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the_stack_data/9513508.c	#include <time.h> #include <stdio.h> #include <stdlib.h> enum { n = 10000, max_abs_val = 1000000 }; void swap(int* a, int* b) { int t = b; b = a; a = t; } void isort3(size_t n, int x[n]) { for (size_t i = 1; i < n; ++i) { int t = x[i]; int j; for (j = i; j > 0 && x[j-1] > x[j]; --j) { x[j] = x[j-1]; } x[j] = t; } } void qsort4(size_t n, int x[n], int l, int u, int cutoff) { if (u-l < cutoff) { return; } int t = x[l]; int i = l; int j = u+1; for (;;) { do { ++i; } while (i <= u && x[i] < t); do { --j; } while (x[j] > t); if (i > j) { break; } swap(&x[i], &x[j]); } swap(&x[l], &x[j]); qsort4(n, x, l, j-1, cutoff); qsort4(n, x, j+1, u, cutoff); } void genrandarray(size_t n, int x[n], int max_abs) { for (size_t i = 0; i < n; ++i) { x[i] = rand() % (max_abs * 2) - max_abs; } } void printarray(size_t n, int x[n]) { for (size_t i = 0; i < n; ++i) { printf("%d ", x[i]); } printf("\n"); } int main(int argc, char* argv[argc+1]) { int* x = malloc(n * sizeof *x); clock_t start, end; double elapsed; genrandarray(n, x, max_abs_val); for (int cutoff = 1; cutoff < 90; cutoff += 1) { start = clock(); qsort4(n, x, 0, n-1, cutoff); isort3(n, x); end = clock(); elapsed = ((double)(end - start)) / CLOCKS_PER_SEC; printf("%d\t%g\n", cutoff, elapsed); } free(x); return EXIT_SUCCESS; }
the_stack_data/48575701.c	// TERM. int main() { return 0; }
the_stack_data/90765402.c	/* { dg-do run } / / { dg-options "-O -fdump-tree-ccp1" } / extern void abort (void); static int g[1]; static int const p = &g[0]; static int * const q = &g[0]; int main(void) { g[0] = 1; p = 0; p = q; if (g[0] != 0) abort (); return 0; } / We should have replaced all loads from p and q with the constant initial value. / / { dg-final { scan-tree-dump-times "= p;" 0 "ccp1" } } / / { dg-final { scan-tree-dump-times "= q;" 0 "ccp1" } } */
the_stack_data/70449848.c	// Copyright (c) 2020, devgo.club // All rights reserved. #include <stdlib.h> #include <stdio.h> #include <fcntl.h> #include <unistd.h> #include <errno.h> #include <string.h> #include <signal.h> #include <assert.h> void handle_signal(int signo) { printf("### handle_signal; signo = %d\n", signo); exit(0); } void demo(int m, int n) { assert(m <= n); for (int i = m; i < n; i++) { printf("[%d] i = %d\n", getpid(), i); sleep(1); } } int main(int argc, char const *argv[]) { if (signal(SIGINT, &handle_signal) != NULL) { fprintf(stderr, "signal failed: %s\n", strerror(errno)); return errno; } pid_t pid = fork(); if (pid < 0) { fprintf(stderr, "fork failed: %s\n", strerror(errno)); return errno; } else if (pid == 0) { // child process demo(1, 100); } else { // parent process kill(pid, SIGINT); demo(100, 200); } }
the_stack_data/48574489.c	// subnet.c // handle human readable ip as computer usable bit string // creates big endian bit string (ignoring system architecture) // example: // int subnet[] = {192, 168, 100, 99, 24}; // unsigned int userIp = ip4AddrArrToBits(subnet); // unsigned int mask = getIp4MaskFromCidr(subnet[4]); // unsigned int ntwAddr = getIp4NtwAddr(userIp, mask); // unsigned int firstAddr = ntwAddr + 1; // unsigned int bcastAddr = getIp4BcastAddr(ntwAddr, subnet[4]); // unsigned int lastAddr = bcastAddr - 1; // for debugging endianess: // struct sockaddr_in myaddr; // myaddr.sin_family = AF_INET; // myaddr.sin_port = htons(55); // inet_aton("127.0.0.1", &myaddr.sin_addr.s_addr); // printf("struct localhost: %d\n", myaddr.sin_addr.s_addr); // printf("ntohl(struct) localhost: %d\n", ntohl(myaddr.sin_addr.s_addr)); // printf("calc localhost: %d\n", addr); // printf("htonl(calc) localhost: %d\n", htonl(addr)); // printf("big localhost: %d\n", 0x7f000001); // printf("little localhost: %d\n", 0x100007f); // struct localhost: 16777343 // ntohl(struct) localhost: 2130706433 // calc localhost: 2130706433 // htonl(calc) localhost: 16777343 // big localhost: 2130706433 // little localhost: 16777343 #include <stdio.h> #include <math.h> unsigned int ip4AddrArrToBits(int * ipArr) { unsigned int ip = (ipArr[0] << 24 \| ipArr[1] << 16 \| ipArr[2] << 8 \| ipArr[3]); return ip; } int bitsToIp4AddrArr(unsigned int ipInt, int * ipArr) { ipArr[0] = (ipInt & 0xff000000) >> 24; ipArr[1] = (ipInt & 0x00ff0000) >> 16; ipArr[2] = (ipInt & 0x0000ff00) >> 8; ipArr[3] = (ipInt & 0x000000ff); return 0; } int printIp4(int ip) { printf("%d.%d.%d.%d\n", (ip & 0xff000000) >> 24, (ip & 0x00ff0000) >> 16, (ip & 0x0000ff00) >> 8, (ip & 0x000000ff)); return 0; } unsigned int getIp4MaskFromCidr(int cidr) { // use shift because pow trick only works with big endian: 2^cidr - 1 return 4294967295 << (32-cidr); } unsigned int getIp4NtwAddr(unsigned int ip, unsigned int mask) { // eg. 10.10.10.10 & 255.255.0.0 = 10.10.0.0 return ip & mask; } unsigned int getIp4BcastAddr (unsigned int ntwAddr, int cidr) { // eg. 0.0.0.255 \| 10.10.10 = 10.10.10.255 return (4294967295 >> cidr) \| ntwAddr; }
the_stack_data/123294.c	int ext(int p); int g(a) { int x; a = 55; if(a > 0) x = a + 22; else x = a - 22; return x; } int main() { int x = 0; int a = 0; int b = 0; if(x == 0) { a = 0; b = 5; } else { a = 10; b = 15; } if(a > b) { x = 1; } else { x = 2; } a = 55; a = g(55); }
the_stack_data/165767884.c	/ **************************************************************************** * @file syscalls.c * @author Auto-generated by STM32CubeIDE * @brief STM32CubeIDE Minimal System calls file * * For more information about which c-functions * need which of these lowlevel functions * please consult the Newlib libc-manual ****************************************************************************** * @attention * * <h2><center>© Copyright (c) 2020 STMicroelectronics. * All rights reserved.</center></h2> * * This software component is licensed by ST under BSD 3-Clause license, * the "License"; You may not use this file except in compliance with the * License. You may obtain a copy of the License at: * opensource.org/licenses/BSD-3-Clause * ****************************************************************************** / / Includes / #include <sys/stat.h> #include <stdlib.h> #include <errno.h> #include <stdio.h> #include <signal.h> #include <time.h> #include <sys/time.h> #include <sys/times.h> / Variables / extern int __io_putchar(int ch) __attribute__((weak)); extern int __io_getchar(void) __attribute__((weak)); char __env[1] = { 0 }; char *environ = __env; / Functions / void initialise_monitor_handles() { } int _getpid(void) { return 1; } int _kill(int pid, int sig) { errno = EINVAL; return -1; } void _exit (int status) { _kill(status, -1); while (1) {} / Make sure we hang here / } __attribute__((weak)) int _read(int file, char ptr, int len) { int DataIdx; for (DataIdx = 0; DataIdx < len; DataIdx++) { ptr++ = __io_getchar(); } return len; } __attribute__((weak)) int _write(int file, char ptr, int len) { int DataIdx; for (DataIdx = 0; DataIdx < len; DataIdx++) { __io_putchar(ptr++); } return len; } int _close(int file) { return -1; } int _fstat(int file, struct stat st) { st->st_mode = S_IFCHR; return 0; } int _isatty(int file) { return 1; } int _lseek(int file, int ptr, int dir) { return 0; } int _open(char path, int flags, ...) { / Pretend like we always fail / return -1; } int _wait(int status) { errno = ECHILD; return -1; } int _unlink(char name) { errno = ENOENT; return -1; } int _times(struct tms buf) { return -1; } int _stat(char file, struct stat st) { st->st_mode = S_IFCHR; return 0; } int _link(char old, char new) { errno = EMLINK; return -1; } int _fork(void) { errno = EAGAIN; return -1; } int _execve(char name, char argv, char *env) { errno = ENOMEM; return -1; }
the_stack_data/948933.c	/* Exercise 1 - Calculations Write a C program to input marks of two subjects. Calculate and print the average of the two marks. */ #include <stdio.h> int main() { int sub1, sub2, total; float average; printf("Enter the marks for the subject1- "); scanf("%d", &sub1); printf("Enter the marks fot sunject 2- "); scanf("%d", &sub2); total=(sub1+sub2); average= total/(3.0); printf("Average is %f", average); return 0; }
the_stack_data/34669.c	// https://codecast.france-ioi.org/v6/player?stepperControls=_undo,_redo,_expr,_out,_over&base=https%3A%2F%2Ffioi-recordings.s3.amazonaws.com%2Fdartmouth%2F1521472234670 #include <stdio.h> #include <stdlib.h> struct digit { int num; struct digit next; }; struct digit createDigit(int dig); int main(void) { //! stack=showMemory(start=65520, showcursor[numberptr]) struct digit numberptr; int digitToStore = 5; numberptr = createDigit(digitToStore); printf( "We are storing the digit %d and the pointer %p at memory location %p.\n", numberptr->num, numberptr->next, numberptr); free(numberptr); return 0; } struct digit createDigit(int dig) { //! heap=showMemory(start=330, cursors=[ptr]) struct digit ptr; ptr = (struct digit )malloc(sizeof(struct digit)); ptr->num = dig; ptr->next = NULL; return ptr; }
the_stack_data/97011524.c	/** * Leetcode no 1769 * Note: The returned array must be malloced, assume caller calls free(). / int minOperations(char * boxes, int* returnSize){ int box_total, count, ret, i, j, passed, passed_total; count = 0; passed = 0; passed_total = 0; box_total = 0; for (i = 0; boxes[i] != '\0'; i++) { if (boxes[i] == '1'){ box_total += i; count++; } } ret = malloc((i) sizeof(int)); returnSize = i; for (j = 0; boxes[j] != '\0'; j++) { if (boxes[j] == '1') { passed++; passed_total += j; box_total -= j; } ret[j] = (box_total - (j (count - passed))) + ((j*passed) - (passed_total)); } return ret; }
the_stack_data/87638184.c	#include <stdio.h> #include <stdlib.h> #include <string.h> int main(int argc, char **argv) { char buf[4]; int i; memset(buf, 0, sizeof(buf)); for (i = sizeof(buf); i >= 0; i--) { buf[i] = '0' + i; } printf("%s\n", buf); return 0; }
