef struct VkDrawIndexedIndirectCommand { uint32_t indexCount; uint32_t instanceCount; uint32_t firstIndex; int32_t vertexOffset; uint32_t firstInstance; } VkDrawIndexedIndirectCommand; typedef struct VkDrawIndirectCommand { uint32_t vertexCount; uint32_t instanceCount; uint32_t firstVertex; uint32_t firstInstance; } VkDrawIndirectCommand; typedef struct VkImageSubresourceRange { VkImageAspectFlags aspectMask; uint32_t baseMipLevel; uint32_t levelCount; uint32_t baseArrayLayer; uint32_t layerCount; } VkImageSubresourceRange; typedef struct VkImageMemoryBarrier { VkStructureType sType; const void* pNext; VkAccessFlags srcAccessMask; VkAccessFlags dstAccessMask; VkImageLayout oldLayout; VkImageLayout newLayout; uint32_t srcQueueFamilyIndex; uint32_t dstQueueFamilyIndex; VkImage image; VkImageSubresourceRange subresourceRange; } VkImageMemoryBarrier; typedef struct VkMemoryBarrier { VkStructureType sType; const void* pNext; VkAccessFlags srcAccessMask; VkAccessFlags dstAccessMask; } VkMemoryBarrier; typedef struct VkPipelineCacheHeaderVersionOne { uint32_t headerSize; VkPipelineCacheHeaderVersion headerVersion; uint32_t vendorID; uint32_t deviceID; uint8_t pipelineCacheUUID[VK_UUID_SIZE]; } VkPipelineCacheHeaderVersionOne; typedef void* (VKAPI_PTR *PFN_vkAllocationFunction)( void* pUserData, size_t size, size_t alignment, VkSystemAllocationScope allocationScope); typedef void (VKAPI_PTR *PFN_vkFreeFunction)( void* pUserData, void* pMemory); typedef void (VKAPI_PTR *PFN_vkInternalAllocationNotification)( void* pUserData, size_t size, VkInternalAllocationType allocationType, VkSystemAllocationScope allocationScope); typedef void (VKAPI_PTR *PFN_vkInternalFreeNotification)( void* pUserData, size_t size, VkInternalAllocationType allocationType, VkSystemAllocationScope allocationScope); typedef void* (VKAPI_PTR *PFN_vkReallocationFunction)( void* pUserData, void* pOriginal, size_t size, size_t alignment, VkSystemAllocationScope allocationScope); typedef void (VKAPI_PTR *PFN_vkVoidFunction)(void); typedef struct VkAllocationCallbacks { void* pUserData; PFN_vkAllocationFunction pfnAllocation; PFN_vkReallocationFunction pfnReallocation; PFN_vkFreeFunction pfnFree; PFN_vkInternalAllocationNotification pfnInternalAllocation; PFN_vkInternalFreeNotification pfnInternalFree; } VkAllocationCallbacks; typedef struct VkApplicationInfo { VkStructureType sType; const void* pNext; const char* pApplicationName; uint32_t applicationVersion; const char* pEngineName; uint32_t engineVersion; uint32_t apiVersion; } VkApplicationInfo; typedef struct VkFormatProperties { VkFormatFeatureFlags linearTilingFeatures; VkFormatFeatureFlags optimalTilingFeatures; VkFormatFeatureFlags bufferFeatures; } VkFormatProperties; typedef struct VkImageFormatProperties { VkExtent3D maxExtent; uint32_t maxMipLevels; uint32_t maxArrayLayers; VkSampleCountFlags sampleCounts; VkDeviceSize maxResourceSize; } VkImageFormatProperties; typedef struct VkInstanceCreateInfo { VkStructureType sType; const void* pNext; VkInstanceCreateFlags flags; const VkApplicationInfo* pApplicationInfo; uint32_t enabledLayerCount; const char* const* ppEnabledLayerNames; uint32_t enabledExtensionCount; const char* const* ppEnabledExtensionNames; } VkInstanceCreateInfo; typedef struct VkMemoryHeap { VkDeviceSize size; VkMemoryHeapFlags flags; } VkMemoryHeap; typedef struct VkMemoryType { VkMemoryPropertyFlags propertyFlags; uint32_t heapIndex; } VkMemoryType; typedef struct VkPhysicalDeviceFeatures { VkBool32 robustBufferAccess; VkBool32 fullDrawIndexUint32; VkBool32 imageCubeArray; VkBool32 independentBlend; VkBool32 geometryShader; VkBool32 tessellationShader; VkBool32 sampleRateShading; VkBool32 dualSrcBlend; VkBool32 logicOp; VkBool32 multiDrawIndirect; VkBool32 drawIndirectFirstInstance; VkBool32 depthClamp; VkBool32 depthBiasClamp; VkBool32 fillModeNonSolid; VkBool32 depthBounds; VkBool32 wideLines; VkBool32 largePoints; VkBool32 alphaToOne; VkBool32 multiViewport; VkBool32 samplerAnisotropy; VkBool32 textureCompressionETC2; VkBool32 textureCompressionASTC_LDR; VkBool32 textureCompressionBC; VkBool32 occlusionQueryPrecise; VkBool32 pipelineStatisticsQuery; VkBool32 vertexPipelineStoresAndAtomics; VkBool32 fragmentStoresAndAtomics; VkBool32 shaderTessellationAndGeometryPointSize; VkBool32 shaderImageGatherExtended; VkBool32 shaderStorageImageExtendedFormats; VkBool32 shaderStorageImageMultisample; VkBool32 shaderStorageImageReadWithoutFormat; VkBool32 shaderStorageImageWriteWithoutFormat; VkBool32 shaderUniformBufferArrayDynamicIndexing; VkBool32 shaderSampledImageArrayDynamicIndexing; VkBool32 shaderStorageBufferArrayDynamicIndexing; VkBool32 shaderStorageImageArrayDynamicIndexing; VkBool32 shaderClipDistance; VkBool32 shaderCullDistance; VkBool32 shaderFloat64; VkBool32 shaderInt64; VkBool32 shaderInt16; VkBool32 shaderResourceResidency; VkBool32 shaderResourceMinLod; VkBool32 sparseBinding; VkBool32 sparseResidencyBuffer; VkBool32 sparseResidencyImage2D; VkBool32 sparseResidencyImage3D; VkBool32 sparseResidency2Samples; VkBool32 sparseResidency4Samples; VkBool32 sparseResidency8Samples; VkBool32 sparseResidency16Samples; VkBool32 sparseResidencyAliased; VkBool32 variableMultisampleRate; VkBool32 inheritedQueries; } VkPhysicalDeviceFeatures; typedef struct VkPhysicalDeviceLimits { uint32_t maxImageDimension1D; uint32_t maxImageDimension2D; uint32_t maxImageDimension3D; uint32_t maxImageDimensionCube; uint32_t maxImageArrayLayers; uint32_t maxTexelBufferElements; uint32_t maxUniformBufferRange; uint32_t maxStorageBufferRange; uint32_t maxPushConstantsSize; uint32_t maxMemoryAllocationCount; uint32_t maxSamplerAllocationCount; VkDeviceSize bufferImageGranularity; VkDeviceSize sparseAddressSpaceSize; uint32_t maxBoundDescriptorSets; uint32_t maxPerStageDescriptorSamplers; uint32_t maxPerStageDescriptorUniformBuffers; uint32_t maxPerStageDescriptorStorageBuffers; uint32_t maxPerStageDescriptorSampledImages; uint32_t maxPerStageDescriptorStorageImages; uint32_t maxPerStageDescriptorInputAttachments; uint32_t maxPerStageResources; uint32_t maxDescriptorSetSamplers; uint32_t maxDescriptorSetUniformBuffers; uint32_t maxDescriptorSetUniformBuffersDynamic; uint32_t maxDescriptorSetStorageBuffers; uint32_t maxDescriptorSetStorageBuffersDynamic; uint32_t maxDescriptorSetSampledImages; uint32_t maxDescriptorSetStorageImages; uint32_t maxDescriptorSetInputAttachments; uint32_t maxVertexInputAttributes; uint32_t maxVertexInputBindings; uint32_t maxVertexInputAttributeOffset; uint32_t maxVertexInputBindingStride; uint32_t maxVertexOutputComponents; uint32_t maxTessellationGenerationLevel; uint32_t maxTessellationPatchSize; uint32_t maxTessellationControlPerVertexInputComponents; uint32_t maxTessellationControlPerVertexOutputComponents; uint32_t maxTessellationControlPerPatchOutputComponents; uint32_t maxTessellationControlTotalOutputComponents; uint32_t maxTessellationEvaluationInputComponents; uint32_t maxTessellationEvaluationOutputComponents; uint32_t maxGeometryShaderInvocations; uint32_t maxGeometryInputComponents; uint32_t maxGeometryOutputComponents; uint32_t maxGeometryOutputVertices; uint32_t maxGeometryTotalOutputComponents; uint32_t maxFragmentInputComponents; uint32_t maxFragmentOutputAttachments; uint32_t maxFragmentDualSrcAttachments; uint32_t maxFragmentCombinedOutputResources; uint32_t maxComputeSharedMemorySize; uint32_t maxComputeWorkGroupCount[3]; uint32_t maxComputeWorkGroupInvocations; uint32_t maxComputeWorkGroupSize[3]; uint32_t subPixelPrecisionBits; uint32_t subTexelPrecisionBits; uint32_t mipmapPrecisionBits; uint32_t maxDrawIndexedIndexValue; uint32_t maxDrawIndirectCount; float maxSamplerLodBias; float maxSamplerAnisotropy; uint32_t maxViewports; uint32_t maxViewportDimensions[2]; float viewportBoundsRange[2]; uint32_t viewportSubPixelBits; size_t minMemoryMapAlignment; VkDeviceSize minTexelBufferOffsetAlignment; VkDeviceSize minUniformBufferOffsetAlignment; VkDeviceSize minStorageBufferOffsetAlignment; int32_t minTexelOffset; uint32_t maxTexelOffset; int32_t minTexelGatherOffset; uint32_t maxTexelGatherOffset; float minInterpolationOffset; float maxInterpolationOffset; uint32_t subPixelInterpolationOffsetBits; uint32_t maxFramebufferWidth; uint32_t maxFramebufferHeight; uint32_t maxFramebufferLayers; VkSampleCountFlags framebufferColorSampleCounts; VkSampleCountFlags framebufferDepthSampleCounts; VkSampleCountFlags framebufferStencilSampleCounts; VkSampleCountFlags framebufferNoAttachmentsSampleCounts; uint32_t maxColorAttachments; VkSampleCountFlags sampledImageColorSampleCounts; VkSampleCountFlags sampledImageIntegerSampleCounts; VkSampleCountFlags sampledImageDepthSampleCounts; VkSampleCountFlags sampledImageStencilSampleCounts; VkSampleCountFlags storageImageSampleCounts; uint32_t maxSampleMaskWords; VkBool32 timestampComputeAndGraphics; float timestampPeriod; uint32_t maxClipDistances; uint32_t maxCullDistances; uint32_t maxCombinedClipAndCullDistances; uint32_t discreteQueuePriorities; float pointSizeRange[2]; float lineWidthRange[2]; float pointSizeGranularity; float lineWidthGranularity; VkBool32 strictLines; VkBool32 standardSampleLocations; VkDeviceSize optimalBufferCopyOffsetAlignment; VkDeviceSize optimalBufferCopyRowPitchAlignment; VkDeviceSize nonCoherentAtomSize; } VkPhysicalDeviceLimits; typedef struct VkPhysicalDeviceMemoryProperties { uint32_t memoryTypeCount; VkMemoryType memoryTypes[VK_MAX_MEMORY_TYPES]; uint32_t memoryHeapCount; VkMemoryHeap memoryHeaps[VK_MAX_MEMORY_HEAPS]; } VkPhysicalDeviceMemoryProperties; typedef struct VkPhysicalDeviceSparseProperties { VkBool32 residencyStandard2DBlockShape; VkBool32 residencyStandard2DMultisampleBlockShape; VkBool32 residencyStandard3DBlockShape; VkBool32 residencyAlignedMipSize; VkBool32 residencyNonResidentStrict; } VkPhysicalDeviceSparseProperties; typedef struct VkPhysicalDeviceProperties { uint32_t apiVersion; uint32_t driverVersion; uint32_t vendorID; uint32_t deviceID; VkPhysicalDeviceType deviceType; char deviceName[VK_MAX_PHYSICAL_DEVICE_NAME_SIZE]; uint8_t pipelineCacheUUID[VK_UUID_SIZE]; VkPhysicalDeviceLimits limits; VkPhysicalDeviceSparseProperties sparseProperties; } VkPhysicalDeviceProperties; typedef struct VkQueueFamilyProperties { VkQueueFlags queueFlags; uint32_t queueCount; uint32_t timestampValidBits; VkExtent3D minImageTransferGranularity; } VkQueueFamilyProperties; typedef struct VkDeviceQueueCreateInfo { VkStructureType sType; const void* pNext; VkDeviceQueueCreateFlags flags; uint32_t queueFamilyIndex; uint32_t queueCount; const float* pQueuePriorities; } VkDeviceQueueCreateInfo; typedef struct VkDeviceCreateInfo { VkStructureType sType; const void* pNext; VkDeviceCreateFlags flags; uint32_t queueCreateInfoCount; const VkDeviceQueueCreateInfo* pQueueCreateInfos; uint32_t enabledLayerCount; const char* const* ppEnabledLayerNames; uint32_t enabledExtensionCount; const char* const* ppEnabledExtensionNames; const VkPhysicalDeviceFeatures* pEnabledFeatures; } VkDeviceCreateInfo; typedef struct VkExtensionProperties { char extensionName[VK_MAX_EXTENSION_NAME_SIZE]; uint32_t specVersion; } VkExtensionProperties; typedef struct VkLayerProperties { char layerName[VK_MAX_EXTENSION_NAME_SIZE]; uint32_t specVersion; uint32_t implementationVersion; char description[VK_MAX_DESCRIPTION_SIZE]; } VkLayerProperties; typedef struct VkSubmitInfo { VkStructureType sType; const void* pNext; uint32_t waitSemaphoreCount; const VkSemaphore* pWaitSemaphores; const VkPipelineStageFlags* pWaitDstStageMask; uint32_t commandBufferCount; const VkCommandBuffer* pCommandBuffers; uint32_t signalSemaphoreCount; const VkSemaphore* pSignalSemaphores; } VkSubmitInfo; typedef struct VkMappedMemoryRange { VkStructureType sType; const void* pNext; VkDeviceMemory memory; VkDeviceSize offset; VkDeviceSize size; } VkMappedMemoryRange; typedef struct VkMemoryAllocateInfo { VkStructureType sType; const void* pNext; VkDeviceSize allocationSize; uint32_t memoryTypeIndex; } VkMemoryAllocateInfo; typedef struct VkMemoryRequirements { VkDeviceSize size; VkDeviceSize alignment; uint32_t memoryTypeBits; } VkMemoryRequirements; typedef struct VkSparseMemoryBind { VkDeviceSize resourceOffset; VkDeviceSize size; VkDeviceMemory memory; VkDeviceSize memoryOffset; VkSparseMemoryBindFlags flags; } VkSparseMemoryBind; typedef struct VkSparseBufferMemoryBindInfo { VkBuffer buffer; uint32_t bindCount; const VkSparseMemoryBind* pBinds; } VkSparseBufferMemoryBindInfo; typedef struct VkSparseImageOpaqueMemoryBindInfo { VkImage image; uint32_t bindCount; const VkSparseMemoryBind* pBinds; } VkSparseImageOpaqueMemoryBindInfo; typedef struct VkImageSubresource { VkImageAspectFlags aspectMask; uint32_t mipLevel; uint32_t arrayLayer; } VkImageSubresource; typedef struct VkSparseImageMemoryBind { VkImageSubresource subresource; VkOffset3D offset; VkExtent3D extent; VkDeviceMemory memory; VkDeviceSize memoryOffset; VkSparseMemoryBindFlags flags; } VkSparseImageMemoryBind; typedef struct VkSparseImageMemoryBindInfo { VkImage image; uint32_t bindCount; const VkSparseImageMemoryBind* pBinds; } VkSparseImageMemoryBindInfo; typedef struct VkBindSparseInfo { VkStructureType sType; const void* pNext; uint32_t waitSemaphoreCount; const VkSemaphore* pWaitSemaphores; uint32_t bufferBindCount; const VkSparseBufferMemoryBindInfo* pBufferBinds; uint32_t imageOpaqueBindCount; const VkSparseImageOpaqueMemoryBindInfo* pImageOpaqueBinds; uint32_t imageBindCount; const VkSparseImageMemoryBindInfo* pImageBinds; uint32_t signalSemaphoreCount; const VkSemaphore* pSignalSemaphores; } VkBindSparseInfo; typedef struct VkSparseImageFormatProperties { VkImageAspectFlags aspectMask; VkExtent3D imageGranularity; VkSparseImageFormatFlags flags; } VkSparseImageFormatProperties; typedef struct VkSparseImageMemoryRequirements { VkSparseImageFormatProperties formatProperties; uint32_t imageMipTailFirstLod; VkDeviceSize imageMipTailSize; VkDeviceSize imageMipTailOffset; VkDeviceSize imageMipTailStride; } VkSparseImageMemoryRequirements; typedef struct VkFenceCreateInfo { VkStructureType sType; const void* pNext; VkFenceCreateFlags flags; } VkFenceCreateInfo; typedef struct VkSemaphoreCreateInfo { VkStructureType sType; const void* pNext; VkSemaphoreCreateFlags flags; } VkSemaphoreCreateInfo; typedef struct VkEventCreateInfo { VkStructureType sType; const void* pNext; VkEventCreateFlags flags; } VkEventCreateInfo; typedef struct VkQueryPoolCreateInfo { VkStructureType sType; const void* pNext; VkQueryPoolCreateFlags flags; VkQueryType queryType; uint32_t queryCount; VkQueryPipelineStatisticFlags pipelineStatistics; } VkQueryPoolCreateInfo; typedef struct VkBufferCreateInfo { VkStructureType sType; const void* pNext; VkBufferCreateFlags flags; VkDeviceSize size; VkBufferUsageFlags usage; VkSharingMode sharingMode; uint32_t queueFamilyIndexCount; const uint32_t* pQueueFamilyIndices; } VkBufferCreateInfo; typedef struct VkBufferViewCreateInfo { VkStructureType sType; const void* pNext; VkBufferViewCreateFlags flags; VkBuffer buffer; VkFormat format; VkDeviceSize offset; VkDeviceSize range; } VkBufferViewCreateInfo; typedef struct VkImageCreateInfo { VkStructureType sType; const void* pNext; VkImageCreateFlags flags; VkImageType imageType; VkFormat format; VkExtent3D extent; uint32_t mipLevels; uint32_t arrayLayers; VkSampleCountFlagBits samples; VkImageTiling tiling; VkImageUsageFlags usage; VkSharingMode sharingMode; uint32_t queueFamilyIndexCount; const uint32_t* pQueueFamilyIndices; VkImageLayout initialLayout; } VkImageCreateInfo; typedef struct VkSubresourceLayout { VkDeviceSize offset; VkDeviceSize size; VkDeviceSize rowPitch; VkDeviceSize arrayPitch; VkDeviceSize depthPitch; } VkSubresourceLayout; typedef struct VkComponentMapping { VkComponentSwizzle r; VkComponentSwizzle g; VkComponentSwizzle b; VkComponentSwizzle a; } VkComponentMapping; typedef struct VkImageViewCreateInfo { VkStructureType sType; const void* pNext; VkImageViewCreateFlags flags; VkImage image; VkImageViewType viewType; VkFormat format; VkComponentMapping components; VkImageSubresourceRange subresourceRange; } VkImageViewCreateInfo; typedef struct VkShaderModuleCreateInfo { VkStructureType sType; const void* pNext; VkShaderModuleCreateFlags flags; size_t codeSize; const uint32_t* pCode; } VkShaderModuleCreateInfo; typedef struct VkPipelineCacheCreateInfo { VkStructureType sType; const void* pNext; VkPipelineCacheCreateFlags flags; size_t initialDataSize; const void* pInitialData; } VkPipelineCacheCreateInfo; typedef struct VkSpecializationMapEntry { uint32_t constantID; uint32_t offset; size_t size; } VkSpecializationMapEntry; typedef struct VkSpecializationInfo { uint32_t mapEntryCount; const VkSpecializationMapEntry* pMapEntries; size_t dataSize; const void* pData; } VkSpecializationInfo; typedef struct VkPipelineShaderStageCreateInfo { VkStructureType sType; const void* pNext; VkPipelineShaderStageCreateFlags flags; VkShaderStageFlagBits stage; VkShaderModule module; const char* pName; const VkSpecializationInfo* pSpecializationInfo; } VkPipelineShaderStageCreateInfo; typedef struct VkComputePipelineCreateInfo { VkStructureType sType; const void* pNext; VkPipelineCreateFlags flags; VkPipelineShaderStageCreateInfo stage; VkPipelineLayout layout; VkPipeline basePipelineHandle; int32_t basePipelineIndex; } VkComputePipelineCreateInfo; typedef struct VkVertexInputBindingDescription { uint32_t binding; uint32_t stride; VkVertexInputRate inputRate; } VkVertexInputBindingDescription; typedef struct VkVertexInputAttributeDescription { uint32_t location; uint32_t binding; VkFormat format; uint32_t offset; } VkVertexInputAttributeDescription; typedef struct VkPipelineVertexInputStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineVertexInputStateCreateFlags flags; uint32_t vertexBindingDescriptionCount; const VkVertexInputBindingDescription* pVertexBindingDescriptions; uint32_t vertexAttributeDescriptionCount; const VkVertexInputAttributeDescription* pVertexAttributeDescriptions; } VkPipelineVertexInputStateCreateInfo; typedef struct VkPipelineInputAssemblyStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineInputAssemblyStateCreateFlags flags; VkPrimitiveTopology topology; VkBool32 primitiveRestartEnable; } VkPipelineInputAssemblyStateCreateInfo; typedef struct VkPipelineTessellationStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineTessellationStateCreateFlags flags; uint32_t patchControlPoints; } VkPipelineTessellationStateCreateInfo; typedef struct VkViewport { float x; float y; float width; float height; float minDepth; float maxDepth; } VkViewport; typedef struct VkPipelineViewportStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineViewportStateCreateFlags flags; uint32_t viewportCount; const VkViewport* pViewports; uint32_t scissorCount; const VkRect2D* pScissors; } VkPipelineViewportStateCreateInfo; typedef struct VkPipelineRasterizationStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineRasterizationStateCreateFlags flags; VkBool32 depthClampEnable; VkBool32 rasterizerDiscardEnable; VkPolygonMode polygonMode; VkCullModeFlags cullMode; VkFrontFace frontFace; VkBool32 depthBiasEnable; float depthBiasConstantFactor; float depthBiasClamp; float depthBiasSlopeFactor; float lineWidth; } VkPipelineRasterizationStateCreateInfo; typedef struct VkPipelineMultisampleStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineMultisampleStateCreateFlags flags; VkSampleCountFlagBits rasterizationSamples; VkBool32 sampleShadingEnable; float minSampleShading; const VkSampleMask* pSampleMask; VkBool32 alphaToCoverageEnable; VkBool32 alphaToOneEnable; } VkPipelineMultisampleStateCreateInfo; typedef struct VkStencilOpState { VkStencilOp failOp; VkStencilOp passOp; VkStencilOp depthFailOp; VkCompareOp compareOp; uint32_t compareMask; uint32_t writeMask; uint32_t reference; } VkStencilOpState; typedef struct VkPipelineDepthStencilStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineDepthStencilStateCreateFlags flags; VkBool32 depthTestEnable; VkBool32 depthWriteEnable; VkCompareOp depthCompareOp; VkBool32 depthBoundsTestEnable; VkBool32 stencilTestEnable; VkStencilOpState front; VkStencilOpState back; float minDepthBounds; float maxDepthBounds; } VkPipelineDepthStencilStateCreateInfo; typedef struct VkPipelineColorBlendAttachmentState { VkBool32 blendEnable; VkBlendFactor srcColorBlendFactor; VkBlendFactor dstColorBlendFactor; VkBlendOp colorBlendOp; VkBlendFactor srcAlphaBlendFactor; VkBlendFactor dstAlphaBlendFactor; VkBlendOp alphaBlendOp; VkColorComponentFlags colorWriteMask; } VkPipelineColorBlendAttachmentState; typedef struct VkPipelineColorBlendStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineColorBlendStateCreateFlags flags; VkBool32 logicOpEnable; VkLogicOp logicOp; uint32_t attachmentCount; const VkPipelineColorBlendAttachmentState* pAttachments; float blendConstants[4]; } VkPipelineColorBlendStateCreateInfo; typedef struct VkPipelineDynamicStateCreateInfo { VkStructureType sType; const void* pNext; VkPipelineDynamicStateCreateFlags flags; uint32_t dynamicStateCount; const VkDynamicState* pDynamicStates; } VkPipelineDynamicStateCreateInfo; typedef struct VkGraphicsPipelineCreateInfo { VkStructureType sType; const void* pNext; VkPipelineCreateFlags flags; uint32_t stageCount; const VkPipelineShaderStageCreateInfo* pStages; const VkPipelineVertexInputStateCreateInfo* pVertexInputState; const VkPipelineInputAssemblyStateCreateInfo* pInputAssemblyState; const VkPipelineTessellationStateCreateInfo* pTessellationState; const VkPipelineViewportStateCreateInfo* pViewportState; const VkPipelineRasterizationStateCreateInfo* pRasterizationState; const VkPipelineMultisampleStateCreateInfo* pMultisampleState; const VkPipelineDepthStencilStateCreateInfo* pDepthStencilState; const VkPipelineColorBlendStateCreateInfo* pColorBlendState; const VkPipelineDynamicStateCreateInfo* pDynamicState; VkPipelineLayout layout; VkRenderPass renderPass; uint32_t subpass; VkPipeline basePipelineHandle; int32_t basePipelineIndex; } VkGraphicsPipelineCreateInfo; typedef struct VkPushConstantRange { VkShaderStageFlags stageFlags; uint32_t offset; uint32_t size; } VkPushConstantRange; typedef struct VkPipelineLayoutCreateInfo { VkStructureType sType; const void* pNext; VkPipelineLayoutCreateFlags flags; uint32_t setLayoutCount; const VkDescriptorSetLayout* pSetLayouts; uint32_t pushConstantRangeCount; const VkPushConstantRange* pPushConstantRanges; } VkPipelineLayoutCreateInfo; typedef struct VkSamplerCreateInfo { VkStructureType sType; const void* pNext; VkSamplerCreateFlags flags; VkFilter magFilter; VkFilter minFilter; VkSamplerMipmapMode mipmapMode; VkSamplerAddressMode addressModeU; VkSamplerAddressMode addressModeV; VkSamplerAddressMode addressModeW; float mipLodBias; VkBool32 anisotropyEnable; float maxAnisotropy; VkBool32 compareEnable; VkCompareOp compareOp; float minLod; float maxLod; VkBorderColor borderColor; VkBool32 unnormalizedCoordinates; } VkSamplerCreateInfo; typedef struct VkCopyDescriptorSet { VkStructureType sType; const void* pNext; VkDescriptorSet srcSet; uint32_t srcBinding; uint32_t srcArrayElement; VkDescriptorSet dstSet; uint32_t dstBinding; uint32_t dstArrayElement; uint32_t descriptorCount; } VkCopyDescriptorSet; typedef struct VkDescriptorBufferInfo { VkBuffer buffer; VkDeviceSize offset; VkDeviceSize range; } VkDescriptorBufferInfo; typedef struct VkDescriptorImageInfo { VkSampler sampler; VkImageView imageView; VkImageLayout imageLayout; } VkDescriptorImageInfo; typedef struct VkDescriptorPoolSize { VkDescriptorType type; uint32_t descriptorCount; } VkDescriptorPoolSize; typedef struct VkDescriptorPoolCreateInfo { VkStructureType sType; const void* pNext; VkDescriptorPoolCreateFlags flags; uint32_t maxSets; uint32_t poolSizeCount; const VkDescriptorPoolSize* pPoolSizes; } VkDescriptorPoolCreateInfo; typedef struct VkDescriptorSetAllocateInfo { VkStructureType sType; const void* pNext; VkDescriptorPool descriptorPool; uint32_t descriptorSetCount; const VkDescriptorSetLayout* pSetLayouts; } VkDescriptorSetAllocateInfo; typedef struct VkDescriptorSetLayoutBinding { uint32_t binding; VkDescriptorType descriptorType; uint32_t descriptorCount; VkShaderStageFlags stageFlags; const VkSampler* pImmutableSamplers; } VkDescriptorSetLayoutBinding; typedef struct VkDescriptorSetLayoutCreateInfo { VkStructureType sType; const void* pNext; VkDescriptorSetLayoutCreateFlags flags; uint32_t bindingCount; const VkDescriptorSetLayoutBinding* pBindings; } VkDescriptorSetLayoutCreateInfo; typedef struct VkWriteDescriptorSet { VkStructureType sType; const void* pNext; VkDescriptorSet dstSet; uint32_t dstBinding; uint32_t dstArrayElement; uint32_t descriptorCount; VkDescriptorType descriptorType; const VkDescriptorImageInfo* pImageInfo; const VkDescriptorBufferInfo* pBufferInfo; const VkBufferView* pTexelBufferView; } VkWriteDescriptorSet; typedef struct VkAttachmentDescription { VkAttachmentDescriptionFlags flags; VkFormat format; VkSampleCountFlagBits samples; VkAttachmentLoadOp loadOp; VkAttachmentStoreOp storeOp; VkAttachmentLoadOp stencilLoadOp; VkAttachmentStoreOp stencilStoreOp; VkImageLayout initialLayout; VkImageLayout finalLayout; } VkAttachmentDescription; typedef struct VkAttachmentReference { uint32_t attachment; VkImageLayout layout; } VkAttachmentReference; typedef struct VkFramebufferCreateInfo { VkStructureType sType; const void* pNext; VkFramebufferCreateFlags flags; VkRenderPass renderPass; uint32_t attachmentCount; const VkImageView* pAttachments; uint32_t width; uint32_t height; uint32_t layers; } VkFramebufferCreateInfo; typedef struct VkSubpassDescription { VkSubpassDescriptionFlags flags; VkPipelineBindPoint pipelineBindPoint; uint32_t inputAttachmentCount; const VkAttachmentReference* pInputAttachments; uint32_t colorAttachmentCount; const VkAttachmentReference* pColorAttachments; const VkAttachmentReference* pResolveAttachments; const VkAttachmentReference* pDepthStencilAttachment; uint32_t preserveAttachmentCount; const uint32_t* pPreserveAttachments; } VkSubpassDescription; typedef struct VkSubpassDependency { uint32_t srcSubpass; uint32_t dstSubpass; VkPipelineStageFlags srcStageMask; VkPipelineStageFlags dstStageMask; VkAccessFlags srcAccessMask; VkAccessFlags dstAccessMask; VkDependencyFlags dependencyFlags; } VkSubpassDependency; typedef struct VkRenderPassCreateInfo { VkStructureType sType; const void* pNext; VkRenderPassCreateFlags flags; uint32_t attachmentCount; const VkAttachmentDescription* pAttachments; uint32_t subpassCount; const VkSubpassDescription* pSubpasses; uint32_t dependencyCount; const VkSubpassDependency* pDependencies; } VkRenderPassCreateInfo; typedef struct VkCommandPoolCreateInfo { VkStructureType sType; const void* pNext; VkCommandPoolCreateFlags flags; uint32_t queueFamilyIndex; } VkCommandPoolCreateInfo; typedef struct VkCommandBufferAllocateInfo { VkStructureType sType; const void* pNext; VkCommandPool commandPool; VkCommandBufferLevel level; uint32_t commandBufferCount; } VkCommandBufferAllocateInfo; typedef struct VkCommandBufferInheritanceInfo { VkStructureType sType; const void* pNext; VkRenderPass renderPass; uint32_t subpass; VkFramebuffer framebuffer; VkBool32 occlusionQueryEnable; VkQueryControlFlags queryFlags; VkQueryPipelineStatisticFlags pipelineStatistics; } VkCommandBufferInheritanceInfo; typedef struct VkCommandBufferBeginInfo { VkStructureType sType; const void* pNext; VkCommandBufferUsageFlags flags; const VkCommandBufferInheritanceInfo* pInheritanceInfo; } VkCommandBufferBeginInfo; typedef struct VkBufferCopy { VkDeviceSize srcOffset; VkDeviceSize dstOffset; VkDeviceSize size; } VkBufferCopy; typedef struct VkImageSubresourceLayers { VkImageAspectFlags aspectMask; uint32_t mipLevel; uint32_t baseArrayLayer; uint32_t layerCount; } VkImageSubresourceLayers; typedef struct VkBufferImageCopy { VkDeviceSize bufferOffset; uint32_t bufferRowLength; uint32_t bufferImageHeight; VkImageSubresourceLayers imageSubresource; VkOffset3D imageOffset; VkExtent3D imageExtent; } VkBufferImageCopy; typedef union VkClearColorValue { float float32[4]; int32_t int32[4]; uint32_t uint32[4]; } VkClearColorValue; typedef struct VkClearDepthStencilValue { float depth; uint32_t stencil; } VkClearDepthStencilValue; typedef union VkClearValue { VkClearColorValue color; VkClearDepthStencilValue depthStencil; } VkClearValue; typedef struct VkClearAttachment { VkImageAspectFlags aspectMask; uint32_t colorAttachment; VkClearValue clearValue; } VkClearAttachment; typedef struct VkClearRect { VkRect2D rect; uint32_t baseArrayLayer; uint32_t layerCount; } VkClearRect; typedef struct VkImageBlit { VkImageSubresourceLayers srcSubresource; VkOffset3D srcOffsets[2]; VkImageSubresourceLayers dstSubresource; VkOffset3D dstOffsets[2]; } VkImageBlit; typedef struct VkImageCopy { VkImageSubresourceLayers srcSubresource; VkOffset3D srcOffset; VkImageSubresourceLayers dstSubresource; VkOffset3D dstOffset; VkExtent3D extent; } VkImageCopy; typedef struct VkImageResolve { VkImageSubresourceLayers srcSubresource; VkOffset3D srcOffset; VkImageSubresourceLayers dstSubresource; VkOffset3D dstOffset; VkExtent3D extent; } VkImageResolve; typedef struct VkRenderPassBeginInfo { VkStructureType sType; const void* pNext; VkRenderPass renderPass; VkFramebuffer framebuffer; VkRect2D renderArea; uint32_t clearValueCount; const VkClearValue* pClearValues; } VkRenderPassBeginInfo; typedef VkResult (VKAPI_PTR *PFN_vkCreateInstance)(const VkInstanceCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkInstance* pInstance); typedef void (VKAPI_PTR *PFN_vkDestroyInstance)(VkInstance instance, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkEnumeratePhysicalDevices)(VkInstance instance, uint32_t* pPhysicalDeviceCount, VkPhysicalDevice* pPhysicalDevices); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceFeatures)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures* pFeatures); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceFormatProperties)(VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties* pFormatProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceImageFormatProperties)(VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkImageTiling tiling, VkImageUsageFlags usage, VkImageCreateFlags flags, VkImageFormatProperties* pImageFormatProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceProperties)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties* pProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceQueueFamilyProperties)(VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties* pQueueFamilyProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceMemoryProperties)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties* pMemoryProperties); typedef PFN_vkVoidFunction (VKAPI_PTR *PFN_vkGetInstanceProcAddr)(VkInstance instance, const char* pName); typedef PFN_vkVoidFunction (VKAPI_PTR *PFN_vkGetDeviceProcAddr)(VkDevice device, const char* pName); typedef VkResult (VKAPI_PTR *PFN_vkCreateDevice)(VkPhysicalDevice physicalDevice, const VkDeviceCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDevice* pDevice); typedef void (VKAPI_PTR *PFN_vkDestroyDevice)(VkDevice device, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkEnumerateInstanceExtensionProperties)(const char* pLayerName, uint32_t* pPropertyCount, VkExtensionProperties* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkEnumerateDeviceExtensionProperties)(VkPhysicalDevice physicalDevice, const char* pLayerName, uint32_t* pPropertyCount, VkExtensionProperties* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkEnumerateInstanceLayerProperties)(uint32_t* pPropertyCount, VkLayerProperties* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkEnumerateDeviceLayerProperties)(VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkLayerProperties* pProperties); typedef void (VKAPI_PTR *PFN_vkGetDeviceQueue)(VkDevice device, uint32_t queueFamilyIndex, uint32_t queueIndex, VkQueue* pQueue); typedef VkResult (VKAPI_PTR *PFN_vkQueueSubmit)(VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence); typedef VkResult (VKAPI_PTR *PFN_vkQueueWaitIdle)(VkQueue queue); typedef VkResult (VKAPI_PTR *PFN_vkDeviceWaitIdle)(VkDevice device); typedef VkResult (VKAPI_PTR *PFN_vkAllocateMemory)(VkDevice device, const VkMemoryAllocateInfo* pAllocateInfo, const VkAllocationCallbacks* pAllocator, VkDeviceMemory* pMemory); typedef void (VKAPI_PTR *PFN_vkFreeMemory)(VkDevice device, VkDeviceMemory memory, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkMapMemory)(VkDevice device, VkDeviceMemory memory, VkDeviceSize offset, VkDeviceSize size, VkMemoryMapFlags flags, void** ppData); typedef void (VKAPI_PTR *PFN_vkUnmapMemory)(VkDevice device, VkDeviceMemory memory); typedef VkResult (VKAPI_PTR *PFN_vkFlushMappedMemoryRanges)(VkDevice device, uint32_t memoryRangeCount, const VkMappedMemoryRange* pMemoryRanges); typedef VkResult (VKAPI_PTR *PFN_vkInvalidateMappedMemoryRanges)(VkDevice device, uint32_t memoryRangeCount, const VkMappedMemoryRange* pMemoryRanges); typedef void (VKAPI_PTR *PFN_vkGetDeviceMemoryCommitment)(VkDevice device, VkDeviceMemory memory, VkDeviceSize* pCommittedMemoryInBytes); typedef VkResult (VKAPI_PTR *PFN_vkBindBufferMemory)(VkDevice device, VkBuffer buffer, VkDeviceMemory memory, VkDeviceSize memoryOffset); typedef VkResult (VKAPI_PTR *PFN_vkBindImageMemory)(VkDevice device, VkImage image, VkDeviceMemory memory, VkDeviceSize memoryOffset); typedef void (VKAPI_PTR *PFN_vkGetBufferMemoryRequirements)(VkDevice device, VkBuffer buffer, VkMemoryRequirements* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetImageMemoryRequirements)(VkDevice device, VkImage image, VkMemoryRequirements* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetImageSparseMemoryRequirements)(VkDevice device, VkImage image, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements* pSparseMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceSparseImageFormatProperties)(VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkSampleCountFlagBits samples, VkImageUsageFlags usage, VkImageTiling tiling, uint32_t* pPropertyCount, VkSparseImageFormatProperties* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkQueueBindSparse)(VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence); typedef VkResult (VKAPI_PTR *PFN_vkCreateFence)(VkDevice device, const VkFenceCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkFence* pFence); typedef void (VKAPI_PTR *PFN_vkDestroyFence)(VkDevice device, VkFence fence, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkResetFences)(VkDevice device, uint32_t fenceCount, const VkFence* pFences); typedef VkResult (VKAPI_PTR *PFN_vkGetFenceStatus)(VkDevice device, VkFence fence); typedef VkResult (VKAPI_PTR *PFN_vkWaitForFences)(VkDevice device, uint32_t fenceCount, const VkFence* pFences, VkBool32 waitAll, uint64_t timeout); typedef VkResult (VKAPI_PTR *PFN_vkCreateSemaphore)(VkDevice device, const VkSemaphoreCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSemaphore* pSemaphore); typedef void (VKAPI_PTR *PFN_vkDestroySemaphore)(VkDevice device, VkSemaphore semaphore, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateEvent)(VkDevice device, const VkEventCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkEvent* pEvent); typedef void (VKAPI_PTR *PFN_vkDestroyEvent)(VkDevice device, VkEvent event, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkGetEventStatus)(VkDevice device, VkEvent event); typedef VkResult (VKAPI_PTR *PFN_vkSetEvent)(VkDevice device, VkEvent event); typedef VkResult (VKAPI_PTR *PFN_vkResetEvent)(VkDevice device, VkEvent event); typedef VkResult (VKAPI_PTR *PFN_vkCreateQueryPool)(VkDevice device, const VkQueryPoolCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkQueryPool* pQueryPool); typedef void (VKAPI_PTR *PFN_vkDestroyQueryPool)(VkDevice device, VkQueryPool queryPool, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkGetQueryPoolResults)(VkDevice device, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount, size_t dataSize, void* pData, VkDeviceSize stride, VkQueryResultFlags flags); typedef VkResult (VKAPI_PTR *PFN_vkCreateBuffer)(VkDevice device, const VkBufferCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkBuffer* pBuffer); typedef void (VKAPI_PTR *PFN_vkDestroyBuffer)(VkDevice device, VkBuffer buffer, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateBufferView)(VkDevice device, const VkBufferViewCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkBufferView* pView); typedef void (VKAPI_PTR *PFN_vkDestroyBufferView)(VkDevice device, VkBufferView bufferView, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateImage)(VkDevice device, const VkImageCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkImage* pImage); typedef void (VKAPI_PTR *PFN_vkDestroyImage)(VkDevice device, VkImage image, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkGetImageSubresourceLayout)(VkDevice device, VkImage image, const VkImageSubresource* pSubresource, VkSubresourceLayout* pLayout); typedef VkResult (VKAPI_PTR *PFN_vkCreateImageView)(VkDevice device, const VkImageViewCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkImageView* pView); typedef void (VKAPI_PTR *PFN_vkDestroyImageView)(VkDevice device, VkImageView imageView, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateShaderModule)(VkDevice device, const VkShaderModuleCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkShaderModule* pShaderModule); typedef void (VKAPI_PTR *PFN_vkDestroyShaderModule)(VkDevice device, VkShaderModule shaderModule, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreatePipelineCache)(VkDevice device, const VkPipelineCacheCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPipelineCache* pPipelineCache); typedef void (VKAPI_PTR *PFN_vkDestroyPipelineCache)(VkDevice device, VkPipelineCache pipelineCache, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkGetPipelineCacheData)(VkDevice device, VkPipelineCache pipelineCache, size_t* pDataSize, void* pData); typedef VkResult (VKAPI_PTR *PFN_vkMergePipelineCaches)(VkDevice device, VkPipelineCache dstCache, uint32_t srcCacheCount, const VkPipelineCache* pSrcCaches); typedef VkResult (VKAPI_PTR *PFN_vkCreateGraphicsPipelines)(VkDevice device, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkGraphicsPipelineCreateInfo* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); typedef VkResult (VKAPI_PTR *PFN_vkCreateComputePipelines)(VkDevice device, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkComputePipelineCreateInfo* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); typedef void (VKAPI_PTR *PFN_vkDestroyPipeline)(VkDevice device, VkPipeline pipeline, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreatePipelineLayout)(VkDevice device, const VkPipelineLayoutCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPipelineLayout* pPipelineLayout); typedef void (VKAPI_PTR *PFN_vkDestroyPipelineLayout)(VkDevice device, VkPipelineLayout pipelineLayout, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateSampler)(VkDevice device, const VkSamplerCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSampler* pSampler); typedef void (VKAPI_PTR *PFN_vkDestroySampler)(VkDevice device, VkSampler sampler, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateDescriptorSetLayout)(VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorSetLayout* pSetLayout); typedef void (VKAPI_PTR *PFN_vkDestroyDescriptorSetLayout)(VkDevice device, VkDescriptorSetLayout descriptorSetLayout, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateDescriptorPool)(VkDevice device, const VkDescriptorPoolCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorPool* pDescriptorPool); typedef void (VKAPI_PTR *PFN_vkDestroyDescriptorPool)(VkDevice device, VkDescriptorPool descriptorPool, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkResetDescriptorPool)(VkDevice device, VkDescriptorPool descriptorPool, VkDescriptorPoolResetFlags flags); typedef VkResult (VKAPI_PTR *PFN_vkAllocateDescriptorSets)(VkDevice device, const VkDescriptorSetAllocateInfo* pAllocateInfo, VkDescriptorSet* pDescriptorSets); typedef VkResult (VKAPI_PTR *PFN_vkFreeDescriptorSets)(VkDevice device, VkDescriptorPool descriptorPool, uint32_t descriptorSetCount, const VkDescriptorSet* pDescriptorSets); typedef void (VKAPI_PTR *PFN_vkUpdateDescriptorSets)(VkDevice device, uint32_t descriptorWriteCount, const VkWriteDescriptorSet* pDescriptorWrites, uint32_t descriptorCopyCount, const VkCopyDescriptorSet* pDescriptorCopies); typedef VkResult (VKAPI_PTR *PFN_vkCreateFramebuffer)(VkDevice device, const VkFramebufferCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkFramebuffer* pFramebuffer); typedef void (VKAPI_PTR *PFN_vkDestroyFramebuffer)(VkDevice device, VkFramebuffer framebuffer, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateRenderPass)(VkDevice device, const VkRenderPassCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkRenderPass* pRenderPass); typedef void (VKAPI_PTR *PFN_vkDestroyRenderPass)(VkDevice device, VkRenderPass renderPass, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkGetRenderAreaGranularity)(VkDevice device, VkRenderPass renderPass, VkExtent2D* pGranularity); typedef VkResult (VKAPI_PTR *PFN_vkCreateCommandPool)(VkDevice device, const VkCommandPoolCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkCommandPool* pCommandPool); typedef void (VKAPI_PTR *PFN_vkDestroyCommandPool)(VkDevice device, VkCommandPool commandPool, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkResetCommandPool)(VkDevice device, VkCommandPool commandPool, VkCommandPoolResetFlags flags); typedef VkResult (VKAPI_PTR *PFN_vkAllocateCommandBuffers)(VkDevice device, const VkCommandBufferAllocateInfo* pAllocateInfo, VkCommandBuffer* pCommandBuffers); typedef void (VKAPI_PTR *PFN_vkFreeCommandBuffers)(VkDevice device, VkCommandPool commandPool, uint32_t commandBufferCount, const VkCommandBuffer* pCommandBuffers); typedef VkResult (VKAPI_PTR *PFN_vkBeginCommandBuffer)(VkCommandBuffer commandBuffer, const VkCommandBufferBeginInfo* pBeginInfo); typedef VkResult (VKAPI_PTR *PFN_vkEndCommandBuffer)(VkCommandBuffer commandBuffer); typedef VkResult (VKAPI_PTR *PFN_vkResetCommandBuffer)(VkCommandBuffer commandBuffer, VkCommandBufferResetFlags flags); typedef void (VKAPI_PTR *PFN_vkCmdBindPipeline)(VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipeline pipeline); typedef void (VKAPI_PTR *PFN_vkCmdSetViewport)(VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewport* pViewports); typedef void (VKAPI_PTR *PFN_vkCmdSetScissor)(VkCommandBuffer commandBuffer, uint32_t firstScissor, uint32_t scissorCount, const VkRect2D* pScissors); typedef void (VKAPI_PTR *PFN_vkCmdSetLineWidth)(VkCommandBuffer commandBuffer, float lineWidth); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthBias)(VkCommandBuffer commandBuffer, float depthBiasConstantFactor, float depthBiasClamp, float depthBiasSlopeFactor); typedef void (VKAPI_PTR *PFN_vkCmdSetBlendConstants)(VkCommandBuffer commandBuffer, const float blendConstants[4]); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthBounds)(VkCommandBuffer commandBuffer, float minDepthBounds, float maxDepthBounds); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilCompareMask)(VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, uint32_t compareMask); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilWriteMask)(VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, uint32_t writeMask); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilReference)(VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, uint32_t reference); typedef void (VKAPI_PTR *PFN_vkCmdBindDescriptorSets)(VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipelineLayout layout, uint32_t firstSet, uint32_t descriptorSetCount, const VkDescriptorSet* pDescriptorSets, uint32_t dynamicOffsetCount, const uint32_t* pDynamicOffsets); typedef void (VKAPI_PTR *PFN_vkCmdBindIndexBuffer)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkIndexType indexType); typedef void (VKAPI_PTR *PFN_vkCmdBindVertexBuffers)(VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets); typedef void (VKAPI_PTR *PFN_vkCmdDraw)(VkCommandBuffer commandBuffer, uint32_t vertexCount, uint32_t instanceCount, uint32_t firstVertex, uint32_t firstInstance); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndexed)(VkCommandBuffer commandBuffer, uint32_t indexCount, uint32_t instanceCount, uint32_t firstIndex, int32_t vertexOffset, uint32_t firstInstance); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndirect)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndexedIndirect)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDispatch)(VkCommandBuffer commandBuffer, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); typedef void (VKAPI_PTR *PFN_vkCmdDispatchIndirect)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset); typedef void (VKAPI_PTR *PFN_vkCmdCopyBuffer)(VkCommandBuffer commandBuffer, VkBuffer srcBuffer, VkBuffer dstBuffer, uint32_t regionCount, const VkBufferCopy* pRegions); typedef void (VKAPI_PTR *PFN_vkCmdCopyImage)(VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkImageCopy* pRegions); typedef void (VKAPI_PTR *PFN_vkCmdBlitImage)(VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkImageBlit* pRegions, VkFilter filter); typedef void (VKAPI_PTR *PFN_vkCmdCopyBufferToImage)(VkCommandBuffer commandBuffer, VkBuffer srcBuffer, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkBufferImageCopy* pRegions); typedef void (VKAPI_PTR *PFN_vkCmdCopyImageToBuffer)(VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkBuffer dstBuffer, uint32_t regionCount, const VkBufferImageCopy* pRegions); typedef void (VKAPI_PTR *PFN_vkCmdUpdateBuffer)(VkCommandBuffer commandBuffer, VkBuffer dstBuffer, VkDeviceSize dstOffset, VkDeviceSize dataSize, const void* pData); typedef void (VKAPI_PTR *PFN_vkCmdFillBuffer)(VkCommandBuffer commandBuffer, VkBuffer dstBuffer, VkDeviceSize dstOffset, VkDeviceSize size, uint32_t data); typedef void (VKAPI_PTR *PFN_vkCmdClearColorImage)(VkCommandBuffer commandBuffer, VkImage image, VkImageLayout imageLayout, const VkClearColorValue* pColor, uint32_t rangeCount, const VkImageSubresourceRange* pRanges); typedef void (VKAPI_PTR *PFN_vkCmdClearDepthStencilImage)(VkCommandBuffer commandBuffer, VkImage image, VkImageLayout imageLayout, const VkClearDepthStencilValue* pDepthStencil, uint32_t rangeCount, const VkImageSubresourceRange* pRanges); typedef void (VKAPI_PTR *PFN_vkCmdClearAttachments)(VkCommandBuffer commandBuffer, uint32_t attachmentCount, const VkClearAttachment* pAttachments, uint32_t rectCount, const VkClearRect* pRects); typedef void (VKAPI_PTR *PFN_vkCmdResolveImage)(VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkImageResolve* pRegions); typedef void (VKAPI_PTR *PFN_vkCmdSetEvent)(VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags stageMask); typedef void (VKAPI_PTR *PFN_vkCmdResetEvent)(VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags stageMask); typedef void (VKAPI_PTR *PFN_vkCmdWaitEvents)(VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, VkPipelineStageFlags srcStageMask, VkPipelineStageFlags dstStageMask, uint32_t memoryBarrierCount, const VkMemoryBarrier* pMemoryBarriers, uint32_t bufferMemoryBarrierCount, const VkBufferMemoryBarrier* pBufferMemoryBarriers, uint32_t imageMemoryBarrierCount, const VkImageMemoryBarrier* pImageMemoryBarriers); typedef void (VKAPI_PTR *PFN_vkCmdPipelineBarrier)(VkCommandBuffer commandBuffer, VkPipelineStageFlags srcStageMask, VkPipelineStageFlags dstStageMask, VkDependencyFlags dependencyFlags, uint32_t memoryBarrierCount, const VkMemoryBarrier* pMemoryBarriers, uint32_t bufferMemoryBarrierCount, const VkBufferMemoryBarrier* pBufferMemoryBarriers, uint32_t imageMemoryBarrierCount, const VkImageMemoryBarrier* pImageMemoryBarriers); typedef void (VKAPI_PTR *PFN_vkCmdBeginQuery)(VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query, VkQueryControlFlags flags); typedef void (VKAPI_PTR *PFN_vkCmdEndQuery)(VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query); typedef void (VKAPI_PTR *PFN_vkCmdResetQueryPool)(VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount); typedef void (VKAPI_PTR *PFN_vkCmdWriteTimestamp)(VkCommandBuffer commandBuffer, VkPipelineStageFlagBits pipelineStage, VkQueryPool queryPool, uint32_t query); typedef void (VKAPI_PTR *PFN_vkCmdCopyQueryPoolResults)(VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount, VkBuffer dstBuffer, VkDeviceSize dstOffset, VkDeviceSize stride, VkQueryResultFlags flags); typedef void (VKAPI_PTR *PFN_vkCmdPushConstants)(VkCommandBuffer commandBuffer, VkPipelineLayout layout, VkShaderStageFlags stageFlags, uint32_t offset, uint32_t size, const void* pValues); typedef void (VKAPI_PTR *PFN_vkCmdBeginRenderPass)(VkCommandBuffer commandBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, VkSubpassContents contents); typedef void (VKAPI_PTR *PFN_vkCmdNextSubpass)(VkCommandBuffer commandBuffer, VkSubpassContents contents); typedef void (VKAPI_PTR *PFN_vkCmdEndRenderPass)(VkCommandBuffer commandBuffer); typedef void (VKAPI_PTR *PFN_vkCmdExecuteCommands)(VkCommandBuffer commandBuffer, uint32_t commandBufferCount, const VkCommandBuffer* pCommandBuffers); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateInstance( const VkInstanceCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkInstance* pInstance); VKAPI_ATTR void VKAPI_CALL vkDestroyInstance( VkInstance instance, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkEnumeratePhysicalDevices( VkInstance instance, uint32_t* pPhysicalDeviceCount, VkPhysicalDevice* pPhysicalDevices); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceFeatures( VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures* pFeatures); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceFormatProperties( VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties* pFormatProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceImageFormatProperties( VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkImageTiling tiling, VkImageUsageFlags usage, VkImageCreateFlags flags, VkImageFormatProperties* pImageFormatProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceProperties( VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties* pProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceQueueFamilyProperties( VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties* pQueueFamilyProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceMemoryProperties( VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties* pMemoryProperties); VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetInstanceProcAddr( VkInstance instance, const char* pName); VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetDeviceProcAddr( VkDevice device, const char* pName); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDevice( VkPhysicalDevice physicalDevice, const VkDeviceCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDevice* pDevice); VKAPI_ATTR void VKAPI_CALL vkDestroyDevice( VkDevice device, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceExtensionProperties( const char* pLayerName, uint32_t* pPropertyCount, VkExtensionProperties* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateDeviceExtensionProperties( VkPhysicalDevice physicalDevice, const char* pLayerName, uint32_t* pPropertyCount, VkExtensionProperties* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceLayerProperties( uint32_t* pPropertyCount, VkLayerProperties* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateDeviceLayerProperties( VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkLayerProperties* pProperties); VKAPI_ATTR void VKAPI_CALL vkGetDeviceQueue( VkDevice device, uint32_t queueFamilyIndex, uint32_t queueIndex, VkQueue* pQueue); VKAPI_ATTR VkResult VKAPI_CALL vkQueueSubmit( VkQueue queue, uint32_t submitCount, const VkSubmitInfo* pSubmits, VkFence fence); VKAPI_ATTR VkResult VKAPI_CALL vkQueueWaitIdle( VkQueue queue); VKAPI_ATTR VkResult VKAPI_CALL vkDeviceWaitIdle( VkDevice device); VKAPI_ATTR VkResult VKAPI_CALL vkAllocateMemory( VkDevice device, const VkMemoryAllocateInfo* pAllocateInfo, const VkAllocationCallbacks* pAllocator, VkDeviceMemory* pMemory); VKAPI_ATTR void VKAPI_CALL vkFreeMemory( VkDevice device, VkDeviceMemory memory, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkMapMemory( VkDevice device, VkDeviceMemory memory, VkDeviceSize offset, VkDeviceSize size, VkMemoryMapFlags flags, void** ppData); VKAPI_ATTR void VKAPI_CALL vkUnmapMemory( VkDevice device, VkDeviceMemory memory); VKAPI_ATTR VkResult VKAPI_CALL vkFlushMappedMemoryRanges( VkDevice device, uint32_t memoryRangeCount, const VkMappedMemoryRange* pMemoryRanges); VKAPI_ATTR VkResult VKAPI_CALL vkInvalidateMappedMemoryRanges( VkDevice device, uint32_t memoryRangeCount, const VkMappedMemoryRange* pMemoryRanges); VKAPI_ATTR void VKAPI_CALL vkGetDeviceMemoryCommitment( VkDevice device, VkDeviceMemory memory, VkDeviceSize* pCommittedMemoryInBytes); VKAPI_ATTR VkResult VKAPI_CALL vkBindBufferMemory( VkDevice device, VkBuffer buffer, VkDeviceMemory memory, VkDeviceSize memoryOffset); VKAPI_ATTR VkResult VKAPI_CALL vkBindImageMemory( VkDevice device, VkImage image, VkDeviceMemory memory, VkDeviceSize memoryOffset); VKAPI_ATTR void VKAPI_CALL vkGetBufferMemoryRequirements( VkDevice device, VkBuffer buffer, VkMemoryRequirements* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetImageMemoryRequirements( VkDevice device, VkImage image, VkMemoryRequirements* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetImageSparseMemoryRequirements( VkDevice device, VkImage image, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements* pSparseMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceSparseImageFormatProperties( VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkSampleCountFlagBits samples, VkImageUsageFlags usage, VkImageTiling tiling, uint32_t* pPropertyCount, VkSparseImageFormatProperties* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkQueueBindSparse( VkQueue queue, uint32_t bindInfoCount, const VkBindSparseInfo* pBindInfo, VkFence fence); VKAPI_ATTR VkResult VKAPI_CALL vkCreateFence( VkDevice device, const VkFenceCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkFence* pFence); VKAPI_ATTR void VKAPI_CALL vkDestroyFence( VkDevice device, VkFence fence, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkResetFences( VkDevice device, uint32_t fenceCount, const VkFence* pFences); VKAPI_ATTR VkResult VKAPI_CALL vkGetFenceStatus( VkDevice device, VkFence fence); VKAPI_ATTR VkResult VKAPI_CALL vkWaitForFences( VkDevice device, uint32_t fenceCount, const VkFence* pFences, VkBool32 waitAll, uint64_t timeout); VKAPI_ATTR VkResult VKAPI_CALL vkCreateSemaphore( VkDevice device, const VkSemaphoreCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSemaphore* pSemaphore); VKAPI_ATTR void VKAPI_CALL vkDestroySemaphore( VkDevice device, VkSemaphore semaphore, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateEvent( VkDevice device, const VkEventCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkEvent* pEvent); VKAPI_ATTR void VKAPI_CALL vkDestroyEvent( VkDevice device, VkEvent event, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkGetEventStatus( VkDevice device, VkEvent event); VKAPI_ATTR VkResult VKAPI_CALL vkSetEvent( VkDevice device, VkEvent event); VKAPI_ATTR VkResult VKAPI_CALL vkResetEvent( VkDevice device, VkEvent event); VKAPI_ATTR VkResult VKAPI_CALL vkCreateQueryPool( VkDevice device, const VkQueryPoolCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkQueryPool* pQueryPool); VKAPI_ATTR void VKAPI_CALL vkDestroyQueryPool( VkDevice device, VkQueryPool queryPool, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkGetQueryPoolResults( VkDevice device, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount, size_t dataSize, void* pData, VkDeviceSize stride, VkQueryResultFlags flags); VKAPI_ATTR VkResult VKAPI_CALL vkCreateBuffer( VkDevice device, const VkBufferCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkBuffer* pBuffer); VKAPI_ATTR void VKAPI_CALL vkDestroyBuffer( VkDevice device, VkBuffer buffer, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateBufferView( VkDevice device, const VkBufferViewCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkBufferView* pView); VKAPI_ATTR void VKAPI_CALL vkDestroyBufferView( VkDevice device, VkBufferView bufferView, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateImage( VkDevice device, const VkImageCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkImage* pImage); VKAPI_ATTR void VKAPI_CALL vkDestroyImage( VkDevice device, VkImage image, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkGetImageSubresourceLayout( VkDevice device, VkImage image, const VkImageSubresource* pSubresource, VkSubresourceLayout* pLayout); VKAPI_ATTR VkResult VKAPI_CALL vkCreateImageView( VkDevice device, const VkImageViewCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkImageView* pView); VKAPI_ATTR void VKAPI_CALL vkDestroyImageView( VkDevice device, VkImageView imageView, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateShaderModule( VkDevice device, const VkShaderModuleCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkShaderModule* pShaderModule); VKAPI_ATTR void VKAPI_CALL vkDestroyShaderModule( VkDevice device, VkShaderModule shaderModule, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreatePipelineCache( VkDevice device, const VkPipelineCacheCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPipelineCache* pPipelineCache); VKAPI_ATTR void VKAPI_CALL vkDestroyPipelineCache( VkDevice device, VkPipelineCache pipelineCache, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkGetPipelineCacheData( VkDevice device, VkPipelineCache pipelineCache, size_t* pDataSize, void* pData); VKAPI_ATTR VkResult VKAPI_CALL vkMergePipelineCaches( VkDevice device, VkPipelineCache dstCache, uint32_t srcCacheCount, const VkPipelineCache* pSrcCaches); VKAPI_ATTR VkResult VKAPI_CALL vkCreateGraphicsPipelines( VkDevice device, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkGraphicsPipelineCreateInfo* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); VKAPI_ATTR VkResult VKAPI_CALL vkCreateComputePipelines( VkDevice device, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkComputePipelineCreateInfo* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); VKAPI_ATTR void VKAPI_CALL vkDestroyPipeline( VkDevice device, VkPipeline pipeline, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreatePipelineLayout( VkDevice device, const VkPipelineLayoutCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPipelineLayout* pPipelineLayout); VKAPI_ATTR void VKAPI_CALL vkDestroyPipelineLayout( VkDevice device, VkPipelineLayout pipelineLayout, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateSampler( VkDevice device, const VkSamplerCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSampler* pSampler); VKAPI_ATTR void VKAPI_CALL vkDestroySampler( VkDevice device, VkSampler sampler, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDescriptorSetLayout( VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorSetLayout* pSetLayout); VKAPI_ATTR void VKAPI_CALL vkDestroyDescriptorSetLayout( VkDevice device, VkDescriptorSetLayout descriptorSetLayout, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDescriptorPool( VkDevice device, const VkDescriptorPoolCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorPool* pDescriptorPool); VKAPI_ATTR void VKAPI_CALL vkDestroyDescriptorPool( VkDevice device, VkDescriptorPool descriptorPool, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkResetDescriptorPool( VkDevice device, VkDescriptorPool descriptorPool, VkDescriptorPoolResetFlags flags); VKAPI_ATTR VkResult VKAPI_CALL vkAllocateDescriptorSets( VkDevice device, const VkDescriptorSetAllocateInfo* pAllocateInfo, VkDescriptorSet* pDescriptorSets); VKAPI_ATTR VkResult VKAPI_CALL vkFreeDescriptorSets( VkDevice device, VkDescriptorPool descriptorPool, uint32_t descriptorSetCount, const VkDescriptorSet* pDescriptorSets); VKAPI_ATTR void VKAPI_CALL vkUpdateDescriptorSets( VkDevice device, uint32_t descriptorWriteCount, const VkWriteDescriptorSet* pDescriptorWrites, uint32_t descriptorCopyCount, const VkCopyDescriptorSet* pDescriptorCopies); VKAPI_ATTR VkResult VKAPI_CALL vkCreateFramebuffer( VkDevice device, const VkFramebufferCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkFramebuffer* pFramebuffer); VKAPI_ATTR void VKAPI_CALL vkDestroyFramebuffer( VkDevice device, VkFramebuffer framebuffer, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateRenderPass( VkDevice device, const VkRenderPassCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkRenderPass* pRenderPass); VKAPI_ATTR void VKAPI_CALL vkDestroyRenderPass( VkDevice device, VkRenderPass renderPass, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkGetRenderAreaGranularity( VkDevice device, VkRenderPass renderPass, VkExtent2D* pGranularity); VKAPI_ATTR VkResult VKAPI_CALL vkCreateCommandPool( VkDevice device, const VkCommandPoolCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkCommandPool* pCommandPool); VKAPI_ATTR void VKAPI_CALL vkDestroyCommandPool( VkDevice device, VkCommandPool commandPool, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkResetCommandPool( VkDevice device, VkCommandPool commandPool, VkCommandPoolResetFlags flags); VKAPI_ATTR VkResult VKAPI_CALL vkAllocateCommandBuffers( VkDevice device, const VkCommandBufferAllocateInfo* pAllocateInfo, VkCommandBuffer* pCommandBuffers); VKAPI_ATTR void VKAPI_CALL vkFreeCommandBuffers( VkDevice device, VkCommandPool commandPool, uint32_t commandBufferCount, const VkCommandBuffer* pCommandBuffers); VKAPI_ATTR VkResult VKAPI_CALL vkBeginCommandBuffer( VkCommandBuffer commandBuffer, const VkCommandBufferBeginInfo* pBeginInfo); VKAPI_ATTR VkResult VKAPI_CALL vkEndCommandBuffer( VkCommandBuffer commandBuffer); VKAPI_ATTR VkResult VKAPI_CALL vkResetCommandBuffer( VkCommandBuffer commandBuffer, VkCommandBufferResetFlags flags); VKAPI_ATTR void VKAPI_CALL vkCmdBindPipeline( VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipeline pipeline); VKAPI_ATTR void VKAPI_CALL vkCmdSetViewport( VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewport* pViewports); VKAPI_ATTR void VKAPI_CALL vkCmdSetScissor( VkCommandBuffer commandBuffer, uint32_t firstScissor, uint32_t scissorCount, const VkRect2D* pScissors); VKAPI_ATTR void VKAPI_CALL vkCmdSetLineWidth( VkCommandBuffer commandBuffer, float lineWidth); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthBias( VkCommandBuffer commandBuffer, float depthBiasConstantFactor, float depthBiasClamp, float depthBiasSlopeFactor); VKAPI_ATTR void VKAPI_CALL vkCmdSetBlendConstants( VkCommandBuffer commandBuffer, const float blendConstants[4]); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthBounds( VkCommandBuffer commandBuffer, float minDepthBounds, float maxDepthBounds); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilCompareMask( VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, uint32_t compareMask); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilWriteMask( VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, uint32_t writeMask); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilReference( VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, uint32_t reference); VKAPI_ATTR void VKAPI_CALL vkCmdBindDescriptorSets( VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipelineLayout layout, uint32_t firstSet, uint32_t descriptorSetCount, const VkDescriptorSet* pDescriptorSets, uint32_t dynamicOffsetCount, const uint32_t* pDynamicOffsets); VKAPI_ATTR void VKAPI_CALL vkCmdBindIndexBuffer( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkIndexType indexType); VKAPI_ATTR void VKAPI_CALL vkCmdBindVertexBuffers( VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets); VKAPI_ATTR void VKAPI_CALL vkCmdDraw( VkCommandBuffer commandBuffer, uint32_t vertexCount, uint32_t instanceCount, uint32_t firstVertex, uint32_t firstInstance); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndexed( VkCommandBuffer commandBuffer, uint32_t indexCount, uint32_t instanceCount, uint32_t firstIndex, int32_t vertexOffset, uint32_t firstInstance); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndirect( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndexedIndirect( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDispatch( VkCommandBuffer commandBuffer, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); VKAPI_ATTR void VKAPI_CALL vkCmdDispatchIndirect( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset); VKAPI_ATTR void VKAPI_CALL vkCmdCopyBuffer( VkCommandBuffer commandBuffer, VkBuffer srcBuffer, VkBuffer dstBuffer, uint32_t regionCount, const VkBufferCopy* pRegions); VKAPI_ATTR void VKAPI_CALL vkCmdCopyImage( VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkImageCopy* pRegions); VKAPI_ATTR void VKAPI_CALL vkCmdBlitImage( VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkImageBlit* pRegions, VkFilter filter); VKAPI_ATTR void VKAPI_CALL vkCmdCopyBufferToImage( VkCommandBuffer commandBuffer, VkBuffer srcBuffer, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkBufferImageCopy* pRegions); VKAPI_ATTR void VKAPI_CALL vkCmdCopyImageToBuffer( VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkBuffer dstBuffer, uint32_t regionCount, const VkBufferImageCopy* pRegions); VKAPI_ATTR void VKAPI_CALL vkCmdUpdateBuffer( VkCommandBuffer commandBuffer, VkBuffer dstBuffer, VkDeviceSize dstOffset, VkDeviceSize dataSize, const void* pData); VKAPI_ATTR void VKAPI_CALL vkCmdFillBuffer( VkCommandBuffer commandBuffer, VkBuffer dstBuffer, VkDeviceSize dstOffset, VkDeviceSize size, uint32_t data); VKAPI_ATTR void VKAPI_CALL vkCmdClearColorImage( VkCommandBuffer commandBuffer, VkImage image, VkImageLayout imageLayout, const VkClearColorValue* pColor, uint32_t rangeCount, const VkImageSubresourceRange* pRanges); VKAPI_ATTR void VKAPI_CALL vkCmdClearDepthStencilImage( VkCommandBuffer commandBuffer, VkImage image, VkImageLayout imageLayout, const VkClearDepthStencilValue* pDepthStencil, uint32_t rangeCount, const VkImageSubresourceRange* pRanges); VKAPI_ATTR void VKAPI_CALL vkCmdClearAttachments( VkCommandBuffer commandBuffer, uint32_t attachmentCount, const VkClearAttachment* pAttachments, uint32_t rectCount, const VkClearRect* pRects); VKAPI_ATTR void VKAPI_CALL vkCmdResolveImage( VkCommandBuffer commandBuffer, VkImage srcImage, VkImageLayout srcImageLayout, VkImage dstImage, VkImageLayout dstImageLayout, uint32_t regionCount, const VkImageResolve* pRegions); VKAPI_ATTR void VKAPI_CALL vkCmdSetEvent( VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags stageMask); VKAPI_ATTR void VKAPI_CALL vkCmdResetEvent( VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags stageMask); VKAPI_ATTR void VKAPI_CALL vkCmdWaitEvents( VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, VkPipelineStageFlags srcStageMask, VkPipelineStageFlags dstStageMask, uint32_t memoryBarrierCount, const VkMemoryBarrier* pMemoryBarriers, uint32_t bufferMemoryBarrierCount, const VkBufferMemoryBarrier* pBufferMemoryBarriers, uint32_t imageMemoryBarrierCount, const VkImageMemoryBarrier* pImageMemoryBarriers); VKAPI_ATTR void VKAPI_CALL vkCmdPipelineBarrier( VkCommandBuffer commandBuffer, VkPipelineStageFlags srcStageMask, VkPipelineStageFlags dstStageMask, VkDependencyFlags dependencyFlags, uint32_t memoryBarrierCount, const VkMemoryBarrier* pMemoryBarriers, uint32_t bufferMemoryBarrierCount, const VkBufferMemoryBarrier* pBufferMemoryBarriers, uint32_t imageMemoryBarrierCount, const VkImageMemoryBarrier* pImageMemoryBarriers); VKAPI_ATTR void VKAPI_CALL vkCmdBeginQuery( VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query, VkQueryControlFlags flags); VKAPI_ATTR void VKAPI_CALL vkCmdEndQuery( VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query); VKAPI_ATTR void VKAPI_CALL vkCmdResetQueryPool( VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount); VKAPI_ATTR void VKAPI_CALL vkCmdWriteTimestamp( VkCommandBuffer commandBuffer, VkPipelineStageFlagBits pipelineStage, VkQueryPool queryPool, uint32_t query); VKAPI_ATTR void VKAPI_CALL vkCmdCopyQueryPoolResults( VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount, VkBuffer dstBuffer, VkDeviceSize dstOffset, VkDeviceSize stride, VkQueryResultFlags flags); VKAPI_ATTR void VKAPI_CALL vkCmdPushConstants( VkCommandBuffer commandBuffer, VkPipelineLayout layout, VkShaderStageFlags stageFlags, uint32_t offset, uint32_t size, const void* pValues); VKAPI_ATTR void VKAPI_CALL vkCmdBeginRenderPass( VkCommandBuffer commandBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, VkSubpassContents contents); VKAPI_ATTR void VKAPI_CALL vkCmdNextSubpass( VkCommandBuffer commandBuffer, VkSubpassContents contents); VKAPI_ATTR void VKAPI_CALL vkCmdEndRenderPass( VkCommandBuffer commandBuffer); VKAPI_ATTR void VKAPI_CALL vkCmdExecuteCommands( VkCommandBuffer commandBuffer, uint32_t commandBufferCount, const VkCommandBuffer* pCommandBuffers); #endif #define VK_VERSION_1_1 1 // Vulkan 1.1 version number #define VK_API_VERSION_1_1 VK_MAKE_API_VERSION(0, 1, 1, 0)// Patch version should always be set to 0 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkSamplerYcbcrConversion) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDescriptorUpdateTemplate) #define VK_MAX_DEVICE_GROUP_SIZE 32U #define VK_LUID_SIZE 8U #define VK_QUEUE_FAMILY_EXTERNAL (~1U) typedef enum VkPointClippingBehavior { VK_POINT_CLIPPING_BEHAVIOR_ALL_CLIP_PLANES = 0, VK_POINT_CLIPPING_BEHAVIOR_USER_CLIP_PLANES_ONLY = 1, VK_POINT_CLIPPING_BEHAVIOR_ALL_CLIP_PLANES_KHR = VK_POINT_CLIPPING_BEHAVIOR_ALL_CLIP_PLANES, VK_POINT_CLIPPING_BEHAVIOR_USER_CLIP_PLANES_ONLY_KHR = VK_POINT_CLIPPING_BEHAVIOR_USER_CLIP_PLANES_ONLY, VK_POINT_CLIPPING_BEHAVIOR_MAX_ENUM = 0x7FFFFFFF } VkPointClippingBehavior; typedef enum VkTessellationDomainOrigin { VK_TESSELLATION_DOMAIN_ORIGIN_UPPER_LEFT = 0, VK_TESSELLATION_DOMAIN_ORIGIN_LOWER_LEFT = 1, VK_TESSELLATION_DOMAIN_ORIGIN_UPPER_LEFT_KHR = VK_TESSELLATION_DOMAIN_ORIGIN_UPPER_LEFT, VK_TESSELLATION_DOMAIN_ORIGIN_LOWER_LEFT_KHR = VK_TESSELLATION_DOMAIN_ORIGIN_LOWER_LEFT, VK_TESSELLATION_DOMAIN_ORIGIN_MAX_ENUM = 0x7FFFFFFF } VkTessellationDomainOrigin; typedef enum VkSamplerYcbcrModelConversion { VK_SAMPLER_YCBCR_MODEL_CONVERSION_RGB_IDENTITY = 0, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_IDENTITY = 1, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_709 = 2, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_601 = 3, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_2020 = 4, VK_SAMPLER_YCBCR_MODEL_CONVERSION_RGB_IDENTITY_KHR = VK_SAMPLER_YCBCR_MODEL_CONVERSION_RGB_IDENTITY, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_IDENTITY_KHR = VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_IDENTITY, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_709_KHR = VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_709, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_601_KHR = VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_601, VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_2020_KHR = VK_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_2020, VK_SAMPLER_YCBCR_MODEL_CONVERSION_MAX_ENUM = 0x7FFFFFFF } VkSamplerYcbcrModelConversion; typedef enum VkSamplerYcbcrRange { VK_SAMPLER_YCBCR_RANGE_ITU_FULL = 0, VK_SAMPLER_YCBCR_RANGE_ITU_NARROW = 1, VK_SAMPLER_YCBCR_RANGE_ITU_FULL_KHR = VK_SAMPLER_YCBCR_RANGE_ITU_FULL, VK_SAMPLER_YCBCR_RANGE_ITU_NARROW_KHR = VK_SAMPLER_YCBCR_RANGE_ITU_NARROW, VK_SAMPLER_YCBCR_RANGE_MAX_ENUM = 0x7FFFFFFF } VkSamplerYcbcrRange; typedef enum VkChromaLocation { VK_CHROMA_LOCATION_COSITED_EVEN = 0, VK_CHROMA_LOCATION_MIDPOINT = 1, VK_CHROMA_LOCATION_COSITED_EVEN_KHR = VK_CHROMA_LOCATION_COSITED_EVEN, VK_CHROMA_LOCATION_MIDPOINT_KHR = VK_CHROMA_LOCATION_MIDPOINT, VK_CHROMA_LOCATION_MAX_ENUM = 0x7FFFFFFF } VkChromaLocation; typedef enum VkDescriptorUpdateTemplateType { VK_DESCRIPTOR_UPDATE_TEMPLATE_TYPE_DESCRIPTOR_SET = 0, VK_DESCRIPTOR_UPDATE_TEMPLATE_TYPE_PUSH_DESCRIPTORS_KHR = 1, VK_DESCRIPTOR_UPDATE_TEMPLATE_TYPE_DESCRIPTOR_SET_KHR = VK_DESCRIPTOR_UPDATE_TEMPLATE_TYPE_DESCRIPTOR_SET, VK_DESCRIPTOR_UPDATE_TEMPLATE_TYPE_MAX_ENUM = 0x7FFFFFFF } VkDescriptorUpdateTemplateType; typedef enum VkSubgroupFeatureFlagBits { VK_SUBGROUP_FEATURE_BASIC_BIT = 0x00000001, VK_SUBGROUP_FEATURE_VOTE_BIT = 0x00000002, VK_SUBGROUP_FEATURE_ARITHMETIC_BIT = 0x00000004, VK_SUBGROUP_FEATURE_BALLOT_BIT = 0x00000008, VK_SUBGROUP_FEATURE_SHUFFLE_BIT = 0x00000010, VK_SUBGROUP_FEATURE_SHUFFLE_RELATIVE_BIT = 0x00000020, VK_SUBGROUP_FEATURE_CLUSTERED_BIT = 0x00000040, VK_SUBGROUP_FEATURE_QUAD_BIT = 0x00000080, VK_SUBGROUP_FEATURE_PARTITIONED_BIT_NV = 0x00000100, VK_SUBGROUP_FEATURE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSubgroupFeatureFlagBits; typedef VkFlags VkSubgroupFeatureFlags; typedef enum VkPeerMemoryFeatureFlagBits { VK_PEER_MEMORY_FEATURE_COPY_SRC_BIT = 