the_stack_data/54823973.c	#define _POSIX_C_SOURCE 200112L //Johannes Hartmann, Jonas Einig #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <signal.h> void sendChar(char input, pid_t parentid); void sendBit(int bit, pid_t parentid); void reciverSignalHandler(int sigNumber); void senderSignalHandler(int sigNumber); void error(char const errorMassage); // Elternvariablen volatile int signalcount = 0; volatile int finished = 0; volatile char resultString[100]; volatile char received; volatile pid_t pid; // Kindvariablen volatile int receiverReady = 0; int main(int argc, char argv) { if ((pid = fork()) < 0) { error("Failed to fork child"); } else if (pid == 0) { / Kindprozess / if (signal(SIGUSR1, senderSignalHandler) == SIG_ERR) error("Fehler beim setzen der Signalhandler"); //read from console char input = (char ) malloc(sizeof(char) 101); while (receiverReady == 0); printf("Bitte geben Sie eine Zeichenkette < 100 Zeichen ein:\n"); if (fgets(input, 100, stdin) == NULL) error("Fehler beim lesen des Inputs"); //send string to parent pid_t parentid = getppid(); for (int i = 0; i < 100; i++) { sendChar(input[i], parentid); if (input[i] == '\0') //reached end of input --> break; break; } } else { /* Elternprozess / if (signal(SIGUSR1, reciverSignalHandler) == SIG_ERR) error("Fehler beim setzen der Signalhandler"); if (signal(SIGUSR2, reciverSignalHandler) == SIG_ERR) error("Fehler beim setzen der Signalhandler"); // give the child process some time to make signalhandler ;) sleep(1); if (kill(pid, SIGUSR1) < 0) //send initial ack error("Fehler beim senden der Bereitschaft"); while (finished == 0); //wait untill the sending is done printf("Received result: %s", resultString); } } void sendChar(char input, pid_t parentid) { for (int i = 0; i < 8; i++) { // wait for ack while (receiverReady == 0); //send i-th Bit ( counted from end ) to parent sendBit(input & (1<<i), parentid); } } void senderSignalHandler(int sigNumber) { if (sigNumber == SIGUSR1) { //ack received receiverReady = 1; } else error("Fehler beim empfangen der Signale"); if (signal(SIGUSR1, senderSignalHandler) == SIG_ERR) error("Fehler beim setzen der Signalhandler"); } void reciverSignalHandler(int sigNumber) { if (sigNumber == SIGUSR1) { //0-Bit received --> dont change char received only increment signalcount ++; if (signal(SIGUSR1, reciverSignalHandler) == SIG_ERR) //register handler error("Fehler beim setzen der Signalhandler"); } else if (sigNumber == SIGUSR2) { //1-BIT received received = received \| 1 << (signalcount % 8); //put it into the right position signalcount ++; if (signal(SIGUSR2, reciverSignalHandler) == SIG_ERR)//register handler error("Fehler beim setzen der Signalhandler"); } else error("Fehler beim empfangen der Signale"); if ((signalcount % 8) == 0) {//if full byte received if (received == '\0') { //if final byte received break the waiting in main finished = 1; } //save to right spot resultString[div(signalcount, 8).quot - 1] = received; received = '\0'; //reset } if (kill(pid, SIGUSR1) < 0) //send ack error("Fehler beim senden von der bereitschaft"); } void sendBit(int bit, pid_t parentid) { if (bit == 0) { if (kill(parentid, SIGUSR1) < 0) error("Fehler beim senden von einem Bit"); } else { if (kill(parentid, SIGUSR2) < 0) error("Fehler beim senden von einem Bit"); } receiverReady = 0; } void error(char const errorMassage) { perror(errorMassage); exit(EXIT_FAILURE); }
the_stack_data/294731.c	// RUN: %check --only %s main() { int test(void), test2(void); int f(); if(test()) lbl: __attribute__((unused)) // CHECK: !/warn/ if(test2()) lbl2: __attribute((noreturn)) // CHECK: /warning: ignoring attribute "noreturn" on label/ f(); // CHECK: ^/warning: unused label 'lbl2'/ }
the_stack_data/148577134.c	#include "time.h" #ifdef MSDOS #undef USE_CLOCK #define USE_CLOCK #endif #ifndef REAL #define REAL double #endif #ifndef USE_CLOCK #define _INCLUDE_POSIX_SOURCE /* for HP-UX / #define _INCLUDE_XOPEN_SOURCE / for HP-UX / #include "sys/types.h" #include "sys/times.h" #ifdef __cplusplus extern "C" { #endif #endif #undef Hz #ifdef CLK_TCK #define Hz CLK_TCK #else #ifdef HZ #define Hz HZ #else #define Hz 60 #endif #endif REAL #ifdef KR_headers dtime_(tarray) float tarray; #else dtime_(float *tarray) #endif { #ifdef USE_CLOCK #ifndef CLOCKS_PER_SECOND #define CLOCKS_PER_SECOND Hz #endif static double t0; double t = clock(); tarray[1] = 0; tarray[0] = (t - t0) / CLOCKS_PER_SECOND; t0 = t; return tarray[0]; #else struct tms t; static struct tms t0; times(&t); tarray[0] = (double)(t.tms_utime - t0.tms_utime) / Hz; tarray[1] = (double)(t.tms_stime - t0.tms_stime) / Hz; t0 = t; return tarray[0] + tarray[1]; #endif } #ifdef __cplusplus } #endif
the_stack_data/21052.c	#include <stdio.h> #include <string.h> #include <stdlib.h> void UnlockSecret(void) { printf("The secret is 42\n\n\n"); } int IsPasswordCorrect(char userInput, char password) { int result; result = strcmp(userInput, password); if (result == 0) { return 1; } return 0; } int main(int argc, char **argv) { int checkPass = 0; if (argc < 2) { printf("Usage:\n\n"); printf("%s <password>\n\n", argv[0]); return 1; } checkPass = IsPasswordCorrect(argv[1], "password"); if (checkPass == 1) { UnlockSecret(); } else { printf("\n\nPassword incorrect! Try again!\n\n"); } return 0; }
the_stack_data/190767237.c	/** * Simple program demonstrating shared memory in POSIX systems. * * This is the consumer process * * Figure 3.18 * * @author Gagne, Galvin, Silberschatz * Operating System Concepts - Ninth Edition * Copyright John Wiley & Sons - 2013 * * modifications by [email protected], 31 Jan. 2014 / #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <fcntl.h> #include <sys/shm.h> #include <sys/stat.h> #include <sys/mman.h> #include <errno.h> #include <string.h> void display(char prog, char bytes, int n); int main(void) { const char name = "/shm-example"; // file name const int SIZE = 4096; // file size int shm_fd; // file descriptor, from shm_open() char shm_base; // base address, from mmap() / open the shared memory segment as if it was a file / shm_fd = shm_open(name, O_RDONLY, 0666); if (shm_fd == -1) { printf("cons: Shared memory failed: %s\n", strerror(errno)); exit(1); } / map the shared memory segment to the address space of the process / shm_base = mmap(0, SIZE, PROT_READ, MAP_SHARED, shm_fd, 0); if (shm_base == MAP_FAILED) { printf("cons: Map failed: %s\n", strerror(errno)); // close and unlink? exit(1); } / read from the mapped shared memory segment / display("cons", shm_base, 64); // first as bytes, then as a string printf("%s", shm_base); / remove the mapped shared memory segment from the address space of the process / if (munmap(shm_base, SIZE) == -1) { printf("cons: Unmap failed: %s\n", strerror(errno)); exit(1); } / close the shared memory segment as if it was a file / if (close(shm_fd) == -1) { printf("cons: Close failed: %s\n", strerror(errno)); exit(1); } / remove the shared memory segment from the file system / if (shm_unlink(name) == -1) { printf("cons: Error removing %s: %s\n", name, strerror(errno)); exit(1); } return 0; } void display(char prog, char *bytes, int n) { printf("display: %s\n", prog); for (int i = 0; i < n; i++) { printf("%02x%c", bytes[i], ((i+1)%16) ? ' ' : '\n'); } printf("\n"); }
the_stack_data/48998.c	// Copyright 2010 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Supply environ, __progname and __guard_local, because // we don't link against the standard OpenBSD crt0.o and // the libc dynamic library needs them. char environ[1]; char __progname; long __guard_local; #pragma dynexport environ environ #pragma dynexport __progname __progname // This is normally marked as hidden and placed in the // .openbsd.randomdata section. #pragma dynexport __guard_local __guard_local // We override pthread_create to support PT_TLS. #pragma dynexport pthread_create pthread_create
the_stack_data/1251911.c	/* Mike Zrimsek Systems Programming Homework 3 - Sigdemo */ #include <stdio.h> #include <termios.h> main() { struct termios attrs; tcgetattr(0, &attrs); attrs.c_lflag = attrs.c_lflag & ~ISIG; tcsetattr(0, TCSANOW, &attrs); printf("you can't stop me!\n"); while(1){ sleep(1); printf("haha\n"); } }
the_stack_data/167329907.c	/********************************************************* * From C PROGRAMMING: A MODERN APPROACH, Second Edition * * By K. N. King * * Copyright (c) 2008, 1996 W. W. Norton & Company, Inc. * * All rights reserved. * * This program may be freely distributed for class use, * * provided that this copyright notice is retained. * ********************************************************/ / upc.c (Chapter 4, page 57) / / Computes a Universal Product Code check digit / #include <stdio.h> int main() { int d, i1, i2, i3, i4, i5, j1, j2, j3, j4, j5, first_sum, second_sum, total; printf("Enter the first (single) digit: "); scanf("%1d", &d); // Enter the first (single) digit: 0 printf("Enter first group of five digits: "); scanf("%1d%1d%1d%1d%1d", &i1, &i2, &i3, &i4, &i5); // Enter first group of five digits: 13800 printf("Enter second group of five digits: "); scanf("%1d%1d%1d%1d%1d", &j1, &j2, &j3, &j4, &j5); // Enter second group of five digits: 15173 first_sum = d + i2 + i4 + j1 + j3 + j5; second_sum = i1 + i3 + i5 + j2 + j4; total = 3 first_sum + second_sum; printf("Check digit: %d\n", 9 - ((total - 1) % 10)); // Check digit: 5 return 0; }