0x00000001, VK_PEER_MEMORY_FEATURE_COPY_DST_BIT = 0x00000002, VK_PEER_MEMORY_FEATURE_GENERIC_SRC_BIT = 0x00000004, VK_PEER_MEMORY_FEATURE_GENERIC_DST_BIT = 0x00000008, VK_PEER_MEMORY_FEATURE_COPY_SRC_BIT_KHR = VK_PEER_MEMORY_FEATURE_COPY_SRC_BIT, VK_PEER_MEMORY_FEATURE_COPY_DST_BIT_KHR = VK_PEER_MEMORY_FEATURE_COPY_DST_BIT, VK_PEER_MEMORY_FEATURE_GENERIC_SRC_BIT_KHR = VK_PEER_MEMORY_FEATURE_GENERIC_SRC_BIT, VK_PEER_MEMORY_FEATURE_GENERIC_DST_BIT_KHR = VK_PEER_MEMORY_FEATURE_GENERIC_DST_BIT, VK_PEER_MEMORY_FEATURE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPeerMemoryFeatureFlagBits; typedef VkFlags VkPeerMemoryFeatureFlags; typedef enum VkMemoryAllocateFlagBits { VK_MEMORY_ALLOCATE_DEVICE_MASK_BIT = 0x00000001, VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT = 0x00000002, VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT = 0x00000004, VK_MEMORY_ALLOCATE_DEVICE_MASK_BIT_KHR = VK_MEMORY_ALLOCATE_DEVICE_MASK_BIT, VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT_KHR = VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_BIT, VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT_KHR = VK_MEMORY_ALLOCATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT, VK_MEMORY_ALLOCATE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkMemoryAllocateFlagBits; typedef VkFlags VkMemoryAllocateFlags; typedef VkFlags VkCommandPoolTrimFlags; typedef VkFlags VkDescriptorUpdateTemplateCreateFlags; typedef enum VkExternalMemoryHandleTypeFlagBits { VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_FD_BIT = 0x00000001, VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_BIT = 0x00000002, VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT = 0x00000004, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_TEXTURE_BIT = 0x00000008, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_TEXTURE_KMT_BIT = 0x00000010, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D12_HEAP_BIT = 0x00000020, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D12_RESOURCE_BIT = 0x00000040, VK_EXTERNAL_MEMORY_HANDLE_TYPE_DMA_BUF_BIT_EXT = 0x00000200, VK_EXTERNAL_MEMORY_HANDLE_TYPE_ANDROID_HARDWARE_BUFFER_BIT_ANDROID = 0x00000400, VK_EXTERNAL_MEMORY_HANDLE_TYPE_HOST_ALLOCATION_BIT_EXT = 0x00000080, VK_EXTERNAL_MEMORY_HANDLE_TYPE_HOST_MAPPED_FOREIGN_MEMORY_BIT_EXT = 0x00000100, VK_EXTERNAL_MEMORY_HANDLE_TYPE_ZIRCON_VMO_BIT_FUCHSIA = 0x00000800, VK_EXTERNAL_MEMORY_HANDLE_TYPE_RDMA_ADDRESS_BIT_NV = 0x00001000, VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_FD_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_FD_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_TEXTURE_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_TEXTURE_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_TEXTURE_KMT_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_TEXTURE_KMT_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D12_HEAP_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D12_HEAP_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D12_RESOURCE_BIT_KHR = VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D12_RESOURCE_BIT, VK_EXTERNAL_MEMORY_HANDLE_TYPE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkExternalMemoryHandleTypeFlagBits; typedef VkFlags VkExternalMemoryHandleTypeFlags; typedef enum VkExternalMemoryFeatureFlagBits { VK_EXTERNAL_MEMORY_FEATURE_DEDICATED_ONLY_BIT = 0x00000001, VK_EXTERNAL_MEMORY_FEATURE_EXPORTABLE_BIT = 0x00000002, VK_EXTERNAL_MEMORY_FEATURE_IMPORTABLE_BIT = 0x00000004, VK_EXTERNAL_MEMORY_FEATURE_DEDICATED_ONLY_BIT_KHR = VK_EXTERNAL_MEMORY_FEATURE_DEDICATED_ONLY_BIT, VK_EXTERNAL_MEMORY_FEATURE_EXPORTABLE_BIT_KHR = VK_EXTERNAL_MEMORY_FEATURE_EXPORTABLE_BIT, VK_EXTERNAL_MEMORY_FEATURE_IMPORTABLE_BIT_KHR = VK_EXTERNAL_MEMORY_FEATURE_IMPORTABLE_BIT, VK_EXTERNAL_MEMORY_FEATURE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkExternalMemoryFeatureFlagBits; typedef VkFlags VkExternalMemoryFeatureFlags; typedef enum VkExternalFenceHandleTypeFlagBits { VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_FD_BIT = 0x00000001, VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_WIN32_BIT = 0x00000002, VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT = 0x00000004, VK_EXTERNAL_FENCE_HANDLE_TYPE_SYNC_FD_BIT = 0x00000008, VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_FD_BIT_KHR = VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_FD_BIT, VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_WIN32_BIT_KHR = VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_WIN32_BIT, VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT_KHR = VK_EXTERNAL_FENCE_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT, VK_EXTERNAL_FENCE_HANDLE_TYPE_SYNC_FD_BIT_KHR = VK_EXTERNAL_FENCE_HANDLE_TYPE_SYNC_FD_BIT, VK_EXTERNAL_FENCE_HANDLE_TYPE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkExternalFenceHandleTypeFlagBits; typedef VkFlags VkExternalFenceHandleTypeFlags; typedef enum VkExternalFenceFeatureFlagBits { VK_EXTERNAL_FENCE_FEATURE_EXPORTABLE_BIT = 0x00000001, VK_EXTERNAL_FENCE_FEATURE_IMPORTABLE_BIT = 0x00000002, VK_EXTERNAL_FENCE_FEATURE_EXPORTABLE_BIT_KHR = VK_EXTERNAL_FENCE_FEATURE_EXPORTABLE_BIT, VK_EXTERNAL_FENCE_FEATURE_IMPORTABLE_BIT_KHR = VK_EXTERNAL_FENCE_FEATURE_IMPORTABLE_BIT, VK_EXTERNAL_FENCE_FEATURE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkExternalFenceFeatureFlagBits; typedef VkFlags VkExternalFenceFeatureFlags; typedef enum VkFenceImportFlagBits { VK_FENCE_IMPORT_TEMPORARY_BIT = 0x00000001, VK_FENCE_IMPORT_TEMPORARY_BIT_KHR = VK_FENCE_IMPORT_TEMPORARY_BIT, VK_FENCE_IMPORT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkFenceImportFlagBits; typedef VkFlags VkFenceImportFlags; typedef enum VkSemaphoreImportFlagBits { VK_SEMAPHORE_IMPORT_TEMPORARY_BIT = 0x00000001, VK_SEMAPHORE_IMPORT_TEMPORARY_BIT_KHR = VK_SEMAPHORE_IMPORT_TEMPORARY_BIT, VK_SEMAPHORE_IMPORT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSemaphoreImportFlagBits; typedef VkFlags VkSemaphoreImportFlags; typedef enum VkExternalSemaphoreHandleTypeFlagBits { VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_FD_BIT = 0x00000001, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_WIN32_BIT = 0x00000002, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT = 0x00000004, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_D3D12_FENCE_BIT = 0x00000008, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_SYNC_FD_BIT = 0x00000010, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_ZIRCON_EVENT_BIT_FUCHSIA = 0x00000080, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_D3D11_FENCE_BIT = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_D3D12_FENCE_BIT, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_FD_BIT_KHR = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_FD_BIT, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_WIN32_BIT_KHR = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_WIN32_BIT, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT_KHR = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_D3D12_FENCE_BIT_KHR = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_D3D12_FENCE_BIT, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_SYNC_FD_BIT_KHR = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_SYNC_FD_BIT, VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkExternalSemaphoreHandleTypeFlagBits; typedef VkFlags VkExternalSemaphoreHandleTypeFlags; typedef enum VkExternalSemaphoreFeatureFlagBits { VK_EXTERNAL_SEMAPHORE_FEATURE_EXPORTABLE_BIT = 0x00000001, VK_EXTERNAL_SEMAPHORE_FEATURE_IMPORTABLE_BIT = 0x00000002, VK_EXTERNAL_SEMAPHORE_FEATURE_EXPORTABLE_BIT_KHR = VK_EXTERNAL_SEMAPHORE_FEATURE_EXPORTABLE_BIT, VK_EXTERNAL_SEMAPHORE_FEATURE_IMPORTABLE_BIT_KHR = VK_EXTERNAL_SEMAPHORE_FEATURE_IMPORTABLE_BIT, VK_EXTERNAL_SEMAPHORE_FEATURE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkExternalSemaphoreFeatureFlagBits; typedef VkFlags VkExternalSemaphoreFeatureFlags; typedef struct VkPhysicalDeviceSubgroupProperties { VkStructureType sType; void* pNext; uint32_t subgroupSize; VkShaderStageFlags supportedStages; VkSubgroupFeatureFlags supportedOperations; VkBool32 quadOperationsInAllStages; } VkPhysicalDeviceSubgroupProperties; typedef struct VkBindBufferMemoryInfo { VkStructureType sType; const void* pNext; VkBuffer buffer; VkDeviceMemory memory; VkDeviceSize memoryOffset; } VkBindBufferMemoryInfo; typedef struct VkBindImageMemoryInfo { VkStructureType sType; const void* pNext; VkImage image; VkDeviceMemory memory; VkDeviceSize memoryOffset; } VkBindImageMemoryInfo; typedef struct VkPhysicalDevice16BitStorageFeatures { VkStructureType sType; void* pNext; VkBool32 storageBuffer16BitAccess; VkBool32 uniformAndStorageBuffer16BitAccess; VkBool32 storagePushConstant16; VkBool32 storageInputOutput16; } VkPhysicalDevice16BitStorageFeatures; typedef struct VkMemoryDedicatedRequirements { VkStructureType sType; void* pNext; VkBool32 prefersDedicatedAllocation; VkBool32 requiresDedicatedAllocation; } VkMemoryDedicatedRequirements; typedef struct VkMemoryDedicatedAllocateInfo { VkStructureType sType; const void* pNext; VkImage image; VkBuffer buffer; } VkMemoryDedicatedAllocateInfo; typedef struct VkMemoryAllocateFlagsInfo { VkStructureType sType; const void* pNext; VkMemoryAllocateFlags flags; uint32_t deviceMask; } VkMemoryAllocateFlagsInfo; typedef struct VkDeviceGroupRenderPassBeginInfo { VkStructureType sType; const void* pNext; uint32_t deviceMask; uint32_t deviceRenderAreaCount; const VkRect2D* pDeviceRenderAreas; } VkDeviceGroupRenderPassBeginInfo; typedef struct VkDeviceGroupCommandBufferBeginInfo { VkStructureType sType; const void* pNext; uint32_t deviceMask; } VkDeviceGroupCommandBufferBeginInfo; typedef struct VkDeviceGroupSubmitInfo { VkStructureType sType; const void* pNext; uint32_t waitSemaphoreCount; const uint32_t* pWaitSemaphoreDeviceIndices; uint32_t commandBufferCount; const uint32_t* pCommandBufferDeviceMasks; uint32_t signalSemaphoreCount; const uint32_t* pSignalSemaphoreDeviceIndices; } VkDeviceGroupSubmitInfo; typedef struct VkDeviceGroupBindSparseInfo { VkStructureType sType; const void* pNext; uint32_t resourceDeviceIndex; uint32_t memoryDeviceIndex; } VkDeviceGroupBindSparseInfo; typedef struct VkBindBufferMemoryDeviceGroupInfo { VkStructureType sType; const void* pNext; uint32_t deviceIndexCount; const uint32_t* pDeviceIndices; } VkBindBufferMemoryDeviceGroupInfo; typedef struct VkBindImageMemoryDeviceGroupInfo { VkStructureType sType; const void* pNext; uint32_t deviceIndexCount; const uint32_t* pDeviceIndices; uint32_t splitInstanceBindRegionCount; const VkRect2D* pSplitInstanceBindRegions; } VkBindImageMemoryDeviceGroupInfo; typedef struct VkPhysicalDeviceGroupProperties { VkStructureType sType; void* pNext; uint32_t physicalDeviceCount; VkPhysicalDevice physicalDevices[VK_MAX_DEVICE_GROUP_SIZE]; VkBool32 subsetAllocation; } VkPhysicalDeviceGroupProperties; typedef struct VkDeviceGroupDeviceCreateInfo { VkStructureType sType; const void* pNext; uint32_t physicalDeviceCount; const VkPhysicalDevice* pPhysicalDevices; } VkDeviceGroupDeviceCreateInfo; typedef struct VkBufferMemoryRequirementsInfo2 { VkStructureType sType; const void* pNext; VkBuffer buffer; } VkBufferMemoryRequirementsInfo2; typedef struct VkImageMemoryRequirementsInfo2 { VkStructureType sType; const void* pNext; VkImage image; } VkImageMemoryRequirementsInfo2; typedef struct VkImageSparseMemoryRequirementsInfo2 { VkStructureType sType; const void* pNext; VkImage image; } VkImageSparseMemoryRequirementsInfo2; typedef struct VkMemoryRequirements2 { VkStructureType sType; void* pNext; VkMemoryRequirements memoryRequirements; } VkMemoryRequirements2; typedef struct VkSparseImageMemoryRequirements2 { VkStructureType sType; void* pNext; VkSparseImageMemoryRequirements memoryRequirements; } VkSparseImageMemoryRequirements2; typedef struct VkPhysicalDeviceFeatures2 { VkStructureType sType; void* pNext; VkPhysicalDeviceFeatures features; } VkPhysicalDeviceFeatures2; typedef struct VkPhysicalDeviceProperties2 { VkStructureType sType; void* pNext; VkPhysicalDeviceProperties properties; } VkPhysicalDeviceProperties2; typedef struct VkFormatProperties2 { VkStructureType sType; void* pNext; VkFormatProperties formatProperties; } VkFormatProperties2; typedef struct VkImageFormatProperties2 { VkStructureType sType; void* pNext; VkImageFormatProperties imageFormatProperties; } VkImageFormatProperties2; typedef struct VkPhysicalDeviceImageFormatInfo2 { VkStructureType sType; const void* pNext; VkFormat format; VkImageType type; VkImageTiling tiling; VkImageUsageFlags usage; VkImageCreateFlags flags; } VkPhysicalDeviceImageFormatInfo2; typedef struct VkQueueFamilyProperties2 { VkStructureType sType; void* pNext; VkQueueFamilyProperties queueFamilyProperties; } VkQueueFamilyProperties2; typedef struct VkPhysicalDeviceMemoryProperties2 { VkStructureType sType; void* pNext; VkPhysicalDeviceMemoryProperties memoryProperties; } VkPhysicalDeviceMemoryProperties2; typedef struct VkSparseImageFormatProperties2 { VkStructureType sType; void* pNext; VkSparseImageFormatProperties properties; } VkSparseImageFormatProperties2; typedef struct VkPhysicalDeviceSparseImageFormatInfo2 { VkStructureType sType; const void* pNext; VkFormat format; VkImageType type; VkSampleCountFlagBits samples; VkImageUsageFlags usage; VkImageTiling tiling; } VkPhysicalDeviceSparseImageFormatInfo2; typedef struct VkPhysicalDevicePointClippingProperties { VkStructureType sType; void* pNext; VkPointClippingBehavior pointClippingBehavior; } VkPhysicalDevicePointClippingProperties; typedef struct VkInputAttachmentAspectReference { uint32_t subpass; uint32_t inputAttachmentIndex; VkImageAspectFlags aspectMask; } VkInputAttachmentAspectReference; typedef struct VkRenderPassInputAttachmentAspectCreateInfo { VkStructureType sType; const void* pNext; uint32_t aspectReferenceCount; const VkInputAttachmentAspectReference* pAspectReferences; } VkRenderPassInputAttachmentAspectCreateInfo; typedef struct VkImageViewUsageCreateInfo { VkStructureType sType; const void* pNext; VkImageUsageFlags usage; } VkImageViewUsageCreateInfo; typedef struct VkPipelineTessellationDomainOriginStateCreateInfo { VkStructureType sType; const void* pNext; VkTessellationDomainOrigin domainOrigin; } VkPipelineTessellationDomainOriginStateCreateInfo; typedef struct VkRenderPassMultiviewCreateInfo { VkStructureType sType; const void* pNext; uint32_t subpassCount; const uint32_t* pViewMasks; uint32_t dependencyCount; const int32_t* pViewOffsets; uint32_t correlationMaskCount; const uint32_t* pCorrelationMasks; } VkRenderPassMultiviewCreateInfo; typedef struct VkPhysicalDeviceMultiviewFeatures { VkStructureType sType; void* pNext; VkBool32 multiview; VkBool32 multiviewGeometryShader; VkBool32 multiviewTessellationShader; } VkPhysicalDeviceMultiviewFeatures; typedef struct VkPhysicalDeviceMultiviewProperties { VkStructureType sType; void* pNext; uint32_t maxMultiviewViewCount; uint32_t maxMultiviewInstanceIndex; } VkPhysicalDeviceMultiviewProperties; typedef struct VkPhysicalDeviceVariablePointersFeatures { VkStructureType sType; void* pNext; VkBool32 variablePointersStorageBuffer; VkBool32 variablePointers; } VkPhysicalDeviceVariablePointersFeatures; typedef VkPhysicalDeviceVariablePointersFeatures VkPhysicalDeviceVariablePointerFeatures; typedef struct VkPhysicalDeviceProtectedMemoryFeatures { VkStructureType sType; void* pNext; VkBool32 protectedMemory; } VkPhysicalDeviceProtectedMemoryFeatures; typedef struct VkPhysicalDeviceProtectedMemoryProperties { VkStructureType sType; void* pNext; VkBool32 protectedNoFault; } VkPhysicalDeviceProtectedMemoryProperties; typedef struct VkDeviceQueueInfo2 { VkStructureType sType; const void* pNext; VkDeviceQueueCreateFlags flags; uint32_t queueFamilyIndex; uint32_t queueIndex; } VkDeviceQueueInfo2; typedef struct VkProtectedSubmitInfo { VkStructureType sType; const void* pNext; VkBool32 protectedSubmit; } VkProtectedSubmitInfo; typedef struct VkSamplerYcbcrConversionCreateInfo { VkStructureType sType; const void* pNext; VkFormat format; VkSamplerYcbcrModelConversion ycbcrModel; VkSamplerYcbcrRange ycbcrRange; VkComponentMapping components; VkChromaLocation xChromaOffset; VkChromaLocation yChromaOffset; VkFilter chromaFilter; VkBool32 forceExplicitReconstruction; } VkSamplerYcbcrConversionCreateInfo; typedef struct VkSamplerYcbcrConversionInfo { VkStructureType sType; const void* pNext; VkSamplerYcbcrConversion conversion; } VkSamplerYcbcrConversionInfo; typedef struct VkBindImagePlaneMemoryInfo { VkStructureType sType; const void* pNext; VkImageAspectFlagBits planeAspect; } VkBindImagePlaneMemoryInfo; typedef struct VkImagePlaneMemoryRequirementsInfo { VkStructureType sType; const void* pNext; VkImageAspectFlagBits planeAspect; } VkImagePlaneMemoryRequirementsInfo; typedef struct VkPhysicalDeviceSamplerYcbcrConversionFeatures { VkStructureType sType; void* pNext; VkBool32 samplerYcbcrConversion; } VkPhysicalDeviceSamplerYcbcrConversionFeatures; typedef struct VkSamplerYcbcrConversionImageFormatProperties { VkStructureType sType; void* pNext; uint32_t combinedImageSamplerDescriptorCount; } VkSamplerYcbcrConversionImageFormatProperties; typedef struct VkDescriptorUpdateTemplateEntry { uint32_t dstBinding; uint32_t dstArrayElement; uint32_t descriptorCount; VkDescriptorType descriptorType; size_t offset; size_t stride; } VkDescriptorUpdateTemplateEntry; typedef struct VkDescriptorUpdateTemplateCreateInfo { VkStructureType sType; const void* pNext; VkDescriptorUpdateTemplateCreateFlags flags; uint32_t descriptorUpdateEntryCount; const VkDescriptorUpdateTemplateEntry* pDescriptorUpdateEntries; VkDescriptorUpdateTemplateType templateType; VkDescriptorSetLayout descriptorSetLayout; VkPipelineBindPoint pipelineBindPoint; VkPipelineLayout pipelineLayout; uint32_t set; } VkDescriptorUpdateTemplateCreateInfo; typedef struct VkExternalMemoryProperties { VkExternalMemoryFeatureFlags externalMemoryFeatures; VkExternalMemoryHandleTypeFlags exportFromImportedHandleTypes; VkExternalMemoryHandleTypeFlags compatibleHandleTypes; } VkExternalMemoryProperties; typedef struct VkPhysicalDeviceExternalImageFormatInfo { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlagBits handleType; } VkPhysicalDeviceExternalImageFormatInfo; typedef struct VkExternalImageFormatProperties { VkStructureType sType; void* pNext; VkExternalMemoryProperties externalMemoryProperties; } VkExternalImageFormatProperties; typedef struct VkPhysicalDeviceExternalBufferInfo { VkStructureType sType; const void* pNext; VkBufferCreateFlags flags; VkBufferUsageFlags usage; VkExternalMemoryHandleTypeFlagBits handleType; } VkPhysicalDeviceExternalBufferInfo; typedef struct VkExternalBufferProperties { VkStructureType sType; void* pNext; VkExternalMemoryProperties externalMemoryProperties; } VkExternalBufferProperties; typedef struct VkPhysicalDeviceIDProperties { VkStructureType sType; void* pNext; uint8_t deviceUUID[VK_UUID_SIZE]; uint8_t driverUUID[VK_UUID_SIZE]; uint8_t deviceLUID[VK_LUID_SIZE]; uint32_t deviceNodeMask; VkBool32 deviceLUIDValid; } VkPhysicalDeviceIDProperties; typedef struct VkExternalMemoryImageCreateInfo { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlags handleTypes; } VkExternalMemoryImageCreateInfo; typedef struct VkExternalMemoryBufferCreateInfo { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlags handleTypes; } VkExternalMemoryBufferCreateInfo; typedef struct VkExportMemoryAllocateInfo { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlags handleTypes; } VkExportMemoryAllocateInfo; typedef struct VkPhysicalDeviceExternalFenceInfo { VkStructureType sType; const void* pNext; VkExternalFenceHandleTypeFlagBits handleType; } VkPhysicalDeviceExternalFenceInfo; typedef struct VkExternalFenceProperties { VkStructureType sType; void* pNext; VkExternalFenceHandleTypeFlags exportFromImportedHandleTypes; VkExternalFenceHandleTypeFlags compatibleHandleTypes; VkExternalFenceFeatureFlags externalFenceFeatures; } VkExternalFenceProperties; typedef struct VkExportFenceCreateInfo { VkStructureType sType; const void* pNext; VkExternalFenceHandleTypeFlags handleTypes; } VkExportFenceCreateInfo; typedef struct VkExportSemaphoreCreateInfo { VkStructureType sType; const void* pNext; VkExternalSemaphoreHandleTypeFlags handleTypes; } VkExportSemaphoreCreateInfo; typedef struct VkPhysicalDeviceExternalSemaphoreInfo { VkStructureType sType; const void* pNext; VkExternalSemaphoreHandleTypeFlagBits handleType; } VkPhysicalDeviceExternalSemaphoreInfo; typedef struct VkExternalSemaphoreProperties { VkStructureType sType; void* pNext; VkExternalSemaphoreHandleTypeFlags exportFromImportedHandleTypes; VkExternalSemaphoreHandleTypeFlags compatibleHandleTypes; VkExternalSemaphoreFeatureFlags externalSemaphoreFeatures; } VkExternalSemaphoreProperties; typedef struct VkPhysicalDeviceMaintenance3Properties { VkStructureType sType; void* pNext; uint32_t maxPerSetDescriptors; VkDeviceSize maxMemoryAllocationSize; } VkPhysicalDeviceMaintenance3Properties; typedef struct VkDescriptorSetLayoutSupport { VkStructureType sType; void* pNext; VkBool32 supported; } VkDescriptorSetLayoutSupport; typedef struct VkPhysicalDeviceShaderDrawParametersFeatures { VkStructureType sType; void* pNext; VkBool32 shaderDrawParameters; } VkPhysicalDeviceShaderDrawParametersFeatures; typedef VkPhysicalDeviceShaderDrawParametersFeatures VkPhysicalDeviceShaderDrawParameterFeatures; typedef VkResult (VKAPI_PTR *PFN_vkEnumerateInstanceVersion)(uint32_t* pApiVersion); typedef VkResult (VKAPI_PTR *PFN_vkBindBufferMemory2)(VkDevice device, uint32_t bindInfoCount, const VkBindBufferMemoryInfo* pBindInfos); typedef VkResult (VKAPI_PTR *PFN_vkBindImageMemory2)(VkDevice device, uint32_t bindInfoCount, const VkBindImageMemoryInfo* pBindInfos); typedef void (VKAPI_PTR *PFN_vkGetDeviceGroupPeerMemoryFeatures)(VkDevice device, uint32_t heapIndex, uint32_t localDeviceIndex, uint32_t remoteDeviceIndex, VkPeerMemoryFeatureFlags* pPeerMemoryFeatures); typedef void (VKAPI_PTR *PFN_vkCmdSetDeviceMask)(VkCommandBuffer commandBuffer, uint32_t deviceMask); typedef void (VKAPI_PTR *PFN_vkCmdDispatchBase)(VkCommandBuffer commandBuffer, uint32_t baseGroupX, uint32_t baseGroupY, uint32_t baseGroupZ, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); typedef VkResult (VKAPI_PTR *PFN_vkEnumeratePhysicalDeviceGroups)(VkInstance instance, uint32_t* pPhysicalDeviceGroupCount, VkPhysicalDeviceGroupProperties* pPhysicalDeviceGroupProperties); typedef void (VKAPI_PTR *PFN_vkGetImageMemoryRequirements2)(VkDevice device, const VkImageMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetBufferMemoryRequirements2)(VkDevice device, const VkBufferMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetImageSparseMemoryRequirements2)(VkDevice device, const VkImageSparseMemoryRequirementsInfo2* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceFeatures2)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures2* pFeatures); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceProperties2)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties2* pProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceFormatProperties2)(VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties2* pFormatProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceImageFormatProperties2)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceImageFormatInfo2* pImageFormatInfo, VkImageFormatProperties2* pImageFormatProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceQueueFamilyProperties2)(VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties2* pQueueFamilyProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceMemoryProperties2)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties2* pMemoryProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceSparseImageFormatProperties2)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSparseImageFormatInfo2* pFormatInfo, uint32_t* pPropertyCount, VkSparseImageFormatProperties2* pProperties); typedef void (VKAPI_PTR *PFN_vkTrimCommandPool)(VkDevice device, VkCommandPool commandPool, VkCommandPoolTrimFlags flags); typedef void (VKAPI_PTR *PFN_vkGetDeviceQueue2)(VkDevice device, const VkDeviceQueueInfo2* pQueueInfo, VkQueue* pQueue); typedef VkResult (VKAPI_PTR *PFN_vkCreateSamplerYcbcrConversion)(VkDevice device, const VkSamplerYcbcrConversionCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSamplerYcbcrConversion* pYcbcrConversion); typedef void (VKAPI_PTR *PFN_vkDestroySamplerYcbcrConversion)(VkDevice device, VkSamplerYcbcrConversion ycbcrConversion, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkCreateDescriptorUpdateTemplate)(VkDevice device, const VkDescriptorUpdateTemplateCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorUpdateTemplate* pDescriptorUpdateTemplate); typedef void (VKAPI_PTR *PFN_vkDestroyDescriptorUpdateTemplate)(VkDevice device, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkUpdateDescriptorSetWithTemplate)(VkDevice device, VkDescriptorSet descriptorSet, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const void* pData); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalBufferProperties)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalBufferInfo* pExternalBufferInfo, VkExternalBufferProperties* pExternalBufferProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalFenceProperties)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalFenceInfo* pExternalFenceInfo, VkExternalFenceProperties* pExternalFenceProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalSemaphoreProperties)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalSemaphoreInfo* pExternalSemaphoreInfo, VkExternalSemaphoreProperties* pExternalSemaphoreProperties); typedef void (VKAPI_PTR *PFN_vkGetDescriptorSetLayoutSupport)(VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, VkDescriptorSetLayoutSupport* pSupport); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceVersion( uint32_t* pApiVersion); VKAPI_ATTR VkResult VKAPI_CALL vkBindBufferMemory2( VkDevice device, uint32_t bindInfoCount, const VkBindBufferMemoryInfo* pBindInfos); VKAPI_ATTR VkResult VKAPI_CALL vkBindImageMemory2( VkDevice device, uint32_t bindInfoCount, const VkBindImageMemoryInfo* pBindInfos); VKAPI_ATTR void VKAPI_CALL vkGetDeviceGroupPeerMemoryFeatures( VkDevice device, uint32_t heapIndex, uint32_t localDeviceIndex, uint32_t remoteDeviceIndex, VkPeerMemoryFeatureFlags* pPeerMemoryFeatures); VKAPI_ATTR void VKAPI_CALL vkCmdSetDeviceMask( VkCommandBuffer commandBuffer, uint32_t deviceMask); VKAPI_ATTR void VKAPI_CALL vkCmdDispatchBase( VkCommandBuffer commandBuffer, uint32_t baseGroupX, uint32_t baseGroupY, uint32_t baseGroupZ, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); VKAPI_ATTR VkResult VKAPI_CALL vkEnumeratePhysicalDeviceGroups( VkInstance instance, uint32_t* pPhysicalDeviceGroupCount, VkPhysicalDeviceGroupProperties* pPhysicalDeviceGroupProperties); VKAPI_ATTR void VKAPI_CALL vkGetImageMemoryRequirements2( VkDevice device, const VkImageMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetBufferMemoryRequirements2( VkDevice device, const VkBufferMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetImageSparseMemoryRequirements2( VkDevice device, const VkImageSparseMemoryRequirementsInfo2* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceFeatures2( VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures2* pFeatures); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceProperties2( VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties2* pProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceFormatProperties2( VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties2* pFormatProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceImageFormatProperties2( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceImageFormatInfo2* pImageFormatInfo, VkImageFormatProperties2* pImageFormatProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceQueueFamilyProperties2( VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties2* pQueueFamilyProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceMemoryProperties2( VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties2* pMemoryProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceSparseImageFormatProperties2( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSparseImageFormatInfo2* pFormatInfo, uint32_t* pPropertyCount, VkSparseImageFormatProperties2* pProperties); VKAPI_ATTR void VKAPI_CALL vkTrimCommandPool( VkDevice device, VkCommandPool commandPool, VkCommandPoolTrimFlags flags); VKAPI_ATTR void VKAPI_CALL vkGetDeviceQueue2( VkDevice device, const VkDeviceQueueInfo2* pQueueInfo, VkQueue* pQueue); VKAPI_ATTR VkResult VKAPI_CALL vkCreateSamplerYcbcrConversion( VkDevice device, const VkSamplerYcbcrConversionCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSamplerYcbcrConversion* pYcbcrConversion); VKAPI_ATTR void VKAPI_CALL vkDestroySamplerYcbcrConversion( VkDevice device, VkSamplerYcbcrConversion ycbcrConversion, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDescriptorUpdateTemplate( VkDevice device, const VkDescriptorUpdateTemplateCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorUpdateTemplate* pDescriptorUpdateTemplate); VKAPI_ATTR void VKAPI_CALL vkDestroyDescriptorUpdateTemplate( VkDevice device, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkUpdateDescriptorSetWithTemplate( VkDevice device, VkDescriptorSet descriptorSet, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const void* pData); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceExternalBufferProperties( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalBufferInfo* pExternalBufferInfo, VkExternalBufferProperties* pExternalBufferProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceExternalFenceProperties( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalFenceInfo* pExternalFenceInfo, VkExternalFenceProperties* pExternalFenceProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceExternalSemaphoreProperties( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalSemaphoreInfo* pExternalSemaphoreInfo, VkExternalSemaphoreProperties* pExternalSemaphoreProperties); VKAPI_ATTR void VKAPI_CALL vkGetDescriptorSetLayoutSupport( VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, VkDescriptorSetLayoutSupport* pSupport); #endif #define VK_VERSION_1_2 1 // Vulkan 1.2 version number #define VK_API_VERSION_1_2 VK_MAKE_API_VERSION(0, 1, 2, 0)// Patch version should always be set to 0 #define VK_MAX_DRIVER_NAME_SIZE 256U #define VK_MAX_DRIVER_INFO_SIZE 256U typedef enum VkDriverId { VK_DRIVER_ID_AMD_PROPRIETARY = 1, VK_DRIVER_ID_AMD_OPEN_SOURCE = 2, VK_DRIVER_ID_MESA_RADV = 3, VK_DRIVER_ID_NVIDIA_PROPRIETARY = 4, VK_DRIVER_ID_INTEL_PROPRIETARY_WINDOWS = 5, VK_DRIVER_ID_INTEL_OPEN_SOURCE_MESA = 6, VK_DRIVER_ID_IMAGINATION_PROPRIETARY = 7, VK_DRIVER_ID_QUALCOMM_PROPRIETARY = 8, VK_DRIVER_ID_ARM_PROPRIETARY = 9, VK_DRIVER_ID_GOOGLE_SWIFTSHADER = 10, VK_DRIVER_ID_GGP_PROPRIETARY = 11, VK_DRIVER_ID_BROADCOM_PROPRIETARY = 12, VK_DRIVER_ID_MESA_LLVMPIPE = 13, VK_DRIVER_ID_MOLTENVK = 14, VK_DRIVER_ID_COREAVI_PROPRIETARY = 15, VK_DRIVER_ID_JUICE_PROPRIETARY = 16, VK_DRIVER_ID_VERISILICON_PROPRIETARY = 17, VK_DRIVER_ID_MESA_TURNIP = 18, VK_DRIVER_ID_MESA_V3DV = 19, VK_DRIVER_ID_MESA_PANVK = 20, VK_DRIVER_ID_SAMSUNG_PROPRIETARY = 21, VK_DRIVER_ID_MESA_VENUS = 22, VK_DRIVER_ID_MESA_DOZEN = 23, VK_DRIVER_ID_AMD_PROPRIETARY_KHR = VK_DRIVER_ID_AMD_PROPRIETARY, VK_DRIVER_ID_AMD_OPEN_SOURCE_KHR = VK_DRIVER_ID_AMD_OPEN_SOURCE, VK_DRIVER_ID_MESA_RADV_KHR = VK_DRIVER_ID_MESA_RADV, VK_DRIVER_ID_NVIDIA_PROPRIETARY_KHR = VK_DRIVER_ID_NVIDIA_PROPRIETARY, VK_DRIVER_ID_INTEL_PROPRIETARY_WINDOWS_KHR = VK_DRIVER_ID_INTEL_PROPRIETARY_WINDOWS, VK_DRIVER_ID_INTEL_OPEN_SOURCE_MESA_KHR = VK_DRIVER_ID_INTEL_OPEN_SOURCE_MESA, VK_DRIVER_ID_IMAGINATION_PROPRIETARY_KHR = VK_DRIVER_ID_IMAGINATION_PROPRIETARY, VK_DRIVER_ID_QUALCOMM_PROPRIETARY_KHR = VK_DRIVER_ID_QUALCOMM_PROPRIETARY, VK_DRIVER_ID_ARM_PROPRIETARY_KHR = VK_DRIVER_ID_ARM_PROPRIETARY, VK_DRIVER_ID_GOOGLE_SWIFTSHADER_KHR = VK_DRIVER_ID_GOOGLE_SWIFTSHADER, VK_DRIVER_ID_GGP_PROPRIETARY_KHR = VK_DRIVER_ID_GGP_PROPRIETARY, VK_DRIVER_ID_BROADCOM_PROPRIETARY_KHR = VK_DRIVER_ID_BROADCOM_PROPRIETARY, VK_DRIVER_ID_MAX_ENUM = 0x7FFFFFFF } VkDriverId; typedef enum VkShaderFloatControlsIndependence { VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_32_BIT_ONLY = 0, VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_ALL = 1, VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_NONE = 2, VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_32_BIT_ONLY_KHR = VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_32_BIT_ONLY, VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_ALL_KHR = VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_ALL, VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_NONE_KHR = VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_NONE, VK_SHADER_FLOAT_CONTROLS_INDEPENDENCE_MAX_ENUM = 0x7FFFFFFF } VkShaderFloatControlsIndependence; typedef enum VkSamplerReductionMode { VK_SAMPLER_REDUCTION_MODE_WEIGHTED_AVERAGE = 0, VK_SAMPLER_REDUCTION_MODE_MIN = 1, VK_SAMPLER_REDUCTION_MODE_MAX = 2, VK_SAMPLER_REDUCTION_MODE_WEIGHTED_AVERAGE_EXT = VK_SAMPLER_REDUCTION_MODE_WEIGHTED_AVERAGE, VK_SAMPLER_REDUCTION_MODE_MIN_EXT = VK_SAMPLER_REDUCTION_MODE_MIN, VK_SAMPLER_REDUCTION_MODE_MAX_EXT = VK_SAMPLER_REDUCTION_MODE_MAX, VK_SAMPLER_REDUCTION_MODE_MAX_ENUM = 0x7FFFFFFF } VkSamplerReductionMode; typedef enum VkSemaphoreType { VK_SEMAPHORE_TYPE_BINARY = 0, VK_SEMAPHORE_TYPE_TIMELINE = 1, VK_SEMAPHORE_TYPE_BINARY_KHR = VK_SEMAPHORE_TYPE_BINARY, VK_SEMAPHORE_TYPE_TIMELINE_KHR = VK_SEMAPHORE_TYPE_TIMELINE, VK_SEMAPHORE_TYPE_MAX_ENUM = 0x7FFFFFFF } VkSemaphoreType; typedef enum VkResolveModeFlagBits { VK_RESOLVE_MODE_NONE = 0, VK_RESOLVE_MODE_SAMPLE_ZERO_BIT = 0x00000001, VK_RESOLVE_MODE_AVERAGE_BIT = 0x00000002, VK_RESOLVE_MODE_MIN_BIT = 0x00000004, VK_RESOLVE_MODE_MAX_BIT = 0x00000008, VK_RESOLVE_MODE_NONE_KHR = VK_RESOLVE_MODE_NONE, VK_RESOLVE_MODE_SAMPLE_ZERO_BIT_KHR = VK_RESOLVE_MODE_SAMPLE_ZERO_BIT, VK_RESOLVE_MODE_AVERAGE_BIT_KHR = VK_RESOLVE_MODE_AVERAGE_BIT, VK_RESOLVE_MODE_MIN_BIT_KHR = VK_RESOLVE_MODE_MIN_BIT, VK_RESOLVE_MODE_MAX_BIT_KHR = VK_RESOLVE_MODE_MAX_BIT, VK_RESOLVE_MODE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkResolveModeFlagBits; typedef VkFlags VkResolveModeFlags; typedef enum VkDescriptorBindingFlagBits { VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT = 0x00000001, VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT = 0x00000002, VK_DESCRIPTOR_BINDING_PARTIALLY_BOUND_BIT = 0x00000004, VK_DESCRIPTOR_BINDING_VARIABLE_DESCRIPTOR_COUNT_BIT = 0x00000008, VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT_EXT = VK_DESCRIPTOR_BINDING_UPDATE_AFTER_BIND_BIT, VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT_EXT = VK_DESCRIPTOR_BINDING_UPDATE_UNUSED_WHILE_PENDING_BIT, VK_DESCRIPTOR_BINDING_PARTIALLY_BOUND_BIT_EXT = VK_DESCRIPTOR_BINDING_PARTIALLY_BOUND_BIT, VK_DESCRIPTOR_BINDING_VARIABLE_DESCRIPTOR_COUNT_BIT_EXT = VK_DESCRIPTOR_BINDING_VARIABLE_DESCRIPTOR_COUNT_BIT, VK_DESCRIPTOR_BINDING_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkDescriptorBindingFlagBits; typedef VkFlags VkDescriptorBindingFlags; typedef enum VkSemaphoreWaitFlagBits { VK_SEMAPHORE_WAIT_ANY_BIT = 0x00000001, VK_SEMAPHORE_WAIT_ANY_BIT_KHR = VK_SEMAPHORE_WAIT_ANY_BIT, VK_SEMAPHORE_WAIT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSemaphoreWaitFlagBits; typedef VkFlags VkSemaphoreWaitFlags; typedef struct VkPhysicalDeviceVulkan11Features { VkStructureType sType; void* pNext; VkBool32 storageBuffer16BitAccess; VkBool32 uniformAndStorageBuffer16BitAccess; VkBool32 storagePushConstant16; VkBool32 storageInputOutput16; VkBool32 multiview; VkBool32 multiviewGeometryShader; VkBool32 multiviewTessellationShader; VkBool32 variablePointersStorageBuffer; VkBool32 variablePointers; VkBool32 protectedMemory; VkBool32 samplerYcbcrConversion; VkBool32 shaderDrawParameters; } VkPhysicalDeviceVulkan11Features; typedef struct VkPhysicalDeviceVulkan11Properties { VkStructureType sType; void* pNext; uint8_t deviceUUID[VK_UUID_SIZE]; uint8_t driverUUID[VK_UUID_SIZE]; uint8_t deviceLUID[VK_LUID_SIZE]; uint32_t deviceNodeMask; VkBool32 deviceLUIDValid; uint32_t subgroupSize; VkShaderStageFlags subgroupSupportedStages; VkSubgroupFeatureFlags subgroupSupportedOperations; VkBool32 subgroupQuadOperationsInAllStages; VkPointClippingBehavior pointClippingBehavior; uint32_t maxMultiviewViewCount; uint32_t maxMultiviewInstanceIndex; VkBool32 protectedNoFault; uint32_t maxPerSetDescriptors; VkDeviceSize maxMemoryAllocationSize; } VkPhysicalDeviceVulkan11Properties; typedef struct VkPhysicalDeviceVulkan12Features { VkStructureType sType; void* pNext; VkBool32 samplerMirrorClampToEdge; VkBool32 drawIndirectCount; VkBool32 storageBuffer8BitAccess; VkBool32 uniformAndStorageBuffer8BitAccess; VkBool32 storagePushConstant8; VkBool32 shaderBufferInt64Atomics; VkBool32 shaderSharedInt64Atomics; VkBool32 shaderFloat16; VkBool32 shaderInt8; VkBool32 descriptorIndexing; VkBool32 shaderInputAttachmentArrayDynamicIndexing; VkBool32 shaderUniformTexelBufferArrayDynamicIndexing; VkBool32 shaderStorageTexelBufferArrayDynamicIndexing; VkBool32 shaderUniformBufferArrayNonUniformIndexing; VkBool32 shaderSampledImageArrayNonUniformIndexing; VkBool32 shaderStorageBufferArrayNonUniformIndexing; VkBool32 shaderStorageImageArrayNonUniformIndexing; VkBool32 shaderInputAttachmentArrayNonUniformIndexing; VkBool32 shaderUniformTexelBufferArrayNonUniformIndexing; VkBool32 shaderStorageTexelBufferArrayNonUniformIndexing; VkBool32 descriptorBindingUniformBufferUpdateAfterBind; VkBool32 descriptorBindingSampledImageUpdateAfterBind; VkBool32 descriptorBindingStorageImageUpdateAfterBind; VkBool32 descriptorBindingStorageBufferUpdateAfterBind; VkBool32 descriptorBindingUniformTexelBufferUpdateAfterBind; VkBool32 descriptorBindingStorageTexelBufferUpdateAfterBind; VkBool32 descriptorBindingUpdateUnusedWhilePending; VkBool32 descriptorBindingPartiallyBound; VkBool32 descriptorBindingVariableDescriptorCount; VkBool32 runtimeDescriptorArray; VkBool32 samplerFilterMinmax; VkBool32 scalarBlockLayout; VkBool32 imagelessFramebuffer; VkBool32 uniformBufferStandardLayout; VkBool32 shaderSubgroupExtendedTypes; VkBool32 separateDepthStencilLayouts; VkBool32 hostQueryReset; VkBool32 timelineSemaphore; VkBool32 bufferDeviceAddress; VkBool32 bufferDeviceAddressCaptureReplay; VkBool32 bufferDeviceAddressMultiDevice; VkBool32 vulkanMemoryModel; VkBool32 vulkanMemoryModelDeviceScope; VkBool32 vulkanMemoryModelAvailabilityVisibilityChains; VkBool32 shaderOutputViewportIndex; VkBool32 shaderOutputLayer; VkBool32 subgroupBroadcastDynamicId; } VkPhysicalDeviceVulkan12Features; typedef struct VkConformanceVersion { uint8_t major; uint8_t minor; uint8_t subminor; uint8_t patch; } VkConformanceVersion; typedef struct VkPhysicalDeviceVulkan12Properties { VkStructureType sType; void* pNext; VkDriverId driverID; char driverName[VK_MAX_DRIVER_NAME_SIZE]; char driverInfo[VK_MAX_DRIVER_INFO_SIZE]; VkConformanceVersion conformanceVersion; VkShaderFloatControlsIndependence denormBehaviorIndependence; VkShaderFloatControlsIndependence roundingModeIndependence; VkBool32 shaderSignedZeroInfNanPreserveFloat16; VkBool32 shaderSignedZeroInfNanPreserveFloat32; VkBool32 shaderSignedZeroInfNanPreserveFloat64; VkBool32 shaderDenormPreserveFloat16; VkBool32 shaderDenormPreserveFloat32; VkBool32 shaderDenormPreserveFloat64; VkBool32 shaderDenormFlushToZeroFloat16; VkBool32 shaderDenormFlushToZeroFloat32; VkBool32 shaderDenormFlushToZeroFloat64; VkBool32 shaderRoundingModeRTEFloat16; VkBool32 shaderRoundingModeRTEFloat32; VkBool32 shaderRoundingModeRTEFloat64; VkBool32 shaderRoundingModeRTZFloat16; VkBool32 shaderRoundingModeRTZFloat32; VkBool32 shaderRoundingModeRTZFloat64; uint32_t maxUpdateAfterBindDescriptorsInAllPools; VkBool32 shaderUniformBufferArrayNonUniformIndexingNative; VkBool32 shaderSampledImageArrayNonUniformIndexingNative; VkBool32 shaderStorageBufferArrayNonUniformIndexingNative; VkBool32 shaderStorageImageArrayNonUniformIndexingNative; VkBool32 shaderInputAttachmentArrayNonUniformIndexingNative; VkBool32 robustBufferAccessUpdateAfterBind; VkBool32 quadDivergentImplicitLod; uint32_t maxPerStageDescriptorUpdateAfterBindSamplers; uint32_t maxPerStageDescriptorUpdateAfterBindUniformBuffers; uint32_t maxPerStageDescriptorUpdateAfterBindStorageBuffers; uint32_t maxPerStageDescriptorUpdateAfterBindSampledImages; uint32_t maxPerStageDescriptorUpdateAfterBindStorageImages; uint32_t maxPerStageDescriptorUpdateAfterBindInputAttachments; uint32_t maxPerStageUpdateAfterBindResources; uint32_t maxDescriptorSetUpdateAfterBindSamplers; uint32_t maxDescriptorSetUpdateAfterBindUniformBuffers; uint32_t maxDescriptorSetUpdateAfterBindUniformBuffersDynamic; uint32_t maxDescriptorSetUpdateAfterBindStorageBuffers; uint32_t maxDescriptorSetUpdateAfterBindStorageBuffersDynamic; uint32_t maxDescriptorSetUpdateAfterBindSampledImages; uint32_t maxDescriptorSetUpdateAfterBindStorageImages; uint32_t maxDescriptorSetUpdateAfterBindInputAttachments; VkResolveModeFlags supportedDepthResolveModes; VkResolveModeFlags supportedStencilResolveModes; VkBool32 independentResolveNone; VkBool32 independentResolve; VkBool32 filterMinmaxSingleComponentFormats; VkBool32 filterMinmaxImageComponentMapping; uint64_t maxTimelineSemaphoreValueDifference; VkSampleCountFlags framebufferIntegerColorSampleCounts; } VkPhysicalDeviceVulkan12Properties; typedef struct VkImageFormatListCreateInfo { VkStructureType sType; const void* pNext; uint32_t viewFormatCount; const VkFormat* pViewFormats; } VkImageFormatListCreateInfo; typedef struct VkAttachmentDescription2 { VkStructureType sType; const void* pNext; VkAttachmentDescriptionFlags flags; VkFormat format; VkSampleCountFlagBits samples; VkAttachmentLoadOp loadOp; VkAttachmentStoreOp storeOp; VkAttachmentLoadOp stencilLoadOp; VkAttachmentStoreOp stencilStoreOp; VkImageLayout initialLayout; VkImageLayout finalLayout; } VkAttachmentDescription2; typedef struct VkAttachmentReference2 { VkStructureType sType; const void* pNext; uint32_t attachment; VkImageLayout layout; VkImageAspectFlags aspectMask; } VkAttachmentReference2; typedef struct VkSubpassDescription2 { VkStructureType sType; const void* pNext; VkSubpassDescriptionFlags flags; VkPipelineBindPoint pipelineBindPoint; uint32_t viewMask; uint32_t inputAttachmentCount; const VkAttachmentReference2* pInputAttachments; uint32_t colorAttachmentCount; const VkAttachmentReference2* pColorAttachments; const VkAttachmentReference2* pResolveAttachments; const VkAttachmentReference2* pDepthStencilAttachment; uint32_t preserveAttachmentCount; const uint32_t* pPreserveAttachments; } VkSubpassDescription2; typedef struct VkSubpassDependency2 { VkStructureType sType; const void* pNext; uint32_t srcSubpass; uint32_t dstSubpass; VkPipelineStageFlags srcStageMask; VkPipelineStageFlags dstStageMask; VkAccessFlags srcAccessMask; VkAccessFlags dstAccessMask; VkDependencyFlags dependencyFlags; int32_t viewOffset; } VkSubpassDependency2; typedef struct VkRenderPassCreateInfo2 { VkStructureType sType; const void* pNext; VkRenderPassCreateFlags flags; uint32_t attachmentCount; const VkAttachmentDescription2* pAttachments; uint32_t subpassCount; const VkSubpassDescription2* pSubpasses; uint32_t dependencyCount; const VkSubpassDependency2* pDependencies; uint32_t correlatedViewMaskCount; const uint32_t* pCorrelatedViewMasks; } VkRenderPassCreateInfo2; typedef struct VkSubpassBeginInfo { VkStructureType sType; const void* pNext; VkSubpassContents contents; } VkSubpassBeginInfo; typedef struct VkSubpassEndInfo { VkStructureType sType; const void* pNext; } VkSubpassEndInfo; typedef struct VkPhysicalDevice8BitStorageFeatures { VkStructureType sType; void* pNext; VkBool32 storageBuffer8BitAccess; VkBool32 uniformAndStorageBuffer8BitAccess; VkBool32 storagePushConstant8; } VkPhysicalDevice8BitStorageFeatures; typedef struct VkPhysicalDeviceDriverProperties { VkStructureType sType; void* pNext; VkDriverId driverID; char driverName[VK_MAX_DRIVER_NAME_SIZE]; char driverInfo[VK_MAX_DRIVER_INFO_SIZE]; VkConformanceVersion conformanceVersion; } VkPhysicalDeviceDriverProperties; typedef struct VkPhysicalDeviceShaderAtomicInt64Features { VkStructureType sType; void* pNext; VkBool32 shaderBufferInt64Atomics; VkBool32 shaderSharedInt64Atomics; } VkPhysicalDeviceShaderAtomicInt64Features; typedef struct VkPhysicalDeviceShaderFloat16Int8Features { VkStructureType sType; void* pNext; VkBool32 shaderFloat16; VkBool32 shaderInt8; } VkPhysicalDeviceShaderFloat16Int8Features; typedef struct VkPhysicalDeviceFloatControlsProperties { VkStructureType sType; void* pNext; VkShaderFloatControlsIndependence denormBehaviorIndependence; VkShaderFloatControlsIndependence roundingModeIndependence; VkBool32 shaderSignedZeroInfNanPreserveFloat16; VkBool32 shaderSignedZeroInfNanPreserveFloat32; VkBool32 shaderSignedZeroInfNanPreserveFloat64; VkBool32 shaderDenormPreserveFloat16; VkBool32 shaderDenormPreserveFloat32; VkBool32 shaderDenormPreserveFloat64; VkBool32 shaderDenormFlushToZeroFloat16; VkBool32 shaderDenormFlushToZeroFloat32; VkBool32 shaderDenormFlushToZeroFloat64; VkBool32 shaderRoundingModeRTEFloat16; VkBool32 shaderRoundingModeRTEFloat32; VkBool32 shaderRoundingModeRTEFloat64; VkBool32 shaderRoundingModeRTZFloat16; VkBool32 shaderRoundingModeRTZFloat32; VkBool32 shaderRoundingModeRTZFloat64; } VkPhysicalDeviceFloatControlsProperties; typedef struct VkDescriptorSetLayoutBindingFlagsCreateInfo { VkStructureType sType; const void* pNext; uint32_t bindingCount; const VkDescriptorBindingFlags* pBindingFlags; } VkDescriptorSetLayoutBindingFlagsCreateInfo; typedef struct VkPhysicalDeviceDescriptorIndexingFeatures { VkStructureType sType; void* pNext; VkBool32 shaderInputAttachmentArrayDynamicIndexing; VkBool32 shaderUniformTexelBufferArrayDynamicIndexing; VkBool32 shaderStorageTexelBufferArrayDynamicIndexing; VkBool32 shaderUniformBufferArrayNonUniformIndexing; VkBool32 shaderSampledImageArrayNonUniformIndexing; VkBool32 shaderStorageBufferArrayNonUniformIndexing; VkBool32 shaderStorageImageArrayNonUniformIndexing; VkBool32 shaderInputAttachmentArrayNonUniformIndexing; VkBool32 shaderUniformTexelBufferArrayNonUniformIndexing; VkBool32 shaderStorageTexelBufferArrayNonUniformIndexing; VkBool32 descriptorBindingUniformBufferUpdateAfterBind; VkBool32 descriptorBindingSampledImageUpdateAfterBind; VkBool32 descriptorBindingStorageImageUpdateAfterBind; VkBool32 descriptorBindingStorageBufferUpdateAfterBind; VkBool32 descriptorBindingUniformTexelBufferUpdateAfterBind; VkBool32 descriptorBindingStorageTexelBufferUpdateAfterBind; VkBool32 descriptorBindingUpdateUnusedWhilePending; VkBool32 descriptorBindingPartiallyBound; VkBool32 descriptorBindingVariableDescriptorCount; VkBool32 runtimeDescriptorArray; } VkPhysicalDeviceDescriptorIndexingFeatures; typedef struct VkPhysicalDeviceDescriptorIndexingProperties { VkStructureType sType; void* pNext; uint32_t maxUpdateAfterBindDescriptorsInAllPools; VkBool32 shaderUniformBufferArrayNonUniformIndexingNative; VkBool32 shaderSampledImageArrayNonUniformIndexingNative; VkBool32 shaderStorageBufferArrayNonUniformIndexingNative; VkBool32 shaderStorageImageArrayNonUniformIndexingNative; VkBool32 shaderInputAttachmentArrayNonUniformIndexingNative; VkBool32 robustBufferAccessUpdateAfterBind; VkBool32 quadDivergentImplicitLod; uint32_t maxPerStageDescriptorUpdateAfterBindSamplers; uint32_t maxPerStageDescriptorUpdateAfterBindUniformBuffers; uint32_t maxPerStageDescriptorUpdateAfterBindStorageBuffers; uint32_t maxPerStageDescriptorUpdateAfterBindSampledImages; uint32_t maxPerStageDescriptorUpdateAfterBindStorageImages; uint32_t maxPerStageDescriptorUpdateAfterBindInputAttachments; uint32_t maxPerStageUpdateAfterBindResources; uint32_t maxDescriptorSetUpdateAfterBindSamplers; uint32_t maxDescriptorSetUpdateAfterBindUniformBuffers; uint32_t maxDescriptorSetUpdateAfterBindUniformBuffersDynamic; uint32_t maxDescriptorSetUpdateAfterBindStorageBuffers; uint32_t maxDescriptorSetUpdateAfterBindStorageBuffersDynamic; uint32_t maxDescriptorSetUpdateAfterBindSampledImages; uint32_t maxDescriptorSetUpdateAfterBindStorageImages; uint32_t maxDescriptorSetUpdateAfterBindInputAttachments; } VkPhysicalDeviceDescriptorIndexingProperties; typedef struct VkDescriptorSetVariableDescriptorCountAllocateInfo { VkStructureType sType; const void* pNext; uint32_t descriptorSetCount; const uint32_t* pDescriptorCounts; } VkDescriptorSetVariableDescriptorCountAllocateInfo; typedef struct VkDescriptorSetVariableDescriptorCountLayoutSupport { VkStructureType sType; void* pNext; uint32_t maxVariableDescriptorCount; } VkDescriptorSetVariableDescriptorCountLayoutSupport; typedef struct VkSubpassDescriptionDepthStencilResolve { VkStructureType sType; const void* pNext; VkResolveModeFlagBits depthResolveMode; VkResolveModeFlagBits stencilResolveMode; const VkAttachmentReference2* pDepthStencilResolveAttachment; } VkSubpassDescriptionDepthStencilResolve; typedef struct VkPhysicalDeviceDepthStencilResolveProperties { VkStructureType sType; void* pNext; VkResolveModeFlags supportedDepthResolveModes; VkResolveModeFlags supportedStencilResolveModes; VkBool32 independentResolveNone; VkBool32 independentResolve; } VkPhysicalDeviceDepthStencilResolveProperties; typedef struct VkPhysicalDeviceScalarBlockLayoutFeatures { VkStructureType sType; void* pNext; VkBool32 scalarBlockLayout; } VkPhysicalDeviceScalarBlockLayoutFeatures; typedef struct VkImageStencilUsageCreateInfo { VkStructureType sType; const void* pNext; VkImageUsageFlags stencilUsage; } VkImageStencilUsageCreateInfo; typedef struct VkSamplerReductionModeCreateInfo { VkStructureType sType; const void* pNext; VkSamplerReductionMode reductionMode; } VkSamplerReductionModeCreateInfo; typedef struct VkPhysicalDeviceSamplerFilterMinmaxProperties { VkStructureType sType; void* pNext; VkBool32 filterMinmaxSingleComponentFormats; VkBool32 filterMinmaxImageComponentMapping; } VkPhysicalDeviceSamplerFilterMinmaxProperties; typedef struct VkPhysicalDeviceVulkanMemoryModelFeatures { VkStructureType sType; void* pNext; VkBool32 vulkanMemoryModel; VkBool32 vulkanMemoryModelDeviceScope; VkBool32 vulkanMemoryModelAvailabilityVisibilityChains; } VkPhysicalDeviceVulkanMemoryModelFeatures; typedef struct VkPhysicalDeviceImagelessFramebufferFeatures { VkStructureType sType; void* pNext; VkBool32 imagelessFramebuffer; } VkPhysicalDeviceImagelessFramebufferFeatures; typedef struct VkFramebufferAttachmentImageInfo { VkStructureType sType; const void* pNext; VkImageCreateFlags flags; VkImageUsageFlags usage; uint32_t width; uint32_t height; uint32_t layerCount; uint32_t viewFormatCount; const VkFormat* pViewFormats; } VkFramebufferAttachmentImageInfo; typedef struct VkFramebufferAttachmentsCreateInfo { VkStructureType sType; const void* pNext; uint32_t attachmentImageInfoCount; const VkFramebufferAttachmentImageInfo* pAttachmentImageInfos; } VkFramebufferAttachmentsCreateInfo; typedef struct VkRenderPassAttachmentBeginInfo { VkStructureType sType; const void* pNext; uint32_t attachmentCount; const VkImageView* pAttachments; } VkRenderPassAttachmentBeginInfo; typedef struct VkPhysicalDeviceUniformBufferStandardLayoutFeatures { VkStructureType sType; void* pNext; VkBool32 uniformBufferStandardLayout; } VkPhysicalDeviceUniformBufferStandardLayoutFeatures; typedef struct VkPhysicalDeviceShaderSubgroupExtendedTypesFeatures { VkStructureType sType; void* pNext; VkBool32 shaderSubgroupExtendedTypes; } VkPhysicalDeviceShaderSubgroupExtendedTypesFeatures; typedef struct VkPhysicalDeviceSeparateDepthStencilLayoutsFeatures { VkStructureType sType; void* pNext; VkBool32 separateDepthStencilLayouts; } VkPhysicalDeviceSeparateDepthStencilLayoutsFeatures; typedef struct VkAttachmentReferenceStencilLayout { VkStructureType sType; void* pNext; VkImageLayout stencilLayout; } VkAttachmentReferenceStencilLayout; typedef struct VkAttachmentDescriptionStencilLayout { VkStructureType sType; void* pNext; VkImageLayout stencilInitialLayout; VkImageLayout stencilFinalLayout; } VkAttachmentDescriptionStencilLayout; typedef struct VkPhysicalDeviceHostQueryResetFeatures { VkStructureType sType; void* pNext; VkBool32 hostQueryReset; } VkPhysicalDeviceHostQueryResetFeatures; typedef struct VkPhysicalDeviceTimelineSemaphoreFeatures { VkStructureType sType; void* pNext; VkBool32 timelineSemaphore; } VkPhysicalDeviceTimelineSemaphoreFeatures; typedef struct VkPhysicalDeviceTimelineSemaphoreProperties { VkStructureType sType; void* pNext; uint64_t maxTimelineSemaphoreValueDifference; } VkPhysicalDeviceTimelineSemaphoreProperties; typedef struct VkSemaphoreTypeCreateInfo { VkStructureType sType; const void* pNext; VkSemaphoreType semaphoreType; uint64_t initialValue; } VkSemaphoreTypeCreateInfo; typedef struct VkTimelineSemaphoreSubmitInfo { VkStructureType sType; const void* pNext; uint32_t waitSemaphoreValueCount; const uint64_t* pWaitSemaphoreValues; uint32_t signalSemaphoreValueCount; const uint64_t* pSignalSemaphoreValues; } VkTimelineSemaphoreSubmitInfo; typedef struct VkSemaphoreWaitInfo { VkStructureType sType; const void* pNext; VkSemaphoreWaitFlags flags; uint32_t semaphoreCount; const VkSemaphore* pSemaphores; const uint64_t* pValues; } VkSemaphoreWaitInfo; typedef struct VkSemaphoreSignalInfo { VkStructureType sType; const void* pNext; VkSemaphore semaphore; uint64_t value; } VkSemaphoreSignalInfo; typedef struct VkPhysicalDeviceBufferDeviceAddressFeatures { VkStructureType sType; void* pNext; VkBool32 bufferDeviceAddress; VkBool32 bufferDeviceAddressCaptureReplay; VkBool32 bufferDeviceAddressMultiDevice; } VkPhysicalDeviceBufferDeviceAddressFeatures; typedef struct VkBufferDeviceAddressInfo { VkStructureType sType; const void* pNext; VkBuffer buffer; } VkBufferDeviceAddressInfo; typedef struct VkBufferOpaqueCaptureAddressCreateInfo { VkStructureType sType; const void* pNext; uint64_t opaqueCaptureAddress; } VkBufferOpaqueCaptureAddressCreateInfo; typedef struct VkMemoryOpaqueCaptureAddressAllocateInfo { VkStructureType sType; const void* pNext; uint64_t opaqueCaptureAddress; } VkMemoryOpaqueCaptureAddressAllocateInfo; typedef struct VkDeviceMemoryOpaqueCaptureAddressInfo { VkStructureType sType; const void* pNext; VkDeviceMemory memory; } VkDeviceMemoryOpaqueCaptureAddressInfo; typedef void (VKAPI_PTR *PFN_vkCmdDrawIndirectCount)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndexedIndirectCount)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); typedef VkResult (VKAPI_PTR *PFN_vkCreateRenderPass2)(VkDevice device, const VkRenderPassCreateInfo2* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkRenderPass* pRenderPass); typedef void (VKAPI_PTR *PFN_vkCmdBeginRenderPass2)(VkCommandBuffer commandBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, const VkSubpassBeginInfo* pSubpassBeginInfo); typedef void (VKAPI_PTR *PFN_vkCmdNextSubpass2)(VkCommandBuffer commandBuffer, const VkSubpassBeginInfo* pSubpassBeginInfo, const VkSubpassEndInfo* pSubpassEndInfo); typedef void (VKAPI_PTR *PFN_vkCmdEndRenderPass2)(VkCommandBuffer commandBuffer, const VkSubpassEndInfo* pSubpassEndInfo); typedef void (VKAPI_PTR *PFN_vkResetQueryPool)(VkDevice device, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount); typedef VkResult (VKAPI_PTR *PFN_vkGetSemaphoreCounterValue)(VkDevice device, VkSemaphore semaphore, uint64_t* pValue); typedef VkResult (VKAPI_PTR *PFN_vkWaitSemaphores)(VkDevice device, const VkSemaphoreWaitInfo* pWaitInfo, uint64_t timeout); typedef VkResult (VKAPI_PTR *PFN_vkSignalSemaphore)(VkDevice device, const VkSemaphoreSignalInfo* pSignalInfo); typedef VkDeviceAddress (VKAPI_PTR *PFN_vkGetBufferDeviceAddress)(VkDevice device, const VkBufferDeviceAddressInfo* pInfo); typedef uint64_t (VKAPI_PTR *PFN_vkGetBufferOpaqueCaptureAddress)(VkDevice device, const VkBufferDeviceAddressInfo* pInfo); typedef uint64_t (VKAPI_PTR *PFN_vkGetDeviceMemoryOpaqueCaptureAddress)(VkDevice device, const VkDeviceMemoryOpaqueCaptureAddressInfo* pInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndirectCount( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndexedIndirectCount( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); VKAPI_ATTR VkResult VKAPI_CALL vkCreateRenderPass2( VkDevice device, const VkRenderPassCreateInfo2* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkRenderPass* pRenderPass); VKAPI_ATTR void VKAPI_CALL vkCmdBeginRenderPass2( VkCommandBuffer commandBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, const VkSubpassBeginInfo* pSubpassBeginInfo); VKAPI_ATTR void VKAPI_CALL vkCmdNextSubpass2( VkCommandBuffer commandBuffer, const VkSubpassBeginInfo* pSubpassBeginInfo, const VkSubpassEndInfo* pSubpassEndInfo); VKAPI_ATTR void VKAPI_CALL vkCmdEndRenderPass2( VkCommandBuffer commandBuffer, const VkSubpassEndInfo* pSubpassEndInfo); VKAPI_ATTR void VKAPI_CALL vkResetQueryPool( VkDevice device, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount); VKAPI_ATTR VkResult VKAPI_CALL vkGetSemaphoreCounterValue( VkDevice device, VkSemaphore semaphore, uint64_t* pValue); VKAPI_ATTR VkResult VKAPI_CALL vkWaitSemaphores( VkDevice device, const VkSemaphoreWaitInfo* pWaitInfo, uint64_t timeout); VKAPI_ATTR VkResult VKAPI_CALL vkSignalSemaphore( VkDevice device, const VkSemaphoreSignalInfo* pSignalInfo); VKAPI_ATTR VkDeviceAddress VKAPI_CALL vkGetBufferDeviceAddress( VkDevice device, const VkBufferDeviceAddressInfo* pInfo); VKAPI_ATTR uint64_t VKAPI_CALL vkGetBufferOpaqueCaptureAddress( VkDevice device, const VkBufferDeviceAddressInfo* pInfo); VKAPI_ATTR uint64_t VKAPI_CALL vkGetDeviceMemoryOpaqueCaptureAddress( VkDevice device, const VkDeviceMemoryOpaqueCaptureAddressInfo* pInfo); #endif #define VK_VERSION_1_3 1 // Vulkan 1.3 version number #define VK_API_VERSION_1_3 VK_MAKE_API_VERSION(0, 1, 3, 0)// Patch version should always be set to 0 typedef uint64_t VkFlags64; VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkPrivateDataSlot) typedef enum VkPipelineCreationFeedbackFlagBits { VK_PIPELINE_CREATION_FEEDBACK_VALID_BIT = 0x00000001, VK_PIPELINE_CREATION_FEEDBACK_APPLICATION_PIPELINE_CACHE_HIT_BIT = 0x00000002, VK_PIPELINE_CREATION_FEEDBACK_BASE_PIPELINE_ACCELERATION_BIT = 0x00000004, VK_PIPELINE_CREATION_FEEDBACK_VALID_BIT_EXT = VK_PIPELINE_CREATION_FEEDBACK_VALID_BIT, VK_PIPELINE_CREATION_FEEDBACK_APPLICATION_PIPELINE_CACHE_HIT_BIT_EXT = VK_PIPELINE_CREATION_FEEDBACK_APPLICATION_PIPELINE_CACHE_HIT_BIT, VK_PIPELINE_CREATION_FEEDBACK_BASE_PIPELINE_ACCELERATION_BIT_EXT = VK_PIPELINE_CREATION_FEEDBACK_BASE_PIPELINE_ACCELERATION_BIT, VK_PIPELINE_CREATION_FEEDBACK_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkPipelineCreationFeedbackFlagBits; typedef VkFlags VkPipelineCreationFeedbackFlags; typedef enum VkToolPurposeFlagBits { VK_TOOL_PURPOSE_VALIDATION_BIT = 0x00000001, VK_TOOL_PURPOSE_PROFILING_BIT = 0x00000002, VK_TOOL_PURPOSE_TRACING_BIT = 0x00000004, VK_TOOL_PURPOSE_ADDITIONAL_FEATURES_BIT = 0x00000008, VK_TOOL_PURPOSE_MODIFYING_FEATURES_BIT = 0x00000010, VK_TOOL_PURPOSE_DEBUG_REPORTING_BIT_EXT = 0x00000020, VK_TOOL_PURPOSE_DEBUG_MARKERS_BIT_EXT = 0x00000040, VK_TOOL_PURPOSE_VALIDATION_BIT_EXT = VK_TOOL_PURPOSE_VALIDATION_BIT, VK_TOOL_PURPOSE_PROFILING_BIT_EXT = VK_TOOL_PURPOSE_PROFILING_BIT, VK_TOOL_PURPOSE_TRACING_BIT_EXT = VK_TOOL_PURPOSE_TRACING_BIT, VK_TOOL_PURPOSE_ADDITIONAL_FEATURES_BIT_EXT = VK_TOOL_PURPOSE_ADDITIONAL_FEATURES_BIT, VK_TOOL_PURPOSE_MODIFYING_FEATURES_BIT_EXT = VK_TOOL_PURPOSE_MODIFYING_FEATURES_BIT, VK_TOOL_PURPOSE_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkToolPurposeFlagBits; typedef VkFlags VkToolPurposeFlags; typedef VkFlags VkPrivateDataSlotCreateFlags; typedef VkFlags64 VkPipelineStageFlags2; // Flag bits for VkPipelineStageFlagBits2 typedef VkFlags64 VkPipelineStageFlagBits2; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_NONE = 0ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_NONE_KHR = 0ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TOP_OF_PIPE_BIT = 0x00000001ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TOP_OF_PIPE_BIT_KHR = 0x00000001ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_DRAW_INDIRECT_BIT = 0x00000002ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_DRAW_INDIRECT_BIT_KHR = 0x00000002ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VERTEX_INPUT_BIT = 0x00000004ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VERTEX_INPUT_BIT_KHR = 0x00000004ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VERTEX_SHADER_BIT = 0x00000008ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VERTEX_SHADER_BIT_KHR = 0x00000008ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TESSELLATION_CONTROL_SHADER_BIT = 0x00000010ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TESSELLATION_CONTROL_SHADER_BIT_KHR = 0x00000010ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TESSELLATION_EVALUATION_SHADER_BIT = 0x00000020ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TESSELLATION_EVALUATION_SHADER_BIT_KHR = 0x00000020ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_GEOMETRY_SHADER_BIT = 0x00000040ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_GEOMETRY_SHADER_BIT_KHR = 0x00000040ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_FRAGMENT_SHADER_BIT = 0x00000080ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_FRAGMENT_SHADER_BIT_KHR = 0x00000080ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_EARLY_FRAGMENT_TESTS_BIT = 0x00000100ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_EARLY_FRAGMENT_TESTS_BIT_KHR = 0x00000100ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_LATE_FRAGMENT_TESTS_BIT = 0x00000200ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_LATE_FRAGMENT_TESTS_BIT_KHR = 0x00000200ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COLOR_ATTACHMENT_OUTPUT_BIT = 0x00000400ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COLOR_ATTACHMENT_OUTPUT_BIT_KHR = 0x00000400ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COMPUTE_SHADER_BIT = 0x00000800ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COMPUTE_SHADER_BIT_KHR = 0x00000800ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ALL_TRANSFER_BIT = 0x00001000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ALL_TRANSFER_BIT_KHR = 0x00001000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TRANSFER_BIT = 0x00001000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TRANSFER_BIT_KHR = 0x00001000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_BOTTOM_OF_PIPE_BIT = 0x00002000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_BOTTOM_OF_PIPE_BIT_KHR = 0x00002000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_HOST_BIT = 0x00004000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_HOST_BIT_KHR = 0x00004000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ALL_GRAPHICS_BIT = 0x00008000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ALL_GRAPHICS_BIT_KHR = 0x00008000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ALL_COMMANDS_BIT = 0x00010000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ALL_COMMANDS_BIT_KHR = 0x00010000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COPY_BIT = 0x100000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COPY_BIT_KHR = 0x100000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_RESOLVE_BIT = 0x200000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_RESOLVE_BIT_KHR = 0x200000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_BLIT_BIT = 0x400000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_BLIT_BIT_KHR = 0x400000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_CLEAR_BIT = 0x800000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_CLEAR_BIT_KHR = 0x800000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_INDEX_INPUT_BIT = 0x1000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_INDEX_INPUT_BIT_KHR = 0x1000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VERTEX_ATTRIBUTE_INPUT_BIT = 0x2000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VERTEX_ATTRIBUTE_INPUT_BIT_KHR = 0x2000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_PRE_RASTERIZATION_SHADERS_BIT = 0x4000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_PRE_RASTERIZATION_SHADERS_BIT_KHR = 0x4000000000ULL; #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VIDEO_DECODE_BIT_KHR = 0x04000000ULL; #endif #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_VIDEO_ENCODE_BIT_KHR = 0x08000000ULL; #endif static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TRANSFORM_FEEDBACK_BIT_EXT = 0x01000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_CONDITIONAL_RENDERING_BIT_EXT = 0x00040000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_COMMAND_PREPROCESS_BIT_NV = 0x00020000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = 0x00400000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_SHADING_RATE_IMAGE_BIT_NV = 0x00400000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ACCELERATION_STRUCTURE_BUILD_BIT_KHR = 0x02000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_RAY_TRACING_SHADER_BIT_KHR = 0x00200000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_RAY_TRACING_SHADER_BIT_NV = 0x00200000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ACCELERATION_STRUCTURE_BUILD_BIT_NV = 0x02000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_FRAGMENT_DENSITY_PROCESS_BIT_EXT = 0x00800000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TASK_SHADER_BIT_NV = 0x00080000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_MESH_SHADER_BIT_NV = 0x00100000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_TASK_SHADER_BIT_EXT = 0x00080000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_MESH_SHADER_BIT_EXT = 0x00100000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_SUBPASS_SHADING_BIT_HUAWEI = 0x8000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_INVOCATION_MASK_BIT_HUAWEI = 0x10000000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_ACCELERATION_STRUCTURE_COPY_BIT_KHR = 0x10000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_MICROMAP_BUILD_BIT_EXT = 0x40000000ULL; static const VkPipelineStageFlagBits2 VK_PIPELINE_STAGE_2_OPTICAL_FLOW_BIT_NV = 0x20000000ULL; typedef VkFlags64 VkAccessFlags2; // Flag bits for VkAccessFlagBits2 typedef VkFlags64 VkAccessFlagBits2; static const VkAccessFlagBits2 VK_ACCESS_2_NONE = 0ULL; static const VkAccessFlagBits2 VK_ACCESS_2_NONE_KHR = 0ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INDIRECT_COMMAND_READ_BIT = 0x00000001ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INDIRECT_COMMAND_READ_BIT_KHR = 0x00000001ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INDEX_READ_BIT = 0x00000002ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INDEX_READ_BIT_KHR = 0x00000002ULL; static const VkAccessFlagBits2 VK_ACCESS_2_VERTEX_ATTRIBUTE_READ_BIT = 0x00000004ULL; static const VkAccessFlagBits2 VK_ACCESS_2_VERTEX_ATTRIBUTE_READ_BIT_KHR = 0x00000004ULL; static const VkAccessFlagBits2 VK_ACCESS_2_UNIFORM_READ_BIT = 0x00000008ULL; static const VkAccessFlagBits2 VK_ACCESS_2_UNIFORM_READ_BIT_KHR = 0x00000008ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INPUT_ATTACHMENT_READ_BIT = 0x00000010ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INPUT_ATTACHMENT_READ_BIT_KHR = 0x00000010ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_READ_BIT = 0x00000020ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_READ_BIT_KHR = 0x00000020ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_WRITE_BIT = 0x00000040ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_WRITE_BIT_KHR = 0x00000040ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COLOR_ATTACHMENT_READ_BIT = 0x00000080ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COLOR_ATTACHMENT_READ_BIT_KHR = 0x00000080ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COLOR_ATTACHMENT_WRITE_BIT = 0x00000100ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COLOR_ATTACHMENT_WRITE_BIT_KHR = 0x00000100ULL; static const VkAccessFlagBits2 VK_ACCESS_2_DEPTH_STENCIL_ATTACHMENT_READ_BIT = 0x00000200ULL; static const VkAccessFlagBits2 VK_ACCESS_2_DEPTH_STENCIL_ATTACHMENT_READ_BIT_KHR = 0x00000200ULL; static const VkAccessFlagBits2 VK_ACCESS_2_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT = 0x00000400ULL; static const VkAccessFlagBits2 VK_ACCESS_2_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT_KHR = 0x00000400ULL; static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFER_READ_BIT = 0x00000800ULL; static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFER_READ_BIT_KHR = 0x00000800ULL; static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFER_WRITE_BIT = 0x00001000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFER_WRITE_BIT_KHR = 0x00001000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_HOST_READ_BIT = 0x00002000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_HOST_READ_BIT_KHR = 0x00002000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_HOST_WRITE_BIT = 0x00004000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_HOST_WRITE_BIT_KHR = 0x00004000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_MEMORY_READ_BIT = 0x00008000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_MEMORY_READ_BIT_KHR = 0x00008000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_MEMORY_WRITE_BIT = 0x00010000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_MEMORY_WRITE_BIT_KHR = 0x00010000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_SAMPLED_READ_BIT = 0x100000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_SAMPLED_READ_BIT_KHR = 0x100000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_STORAGE_READ_BIT = 0x200000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_STORAGE_READ_BIT_KHR = 0x200000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_STORAGE_WRITE_BIT = 0x400000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_STORAGE_WRITE_BIT_KHR = 0x400000000ULL; #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkAccessFlagBits2 VK_ACCESS_2_VIDEO_DECODE_READ_BIT_KHR = 0x800000000ULL; #endif #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkAccessFlagBits2 VK_ACCESS_2_VIDEO_DECODE_WRITE_BIT_KHR = 0x1000000000ULL; #endif #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkAccessFlagBits2 VK_ACCESS_2_VIDEO_ENCODE_READ_BIT_KHR = 0x2000000000ULL; #endif #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkAccessFlagBits2 VK_ACCESS_2_VIDEO_ENCODE_WRITE_BIT_KHR = 0x4000000000ULL; #endif static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFORM_FEEDBACK_WRITE_BIT_EXT = 0x02000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFORM_FEEDBACK_COUNTER_READ_BIT_EXT = 0x04000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_TRANSFORM_FEEDBACK_COUNTER_WRITE_BIT_EXT = 0x08000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_CONDITIONAL_RENDERING_READ_BIT_EXT = 0x00100000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COMMAND_PREPROCESS_READ_BIT_NV = 0x00020000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COMMAND_PREPROCESS_WRITE_BIT_NV = 0x00040000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_FRAGMENT_SHADING_RATE_ATTACHMENT_READ_BIT_KHR = 0x00800000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADING_RATE_IMAGE_READ_BIT_NV = 0x00800000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_ACCELERATION_STRUCTURE_READ_BIT_KHR = 0x00200000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_ACCELERATION_STRUCTURE_WRITE_BIT_KHR = 0x00400000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_ACCELERATION_STRUCTURE_READ_BIT_NV = 0x00200000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_ACCELERATION_STRUCTURE_WRITE_BIT_NV = 0x00400000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_FRAGMENT_DENSITY_MAP_READ_BIT_EXT = 0x01000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_COLOR_ATTACHMENT_READ_NONCOHERENT_BIT_EXT = 0x00080000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_INVOCATION_MASK_READ_BIT_HUAWEI = 0x8000000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_SHADER_BINDING_TABLE_READ_BIT_KHR = 0x10000000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_MICROMAP_READ_BIT_EXT = 0x100000000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_MICROMAP_WRITE_BIT_EXT = 0x200000000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_OPTICAL_FLOW_READ_BIT_NV = 0x40000000000ULL; static const VkAccessFlagBits2 VK_ACCESS_2_OPTICAL_FLOW_WRITE_BIT_NV = 0x80000000000ULL; typedef enum VkSubmitFlagBits { VK_SUBMIT_PROTECTED_BIT = 0x00000001, VK_SUBMIT_PROTECTED_BIT_KHR = VK_SUBMIT_PROTECTED_BIT, VK_SUBMIT_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkSubmitFlagBits; typedef VkFlags VkSubmitFlags; typedef enum VkRenderingFlagBits { VK_RENDERING_CONTENTS_SECONDARY_COMMAND_BUFFERS_BIT = 0x00000001, VK_RENDERING_SUSPENDING_BIT = 0x00000002, VK_RENDERING_RESUMING_BIT = 0x00000004, VK_RENDERING_ENABLE_LEGACY_DITHERING_BIT_EXT = 0x00000008, VK_RENDERING_CONTENTS_SECONDARY_COMMAND_BUFFERS_BIT_KHR = VK_RENDERING_CONTENTS_SECONDARY_COMMAND_BUFFERS_BIT, VK_RENDERING_SUSPENDING_BIT_KHR = VK_RENDERING_SUSPENDING_BIT, VK_RENDERING_RESUMING_BIT_KHR = VK_RENDERING_RESUMING_BIT, VK_RENDERING_FLAG_BITS_MAX_ENUM = 0x7FFFFFFF } VkRenderingFlagBits; typedef VkFlags VkRenderingFlags; typedef VkFlags64 VkFormatFeatureFlags2; // Flag bits for VkFormatFeatureFlagBits2 typedef VkFlags64 VkFormatFeatureFlagBits2; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_BIT = 0x00000001ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_BIT_KHR = 0x00000001ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_IMAGE_BIT = 0x00000002ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_IMAGE_BIT_KHR = 0x00000002ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_IMAGE_ATOMIC_BIT = 0x00000004ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_IMAGE_ATOMIC_BIT_KHR = 0x00000004ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_UNIFORM_TEXEL_BUFFER_BIT = 0x00000008ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_UNIFORM_TEXEL_BUFFER_BIT_KHR = 0x00000008ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_TEXEL_BUFFER_BIT = 0x00000010ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_TEXEL_BUFFER_BIT_KHR = 0x00000010ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_TEXEL_BUFFER_ATOMIC_BIT = 0x00000020ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_TEXEL_BUFFER_ATOMIC_BIT_KHR = 0x00000020ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_VERTEX_BUFFER_BIT = 0x00000040ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_VERTEX_BUFFER_BIT_KHR = 0x00000040ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_COLOR_ATTACHMENT_BIT = 0x00000080ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_COLOR_ATTACHMENT_BIT_KHR = 0x00000080ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_COLOR_ATTACHMENT_BLEND_BIT = 0x00000100ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_COLOR_ATTACHMENT_BLEND_BIT_KHR = 0x00000100ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_DEPTH_STENCIL_ATTACHMENT_BIT = 0x00000200ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_DEPTH_STENCIL_ATTACHMENT_BIT_KHR = 0x00000200ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_BLIT_SRC_BIT = 0x00000400ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_BLIT_SRC_BIT_KHR = 0x00000400ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_BLIT_DST_BIT = 0x00000800ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_BLIT_DST_BIT_KHR = 0x00000800ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_FILTER_LINEAR_BIT = 0x00001000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_FILTER_LINEAR_BIT_KHR = 0x00001000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_FILTER_CUBIC_BIT = 0x00002000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_FILTER_CUBIC_BIT_EXT = 0x00002000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_TRANSFER_SRC_BIT = 0x00004000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_TRANSFER_SRC_BIT_KHR = 0x00004000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_TRANSFER_DST_BIT = 0x00008000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_TRANSFER_DST_BIT_KHR = 0x00008000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_FILTER_MINMAX_BIT = 0x00010000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_FILTER_MINMAX_BIT_KHR = 0x00010000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_MIDPOINT_CHROMA_SAMPLES_BIT = 0x00020000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_MIDPOINT_CHROMA_SAMPLES_BIT_KHR = 0x00020000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_LINEAR_FILTER_BIT = 0x00040000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_LINEAR_FILTER_BIT_KHR = 0x00040000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_SEPARATE_RECONSTRUCTION_FILTER_BIT = 0x00080000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_SEPARATE_RECONSTRUCTION_FILTER_BIT_KHR = 0x00080000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_BIT = 0x00100000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_BIT_KHR = 0x00100000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_FORCEABLE_BIT = 0x00200000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_YCBCR_CONVERSION_CHROMA_RECONSTRUCTION_EXPLICIT_FORCEABLE_BIT_KHR = 0x00200000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_DISJOINT_BIT = 0x00400000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_DISJOINT_BIT_KHR = 0x00400000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_COSITED_CHROMA_SAMPLES_BIT = 0x00800000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_COSITED_CHROMA_SAMPLES_BIT_KHR = 0x00800000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_READ_WITHOUT_FORMAT_BIT = 0x80000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_READ_WITHOUT_FORMAT_BIT_KHR = 0x80000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_WRITE_WITHOUT_FORMAT_BIT = 0x100000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_STORAGE_WRITE_WITHOUT_FORMAT_BIT_KHR = 0x100000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_DEPTH_COMPARISON_BIT = 0x200000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_SAMPLED_IMAGE_DEPTH_COMPARISON_BIT_KHR = 0x200000000ULL; #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_VIDEO_DECODE_OUTPUT_BIT_KHR = 0x02000000ULL; #endif #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_VIDEO_DECODE_DPB_BIT_KHR = 0x04000000ULL; #endif static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_ACCELERATION_STRUCTURE_VERTEX_BUFFER_BIT_KHR = 0x20000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_FRAGMENT_DENSITY_MAP_BIT_EXT = 0x01000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_FRAGMENT_SHADING_RATE_ATTACHMENT_BIT_KHR = 0x40000000ULL; #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_VIDEO_ENCODE_INPUT_BIT_KHR = 0x08000000ULL; #endif #ifdef VK_ENABLE_BETA_EXTENSIONS static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_VIDEO_ENCODE_DPB_BIT_KHR = 0x10000000ULL; #endif static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_LINEAR_COLOR_ATTACHMENT_BIT_NV = 0x4000000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_WEIGHT_IMAGE_BIT_QCOM = 0x400000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_WEIGHT_SAMPLED_IMAGE_BIT_QCOM = 0x800000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_BLOCK_MATCHING_BIT_QCOM = 0x1000000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_BOX_FILTER_SAMPLED_BIT_QCOM = 0x2000000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_OPTICAL_FLOW_IMAGE_BIT_NV = 0x10000000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_OPTICAL_FLOW_VECTOR_BIT_NV = 0x20000000000ULL; static const VkFormatFeatureFlagBits2 VK_FORMAT_FEATURE_2_OPTICAL_FLOW_COST_BIT_NV = 0x40000000000ULL; typedef struct VkPhysicalDeviceVulkan13Features { VkStructureType sType; void* pNext; VkBool32 robustImageAccess; VkBool32 inlineUniformBlock; VkBool32 descriptorBindingInlineUniformBlockUpdateAfterBind; VkBool32 pipelineCreationCacheControl; VkBool32 privateData; VkBool32 shaderDemoteToHelperInvocation; VkBool32 shaderTerminateInvocation; VkBool32 subgroupSizeControl; VkBool32 computeFullSubgroups; VkBool32 synchronization2; VkBool32 textureCompressionASTC_HDR; VkBool32 shaderZeroInitializeWorkgroupMemory; VkBool32 dynamicRendering; VkBool32 shaderIntegerDotProduct; VkBool32 maintenance4; } VkPhysicalDeviceVulkan13Features; typedef struct VkPhysicalDeviceVulkan13Properties { VkStructureType sType; void* pNext; uint32_t minSubgroupSize; uint32_t maxSubgroupSize; uint32_t maxComputeWorkgroupSubgroups; VkShaderStageFlags requiredSubgroupSizeStages; uint32_t maxInlineUniformBlockSize; uint32_t maxPerStageDescriptorInlineUniformBlocks; uint32_t maxPerStageDescriptorUpdateAfterBindInlineUniformBlocks; uint32_t maxDescriptorSetInlineUniformBlocks; uint32_t maxDescriptorSetUpdateAfterBindInlineUniformBlocks; uint32_t maxInlineUniformTotalSize; VkBool32 integerDotProduct8BitUnsignedAccelerated; VkBool32 integerDotProduct8BitSignedAccelerated; VkBool32 integerDotProduct8BitMixedSignednessAccelerated; VkBool32 integerDotProduct4x8BitPackedUnsignedAccelerated; VkBool32 integerDotProduct4x8BitPackedSignedAccelerated; VkBool32 integerDotProduct4x8BitPackedMixedSignednessAccelerated; VkBool32 integerDotProduct16BitUnsignedAccelerated; VkBool32 integerDotProduct16BitSignedAccelerated; VkBool32 integerDotProduct16BitMixedSignednessAccelerated; VkBool32 integerDotProduct32BitUnsignedAccelerated; VkBool32 integerDotProduct32BitSignedAccelerated; VkBool32 integerDotProduct32BitMixedSignednessAccelerated; VkBool32 integerDotProduct64BitUnsignedAccelerated; VkBool32 integerDotProduct64BitSignedAccelerated; VkBool32 integerDotProduct64BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating8BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating8BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating8BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating4x8BitPackedUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating4x8BitPackedSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating4x8BitPackedMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating16BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating16BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating16BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating32BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating32BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating32BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating64BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating64BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating64BitMixedSignednessAccelerated; VkDeviceSize storageTexelBufferOffsetAlignmentBytes; VkBool32 storageTexelBufferOffsetSingleTexelAlignment; VkDeviceSize uniformTexelBufferOffsetAlignmentBytes; VkBool32 uniformTexelBufferOffsetSingleTexelAlignment; VkDeviceSize maxBufferSize; } VkPhysicalDeviceVulkan13Properties; typedef struct VkPipelineCreationFeedback { VkPipelineCreationFeedbackFlags flags; uint64_t duration; } VkPipelineCreationFeedback; typedef struct VkPipelineCreationFeedbackCreateInfo { VkStructureType sType; const void* pNext; VkPipelineCreationFeedback* pPipelineCreationFeedback; uint32_t pipelineStageCreationFeedbackCount; VkPipelineCreationFeedback* pPipelineStageCreationFeedbacks; } VkPipelineCreationFeedbackCreateInfo; typedef struct VkPhysicalDeviceShaderTerminateInvocationFeatures { VkStructureType sType; void* pNext; VkBool32 shaderTerminateInvocation; } VkPhysicalDeviceShaderTerminateInvocationFeatures; typedef struct VkPhysicalDeviceToolProperties { VkStructureType sType; void* pNext; char name[VK_MAX_EXTENSION_NAME_SIZE]; char version[VK_MAX_EXTENSION_NAME_SIZE]; VkToolPurposeFlags purposes; char description[VK_MAX_DESCRIPTION_SIZE]; char layer[VK_MAX_EXTENSION_NAME_SIZE]; } VkPhysicalDeviceToolProperties; typedef struct VkPhysicalDeviceShaderDemoteToHelperInvocationFeatures { VkStructureType sType; void* pNext; VkBool32 shaderDemoteToHelperInvocation; } VkPhysicalDeviceShaderDemoteToHelperInvocationFeatures; typedef struct VkPhysicalDevicePrivateDataFeatures { VkStructureType sType; void* pNext; VkBool32 privateData; } VkPhysicalDevicePrivateDataFeatures; typedef struct VkDevicePrivateDataCreateInfo { VkStructureType sType; const void* pNext; uint32_t privateDataSlotRequestCount; } VkDevicePrivateDataCreateInfo; typedef struct VkPrivateDataSlotCreateInfo { VkStructureType sType; const void* pNext; VkPrivateDataSlotCreateFlags flags; } VkPrivateDataSlotCreateInfo; typedef struct VkPhysicalDevicePipelineCreationCacheControlFeatures { VkStructureType sType; void* pNext; VkBool32 pipelineCreationCacheControl; } VkPhysicalDevicePipelineCreationCacheControlFeatures; typedef struct VkMemoryBarrier2 { VkStructureType sType; const void* pNext; VkPipelineStageFlags2 srcStageMask; VkAccessFlags2 srcAccessMask; VkPipelineStageFlags2 dstStageMask; VkAccessFlags2 dstAccessMask; } VkMemoryBarrier2; typedef struct VkBufferMemoryBarrier2 { VkStructureType sType; const void* pNext; VkPipelineStageFlags2 srcStageMask; VkAccessFlags2 srcAccessMask; VkPipelineStageFlags2 dstStageMask; VkAccessFlags2 dstAccessMask; uint32_t srcQueueFamilyIndex; uint32_t dstQueueFamilyIndex; VkBuffer buffer; VkDeviceSize offset; VkDeviceSize size; } VkBufferMemoryBarrier2; typedef struct VkImageMemoryBarrier2 { VkStructureType sType; const void* pNext; VkPipelineStageFlags2 srcStageMask; VkAccessFlags2 srcAccessMask; VkPipelineStageFlags2 dstStageMask; VkAccessFlags2 dstAccessMask; VkImageLayout oldLayout; VkImageLayout newLayout; uint32_t srcQueueFamilyIndex; uint32_t dstQueueFamilyIndex; VkImage image; VkImageSubresourceRange subresourceRange; } VkImageMemoryBarrier2; typedef struct VkDependencyInfo { VkStructureType sType; const void* pNext; VkDependencyFlags dependencyFlags; uint32_t memoryBarrierCount; const VkMemoryBarrier2* pMemoryBarriers; uint32_t bufferMemoryBarrierCount; const VkBufferMemoryBarrier2* pBufferMemoryBarriers; uint32_t imageMemoryBarrierCount; const VkImageMemoryBarrier2* pImageMemoryBarriers; } VkDependencyInfo; typedef struct VkSemaphoreSubmitInfo { VkStructureType sType; const void* pNext; VkSemaphore semaphore; uint64_t value; VkPipelineStageFlags2 stageMask; uint32_t deviceIndex; } VkSemaphoreSubmitInfo; typedef struct VkCommandBufferSubmitInfo { VkStructureType sType; const void* pNext; VkCommandBuffer commandBuffer; uint32_t deviceMask; } VkCommandBufferSubmitInfo; typedef struct VkSubmitInfo2 { VkStructureType sType; const void* pNext; VkSubmitFlags flags; uint32_t waitSemaphoreInfoCount; const VkSemaphoreSubmitInfo* pWaitSemaphoreInfos; uint32_t commandBufferInfoCount; const VkCommandBufferSubmitInfo* pCommandBufferInfos; uint32_t signalSemaphoreInfoCount; const VkSemaphoreSubmitInfo* pSignalSemaphoreInfos; } VkSubmitInfo2; typedef struct VkPhysicalDeviceSynchronization2Features { VkStructureType sType; void* pNext; VkBool32 synchronization2; } VkPhysicalDeviceSynchronization2Features; typedef struct VkPhysicalDeviceZeroInitializeWorkgroupMemoryFeatures { VkStructureType sType; void* pNext; VkBool32 shaderZeroInitializeWorkgroupMemory; } VkPhysicalDeviceZeroInitializeWorkgroupMemoryFeatures; typedef struct VkPhysicalDeviceImageRobustnessFeatures { VkStructureType sType; void* pNext; VkBool32 robustImageAccess; } VkPhysicalDeviceImageRobustnessFeatures; typedef struct VkBufferCopy2 { VkStructureType sType; const void* pNext; VkDeviceSize srcOffset; VkDeviceSize dstOffset; VkDeviceSize size; } VkBufferCopy2; typedef struct VkCopyBufferInfo2 { VkStructureType sType; const void* pNext; VkBuffer srcBuffer; VkBuffer dstBuffer; uint32_t regionCount; const VkBufferCopy2* pRegions; } VkCopyBufferInfo2; typedef struct VkImageCopy2 { VkStructureType sType; const void* pNext; VkImageSubresourceLayers srcSubresource; VkOffset3D srcOffset; VkImageSubresourceLayers dstSubresource; VkOffset3D dstOffset; VkExtent3D extent; } VkImageCopy2; typedef struct VkCopyImageInfo2 { VkStructureType sType; const void* pNext; VkImage srcImage; VkImageLayout srcImageLayout; VkImage dstImage; VkImageLayout dstImageLayout; uint32_t regionCount; const VkImageCopy2* pRegions; } VkCopyImageInfo2; typedef struct VkBufferImageCopy2 { VkStructureType sType; const void* pNext; VkDeviceSize bufferOffset; uint32_t bufferRowLength; uint32_t bufferImageHeight; VkImageSubresourceLayers imageSubresource; VkOffset3D imageOffset; VkExtent3D imageExtent; } VkBufferImageCopy2; typedef struct VkCopyBufferToImageInfo2 { VkStructureType sType; const void* pNext; VkBuffer srcBuffer; VkImage dstImage; VkImageLayout dstImageLayout; uint32_t regionCount; const VkBufferImageCopy2* pRegions; } VkCopyBufferToImageInfo2; typedef struct VkCopyImageToBufferInfo2 { VkStructureType sType; const void* pNext; VkImage srcImage; VkImageLayout srcImageLayout; VkBuffer dstBuffer; uint32_t regionCount; const VkBufferImageCopy2* pRegions; } VkCopyImageToBufferInfo2; typedef struct VkImageBlit2 { VkStructureType sType; const void* pNext; VkImageSubresourceLayers srcSubresource; VkOffset3D srcOffsets[2]; VkImageSubresourceLayers dstSubresource; VkOffset3D dstOffsets[2]; } VkImageBlit2; typedef struct VkBlitImageInfo2 { VkStructureType sType; const void* pNext; VkImage srcImage; VkImageLayout srcImageLayout; VkImage dstImage; VkImageLayout dstImageLayout; uint32_t regionCount; const VkImageBlit2* pRegions; VkFilter filter; } VkBlitImageInfo2; typedef struct VkImageResolve2 { VkStructureType sType; const void* pNext; VkImageSubresourceLayers srcSubresource; VkOffset3D srcOffset; VkImageSubresourceLayers dstSubresource; VkOffset3D dstOffset; VkExtent3D extent; } VkImageResolve2; typedef struct VkResolveImageInfo2 { VkStructureType sType; const void* pNext; VkImage srcImage; VkImageLayout srcImageLayout; VkImage dstImage; VkImageLayout dstImageLayout; uint32_t regionCount; const VkImageResolve2* pRegions; } VkResolveImageInfo2; typedef struct VkPhysicalDeviceSubgroupSizeControlFeatures { VkStructureType sType; void* pNext; VkBool32 subgroupSizeControl; VkBool32 computeFullSubgroups; } VkPhysicalDeviceSubgroupSizeControlFeatures; typedef struct VkPhysicalDeviceSubgroupSizeControlProperties { VkStructureType sType; void* pNext; uint32_t minSubgroupSize; uint32_t maxSubgroupSize; uint32_t maxComputeWorkgroupSubgroups; VkShaderStageFlags requiredSubgroupSizeStages; } VkPhysicalDeviceSubgroupSizeControlProperties; typedef struct VkPipelineShaderStageRequiredSubgroupSizeCreateInfo { VkStructureType sType; void* pNext; uint32_t requiredSubgroupSize; } VkPipelineShaderStageRequiredSubgroupSizeCreateInfo; typedef struct VkPhysicalDeviceInlineUniformBlockFeatures { VkStructureType sType; void* pNext; VkBool32 inlineUniformBlock; VkBool32 descriptorBindingInlineUniformBlockUpdateAfterBind; } VkPhysicalDeviceInlineUniformBlockFeatures; typedef struct VkPhysicalDeviceInlineUniformBlockProperties { VkStructureType sType; void* pNext; uint32_t maxInlineUniformBlockSize; uint32_t maxPerStageDescriptorInlineUniformBlocks; uint32_t maxPerStageDescriptorUpdateAfterBindInlineUniformBlocks; uint32_t maxDescriptorSetInlineUniformBlocks; uint32_t maxDescriptorSetUpdateAfterBindInlineUniformBlocks; } VkPhysicalDeviceInlineUniformBlockProperties; typedef struct VkWriteDescriptorSetInlineUniformBlock { VkStructureType sType; const void* pNext; uint32_t dataSize; const void* pData; } VkWriteDescriptorSetInlineUniformBlock; typedef struct VkDescriptorPoolInlineUniformBlockCreateInfo { VkStructureType sType; const void* pNext; uint32_t maxInlineUniformBlockBindings; } VkDescriptorPoolInlineUniformBlockCreateInfo; typedef struct VkPhysicalDeviceTextureCompressionASTCHDRFeatures { VkStructureType sType; void* pNext; VkBool32 textureCompressionASTC_HDR; } VkPhysicalDeviceTextureCompressionASTCHDRFeatures; typedef struct VkRenderingAttachmentInfo { VkStructureType sType; const void* pNext; VkImageView imageView; VkImageLayout imageLayout; VkResolveModeFlagBits resolveMode; VkImageView resolveImageView; VkImageLayout resolveImageLayout; VkAttachmentLoadOp loadOp; VkAttachmentStoreOp storeOp; VkClearValue clearValue; } VkRenderingAttachmentInfo; typedef struct VkRenderingInfo { VkStructureType sType; const void* pNext; VkRenderingFlags flags; VkRect2D renderArea; uint32_t layerCount; uint32_t viewMask; uint32_t colorAttachmentCount; const VkRenderingAttachmentInfo* pColorAttachments; const VkRenderingAttachmentInfo* pDepthAttachment; const VkRenderingAttachmentInfo* pStencilAttachment; } VkRenderingInfo; typedef struct VkPipelineRenderingCreateInfo { VkStructureType sType; const void* pNext; uint32_t viewMask; uint32_t colorAttachmentCount; const VkFormat* pColorAttachmentFormats; VkFormat depthAttachmentFormat; VkFormat stencilAttachmentFormat; } VkPipelineRenderingCreateInfo; typedef struct VkPhysicalDeviceDynamicRenderingFeatures { VkStructureType sType; void* pNext; VkBool32 dynamicRendering; } VkPhysicalDeviceDynamicRenderingFeatures; typedef struct VkCommandBufferInheritanceRenderingInfo { VkStructureType sType; const void* pNext; VkRenderingFlags flags; uint32_t viewMask; uint32_t colorAttachmentCount; const VkFormat* pColorAttachmentFormats; VkFormat depthAttachmentFormat; VkFormat stencilAttachmentFormat; VkSampleCountFlagBits rasterizationSamples; } VkCommandBufferInheritanceRenderingInfo; typedef struct VkPhysicalDeviceShaderIntegerDotProductFeatures { VkStructureType sType; void* pNext; VkBool32 shaderIntegerDotProduct; } VkPhysicalDeviceShaderIntegerDotProductFeatures; typedef struct VkPhysicalDeviceShaderIntegerDotProductProperties { VkStructureType sType; void* pNext; VkBool32 integerDotProduct8BitUnsignedAccelerated; VkBool32 integerDotProduct8BitSignedAccelerated; VkBool32 integerDotProduct8BitMixedSignednessAccelerated; VkBool32 integerDotProduct4x8BitPackedUnsignedAccelerated; VkBool32 integerDotProduct4x8BitPackedSignedAccelerated; VkBool32 integerDotProduct4x8BitPackedMixedSignednessAccelerated; VkBool32 integerDotProduct16BitUnsignedAccelerated; VkBool32 integerDotProduct16BitSignedAccelerated; VkBool32 integerDotProduct16BitMixedSignednessAccelerated; VkBool32 integerDotProduct32BitUnsignedAccelerated; VkBool32 integerDotProduct32BitSignedAccelerated; VkBool32 integerDotProduct32BitMixedSignednessAccelerated; VkBool32 integerDotProduct64BitUnsignedAccelerated; VkBool32 integerDotProduct64BitSignedAccelerated; VkBool32 integerDotProduct64BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating8BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating8BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating8BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating4x8BitPackedUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating4x8BitPackedSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating4x8BitPackedMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating16BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating16BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating16BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating32BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating32BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating32BitMixedSignednessAccelerated; VkBool32 integerDotProductAccumulatingSaturating64BitUnsignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating64BitSignedAccelerated; VkBool32 integerDotProductAccumulatingSaturating64BitMixedSignednessAccelerated; } VkPhysicalDeviceShaderIntegerDotProductProperties; typedef struct VkPhysicalDeviceTexelBufferAlignmentProperties { VkStructureType sType; void* pNext; VkDeviceSize storageTexelBufferOffsetAlignmentBytes; VkBool32 storageTexelBufferOffsetSingleTexelAlignment; VkDeviceSize uniformTexelBufferOffsetAlignmentBytes; VkBool32 uniformTexelBufferOffsetSingleTexelAlignment; } VkPhysicalDeviceTexelBufferAlignmentProperties; typedef struct VkFormatProperties3 { VkStructureType sType; void* pNext; VkFormatFeatureFlags2 linearTilingFeatures; VkFormatFeatureFlags2 optimalTilingFeatures; VkFormatFeatureFlags2 bufferFeatures; } VkFormatProperties3; typedef struct VkPhysicalDeviceMaintenance4Features { VkStructureType sType; void* pNext; VkBool32 maintenance4; } VkPhysicalDeviceMaintenance4Features; typedef struct VkPhysicalDeviceMaintenance4Properties { VkStructureType sType; void* pNext; VkDeviceSize maxBufferSize; } VkPhysicalDeviceMaintenance4Properties; typedef struct VkDeviceBufferMemoryRequirements { VkStructureType sType; const void* pNext; const VkBufferCreateInfo* pCreateInfo; } VkDeviceBufferMemoryRequirements; typedef struct VkDeviceImageMemoryRequirements { VkStructureType sType; const void* pNext; const VkImageCreateInfo* pCreateInfo; VkImageAspectFlagBits planeAspect; } VkDeviceImageMemoryRequirements; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceToolProperties)(VkPhysicalDevice physicalDevice, uint32_t* pToolCount, VkPhysicalDeviceToolProperties* pToolProperties); typedef VkResult (VKAPI_PTR *PFN_vkCreatePrivateDataSlot)(VkDevice device, const VkPrivateDataSlotCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPrivateDataSlot* pPrivateDataSlot); typedef void (VKAPI_PTR *PFN_vkDestroyPrivateDataSlot)(VkDevice device, VkPrivateDataSlot privateDataSlot, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkSetPrivateData)(VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t data); typedef void (VKAPI_PTR *PFN_vkGetPrivateData)(VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t* pData); typedef void (VKAPI_PTR *PFN_vkCmdSetEvent2)(VkCommandBuffer commandBuffer, VkEvent event, const VkDependencyInfo* pDependencyInfo); typedef void (VKAPI_PTR *PFN_vkCmdResetEvent2)(VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags2 stageMask); typedef void (VKAPI_PTR *PFN_vkCmdWaitEvents2)(VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, const VkDependencyInfo* pDependencyInfos); typedef void (VKAPI_PTR *PFN_vkCmdPipelineBarrier2)(VkCommandBuffer commandBuffer, const VkDependencyInfo* pDependencyInfo); typedef void (VKAPI_PTR *PFN_vkCmdWriteTimestamp2)(VkCommandBuffer commandBuffer, VkPipelineStageFlags2 stage, VkQueryPool queryPool, uint32_t query); typedef VkResult (VKAPI_PTR *PFN_vkQueueSubmit2)(VkQueue queue, uint32_t submitCount, const VkSubmitInfo2* pSubmits, VkFence fence); typedef void (VKAPI_PTR *PFN_vkCmdCopyBuffer2)(VkCommandBuffer commandBuffer, const VkCopyBufferInfo2* pCopyBufferInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyImage2)(VkCommandBuffer commandBuffer, const VkCopyImageInfo2* pCopyImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyBufferToImage2)(VkCommandBuffer commandBuffer, const VkCopyBufferToImageInfo2* pCopyBufferToImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyImageToBuffer2)(VkCommandBuffer commandBuffer, const VkCopyImageToBufferInfo2* pCopyImageToBufferInfo); typedef void (VKAPI_PTR *PFN_vkCmdBlitImage2)(VkCommandBuffer commandBuffer, const VkBlitImageInfo2* pBlitImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdResolveImage2)(VkCommandBuffer commandBuffer, const VkResolveImageInfo2* pResolveImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdBeginRendering)(VkCommandBuffer commandBuffer, const VkRenderingInfo* pRenderingInfo); typedef void (VKAPI_PTR *PFN_vkCmdEndRendering)(VkCommandBuffer commandBuffer); typedef void (VKAPI_PTR *PFN_vkCmdSetCullMode)(VkCommandBuffer commandBuffer, VkCullModeFlags cullMode); typedef void (VKAPI_PTR *PFN_vkCmdSetFrontFace)(VkCommandBuffer commandBuffer, VkFrontFace frontFace); typedef void (VKAPI_PTR *PFN_vkCmdSetPrimitiveTopology)(VkCommandBuffer commandBuffer, VkPrimitiveTopology primitiveTopology); typedef void (VKAPI_PTR *PFN_vkCmdSetViewportWithCount)(VkCommandBuffer commandBuffer, uint32_t viewportCount, const VkViewport* pViewports); typedef void (VKAPI_PTR *PFN_vkCmdSetScissorWithCount)(VkCommandBuffer commandBuffer, uint32_t scissorCount, const VkRect2D* pScissors); typedef void (VKAPI_PTR *PFN_vkCmdBindVertexBuffers2)(VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets, const VkDeviceSize* pSizes, const VkDeviceSize* pStrides); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthTestEnable)(VkCommandBuffer commandBuffer, VkBool32 depthTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthWriteEnable)(VkCommandBuffer commandBuffer, VkBool32 depthWriteEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthCompareOp)(VkCommandBuffer commandBuffer, VkCompareOp depthCompareOp); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthBoundsTestEnable)(VkCommandBuffer commandBuffer, VkBool32 depthBoundsTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilTestEnable)(VkCommandBuffer commandBuffer, VkBool32 stencilTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilOp)(VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, VkStencilOp failOp, VkStencilOp passOp, VkStencilOp depthFailOp, VkCompareOp compareOp); typedef void (VKAPI_PTR *PFN_vkCmdSetRasterizerDiscardEnable)(VkCommandBuffer commandBuffer, VkBool32 rasterizerDiscardEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthBiasEnable)(VkCommandBuffer commandBuffer, VkBool32 depthBiasEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetPrimitiveRestartEnable)(VkCommandBuffer commandBuffer, VkBool32 primitiveRestartEnable); typedef void (VKAPI_PTR *PFN_vkGetDeviceBufferMemoryRequirements)(VkDevice device, const VkDeviceBufferMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetDeviceImageMemoryRequirements)(VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetDeviceImageSparseMemoryRequirements)(VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceToolProperties( VkPhysicalDevice physicalDevice, uint32_t* pToolCount, VkPhysicalDeviceToolProperties* pToolProperties); VKAPI_ATTR VkResult VKAPI_CALL vkCreatePrivateDataSlot( VkDevice device, const VkPrivateDataSlotCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPrivateDataSlot* pPrivateDataSlot); VKAPI_ATTR void VKAPI_CALL vkDestroyPrivateDataSlot( VkDevice device, VkPrivateDataSlot privateDataSlot, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkSetPrivateData( VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t data); VKAPI_ATTR void VKAPI_CALL vkGetPrivateData( VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t* pData); VKAPI_ATTR void VKAPI_CALL vkCmdSetEvent2( VkCommandBuffer commandBuffer, VkEvent event, const VkDependencyInfo* pDependencyInfo); VKAPI_ATTR void VKAPI_CALL vkCmdResetEvent2( VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags2 stageMask); VKAPI_ATTR void VKAPI_CALL vkCmdWaitEvents2( VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, const VkDependencyInfo* pDependencyInfos); VKAPI_ATTR void VKAPI_CALL vkCmdPipelineBarrier2( VkCommandBuffer commandBuffer, const VkDependencyInfo* pDependencyInfo); VKAPI_ATTR void VKAPI_CALL vkCmdWriteTimestamp2( VkCommandBuffer commandBuffer, VkPipelineStageFlags2 stage, VkQueryPool queryPool, uint32_t query); VKAPI_ATTR VkResult VKAPI_CALL vkQueueSubmit2( VkQueue queue, uint32_t submitCount, const VkSubmitInfo2* pSubmits, VkFence fence); VKAPI_ATTR void VKAPI_CALL vkCmdCopyBuffer2( VkCommandBuffer commandBuffer, const VkCopyBufferInfo2* pCopyBufferInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyImage2( VkCommandBuffer commandBuffer, const VkCopyImageInfo2* pCopyImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyBufferToImage2( VkCommandBuffer commandBuffer, const VkCopyBufferToImageInfo2* pCopyBufferToImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyImageToBuffer2( VkCommandBuffer commandBuffer, const VkCopyImageToBufferInfo2* pCopyImageToBufferInfo); VKAPI_ATTR void VKAPI_CALL vkCmdBlitImage2( VkCommandBuffer commandBuffer, const VkBlitImageInfo2* pBlitImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdResolveImage2( VkCommandBuffer commandBuffer, const VkResolveImageInfo2* pResolveImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdBeginRendering( VkCommandBuffer commandBuffer, const VkRenderingInfo* pRenderingInfo); VKAPI_ATTR void VKAPI_CALL vkCmdEndRendering( VkCommandBuffer commandBuffer); VKAPI_ATTR void VKAPI_CALL vkCmdSetCullMode( VkCommandBuffer commandBuffer, VkCullModeFlags cullMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetFrontFace( VkCommandBuffer commandBuffer, VkFrontFace frontFace); VKAPI_ATTR void VKAPI_CALL vkCmdSetPrimitiveTopology( VkCommandBuffer commandBuffer, VkPrimitiveTopology primitiveTopology); VKAPI_ATTR void VKAPI_CALL vkCmdSetViewportWithCount( VkCommandBuffer commandBuffer, uint32_t viewportCount, const VkViewport* pViewports); VKAPI_ATTR void VKAPI_CALL vkCmdSetScissorWithCount( VkCommandBuffer commandBuffer, uint32_t scissorCount, const VkRect2D* pScissors); VKAPI_ATTR void VKAPI_CALL vkCmdBindVertexBuffers2( VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets, const VkDeviceSize* pSizes, const VkDeviceSize* pStrides); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthTestEnable( VkCommandBuffer commandBuffer, VkBool32 depthTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthWriteEnable( VkCommandBuffer commandBuffer, VkBool32 depthWriteEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthCompareOp( VkCommandBuffer commandBuffer, VkCompareOp depthCompareOp); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthBoundsTestEnable( VkCommandBuffer commandBuffer, VkBool32 depthBoundsTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilTestEnable( VkCommandBuffer commandBuffer, VkBool32 stencilTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilOp( VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, VkStencilOp failOp, VkStencilOp passOp, VkStencilOp depthFailOp, VkCompareOp compareOp); VKAPI_ATTR void VKAPI_CALL vkCmdSetRasterizerDiscardEnable( VkCommandBuffer commandBuffer, VkBool32 rasterizerDiscardEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthBiasEnable( VkCommandBuffer commandBuffer, VkBool32 depthBiasEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetPrimitiveRestartEnable( VkCommandBuffer commandBuffer, VkBool32 primitiveRestartEnable); VKAPI_ATTR void VKAPI_CALL vkGetDeviceBufferMemoryRequirements( VkDevice device, const VkDeviceBufferMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetDeviceImageMemoryRequirements( VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetDeviceImageSparseMemoryRequirements( VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); #endif #define VK_KHR_surface 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkSurfaceKHR) #define VK_KHR_SURFACE_SPEC_VERSION 25 #define VK_KHR_SURFACE_EXTENSION_NAME "VK_KHR_surface" typedef enum VkPresentModeKHR { VK_PRESENT_MODE_IMMEDIATE_KHR = 0, VK_PRESENT_MODE_MAILBOX_KHR = 1, VK_PRESENT_MODE_FIFO_KHR = 2, VK_PRESENT_MODE_FIFO_RELAXED_KHR = 3, VK_PRESENT_MODE_SHARED_DEMAND_REFRESH_KHR = 1000111000, VK_PRESENT_MODE_SHARED_CONTINUOUS_REFRESH_KHR = 1000111001, VK_PRESENT_MODE_MAX_ENUM_KHR = 0x7FFFFFFF } VkPresentModeKHR; typedef enum VkColorSpaceKHR { VK_COLOR_SPACE_SRGB_NONLINEAR_KHR = 0, VK_COLOR_SPACE_DISPLAY_P3_NONLINEAR_EXT = 1000104001, VK_COLOR_SPACE_EXTENDED_SRGB_LINEAR_EXT = 1000104002, VK_COLOR_SPACE_DISPLAY_P3_LINEAR_EXT = 1000104003, VK_COLOR_SPACE_DCI_P3_NONLINEAR_EXT = 1000104004, VK_COLOR_SPACE_BT709_LINEAR_EXT = 1000104005, VK_COLOR_SPACE_BT709_NONLINEAR_EXT = 1000104006, VK_COLOR_SPACE_BT2020_LINEAR_EXT = 1000104007, VK_COLOR_SPACE_HDR10_ST2084_EXT = 1000104008, VK_COLOR_SPACE_DOLBYVISION_EXT = 1000104009, VK_COLOR_SPACE_HDR10_HLG_EXT = 1000104010, VK_COLOR_SPACE_ADOBERGB_LINEAR_EXT = 1000104011, VK_COLOR_SPACE_ADOBERGB_NONLINEAR_EXT = 1000104012, VK_COLOR_SPACE_PASS_THROUGH_EXT = 1000104013, VK_COLOR_SPACE_EXTENDED_SRGB_NONLINEAR_EXT = 1000104014, VK_COLOR_SPACE_DISPLAY_NATIVE_AMD = 1000213000, VK_COLORSPACE_SRGB_NONLINEAR_KHR = VK_COLOR_SPACE_SRGB_NONLINEAR_KHR, VK_COLOR_SPACE_DCI_P3_LINEAR_EXT = VK_COLOR_SPACE_DISPLAY_P3_LINEAR_EXT, VK_COLOR_SPACE_MAX_ENUM_KHR = 0x7FFFFFFF } VkColorSpaceKHR; typedef enum VkSurfaceTransformFlagBitsKHR { VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR = 0x00000001, VK_SURFACE_TRANSFORM_ROTATE_90_BIT_KHR = 0x00000002, VK_SURFACE_TRANSFORM_ROTATE_180_BIT_KHR = 0x00000004, VK_SURFACE_TRANSFORM_ROTATE_270_BIT_KHR = 0x00000008, VK_SURFACE_TRANSFORM_HORIZONTAL_MIRROR_BIT_KHR = 0x00000010, VK_SURFACE_TRANSFORM_HORIZONTAL_MIRROR_ROTATE_90_BIT_KHR = 0x00000020, VK_SURFACE_TRANSFORM_HORIZONTAL_MIRROR_ROTATE_180_BIT_KHR = 0x00000040, VK_SURFACE_TRANSFORM_HORIZONTAL_MIRROR_ROTATE_270_BIT_KHR = 0x00000080, VK_SURFACE_TRANSFORM_INHERIT_BIT_KHR = 0x00000100, VK_SURFACE_TRANSFORM_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkSurfaceTransformFlagBitsKHR; typedef enum VkCompositeAlphaFlagBitsKHR { VK_COMPOSITE_ALPHA_OPAQUE_BIT_KHR = 0x00000001, VK_COMPOSITE_ALPHA_PRE_MULTIPLIED_BIT_KHR = 0x00000002, VK_COMPOSITE_ALPHA_POST_MULTIPLIED_BIT_KHR = 0x00000004, VK_COMPOSITE_ALPHA_INHERIT_BIT_KHR = 0x00000008, VK_COMPOSITE_ALPHA_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkCompositeAlphaFlagBitsKHR; typedef VkFlags VkCompositeAlphaFlagsKHR; typedef VkFlags VkSurfaceTransformFlagsKHR; typedef struct VkSurfaceCapabilitiesKHR { uint32_t minImageCount; uint32_t maxImageCount; VkExtent2D currentExtent; VkExtent2D minImageExtent; VkExtent2D maxImageExtent; uint32_t maxImageArrayLayers; VkSurfaceTransformFlagsKHR supportedTransforms; VkSurfaceTransformFlagBitsKHR currentTransform; VkCompositeAlphaFlagsKHR supportedCompositeAlpha; VkImageUsageFlags supportedUsageFlags; } VkSurfaceCapabilitiesKHR; typedef struct VkSurfaceFormatKHR { VkFormat format; VkColorSpaceKHR colorSpace; } VkSurfaceFormatKHR; typedef void (VKAPI_PTR *PFN_vkDestroySurfaceKHR)(VkInstance instance, VkSurfaceKHR surface, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfaceSupportKHR)(VkPhysicalDevice physicalDevice, uint32_t queueFamilyIndex, VkSurfaceKHR surface, VkBool32* pSupported); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfaceCapabilitiesKHR)(VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, VkSurfaceCapabilitiesKHR* pSurfaceCapabilities); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfaceFormatsKHR)(VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, uint32_t* pSurfaceFormatCount, VkSurfaceFormatKHR* pSurfaceFormats); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfacePresentModesKHR)(VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, uint32_t* pPresentModeCount, VkPresentModeKHR* pPresentModes); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkDestroySurfaceKHR( VkInstance instance, VkSurfaceKHR surface, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfaceSupportKHR( VkPhysicalDevice physicalDevice, uint32_t queueFamilyIndex, VkSurfaceKHR surface, VkBool32* pSupported); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfaceCapabilitiesKHR( VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, VkSurfaceCapabilitiesKHR* pSurfaceCapabilities); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfaceFormatsKHR( VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, uint32_t* pSurfaceFormatCount, VkSurfaceFormatKHR* pSurfaceFormats); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfacePresentModesKHR( VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, uint32_t* pPresentModeCount, VkPresentModeKHR* pPresentModes); #endif #define VK_KHR_swapchain 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkSwapchainKHR) #define VK_KHR_SWAPCHAIN_SPEC_VERSION 70 #define VK_KHR_SWAPCHAIN_EXTENSION_NAME "VK_KHR_swapchain" typedef enum VkSwapchainCreateFlagBitsKHR { VK_SWAPCHAIN_CREATE_SPLIT_INSTANCE_BIND_REGIONS_BIT_KHR = 0x00000001, VK_SWAPCHAIN_CREATE_PROTECTED_BIT_KHR = 0x00000002, VK_SWAPCHAIN_CREATE_MUTABLE_FORMAT_BIT_KHR = 0x00000004, VK_SWAPCHAIN_CREATE_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkSwapchainCreateFlagBitsKHR; typedef VkFlags VkSwapchainCreateFlagsKHR; typedef enum VkDeviceGroupPresentModeFlagBitsKHR { VK_DEVICE_GROUP_PRESENT_MODE_LOCAL_BIT_KHR = 0x00000001, VK_DEVICE_GROUP_PRESENT_MODE_REMOTE_BIT_KHR = 0x00000002, VK_DEVICE_GROUP_PRESENT_MODE_SUM_BIT_KHR = 0x00000004, VK_DEVICE_GROUP_PRESENT_MODE_LOCAL_MULTI_DEVICE_BIT_KHR = 0x00000008, VK_DEVICE_GROUP_PRESENT_MODE_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkDeviceGroupPresentModeFlagBitsKHR; typedef VkFlags VkDeviceGroupPresentModeFlagsKHR; typedef struct VkSwapchainCreateInfoKHR { VkStructureType sType; const void* pNext; VkSwapchainCreateFlagsKHR flags; VkSurfaceKHR surface; uint32_t minImageCount; VkFormat imageFormat; VkColorSpaceKHR imageColorSpace; VkExtent2D imageExtent; uint32_t imageArrayLayers; VkImageUsageFlags imageUsage; VkSharingMode imageSharingMode; uint32_t queueFamilyIndexCount; const uint32_t* pQueueFamilyIndices; VkSurfaceTransformFlagBitsKHR preTransform; VkCompositeAlphaFlagBitsKHR compositeAlpha; VkPresentModeKHR presentMode; VkBool32 clipped; VkSwapchainKHR oldSwapchain; } VkSwapchainCreateInfoKHR; typedef struct VkPresentInfoKHR { VkStructureType sType; const void* pNext; uint32_t waitSemaphoreCount; const VkSemaphore* pWaitSemaphores; uint32_t swapchainCount; const VkSwapchainKHR* pSwapchains; const uint32_t* pImageIndices; VkResult* pResults; } VkPresentInfoKHR; typedef struct VkImageSwapchainCreateInfoKHR { VkStructureType sType; const void* pNext; VkSwapchainKHR swapchain; } VkImageSwapchainCreateInfoKHR; typedef struct VkBindImageMemorySwapchainInfoKHR { VkStructureType sType; const void* pNext; VkSwapchainKHR swapchain; uint32_t imageIndex; } VkBindImageMemorySwapchainInfoKHR; typedef struct VkAcquireNextImageInfoKHR { VkStructureType sType; const void* pNext; VkSwapchainKHR swapchain; uint64_t timeout; VkSemaphore semaphore; VkFence fence; uint32_t deviceMask; } VkAcquireNextImageInfoKHR; typedef struct VkDeviceGroupPresentCapabilitiesKHR { VkStructureType sType; void* pNext; uint32_t presentMask[VK_MAX_DEVICE_GROUP_SIZE]; VkDeviceGroupPresentModeFlagsKHR modes; } VkDeviceGroupPresentCapabilitiesKHR; typedef struct VkDeviceGroupPresentInfoKHR { VkStructureType sType; const void* pNext; uint32_t swapchainCount; const uint32_t* pDeviceMasks; VkDeviceGroupPresentModeFlagBitsKHR mode; } VkDeviceGroupPresentInfoKHR; typedef struct VkDeviceGroupSwapchainCreateInfoKHR { VkStructureType sType; const void* pNext; VkDeviceGroupPresentModeFlagsKHR modes; } VkDeviceGroupSwapchainCreateInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkCreateSwapchainKHR)(VkDevice device, const VkSwapchainCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSwapchainKHR* pSwapchain); typedef void (VKAPI_PTR *PFN_vkDestroySwapchainKHR)(VkDevice device, VkSwapchainKHR swapchain, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkGetSwapchainImagesKHR)(VkDevice device, VkSwapchainKHR swapchain, uint32_t* pSwapchainImageCount, VkImage* pSwapchainImages); typedef VkResult (VKAPI_PTR *PFN_vkAcquireNextImageKHR)(VkDevice device, VkSwapchainKHR swapchain, uint64_t timeout, VkSemaphore semaphore, VkFence fence, uint32_t* pImageIndex); typedef VkResult (VKAPI_PTR *PFN_vkQueuePresentKHR)(VkQueue queue, const VkPresentInfoKHR* pPresentInfo); typedef VkResult (VKAPI_PTR *PFN_vkGetDeviceGroupPresentCapabilitiesKHR)(VkDevice device, VkDeviceGroupPresentCapabilitiesKHR* pDeviceGroupPresentCapabilities); typedef VkResult (VKAPI_PTR *PFN_vkGetDeviceGroupSurfacePresentModesKHR)(VkDevice device, VkSurfaceKHR surface, VkDeviceGroupPresentModeFlagsKHR* pModes); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDevicePresentRectanglesKHR)(VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, uint32_t* pRectCount, VkRect2D* pRects); typedef VkResult (VKAPI_PTR *PFN_vkAcquireNextImage2KHR)(VkDevice device, const VkAcquireNextImageInfoKHR* pAcquireInfo, uint32_t* pImageIndex); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateSwapchainKHR( VkDevice device, const VkSwapchainCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSwapchainKHR* pSwapchain); VKAPI_ATTR void VKAPI_CALL vkDestroySwapchainKHR( VkDevice device, VkSwapchainKHR swapchain, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkGetSwapchainImagesKHR( VkDevice device, VkSwapchainKHR swapchain, uint32_t* pSwapchainImageCount, VkImage* pSwapchainImages); VKAPI_ATTR VkResult VKAPI_CALL vkAcquireNextImageKHR( VkDevice device, VkSwapchainKHR swapchain, uint64_t timeout, VkSemaphore semaphore, VkFence fence, uint32_t* pImageIndex); VKAPI_ATTR VkResult VKAPI_CALL vkQueuePresentKHR( VkQueue queue, const VkPresentInfoKHR* pPresentInfo); VKAPI_ATTR VkResult VKAPI_CALL vkGetDeviceGroupPresentCapabilitiesKHR( VkDevice device, VkDeviceGroupPresentCapabilitiesKHR* pDeviceGroupPresentCapabilities); VKAPI_ATTR VkResult VKAPI_CALL vkGetDeviceGroupSurfacePresentModesKHR( VkDevice device, VkSurfaceKHR surface, VkDeviceGroupPresentModeFlagsKHR* pModes); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDevicePresentRectanglesKHR( VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, uint32_t* pRectCount, VkRect2D* pRects); VKAPI_ATTR VkResult VKAPI_CALL vkAcquireNextImage2KHR( VkDevice device, const VkAcquireNextImageInfoKHR* pAcquireInfo, uint32_t* pImageIndex); #endif #define VK_KHR_display 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDisplayKHR) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDisplayModeKHR) #define VK_KHR_DISPLAY_SPEC_VERSION 23 #define VK_KHR_DISPLAY_EXTENSION_NAME "VK_KHR_display" typedef VkFlags VkDisplayModeCreateFlagsKHR; typedef enum VkDisplayPlaneAlphaFlagBitsKHR { VK_DISPLAY_PLANE_ALPHA_OPAQUE_BIT_KHR = 0x00000001, VK_DISPLAY_PLANE_ALPHA_GLOBAL_BIT_KHR = 0x00000002, VK_DISPLAY_PLANE_ALPHA_PER_PIXEL_BIT_KHR = 0x00000004, VK_DISPLAY_PLANE_ALPHA_PER_PIXEL_PREMULTIPLIED_BIT_KHR = 0x00000008, VK_DISPLAY_PLANE_ALPHA_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkDisplayPlaneAlphaFlagBitsKHR; typedef VkFlags VkDisplayPlaneAlphaFlagsKHR; typedef VkFlags VkDisplaySurfaceCreateFlagsKHR; typedef struct VkDisplayModeParametersKHR { VkExtent2D visibleRegion; uint32_t refreshRate; } VkDisplayModeParametersKHR; typedef struct VkDisplayModeCreateInfoKHR { VkStructureType sType; const void* pNext; VkDisplayModeCreateFlagsKHR flags; VkDisplayModeParametersKHR parameters; } VkDisplayModeCreateInfoKHR; typedef struct VkDisplayModePropertiesKHR { VkDisplayModeKHR displayMode; VkDisplayModeParametersKHR parameters; } VkDisplayModePropertiesKHR; typedef struct VkDisplayPlaneCapabilitiesKHR { VkDisplayPlaneAlphaFlagsKHR supportedAlpha; VkOffset2D minSrcPosition; VkOffset2D maxSrcPosition; VkExtent2D minSrcExtent; VkExtent2D maxSrcExtent; VkOffset2D minDstPosition; VkOffset2D maxDstPosition; VkExtent2D minDstExtent; VkExtent2D maxDstExtent; } VkDisplayPlaneCapabilitiesKHR; typedef struct VkDisplayPlanePropertiesKHR { VkDisplayKHR currentDisplay; uint32_t currentStackIndex; } VkDisplayPlanePropertiesKHR; typedef struct VkDisplayPropertiesKHR { VkDisplayKHR display; const char* displayName; VkExtent2D physicalDimensions; VkExtent2D physicalResolution; VkSurfaceTransformFlagsKHR supportedTransforms; VkBool32 planeReorderPossible; VkBool32 persistentContent; } VkDisplayPropertiesKHR; typedef struct VkDisplaySurfaceCreateInfoKHR { VkStructureType sType; const void* pNext; VkDisplaySurfaceCreateFlagsKHR flags; VkDisplayModeKHR displayMode; uint32_t planeIndex; uint32_t planeStackIndex; VkSurfaceTransformFlagBitsKHR transform; float globalAlpha; VkDisplayPlaneAlphaFlagBitsKHR alphaMode; VkExtent2D imageExtent; } VkDisplaySurfaceCreateInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceDisplayPropertiesKHR)(VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayPropertiesKHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceDisplayPlanePropertiesKHR)(VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayPlanePropertiesKHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetDisplayPlaneSupportedDisplaysKHR)(VkPhysicalDevice physicalDevice, uint32_t planeIndex, uint32_t* pDisplayCount, VkDisplayKHR* pDisplays); typedef VkResult (VKAPI_PTR *PFN_vkGetDisplayModePropertiesKHR)(VkPhysicalDevice physicalDevice, VkDisplayKHR display, uint32_t* pPropertyCount, VkDisplayModePropertiesKHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkCreateDisplayModeKHR)(VkPhysicalDevice physicalDevice, VkDisplayKHR display, const VkDisplayModeCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDisplayModeKHR* pMode); typedef VkResult (VKAPI_PTR *PFN_vkGetDisplayPlaneCapabilitiesKHR)(VkPhysicalDevice physicalDevice, VkDisplayModeKHR mode, uint32_t planeIndex, VkDisplayPlaneCapabilitiesKHR* pCapabilities); typedef VkResult (VKAPI_PTR *PFN_vkCreateDisplayPlaneSurfaceKHR)(VkInstance instance, const VkDisplaySurfaceCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSurfaceKHR* pSurface); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceDisplayPropertiesKHR( VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayPropertiesKHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceDisplayPlanePropertiesKHR( VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayPlanePropertiesKHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetDisplayPlaneSupportedDisplaysKHR( VkPhysicalDevice physicalDevice, uint32_t planeIndex, uint32_t* pDisplayCount, VkDisplayKHR* pDisplays); VKAPI_ATTR VkResult VKAPI_CALL vkGetDisplayModePropertiesKHR( VkPhysicalDevice physicalDevice, VkDisplayKHR display, uint32_t* pPropertyCount, VkDisplayModePropertiesKHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDisplayModeKHR( VkPhysicalDevice physicalDevice, VkDisplayKHR display, const VkDisplayModeCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDisplayModeKHR* pMode); VKAPI_ATTR VkResult VKAPI_CALL vkGetDisplayPlaneCapabilitiesKHR( VkPhysicalDevice physicalDevice, VkDisplayModeKHR mode, uint32_t planeIndex, VkDisplayPlaneCapabilitiesKHR* pCapabilities); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDisplayPlaneSurfaceKHR( VkInstance instance, const VkDisplaySurfaceCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSurfaceKHR* pSurface); #endif #define VK_KHR_display_swapchain 1 #define VK_KHR_DISPLAY_SWAPCHAIN_SPEC_VERSION 10 #define VK_KHR_DISPLAY_SWAPCHAIN_EXTENSION_NAME "VK_KHR_display_swapchain" typedef struct VkDisplayPresentInfoKHR { VkStructureType sType; const void* pNext; VkRect2D srcRect; VkRect2D dstRect; VkBool32 persistent; } VkDisplayPresentInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkCreateSharedSwapchainsKHR)(VkDevice device, uint32_t swapchainCount, const VkSwapchainCreateInfoKHR* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkSwapchainKHR* pSwapchains); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateSharedSwapchainsKHR( VkDevice device, uint32_t swapchainCount, const VkSwapchainCreateInfoKHR* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkSwapchainKHR* pSwapchains); #endif #define VK_KHR_sampler_mirror_clamp_to_edge 1 #define VK_KHR_SAMPLER_MIRROR_CLAMP_TO_EDGE_SPEC_VERSION 3 #define VK_KHR_SAMPLER_MIRROR_CLAMP_TO_EDGE_EXTENSION_NAME "VK_KHR_sampler_mirror_clamp_to_edge" #define VK_KHR_dynamic_rendering 1 #define VK_KHR_DYNAMIC_RENDERING_SPEC_VERSION 1 #define VK_KHR_DYNAMIC_RENDERING_EXTENSION_NAME "VK_KHR_dynamic_rendering" typedef VkRenderingFlags VkRenderingFlagsKHR; typedef VkRenderingFlagBits VkRenderingFlagBitsKHR; typedef VkRenderingInfo VkRenderingInfoKHR; typedef VkRenderingAttachmentInfo VkRenderingAttachmentInfoKHR; typedef VkPipelineRenderingCreateInfo VkPipelineRenderingCreateInfoKHR; typedef VkPhysicalDeviceDynamicRenderingFeatures VkPhysicalDeviceDynamicRenderingFeaturesKHR; typedef VkCommandBufferInheritanceRenderingInfo VkCommandBufferInheritanceRenderingInfoKHR; typedef struct VkRenderingFragmentShadingRateAttachmentInfoKHR { VkStructureType sType; const void* pNext; VkImageView imageView; VkImageLayout imageLayout; VkExtent2D shadingRateAttachmentTexelSize; } VkRenderingFragmentShadingRateAttachmentInfoKHR; typedef struct VkRenderingFragmentDensityMapAttachmentInfoEXT { VkStructureType sType; const void* pNext; VkImageView imageView; VkImageLayout imageLayout; } VkRenderingFragmentDensityMapAttachmentInfoEXT; typedef struct VkAttachmentSampleCountInfoAMD { VkStructureType sType; const void* pNext; uint32_t colorAttachmentCount; const VkSampleCountFlagBits* pColorAttachmentSamples; VkSampleCountFlagBits depthStencilAttachmentSamples; } VkAttachmentSampleCountInfoAMD; typedef VkAttachmentSampleCountInfoAMD VkAttachmentSampleCountInfoNV; typedef struct VkMultiviewPerViewAttributesInfoNVX { VkStructureType sType; const void* pNext; VkBool32 perViewAttributes; VkBool32 perViewAttributesPositionXOnly; } VkMultiviewPerViewAttributesInfoNVX; typedef void (VKAPI_PTR *PFN_vkCmdBeginRenderingKHR)(VkCommandBuffer commandBuffer, const VkRenderingInfo* pRenderingInfo); typedef void (VKAPI_PTR *PFN_vkCmdEndRenderingKHR)(VkCommandBuffer commandBuffer); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdBeginRenderingKHR( VkCommandBuffer commandBuffer, const VkRenderingInfo* pRenderingInfo); VKAPI_ATTR void VKAPI_CALL vkCmdEndRenderingKHR( VkCommandBuffer commandBuffer); #endif #define VK_KHR_multiview 1 #define VK_KHR_MULTIVIEW_SPEC_VERSION 1 #define VK_KHR_MULTIVIEW_EXTENSION_NAME "VK_KHR_multiview" typedef VkRenderPassMultiviewCreateInfo VkRenderPassMultiviewCreateInfoKHR; typedef VkPhysicalDeviceMultiviewFeatures VkPhysicalDeviceMultiviewFeaturesKHR; typedef VkPhysicalDeviceMultiviewProperties VkPhysicalDeviceMultiviewPropertiesKHR; #define VK_KHR_get_physical_device_properties2 1 #define VK_KHR_GET_PHYSICAL_DEVICE_PROPERTIES_2_SPEC_VERSION 2 #define VK_KHR_GET_PHYSICAL_DEVICE_PROPERTIES_2_EXTENSION_NAME "VK_KHR_get_physical_device_properties2" typedef VkPhysicalDeviceFeatures2 VkPhysicalDeviceFeatures2KHR; typedef VkPhysicalDeviceProperties2 VkPhysicalDeviceProperties2KHR; typedef VkFormatProperties2 VkFormatProperties2KHR; typedef VkImageFormatProperties2 VkImageFormatProperties2KHR; typedef VkPhysicalDeviceImageFormatInfo2 VkPhysicalDeviceImageFormatInfo2KHR; typedef VkQueueFamilyProperties2 VkQueueFamilyProperties2KHR; typedef VkPhysicalDeviceMemoryProperties2 VkPhysicalDeviceMemoryProperties2KHR; typedef VkSparseImageFormatProperties2 VkSparseImageFormatProperties2KHR; typedef VkPhysicalDeviceSparseImageFormatInfo2 VkPhysicalDeviceSparseImageFormatInfo2KHR; typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceFeatures2KHR)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures2* pFeatures); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceProperties2KHR)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties2* pProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceFormatProperties2KHR)(VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties2* pFormatProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceImageFormatProperties2KHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceImageFormatInfo2* pImageFormatInfo, VkImageFormatProperties2* pImageFormatProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceQueueFamilyProperties2KHR)(VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties2* pQueueFamilyProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceMemoryProperties2KHR)(VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties2* pMemoryProperties); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceSparseImageFormatProperties2KHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSparseImageFormatInfo2* pFormatInfo, uint32_t* pPropertyCount, VkSparseImageFormatProperties2* pProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceFeatures2KHR( VkPhysicalDevice physicalDevice, VkPhysicalDeviceFeatures2* pFeatures); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceProperties2KHR( VkPhysicalDevice physicalDevice, VkPhysicalDeviceProperties2* pProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceFormatProperties2KHR( VkPhysicalDevice physicalDevice, VkFormat format, VkFormatProperties2* pFormatProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceImageFormatProperties2KHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceImageFormatInfo2* pImageFormatInfo, VkImageFormatProperties2* pImageFormatProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceQueueFamilyProperties2KHR( VkPhysicalDevice physicalDevice, uint32_t* pQueueFamilyPropertyCount, VkQueueFamilyProperties2* pQueueFamilyProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceMemoryProperties2KHR( VkPhysicalDevice physicalDevice, VkPhysicalDeviceMemoryProperties2* pMemoryProperties); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceSparseImageFormatProperties2KHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSparseImageFormatInfo2* pFormatInfo, uint32_t* pPropertyCount, VkSparseImageFormatProperties2* pProperties); #endif #define VK_KHR_device_group 1 #define VK_KHR_DEVICE_GROUP_SPEC_VERSION 4 #define VK_KHR_DEVICE_GROUP_EXTENSION_NAME "VK_KHR_device_group" typedef VkPeerMemoryFeatureFlags VkPeerMemoryFeatureFlagsKHR; typedef VkPeerMemoryFeatureFlagBits VkPeerMemoryFeatureFlagBitsKHR; typedef VkMemoryAllocateFlags VkMemoryAllocateFlagsKHR; typedef VkMemoryAllocateFlagBits VkMemoryAllocateFlagBitsKHR; typedef VkMemoryAllocateFlagsInfo VkMemoryAllocateFlagsInfoKHR; typedef VkDeviceGroupRenderPassBeginInfo VkDeviceGroupRenderPassBeginInfoKHR; typedef VkDeviceGroupCommandBufferBeginInfo VkDeviceGroupCommandBufferBeginInfoKHR; typedef VkDeviceGroupSubmitInfo VkDeviceGroupSubmitInfoKHR; typedef VkDeviceGroupBindSparseInfo VkDeviceGroupBindSparseInfoKHR; typedef VkBindBufferMemoryDeviceGroupInfo VkBindBufferMemoryDeviceGroupInfoKHR; typedef VkBindImageMemoryDeviceGroupInfo VkBindImageMemoryDeviceGroupInfoKHR; typedef void (VKAPI_PTR *PFN_vkGetDeviceGroupPeerMemoryFeaturesKHR)(VkDevice device, uint32_t heapIndex, uint32_t localDeviceIndex, uint32_t remoteDeviceIndex, VkPeerMemoryFeatureFlags* pPeerMemoryFeatures); typedef void (VKAPI_PTR *PFN_vkCmdSetDeviceMaskKHR)(VkCommandBuffer commandBuffer, uint32_t deviceMask); typedef void (VKAPI_PTR *PFN_vkCmdDispatchBaseKHR)(VkCommandBuffer commandBuffer, uint32_t baseGroupX, uint32_t baseGroupY, uint32_t baseGroupZ, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetDeviceGroupPeerMemoryFeaturesKHR( VkDevice device, uint32_t heapIndex, uint32_t localDeviceIndex, uint32_t remoteDeviceIndex, VkPeerMemoryFeatureFlags* pPeerMemoryFeatures); VKAPI_ATTR void VKAPI_CALL vkCmdSetDeviceMaskKHR( VkCommandBuffer commandBuffer, uint32_t deviceMask); VKAPI_ATTR void VKAPI_CALL vkCmdDispatchBaseKHR( VkCommandBuffer commandBuffer, uint32_t baseGroupX, uint32_t baseGroupY, uint32_t baseGroupZ, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); #endif #define VK_KHR_shader_draw_parameters 1 #define VK_KHR_SHADER_DRAW_PARAMETERS_SPEC_VERSION 1 #define VK_KHR_SHADER_DRAW_PARAMETERS_EXTENSION_NAME "VK_KHR_shader_draw_parameters" #define VK_KHR_maintenance1 1 #define VK_KHR_MAINTENANCE_1_SPEC_VERSION 2 #define VK_KHR_MAINTENANCE_1_EXTENSION_NAME "VK_KHR_maintenance1" #define VK_KHR_MAINTENANCE1_SPEC_VERSION VK_KHR_MAINTENANCE_1_SPEC_VERSION #define VK_KHR_MAINTENANCE1_EXTENSION_NAME VK_KHR_MAINTENANCE_1_EXTENSION_NAME typedef VkCommandPoolTrimFlags VkCommandPoolTrimFlagsKHR; typedef void (VKAPI_PTR *PFN_vkTrimCommandPoolKHR)(VkDevice device, VkCommandPool commandPool, VkCommandPoolTrimFlags flags); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkTrimCommandPoolKHR( VkDevice device, VkCommandPool commandPool, VkCommandPoolTrimFlags flags); #endif #define VK_KHR_device_group_creation 1 #define VK_KHR_DEVICE_GROUP_CREATION_SPEC_VERSION 1 #define VK_KHR_DEVICE_GROUP_CREATION_EXTENSION_NAME "VK_KHR_device_group_creation" #define VK_MAX_DEVICE_GROUP_SIZE_KHR VK_MAX_DEVICE_GROUP_SIZE typedef VkPhysicalDeviceGroupProperties VkPhysicalDeviceGroupPropertiesKHR; typedef VkDeviceGroupDeviceCreateInfo VkDeviceGroupDeviceCreateInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkEnumeratePhysicalDeviceGroupsKHR)(VkInstance instance, uint32_t* pPhysicalDeviceGroupCount, VkPhysicalDeviceGroupProperties* pPhysicalDeviceGroupProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkEnumeratePhysicalDeviceGroupsKHR( VkInstance instance, uint32_t* pPhysicalDeviceGroupCount, VkPhysicalDeviceGroupProperties* pPhysicalDeviceGroupProperties); #endif #define VK_KHR_external_memory_capabilities 1 #define VK_KHR_EXTERNAL_MEMORY_CAPABILITIES_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_MEMORY_CAPABILITIES_EXTENSION_NAME "VK_KHR_external_memory_capabilities" #define VK_LUID_SIZE_KHR VK_LUID_SIZE typedef VkExternalMemoryHandleTypeFlags VkExternalMemoryHandleTypeFlagsKHR; typedef VkExternalMemoryHandleTypeFlagBits VkExternalMemoryHandleTypeFlagBitsKHR; typedef VkExternalMemoryFeatureFlags VkExternalMemoryFeatureFlagsKHR; typedef VkExternalMemoryFeatureFlagBits VkExternalMemoryFeatureFlagBitsKHR; typedef VkExternalMemoryProperties VkExternalMemoryPropertiesKHR; typedef VkPhysicalDeviceExternalImageFormatInfo VkPhysicalDeviceExternalImageFormatInfoKHR; typedef VkExternalImageFormatProperties VkExternalImageFormatPropertiesKHR; typedef VkPhysicalDeviceExternalBufferInfo VkPhysicalDeviceExternalBufferInfoKHR; typedef VkExternalBufferProperties VkExternalBufferPropertiesKHR; typedef VkPhysicalDeviceIDProperties VkPhysicalDeviceIDPropertiesKHR; typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalBufferPropertiesKHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalBufferInfo* pExternalBufferInfo, VkExternalBufferProperties* pExternalBufferProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceExternalBufferPropertiesKHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalBufferInfo* pExternalBufferInfo, VkExternalBufferProperties* pExternalBufferProperties); #endif #define VK_KHR_external_memory 1 #define VK_KHR_EXTERNAL_MEMORY_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_MEMORY_EXTENSION_NAME "VK_KHR_external_memory" #define VK_QUEUE_FAMILY_EXTERNAL_KHR VK_QUEUE_FAMILY_EXTERNAL typedef VkExternalMemoryImageCreateInfo VkExternalMemoryImageCreateInfoKHR; typedef VkExternalMemoryBufferCreateInfo VkExternalMemoryBufferCreateInfoKHR; typedef VkExportMemoryAllocateInfo VkExportMemoryAllocateInfoKHR; #define VK_KHR_external_memory_fd 1 #define VK_KHR_EXTERNAL_MEMORY_FD_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_MEMORY_FD_EXTENSION_NAME "VK_KHR_external_memory_fd" typedef struct VkImportMemoryFdInfoKHR { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlagBits handleType; int fd; } VkImportMemoryFdInfoKHR; typedef struct VkMemoryFdPropertiesKHR { VkStructureType sType; void* pNext; uint32_t memoryTypeBits; } VkMemoryFdPropertiesKHR; typedef struct VkMemoryGetFdInfoKHR { VkStructureType sType; const void* pNext; VkDeviceMemory memory; VkExternalMemoryHandleTypeFlagBits handleType; } VkMemoryGetFdInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkGetMemoryFdKHR)(VkDevice device, const VkMemoryGetFdInfoKHR* pGetFdInfo, int* pFd); typedef VkResult (VKAPI_PTR *PFN_vkGetMemoryFdPropertiesKHR)(VkDevice device, VkExternalMemoryHandleTypeFlagBits handleType, int fd, VkMemoryFdPropertiesKHR* pMemoryFdProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetMemoryFdKHR( VkDevice device, const VkMemoryGetFdInfoKHR* pGetFdInfo, int* pFd); VKAPI_ATTR VkResult VKAPI_CALL vkGetMemoryFdPropertiesKHR( VkDevice device, VkExternalMemoryHandleTypeFlagBits handleType, int fd, VkMemoryFdPropertiesKHR* pMemoryFdProperties); #endif #define VK_KHR_external_semaphore_capabilities 1 #define VK_KHR_EXTERNAL_SEMAPHORE_CAPABILITIES_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_SEMAPHORE_CAPABILITIES_EXTENSION_NAME "VK_KHR_external_semaphore_capabilities" typedef VkExternalSemaphoreHandleTypeFlags VkExternalSemaphoreHandleTypeFlagsKHR; typedef VkExternalSemaphoreHandleTypeFlagBits VkExternalSemaphoreHandleTypeFlagBitsKHR; typedef VkExternalSemaphoreFeatureFlags VkExternalSemaphoreFeatureFlagsKHR; typedef VkExternalSemaphoreFeatureFlagBits VkExternalSemaphoreFeatureFlagBitsKHR; typedef VkPhysicalDeviceExternalSemaphoreInfo VkPhysicalDeviceExternalSemaphoreInfoKHR; typedef VkExternalSemaphoreProperties VkExternalSemaphorePropertiesKHR; typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalSemaphorePropertiesKHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalSemaphoreInfo* pExternalSemaphoreInfo, VkExternalSemaphoreProperties* pExternalSemaphoreProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceExternalSemaphorePropertiesKHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalSemaphoreInfo* pExternalSemaphoreInfo, VkExternalSemaphoreProperties* pExternalSemaphoreProperties); #endif #define VK_KHR_external_semaphore 1 #define VK_KHR_EXTERNAL_SEMAPHORE_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_SEMAPHORE_EXTENSION_NAME "VK_KHR_external_semaphore" typedef VkSemaphoreImportFlags VkSemaphoreImportFlagsKHR; typedef VkSemaphoreImportFlagBits VkSemaphoreImportFlagBitsKHR; typedef VkExportSemaphoreCreateInfo VkExportSemaphoreCreateInfoKHR; #define VK_KHR_external_semaphore_fd 1 #define VK_KHR_EXTERNAL_SEMAPHORE_FD_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_SEMAPHORE_FD_EXTENSION_NAME "VK_KHR_external_semaphore_fd" typedef struct VkImportSemaphoreFdInfoKHR { VkStructureType sType; const void* pNext; VkSemaphore semaphore; VkSemaphoreImportFlags flags; VkExternalSemaphoreHandleTypeFlagBits handleType; int fd; } VkImportSemaphoreFdInfoKHR; typedef struct VkSemaphoreGetFdInfoKHR { VkStructureType sType; const void* pNext; VkSemaphore semaphore; VkExternalSemaphoreHandleTypeFlagBits handleType; } VkSemaphoreGetFdInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkImportSemaphoreFdKHR)(VkDevice device, const VkImportSemaphoreFdInfoKHR* pImportSemaphoreFdInfo); typedef VkResult (VKAPI_PTR *PFN_vkGetSemaphoreFdKHR)(VkDevice device, const VkSemaphoreGetFdInfoKHR* pGetFdInfo, int* pFd); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkImportSemaphoreFdKHR( VkDevice device, const VkImportSemaphoreFdInfoKHR* pImportSemaphoreFdInfo); VKAPI_ATTR VkResult VKAPI_CALL vkGetSemaphoreFdKHR( VkDevice device, const VkSemaphoreGetFdInfoKHR* pGetFdInfo, int* pFd); #endif #define VK_KHR_push_descriptor 1 #define VK_KHR_PUSH_DESCRIPTOR_SPEC_VERSION 2 #define VK_KHR_PUSH_DESCRIPTOR_EXTENSION_NAME "VK_KHR_push_descriptor" typedef struct VkPhysicalDevicePushDescriptorPropertiesKHR { VkStructureType sType; void* pNext; uint32_t maxPushDescriptors; } VkPhysicalDevicePushDescriptorPropertiesKHR; typedef void (VKAPI_PTR *PFN_vkCmdPushDescriptorSetKHR)(VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipelineLayout layout, uint32_t set, uint32_t descriptorWriteCount, const VkWriteDescriptorSet* pDescriptorWrites); typedef void (VKAPI_PTR *PFN_vkCmdPushDescriptorSetWithTemplateKHR)(VkCommandBuffer commandBuffer, VkDescriptorUpdateTemplate descriptorUpdateTemplate, VkPipelineLayout layout, uint32_t set, const void* pData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdPushDescriptorSetKHR( VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipelineLayout layout, uint32_t set, uint32_t descriptorWriteCount, const VkWriteDescriptorSet* pDescriptorWrites); VKAPI_ATTR void VKAPI_CALL vkCmdPushDescriptorSetWithTemplateKHR( VkCommandBuffer commandBuffer, VkDescriptorUpdateTemplate descriptorUpdateTemplate, VkPipelineLayout layout, uint32_t set, const void* pData); #endif #define VK_KHR_shader_float16_int8 1 #define VK_KHR_SHADER_FLOAT16_INT8_SPEC_VERSION 1 #define VK_KHR_SHADER_FLOAT16_INT8_EXTENSION_NAME "VK_KHR_shader_float16_int8" typedef VkPhysicalDeviceShaderFloat16Int8Features VkPhysicalDeviceShaderFloat16Int8FeaturesKHR; typedef VkPhysicalDeviceShaderFloat16Int8Features VkPhysicalDeviceFloat16Int8FeaturesKHR; #define VK_KHR_16bit_storage 1 #define VK_KHR_16BIT_STORAGE_SPEC_VERSION 1 #define VK_KHR_16BIT_STORAGE_EXTENSION_NAME "VK_KHR_16bit_storage" typedef VkPhysicalDevice16BitStorageFeatures VkPhysicalDevice16BitStorageFeaturesKHR; #define VK_KHR_incremental_present 1 #define VK_KHR_INCREMENTAL_PRESENT_SPEC_VERSION 2 #define VK_KHR_INCREMENTAL_PRESENT_EXTENSION_NAME "VK_KHR_incremental_present" typedef struct VkRectLayerKHR { VkOffset2D offset; VkExtent2D extent; uint32_t layer; } VkRectLayerKHR; typedef struct VkPresentRegionKHR { uint32_t rectangleCount; const VkRectLayerKHR* pRectangles; } VkPresentRegionKHR; typedef struct VkPresentRegionsKHR { VkStructureType sType; const void* pNext; uint32_t swapchainCount; const VkPresentRegionKHR* pRegions; } VkPresentRegionsKHR; #define VK_KHR_descriptor_update_template 1 typedef VkDescriptorUpdateTemplate VkDescriptorUpdateTemplateKHR; #define VK_KHR_DESCRIPTOR_UPDATE_TEMPLATE_SPEC_VERSION 1 #define VK_KHR_DESCRIPTOR_UPDATE_TEMPLATE_EXTENSION_NAME "VK_KHR_descriptor_update_template" typedef VkDescriptorUpdateTemplateType VkDescriptorUpdateTemplateTypeKHR; typedef VkDescriptorUpdateTemplateCreateFlags VkDescriptorUpdateTemplateCreateFlagsKHR; typedef VkDescriptorUpdateTemplateEntry VkDescriptorUpdateTemplateEntryKHR; typedef VkDescriptorUpdateTemplateCreateInfo VkDescriptorUpdateTemplateCreateInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkCreateDescriptorUpdateTemplateKHR)(VkDevice device, const VkDescriptorUpdateTemplateCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorUpdateTemplate* pDescriptorUpdateTemplate); typedef void (VKAPI_PTR *PFN_vkDestroyDescriptorUpdateTemplateKHR)(VkDevice device, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkUpdateDescriptorSetWithTemplateKHR)(VkDevice device, VkDescriptorSet descriptorSet, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const void* pData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateDescriptorUpdateTemplateKHR( VkDevice device, const VkDescriptorUpdateTemplateCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDescriptorUpdateTemplate* pDescriptorUpdateTemplate); VKAPI_ATTR void VKAPI_CALL vkDestroyDescriptorUpdateTemplateKHR( VkDevice device, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkUpdateDescriptorSetWithTemplateKHR( VkDevice device, VkDescriptorSet descriptorSet, VkDescriptorUpdateTemplate descriptorUpdateTemplate, const void* pData); #endif #define VK_KHR_imageless_framebuffer 1 #define VK_KHR_IMAGELESS_FRAMEBUFFER_SPEC_VERSION 1 #define VK_KHR_IMAGELESS_FRAMEBUFFER_EXTENSION_NAME "VK_KHR_imageless_framebuffer" typedef VkPhysicalDeviceImagelessFramebufferFeatures VkPhysicalDeviceImagelessFramebufferFeaturesKHR; typedef VkFramebufferAttachmentsCreateInfo VkFramebufferAttachmentsCreateInfoKHR; typedef VkFramebufferAttachmentImageInfo VkFramebufferAttachmentImageInfoKHR; typedef VkRenderPassAttachmentBeginInfo VkRenderPassAttachmentBeginInfoKHR; #define VK_KHR_create_renderpass2 1 #define VK_KHR_CREATE_RENDERPASS_2_SPEC_VERSION 1 #define VK_KHR_CREATE_RENDERPASS_2_EXTENSION_NAME "VK_KHR_create_renderpass2" typedef VkRenderPassCreateInfo2 VkRenderPassCreateInfo2KHR; typedef VkAttachmentDescription2 VkAttachmentDescription2KHR; typedef VkAttachmentReference2 VkAttachmentReference2KHR; typedef VkSubpassDescription2 VkSubpassDescription2KHR; typedef VkSubpassDependency2 VkSubpassDependency2KHR; typedef VkSubpassBeginInfo VkSubpassBeginInfoKHR; typedef VkSubpassEndInfo VkSubpassEndInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkCreateRenderPass2KHR)(VkDevice device, const VkRenderPassCreateInfo2* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkRenderPass* pRenderPass); typedef void (VKAPI_PTR *PFN_vkCmdBeginRenderPass2KHR)(VkCommandBuffer commandBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, const VkSubpassBeginInfo* pSubpassBeginInfo); typedef void (VKAPI_PTR *PFN_vkCmdNextSubpass2KHR)(VkCommandBuffer commandBuffer, const VkSubpassBeginInfo* pSubpassBeginInfo, const VkSubpassEndInfo* pSubpassEndInfo); typedef void (VKAPI_PTR *PFN_vkCmdEndRenderPass2KHR)(VkCommandBuffer commandBuffer, const VkSubpassEndInfo* pSubpassEndInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateRenderPass2KHR( VkDevice device, const VkRenderPassCreateInfo2* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkRenderPass* pRenderPass); VKAPI_ATTR void VKAPI_CALL vkCmdBeginRenderPass2KHR( VkCommandBuffer commandBuffer, const VkRenderPassBeginInfo* pRenderPassBegin, const VkSubpassBeginInfo* pSubpassBeginInfo); VKAPI_ATTR void VKAPI_CALL vkCmdNextSubpass2KHR( VkCommandBuffer commandBuffer, const VkSubpassBeginInfo* pSubpassBeginInfo, const VkSubpassEndInfo* pSubpassEndInfo); VKAPI_ATTR void VKAPI_CALL vkCmdEndRenderPass2KHR( VkCommandBuffer commandBuffer, const VkSubpassEndInfo* pSubpassEndInfo); #endif #define VK_KHR_shared_presentable_image 1 #define VK_KHR_SHARED_PRESENTABLE_IMAGE_SPEC_VERSION 1 #define VK_KHR_SHARED_PRESENTABLE_IMAGE_EXTENSION_NAME "VK_KHR_shared_presentable_image" typedef struct VkSharedPresentSurfaceCapabilitiesKHR { VkStructureType sType; void* pNext; VkImageUsageFlags sharedPresentSupportedUsageFlags; } VkSharedPresentSurfaceCapabilitiesKHR; typedef VkResult (VKAPI_PTR *PFN_vkGetSwapchainStatusKHR)(VkDevice device, VkSwapchainKHR swapchain); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetSwapchainStatusKHR( VkDevice device, VkSwapchainKHR swapchain); #endif #define VK_KHR_external_fence_capabilities 1 #define VK_KHR_EXTERNAL_FENCE_CAPABILITIES_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_FENCE_CAPABILITIES_EXTENSION_NAME "VK_KHR_external_fence_capabilities" typedef VkExternalFenceHandleTypeFlags VkExternalFenceHandleTypeFlagsKHR; typedef VkExternalFenceHandleTypeFlagBits VkExternalFenceHandleTypeFlagBitsKHR; typedef VkExternalFenceFeatureFlags VkExternalFenceFeatureFlagsKHR; typedef VkExternalFenceFeatureFlagBits VkExternalFenceFeatureFlagBitsKHR; typedef VkPhysicalDeviceExternalFenceInfo VkPhysicalDeviceExternalFenceInfoKHR; typedef VkExternalFenceProperties VkExternalFencePropertiesKHR; typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalFencePropertiesKHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalFenceInfo* pExternalFenceInfo, VkExternalFenceProperties* pExternalFenceProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceExternalFencePropertiesKHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceExternalFenceInfo* pExternalFenceInfo, VkExternalFenceProperties* pExternalFenceProperties); #endif #define VK_KHR_external_fence 1 #define VK_KHR_EXTERNAL_FENCE_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_FENCE_EXTENSION_NAME "VK_KHR_external_fence" typedef VkFenceImportFlags VkFenceImportFlagsKHR; typedef VkFenceImportFlagBits VkFenceImportFlagBitsKHR; typedef VkExportFenceCreateInfo VkExportFenceCreateInfoKHR; #define VK_KHR_external_fence_fd 1 #define VK_KHR_EXTERNAL_FENCE_FD_SPEC_VERSION 1 #define VK_KHR_EXTERNAL_FENCE_FD_EXTENSION_NAME "VK_KHR_external_fence_fd" typedef struct VkImportFenceFdInfoKHR { VkStructureType sType; const void* pNext; VkFence fence; VkFenceImportFlags flags; VkExternalFenceHandleTypeFlagBits handleType; int fd; } VkImportFenceFdInfoKHR; typedef struct VkFenceGetFdInfoKHR { VkStructureType sType; const void* pNext; VkFence fence; VkExternalFenceHandleTypeFlagBits handleType; } VkFenceGetFdInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkImportFenceFdKHR)(VkDevice device, const VkImportFenceFdInfoKHR* pImportFenceFdInfo); typedef VkResult (VKAPI_PTR *PFN_vkGetFenceFdKHR)(VkDevice device, const VkFenceGetFdInfoKHR* pGetFdInfo, int* pFd); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkImportFenceFdKHR( VkDevice device, const VkImportFenceFdInfoKHR* pImportFenceFdInfo); VKAPI_ATTR VkResult VKAPI_CALL vkGetFenceFdKHR( VkDevice device, const VkFenceGetFdInfoKHR* pGetFdInfo, int* pFd); #endif #define VK_KHR_performance_query 1 #define VK_KHR_PERFORMANCE_QUERY_SPEC_VERSION 1 #define VK_KHR_PERFORMANCE_QUERY_EXTENSION_NAME "VK_KHR_performance_query" typedef enum VkPerformanceCounterUnitKHR { VK_PERFORMANCE_COUNTER_UNIT_GENERIC_KHR = 0, VK_PERFORMANCE_COUNTER_UNIT_PERCENTAGE_KHR = 1, VK_PERFORMANCE_COUNTER_UNIT_NANOSECONDS_KHR = 2, VK_PERFORMANCE_COUNTER_UNIT_BYTES_KHR = 3, VK_PERFORMANCE_COUNTER_UNIT_BYTES_PER_SECOND_KHR = 4, VK_PERFORMANCE_COUNTER_UNIT_KELVIN_KHR = 5, VK_PERFORMANCE_COUNTER_UNIT_WATTS_KHR = 6, VK_PERFORMANCE_COUNTER_UNIT_VOLTS_KHR = 7, VK_PERFORMANCE_COUNTER_UNIT_AMPS_KHR = 8, VK_PERFORMANCE_COUNTER_UNIT_HERTZ_KHR = 9, VK_PERFORMANCE_COUNTER_UNIT_CYCLES_KHR = 10, VK_PERFORMANCE_COUNTER_UNIT_MAX_ENUM_KHR = 0x7FFFFFFF } VkPerformanceCounterUnitKHR; typedef enum VkPerformanceCounterScopeKHR { VK_PERFORMANCE_COUNTER_SCOPE_COMMAND_BUFFER_KHR = 0, VK_PERFORMANCE_COUNTER_SCOPE_RENDER_PASS_KHR = 1, VK_PERFORMANCE_COUNTER_SCOPE_COMMAND_KHR = 2, VK_QUERY_SCOPE_COMMAND_BUFFER_KHR = VK_PERFORMANCE_COUNTER_SCOPE_COMMAND_BUFFER_KHR, VK_QUERY_SCOPE_RENDER_PASS_KHR = VK_PERFORMANCE_COUNTER_SCOPE_RENDER_PASS_KHR, VK_QUERY_SCOPE_COMMAND_KHR = VK_PERFORMANCE_COUNTER_SCOPE_COMMAND_KHR, VK_PERFORMANCE_COUNTER_SCOPE_MAX_ENUM_KHR = 0x7FFFFFFF } VkPerformanceCounterScopeKHR; typedef enum VkPerformanceCounterStorageKHR { VK_PERFORMANCE_COUNTER_STORAGE_INT32_KHR = 0, VK_PERFORMANCE_COUNTER_STORAGE_INT64_KHR = 1, VK_PERFORMANCE_COUNTER_STORAGE_UINT32_KHR = 2, VK_PERFORMANCE_COUNTER_STORAGE_UINT64_KHR = 3, VK_PERFORMANCE_COUNTER_STORAGE_FLOAT32_KHR = 4, VK_PERFORMANCE_COUNTER_STORAGE_FLOAT64_KHR = 5, VK_PERFORMANCE_COUNTER_STORAGE_MAX_ENUM_KHR = 0x7FFFFFFF } VkPerformanceCounterStorageKHR; typedef enum VkPerformanceCounterDescriptionFlagBitsKHR { VK_PERFORMANCE_COUNTER_DESCRIPTION_PERFORMANCE_IMPACTING_BIT_KHR = 0x00000001, VK_PERFORMANCE_COUNTER_DESCRIPTION_CONCURRENTLY_IMPACTED_BIT_KHR = 0x00000002, VK_PERFORMANCE_COUNTER_DESCRIPTION_PERFORMANCE_IMPACTING_KHR = VK_PERFORMANCE_COUNTER_DESCRIPTION_PERFORMANCE_IMPACTING_BIT_KHR, VK_PERFORMANCE_COUNTER_DESCRIPTION_CONCURRENTLY_IMPACTED_KHR = VK_PERFORMANCE_COUNTER_DESCRIPTION_CONCURRENTLY_IMPACTED_BIT_KHR, VK_PERFORMANCE_COUNTER_DESCRIPTION_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkPerformanceCounterDescriptionFlagBitsKHR; typedef VkFlags VkPerformanceCounterDescriptionFlagsKHR; typedef enum VkAcquireProfilingLockFlagBitsKHR { VK_ACQUIRE_PROFILING_LOCK_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkAcquireProfilingLockFlagBitsKHR; typedef VkFlags VkAcquireProfilingLockFlagsKHR; typedef struct VkPhysicalDevicePerformanceQueryFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 performanceCounterQueryPools; VkBool32 performanceCounterMultipleQueryPools; } VkPhysicalDevicePerformanceQueryFeaturesKHR; typedef struct VkPhysicalDevicePerformanceQueryPropertiesKHR { VkStructureType sType; void* pNext; VkBool32 allowCommandBufferQueryCopies; } VkPhysicalDevicePerformanceQueryPropertiesKHR; typedef struct VkPerformanceCounterKHR { VkStructureType sType; void* pNext; VkPerformanceCounterUnitKHR unit; VkPerformanceCounterScopeKHR scope; VkPerformanceCounterStorageKHR storage; uint8_t uuid[VK_UUID_SIZE]; } VkPerformanceCounterKHR; typedef struct VkPerformanceCounterDescriptionKHR { VkStructureType sType; void* pNext; VkPerformanceCounterDescriptionFlagsKHR flags; char name[VK_MAX_DESCRIPTION_SIZE]; char category[VK_MAX_DESCRIPTION_SIZE]; char description[VK_MAX_DESCRIPTION_SIZE]; } VkPerformanceCounterDescriptionKHR; typedef struct VkQueryPoolPerformanceCreateInfoKHR { VkStructureType sType; const void* pNext; uint32_t queueFamilyIndex; uint32_t counterIndexCount; const uint32_t* pCounterIndices; } VkQueryPoolPerformanceCreateInfoKHR; typedef union VkPerformanceCounterResultKHR { int32_t int32; int64_t int64; uint32_t uint32; uint64_t uint64; float float32; double float64; } VkPerformanceCounterResultKHR; typedef struct VkAcquireProfilingLockInfoKHR { VkStructureType sType; const void* pNext; VkAcquireProfilingLockFlagsKHR flags; uint64_t timeout; } VkAcquireProfilingLockInfoKHR; typedef struct VkPerformanceQuerySubmitInfoKHR { VkStructureType sType; const void* pNext; uint32_t counterPassIndex; } VkPerformanceQuerySubmitInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkEnumeratePhysicalDeviceQueueFamilyPerformanceQueryCountersKHR)(VkPhysicalDevice physicalDevice, uint32_t queueFamilyIndex, uint32_t* pCounterCount, VkPerformanceCounterKHR* pCounters, VkPerformanceCounterDescriptionKHR* pCounterDescriptions); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceQueueFamilyPerformanceQueryPassesKHR)(VkPhysicalDevice physicalDevice, const VkQueryPoolPerformanceCreateInfoKHR* pPerformanceQueryCreateInfo, uint32_t* pNumPasses); typedef VkResult (VKAPI_PTR *PFN_vkAcquireProfilingLockKHR)(VkDevice device, const VkAcquireProfilingLockInfoKHR* pInfo); typedef void (VKAPI_PTR *PFN_vkReleaseProfilingLockKHR)(VkDevice device); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkEnumeratePhysicalDeviceQueueFamilyPerformanceQueryCountersKHR( VkPhysicalDevice physicalDevice, uint32_t queueFamilyIndex, uint32_t* pCounterCount, VkPerformanceCounterKHR* pCounters, VkPerformanceCounterDescriptionKHR* pCounterDescriptions); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceQueueFamilyPerformanceQueryPassesKHR( VkPhysicalDevice physicalDevice, const VkQueryPoolPerformanceCreateInfoKHR* pPerformanceQueryCreateInfo, uint32_t* pNumPasses); VKAPI_ATTR VkResult VKAPI_CALL vkAcquireProfilingLockKHR( VkDevice device, const VkAcquireProfilingLockInfoKHR* pInfo); VKAPI_ATTR void VKAPI_CALL vkReleaseProfilingLockKHR( VkDevice device); #endif #define VK_KHR_maintenance2 1 #define VK_KHR_MAINTENANCE_2_SPEC_VERSION 1 #define VK_KHR_MAINTENANCE_2_EXTENSION_NAME "VK_KHR_maintenance2" #define VK_KHR_MAINTENANCE2_SPEC_VERSION VK_KHR_MAINTENANCE_2_SPEC_VERSION #define VK_KHR_MAINTENANCE2_EXTENSION_NAME VK_KHR_MAINTENANCE_2_EXTENSION_NAME typedef VkPointClippingBehavior VkPointClippingBehaviorKHR; typedef VkTessellationDomainOrigin VkTessellationDomainOriginKHR; typedef VkPhysicalDevicePointClippingProperties VkPhysicalDevicePointClippingPropertiesKHR; typedef VkRenderPassInputAttachmentAspectCreateInfo VkRenderPassInputAttachmentAspectCreateInfoKHR; typedef VkInputAttachmentAspectReference VkInputAttachmentAspectReferenceKHR; typedef VkImageViewUsageCreateInfo VkImageViewUsageCreateInfoKHR; typedef VkPipelineTessellationDomainOriginStateCreateInfo VkPipelineTessellationDomainOriginStateCreateInfoKHR; #define VK_KHR_get_surface_capabilities2 1 #define VK_KHR_GET_SURFACE_CAPABILITIES_2_SPEC_VERSION 1 #define VK_KHR_GET_SURFACE_CAPABILITIES_2_EXTENSION_NAME "VK_KHR_get_surface_capabilities2" typedef struct VkPhysicalDeviceSurfaceInfo2KHR { VkStructureType sType; const void* pNext; VkSurfaceKHR surface; } VkPhysicalDeviceSurfaceInfo2KHR; typedef struct VkSurfaceCapabilities2KHR { VkStructureType sType; void* pNext; VkSurfaceCapabilitiesKHR surfaceCapabilities; } VkSurfaceCapabilities2KHR; typedef struct VkSurfaceFormat2KHR { VkStructureType sType; void* pNext; VkSurfaceFormatKHR surfaceFormat; } VkSurfaceFormat2KHR; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfaceCapabilities2KHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSurfaceInfo2KHR* pSurfaceInfo, VkSurfaceCapabilities2KHR* pSurfaceCapabilities); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfaceFormats2KHR)(VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSurfaceInfo2KHR* pSurfaceInfo, uint32_t* pSurfaceFormatCount, VkSurfaceFormat2KHR* pSurfaceFormats); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfaceCapabilities2KHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSurfaceInfo2KHR* pSurfaceInfo, VkSurfaceCapabilities2KHR* pSurfaceCapabilities); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfaceFormats2KHR( VkPhysicalDevice physicalDevice, const VkPhysicalDeviceSurfaceInfo2KHR* pSurfaceInfo, uint32_t* pSurfaceFormatCount, VkSurfaceFormat2KHR* pSurfaceFormats); #endif #define VK_KHR_variable_pointers 1 #define VK_KHR_VARIABLE_POINTERS_SPEC_VERSION 1 #define VK_KHR_VARIABLE_POINTERS_EXTENSION_NAME "VK_KHR_variable_pointers" typedef VkPhysicalDeviceVariablePointersFeatures VkPhysicalDeviceVariablePointerFeaturesKHR; typedef VkPhysicalDeviceVariablePointersFeatures VkPhysicalDeviceVariablePointersFeaturesKHR; #define VK_KHR_get_display_properties2 1 #define VK_KHR_GET_DISPLAY_PROPERTIES_2_SPEC_VERSION 1 #define VK_KHR_GET_DISPLAY_PROPERTIES_2_EXTENSION_NAME "VK_KHR_get_display_properties2" typedef struct VkDisplayProperties2KHR { VkStructureType sType; void* pNext; VkDisplayPropertiesKHR displayProperties; } VkDisplayProperties2KHR; typedef struct VkDisplayPlaneProperties2KHR { VkStructureType sType; void* pNext; VkDisplayPlanePropertiesKHR displayPlaneProperties; } VkDisplayPlaneProperties2KHR; typedef struct VkDisplayModeProperties2KHR { VkStructureType sType; void* pNext; VkDisplayModePropertiesKHR displayModeProperties; } VkDisplayModeProperties2KHR; typedef struct VkDisplayPlaneInfo2KHR { VkStructureType sType; const void* pNext; VkDisplayModeKHR mode; uint32_t planeIndex; } VkDisplayPlaneInfo2KHR; typedef struct VkDisplayPlaneCapabilities2KHR { VkStructureType sType; void* pNext; VkDisplayPlaneCapabilitiesKHR capabilities; } VkDisplayPlaneCapabilities2KHR; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceDisplayProperties2KHR)(VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayProperties2KHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceDisplayPlaneProperties2KHR)(VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayPlaneProperties2KHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetDisplayModeProperties2KHR)(VkPhysicalDevice physicalDevice, VkDisplayKHR display, uint32_t* pPropertyCount, VkDisplayModeProperties2KHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetDisplayPlaneCapabilities2KHR)(VkPhysicalDevice physicalDevice, const VkDisplayPlaneInfo2KHR* pDisplayPlaneInfo, VkDisplayPlaneCapabilities2KHR* pCapabilities); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceDisplayProperties2KHR( VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayProperties2KHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceDisplayPlaneProperties2KHR( VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkDisplayPlaneProperties2KHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetDisplayModeProperties2KHR( VkPhysicalDevice physicalDevice, VkDisplayKHR display, uint32_t* pPropertyCount, VkDisplayModeProperties2KHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetDisplayPlaneCapabilities2KHR( VkPhysicalDevice physicalDevice, const VkDisplayPlaneInfo2KHR* pDisplayPlaneInfo, VkDisplayPlaneCapabilities2KHR* pCapabilities); #endif #define VK_KHR_dedicated_allocation 1 #define VK_KHR_DEDICATED_ALLOCATION_SPEC_VERSION 3 #define VK_KHR_DEDICATED_ALLOCATION_EXTENSION_NAME "VK_KHR_dedicated_allocation" typedef VkMemoryDedicatedRequirements VkMemoryDedicatedRequirementsKHR; typedef VkMemoryDedicatedAllocateInfo VkMemoryDedicatedAllocateInfoKHR; #define VK_KHR_storage_buffer_storage_class 1 #define VK_KHR_STORAGE_BUFFER_STORAGE_CLASS_SPEC_VERSION 1 #define VK_KHR_STORAGE_BUFFER_STORAGE_CLASS_EXTENSION_NAME "VK_KHR_storage_buffer_storage_class" #define VK_KHR_relaxed_block_layout 1 #define VK_KHR_RELAXED_BLOCK_LAYOUT_SPEC_VERSION 1 #define VK_KHR_RELAXED_BLOCK_LAYOUT_EXTENSION_NAME "VK_KHR_relaxed_block_layout" #define VK_KHR_get_memory_requirements2 1 #define VK_KHR_GET_MEMORY_REQUIREMENTS_2_SPEC_VERSION 1 #define VK_KHR_GET_MEMORY_REQUIREMENTS_2_EXTENSION_NAME "VK_KHR_get_memory_requirements2" typedef VkBufferMemoryRequirementsInfo2 VkBufferMemoryRequirementsInfo2KHR; typedef VkImageMemoryRequirementsInfo2 VkImageMemoryRequirementsInfo2KHR; typedef VkImageSparseMemoryRequirementsInfo2 VkImageSparseMemoryRequirementsInfo2KHR; typedef VkMemoryRequirements2 VkMemoryRequirements2KHR; typedef VkSparseImageMemoryRequirements2 VkSparseImageMemoryRequirements2KHR; typedef void (VKAPI_PTR *PFN_vkGetImageMemoryRequirements2KHR)(VkDevice device, const VkImageMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetBufferMemoryRequirements2KHR)(VkDevice device, const VkBufferMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetImageSparseMemoryRequirements2KHR)(VkDevice device, const VkImageSparseMemoryRequirementsInfo2* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetImageMemoryRequirements2KHR( VkDevice device, const VkImageMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetBufferMemoryRequirements2KHR( VkDevice device, const VkBufferMemoryRequirementsInfo2* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetImageSparseMemoryRequirements2KHR( VkDevice device, const VkImageSparseMemoryRequirementsInfo2* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); #endif #define VK_KHR_image_format_list 1 #define VK_KHR_IMAGE_FORMAT_LIST_SPEC_VERSION 1 #define VK_KHR_IMAGE_FORMAT_LIST_EXTENSION_NAME "VK_KHR_image_format_list" typedef VkImageFormatListCreateInfo VkImageFormatListCreateInfoKHR; #define VK_KHR_sampler_ycbcr_conversion 1 typedef VkSamplerYcbcrConversion VkSamplerYcbcrConversionKHR; #define VK_KHR_SAMPLER_YCBCR_CONVERSION_SPEC_VERSION 14 #define VK_KHR_SAMPLER_YCBCR_CONVERSION_EXTENSION_NAME "VK_KHR_sampler_ycbcr_conversion" typedef VkSamplerYcbcrModelConversion VkSamplerYcbcrModelConversionKHR; typedef VkSamplerYcbcrRange VkSamplerYcbcrRangeKHR; typedef VkChromaLocation VkChromaLocationKHR; typedef VkSamplerYcbcrConversionCreateInfo VkSamplerYcbcrConversionCreateInfoKHR; typedef VkSamplerYcbcrConversionInfo VkSamplerYcbcrConversionInfoKHR; typedef VkBindImagePlaneMemoryInfo VkBindImagePlaneMemoryInfoKHR; typedef VkImagePlaneMemoryRequirementsInfo VkImagePlaneMemoryRequirementsInfoKHR; typedef VkPhysicalDeviceSamplerYcbcrConversionFeatures VkPhysicalDeviceSamplerYcbcrConversionFeaturesKHR; typedef VkSamplerYcbcrConversionImageFormatProperties VkSamplerYcbcrConversionImageFormatPropertiesKHR; typedef VkResult (VKAPI_PTR *PFN_vkCreateSamplerYcbcrConversionKHR)(VkDevice device, const VkSamplerYcbcrConversionCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSamplerYcbcrConversion* pYcbcrConversion); typedef void (VKAPI_PTR *PFN_vkDestroySamplerYcbcrConversionKHR)(VkDevice device, VkSamplerYcbcrConversion ycbcrConversion, const VkAllocationCallbacks* pAllocator); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateSamplerYcbcrConversionKHR( VkDevice device, const VkSamplerYcbcrConversionCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSamplerYcbcrConversion* pYcbcrConversion); VKAPI_ATTR void VKAPI_CALL vkDestroySamplerYcbcrConversionKHR( VkDevice device, VkSamplerYcbcrConversion ycbcrConversion, const VkAllocationCallbacks* pAllocator); #endif #define VK_KHR_bind_memory2 1 #define VK_KHR_BIND_MEMORY_2_SPEC_VERSION 1 #define VK_KHR_BIND_MEMORY_2_EXTENSION_NAME "VK_KHR_bind_memory2" typedef VkBindBufferMemoryInfo VkBindBufferMemoryInfoKHR; typedef VkBindImageMemoryInfo VkBindImageMemoryInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkBindBufferMemory2KHR)(VkDevice device, uint32_t bindInfoCount, const VkBindBufferMemoryInfo* pBindInfos); typedef VkResult (VKAPI_PTR *PFN_vkBindImageMemory2KHR)(VkDevice device, uint32_t bindInfoCount, const VkBindImageMemoryInfo* pBindInfos); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkBindBufferMemory2KHR( VkDevice device, uint32_t bindInfoCount, const VkBindBufferMemoryInfo* pBindInfos); VKAPI_ATTR VkResult VKAPI_CALL vkBindImageMemory2KHR( VkDevice device, uint32_t bindInfoCount, const VkBindImageMemoryInfo* pBindInfos); #endif #define VK_KHR_maintenance3 1 #define VK_KHR_MAINTENANCE_3_SPEC_VERSION 1 #define VK_KHR_MAINTENANCE_3_EXTENSION_NAME "VK_KHR_maintenance3" #define VK_KHR_MAINTENANCE3_SPEC_VERSION VK_KHR_MAINTENANCE_3_SPEC_VERSION #define VK_KHR_MAINTENANCE3_EXTENSION_NAME VK_KHR_MAINTENANCE_3_EXTENSION_NAME typedef VkPhysicalDeviceMaintenance3Properties VkPhysicalDeviceMaintenance3PropertiesKHR; typedef VkDescriptorSetLayoutSupport VkDescriptorSetLayoutSupportKHR; typedef void (VKAPI_PTR *PFN_vkGetDescriptorSetLayoutSupportKHR)(VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, VkDescriptorSetLayoutSupport* pSupport); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetDescriptorSetLayoutSupportKHR( VkDevice device, const VkDescriptorSetLayoutCreateInfo* pCreateInfo, VkDescriptorSetLayoutSupport* pSupport); #endif #define VK_KHR_draw_indirect_count 1 #define VK_KHR_DRAW_INDIRECT_COUNT_SPEC_VERSION 1 #define VK_KHR_DRAW_INDIRECT_COUNT_EXTENSION_NAME "VK_KHR_draw_indirect_count" typedef void (VKAPI_PTR *PFN_vkCmdDrawIndirectCountKHR)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndexedIndirectCountKHR)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndirectCountKHR( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndexedIndirectCountKHR( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #endif #define VK_KHR_shader_subgroup_extended_types 1 #define VK_KHR_SHADER_SUBGROUP_EXTENDED_TYPES_SPEC_VERSION 1 #define VK_KHR_SHADER_SUBGROUP_EXTENDED_TYPES_EXTENSION_NAME "VK_KHR_shader_subgroup_extended_types" typedef VkPhysicalDeviceShaderSubgroupExtendedTypesFeatures VkPhysicalDeviceShaderSubgroupExtendedTypesFeaturesKHR; #define VK_KHR_8bit_storage 1 #define VK_KHR_8BIT_STORAGE_SPEC_VERSION 1 #define VK_KHR_8BIT_STORAGE_EXTENSION_NAME "VK_KHR_8bit_storage" typedef VkPhysicalDevice8BitStorageFeatures VkPhysicalDevice8BitStorageFeaturesKHR; #define VK_KHR_shader_atomic_int64 1 #define VK_KHR_SHADER_ATOMIC_INT64_SPEC_VERSION 1 #define VK_KHR_SHADER_ATOMIC_INT64_EXTENSION_NAME "VK_KHR_shader_atomic_int64" typedef VkPhysicalDeviceShaderAtomicInt64Features VkPhysicalDeviceShaderAtomicInt64FeaturesKHR; #define VK_KHR_shader_clock 1 #define VK_KHR_SHADER_CLOCK_SPEC_VERSION 1 #define VK_KHR_SHADER_CLOCK_EXTENSION_NAME "VK_KHR_shader_clock" typedef struct VkPhysicalDeviceShaderClockFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 shaderSubgroupClock; VkBool32 shaderDeviceClock; } VkPhysicalDeviceShaderClockFeaturesKHR; #define VK_KHR_global_priority 1 #define VK_MAX_GLOBAL_PRIORITY_SIZE_KHR 16U #define VK_KHR_GLOBAL_PRIORITY_SPEC_VERSION 1 #define VK_KHR_GLOBAL_PRIORITY_EXTENSION_NAME "VK_KHR_global_priority" typedef enum VkQueueGlobalPriorityKHR { VK_QUEUE_GLOBAL_PRIORITY_LOW_KHR = 128, VK_QUEUE_GLOBAL_PRIORITY_MEDIUM_KHR = 256, VK_QUEUE_GLOBAL_PRIORITY_HIGH_KHR = 512, VK_QUEUE_GLOBAL_PRIORITY_REALTIME_KHR = 1024, VK_QUEUE_GLOBAL_PRIORITY_LOW_EXT = VK_QUEUE_GLOBAL_PRIORITY_LOW_KHR, VK_QUEUE_GLOBAL_PRIORITY_MEDIUM_EXT = VK_QUEUE_GLOBAL_PRIORITY_MEDIUM_KHR, VK_QUEUE_GLOBAL_PRIORITY_HIGH_EXT = VK_QUEUE_GLOBAL_PRIORITY_HIGH_KHR, VK_QUEUE_GLOBAL_PRIORITY_REALTIME_EXT = VK_QUEUE_GLOBAL_PRIORITY_REALTIME_KHR, VK_QUEUE_GLOBAL_PRIORITY_MAX_ENUM_KHR = 0x7FFFFFFF } VkQueueGlobalPriorityKHR; typedef struct VkDeviceQueueGlobalPriorityCreateInfoKHR { VkStructureType sType; const void* pNext; VkQueueGlobalPriorityKHR globalPriority; } VkDeviceQueueGlobalPriorityCreateInfoKHR; typedef struct VkPhysicalDeviceGlobalPriorityQueryFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 globalPriorityQuery; } VkPhysicalDeviceGlobalPriorityQueryFeaturesKHR; typedef struct VkQueueFamilyGlobalPriorityPropertiesKHR { VkStructureType sType; void* pNext; uint32_t priorityCount; VkQueueGlobalPriorityKHR priorities[VK_MAX_GLOBAL_PRIORITY_SIZE_KHR]; } VkQueueFamilyGlobalPriorityPropertiesKHR; #define VK_KHR_driver_properties 1 #define VK_KHR_DRIVER_PROPERTIES_SPEC_VERSION 1 #define VK_KHR_DRIVER_PROPERTIES_EXTENSION_NAME "VK_KHR_driver_properties" #define VK_MAX_DRIVER_NAME_SIZE_KHR VK_MAX_DRIVER_NAME_SIZE #define VK_MAX_DRIVER_INFO_SIZE_KHR VK_MAX_DRIVER_INFO_SIZE typedef VkDriverId VkDriverIdKHR; typedef VkConformanceVersion VkConformanceVersionKHR; typedef VkPhysicalDeviceDriverProperties VkPhysicalDeviceDriverPropertiesKHR; #define VK_KHR_shader_float_controls 1 #define VK_KHR_SHADER_FLOAT_CONTROLS_SPEC_VERSION 4 #define VK_KHR_SHADER_FLOAT_CONTROLS_EXTENSION_NAME "VK_KHR_shader_float_controls" typedef VkShaderFloatControlsIndependence VkShaderFloatControlsIndependenceKHR; typedef VkPhysicalDeviceFloatControlsProperties VkPhysicalDeviceFloatControlsPropertiesKHR; #define VK_KHR_depth_stencil_resolve 1 #define VK_KHR_DEPTH_STENCIL_RESOLVE_SPEC_VERSION 1 #define VK_KHR_DEPTH_STENCIL_RESOLVE_EXTENSION_NAME "VK_KHR_depth_stencil_resolve" typedef VkResolveModeFlagBits VkResolveModeFlagBitsKHR; typedef VkResolveModeFlags VkResolveModeFlagsKHR; typedef VkSubpassDescriptionDepthStencilResolve VkSubpassDescriptionDepthStencilResolveKHR; typedef VkPhysicalDeviceDepthStencilResolveProperties VkPhysicalDeviceDepthStencilResolvePropertiesKHR; #define VK_KHR_swapchain_mutable_format 1 #define VK_KHR_SWAPCHAIN_MUTABLE_FORMAT_SPEC_VERSION 1 #define VK_KHR_SWAPCHAIN_MUTABLE_FORMAT_EXTENSION_NAME "VK_KHR_swapchain_mutable_format" #define VK_KHR_timeline_semaphore 1 #define VK_KHR_TIMELINE_SEMAPHORE_SPEC_VERSION 2 #define VK_KHR_TIMELINE_SEMAPHORE_EXTENSION_NAME "VK_KHR_timeline_semaphore" typedef VkSemaphoreType VkSemaphoreTypeKHR; typedef VkSemaphoreWaitFlagBits VkSemaphoreWaitFlagBitsKHR; typedef VkSemaphoreWaitFlags VkSemaphoreWaitFlagsKHR; typedef VkPhysicalDeviceTimelineSemaphoreFeatures VkPhysicalDeviceTimelineSemaphoreFeaturesKHR; typedef VkPhysicalDeviceTimelineSemaphoreProperties VkPhysicalDeviceTimelineSemaphorePropertiesKHR; typedef VkSemaphoreTypeCreateInfo VkSemaphoreTypeCreateInfoKHR; typedef VkTimelineSemaphoreSubmitInfo VkTimelineSemaphoreSubmitInfoKHR; typedef VkSemaphoreWaitInfo VkSemaphoreWaitInfoKHR; typedef VkSemaphoreSignalInfo VkSemaphoreSignalInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkGetSemaphoreCounterValueKHR)(VkDevice device, VkSemaphore semaphore, uint64_t* pValue); typedef VkResult (VKAPI_PTR *PFN_vkWaitSemaphoresKHR)(VkDevice device, const VkSemaphoreWaitInfo* pWaitInfo, uint64_t timeout); typedef VkResult (VKAPI_PTR *PFN_vkSignalSemaphoreKHR)(VkDevice device, const VkSemaphoreSignalInfo* pSignalInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetSemaphoreCounterValueKHR( VkDevice device, VkSemaphore semaphore, uint64_t* pValue); VKAPI_ATTR VkResult VKAPI_CALL vkWaitSemaphoresKHR( VkDevice device, const VkSemaphoreWaitInfo* pWaitInfo, uint64_t timeout); VKAPI_ATTR VkResult VKAPI_CALL vkSignalSemaphoreKHR( VkDevice device, const VkSemaphoreSignalInfo* pSignalInfo); #endif #define VK_KHR_vulkan_memory_model 1 #define VK_KHR_VULKAN_MEMORY_MODEL_SPEC_VERSION 3 #define VK_KHR_VULKAN_MEMORY_MODEL_EXTENSION_NAME "VK_KHR_vulkan_memory_model" typedef VkPhysicalDeviceVulkanMemoryModelFeatures VkPhysicalDeviceVulkanMemoryModelFeaturesKHR; #define VK_KHR_shader_terminate_invocation 1 #define VK_KHR_SHADER_TERMINATE_INVOCATION_SPEC_VERSION 1 #define VK_KHR_SHADER_TERMINATE_INVOCATION_EXTENSION_NAME "VK_KHR_shader_terminate_invocation" typedef VkPhysicalDeviceShaderTerminateInvocationFeatures VkPhysicalDeviceShaderTerminateInvocationFeaturesKHR; #define VK_KHR_fragment_shading_rate 1 #define VK_KHR_FRAGMENT_SHADING_RATE_SPEC_VERSION 2 #define VK_KHR_FRAGMENT_SHADING_RATE_EXTENSION_NAME "VK_KHR_fragment_shading_rate" typedef enum VkFragmentShadingRateCombinerOpKHR { VK_FRAGMENT_SHADING_RATE_COMBINER_OP_KEEP_KHR = 0, VK_FRAGMENT_SHADING_RATE_COMBINER_OP_REPLACE_KHR = 1, VK_FRAGMENT_SHADING_RATE_COMBINER_OP_MIN_KHR = 2, VK_FRAGMENT_SHADING_RATE_COMBINER_OP_MAX_KHR = 3, VK_FRAGMENT_SHADING_RATE_COMBINER_OP_MUL_KHR = 4, VK_FRAGMENT_SHADING_RATE_COMBINER_OP_MAX_ENUM_KHR = 0x7FFFFFFF } VkFragmentShadingRateCombinerOpKHR; typedef struct VkFragmentShadingRateAttachmentInfoKHR { VkStructureType sType; const void* pNext; const VkAttachmentReference2* pFragmentShadingRateAttachment; VkExtent2D shadingRateAttachmentTexelSize; } VkFragmentShadingRateAttachmentInfoKHR; typedef struct VkPipelineFragmentShadingRateStateCreateInfoKHR { VkStructureType sType; const void* pNext; VkExtent2D fragmentSize; VkFragmentShadingRateCombinerOpKHR combinerOps[2]; } VkPipelineFragmentShadingRateStateCreateInfoKHR; typedef struct VkPhysicalDeviceFragmentShadingRateFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 pipelineFragmentShadingRate; VkBool32 primitiveFragmentShadingRate; VkBool32 attachmentFragmentShadingRate; } VkPhysicalDeviceFragmentShadingRateFeaturesKHR; typedef struct VkPhysicalDeviceFragmentShadingRatePropertiesKHR { VkStructureType sType; void* pNext; VkExtent2D minFragmentShadingRateAttachmentTexelSize; VkExtent2D maxFragmentShadingRateAttachmentTexelSize; uint32_t maxFragmentShadingRateAttachmentTexelSizeAspectRatio; VkBool32 primitiveFragmentShadingRateWithMultipleViewports; VkBool32 layeredShadingRateAttachments; VkBool32 fragmentShadingRateNonTrivialCombinerOps; VkExtent2D maxFragmentSize; uint32_t maxFragmentSizeAspectRatio; uint32_t maxFragmentShadingRateCoverageSamples; VkSampleCountFlagBits maxFragmentShadingRateRasterizationSamples; VkBool32 fragmentShadingRateWithShaderDepthStencilWrites; VkBool32 fragmentShadingRateWithSampleMask; VkBool32 fragmentShadingRateWithShaderSampleMask; VkBool32 fragmentShadingRateWithConservativeRasterization; VkBool32 fragmentShadingRateWithFragmentShaderInterlock; VkBool32 fragmentShadingRateWithCustomSampleLocations; VkBool32 fragmentShadingRateStrictMultiplyCombiner; } VkPhysicalDeviceFragmentShadingRatePropertiesKHR; typedef struct VkPhysicalDeviceFragmentShadingRateKHR { VkStructureType sType; void* pNext; VkSampleCountFlags sampleCounts; VkExtent2D fragmentSize; } VkPhysicalDeviceFragmentShadingRateKHR; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceFragmentShadingRatesKHR)(VkPhysicalDevice physicalDevice, uint32_t* pFragmentShadingRateCount, VkPhysicalDeviceFragmentShadingRateKHR* pFragmentShadingRates); typedef void (VKAPI_PTR *PFN_vkCmdSetFragmentShadingRateKHR)(VkCommandBuffer commandBuffer, const VkExtent2D* pFragmentSize, const VkFragmentShadingRateCombinerOpKHR combinerOps[2]); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceFragmentShadingRatesKHR( VkPhysicalDevice physicalDevice, uint32_t* pFragmentShadingRateCount, VkPhysicalDeviceFragmentShadingRateKHR* pFragmentShadingRates); VKAPI_ATTR void VKAPI_CALL vkCmdSetFragmentShadingRateKHR( VkCommandBuffer commandBuffer, const VkExtent2D* pFragmentSize, const VkFragmentShadingRateCombinerOpKHR combinerOps[2]); #endif #define VK_KHR_spirv_1_4 1 #define VK_KHR_SPIRV_1_4_SPEC_VERSION 1 #define VK_KHR_SPIRV_1_4_EXTENSION_NAME "VK_KHR_spirv_1_4" #define VK_KHR_surface_protected_capabilities 1 #define VK_KHR_SURFACE_PROTECTED_CAPABILITIES_SPEC_VERSION 1 #define VK_KHR_SURFACE_PROTECTED_CAPABILITIES_EXTENSION_NAME "VK_KHR_surface_protected_capabilities" typedef struct VkSurfaceProtectedCapabilitiesKHR { VkStructureType sType; const void* pNext; VkBool32 supportsProtected; } VkSurfaceProtectedCapabilitiesKHR; #define VK_KHR_separate_depth_stencil_layouts 1 #define VK_KHR_SEPARATE_DEPTH_STENCIL_LAYOUTS_SPEC_VERSION 1 #define VK_KHR_SEPARATE_DEPTH_STENCIL_LAYOUTS_EXTENSION_NAME "VK_KHR_separate_depth_stencil_layouts" typedef VkPhysicalDeviceSeparateDepthStencilLayoutsFeatures VkPhysicalDeviceSeparateDepthStencilLayoutsFeaturesKHR; typedef VkAttachmentReferenceStencilLayout VkAttachmentReferenceStencilLayoutKHR; typedef VkAttachmentDescriptionStencilLayout VkAttachmentDescriptionStencilLayoutKHR; #define VK_KHR_present_wait 1 #define VK_KHR_PRESENT_WAIT_SPEC_VERSION 1 #define VK_KHR_PRESENT_WAIT_EXTENSION_NAME "VK_KHR_present_wait" typedef struct VkPhysicalDevicePresentWaitFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 presentWait; } VkPhysicalDevicePresentWaitFeaturesKHR; typedef VkResult (VKAPI_PTR *PFN_vkWaitForPresentKHR)(VkDevice device, VkSwapchainKHR swapchain, uint64_t presentId, uint64_t timeout); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkWaitForPresentKHR( VkDevice device, VkSwapchainKHR swapchain, uint64_t presentId, uint64_t timeout); #endif #define VK_KHR_uniform_buffer_standard_layout 1 #define VK_KHR_UNIFORM_BUFFER_STANDARD_LAYOUT_SPEC_VERSION 1 #define VK_KHR_UNIFORM_BUFFER_STANDARD_LAYOUT_EXTENSION_NAME "VK_KHR_uniform_buffer_standard_layout" typedef VkPhysicalDeviceUniformBufferStandardLayoutFeatures VkPhysicalDeviceUniformBufferStandardLayoutFeaturesKHR; #define VK_KHR_buffer_device_address 1 #define VK_KHR_BUFFER_DEVICE_ADDRESS_SPEC_VERSION 1 #define VK_KHR_BUFFER_DEVICE_ADDRESS_EXTENSION_NAME "VK_KHR_buffer_device_address" typedef VkPhysicalDeviceBufferDeviceAddressFeatures VkPhysicalDeviceBufferDeviceAddressFeaturesKHR; typedef VkBufferDeviceAddressInfo VkBufferDeviceAddressInfoKHR; typedef VkBufferOpaqueCaptureAddressCreateInfo VkBufferOpaqueCaptureAddressCreateInfoKHR; typedef VkMemoryOpaqueCaptureAddressAllocateInfo VkMemoryOpaqueCaptureAddressAllocateInfoKHR; typedef VkDeviceMemoryOpaqueCaptureAddressInfo VkDeviceMemoryOpaqueCaptureAddressInfoKHR; typedef VkDeviceAddress (VKAPI_PTR *PFN_vkGetBufferDeviceAddressKHR)(VkDevice device, const VkBufferDeviceAddressInfo* pInfo); typedef uint64_t (VKAPI_PTR *PFN_vkGetBufferOpaqueCaptureAddressKHR)(VkDevice device, const VkBufferDeviceAddressInfo* pInfo); typedef uint64_t (VKAPI_PTR *PFN_vkGetDeviceMemoryOpaqueCaptureAddressKHR)(VkDevice device, const VkDeviceMemoryOpaqueCaptureAddressInfo* pInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkDeviceAddress VKAPI_CALL vkGetBufferDeviceAddressKHR( VkDevice device, const VkBufferDeviceAddressInfo* pInfo); VKAPI_ATTR uint64_t VKAPI_CALL vkGetBufferOpaqueCaptureAddressKHR( VkDevice device, const VkBufferDeviceAddressInfo* pInfo); VKAPI_ATTR uint64_t VKAPI_CALL vkGetDeviceMemoryOpaqueCaptureAddressKHR( VkDevice device, const VkDeviceMemoryOpaqueCaptureAddressInfo* pInfo); #endif #define VK_KHR_deferred_host_operations 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDeferredOperationKHR) #define VK_KHR_DEFERRED_HOST_OPERATIONS_SPEC_VERSION 4 #define VK_KHR_DEFERRED_HOST_OPERATIONS_EXTENSION_NAME "VK_KHR_deferred_host_operations" typedef VkResult (VKAPI_PTR *PFN_vkCreateDeferredOperationKHR)(VkDevice device, const VkAllocationCallbacks* pAllocator, VkDeferredOperationKHR* pDeferredOperation); typedef void (VKAPI_PTR *PFN_vkDestroyDeferredOperationKHR)(VkDevice device, VkDeferredOperationKHR operation, const VkAllocationCallbacks* pAllocator); typedef uint32_t (VKAPI_PTR *PFN_vkGetDeferredOperationMaxConcurrencyKHR)(VkDevice device, VkDeferredOperationKHR operation); typedef VkResult (VKAPI_PTR *PFN_vkGetDeferredOperationResultKHR)(VkDevice device, VkDeferredOperationKHR operation); typedef VkResult (VKAPI_PTR *PFN_vkDeferredOperationJoinKHR)(VkDevice device, VkDeferredOperationKHR operation); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateDeferredOperationKHR( VkDevice device, const VkAllocationCallbacks* pAllocator, VkDeferredOperationKHR* pDeferredOperation); VKAPI_ATTR void VKAPI_CALL vkDestroyDeferredOperationKHR( VkDevice device, VkDeferredOperationKHR operation, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR uint32_t VKAPI_CALL vkGetDeferredOperationMaxConcurrencyKHR( VkDevice device, VkDeferredOperationKHR operation); VKAPI_ATTR VkResult VKAPI_CALL vkGetDeferredOperationResultKHR( VkDevice device, VkDeferredOperationKHR operation); VKAPI_ATTR VkResult VKAPI_CALL vkDeferredOperationJoinKHR( VkDevice device, VkDeferredOperationKHR operation); #endif #define VK_KHR_pipeline_executable_properties 1 #define VK_KHR_PIPELINE_EXECUTABLE_PROPERTIES_SPEC_VERSION 1 #define VK_KHR_PIPELINE_EXECUTABLE_PROPERTIES_EXTENSION_NAME "VK_KHR_pipeline_executable_properties" typedef enum VkPipelineExecutableStatisticFormatKHR { VK_PIPELINE_EXECUTABLE_STATISTIC_FORMAT_BOOL32_KHR = 0, VK_PIPELINE_EXECUTABLE_STATISTIC_FORMAT_INT64_KHR = 1, VK_PIPELINE_EXECUTABLE_STATISTIC_FORMAT_UINT64_KHR = 2, VK_PIPELINE_EXECUTABLE_STATISTIC_FORMAT_FLOAT64_KHR = 3, VK_PIPELINE_EXECUTABLE_STATISTIC_FORMAT_MAX_ENUM_KHR = 0x7FFFFFFF } VkPipelineExecutableStatisticFormatKHR; typedef struct VkPhysicalDevicePipelineExecutablePropertiesFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 pipelineExecutableInfo; } VkPhysicalDevicePipelineExecutablePropertiesFeaturesKHR; typedef struct VkPipelineInfoKHR { VkStructureType sType; const void* pNext; VkPipeline pipeline; } VkPipelineInfoKHR; typedef struct VkPipelineExecutablePropertiesKHR { VkStructureType sType; void* pNext; VkShaderStageFlags stages; char name[VK_MAX_DESCRIPTION_SIZE]; char description[VK_MAX_DESCRIPTION_SIZE]; uint32_t subgroupSize; } VkPipelineExecutablePropertiesKHR; typedef struct VkPipelineExecutableInfoKHR { VkStructureType sType; const void* pNext; VkPipeline pipeline; uint32_t executableIndex; } VkPipelineExecutableInfoKHR; typedef union VkPipelineExecutableStatisticValueKHR { VkBool32 b32; int64_t i64; uint64_t u64; double f64; } VkPipelineExecutableStatisticValueKHR; typedef struct VkPipelineExecutableStatisticKHR { VkStructureType sType; void* pNext; char name[VK_MAX_DESCRIPTION_SIZE]; char description[VK_MAX_DESCRIPTION_SIZE]; VkPipelineExecutableStatisticFormatKHR format; VkPipelineExecutableStatisticValueKHR value; } VkPipelineExecutableStatisticKHR; typedef struct VkPipelineExecutableInternalRepresentationKHR { VkStructureType sType; void* pNext; char name[VK_MAX_DESCRIPTION_SIZE]; char description[VK_MAX_DESCRIPTION_SIZE]; VkBool32 isText; size_t dataSize; void* pData; } VkPipelineExecutableInternalRepresentationKHR; typedef VkResult (VKAPI_PTR *PFN_vkGetPipelineExecutablePropertiesKHR)(VkDevice device, const VkPipelineInfoKHR* pPipelineInfo, uint32_t* pExecutableCount, VkPipelineExecutablePropertiesKHR* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPipelineExecutableStatisticsKHR)(VkDevice device, const VkPipelineExecutableInfoKHR* pExecutableInfo, uint32_t* pStatisticCount, VkPipelineExecutableStatisticKHR* pStatistics); typedef VkResult (VKAPI_PTR *PFN_vkGetPipelineExecutableInternalRepresentationsKHR)(VkDevice device, const VkPipelineExecutableInfoKHR* pExecutableInfo, uint32_t* pInternalRepresentationCount, VkPipelineExecutableInternalRepresentationKHR* pInternalRepresentations); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPipelineExecutablePropertiesKHR( VkDevice device, const VkPipelineInfoKHR* pPipelineInfo, uint32_t* pExecutableCount, VkPipelineExecutablePropertiesKHR* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPipelineExecutableStatisticsKHR( VkDevice device, const VkPipelineExecutableInfoKHR* pExecutableInfo, uint32_t* pStatisticCount, VkPipelineExecutableStatisticKHR* pStatistics); VKAPI_ATTR VkResult VKAPI_CALL vkGetPipelineExecutableInternalRepresentationsKHR( VkDevice device, const VkPipelineExecutableInfoKHR* pExecutableInfo, uint32_t* pInternalRepresentationCount, VkPipelineExecutableInternalRepresentationKHR* pInternalRepresentations); #endif #define VK_KHR_shader_integer_dot_product 1 #define VK_KHR_SHADER_INTEGER_DOT_PRODUCT_SPEC_VERSION 1 #define VK_KHR_SHADER_INTEGER_DOT_PRODUCT_EXTENSION_NAME "VK_KHR_shader_integer_dot_product" typedef VkPhysicalDeviceShaderIntegerDotProductFeatures VkPhysicalDeviceShaderIntegerDotProductFeaturesKHR; typedef VkPhysicalDeviceShaderIntegerDotProductProperties VkPhysicalDeviceShaderIntegerDotProductPropertiesKHR; #define VK_KHR_pipeline_library 1 #define VK_KHR_PIPELINE_LIBRARY_SPEC_VERSION 1 #define VK_KHR_PIPELINE_LIBRARY_EXTENSION_NAME "VK_KHR_pipeline_library" typedef struct VkPipelineLibraryCreateInfoKHR { VkStructureType sType; const void* pNext; uint32_t libraryCount; const VkPipeline* pLibraries; } VkPipelineLibraryCreateInfoKHR; #define VK_KHR_shader_non_semantic_info 1 #define VK_KHR_SHADER_NON_SEMANTIC_INFO_SPEC_VERSION 1 #define VK_KHR_SHADER_NON_SEMANTIC_INFO_EXTENSION_NAME "VK_KHR_shader_non_semantic_info" #define VK_KHR_present_id 1 #define VK_KHR_PRESENT_ID_SPEC_VERSION 1 #define VK_KHR_PRESENT_ID_EXTENSION_NAME "VK_KHR_present_id" typedef struct VkPresentIdKHR { VkStructureType sType; const void* pNext; uint32_t swapchainCount; const uint64_t* pPresentIds; } VkPresentIdKHR; typedef struct VkPhysicalDevicePresentIdFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 presentId; } VkPhysicalDevicePresentIdFeaturesKHR; #define VK_KHR_synchronization2 1 #define VK_KHR_SYNCHRONIZATION_2_SPEC_VERSION 1 #define VK_KHR_SYNCHRONIZATION_2_EXTENSION_NAME "VK_KHR_synchronization2" typedef VkPipelineStageFlags2 VkPipelineStageFlags2KHR; typedef VkPipelineStageFlagBits2 VkPipelineStageFlagBits2KHR; typedef VkAccessFlags2 VkAccessFlags2KHR; typedef VkAccessFlagBits2 VkAccessFlagBits2KHR; typedef VkSubmitFlagBits VkSubmitFlagBitsKHR; typedef VkSubmitFlags VkSubmitFlagsKHR; typedef VkMemoryBarrier2 VkMemoryBarrier2KHR; typedef VkBufferMemoryBarrier2 VkBufferMemoryBarrier2KHR; typedef VkImageMemoryBarrier2 VkImageMemoryBarrier2KHR; typedef VkDependencyInfo VkDependencyInfoKHR; typedef VkSubmitInfo2 VkSubmitInfo2KHR; typedef VkSemaphoreSubmitInfo VkSemaphoreSubmitInfoKHR; typedef VkCommandBufferSubmitInfo VkCommandBufferSubmitInfoKHR; typedef VkPhysicalDeviceSynchronization2Features VkPhysicalDeviceSynchronization2FeaturesKHR; typedef struct VkQueueFamilyCheckpointProperties2NV { VkStructureType sType; void* pNext; VkPipelineStageFlags2 checkpointExecutionStageMask; } VkQueueFamilyCheckpointProperties2NV; typedef struct VkCheckpointData2NV { VkStructureType sType; void* pNext; VkPipelineStageFlags2 stage; void* pCheckpointMarker; } VkCheckpointData2NV; typedef void (VKAPI_PTR *PFN_vkCmdSetEvent2KHR)(VkCommandBuffer commandBuffer, VkEvent event, const VkDependencyInfo* pDependencyInfo); typedef void (VKAPI_PTR *PFN_vkCmdResetEvent2KHR)(VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags2 stageMask); typedef void (VKAPI_PTR *PFN_vkCmdWaitEvents2KHR)(VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, const VkDependencyInfo* pDependencyInfos); typedef void (VKAPI_PTR *PFN_vkCmdPipelineBarrier2KHR)(VkCommandBuffer commandBuffer, const VkDependencyInfo* pDependencyInfo); typedef void (VKAPI_PTR *PFN_vkCmdWriteTimestamp2KHR)(VkCommandBuffer commandBuffer, VkPipelineStageFlags2 stage, VkQueryPool queryPool, uint32_t query); typedef VkResult (VKAPI_PTR *PFN_vkQueueSubmit2KHR)(VkQueue queue, uint32_t submitCount, const VkSubmitInfo2* pSubmits, VkFence fence); typedef void (VKAPI_PTR *PFN_vkCmdWriteBufferMarker2AMD)(VkCommandBuffer commandBuffer, VkPipelineStageFlags2 stage, VkBuffer dstBuffer, VkDeviceSize dstOffset, uint32_t marker); typedef void (VKAPI_PTR *PFN_vkGetQueueCheckpointData2NV)(VkQueue queue, uint32_t* pCheckpointDataCount, VkCheckpointData2NV* pCheckpointData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetEvent2KHR( VkCommandBuffer commandBuffer, VkEvent event, const VkDependencyInfo* pDependencyInfo); VKAPI_ATTR void VKAPI_CALL vkCmdResetEvent2KHR( VkCommandBuffer commandBuffer, VkEvent event, VkPipelineStageFlags2 stageMask); VKAPI_ATTR void VKAPI_CALL vkCmdWaitEvents2KHR( VkCommandBuffer commandBuffer, uint32_t eventCount, const VkEvent* pEvents, const VkDependencyInfo* pDependencyInfos); VKAPI_ATTR void VKAPI_CALL vkCmdPipelineBarrier2KHR( VkCommandBuffer commandBuffer, const VkDependencyInfo* pDependencyInfo); VKAPI_ATTR void VKAPI_CALL vkCmdWriteTimestamp2KHR( VkCommandBuffer commandBuffer, VkPipelineStageFlags2 stage, VkQueryPool queryPool, uint32_t query); VKAPI_ATTR VkResult VKAPI_CALL vkQueueSubmit2KHR( VkQueue queue, uint32_t submitCount, const VkSubmitInfo2* pSubmits, VkFence fence); VKAPI_ATTR void VKAPI_CALL vkCmdWriteBufferMarker2AMD( VkCommandBuffer commandBuffer, VkPipelineStageFlags2 stage, VkBuffer dstBuffer, VkDeviceSize dstOffset, uint32_t marker); VKAPI_ATTR void VKAPI_CALL vkGetQueueCheckpointData2NV( VkQueue queue, uint32_t* pCheckpointDataCount, VkCheckpointData2NV* pCheckpointData); #endif #define VK_KHR_fragment_shader_barycentric 1 #define VK_KHR_FRAGMENT_SHADER_BARYCENTRIC_SPEC_VERSION 1 #define VK_KHR_FRAGMENT_SHADER_BARYCENTRIC_EXTENSION_NAME "VK_KHR_fragment_shader_barycentric" typedef struct VkPhysicalDeviceFragmentShaderBarycentricFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 fragmentShaderBarycentric; } VkPhysicalDeviceFragmentShaderBarycentricFeaturesKHR; typedef struct VkPhysicalDeviceFragmentShaderBarycentricPropertiesKHR { VkStructureType sType; void* pNext; VkBool32 triStripVertexOrderIndependentOfProvokingVertex; } VkPhysicalDeviceFragmentShaderBarycentricPropertiesKHR; #define VK_KHR_shader_subgroup_uniform_control_flow 1 #define VK_KHR_SHADER_SUBGROUP_UNIFORM_CONTROL_FLOW_SPEC_VERSION 1 #define VK_KHR_SHADER_SUBGROUP_UNIFORM_CONTROL_FLOW_EXTENSION_NAME "VK_KHR_shader_subgroup_uniform_control_flow" typedef struct VkPhysicalDeviceShaderSubgroupUniformControlFlowFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 shaderSubgroupUniformControlFlow; } VkPhysicalDeviceShaderSubgroupUniformControlFlowFeaturesKHR; #define VK_KHR_zero_initialize_workgroup_memory 1 #define VK_KHR_ZERO_INITIALIZE_WORKGROUP_MEMORY_SPEC_VERSION 1 #define VK_KHR_ZERO_INITIALIZE_WORKGROUP_MEMORY_EXTENSION_NAME "VK_KHR_zero_initialize_workgroup_memory" typedef VkPhysicalDeviceZeroInitializeWorkgroupMemoryFeatures VkPhysicalDeviceZeroInitializeWorkgroupMemoryFeaturesKHR; #define VK_KHR_workgroup_memory_explicit_layout 1 #define VK_KHR_WORKGROUP_MEMORY_EXPLICIT_LAYOUT_SPEC_VERSION 1 #define VK_KHR_WORKGROUP_MEMORY_EXPLICIT_LAYOUT_EXTENSION_NAME "VK_KHR_workgroup_memory_explicit_layout" typedef struct VkPhysicalDeviceWorkgroupMemoryExplicitLayoutFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 workgroupMemoryExplicitLayout; VkBool32 workgroupMemoryExplicitLayoutScalarBlockLayout; VkBool32 workgroupMemoryExplicitLayout8BitAccess; VkBool32 workgroupMemoryExplicitLayout16BitAccess; } VkPhysicalDeviceWorkgroupMemoryExplicitLayoutFeaturesKHR; #define VK_KHR_copy_commands2 1 #define VK_KHR_COPY_COMMANDS_2_SPEC_VERSION 1 #define VK_KHR_COPY_COMMANDS_2_EXTENSION_NAME "VK_KHR_copy_commands2" typedef VkCopyBufferInfo2 VkCopyBufferInfo2KHR; typedef VkCopyImageInfo2 VkCopyImageInfo2KHR; typedef VkCopyBufferToImageInfo2 VkCopyBufferToImageInfo2KHR; typedef VkCopyImageToBufferInfo2 VkCopyImageToBufferInfo2KHR; typedef VkBlitImageInfo2 VkBlitImageInfo2KHR; typedef VkResolveImageInfo2 VkResolveImageInfo2KHR; typedef VkBufferCopy2 VkBufferCopy2KHR; typedef VkImageCopy2 VkImageCopy2KHR; typedef VkImageBlit2 VkImageBlit2KHR; typedef VkBufferImageCopy2 VkBufferImageCopy2KHR; typedef VkImageResolve2 VkImageResolve2KHR; typedef void (VKAPI_PTR *PFN_vkCmdCopyBuffer2KHR)(VkCommandBuffer commandBuffer, const VkCopyBufferInfo2* pCopyBufferInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyImage2KHR)(VkCommandBuffer commandBuffer, const VkCopyImageInfo2* pCopyImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyBufferToImage2KHR)(VkCommandBuffer commandBuffer, const VkCopyBufferToImageInfo2* pCopyBufferToImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyImageToBuffer2KHR)(VkCommandBuffer commandBuffer, const VkCopyImageToBufferInfo2* pCopyImageToBufferInfo); typedef void (VKAPI_PTR *PFN_vkCmdBlitImage2KHR)(VkCommandBuffer commandBuffer, const VkBlitImageInfo2* pBlitImageInfo); typedef void (VKAPI_PTR *PFN_vkCmdResolveImage2KHR)(VkCommandBuffer commandBuffer, const VkResolveImageInfo2* pResolveImageInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdCopyBuffer2KHR( VkCommandBuffer commandBuffer, const VkCopyBufferInfo2* pCopyBufferInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyImage2KHR( VkCommandBuffer commandBuffer, const VkCopyImageInfo2* pCopyImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyBufferToImage2KHR( VkCommandBuffer commandBuffer, const VkCopyBufferToImageInfo2* pCopyBufferToImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyImageToBuffer2KHR( VkCommandBuffer commandBuffer, const VkCopyImageToBufferInfo2* pCopyImageToBufferInfo); VKAPI_ATTR void VKAPI_CALL vkCmdBlitImage2KHR( VkCommandBuffer commandBuffer, const VkBlitImageInfo2* pBlitImageInfo); VKAPI_ATTR void VKAPI_CALL vkCmdResolveImage2KHR( VkCommandBuffer commandBuffer, const VkResolveImageInfo2* pResolveImageInfo); #endif #define VK_KHR_format_feature_flags2 1 #define VK_KHR_FORMAT_FEATURE_FLAGS_2_SPEC_VERSION 2 #define VK_KHR_FORMAT_FEATURE_FLAGS_2_EXTENSION_NAME "VK_KHR_format_feature_flags2" typedef VkFormatFeatureFlags2 VkFormatFeatureFlags2KHR; typedef VkFormatFeatureFlagBits2 VkFormatFeatureFlagBits2KHR; typedef VkFormatProperties3 VkFormatProperties3KHR; #define VK_KHR_ray_tracing_maintenance1 1 #define VK_KHR_RAY_TRACING_MAINTENANCE_1_SPEC_VERSION 1 #define VK_KHR_RAY_TRACING_MAINTENANCE_1_EXTENSION_NAME "VK_KHR_ray_tracing_maintenance1" typedef struct VkPhysicalDeviceRayTracingMaintenance1FeaturesKHR { VkStructureType sType; void* pNext; VkBool32 rayTracingMaintenance1; VkBool32 rayTracingPipelineTraceRaysIndirect2; } VkPhysicalDeviceRayTracingMaintenance1FeaturesKHR; typedef struct VkTraceRaysIndirectCommand2KHR { VkDeviceAddress raygenShaderRecordAddress; VkDeviceSize raygenShaderRecordSize; VkDeviceAddress missShaderBindingTableAddress; VkDeviceSize missShaderBindingTableSize; VkDeviceSize missShaderBindingTableStride; VkDeviceAddress hitShaderBindingTableAddress; VkDeviceSize hitShaderBindingTableSize; VkDeviceSize hitShaderBindingTableStride; VkDeviceAddress callableShaderBindingTableAddress; VkDeviceSize callableShaderBindingTableSize; VkDeviceSize callableShaderBindingTableStride; uint32_t width; uint32_t height; uint32_t depth; } VkTraceRaysIndirectCommand2KHR; typedef void (VKAPI_PTR *PFN_vkCmdTraceRaysIndirect2KHR)(VkCommandBuffer commandBuffer, VkDeviceAddress indirectDeviceAddress); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdTraceRaysIndirect2KHR( VkCommandBuffer commandBuffer, VkDeviceAddress indirectDeviceAddress); #endif #define VK_KHR_portability_enumeration 1 #define VK_KHR_PORTABILITY_ENUMERATION_SPEC_VERSION 1 #define VK_KHR_PORTABILITY_ENUMERATION_EXTENSION_NAME "VK_KHR_portability_enumeration" #define VK_KHR_maintenance4 1 #define VK_KHR_MAINTENANCE_4_SPEC_VERSION 2 #define VK_KHR_MAINTENANCE_4_EXTENSION_NAME "VK_KHR_maintenance4" typedef VkPhysicalDeviceMaintenance4Features VkPhysicalDeviceMaintenance4FeaturesKHR; typedef VkPhysicalDeviceMaintenance4Properties VkPhysicalDeviceMaintenance4PropertiesKHR; typedef VkDeviceBufferMemoryRequirements VkDeviceBufferMemoryRequirementsKHR; typedef VkDeviceImageMemoryRequirements VkDeviceImageMemoryRequirementsKHR; typedef void (VKAPI_PTR *PFN_vkGetDeviceBufferMemoryRequirementsKHR)(VkDevice device, const VkDeviceBufferMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetDeviceImageMemoryRequirementsKHR)(VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkGetDeviceImageSparseMemoryRequirementsKHR)(VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetDeviceBufferMemoryRequirementsKHR( VkDevice device, const VkDeviceBufferMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetDeviceImageMemoryRequirementsKHR( VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkGetDeviceImageSparseMemoryRequirementsKHR( VkDevice device, const VkDeviceImageMemoryRequirements* pInfo, uint32_t* pSparseMemoryRequirementCount, VkSparseImageMemoryRequirements2* pSparseMemoryRequirements); #endif #define VK_EXT_debug_report 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDebugReportCallbackEXT) #define VK_EXT_DEBUG_REPORT_SPEC_VERSION 10 #define VK_EXT_DEBUG_REPORT_EXTENSION_NAME "VK_EXT_debug_report" typedef enum VkDebugReportObjectTypeEXT { VK_DEBUG_REPORT_OBJECT_TYPE_UNKNOWN_EXT = 0, VK_DEBUG_REPORT_OBJECT_TYPE_INSTANCE_EXT = 1, VK_DEBUG_REPORT_OBJECT_TYPE_PHYSICAL_DEVICE_EXT = 2, VK_DEBUG_REPORT_OBJECT_TYPE_DEVICE_EXT = 3, VK_DEBUG_REPORT_OBJECT_TYPE_QUEUE_EXT = 4, VK_DEBUG_REPORT_OBJECT_TYPE_SEMAPHORE_EXT = 5, VK_DEBUG_REPORT_OBJECT_TYPE_COMMAND_BUFFER_EXT = 6, VK_DEBUG_REPORT_OBJECT_TYPE_FENCE_EXT = 7, VK_DEBUG_REPORT_OBJECT_TYPE_DEVICE_MEMORY_EXT = 8, VK_DEBUG_REPORT_OBJECT_TYPE_BUFFER_EXT = 9, VK_DEBUG_REPORT_OBJECT_TYPE_IMAGE_EXT = 10, VK_DEBUG_REPORT_OBJECT_TYPE_EVENT_EXT = 11, VK_DEBUG_REPORT_OBJECT_TYPE_QUERY_POOL_EXT = 12, VK_DEBUG_REPORT_OBJECT_TYPE_BUFFER_VIEW_EXT = 13, VK_DEBUG_REPORT_OBJECT_TYPE_IMAGE_VIEW_EXT = 14, VK_DEBUG_REPORT_OBJECT_TYPE_SHADER_MODULE_EXT = 15, VK_DEBUG_REPORT_OBJECT_TYPE_PIPELINE_CACHE_EXT = 16, VK_DEBUG_REPORT_OBJECT_TYPE_PIPELINE_LAYOUT_EXT = 17, VK_DEBUG_REPORT_OBJECT_TYPE_RENDER_PASS_EXT = 18, VK_DEBUG_REPORT_OBJECT_TYPE_PIPELINE_EXT = 19, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT_EXT = 20, VK_DEBUG_REPORT_OBJECT_TYPE_SAMPLER_EXT = 21, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_POOL_EXT = 22, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_SET_EXT = 23, VK_DEBUG_REPORT_OBJECT_TYPE_FRAMEBUFFER_EXT = 24, VK_DEBUG_REPORT_OBJECT_TYPE_COMMAND_POOL_EXT = 25, VK_DEBUG_REPORT_OBJECT_TYPE_SURFACE_KHR_EXT = 26, VK_DEBUG_REPORT_OBJECT_TYPE_SWAPCHAIN_KHR_EXT = 27, VK_DEBUG_REPORT_OBJECT_TYPE_DEBUG_REPORT_CALLBACK_EXT_EXT = 28, VK_DEBUG_REPORT_OBJECT_TYPE_DISPLAY_KHR_EXT = 29, VK_DEBUG_REPORT_OBJECT_TYPE_DISPLAY_MODE_KHR_EXT = 30, VK_DEBUG_REPORT_OBJECT_TYPE_VALIDATION_CACHE_EXT_EXT = 33, VK_DEBUG_REPORT_OBJECT_TYPE_SAMPLER_YCBCR_CONVERSION_EXT = 1000156000, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_EXT = 1000085000, VK_DEBUG_REPORT_OBJECT_TYPE_CU_MODULE_NVX_EXT = 1000029000, VK_DEBUG_REPORT_OBJECT_TYPE_CU_FUNCTION_NVX_EXT = 1000029001, VK_DEBUG_REPORT_OBJECT_TYPE_ACCELERATION_STRUCTURE_KHR_EXT = 1000150000, VK_DEBUG_REPORT_OBJECT_TYPE_ACCELERATION_STRUCTURE_NV_EXT = 1000165000, VK_DEBUG_REPORT_OBJECT_TYPE_BUFFER_COLLECTION_FUCHSIA_EXT = 1000366000, VK_DEBUG_REPORT_OBJECT_TYPE_DEBUG_REPORT_EXT = VK_DEBUG_REPORT_OBJECT_TYPE_DEBUG_REPORT_CALLBACK_EXT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_VALIDATION_CACHE_EXT = VK_DEBUG_REPORT_OBJECT_TYPE_VALIDATION_CACHE_EXT_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_KHR_EXT = VK_DEBUG_REPORT_OBJECT_TYPE_DESCRIPTOR_UPDATE_TEMPLATE_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_SAMPLER_YCBCR_CONVERSION_KHR_EXT = VK_DEBUG_REPORT_OBJECT_TYPE_SAMPLER_YCBCR_CONVERSION_EXT, VK_DEBUG_REPORT_OBJECT_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDebugReportObjectTypeEXT; typedef enum VkDebugReportFlagBitsEXT { VK_DEBUG_REPORT_INFORMATION_BIT_EXT = 0x00000001, VK_DEBUG_REPORT_WARNING_BIT_EXT = 0x00000002, VK_DEBUG_REPORT_PERFORMANCE_WARNING_BIT_EXT = 0x00000004, VK_DEBUG_REPORT_ERROR_BIT_EXT = 0x00000008, VK_DEBUG_REPORT_DEBUG_BIT_EXT = 0x00000010, VK_DEBUG_REPORT_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkDebugReportFlagBitsEXT; typedef VkFlags VkDebugReportFlagsEXT; typedef VkBool32 (VKAPI_PTR *PFN_vkDebugReportCallbackEXT)( VkDebugReportFlagsEXT flags, VkDebugReportObjectTypeEXT objectType, uint64_t object, size_t location, int32_t messageCode, const char* pLayerPrefix, const char* pMessage, void* pUserData); typedef struct VkDebugReportCallbackCreateInfoEXT { VkStructureType sType; const void* pNext; VkDebugReportFlagsEXT flags; PFN_vkDebugReportCallbackEXT pfnCallback; void* pUserData; } VkDebugReportCallbackCreateInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkCreateDebugReportCallbackEXT)(VkInstance instance, const VkDebugReportCallbackCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDebugReportCallbackEXT* pCallback); typedef void (VKAPI_PTR *PFN_vkDestroyDebugReportCallbackEXT)(VkInstance instance, VkDebugReportCallbackEXT callback, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkDebugReportMessageEXT)(VkInstance instance, VkDebugReportFlagsEXT flags, VkDebugReportObjectTypeEXT objectType, uint64_t object, size_t location, int32_t messageCode, const char* pLayerPrefix, const char* pMessage); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateDebugReportCallbackEXT( VkInstance instance, const VkDebugReportCallbackCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDebugReportCallbackEXT* pCallback); VKAPI_ATTR void VKAPI_CALL vkDestroyDebugReportCallbackEXT( VkInstance instance, VkDebugReportCallbackEXT callback, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkDebugReportMessageEXT( VkInstance instance, VkDebugReportFlagsEXT flags, VkDebugReportObjectTypeEXT objectType, uint64_t object, size_t location, int32_t messageCode, const char* pLayerPrefix, const char* pMessage); #endif #define VK_NV_glsl_shader 1 #define VK_NV_GLSL_SHADER_SPEC_VERSION 1 #define VK_NV_GLSL_SHADER_EXTENSION_NAME "VK_NV_glsl_shader" #define VK_EXT_depth_range_unrestricted 1 #define VK_EXT_DEPTH_RANGE_UNRESTRICTED_SPEC_VERSION 1 #define VK_EXT_DEPTH_RANGE_UNRESTRICTED_EXTENSION_NAME "VK_EXT_depth_range_unrestricted" #define VK_IMG_filter_cubic 1 #define VK_IMG_FILTER_CUBIC_SPEC_VERSION 1 #define VK_IMG_FILTER_CUBIC_EXTENSION_NAME "VK_IMG_filter_cubic" #define VK_AMD_rasterization_order 1 #define VK_AMD_RASTERIZATION_ORDER_SPEC_VERSION 1 #define VK_AMD_RASTERIZATION_ORDER_EXTENSION_NAME "VK_AMD_rasterization_order" typedef enum VkRasterizationOrderAMD { VK_RASTERIZATION_ORDER_STRICT_AMD = 0, VK_RASTERIZATION_ORDER_RELAXED_AMD = 1, VK_RASTERIZATION_ORDER_MAX_ENUM_AMD = 0x7FFFFFFF } VkRasterizationOrderAMD; typedef struct VkPipelineRasterizationStateRasterizationOrderAMD { VkStructureType sType; const void* pNext; VkRasterizationOrderAMD rasterizationOrder; } VkPipelineRasterizationStateRasterizationOrderAMD; #define VK_AMD_shader_trinary_minmax 1 #define VK_AMD_SHADER_TRINARY_MINMAX_SPEC_VERSION 1 #define VK_AMD_SHADER_TRINARY_MINMAX_EXTENSION_NAME "VK_AMD_shader_trinary_minmax" #define VK_AMD_shader_explicit_vertex_parameter 1 #define VK_AMD_SHADER_EXPLICIT_VERTEX_PARAMETER_SPEC_VERSION 1 #define VK_AMD_SHADER_EXPLICIT_VERTEX_PARAMETER_EXTENSION_NAME "VK_AMD_shader_explicit_vertex_parameter" #define VK_EXT_debug_marker 1 #define VK_EXT_DEBUG_MARKER_SPEC_VERSION 4 #define VK_EXT_DEBUG_MARKER_EXTENSION_NAME "VK_EXT_debug_marker" typedef struct VkDebugMarkerObjectNameInfoEXT { VkStructureType sType; const void* pNext; VkDebugReportObjectTypeEXT objectType; uint64_t object; const char* pObjectName; } VkDebugMarkerObjectNameInfoEXT; typedef struct VkDebugMarkerObjectTagInfoEXT { VkStructureType sType; const void* pNext; VkDebugReportObjectTypeEXT objectType; uint64_t object; uint64_t tagName; size_t tagSize; const void* pTag; } VkDebugMarkerObjectTagInfoEXT; typedef struct VkDebugMarkerMarkerInfoEXT { VkStructureType sType; const void* pNext; const char* pMarkerName; float color[4]; } VkDebugMarkerMarkerInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkDebugMarkerSetObjectTagEXT)(VkDevice device, const VkDebugMarkerObjectTagInfoEXT* pTagInfo); typedef VkResult (VKAPI_PTR *PFN_vkDebugMarkerSetObjectNameEXT)(VkDevice device, const VkDebugMarkerObjectNameInfoEXT* pNameInfo); typedef void (VKAPI_PTR *PFN_vkCmdDebugMarkerBeginEXT)(VkCommandBuffer commandBuffer, const VkDebugMarkerMarkerInfoEXT* pMarkerInfo); typedef void (VKAPI_PTR *PFN_vkCmdDebugMarkerEndEXT)(VkCommandBuffer commandBuffer); typedef void (VKAPI_PTR *PFN_vkCmdDebugMarkerInsertEXT)(VkCommandBuffer commandBuffer, const VkDebugMarkerMarkerInfoEXT* pMarkerInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkDebugMarkerSetObjectTagEXT( VkDevice device, const VkDebugMarkerObjectTagInfoEXT* pTagInfo); VKAPI_ATTR VkResult VKAPI_CALL vkDebugMarkerSetObjectNameEXT( VkDevice device, const VkDebugMarkerObjectNameInfoEXT* pNameInfo); VKAPI_ATTR void VKAPI_CALL vkCmdDebugMarkerBeginEXT( VkCommandBuffer commandBuffer, const VkDebugMarkerMarkerInfoEXT* pMarkerInfo); VKAPI_ATTR void VKAPI_CALL vkCmdDebugMarkerEndEXT( VkCommandBuffer commandBuffer); VKAPI_ATTR void VKAPI_CALL vkCmdDebugMarkerInsertEXT( VkCommandBuffer commandBuffer, const VkDebugMarkerMarkerInfoEXT* pMarkerInfo); #endif #define VK_AMD_gcn_shader 1 #define VK_AMD_GCN_SHADER_SPEC_VERSION 1 #define VK_AMD_GCN_SHADER_EXTENSION_NAME "VK_AMD_gcn_shader" #define VK_NV_dedicated_allocation 1 #define VK_NV_DEDICATED_ALLOCATION_SPEC_VERSION 1 #define VK_NV_DEDICATED_ALLOCATION_EXTENSION_NAME "VK_NV_dedicated_allocation" typedef struct VkDedicatedAllocationImageCreateInfoNV { VkStructureType sType; const void* pNext; VkBool32 dedicatedAllocation; } VkDedicatedAllocationImageCreateInfoNV; typedef struct VkDedicatedAllocationBufferCreateInfoNV { VkStructureType sType; const void* pNext; VkBool32 dedicatedAllocation; } VkDedicatedAllocationBufferCreateInfoNV; typedef struct VkDedicatedAllocationMemoryAllocateInfoNV { VkStructureType sType; const void* pNext; VkImage image; VkBuffer buffer; } VkDedicatedAllocationMemoryAllocateInfoNV; #define VK_EXT_transform_feedback 1 #define VK_EXT_TRANSFORM_FEEDBACK_SPEC_VERSION 1 #define VK_EXT_TRANSFORM_FEEDBACK_EXTENSION_NAME "VK_EXT_transform_feedback" typedef VkFlags VkPipelineRasterizationStateStreamCreateFlagsEXT; typedef struct VkPhysicalDeviceTransformFeedbackFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 transformFeedback; VkBool32 geometryStreams; } VkPhysicalDeviceTransformFeedbackFeaturesEXT; typedef struct VkPhysicalDeviceTransformFeedbackPropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxTransformFeedbackStreams; uint32_t maxTransformFeedbackBuffers; VkDeviceSize maxTransformFeedbackBufferSize; uint32_t maxTransformFeedbackStreamDataSize; uint32_t maxTransformFeedbackBufferDataSize; uint32_t maxTransformFeedbackBufferDataStride; VkBool32 transformFeedbackQueries; VkBool32 transformFeedbackStreamsLinesTriangles; VkBool32 transformFeedbackRasterizationStreamSelect; VkBool32 transformFeedbackDraw; } VkPhysicalDeviceTransformFeedbackPropertiesEXT; typedef struct VkPipelineRasterizationStateStreamCreateInfoEXT { VkStructureType sType; const void* pNext; VkPipelineRasterizationStateStreamCreateFlagsEXT flags; uint32_t rasterizationStream; } VkPipelineRasterizationStateStreamCreateInfoEXT; typedef void (VKAPI_PTR *PFN_vkCmdBindTransformFeedbackBuffersEXT)(VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets, const VkDeviceSize* pSizes); typedef void (VKAPI_PTR *PFN_vkCmdBeginTransformFeedbackEXT)(VkCommandBuffer commandBuffer, uint32_t firstCounterBuffer, uint32_t counterBufferCount, const VkBuffer* pCounterBuffers, const VkDeviceSize* pCounterBufferOffsets); typedef void (VKAPI_PTR *PFN_vkCmdEndTransformFeedbackEXT)(VkCommandBuffer commandBuffer, uint32_t firstCounterBuffer, uint32_t counterBufferCount, const VkBuffer* pCounterBuffers, const VkDeviceSize* pCounterBufferOffsets); typedef void (VKAPI_PTR *PFN_vkCmdBeginQueryIndexedEXT)(VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query, VkQueryControlFlags flags, uint32_t index); typedef void (VKAPI_PTR *PFN_vkCmdEndQueryIndexedEXT)(VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query, uint32_t index); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndirectByteCountEXT)(VkCommandBuffer commandBuffer, uint32_t instanceCount, uint32_t firstInstance, VkBuffer counterBuffer, VkDeviceSize counterBufferOffset, uint32_t counterOffset, uint32_t vertexStride); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdBindTransformFeedbackBuffersEXT( VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets, const VkDeviceSize* pSizes); VKAPI_ATTR void VKAPI_CALL vkCmdBeginTransformFeedbackEXT( VkCommandBuffer commandBuffer, uint32_t firstCounterBuffer, uint32_t counterBufferCount, const VkBuffer* pCounterBuffers, const VkDeviceSize* pCounterBufferOffsets); VKAPI_ATTR void VKAPI_CALL vkCmdEndTransformFeedbackEXT( VkCommandBuffer commandBuffer, uint32_t firstCounterBuffer, uint32_t counterBufferCount, const VkBuffer* pCounterBuffers, const VkDeviceSize* pCounterBufferOffsets); VKAPI_ATTR void VKAPI_CALL vkCmdBeginQueryIndexedEXT( VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query, VkQueryControlFlags flags, uint32_t index); VKAPI_ATTR void VKAPI_CALL vkCmdEndQueryIndexedEXT( VkCommandBuffer commandBuffer, VkQueryPool queryPool, uint32_t query, uint32_t index); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndirectByteCountEXT( VkCommandBuffer commandBuffer, uint32_t instanceCount, uint32_t firstInstance, VkBuffer counterBuffer, VkDeviceSize counterBufferOffset, uint32_t counterOffset, uint32_t vertexStride); #endif #define VK_NVX_binary_import 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkCuModuleNVX) VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkCuFunctionNVX) #define VK_NVX_BINARY_IMPORT_SPEC_VERSION 1 #define VK_NVX_BINARY_IMPORT_EXTENSION_NAME "VK_NVX_binary_import" typedef struct VkCuModuleCreateInfoNVX { VkStructureType sType; const void* pNext; size_t dataSize; const void* pData; } VkCuModuleCreateInfoNVX; typedef struct VkCuFunctionCreateInfoNVX { VkStructureType sType; const void* pNext; VkCuModuleNVX module; const char* pName; } VkCuFunctionCreateInfoNVX; typedef struct VkCuLaunchInfoNVX { VkStructureType sType; const void* pNext; VkCuFunctionNVX function; uint32_t gridDimX; uint32_t gridDimY; uint32_t gridDimZ; uint32_t blockDimX; uint32_t blockDimY; uint32_t blockDimZ; uint32_t sharedMemBytes; size_t paramCount; const void* const * pParams; size_t extraCount; const void* const * pExtras; } VkCuLaunchInfoNVX; typedef VkResult (VKAPI_PTR *PFN_vkCreateCuModuleNVX)(VkDevice device, const VkCuModuleCreateInfoNVX* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkCuModuleNVX* pModule); typedef VkResult (VKAPI_PTR *PFN_vkCreateCuFunctionNVX)(VkDevice device, const VkCuFunctionCreateInfoNVX* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkCuFunctionNVX* pFunction); typedef void (VKAPI_PTR *PFN_vkDestroyCuModuleNVX)(VkDevice device, VkCuModuleNVX module, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkDestroyCuFunctionNVX)(VkDevice device, VkCuFunctionNVX function, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkCmdCuLaunchKernelNVX)(VkCommandBuffer commandBuffer, const VkCuLaunchInfoNVX* pLaunchInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateCuModuleNVX( VkDevice device, const VkCuModuleCreateInfoNVX* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkCuModuleNVX* pModule); VKAPI_ATTR VkResult VKAPI_CALL vkCreateCuFunctionNVX( VkDevice device, const VkCuFunctionCreateInfoNVX* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkCuFunctionNVX* pFunction); VKAPI_ATTR void VKAPI_CALL vkDestroyCuModuleNVX( VkDevice device, VkCuModuleNVX module, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkDestroyCuFunctionNVX( VkDevice device, VkCuFunctionNVX function, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkCmdCuLaunchKernelNVX( VkCommandBuffer commandBuffer, const VkCuLaunchInfoNVX* pLaunchInfo); #endif #define VK_NVX_image_view_handle 1 #define VK_NVX_IMAGE_VIEW_HANDLE_SPEC_VERSION 2 #define VK_NVX_IMAGE_VIEW_HANDLE_EXTENSION_NAME "VK_NVX_image_view_handle" typedef struct VkImageViewHandleInfoNVX { VkStructureType sType; const void* pNext; VkImageView imageView; VkDescriptorType descriptorType; VkSampler sampler; } VkImageViewHandleInfoNVX; typedef struct VkImageViewAddressPropertiesNVX { VkStructureType sType; void* pNext; VkDeviceAddress deviceAddress; VkDeviceSize size; } VkImageViewAddressPropertiesNVX; typedef uint32_t (VKAPI_PTR *PFN_vkGetImageViewHandleNVX)(VkDevice device, const VkImageViewHandleInfoNVX* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkGetImageViewAddressNVX)(VkDevice device, VkImageView imageView, VkImageViewAddressPropertiesNVX* pProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR uint32_t VKAPI_CALL vkGetImageViewHandleNVX( VkDevice device, const VkImageViewHandleInfoNVX* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkGetImageViewAddressNVX( VkDevice device, VkImageView imageView, VkImageViewAddressPropertiesNVX* pProperties); #endif #define VK_AMD_draw_indirect_count 1 #define VK_AMD_DRAW_INDIRECT_COUNT_SPEC_VERSION 2 #define VK_AMD_DRAW_INDIRECT_COUNT_EXTENSION_NAME "VK_AMD_draw_indirect_count" typedef void (VKAPI_PTR *PFN_vkCmdDrawIndirectCountAMD)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawIndexedIndirectCountAMD)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndirectCountAMD( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawIndexedIndirectCountAMD( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #endif #define VK_AMD_negative_viewport_height 1 #define VK_AMD_NEGATIVE_VIEWPORT_HEIGHT_SPEC_VERSION 1 #define VK_AMD_NEGATIVE_VIEWPORT_HEIGHT_EXTENSION_NAME "VK_AMD_negative_viewport_height" #define VK_AMD_gpu_shader_half_float 1 #define VK_AMD_GPU_SHADER_HALF_FLOAT_SPEC_VERSION 2 #define VK_AMD_GPU_SHADER_HALF_FLOAT_EXTENSION_NAME "VK_AMD_gpu_shader_half_float" #define VK_AMD_shader_ballot 1 #define VK_AMD_SHADER_BALLOT_SPEC_VERSION 1 #define VK_AMD_SHADER_BALLOT_EXTENSION_NAME "VK_AMD_shader_ballot" #define VK_AMD_texture_gather_bias_lod 1 #define VK_AMD_TEXTURE_GATHER_BIAS_LOD_SPEC_VERSION 1 #define VK_AMD_TEXTURE_GATHER_BIAS_LOD_EXTENSION_NAME "VK_AMD_texture_gather_bias_lod" typedef struct VkTextureLODGatherFormatPropertiesAMD { VkStructureType sType; void* pNext; VkBool32 supportsTextureGatherLODBiasAMD; } VkTextureLODGatherFormatPropertiesAMD; #define VK_AMD_shader_info 1 #define VK_AMD_SHADER_INFO_SPEC_VERSION 1 #define VK_AMD_SHADER_INFO_EXTENSION_NAME "VK_AMD_shader_info" typedef enum VkShaderInfoTypeAMD { VK_SHADER_INFO_TYPE_STATISTICS_AMD = 0, VK_SHADER_INFO_TYPE_BINARY_AMD = 1, VK_SHADER_INFO_TYPE_DISASSEMBLY_AMD = 2, VK_SHADER_INFO_TYPE_MAX_ENUM_AMD = 0x7FFFFFFF } VkShaderInfoTypeAMD; typedef struct VkShaderResourceUsageAMD { uint32_t numUsedVgprs; uint32_t numUsedSgprs; uint32_t ldsSizePerLocalWorkGroup; size_t ldsUsageSizeInBytes; size_t scratchMemUsageInBytes; } VkShaderResourceUsageAMD; typedef struct VkShaderStatisticsInfoAMD { VkShaderStageFlags shaderStageMask; VkShaderResourceUsageAMD resourceUsage; uint32_t numPhysicalVgprs; uint32_t numPhysicalSgprs; uint32_t numAvailableVgprs; uint32_t numAvailableSgprs; uint32_t computeWorkGroupSize[3]; } VkShaderStatisticsInfoAMD; typedef VkResult (VKAPI_PTR *PFN_vkGetShaderInfoAMD)(VkDevice device, VkPipeline pipeline, VkShaderStageFlagBits shaderStage, VkShaderInfoTypeAMD infoType, size_t* pInfoSize, void* pInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetShaderInfoAMD( VkDevice device, VkPipeline pipeline, VkShaderStageFlagBits shaderStage, VkShaderInfoTypeAMD infoType, size_t* pInfoSize, void* pInfo); #endif #define VK_AMD_shader_image_load_store_lod 1 #define VK_AMD_SHADER_IMAGE_LOAD_STORE_LOD_SPEC_VERSION 1 #define VK_AMD_SHADER_IMAGE_LOAD_STORE_LOD_EXTENSION_NAME "VK_AMD_shader_image_load_store_lod" #define VK_NV_corner_sampled_image 1 #define VK_NV_CORNER_SAMPLED_IMAGE_SPEC_VERSION 2 #define VK_NV_CORNER_SAMPLED_IMAGE_EXTENSION_NAME "VK_NV_corner_sampled_image" typedef struct VkPhysicalDeviceCornerSampledImageFeaturesNV { VkStructureType sType; void* pNext; VkBool32 cornerSampledImage; } VkPhysicalDeviceCornerSampledImageFeaturesNV; #define VK_IMG_format_pvrtc 1 #define VK_IMG_FORMAT_PVRTC_SPEC_VERSION 1 #define VK_IMG_FORMAT_PVRTC_EXTENSION_NAME "VK_IMG_format_pvrtc" #define VK_NV_external_memory_capabilities 1 #define VK_NV_EXTERNAL_MEMORY_CAPABILITIES_SPEC_VERSION 1 #define VK_NV_EXTERNAL_MEMORY_CAPABILITIES_EXTENSION_NAME "VK_NV_external_memory_capabilities" typedef enum VkExternalMemoryHandleTypeFlagBitsNV { VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_BIT_NV = 0x00000001, VK_EXTERNAL_MEMORY_HANDLE_TYPE_OPAQUE_WIN32_KMT_BIT_NV = 0x00000002, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_IMAGE_BIT_NV = 0x00000004, VK_EXTERNAL_MEMORY_HANDLE_TYPE_D3D11_IMAGE_KMT_BIT_NV = 0x00000008, VK_EXTERNAL_MEMORY_HANDLE_TYPE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkExternalMemoryHandleTypeFlagBitsNV; typedef VkFlags VkExternalMemoryHandleTypeFlagsNV; typedef enum VkExternalMemoryFeatureFlagBitsNV { VK_EXTERNAL_MEMORY_FEATURE_DEDICATED_ONLY_BIT_NV = 0x00000001, VK_EXTERNAL_MEMORY_FEATURE_EXPORTABLE_BIT_NV = 0x00000002, VK_EXTERNAL_MEMORY_FEATURE_IMPORTABLE_BIT_NV = 0x00000004, VK_EXTERNAL_MEMORY_FEATURE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkExternalMemoryFeatureFlagBitsNV; typedef VkFlags VkExternalMemoryFeatureFlagsNV; typedef struct VkExternalImageFormatPropertiesNV { VkImageFormatProperties imageFormatProperties; VkExternalMemoryFeatureFlagsNV externalMemoryFeatures; VkExternalMemoryHandleTypeFlagsNV exportFromImportedHandleTypes; VkExternalMemoryHandleTypeFlagsNV compatibleHandleTypes; } VkExternalImageFormatPropertiesNV; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceExternalImageFormatPropertiesNV)(VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkImageTiling tiling, VkImageUsageFlags usage, VkImageCreateFlags flags, VkExternalMemoryHandleTypeFlagsNV externalHandleType, VkExternalImageFormatPropertiesNV* pExternalImageFormatProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceExternalImageFormatPropertiesNV( VkPhysicalDevice physicalDevice, VkFormat format, VkImageType type, VkImageTiling tiling, VkImageUsageFlags usage, VkImageCreateFlags flags, VkExternalMemoryHandleTypeFlagsNV externalHandleType, VkExternalImageFormatPropertiesNV* pExternalImageFormatProperties); #endif #define VK_NV_external_memory 1 #define VK_NV_EXTERNAL_MEMORY_SPEC_VERSION 1 #define VK_NV_EXTERNAL_MEMORY_EXTENSION_NAME "VK_NV_external_memory" typedef struct VkExternalMemoryImageCreateInfoNV { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlagsNV handleTypes; } VkExternalMemoryImageCreateInfoNV; typedef struct VkExportMemoryAllocateInfoNV { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlagsNV handleTypes; } VkExportMemoryAllocateInfoNV; #define VK_EXT_validation_flags 1 #define VK_EXT_VALIDATION_FLAGS_SPEC_VERSION 2 #define VK_EXT_VALIDATION_FLAGS_EXTENSION_NAME "VK_EXT_validation_flags" typedef enum VkValidationCheckEXT { VK_VALIDATION_CHECK_ALL_EXT = 0, VK_VALIDATION_CHECK_SHADERS_EXT = 1, VK_VALIDATION_CHECK_MAX_ENUM_EXT = 0x7FFFFFFF } VkValidationCheckEXT; typedef struct VkValidationFlagsEXT { VkStructureType sType; const void* pNext; uint32_t disabledValidationCheckCount; const VkValidationCheckEXT* pDisabledValidationChecks; } VkValidationFlagsEXT; #define VK_EXT_shader_subgroup_ballot 1 #define VK_EXT_SHADER_SUBGROUP_BALLOT_SPEC_VERSION 1 #define VK_EXT_SHADER_SUBGROUP_BALLOT_EXTENSION_NAME "VK_EXT_shader_subgroup_ballot" #define VK_EXT_shader_subgroup_vote 1 #define VK_EXT_SHADER_SUBGROUP_VOTE_SPEC_VERSION 1 #define VK_EXT_SHADER_SUBGROUP_VOTE_EXTENSION_NAME "VK_EXT_shader_subgroup_vote" #define VK_EXT_texture_compression_astc_hdr 1 #define VK_EXT_TEXTURE_COMPRESSION_ASTC_HDR_SPEC_VERSION 1 #define VK_EXT_TEXTURE_COMPRESSION_ASTC_HDR_EXTENSION_NAME "VK_EXT_texture_compression_astc_hdr" typedef VkPhysicalDeviceTextureCompressionASTCHDRFeatures VkPhysicalDeviceTextureCompressionASTCHDRFeaturesEXT; #define VK_EXT_astc_decode_mode 1 #define VK_EXT_ASTC_DECODE_MODE_SPEC_VERSION 1 #define VK_EXT_ASTC_DECODE_MODE_EXTENSION_NAME "VK_EXT_astc_decode_mode" typedef struct VkImageViewASTCDecodeModeEXT { VkStructureType sType; const void* pNext; VkFormat decodeMode; } VkImageViewASTCDecodeModeEXT; typedef struct VkPhysicalDeviceASTCDecodeFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 decodeModeSharedExponent; } VkPhysicalDeviceASTCDecodeFeaturesEXT; #define VK_EXT_pipeline_robustness 1 #define VK_EXT_PIPELINE_ROBUSTNESS_SPEC_VERSION 1 #define VK_EXT_PIPELINE_ROBUSTNESS_EXTENSION_NAME "VK_EXT_pipeline_robustness" typedef enum VkPipelineRobustnessBufferBehaviorEXT { VK_PIPELINE_ROBUSTNESS_BUFFER_BEHAVIOR_DEVICE_DEFAULT_EXT = 0, VK_PIPELINE_ROBUSTNESS_BUFFER_BEHAVIOR_DISABLED_EXT = 1, VK_PIPELINE_ROBUSTNESS_BUFFER_BEHAVIOR_ROBUST_BUFFER_ACCESS_EXT = 2, VK_PIPELINE_ROBUSTNESS_BUFFER_BEHAVIOR_ROBUST_BUFFER_ACCESS_2_EXT = 3, VK_PIPELINE_ROBUSTNESS_BUFFER_BEHAVIOR_MAX_ENUM_EXT = 0x7FFFFFFF } VkPipelineRobustnessBufferBehaviorEXT; typedef enum VkPipelineRobustnessImageBehaviorEXT { VK_PIPELINE_ROBUSTNESS_IMAGE_BEHAVIOR_DEVICE_DEFAULT_EXT = 0, VK_PIPELINE_ROBUSTNESS_IMAGE_BEHAVIOR_DISABLED_EXT = 1, VK_PIPELINE_ROBUSTNESS_IMAGE_BEHAVIOR_ROBUST_IMAGE_ACCESS_EXT = 2, VK_PIPELINE_ROBUSTNESS_IMAGE_BEHAVIOR_ROBUST_IMAGE_ACCESS_2_EXT = 3, VK_PIPELINE_ROBUSTNESS_IMAGE_BEHAVIOR_MAX_ENUM_EXT = 0x7FFFFFFF } VkPipelineRobustnessImageBehaviorEXT; typedef struct VkPhysicalDevicePipelineRobustnessFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 pipelineRobustness; } VkPhysicalDevicePipelineRobustnessFeaturesEXT; typedef struct VkPhysicalDevicePipelineRobustnessPropertiesEXT { VkStructureType sType; void* pNext; VkPipelineRobustnessBufferBehaviorEXT defaultRobustnessStorageBuffers; VkPipelineRobustnessBufferBehaviorEXT defaultRobustnessUniformBuffers; VkPipelineRobustnessBufferBehaviorEXT defaultRobustnessVertexInputs; VkPipelineRobustnessImageBehaviorEXT defaultRobustnessImages; } VkPhysicalDevicePipelineRobustnessPropertiesEXT; typedef struct VkPipelineRobustnessCreateInfoEXT { VkStructureType sType; const void* pNext; VkPipelineRobustnessBufferBehaviorEXT storageBuffers; VkPipelineRobustnessBufferBehaviorEXT uniformBuffers; VkPipelineRobustnessBufferBehaviorEXT vertexInputs; VkPipelineRobustnessImageBehaviorEXT images; } VkPipelineRobustnessCreateInfoEXT; #define VK_EXT_conditional_rendering 1 #define VK_EXT_CONDITIONAL_RENDERING_SPEC_VERSION 2 #define VK_EXT_CONDITIONAL_RENDERING_EXTENSION_NAME "VK_EXT_conditional_rendering" typedef enum VkConditionalRenderingFlagBitsEXT { VK_CONDITIONAL_RENDERING_INVERTED_BIT_EXT = 0x00000001, VK_CONDITIONAL_RENDERING_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkConditionalRenderingFlagBitsEXT; typedef VkFlags VkConditionalRenderingFlagsEXT; typedef struct VkConditionalRenderingBeginInfoEXT { VkStructureType sType; const void* pNext; VkBuffer buffer; VkDeviceSize offset; VkConditionalRenderingFlagsEXT flags; } VkConditionalRenderingBeginInfoEXT; typedef struct VkPhysicalDeviceConditionalRenderingFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 conditionalRendering; VkBool32 inheritedConditionalRendering; } VkPhysicalDeviceConditionalRenderingFeaturesEXT; typedef struct VkCommandBufferInheritanceConditionalRenderingInfoEXT { VkStructureType sType; const void* pNext; VkBool32 conditionalRenderingEnable; } VkCommandBufferInheritanceConditionalRenderingInfoEXT; typedef void (VKAPI_PTR *PFN_vkCmdBeginConditionalRenderingEXT)(VkCommandBuffer commandBuffer, const VkConditionalRenderingBeginInfoEXT* pConditionalRenderingBegin); typedef void (VKAPI_PTR *PFN_vkCmdEndConditionalRenderingEXT)(VkCommandBuffer commandBuffer); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdBeginConditionalRenderingEXT( VkCommandBuffer commandBuffer, const VkConditionalRenderingBeginInfoEXT* pConditionalRenderingBegin); VKAPI_ATTR void VKAPI_CALL vkCmdEndConditionalRenderingEXT( VkCommandBuffer commandBuffer); #endif #define VK_NV_clip_space_w_scaling 1 #define VK_NV_CLIP_SPACE_W_SCALING_SPEC_VERSION 1 #define VK_NV_CLIP_SPACE_W_SCALING_EXTENSION_NAME "VK_NV_clip_space_w_scaling" typedef struct VkViewportWScalingNV { float xcoeff; float ycoeff; } VkViewportWScalingNV; typedef struct VkPipelineViewportWScalingStateCreateInfoNV { VkStructureType sType; const void* pNext; VkBool32 viewportWScalingEnable; uint32_t viewportCount; const VkViewportWScalingNV* pViewportWScalings; } VkPipelineViewportWScalingStateCreateInfoNV; typedef void (VKAPI_PTR *PFN_vkCmdSetViewportWScalingNV)(VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewportWScalingNV* pViewportWScalings); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetViewportWScalingNV( VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewportWScalingNV* pViewportWScalings); #endif #define VK_EXT_direct_mode_display 1 #define VK_EXT_DIRECT_MODE_DISPLAY_SPEC_VERSION 1 #define VK_EXT_DIRECT_MODE_DISPLAY_EXTENSION_NAME "VK_EXT_direct_mode_display" typedef VkResult (VKAPI_PTR *PFN_vkReleaseDisplayEXT)(VkPhysicalDevice physicalDevice, VkDisplayKHR display); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkReleaseDisplayEXT( VkPhysicalDevice physicalDevice, VkDisplayKHR display); #endif #define VK_EXT_display_surface_counter 1 #define VK_EXT_DISPLAY_SURFACE_COUNTER_SPEC_VERSION 1 #define VK_EXT_DISPLAY_SURFACE_COUNTER_EXTENSION_NAME "VK_EXT_display_surface_counter" typedef enum VkSurfaceCounterFlagBitsEXT { VK_SURFACE_COUNTER_VBLANK_BIT_EXT = 0x00000001, VK_SURFACE_COUNTER_VBLANK_EXT = VK_SURFACE_COUNTER_VBLANK_BIT_EXT, VK_SURFACE_COUNTER_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkSurfaceCounterFlagBitsEXT; typedef VkFlags VkSurfaceCounterFlagsEXT; typedef struct VkSurfaceCapabilities2EXT { VkStructureType sType; void* pNext; uint32_t minImageCount; uint32_t maxImageCount; VkExtent2D currentExtent; VkExtent2D minImageExtent; VkExtent2D maxImageExtent; uint32_t maxImageArrayLayers; VkSurfaceTransformFlagsKHR supportedTransforms; VkSurfaceTransformFlagBitsKHR currentTransform; VkCompositeAlphaFlagsKHR supportedCompositeAlpha; VkImageUsageFlags supportedUsageFlags; VkSurfaceCounterFlagsEXT supportedSurfaceCounters; } VkSurfaceCapabilities2EXT; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSurfaceCapabilities2EXT)(VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, VkSurfaceCapabilities2EXT* pSurfaceCapabilities); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSurfaceCapabilities2EXT( VkPhysicalDevice physicalDevice, VkSurfaceKHR surface, VkSurfaceCapabilities2EXT* pSurfaceCapabilities); #endif #define VK_EXT_display_control 1 #define VK_EXT_DISPLAY_CONTROL_SPEC_VERSION 1 #define VK_EXT_DISPLAY_CONTROL_EXTENSION_NAME "VK_EXT_display_control" typedef enum VkDisplayPowerStateEXT { VK_DISPLAY_POWER_STATE_OFF_EXT = 0, VK_DISPLAY_POWER_STATE_SUSPEND_EXT = 1, VK_DISPLAY_POWER_STATE_ON_EXT = 2, VK_DISPLAY_POWER_STATE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDisplayPowerStateEXT; typedef enum VkDeviceEventTypeEXT { VK_DEVICE_EVENT_TYPE_DISPLAY_HOTPLUG_EXT = 0, VK_DEVICE_EVENT_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDeviceEventTypeEXT; typedef enum VkDisplayEventTypeEXT { VK_DISPLAY_EVENT_TYPE_FIRST_PIXEL_OUT_EXT = 0, VK_DISPLAY_EVENT_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDisplayEventTypeEXT; typedef struct VkDisplayPowerInfoEXT { VkStructureType sType; const void* pNext; VkDisplayPowerStateEXT powerState; } VkDisplayPowerInfoEXT; typedef struct VkDeviceEventInfoEXT { VkStructureType sType; const void* pNext; VkDeviceEventTypeEXT deviceEvent; } VkDeviceEventInfoEXT; typedef struct VkDisplayEventInfoEXT { VkStructureType sType; const void* pNext; VkDisplayEventTypeEXT displayEvent; } VkDisplayEventInfoEXT; typedef struct VkSwapchainCounterCreateInfoEXT { VkStructureType sType; const void* pNext; VkSurfaceCounterFlagsEXT surfaceCounters; } VkSwapchainCounterCreateInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkDisplayPowerControlEXT)(VkDevice device, VkDisplayKHR display, const VkDisplayPowerInfoEXT* pDisplayPowerInfo); typedef VkResult (VKAPI_PTR *PFN_vkRegisterDeviceEventEXT)(VkDevice device, const VkDeviceEventInfoEXT* pDeviceEventInfo, const VkAllocationCallbacks* pAllocator, VkFence* pFence); typedef VkResult (VKAPI_PTR *PFN_vkRegisterDisplayEventEXT)(VkDevice device, VkDisplayKHR display, const VkDisplayEventInfoEXT* pDisplayEventInfo, const VkAllocationCallbacks* pAllocator, VkFence* pFence); typedef VkResult (VKAPI_PTR *PFN_vkGetSwapchainCounterEXT)(VkDevice device, VkSwapchainKHR swapchain, VkSurfaceCounterFlagBitsEXT counter, uint64_t* pCounterValue); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkDisplayPowerControlEXT( VkDevice device, VkDisplayKHR display, const VkDisplayPowerInfoEXT* pDisplayPowerInfo); VKAPI_ATTR VkResult VKAPI_CALL vkRegisterDeviceEventEXT( VkDevice device, const VkDeviceEventInfoEXT* pDeviceEventInfo, const VkAllocationCallbacks* pAllocator, VkFence* pFence); VKAPI_ATTR VkResult VKAPI_CALL vkRegisterDisplayEventEXT( VkDevice device, VkDisplayKHR display, const VkDisplayEventInfoEXT* pDisplayEventInfo, const VkAllocationCallbacks* pAllocator, VkFence* pFence); VKAPI_ATTR VkResult VKAPI_CALL vkGetSwapchainCounterEXT( VkDevice device, VkSwapchainKHR swapchain, VkSurfaceCounterFlagBitsEXT counter, uint64_t* pCounterValue); #endif #define VK_GOOGLE_display_timing 1 #define VK_GOOGLE_DISPLAY_TIMING_SPEC_VERSION 1 #define VK_GOOGLE_DISPLAY_TIMING_EXTENSION_NAME "VK_GOOGLE_display_timing" typedef struct VkRefreshCycleDurationGOOGLE { uint64_t refreshDuration; } VkRefreshCycleDurationGOOGLE; typedef struct VkPastPresentationTimingGOOGLE { uint32_t presentID; uint64_t desiredPresentTime; uint64_t actualPresentTime; uint64_t earliestPresentTime; uint64_t presentMargin; } VkPastPresentationTimingGOOGLE; typedef struct VkPresentTimeGOOGLE { uint32_t presentID; uint64_t desiredPresentTime; } VkPresentTimeGOOGLE; typedef struct VkPresentTimesInfoGOOGLE { VkStructureType sType; const void* pNext; uint32_t swapchainCount; const VkPresentTimeGOOGLE* pTimes; } VkPresentTimesInfoGOOGLE; typedef VkResult (VKAPI_PTR *PFN_vkGetRefreshCycleDurationGOOGLE)(VkDevice device, VkSwapchainKHR swapchain, VkRefreshCycleDurationGOOGLE* pDisplayTimingProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetPastPresentationTimingGOOGLE)(VkDevice device, VkSwapchainKHR swapchain, uint32_t* pPresentationTimingCount, VkPastPresentationTimingGOOGLE* pPresentationTimings); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetRefreshCycleDurationGOOGLE( VkDevice device, VkSwapchainKHR swapchain, VkRefreshCycleDurationGOOGLE* pDisplayTimingProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetPastPresentationTimingGOOGLE( VkDevice device, VkSwapchainKHR swapchain, uint32_t* pPresentationTimingCount, VkPastPresentationTimingGOOGLE* pPresentationTimings); #endif #define VK_NV_sample_mask_override_coverage 1 #define VK_NV_SAMPLE_MASK_OVERRIDE_COVERAGE_SPEC_VERSION 1 #define VK_NV_SAMPLE_MASK_OVERRIDE_COVERAGE_EXTENSION_NAME "VK_NV_sample_mask_override_coverage" #define VK_NV_geometry_shader_passthrough 1 #define VK_NV_GEOMETRY_SHADER_PASSTHROUGH_SPEC_VERSION 1 #define VK_NV_GEOMETRY_SHADER_PASSTHROUGH_EXTENSION_NAME "VK_NV_geometry_shader_passthrough" #define VK_NV_viewport_array2 1 #define VK_NV_VIEWPORT_ARRAY_2_SPEC_VERSION 1 #define VK_NV_VIEWPORT_ARRAY_2_EXTENSION_NAME "VK_NV_viewport_array2" #define VK_NV_VIEWPORT_ARRAY2_SPEC_VERSION VK_NV_VIEWPORT_ARRAY_2_SPEC_VERSION #define VK_NV_VIEWPORT_ARRAY2_EXTENSION_NAME VK_NV_VIEWPORT_ARRAY_2_EXTENSION_NAME #define VK_NVX_multiview_per_view_attributes 1 #define VK_NVX_MULTIVIEW_PER_VIEW_ATTRIBUTES_SPEC_VERSION 1 #define VK_NVX_MULTIVIEW_PER_VIEW_ATTRIBUTES_EXTENSION_NAME "VK_NVX_multiview_per_view_attributes" typedef struct VkPhysicalDeviceMultiviewPerViewAttributesPropertiesNVX { VkStructureType sType; void* pNext; VkBool32 perViewPositionAllComponents; } VkPhysicalDeviceMultiviewPerViewAttributesPropertiesNVX; #define VK_NV_viewport_swizzle 1 #define VK_NV_VIEWPORT_SWIZZLE_SPEC_VERSION 1 #define VK_NV_VIEWPORT_SWIZZLE_EXTENSION_NAME "VK_NV_viewport_swizzle" typedef enum VkViewportCoordinateSwizzleNV { VK_VIEWPORT_COORDINATE_SWIZZLE_POSITIVE_X_NV = 0, VK_VIEWPORT_COORDINATE_SWIZZLE_NEGATIVE_X_NV = 1, VK_VIEWPORT_COORDINATE_SWIZZLE_POSITIVE_Y_NV = 2, VK_VIEWPORT_COORDINATE_SWIZZLE_NEGATIVE_Y_NV = 3, VK_VIEWPORT_COORDINATE_SWIZZLE_POSITIVE_Z_NV = 4, VK_VIEWPORT_COORDINATE_SWIZZLE_NEGATIVE_Z_NV = 5, VK_VIEWPORT_COORDINATE_SWIZZLE_POSITIVE_W_NV = 6, VK_VIEWPORT_COORDINATE_SWIZZLE_NEGATIVE_W_NV = 7, VK_VIEWPORT_COORDINATE_SWIZZLE_MAX_ENUM_NV = 0x7FFFFFFF } VkViewportCoordinateSwizzleNV; typedef VkFlags VkPipelineViewportSwizzleStateCreateFlagsNV; typedef struct VkViewportSwizzleNV { VkViewportCoordinateSwizzleNV x; VkViewportCoordinateSwizzleNV y; VkViewportCoordinateSwizzleNV z; VkViewportCoordinateSwizzleNV w; } VkViewportSwizzleNV; typedef struct VkPipelineViewportSwizzleStateCreateInfoNV { VkStructureType sType; const void* pNext; VkPipelineViewportSwizzleStateCreateFlagsNV flags; uint32_t viewportCount; const VkViewportSwizzleNV* pViewportSwizzles; } VkPipelineViewportSwizzleStateCreateInfoNV; #define VK_EXT_discard_rectangles 1 #define VK_EXT_DISCARD_RECTANGLES_SPEC_VERSION 1 #define VK_EXT_DISCARD_RECTANGLES_EXTENSION_NAME "VK_EXT_discard_rectangles" typedef enum VkDiscardRectangleModeEXT { VK_DISCARD_RECTANGLE_MODE_INCLUSIVE_EXT = 0, VK_DISCARD_RECTANGLE_MODE_EXCLUSIVE_EXT = 1, VK_DISCARD_RECTANGLE_MODE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDiscardRectangleModeEXT; typedef VkFlags VkPipelineDiscardRectangleStateCreateFlagsEXT; typedef struct VkPhysicalDeviceDiscardRectanglePropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxDiscardRectangles; } VkPhysicalDeviceDiscardRectanglePropertiesEXT; typedef struct VkPipelineDiscardRectangleStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkPipelineDiscardRectangleStateCreateFlagsEXT flags; VkDiscardRectangleModeEXT discardRectangleMode; uint32_t discardRectangleCount; const VkRect2D* pDiscardRectangles; } VkPipelineDiscardRectangleStateCreateInfoEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetDiscardRectangleEXT)(VkCommandBuffer commandBuffer, uint32_t firstDiscardRectangle, uint32_t discardRectangleCount, const VkRect2D* pDiscardRectangles); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetDiscardRectangleEXT( VkCommandBuffer commandBuffer, uint32_t firstDiscardRectangle, uint32_t discardRectangleCount, const VkRect2D* pDiscardRectangles); #endif #define VK_EXT_conservative_rasterization 1 #define VK_EXT_CONSERVATIVE_RASTERIZATION_SPEC_VERSION 1 #define VK_EXT_CONSERVATIVE_RASTERIZATION_EXTENSION_NAME "VK_EXT_conservative_rasterization" typedef enum VkConservativeRasterizationModeEXT { VK_CONSERVATIVE_RASTERIZATION_MODE_DISABLED_EXT = 0, VK_CONSERVATIVE_RASTERIZATION_MODE_OVERESTIMATE_EXT = 1, VK_CONSERVATIVE_RASTERIZATION_MODE_UNDERESTIMATE_EXT = 2, VK_CONSERVATIVE_RASTERIZATION_MODE_MAX_ENUM_EXT = 0x7FFFFFFF } VkConservativeRasterizationModeEXT; typedef VkFlags VkPipelineRasterizationConservativeStateCreateFlagsEXT; typedef struct VkPhysicalDeviceConservativeRasterizationPropertiesEXT { VkStructureType sType; void* pNext; float primitiveOverestimationSize; float maxExtraPrimitiveOverestimationSize; float extraPrimitiveOverestimationSizeGranularity; VkBool32 primitiveUnderestimation; VkBool32 conservativePointAndLineRasterization; VkBool32 degenerateTrianglesRasterized; VkBool32 degenerateLinesRasterized; VkBool32 fullyCoveredFragmentShaderInputVariable; VkBool32 conservativeRasterizationPostDepthCoverage; } VkPhysicalDeviceConservativeRasterizationPropertiesEXT; typedef struct VkPipelineRasterizationConservativeStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkPipelineRasterizationConservativeStateCreateFlagsEXT flags; VkConservativeRasterizationModeEXT conservativeRasterizationMode; float extraPrimitiveOverestimationSize; } VkPipelineRasterizationConservativeStateCreateInfoEXT; #define VK_EXT_depth_clip_enable 1 #define VK_EXT_DEPTH_CLIP_ENABLE_SPEC_VERSION 1 #define VK_EXT_DEPTH_CLIP_ENABLE_EXTENSION_NAME "VK_EXT_depth_clip_enable" typedef VkFlags VkPipelineRasterizationDepthClipStateCreateFlagsEXT; typedef struct VkPhysicalDeviceDepthClipEnableFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 depthClipEnable; } VkPhysicalDeviceDepthClipEnableFeaturesEXT; typedef struct VkPipelineRasterizationDepthClipStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkPipelineRasterizationDepthClipStateCreateFlagsEXT flags; VkBool32 depthClipEnable; } VkPipelineRasterizationDepthClipStateCreateInfoEXT; #define VK_EXT_swapchain_colorspace 1 #define VK_EXT_SWAPCHAIN_COLOR_SPACE_SPEC_VERSION 4 #define VK_EXT_SWAPCHAIN_COLOR_SPACE_EXTENSION_NAME "VK_EXT_swapchain_colorspace" #define VK_EXT_hdr_metadata 1 #define VK_EXT_HDR_METADATA_SPEC_VERSION 2 #define VK_EXT_HDR_METADATA_EXTENSION_NAME "VK_EXT_hdr_metadata" typedef struct VkXYColorEXT { float x; float y; } VkXYColorEXT; typedef struct VkHdrMetadataEXT { VkStructureType sType; const void* pNext; VkXYColorEXT displayPrimaryRed; VkXYColorEXT displayPrimaryGreen; VkXYColorEXT displayPrimaryBlue; VkXYColorEXT whitePoint; float maxLuminance; float minLuminance; float maxContentLightLevel; float maxFrameAverageLightLevel; } VkHdrMetadataEXT; typedef void (VKAPI_PTR *PFN_vkSetHdrMetadataEXT)(VkDevice device, uint32_t swapchainCount, const VkSwapchainKHR* pSwapchains, const VkHdrMetadataEXT* pMetadata); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkSetHdrMetadataEXT( VkDevice device, uint32_t swapchainCount, const VkSwapchainKHR* pSwapchains, const VkHdrMetadataEXT* pMetadata); #endif #define VK_EXT_external_memory_dma_buf 1 #define VK_EXT_EXTERNAL_MEMORY_DMA_BUF_SPEC_VERSION 1 #define VK_EXT_EXTERNAL_MEMORY_DMA_BUF_EXTENSION_NAME "VK_EXT_external_memory_dma_buf" #define VK_EXT_queue_family_foreign 1 #define VK_EXT_QUEUE_FAMILY_FOREIGN_SPEC_VERSION 1 #define VK_EXT_QUEUE_FAMILY_FOREIGN_EXTENSION_NAME "VK_EXT_queue_family_foreign" #define VK_QUEUE_FAMILY_FOREIGN_EXT (~2U) #define VK_EXT_debug_utils 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkDebugUtilsMessengerEXT) #define VK_EXT_DEBUG_UTILS_SPEC_VERSION 2 #define VK_EXT_DEBUG_UTILS_EXTENSION_NAME "VK_EXT_debug_utils" typedef VkFlags VkDebugUtilsMessengerCallbackDataFlagsEXT; typedef enum VkDebugUtilsMessageSeverityFlagBitsEXT { VK_DEBUG_UTILS_MESSAGE_SEVERITY_VERBOSE_BIT_EXT = 0x00000001, VK_DEBUG_UTILS_MESSAGE_SEVERITY_INFO_BIT_EXT = 0x00000010, VK_DEBUG_UTILS_MESSAGE_SEVERITY_WARNING_BIT_EXT = 0x00000100, VK_DEBUG_UTILS_MESSAGE_SEVERITY_ERROR_BIT_EXT = 0x00001000, VK_DEBUG_UTILS_MESSAGE_SEVERITY_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkDebugUtilsMessageSeverityFlagBitsEXT; typedef enum VkDebugUtilsMessageTypeFlagBitsEXT { VK_DEBUG_UTILS_MESSAGE_TYPE_GENERAL_BIT_EXT = 0x00000001, VK_DEBUG_UTILS_MESSAGE_TYPE_VALIDATION_BIT_EXT = 0x00000002, VK_DEBUG_UTILS_MESSAGE_TYPE_PERFORMANCE_BIT_EXT = 0x00000004, VK_DEBUG_UTILS_MESSAGE_TYPE_DEVICE_ADDRESS_BINDING_BIT_EXT = 0x00000008, VK_DEBUG_UTILS_MESSAGE_TYPE_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkDebugUtilsMessageTypeFlagBitsEXT; typedef VkFlags VkDebugUtilsMessageTypeFlagsEXT; typedef VkFlags VkDebugUtilsMessageSeverityFlagsEXT; typedef VkFlags VkDebugUtilsMessengerCreateFlagsEXT; typedef struct VkDebugUtilsLabelEXT { VkStructureType sType; const void* pNext; const char* pLabelName; float color[4]; } VkDebugUtilsLabelEXT; typedef struct VkDebugUtilsObjectNameInfoEXT { VkStructureType sType; const void* pNext; VkObjectType objectType; uint64_t objectHandle; const char* pObjectName; } VkDebugUtilsObjectNameInfoEXT; typedef struct VkDebugUtilsMessengerCallbackDataEXT { VkStructureType sType; const void* pNext; VkDebugUtilsMessengerCallbackDataFlagsEXT flags; const char* pMessageIdName; int32_t messageIdNumber; const char* pMessage; uint32_t queueLabelCount; const VkDebugUtilsLabelEXT* pQueueLabels; uint32_t cmdBufLabelCount; const VkDebugUtilsLabelEXT* pCmdBufLabels; uint32_t objectCount; const VkDebugUtilsObjectNameInfoEXT* pObjects; } VkDebugUtilsMessengerCallbackDataEXT; typedef VkBool32 (VKAPI_PTR *PFN_vkDebugUtilsMessengerCallbackEXT)( VkDebugUtilsMessageSeverityFlagBitsEXT messageSeverity, VkDebugUtilsMessageTypeFlagsEXT messageTypes, const VkDebugUtilsMessengerCallbackDataEXT* pCallbackData, void* pUserData); typedef struct VkDebugUtilsMessengerCreateInfoEXT { VkStructureType sType; const void* pNext; VkDebugUtilsMessengerCreateFlagsEXT flags; VkDebugUtilsMessageSeverityFlagsEXT messageSeverity; VkDebugUtilsMessageTypeFlagsEXT messageType; PFN_vkDebugUtilsMessengerCallbackEXT pfnUserCallback; void* pUserData; } VkDebugUtilsMessengerCreateInfoEXT; typedef struct VkDebugUtilsObjectTagInfoEXT { VkStructureType sType; const void* pNext; VkObjectType objectType; uint64_t objectHandle; uint64_t tagName; size_t tagSize; const void* pTag; } VkDebugUtilsObjectTagInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkSetDebugUtilsObjectNameEXT)(VkDevice device, const VkDebugUtilsObjectNameInfoEXT* pNameInfo); typedef VkResult (VKAPI_PTR *PFN_vkSetDebugUtilsObjectTagEXT)(VkDevice device, const VkDebugUtilsObjectTagInfoEXT* pTagInfo); typedef void (VKAPI_PTR *PFN_vkQueueBeginDebugUtilsLabelEXT)(VkQueue queue, const VkDebugUtilsLabelEXT* pLabelInfo); typedef void (VKAPI_PTR *PFN_vkQueueEndDebugUtilsLabelEXT)(VkQueue queue); typedef void (VKAPI_PTR *PFN_vkQueueInsertDebugUtilsLabelEXT)(VkQueue queue, const VkDebugUtilsLabelEXT* pLabelInfo); typedef void (VKAPI_PTR *PFN_vkCmdBeginDebugUtilsLabelEXT)(VkCommandBuffer commandBuffer, const VkDebugUtilsLabelEXT* pLabelInfo); typedef void (VKAPI_PTR *PFN_vkCmdEndDebugUtilsLabelEXT)(VkCommandBuffer commandBuffer); typedef void (VKAPI_PTR *PFN_vkCmdInsertDebugUtilsLabelEXT)(VkCommandBuffer commandBuffer, const VkDebugUtilsLabelEXT* pLabelInfo); typedef VkResult (VKAPI_PTR *PFN_vkCreateDebugUtilsMessengerEXT)(VkInstance instance, const VkDebugUtilsMessengerCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDebugUtilsMessengerEXT* pMessenger); typedef void (VKAPI_PTR *PFN_vkDestroyDebugUtilsMessengerEXT)(VkInstance instance, VkDebugUtilsMessengerEXT messenger, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkSubmitDebugUtilsMessageEXT)(VkInstance instance, VkDebugUtilsMessageSeverityFlagBitsEXT messageSeverity, VkDebugUtilsMessageTypeFlagsEXT messageTypes, const VkDebugUtilsMessengerCallbackDataEXT* pCallbackData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkSetDebugUtilsObjectNameEXT( VkDevice device, const VkDebugUtilsObjectNameInfoEXT* pNameInfo); VKAPI_ATTR VkResult VKAPI_CALL vkSetDebugUtilsObjectTagEXT( VkDevice device, const VkDebugUtilsObjectTagInfoEXT* pTagInfo); VKAPI_ATTR void VKAPI_CALL vkQueueBeginDebugUtilsLabelEXT( VkQueue queue, const VkDebugUtilsLabelEXT* pLabelInfo); VKAPI_ATTR void VKAPI_CALL vkQueueEndDebugUtilsLabelEXT( VkQueue queue); VKAPI_ATTR void VKAPI_CALL vkQueueInsertDebugUtilsLabelEXT( VkQueue queue, const VkDebugUtilsLabelEXT* pLabelInfo); VKAPI_ATTR void VKAPI_CALL vkCmdBeginDebugUtilsLabelEXT( VkCommandBuffer commandBuffer, const VkDebugUtilsLabelEXT* pLabelInfo); VKAPI_ATTR void VKAPI_CALL vkCmdEndDebugUtilsLabelEXT( VkCommandBuffer commandBuffer); VKAPI_ATTR void VKAPI_CALL vkCmdInsertDebugUtilsLabelEXT( VkCommandBuffer commandBuffer, const VkDebugUtilsLabelEXT* pLabelInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCreateDebugUtilsMessengerEXT( VkInstance instance, const VkDebugUtilsMessengerCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkDebugUtilsMessengerEXT* pMessenger); VKAPI_ATTR void VKAPI_CALL vkDestroyDebugUtilsMessengerEXT( VkInstance instance, VkDebugUtilsMessengerEXT messenger, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkSubmitDebugUtilsMessageEXT( VkInstance instance, VkDebugUtilsMessageSeverityFlagBitsEXT messageSeverity, VkDebugUtilsMessageTypeFlagsEXT messageTypes, const VkDebugUtilsMessengerCallbackDataEXT* pCallbackData); #endif #define VK_EXT_sampler_filter_minmax 1 #define VK_EXT_SAMPLER_FILTER_MINMAX_SPEC_VERSION 2 #define VK_EXT_SAMPLER_FILTER_MINMAX_EXTENSION_NAME "VK_EXT_sampler_filter_minmax" typedef VkSamplerReductionMode VkSamplerReductionModeEXT; typedef VkSamplerReductionModeCreateInfo VkSamplerReductionModeCreateInfoEXT; typedef VkPhysicalDeviceSamplerFilterMinmaxProperties VkPhysicalDeviceSamplerFilterMinmaxPropertiesEXT; #define VK_AMD_gpu_shader_int16 1 #define VK_AMD_GPU_SHADER_INT16_SPEC_VERSION 2 #define VK_AMD_GPU_SHADER_INT16_EXTENSION_NAME "VK_AMD_gpu_shader_int16" #define VK_AMD_mixed_attachment_samples 1 #define VK_AMD_MIXED_ATTACHMENT_SAMPLES_SPEC_VERSION 1 #define VK_AMD_MIXED_ATTACHMENT_SAMPLES_EXTENSION_NAME "VK_AMD_mixed_attachment_samples" #define VK_AMD_shader_fragment_mask 1 #define VK_AMD_SHADER_FRAGMENT_MASK_SPEC_VERSION 1 #define VK_AMD_SHADER_FRAGMENT_MASK_EXTENSION_NAME "VK_AMD_shader_fragment_mask" #define VK_EXT_inline_uniform_block 1 #define VK_EXT_INLINE_UNIFORM_BLOCK_SPEC_VERSION 1 #define VK_EXT_INLINE_UNIFORM_BLOCK_EXTENSION_NAME "VK_EXT_inline_uniform_block" typedef VkPhysicalDeviceInlineUniformBlockFeatures VkPhysicalDeviceInlineUniformBlockFeaturesEXT; typedef VkPhysicalDeviceInlineUniformBlockProperties VkPhysicalDeviceInlineUniformBlockPropertiesEXT; typedef VkWriteDescriptorSetInlineUniformBlock VkWriteDescriptorSetInlineUniformBlockEXT; typedef VkDescriptorPoolInlineUniformBlockCreateInfo VkDescriptorPoolInlineUniformBlockCreateInfoEXT; #define VK_EXT_shader_stencil_export 1 #define VK_EXT_SHADER_STENCIL_EXPORT_SPEC_VERSION 1 #define VK_EXT_SHADER_STENCIL_EXPORT_EXTENSION_NAME "VK_EXT_shader_stencil_export" #define VK_EXT_sample_locations 1 #define VK_EXT_SAMPLE_LOCATIONS_SPEC_VERSION 1 #define VK_EXT_SAMPLE_LOCATIONS_EXTENSION_NAME "VK_EXT_sample_locations" typedef struct VkSampleLocationEXT { float x; float y; } VkSampleLocationEXT; typedef struct VkSampleLocationsInfoEXT { VkStructureType sType; const void* pNext; VkSampleCountFlagBits sampleLocationsPerPixel; VkExtent2D sampleLocationGridSize; uint32_t sampleLocationsCount; const VkSampleLocationEXT* pSampleLocations; } VkSampleLocationsInfoEXT; typedef struct VkAttachmentSampleLocationsEXT { uint32_t attachmentIndex; VkSampleLocationsInfoEXT sampleLocationsInfo; } VkAttachmentSampleLocationsEXT; typedef struct VkSubpassSampleLocationsEXT { uint32_t subpassIndex; VkSampleLocationsInfoEXT sampleLocationsInfo; } VkSubpassSampleLocationsEXT; typedef struct VkRenderPassSampleLocationsBeginInfoEXT { VkStructureType sType; const void* pNext; uint32_t attachmentInitialSampleLocationsCount; const VkAttachmentSampleLocationsEXT* pAttachmentInitialSampleLocations; uint32_t postSubpassSampleLocationsCount; const VkSubpassSampleLocationsEXT* pPostSubpassSampleLocations; } VkRenderPassSampleLocationsBeginInfoEXT; typedef struct VkPipelineSampleLocationsStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkBool32 sampleLocationsEnable; VkSampleLocationsInfoEXT sampleLocationsInfo; } VkPipelineSampleLocationsStateCreateInfoEXT; typedef struct VkPhysicalDeviceSampleLocationsPropertiesEXT { VkStructureType sType; void* pNext; VkSampleCountFlags sampleLocationSampleCounts; VkExtent2D maxSampleLocationGridSize; float sampleLocationCoordinateRange[2]; uint32_t sampleLocationSubPixelBits; VkBool32 variableSampleLocations; } VkPhysicalDeviceSampleLocationsPropertiesEXT; typedef struct VkMultisamplePropertiesEXT { VkStructureType sType; void* pNext; VkExtent2D maxSampleLocationGridSize; } VkMultisamplePropertiesEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetSampleLocationsEXT)(VkCommandBuffer commandBuffer, const VkSampleLocationsInfoEXT* pSampleLocationsInfo); typedef void (VKAPI_PTR *PFN_vkGetPhysicalDeviceMultisamplePropertiesEXT)(VkPhysicalDevice physicalDevice, VkSampleCountFlagBits samples, VkMultisamplePropertiesEXT* pMultisampleProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetSampleLocationsEXT( VkCommandBuffer commandBuffer, const VkSampleLocationsInfoEXT* pSampleLocationsInfo); VKAPI_ATTR void VKAPI_CALL vkGetPhysicalDeviceMultisamplePropertiesEXT( VkPhysicalDevice physicalDevice, VkSampleCountFlagBits samples, VkMultisamplePropertiesEXT* pMultisampleProperties); #endif #define VK_EXT_blend_operation_advanced 1 #define VK_EXT_BLEND_OPERATION_ADVANCED_SPEC_VERSION 2 #define VK_EXT_BLEND_OPERATION_ADVANCED_EXTENSION_NAME "VK_EXT_blend_operation_advanced" typedef enum VkBlendOverlapEXT { VK_BLEND_OVERLAP_UNCORRELATED_EXT = 0, VK_BLEND_OVERLAP_DISJOINT_EXT = 1, VK_BLEND_OVERLAP_CONJOINT_EXT = 2, VK_BLEND_OVERLAP_MAX_ENUM_EXT = 0x7FFFFFFF } VkBlendOverlapEXT; typedef struct VkPhysicalDeviceBlendOperationAdvancedFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 advancedBlendCoherentOperations; } VkPhysicalDeviceBlendOperationAdvancedFeaturesEXT; typedef struct VkPhysicalDeviceBlendOperationAdvancedPropertiesEXT { VkStructureType sType; void* pNext; uint32_t advancedBlendMaxColorAttachments; VkBool32 advancedBlendIndependentBlend; VkBool32 advancedBlendNonPremultipliedSrcColor; VkBool32 advancedBlendNonPremultipliedDstColor; VkBool32 advancedBlendCorrelatedOverlap; VkBool32 advancedBlendAllOperations; } VkPhysicalDeviceBlendOperationAdvancedPropertiesEXT; typedef struct VkPipelineColorBlendAdvancedStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkBool32 srcPremultiplied; VkBool32 dstPremultiplied; VkBlendOverlapEXT blendOverlap; } VkPipelineColorBlendAdvancedStateCreateInfoEXT; #define VK_NV_fragment_coverage_to_color 1 #define VK_NV_FRAGMENT_COVERAGE_TO_COLOR_SPEC_VERSION 1 #define VK_NV_FRAGMENT_COVERAGE_TO_COLOR_EXTENSION_NAME "VK_NV_fragment_coverage_to_color" typedef VkFlags VkPipelineCoverageToColorStateCreateFlagsNV; typedef struct VkPipelineCoverageToColorStateCreateInfoNV { VkStructureType sType; const void* pNext; VkPipelineCoverageToColorStateCreateFlagsNV flags; VkBool32 coverageToColorEnable; uint32_t coverageToColorLocation; } VkPipelineCoverageToColorStateCreateInfoNV; #define VK_NV_framebuffer_mixed_samples 1 #define VK_NV_FRAMEBUFFER_MIXED_SAMPLES_SPEC_VERSION 1 #define VK_NV_FRAMEBUFFER_MIXED_SAMPLES_EXTENSION_NAME "VK_NV_framebuffer_mixed_samples" typedef enum VkCoverageModulationModeNV { VK_COVERAGE_MODULATION_MODE_NONE_NV = 0, VK_COVERAGE_MODULATION_MODE_RGB_NV = 1, VK_COVERAGE_MODULATION_MODE_ALPHA_NV = 2, VK_COVERAGE_MODULATION_MODE_RGBA_NV = 3, VK_COVERAGE_MODULATION_MODE_MAX_ENUM_NV = 0x7FFFFFFF } VkCoverageModulationModeNV; typedef VkFlags VkPipelineCoverageModulationStateCreateFlagsNV; typedef struct VkPipelineCoverageModulationStateCreateInfoNV { VkStructureType sType; const void* pNext; VkPipelineCoverageModulationStateCreateFlagsNV flags; VkCoverageModulationModeNV coverageModulationMode; VkBool32 coverageModulationTableEnable; uint32_t coverageModulationTableCount; const float* pCoverageModulationTable; } VkPipelineCoverageModulationStateCreateInfoNV; #define VK_NV_fill_rectangle 1 #define VK_NV_FILL_RECTANGLE_SPEC_VERSION 1 #define VK_NV_FILL_RECTANGLE_EXTENSION_NAME "VK_NV_fill_rectangle" #define VK_NV_shader_sm_builtins 1 #define VK_NV_SHADER_SM_BUILTINS_SPEC_VERSION 1 #define VK_NV_SHADER_SM_BUILTINS_EXTENSION_NAME "VK_NV_shader_sm_builtins" typedef struct VkPhysicalDeviceShaderSMBuiltinsPropertiesNV { VkStructureType sType; void* pNext; uint32_t shaderSMCount; uint32_t shaderWarpsPerSM; } VkPhysicalDeviceShaderSMBuiltinsPropertiesNV; typedef struct VkPhysicalDeviceShaderSMBuiltinsFeaturesNV { VkStructureType sType; void* pNext; VkBool32 shaderSMBuiltins; } VkPhysicalDeviceShaderSMBuiltinsFeaturesNV; #define VK_EXT_post_depth_coverage 1 #define VK_EXT_POST_DEPTH_COVERAGE_SPEC_VERSION 1 #define VK_EXT_POST_DEPTH_COVERAGE_EXTENSION_NAME "VK_EXT_post_depth_coverage" #define VK_EXT_image_drm_format_modifier 1 #define VK_EXT_IMAGE_DRM_FORMAT_MODIFIER_SPEC_VERSION 2 #define VK_EXT_IMAGE_DRM_FORMAT_MODIFIER_EXTENSION_NAME "VK_EXT_image_drm_format_modifier" typedef struct VkDrmFormatModifierPropertiesEXT { uint64_t drmFormatModifier; uint32_t drmFormatModifierPlaneCount; VkFormatFeatureFlags drmFormatModifierTilingFeatures; } VkDrmFormatModifierPropertiesEXT; typedef struct VkDrmFormatModifierPropertiesListEXT { VkStructureType sType; void* pNext; uint32_t drmFormatModifierCount; VkDrmFormatModifierPropertiesEXT* pDrmFormatModifierProperties; } VkDrmFormatModifierPropertiesListEXT; typedef struct VkPhysicalDeviceImageDrmFormatModifierInfoEXT { VkStructureType sType; const void* pNext; uint64_t drmFormatModifier; VkSharingMode sharingMode; uint32_t queueFamilyIndexCount; const uint32_t* pQueueFamilyIndices; } VkPhysicalDeviceImageDrmFormatModifierInfoEXT; typedef struct VkImageDrmFormatModifierListCreateInfoEXT { VkStructureType sType; const void* pNext; uint32_t drmFormatModifierCount; const uint64_t* pDrmFormatModifiers; } VkImageDrmFormatModifierListCreateInfoEXT; typedef struct VkImageDrmFormatModifierExplicitCreateInfoEXT { VkStructureType sType; const void* pNext; uint64_t drmFormatModifier; uint32_t drmFormatModifierPlaneCount; const VkSubresourceLayout* pPlaneLayouts; } VkImageDrmFormatModifierExplicitCreateInfoEXT; typedef struct VkImageDrmFormatModifierPropertiesEXT { VkStructureType sType; void* pNext; uint64_t drmFormatModifier; } VkImageDrmFormatModifierPropertiesEXT; typedef struct VkDrmFormatModifierProperties2EXT { uint64_t drmFormatModifier; uint32_t drmFormatModifierPlaneCount; VkFormatFeatureFlags2 drmFormatModifierTilingFeatures; } VkDrmFormatModifierProperties2EXT; typedef struct VkDrmFormatModifierPropertiesList2EXT { VkStructureType sType; void* pNext; uint32_t drmFormatModifierCount; VkDrmFormatModifierProperties2EXT* pDrmFormatModifierProperties; } VkDrmFormatModifierPropertiesList2EXT; typedef VkResult (VKAPI_PTR *PFN_vkGetImageDrmFormatModifierPropertiesEXT)(VkDevice device, VkImage image, VkImageDrmFormatModifierPropertiesEXT* pProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetImageDrmFormatModifierPropertiesEXT( VkDevice device, VkImage image, VkImageDrmFormatModifierPropertiesEXT* pProperties); #endif #define VK_EXT_validation_cache 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkValidationCacheEXT) #define VK_EXT_VALIDATION_CACHE_SPEC_VERSION 1 #define VK_EXT_VALIDATION_CACHE_EXTENSION_NAME "VK_EXT_validation_cache" typedef enum VkValidationCacheHeaderVersionEXT { VK_VALIDATION_CACHE_HEADER_VERSION_ONE_EXT = 1, VK_VALIDATION_CACHE_HEADER_VERSION_MAX_ENUM_EXT = 0x7FFFFFFF } VkValidationCacheHeaderVersionEXT; typedef VkFlags VkValidationCacheCreateFlagsEXT; typedef struct VkValidationCacheCreateInfoEXT { VkStructureType sType; const void* pNext; VkValidationCacheCreateFlagsEXT flags; size_t initialDataSize; const void* pInitialData; } VkValidationCacheCreateInfoEXT; typedef struct VkShaderModuleValidationCacheCreateInfoEXT { VkStructureType sType; const void* pNext; VkValidationCacheEXT validationCache; } VkShaderModuleValidationCacheCreateInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkCreateValidationCacheEXT)(VkDevice device, const VkValidationCacheCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkValidationCacheEXT* pValidationCache); typedef void (VKAPI_PTR *PFN_vkDestroyValidationCacheEXT)(VkDevice device, VkValidationCacheEXT validationCache, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkMergeValidationCachesEXT)(VkDevice device, VkValidationCacheEXT dstCache, uint32_t srcCacheCount, const VkValidationCacheEXT* pSrcCaches); typedef VkResult (VKAPI_PTR *PFN_vkGetValidationCacheDataEXT)(VkDevice device, VkValidationCacheEXT validationCache, size_t* pDataSize, void* pData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateValidationCacheEXT( VkDevice device, const VkValidationCacheCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkValidationCacheEXT* pValidationCache); VKAPI_ATTR void VKAPI_CALL vkDestroyValidationCacheEXT( VkDevice device, VkValidationCacheEXT validationCache, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkMergeValidationCachesEXT( VkDevice device, VkValidationCacheEXT dstCache, uint32_t srcCacheCount, const VkValidationCacheEXT* pSrcCaches); VKAPI_ATTR VkResult VKAPI_CALL vkGetValidationCacheDataEXT( VkDevice device, VkValidationCacheEXT validationCache, size_t* pDataSize, void* pData); #endif #define VK_EXT_descriptor_indexing 1 #define VK_EXT_DESCRIPTOR_INDEXING_SPEC_VERSION 2 #define VK_EXT_DESCRIPTOR_INDEXING_EXTENSION_NAME "VK_EXT_descriptor_indexing" typedef VkDescriptorBindingFlagBits VkDescriptorBindingFlagBitsEXT; typedef VkDescriptorBindingFlags VkDescriptorBindingFlagsEXT; typedef VkDescriptorSetLayoutBindingFlagsCreateInfo VkDescriptorSetLayoutBindingFlagsCreateInfoEXT; typedef VkPhysicalDeviceDescriptorIndexingFeatures VkPhysicalDeviceDescriptorIndexingFeaturesEXT; typedef VkPhysicalDeviceDescriptorIndexingProperties VkPhysicalDeviceDescriptorIndexingPropertiesEXT; typedef VkDescriptorSetVariableDescriptorCountAllocateInfo VkDescriptorSetVariableDescriptorCountAllocateInfoEXT; typedef VkDescriptorSetVariableDescriptorCountLayoutSupport VkDescriptorSetVariableDescriptorCountLayoutSupportEXT; #define VK_EXT_shader_viewport_index_layer 1 #define VK_EXT_SHADER_VIEWPORT_INDEX_LAYER_SPEC_VERSION 1 #define VK_EXT_SHADER_VIEWPORT_INDEX_LAYER_EXTENSION_NAME "VK_EXT_shader_viewport_index_layer" #define VK_NV_shading_rate_image 1 #define VK_NV_SHADING_RATE_IMAGE_SPEC_VERSION 3 #define VK_NV_SHADING_RATE_IMAGE_EXTENSION_NAME "VK_NV_shading_rate_image" typedef enum VkShadingRatePaletteEntryNV { VK_SHADING_RATE_PALETTE_ENTRY_NO_INVOCATIONS_NV = 0, VK_SHADING_RATE_PALETTE_ENTRY_16_INVOCATIONS_PER_PIXEL_NV = 1, VK_SHADING_RATE_PALETTE_ENTRY_8_INVOCATIONS_PER_PIXEL_NV = 2, VK_SHADING_RATE_PALETTE_ENTRY_4_INVOCATIONS_PER_PIXEL_NV = 3, VK_SHADING_RATE_PALETTE_ENTRY_2_INVOCATIONS_PER_PIXEL_NV = 4, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_PIXEL_NV = 5, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_2X1_PIXELS_NV = 6, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_1X2_PIXELS_NV = 7, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_2X2_PIXELS_NV = 8, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_4X2_PIXELS_NV = 9, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_2X4_PIXELS_NV = 10, VK_SHADING_RATE_PALETTE_ENTRY_1_INVOCATION_PER_4X4_PIXELS_NV = 11, VK_SHADING_RATE_PALETTE_ENTRY_MAX_ENUM_NV = 0x7FFFFFFF } VkShadingRatePaletteEntryNV; typedef enum VkCoarseSampleOrderTypeNV { VK_COARSE_SAMPLE_ORDER_TYPE_DEFAULT_NV = 0, VK_COARSE_SAMPLE_ORDER_TYPE_CUSTOM_NV = 1, VK_COARSE_SAMPLE_ORDER_TYPE_PIXEL_MAJOR_NV = 2, VK_COARSE_SAMPLE_ORDER_TYPE_SAMPLE_MAJOR_NV = 3, VK_COARSE_SAMPLE_ORDER_TYPE_MAX_ENUM_NV = 0x7FFFFFFF } VkCoarseSampleOrderTypeNV; typedef struct VkShadingRatePaletteNV { uint32_t shadingRatePaletteEntryCount; const VkShadingRatePaletteEntryNV* pShadingRatePaletteEntries; } VkShadingRatePaletteNV; typedef struct VkPipelineViewportShadingRateImageStateCreateInfoNV { VkStructureType sType; const void* pNext; VkBool32 shadingRateImageEnable; uint32_t viewportCount; const VkShadingRatePaletteNV* pShadingRatePalettes; } VkPipelineViewportShadingRateImageStateCreateInfoNV; typedef struct VkPhysicalDeviceShadingRateImageFeaturesNV { VkStructureType sType; void* pNext; VkBool32 shadingRateImage; VkBool32 shadingRateCoarseSampleOrder; } VkPhysicalDeviceShadingRateImageFeaturesNV; typedef struct VkPhysicalDeviceShadingRateImagePropertiesNV { VkStructureType sType; void* pNext; VkExtent2D shadingRateTexelSize; uint32_t shadingRatePaletteSize; uint32_t shadingRateMaxCoarseSamples; } VkPhysicalDeviceShadingRateImagePropertiesNV; typedef struct VkCoarseSampleLocationNV { uint32_t pixelX; uint32_t pixelY; uint32_t sample; } VkCoarseSampleLocationNV; typedef struct VkCoarseSampleOrderCustomNV { VkShadingRatePaletteEntryNV shadingRate; uint32_t sampleCount; uint32_t sampleLocationCount; const VkCoarseSampleLocationNV* pSampleLocations; } VkCoarseSampleOrderCustomNV; typedef struct VkPipelineViewportCoarseSampleOrderStateCreateInfoNV { VkStructureType sType; const void* pNext; VkCoarseSampleOrderTypeNV sampleOrderType; uint32_t customSampleOrderCount; const VkCoarseSampleOrderCustomNV* pCustomSampleOrders; } VkPipelineViewportCoarseSampleOrderStateCreateInfoNV; typedef void (VKAPI_PTR *PFN_vkCmdBindShadingRateImageNV)(VkCommandBuffer commandBuffer, VkImageView imageView, VkImageLayout imageLayout); typedef void (VKAPI_PTR *PFN_vkCmdSetViewportShadingRatePaletteNV)(VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkShadingRatePaletteNV* pShadingRatePalettes); typedef void (VKAPI_PTR *PFN_vkCmdSetCoarseSampleOrderNV)(VkCommandBuffer commandBuffer, VkCoarseSampleOrderTypeNV sampleOrderType, uint32_t customSampleOrderCount, const VkCoarseSampleOrderCustomNV* pCustomSampleOrders); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdBindShadingRateImageNV( VkCommandBuffer commandBuffer, VkImageView imageView, VkImageLayout imageLayout); VKAPI_ATTR void VKAPI_CALL vkCmdSetViewportShadingRatePaletteNV( VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkShadingRatePaletteNV* pShadingRatePalettes); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoarseSampleOrderNV( VkCommandBuffer commandBuffer, VkCoarseSampleOrderTypeNV sampleOrderType, uint32_t customSampleOrderCount, const VkCoarseSampleOrderCustomNV* pCustomSampleOrders); #endif #define VK_NV_ray_tracing 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkAccelerationStructureNV) #define VK_NV_RAY_TRACING_SPEC_VERSION 3 #define VK_NV_RAY_TRACING_EXTENSION_NAME "VK_NV_ray_tracing" #define VK_SHADER_UNUSED_KHR (~0U) #define VK_SHADER_UNUSED_NV VK_SHADER_UNUSED_KHR typedef enum VkRayTracingShaderGroupTypeKHR { VK_RAY_TRACING_SHADER_GROUP_TYPE_GENERAL_KHR = 0, VK_RAY_TRACING_SHADER_GROUP_TYPE_TRIANGLES_HIT_GROUP_KHR = 1, VK_RAY_TRACING_SHADER_GROUP_TYPE_PROCEDURAL_HIT_GROUP_KHR = 2, VK_RAY_TRACING_SHADER_GROUP_TYPE_GENERAL_NV = VK_RAY_TRACING_SHADER_GROUP_TYPE_GENERAL_KHR, VK_RAY_TRACING_SHADER_GROUP_TYPE_TRIANGLES_HIT_GROUP_NV = VK_RAY_TRACING_SHADER_GROUP_TYPE_TRIANGLES_HIT_GROUP_KHR, VK_RAY_TRACING_SHADER_GROUP_TYPE_PROCEDURAL_HIT_GROUP_NV = VK_RAY_TRACING_SHADER_GROUP_TYPE_PROCEDURAL_HIT_GROUP_KHR, VK_RAY_TRACING_SHADER_GROUP_TYPE_MAX_ENUM_KHR = 0x7FFFFFFF } VkRayTracingShaderGroupTypeKHR; typedef VkRayTracingShaderGroupTypeKHR VkRayTracingShaderGroupTypeNV; typedef enum VkGeometryTypeKHR { VK_GEOMETRY_TYPE_TRIANGLES_KHR = 0, VK_GEOMETRY_TYPE_AABBS_KHR = 1, VK_GEOMETRY_TYPE_INSTANCES_KHR = 2, VK_GEOMETRY_TYPE_TRIANGLES_NV = VK_GEOMETRY_TYPE_TRIANGLES_KHR, VK_GEOMETRY_TYPE_AABBS_NV = VK_GEOMETRY_TYPE_AABBS_KHR, VK_GEOMETRY_TYPE_MAX_ENUM_KHR = 0x7FFFFFFF } VkGeometryTypeKHR; typedef VkGeometryTypeKHR VkGeometryTypeNV; typedef enum VkAccelerationStructureTypeKHR { VK_ACCELERATION_STRUCTURE_TYPE_TOP_LEVEL_KHR = 0, VK_ACCELERATION_STRUCTURE_TYPE_BOTTOM_LEVEL_KHR = 1, VK_ACCELERATION_STRUCTURE_TYPE_GENERIC_KHR = 2, VK_ACCELERATION_STRUCTURE_TYPE_TOP_LEVEL_NV = VK_ACCELERATION_STRUCTURE_TYPE_TOP_LEVEL_KHR, VK_ACCELERATION_STRUCTURE_TYPE_BOTTOM_LEVEL_NV = VK_ACCELERATION_STRUCTURE_TYPE_BOTTOM_LEVEL_KHR, VK_ACCELERATION_STRUCTURE_TYPE_MAX_ENUM_KHR = 0x7FFFFFFF } VkAccelerationStructureTypeKHR; typedef VkAccelerationStructureTypeKHR VkAccelerationStructureTypeNV; typedef enum VkCopyAccelerationStructureModeKHR { VK_COPY_ACCELERATION_STRUCTURE_MODE_CLONE_KHR = 0, VK_COPY_ACCELERATION_STRUCTURE_MODE_COMPACT_KHR = 1, VK_COPY_ACCELERATION_STRUCTURE_MODE_SERIALIZE_KHR = 2, VK_COPY_ACCELERATION_STRUCTURE_MODE_DESERIALIZE_KHR = 3, VK_COPY_ACCELERATION_STRUCTURE_MODE_CLONE_NV = VK_COPY_ACCELERATION_STRUCTURE_MODE_CLONE_KHR, VK_COPY_ACCELERATION_STRUCTURE_MODE_COMPACT_NV = VK_COPY_ACCELERATION_STRUCTURE_MODE_COMPACT_KHR, VK_COPY_ACCELERATION_STRUCTURE_MODE_MAX_ENUM_KHR = 0x7FFFFFFF } VkCopyAccelerationStructureModeKHR; typedef VkCopyAccelerationStructureModeKHR VkCopyAccelerationStructureModeNV; typedef enum VkAccelerationStructureMemoryRequirementsTypeNV { VK_ACCELERATION_STRUCTURE_MEMORY_REQUIREMENTS_TYPE_OBJECT_NV = 0, VK_ACCELERATION_STRUCTURE_MEMORY_REQUIREMENTS_TYPE_BUILD_SCRATCH_NV = 1, VK_ACCELERATION_STRUCTURE_MEMORY_REQUIREMENTS_TYPE_UPDATE_SCRATCH_NV = 2, VK_ACCELERATION_STRUCTURE_MEMORY_REQUIREMENTS_TYPE_MAX_ENUM_NV = 0x7FFFFFFF } VkAccelerationStructureMemoryRequirementsTypeNV; typedef enum VkGeometryFlagBitsKHR { VK_GEOMETRY_OPAQUE_BIT_KHR = 0x00000001, VK_GEOMETRY_NO_DUPLICATE_ANY_HIT_INVOCATION_BIT_KHR = 0x00000002, VK_GEOMETRY_OPAQUE_BIT_NV = VK_GEOMETRY_OPAQUE_BIT_KHR, VK_GEOMETRY_NO_DUPLICATE_ANY_HIT_INVOCATION_BIT_NV = VK_GEOMETRY_NO_DUPLICATE_ANY_HIT_INVOCATION_BIT_KHR, VK_GEOMETRY_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkGeometryFlagBitsKHR; typedef VkFlags VkGeometryFlagsKHR; typedef VkGeometryFlagsKHR VkGeometryFlagsNV; typedef VkGeometryFlagBitsKHR VkGeometryFlagBitsNV; typedef enum VkGeometryInstanceFlagBitsKHR { VK_GEOMETRY_INSTANCE_TRIANGLE_FACING_CULL_DISABLE_BIT_KHR = 0x00000001, VK_GEOMETRY_INSTANCE_TRIANGLE_FLIP_FACING_BIT_KHR = 0x00000002, VK_GEOMETRY_INSTANCE_FORCE_OPAQUE_BIT_KHR = 0x00000004, VK_GEOMETRY_INSTANCE_FORCE_NO_OPAQUE_BIT_KHR = 0x00000008, VK_GEOMETRY_INSTANCE_FORCE_OPACITY_MICROMAP_2_STATE_EXT = 0x00000010, VK_GEOMETRY_INSTANCE_DISABLE_OPACITY_MICROMAPS_EXT = 0x00000020, VK_GEOMETRY_INSTANCE_TRIANGLE_FRONT_COUNTERCLOCKWISE_BIT_KHR = VK_GEOMETRY_INSTANCE_TRIANGLE_FLIP_FACING_BIT_KHR, VK_GEOMETRY_INSTANCE_TRIANGLE_CULL_DISABLE_BIT_NV = VK_GEOMETRY_INSTANCE_TRIANGLE_FACING_CULL_DISABLE_BIT_KHR, VK_GEOMETRY_INSTANCE_TRIANGLE_FRONT_COUNTERCLOCKWISE_BIT_NV = VK_GEOMETRY_INSTANCE_TRIANGLE_FRONT_COUNTERCLOCKWISE_BIT_KHR, VK_GEOMETRY_INSTANCE_FORCE_OPAQUE_BIT_NV = VK_GEOMETRY_INSTANCE_FORCE_OPAQUE_BIT_KHR, VK_GEOMETRY_INSTANCE_FORCE_NO_OPAQUE_BIT_NV = VK_GEOMETRY_INSTANCE_FORCE_NO_OPAQUE_BIT_KHR, VK_GEOMETRY_INSTANCE_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkGeometryInstanceFlagBitsKHR; typedef VkFlags VkGeometryInstanceFlagsKHR; typedef VkGeometryInstanceFlagsKHR VkGeometryInstanceFlagsNV; typedef VkGeometryInstanceFlagBitsKHR VkGeometryInstanceFlagBitsNV; typedef enum VkBuildAccelerationStructureFlagBitsKHR { VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_UPDATE_BIT_KHR = 0x00000001, VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_COMPACTION_BIT_KHR = 0x00000002, VK_BUILD_ACCELERATION_STRUCTURE_PREFER_FAST_TRACE_BIT_KHR = 0x00000004, VK_BUILD_ACCELERATION_STRUCTURE_PREFER_FAST_BUILD_BIT_KHR = 0x00000008, VK_BUILD_ACCELERATION_STRUCTURE_LOW_MEMORY_BIT_KHR = 0x00000010, VK_BUILD_ACCELERATION_STRUCTURE_MOTION_BIT_NV = 0x00000020, VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_OPACITY_MICROMAP_UPDATE_EXT = 0x00000040, VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_DISABLE_OPACITY_MICROMAPS_EXT = 0x00000080, VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_OPACITY_MICROMAP_DATA_UPDATE_EXT = 0x00000100, VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_UPDATE_BIT_NV = VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_UPDATE_BIT_KHR, VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_COMPACTION_BIT_NV = VK_BUILD_ACCELERATION_STRUCTURE_ALLOW_COMPACTION_BIT_KHR, VK_BUILD_ACCELERATION_STRUCTURE_PREFER_FAST_TRACE_BIT_NV = VK_BUILD_ACCELERATION_STRUCTURE_PREFER_FAST_TRACE_BIT_KHR, VK_BUILD_ACCELERATION_STRUCTURE_PREFER_FAST_BUILD_BIT_NV = VK_BUILD_ACCELERATION_STRUCTURE_PREFER_FAST_BUILD_BIT_KHR, VK_BUILD_ACCELERATION_STRUCTURE_LOW_MEMORY_BIT_NV = VK_BUILD_ACCELERATION_STRUCTURE_LOW_MEMORY_BIT_KHR, VK_BUILD_ACCELERATION_STRUCTURE_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkBuildAccelerationStructureFlagBitsKHR; typedef VkFlags VkBuildAccelerationStructureFlagsKHR; typedef VkBuildAccelerationStructureFlagsKHR VkBuildAccelerationStructureFlagsNV; typedef VkBuildAccelerationStructureFlagBitsKHR VkBuildAccelerationStructureFlagBitsNV; typedef struct VkRayTracingShaderGroupCreateInfoNV { VkStructureType sType; const void* pNext; VkRayTracingShaderGroupTypeKHR type; uint32_t generalShader; uint32_t closestHitShader; uint32_t anyHitShader; uint32_t intersectionShader; } VkRayTracingShaderGroupCreateInfoNV; typedef struct VkRayTracingPipelineCreateInfoNV { VkStructureType sType; const void* pNext; VkPipelineCreateFlags flags; uint32_t stageCount; const VkPipelineShaderStageCreateInfo* pStages; uint32_t groupCount; const VkRayTracingShaderGroupCreateInfoNV* pGroups; uint32_t maxRecursionDepth; VkPipelineLayout layout; VkPipeline basePipelineHandle; int32_t basePipelineIndex; } VkRayTracingPipelineCreateInfoNV; typedef struct VkGeometryTrianglesNV { VkStructureType sType; const void* pNext; VkBuffer vertexData; VkDeviceSize vertexOffset; uint32_t vertexCount; VkDeviceSize vertexStride; VkFormat vertexFormat; VkBuffer indexData; VkDeviceSize indexOffset; uint32_t indexCount; VkIndexType indexType; VkBuffer transformData; VkDeviceSize transformOffset; } VkGeometryTrianglesNV; typedef struct VkGeometryAABBNV { VkStructureType sType; const void* pNext; VkBuffer aabbData; uint32_t numAABBs; uint32_t stride; VkDeviceSize offset; } VkGeometryAABBNV; typedef struct VkGeometryDataNV { VkGeometryTrianglesNV triangles; VkGeometryAABBNV aabbs; } VkGeometryDataNV; typedef struct VkGeometryNV { VkStructureType sType; const void* pNext; VkGeometryTypeKHR geometryType; VkGeometryDataNV geometry; VkGeometryFlagsKHR flags; } VkGeometryNV; typedef struct VkAccelerationStructureInfoNV { VkStructureType sType; const void* pNext; VkAccelerationStructureTypeNV type; VkBuildAccelerationStructureFlagsNV flags; uint32_t instanceCount; uint32_t geometryCount; const VkGeometryNV* pGeometries; } VkAccelerationStructureInfoNV; typedef struct VkAccelerationStructureCreateInfoNV { VkStructureType sType; const void* pNext; VkDeviceSize compactedSize; VkAccelerationStructureInfoNV info; } VkAccelerationStructureCreateInfoNV; typedef struct VkBindAccelerationStructureMemoryInfoNV { VkStructureType sType; const void* pNext; VkAccelerationStructureNV accelerationStructure; VkDeviceMemory memory; VkDeviceSize memoryOffset; uint32_t deviceIndexCount; const uint32_t* pDeviceIndices; } VkBindAccelerationStructureMemoryInfoNV; typedef struct VkWriteDescriptorSetAccelerationStructureNV { VkStructureType sType; const void* pNext; uint32_t accelerationStructureCount; const VkAccelerationStructureNV* pAccelerationStructures; } VkWriteDescriptorSetAccelerationStructureNV; typedef struct VkAccelerationStructureMemoryRequirementsInfoNV { VkStructureType sType; const void* pNext; VkAccelerationStructureMemoryRequirementsTypeNV type; VkAccelerationStructureNV accelerationStructure; } VkAccelerationStructureMemoryRequirementsInfoNV; typedef struct VkPhysicalDeviceRayTracingPropertiesNV { VkStructureType sType; void* pNext; uint32_t shaderGroupHandleSize; uint32_t maxRecursionDepth; uint32_t maxShaderGroupStride; uint32_t shaderGroupBaseAlignment; uint64_t maxGeometryCount; uint64_t maxInstanceCount; uint64_t maxTriangleCount; uint32_t maxDescriptorSetAccelerationStructures; } VkPhysicalDeviceRayTracingPropertiesNV; typedef struct VkTransformMatrixKHR { float matrix[3][4]; } VkTransformMatrixKHR; typedef VkTransformMatrixKHR VkTransformMatrixNV; typedef struct VkAabbPositionsKHR { float minX; float minY; float minZ; float maxX; float maxY; float maxZ; } VkAabbPositionsKHR; typedef VkAabbPositionsKHR VkAabbPositionsNV; typedef struct VkAccelerationStructureInstanceKHR { VkTransformMatrixKHR transform; uint32_t instanceCustomIndex:24; uint32_t mask:8; uint32_t instanceShaderBindingTableRecordOffset:24; VkGeometryInstanceFlagsKHR flags:8; uint64_t accelerationStructureReference; } VkAccelerationStructureInstanceKHR; typedef VkAccelerationStructureInstanceKHR VkAccelerationStructureInstanceNV; typedef VkResult (VKAPI_PTR *PFN_vkCreateAccelerationStructureNV)(VkDevice device, const VkAccelerationStructureCreateInfoNV* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkAccelerationStructureNV* pAccelerationStructure); typedef void (VKAPI_PTR *PFN_vkDestroyAccelerationStructureNV)(VkDevice device, VkAccelerationStructureNV accelerationStructure, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkGetAccelerationStructureMemoryRequirementsNV)(VkDevice device, const VkAccelerationStructureMemoryRequirementsInfoNV* pInfo, VkMemoryRequirements2KHR* pMemoryRequirements); typedef VkResult (VKAPI_PTR *PFN_vkBindAccelerationStructureMemoryNV)(VkDevice device, uint32_t bindInfoCount, const VkBindAccelerationStructureMemoryInfoNV* pBindInfos); typedef void (VKAPI_PTR *PFN_vkCmdBuildAccelerationStructureNV)(VkCommandBuffer commandBuffer, const VkAccelerationStructureInfoNV* pInfo, VkBuffer instanceData, VkDeviceSize instanceOffset, VkBool32 update, VkAccelerationStructureNV dst, VkAccelerationStructureNV src, VkBuffer scratch, VkDeviceSize scratchOffset); typedef void (VKAPI_PTR *PFN_vkCmdCopyAccelerationStructureNV)(VkCommandBuffer commandBuffer, VkAccelerationStructureNV dst, VkAccelerationStructureNV src, VkCopyAccelerationStructureModeKHR mode); typedef void (VKAPI_PTR *PFN_vkCmdTraceRaysNV)(VkCommandBuffer commandBuffer, VkBuffer raygenShaderBindingTableBuffer, VkDeviceSize raygenShaderBindingOffset, VkBuffer missShaderBindingTableBuffer, VkDeviceSize missShaderBindingOffset, VkDeviceSize missShaderBindingStride, VkBuffer hitShaderBindingTableBuffer, VkDeviceSize hitShaderBindingOffset, VkDeviceSize hitShaderBindingStride, VkBuffer callableShaderBindingTableBuffer, VkDeviceSize callableShaderBindingOffset, VkDeviceSize callableShaderBindingStride, uint32_t width, uint32_t height, uint32_t depth); typedef VkResult (VKAPI_PTR *PFN_vkCreateRayTracingPipelinesNV)(VkDevice device, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkRayTracingPipelineCreateInfoNV* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); typedef VkResult (VKAPI_PTR *PFN_vkGetRayTracingShaderGroupHandlesKHR)(VkDevice device, VkPipeline pipeline, uint32_t firstGroup, uint32_t groupCount, size_t dataSize, void* pData); typedef VkResult (VKAPI_PTR *PFN_vkGetRayTracingShaderGroupHandlesNV)(VkDevice device, VkPipeline pipeline, uint32_t firstGroup, uint32_t groupCount, size_t dataSize, void* pData); typedef VkResult (VKAPI_PTR *PFN_vkGetAccelerationStructureHandleNV)(VkDevice device, VkAccelerationStructureNV accelerationStructure, size_t dataSize, void* pData); typedef void (VKAPI_PTR *PFN_vkCmdWriteAccelerationStructuresPropertiesNV)(VkCommandBuffer commandBuffer, uint32_t accelerationStructureCount, const VkAccelerationStructureNV* pAccelerationStructures, VkQueryType queryType, VkQueryPool queryPool, uint32_t firstQuery); typedef VkResult (VKAPI_PTR *PFN_vkCompileDeferredNV)(VkDevice device, VkPipeline pipeline, uint32_t shader); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateAccelerationStructureNV( VkDevice device, const VkAccelerationStructureCreateInfoNV* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkAccelerationStructureNV* pAccelerationStructure); VKAPI_ATTR void VKAPI_CALL vkDestroyAccelerationStructureNV( VkDevice device, VkAccelerationStructureNV accelerationStructure, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkGetAccelerationStructureMemoryRequirementsNV( VkDevice device, const VkAccelerationStructureMemoryRequirementsInfoNV* pInfo, VkMemoryRequirements2KHR* pMemoryRequirements); VKAPI_ATTR VkResult VKAPI_CALL vkBindAccelerationStructureMemoryNV( VkDevice device, uint32_t bindInfoCount, const VkBindAccelerationStructureMemoryInfoNV* pBindInfos); VKAPI_ATTR void VKAPI_CALL vkCmdBuildAccelerationStructureNV( VkCommandBuffer commandBuffer, const VkAccelerationStructureInfoNV* pInfo, VkBuffer instanceData, VkDeviceSize instanceOffset, VkBool32 update, VkAccelerationStructureNV dst, VkAccelerationStructureNV src, VkBuffer scratch, VkDeviceSize scratchOffset); VKAPI_ATTR void VKAPI_CALL vkCmdCopyAccelerationStructureNV( VkCommandBuffer commandBuffer, VkAccelerationStructureNV dst, VkAccelerationStructureNV src, VkCopyAccelerationStructureModeKHR mode); VKAPI_ATTR void VKAPI_CALL vkCmdTraceRaysNV( VkCommandBuffer commandBuffer, VkBuffer raygenShaderBindingTableBuffer, VkDeviceSize raygenShaderBindingOffset, VkBuffer missShaderBindingTableBuffer, VkDeviceSize missShaderBindingOffset, VkDeviceSize missShaderBindingStride, VkBuffer hitShaderBindingTableBuffer, VkDeviceSize hitShaderBindingOffset, VkDeviceSize hitShaderBindingStride, VkBuffer callableShaderBindingTableBuffer, VkDeviceSize callableShaderBindingOffset, VkDeviceSize callableShaderBindingStride, uint32_t width, uint32_t height, uint32_t depth); VKAPI_ATTR VkResult VKAPI_CALL vkCreateRayTracingPipelinesNV( VkDevice device, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkRayTracingPipelineCreateInfoNV* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); VKAPI_ATTR VkResult VKAPI_CALL vkGetRayTracingShaderGroupHandlesKHR( VkDevice device, VkPipeline pipeline, uint32_t firstGroup, uint32_t groupCount, size_t dataSize, void* pData); VKAPI_ATTR VkResult VKAPI_CALL vkGetRayTracingShaderGroupHandlesNV( VkDevice device, VkPipeline pipeline, uint32_t firstGroup, uint32_t groupCount, size_t dataSize, void* pData); VKAPI_ATTR VkResult VKAPI_CALL vkGetAccelerationStructureHandleNV( VkDevice device, VkAccelerationStructureNV accelerationStructure, size_t dataSize, void* pData); VKAPI_ATTR void VKAPI_CALL vkCmdWriteAccelerationStructuresPropertiesNV( VkCommandBuffer commandBuffer, uint32_t accelerationStructureCount, const VkAccelerationStructureNV* pAccelerationStructures, VkQueryType queryType, VkQueryPool queryPool, uint32_t firstQuery); VKAPI_ATTR VkResult VKAPI_CALL vkCompileDeferredNV( VkDevice device, VkPipeline pipeline, uint32_t shader); #endif #define VK_NV_representative_fragment_test 1 #define VK_NV_REPRESENTATIVE_FRAGMENT_TEST_SPEC_VERSION 2 #define VK_NV_REPRESENTATIVE_FRAGMENT_TEST_EXTENSION_NAME "VK_NV_representative_fragment_test" typedef struct VkPhysicalDeviceRepresentativeFragmentTestFeaturesNV { VkStructureType sType; void* pNext; VkBool32 representativeFragmentTest; } VkPhysicalDeviceRepresentativeFragmentTestFeaturesNV; typedef struct VkPipelineRepresentativeFragmentTestStateCreateInfoNV { VkStructureType sType; const void* pNext; VkBool32 representativeFragmentTestEnable; } VkPipelineRepresentativeFragmentTestStateCreateInfoNV; #define VK_EXT_filter_cubic 1 #define VK_EXT_FILTER_CUBIC_SPEC_VERSION 3 #define VK_EXT_FILTER_CUBIC_EXTENSION_NAME "VK_EXT_filter_cubic" typedef struct VkPhysicalDeviceImageViewImageFormatInfoEXT { VkStructureType sType; void* pNext; VkImageViewType imageViewType; } VkPhysicalDeviceImageViewImageFormatInfoEXT; typedef struct VkFilterCubicImageViewImageFormatPropertiesEXT { VkStructureType sType; void* pNext; VkBool32 filterCubic; VkBool32 filterCubicMinmax; } VkFilterCubicImageViewImageFormatPropertiesEXT; #define VK_QCOM_render_pass_shader_resolve 1 #define VK_QCOM_RENDER_PASS_SHADER_RESOLVE_SPEC_VERSION 4 #define VK_QCOM_RENDER_PASS_SHADER_RESOLVE_EXTENSION_NAME "VK_QCOM_render_pass_shader_resolve" #define VK_EXT_global_priority 1 #define VK_EXT_GLOBAL_PRIORITY_SPEC_VERSION 2 #define VK_EXT_GLOBAL_PRIORITY_EXTENSION_NAME "VK_EXT_global_priority" typedef VkQueueGlobalPriorityKHR VkQueueGlobalPriorityEXT; typedef VkDeviceQueueGlobalPriorityCreateInfoKHR VkDeviceQueueGlobalPriorityCreateInfoEXT; #define VK_EXT_external_memory_host 1 #define VK_EXT_EXTERNAL_MEMORY_HOST_SPEC_VERSION 1 #define VK_EXT_EXTERNAL_MEMORY_HOST_EXTENSION_NAME "VK_EXT_external_memory_host" typedef struct VkImportMemoryHostPointerInfoEXT { VkStructureType sType; const void* pNext; VkExternalMemoryHandleTypeFlagBits handleType; void* pHostPointer; } VkImportMemoryHostPointerInfoEXT; typedef struct VkMemoryHostPointerPropertiesEXT { VkStructureType sType; void* pNext; uint32_t memoryTypeBits; } VkMemoryHostPointerPropertiesEXT; typedef struct VkPhysicalDeviceExternalMemoryHostPropertiesEXT { VkStructureType sType; void* pNext; VkDeviceSize minImportedHostPointerAlignment; } VkPhysicalDeviceExternalMemoryHostPropertiesEXT; typedef VkResult (VKAPI_PTR *PFN_vkGetMemoryHostPointerPropertiesEXT)(VkDevice device, VkExternalMemoryHandleTypeFlagBits handleType, const void* pHostPointer, VkMemoryHostPointerPropertiesEXT* pMemoryHostPointerProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetMemoryHostPointerPropertiesEXT( VkDevice device, VkExternalMemoryHandleTypeFlagBits handleType, const void* pHostPointer, VkMemoryHostPointerPropertiesEXT* pMemoryHostPointerProperties); #endif #define VK_AMD_buffer_marker 1 #define VK_AMD_BUFFER_MARKER_SPEC_VERSION 1 #define VK_AMD_BUFFER_MARKER_EXTENSION_NAME "VK_AMD_buffer_marker" typedef void (VKAPI_PTR *PFN_vkCmdWriteBufferMarkerAMD)(VkCommandBuffer commandBuffer, VkPipelineStageFlagBits pipelineStage, VkBuffer dstBuffer, VkDeviceSize dstOffset, uint32_t marker); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdWriteBufferMarkerAMD( VkCommandBuffer commandBuffer, VkPipelineStageFlagBits pipelineStage, VkBuffer dstBuffer, VkDeviceSize dstOffset, uint32_t marker); #endif #define VK_AMD_pipeline_compiler_control 1 #define VK_AMD_PIPELINE_COMPILER_CONTROL_SPEC_VERSION 1 #define VK_AMD_PIPELINE_COMPILER_CONTROL_EXTENSION_NAME "VK_AMD_pipeline_compiler_control" typedef enum VkPipelineCompilerControlFlagBitsAMD { VK_PIPELINE_COMPILER_CONTROL_FLAG_BITS_MAX_ENUM_AMD = 0x7FFFFFFF } VkPipelineCompilerControlFlagBitsAMD; typedef VkFlags VkPipelineCompilerControlFlagsAMD; typedef struct VkPipelineCompilerControlCreateInfoAMD { VkStructureType sType; const void* pNext; VkPipelineCompilerControlFlagsAMD compilerControlFlags; } VkPipelineCompilerControlCreateInfoAMD; #define VK_EXT_calibrated_timestamps 1 #define VK_EXT_CALIBRATED_TIMESTAMPS_SPEC_VERSION 2 #define VK_EXT_CALIBRATED_TIMESTAMPS_EXTENSION_NAME "VK_EXT_calibrated_timestamps" typedef enum VkTimeDomainEXT { VK_TIME_DOMAIN_DEVICE_EXT = 0, VK_TIME_DOMAIN_CLOCK_MONOTONIC_EXT = 1, VK_TIME_DOMAIN_CLOCK_MONOTONIC_RAW_EXT = 2, VK_TIME_DOMAIN_QUERY_PERFORMANCE_COUNTER_EXT = 3, VK_TIME_DOMAIN_MAX_ENUM_EXT = 0x7FFFFFFF } VkTimeDomainEXT; typedef struct VkCalibratedTimestampInfoEXT { VkStructureType sType; const void* pNext; VkTimeDomainEXT timeDomain; } VkCalibratedTimestampInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceCalibrateableTimeDomainsEXT)(VkPhysicalDevice physicalDevice, uint32_t* pTimeDomainCount, VkTimeDomainEXT* pTimeDomains); typedef VkResult (VKAPI_PTR *PFN_vkGetCalibratedTimestampsEXT)(VkDevice device, uint32_t timestampCount, const VkCalibratedTimestampInfoEXT* pTimestampInfos, uint64_t* pTimestamps, uint64_t* pMaxDeviation); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceCalibrateableTimeDomainsEXT( VkPhysicalDevice physicalDevice, uint32_t* pTimeDomainCount, VkTimeDomainEXT* pTimeDomains); VKAPI_ATTR VkResult VKAPI_CALL vkGetCalibratedTimestampsEXT( VkDevice device, uint32_t timestampCount, const VkCalibratedTimestampInfoEXT* pTimestampInfos, uint64_t* pTimestamps, uint64_t* pMaxDeviation); #endif #define VK_AMD_shader_core_properties 1 #define VK_AMD_SHADER_CORE_PROPERTIES_SPEC_VERSION 2 #define VK_AMD_SHADER_CORE_PROPERTIES_EXTENSION_NAME "VK_AMD_shader_core_properties" typedef struct VkPhysicalDeviceShaderCorePropertiesAMD { VkStructureType sType; void* pNext; uint32_t shaderEngineCount; uint32_t shaderArraysPerEngineCount; uint32_t computeUnitsPerShaderArray; uint32_t simdPerComputeUnit; uint32_t wavefrontsPerSimd; uint32_t wavefrontSize; uint32_t sgprsPerSimd; uint32_t minSgprAllocation; uint32_t maxSgprAllocation; uint32_t sgprAllocationGranularity; uint32_t vgprsPerSimd; uint32_t minVgprAllocation; uint32_t maxVgprAllocation; uint32_t vgprAllocationGranularity; } VkPhysicalDeviceShaderCorePropertiesAMD; #define VK_AMD_memory_overallocation_behavior 1 #define VK_AMD_MEMORY_OVERALLOCATION_BEHAVIOR_SPEC_VERSION 1 #define VK_AMD_MEMORY_OVERALLOCATION_BEHAVIOR_EXTENSION_NAME "VK_AMD_memory_overallocation_behavior" typedef enum VkMemoryOverallocationBehaviorAMD { VK_MEMORY_OVERALLOCATION_BEHAVIOR_DEFAULT_AMD = 0, VK_MEMORY_OVERALLOCATION_BEHAVIOR_ALLOWED_AMD = 1, VK_MEMORY_OVERALLOCATION_BEHAVIOR_DISALLOWED_AMD = 2, VK_MEMORY_OVERALLOCATION_BEHAVIOR_MAX_ENUM_AMD = 0x7FFFFFFF } VkMemoryOverallocationBehaviorAMD; typedef struct VkDeviceMemoryOverallocationCreateInfoAMD { VkStructureType sType; const void* pNext; VkMemoryOverallocationBehaviorAMD overallocationBehavior; } VkDeviceMemoryOverallocationCreateInfoAMD; #define VK_EXT_vertex_attribute_divisor 1 #define VK_EXT_VERTEX_ATTRIBUTE_DIVISOR_SPEC_VERSION 3 #define VK_EXT_VERTEX_ATTRIBUTE_DIVISOR_EXTENSION_NAME "VK_EXT_vertex_attribute_divisor" typedef struct VkPhysicalDeviceVertexAttributeDivisorPropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxVertexAttribDivisor; } VkPhysicalDeviceVertexAttributeDivisorPropertiesEXT; typedef struct VkVertexInputBindingDivisorDescriptionEXT { uint32_t binding; uint32_t divisor; } VkVertexInputBindingDivisorDescriptionEXT; typedef struct VkPipelineVertexInputDivisorStateCreateInfoEXT { VkStructureType sType; const void* pNext; uint32_t vertexBindingDivisorCount; const VkVertexInputBindingDivisorDescriptionEXT* pVertexBindingDivisors; } VkPipelineVertexInputDivisorStateCreateInfoEXT; typedef struct VkPhysicalDeviceVertexAttributeDivisorFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 vertexAttributeInstanceRateDivisor; VkBool32 vertexAttributeInstanceRateZeroDivisor; } VkPhysicalDeviceVertexAttributeDivisorFeaturesEXT; #define VK_EXT_pipeline_creation_feedback 1 #define VK_EXT_PIPELINE_CREATION_FEEDBACK_SPEC_VERSION 1 #define VK_EXT_PIPELINE_CREATION_FEEDBACK_EXTENSION_NAME "VK_EXT_pipeline_creation_feedback" typedef VkPipelineCreationFeedbackFlagBits VkPipelineCreationFeedbackFlagBitsEXT; typedef VkPipelineCreationFeedbackFlags VkPipelineCreationFeedbackFlagsEXT; typedef VkPipelineCreationFeedbackCreateInfo VkPipelineCreationFeedbackCreateInfoEXT; typedef VkPipelineCreationFeedback VkPipelineCreationFeedbackEXT; #define VK_NV_shader_subgroup_partitioned 1 #define VK_NV_SHADER_SUBGROUP_PARTITIONED_SPEC_VERSION 1 #define VK_NV_SHADER_SUBGROUP_PARTITIONED_EXTENSION_NAME "VK_NV_shader_subgroup_partitioned" #define VK_NV_compute_shader_derivatives 1 #define VK_NV_COMPUTE_SHADER_DERIVATIVES_SPEC_VERSION 1 #define VK_NV_COMPUTE_SHADER_DERIVATIVES_EXTENSION_NAME "VK_NV_compute_shader_derivatives" typedef struct VkPhysicalDeviceComputeShaderDerivativesFeaturesNV { VkStructureType sType; void* pNext; VkBool32 computeDerivativeGroupQuads; VkBool32 computeDerivativeGroupLinear; } VkPhysicalDeviceComputeShaderDerivativesFeaturesNV; #define VK_NV_mesh_shader 1 #define VK_NV_MESH_SHADER_SPEC_VERSION 1 #define VK_NV_MESH_SHADER_EXTENSION_NAME "VK_NV_mesh_shader" typedef struct VkPhysicalDeviceMeshShaderFeaturesNV { VkStructureType sType; void* pNext; VkBool32 taskShader; VkBool32 meshShader; } VkPhysicalDeviceMeshShaderFeaturesNV; typedef struct VkPhysicalDeviceMeshShaderPropertiesNV { VkStructureType sType; void* pNext; uint32_t maxDrawMeshTasksCount; uint32_t maxTaskWorkGroupInvocations; uint32_t maxTaskWorkGroupSize[3]; uint32_t maxTaskTotalMemorySize; uint32_t maxTaskOutputCount; uint32_t maxMeshWorkGroupInvocations; uint32_t maxMeshWorkGroupSize[3]; uint32_t maxMeshTotalMemorySize; uint32_t maxMeshOutputVertices; uint32_t maxMeshOutputPrimitives; uint32_t maxMeshMultiviewViewCount; uint32_t meshOutputPerVertexGranularity; uint32_t meshOutputPerPrimitiveGranularity; } VkPhysicalDeviceMeshShaderPropertiesNV; typedef struct VkDrawMeshTasksIndirectCommandNV { uint32_t taskCount; uint32_t firstTask; } VkDrawMeshTasksIndirectCommandNV; typedef void (VKAPI_PTR *PFN_vkCmdDrawMeshTasksNV)(VkCommandBuffer commandBuffer, uint32_t taskCount, uint32_t firstTask); typedef void (VKAPI_PTR *PFN_vkCmdDrawMeshTasksIndirectNV)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawMeshTasksIndirectCountNV)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdDrawMeshTasksNV( VkCommandBuffer commandBuffer, uint32_t taskCount, uint32_t firstTask); VKAPI_ATTR void VKAPI_CALL vkCmdDrawMeshTasksIndirectNV( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawMeshTasksIndirectCountNV( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #endif #define VK_NV_fragment_shader_barycentric 1 #define VK_NV_FRAGMENT_SHADER_BARYCENTRIC_SPEC_VERSION 1 #define VK_NV_FRAGMENT_SHADER_BARYCENTRIC_EXTENSION_NAME "VK_NV_fragment_shader_barycentric" typedef VkPhysicalDeviceFragmentShaderBarycentricFeaturesKHR VkPhysicalDeviceFragmentShaderBarycentricFeaturesNV; #define VK_NV_shader_image_footprint 1 #define VK_NV_SHADER_IMAGE_FOOTPRINT_SPEC_VERSION 2 #define VK_NV_SHADER_IMAGE_FOOTPRINT_EXTENSION_NAME "VK_NV_shader_image_footprint" typedef struct VkPhysicalDeviceShaderImageFootprintFeaturesNV { VkStructureType sType; void* pNext; VkBool32 imageFootprint; } VkPhysicalDeviceShaderImageFootprintFeaturesNV; #define VK_NV_scissor_exclusive 1 #define VK_NV_SCISSOR_EXCLUSIVE_SPEC_VERSION 1 #define VK_NV_SCISSOR_EXCLUSIVE_EXTENSION_NAME "VK_NV_scissor_exclusive" typedef struct VkPipelineViewportExclusiveScissorStateCreateInfoNV { VkStructureType sType; const void* pNext; uint32_t exclusiveScissorCount; const VkRect2D* pExclusiveScissors; } VkPipelineViewportExclusiveScissorStateCreateInfoNV; typedef struct VkPhysicalDeviceExclusiveScissorFeaturesNV { VkStructureType sType; void* pNext; VkBool32 exclusiveScissor; } VkPhysicalDeviceExclusiveScissorFeaturesNV; typedef void (VKAPI_PTR *PFN_vkCmdSetExclusiveScissorNV)(VkCommandBuffer commandBuffer, uint32_t firstExclusiveScissor, uint32_t exclusiveScissorCount, const VkRect2D* pExclusiveScissors); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetExclusiveScissorNV( VkCommandBuffer commandBuffer, uint32_t firstExclusiveScissor, uint32_t exclusiveScissorCount, const VkRect2D* pExclusiveScissors); #endif #define VK_NV_device_diagnostic_checkpoints 1 #define VK_NV_DEVICE_DIAGNOSTIC_CHECKPOINTS_SPEC_VERSION 2 #define VK_NV_DEVICE_DIAGNOSTIC_CHECKPOINTS_EXTENSION_NAME "VK_NV_device_diagnostic_checkpoints" typedef struct VkQueueFamilyCheckpointPropertiesNV { VkStructureType sType; void* pNext; VkPipelineStageFlags checkpointExecutionStageMask; } VkQueueFamilyCheckpointPropertiesNV; typedef struct VkCheckpointDataNV { VkStructureType sType; void* pNext; VkPipelineStageFlagBits stage; void* pCheckpointMarker; } VkCheckpointDataNV; typedef void (VKAPI_PTR *PFN_vkCmdSetCheckpointNV)(VkCommandBuffer commandBuffer, const void* pCheckpointMarker); typedef void (VKAPI_PTR *PFN_vkGetQueueCheckpointDataNV)(VkQueue queue, uint32_t* pCheckpointDataCount, VkCheckpointDataNV* pCheckpointData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetCheckpointNV( VkCommandBuffer commandBuffer, const void* pCheckpointMarker); VKAPI_ATTR void VKAPI_CALL vkGetQueueCheckpointDataNV( VkQueue queue, uint32_t* pCheckpointDataCount, VkCheckpointDataNV* pCheckpointData); #endif #define VK_INTEL_shader_integer_functions2 1 #define VK_INTEL_SHADER_INTEGER_FUNCTIONS_2_SPEC_VERSION 1 #define VK_INTEL_SHADER_INTEGER_FUNCTIONS_2_EXTENSION_NAME "VK_INTEL_shader_integer_functions2" typedef struct VkPhysicalDeviceShaderIntegerFunctions2FeaturesINTEL { VkStructureType sType; void* pNext; VkBool32 shaderIntegerFunctions2; } VkPhysicalDeviceShaderIntegerFunctions2FeaturesINTEL; #define VK_INTEL_performance_query 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkPerformanceConfigurationINTEL) #define VK_INTEL_PERFORMANCE_QUERY_SPEC_VERSION 2 #define VK_INTEL_PERFORMANCE_QUERY_EXTENSION_NAME "VK_INTEL_performance_query" typedef enum VkPerformanceConfigurationTypeINTEL { VK_PERFORMANCE_CONFIGURATION_TYPE_COMMAND_QUEUE_METRICS_DISCOVERY_ACTIVATED_INTEL = 0, VK_PERFORMANCE_CONFIGURATION_TYPE_MAX_ENUM_INTEL = 0x7FFFFFFF } VkPerformanceConfigurationTypeINTEL; typedef enum VkQueryPoolSamplingModeINTEL { VK_QUERY_POOL_SAMPLING_MODE_MANUAL_INTEL = 0, VK_QUERY_POOL_SAMPLING_MODE_MAX_ENUM_INTEL = 0x7FFFFFFF } VkQueryPoolSamplingModeINTEL; typedef enum VkPerformanceOverrideTypeINTEL { VK_PERFORMANCE_OVERRIDE_TYPE_NULL_HARDWARE_INTEL = 0, VK_PERFORMANCE_OVERRIDE_TYPE_FLUSH_GPU_CACHES_INTEL = 1, VK_PERFORMANCE_OVERRIDE_TYPE_MAX_ENUM_INTEL = 0x7FFFFFFF } VkPerformanceOverrideTypeINTEL; typedef enum VkPerformanceParameterTypeINTEL { VK_PERFORMANCE_PARAMETER_TYPE_HW_COUNTERS_SUPPORTED_INTEL = 0, VK_PERFORMANCE_PARAMETER_TYPE_STREAM_MARKER_VALID_BITS_INTEL = 1, VK_PERFORMANCE_PARAMETER_TYPE_MAX_ENUM_INTEL = 0x7FFFFFFF } VkPerformanceParameterTypeINTEL; typedef enum VkPerformanceValueTypeINTEL { VK_PERFORMANCE_VALUE_TYPE_UINT32_INTEL = 0, VK_PERFORMANCE_VALUE_TYPE_UINT64_INTEL = 1, VK_PERFORMANCE_VALUE_TYPE_FLOAT_INTEL = 2, VK_PERFORMANCE_VALUE_TYPE_BOOL_INTEL = 3, VK_PERFORMANCE_VALUE_TYPE_STRING_INTEL = 4, VK_PERFORMANCE_VALUE_TYPE_MAX_ENUM_INTEL = 0x7FFFFFFF } VkPerformanceValueTypeINTEL; typedef union VkPerformanceValueDataINTEL { uint32_t value32; uint64_t value64; float valueFloat; VkBool32 valueBool; const char* valueString; } VkPerformanceValueDataINTEL; typedef struct VkPerformanceValueINTEL { VkPerformanceValueTypeINTEL type; VkPerformanceValueDataINTEL data; } VkPerformanceValueINTEL; typedef struct VkInitializePerformanceApiInfoINTEL { VkStructureType sType; const void* pNext; void* pUserData; } VkInitializePerformanceApiInfoINTEL; typedef struct VkQueryPoolPerformanceQueryCreateInfoINTEL { VkStructureType sType; const void* pNext; VkQueryPoolSamplingModeINTEL performanceCountersSampling; } VkQueryPoolPerformanceQueryCreateInfoINTEL; typedef VkQueryPoolPerformanceQueryCreateInfoINTEL VkQueryPoolCreateInfoINTEL; typedef struct VkPerformanceMarkerInfoINTEL { VkStructureType sType; const void* pNext; uint64_t marker; } VkPerformanceMarkerInfoINTEL; typedef struct VkPerformanceStreamMarkerInfoINTEL { VkStructureType sType; const void* pNext; uint32_t marker; } VkPerformanceStreamMarkerInfoINTEL; typedef struct VkPerformanceOverrideInfoINTEL { VkStructureType sType; const void* pNext; VkPerformanceOverrideTypeINTEL type; VkBool32 enable; uint64_t parameter; } VkPerformanceOverrideInfoINTEL; typedef struct VkPerformanceConfigurationAcquireInfoINTEL { VkStructureType sType; const void* pNext; VkPerformanceConfigurationTypeINTEL type; } VkPerformanceConfigurationAcquireInfoINTEL; typedef VkResult (VKAPI_PTR *PFN_vkInitializePerformanceApiINTEL)(VkDevice device, const VkInitializePerformanceApiInfoINTEL* pInitializeInfo); typedef void (VKAPI_PTR *PFN_vkUninitializePerformanceApiINTEL)(VkDevice device); typedef VkResult (VKAPI_PTR *PFN_vkCmdSetPerformanceMarkerINTEL)(VkCommandBuffer commandBuffer, const VkPerformanceMarkerInfoINTEL* pMarkerInfo); typedef VkResult (VKAPI_PTR *PFN_vkCmdSetPerformanceStreamMarkerINTEL)(VkCommandBuffer commandBuffer, const VkPerformanceStreamMarkerInfoINTEL* pMarkerInfo); typedef VkResult (VKAPI_PTR *PFN_vkCmdSetPerformanceOverrideINTEL)(VkCommandBuffer commandBuffer, const VkPerformanceOverrideInfoINTEL* pOverrideInfo); typedef VkResult (VKAPI_PTR *PFN_vkAcquirePerformanceConfigurationINTEL)(VkDevice device, const