the_stack_data/7951727.c	// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2015-2018 Jason A. Donenfeld <[email protected]>. All Rights Reserved. / #ifdef DEBUG bool __init wg_packet_counter_selftest(void) { unsigned int test_num = 0, i; union noise_counter counter; bool success = true; #define T_INIT do { \ memset(&counter, 0, sizeof(union noise_counter)); \ spin_lock_init(&counter.receive.lock); \ } while (0) #define T_LIM (COUNTER_WINDOW_SIZE + 1) #define T(n, v) do { \ ++test_num; \ if (counter_validate(&counter, n) != (v)) { \ pr_err("nonce counter self-test %u: FAIL\n", \ test_num); \ success = false; \ } \ } while (0) T_INIT; / 1 / T(0, true); / 2 / T(1, true); / 3 / T(1, false); / 4 / T(9, true); / 5 / T(8, true); / 6 / T(7, true); / 7 / T(7, false); / 8 / T(T_LIM, true); / 9 / T(T_LIM - 1, true); / 10 / T(T_LIM - 1, false); / 11 / T(T_LIM - 2, true); / 12 / T(2, true); / 13 / T(2, false); / 14 / T(T_LIM + 16, true); / 15 / T(3, false); / 16 / T(T_LIM + 16, false); / 17 / T(T_LIM 4, true); /* 18 / T(T_LIM 4 - (T_LIM - 1), true); /* 19 / T(10, false); / 20 / T(T_LIM 4 - T_LIM, false); /* 21 / T(T_LIM 4 - (T_LIM + 1), false); /* 22 / T(T_LIM 4 - (T_LIM - 2), true); /* 23 / T(T_LIM 4 + 1 - T_LIM, false); /* 24 / T(0, false); / 25 / T(REJECT_AFTER_MESSAGES, false); / 26 / T(REJECT_AFTER_MESSAGES - 1, true); / 27 / T(REJECT_AFTER_MESSAGES, false); / 28 / T(REJECT_AFTER_MESSAGES - 1, false); / 29 / T(REJECT_AFTER_MESSAGES - 2, true); / 30 / T(REJECT_AFTER_MESSAGES + 1, false); / 31 / T(REJECT_AFTER_MESSAGES + 2, false); / 32 / T(REJECT_AFTER_MESSAGES - 2, false); / 33 / T(REJECT_AFTER_MESSAGES - 3, true); / 34 */ T(0, false); T_INIT; for (i = 1; i <= COUNTER_WINDOW_SIZE; ++i) T(i, true); T(0, true); T(0, false); T_INIT; for (i = 2; i <= COUNTER_WINDOW_SIZE + 1; ++i) T(i, true); T(1, true); T(0, false); T_INIT; for (i = COUNTER_WINDOW_SIZE + 1; i-- > 0;) T(i, true); T_INIT; for (i = COUNTER_WINDOW_SIZE + 2; i-- > 1;) T(i, true); T(0, false); T_INIT; for (i = COUNTER_WINDOW_SIZE + 1; i-- > 1;) T(i, true); T(COUNTER_WINDOW_SIZE + 1, true); T(0, false); T_INIT; for (i = COUNTER_WINDOW_SIZE + 1; i-- > 1;) T(i, true); T(0, true); T(COUNTER_WINDOW_SIZE + 1, true); #undef T #undef T_LIM #undef T_INIT if (success) pr_info("nonce counter self-tests: pass\n"); return success; } #endif
the_stack_data/22012950.c	#include <string.h> #include <stdlib.h> #include <assert.h> #include <stdio.h> #include <limits.h> typedef short int16_t; #define ARRAY(T) struct {\ int16_t size;\ int16_t capacity;\ T data;\ } #define ARRAY_CREATE(array, init_capacity, init_size) {\ array = malloc(sizeof(array)); \ array->data = malloc((init_capacity) sizeof(array->data)); \ assert(array->data != NULL); \ array->capacity = init_capacity; \ array->size = init_size; \ } #define ARRAY_PUSH(array, item) {\ if (array->size == array->capacity) { \ array->capacity = 2; \ array->data = realloc(array->data, array->capacity * sizeof(array->data)); \ assert(array->data != NULL); \ } \ array->data[array->size++] = item; \ } #define STR_INT16_T_BUFLEN ((CHAR_BIT sizeof(int16_t) - 1) / 3 + 2) void str_int16_t_cat(char str, int16_t num) { char numstr[STR_INT16_T_BUFLEN]; sprintf(numstr, "%d", num); strcat(str, numstr); } static ARRAY(void ) gc_main; int16_t gc_i; static const char * fullName; const char * func() { const char * first; const char * last; char * tmp_result_2 = NULL; char * tmp_result = NULL; first = "John"; last = "Doe"; tmp_result_2 = malloc(strlen(first) + strlen(" ") + 1); assert(tmp_result_2 != NULL); tmp_result_2[0] = '\0'; strcat(tmp_result_2, first); strcat(tmp_result_2, " "); tmp_result = malloc(strlen(tmp_result_2) + strlen(last) + 1); assert(tmp_result != NULL); tmp_result[0] = '\0'; strcat(tmp_result, tmp_result_2); strcat(tmp_result, last); ARRAY_PUSH(gc_main, tmp_result); free((char *)tmp_result_2); return tmp_result; } int main(void) { ARRAY_CREATE(gc_main, 2, 0); fullName = func(); printf("%s\n", fullName); for (gc_i = 0; gc_i < gc_main->size; gc_i++) free(gc_main->data[gc_i]); free(gc_main->data); free(gc_main); return 0; }
the_stack_data/19658.c	/* K.N.King "C Programming. A Modern Approach." Programming project 8 p.217 Write a program that simulates the game of craps, which is played with two dice. On the first roll, the player wins if the sum of the dice is 7 or 11. The player loses if the sum is 2, 3 or 12. Any other roll is called the "point" and the game continues. On each subsequent roll, the player wins if he or she rolls the point again. The player loses by rolling 7. Any other roll is ignored and the game continues. At the end of each game, the program will ask the user whether or not to play again. When the user enters a response other than y or Y, the program will display the number of wins and losses and then terminate. "You rolled: 8 Your point is 8 You rolled: 3 You rolled: 10 You rolled: 8 You win! Play again! y You rolled: 6 Your point is 6 You rolled: 5 You rolled: 12 You rolled: 3 You rolled: 7 You lose! Play again? y You rolled: 11 You win! Play again? n Wins: 2 Losses: 1 " */ #include <stdlib.h> #include <stdio.h> #include <ctype.h> #include <time.h> int RollDiceSum(int count); void OnWin(void); void OnLose(void); int OnContinue(void); int main(void) { unsigned int seed = (unsigned int)time(NULL); srand(seed); int roll = 0; int sum = 0; int diceCount = 2; int wins = 0; int losses = 0; int isGameOver = 0; while (1) { isGameOver = 0; roll = 0; while (!isGameOver) { sum = RollDiceSum(diceCount); printf("You rolled %d.\n", sum); if (roll == 1) { if (sum == 7 \|\| sum == 11) { // WIN OnWin(); ++wins; isGameOver = 1; } else if (sum == 2 \|\| sum == 3 \|\| sum == 12) { // LOSS OnLose(); ++losses; isGameOver = 1; } } else if (sum == 7) { // LOSS OnLose(); ++losses; isGameOver = 1; } ++roll; } char answer = '\0'; char c = '\0'; printf("Would you like to play again? (y/n)\n"); while (scanf(" %c", &answer) != 1) { printf( "I am sorry, didn't quite get it.\n" "Would you like to play again? (y/n)\n"); while ((c = getchar()) != '\n' && c != EOF) continue; } while ((c = getchar()) != '\n' && c != EOF) continue; if (tolower(answer) != 'y') { printf("%d wins, %d losses.\n", wins, losses); break; } } getchar(); return EXIT_SUCCESS; } int RollDiceSum(int count) { const static int DIE_SIDE_POINTS[] = { [0] = 1, [1] = 2, [2] = 3, [3] = 4, [4] = 5, [5] = 6 }; const int DIE_SIDE_COUNT = (int)(sizeof(DIE_SIDE_POINTS) / sizeof(DIE_SIDE_POINTS[0])); int sum = 0; while (count > 0) { sum += DIE_SIDE_POINTS[rand() % DIE_SIDE_COUNT]; --count; } return sum; } void OnWin(void) { printf("You win!\n"); } void OnLose(void) { printf("You lose!\n"); }
the_stack_data/247017029.c	/* ---------------------------------------------------------------------------- * ATMEL Microcontroller Software Support * ---------------------------------------------------------------------------- * Copyright (c) 2008, Atmel Corporation * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the disclaimer below. * * Atmel's name may not be used to endorse or promote products derived from * this software without specific prior written permission. * * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ---------------------------------------------------------------------------- / //------------------------------------------------------------------------------ /// \unit /// /// !Purpose /// /// Implementation of several methods defined in string.h, for reducing the /// memory footprint when using them (since the whole libc.o file gets included /// even when using a single method). /// /// !Usage /// /// Add string.c to the list of files to compile for the project. This will /// automatically replace standard libc methods by the custom ones. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // Headers //------------------------------------------------------------------------------ #include <string.h> //------------------------------------------------------------------------------ // Global Functions //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ /// Copies data from a source buffer into a destination buffer. The two buffers /// must NOT overlap. Returns the destination buffer. /// \param pDestination Destination buffer. /// \param pSource Source buffer. /// \param num Number of bytes to copy. //------------------------------------------------------------------------------ void memcpy(void pDestination, const void pSource, size_t num) { unsigned char pByteDestination; unsigned char pByteSource; unsigned int pAlignedSource = (unsigned int ) pSource; unsigned int pAlignedDestination = (unsigned int ) pDestination; // If num is more than 4 bytes, and both dest. and source are aligned, // then copy dwords if ((((unsigned int) pAlignedDestination & 0x3) == 0) && (((unsigned int) pAlignedSource & 0x3) == 0) && (num >= 4)) { while (num >= 4) { pAlignedDestination++ = pAlignedSource++; num -= 4; } } // Copy remaining bytes pByteDestination = (unsigned char ) pAlignedDestination; pByteSource = (unsigned char ) pAlignedSource; while (num--) { pByteDestination++ = pByteSource++; } return pDestination; } //------------------------------------------------------------------------------ /// Fills a memory region with the given value. Returns a pointer to the /// memory region. /// \param pBuffer Pointer to the start of the memory region to fill /// \param value Value to fill the region with /// \param num Size to fill in bytes //------------------------------------------------------------------------------ void * memset(void pBuffer, int value, size_t num) { unsigned char pByteDestination; unsigned int pAlignedDestination = (unsigned int ) pBuffer; unsigned int alignedValue = (value << 24) \| (value << 16) \| (value << 8) \| value; // Set words if possible if ((((unsigned int) pAlignedDestination & 0x3) == 0) && (num >= 4)) { while (num >= 4) { pAlignedDestination++ = alignedValue; num -= 4; } } // Set remaining bytes pByteDestination = (unsigned char ) pAlignedDestination; while (num--) { pByteDestination++ = value; } return pBuffer; } //----------------------------------------------------------------------------- /// Search a character in the given string. /// Returns a pointer to the character location. /// \param pString Pointer to the start of the string to search. /// \param character The character to find. //----------------------------------------------------------------------------- char strchr(const char pString, int character) { char p = (char )pString; char c = character & 0xFF; while(p != c) { if (p == 0) { return 0; } p++; } return p; } //----------------------------------------------------------------------------- /// Return the length of a given string /// \param pString Pointer to the start of the string. //----------------------------------------------------------------------------- size_t strlen(const char pString) { unsigned int length = 0; while(pString++ != 0) { length++; } return length; } //----------------------------------------------------------------------------- /// Search a character backword from the end of given string. /// Returns a pointer to the character location. /// \param pString Pointer to the start of the string to search. /// \param character The character to find. //----------------------------------------------------------------------------- char strrchr(const char pString, int character) { char p = 0; while(pString != 0) { if (pString++ == character) { p = (char)pString; } } return p; } //----------------------------------------------------------------------------- /// Copy from source string to destination string /// Return a pointer to the destination string /// \param pDestination Pointer to the destination string. /// \param pSource Pointer to the source string. //----------------------------------------------------------------------------- char strcpy(char pDestination, const char pSource) { char pSaveDest = pDestination; for(; (pDestination = pSource) != 0; ++pSource, ++pDestination); return pSaveDest; } //----------------------------------------------------------------------------- /// Compare the first specified bytes of 2 given strings /// Return 0 if equals /// Return >0 if 1st string > 2nd string /// Return <0 if 1st string < 2nd string /// \param pString1 Pointer to the start of the 1st string. /// \param pString2 Pointer to the start of the 2nd string. /// \param count Number of bytes that should be compared. //----------------------------------------------------------------------------- int strncmp(const char pString1, const char pString2, size_t count) { int r; while(count) { r = pString1 - pString2; if (r == 0) { if (pString1 == 0) { break; } pString1++; pString2++; count--; continue; } return r; } return 0; } //----------------------------------------------------------------------------- /// Copy the first number of bytes from source string to destination string /// Return the pointer to the destination string. /// \param pDestination Pointer to the start of destination string. /// \param pSource Pointer to the start of the source string. /// \param count Number of bytes that should be copied. //----------------------------------------------------------------------------- char * strncpy(char pDestination, const char pSource, size_t count) { char pSaveDest = pDestination; while (count) { pDestination = pSource; if (pSource == 0) { break; } pDestination++; pSource++; count--; } return pSaveDest; }
the_stack_data/14201136.c	// RUN: %clang_cc1 -no-opaque-pointers -triple x86_64-apple-macosx10.7.0 -emit-llvm -o - %s \| FileCheck %s // PR4610 #pragma pack(4) struct ref { struct ref next; } refs; // PR13580 struct S { char a[3]; #pragma pack(1) struct T { char b; int c; } d; #pragma pack() struct T2 { char b; int c; } d2; } ss; struct S3 { char a[3]; #pragma pack(push, 2) struct T3 { char b; int c; } d; #pragma pack(pop) struct T32 { char b; int c; } e; } s3; struct S4 { char a[3]; #pragma align=packed struct T4 { char b; int c; } d; int e; } s4; // CHECK: [[struct_ref:%[a-zA-Z0-9_.]+]] = type { [[struct_ref]] } // CHECK: [[struct_S:%[a-zA-Z0-9_.]+]] = type { [3 x i8], [[struct_T:%[a-zA-Z0-9_.]+]], [[struct_T2:%[a-zA-Z0-9_.]+]] } // CHECK: [[struct_T]] = type <{ i8, i32 }> // CHECK: [[struct_T2]] = type { i8, i32 } // CHECK: %struct.S3 = type { [3 x i8], i8, %struct.T3, %struct.T32 } // CHECK: %struct.T3 = type <{ i8, i8, i32 }> // CHECK: %struct.T32 = type { i8, i32 } // CHECK: %struct.S4 = type { [3 x i8], %struct.T4, i32 } // CHECK: %struct.T4 = type <{ i8, i32 }> // CHECK: @refs ={{.}} global [[struct_ref]] // CHECK: @ss ={{.}} global [[struct_S]]
the_stack_data/717497.c	#include<stdio.h> int main(){ FILE *ptr; char c; ptr = fopen("getcdemo.txt", "r"); c = fgetc(ptr); while(c!=EOF){ printf("%c", c); c = fgetc(ptr); } return 0; }
the_stack_data/137727.c	#include <stdlib.h> #include <stdio.h> #define MAX 255 int comb(int, int); int main(){ int n, m; printf("Digite n: "); scanf("%i",&n); printf("Digite m: "); scanf("%i",&m); printf("%i", comb(n,m)); return 0; } int comb(int n, int m){ if((n!=0)&&(m==0)) return 1; if(n==m) return 1; return comb(n-1,m-1)+comb(n-1,m); }
the_stack_data/110061.c	#include <stdio.h> int main(void) { /* 2) Crie um programa que lê 10 valores inteiros e, em seguida, multiplique por dois cada número e armazene no mesmo vetor. mostre na tela os valores resultantes em ordem inversa. / const int max = 10; int vetor[max]; //entrada de dados e processamento for (int i = 0; i < max; i++) { printf("Digite um número inteiro: "); scanf("%d", & vetor[i]); vetor[i] = 2; } // saída for (int i = (max - 1); i >= 0; i--) { printf("\nvetor[%d] = %d", i, vetor[i]); } return 0; }
the_stack_data/259246.c	/* * Copyright 2016 The Emscripten Authors. All rights reserved. * Emscripten is available under two separate licenses, the MIT license and the * University of Illinois/NCSA Open Source License. Both these licenses can be * found in the LICENSE file. / #include <stdio.h> struct IUB { int c; double p; unsigned int pi; }; struct IUB iub[] = {{'a', 0.27, 5}, {'c', 0.15, 4}, {'g', 0.12, 3}, {'t', 0.27, 2}, }; const unsigned char faceedgesidx[6][4] = {{4, 5, 8, 10}, {6, 7, 9, 11}, {0, 2, 8, 9}, {1, 3, 10, 11}, {0, 1, 4, 6}, {2, 3, 5, 7}, }; int main(int argc, const char argv[]) { printf("%d,%d,%d,%d\n", iub[0].c, (int)(iub[1].p * 100), iub[2].pi, faceedgesidx[3][2]); return 0; }
the_stack_data/206392892.c	#include <stdbool.h> bool isascii(const unsigned char c) { return (c >= 0x00 && c <= 0x7F); }
the_stack_data/45448993.c	/* * Copyright (c) 2007, 2008, 2009, 2010, ETH Zurich. * All rights reserved. * * This file is distributed under the terms in the attached LICENSE file. * If you do not find this file, copies can be found by writing to: * ETH Zurich D-INFK, Haldeneggsteig 4, CH-8092 Zurich. Attn: Systems Group. / #include <stdlib.h> #include <stdio.h> long double strtold(const char s, char **endp) { printf("strtold NYI\n"); abort(); }
the_stack_data/233557.c	// RUN: %clang_cc1 -O1 -triple x86_64-none-linux-gnu -emit-llvm -debug-info-kind=line-tables-only %s -o - \| FileCheck %s --check-prefix=CHECK --check-prefix=LIFETIME // We shouldn't have markers at -O0 or with msan. // RUN: %clang_cc1 -O0 -triple x86_64-none-linux-gnu -emit-llvm -debug-info-kind=line-tables-only %s -o - \| FileCheck %s // RUN: %clang_cc1 -O1 -triple x86_64-none-linux-gnu -emit-llvm -debug-info-kind=line-tables-only %s -o - -fsanitize=memory \| FileCheck %s // There is no exception to handle here, lifetime.end is not a destructor, // so there is no need have cleanup dest slot related code // CHECK-LABEL: define i32 @test int test() { int x = 3; int volatile p = &x; return p; // CHECK: [[X:%.]] = alloca i32 // CHECK: [[P:%.]] = alloca i32* // LIFETIME: call void @llvm.lifetime.start(i64 4, i8* %{{.}}){{( #[0-9]+)?}}, !dbg // LIFETIME: call void @llvm.lifetime.start(i64 8, i8 %{{.}}){{( #[0-9]+)?}}, !dbg // CHECK-NOT: store i32 %{{.}}, i32* %cleanup.dest.slot // LIFETIME: call void @llvm.lifetime.end(i64 8, {{.}}){{( #[0-9]+)?}}, !dbg // LIFETIME: call void @llvm.lifetime.end(i64 4, {{.}}){{( #[0-9]+)?}}, !dbg }
the_stack_data/55587.c	/* * Title: * Description: * Assignment: * Link to assignment: * * Programmer: Sebastian Livoni Larsen * Date completed: November 5, 2021 * Instructor: Kurt Nørmark * Class: AAL E21 / #include <stdio.h> #include <stdlib.h> #include <string.h> #define INPUT_FILE_URL "./input.txt" #define OUTPUT_FILE_URL "./output.txt" #define MAX_NAME_LGT 50 #define MAX_LINE_LENGTH 80 #define PERSONS 11 struct person { char fornavn[MAX_NAME_LGT]; char efternavn[MAX_NAME_LGT]; char vejnavn[MAX_NAME_LGT]; int vejnummer; int postnummer; char bynavn[MAX_NAME_LGT]; }; typedef struct person person; person sort_persons(person person); int cmpfunc(const void * a, const void * b); int main(void) { char line[MAX_LINE_LENGTH]; int persons_count = 0; int i; person person_list[PERSONS]; FILE* input_file; FILE* output_file; input_file = fopen(INPUT_FILE_URL, "r"); if (input_file == NULL) { printf("Could not open the file %s!\n", INPUT_FILE_URL); exit(EXIT_FAILURE); } output_file = fopen(OUTPUT_FILE_URL, "w"); if (output_file == NULL) { printf("Could not open the file %s!\n", OUTPUT_FILE_URL); exit(EXIT_FAILURE); } while (fgets(line, MAX_LINE_LENGTH, input_file)) { sscanf(line, "%s %[^,], %[A-Za-z A-Za-z] %d, %d %[A-Za-z].", person_list[persons_count].fornavn, person_list[persons_count].efternavn, person_list[persons_count].vejnavn, &person_list[persons_count].vejnummer, &person_list[persons_count].postnummer, person_list[persons_count].bynavn ); person_list[persons_count].vejnavn[strlen(person_list[persons_count].vejnavn) - 1] = '\0'; /* remove last whitespace / persons_count += 1; } qsort(person_list, PERSONS, sizeof(person), cmpfunc); fclose(input_file); for (i = 0; i < PERSONS; i++) { fprintf(output_file, "%s: %s\n", person_list[i].bynavn, person_list[i].efternavn); printf("%s %s\n", person_list[i].efternavn, person_list[i].fornavn); } fclose(output_file); return EXIT_SUCCESS; } int cmpfunc(const void a, const void * b) { int strcmp_retval; person* p1 = (person)a; person p2 = (person*)b; strcmp_retval = strcmp(p1->efternavn, p2->efternavn); if (strcmp_retval == 0) return strcmp(p1->fornavn, p2->fornavn); else return strcmp_retval; }