VkPerformanceConfigurationAcquireInfoINTEL* pAcquireInfo, VkPerformanceConfigurationINTEL* pConfiguration); typedef VkResult (VKAPI_PTR *PFN_vkReleasePerformanceConfigurationINTEL)(VkDevice device, VkPerformanceConfigurationINTEL configuration); typedef VkResult (VKAPI_PTR *PFN_vkQueueSetPerformanceConfigurationINTEL)(VkQueue queue, VkPerformanceConfigurationINTEL configuration); typedef VkResult (VKAPI_PTR *PFN_vkGetPerformanceParameterINTEL)(VkDevice device, VkPerformanceParameterTypeINTEL parameter, VkPerformanceValueINTEL* pValue); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkInitializePerformanceApiINTEL( VkDevice device, const VkInitializePerformanceApiInfoINTEL* pInitializeInfo); VKAPI_ATTR void VKAPI_CALL vkUninitializePerformanceApiINTEL( VkDevice device); VKAPI_ATTR VkResult VKAPI_CALL vkCmdSetPerformanceMarkerINTEL( VkCommandBuffer commandBuffer, const VkPerformanceMarkerInfoINTEL* pMarkerInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCmdSetPerformanceStreamMarkerINTEL( VkCommandBuffer commandBuffer, const VkPerformanceStreamMarkerInfoINTEL* pMarkerInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCmdSetPerformanceOverrideINTEL( VkCommandBuffer commandBuffer, const VkPerformanceOverrideInfoINTEL* pOverrideInfo); VKAPI_ATTR VkResult VKAPI_CALL vkAcquirePerformanceConfigurationINTEL( VkDevice device, const VkPerformanceConfigurationAcquireInfoINTEL* pAcquireInfo, VkPerformanceConfigurationINTEL* pConfiguration); VKAPI_ATTR VkResult VKAPI_CALL vkReleasePerformanceConfigurationINTEL( VkDevice device, VkPerformanceConfigurationINTEL configuration); VKAPI_ATTR VkResult VKAPI_CALL vkQueueSetPerformanceConfigurationINTEL( VkQueue queue, VkPerformanceConfigurationINTEL configuration); VKAPI_ATTR VkResult VKAPI_CALL vkGetPerformanceParameterINTEL( VkDevice device, VkPerformanceParameterTypeINTEL parameter, VkPerformanceValueINTEL* pValue); #endif #define VK_EXT_pci_bus_info 1 #define VK_EXT_PCI_BUS_INFO_SPEC_VERSION 2 #define VK_EXT_PCI_BUS_INFO_EXTENSION_NAME "VK_EXT_pci_bus_info" typedef struct VkPhysicalDevicePCIBusInfoPropertiesEXT { VkStructureType sType; void* pNext; uint32_t pciDomain; uint32_t pciBus; uint32_t pciDevice; uint32_t pciFunction; } VkPhysicalDevicePCIBusInfoPropertiesEXT; #define VK_AMD_display_native_hdr 1 #define VK_AMD_DISPLAY_NATIVE_HDR_SPEC_VERSION 1 #define VK_AMD_DISPLAY_NATIVE_HDR_EXTENSION_NAME "VK_AMD_display_native_hdr" typedef struct VkDisplayNativeHdrSurfaceCapabilitiesAMD { VkStructureType sType; void* pNext; VkBool32 localDimmingSupport; } VkDisplayNativeHdrSurfaceCapabilitiesAMD; typedef struct VkSwapchainDisplayNativeHdrCreateInfoAMD { VkStructureType sType; const void* pNext; VkBool32 localDimmingEnable; } VkSwapchainDisplayNativeHdrCreateInfoAMD; typedef void (VKAPI_PTR *PFN_vkSetLocalDimmingAMD)(VkDevice device, VkSwapchainKHR swapChain, VkBool32 localDimmingEnable); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkSetLocalDimmingAMD( VkDevice device, VkSwapchainKHR swapChain, VkBool32 localDimmingEnable); #endif #define VK_EXT_fragment_density_map 1 #define VK_EXT_FRAGMENT_DENSITY_MAP_SPEC_VERSION 2 #define VK_EXT_FRAGMENT_DENSITY_MAP_EXTENSION_NAME "VK_EXT_fragment_density_map" typedef struct VkPhysicalDeviceFragmentDensityMapFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 fragmentDensityMap; VkBool32 fragmentDensityMapDynamic; VkBool32 fragmentDensityMapNonSubsampledImages; } VkPhysicalDeviceFragmentDensityMapFeaturesEXT; typedef struct VkPhysicalDeviceFragmentDensityMapPropertiesEXT { VkStructureType sType; void* pNext; VkExtent2D minFragmentDensityTexelSize; VkExtent2D maxFragmentDensityTexelSize; VkBool32 fragmentDensityInvocations; } VkPhysicalDeviceFragmentDensityMapPropertiesEXT; typedef struct VkRenderPassFragmentDensityMapCreateInfoEXT { VkStructureType sType; const void* pNext; VkAttachmentReference fragmentDensityMapAttachment; } VkRenderPassFragmentDensityMapCreateInfoEXT; #define VK_EXT_scalar_block_layout 1 #define VK_EXT_SCALAR_BLOCK_LAYOUT_SPEC_VERSION 1 #define VK_EXT_SCALAR_BLOCK_LAYOUT_EXTENSION_NAME "VK_EXT_scalar_block_layout" typedef VkPhysicalDeviceScalarBlockLayoutFeatures VkPhysicalDeviceScalarBlockLayoutFeaturesEXT; #define VK_GOOGLE_hlsl_functionality1 1 #define VK_GOOGLE_HLSL_FUNCTIONALITY_1_SPEC_VERSION 1 #define VK_GOOGLE_HLSL_FUNCTIONALITY_1_EXTENSION_NAME "VK_GOOGLE_hlsl_functionality1" #define VK_GOOGLE_HLSL_FUNCTIONALITY1_SPEC_VERSION VK_GOOGLE_HLSL_FUNCTIONALITY_1_SPEC_VERSION #define VK_GOOGLE_HLSL_FUNCTIONALITY1_EXTENSION_NAME VK_GOOGLE_HLSL_FUNCTIONALITY_1_EXTENSION_NAME #define VK_GOOGLE_decorate_string 1 #define VK_GOOGLE_DECORATE_STRING_SPEC_VERSION 1 #define VK_GOOGLE_DECORATE_STRING_EXTENSION_NAME "VK_GOOGLE_decorate_string" #define VK_EXT_subgroup_size_control 1 #define VK_EXT_SUBGROUP_SIZE_CONTROL_SPEC_VERSION 2 #define VK_EXT_SUBGROUP_SIZE_CONTROL_EXTENSION_NAME "VK_EXT_subgroup_size_control" typedef VkPhysicalDeviceSubgroupSizeControlFeatures VkPhysicalDeviceSubgroupSizeControlFeaturesEXT; typedef VkPhysicalDeviceSubgroupSizeControlProperties VkPhysicalDeviceSubgroupSizeControlPropertiesEXT; typedef VkPipelineShaderStageRequiredSubgroupSizeCreateInfo VkPipelineShaderStageRequiredSubgroupSizeCreateInfoEXT; #define VK_AMD_shader_core_properties2 1 #define VK_AMD_SHADER_CORE_PROPERTIES_2_SPEC_VERSION 1 #define VK_AMD_SHADER_CORE_PROPERTIES_2_EXTENSION_NAME "VK_AMD_shader_core_properties2" typedef enum VkShaderCorePropertiesFlagBitsAMD { VK_SHADER_CORE_PROPERTIES_FLAG_BITS_MAX_ENUM_AMD = 0x7FFFFFFF } VkShaderCorePropertiesFlagBitsAMD; typedef VkFlags VkShaderCorePropertiesFlagsAMD; typedef struct VkPhysicalDeviceShaderCoreProperties2AMD { VkStructureType sType; void* pNext; VkShaderCorePropertiesFlagsAMD shaderCoreFeatures; uint32_t activeComputeUnitCount; } VkPhysicalDeviceShaderCoreProperties2AMD; #define VK_AMD_device_coherent_memory 1 #define VK_AMD_DEVICE_COHERENT_MEMORY_SPEC_VERSION 1 #define VK_AMD_DEVICE_COHERENT_MEMORY_EXTENSION_NAME "VK_AMD_device_coherent_memory" typedef struct VkPhysicalDeviceCoherentMemoryFeaturesAMD { VkStructureType sType; void* pNext; VkBool32 deviceCoherentMemory; } VkPhysicalDeviceCoherentMemoryFeaturesAMD; #define VK_EXT_shader_image_atomic_int64 1 #define VK_EXT_SHADER_IMAGE_ATOMIC_INT64_SPEC_VERSION 1 #define VK_EXT_SHADER_IMAGE_ATOMIC_INT64_EXTENSION_NAME "VK_EXT_shader_image_atomic_int64" typedef struct VkPhysicalDeviceShaderImageAtomicInt64FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 shaderImageInt64Atomics; VkBool32 sparseImageInt64Atomics; } VkPhysicalDeviceShaderImageAtomicInt64FeaturesEXT; #define VK_EXT_memory_budget 1 #define VK_EXT_MEMORY_BUDGET_SPEC_VERSION 1 #define VK_EXT_MEMORY_BUDGET_EXTENSION_NAME "VK_EXT_memory_budget" typedef struct VkPhysicalDeviceMemoryBudgetPropertiesEXT { VkStructureType sType; void* pNext; VkDeviceSize heapBudget[VK_MAX_MEMORY_HEAPS]; VkDeviceSize heapUsage[VK_MAX_MEMORY_HEAPS]; } VkPhysicalDeviceMemoryBudgetPropertiesEXT; #define VK_EXT_memory_priority 1 #define VK_EXT_MEMORY_PRIORITY_SPEC_VERSION 1 #define VK_EXT_MEMORY_PRIORITY_EXTENSION_NAME "VK_EXT_memory_priority" typedef struct VkPhysicalDeviceMemoryPriorityFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 memoryPriority; } VkPhysicalDeviceMemoryPriorityFeaturesEXT; typedef struct VkMemoryPriorityAllocateInfoEXT { VkStructureType sType; const void* pNext; float priority; } VkMemoryPriorityAllocateInfoEXT; #define VK_NV_dedicated_allocation_image_aliasing 1 #define VK_NV_DEDICATED_ALLOCATION_IMAGE_ALIASING_SPEC_VERSION 1 #define VK_NV_DEDICATED_ALLOCATION_IMAGE_ALIASING_EXTENSION_NAME "VK_NV_dedicated_allocation_image_aliasing" typedef struct VkPhysicalDeviceDedicatedAllocationImageAliasingFeaturesNV { VkStructureType sType; void* pNext; VkBool32 dedicatedAllocationImageAliasing; } VkPhysicalDeviceDedicatedAllocationImageAliasingFeaturesNV; #define VK_EXT_buffer_device_address 1 #define VK_EXT_BUFFER_DEVICE_ADDRESS_SPEC_VERSION 2 #define VK_EXT_BUFFER_DEVICE_ADDRESS_EXTENSION_NAME "VK_EXT_buffer_device_address" typedef struct VkPhysicalDeviceBufferDeviceAddressFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 bufferDeviceAddress; VkBool32 bufferDeviceAddressCaptureReplay; VkBool32 bufferDeviceAddressMultiDevice; } VkPhysicalDeviceBufferDeviceAddressFeaturesEXT; typedef VkPhysicalDeviceBufferDeviceAddressFeaturesEXT VkPhysicalDeviceBufferAddressFeaturesEXT; typedef VkBufferDeviceAddressInfo VkBufferDeviceAddressInfoEXT; typedef struct VkBufferDeviceAddressCreateInfoEXT { VkStructureType sType; const void* pNext; VkDeviceAddress deviceAddress; } VkBufferDeviceAddressCreateInfoEXT; typedef VkDeviceAddress (VKAPI_PTR *PFN_vkGetBufferDeviceAddressEXT)(VkDevice device, const VkBufferDeviceAddressInfo* pInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkDeviceAddress VKAPI_CALL vkGetBufferDeviceAddressEXT( VkDevice device, const VkBufferDeviceAddressInfo* pInfo); #endif #define VK_EXT_tooling_info 1 #define VK_EXT_TOOLING_INFO_SPEC_VERSION 1 #define VK_EXT_TOOLING_INFO_EXTENSION_NAME "VK_EXT_tooling_info" typedef VkToolPurposeFlagBits VkToolPurposeFlagBitsEXT; typedef VkToolPurposeFlags VkToolPurposeFlagsEXT; typedef VkPhysicalDeviceToolProperties VkPhysicalDeviceToolPropertiesEXT; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceToolPropertiesEXT)(VkPhysicalDevice physicalDevice, uint32_t* pToolCount, VkPhysicalDeviceToolProperties* pToolProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceToolPropertiesEXT( VkPhysicalDevice physicalDevice, uint32_t* pToolCount, VkPhysicalDeviceToolProperties* pToolProperties); #endif #define VK_EXT_separate_stencil_usage 1 #define VK_EXT_SEPARATE_STENCIL_USAGE_SPEC_VERSION 1 #define VK_EXT_SEPARATE_STENCIL_USAGE_EXTENSION_NAME "VK_EXT_separate_stencil_usage" typedef VkImageStencilUsageCreateInfo VkImageStencilUsageCreateInfoEXT; #define VK_EXT_validation_features 1 #define VK_EXT_VALIDATION_FEATURES_SPEC_VERSION 5 #define VK_EXT_VALIDATION_FEATURES_EXTENSION_NAME "VK_EXT_validation_features" typedef enum VkValidationFeatureEnableEXT { VK_VALIDATION_FEATURE_ENABLE_GPU_ASSISTED_EXT = 0, VK_VALIDATION_FEATURE_ENABLE_GPU_ASSISTED_RESERVE_BINDING_SLOT_EXT = 1, VK_VALIDATION_FEATURE_ENABLE_BEST_PRACTICES_EXT = 2, VK_VALIDATION_FEATURE_ENABLE_DEBUG_PRINTF_EXT = 3, VK_VALIDATION_FEATURE_ENABLE_SYNCHRONIZATION_VALIDATION_EXT = 4, VK_VALIDATION_FEATURE_ENABLE_MAX_ENUM_EXT = 0x7FFFFFFF } VkValidationFeatureEnableEXT; typedef enum VkValidationFeatureDisableEXT { VK_VALIDATION_FEATURE_DISABLE_ALL_EXT = 0, VK_VALIDATION_FEATURE_DISABLE_SHADERS_EXT = 1, VK_VALIDATION_FEATURE_DISABLE_THREAD_SAFETY_EXT = 2, VK_VALIDATION_FEATURE_DISABLE_API_PARAMETERS_EXT = 3, VK_VALIDATION_FEATURE_DISABLE_OBJECT_LIFETIMES_EXT = 4, VK_VALIDATION_FEATURE_DISABLE_CORE_CHECKS_EXT = 5, VK_VALIDATION_FEATURE_DISABLE_UNIQUE_HANDLES_EXT = 6, VK_VALIDATION_FEATURE_DISABLE_SHADER_VALIDATION_CACHE_EXT = 7, VK_VALIDATION_FEATURE_DISABLE_MAX_ENUM_EXT = 0x7FFFFFFF } VkValidationFeatureDisableEXT; typedef struct VkValidationFeaturesEXT { VkStructureType sType; const void* pNext; uint32_t enabledValidationFeatureCount; const VkValidationFeatureEnableEXT* pEnabledValidationFeatures; uint32_t disabledValidationFeatureCount; const VkValidationFeatureDisableEXT* pDisabledValidationFeatures; } VkValidationFeaturesEXT; #define VK_NV_cooperative_matrix 1 #define VK_NV_COOPERATIVE_MATRIX_SPEC_VERSION 1 #define VK_NV_COOPERATIVE_MATRIX_EXTENSION_NAME "VK_NV_cooperative_matrix" typedef enum VkComponentTypeNV { VK_COMPONENT_TYPE_FLOAT16_NV = 0, VK_COMPONENT_TYPE_FLOAT32_NV = 1, VK_COMPONENT_TYPE_FLOAT64_NV = 2, VK_COMPONENT_TYPE_SINT8_NV = 3, VK_COMPONENT_TYPE_SINT16_NV = 4, VK_COMPONENT_TYPE_SINT32_NV = 5, VK_COMPONENT_TYPE_SINT64_NV = 6, VK_COMPONENT_TYPE_UINT8_NV = 7, VK_COMPONENT_TYPE_UINT16_NV = 8, VK_COMPONENT_TYPE_UINT32_NV = 9, VK_COMPONENT_TYPE_UINT64_NV = 10, VK_COMPONENT_TYPE_MAX_ENUM_NV = 0x7FFFFFFF } VkComponentTypeNV; typedef enum VkScopeNV { VK_SCOPE_DEVICE_NV = 1, VK_SCOPE_WORKGROUP_NV = 2, VK_SCOPE_SUBGROUP_NV = 3, VK_SCOPE_QUEUE_FAMILY_NV = 5, VK_SCOPE_MAX_ENUM_NV = 0x7FFFFFFF } VkScopeNV; typedef struct VkCooperativeMatrixPropertiesNV { VkStructureType sType; void* pNext; uint32_t MSize; uint32_t NSize; uint32_t KSize; VkComponentTypeNV AType; VkComponentTypeNV BType; VkComponentTypeNV CType; VkComponentTypeNV DType; VkScopeNV scope; } VkCooperativeMatrixPropertiesNV; typedef struct VkPhysicalDeviceCooperativeMatrixFeaturesNV { VkStructureType sType; void* pNext; VkBool32 cooperativeMatrix; VkBool32 cooperativeMatrixRobustBufferAccess; } VkPhysicalDeviceCooperativeMatrixFeaturesNV; typedef struct VkPhysicalDeviceCooperativeMatrixPropertiesNV { VkStructureType sType; void* pNext; VkShaderStageFlags cooperativeMatrixSupportedStages; } VkPhysicalDeviceCooperativeMatrixPropertiesNV; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceCooperativeMatrixPropertiesNV)(VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkCooperativeMatrixPropertiesNV* pProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceCooperativeMatrixPropertiesNV( VkPhysicalDevice physicalDevice, uint32_t* pPropertyCount, VkCooperativeMatrixPropertiesNV* pProperties); #endif #define VK_NV_coverage_reduction_mode 1 #define VK_NV_COVERAGE_REDUCTION_MODE_SPEC_VERSION 1 #define VK_NV_COVERAGE_REDUCTION_MODE_EXTENSION_NAME "VK_NV_coverage_reduction_mode" typedef enum VkCoverageReductionModeNV { VK_COVERAGE_REDUCTION_MODE_MERGE_NV = 0, VK_COVERAGE_REDUCTION_MODE_TRUNCATE_NV = 1, VK_COVERAGE_REDUCTION_MODE_MAX_ENUM_NV = 0x7FFFFFFF } VkCoverageReductionModeNV; typedef VkFlags VkPipelineCoverageReductionStateCreateFlagsNV; typedef struct VkPhysicalDeviceCoverageReductionModeFeaturesNV { VkStructureType sType; void* pNext; VkBool32 coverageReductionMode; } VkPhysicalDeviceCoverageReductionModeFeaturesNV; typedef struct VkPipelineCoverageReductionStateCreateInfoNV { VkStructureType sType; const void* pNext; VkPipelineCoverageReductionStateCreateFlagsNV flags; VkCoverageReductionModeNV coverageReductionMode; } VkPipelineCoverageReductionStateCreateInfoNV; typedef struct VkFramebufferMixedSamplesCombinationNV { VkStructureType sType; void* pNext; VkCoverageReductionModeNV coverageReductionMode; VkSampleCountFlagBits rasterizationSamples; VkSampleCountFlags depthStencilSamples; VkSampleCountFlags colorSamples; } VkFramebufferMixedSamplesCombinationNV; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceSupportedFramebufferMixedSamplesCombinationsNV)(VkPhysicalDevice physicalDevice, uint32_t* pCombinationCount, VkFramebufferMixedSamplesCombinationNV* pCombinations); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceSupportedFramebufferMixedSamplesCombinationsNV( VkPhysicalDevice physicalDevice, uint32_t* pCombinationCount, VkFramebufferMixedSamplesCombinationNV* pCombinations); #endif #define VK_EXT_fragment_shader_interlock 1 #define VK_EXT_FRAGMENT_SHADER_INTERLOCK_SPEC_VERSION 1 #define VK_EXT_FRAGMENT_SHADER_INTERLOCK_EXTENSION_NAME "VK_EXT_fragment_shader_interlock" typedef struct VkPhysicalDeviceFragmentShaderInterlockFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 fragmentShaderSampleInterlock; VkBool32 fragmentShaderPixelInterlock; VkBool32 fragmentShaderShadingRateInterlock; } VkPhysicalDeviceFragmentShaderInterlockFeaturesEXT; #define VK_EXT_ycbcr_image_arrays 1 #define VK_EXT_YCBCR_IMAGE_ARRAYS_SPEC_VERSION 1 #define VK_EXT_YCBCR_IMAGE_ARRAYS_EXTENSION_NAME "VK_EXT_ycbcr_image_arrays" typedef struct VkPhysicalDeviceYcbcrImageArraysFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 ycbcrImageArrays; } VkPhysicalDeviceYcbcrImageArraysFeaturesEXT; #define VK_EXT_provoking_vertex 1 #define VK_EXT_PROVOKING_VERTEX_SPEC_VERSION 1 #define VK_EXT_PROVOKING_VERTEX_EXTENSION_NAME "VK_EXT_provoking_vertex" typedef enum VkProvokingVertexModeEXT { VK_PROVOKING_VERTEX_MODE_FIRST_VERTEX_EXT = 0, VK_PROVOKING_VERTEX_MODE_LAST_VERTEX_EXT = 1, VK_PROVOKING_VERTEX_MODE_MAX_ENUM_EXT = 0x7FFFFFFF } VkProvokingVertexModeEXT; typedef struct VkPhysicalDeviceProvokingVertexFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 provokingVertexLast; VkBool32 transformFeedbackPreservesProvokingVertex; } VkPhysicalDeviceProvokingVertexFeaturesEXT; typedef struct VkPhysicalDeviceProvokingVertexPropertiesEXT { VkStructureType sType; void* pNext; VkBool32 provokingVertexModePerPipeline; VkBool32 transformFeedbackPreservesTriangleFanProvokingVertex; } VkPhysicalDeviceProvokingVertexPropertiesEXT; typedef struct VkPipelineRasterizationProvokingVertexStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkProvokingVertexModeEXT provokingVertexMode; } VkPipelineRasterizationProvokingVertexStateCreateInfoEXT; #define VK_EXT_headless_surface 1 #define VK_EXT_HEADLESS_SURFACE_SPEC_VERSION 1 #define VK_EXT_HEADLESS_SURFACE_EXTENSION_NAME "VK_EXT_headless_surface" typedef VkFlags VkHeadlessSurfaceCreateFlagsEXT; typedef struct VkHeadlessSurfaceCreateInfoEXT { VkStructureType sType; const void* pNext; VkHeadlessSurfaceCreateFlagsEXT flags; } VkHeadlessSurfaceCreateInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkCreateHeadlessSurfaceEXT)(VkInstance instance, const VkHeadlessSurfaceCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSurfaceKHR* pSurface); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateHeadlessSurfaceEXT( VkInstance instance, const VkHeadlessSurfaceCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkSurfaceKHR* pSurface); #endif #define VK_EXT_line_rasterization 1 #define VK_EXT_LINE_RASTERIZATION_SPEC_VERSION 1 #define VK_EXT_LINE_RASTERIZATION_EXTENSION_NAME "VK_EXT_line_rasterization" typedef enum VkLineRasterizationModeEXT { VK_LINE_RASTERIZATION_MODE_DEFAULT_EXT = 0, VK_LINE_RASTERIZATION_MODE_RECTANGULAR_EXT = 1, VK_LINE_RASTERIZATION_MODE_BRESENHAM_EXT = 2, VK_LINE_RASTERIZATION_MODE_RECTANGULAR_SMOOTH_EXT = 3, VK_LINE_RASTERIZATION_MODE_MAX_ENUM_EXT = 0x7FFFFFFF } VkLineRasterizationModeEXT; typedef struct VkPhysicalDeviceLineRasterizationFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 rectangularLines; VkBool32 bresenhamLines; VkBool32 smoothLines; VkBool32 stippledRectangularLines; VkBool32 stippledBresenhamLines; VkBool32 stippledSmoothLines; } VkPhysicalDeviceLineRasterizationFeaturesEXT; typedef struct VkPhysicalDeviceLineRasterizationPropertiesEXT { VkStructureType sType; void* pNext; uint32_t lineSubPixelPrecisionBits; } VkPhysicalDeviceLineRasterizationPropertiesEXT; typedef struct VkPipelineRasterizationLineStateCreateInfoEXT { VkStructureType sType; const void* pNext; VkLineRasterizationModeEXT lineRasterizationMode; VkBool32 stippledLineEnable; uint32_t lineStippleFactor; uint16_t lineStipplePattern; } VkPipelineRasterizationLineStateCreateInfoEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetLineStippleEXT)(VkCommandBuffer commandBuffer, uint32_t lineStippleFactor, uint16_t lineStipplePattern); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetLineStippleEXT( VkCommandBuffer commandBuffer, uint32_t lineStippleFactor, uint16_t lineStipplePattern); #endif #define VK_EXT_shader_atomic_float 1 #define VK_EXT_SHADER_ATOMIC_FLOAT_SPEC_VERSION 1 #define VK_EXT_SHADER_ATOMIC_FLOAT_EXTENSION_NAME "VK_EXT_shader_atomic_float" typedef struct VkPhysicalDeviceShaderAtomicFloatFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 shaderBufferFloat32Atomics; VkBool32 shaderBufferFloat32AtomicAdd; VkBool32 shaderBufferFloat64Atomics; VkBool32 shaderBufferFloat64AtomicAdd; VkBool32 shaderSharedFloat32Atomics; VkBool32 shaderSharedFloat32AtomicAdd; VkBool32 shaderSharedFloat64Atomics; VkBool32 shaderSharedFloat64AtomicAdd; VkBool32 shaderImageFloat32Atomics; VkBool32 shaderImageFloat32AtomicAdd; VkBool32 sparseImageFloat32Atomics; VkBool32 sparseImageFloat32AtomicAdd; } VkPhysicalDeviceShaderAtomicFloatFeaturesEXT; #define VK_EXT_host_query_reset 1 #define VK_EXT_HOST_QUERY_RESET_SPEC_VERSION 1 #define VK_EXT_HOST_QUERY_RESET_EXTENSION_NAME "VK_EXT_host_query_reset" typedef VkPhysicalDeviceHostQueryResetFeatures VkPhysicalDeviceHostQueryResetFeaturesEXT; typedef void (VKAPI_PTR *PFN_vkResetQueryPoolEXT)(VkDevice device, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkResetQueryPoolEXT( VkDevice device, VkQueryPool queryPool, uint32_t firstQuery, uint32_t queryCount); #endif #define VK_EXT_index_type_uint8 1 #define VK_EXT_INDEX_TYPE_UINT8_SPEC_VERSION 1 #define VK_EXT_INDEX_TYPE_UINT8_EXTENSION_NAME "VK_EXT_index_type_uint8" typedef struct VkPhysicalDeviceIndexTypeUint8FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 indexTypeUint8; } VkPhysicalDeviceIndexTypeUint8FeaturesEXT; #define VK_EXT_extended_dynamic_state 1 #define VK_EXT_EXTENDED_DYNAMIC_STATE_SPEC_VERSION 1 #define VK_EXT_EXTENDED_DYNAMIC_STATE_EXTENSION_NAME "VK_EXT_extended_dynamic_state" typedef struct VkPhysicalDeviceExtendedDynamicStateFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 extendedDynamicState; } VkPhysicalDeviceExtendedDynamicStateFeaturesEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetCullModeEXT)(VkCommandBuffer commandBuffer, VkCullModeFlags cullMode); typedef void (VKAPI_PTR *PFN_vkCmdSetFrontFaceEXT)(VkCommandBuffer commandBuffer, VkFrontFace frontFace); typedef void (VKAPI_PTR *PFN_vkCmdSetPrimitiveTopologyEXT)(VkCommandBuffer commandBuffer, VkPrimitiveTopology primitiveTopology); typedef void (VKAPI_PTR *PFN_vkCmdSetViewportWithCountEXT)(VkCommandBuffer commandBuffer, uint32_t viewportCount, const VkViewport* pViewports); typedef void (VKAPI_PTR *PFN_vkCmdSetScissorWithCountEXT)(VkCommandBuffer commandBuffer, uint32_t scissorCount, const VkRect2D* pScissors); typedef void (VKAPI_PTR *PFN_vkCmdBindVertexBuffers2EXT)(VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets, const VkDeviceSize* pSizes, const VkDeviceSize* pStrides); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthTestEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 depthTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthWriteEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 depthWriteEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthCompareOpEXT)(VkCommandBuffer commandBuffer, VkCompareOp depthCompareOp); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthBoundsTestEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 depthBoundsTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilTestEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 stencilTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetStencilOpEXT)(VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, VkStencilOp failOp, VkStencilOp passOp, VkStencilOp depthFailOp, VkCompareOp compareOp); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetCullModeEXT( VkCommandBuffer commandBuffer, VkCullModeFlags cullMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetFrontFaceEXT( VkCommandBuffer commandBuffer, VkFrontFace frontFace); VKAPI_ATTR void VKAPI_CALL vkCmdSetPrimitiveTopologyEXT( VkCommandBuffer commandBuffer, VkPrimitiveTopology primitiveTopology); VKAPI_ATTR void VKAPI_CALL vkCmdSetViewportWithCountEXT( VkCommandBuffer commandBuffer, uint32_t viewportCount, const VkViewport* pViewports); VKAPI_ATTR void VKAPI_CALL vkCmdSetScissorWithCountEXT( VkCommandBuffer commandBuffer, uint32_t scissorCount, const VkRect2D* pScissors); VKAPI_ATTR void VKAPI_CALL vkCmdBindVertexBuffers2EXT( VkCommandBuffer commandBuffer, uint32_t firstBinding, uint32_t bindingCount, const VkBuffer* pBuffers, const VkDeviceSize* pOffsets, const VkDeviceSize* pSizes, const VkDeviceSize* pStrides); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthTestEnableEXT( VkCommandBuffer commandBuffer, VkBool32 depthTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthWriteEnableEXT( VkCommandBuffer commandBuffer, VkBool32 depthWriteEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthCompareOpEXT( VkCommandBuffer commandBuffer, VkCompareOp depthCompareOp); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthBoundsTestEnableEXT( VkCommandBuffer commandBuffer, VkBool32 depthBoundsTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilTestEnableEXT( VkCommandBuffer commandBuffer, VkBool32 stencilTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetStencilOpEXT( VkCommandBuffer commandBuffer, VkStencilFaceFlags faceMask, VkStencilOp failOp, VkStencilOp passOp, VkStencilOp depthFailOp, VkCompareOp compareOp); #endif #define VK_EXT_shader_atomic_float2 1 #define VK_EXT_SHADER_ATOMIC_FLOAT_2_SPEC_VERSION 1 #define VK_EXT_SHADER_ATOMIC_FLOAT_2_EXTENSION_NAME "VK_EXT_shader_atomic_float2" typedef struct VkPhysicalDeviceShaderAtomicFloat2FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 shaderBufferFloat16Atomics; VkBool32 shaderBufferFloat16AtomicAdd; VkBool32 shaderBufferFloat16AtomicMinMax; VkBool32 shaderBufferFloat32AtomicMinMax; VkBool32 shaderBufferFloat64AtomicMinMax; VkBool32 shaderSharedFloat16Atomics; VkBool32 shaderSharedFloat16AtomicAdd; VkBool32 shaderSharedFloat16AtomicMinMax; VkBool32 shaderSharedFloat32AtomicMinMax; VkBool32 shaderSharedFloat64AtomicMinMax; VkBool32 shaderImageFloat32AtomicMinMax; VkBool32 sparseImageFloat32AtomicMinMax; } VkPhysicalDeviceShaderAtomicFloat2FeaturesEXT; #define VK_EXT_shader_demote_to_helper_invocation 1 #define VK_EXT_SHADER_DEMOTE_TO_HELPER_INVOCATION_SPEC_VERSION 1 #define VK_EXT_SHADER_DEMOTE_TO_HELPER_INVOCATION_EXTENSION_NAME "VK_EXT_shader_demote_to_helper_invocation" typedef VkPhysicalDeviceShaderDemoteToHelperInvocationFeatures VkPhysicalDeviceShaderDemoteToHelperInvocationFeaturesEXT; #define VK_NV_device_generated_commands 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkIndirectCommandsLayoutNV) #define VK_NV_DEVICE_GENERATED_COMMANDS_SPEC_VERSION 3 #define VK_NV_DEVICE_GENERATED_COMMANDS_EXTENSION_NAME "VK_NV_device_generated_commands" typedef enum VkIndirectCommandsTokenTypeNV { VK_INDIRECT_COMMANDS_TOKEN_TYPE_SHADER_GROUP_NV = 0, VK_INDIRECT_COMMANDS_TOKEN_TYPE_STATE_FLAGS_NV = 1, VK_INDIRECT_COMMANDS_TOKEN_TYPE_INDEX_BUFFER_NV = 2, VK_INDIRECT_COMMANDS_TOKEN_TYPE_VERTEX_BUFFER_NV = 3, VK_INDIRECT_COMMANDS_TOKEN_TYPE_PUSH_CONSTANT_NV = 4, VK_INDIRECT_COMMANDS_TOKEN_TYPE_DRAW_INDEXED_NV = 5, VK_INDIRECT_COMMANDS_TOKEN_TYPE_DRAW_NV = 6, VK_INDIRECT_COMMANDS_TOKEN_TYPE_DRAW_TASKS_NV = 7, VK_INDIRECT_COMMANDS_TOKEN_TYPE_DRAW_MESH_TASKS_NV = 1000328000, VK_INDIRECT_COMMANDS_TOKEN_TYPE_MAX_ENUM_NV = 0x7FFFFFFF } VkIndirectCommandsTokenTypeNV; typedef enum VkIndirectStateFlagBitsNV { VK_INDIRECT_STATE_FLAG_FRONTFACE_BIT_NV = 0x00000001, VK_INDIRECT_STATE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkIndirectStateFlagBitsNV; typedef VkFlags VkIndirectStateFlagsNV; typedef enum VkIndirectCommandsLayoutUsageFlagBitsNV { VK_INDIRECT_COMMANDS_LAYOUT_USAGE_EXPLICIT_PREPROCESS_BIT_NV = 0x00000001, VK_INDIRECT_COMMANDS_LAYOUT_USAGE_INDEXED_SEQUENCES_BIT_NV = 0x00000002, VK_INDIRECT_COMMANDS_LAYOUT_USAGE_UNORDERED_SEQUENCES_BIT_NV = 0x00000004, VK_INDIRECT_COMMANDS_LAYOUT_USAGE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkIndirectCommandsLayoutUsageFlagBitsNV; typedef VkFlags VkIndirectCommandsLayoutUsageFlagsNV; typedef struct VkPhysicalDeviceDeviceGeneratedCommandsPropertiesNV { VkStructureType sType; void* pNext; uint32_t maxGraphicsShaderGroupCount; uint32_t maxIndirectSequenceCount; uint32_t maxIndirectCommandsTokenCount; uint32_t maxIndirectCommandsStreamCount; uint32_t maxIndirectCommandsTokenOffset; uint32_t maxIndirectCommandsStreamStride; uint32_t minSequencesCountBufferOffsetAlignment; uint32_t minSequencesIndexBufferOffsetAlignment; uint32_t minIndirectCommandsBufferOffsetAlignment; } VkPhysicalDeviceDeviceGeneratedCommandsPropertiesNV; typedef struct VkPhysicalDeviceDeviceGeneratedCommandsFeaturesNV { VkStructureType sType; void* pNext; VkBool32 deviceGeneratedCommands; } VkPhysicalDeviceDeviceGeneratedCommandsFeaturesNV; typedef struct VkGraphicsShaderGroupCreateInfoNV { VkStructureType sType; const void* pNext; uint32_t stageCount; const VkPipelineShaderStageCreateInfo* pStages; const VkPipelineVertexInputStateCreateInfo* pVertexInputState; const VkPipelineTessellationStateCreateInfo* pTessellationState; } VkGraphicsShaderGroupCreateInfoNV; typedef struct VkGraphicsPipelineShaderGroupsCreateInfoNV { VkStructureType sType; const void* pNext; uint32_t groupCount; const VkGraphicsShaderGroupCreateInfoNV* pGroups; uint32_t pipelineCount; const VkPipeline* pPipelines; } VkGraphicsPipelineShaderGroupsCreateInfoNV; typedef struct VkBindShaderGroupIndirectCommandNV { uint32_t groupIndex; } VkBindShaderGroupIndirectCommandNV; typedef struct VkBindIndexBufferIndirectCommandNV { VkDeviceAddress bufferAddress; uint32_t size; VkIndexType indexType; } VkBindIndexBufferIndirectCommandNV; typedef struct VkBindVertexBufferIndirectCommandNV { VkDeviceAddress bufferAddress; uint32_t size; uint32_t stride; } VkBindVertexBufferIndirectCommandNV; typedef struct VkSetStateFlagsIndirectCommandNV { uint32_t data; } VkSetStateFlagsIndirectCommandNV; typedef struct VkIndirectCommandsStreamNV { VkBuffer buffer; VkDeviceSize offset; } VkIndirectCommandsStreamNV; typedef struct VkIndirectCommandsLayoutTokenNV { VkStructureType sType; const void* pNext; VkIndirectCommandsTokenTypeNV tokenType; uint32_t stream; uint32_t offset; uint32_t vertexBindingUnit; VkBool32 vertexDynamicStride; VkPipelineLayout pushconstantPipelineLayout; VkShaderStageFlags pushconstantShaderStageFlags; uint32_t pushconstantOffset; uint32_t pushconstantSize; VkIndirectStateFlagsNV indirectStateFlags; uint32_t indexTypeCount; const VkIndexType* pIndexTypes; const uint32_t* pIndexTypeValues; } VkIndirectCommandsLayoutTokenNV; typedef struct VkIndirectCommandsLayoutCreateInfoNV { VkStructureType sType; const void* pNext; VkIndirectCommandsLayoutUsageFlagsNV flags; VkPipelineBindPoint pipelineBindPoint; uint32_t tokenCount; const VkIndirectCommandsLayoutTokenNV* pTokens; uint32_t streamCount; const uint32_t* pStreamStrides; } VkIndirectCommandsLayoutCreateInfoNV; typedef struct VkGeneratedCommandsInfoNV { VkStructureType sType; const void* pNext; VkPipelineBindPoint pipelineBindPoint; VkPipeline pipeline; VkIndirectCommandsLayoutNV indirectCommandsLayout; uint32_t streamCount; const VkIndirectCommandsStreamNV* pStreams; uint32_t sequencesCount; VkBuffer preprocessBuffer; VkDeviceSize preprocessOffset; VkDeviceSize preprocessSize; VkBuffer sequencesCountBuffer; VkDeviceSize sequencesCountOffset; VkBuffer sequencesIndexBuffer; VkDeviceSize sequencesIndexOffset; } VkGeneratedCommandsInfoNV; typedef struct VkGeneratedCommandsMemoryRequirementsInfoNV { VkStructureType sType; const void* pNext; VkPipelineBindPoint pipelineBindPoint; VkPipeline pipeline; VkIndirectCommandsLayoutNV indirectCommandsLayout; uint32_t maxSequencesCount; } VkGeneratedCommandsMemoryRequirementsInfoNV; typedef void (VKAPI_PTR *PFN_vkGetGeneratedCommandsMemoryRequirementsNV)(VkDevice device, const VkGeneratedCommandsMemoryRequirementsInfoNV* pInfo, VkMemoryRequirements2* pMemoryRequirements); typedef void (VKAPI_PTR *PFN_vkCmdPreprocessGeneratedCommandsNV)(VkCommandBuffer commandBuffer, const VkGeneratedCommandsInfoNV* pGeneratedCommandsInfo); typedef void (VKAPI_PTR *PFN_vkCmdExecuteGeneratedCommandsNV)(VkCommandBuffer commandBuffer, VkBool32 isPreprocessed, const VkGeneratedCommandsInfoNV* pGeneratedCommandsInfo); typedef void (VKAPI_PTR *PFN_vkCmdBindPipelineShaderGroupNV)(VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipeline pipeline, uint32_t groupIndex); typedef VkResult (VKAPI_PTR *PFN_vkCreateIndirectCommandsLayoutNV)(VkDevice device, const VkIndirectCommandsLayoutCreateInfoNV* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkIndirectCommandsLayoutNV* pIndirectCommandsLayout); typedef void (VKAPI_PTR *PFN_vkDestroyIndirectCommandsLayoutNV)(VkDevice device, VkIndirectCommandsLayoutNV indirectCommandsLayout, const VkAllocationCallbacks* pAllocator); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetGeneratedCommandsMemoryRequirementsNV( VkDevice device, const VkGeneratedCommandsMemoryRequirementsInfoNV* pInfo, VkMemoryRequirements2* pMemoryRequirements); VKAPI_ATTR void VKAPI_CALL vkCmdPreprocessGeneratedCommandsNV( VkCommandBuffer commandBuffer, const VkGeneratedCommandsInfoNV* pGeneratedCommandsInfo); VKAPI_ATTR void VKAPI_CALL vkCmdExecuteGeneratedCommandsNV( VkCommandBuffer commandBuffer, VkBool32 isPreprocessed, const VkGeneratedCommandsInfoNV* pGeneratedCommandsInfo); VKAPI_ATTR void VKAPI_CALL vkCmdBindPipelineShaderGroupNV( VkCommandBuffer commandBuffer, VkPipelineBindPoint pipelineBindPoint, VkPipeline pipeline, uint32_t groupIndex); VKAPI_ATTR VkResult VKAPI_CALL vkCreateIndirectCommandsLayoutNV( VkDevice device, const VkIndirectCommandsLayoutCreateInfoNV* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkIndirectCommandsLayoutNV* pIndirectCommandsLayout); VKAPI_ATTR void VKAPI_CALL vkDestroyIndirectCommandsLayoutNV( VkDevice device, VkIndirectCommandsLayoutNV indirectCommandsLayout, const VkAllocationCallbacks* pAllocator); #endif #define VK_NV_inherited_viewport_scissor 1 #define VK_NV_INHERITED_VIEWPORT_SCISSOR_SPEC_VERSION 1 #define VK_NV_INHERITED_VIEWPORT_SCISSOR_EXTENSION_NAME "VK_NV_inherited_viewport_scissor" typedef struct VkPhysicalDeviceInheritedViewportScissorFeaturesNV { VkStructureType sType; void* pNext; VkBool32 inheritedViewportScissor2D; } VkPhysicalDeviceInheritedViewportScissorFeaturesNV; typedef struct VkCommandBufferInheritanceViewportScissorInfoNV { VkStructureType sType; const void* pNext; VkBool32 viewportScissor2D; uint32_t viewportDepthCount; const VkViewport* pViewportDepths; } VkCommandBufferInheritanceViewportScissorInfoNV; #define VK_EXT_texel_buffer_alignment 1 #define VK_EXT_TEXEL_BUFFER_ALIGNMENT_SPEC_VERSION 1 #define VK_EXT_TEXEL_BUFFER_ALIGNMENT_EXTENSION_NAME "VK_EXT_texel_buffer_alignment" typedef struct VkPhysicalDeviceTexelBufferAlignmentFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 texelBufferAlignment; } VkPhysicalDeviceTexelBufferAlignmentFeaturesEXT; typedef VkPhysicalDeviceTexelBufferAlignmentProperties VkPhysicalDeviceTexelBufferAlignmentPropertiesEXT; #define VK_QCOM_render_pass_transform 1 #define VK_QCOM_RENDER_PASS_TRANSFORM_SPEC_VERSION 3 #define VK_QCOM_RENDER_PASS_TRANSFORM_EXTENSION_NAME "VK_QCOM_render_pass_transform" typedef struct VkRenderPassTransformBeginInfoQCOM { VkStructureType sType; void* pNext; VkSurfaceTransformFlagBitsKHR transform; } VkRenderPassTransformBeginInfoQCOM; typedef struct VkCommandBufferInheritanceRenderPassTransformInfoQCOM { VkStructureType sType; void* pNext; VkSurfaceTransformFlagBitsKHR transform; VkRect2D renderArea; } VkCommandBufferInheritanceRenderPassTransformInfoQCOM; #define VK_EXT_device_memory_report 1 #define VK_EXT_DEVICE_MEMORY_REPORT_SPEC_VERSION 2 #define VK_EXT_DEVICE_MEMORY_REPORT_EXTENSION_NAME "VK_EXT_device_memory_report" typedef enum VkDeviceMemoryReportEventTypeEXT { VK_DEVICE_MEMORY_REPORT_EVENT_TYPE_ALLOCATE_EXT = 0, VK_DEVICE_MEMORY_REPORT_EVENT_TYPE_FREE_EXT = 1, VK_DEVICE_MEMORY_REPORT_EVENT_TYPE_IMPORT_EXT = 2, VK_DEVICE_MEMORY_REPORT_EVENT_TYPE_UNIMPORT_EXT = 3, VK_DEVICE_MEMORY_REPORT_EVENT_TYPE_ALLOCATION_FAILED_EXT = 4, VK_DEVICE_MEMORY_REPORT_EVENT_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDeviceMemoryReportEventTypeEXT; typedef VkFlags VkDeviceMemoryReportFlagsEXT; typedef struct VkPhysicalDeviceDeviceMemoryReportFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 deviceMemoryReport; } VkPhysicalDeviceDeviceMemoryReportFeaturesEXT; typedef struct VkDeviceMemoryReportCallbackDataEXT { VkStructureType sType; void* pNext; VkDeviceMemoryReportFlagsEXT flags; VkDeviceMemoryReportEventTypeEXT type; uint64_t memoryObjectId; VkDeviceSize size; VkObjectType objectType; uint64_t objectHandle; uint32_t heapIndex; } VkDeviceMemoryReportCallbackDataEXT; typedef void (VKAPI_PTR *PFN_vkDeviceMemoryReportCallbackEXT)( const VkDeviceMemoryReportCallbackDataEXT* pCallbackData, void* pUserData); typedef struct VkDeviceDeviceMemoryReportCreateInfoEXT { VkStructureType sType; const void* pNext; VkDeviceMemoryReportFlagsEXT flags; PFN_vkDeviceMemoryReportCallbackEXT pfnUserCallback; void* pUserData; } VkDeviceDeviceMemoryReportCreateInfoEXT; #define VK_EXT_acquire_drm_display 1 #define VK_EXT_ACQUIRE_DRM_DISPLAY_SPEC_VERSION 1 #define VK_EXT_ACQUIRE_DRM_DISPLAY_EXTENSION_NAME "VK_EXT_acquire_drm_display" typedef VkResult (VKAPI_PTR *PFN_vkAcquireDrmDisplayEXT)(VkPhysicalDevice physicalDevice, int32_t drmFd, VkDisplayKHR display); typedef VkResult (VKAPI_PTR *PFN_vkGetDrmDisplayEXT)(VkPhysicalDevice physicalDevice, int32_t drmFd, uint32_t connectorId, VkDisplayKHR* display); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkAcquireDrmDisplayEXT( VkPhysicalDevice physicalDevice, int32_t drmFd, VkDisplayKHR display); VKAPI_ATTR VkResult VKAPI_CALL vkGetDrmDisplayEXT( VkPhysicalDevice physicalDevice, int32_t drmFd, uint32_t connectorId, VkDisplayKHR* display); #endif #define VK_EXT_robustness2 1 #define VK_EXT_ROBUSTNESS_2_SPEC_VERSION 1 #define VK_EXT_ROBUSTNESS_2_EXTENSION_NAME "VK_EXT_robustness2" typedef struct VkPhysicalDeviceRobustness2FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 robustBufferAccess2; VkBool32 robustImageAccess2; VkBool32 nullDescriptor; } VkPhysicalDeviceRobustness2FeaturesEXT; typedef struct VkPhysicalDeviceRobustness2PropertiesEXT { VkStructureType sType; void* pNext; VkDeviceSize robustStorageBufferAccessSizeAlignment; VkDeviceSize robustUniformBufferAccessSizeAlignment; } VkPhysicalDeviceRobustness2PropertiesEXT; #define VK_EXT_custom_border_color 1 #define VK_EXT_CUSTOM_BORDER_COLOR_SPEC_VERSION 12 #define VK_EXT_CUSTOM_BORDER_COLOR_EXTENSION_NAME "VK_EXT_custom_border_color" typedef struct VkSamplerCustomBorderColorCreateInfoEXT { VkStructureType sType; const void* pNext; VkClearColorValue customBorderColor; VkFormat format; } VkSamplerCustomBorderColorCreateInfoEXT; typedef struct VkPhysicalDeviceCustomBorderColorPropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxCustomBorderColorSamplers; } VkPhysicalDeviceCustomBorderColorPropertiesEXT; typedef struct VkPhysicalDeviceCustomBorderColorFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 customBorderColors; VkBool32 customBorderColorWithoutFormat; } VkPhysicalDeviceCustomBorderColorFeaturesEXT; #define VK_GOOGLE_user_type 1 #define VK_GOOGLE_USER_TYPE_SPEC_VERSION 1 #define VK_GOOGLE_USER_TYPE_EXTENSION_NAME "VK_GOOGLE_user_type" #define VK_NV_present_barrier 1 #define VK_NV_PRESENT_BARRIER_SPEC_VERSION 1 #define VK_NV_PRESENT_BARRIER_EXTENSION_NAME "VK_NV_present_barrier" typedef struct VkPhysicalDevicePresentBarrierFeaturesNV { VkStructureType sType; void* pNext; VkBool32 presentBarrier; } VkPhysicalDevicePresentBarrierFeaturesNV; typedef struct VkSurfaceCapabilitiesPresentBarrierNV { VkStructureType sType; void* pNext; VkBool32 presentBarrierSupported; } VkSurfaceCapabilitiesPresentBarrierNV; typedef struct VkSwapchainPresentBarrierCreateInfoNV { VkStructureType sType; void* pNext; VkBool32 presentBarrierEnable; } VkSwapchainPresentBarrierCreateInfoNV; #define VK_EXT_private_data 1 typedef VkPrivateDataSlot VkPrivateDataSlotEXT; #define VK_EXT_PRIVATE_DATA_SPEC_VERSION 1 #define VK_EXT_PRIVATE_DATA_EXTENSION_NAME "VK_EXT_private_data" typedef VkPrivateDataSlotCreateFlags VkPrivateDataSlotCreateFlagsEXT; typedef VkPhysicalDevicePrivateDataFeatures VkPhysicalDevicePrivateDataFeaturesEXT; typedef VkDevicePrivateDataCreateInfo VkDevicePrivateDataCreateInfoEXT; typedef VkPrivateDataSlotCreateInfo VkPrivateDataSlotCreateInfoEXT; typedef VkResult (VKAPI_PTR *PFN_vkCreatePrivateDataSlotEXT)(VkDevice device, const VkPrivateDataSlotCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPrivateDataSlot* pPrivateDataSlot); typedef void (VKAPI_PTR *PFN_vkDestroyPrivateDataSlotEXT)(VkDevice device, VkPrivateDataSlot privateDataSlot, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkSetPrivateDataEXT)(VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t data); typedef void (VKAPI_PTR *PFN_vkGetPrivateDataEXT)(VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t* pData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreatePrivateDataSlotEXT( VkDevice device, const VkPrivateDataSlotCreateInfo* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkPrivateDataSlot* pPrivateDataSlot); VKAPI_ATTR void VKAPI_CALL vkDestroyPrivateDataSlotEXT( VkDevice device, VkPrivateDataSlot privateDataSlot, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkSetPrivateDataEXT( VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t data); VKAPI_ATTR void VKAPI_CALL vkGetPrivateDataEXT( VkDevice device, VkObjectType objectType, uint64_t objectHandle, VkPrivateDataSlot privateDataSlot, uint64_t* pData); #endif #define VK_EXT_pipeline_creation_cache_control 1 #define VK_EXT_PIPELINE_CREATION_CACHE_CONTROL_SPEC_VERSION 3 #define VK_EXT_PIPELINE_CREATION_CACHE_CONTROL_EXTENSION_NAME "VK_EXT_pipeline_creation_cache_control" typedef VkPhysicalDevicePipelineCreationCacheControlFeatures VkPhysicalDevicePipelineCreationCacheControlFeaturesEXT; #define VK_NV_device_diagnostics_config 1 #define VK_NV_DEVICE_DIAGNOSTICS_CONFIG_SPEC_VERSION 2 #define VK_NV_DEVICE_DIAGNOSTICS_CONFIG_EXTENSION_NAME "VK_NV_device_diagnostics_config" typedef enum VkDeviceDiagnosticsConfigFlagBitsNV { VK_DEVICE_DIAGNOSTICS_CONFIG_ENABLE_SHADER_DEBUG_INFO_BIT_NV = 0x00000001, VK_DEVICE_DIAGNOSTICS_CONFIG_ENABLE_RESOURCE_TRACKING_BIT_NV = 0x00000002, VK_DEVICE_DIAGNOSTICS_CONFIG_ENABLE_AUTOMATIC_CHECKPOINTS_BIT_NV = 0x00000004, VK_DEVICE_DIAGNOSTICS_CONFIG_ENABLE_SHADER_ERROR_REPORTING_BIT_NV = 0x00000008, VK_DEVICE_DIAGNOSTICS_CONFIG_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkDeviceDiagnosticsConfigFlagBitsNV; typedef VkFlags VkDeviceDiagnosticsConfigFlagsNV; typedef struct VkPhysicalDeviceDiagnosticsConfigFeaturesNV { VkStructureType sType; void* pNext; VkBool32 diagnosticsConfig; } VkPhysicalDeviceDiagnosticsConfigFeaturesNV; typedef struct VkDeviceDiagnosticsConfigCreateInfoNV { VkStructureType sType; const void* pNext; VkDeviceDiagnosticsConfigFlagsNV flags; } VkDeviceDiagnosticsConfigCreateInfoNV; #define VK_QCOM_render_pass_store_ops 1 #define VK_QCOM_RENDER_PASS_STORE_OPS_SPEC_VERSION 2 #define VK_QCOM_RENDER_PASS_STORE_OPS_EXTENSION_NAME "VK_QCOM_render_pass_store_ops" #define VK_EXT_graphics_pipeline_library 1 #define VK_EXT_GRAPHICS_PIPELINE_LIBRARY_SPEC_VERSION 1 #define VK_EXT_GRAPHICS_PIPELINE_LIBRARY_EXTENSION_NAME "VK_EXT_graphics_pipeline_library" typedef enum VkGraphicsPipelineLibraryFlagBitsEXT { VK_GRAPHICS_PIPELINE_LIBRARY_VERTEX_INPUT_INTERFACE_BIT_EXT = 0x00000001, VK_GRAPHICS_PIPELINE_LIBRARY_PRE_RASTERIZATION_SHADERS_BIT_EXT = 0x00000002, VK_GRAPHICS_PIPELINE_LIBRARY_FRAGMENT_SHADER_BIT_EXT = 0x00000004, VK_GRAPHICS_PIPELINE_LIBRARY_FRAGMENT_OUTPUT_INTERFACE_BIT_EXT = 0x00000008, VK_GRAPHICS_PIPELINE_LIBRARY_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkGraphicsPipelineLibraryFlagBitsEXT; typedef VkFlags VkGraphicsPipelineLibraryFlagsEXT; typedef struct VkPhysicalDeviceGraphicsPipelineLibraryFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 graphicsPipelineLibrary; } VkPhysicalDeviceGraphicsPipelineLibraryFeaturesEXT; typedef struct VkPhysicalDeviceGraphicsPipelineLibraryPropertiesEXT { VkStructureType sType; void* pNext; VkBool32 graphicsPipelineLibraryFastLinking; VkBool32 graphicsPipelineLibraryIndependentInterpolationDecoration; } VkPhysicalDeviceGraphicsPipelineLibraryPropertiesEXT; typedef struct VkGraphicsPipelineLibraryCreateInfoEXT { VkStructureType sType; void* pNext; VkGraphicsPipelineLibraryFlagsEXT flags; } VkGraphicsPipelineLibraryCreateInfoEXT; #define VK_AMD_shader_early_and_late_fragment_tests 1 #define VK_AMD_SHADER_EARLY_AND_LATE_FRAGMENT_TESTS_SPEC_VERSION 1 #define VK_AMD_SHADER_EARLY_AND_LATE_FRAGMENT_TESTS_EXTENSION_NAME "VK_AMD_shader_early_and_late_fragment_tests" typedef struct VkPhysicalDeviceShaderEarlyAndLateFragmentTestsFeaturesAMD { VkStructureType sType; void* pNext; VkBool32 shaderEarlyAndLateFragmentTests; } VkPhysicalDeviceShaderEarlyAndLateFragmentTestsFeaturesAMD; #define VK_NV_fragment_shading_rate_enums 1 #define VK_NV_FRAGMENT_SHADING_RATE_ENUMS_SPEC_VERSION 1 #define VK_NV_FRAGMENT_SHADING_RATE_ENUMS_EXTENSION_NAME "VK_NV_fragment_shading_rate_enums" typedef enum VkFragmentShadingRateTypeNV { VK_FRAGMENT_SHADING_RATE_TYPE_FRAGMENT_SIZE_NV = 0, VK_FRAGMENT_SHADING_RATE_TYPE_ENUMS_NV = 1, VK_FRAGMENT_SHADING_RATE_TYPE_MAX_ENUM_NV = 0x7FFFFFFF } VkFragmentShadingRateTypeNV; typedef enum VkFragmentShadingRateNV { VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_PIXEL_NV = 0, VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_1X2_PIXELS_NV = 1, VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_2X1_PIXELS_NV = 4, VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_2X2_PIXELS_NV = 5, VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_2X4_PIXELS_NV = 6, VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_4X2_PIXELS_NV = 9, VK_FRAGMENT_SHADING_RATE_1_INVOCATION_PER_4X4_PIXELS_NV = 10, VK_FRAGMENT_SHADING_RATE_2_INVOCATIONS_PER_PIXEL_NV = 11, VK_FRAGMENT_SHADING_RATE_4_INVOCATIONS_PER_PIXEL_NV = 12, VK_FRAGMENT_SHADING_RATE_8_INVOCATIONS_PER_PIXEL_NV = 13, VK_FRAGMENT_SHADING_RATE_16_INVOCATIONS_PER_PIXEL_NV = 14, VK_FRAGMENT_SHADING_RATE_NO_INVOCATIONS_NV = 15, VK_FRAGMENT_SHADING_RATE_MAX_ENUM_NV = 0x7FFFFFFF } VkFragmentShadingRateNV; typedef struct VkPhysicalDeviceFragmentShadingRateEnumsFeaturesNV { VkStructureType sType; void* pNext; VkBool32 fragmentShadingRateEnums; VkBool32 supersampleFragmentShadingRates; VkBool32 noInvocationFragmentShadingRates; } VkPhysicalDeviceFragmentShadingRateEnumsFeaturesNV; typedef struct VkPhysicalDeviceFragmentShadingRateEnumsPropertiesNV { VkStructureType sType; void* pNext; VkSampleCountFlagBits maxFragmentShadingRateInvocationCount; } VkPhysicalDeviceFragmentShadingRateEnumsPropertiesNV; typedef struct VkPipelineFragmentShadingRateEnumStateCreateInfoNV { VkStructureType sType; const void* pNext; VkFragmentShadingRateTypeNV shadingRateType; VkFragmentShadingRateNV shadingRate; VkFragmentShadingRateCombinerOpKHR combinerOps[2]; } VkPipelineFragmentShadingRateEnumStateCreateInfoNV; typedef void (VKAPI_PTR *PFN_vkCmdSetFragmentShadingRateEnumNV)(VkCommandBuffer commandBuffer, VkFragmentShadingRateNV shadingRate, const VkFragmentShadingRateCombinerOpKHR combinerOps[2]); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetFragmentShadingRateEnumNV( VkCommandBuffer commandBuffer, VkFragmentShadingRateNV shadingRate, const VkFragmentShadingRateCombinerOpKHR combinerOps[2]); #endif #define VK_NV_ray_tracing_motion_blur 1 #define VK_NV_RAY_TRACING_MOTION_BLUR_SPEC_VERSION 1 #define VK_NV_RAY_TRACING_MOTION_BLUR_EXTENSION_NAME "VK_NV_ray_tracing_motion_blur" typedef enum VkAccelerationStructureMotionInstanceTypeNV { VK_ACCELERATION_STRUCTURE_MOTION_INSTANCE_TYPE_STATIC_NV = 0, VK_ACCELERATION_STRUCTURE_MOTION_INSTANCE_TYPE_MATRIX_MOTION_NV = 1, VK_ACCELERATION_STRUCTURE_MOTION_INSTANCE_TYPE_SRT_MOTION_NV = 2, VK_ACCELERATION_STRUCTURE_MOTION_INSTANCE_TYPE_MAX_ENUM_NV = 0x7FFFFFFF } VkAccelerationStructureMotionInstanceTypeNV; typedef VkFlags VkAccelerationStructureMotionInfoFlagsNV; typedef VkFlags VkAccelerationStructureMotionInstanceFlagsNV; typedef union VkDeviceOrHostAddressConstKHR { VkDeviceAddress deviceAddress; const void* hostAddress; } VkDeviceOrHostAddressConstKHR; typedef struct VkAccelerationStructureGeometryMotionTrianglesDataNV { VkStructureType sType; const void* pNext; VkDeviceOrHostAddressConstKHR vertexData; } VkAccelerationStructureGeometryMotionTrianglesDataNV; typedef struct VkAccelerationStructureMotionInfoNV { VkStructureType sType; const void* pNext; uint32_t maxInstances; VkAccelerationStructureMotionInfoFlagsNV flags; } VkAccelerationStructureMotionInfoNV; typedef struct VkAccelerationStructureMatrixMotionInstanceNV { VkTransformMatrixKHR transformT0; VkTransformMatrixKHR transformT1; uint32_t instanceCustomIndex:24; uint32_t mask:8; uint32_t instanceShaderBindingTableRecordOffset:24; VkGeometryInstanceFlagsKHR flags:8; uint64_t accelerationStructureReference; } VkAccelerationStructureMatrixMotionInstanceNV; typedef struct VkSRTDataNV { float sx; float a; float b; float pvx; float sy; float c; float pvy; float sz; float pvz; float qx; float qy; float qz; float qw; float tx; float ty; float tz; } VkSRTDataNV; typedef struct VkAccelerationStructureSRTMotionInstanceNV { VkSRTDataNV transformT0; VkSRTDataNV transformT1; uint32_t instanceCustomIndex:24; uint32_t mask:8; uint32_t instanceShaderBindingTableRecordOffset:24; VkGeometryInstanceFlagsKHR flags:8; uint64_t accelerationStructureReference; } VkAccelerationStructureSRTMotionInstanceNV; typedef union VkAccelerationStructureMotionInstanceDataNV { VkAccelerationStructureInstanceKHR staticInstance; VkAccelerationStructureMatrixMotionInstanceNV matrixMotionInstance; VkAccelerationStructureSRTMotionInstanceNV srtMotionInstance; } VkAccelerationStructureMotionInstanceDataNV; typedef struct VkAccelerationStructureMotionInstanceNV { VkAccelerationStructureMotionInstanceTypeNV type; VkAccelerationStructureMotionInstanceFlagsNV flags; VkAccelerationStructureMotionInstanceDataNV data; } VkAccelerationStructureMotionInstanceNV; typedef struct VkPhysicalDeviceRayTracingMotionBlurFeaturesNV { VkStructureType sType; void* pNext; VkBool32 rayTracingMotionBlur; VkBool32 rayTracingMotionBlurPipelineTraceRaysIndirect; } VkPhysicalDeviceRayTracingMotionBlurFeaturesNV; #define VK_EXT_ycbcr_2plane_444_formats 1 #define VK_EXT_YCBCR_2PLANE_444_FORMATS_SPEC_VERSION 1 #define VK_EXT_YCBCR_2PLANE_444_FORMATS_EXTENSION_NAME "VK_EXT_ycbcr_2plane_444_formats" typedef struct VkPhysicalDeviceYcbcr2Plane444FormatsFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 ycbcr2plane444Formats; } VkPhysicalDeviceYcbcr2Plane444FormatsFeaturesEXT; #define VK_EXT_fragment_density_map2 1 #define VK_EXT_FRAGMENT_DENSITY_MAP_2_SPEC_VERSION 1 #define VK_EXT_FRAGMENT_DENSITY_MAP_2_EXTENSION_NAME "VK_EXT_fragment_density_map2" typedef struct VkPhysicalDeviceFragmentDensityMap2FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 fragmentDensityMapDeferred; } VkPhysicalDeviceFragmentDensityMap2FeaturesEXT; typedef struct VkPhysicalDeviceFragmentDensityMap2PropertiesEXT { VkStructureType sType; void* pNext; VkBool32 subsampledLoads; VkBool32 subsampledCoarseReconstructionEarlyAccess; uint32_t maxSubsampledArrayLayers; uint32_t maxDescriptorSetSubsampledSamplers; } VkPhysicalDeviceFragmentDensityMap2PropertiesEXT; #define VK_QCOM_rotated_copy_commands 1 #define VK_QCOM_ROTATED_COPY_COMMANDS_SPEC_VERSION 1 #define VK_QCOM_ROTATED_COPY_COMMANDS_EXTENSION_NAME "VK_QCOM_rotated_copy_commands" typedef struct VkCopyCommandTransformInfoQCOM { VkStructureType sType; const void* pNext; VkSurfaceTransformFlagBitsKHR transform; } VkCopyCommandTransformInfoQCOM; #define VK_EXT_image_robustness 1 #define VK_EXT_IMAGE_ROBUSTNESS_SPEC_VERSION 1 #define VK_EXT_IMAGE_ROBUSTNESS_EXTENSION_NAME "VK_EXT_image_robustness" typedef VkPhysicalDeviceImageRobustnessFeatures VkPhysicalDeviceImageRobustnessFeaturesEXT; #define VK_EXT_image_compression_control 1 #define VK_EXT_IMAGE_COMPRESSION_CONTROL_SPEC_VERSION 1 #define VK_EXT_IMAGE_COMPRESSION_CONTROL_EXTENSION_NAME "VK_EXT_image_compression_control" typedef enum VkImageCompressionFlagBitsEXT { VK_IMAGE_COMPRESSION_DEFAULT_EXT = 0, VK_IMAGE_COMPRESSION_FIXED_RATE_DEFAULT_EXT = 0x00000001, VK_IMAGE_COMPRESSION_FIXED_RATE_EXPLICIT_EXT = 0x00000002, VK_IMAGE_COMPRESSION_DISABLED_EXT = 0x00000004, VK_IMAGE_COMPRESSION_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkImageCompressionFlagBitsEXT; typedef VkFlags VkImageCompressionFlagsEXT; typedef enum VkImageCompressionFixedRateFlagBitsEXT { VK_IMAGE_COMPRESSION_FIXED_RATE_NONE_EXT = 0, VK_IMAGE_COMPRESSION_FIXED_RATE_1BPC_BIT_EXT = 0x00000001, VK_IMAGE_COMPRESSION_FIXED_RATE_2BPC_BIT_EXT = 0x00000002, VK_IMAGE_COMPRESSION_FIXED_RATE_3BPC_BIT_EXT = 0x00000004, VK_IMAGE_COMPRESSION_FIXED_RATE_4BPC_BIT_EXT = 0x00000008, VK_IMAGE_COMPRESSION_FIXED_RATE_5BPC_BIT_EXT = 0x00000010, VK_IMAGE_COMPRESSION_FIXED_RATE_6BPC_BIT_EXT = 0x00000020, VK_IMAGE_COMPRESSION_FIXED_RATE_7BPC_BIT_EXT = 0x00000040, VK_IMAGE_COMPRESSION_FIXED_RATE_8BPC_BIT_EXT = 0x00000080, VK_IMAGE_COMPRESSION_FIXED_RATE_9BPC_BIT_EXT = 0x00000100, VK_IMAGE_COMPRESSION_FIXED_RATE_10BPC_BIT_EXT = 0x00000200, VK_IMAGE_COMPRESSION_FIXED_RATE_11BPC_BIT_EXT = 0x00000400, VK_IMAGE_COMPRESSION_FIXED_RATE_12BPC_BIT_EXT = 0x00000800, VK_IMAGE_COMPRESSION_FIXED_RATE_13BPC_BIT_EXT = 0x00001000, VK_IMAGE_COMPRESSION_FIXED_RATE_14BPC_BIT_EXT = 0x00002000, VK_IMAGE_COMPRESSION_FIXED_RATE_15BPC_BIT_EXT = 0x00004000, VK_IMAGE_COMPRESSION_FIXED_RATE_16BPC_BIT_EXT = 0x00008000, VK_IMAGE_COMPRESSION_FIXED_RATE_17BPC_BIT_EXT = 0x00010000, VK_IMAGE_COMPRESSION_FIXED_RATE_18BPC_BIT_EXT = 0x00020000, VK_IMAGE_COMPRESSION_FIXED_RATE_19BPC_BIT_EXT = 0x00040000, VK_IMAGE_COMPRESSION_FIXED_RATE_20BPC_BIT_EXT = 0x00080000, VK_IMAGE_COMPRESSION_FIXED_RATE_21BPC_BIT_EXT = 0x00100000, VK_IMAGE_COMPRESSION_FIXED_RATE_22BPC_BIT_EXT = 0x00200000, VK_IMAGE_COMPRESSION_FIXED_RATE_23BPC_BIT_EXT = 0x00400000, VK_IMAGE_COMPRESSION_FIXED_RATE_24BPC_BIT_EXT = 0x00800000, VK_IMAGE_COMPRESSION_FIXED_RATE_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkImageCompressionFixedRateFlagBitsEXT; typedef VkFlags VkImageCompressionFixedRateFlagsEXT; typedef struct VkPhysicalDeviceImageCompressionControlFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 imageCompressionControl; } VkPhysicalDeviceImageCompressionControlFeaturesEXT; typedef struct VkImageCompressionControlEXT { VkStructureType sType; const void* pNext; VkImageCompressionFlagsEXT flags; uint32_t compressionControlPlaneCount; VkImageCompressionFixedRateFlagsEXT* pFixedRateFlags; } VkImageCompressionControlEXT; typedef struct VkSubresourceLayout2EXT { VkStructureType sType; void* pNext; VkSubresourceLayout subresourceLayout; } VkSubresourceLayout2EXT; typedef struct VkImageSubresource2EXT { VkStructureType sType; void* pNext; VkImageSubresource imageSubresource; } VkImageSubresource2EXT; typedef struct VkImageCompressionPropertiesEXT { VkStructureType sType; void* pNext; VkImageCompressionFlagsEXT imageCompressionFlags; VkImageCompressionFixedRateFlagsEXT imageCompressionFixedRateFlags; } VkImageCompressionPropertiesEXT; typedef void (VKAPI_PTR *PFN_vkGetImageSubresourceLayout2EXT)(VkDevice device, VkImage image, const VkImageSubresource2EXT* pSubresource, VkSubresourceLayout2EXT* pLayout); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetImageSubresourceLayout2EXT( VkDevice device, VkImage image, const VkImageSubresource2EXT* pSubresource, VkSubresourceLayout2EXT* pLayout); #endif #define VK_EXT_attachment_feedback_loop_layout 1 #define VK_EXT_ATTACHMENT_FEEDBACK_LOOP_LAYOUT_SPEC_VERSION 2 #define VK_EXT_ATTACHMENT_FEEDBACK_LOOP_LAYOUT_EXTENSION_NAME "VK_EXT_attachment_feedback_loop_layout" typedef struct VkPhysicalDeviceAttachmentFeedbackLoopLayoutFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 attachmentFeedbackLoopLayout; } VkPhysicalDeviceAttachmentFeedbackLoopLayoutFeaturesEXT; #define VK_EXT_4444_formats 1 #define VK_EXT_4444_FORMATS_SPEC_VERSION 1 #define VK_EXT_4444_FORMATS_EXTENSION_NAME "VK_EXT_4444_formats" typedef struct VkPhysicalDevice4444FormatsFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 formatA4R4G4B4; VkBool32 formatA4B4G4R4; } VkPhysicalDevice4444FormatsFeaturesEXT; #define VK_EXT_device_fault 1 #define VK_EXT_DEVICE_FAULT_SPEC_VERSION 1 #define VK_EXT_DEVICE_FAULT_EXTENSION_NAME "VK_EXT_device_fault" typedef enum VkDeviceFaultAddressTypeEXT { VK_DEVICE_FAULT_ADDRESS_TYPE_NONE_EXT = 0, VK_DEVICE_FAULT_ADDRESS_TYPE_READ_INVALID_EXT = 1, VK_DEVICE_FAULT_ADDRESS_TYPE_WRITE_INVALID_EXT = 2, VK_DEVICE_FAULT_ADDRESS_TYPE_EXECUTE_INVALID_EXT = 3, VK_DEVICE_FAULT_ADDRESS_TYPE_INSTRUCTION_POINTER_UNKNOWN_EXT = 4, VK_DEVICE_FAULT_ADDRESS_TYPE_INSTRUCTION_POINTER_INVALID_EXT = 5, VK_DEVICE_FAULT_ADDRESS_TYPE_INSTRUCTION_POINTER_FAULT_EXT = 6, VK_DEVICE_FAULT_ADDRESS_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDeviceFaultAddressTypeEXT; typedef enum VkDeviceFaultVendorBinaryHeaderVersionEXT { VK_DEVICE_FAULT_VENDOR_BINARY_HEADER_VERSION_ONE_EXT = 1, VK_DEVICE_FAULT_VENDOR_BINARY_HEADER_VERSION_MAX_ENUM_EXT = 0x7FFFFFFF } VkDeviceFaultVendorBinaryHeaderVersionEXT; typedef struct VkPhysicalDeviceFaultFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 deviceFault; VkBool32 deviceFaultVendorBinary; } VkPhysicalDeviceFaultFeaturesEXT; typedef struct VkDeviceFaultCountsEXT { VkStructureType sType; void* pNext; uint32_t addressInfoCount; uint32_t vendorInfoCount; VkDeviceSize vendorBinarySize; } VkDeviceFaultCountsEXT; typedef struct VkDeviceFaultAddressInfoEXT { VkDeviceFaultAddressTypeEXT addressType; VkDeviceAddress reportedAddress; VkDeviceSize addressPrecision; } VkDeviceFaultAddressInfoEXT; typedef struct VkDeviceFaultVendorInfoEXT { char description[VK_MAX_DESCRIPTION_SIZE]; uint64_t vendorFaultCode; uint64_t vendorFaultData; } VkDeviceFaultVendorInfoEXT; typedef struct VkDeviceFaultInfoEXT { VkStructureType sType; void* pNext; char description[VK_MAX_DESCRIPTION_SIZE]; VkDeviceFaultAddressInfoEXT* pAddressInfos; VkDeviceFaultVendorInfoEXT* pVendorInfos; void* pVendorBinaryData; } VkDeviceFaultInfoEXT; typedef struct VkDeviceFaultVendorBinaryHeaderVersionOneEXT { uint32_t headerSize; VkDeviceFaultVendorBinaryHeaderVersionEXT headerVersion; uint32_t vendorID; uint32_t deviceID; uint32_t driverVersion; uint8_t pipelineCacheUUID[VK_UUID_SIZE]; uint32_t applicationNameOffset; uint32_t applicationVersion; uint32_t engineNameOffset; } VkDeviceFaultVendorBinaryHeaderVersionOneEXT; typedef VkResult (VKAPI_PTR *PFN_vkGetDeviceFaultInfoEXT)(VkDevice device, VkDeviceFaultCountsEXT* pFaultCounts, VkDeviceFaultInfoEXT* pFaultInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetDeviceFaultInfoEXT( VkDevice device, VkDeviceFaultCountsEXT* pFaultCounts, VkDeviceFaultInfoEXT* pFaultInfo); #endif #define VK_ARM_rasterization_order_attachment_access 1 #define VK_ARM_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_SPEC_VERSION 1 #define VK_ARM_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_EXTENSION_NAME "VK_ARM_rasterization_order_attachment_access" typedef struct VkPhysicalDeviceRasterizationOrderAttachmentAccessFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 rasterizationOrderColorAttachmentAccess; VkBool32 rasterizationOrderDepthAttachmentAccess; VkBool32 rasterizationOrderStencilAttachmentAccess; } VkPhysicalDeviceRasterizationOrderAttachmentAccessFeaturesEXT; typedef VkPhysicalDeviceRasterizationOrderAttachmentAccessFeaturesEXT VkPhysicalDeviceRasterizationOrderAttachmentAccessFeaturesARM; #define VK_EXT_rgba10x6_formats 1 #define VK_EXT_RGBA10X6_FORMATS_SPEC_VERSION 1 #define VK_EXT_RGBA10X6_FORMATS_EXTENSION_NAME "VK_EXT_rgba10x6_formats" typedef struct VkPhysicalDeviceRGBA10X6FormatsFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 formatRgba10x6WithoutYCbCrSampler; } VkPhysicalDeviceRGBA10X6FormatsFeaturesEXT; #define VK_NV_acquire_winrt_display 1 #define VK_NV_ACQUIRE_WINRT_DISPLAY_SPEC_VERSION 1 #define VK_NV_ACQUIRE_WINRT_DISPLAY_EXTENSION_NAME "VK_NV_acquire_winrt_display" typedef VkResult (VKAPI_PTR *PFN_vkAcquireWinrtDisplayNV)(VkPhysicalDevice physicalDevice, VkDisplayKHR display); typedef VkResult (VKAPI_PTR *PFN_vkGetWinrtDisplayNV)(VkPhysicalDevice physicalDevice, uint32_t deviceRelativeId, VkDisplayKHR* pDisplay); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkAcquireWinrtDisplayNV( VkPhysicalDevice physicalDevice, VkDisplayKHR display); VKAPI_ATTR VkResult VKAPI_CALL vkGetWinrtDisplayNV( VkPhysicalDevice physicalDevice, uint32_t deviceRelativeId, VkDisplayKHR* pDisplay); #endif #define VK_VALVE_mutable_descriptor_type 1 #define VK_VALVE_MUTABLE_DESCRIPTOR_TYPE_SPEC_VERSION 1 #define VK_VALVE_MUTABLE_DESCRIPTOR_TYPE_EXTENSION_NAME "VK_VALVE_mutable_descriptor_type" typedef struct VkPhysicalDeviceMutableDescriptorTypeFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 mutableDescriptorType; } VkPhysicalDeviceMutableDescriptorTypeFeaturesEXT; typedef VkPhysicalDeviceMutableDescriptorTypeFeaturesEXT VkPhysicalDeviceMutableDescriptorTypeFeaturesVALVE; typedef struct VkMutableDescriptorTypeListEXT { uint32_t descriptorTypeCount; const VkDescriptorType* pDescriptorTypes; } VkMutableDescriptorTypeListEXT; typedef VkMutableDescriptorTypeListEXT VkMutableDescriptorTypeListVALVE; typedef struct VkMutableDescriptorTypeCreateInfoEXT { VkStructureType sType; const void* pNext; uint32_t mutableDescriptorTypeListCount; const VkMutableDescriptorTypeListEXT* pMutableDescriptorTypeLists; } VkMutableDescriptorTypeCreateInfoEXT; typedef VkMutableDescriptorTypeCreateInfoEXT VkMutableDescriptorTypeCreateInfoVALVE; #define VK_EXT_vertex_input_dynamic_state 1 #define VK_EXT_VERTEX_INPUT_DYNAMIC_STATE_SPEC_VERSION 2 #define VK_EXT_VERTEX_INPUT_DYNAMIC_STATE_EXTENSION_NAME "VK_EXT_vertex_input_dynamic_state" typedef struct VkPhysicalDeviceVertexInputDynamicStateFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 vertexInputDynamicState; } VkPhysicalDeviceVertexInputDynamicStateFeaturesEXT; typedef struct VkVertexInputBindingDescription2EXT { VkStructureType sType; void* pNext; uint32_t binding; uint32_t stride; VkVertexInputRate inputRate; uint32_t divisor; } VkVertexInputBindingDescription2EXT; typedef struct VkVertexInputAttributeDescription2EXT { VkStructureType sType; void* pNext; uint32_t location; uint32_t binding; VkFormat format; uint32_t offset; } VkVertexInputAttributeDescription2EXT; typedef void (VKAPI_PTR *PFN_vkCmdSetVertexInputEXT)(VkCommandBuffer commandBuffer, uint32_t vertexBindingDescriptionCount, const VkVertexInputBindingDescription2EXT* pVertexBindingDescriptions, uint32_t vertexAttributeDescriptionCount, const VkVertexInputAttributeDescription2EXT* pVertexAttributeDescriptions); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetVertexInputEXT( VkCommandBuffer commandBuffer, uint32_t vertexBindingDescriptionCount, const VkVertexInputBindingDescription2EXT* pVertexBindingDescriptions, uint32_t vertexAttributeDescriptionCount, const VkVertexInputAttributeDescription2EXT* pVertexAttributeDescriptions); #endif #define VK_EXT_physical_device_drm 1 #define VK_EXT_PHYSICAL_DEVICE_DRM_SPEC_VERSION 1 #define VK_EXT_PHYSICAL_DEVICE_DRM_EXTENSION_NAME "VK_EXT_physical_device_drm" typedef struct VkPhysicalDeviceDrmPropertiesEXT { VkStructureType sType; void* pNext; VkBool32 hasPrimary; VkBool32 hasRender; int64_t primaryMajor; int64_t primaryMinor; int64_t renderMajor; int64_t renderMinor; } VkPhysicalDeviceDrmPropertiesEXT; #define VK_EXT_device_address_binding_report 1 #define VK_EXT_DEVICE_ADDRESS_BINDING_REPORT_SPEC_VERSION 1 #define VK_EXT_DEVICE_ADDRESS_BINDING_REPORT_EXTENSION_NAME "VK_EXT_device_address_binding_report" typedef enum VkDeviceAddressBindingTypeEXT { VK_DEVICE_ADDRESS_BINDING_TYPE_BIND_EXT = 0, VK_DEVICE_ADDRESS_BINDING_TYPE_UNBIND_EXT = 1, VK_DEVICE_ADDRESS_BINDING_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkDeviceAddressBindingTypeEXT; typedef enum VkDeviceAddressBindingFlagBitsEXT { VK_DEVICE_ADDRESS_BINDING_INTERNAL_OBJECT_BIT_EXT = 0x00000001, VK_DEVICE_ADDRESS_BINDING_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkDeviceAddressBindingFlagBitsEXT; typedef VkFlags VkDeviceAddressBindingFlagsEXT; typedef struct VkPhysicalDeviceAddressBindingReportFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 reportAddressBinding; } VkPhysicalDeviceAddressBindingReportFeaturesEXT; typedef struct VkDeviceAddressBindingCallbackDataEXT { VkStructureType sType; void* pNext; VkDeviceAddressBindingFlagsEXT flags; VkDeviceAddress baseAddress; VkDeviceSize size; VkDeviceAddressBindingTypeEXT bindingType; } VkDeviceAddressBindingCallbackDataEXT; #define VK_EXT_depth_clip_control 1 #define VK_EXT_DEPTH_CLIP_CONTROL_SPEC_VERSION 1 #define VK_EXT_DEPTH_CLIP_CONTROL_EXTENSION_NAME "VK_EXT_depth_clip_control" typedef struct VkPhysicalDeviceDepthClipControlFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 depthClipControl; } VkPhysicalDeviceDepthClipControlFeaturesEXT; typedef struct VkPipelineViewportDepthClipControlCreateInfoEXT { VkStructureType sType; const void* pNext; VkBool32 negativeOneToOne; } VkPipelineViewportDepthClipControlCreateInfoEXT; #define VK_EXT_primitive_topology_list_restart 1 #define VK_EXT_PRIMITIVE_TOPOLOGY_LIST_RESTART_SPEC_VERSION 1 #define VK_EXT_PRIMITIVE_TOPOLOGY_LIST_RESTART_EXTENSION_NAME "VK_EXT_primitive_topology_list_restart" typedef struct VkPhysicalDevicePrimitiveTopologyListRestartFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 primitiveTopologyListRestart; VkBool32 primitiveTopologyPatchListRestart; } VkPhysicalDevicePrimitiveTopologyListRestartFeaturesEXT; #define VK_HUAWEI_subpass_shading 1 #define VK_HUAWEI_SUBPASS_SHADING_SPEC_VERSION 2 #define VK_HUAWEI_SUBPASS_SHADING_EXTENSION_NAME "VK_HUAWEI_subpass_shading" typedef struct VkSubpassShadingPipelineCreateInfoHUAWEI { VkStructureType sType; void* pNext; VkRenderPass renderPass; uint32_t subpass; } VkSubpassShadingPipelineCreateInfoHUAWEI; typedef struct VkPhysicalDeviceSubpassShadingFeaturesHUAWEI { VkStructureType sType; void* pNext; VkBool32 subpassShading; } VkPhysicalDeviceSubpassShadingFeaturesHUAWEI; typedef struct VkPhysicalDeviceSubpassShadingPropertiesHUAWEI { VkStructureType sType; void* pNext; uint32_t maxSubpassShadingWorkgroupSizeAspectRatio; } VkPhysicalDeviceSubpassShadingPropertiesHUAWEI; typedef VkResult (VKAPI_PTR *PFN_vkGetDeviceSubpassShadingMaxWorkgroupSizeHUAWEI)(VkDevice device, VkRenderPass renderpass, VkExtent2D* pMaxWorkgroupSize); typedef void (VKAPI_PTR *PFN_vkCmdSubpassShadingHUAWEI)(VkCommandBuffer commandBuffer); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetDeviceSubpassShadingMaxWorkgroupSizeHUAWEI( VkDevice device, VkRenderPass renderpass, VkExtent2D* pMaxWorkgroupSize); VKAPI_ATTR void VKAPI_CALL vkCmdSubpassShadingHUAWEI( VkCommandBuffer commandBuffer); #endif #define VK_HUAWEI_invocation_mask 1 #define VK_HUAWEI_INVOCATION_MASK_SPEC_VERSION 1 #define VK_HUAWEI_INVOCATION_MASK_EXTENSION_NAME "VK_HUAWEI_invocation_mask" typedef struct VkPhysicalDeviceInvocationMaskFeaturesHUAWEI { VkStructureType sType; void* pNext; VkBool32 invocationMask; } VkPhysicalDeviceInvocationMaskFeaturesHUAWEI; typedef void (VKAPI_PTR *PFN_vkCmdBindInvocationMaskHUAWEI)(VkCommandBuffer commandBuffer, VkImageView imageView, VkImageLayout imageLayout); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdBindInvocationMaskHUAWEI( VkCommandBuffer commandBuffer, VkImageView imageView, VkImageLayout imageLayout); #endif #define VK_NV_external_memory_rdma 1 typedef void* VkRemoteAddressNV; #define VK_NV_EXTERNAL_MEMORY_RDMA_SPEC_VERSION 1 #define VK_NV_EXTERNAL_MEMORY_RDMA_EXTENSION_NAME "VK_NV_external_memory_rdma" typedef struct VkMemoryGetRemoteAddressInfoNV { VkStructureType sType; const void* pNext; VkDeviceMemory memory; VkExternalMemoryHandleTypeFlagBits handleType; } VkMemoryGetRemoteAddressInfoNV; typedef struct VkPhysicalDeviceExternalMemoryRDMAFeaturesNV { VkStructureType sType; void* pNext; VkBool32 externalMemoryRDMA; } VkPhysicalDeviceExternalMemoryRDMAFeaturesNV; typedef VkResult (VKAPI_PTR *PFN_vkGetMemoryRemoteAddressNV)(VkDevice device, const VkMemoryGetRemoteAddressInfoNV* pMemoryGetRemoteAddressInfo, VkRemoteAddressNV* pAddress); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetMemoryRemoteAddressNV( VkDevice device, const VkMemoryGetRemoteAddressInfoNV* pMemoryGetRemoteAddressInfo, VkRemoteAddressNV* pAddress); #endif #define VK_EXT_pipeline_properties 1 #define VK_EXT_PIPELINE_PROPERTIES_SPEC_VERSION 1 #define VK_EXT_PIPELINE_PROPERTIES_EXTENSION_NAME "VK_EXT_pipeline_properties" typedef VkPipelineInfoKHR VkPipelineInfoEXT; typedef struct VkPipelinePropertiesIdentifierEXT { VkStructureType sType; void* pNext; uint8_t pipelineIdentifier[VK_UUID_SIZE]; } VkPipelinePropertiesIdentifierEXT; typedef struct VkPhysicalDevicePipelinePropertiesFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 pipelinePropertiesIdentifier; } VkPhysicalDevicePipelinePropertiesFeaturesEXT; typedef VkResult (VKAPI_PTR *PFN_vkGetPipelinePropertiesEXT)(VkDevice device, const VkPipelineInfoEXT* pPipelineInfo, VkBaseOutStructure* pPipelineProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPipelinePropertiesEXT( VkDevice device, const VkPipelineInfoEXT* pPipelineInfo, VkBaseOutStructure* pPipelineProperties); #endif #define VK_EXT_multisampled_render_to_single_sampled 1 #define VK_EXT_MULTISAMPLED_RENDER_TO_SINGLE_SAMPLED_SPEC_VERSION 1 #define VK_EXT_MULTISAMPLED_RENDER_TO_SINGLE_SAMPLED_EXTENSION_NAME "VK_EXT_multisampled_render_to_single_sampled" typedef struct VkPhysicalDeviceMultisampledRenderToSingleSampledFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 multisampledRenderToSingleSampled; } VkPhysicalDeviceMultisampledRenderToSingleSampledFeaturesEXT; typedef struct VkSubpassResolvePerformanceQueryEXT { VkStructureType sType; void* pNext; VkBool32 optimal; } VkSubpassResolvePerformanceQueryEXT; typedef struct VkMultisampledRenderToSingleSampledInfoEXT { VkStructureType sType; const void* pNext; VkBool32 multisampledRenderToSingleSampledEnable; VkSampleCountFlagBits rasterizationSamples; } VkMultisampledRenderToSingleSampledInfoEXT; #define VK_EXT_extended_dynamic_state2 1 #define VK_EXT_EXTENDED_DYNAMIC_STATE_2_SPEC_VERSION 1 #define VK_EXT_EXTENDED_DYNAMIC_STATE_2_EXTENSION_NAME "VK_EXT_extended_dynamic_state2" typedef struct VkPhysicalDeviceExtendedDynamicState2FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 extendedDynamicState2; VkBool32 extendedDynamicState2LogicOp; VkBool32 extendedDynamicState2PatchControlPoints; } VkPhysicalDeviceExtendedDynamicState2FeaturesEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetPatchControlPointsEXT)(VkCommandBuffer commandBuffer, uint32_t patchControlPoints); typedef void (VKAPI_PTR *PFN_vkCmdSetRasterizerDiscardEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 rasterizerDiscardEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthBiasEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 depthBiasEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetLogicOpEXT)(VkCommandBuffer commandBuffer, VkLogicOp logicOp); typedef void (VKAPI_PTR *PFN_vkCmdSetPrimitiveRestartEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 primitiveRestartEnable); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetPatchControlPointsEXT( VkCommandBuffer commandBuffer, uint32_t patchControlPoints); VKAPI_ATTR void VKAPI_CALL vkCmdSetRasterizerDiscardEnableEXT( VkCommandBuffer commandBuffer, VkBool32 rasterizerDiscardEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthBiasEnableEXT( VkCommandBuffer commandBuffer, VkBool32 depthBiasEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetLogicOpEXT( VkCommandBuffer commandBuffer, VkLogicOp logicOp); VKAPI_ATTR void VKAPI_CALL vkCmdSetPrimitiveRestartEnableEXT( VkCommandBuffer commandBuffer, VkBool32 primitiveRestartEnable); #endif #define VK_EXT_color_write_enable 1 #define VK_EXT_COLOR_WRITE_ENABLE_SPEC_VERSION 1 #define VK_EXT_COLOR_WRITE_ENABLE_EXTENSION_NAME "VK_EXT_color_write_enable" typedef struct VkPhysicalDeviceColorWriteEnableFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 colorWriteEnable; } VkPhysicalDeviceColorWriteEnableFeaturesEXT; typedef struct VkPipelineColorWriteCreateInfoEXT { VkStructureType sType; const void* pNext; uint32_t attachmentCount; const VkBool32* pColorWriteEnables; } VkPipelineColorWriteCreateInfoEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetColorWriteEnableEXT)(VkCommandBuffer commandBuffer, uint32_t attachmentCount, const VkBool32* pColorWriteEnables); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetColorWriteEnableEXT( VkCommandBuffer commandBuffer, uint32_t attachmentCount, const VkBool32* pColorWriteEnables); #endif #define VK_EXT_primitives_generated_query 1 #define VK_EXT_PRIMITIVES_GENERATED_QUERY_SPEC_VERSION 1 #define VK_EXT_PRIMITIVES_GENERATED_QUERY_EXTENSION_NAME "VK_EXT_primitives_generated_query" typedef struct VkPhysicalDevicePrimitivesGeneratedQueryFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 primitivesGeneratedQuery; VkBool32 primitivesGeneratedQueryWithRasterizerDiscard; VkBool32 primitivesGeneratedQueryWithNonZeroStreams; } VkPhysicalDevicePrimitivesGeneratedQueryFeaturesEXT; #define VK_EXT_global_priority_query 1 #define VK_EXT_GLOBAL_PRIORITY_QUERY_SPEC_VERSION 1 #define VK_EXT_GLOBAL_PRIORITY_QUERY_EXTENSION_NAME "VK_EXT_global_priority_query" #define VK_MAX_GLOBAL_PRIORITY_SIZE_EXT VK_MAX_GLOBAL_PRIORITY_SIZE_KHR typedef VkPhysicalDeviceGlobalPriorityQueryFeaturesKHR VkPhysicalDeviceGlobalPriorityQueryFeaturesEXT; typedef VkQueueFamilyGlobalPriorityPropertiesKHR VkQueueFamilyGlobalPriorityPropertiesEXT; #define VK_EXT_image_view_min_lod 1 #define VK_EXT_IMAGE_VIEW_MIN_LOD_SPEC_VERSION 1 #define VK_EXT_IMAGE_VIEW_MIN_LOD_EXTENSION_NAME "VK_EXT_image_view_min_lod" typedef struct VkPhysicalDeviceImageViewMinLodFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 minLod; } VkPhysicalDeviceImageViewMinLodFeaturesEXT; typedef struct VkImageViewMinLodCreateInfoEXT { VkStructureType sType; const void* pNext; float minLod; } VkImageViewMinLodCreateInfoEXT; #define VK_EXT_multi_draw 1 #define VK_EXT_MULTI_DRAW_SPEC_VERSION 1 #define VK_EXT_MULTI_DRAW_EXTENSION_NAME "VK_EXT_multi_draw" typedef struct VkPhysicalDeviceMultiDrawFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 multiDraw; } VkPhysicalDeviceMultiDrawFeaturesEXT; typedef struct VkPhysicalDeviceMultiDrawPropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxMultiDrawCount; } VkPhysicalDeviceMultiDrawPropertiesEXT; typedef struct VkMultiDrawInfoEXT { uint32_t firstVertex; uint32_t vertexCount; } VkMultiDrawInfoEXT; typedef struct VkMultiDrawIndexedInfoEXT { uint32_t firstIndex; uint32_t indexCount; int32_t vertexOffset; } VkMultiDrawIndexedInfoEXT; typedef void (VKAPI_PTR *PFN_vkCmdDrawMultiEXT)(VkCommandBuffer commandBuffer, uint32_t drawCount, const VkMultiDrawInfoEXT* pVertexInfo, uint32_t instanceCount, uint32_t firstInstance, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawMultiIndexedEXT)(VkCommandBuffer commandBuffer, uint32_t drawCount, const VkMultiDrawIndexedInfoEXT* pIndexInfo, uint32_t instanceCount, uint32_t firstInstance, uint32_t stride, const int32_t* pVertexOffset); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdDrawMultiEXT( VkCommandBuffer commandBuffer, uint32_t drawCount, const VkMultiDrawInfoEXT* pVertexInfo, uint32_t instanceCount, uint32_t firstInstance, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawMultiIndexedEXT( VkCommandBuffer commandBuffer, uint32_t drawCount, const VkMultiDrawIndexedInfoEXT* pIndexInfo, uint32_t instanceCount, uint32_t firstInstance, uint32_t stride, const int32_t* pVertexOffset); #endif #define VK_EXT_image_2d_view_of_3d 1 #define VK_EXT_IMAGE_2D_VIEW_OF_3D_SPEC_VERSION 1 #define VK_EXT_IMAGE_2D_VIEW_OF_3D_EXTENSION_NAME "VK_EXT_image_2d_view_of_3d" typedef struct VkPhysicalDeviceImage2DViewOf3DFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 image2DViewOf3D; VkBool32 sampler2DViewOf3D; } VkPhysicalDeviceImage2DViewOf3DFeaturesEXT; #define VK_EXT_opacity_micromap 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkMicromapEXT) #define VK_EXT_OPACITY_MICROMAP_SPEC_VERSION 2 #define VK_EXT_OPACITY_MICROMAP_EXTENSION_NAME "VK_EXT_opacity_micromap" typedef enum VkMicromapTypeEXT { VK_MICROMAP_TYPE_OPACITY_MICROMAP_EXT = 0, VK_MICROMAP_TYPE_MAX_ENUM_EXT = 0x7FFFFFFF } VkMicromapTypeEXT; typedef enum VkBuildMicromapModeEXT { VK_BUILD_MICROMAP_MODE_BUILD_EXT = 0, VK_BUILD_MICROMAP_MODE_MAX_ENUM_EXT = 0x7FFFFFFF } VkBuildMicromapModeEXT; typedef enum VkCopyMicromapModeEXT { VK_COPY_MICROMAP_MODE_CLONE_EXT = 0, VK_COPY_MICROMAP_MODE_SERIALIZE_EXT = 1, VK_COPY_MICROMAP_MODE_DESERIALIZE_EXT = 2, VK_COPY_MICROMAP_MODE_COMPACT_EXT = 3, VK_COPY_MICROMAP_MODE_MAX_ENUM_EXT = 0x7FFFFFFF } VkCopyMicromapModeEXT; typedef enum VkOpacityMicromapFormatEXT { VK_OPACITY_MICROMAP_FORMAT_2_STATE_EXT = 1, VK_OPACITY_MICROMAP_FORMAT_4_STATE_EXT = 2, VK_OPACITY_MICROMAP_FORMAT_MAX_ENUM_EXT = 0x7FFFFFFF } VkOpacityMicromapFormatEXT; typedef enum VkOpacityMicromapSpecialIndexEXT { VK_OPACITY_MICROMAP_SPECIAL_INDEX_FULLY_TRANSPARENT_EXT = -1, VK_OPACITY_MICROMAP_SPECIAL_INDEX_FULLY_OPAQUE_EXT = -2, VK_OPACITY_MICROMAP_SPECIAL_INDEX_FULLY_UNKNOWN_TRANSPARENT_EXT = -3, VK_OPACITY_MICROMAP_SPECIAL_INDEX_FULLY_UNKNOWN_OPAQUE_EXT = -4, VK_OPACITY_MICROMAP_SPECIAL_INDEX_MAX_ENUM_EXT = 0x7FFFFFFF } VkOpacityMicromapSpecialIndexEXT; typedef enum VkAccelerationStructureCompatibilityKHR { VK_ACCELERATION_STRUCTURE_COMPATIBILITY_COMPATIBLE_KHR = 0, VK_ACCELERATION_STRUCTURE_COMPATIBILITY_INCOMPATIBLE_KHR = 1, VK_ACCELERATION_STRUCTURE_COMPATIBILITY_MAX_ENUM_KHR = 0x7FFFFFFF } VkAccelerationStructureCompatibilityKHR; typedef enum VkAccelerationStructureBuildTypeKHR { VK_ACCELERATION_STRUCTURE_BUILD_TYPE_HOST_KHR = 0, VK_ACCELERATION_STRUCTURE_BUILD_TYPE_DEVICE_KHR = 1, VK_ACCELERATION_STRUCTURE_BUILD_TYPE_HOST_OR_DEVICE_KHR = 2, VK_ACCELERATION_STRUCTURE_BUILD_TYPE_MAX_ENUM_KHR = 0x7FFFFFFF } VkAccelerationStructureBuildTypeKHR; typedef enum VkBuildMicromapFlagBitsEXT { VK_BUILD_MICROMAP_PREFER_FAST_TRACE_BIT_EXT = 0x00000001, VK_BUILD_MICROMAP_PREFER_FAST_BUILD_BIT_EXT = 0x00000002, VK_BUILD_MICROMAP_ALLOW_COMPACTION_BIT_EXT = 0x00000004, VK_BUILD_MICROMAP_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkBuildMicromapFlagBitsEXT; typedef VkFlags VkBuildMicromapFlagsEXT; typedef enum VkMicromapCreateFlagBitsEXT { VK_MICROMAP_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT_EXT = 0x00000001, VK_MICROMAP_CREATE_FLAG_BITS_MAX_ENUM_EXT = 0x7FFFFFFF } VkMicromapCreateFlagBitsEXT; typedef VkFlags VkMicromapCreateFlagsEXT; typedef struct VkMicromapUsageEXT { uint32_t count; uint32_t subdivisionLevel; uint32_t format; } VkMicromapUsageEXT; typedef union VkDeviceOrHostAddressKHR { VkDeviceAddress deviceAddress; void* hostAddress; } VkDeviceOrHostAddressKHR; typedef struct VkMicromapBuildInfoEXT { VkStructureType sType; const void* pNext; VkMicromapTypeEXT type; VkBuildMicromapFlagsEXT flags; VkBuildMicromapModeEXT mode; VkMicromapEXT dstMicromap; uint32_t usageCountsCount; const VkMicromapUsageEXT* pUsageCounts; const VkMicromapUsageEXT* const* ppUsageCounts; VkDeviceOrHostAddressConstKHR data; VkDeviceOrHostAddressKHR scratchData; VkDeviceOrHostAddressConstKHR triangleArray; VkDeviceSize triangleArrayStride; } VkMicromapBuildInfoEXT; typedef struct VkMicromapCreateInfoEXT { VkStructureType sType; const void* pNext; VkMicromapCreateFlagsEXT createFlags; VkBuffer buffer; VkDeviceSize offset; VkDeviceSize size; VkMicromapTypeEXT type; VkDeviceAddress deviceAddress; } VkMicromapCreateInfoEXT; typedef struct VkPhysicalDeviceOpacityMicromapFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 micromap; VkBool32 micromapCaptureReplay; VkBool32 micromapHostCommands; } VkPhysicalDeviceOpacityMicromapFeaturesEXT; typedef struct VkPhysicalDeviceOpacityMicromapPropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxOpacity2StateSubdivisionLevel; uint32_t maxOpacity4StateSubdivisionLevel; } VkPhysicalDeviceOpacityMicromapPropertiesEXT; typedef struct VkMicromapVersionInfoEXT { VkStructureType sType; const void* pNext; const uint8_t* pVersionData; } VkMicromapVersionInfoEXT; typedef struct VkCopyMicromapToMemoryInfoEXT { VkStructureType sType; const void* pNext; VkMicromapEXT src; VkDeviceOrHostAddressKHR dst; VkCopyMicromapModeEXT mode; } VkCopyMicromapToMemoryInfoEXT; typedef struct VkCopyMemoryToMicromapInfoEXT { VkStructureType sType; const void* pNext; VkDeviceOrHostAddressConstKHR src; VkMicromapEXT dst; VkCopyMicromapModeEXT mode; } VkCopyMemoryToMicromapInfoEXT; typedef struct VkCopyMicromapInfoEXT { VkStructureType sType; const void* pNext; VkMicromapEXT src; VkMicromapEXT dst; VkCopyMicromapModeEXT mode; } VkCopyMicromapInfoEXT; typedef struct VkMicromapBuildSizesInfoEXT { VkStructureType sType; const void* pNext; VkDeviceSize micromapSize; VkDeviceSize buildScratchSize; VkBool32 discardable; } VkMicromapBuildSizesInfoEXT; typedef struct VkAccelerationStructureTrianglesOpacityMicromapEXT { VkStructureType sType; void* pNext; VkIndexType indexType; VkDeviceOrHostAddressConstKHR indexBuffer; VkDeviceSize indexStride; uint32_t baseTriangle; uint32_t usageCountsCount; const VkMicromapUsageEXT* pUsageCounts; const VkMicromapUsageEXT* const* ppUsageCounts; VkMicromapEXT micromap; } VkAccelerationStructureTrianglesOpacityMicromapEXT; typedef struct VkMicromapTriangleEXT { uint32_t dataOffset; uint16_t subdivisionLevel; uint16_t format; } VkMicromapTriangleEXT; typedef VkResult (VKAPI_PTR *PFN_vkCreateMicromapEXT)(VkDevice device, const VkMicromapCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkMicromapEXT* pMicromap); typedef void (VKAPI_PTR *PFN_vkDestroyMicromapEXT)(VkDevice device, VkMicromapEXT micromap, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkCmdBuildMicromapsEXT)(VkCommandBuffer commandBuffer, uint32_t infoCount, const VkMicromapBuildInfoEXT* pInfos); typedef VkResult (VKAPI_PTR *PFN_vkBuildMicromapsEXT)(VkDevice device, VkDeferredOperationKHR deferredOperation, uint32_t infoCount, const VkMicromapBuildInfoEXT* pInfos); typedef VkResult (VKAPI_PTR *PFN_vkCopyMicromapEXT)(VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMicromapInfoEXT* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkCopyMicromapToMemoryEXT)(VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMicromapToMemoryInfoEXT* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkCopyMemoryToMicromapEXT)(VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMemoryToMicromapInfoEXT* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkWriteMicromapsPropertiesEXT)(VkDevice device, uint32_t micromapCount, const VkMicromapEXT* pMicromaps, VkQueryType queryType, size_t dataSize, void* pData, size_t stride); typedef void (VKAPI_PTR *PFN_vkCmdCopyMicromapEXT)(VkCommandBuffer commandBuffer, const VkCopyMicromapInfoEXT* pInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyMicromapToMemoryEXT)(VkCommandBuffer commandBuffer, const VkCopyMicromapToMemoryInfoEXT* pInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyMemoryToMicromapEXT)(VkCommandBuffer commandBuffer, const VkCopyMemoryToMicromapInfoEXT* pInfo); typedef void (VKAPI_PTR *PFN_vkCmdWriteMicromapsPropertiesEXT)(VkCommandBuffer commandBuffer, uint32_t micromapCount, const VkMicromapEXT* pMicromaps, VkQueryType queryType, VkQueryPool queryPool, uint32_t firstQuery); typedef void (VKAPI_PTR *PFN_vkGetDeviceMicromapCompatibilityEXT)(VkDevice device, const VkMicromapVersionInfoEXT* pVersionInfo, VkAccelerationStructureCompatibilityKHR* pCompatibility); typedef void (VKAPI_PTR *PFN_vkGetMicromapBuildSizesEXT)(VkDevice device, VkAccelerationStructureBuildTypeKHR buildType, const VkMicromapBuildInfoEXT* pBuildInfo, VkMicromapBuildSizesInfoEXT* pSizeInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateMicromapEXT( VkDevice device, const VkMicromapCreateInfoEXT* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkMicromapEXT* pMicromap); VKAPI_ATTR void VKAPI_CALL vkDestroyMicromapEXT( VkDevice device, VkMicromapEXT micromap, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkCmdBuildMicromapsEXT( VkCommandBuffer commandBuffer, uint32_t infoCount, const VkMicromapBuildInfoEXT* pInfos); VKAPI_ATTR VkResult VKAPI_CALL vkBuildMicromapsEXT( VkDevice device, VkDeferredOperationKHR deferredOperation, uint32_t infoCount, const VkMicromapBuildInfoEXT* pInfos); VKAPI_ATTR VkResult VKAPI_CALL vkCopyMicromapEXT( VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMicromapInfoEXT* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCopyMicromapToMemoryEXT( VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMicromapToMemoryInfoEXT* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCopyMemoryToMicromapEXT( VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMemoryToMicromapInfoEXT* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkWriteMicromapsPropertiesEXT( VkDevice device, uint32_t micromapCount, const VkMicromapEXT* pMicromaps, VkQueryType queryType, size_t dataSize, void* pData, size_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdCopyMicromapEXT( VkCommandBuffer commandBuffer, const VkCopyMicromapInfoEXT* pInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyMicromapToMemoryEXT( VkCommandBuffer commandBuffer, const VkCopyMicromapToMemoryInfoEXT* pInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyMemoryToMicromapEXT( VkCommandBuffer commandBuffer, const VkCopyMemoryToMicromapInfoEXT* pInfo); VKAPI_ATTR void VKAPI_CALL vkCmdWriteMicromapsPropertiesEXT( VkCommandBuffer commandBuffer, uint32_t micromapCount, const VkMicromapEXT* pMicromaps, VkQueryType queryType, VkQueryPool queryPool, uint32_t firstQuery); VKAPI_ATTR void VKAPI_CALL vkGetDeviceMicromapCompatibilityEXT( VkDevice device, const VkMicromapVersionInfoEXT* pVersionInfo, VkAccelerationStructureCompatibilityKHR* pCompatibility); VKAPI_ATTR void VKAPI_CALL vkGetMicromapBuildSizesEXT( VkDevice device, VkAccelerationStructureBuildTypeKHR buildType, const VkMicromapBuildInfoEXT* pBuildInfo, VkMicromapBuildSizesInfoEXT* pSizeInfo); #endif #define VK_EXT_load_store_op_none 1 #define VK_EXT_LOAD_STORE_OP_NONE_SPEC_VERSION 1 #define VK_EXT_LOAD_STORE_OP_NONE_EXTENSION_NAME "VK_EXT_load_store_op_none" #define VK_EXT_border_color_swizzle 1 #define VK_EXT_BORDER_COLOR_SWIZZLE_SPEC_VERSION 1 #define VK_EXT_BORDER_COLOR_SWIZZLE_EXTENSION_NAME "VK_EXT_border_color_swizzle" typedef struct VkPhysicalDeviceBorderColorSwizzleFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 borderColorSwizzle; VkBool32 borderColorSwizzleFromImage; } VkPhysicalDeviceBorderColorSwizzleFeaturesEXT; typedef struct VkSamplerBorderColorComponentMappingCreateInfoEXT { VkStructureType sType; const void* pNext; VkComponentMapping components; VkBool32 srgb; } VkSamplerBorderColorComponentMappingCreateInfoEXT; #define VK_EXT_pageable_device_local_memory 1 #define VK_EXT_PAGEABLE_DEVICE_LOCAL_MEMORY_SPEC_VERSION 1 #define VK_EXT_PAGEABLE_DEVICE_LOCAL_MEMORY_EXTENSION_NAME "VK_EXT_pageable_device_local_memory" typedef struct VkPhysicalDevicePageableDeviceLocalMemoryFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 pageableDeviceLocalMemory; } VkPhysicalDevicePageableDeviceLocalMemoryFeaturesEXT; typedef void (VKAPI_PTR *PFN_vkSetDeviceMemoryPriorityEXT)(VkDevice device, VkDeviceMemory memory, float priority); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkSetDeviceMemoryPriorityEXT( VkDevice device, VkDeviceMemory memory, float priority); #endif #define VK_VALVE_descriptor_set_host_mapping 1 #define VK_VALVE_DESCRIPTOR_SET_HOST_MAPPING_SPEC_VERSION 1 #define VK_VALVE_DESCRIPTOR_SET_HOST_MAPPING_EXTENSION_NAME "VK_VALVE_descriptor_set_host_mapping" typedef struct VkPhysicalDeviceDescriptorSetHostMappingFeaturesVALVE { VkStructureType sType; void* pNext; VkBool32 descriptorSetHostMapping; } VkPhysicalDeviceDescriptorSetHostMappingFeaturesVALVE; typedef struct VkDescriptorSetBindingReferenceVALVE { VkStructureType sType; const void* pNext; VkDescriptorSetLayout descriptorSetLayout; uint32_t binding; } VkDescriptorSetBindingReferenceVALVE; typedef struct VkDescriptorSetLayoutHostMappingInfoVALVE { VkStructureType sType; void* pNext; size_t descriptorOffset; uint32_t descriptorSize; } VkDescriptorSetLayoutHostMappingInfoVALVE; typedef void (VKAPI_PTR *PFN_vkGetDescriptorSetLayoutHostMappingInfoVALVE)(VkDevice device, const VkDescriptorSetBindingReferenceVALVE* pBindingReference, VkDescriptorSetLayoutHostMappingInfoVALVE* pHostMapping); typedef void (VKAPI_PTR *PFN_vkGetDescriptorSetHostMappingVALVE)(VkDevice device, VkDescriptorSet descriptorSet, void** ppData); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetDescriptorSetLayoutHostMappingInfoVALVE( VkDevice device, const VkDescriptorSetBindingReferenceVALVE* pBindingReference, VkDescriptorSetLayoutHostMappingInfoVALVE* pHostMapping); VKAPI_ATTR void VKAPI_CALL vkGetDescriptorSetHostMappingVALVE( VkDevice device, VkDescriptorSet descriptorSet, void** ppData); #endif #define VK_EXT_depth_clamp_zero_one 1 #define VK_EXT_DEPTH_CLAMP_ZERO_ONE_SPEC_VERSION 1 #define VK_EXT_DEPTH_CLAMP_ZERO_ONE_EXTENSION_NAME "VK_EXT_depth_clamp_zero_one" typedef struct VkPhysicalDeviceDepthClampZeroOneFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 depthClampZeroOne; } VkPhysicalDeviceDepthClampZeroOneFeaturesEXT; #define VK_EXT_non_seamless_cube_map 1 #define VK_EXT_NON_SEAMLESS_CUBE_MAP_SPEC_VERSION 1 #define VK_EXT_NON_SEAMLESS_CUBE_MAP_EXTENSION_NAME "VK_EXT_non_seamless_cube_map" typedef struct VkPhysicalDeviceNonSeamlessCubeMapFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 nonSeamlessCubeMap; } VkPhysicalDeviceNonSeamlessCubeMapFeaturesEXT; #define VK_QCOM_fragment_density_map_offset 1 #define VK_QCOM_FRAGMENT_DENSITY_MAP_OFFSET_SPEC_VERSION 1 #define VK_QCOM_FRAGMENT_DENSITY_MAP_OFFSET_EXTENSION_NAME "VK_QCOM_fragment_density_map_offset" typedef struct VkPhysicalDeviceFragmentDensityMapOffsetFeaturesQCOM { VkStructureType sType; void* pNext; VkBool32 fragmentDensityMapOffset; } VkPhysicalDeviceFragmentDensityMapOffsetFeaturesQCOM; typedef struct VkPhysicalDeviceFragmentDensityMapOffsetPropertiesQCOM { VkStructureType sType; void* pNext; VkExtent2D fragmentDensityOffsetGranularity; } VkPhysicalDeviceFragmentDensityMapOffsetPropertiesQCOM; typedef struct VkSubpassFragmentDensityMapOffsetEndInfoQCOM { VkStructureType sType; const void* pNext; uint32_t fragmentDensityOffsetCount; const VkOffset2D* pFragmentDensityOffsets; } VkSubpassFragmentDensityMapOffsetEndInfoQCOM; #define VK_NV_linear_color_attachment 1 #define VK_NV_LINEAR_COLOR_ATTACHMENT_SPEC_VERSION 1 #define VK_NV_LINEAR_COLOR_ATTACHMENT_EXTENSION_NAME "VK_NV_linear_color_attachment" typedef struct VkPhysicalDeviceLinearColorAttachmentFeaturesNV { VkStructureType sType; void* pNext; VkBool32 linearColorAttachment; } VkPhysicalDeviceLinearColorAttachmentFeaturesNV; #define VK_GOOGLE_surfaceless_query 1 #define VK_GOOGLE_SURFACELESS_QUERY_SPEC_VERSION 2 #define VK_GOOGLE_SURFACELESS_QUERY_EXTENSION_NAME "VK_GOOGLE_surfaceless_query" #define VK_EXT_image_compression_control_swapchain 1 #define VK_EXT_IMAGE_COMPRESSION_CONTROL_SWAPCHAIN_SPEC_VERSION 1 #define VK_EXT_IMAGE_COMPRESSION_CONTROL_SWAPCHAIN_EXTENSION_NAME "VK_EXT_image_compression_control_swapchain" typedef struct VkPhysicalDeviceImageCompressionControlSwapchainFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 imageCompressionControlSwapchain; } VkPhysicalDeviceImageCompressionControlSwapchainFeaturesEXT; #define VK_QCOM_image_processing 1 #define VK_QCOM_IMAGE_PROCESSING_SPEC_VERSION 1 #define VK_QCOM_IMAGE_PROCESSING_EXTENSION_NAME "VK_QCOM_image_processing" typedef struct VkImageViewSampleWeightCreateInfoQCOM { VkStructureType sType; const void* pNext; VkOffset2D filterCenter; VkExtent2D filterSize; uint32_t numPhases; } VkImageViewSampleWeightCreateInfoQCOM; typedef struct VkPhysicalDeviceImageProcessingFeaturesQCOM { VkStructureType sType; void* pNext; VkBool32 textureSampleWeighted; VkBool32 textureBoxFilter; VkBool32 textureBlockMatch; } VkPhysicalDeviceImageProcessingFeaturesQCOM; typedef struct VkPhysicalDeviceImageProcessingPropertiesQCOM { VkStructureType sType; void* pNext; uint32_t maxWeightFilterPhases; VkExtent2D maxWeightFilterDimension; VkExtent2D maxBlockMatchRegion; VkExtent2D maxBoxFilterBlockSize; } VkPhysicalDeviceImageProcessingPropertiesQCOM; #define VK_EXT_extended_dynamic_state3 1 #define VK_EXT_EXTENDED_DYNAMIC_STATE_3_SPEC_VERSION 2 #define VK_EXT_EXTENDED_DYNAMIC_STATE_3_EXTENSION_NAME "VK_EXT_extended_dynamic_state3" typedef struct VkPhysicalDeviceExtendedDynamicState3FeaturesEXT { VkStructureType sType; void* pNext; VkBool32 extendedDynamicState3TessellationDomainOrigin; VkBool32 extendedDynamicState3DepthClampEnable; VkBool32 extendedDynamicState3PolygonMode; VkBool32 extendedDynamicState3RasterizationSamples; VkBool32 extendedDynamicState3SampleMask; VkBool32 extendedDynamicState3AlphaToCoverageEnable; VkBool32 extendedDynamicState3AlphaToOneEnable; VkBool32 extendedDynamicState3LogicOpEnable; VkBool32 extendedDynamicState3ColorBlendEnable; VkBool32 extendedDynamicState3ColorBlendEquation; VkBool32 extendedDynamicState3ColorWriteMask; VkBool32 extendedDynamicState3RasterizationStream; VkBool32 extendedDynamicState3ConservativeRasterizationMode; VkBool32 extendedDynamicState3ExtraPrimitiveOverestimationSize; VkBool32 extendedDynamicState3DepthClipEnable; VkBool32 extendedDynamicState3SampleLocationsEnable; VkBool32 extendedDynamicState3ColorBlendAdvanced; VkBool32 extendedDynamicState3ProvokingVertexMode; VkBool32 extendedDynamicState3LineRasterizationMode; VkBool32 extendedDynamicState3LineStippleEnable; VkBool32 extendedDynamicState3DepthClipNegativeOneToOne; VkBool32 extendedDynamicState3ViewportWScalingEnable; VkBool32 extendedDynamicState3ViewportSwizzle; VkBool32 extendedDynamicState3CoverageToColorEnable; VkBool32 extendedDynamicState3CoverageToColorLocation; VkBool32 extendedDynamicState3CoverageModulationMode; VkBool32 extendedDynamicState3CoverageModulationTableEnable; VkBool32 extendedDynamicState3CoverageModulationTable; VkBool32 extendedDynamicState3CoverageReductionMode; VkBool32 extendedDynamicState3RepresentativeFragmentTestEnable; VkBool32 extendedDynamicState3ShadingRateImageEnable; } VkPhysicalDeviceExtendedDynamicState3FeaturesEXT; typedef struct VkPhysicalDeviceExtendedDynamicState3PropertiesEXT { VkStructureType sType; void* pNext; VkBool32 dynamicPrimitiveTopologyUnrestricted; } VkPhysicalDeviceExtendedDynamicState3PropertiesEXT; typedef struct VkColorBlendEquationEXT { VkBlendFactor srcColorBlendFactor; VkBlendFactor dstColorBlendFactor; VkBlendOp colorBlendOp; VkBlendFactor srcAlphaBlendFactor; VkBlendFactor dstAlphaBlendFactor; VkBlendOp alphaBlendOp; } VkColorBlendEquationEXT; typedef struct VkColorBlendAdvancedEXT { VkBlendOp advancedBlendOp; VkBool32 srcPremultiplied; VkBool32 dstPremultiplied; VkBlendOverlapEXT blendOverlap; VkBool32 clampResults; } VkColorBlendAdvancedEXT; typedef void (VKAPI_PTR *PFN_vkCmdSetTessellationDomainOriginEXT)(VkCommandBuffer commandBuffer, VkTessellationDomainOrigin domainOrigin); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthClampEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 depthClampEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetPolygonModeEXT)(VkCommandBuffer commandBuffer, VkPolygonMode polygonMode); typedef void (VKAPI_PTR *PFN_vkCmdSetRasterizationSamplesEXT)(VkCommandBuffer commandBuffer, VkSampleCountFlagBits rasterizationSamples); typedef void (VKAPI_PTR *PFN_vkCmdSetSampleMaskEXT)(VkCommandBuffer commandBuffer, VkSampleCountFlagBits samples, const VkSampleMask* pSampleMask); typedef void (VKAPI_PTR *PFN_vkCmdSetAlphaToCoverageEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 alphaToCoverageEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetAlphaToOneEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 alphaToOneEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetLogicOpEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 logicOpEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetColorBlendEnableEXT)(VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkBool32* pColorBlendEnables); typedef void (VKAPI_PTR *PFN_vkCmdSetColorBlendEquationEXT)(VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkColorBlendEquationEXT* pColorBlendEquations); typedef void (VKAPI_PTR *PFN_vkCmdSetColorWriteMaskEXT)(VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkColorComponentFlags* pColorWriteMasks); typedef void (VKAPI_PTR *PFN_vkCmdSetRasterizationStreamEXT)(VkCommandBuffer commandBuffer, uint32_t rasterizationStream); typedef void (VKAPI_PTR *PFN_vkCmdSetConservativeRasterizationModeEXT)(VkCommandBuffer commandBuffer, VkConservativeRasterizationModeEXT conservativeRasterizationMode); typedef void (VKAPI_PTR *PFN_vkCmdSetExtraPrimitiveOverestimationSizeEXT)(VkCommandBuffer commandBuffer, float extraPrimitiveOverestimationSize); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthClipEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 depthClipEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetSampleLocationsEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 sampleLocationsEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetColorBlendAdvancedEXT)(VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkColorBlendAdvancedEXT* pColorBlendAdvanced); typedef void (VKAPI_PTR *PFN_vkCmdSetProvokingVertexModeEXT)(VkCommandBuffer commandBuffer, VkProvokingVertexModeEXT provokingVertexMode); typedef void (VKAPI_PTR *PFN_vkCmdSetLineRasterizationModeEXT)(VkCommandBuffer commandBuffer, VkLineRasterizationModeEXT lineRasterizationMode); typedef void (VKAPI_PTR *PFN_vkCmdSetLineStippleEnableEXT)(VkCommandBuffer commandBuffer, VkBool32 stippledLineEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetDepthClipNegativeOneToOneEXT)(VkCommandBuffer commandBuffer, VkBool32 negativeOneToOne); typedef void (VKAPI_PTR *PFN_vkCmdSetViewportWScalingEnableNV)(VkCommandBuffer commandBuffer, VkBool32 viewportWScalingEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetViewportSwizzleNV)(VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewportSwizzleNV* pViewportSwizzles); typedef void (VKAPI_PTR *PFN_vkCmdSetCoverageToColorEnableNV)(VkCommandBuffer commandBuffer, VkBool32 coverageToColorEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetCoverageToColorLocationNV)(VkCommandBuffer commandBuffer, uint32_t coverageToColorLocation); typedef void (VKAPI_PTR *PFN_vkCmdSetCoverageModulationModeNV)(VkCommandBuffer commandBuffer, VkCoverageModulationModeNV coverageModulationMode); typedef void (VKAPI_PTR *PFN_vkCmdSetCoverageModulationTableEnableNV)(VkCommandBuffer commandBuffer, VkBool32 coverageModulationTableEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetCoverageModulationTableNV)(VkCommandBuffer commandBuffer, uint32_t coverageModulationTableCount, const float* pCoverageModulationTable); typedef void (VKAPI_PTR *PFN_vkCmdSetShadingRateImageEnableNV)(VkCommandBuffer commandBuffer, VkBool32 shadingRateImageEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetRepresentativeFragmentTestEnableNV)(VkCommandBuffer commandBuffer, VkBool32 representativeFragmentTestEnable); typedef void (VKAPI_PTR *PFN_vkCmdSetCoverageReductionModeNV)(VkCommandBuffer commandBuffer, VkCoverageReductionModeNV coverageReductionMode); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdSetTessellationDomainOriginEXT( VkCommandBuffer commandBuffer, VkTessellationDomainOrigin domainOrigin); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthClampEnableEXT( VkCommandBuffer commandBuffer, VkBool32 depthClampEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetPolygonModeEXT( VkCommandBuffer commandBuffer, VkPolygonMode polygonMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetRasterizationSamplesEXT( VkCommandBuffer commandBuffer, VkSampleCountFlagBits rasterizationSamples); VKAPI_ATTR void VKAPI_CALL vkCmdSetSampleMaskEXT( VkCommandBuffer commandBuffer, VkSampleCountFlagBits samples, const VkSampleMask* pSampleMask); VKAPI_ATTR void VKAPI_CALL vkCmdSetAlphaToCoverageEnableEXT( VkCommandBuffer commandBuffer, VkBool32 alphaToCoverageEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetAlphaToOneEnableEXT( VkCommandBuffer commandBuffer, VkBool32 alphaToOneEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetLogicOpEnableEXT( VkCommandBuffer commandBuffer, VkBool32 logicOpEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetColorBlendEnableEXT( VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkBool32* pColorBlendEnables); VKAPI_ATTR void VKAPI_CALL vkCmdSetColorBlendEquationEXT( VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkColorBlendEquationEXT* pColorBlendEquations); VKAPI_ATTR void VKAPI_CALL vkCmdSetColorWriteMaskEXT( VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkColorComponentFlags* pColorWriteMasks); VKAPI_ATTR void VKAPI_CALL vkCmdSetRasterizationStreamEXT( VkCommandBuffer commandBuffer, uint32_t rasterizationStream); VKAPI_ATTR void VKAPI_CALL vkCmdSetConservativeRasterizationModeEXT( VkCommandBuffer commandBuffer, VkConservativeRasterizationModeEXT conservativeRasterizationMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetExtraPrimitiveOverestimationSizeEXT( VkCommandBuffer commandBuffer, float extraPrimitiveOverestimationSize); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthClipEnableEXT( VkCommandBuffer commandBuffer, VkBool32 depthClipEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetSampleLocationsEnableEXT( VkCommandBuffer commandBuffer, VkBool32 sampleLocationsEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetColorBlendAdvancedEXT( VkCommandBuffer commandBuffer, uint32_t firstAttachment, uint32_t attachmentCount, const VkColorBlendAdvancedEXT* pColorBlendAdvanced); VKAPI_ATTR void VKAPI_CALL vkCmdSetProvokingVertexModeEXT( VkCommandBuffer commandBuffer, VkProvokingVertexModeEXT provokingVertexMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetLineRasterizationModeEXT( VkCommandBuffer commandBuffer, VkLineRasterizationModeEXT lineRasterizationMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetLineStippleEnableEXT( VkCommandBuffer commandBuffer, VkBool32 stippledLineEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetDepthClipNegativeOneToOneEXT( VkCommandBuffer commandBuffer, VkBool32 negativeOneToOne); VKAPI_ATTR void VKAPI_CALL vkCmdSetViewportWScalingEnableNV( VkCommandBuffer commandBuffer, VkBool32 viewportWScalingEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetViewportSwizzleNV( VkCommandBuffer commandBuffer, uint32_t firstViewport, uint32_t viewportCount, const VkViewportSwizzleNV* pViewportSwizzles); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoverageToColorEnableNV( VkCommandBuffer commandBuffer, VkBool32 coverageToColorEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoverageToColorLocationNV( VkCommandBuffer commandBuffer, uint32_t coverageToColorLocation); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoverageModulationModeNV( VkCommandBuffer commandBuffer, VkCoverageModulationModeNV coverageModulationMode); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoverageModulationTableEnableNV( VkCommandBuffer commandBuffer, VkBool32 coverageModulationTableEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoverageModulationTableNV( VkCommandBuffer commandBuffer, uint32_t coverageModulationTableCount, const float* pCoverageModulationTable); VKAPI_ATTR void VKAPI_CALL vkCmdSetShadingRateImageEnableNV( VkCommandBuffer commandBuffer, VkBool32 shadingRateImageEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetRepresentativeFragmentTestEnableNV( VkCommandBuffer commandBuffer, VkBool32 representativeFragmentTestEnable); VKAPI_ATTR void VKAPI_CALL vkCmdSetCoverageReductionModeNV( VkCommandBuffer commandBuffer, VkCoverageReductionModeNV coverageReductionMode); #endif #define VK_EXT_subpass_merge_feedback 1 #define VK_EXT_SUBPASS_MERGE_FEEDBACK_SPEC_VERSION 2 #define VK_EXT_SUBPASS_MERGE_FEEDBACK_EXTENSION_NAME "VK_EXT_subpass_merge_feedback" typedef enum VkSubpassMergeStatusEXT { VK_SUBPASS_MERGE_STATUS_MERGED_EXT = 0, VK_SUBPASS_MERGE_STATUS_DISALLOWED_EXT = 1, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_SIDE_EFFECTS_EXT = 2, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_SAMPLES_MISMATCH_EXT = 3, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_VIEWS_MISMATCH_EXT = 4, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_ALIASING_EXT = 5, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_DEPENDENCIES_EXT = 6, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_INCOMPATIBLE_INPUT_ATTACHMENT_EXT = 7, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_TOO_MANY_ATTACHMENTS_EXT = 8, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_INSUFFICIENT_STORAGE_EXT = 9, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_DEPTH_STENCIL_COUNT_EXT = 10, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_RESOLVE_ATTACHMENT_REUSE_EXT = 11, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_SINGLE_SUBPASS_EXT = 12, VK_SUBPASS_MERGE_STATUS_NOT_MERGED_UNSPECIFIED_EXT = 13, VK_SUBPASS_MERGE_STATUS_MAX_ENUM_EXT = 0x7FFFFFFF } VkSubpassMergeStatusEXT; typedef struct VkPhysicalDeviceSubpassMergeFeedbackFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 subpassMergeFeedback; } VkPhysicalDeviceSubpassMergeFeedbackFeaturesEXT; typedef struct VkRenderPassCreationControlEXT { VkStructureType sType; const void* pNext; VkBool32 disallowMerging; } VkRenderPassCreationControlEXT; typedef struct VkRenderPassCreationFeedbackInfoEXT { uint32_t postMergeSubpassCount; } VkRenderPassCreationFeedbackInfoEXT; typedef struct VkRenderPassCreationFeedbackCreateInfoEXT { VkStructureType sType; const void* pNext; VkRenderPassCreationFeedbackInfoEXT* pRenderPassFeedback; } VkRenderPassCreationFeedbackCreateInfoEXT; typedef struct VkRenderPassSubpassFeedbackInfoEXT { VkSubpassMergeStatusEXT subpassMergeStatus; char description[VK_MAX_DESCRIPTION_SIZE]; uint32_t postMergeIndex; } VkRenderPassSubpassFeedbackInfoEXT; typedef struct VkRenderPassSubpassFeedbackCreateInfoEXT { VkStructureType sType; const void* pNext; VkRenderPassSubpassFeedbackInfoEXT* pSubpassFeedback; } VkRenderPassSubpassFeedbackCreateInfoEXT; #define VK_EXT_shader_module_identifier 1 #define VK_MAX_SHADER_MODULE_IDENTIFIER_SIZE_EXT 32U #define VK_EXT_SHADER_MODULE_IDENTIFIER_SPEC_VERSION 1 #define VK_EXT_SHADER_MODULE_IDENTIFIER_EXTENSION_NAME "VK_EXT_shader_module_identifier" typedef struct VkPhysicalDeviceShaderModuleIdentifierFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 shaderModuleIdentifier; } VkPhysicalDeviceShaderModuleIdentifierFeaturesEXT; typedef struct VkPhysicalDeviceShaderModuleIdentifierPropertiesEXT { VkStructureType sType; void* pNext; uint8_t shaderModuleIdentifierAlgorithmUUID[VK_UUID_SIZE]; } VkPhysicalDeviceShaderModuleIdentifierPropertiesEXT; typedef struct VkPipelineShaderStageModuleIdentifierCreateInfoEXT { VkStructureType sType; const void* pNext; uint32_t identifierSize; const uint8_t* pIdentifier; } VkPipelineShaderStageModuleIdentifierCreateInfoEXT; typedef struct VkShaderModuleIdentifierEXT { VkStructureType sType; void* pNext; uint32_t identifierSize; uint8_t identifier[VK_MAX_SHADER_MODULE_IDENTIFIER_SIZE_EXT]; } VkShaderModuleIdentifierEXT; typedef void (VKAPI_PTR *PFN_vkGetShaderModuleIdentifierEXT)(VkDevice device, VkShaderModule shaderModule, VkShaderModuleIdentifierEXT* pIdentifier); typedef void (VKAPI_PTR *PFN_vkGetShaderModuleCreateInfoIdentifierEXT)(VkDevice device, const VkShaderModuleCreateInfo* pCreateInfo, VkShaderModuleIdentifierEXT* pIdentifier); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkGetShaderModuleIdentifierEXT( VkDevice device, VkShaderModule shaderModule, VkShaderModuleIdentifierEXT* pIdentifier); VKAPI_ATTR void VKAPI_CALL vkGetShaderModuleCreateInfoIdentifierEXT( VkDevice device, const VkShaderModuleCreateInfo* pCreateInfo, VkShaderModuleIdentifierEXT* pIdentifier); #endif #define VK_EXT_rasterization_order_attachment_access 1 #define VK_EXT_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_SPEC_VERSION 1 #define VK_EXT_RASTERIZATION_ORDER_ATTACHMENT_ACCESS_EXTENSION_NAME "VK_EXT_rasterization_order_attachment_access" #define VK_NV_optical_flow 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkOpticalFlowSessionNV) #define VK_NV_OPTICAL_FLOW_SPEC_VERSION 1 #define VK_NV_OPTICAL_FLOW_EXTENSION_NAME "VK_NV_optical_flow" typedef enum VkOpticalFlowPerformanceLevelNV { VK_OPTICAL_FLOW_PERFORMANCE_LEVEL_UNKNOWN_NV = 0, VK_OPTICAL_FLOW_PERFORMANCE_LEVEL_SLOW_NV = 1, VK_OPTICAL_FLOW_PERFORMANCE_LEVEL_MEDIUM_NV = 2, VK_OPTICAL_FLOW_PERFORMANCE_LEVEL_FAST_NV = 3, VK_OPTICAL_FLOW_PERFORMANCE_LEVEL_MAX_ENUM_NV = 0x7FFFFFFF } VkOpticalFlowPerformanceLevelNV; typedef enum VkOpticalFlowSessionBindingPointNV { VK_OPTICAL_FLOW_SESSION_BINDING_POINT_UNKNOWN_NV = 0, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_INPUT_NV = 1, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_REFERENCE_NV = 2, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_HINT_NV = 3, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_FLOW_VECTOR_NV = 4, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_BACKWARD_FLOW_VECTOR_NV = 5, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_COST_NV = 6, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_BACKWARD_COST_NV = 7, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_GLOBAL_FLOW_NV = 8, VK_OPTICAL_FLOW_SESSION_BINDING_POINT_MAX_ENUM_NV = 0x7FFFFFFF } VkOpticalFlowSessionBindingPointNV; typedef enum VkOpticalFlowGridSizeFlagBitsNV { VK_OPTICAL_FLOW_GRID_SIZE_UNKNOWN_NV = 0, VK_OPTICAL_FLOW_GRID_SIZE_1X1_BIT_NV = 0x00000001, VK_OPTICAL_FLOW_GRID_SIZE_2X2_BIT_NV = 0x00000002, VK_OPTICAL_FLOW_GRID_SIZE_4X4_BIT_NV = 0x00000004, VK_OPTICAL_FLOW_GRID_SIZE_8X8_BIT_NV = 0x00000008, VK_OPTICAL_FLOW_GRID_SIZE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkOpticalFlowGridSizeFlagBitsNV; typedef VkFlags VkOpticalFlowGridSizeFlagsNV; typedef enum VkOpticalFlowUsageFlagBitsNV { VK_OPTICAL_FLOW_USAGE_UNKNOWN_NV = 0, VK_OPTICAL_FLOW_USAGE_INPUT_BIT_NV = 0x00000001, VK_OPTICAL_FLOW_USAGE_OUTPUT_BIT_NV = 0x00000002, VK_OPTICAL_FLOW_USAGE_HINT_BIT_NV = 0x00000004, VK_OPTICAL_FLOW_USAGE_COST_BIT_NV = 0x00000008, VK_OPTICAL_FLOW_USAGE_GLOBAL_FLOW_BIT_NV = 0x00000010, VK_OPTICAL_FLOW_USAGE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkOpticalFlowUsageFlagBitsNV; typedef VkFlags VkOpticalFlowUsageFlagsNV; typedef enum VkOpticalFlowSessionCreateFlagBitsNV { VK_OPTICAL_FLOW_SESSION_CREATE_ENABLE_HINT_BIT_NV = 0x00000001, VK_OPTICAL_FLOW_SESSION_CREATE_ENABLE_COST_BIT_NV = 0x00000002, VK_OPTICAL_FLOW_SESSION_CREATE_ENABLE_GLOBAL_FLOW_BIT_NV = 0x00000004, VK_OPTICAL_FLOW_SESSION_CREATE_ALLOW_REGIONS_BIT_NV = 0x00000008, VK_OPTICAL_FLOW_SESSION_CREATE_BOTH_DIRECTIONS_BIT_NV = 0x00000010, VK_OPTICAL_FLOW_SESSION_CREATE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkOpticalFlowSessionCreateFlagBitsNV; typedef VkFlags VkOpticalFlowSessionCreateFlagsNV; typedef enum VkOpticalFlowExecuteFlagBitsNV { VK_OPTICAL_FLOW_EXECUTE_DISABLE_TEMPORAL_HINTS_BIT_NV = 0x00000001, VK_OPTICAL_FLOW_EXECUTE_FLAG_BITS_MAX_ENUM_NV = 0x7FFFFFFF } VkOpticalFlowExecuteFlagBitsNV; typedef VkFlags VkOpticalFlowExecuteFlagsNV; typedef struct VkPhysicalDeviceOpticalFlowFeaturesNV { VkStructureType sType; void* pNext; VkBool32 opticalFlow; } VkPhysicalDeviceOpticalFlowFeaturesNV; typedef struct VkPhysicalDeviceOpticalFlowPropertiesNV { VkStructureType sType; void* pNext; VkOpticalFlowGridSizeFlagsNV supportedOutputGridSizes; VkOpticalFlowGridSizeFlagsNV supportedHintGridSizes; VkBool32 hintSupported; VkBool32 costSupported; VkBool32 bidirectionalFlowSupported; VkBool32 globalFlowSupported; uint32_t minWidth; uint32_t minHeight; uint32_t maxWidth; uint32_t maxHeight; uint32_t maxNumRegionsOfInterest; } VkPhysicalDeviceOpticalFlowPropertiesNV; typedef struct VkOpticalFlowImageFormatInfoNV { VkStructureType sType; const void* pNext; VkOpticalFlowUsageFlagsNV usage; } VkOpticalFlowImageFormatInfoNV; typedef struct VkOpticalFlowImageFormatPropertiesNV { VkStructureType sType; const void* pNext; VkFormat format; } VkOpticalFlowImageFormatPropertiesNV; typedef struct VkOpticalFlowSessionCreateInfoNV { VkStructureType sType; void* pNext; uint32_t width; uint32_t height; VkFormat imageFormat; VkFormat flowVectorFormat; VkFormat costFormat; VkOpticalFlowGridSizeFlagsNV outputGridSize; VkOpticalFlowGridSizeFlagsNV hintGridSize; VkOpticalFlowPerformanceLevelNV performanceLevel; VkOpticalFlowSessionCreateFlagsNV flags; } VkOpticalFlowSessionCreateInfoNV; typedef struct VkOpticalFlowSessionCreatePrivateDataInfoNV { VkStructureType sType; void* pNext; uint32_t id; uint32_t size; const void* pPrivateData; } VkOpticalFlowSessionCreatePrivateDataInfoNV; typedef struct VkOpticalFlowExecuteInfoNV { VkStructureType sType; void* pNext; VkOpticalFlowExecuteFlagsNV flags; uint32_t regionCount; const VkRect2D* pRegions; } VkOpticalFlowExecuteInfoNV; typedef VkResult (VKAPI_PTR *PFN_vkGetPhysicalDeviceOpticalFlowImageFormatsNV)(VkPhysicalDevice physicalDevice, const VkOpticalFlowImageFormatInfoNV* pOpticalFlowImageFormatInfo, uint32_t* pFormatCount, VkOpticalFlowImageFormatPropertiesNV* pImageFormatProperties); typedef VkResult (VKAPI_PTR *PFN_vkCreateOpticalFlowSessionNV)(VkDevice device, const VkOpticalFlowSessionCreateInfoNV* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkOpticalFlowSessionNV* pSession); typedef void (VKAPI_PTR *PFN_vkDestroyOpticalFlowSessionNV)(VkDevice device, VkOpticalFlowSessionNV session, const VkAllocationCallbacks* pAllocator); typedef VkResult (VKAPI_PTR *PFN_vkBindOpticalFlowSessionImageNV)(VkDevice device, VkOpticalFlowSessionNV session, VkOpticalFlowSessionBindingPointNV bindingPoint, VkImageView view, VkImageLayout layout); typedef void (VKAPI_PTR *PFN_vkCmdOpticalFlowExecuteNV)(VkCommandBuffer commandBuffer, VkOpticalFlowSessionNV session, const VkOpticalFlowExecuteInfoNV* pExecuteInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetPhysicalDeviceOpticalFlowImageFormatsNV( VkPhysicalDevice physicalDevice, const VkOpticalFlowImageFormatInfoNV* pOpticalFlowImageFormatInfo, uint32_t* pFormatCount, VkOpticalFlowImageFormatPropertiesNV* pImageFormatProperties); VKAPI_ATTR VkResult VKAPI_CALL vkCreateOpticalFlowSessionNV( VkDevice device, const VkOpticalFlowSessionCreateInfoNV* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkOpticalFlowSessionNV* pSession); VKAPI_ATTR void VKAPI_CALL vkDestroyOpticalFlowSessionNV( VkDevice device, VkOpticalFlowSessionNV session, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR VkResult VKAPI_CALL vkBindOpticalFlowSessionImageNV( VkDevice device, VkOpticalFlowSessionNV session, VkOpticalFlowSessionBindingPointNV bindingPoint, VkImageView view, VkImageLayout layout); VKAPI_ATTR void VKAPI_CALL vkCmdOpticalFlowExecuteNV( VkCommandBuffer commandBuffer, VkOpticalFlowSessionNV session, const VkOpticalFlowExecuteInfoNV* pExecuteInfo); #endif #define VK_EXT_legacy_dithering 1 #define VK_EXT_LEGACY_DITHERING_SPEC_VERSION 1 #define VK_EXT_LEGACY_DITHERING_EXTENSION_NAME "VK_EXT_legacy_dithering" typedef struct VkPhysicalDeviceLegacyDitheringFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 legacyDithering; } VkPhysicalDeviceLegacyDitheringFeaturesEXT; #define VK_EXT_pipeline_protected_access 1 #define VK_EXT_PIPELINE_PROTECTED_ACCESS_SPEC_VERSION 1 #define VK_EXT_PIPELINE_PROTECTED_ACCESS_EXTENSION_NAME "VK_EXT_pipeline_protected_access" typedef struct VkPhysicalDevicePipelineProtectedAccessFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 pipelineProtectedAccess; } VkPhysicalDevicePipelineProtectedAccessFeaturesEXT; #define VK_QCOM_tile_properties 1 #define VK_QCOM_TILE_PROPERTIES_SPEC_VERSION 1 #define VK_QCOM_TILE_PROPERTIES_EXTENSION_NAME "VK_QCOM_tile_properties" typedef struct VkPhysicalDeviceTilePropertiesFeaturesQCOM { VkStructureType sType; void* pNext; VkBool32 tileProperties; } VkPhysicalDeviceTilePropertiesFeaturesQCOM; typedef struct VkTilePropertiesQCOM { VkStructureType sType; void* pNext; VkExtent3D tileSize; VkExtent2D apronSize; VkOffset2D origin; } VkTilePropertiesQCOM; typedef VkResult (VKAPI_PTR *PFN_vkGetFramebufferTilePropertiesQCOM)(VkDevice device, VkFramebuffer framebuffer, uint32_t* pPropertiesCount, VkTilePropertiesQCOM* pProperties); typedef VkResult (VKAPI_PTR *PFN_vkGetDynamicRenderingTilePropertiesQCOM)(VkDevice device, const VkRenderingInfo* pRenderingInfo, VkTilePropertiesQCOM* pProperties); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkGetFramebufferTilePropertiesQCOM( VkDevice device, VkFramebuffer framebuffer, uint32_t* pPropertiesCount, VkTilePropertiesQCOM* pProperties); VKAPI_ATTR VkResult VKAPI_CALL vkGetDynamicRenderingTilePropertiesQCOM( VkDevice device, const VkRenderingInfo* pRenderingInfo, VkTilePropertiesQCOM* pProperties); #endif #define VK_SEC_amigo_profiling 1 #define VK_SEC_AMIGO_PROFILING_SPEC_VERSION 1 #define VK_SEC_AMIGO_PROFILING_EXTENSION_NAME "VK_SEC_amigo_profiling" typedef struct VkPhysicalDeviceAmigoProfilingFeaturesSEC { VkStructureType sType; void* pNext; VkBool32 amigoProfiling; } VkPhysicalDeviceAmigoProfilingFeaturesSEC; typedef struct VkAmigoProfilingSubmitInfoSEC { VkStructureType sType; const void* pNext; uint64_t firstDrawTimestamp; uint64_t swapBufferTimestamp; } VkAmigoProfilingSubmitInfoSEC; #define VK_EXT_mutable_descriptor_type 1 #define VK_EXT_MUTABLE_DESCRIPTOR_TYPE_SPEC_VERSION 1 #define VK_EXT_MUTABLE_DESCRIPTOR_TYPE_EXTENSION_NAME "VK_EXT_mutable_descriptor_type" #define VK_ARM_shader_core_builtins 1 #define VK_ARM_SHADER_CORE_BUILTINS_SPEC_VERSION 1 #define VK_ARM_SHADER_CORE_BUILTINS_EXTENSION_NAME "VK_ARM_shader_core_builtins" typedef struct VkPhysicalDeviceShaderCoreBuiltinsFeaturesARM { VkStructureType sType; void* pNext; VkBool32 shaderCoreBuiltins; } VkPhysicalDeviceShaderCoreBuiltinsFeaturesARM; typedef struct VkPhysicalDeviceShaderCoreBuiltinsPropertiesARM { VkStructureType sType; void* pNext; uint32_t shaderCoreCount; uint32_t shaderWarpsPerCore; } VkPhysicalDeviceShaderCoreBuiltinsPropertiesARM; #define VK_KHR_acceleration_structure 1 VK_DEFINE_NON_DISPATCHABLE_HANDLE(VkAccelerationStructureKHR) #define VK_KHR_ACCELERATION_STRUCTURE_SPEC_VERSION 13 #define VK_KHR_ACCELERATION_STRUCTURE_EXTENSION_NAME "VK_KHR_acceleration_structure" typedef enum VkBuildAccelerationStructureModeKHR { VK_BUILD_ACCELERATION_STRUCTURE_MODE_BUILD_KHR = 0, VK_BUILD_ACCELERATION_STRUCTURE_MODE_UPDATE_KHR = 1, VK_BUILD_ACCELERATION_STRUCTURE_MODE_MAX_ENUM_KHR = 0x7FFFFFFF } VkBuildAccelerationStructureModeKHR; typedef enum VkAccelerationStructureCreateFlagBitsKHR { VK_ACCELERATION_STRUCTURE_CREATE_DEVICE_ADDRESS_CAPTURE_REPLAY_BIT_KHR = 0x00000001, VK_ACCELERATION_STRUCTURE_CREATE_MOTION_BIT_NV = 0x00000004, VK_ACCELERATION_STRUCTURE_CREATE_FLAG_BITS_MAX_ENUM_KHR = 0x7FFFFFFF } VkAccelerationStructureCreateFlagBitsKHR; typedef VkFlags VkAccelerationStructureCreateFlagsKHR; typedef struct VkAccelerationStructureBuildRangeInfoKHR { uint32_t primitiveCount; uint32_t primitiveOffset; uint32_t firstVertex; uint32_t transformOffset; } VkAccelerationStructureBuildRangeInfoKHR; typedef struct VkAccelerationStructureGeometryTrianglesDataKHR { VkStructureType sType; const void* pNext; VkFormat vertexFormat; VkDeviceOrHostAddressConstKHR vertexData; VkDeviceSize vertexStride; uint32_t maxVertex; VkIndexType indexType; VkDeviceOrHostAddressConstKHR indexData; VkDeviceOrHostAddressConstKHR transformData; } VkAccelerationStructureGeometryTrianglesDataKHR; typedef struct VkAccelerationStructureGeometryAabbsDataKHR { VkStructureType sType; const void* pNext; VkDeviceOrHostAddressConstKHR data; VkDeviceSize stride; } VkAccelerationStructureGeometryAabbsDataKHR; typedef struct VkAccelerationStructureGeometryInstancesDataKHR { VkStructureType sType; const void* pNext; VkBool32 arrayOfPointers; VkDeviceOrHostAddressConstKHR data; } VkAccelerationStructureGeometryInstancesDataKHR; typedef union VkAccelerationStructureGeometryDataKHR { VkAccelerationStructureGeometryTrianglesDataKHR triangles; VkAccelerationStructureGeometryAabbsDataKHR aabbs; VkAccelerationStructureGeometryInstancesDataKHR instances; } VkAccelerationStructureGeometryDataKHR; typedef struct VkAccelerationStructureGeometryKHR { VkStructureType sType; const void* pNext; VkGeometryTypeKHR geometryType; VkAccelerationStructureGeometryDataKHR geometry; VkGeometryFlagsKHR flags; } VkAccelerationStructureGeometryKHR; typedef struct VkAccelerationStructureBuildGeometryInfoKHR { VkStructureType sType; const void* pNext; VkAccelerationStructureTypeKHR type; VkBuildAccelerationStructureFlagsKHR flags; VkBuildAccelerationStructureModeKHR mode; VkAccelerationStructureKHR srcAccelerationStructure; VkAccelerationStructureKHR dstAccelerationStructure; uint32_t geometryCount; const VkAccelerationStructureGeometryKHR* pGeometries; const VkAccelerationStructureGeometryKHR* const* ppGeometries; VkDeviceOrHostAddressKHR scratchData; } VkAccelerationStructureBuildGeometryInfoKHR; typedef struct VkAccelerationStructureCreateInfoKHR { VkStructureType sType; const void* pNext; VkAccelerationStructureCreateFlagsKHR createFlags; VkBuffer buffer; VkDeviceSize offset; VkDeviceSize size; VkAccelerationStructureTypeKHR type; VkDeviceAddress deviceAddress; } VkAccelerationStructureCreateInfoKHR; typedef struct VkWriteDescriptorSetAccelerationStructureKHR { VkStructureType sType; const void* pNext; uint32_t accelerationStructureCount; const VkAccelerationStructureKHR* pAccelerationStructures; } VkWriteDescriptorSetAccelerationStructureKHR; typedef struct VkPhysicalDeviceAccelerationStructureFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 accelerationStructure; VkBool32 accelerationStructureCaptureReplay; VkBool32 accelerationStructureIndirectBuild; VkBool32 accelerationStructureHostCommands; VkBool32 descriptorBindingAccelerationStructureUpdateAfterBind; } VkPhysicalDeviceAccelerationStructureFeaturesKHR; typedef struct VkPhysicalDeviceAccelerationStructurePropertiesKHR { VkStructureType sType; void* pNext; uint64_t maxGeometryCount; uint64_t maxInstanceCount; uint64_t maxPrimitiveCount; uint32_t maxPerStageDescriptorAccelerationStructures; uint32_t maxPerStageDescriptorUpdateAfterBindAccelerationStructures; uint32_t maxDescriptorSetAccelerationStructures; uint32_t maxDescriptorSetUpdateAfterBindAccelerationStructures; uint32_t minAccelerationStructureScratchOffsetAlignment; } VkPhysicalDeviceAccelerationStructurePropertiesKHR; typedef struct VkAccelerationStructureDeviceAddressInfoKHR { VkStructureType sType; const void* pNext; VkAccelerationStructureKHR accelerationStructure; } VkAccelerationStructureDeviceAddressInfoKHR; typedef struct VkAccelerationStructureVersionInfoKHR { VkStructureType sType; const void* pNext; const uint8_t* pVersionData; } VkAccelerationStructureVersionInfoKHR; typedef struct VkCopyAccelerationStructureToMemoryInfoKHR { VkStructureType sType; const void* pNext; VkAccelerationStructureKHR src; VkDeviceOrHostAddressKHR dst; VkCopyAccelerationStructureModeKHR mode; } VkCopyAccelerationStructureToMemoryInfoKHR; typedef struct VkCopyMemoryToAccelerationStructureInfoKHR { VkStructureType sType; const void* pNext; VkDeviceOrHostAddressConstKHR src; VkAccelerationStructureKHR dst; VkCopyAccelerationStructureModeKHR mode; } VkCopyMemoryToAccelerationStructureInfoKHR; typedef struct VkCopyAccelerationStructureInfoKHR { VkStructureType sType; const void* pNext; VkAccelerationStructureKHR src; VkAccelerationStructureKHR dst; VkCopyAccelerationStructureModeKHR mode; } VkCopyAccelerationStructureInfoKHR; typedef struct VkAccelerationStructureBuildSizesInfoKHR { VkStructureType sType; const void* pNext; VkDeviceSize accelerationStructureSize; VkDeviceSize updateScratchSize; VkDeviceSize buildScratchSize; } VkAccelerationStructureBuildSizesInfoKHR; typedef VkResult (VKAPI_PTR *PFN_vkCreateAccelerationStructureKHR)(VkDevice device, const VkAccelerationStructureCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkAccelerationStructureKHR* pAccelerationStructure); typedef void (VKAPI_PTR *PFN_vkDestroyAccelerationStructureKHR)(VkDevice device, VkAccelerationStructureKHR accelerationStructure, const VkAllocationCallbacks* pAllocator); typedef void (VKAPI_PTR *PFN_vkCmdBuildAccelerationStructuresKHR)(VkCommandBuffer commandBuffer, uint32_t infoCount, const VkAccelerationStructureBuildGeometryInfoKHR* pInfos, const VkAccelerationStructureBuildRangeInfoKHR* const* ppBuildRangeInfos); typedef void (VKAPI_PTR *PFN_vkCmdBuildAccelerationStructuresIndirectKHR)(VkCommandBuffer commandBuffer, uint32_t infoCount, const VkAccelerationStructureBuildGeometryInfoKHR* pInfos, const VkDeviceAddress* pIndirectDeviceAddresses, const uint32_t* pIndirectStrides, const uint32_t* const* ppMaxPrimitiveCounts); typedef VkResult (VKAPI_PTR *PFN_vkBuildAccelerationStructuresKHR)(VkDevice device, VkDeferredOperationKHR deferredOperation, uint32_t infoCount, const VkAccelerationStructureBuildGeometryInfoKHR* pInfos, const VkAccelerationStructureBuildRangeInfoKHR* const* ppBuildRangeInfos); typedef VkResult (VKAPI_PTR *PFN_vkCopyAccelerationStructureKHR)(VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyAccelerationStructureInfoKHR* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkCopyAccelerationStructureToMemoryKHR)(VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyAccelerationStructureToMemoryInfoKHR* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkCopyMemoryToAccelerationStructureKHR)(VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMemoryToAccelerationStructureInfoKHR* pInfo); typedef VkResult (VKAPI_PTR *PFN_vkWriteAccelerationStructuresPropertiesKHR)(VkDevice device, uint32_t accelerationStructureCount, const VkAccelerationStructureKHR* pAccelerationStructures, VkQueryType queryType, size_t dataSize, void* pData, size_t stride); typedef void (VKAPI_PTR *PFN_vkCmdCopyAccelerationStructureKHR)(VkCommandBuffer commandBuffer, const VkCopyAccelerationStructureInfoKHR* pInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyAccelerationStructureToMemoryKHR)(VkCommandBuffer commandBuffer, const VkCopyAccelerationStructureToMemoryInfoKHR* pInfo); typedef void (VKAPI_PTR *PFN_vkCmdCopyMemoryToAccelerationStructureKHR)(VkCommandBuffer commandBuffer, const VkCopyMemoryToAccelerationStructureInfoKHR* pInfo); typedef VkDeviceAddress (VKAPI_PTR *PFN_vkGetAccelerationStructureDeviceAddressKHR)(VkDevice device, const VkAccelerationStructureDeviceAddressInfoKHR* pInfo); typedef void (VKAPI_PTR *PFN_vkCmdWriteAccelerationStructuresPropertiesKHR)(VkCommandBuffer commandBuffer, uint32_t accelerationStructureCount, const VkAccelerationStructureKHR* pAccelerationStructures, VkQueryType queryType, VkQueryPool queryPool, uint32_t firstQuery); typedef void (VKAPI_PTR *PFN_vkGetDeviceAccelerationStructureCompatibilityKHR)(VkDevice device, const VkAccelerationStructureVersionInfoKHR* pVersionInfo, VkAccelerationStructureCompatibilityKHR* pCompatibility); typedef void (VKAPI_PTR *PFN_vkGetAccelerationStructureBuildSizesKHR)(VkDevice device, VkAccelerationStructureBuildTypeKHR buildType, const VkAccelerationStructureBuildGeometryInfoKHR* pBuildInfo, const uint32_t* pMaxPrimitiveCounts, VkAccelerationStructureBuildSizesInfoKHR* pSizeInfo); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR VkResult VKAPI_CALL vkCreateAccelerationStructureKHR( VkDevice device, const VkAccelerationStructureCreateInfoKHR* pCreateInfo, const VkAllocationCallbacks* pAllocator, VkAccelerationStructureKHR* pAccelerationStructure); VKAPI_ATTR void VKAPI_CALL vkDestroyAccelerationStructureKHR( VkDevice device, VkAccelerationStructureKHR accelerationStructure, const VkAllocationCallbacks* pAllocator); VKAPI_ATTR void VKAPI_CALL vkCmdBuildAccelerationStructuresKHR( VkCommandBuffer commandBuffer, uint32_t infoCount, const VkAccelerationStructureBuildGeometryInfoKHR* pInfos, const VkAccelerationStructureBuildRangeInfoKHR* const* ppBuildRangeInfos); VKAPI_ATTR void VKAPI_CALL vkCmdBuildAccelerationStructuresIndirectKHR( VkCommandBuffer commandBuffer, uint32_t infoCount, const VkAccelerationStructureBuildGeometryInfoKHR* pInfos, const VkDeviceAddress* pIndirectDeviceAddresses, const uint32_t* pIndirectStrides, const uint32_t* const* ppMaxPrimitiveCounts); VKAPI_ATTR VkResult VKAPI_CALL vkBuildAccelerationStructuresKHR( VkDevice device, VkDeferredOperationKHR deferredOperation, uint32_t infoCount, const VkAccelerationStructureBuildGeometryInfoKHR* pInfos, const VkAccelerationStructureBuildRangeInfoKHR* const* ppBuildRangeInfos); VKAPI_ATTR VkResult VKAPI_CALL vkCopyAccelerationStructureKHR( VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyAccelerationStructureInfoKHR* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCopyAccelerationStructureToMemoryKHR( VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyAccelerationStructureToMemoryInfoKHR* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkCopyMemoryToAccelerationStructureKHR( VkDevice device, VkDeferredOperationKHR deferredOperation, const VkCopyMemoryToAccelerationStructureInfoKHR* pInfo); VKAPI_ATTR VkResult VKAPI_CALL vkWriteAccelerationStructuresPropertiesKHR( VkDevice device, uint32_t accelerationStructureCount, const VkAccelerationStructureKHR* pAccelerationStructures, VkQueryType queryType, size_t dataSize, void* pData, size_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdCopyAccelerationStructureKHR( VkCommandBuffer commandBuffer, const VkCopyAccelerationStructureInfoKHR* pInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyAccelerationStructureToMemoryKHR( VkCommandBuffer commandBuffer, const VkCopyAccelerationStructureToMemoryInfoKHR* pInfo); VKAPI_ATTR void VKAPI_CALL vkCmdCopyMemoryToAccelerationStructureKHR( VkCommandBuffer commandBuffer, const VkCopyMemoryToAccelerationStructureInfoKHR* pInfo); VKAPI_ATTR VkDeviceAddress VKAPI_CALL vkGetAccelerationStructureDeviceAddressKHR( VkDevice device, const VkAccelerationStructureDeviceAddressInfoKHR* pInfo); VKAPI_ATTR void VKAPI_CALL vkCmdWriteAccelerationStructuresPropertiesKHR( VkCommandBuffer commandBuffer, uint32_t accelerationStructureCount, const VkAccelerationStructureKHR* pAccelerationStructures, VkQueryType queryType, VkQueryPool queryPool, uint32_t firstQuery); VKAPI_ATTR void VKAPI_CALL vkGetDeviceAccelerationStructureCompatibilityKHR( VkDevice device, const VkAccelerationStructureVersionInfoKHR* pVersionInfo, VkAccelerationStructureCompatibilityKHR* pCompatibility); VKAPI_ATTR void VKAPI_CALL vkGetAccelerationStructureBuildSizesKHR( VkDevice device, VkAccelerationStructureBuildTypeKHR buildType, const VkAccelerationStructureBuildGeometryInfoKHR* pBuildInfo, const uint32_t* pMaxPrimitiveCounts, VkAccelerationStructureBuildSizesInfoKHR* pSizeInfo); #endif #define VK_KHR_ray_tracing_pipeline 1 #define VK_KHR_RAY_TRACING_PIPELINE_SPEC_VERSION 1 #define VK_KHR_RAY_TRACING_PIPELINE_EXTENSION_NAME "VK_KHR_ray_tracing_pipeline" typedef enum VkShaderGroupShaderKHR { VK_SHADER_GROUP_SHADER_GENERAL_KHR = 0, VK_SHADER_GROUP_SHADER_CLOSEST_HIT_KHR = 1, VK_SHADER_GROUP_SHADER_ANY_HIT_KHR = 2, VK_SHADER_GROUP_SHADER_INTERSECTION_KHR = 3, VK_SHADER_GROUP_SHADER_MAX_ENUM_KHR = 0x7FFFFFFF } VkShaderGroupShaderKHR; typedef struct VkRayTracingShaderGroupCreateInfoKHR { VkStructureType sType; const void* pNext; VkRayTracingShaderGroupTypeKHR type; uint32_t generalShader; uint32_t closestHitShader; uint32_t anyHitShader; uint32_t intersectionShader; const void* pShaderGroupCaptureReplayHandle; } VkRayTracingShaderGroupCreateInfoKHR; typedef struct VkRayTracingPipelineInterfaceCreateInfoKHR { VkStructureType sType; const void* pNext; uint32_t maxPipelineRayPayloadSize; uint32_t maxPipelineRayHitAttributeSize; } VkRayTracingPipelineInterfaceCreateInfoKHR; typedef struct VkRayTracingPipelineCreateInfoKHR { VkStructureType sType; const void* pNext; VkPipelineCreateFlags flags; uint32_t stageCount; const VkPipelineShaderStageCreateInfo* pStages; uint32_t groupCount; const VkRayTracingShaderGroupCreateInfoKHR* pGroups; uint32_t maxPipelineRayRecursionDepth; const VkPipelineLibraryCreateInfoKHR* pLibraryInfo; const VkRayTracingPipelineInterfaceCreateInfoKHR* pLibraryInterface; const VkPipelineDynamicStateCreateInfo* pDynamicState; VkPipelineLayout layout; VkPipeline basePipelineHandle; int32_t basePipelineIndex; } VkRayTracingPipelineCreateInfoKHR; typedef struct VkPhysicalDeviceRayTracingPipelineFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 rayTracingPipeline; VkBool32 rayTracingPipelineShaderGroupHandleCaptureReplay; VkBool32 rayTracingPipelineShaderGroupHandleCaptureReplayMixed; VkBool32 rayTracingPipelineTraceRaysIndirect; VkBool32 rayTraversalPrimitiveCulling; } VkPhysicalDeviceRayTracingPipelineFeaturesKHR; typedef struct VkPhysicalDeviceRayTracingPipelinePropertiesKHR { VkStructureType sType; void* pNext; uint32_t shaderGroupHandleSize; uint32_t maxRayRecursionDepth; uint32_t maxShaderGroupStride; uint32_t shaderGroupBaseAlignment; uint32_t shaderGroupHandleCaptureReplaySize; uint32_t maxRayDispatchInvocationCount; uint32_t shaderGroupHandleAlignment; uint32_t maxRayHitAttributeSize; } VkPhysicalDeviceRayTracingPipelinePropertiesKHR; typedef struct VkStridedDeviceAddressRegionKHR { VkDeviceAddress deviceAddress; VkDeviceSize stride; VkDeviceSize size; } VkStridedDeviceAddressRegionKHR; typedef struct VkTraceRaysIndirectCommandKHR { uint32_t width; uint32_t height; uint32_t depth; } VkTraceRaysIndirectCommandKHR; typedef void (VKAPI_PTR *PFN_vkCmdTraceRaysKHR)(VkCommandBuffer commandBuffer, const VkStridedDeviceAddressRegionKHR* pRaygenShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pMissShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pHitShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pCallableShaderBindingTable, uint32_t width, uint32_t height, uint32_t depth); typedef VkResult (VKAPI_PTR *PFN_vkCreateRayTracingPipelinesKHR)(VkDevice device, VkDeferredOperationKHR deferredOperation, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkRayTracingPipelineCreateInfoKHR* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); typedef VkResult (VKAPI_PTR *PFN_vkGetRayTracingCaptureReplayShaderGroupHandlesKHR)(VkDevice device, VkPipeline pipeline, uint32_t firstGroup, uint32_t groupCount, size_t dataSize, void* pData); typedef void (VKAPI_PTR *PFN_vkCmdTraceRaysIndirectKHR)(VkCommandBuffer commandBuffer, const VkStridedDeviceAddressRegionKHR* pRaygenShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pMissShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pHitShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pCallableShaderBindingTable, VkDeviceAddress indirectDeviceAddress); typedef VkDeviceSize (VKAPI_PTR *PFN_vkGetRayTracingShaderGroupStackSizeKHR)(VkDevice device, VkPipeline pipeline, uint32_t group, VkShaderGroupShaderKHR groupShader); typedef void (VKAPI_PTR *PFN_vkCmdSetRayTracingPipelineStackSizeKHR)(VkCommandBuffer commandBuffer, uint32_t pipelineStackSize); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdTraceRaysKHR( VkCommandBuffer commandBuffer, const VkStridedDeviceAddressRegionKHR* pRaygenShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pMissShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pHitShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pCallableShaderBindingTable, uint32_t width, uint32_t height, uint32_t depth); VKAPI_ATTR VkResult VKAPI_CALL vkCreateRayTracingPipelinesKHR( VkDevice device, VkDeferredOperationKHR deferredOperation, VkPipelineCache pipelineCache, uint32_t createInfoCount, const VkRayTracingPipelineCreateInfoKHR* pCreateInfos, const VkAllocationCallbacks* pAllocator, VkPipeline* pPipelines); VKAPI_ATTR VkResult VKAPI_CALL vkGetRayTracingCaptureReplayShaderGroupHandlesKHR( VkDevice device, VkPipeline pipeline, uint32_t firstGroup, uint32_t groupCount, size_t dataSize, void* pData); VKAPI_ATTR void VKAPI_CALL vkCmdTraceRaysIndirectKHR( VkCommandBuffer commandBuffer, const VkStridedDeviceAddressRegionKHR* pRaygenShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pMissShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pHitShaderBindingTable, const VkStridedDeviceAddressRegionKHR* pCallableShaderBindingTable, VkDeviceAddress indirectDeviceAddress); VKAPI_ATTR VkDeviceSize VKAPI_CALL vkGetRayTracingShaderGroupStackSizeKHR( VkDevice device, VkPipeline pipeline, uint32_t group, VkShaderGroupShaderKHR groupShader); VKAPI_ATTR void VKAPI_CALL vkCmdSetRayTracingPipelineStackSizeKHR( VkCommandBuffer commandBuffer, uint32_t pipelineStackSize); #endif #define VK_KHR_ray_query 1 #define VK_KHR_RAY_QUERY_SPEC_VERSION 1 #define VK_KHR_RAY_QUERY_EXTENSION_NAME "VK_KHR_ray_query" typedef struct VkPhysicalDeviceRayQueryFeaturesKHR { VkStructureType sType; void* pNext; VkBool32 rayQuery; } VkPhysicalDeviceRayQueryFeaturesKHR; #define VK_EXT_mesh_shader 1 #define VK_EXT_MESH_SHADER_SPEC_VERSION 1 #define VK_EXT_MESH_SHADER_EXTENSION_NAME "VK_EXT_mesh_shader" typedef struct VkPhysicalDeviceMeshShaderFeaturesEXT { VkStructureType sType; void* pNext; VkBool32 taskShader; VkBool32 meshShader; VkBool32 multiviewMeshShader; VkBool32 primitiveFragmentShadingRateMeshShader; VkBool32 meshShaderQueries; } VkPhysicalDeviceMeshShaderFeaturesEXT; typedef struct VkPhysicalDeviceMeshShaderPropertiesEXT { VkStructureType sType; void* pNext; uint32_t maxTaskWorkGroupTotalCount; uint32_t maxTaskWorkGroupCount[3]; uint32_t maxTaskWorkGroupInvocations; uint32_t maxTaskWorkGroupSize[3]; uint32_t maxTaskPayloadSize; uint32_t maxTaskSharedMemorySize; uint32_t maxTaskPayloadAndSharedMemorySize; uint32_t maxMeshWorkGroupTotalCount; uint32_t maxMeshWorkGroupCount[3]; uint32_t maxMeshWorkGroupInvocations; uint32_t maxMeshWorkGroupSize[3]; uint32_t maxMeshSharedMemorySize; uint32_t maxMeshPayloadAndSharedMemorySize; uint32_t maxMeshOutputMemorySize; uint32_t maxMeshPayloadAndOutputMemorySize; uint32_t maxMeshOutputComponents; uint32_t maxMeshOutputVertices; uint32_t maxMeshOutputPrimitives; uint32_t maxMeshOutputLayers; uint32_t maxMeshMultiviewViewCount; uint32_t meshOutputPerVertexGranularity; uint32_t meshOutputPerPrimitiveGranularity; uint32_t maxPreferredTaskWorkGroupInvocations; uint32_t maxPreferredMeshWorkGroupInvocations; VkBool32 prefersLocalInvocationVertexOutput; VkBool32 prefersLocalInvocationPrimitiveOutput; VkBool32 prefersCompactVertexOutput; VkBool32 prefersCompactPrimitiveOutput; } VkPhysicalDeviceMeshShaderPropertiesEXT; typedef struct VkDrawMeshTasksIndirectCommandEXT { uint32_t groupCountX; uint32_t groupCountY; uint32_t groupCountZ; } VkDrawMeshTasksIndirectCommandEXT; typedef void (VKAPI_PTR *PFN_vkCmdDrawMeshTasksEXT)(VkCommandBuffer commandBuffer, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); typedef void (VKAPI_PTR *PFN_vkCmdDrawMeshTasksIndirectEXT)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); typedef void (VKAPI_PTR *PFN_vkCmdDrawMeshTasksIndirectCountEXT)(VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #ifndef VK_NO_PROTOTYPES VKAPI_ATTR void VKAPI_CALL vkCmdDrawMeshTasksEXT( VkCommandBuffer commandBuffer, uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ); VKAPI_ATTR void VKAPI_CALL vkCmdDrawMeshTasksIndirectEXT( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, uint32_t drawCount, uint32_t stride); VKAPI_ATTR void VKAPI_CALL vkCmdDrawMeshTasksIndirectCountEXT( VkCommandBuffer commandBuffer, VkBuffer buffer, VkDeviceSize offset, VkBuffer countBuffer, VkDeviceSize countBufferOffset, uint32_t maxDrawCount, uint32_t stride); #endif #ifdef __cplusplus } #endif #endif
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.class public final Landroid/service/voice/VoiceInteractionSession$Insets; .super Ljava/lang/Object; .source "VoiceInteractionSession.java" # annotations .annotation system Ldalvik/annotation/EnclosingClass; value = Landroid/service/voice/VoiceInteractionSession; .end annotation .annotation system Ldalvik/annotation/InnerClass; accessFlags = 0x19 name = "Insets" .end annotation # static fields .field public static final TOUCHABLE_INSETS_CONTENT:I = 0x1 .field public static final TOUCHABLE_INSETS_FRAME:I = 0x0 .field public static final TOUCHABLE_INSETS_REGION:I = 0x3 # instance fields .field public final contentInsets:Landroid/graphics/Rect; .field public touchableInsets:I .field public final touchableRegion:Landroid/graphics/Region; # direct methods .method public constructor <init>()V .locals 1 .prologue .line 866 invoke-direct {p0}, Ljava/lang/Object;-><init>()V .line 875 new-instance v0, Landroid/graphics/Rect; invoke-direct {v0}, Landroid/graphics/Rect;-><init>()V iput-object v0, p0, Landroid/service/voice/VoiceInteractionSession$Insets;->contentInsets:Landroid/graphics/Rect; .line 882 new-instance v0, Landroid/graphics/Region; invoke-direct {v0}, Landroid/graphics/Region;-><init>()V iput-object v0, p0, Landroid/service/voice/VoiceInteractionSession$Insets;->touchableRegion:Landroid/graphics/Region; .line 866 return-void .end method
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module Init where import Graphics.Rendering.OpenGL as GL import Graphics.UI.GLFW as GLFW import Graphics.Rendering.OpenGL (($=)) initAndRun run = do initSuccessful <- GLFW.initialize -- open window windowSuccessful <- GLFW.openWindow (GL.Size 400 400) [GLFW.DisplayAlphaBits 8] GLFW.Window GLFW.windowTitle $= "Pluto is still a planet" GL.shadeModel $= GL.Smooth -- enable antialiasing GL.lineSmooth $= GL.Enabled GL.blend $= GL.Enabled GL.blendFunc $= (GL.SrcAlpha, GL.OneMinusSrcAlpha) GL.lineWidth $= 1.5 -- enable depth buffer GL.depthFunc $= Just Less -- set the color to clear background GL.clearColor $= Color4 0 0 0 0 GLFW.windowSizeCallback $= \ size@(GL.Size w h) -> do GL.viewport $= (GL.Position 0 0, size) GL.matrixMode $= GL.Projection GL.loadIdentity -- GL.ortho 0 (realToFrac w) (realToFrac h) 0 0 (-100) GL.perspective 50 ((realToFrac w) / (realToFrac h)) (100.0) (-10000.0) GL.lookAt (Vertex3 0 0 3000) (Vertex3 0 0 0) (Vector3 0 (1) 0) -- the getKeyboardState and getMouseState functions depend on this being enabled to work properly enableSpecial StickyKey enableSpecial StickyMouseButton enableSpecial SystemKey enableSpecial KeyRepeat disableSpecial AutoPollEvent run GLFW.closeWindow GLFW.terminate
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<!DOCTYPE html> <html class="minimal"> <title>Canvas test: 2d.canvas.reference</title> <script src="../tests.js"></script> <link rel="stylesheet" href="../tests.css"> <link rel="prev" href="minimal.2d.scaled.html" title="2d.scaled"> <link rel="next" href="minimal.2d.canvas.readonly.html" title="2d.canvas.readonly"> <body> <p id="passtext">Pass</p> <p id="failtext">Fail</p> <!-- TODO: handle "script did not run" case --> <p class="output">These images should be identical:</p> <canvas id="c" class="output" width="100" height="50"><p class="fallback">FAIL (fallback content)</p></canvas> <ul id="d"></ul> <script> _addTest(function(canvas, ctx) { _assertSame(ctx.canvas, canvas, "ctx.canvas", "canvas"); }); </script>