the_stack_data/1105729.c	#include <stdio.h> int main(){ ///Declaração de variaveis int A[30]; int B[30]; int i; ///Lendo os numeros inteiros no vetor A for(i = 0; i < 30; i++){ printf("Digite um numero inteiro: "); scanf("%d", &A[i]); } ///Imprimindo o vetor A printf("Vetor A = [ "); for(i = 0; i < 30; i++){ printf("%d ", A[i]); } printf("]\n\n"); ///Calculando o vetor B for(i = 0; i < 30; i++){ B[i] = A[i] * A[i] * A[i]; } ///Imprimindo o vetor B printf("Vetor B = [ "); for(i = 0; i < 30; i++){ printf("%d ", B[i]); } printf("]\n\n"); return 0; }
the_stack_data/92787.c	const unsigned char gImage_2[57600] = { /* 0X00,0X10,0X78,0X00,0XF0,0X00,0X01,0X1B, */ 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00,0X00, 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the_stack_data/73149.c	#include <math.h> #include <stdlib.h> #include <string.h> #include <stdio.h> #include <complex.h> #ifdef complex #undef complex #endif #ifdef I #undef I #endif #if defined(_WIN64) typedef long long BLASLONG; typedef unsigned long long BLASULONG; #else typedef long BLASLONG; typedef unsigned long BLASULONG; #endif #ifdef LAPACK_ILP64 typedef BLASLONG blasint; #if defined(_WIN64) #define blasabs(x) llabs(x) #else #define blasabs(x) labs(x) #endif #else typedef int blasint; #define blasabs(x) abs(x) #endif typedef blasint integer; typedef unsigned int uinteger; typedef char address; typedef short int shortint; typedef float real; typedef double doublereal; typedef struct { real r, i; } complex; typedef struct { doublereal r, i; } doublecomplex; #ifdef _MSC_VER static inline _Fcomplex Cf(complex z) {_Fcomplex zz={z->r , z->i}; return zz;} static inline _Dcomplex Cd(doublecomplex z) {_Dcomplex zz={z->r , z->i};return zz;} static inline _Fcomplex _pCf(complex z) {return (_Fcomplex)z;} static inline _Dcomplex * _pCd(doublecomplex z) {return (_Dcomplex)z;} #else static inline _Complex float Cf(complex z) {return z->r + z->i_Complex_I;} static inline _Complex double Cd(doublecomplex z) {return z->r + z->i_Complex_I;} static inline _Complex float * _pCf(complex z) {return (_Complex float)z;} static inline _Complex double * _pCd(doublecomplex z) {return (_Complex double)z;} #endif #define pCf(z) (_pCf(z)) #define pCd(z) (_pCd(z)) typedef int logical; typedef short int shortlogical; typedef char logical1; typedef char integer1; #define TRUE_ (1) #define FALSE_ (0) /* Extern is for use with -E / #ifndef Extern #define Extern extern #endif / I/O stuff / typedef int flag; typedef int ftnlen; typedef int ftnint; /external read, write/ typedef struct { flag cierr; ftnint ciunit; flag ciend; char cifmt; ftnint cirec; } cilist; /internal read, write/ typedef struct { flag icierr; char iciunit; flag iciend; char icifmt; ftnint icirlen; ftnint icirnum; } icilist; /open/ typedef struct { flag oerr; ftnint ounit; char ofnm; ftnlen ofnmlen; char osta; char oacc; char ofm; ftnint orl; char oblnk; } olist; /close/ typedef struct { flag cerr; ftnint cunit; char csta; } cllist; /rewind, backspace, endfile/ typedef struct { flag aerr; ftnint aunit; } alist; /* inquire / typedef struct { flag inerr; ftnint inunit; char infile; ftnlen infilen; ftnint inex; /parameters in standard's order/ ftnint inopen; ftnint innum; ftnint innamed; char inname; ftnlen innamlen; char inacc; ftnlen inacclen; char inseq; ftnlen inseqlen; char indir; ftnlen indirlen; char infmt; ftnlen infmtlen; char inform; ftnint informlen; char inunf; ftnlen inunflen; ftnint inrecl; ftnint innrec; char inblank; ftnlen inblanklen; } inlist; #define VOID void union Multitype { /* for multiple entry points / integer1 g; shortint h; integer i; / longint j; / real r; doublereal d; complex c; doublecomplex z; }; typedef union Multitype Multitype; struct Vardesc { / for Namelist / char name; char addr; ftnlen dims; int type; }; typedef struct Vardesc Vardesc; struct Namelist { char name; Vardesc vars; int nvars; }; typedef struct Namelist Namelist; #define abs(x) ((x) >= 0 ? (x) : -(x)) #define dabs(x) (fabs(x)) #define f2cmin(a,b) ((a) <= (b) ? (a) : (b)) #define f2cmax(a,b) ((a) >= (b) ? (a) : (b)) #define dmin(a,b) (f2cmin(a,b)) #define dmax(a,b) (f2cmax(a,b)) #define bit_test(a,b) ((a) >> (b) & 1) #define bit_clear(a,b) ((a) & ~((uinteger)1 << (b))) #define bit_set(a,b) ((a) \| ((uinteger)1 << (b))) #define abort_() { sig_die("Fortran abort routine called", 1); } #define c_abs(z) (cabsf(Cf(z))) #define c_cos(R,Z) { pCf(R)=ccos(Cf(Z)); } #ifdef _MSC_VER #define c_div(c, a, b) {Cf(c)._Val[0] = (Cf(a)._Val[0]/Cf(b)._Val[0]); Cf(c)._Val[1]=(Cf(a)._Val[1]/Cf(b)._Val[1]);} #define z_div(c, a, b) {Cd(c)._Val[0] = (Cd(a)._Val[0]/Cd(b)._Val[0]); Cd(c)._Val[1]=(Cd(a)._Val[1]/df(b)._Val[1]);} #else #define c_div(c, a, b) {pCf(c) = Cf(a)/Cf(b);} #define z_div(c, a, b) {pCd(c) = Cd(a)/Cd(b);} #endif #define c_exp(R, Z) {pCf(R) = cexpf(Cf(Z));} #define c_log(R, Z) {pCf(R) = clogf(Cf(Z));} #define c_sin(R, Z) {pCf(R) = csinf(Cf(Z));} //#define c_sqrt(R, Z) {(R) = csqrtf(Cf(Z));} #define c_sqrt(R, Z) {pCf(R) = csqrtf(Cf(Z));} #define d_abs(x) (fabs((x))) #define d_acos(x) (acos((x))) #define d_asin(x) (asin((x))) #define d_atan(x) (atan((x))) #define d_atn2(x, y) (atan2((x),(y))) #define d_cnjg(R, Z) { pCd(R) = conj(Cd(Z)); } #define r_cnjg(R, Z) { pCf(R) = conjf(Cf(Z)); } #define d_cos(x) (cos((x))) #define d_cosh(x) (cosh((x))) #define d_dim(__a, __b) ( (__a) > (__b) ? (__a) - (__b) : 0.0 ) #define d_exp(x) (exp((x))) #define d_imag(z) (cimag(Cd(z))) #define r_imag(z) (cimagf(Cf(z))) #define d_int(__x) ((__x)>0 ? floor((__x)) : -floor(- (__x))) #define r_int(__x) ((__x)>0 ? floor((__x)) : -floor(- (__x))) #define d_lg10(x) ( 0.43429448190325182765 log((x)) ) #define r_lg10(x) ( 0.43429448190325182765 log((x)) ) #define d_log(x) (log((x))) #define d_mod(x, y) (fmod((x), (y))) #define u_nint(__x) ((__x)>=0 ? floor((__x) + .5) : -floor(.5 - (__x))) #define d_nint(x) u_nint((x)) #define u_sign(__a,__b) ((__b) >= 0 ? ((__a) >= 0 ? (__a) : -(__a)) : -((__a) >= 0 ? (__a) : -(__a))) #define d_sign(a,b) u_sign((a),(b)) #define r_sign(a,b) u_sign((a),(b)) #define d_sin(x) (sin((x))) #define d_sinh(x) (sinh((x))) #define d_sqrt(x) (sqrt((x))) #define d_tan(x) (tan((x))) #define d_tanh(x) (tanh((x))) #define i_abs(x) abs((x)) #define i_dnnt(x) ((integer)u_nint((x))) #define i_len(s, n) (n) #define i_nint(x) ((integer)u_nint((x))) #define i_sign(a,b) ((integer)u_sign((integer)(a),(integer)(b))) #define pow_dd(ap, bp) ( pow((ap), (bp))) #define pow_si(B,E) spow_ui((B),(E)) #define pow_ri(B,E) spow_ui((B),(E)) #define pow_di(B,E) dpow_ui((B),(E)) #define pow_zi(p, a, b) {pCd(p) = zpow_ui(Cd(a), (b));} #define pow_ci(p, a, b) {pCf(p) = cpow_ui(Cf(a), (b));} #define pow_zz(R,A,B) {pCd(R) = cpow(Cd(A),(B));} #define s_cat(lpp, rpp, rnp, np, llp) { ftnlen i, nc, ll; char f__rp, lp; ll = (llp); lp = (lpp); for(i=0; i < (int)(np); ++i) { nc = ll; if((rnp)[i] < nc) nc = (rnp)[i]; ll -= nc; f__rp = (rpp)[i]; while(--nc >= 0) lp++ = (f__rp)++; } while(--ll >= 0) lp++ = ' '; } #define s_cmp(a,b,c,d) ((integer)strncmp((a),(b),f2cmin((c),(d)))) #define s_copy(A,B,C,D) { int __i,__m; for (__i=0, __m=f2cmin((C),(D)); __i<__m && (B)[__i] != 0; ++__i) (A)[__i] = (B)[__i]; } #define sig_die(s, kill) { exit(1); } #define s_stop(s, n) {exit(0);} static char junk[] = "\n@(#)LIBF77 VERSION 19990503\n"; #define z_abs(z) (cabs(Cd(z))) #define z_exp(R, Z) {pCd(R) = cexp(Cd(Z));} #define z_sqrt(R, Z) {pCd(R) = csqrt(Cd(Z));} #define myexit_() break; #define mycycle() continue; #define myceiling(w) {ceil(w)} #define myhuge(w) {HUGE_VAL} //#define mymaxloc_(w,s,e,n) {if (sizeof((w)) == sizeof(double)) dmaxloc_((w),(s),(e),n); else dmaxloc_((w),(s),(e),n);} #define mymaxloc(w,s,e,n) {dmaxloc_(w,(s),(e),n)} / procedure parameter types for -A and -C++ / #define F2C_proc_par_types 1 #ifdef __cplusplus typedef logical (L_fp)(...); #else typedef logical (L_fp)(); #endif static float spow_ui(float x, integer n) { float pow=1.0; unsigned long int u; if(n != 0) { if(n < 0) n = -n, x = 1/x; for(u = n; ; ) { if(u & 01) pow = x; if(u >>= 1) x = x; else break; } } return pow; } static double dpow_ui(double x, integer n) { double pow=1.0; unsigned long int u; if(n != 0) { if(n < 0) n = -n, x = 1/x; for(u = n; ; ) { if(u & 01) pow = x; if(u >>= 1) x = x; else break; } } return pow; } #ifdef _MSC_VER static _Fcomplex cpow_ui(complex x, integer n) { complex pow={1.0,0.0}; unsigned long int u; if(n != 0) { if(n < 0) n = -n, x.r = 1/x.r, x.i=1/x.i; for(u = n; ; ) { if(u & 01) pow.r = x.r, pow.i = x.i; if(u >>= 1) x.r = x.r, x.i = x.i; else break; } } _Fcomplex p={pow.r, pow.i}; return p; } #else static _Complex float cpow_ui(_Complex float x, integer n) { _Complex float pow=1.0; unsigned long int u; if(n != 0) { if(n < 0) n = -n, x = 1/x; for(u = n; ; ) { if(u & 01) pow = x; if(u >>= 1) x = x; else break; } } return pow; } #endif #ifdef _MSC_VER static _Dcomplex zpow_ui(_Dcomplex x, integer n) { _Dcomplex pow={1.0,0.0}; unsigned long int u; if(n != 0) { if(n < 0) n = -n, x._Val[0] = 1/x._Val[0], x._Val[1] =1/x._Val[1]; for(u = n; ; ) { if(u & 01) pow._Val[0] = x._Val[0], pow._Val[1] = x._Val[1]; if(u >>= 1) x._Val[0] = x._Val[0], x._Val[1] = x._Val[1]; else break; } } _Dcomplex p = {pow._Val[0], pow._Val[1]}; return p; } #else static _Complex double zpow_ui(_Complex double x, integer n) { _Complex double pow=1.0; unsigned long int u; if(n != 0) { if(n < 0) n = -n, x = 1/x; for(u = n; ; ) { if(u & 01) pow = x; if(u >>= 1) x = x; else break; } } return pow; } #endif static integer pow_ii(integer x, integer n) { integer pow; unsigned long int u; if (n <= 0) { if (n == 0 \|\| x == 1) pow = 1; else if (x != -1) pow = x == 0 ? 1/x : 0; else n = -n; } if ((n > 0) \|\| !