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/** * \file x509_csr.h * * \brief X.509 certificate signing request parsing and writing */ /* * Copyright The Mbed TLS Contributors * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef MBEDTLS_X509_CSR_H #define MBEDTLS_X509_CSR_H #include "mbedtls/private_access.h" #include "mbedtls/build_info.h" #include "mbedtls/x509.h" #ifdef __cplusplus extern "C" { #endif /** * \addtogroup x509_module * \{ */ /** * \name Structures and functions for X.509 Certificate Signing Requests (CSR) * \{ */ /** * Certificate Signing Request (CSR) structure. * * Some fields of this structure are publicly readable. Do not modify * them except via Mbed TLS library functions: the effect of modifying * those fields or the data that those fields point to is unspecified. */ typedef struct mbedtls_x509_csr { mbedtls_x509_buf raw; /**< The raw CSR data (DER). */ mbedtls_x509_buf cri; /**< The raw CertificateRequestInfo body (DER). */ int version; /**< CSR version (1=v1). */ mbedtls_x509_buf subject_raw; /**< The raw subject data (DER). */ mbedtls_x509_name subject; /**< The parsed subject data (named information object). */ mbedtls_pk_context pk; /**< Container for the public key context. */ mbedtls_x509_buf sig_oid; mbedtls_x509_buf MBEDTLS_PRIVATE(sig); mbedtls_md_type_t MBEDTLS_PRIVATE(sig_md); /**< Internal representation of the MD algorithm of the signature algorithm, e.g. MBEDTLS_MD_SHA256 */ mbedtls_pk_type_t MBEDTLS_PRIVATE(sig_pk); /**< Internal representation of the Public Key algorithm of the signature algorithm, e.g. MBEDTLS_PK_RSA */ void *MBEDTLS_PRIVATE(sig_opts); /**< Signature options to be passed to mbedtls_pk_verify_ext(), e.g. for RSASSA-PSS */ } mbedtls_x509_csr; /** * Container for writing a CSR */ typedef struct mbedtls_x509write_csr { mbedtls_pk_context *MBEDTLS_PRIVATE(key); mbedtls_asn1_named_data *MBEDTLS_PRIVATE(subject); mbedtls_md_type_t MBEDTLS_PRIVATE(md_alg); mbedtls_asn1_named_data *MBEDTLS_PRIVATE(extensions); } mbedtls_x509write_csr; #if defined(MBEDTLS_X509_CSR_PARSE_C) /** * \brief Load a Certificate Signing Request (CSR) in DER format * * \note CSR attributes (if any) are currently silently ignored. * * \param csr CSR context to fill * \param buf buffer holding the CRL data * \param buflen size of the buffer * * \return 0 if successful, or a specific X509 error code */ int mbedtls_x509_csr_parse_der( mbedtls_x509_csr *csr, const unsigned char *buf, size_t buflen ); /** * \brief Load a Certificate Signing Request (CSR), DER or PEM format * * \note See notes for \c mbedtls_x509_csr_parse_der() * * \param csr CSR context to fill * \param buf buffer holding the CRL data * \param buflen size of the buffer * (including the terminating null byte for PEM data) * * \return 0 if successful, or a specific X509 or PEM error code */ int mbedtls_x509_csr_parse( mbedtls_x509_csr *csr, const unsigned char *buf, size_t buflen ); #if defined(MBEDTLS_FS_IO) /** * \brief Load a Certificate Signing Request (CSR) * * \note See notes for \c mbedtls_x509_csr_parse() * * \param csr CSR context to fill * \param path filename to read the CSR from * * \return 0 if successful, or a specific X509 or PEM error code */ int mbedtls_x509_csr_parse_file( mbedtls_x509_csr *csr, const char *path ); #endif /* MBEDTLS_FS_IO */ #if !defined(MBEDTLS_X509_REMOVE_INFO) /** * \brief Returns an informational string about the * CSR. * * \param buf Buffer to write to * \param size Maximum size of buffer * \param prefix A line prefix * \param csr The X509 CSR to represent * * \return The length of the string written (not including the * terminated nul byte), or a negative error code. */ int mbedtls_x509_csr_info( char *buf, size_t size, const char *prefix, const mbedtls_x509_csr *csr ); #endif /* !MBEDTLS_X509_REMOVE_INFO */ /** * \brief Initialize a CSR * * \param csr CSR to initialize */ void mbedtls_x509_csr_init( mbedtls_x509_csr *csr ); /** * \brief Unallocate all CSR data * * \param csr CSR to free */ void mbedtls_x509_csr_free( mbedtls_x509_csr *csr ); #endif /* MBEDTLS_X509_CSR_PARSE_C */ /** \} name Structures and functions for X.509 Certificate Signing Requests (CSR) */ #if defined(MBEDTLS_X509_CSR_WRITE_C) /** * \brief Initialize a CSR context * * \param ctx CSR context to initialize */ void mbedtls_x509write_csr_init( mbedtls_x509write_csr *ctx ); /** * \brief Set the subject name for a CSR * Subject names should contain a comma-separated list * of OID types and values: * e.g. "C=UK,O=ARM,CN=mbed TLS Server 1" * * \param ctx CSR context to use * \param subject_name subject name to set * * \return 0 if subject name was parsed successfully, or * a specific error code */ int mbedtls_x509write_csr_set_subject_name( mbedtls_x509write_csr *ctx, const char *subject_name ); /** * \brief Set the key for a CSR (public key will be included, * private key used to sign the CSR when writing it) * * \param ctx CSR context to use * \param key Asymetric key to include */ void mbedtls_x509write_csr_set_key( mbedtls_x509write_csr *ctx, mbedtls_pk_context *key ); /** * \brief Set the MD algorithm to use for the signature * (e.g. MBEDTLS_MD_SHA1) * * \param ctx CSR context to use * \param md_alg MD algorithm to use */ void mbedtls_x509write_csr_set_md_alg( mbedtls_x509write_csr *ctx, mbedtls_md_type_t md_alg ); /** * \brief Set the Key Usage Extension flags * (e.g. MBEDTLS_X509_KU_DIGITAL_SIGNATURE | MBEDTLS_X509_KU_KEY_CERT_SIGN) * * \param ctx CSR context to use * \param key_usage key usage flags to set * * \return 0 if successful, or MBEDTLS_ERR_X509_ALLOC_FAILED * * \note The <code>decipherOnly</code> flag from the Key Usage * extension is represented by bit 8 (i.e. * <code>0x8000</code>), which cannot typically be represented * in an unsigned char. Therefore, the flag * <code>decipherOnly</code> (i.e. * #MBEDTLS_X509_KU_DECIPHER_ONLY) cannot be set using this * function. */ int mbedtls_x509write_csr_set_key_usage( mbedtls_x509write_csr *ctx, unsigned char key_usage ); /** * \brief Set the Netscape Cert Type flags * (e.g. MBEDTLS_X509_NS_CERT_TYPE_SSL_CLIENT | MBEDTLS_X509_NS_CERT_TYPE_EMAIL) * * \param ctx CSR context to use * \param ns_cert_type Netscape Cert Type flags to set * * \return 0 if successful, or MBEDTLS_ERR_X509_ALLOC_FAILED */ int mbedtls_x509write_csr_set_ns_cert_type( mbedtls_x509write_csr *ctx, unsigned char ns_cert_type ); /** * \brief Generic function to add to or replace an extension in the * CSR * * \param ctx CSR context to use * \param oid OID of the extension * \param oid_len length of the OID * \param critical Set to 1 to mark the extension as critical, 0 otherwise. * \param val value of the extension OCTET STRING * \param val_len length of the value data * * \return 0 if successful, or a MBEDTLS_ERR_X509_ALLOC_FAILED */ int mbedtls_x509write_csr_set_extension( mbedtls_x509write_csr *ctx, const char *oid, size_t oid_len, int critical, const unsigned char *val, size_t val_len ); /** * \brief Free the contents of a CSR context * * \param ctx CSR context to free */ void mbedtls_x509write_csr_free( mbedtls_x509write_csr *ctx ); /** * \brief Write a CSR (Certificate Signing Request) to a * DER structure * Note: data is written at the end of the buffer! Use the * return value to determine where you should start * using the buffer * * \param ctx CSR to write away * \param buf buffer to write to * \param size size of the buffer * \param f_rng RNG function. This must not be \c NULL. * \param p_rng RNG parameter * * \return length of data written if successful, or a specific * error code * * \note \p f_rng is used for the signature operation. */ int mbedtls_x509write_csr_der( mbedtls_x509write_csr *ctx, unsigned char *buf, size_t size, int (*f_rng)(void *, unsigned char *, size_t), void *p_rng ); #if defined(MBEDTLS_PEM_WRITE_C) /** * \brief Write a CSR (Certificate Signing Request) to a * PEM string * * \param ctx CSR to write away * \param buf buffer to write to * \param size size of the buffer * \param f_rng RNG function. This must not be \c NULL. * \param p_rng RNG parameter * * \return 0 if successful, or a specific error code * * \note \p f_rng is used for the signature operation. */ int mbedtls_x509write_csr_pem( mbedtls_x509write_csr *ctx, unsigned char *buf, size_t size, int (*f_rng)(void *, unsigned char *, size_t), void *p_rng ); #endif /* MBEDTLS_PEM_WRITE_C */ #endif /* MBEDTLS_X509_CSR_WRITE_C */ /** \} addtogroup x509_module */ #ifdef __cplusplus } #endif #endif /* mbedtls_x509_csr.h */
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require 'test_helper' class DocentesControllerTest < ActionController::TestCase setup do @docente = docentes(:one) end test "should get index" do get :index assert_response :success assert_not_nil assigns(:docentes) end test "should create docente" do assert_difference('Docente.count') do post :create, docente: { cedula: @docente.cedula, primer_apellido: @docente.primer_apellido, primer_nombre: @docente.primer_nombre, segundo_apellido: @docente.segundo_apellido, segundo_nombre: @docente.segundo_nombre } end assert_response 201 end test "should show docente" do get :show, id: @docente assert_response :success end test "should update docente" do put :update, id: @docente, docente: { cedula: @docente.cedula, primer_apellido: @docente.primer_apellido, primer_nombre: @docente.primer_nombre, segundo_apellido: @docente.segundo_apellido, segundo_nombre: @docente.segundo_nombre } assert_response 204 end test "should destroy docente" do assert_difference('Docente.count', -1) do delete :destroy, id: @docente end assert_response 204 end end
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import 'vs/css!./viewCursors'; import { FastDomNode, createFastDomNode } from 'vs/base/browser/fastDomNode'; import { IntervalTimer, TimeoutTimer } from 'vs/base/common/async'; import { ViewPart } from 'vs/editor/browser/view/viewPart'; import { IViewCursorRenderData, ViewCursor } from 'vs/editor/browser/viewParts/viewCursors/viewCursor'; import { TextEditorCursorBlinkingStyle, TextEditorCursorStyle } from 'vs/editor/common/config/editorOptions'; import { Position } from 'vs/editor/common/core/position'; import { editorCursorBackground, editorCursorForeground } from 'vs/editor/common/view/editorColorRegistry'; import { RenderingContext, RestrictedRenderingContext } from 'vs/editor/common/view/renderingContext'; import { ViewContext } from 'vs/editor/common/view/viewContext'; import * as viewEvents from 'vs/editor/common/view/viewEvents'; import { registerThemingParticipant } from 'vs/platform/theme/common/themeService'; export class ViewCursors extends ViewPart { static BLINK_INTERVAL = 500; private _readOnly: boolean; private _cursorBlinking: TextEditorCursorBlinkingStyle; private _cursorStyle: TextEditorCursorStyle; private _cursorSmoothCaretAnimation: boolean; private _selectionIsEmpty: boolean; private _isVisible: boolean; private _domNode: FastDomNode<HTMLElement>; private _startCursorBlinkAnimation: TimeoutTimer; private _cursorFlatBlinkInterval: IntervalTimer; private _blinkingEnabled: boolean; private _editorHasFocus: boolean; private _primaryCursor: ViewCursor; private _secondaryCursors: ViewCursor[]; private _renderData: IViewCursorRenderData[]; constructor(context: ViewContext) { super(context); this._readOnly = this._context.configuration.editor.readOnly; this._cursorBlinking = this._context.configuration.editor.viewInfo.cursorBlinking; this._cursorStyle = this._context.configuration.editor.viewInfo.cursorStyle; this._cursorSmoothCaretAnimation = this._context.configuration.editor.viewInfo.cursorSmoothCaretAnimation; this._selectionIsEmpty = true; this._primaryCursor = new ViewCursor(this._context); this._secondaryCursors = []; this._renderData = []; this._domNode = createFastDomNode(document.createElement('div')); this._domNode.setAttribute('role', 'presentation'); this._domNode.setAttribute('aria-hidden', 'true'); this._updateDomClassName(); this._domNode.appendChild(this._primaryCursor.getDomNode()); this._startCursorBlinkAnimation = new TimeoutTimer(); this._cursorFlatBlinkInterval = new IntervalTimer(); this._blinkingEnabled = false; this._editorHasFocus = false; this._updateBlinking(); } public dispose(): void { super.dispose(); this._startCursorBlinkAnimation.dispose(); this._cursorFlatBlinkInterval.dispose(); } public getDomNode(): FastDomNode<HTMLElement> { return this._domNode; } // --- begin event handlers public onConfigurationChanged(e: viewEvents.ViewConfigurationChangedEvent): boolean { if (e.readOnly) { this._readOnly = this._context.configuration.editor.readOnly; } if (e.viewInfo) { this._cursorBlinking = this._context.configuration.editor.viewInfo.cursorBlinking; this._cursorStyle = this._context.configuration.editor.viewInfo.cursorStyle; this._cursorSmoothCaretAnimation = this._context.configuration.editor.viewInfo.cursorSmoothCaretAnimation; } this._primaryCursor.onConfigurationChanged(e); this._updateBlinking(); if (e.viewInfo) { this._updateDomClassName(); } for (let i = 0, len = this._secondaryCursors.length; i < len; i++) { this._secondaryCursors[i].onConfigurationChanged(e); } return true; } private _onCursorPositionChanged(position: Position, secondaryPositions: Position[]): void { this._primaryCursor.onCursorPositionChanged(position); this._updateBlinking(); if (this._secondaryCursors.length < secondaryPositions.length) { // Create new cursors let addCnt = secondaryPositions.length - this._secondaryCursors.length; for (let i = 0; i < addCnt; i++) { let newCursor = new ViewCursor(this._context); this._domNode.domNode.insertBefore(newCursor.getDomNode().domNode, this._primaryCursor.getDomNode().domNode.nextSibling); this._secondaryCursors.push(newCursor); } } else if (this._secondaryCursors.length > secondaryPositions.length) { // Remove some cursors let removeCnt = this._secondaryCursors.length - secondaryPositions.length; for (let i = 0; i < removeCnt; i++) { this._domNode.removeChild(this._secondaryCursors[0].getDomNode()); this._secondaryCursors.splice(0, 1); } } for (let i = 0; i < secondaryPositions.length; i++) { this._secondaryCursors[i].onCursorPositionChanged(secondaryPositions[i]); } } public onCursorStateChanged(e: viewEvents.ViewCursorStateChangedEvent): boolean { let positions: Position[] = []; for (let i = 0, len = e.selections.length; i < len; i++) { positions[i] = e.selections[i].getPosition(); } this._onCursorPositionChanged(positions[0], positions.slice(1)); const selectionIsEmpty = e.selections[0].isEmpty(); if (this._selectionIsEmpty !== selectionIsEmpty) { this._selectionIsEmpty = selectionIsEmpty; this._updateDomClassName(); } return true; } public onDecorationsChanged(e: viewEvents.ViewDecorationsChangedEvent): boolean { // true for inline decorations that can end up relayouting text return true; } public onFlushed(e: viewEvents.ViewFlushedEvent): boolean { return true; } public onFocusChanged(e: viewEvents.ViewFocusChangedEvent): boolean { this._editorHasFocus = e.isFocused; this._updateBlinking(); return false; } public onLinesChanged(e: viewEvents.ViewLinesChangedEvent): boolean { return true; } public onLinesDeleted(e: viewEvents.ViewLinesDeletedEvent): boolean { return true; } public onLinesInserted(e: viewEvents.ViewLinesInsertedEvent): boolean { return true; } public onScrollChanged(e: viewEvents.ViewScrollChangedEvent): boolean { return true; } public onTokensChanged(e: viewEvents.ViewTokensChangedEvent): boolean { let shouldRender = (position: Position) => { for (let i = 0, len = e.ranges.length; i < len; i++) { if (e.ranges[i].fromLineNumber <= position.lineNumber && position.lineNumber <= e.ranges[i].toLineNumber) { return true; } } return false; }; if (shouldRender(this._primaryCursor.getPosition())) { return true; } for (let i = 0; i < this._secondaryCursors.length; i++) { if (shouldRender(this._secondaryCursors[i].getPosition())) { return true; } } return false; } public onZonesChanged(e: viewEvents.ViewZonesChangedEvent): boolean { return true; } // --- end event handlers // ---- blinking logic private _getCursorBlinking(): TextEditorCursorBlinkingStyle { if (!this._editorHasFocus) { return TextEditorCursorBlinkingStyle.Hidden; } if (this._readOnly) { return TextEditorCursorBlinkingStyle.Solid; } return this._cursorBlinking; } private _updateBlinking(): void { this._startCursorBlinkAnimation.cancel(); this._cursorFlatBlinkInterval.cancel(); let blinkingStyle = this._getCursorBlinking(); // hidden and solid are special as they involve no animations let isHidden = (blinkingStyle === TextEditorCursorBlinkingStyle.Hidden); let isSolid = (blinkingStyle === TextEditorCursorBlinkingStyle.Solid); if (isHidden) { this._hide(); } else { this._show(); } this._blinkingEnabled = false; this._updateDomClassName(); if (!isHidden && !isSolid) { if (blinkingStyle === TextEditorCursorBlinkingStyle.Blink) { // flat blinking is handled by JavaScript to save battery life due to Chromium step timing issue https://bugs.chromium.org/p/chromium/issues/detail?id=361587 this._cursorFlatBlinkInterval.cancelAndSet(() => { if (this._isVisible) { this._hide(); } else { this._show(); } }, ViewCursors.BLINK_INTERVAL); } else { this._startCursorBlinkAnimation.setIfNotSet(() => { this._blinkingEnabled = true; this._updateDomClassName(); }, ViewCursors.BLINK_INTERVAL); } } } // --- end blinking logic private _updateDomClassName(): void { this._domNode.setClassName(this._getClassName()); } private _getClassName(): string { let result = 'cursors-layer'; if (!this._selectionIsEmpty) { result += ' has-selection'; } switch (this._cursorStyle) { case TextEditorCursorStyle.Line: result += ' cursor-line-style'; break; case TextEditorCursorStyle.Block: result += ' cursor-block-style'; break; case TextEditorCursorStyle.Underline: result += ' cursor-underline-style'; break; case TextEditorCursorStyle.LineThin: result += ' cursor-line-thin-style'; break; case TextEditorCursorStyle.BlockOutline: result += ' cursor-block-outline-style'; break; case TextEditorCursorStyle.UnderlineThin: result += ' cursor-underline-thin-style'; break; default: result += ' cursor-line-style'; } if (this._blinkingEnabled) { switch (this._getCursorBlinking()) { case TextEditorCursorBlinkingStyle.Blink: result += ' cursor-blink'; break; case TextEditorCursorBlinkingStyle.Smooth: result += ' cursor-smooth'; break; case TextEditorCursorBlinkingStyle.Phase: result += ' cursor-phase'; break; case TextEditorCursorBlinkingStyle.Expand: result += ' cursor-expand'; break; case TextEditorCursorBlinkingStyle.Solid: result += ' cursor-solid'; break; default: result += ' cursor-solid'; } } else { result += ' cursor-solid'; } if (this._cursorSmoothCaretAnimation) { result += ' cursor-smooth-caret-animation'; } return result; } private _show(): void { this._primaryCursor.show(); for (let i = 0, len = this._secondaryCursors.length; i < len; i++) { this._secondaryCursors[i].show(); } this._isVisible = true; } private _hide(): void { this._primaryCursor.hide(); for (let i = 0, len = this._secondaryCursors.length; i < len; i++) { this._secondaryCursors[i].hide(); } this._isVisible = false; } // ---- IViewPart implementation public prepareRender(ctx: RenderingContext): void { this._primaryCursor.prepareRender(ctx); for (let i = 0, len = this._secondaryCursors.length; i < len; i++) { this._secondaryCursors[i].prepareRender(ctx); } } public render(ctx: RestrictedRenderingContext): void { let renderData: IViewCursorRenderData[] = [], renderDataLen = 0; const primaryRenderData = this._primaryCursor.render(ctx); if (primaryRenderData) { renderData[renderDataLen++] = primaryRenderData; } for (let i = 0, len = this._secondaryCursors.length; i < len; i++) { const secondaryRenderData = this._secondaryCursors[i].render(ctx); if (secondaryRenderData) { renderData[renderDataLen++] = secondaryRenderData; } } this._renderData = renderData; } public getLastRenderData(): IViewCursorRenderData[] { return this._renderData; } } registerThemingParticipant((theme, collector) => { const caret = theme.getColor(editorCursorForeground); if (caret) { let caretBackground = theme.getColor(editorCursorBackground); if (!caretBackground) { caretBackground = caret.opposite(); } collector.addRule(`.monaco-editor .cursor { background-color: ${caret}; border-color: ${caret}; color: ${caretBackground}; }`); if (theme.type === 'hc') { collector.addRule(`.monaco-editor .cursors-layer.has-selection .cursor { border-left: 1px solid ${caretBackground}; border-right: 1px solid ${caretBackground}; }`); } } });
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package libnetwork import ( "container/heap" "encoding/json" "fmt" "net" "strings" "sync" log "github.com/Sirupsen/logrus" "github.com/docker/libnetwork/datastore" "github.com/docker/libnetwork/ipamapi" "github.com/docker/libnetwork/netlabel" "github.com/docker/libnetwork/options" "github.com/docker/libnetwork/types" ) // Endpoint represents a logical connection between a network and a sandbox. type Endpoint interface { // A system generated id for this endpoint. ID() string // Name returns the name of this endpoint. Name() string // Network returns the name of the network to which this endpoint is attached. Network() string // Join joins the sandbox to the endpoint and populates into the sandbox // the network resources allocated for the endpoint. Join(sandbox Sandbox, options ...EndpointOption) error // Leave detaches the network resources populated in the sandbox. Leave(sandbox Sandbox, options ...EndpointOption) error // Return certain operational data belonging to this endpoint Info() EndpointInfo // DriverInfo returns a collection of driver operational data related to this endpoint retrieved from the driver DriverInfo() (map[string]interface{}, error) // Delete and detaches this endpoint from the network. Delete(force bool) error } // EndpointOption is an option setter function type used to pass various options to Network // and Endpoint interfaces methods. The various setter functions of type EndpointOption are // provided by libnetwork, they look like <Create|Join|Leave>Option[...](...) type EndpointOption func(ep *endpoint) type endpoint struct { name string id string network *network iface *endpointInterface joinInfo *endpointJoinInfo sandboxID string locator string exposedPorts []types.TransportPort anonymous bool disableResolution bool generic map[string]interface{} joinLeaveDone chan struct{} prefAddress net.IP prefAddressV6 net.IP ipamOptions map[string]string aliases map[string]string myAliases []string svcID string svcName string virtualIP net.IP svcAliases []string ingressPorts []*PortConfig dbIndex uint64 dbExists bool sync.Mutex } func (ep *endpoint) MarshalJSON() ([]byte, error) { ep.Lock() defer ep.Unlock() epMap := make(map[string]interface{}) epMap["name"] = ep.name epMap["id"] = ep.id epMap["ep_iface"] = ep.iface epMap["joinInfo"] = ep.joinInfo epMap["exposed_ports"] = ep.exposedPorts if ep.generic != nil { epMap["generic"] = ep.generic } epMap["sandbox"] = ep.sandboxID epMap["locator"] = ep.locator epMap["anonymous"] = ep.anonymous epMap["disableResolution"] = ep.disableResolution epMap["myAliases"] = ep.myAliases epMap["svcName"] = ep.svcName epMap["svcID"] = ep.svcID epMap["virtualIP"] = ep.virtualIP.String() epMap["ingressPorts"] = ep.ingressPorts epMap["svcAliases"] = ep.svcAliases return json.Marshal(epMap) } func (ep *endpoint) UnmarshalJSON(b []byte) (err error) { ep.Lock() defer ep.Unlock() var epMap map[string]interface{} if err := json.Unmarshal(b, &epMap); err != nil { return err } ep.name = epMap["name"].(string) ep.id = epMap["id"].(string) ib, _ := json.Marshal(epMap["ep_iface"]) json.Unmarshal(ib, &ep.iface) jb, _ := json.Marshal(epMap["joinInfo"]) json.Unmarshal(jb, &ep.joinInfo) tb, _ := json.Marshal(epMap["exposed_ports"]) var tPorts []types.TransportPort json.Unmarshal(tb, &tPorts) ep.exposedPorts = tPorts cb, _ := json.Marshal(epMap["sandbox"]) json.Unmarshal(cb, &ep.sandboxID) if v, ok := epMap["generic"]; ok { ep.generic = v.(map[string]interface{}) if opt, ok := ep.generic[netlabel.PortMap]; ok { pblist := []types.PortBinding{} for i := 0; i < len(opt.([]interface{})); i++ { pb := types.PortBinding{} tmp := opt.([]interface{})[i].(map[string]interface{}) bytes, err := json.Marshal(tmp) if err != nil { log.Error(err) break } err = json.Unmarshal(bytes, &pb) if err != nil { log.Error(err) break } pblist = append(pblist, pb) } ep.generic[netlabel.PortMap] = pblist } if opt, ok := ep.generic[netlabel.ExposedPorts]; ok { tplist := []types.TransportPort{} for i := 0; i < len(opt.([]interface{})); i++ { tp := types.TransportPort{} tmp := opt.([]interface{})[i].(map[string]interface{}) bytes, err := json.Marshal(tmp) if err != nil { log.Error(err) break } err = json.Unmarshal(bytes, &tp) if err != nil { log.Error(err) break } tplist = append(tplist, tp) } ep.generic[netlabel.ExposedPorts] = tplist } } if v, ok := epMap["anonymous"]; ok { ep.anonymous = v.(bool) } if v, ok := epMap["disableResolution"]; ok { ep.disableResolution = v.(bool) } if l, ok := epMap["locator"]; ok { ep.locator = l.(string) } if sn, ok := epMap["svcName"]; ok { ep.svcName = sn.(string) } if si, ok := epMap["svcID"]; ok { ep.svcID = si.(string) } if vip, ok := epMap["virtualIP"]; ok { ep.virtualIP = net.ParseIP(vip.(string)) } sal, _ := json.Marshal(epMap["svcAliases"]) var svcAliases []string json.Unmarshal(sal, &svcAliases) ep.svcAliases = svcAliases pc, _ := json.Marshal(epMap["ingressPorts"]) var ingressPorts []*PortConfig json.Unmarshal(pc, &ingressPorts) ep.ingressPorts = ingressPorts ma, _ := json.Marshal(epMap["myAliases"]) var myAliases []string json.Unmarshal(ma, &myAliases) ep.myAliases = myAliases return nil } func (ep *endpoint) New() datastore.KVObject { return &endpoint{network: ep.getNetwork()} } func (ep *endpoint) CopyTo(o datastore.KVObject) error { ep.Lock() defer ep.Unlock() dstEp := o.(*endpoint) dstEp.name = ep.name dstEp.id = ep.id dstEp.sandboxID = ep.sandboxID dstEp.locator = ep.locator dstEp.dbIndex = ep.dbIndex dstEp.dbExists = ep.dbExists dstEp.anonymous = ep.anonymous dstEp.disableResolution = ep.disableResolution dstEp.svcName = ep.svcName dstEp.svcID = ep.svcID dstEp.virtualIP = ep.virtualIP dstEp.svcAliases = make([]string, len(ep.svcAliases)) copy(dstEp.svcAliases, ep.svcAliases) dstEp.ingressPorts = make([]*PortConfig, len(ep.ingressPorts)) copy(dstEp.ingressPorts, ep.ingressPorts) if ep.iface != nil { dstEp.iface = &endpointInterface{} ep.iface.CopyTo(dstEp.iface) } if ep.joinInfo != nil { dstEp.joinInfo = &endpointJoinInfo{} ep.joinInfo.CopyTo(dstEp.joinInfo) } dstEp.exposedPorts = make([]types.TransportPort, len(ep.exposedPorts)) copy(dstEp.exposedPorts, ep.exposedPorts) dstEp.myAliases = make([]string, len(ep.myAliases)) copy(dstEp.myAliases, ep.myAliases) dstEp.generic = options.Generic{} for k, v := range ep.generic { dstEp.generic[k] = v } return nil } func (ep *endpoint) ID() string { ep.Lock() defer ep.Unlock() return ep.id } func (ep *endpoint) Name() string { ep.Lock() defer ep.Unlock() return ep.name } func (ep *endpoint) MyAliases() []string { ep.Lock() defer ep.Unlock() return ep.myAliases } func (ep *endpoint) Network() string { if ep.network == nil { return "" } return ep.network.name } func (ep *endpoint) isAnonymous() bool { ep.Lock() defer ep.Unlock() return ep.anonymous } func (ep *endpoint) needResolver() bool { ep.Lock() defer ep.Unlock() return !ep.disableResolution } // endpoint Key structure : endpoint/network-id/endpoint-id func (ep *endpoint) Key() []string { if ep.network == nil { return nil } return []string{datastore.EndpointKeyPrefix, ep.network.id, ep.id} } func (ep *endpoint) KeyPrefix() []string { if ep.network == nil { return nil } return []string{datastore.EndpointKeyPrefix, ep.network.id} } func (ep *endpoint) networkIDFromKey(key string) (string, error) { // endpoint Key structure : docker/libnetwork/endpoint/${network-id}/${endpoint-id} // it's an invalid key if the key doesn't have all the 5 key elements above keyElements := strings.Split(key, "/") if !strings.HasPrefix(key, datastore.Key(datastore.EndpointKeyPrefix)) || len(keyElements) < 5 { return "", fmt.Errorf("invalid endpoint key : %v", key) } // network-id is placed at index=3. pls refer to endpoint.Key() method return strings.Split(key, "/")[3], nil } func (ep *endpoint) Value() []byte { b, err := json.Marshal(ep) if err != nil { return nil } return b } func (ep *endpoint) SetValue(value []byte) error { return json.Unmarshal(value, ep) } func (ep *endpoint) Index() uint64 { ep.Lock() defer ep.Unlock() return ep.dbIndex } func (ep *endpoint) SetIndex(index uint64) { ep.Lock() defer ep.Unlock() ep.dbIndex = index ep.dbExists = true } func (ep *endpoint) Exists() bool { ep.Lock() defer ep.Unlock() return ep.dbExists } func (ep *endpoint) Skip() bool { return ep.getNetwork().Skip() } func (ep *endpoint) processOptions(options ...EndpointOption) { ep.Lock() defer ep.Unlock() for _, opt := range options { if opt != nil { opt(ep) } } } func (ep *endpoint) getNetwork() *network { ep.Lock() defer ep.Unlock() return ep.network } func (ep *endpoint) getNetworkFromStore() (*network, error) { if ep.network == nil { return nil, fmt.Errorf("invalid network object in endpoint %s", ep.Name()) } return ep.network.getController().getNetworkFromStore(ep.network.id) } func (ep *endpoint) Join(sbox Sandbox, options ...EndpointOption) error { if sbox == nil { return types.BadRequestErrorf("endpoint cannot be joined by nil container") } sb, ok := sbox.(*sandbox) if !ok { return types.BadRequestErrorf("not a valid Sandbox interface") } sb.joinLeaveStart() defer sb.joinLeaveEnd() return ep.sbJoin(sb, options...) } func (ep *endpoint) sbJoin(sb *sandbox, options ...EndpointOption) error { n, err := ep.getNetworkFromStore() if err != nil { return fmt.Errorf("failed to get network from store during join: %v", err) } ep, err = n.getEndpointFromStore(ep.ID()) if err != nil { return fmt.Errorf("failed to get endpoint from store during join: %v", err) } ep.Lock() if ep.sandboxID != "" { ep.Unlock() return types.ForbiddenErrorf("another container is attached to the same network endpoint") } ep.network = n ep.sandboxID = sb.ID() ep.joinInfo = &endpointJoinInfo{} epid := ep.id ep.Unlock() defer func() { if err != nil { ep.Lock() ep.sandboxID = "" ep.Unlock() } }() nid := n.ID() ep.processOptions(options...) d, err := n.driver(true) if err != nil { return fmt.Errorf("failed to join endpoint: %v", err) } err = d.Join(nid, epid, sb.Key(), ep, sb.Labels()) if err != nil { return err } defer func() { if err != nil { if err := d.Leave(nid, epid); err != nil { log.Warnf("driver leave failed while rolling back join: %v", err) } } }() // Watch for service records if !n.getController().isAgent() { n.getController().watchSvcRecord(ep) } address := "" if ip := ep.getFirstInterfaceAddress(); ip != nil { address = ip.String() } if err = sb.updateHostsFile(address); err != nil { return err } if err = sb.updateDNS(n.enableIPv6); err != nil { return err } if err = n.getController().updateToStore(ep); err != nil { return err } // Current endpoint providing external connectivity for the sandbox extEp := sb.getGatewayEndpoint() sb.Lock() heap.Push(&sb.endpoints, ep) sb.Unlock() defer func() { if err != nil { sb.removeEndpoint(ep) } }() if err = sb.populateNetworkResources(ep); err != nil { return err } if e := ep.addToCluster(); e != nil { log.Errorf("Could not update state for endpoint %s into cluster: %v", ep.Name(), e) } if sb.needDefaultGW() && sb.getEndpointInGWNetwork() == nil { return sb.setupDefaultGW() } moveExtConn := sb.getGatewayEndpoint() != extEp if moveExtConn { if extEp != nil { log.Debugf("Revoking external connectivity on endpoint %s (%s)", extEp.Name(), extEp.ID()) if err = d.RevokeExternalConnectivity(extEp.network.ID(), extEp.ID()); err != nil { return types.InternalErrorf( "driver failed revoking external connectivity on endpoint %s (%s): %v", extEp.Name(), extEp.ID(), err) } defer func() { if err != nil { if e := d.ProgramExternalConnectivity(extEp.network.ID(), extEp.ID(), sb.Labels()); e != nil { log.Warnf("Failed to roll-back external connectivity on endpoint %s (%s): %v", extEp.Name(), extEp.ID(), e) } } }() } if !n.internal { log.Debugf("Programming external connectivity on endpoint %s (%s)", ep.Name(), ep.ID()) if err = d.ProgramExternalConnectivity(n.ID(), ep.ID(), sb.Labels()); err != nil { return types.InternalErrorf( "driver failed programming external connectivity on endpoint %s (%s): %v", ep.Name(), ep.ID(), err) } } } if !sb.needDefaultGW() { if err := sb.clearDefaultGW(); err != nil { log.Warnf("Failure while disconnecting sandbox %s (%s) from gateway network: %v", sb.ID(), sb.ContainerID(), err) } } return nil } func (ep *endpoint) rename(name string) error { var err error n := ep.getNetwork() if n == nil { return fmt.Errorf("network not connected for ep %q", ep.name) } n.getController().Lock() netWatch, ok := n.getController().nmap[n.ID()] n.getController().Unlock() if !ok { return fmt.Errorf("watch null for network %q", n.Name()) } n.updateSvcRecord(ep, n.getController().getLocalEps(netWatch), false) oldName := ep.name oldAnonymous := ep.anonymous ep.name = name ep.anonymous = false n.updateSvcRecord(ep, n.getController().getLocalEps(netWatch), true) defer func() { if err != nil { n.updateSvcRecord(ep, n.getController().getLocalEps(netWatch), false) ep.name = oldName ep.anonymous = oldAnonymous n.updateSvcRecord(ep, n.getController().getLocalEps(netWatch), true) } }() // Update the store with the updated name if err = n.getController().updateToStore(ep); err != nil { return err } // After the name change do a dummy endpoint count update to // trigger the service record update in the peer nodes // Ignore the error because updateStore fail for EpCnt is a // benign error. Besides there is no meaningful recovery that // we can do. When the cluster recovers subsequent EpCnt update // will force the peers to get the correct EP name. n.getEpCnt().updateStore() return err } func (ep *endpoint) hasInterface(iName string) bool { ep.Lock() defer ep.Unlock() return ep.iface != nil && ep.iface.srcName == iName } func (ep *endpoint) Leave(sbox Sandbox, options ...EndpointOption) error { if sbox == nil || sbox.ID() == "" || sbox.Key() == "" { return types.BadRequestErrorf("invalid Sandbox passed to enpoint leave: %v", sbox) } sb, ok := sbox.(*sandbox) if !ok { return types.BadRequestErrorf("not a valid Sandbox interface") } sb.joinLeaveStart() defer sb.joinLeaveEnd() return ep.sbLeave(sb, false, options...) } func (ep *endpoint) sbLeave(sb *sandbox, force bool, options ...EndpointOption) error { n, err := ep.getNetworkFromStore() if err != nil { return fmt.Errorf("failed to get network from store during leave: %v", err) } ep, err = n.getEndpointFromStore(ep.ID()) if err != nil { return fmt.Errorf("failed to get endpoint from store during leave: %v", err) } ep.Lock() sid := ep.sandboxID ep.Unlock() if sid == "" { return types.ForbiddenErrorf("cannot leave endpoint with no attached sandbox") } if sid != sb.ID() { return types.ForbiddenErrorf("unexpected sandbox ID in leave request. Expected %s. Got %s", ep.sandboxID, sb.ID()) } ep.processOptions(options...) d, err := n.driver(!force) if err != nil { return fmt.Errorf("failed to leave endpoint: %v", err) } ep.Lock() ep.sandboxID = "" ep.network = n ep.Unlock() // Current endpoint providing external connectivity to the sandbox extEp := sb.getGatewayEndpoint() moveExtConn := extEp != nil && (extEp.ID() == ep.ID()) if d != nil { if moveExtConn { log.Debugf("Revoking external connectivity on endpoint %s (%s)", ep.Name(), ep.ID()) if err := d.RevokeExternalConnectivity(n.id, ep.id); err != nil { log.Warnf("driver failed revoking external connectivity on endpoint %s (%s): %v", ep.Name(), ep.ID(), err) } } if err := d.Leave(n.id, ep.id); err != nil { if _, ok := err.(types.MaskableError); !ok { log.Warnf("driver error disconnecting container %s : %v", ep.name, err) } } } if err := sb.clearNetworkResources(ep); err != nil { log.Warnf("Could not cleanup network resources on container %s disconnect: %v", ep.name, err) } // Update the store about the sandbox detach only after we // have completed sb.clearNetworkresources above to avoid // spurious logs when cleaning up the sandbox when the daemon // ungracefully exits and restarts before completing sandbox // detach but after store has been updated. if err := n.getController().updateToStore(ep); err != nil { return err } if e := ep.deleteFromCluster(); e != nil { log.Errorf("Could not delete state for endpoint %s from cluster: %v", ep.Name(), e) } sb.deleteHostsEntries(n.getSvcRecords(ep)) if !sb.inDelete && sb.needDefaultGW() && sb.getEndpointInGWNetwork() == nil { return sb.setupDefaultGW() } // New endpoint providing external connectivity for the sandbox extEp = sb.getGatewayEndpoint() if moveExtConn && extEp != nil { log.Debugf("Programming external connectivity on endpoint %s (%s)", extEp.Name(), extEp.ID()) if err := d.ProgramExternalConnectivity(extEp.network.ID(), extEp.ID(), sb.Labels()); err != nil { log.Warnf("driver failed programming external connectivity on endpoint %s: (%s) %v", extEp.Name(), extEp.ID(), err) } } if !sb.needDefaultGW() { if err := sb.clearDefaultGW(); err != nil { log.Warnf("Failure while disconnecting sandbox %s (%s) from gateway network: %v", sb.ID(), sb.ContainerID(), err) } } return nil } func (ep *endpoint) Delete(force bool) error { var err error n, err := ep.getNetworkFromStore() if err != nil { return fmt.Errorf("failed to get network during Delete: %v", err) } ep, err = n.getEndpointFromStore(ep.ID()) if err != nil { return fmt.Errorf("failed to get endpoint from store during Delete: %v", err) } ep.Lock() epid := ep.id name := ep.name sbid := ep.sandboxID ep.Unlock() sb, _ := n.getController().SandboxByID(sbid) if sb != nil && !force { return &ActiveContainerError{name: name, id: epid} } if sb != nil { if e := ep.sbLeave(sb.(*sandbox), force); e != nil { log.Warnf("failed to leave sandbox for endpoint %s : %v", name, e) } } if err = n.getController().deleteFromStore(ep); err != nil { return err } defer func() { if err != nil && !force { ep.dbExists = false if e := n.getController().updateToStore(ep); e != nil { log.Warnf("failed to recreate endpoint in store %s : %v", name, e) } } }() // unwatch for service records n.getController().unWatchSvcRecord(ep) if err = ep.deleteEndpoint(force); err != nil && !force { return err } ep.releaseAddress() if err := n.getEpCnt().DecEndpointCnt(); err != nil { log.Warnf("failed to decrement endpoint coint for ep %s: %v", ep.ID(), err) } return nil } func (ep *endpoint) deleteEndpoint(force bool) error { ep.Lock() n := ep.network name := ep.name epid := ep.id ep.Unlock() driver, err := n.driver(!force) if err != nil { return fmt.Errorf("failed to delete endpoint: %v", err) } if driver == nil { return nil } if err := driver.DeleteEndpoint(n.id, epid); err != nil { if _, ok := err.(types.ForbiddenError); ok { return err } if _, ok := err.(types.MaskableError); !ok { log.Warnf("driver error deleting endpoint %s : %v", name, err) } } return nil } func (ep *endpoint) getSandbox() (*sandbox, bool) { c := ep.network.getController() ep.Lock() sid := ep.sandboxID ep.Unlock() c.Lock() ps, ok := c.sandboxes[sid] c.Unlock() return ps, ok } func (ep *endpoint) getFirstInterfaceAddress() net.IP { ep.Lock() defer ep.Unlock() if ep.iface.addr != nil { return ep.iface.addr.IP } return nil } // EndpointOptionGeneric function returns an option setter for a Generic option defined // in a Dictionary of Key-Value pair func EndpointOptionGeneric(generic map[string]interface{}) EndpointOption { return func(ep *endpoint) { for k, v := range generic { ep.generic[k] = v } } } var ( linkLocalMask = net.CIDRMask(16, 32) linkLocalMaskIPv6 = net.CIDRMask(64, 128) ) // CreateOptionIpam function returns an option setter for the ipam configuration for this endpoint func CreateOptionIpam(ipV4, ipV6 net.IP, llIPs []net.IP, ipamOptions map[string]string) EndpointOption { return func(ep *endpoint) { ep.prefAddress = ipV4 ep.prefAddressV6 = ipV6 if len(llIPs) != 0 { for _, ip := range llIPs { nw := &net.IPNet{IP: ip, Mask: linkLocalMask} if ip.To4() == nil { nw.Mask = linkLocalMaskIPv6 } ep.iface.llAddrs = append(ep.iface.llAddrs, nw) } } ep.ipamOptions = ipamOptions } } // CreateOptionExposedPorts function returns an option setter for the container exposed // ports option to be passed to network.CreateEndpoint() method. func CreateOptionExposedPorts(exposedPorts []types.TransportPort) EndpointOption { return func(ep *endpoint) { // Defensive copy eps := make([]types.TransportPort, len(exposedPorts)) copy(eps, exposedPorts) // Store endpoint label and in generic because driver needs it ep.exposedPorts = eps ep.generic[netlabel.ExposedPorts] = eps } } // CreateOptionPortMapping function returns an option setter for the mapping // ports option to be passed to network.CreateEndpoint() method. func CreateOptionPortMapping(portBindings []types.PortBinding) EndpointOption { return func(ep *endpoint) { // Store a copy of the bindings as generic data to pass to the driver pbs := make([]types.PortBinding, len(portBindings)) copy(pbs, portBindings) ep.generic[netlabel.PortMap] = pbs } } // CreateOptionAnonymous function returns an option setter for setting // this endpoint as anonymous func CreateOptionAnonymous() EndpointOption { return func(ep *endpoint) { ep.anonymous = true } } // CreateOptionDisableResolution function returns an option setter to indicate // this endpoint doesn't want embedded DNS server functionality func CreateOptionDisableResolution() EndpointOption { return func(ep *endpoint) { ep.disableResolution = true } } //CreateOptionAlias function returns an option setter for setting endpoint alias func CreateOptionAlias(name string, alias string) EndpointOption { return func(ep *endpoint) { if ep.aliases == nil { ep.aliases = make(map[string]string) } ep.aliases[alias] = name } } // CreateOptionService function returns an option setter for setting service binding configuration func CreateOptionService(name, id string, vip net.IP, ingressPorts []*PortConfig, aliases []string) EndpointOption { return func(ep *endpoint) { ep.svcName = name ep.svcID = id ep.virtualIP = vip ep.ingressPorts = ingressPorts ep.svcAliases = aliases } } //CreateOptionMyAlias function returns an option setter for setting endpoint's self alias func CreateOptionMyAlias(alias string) EndpointOption { return func(ep *endpoint) { ep.myAliases = append(ep.myAliases, alias) } } // JoinOptionPriority function returns an option setter for priority option to // be passed to the endpoint.Join() method. func JoinOptionPriority(ep Endpoint, prio int) EndpointOption { return func(ep *endpoint) { // ep lock already acquired c := ep.network.getController() c.Lock() sb, ok := c.sandboxes[ep.sandboxID] c.Unlock() if !ok { log.Errorf("Could not set endpoint priority value during Join to endpoint %s: No sandbox id present in endpoint", ep.id) return } sb.epPriority[ep.id] = prio } } func (ep *endpoint) DataScope() string { return ep.getNetwork().DataScope() } func (ep *endpoint) assignAddress(ipam ipamapi.Ipam, assignIPv4, assignIPv6 bool) error { var err error n := ep.getNetwork() if n.hasSpecialDriver() || n.Type() == "routed" { log.Debugf("Not assigning addresses for endpoint %s", ep.Name()) return nil } log.Debugf("Assigning addresses for endpoint %s's interface on network %s", ep.Name(), n.Name()) if assignIPv4 { if err = ep.assignAddressVersion(4, ipam); err != nil { return err } } if assignIPv6 { err = ep.assignAddressVersion(6, ipam) } return err } func (ep *endpoint) assignAddressVersion(ipVer int, ipam ipamapi.Ipam) error { var ( poolID *string address **net.IPNet prefAdd net.IP progAdd net.IP ) n := ep.getNetwork() switch ipVer { case 4: poolID = &ep.iface.v4PoolID address = &ep.iface.addr prefAdd = ep.prefAddress case 6: poolID = &ep.iface.v6PoolID address = &ep.iface.addrv6 prefAdd = ep.prefAddressV6 default: return types.InternalErrorf("incorrect ip version number passed: %d", ipVer) } ipInfo := n.getIPInfo(ipVer) // ipv6 address is not mandatory if len(ipInfo) == 0 && ipVer == 6 { return nil } // The address to program may be chosen by the user or by the network driver in one specific // case to support backward compatibility with `docker daemon --fixed-cidrv6` use case if prefAdd != nil { progAdd = prefAdd } else if *address != nil { progAdd = (*address).IP } for _, d := range ipInfo { if progAdd != nil && !d.Pool.Contains(progAdd) { continue } addr, _, err := ipam.RequestAddress(d.PoolID, progAdd, ep.ipamOptions) if err == nil { ep.Lock() *address = addr *poolID = d.PoolID ep.Unlock() return nil } if err != ipamapi.ErrNoAvailableIPs || progAdd != nil { return err } } if progAdd != nil { return types.BadRequestErrorf("Invalid address %s: It does not belong to any of this network's subnets", prefAdd) } return fmt.Errorf("no available IPv%d addresses on this network's address pools: %s (%s)", ipVer, n.Name(), n.ID()) } func (ep *endpoint) releaseAddress() { n := ep.getNetwork() if n.hasSpecialDriver() || n.Type() == "routed" { return } log.Debugf("Releasing addresses for endpoint %s's interface on network %s", ep.Name(), n.Name()) ipam, _, err := n.getController().getIPAMDriver(n.ipamType) if err != nil { log.Warnf("Failed to retrieve ipam driver to release interface address on delete of endpoint %s (%s): %v", ep.Name(), ep.ID(), err) return } if ep.iface.addr != nil { if err := ipam.ReleaseAddress(ep.iface.v4PoolID, ep.iface.addr.IP); err != nil { log.Warnf("Failed to release ip address %s on delete of endpoint %s (%s): %v", ep.iface.addr.IP, ep.Name(), ep.ID(), err) } } if ep.iface.addrv6 != nil && ep.iface.addrv6.IP.IsGlobalUnicast() { if err := ipam.ReleaseAddress(ep.iface.v6PoolID, ep.iface.addrv6.IP); err != nil { log.Warnf("Failed to release ip address %s on delete of endpoint %s (%s): %v", ep.iface.addrv6.IP, ep.Name(), ep.ID(), err) } } } func (c *controller) cleanupLocalEndpoints() { // Get used endpoints eps := make(map[string]interface{}) for _, sb := range c.sandboxes { for _, ep := range sb.endpoints { eps[ep.id] = true } } nl, err := c.getNetworksForScope(datastore.LocalScope) if err != nil { log.Warnf("Could not get list of networks during endpoint cleanup: %v", err) return } for _, n := range nl { epl, err := n.getEndpointsFromStore() if err != nil { log.Warnf("Could not get list of endpoints in network %s during endpoint cleanup: %v", n.name, err) continue } for _, ep := range epl { if _, ok := eps[ep.id]; ok { continue } log.Infof("Removing stale endpoint %s (%s)", ep.name, ep.id) if err := ep.Delete(true); err != nil { log.Warnf("Could not delete local endpoint %s during endpoint cleanup: %v", ep.name, err) } } epl, err = n.getEndpointsFromStore() if err != nil { log.Warnf("Could not get list of endpoints in network %s for count update: %v", n.name, err) continue } epCnt := n.getEpCnt().EndpointCnt() if epCnt != uint64(len(epl)) { log.Infof("Fixing inconsistent endpoint_cnt for network %s. Expected=%d, Actual=%d", n.name, len(epl), epCnt) n.getEpCnt().setCnt(uint64(len(epl))) } } }
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package java.net; import java.io.FileDescriptor; import java.io.IOException; import java.nio.channels.ServerSocketChannel; /* J2ObjC removed import java.security.AccessController; import java.security.PrivilegedExceptionAction; */ /** * This class implements server sockets. A server socket waits for * requests to come in over the network. It performs some operation * based on that request, and then possibly returns a result to the requester. * <p> * The actual work of the server socket is performed by an instance * of the {@code SocketImpl} class. An application can * change the socket factory that creates the socket * implementation to configure itself to create sockets * appropriate to the local firewall. * * @author unascribed * @see java.net.SocketImpl * @see java.net.ServerSocket#setSocketFactory(java.net.SocketImplFactory) * @see java.nio.channels.ServerSocketChannel * @since JDK1.0 */ public class ServerSocket implements java.io.Closeable { /** * Various states of this socket. */ private boolean created = false; private boolean bound = false; private boolean closed = false; private Object closeLock = new Object(); /** * The implementation of this Socket. */ private SocketImpl impl; /** * Are we using an older SocketImpl? */ private boolean oldImpl = false; /** * Package-private constructor to create a ServerSocket associated with * the given SocketImpl. */ ServerSocket(SocketImpl impl) { this.impl = impl; impl.setServerSocket(this); } /** * Creates an unbound server socket. * * @exception IOException IO error when opening the socket. * @revised 1.4 */ public ServerSocket() throws IOException { setImpl(); } /** * Creates a server socket, bound to the specified port. A port number * of {@code 0} means that the port number is automatically * allocated, typically from an ephemeral port range. This port * number can then be retrieved by calling {@link #getLocalPort getLocalPort}. * <p> * The maximum queue length for incoming connection indications (a * request to connect) is set to {@code 50}. If a connection * indication arrives when the queue is full, the connection is refused. * <p> * If the application has specified a server socket factory, that * factory's {@code createSocketImpl} method is called to create * the actual socket implementation. Otherwise a "plain" socket is created. * <p> * If there is a security manager, * its {@code checkListen} method is called * with the {@code port} argument * as its argument to ensure the operation is allowed. * This could result in a SecurityException. * * * @param port the port number, or {@code 0} to use a port * number that is automatically allocated. * * @exception IOException if an I/O error occurs when opening the socket. * @exception SecurityException * if a security manager exists and its {@code checkListen} * method doesn't allow the operation. * @exception IllegalArgumentException if the port parameter is outside * the specified range of valid port values, which is between * 0 and 65535, inclusive. * * @see java.net.SocketImpl * @see java.net.SocketImplFactory#createSocketImpl() * @see java.net.ServerSocket#setSocketFactory(java.net.SocketImplFactory) * @see SecurityManager#checkListen */ public ServerSocket(int port) throws IOException { this(port, 50, null); } /** * Creates a server socket and binds it to the specified local port * number, with the specified backlog. * A port number of {@code 0} means that the port number is * automatically allocated, typically from an ephemeral port range. * This port number can then be retrieved by calling * {@link #getLocalPort getLocalPort}. * <p> * The maximum queue length for incoming connection indications (a * request to connect) is set to the {@code backlog} parameter. If * a connection indication arrives when the queue is full, the * connection is refused. * <p> * If the application has specified a server socket factory, that * factory's {@code createSocketImpl} method is called to create * the actual socket implementation. Otherwise a "plain" socket is created. * <p> * If there is a security manager, * its {@code checkListen} method is called * with the {@code port} argument * as its argument to ensure the operation is allowed. * This could result in a SecurityException. * * The {@code backlog} argument is the requested maximum number of * pending connections on the socket. Its exact semantics are implementation * specific. In particular, an implementation may impose a maximum length * or may choose to ignore the parameter altogther. The value provided * should be greater than {@code 0}. If it is less than or equal to * {@code 0}, then an implementation specific default will be used. * <P> * * @param port the port number, or {@code 0} to use a port * number that is automatically allocated. * @param backlog requested maximum length of the queue of incoming * connections. * * @exception IOException if an I/O error occurs when opening the socket. * @exception SecurityException * if a security manager exists and its {@code checkListen} * method doesn't allow the operation. * @exception IllegalArgumentException if the port parameter is outside * the specified range of valid port values, which is between * 0 and 65535, inclusive. * * @see java.net.SocketImpl * @see java.net.SocketImplFactory#createSocketImpl() * @see java.net.ServerSocket#setSocketFactory(java.net.SocketImplFactory) * @see SecurityManager#checkListen */ public ServerSocket(int port, int backlog) throws IOException { this(port, backlog, null); } /** * Create a server with the specified port, listen backlog, and * local IP address to bind to. The <i>bindAddr</i> argument * can be used on a multi-homed host for a ServerSocket that * will only accept connect requests to one of its addresses. * If <i>bindAddr</i> is null, it will default accepting * connections on any/all local addresses. * The port must be between 0 and 65535, inclusive. * A port number of {@code 0} means that the port number is * automatically allocated, typically from an ephemeral port range. * This port number can then be retrieved by calling * {@link #getLocalPort getLocalPort}. * * <P>If there is a security manager, this method * calls its {@code checkListen} method * with the {@code port} argument * as its argument to ensure the operation is allowed. * This could result in a SecurityException. * * The {@code backlog} argument is the requested maximum number of * pending connections on the socket. Its exact semantics are implementation * specific. In particular, an implementation may impose a maximum length * or may choose to ignore the parameter altogther. The value provided * should be greater than {@code 0}. If it is less than or equal to * {@code 0}, then an implementation specific default will be used. * <P> * @param port the port number, or {@code 0} to use a port * number that is automatically allocated. * @param backlog requested maximum length of the queue of incoming * connections. * @param bindAddr the local InetAddress the server will bind to * * @throws SecurityException if a security manager exists and * its {@code checkListen} method doesn't allow the operation. * * @throws IOException if an I/O error occurs when opening the socket. * @exception IllegalArgumentException if the port parameter is outside * the specified range of valid port values, which is between * 0 and 65535, inclusive. * * @see SocketOptions * @see SocketImpl * @see SecurityManager#checkListen * @since JDK1.1 */ public ServerSocket(int port, int backlog, InetAddress bindAddr) throws IOException { setImpl(); if (port < 0 || port > 0xFFFF) throw new IllegalArgumentException( "Port value out of range: " + port); if (backlog < 1) backlog = 50; try { bind(new InetSocketAddress(bindAddr, port), backlog); } catch(SecurityException e) { close(); throw e; } catch(IOException e) { close(); throw e; } } // Android-changed: Made getImpl() public and @hide, for internal use. /** * Get the {@code SocketImpl} attached to this socket, creating * it if necessary. * * @return the {@code SocketImpl} attached to that ServerSocket. * @throws SocketException if creation fails. * @since 1.4 * @hide */ public SocketImpl getImpl() throws SocketException { if (!created) createImpl(); return impl; } private void checkOldImpl() { if (impl == null) return; // SocketImpl.connect() is a protected method, therefore we need to use // getDeclaredMethod, therefore we need permission to access the member try { /* J2ObjC removed. AccessController.doPrivileged( new PrivilegedExceptionAction<Void>() { public Void run() throws NoSuchMethodException { */ impl.getClass().getDeclaredMethod("connect", SocketAddress.class, int.class); /* return null; } }); } catch (java.security.PrivilegedActionException e) { */ } catch (NoSuchMethodException e) { oldImpl = true; } } private void setImpl() { if (factory != null) { impl = factory.createSocketImpl(); checkOldImpl(); } else { // No need to do a checkOldImpl() here, we know it's an up to date // SocketImpl! impl = new SocksSocketImpl(); } if (impl != null) impl.setServerSocket(this); } /** * Creates the socket implementation. * * @throws IOException if creation fails * @since 1.4 */ void createImpl() throws SocketException { if (impl == null) setImpl(); try { impl.create(true); created = true; } catch (IOException e) { throw new SocketException(e.getMessage()); } } /** * * Binds the {@code ServerSocket} to a specific address * (IP address and port number). * <p> * If the address is {@code null}, then the system will pick up * an ephemeral port and a valid local address to bind the socket. * <p> * @param endpoint The IP address and port number to bind to. * @throws IOException if the bind operation fails, or if the socket * is already bound. * @throws SecurityException if a {@code SecurityManager} is present and * its {@code checkListen} method doesn't allow the operation. * @throws IllegalArgumentException if endpoint is a * SocketAddress subclass not supported by this socket * @since 1.4 */ public void bind(SocketAddress endpoint) throws IOException { bind(endpoint, 50); } /** * * Binds the {@code ServerSocket} to a specific address * (IP address and port number). * <p> * If the address is {@code null}, then the system will pick up * an ephemeral port and a valid local address to bind the socket. * <P> * The {@code backlog} argument is the requested maximum number of * pending connections on the socket. Its exact semantics are implementation * specific. In particular, an implementation may impose a maximum length * or may choose to ignore the parameter altogther. The value provided * should be greater than {@code 0}. If it is less than or equal to * {@code 0}, then an implementation specific default will be used. * @param endpoint The IP address and port number to bind to. * @param backlog requested maximum length of the queue of * incoming connections. * @throws IOException if the bind operation fails, or if the socket * is already bound. * @throws SecurityException if a {@code SecurityManager} is present and * its {@code checkListen} method doesn't allow the operation. * @throws IllegalArgumentException if endpoint is a * SocketAddress subclass not supported by this socket * @since 1.4 */ public void bind(SocketAddress endpoint, int backlog) throws IOException { if (isClosed()) throw new SocketException("Socket is closed"); if (!oldImpl && isBound()) throw new SocketException("Already bound"); if (endpoint == null) endpoint = new InetSocketAddress(0); if (!(endpoint instanceof InetSocketAddress)) throw new IllegalArgumentException("Unsupported address type"); InetSocketAddress epoint = (InetSocketAddress) endpoint; if (epoint.isUnresolved()) throw new SocketException("Unresolved address"); if (backlog < 1) backlog = 50; try { SecurityManager security = System.getSecurityManager(); if (security != null) security.checkListen(epoint.getPort()); getImpl().bind(epoint.getAddress(), epoint.getPort()); getImpl().listen(backlog); bound = true; } catch(SecurityException e) { bound = false; throw e; } catch(IOException e) { bound = false; throw e; } } /** * Returns the local address of this server socket. * <p> * If the socket was bound prior to being {@link #close closed}, * then this method will continue to return the local address * after the socket is closed. * <p> * If there is a security manager set, its {@code checkConnect} method is * called with the local address and {@code -1} as its arguments to see * if the operation is allowed. If the operation is not allowed, * the {@link InetAddress#getLoopbackAddress loopback} address is returned. * * @return the address to which this socket is bound, * or the loopback address if denied by the security manager, * or {@code null} if the socket is unbound. * * @see SecurityManager#checkConnect */ public InetAddress getInetAddress() { if (!isBound()) return null; try { InetAddress in = getImpl().getInetAddress(); SecurityManager sm = System.getSecurityManager(); if (sm != null) sm.checkConnect(in.getHostAddress(), -1); return in; } catch (SecurityException e) { return InetAddress.getLoopbackAddress(); } catch (SocketException e) { // nothing // If we're bound, the impl has been created // so we shouldn't get here } return null; } /** * Returns the port number on which this socket is listening. * <p> * If the socket was bound prior to being {@link #close closed}, * then this method will continue to return the port number * after the socket is closed. * * @return the port number to which this socket is listening or * -1 if the socket is not bound yet. */ public int getLocalPort() { if (!isBound()) return -1; try { return getImpl().getLocalPort(); } catch (SocketException e) { // nothing // If we're bound, the impl has been created // so we shouldn't get here } return -1; } /** * Returns the address of the endpoint this socket is bound to. * <p> * If the socket was bound prior to being {@link #close closed}, * then this method will continue to return the address of the endpoint * after the socket is closed. * <p> * If there is a security manager set, its {@code checkConnect} method is * called with the local address and {@code -1} as its arguments to see * if the operation is allowed. If the operation is not allowed, * a {@code SocketAddress} representing the * {@link InetAddress#getLoopbackAddress loopback} address and the local * port to which the socket is bound is returned. * * @return a {@code SocketAddress} representing the local endpoint of * this socket, or a {@code SocketAddress} representing the * loopback address if denied by the security manager, * or {@code null} if the socket is not bound yet. * * @see #getInetAddress() * @see #getLocalPort() * @see #bind(SocketAddress) * @see SecurityManager#checkConnect * @since 1.4 */ public SocketAddress getLocalSocketAddress() { if (!isBound()) return null; return new InetSocketAddress(getInetAddress(), getLocalPort()); } /** * Listens for a connection to be made to this socket and accepts * it. The method blocks until a connection is made. * * <p>A new Socket {@code s} is created and, if there * is a security manager, * the security manager's {@code checkAccept} method is called * with {@code s.getInetAddress().getHostAddress()} and * {@code s.getPort()} * as its arguments to ensure the operation is allowed. * This could result in a SecurityException. * * @exception IOException if an I/O error occurs when waiting for a * connection. * @exception SecurityException if a security manager exists and its * {@code checkAccept} method doesn't allow the operation. * @exception SocketTimeoutException if a timeout was previously set with setSoTimeout and * the timeout has been reached. * @exception java.nio.channels.IllegalBlockingModeException * if this socket has an associated channel, the channel is in * non-blocking mode, and there is no connection ready to be * accepted * * @return the new Socket * @see SecurityManager#checkAccept * @revised 1.4 * @spec JSR-51 */ public Socket accept() throws IOException { if (isClosed()) throw new SocketException("Socket is closed"); if (!isBound()) throw new SocketException("Socket is not bound yet"); Socket s = new Socket((SocketImpl) null); implAccept(s); return s; } /** * Subclasses of ServerSocket use this method to override accept() * to return their own subclass of socket. So a FooServerSocket * will typically hand this method an <i>empty</i> FooSocket. On * return from implAccept the FooSocket will be connected to a client. * * @param s the Socket * @throws java.nio.channels.IllegalBlockingModeException * if this socket has an associated channel, * and the channel is in non-blocking mode * @throws IOException if an I/O error occurs when waiting * for a connection. * @since JDK1.1 * @revised 1.4 * @spec JSR-51 */ protected final void implAccept(Socket s) throws IOException { SocketImpl si = null; try { if (s.impl == null) s.setImpl(); else { s.impl.reset(); } si = s.impl; s.impl = null; si.address = new InetAddress(); si.fd = new FileDescriptor(); getImpl().accept(si); SecurityManager security = System.getSecurityManager(); if (security != null) { security.checkAccept(si.getInetAddress().getHostAddress(), si.getPort()); } } catch (IOException e) { if (si != null) si.reset(); s.impl = si; throw e; } catch (SecurityException e) { if (si != null) si.reset(); s.impl = si; throw e; } s.impl = si; s.postAccept(); } /** * Closes this socket. * * Any thread currently blocked in {@link #accept()} will throw * a {@link SocketException}. * * <p> If this socket has an associated channel then the channel is closed * as well. * * @exception IOException if an I/O error occurs when closing the socket. * @revised 1.4 * @spec JSR-51 */ public void close() throws IOException { synchronized(closeLock) { if (isClosed()) return; if (created) impl.close(); closed = true; } } /** * Returns the unique {@link java.nio.channels.ServerSocketChannel} object * associated with this socket, if any. * * <p> A server socket will have a channel if, and only if, the channel * itself was created via the {@link * java.nio.channels.ServerSocketChannel#open ServerSocketChannel.open} * method. * * @return the server-socket channel associated with this socket, * or {@code null} if this socket was not created * for a channel * * @since 1.4 * @spec JSR-51 */ public ServerSocketChannel getChannel() { return null; } /** * Returns the binding state of the ServerSocket. * * @return true if the ServerSocket successfully bound to an address * @since 1.4 */ public boolean isBound() { // Before 1.3 ServerSockets were always bound during creation return bound || oldImpl; } /** * Returns the closed state of the ServerSocket. * * @return true if the socket has been closed * @since 1.4 */ public boolean isClosed() { synchronized(closeLock) { return closed; } } /** * Enable/disable {@link SocketOptions#SO_TIMEOUT SO_TIMEOUT} with the * specified timeout, in milliseconds. With this option set to a non-zero * timeout, a call to accept() for this ServerSocket * will block for only this amount of time. If the timeout expires, * a <B>java.net.SocketTimeoutException</B> is raised, though the * ServerSocket is still valid. The option <B>must</B> be enabled * prior to entering the blocking operation to have effect. The * timeout must be {@code > 0}. * A timeout of zero is interpreted as an infinite timeout. * @param timeout the specified timeout, in milliseconds * @exception SocketException if there is an error in * the underlying protocol, such as a TCP error. * @since JDK1.1 * @see #getSoTimeout() */ public synchronized void setSoTimeout(int timeout) throws SocketException { if (isClosed()) throw new SocketException("Socket is closed"); getImpl().setOption(SocketOptions.SO_TIMEOUT, new Integer(timeout)); } /** * Retrieve setting for {@link SocketOptions#SO_TIMEOUT SO_TIMEOUT}. * 0 returns implies that the option is disabled (i.e., timeout of infinity). * @return the {@link SocketOptions#SO_TIMEOUT SO_TIMEOUT} value * @exception IOException if an I/O error occurs * @since JDK1.1 * @see #setSoTimeout(int) */ public synchronized int getSoTimeout() throws IOException { if (isClosed()) throw new SocketException("Socket is closed"); Object o = getImpl().getOption(SocketOptions.SO_TIMEOUT); /* extra type safety */ if (o instanceof Integer) { return ((Integer) o).intValue(); } else { return 0; } } /** * Enable/disable the {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} * socket option. * <p> * When a TCP connection is closed the connection may remain * in a timeout state for a period of time after the connection * is closed (typically known as the {@code TIME_WAIT} state * or {@code 2MSL} wait state). * For applications using a well known socket address or port * it may not be possible to bind a socket to the required * {@code SocketAddress} if there is a connection in the * timeout state involving the socket address or port. * <p> * Enabling {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} prior to * binding the socket using {@link #bind(SocketAddress)} allows the socket * to be bound even though a previous connection is in a timeout state. * <p> * When a {@code ServerSocket} is created the initial setting * of {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} is not defined. * Applications can use {@link #getReuseAddress()} to determine the initial * setting of {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR}. * <p> * The behaviour when {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} is * enabled or disabled after a socket is bound (See {@link #isBound()}) * is not defined. * * @param on whether to enable or disable the socket option * @exception SocketException if an error occurs enabling or * disabling the {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} * socket option, or the socket is closed. * @since 1.4 * @see #getReuseAddress() * @see #bind(SocketAddress) * @see #isBound() * @see #isClosed() */ public void setReuseAddress(boolean on) throws SocketException { if (isClosed()) throw new SocketException("Socket is closed"); getImpl().setOption(SocketOptions.SO_REUSEADDR, Boolean.valueOf(on)); } /** * Tests if {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} is enabled. * * @return a {@code boolean} indicating whether or not * {@link SocketOptions#SO_REUSEADDR SO_REUSEADDR} is enabled. * @exception SocketException if there is an error * in the underlying protocol, such as a TCP error. * @since 1.4 * @see #setReuseAddress(boolean) */ public boolean getReuseAddress() throws SocketException { if (isClosed()) throw new SocketException("Socket is closed"); return ((Boolean) (getImpl().getOption(SocketOptions.SO_REUSEADDR))).booleanValue(); } /** * Returns the implementation address and implementation port of * this socket as a {@code String}. * <p> * If there is a security manager set, its {@code checkConnect} method is * called with the local address and {@code -1} as its arguments to see * if the operation is allowed. If the operation is not allowed, * an {@code InetAddress} representing the * {@link InetAddress#getLoopbackAddress loopback} address is returned as * the implementation address. * * @return a string representation of this socket. */ public String toString() { if (!isBound()) return "ServerSocket[unbound]"; InetAddress in; if (System.getSecurityManager() != null) in = InetAddress.getLoopbackAddress(); else in = impl.getInetAddress(); return "ServerSocket[addr=" + in + ",localport=" + impl.getLocalPort() + "]"; } void setBound() { bound = true; } void setCreated() { created = true; } /** * The factory for all server sockets. */ private static SocketImplFactory factory = null; /** * Sets the server socket implementation factory for the * application. The factory can be specified only once. * <p> * When an application creates a new server socket, the socket * implementation factory's {@code createSocketImpl} method is * called to create the actual socket implementation. * <p> * Passing {@code null} to the method is a no-op unless the factory * was already set. * <p> * If there is a security manager, this method first calls * the security manager's {@code checkSetFactory} method * to ensure the operation is allowed. * This could result in a SecurityException. * * @param fac the desired factory. * @exception IOException if an I/O error occurs when setting the * socket factory. * @exception SocketException if the factory has already been defined. * @exception SecurityException if a security manager exists and its * {@code checkSetFactory} method doesn't allow the operation. * @see java.net.SocketImplFactory#createSocketImpl() * @see SecurityManager#checkSetFactory */ public static synchronized void setSocketFactory(SocketImplFactory fac) throws IOException { if (factory != null) { throw new SocketException("factory already defined"); } SecurityManager security = System.getSecurityManager(); if (security != null) { security.checkSetFactory(); } factory = fac; } /** * Sets a default proposed value for the * {@link SocketOptions#SO_RCVBUF SO_RCVBUF} option for sockets * accepted from this {@code ServerSocket}. The value actually set * in the accepted socket must be determined by calling * {@link Socket#getReceiveBufferSize()} after the socket * is returned by {@link #accept()}. * <p> * The value of {@link SocketOptions#SO_RCVBUF SO_RCVBUF} is used both to * set the size of the internal socket receive buffer, and to set the size * of the TCP receive window that is advertized to the remote peer. * <p> * It is possible to change the value subsequently, by calling * {@link Socket#setReceiveBufferSize(int)}. However, if the application * wishes to allow a receive window larger than 64K bytes, as defined by RFC1323 * then the proposed value must be set in the ServerSocket <B>before</B> * it is bound to a local address. This implies, that the ServerSocket must be * created with the no-argument constructor, then setReceiveBufferSize() must * be called and lastly the ServerSocket is bound to an address by calling bind(). * <p> * Failure to do this will not cause an error, and the buffer size may be set to the * requested value but the TCP receive window in sockets accepted from * this ServerSocket will be no larger than 64K bytes. * * @exception SocketException if there is an error * in the underlying protocol, such as a TCP error. * * @param size the size to which to set the receive buffer * size. This value must be greater than 0. * * @exception IllegalArgumentException if the * value is 0 or is negative. * * @since 1.4 * @see #getReceiveBufferSize */ public synchronized void setReceiveBufferSize (int size) throws SocketException { if (!(size > 0)) { throw new IllegalArgumentException("negative receive size"); } if (isClosed()) throw new SocketException("Socket is closed"); getImpl().setOption(SocketOptions.SO_RCVBUF, new Integer(size)); } /** * Gets the value of the {@link SocketOptions#SO_RCVBUF SO_RCVBUF} option * for this {@code ServerSocket}, that is the proposed buffer size that * will be used for Sockets accepted from this {@code ServerSocket}. * * <p>Note, the value actually set in the accepted socket is determined by * calling {@link Socket#getReceiveBufferSize()}. * @return the value of the {@link SocketOptions#SO_RCVBUF SO_RCVBUF} * option for this {@code Socket}. * @exception SocketException if there is an error * in the underlying protocol, such as a TCP error. * @see #setReceiveBufferSize(int) * @since 1.4 */ public synchronized int getReceiveBufferSize() throws SocketException{ if (isClosed()) throw new SocketException("Socket is closed"); int result = 0; Object o = getImpl().getOption(SocketOptions.SO_RCVBUF); if (o instanceof Integer) { result = ((Integer)o).intValue(); } return result; } /** * Sets performance preferences for this ServerSocket. * * <p> Sockets use the TCP/IP protocol by default. Some implementations * may offer alternative protocols which have different performance * characteristics than TCP/IP. This method allows the application to * express its own preferences as to how these tradeoffs should be made * when the implementation chooses from the available protocols. * * <p> Performance preferences are described by three integers * whose values indicate the relative importance of short connection time, * low latency, and high bandwidth. The absolute values of the integers * are irrelevant; in order to choose a protocol the values are simply * compared, with larger values indicating stronger preferences. If the * application prefers short connection time over both low latency and high * bandwidth, for example, then it could invoke this method with the values * {@code (1, 0, 0)}. If the application prefers high bandwidth above low * latency, and low latency above short connection time, then it could * invoke this method with the values {@code (0, 1, 2)}. * * <p> Invoking this method after this socket has been bound * will have no effect. This implies that in order to use this capability * requires the socket to be created with the no-argument constructor. * * @param connectionTime * An {@code int} expressing the relative importance of a short * connection time * * @param latency * An {@code int} expressing the relative importance of low * latency * * @param bandwidth * An {@code int} expressing the relative importance of high * bandwidth * * @since 1.5 */ public void setPerformancePreferences(int connectionTime, int latency, int bandwidth) { /* Not implemented yet */ } // Android-added: getFileDescriptor$(), for testing / internal use. /** * @hide internal use only */ public FileDescriptor getFileDescriptor$() { return impl.getFileDescriptor(); } }
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<?xml version="1.0" encoding="utf-8"?> <selector xmlns:android="http://schemas.android.com/apk/res/android"> <item android:drawable="@mipmap/btn_image_editor_save_pressed" android:state_pressed="true"/> <item android:drawable="@mipmap/btn_image_editor_save_normal"/> </selector>
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