(n == 0 \|\| x == 1 \|\| x != -1)) { u = n; for(pow = 1; ; ) { if(u & 01) pow = x; if(u >>= 1) x = x; else break; } } return pow; } static integer dmaxloc_(double w, integer s, integer e, integer n) { double m; integer i, mi; for(m=w[s-1], mi=s, i=s+1; i<=e; i++) if (w[i-1]>m) mi=i ,m=w[i-1]; return mi-s+1; } static integer smaxloc_(float w, integer s, integer e, integer n) { float m; integer i, mi; for(m=w[s-1], mi=s, i=s+1; i<=e; i++) if (w[i-1]>m) mi=i ,m=w[i-1]; return mi-s+1; } static inline void cdotc_(complex z, integer n_, complex x, integer incx_, complex y, integer incy_) { integer n = n_, incx = incx_, incy = incy_, i; #ifdef _MSC_VER _Fcomplex zdotc = {0.0, 0.0}; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += conjf(Cf(&x[i]))._Val[0] Cf(&y[i])._Val[0]; zdotc._Val[1] += conjf(Cf(&x[i]))._Val[1] * Cf(&y[i])._Val[1]; } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += conjf(Cf(&x[iincx]))._Val[0] * Cf(&y[iincy])._Val[0]; zdotc._Val[1] += conjf(Cf(&x[iincx]))._Val[1] * Cf(&y[iincy])._Val[1]; } } pCf(z) = zdotc; } #else _Complex float zdotc = 0.0; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { / zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += conjf(Cf(&x[i])) Cf(&y[i]); } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += conjf(Cf(&x[iincx])) * Cf(&y[iincy]); } } pCf(z) = zdotc; } #endif static inline void zdotc_(doublecomplex z, integer n_, doublecomplex x, integer incx_, doublecomplex y, integer incy_) { integer n = n_, incx = incx_, incy = incy_, i; #ifdef _MSC_VER _Dcomplex zdotc = {0.0, 0.0}; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += conj(Cd(&x[i]))._Val[0] Cd(&y[i])._Val[0]; zdotc._Val[1] += conj(Cd(&x[i]))._Val[1] * Cd(&y[i])._Val[1]; } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += conj(Cd(&x[iincx]))._Val[0] * Cd(&y[iincy])._Val[0]; zdotc._Val[1] += conj(Cd(&x[iincx]))._Val[1] * Cd(&y[iincy])._Val[1]; } } pCd(z) = zdotc; } #else _Complex double zdotc = 0.0; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { / zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += conj(Cd(&x[i])) Cd(&y[i]); } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += conj(Cd(&x[iincx])) * Cd(&y[iincy]); } } pCd(z) = zdotc; } #endif static inline void cdotu_(complex z, integer n_, complex x, integer incx_, complex y, integer incy_) { integer n = n_, incx = incx_, incy = incy_, i; #ifdef _MSC_VER _Fcomplex zdotc = {0.0, 0.0}; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += Cf(&x[i])._Val[0] Cf(&y[i])._Val[0]; zdotc._Val[1] += Cf(&x[i])._Val[1] * Cf(&y[i])._Val[1]; } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += Cf(&x[iincx])._Val[0] * Cf(&y[iincy])._Val[0]; zdotc._Val[1] += Cf(&x[iincx])._Val[1] * Cf(&y[iincy])._Val[1]; } } pCf(z) = zdotc; } #else _Complex float zdotc = 0.0; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { / zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += Cf(&x[i]) Cf(&y[i]); } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += Cf(&x[iincx]) * Cf(&y[iincy]); } } pCf(z) = zdotc; } #endif static inline void zdotu_(doublecomplex z, integer n_, doublecomplex x, integer incx_, doublecomplex y, integer incy_) { integer n = n_, incx = incx_, incy = incy_, i; #ifdef _MSC_VER _Dcomplex zdotc = {0.0, 0.0}; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += Cd(&x[i])._Val[0] Cd(&y[i])._Val[0]; zdotc._Val[1] += Cd(&x[i])._Val[1] * Cd(&y[i])._Val[1]; } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc._Val[0] += Cd(&x[iincx])._Val[0] * Cd(&y[iincy])._Val[0]; zdotc._Val[1] += Cd(&x[iincx])._Val[1] * Cd(&y[iincy])._Val[1]; } } pCd(z) = zdotc; } #else _Complex double zdotc = 0.0; if (incx == 1 && incy == 1) { for (i=0;i<n;i++) { / zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += Cd(&x[i]) Cd(&y[i]); } } else { for (i=0;i<n;i++) { /* zdotc = zdotc + dconjg(x(i))* y(i) / zdotc += Cd(&x[iincx]) * Cd(&y[iincy]); } } pCd(z) = zdotc; } #endif / -- translated by f2c (version 20000121). You must link the resulting object file with the libraries: -lf2c -lm (in that order) / / Table of constant values / static real c_b6 = 1.f; static real c_b7 = 0.f; / > \brief \b CLACRM multiplies a complex matrix by a square real matrix. / / =========== DOCUMENTATION =========== / / Online html documentation available at / / http://www.netlib.org/lapack/explore-html/ / / > \htmlonly / / > Download CLACRM + dependencies / / > <a href="http://www.netlib.org/cgi-bin/netlibfiles.tgz?format=tgz&filename=/lapack/lapack_routine/clacrm. f"> / / > [TGZ]</a> / / > <a href="http://www.netlib.org/cgi-bin/netlibfiles.zip?format=zip&filename=/lapack/lapack_routine/clacrm. f"> / / > [ZIP]</a> / / > <a href="http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/clacrm. f"> / / > [TXT]</a> / / > \endhtmlonly / / Definition: / / =========== / / SUBROUTINE CLACRM( M, N, A, LDA, B, LDB, C, LDC, RWORK ) / / INTEGER LDA, LDB, LDC, M, N / / REAL B( LDB, * ), RWORK( * ) / / COMPLEX A( LDA, * ), C( LDC, * ) / / > \par Purpose: / / ============= / / > / / > \verbatim / / > / / > CLACRM performs a very simple matrix-matrix multiplication: / / > C := A * B, / / > where A is M by N and complex; B is N by N and real; / / > C is M by N and complex. / / > \endverbatim / / Arguments: / / ========== / / > \param[in] M / / > \verbatim / / > M is INTEGER / / > The number of rows of the matrix A and of the matrix C. / / > M >= 0. / / > \endverbatim / / > / / > \param[in] N / / > \verbatim / / > N is INTEGER / / > The number of columns and rows of the matrix B and / / > the number of columns of the matrix C. / / > N >= 0. / / > \endverbatim / / > / / > \param[in] A / / > \verbatim / / > A is COMPLEX array, dimension (LDA, N) / / > On entry, A contains the M by N matrix A. / / > \endverbatim / / > / / > \param[in] LDA / / > \verbatim / / > LDA is INTEGER / / > The leading dimension of the array A. LDA >=f2cmax(1,M). / / > \endverbatim / / > / / > \param[in] B / / > \verbatim / / > B is REAL array, dimension (LDB, N) / / > On entry, B contains the N by N matrix B. / / > \endverbatim / / > / / > \param[in] LDB / / > \verbatim / / > LDB is INTEGER / / > The leading dimension of the array B. LDB >=f2cmax(1,N). / / > \endverbatim / / > / / > \param[out] C / / > \verbatim / / > C is COMPLEX array, dimension (LDC, N) / / > On exit, C contains the M by N matrix C. / / > \endverbatim / / > / / > \param[in] LDC / / > \verbatim / / > LDC is INTEGER / / > The leading dimension of the array C. LDC >=f2cmax(1,N). / / > \endverbatim / / > / / > \param[out] RWORK / / > \verbatim / / > RWORK is REAL array, dimension (2MN) / / > \endverbatim / / Authors: / / ======== / / > \author Univ. of Tennessee / / > \author Univ. of California Berkeley / / > \author Univ. of Colorado Denver / / > \author NAG Ltd. / / > \date December 2016 / / > \ingroup complexOTHERauxiliary / / ===================================================================== / / Subroutine / int clacrm_(integer m, integer n, complex a, integer lda, real b, integer ldb, complex c__, integer ldc, real rwork) { /* System generated locals / integer b_dim1, b_offset, a_dim1, a_offset, c_dim1, c_offset, i__1, i__2, i__3, i__4, i__5; real r__1; complex q__1; / Local variables / integer i__, j, l; extern / Subroutine / int sgemm_(char , char , integer , integer , integer , real , real , integer , real , integer , real , real , integer ); /* -- LAPACK auxiliary routine (version 3.7.0) -- / / -- LAPACK is a software package provided by Univ. of Tennessee, -- / / -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..-- / / December 2016 / / ===================================================================== / / Quick return if possible. / / Parameter adjustments / a_dim1 = lda; a_offset = 1 + a_dim1 * 1; a -= a_offset; b_dim1 = ldb; b_offset = 1 + b_dim1 1; b -= b_offset; c_dim1 = ldc; c_offset = 1 + c_dim1 1; c__ -= c_offset; --rwork; /* Function Body / if (m == 0 \|\| n == 0) { return 0; } i__1 = n; for (j = 1; j <= i__1; ++j) { i__2 = m; for (i__ = 1; i__ <= i__2; ++i__) { i__3 = i__ + j a_dim1; rwork[(j - 1) * m + i__] = a[i__3].r; / L10: / } / L20: / } l = m * n + 1; sgemm_("N", "N", m, n, n, &c_b6, &rwork[1], m, &b[b_offset], ldb, &c_b7, & rwork[l], m); i__1 = n; for (j = 1; j <= i__1; ++j) { i__2 = m; for (i__ = 1; i__ <= i__2; ++i__) { i__3 = i__ + j c_dim1; i__4 = l + (j - 1) * m + i__ - 1; c__[i__3].r = rwork[i__4], c__[i__3].i = 0.f; / L30: / } / L40: / } i__1 = n; for (j = 1; j <= i__1; ++j) { i__2 = m; for (i__ = 1; i__ <= i__2; ++i__) { rwork[(j - 1) m + i__] = r_imag(&a[i__ + j a_dim1]); /* L50: / } / L60: / } sgemm_("N", "N", m, n, n, &c_b6, &rwork[1], m, &b[b_offset], ldb, &c_b7, & rwork[l], m); i__1 = n; for (j = 1; j <= i__1; ++j) { i__2 = m; for (i__ = 1; i__ <= i__2; ++i__) { i__3 = i__ + j c_dim1; i__4 = i__ + j * c_dim1; r__1 = c__[i__4].r; i__5 = l + (j - 1) * m + i__ - 1; q__1.r = r__1, q__1.i = rwork[i__5]; c__[i__3].r = q__1.r, c__[i__3].i = q__1.i; / L70: / } / L80: / } return 0; / End of CLACRM / } / clacrm_ */
the_stack_data/940317.c	/* Copyright (c) 2020, Dive into Systems, LLC (https://diveintosystems.org/) / #include <stdio.h> #include <stdlib.h> / print size elms of array p with name name / void print_array(int p, int size, char name) ; int main(int argc, char argv[]) { int bigfish, littlefish, i; // allocate space for two int arrays bigfish = malloc(sizeof(int)10); littlefish = malloc(sizeof(int)10); if (!bigfish \|\| !littlefish) { printf("Error: malloc failed\n"); exit(1); } for (i=0; i < 10; i++) { bigfish[i] = 10+i; littlefish[i] = i; } print_array(bigfish,10, "bigfish"); print_array(littlefish,10, "littlefish"); // here is a bad Heap memory access // (write beyond bounds of allocated memory): for (i=0; i < 10; i++) { bigfish[i] = 66+i; } printf("\nafter loop:\n"); print_array(bigfish,10, "bigfish"); print_array(littlefish,10, "littlefish"); free(bigfish); free(littlefish); // program will crash here return 0; } /**********************************/ / * print out an array * p: the array, size: num elms, name: name / void print_array(int p, int size, char *name) { int i; printf("%s array:\n", name); for(i=0; i< size; i++) { printf("%3d ",p[i]); } printf("\n"); }
the_stack_data/504456.c	/* Autogenerated: src/ExtractionOCaml/unsaturated_solinas --static 25519 5 '2^255 - 19' 64 carry_mul carry_square carry_scmul121666 carry add sub opp selectznz to_bytes from_bytes / / curve description: 25519 / / requested operations: carry_mul, carry_square, carry_scmul121666, carry, add, sub, opp, selectznz, to_bytes, from_bytes / / n = 5 (from "5") / / s-c = 2^255 - [(1, 19)] (from "2^255 - 19") / / machine_wordsize = 64 (from "64") / / Computed values: / / carry_chain = [0, 1, 2, 3, 4, 0, 1] / #include <stdint.h> typedef unsigned char fiat_25519_uint1; typedef signed char fiat_25519_int1; typedef signed __int128 fiat_25519_int128; typedef unsigned __int128 fiat_25519_uint128; #if (-1 & 3) != 3 #error "This code only works on a two's complement system" #endif / * The function fiat_25519_addcarryx_u51 is an addition with carry. * Postconditions: * out1 = (arg1 + arg2 + arg3) mod 2^51 * out2 = ⌊(arg1 + arg2 + arg3) / 2^51⌋ * * Input Bounds: * arg1: [0x0 ~> 0x1] * arg2: [0x0 ~> 0x7ffffffffffff] * arg3: [0x0 ~> 0x7ffffffffffff] * Output Bounds: * out1: [0x0 ~> 0x7ffffffffffff] * out2: [0x0 ~> 0x1] / static void fiat_25519_addcarryx_u51(uint64_t out1, fiat_25519_uint1* out2, fiat_25519_uint1 arg1, uint64_t arg2, uint64_t arg3) { uint64_t x1 = ((arg1 + arg2) + arg3); uint64_t x2 = (x1 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint1 x3 = (fiat_25519_uint1)(x1 >> 51); out1 = x2; out2 = x3; } /* * The function fiat_25519_subborrowx_u51 is a subtraction with borrow. * Postconditions: * out1 = (-arg1 + arg2 + -arg3) mod 2^51 * out2 = -⌊(-arg1 + arg2 + -arg3) / 2^51⌋ * * Input Bounds: * arg1: [0x0 ~> 0x1] * arg2: [0x0 ~> 0x7ffffffffffff] * arg3: [0x0 ~> 0x7ffffffffffff] * Output Bounds: * out1: [0x0 ~> 0x7ffffffffffff] * out2: [0x0 ~> 0x1] / static void fiat_25519_subborrowx_u51(uint64_t out1, fiat_25519_uint1* out2, fiat_25519_uint1 arg1, uint64_t arg2, uint64_t arg3) { int64_t x1 = ((int64_t)(arg2 - (int64_t)arg1) - (int64_t)arg3); fiat_25519_int1 x2 = (fiat_25519_int1)(x1 >> 51); uint64_t x3 = (x1 & UINT64_C(0x7ffffffffffff)); out1 = x3; out2 = (fiat_25519_uint1)(0x0 - x2); } /* * The function fiat_25519_cmovznz_u64 is a single-word conditional move. * Postconditions: * out1 = (if arg1 = 0 then arg2 else arg3) * * Input Bounds: * arg1: [0x0 ~> 0x1] * arg2: [0x0 ~> 0xffffffffffffffff] * arg3: [0x0 ~> 0xffffffffffffffff] * Output Bounds: * out1: [0x0 ~> 0xffffffffffffffff] / static void fiat_25519_cmovznz_u64(uint64_t out1, fiat_25519_uint1 arg1, uint64_t arg2, uint64_t arg3) { fiat_25519_uint1 x1 = (!(!arg1)); uint64_t x2 = ((fiat_25519_int1)(0x0 - x1) & UINT64_C(0xffffffffffffffff)); uint64_t x3 = ((x2 & arg3) \| ((~x2) & arg2)); out1 = x3; } / * The function fiat_25519_carry_mul multiplies two field elements and reduces the result. * Postconditions: * eval out1 mod m = (eval arg1 * eval arg2) mod m * * Input Bounds: * arg1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] * arg2: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] * Output Bounds: * out1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] / static void fiat_25519_carry_mul(uint64_t out1[5], const uint64_t arg1[5], const uint64_t arg2[5]) { fiat_25519_uint128 x1 = ((fiat_25519_uint128)(arg1[4]) ((arg2[4]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x2 = ((fiat_25519_uint128)(arg1[4]) * ((arg2[3]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x3 = ((fiat_25519_uint128)(arg1[4]) * ((arg2[2]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x4 = ((fiat_25519_uint128)(arg1[4]) * ((arg2[1]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x5 = ((fiat_25519_uint128)(arg1[3]) * ((arg2[4]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x6 = ((fiat_25519_uint128)(arg1[3]) * ((arg2[3]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x7 = ((fiat_25519_uint128)(arg1[3]) * ((arg2[2]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x8 = ((fiat_25519_uint128)(arg1[2]) * ((arg2[4]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x9 = ((fiat_25519_uint128)(arg1[2]) * ((arg2[3]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x10 = ((fiat_25519_uint128)(arg1[1]) * ((arg2[4]) * (uint64_t)UINT8_C(0x13))); fiat_25519_uint128 x11 = ((fiat_25519_uint128)(arg1[4]) * (arg2[0])); fiat_25519_uint128 x12 = ((fiat_25519_uint128)(arg1[3]) * (arg2[1])); fiat_25519_uint128 x13 = ((fiat_25519_uint128)(arg1[3]) * (arg2[0])); fiat_25519_uint128 x14 = ((fiat_25519_uint128)(arg1[2]) * (arg2[2])); fiat_25519_uint128 x15 = ((fiat_25519_uint128)(arg1[2]) * (arg2[1])); fiat_25519_uint128 x16 = ((fiat_25519_uint128)(arg1[2]) * (arg2[0])); fiat_25519_uint128 x17 = ((fiat_25519_uint128)(arg1[1]) * (arg2[3])); fiat_25519_uint128 x18 = ((fiat_25519_uint128)(arg1[1]) * (arg2[2])); fiat_25519_uint128 x19 = ((fiat_25519_uint128)(arg1[1]) * (arg2[1])); fiat_25519_uint128 x20 = ((fiat_25519_uint128)(arg1[1]) * (arg2[0])); fiat_25519_uint128 x21 = ((fiat_25519_uint128)(arg1[0]) * (arg2[4])); fiat_25519_uint128 x22 = ((fiat_25519_uint128)(arg1[0]) * (arg2[3])); fiat_25519_uint128 x23 = ((fiat_25519_uint128)(arg1[0]) * (arg2[2])); fiat_25519_uint128 x24 = ((fiat_25519_uint128)(arg1[0]) * (arg2[1])); fiat_25519_uint128 x25 = ((fiat_25519_uint128)(arg1[0]) * (arg2[0])); fiat_25519_uint128 x26 = (x25 + (x10 + (x9 + (x7 + x4)))); uint64_t x27 = (uint64_t)(x26 >> 51); uint64_t x28 = (uint64_t)(x26 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x29 = (x21 + (x17 + (x14 + (x12 + x11)))); fiat_25519_uint128 x30 = (x22 + (x18 + (x15 + (x13 + x1)))); fiat_25519_uint128 x31 = (x23 + (x19 + (x16 + (x5 + x2)))); fiat_25519_uint128 x32 = (x24 + (x20 + (x8 + (x6 + x3)))); fiat_25519_uint128 x33 = (x27 + x32); uint64_t x34 = (uint64_t)(x33 >> 51); uint64_t x35 = (uint64_t)(x33 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x36 = (x34 + x31); uint64_t x37 = (uint64_t)(x36 >> 51); uint64_t x38 = (uint64_t)(x36 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x39 = (x37 + x30); uint64_t x40 = (uint64_t)(x39 >> 51); uint64_t x41 = (uint64_t)(x39 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x42 = (x40 + x29); uint64_t x43 = (uint64_t)(x42 >> 51); uint64_t x44 = (uint64_t)(x42 & UINT64_C(0x7ffffffffffff)); uint64_t x45 = (x43 * (uint64_t)UINT8_C(0x13)); uint64_t x46 = (x28 + x45); uint64_t x47 = (x46 >> 51); uint64_t x48 = (x46 & UINT64_C(0x7ffffffffffff)); uint64_t x49 = (x47 + x35); fiat_25519_uint1 x50 = (fiat_25519_uint1)(x49 >> 51); uint64_t x51 = (x49 & UINT64_C(0x7ffffffffffff)); uint64_t x52 = (x50 + x38); out1[0] = x48; out1[1] = x51; out1[2] = x52; out1[3] = x41; out1[4] = x44; } /* * The function fiat_25519_carry_square squares a field element and reduces the result. * Postconditions: * eval out1 mod m = (eval arg1 * eval arg1) mod m * * Input Bounds: * arg1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] * Output Bounds: * out1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] / static void fiat_25519_carry_square(uint64_t out1[5], const uint64_t arg1[5]) { uint64_t x1 = ((arg1[4]) (uint64_t)UINT8_C(0x13)); uint64_t x2 = (x1 * (uint64_t)0x2); uint64_t x3 = ((arg1[4]) * (uint64_t)0x2); uint64_t x4 = ((arg1[3]) * (uint64_t)UINT8_C(0x13)); uint64_t x5 = (x4 * (uint64_t)0x2); uint64_t x6 = ((arg1[3]) * (uint64_t)0x2); uint64_t x7 = ((arg1[2]) * (uint64_t)0x2); uint64_t x8 = ((arg1[1]) * (uint64_t)0x2); fiat_25519_uint128 x9 = ((fiat_25519_uint128)(arg1[4]) * x1); fiat_25519_uint128 x10 = ((fiat_25519_uint128)(arg1[3]) * x2); fiat_25519_uint128 x11 = ((fiat_25519_uint128)(arg1[3]) * x4); fiat_25519_uint128 x12 = ((fiat_25519_uint128)(arg1[2]) * x2); fiat_25519_uint128 x13 = ((fiat_25519_uint128)(arg1[2]) * x5); fiat_25519_uint128 x14 = ((fiat_25519_uint128)(arg1[2]) * (arg1[2])); fiat_25519_uint128 x15 = ((fiat_25519_uint128)(arg1[1]) * x2); fiat_25519_uint128 x16 = ((fiat_25519_uint128)(arg1[1]) * x6); fiat_25519_uint128 x17 = ((fiat_25519_uint128)(arg1[1]) * x7); fiat_25519_uint128 x18 = ((fiat_25519_uint128)(arg1[1]) * (arg1[1])); fiat_25519_uint128 x19 = ((fiat_25519_uint128)(arg1[0]) * x3); fiat_25519_uint128 x20 = ((fiat_25519_uint128)(arg1[0]) * x6); fiat_25519_uint128 x21 = ((fiat_25519_uint128)(arg1[0]) * x7); fiat_25519_uint128 x22 = ((fiat_25519_uint128)(arg1[0]) * x8); fiat_25519_uint128 x23 = ((fiat_25519_uint128)(arg1[0]) * (arg1[0])); fiat_25519_uint128 x24 = (x23 + (x15 + x13)); uint64_t x25 = (uint64_t)(x24 >> 51); uint64_t x26 = (uint64_t)(x24 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x27 = (x19 + (x16 + x14)); fiat_25519_uint128 x28 = (x20 + (x17 + x9)); fiat_25519_uint128 x29 = (x21 + (x18 + x10)); fiat_25519_uint128 x30 = (x22 + (x12 + x11)); fiat_25519_uint128 x31 = (x25 + x30); uint64_t x32 = (uint64_t)(x31 >> 51); uint64_t x33 = (uint64_t)(x31 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x34 = (x32 + x29); uint64_t x35 = (uint64_t)(x34 >> 51); uint64_t x36 = (uint64_t)(x34 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x37 = (x35 + x28); uint64_t x38 = (uint64_t)(x37 >> 51); uint64_t x39 = (uint64_t)(x37 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x40 = (x38 + x27); uint64_t x41 = (uint64_t)(x40 >> 51); uint64_t x42 = (uint64_t)(x40 & UINT64_C(0x7ffffffffffff)); uint64_t x43 = (x41 * (uint64_t)UINT8_C(0x13)); uint64_t x44 = (x26 + x43); uint64_t x45 = (x44 >> 51); uint64_t x46 = (x44 & UINT64_C(0x7ffffffffffff)); uint64_t x47 = (x45 + x33); fiat_25519_uint1 x48 = (fiat_25519_uint1)(x47 >> 51); uint64_t x49 = (x47 & UINT64_C(0x7ffffffffffff)); uint64_t x50 = (x48 + x36); out1[0] = x46; out1[1] = x49; out1[2] = x50; out1[3] = x39; out1[4] = x42; } /* * The function fiat_25519_carry_scmul_121666 multiplies a field element by 121666 and reduces the result. * Postconditions: * eval out1 mod m = (121666 * eval arg1) mod m * * Input Bounds: * arg1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] * Output Bounds: * out1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] / static void fiat_25519_carry_scmul_121666(uint64_t out1[5], const uint64_t arg1[5]) { fiat_25519_uint128 x1 = (UINT32_C(0x1db42) (fiat_25519_uint128)(arg1[4])); fiat_25519_uint128 x2 = (UINT32_C(0x1db42) * (fiat_25519_uint128)(arg1[3])); fiat_25519_uint128 x3 = (UINT32_C(0x1db42) * (fiat_25519_uint128)(arg1[2])); fiat_25519_uint128 x4 = (UINT32_C(0x1db42) * (fiat_25519_uint128)(arg1[1])); fiat_25519_uint128 x5 = (UINT32_C(0x1db42) * (fiat_25519_uint128)(arg1[0])); uint64_t x6 = (uint64_t)(x5 >> 51); uint64_t x7 = (uint64_t)(x5 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x8 = (x6 + x4); uint64_t x9 = (uint64_t)(x8 >> 51); uint64_t x10 = (uint64_t)(x8 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x11 = (x9 + x3); uint64_t x12 = (uint64_t)(x11 >> 51); uint64_t x13 = (uint64_t)(x11 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x14 = (x12 + x2); uint64_t x15 = (uint64_t)(x14 >> 51); uint64_t x16 = (uint64_t)(x14 & UINT64_C(0x7ffffffffffff)); fiat_25519_uint128 x17 = (x15 + x1); uint64_t x18 = (uint64_t)(x17 >> 51); uint64_t x19 = (uint64_t)(x17 & UINT64_C(0x7ffffffffffff)); uint64_t x20 = (x18 * (uint64_t)UINT8_C(0x13)); uint64_t x21 = (x7 + x20); fiat_25519_uint1 x22 = (fiat_25519_uint1)(x21 >> 51); uint64_t x23 = (x21 & UINT64_C(0x7ffffffffffff)); uint64_t x24 = (x22 + x10); fiat_25519_uint1 x25 = (fiat_25519_uint1)(x24 >> 51); uint64_t x26 = (x24 & UINT64_C(0x7ffffffffffff)); uint64_t x27 = (x25 + x13); out1[0] = x23; out1[1] = x26; out1[2] = x27; out1[3] = x16; out1[4] = x19; } /* * The function fiat_25519_carry reduces a field element. * Postconditions: * eval out1 mod m = eval arg1 mod m * * Input Bounds: * arg1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] * Output Bounds: * out1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] / static void fiat_25519_carry(uint64_t out1[5], const uint64_t arg1[5]) { uint64_t x1 = (arg1[0]); uint64_t x2 = ((x1 >> 51) + (arg1[1])); uint64_t x3 = ((x2 >> 51) + (arg1[2])); uint64_t x4 = ((x3 >> 51) + (arg1[3])); uint64_t x5 = ((x4 >> 51) + (arg1[4])); uint64_t x6 = ((x1 & UINT64_C(0x7ffffffffffff)) + ((x5 >> 51) (uint64_t)UINT8_C(0x13))); uint64_t x7 = ((fiat_25519_uint1)(x6 >> 51) + (x2 & UINT64_C(0x7ffffffffffff))); uint64_t x8 = (x6 & UINT64_C(0x7ffffffffffff)); uint64_t x9 = (x7 & UINT64_C(0x7ffffffffffff)); uint64_t x10 = ((fiat_25519_uint1)(x7 >> 51) + (x3 & UINT64_C(0x7ffffffffffff))); uint64_t x11 = (x4 & UINT64_C(0x7ffffffffffff)); uint64_t x12 = (x5 & UINT64_C(0x7ffffffffffff)); out1[0] = x8; out1[1] = x9; out1[2] = x10; out1[3] = x11; out1[4] = x12; } /* * The function fiat_25519_add adds two field elements. * Postconditions: * eval out1 mod m = (eval arg1 + eval arg2) mod m * * Input Bounds: * arg1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] * arg2: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] * Output Bounds: * out1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] / static void fiat_25519_add(uint64_t out1[5], const uint64_t arg1[5], const uint64_t arg2[5]) { uint64_t x1 = ((arg1[0]) + (arg2[0])); uint64_t x2 = ((arg1[1]) + (arg2[1])); uint64_t x3 = ((arg1[2]) + (arg2[2])); uint64_t x4 = ((arg1[3]) + (arg2[3])); uint64_t x5 = ((arg1[4]) + (arg2[4])); out1[0] = x1; out1[1] = x2; out1[2] = x3; out1[3] = x4; out1[4] = x5; } / * The function fiat_25519_sub subtracts two field elements. * Postconditions: * eval out1 mod m = (eval arg1 - eval arg2) mod m * * Input Bounds: * arg1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] * arg2: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] * Output Bounds: * out1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] / static void fiat_25519_sub(uint64_t out1[5], const uint64_t arg1[5], const uint64_t arg2[5]) { uint64_t x1 = ((UINT64_C(0xfffffffffffda) + (arg1[0])) - (arg2[0])); uint64_t x2 = ((UINT64_C(0xffffffffffffe) + (arg1[1])) - (arg2[1])); uint64_t x3 = ((UINT64_C(0xffffffffffffe) + (arg1[2])) - (arg2[2])); uint64_t x4 = ((UINT64_C(0xffffffffffffe) + (arg1[3])) - (arg2[3])); uint64_t x5 = ((UINT64_C(0xffffffffffffe) + (arg1[4])) - (arg2[4])); out1[0] = x1; out1[1] = x2; out1[2] = x3; out1[3] = x4; out1[4] = x5; } / * The function fiat_25519_opp negates a field element. * Postconditions: * eval out1 mod m = -eval arg1 mod m * * Input Bounds: * arg1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] * Output Bounds: * out1: [[0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664], [0x0 ~> 0x1a666666666664]] / static void fiat_25519_opp(uint64_t out1[5], const uint64_t arg1[5]) { uint64_t x1 = (UINT64_C(0xfffffffffffda) - (arg1[0])); uint64_t x2 = (UINT64_C(0xffffffffffffe) - (arg1[1])); uint64_t x3 = (UINT64_C(0xffffffffffffe) - (arg1[2])); uint64_t x4 = (UINT64_C(0xffffffffffffe) - (arg1[3])); uint64_t x5 = (UINT64_C(0xffffffffffffe) - (arg1[4])); out1[0] = x1; out1[1] = x2; out1[2] = x3; out1[3] = x4; out1[4] = x5; } / * The function fiat_25519_selectznz is a multi-limb conditional select. * Postconditions: * eval out1 = (if arg1 = 0 then eval arg2 else eval arg3) * * Input Bounds: * arg1: [0x0 ~> 0x1] * arg2: [[0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff]] * arg3: [[0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff]] * Output Bounds: * out1: [[0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff], [0x0 ~> 0xffffffffffffffff]] / static void fiat_25519_selectznz(uint64_t out1[5], fiat_25519_uint1 arg1, const uint64_t arg2[5], const uint64_t arg3[5]) { uint64_t x1; fiat_25519_cmovznz_u64(&x1, arg1, (arg2[0]), (arg3[0])); uint64_t x2; fiat_25519_cmovznz_u64(&x2, arg1, (arg2[1]), (arg3[1])); uint64_t x3; fiat_25519_cmovznz_u64(&x3, arg1, (arg2[2]), (arg3[2])); uint64_t x4; fiat_25519_cmovznz_u64(&x4, arg1, (arg2[3]), (arg3[3])); uint64_t x5; fiat_25519_cmovznz_u64(&x5, arg1, (arg2[4]), (arg3[4])); out1[0] = x1; out1[1] = x2; out1[2] = x3; out1[3] = x4; out1[4] = x5; } / * The function fiat_25519_to_bytes serializes a field element to bytes in little-endian order. * Postconditions: * out1 = map (λ x, ⌊((eval arg1 mod m) mod 2^(8 * (x + 1))) / 2^(8 * x)⌋) [0..31] * * Input Bounds: * arg1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] * Output Bounds: * out1: [[0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0x7f]] / static void fiat_25519_to_bytes(uint8_t out1[32], const uint64_t arg1[5]) { uint64_t x1; fiat_25519_uint1 x2; fiat_25519_subborrowx_u51(&x1, &x2, 0x0, (arg1[0]), UINT64_C(0x7ffffffffffed)); uint64_t x3; fiat_25519_uint1 x4; fiat_25519_subborrowx_u51(&x3, &x4, x2, (arg1[1]), UINT64_C(0x7ffffffffffff)); uint64_t x5; fiat_25519_uint1 x6; fiat_25519_subborrowx_u51(&x5, &x6, x4, (arg1[2]), UINT64_C(0x7ffffffffffff)); uint64_t x7; fiat_25519_uint1 x8; fiat_25519_subborrowx_u51(&x7, &x8, x6, (arg1[3]), UINT64_C(0x7ffffffffffff)); uint64_t x9; fiat_25519_uint1 x10; fiat_25519_subborrowx_u51(&x9, &x10, x8, (arg1[4]), UINT64_C(0x7ffffffffffff)); uint64_t x11; fiat_25519_cmovznz_u64(&x11, x10, 0x0, UINT64_C(0xffffffffffffffff)); uint64_t x12; fiat_25519_uint1 x13; fiat_25519_addcarryx_u51(&x12, &x13, 0x0, x1, (x11 & UINT64_C(0x7ffffffffffed))); uint64_t x14; fiat_25519_uint1 x15; fiat_25519_addcarryx_u51(&x14, &x15, x13, x3, (x11 & UINT64_C(0x7ffffffffffff))); uint64_t x16; fiat_25519_uint1 x17; fiat_25519_addcarryx_u51(&x16, &x17, x15, x5, (x11 & UINT64_C(0x7ffffffffffff))); uint64_t x18; fiat_25519_uint1 x19; fiat_25519_addcarryx_u51(&x18, &x19, x17, x7, (x11 & UINT64_C(0x7ffffffffffff))); uint64_t x20; fiat_25519_uint1 x21; fiat_25519_addcarryx_u51(&x20, &x21, x19, x9, (x11 & UINT64_C(0x7ffffffffffff))); uint64_t x22 = (x20 << 4); uint64_t x23 = (x18 (uint64_t)0x2); uint64_t x24 = (x16 << 6); uint64_t x25 = (x14 << 3); uint64_t x26 = (x12 >> 8); uint8_t x27 = (uint8_t)(x12 & UINT8_C(0xff)); uint64_t x28 = (x26 >> 8); uint8_t x29 = (uint8_t)(x26 & UINT8_C(0xff)); uint64_t x30 = (x28 >> 8); uint8_t x31 = (uint8_t)(x28 & UINT8_C(0xff)); uint64_t x32 = (x30 >> 8); uint8_t x33 = (uint8_t)(x30 & UINT8_C(0xff)); uint64_t x34 = (x32 >> 8); uint8_t x35 = (uint8_t)(x32 & UINT8_C(0xff)); uint8_t x36 = (uint8_t)(x34 >> 8); uint8_t x37 = (uint8_t)(x34 & UINT8_C(0xff)); uint64_t x38 = (x36 + x25); uint64_t x39 = (x38 >> 8); uint8_t x40 = (uint8_t)(x38 & UINT8_C(0xff)); uint64_t x41 = (x39 >> 8); uint8_t x42 = (uint8_t)(x39 & UINT8_C(0xff)); uint64_t x43 = (x41 >> 8); uint8_t x44 = (uint8_t)(x41 & UINT8_C(0xff)); uint64_t x45 = (x43 >> 8); uint8_t x46 = (uint8_t)(x43 & UINT8_C(0xff)); uint64_t x47 = (x45 >> 8); uint8_t x48 = (uint8_t)(x45 & UINT8_C(0xff)); uint8_t x49 = (uint8_t)(x47 >> 8); uint8_t x50 = (uint8_t)(x47 & UINT8_C(0xff)); uint64_t x51 = (x49 + x24); uint64_t x52 = (x51 >> 8); uint8_t x53 = (uint8_t)(x51 & UINT8_C(0xff)); uint64_t x54 = (x52 >> 8); uint8_t x55 = (uint8_t)(x52 & UINT8_C(0xff)); uint64_t x56 = (x54 >> 8); uint8_t x57 = (uint8_t)(x54 & UINT8_C(0xff)); uint64_t x58 = (x56 >> 8); uint8_t x59 = (uint8_t)(x56 & UINT8_C(0xff)); uint64_t x60 = (x58 >> 8); uint8_t x61 = (uint8_t)(x58 & UINT8_C(0xff)); uint64_t x62 = (x60 >> 8); uint8_t x63 = (uint8_t)(x60 & UINT8_C(0xff)); fiat_25519_uint1 x64 = (fiat_25519_uint1)(x62 >> 8); uint8_t x65 = (uint8_t)(x62 & UINT8_C(0xff)); uint64_t x66 = (x64 + x23); uint64_t x67 = (x66 >> 8); uint8_t x68 = (uint8_t)(x66 & UINT8_C(0xff)); uint64_t x69 = (x67 >> 8); uint8_t x70 = (uint8_t)(x67 & UINT8_C(0xff)); uint64_t x71 = (x69 >> 8); uint8_t x72 = (uint8_t)(x69 & UINT8_C(0xff)); uint64_t x73 = (x71 >> 8); uint8_t x74 = (uint8_t)(x71 & UINT8_C(0xff)); uint64_t x75 = (x73 >> 8); uint8_t x76 = (uint8_t)(x73 & UINT8_C(0xff)); uint8_t x77 = (uint8_t)(x75 >> 8); uint8_t x78 = (uint8_t)(x75 & UINT8_C(0xff)); uint64_t x79 = (x77 + x22); uint64_t x80 = (x79 >> 8); uint8_t x81 = (uint8_t)(x79 & UINT8_C(0xff)); uint64_t x82 = (x80 >> 8); uint8_t x83 = (uint8_t)(x80 & UINT8_C(0xff)); uint64_t x84 = (x82 >> 8); uint8_t x85 = (uint8_t)(x82 & UINT8_C(0xff)); uint64_t x86 = (x84 >> 8); uint8_t x87 = (uint8_t)(x84 & UINT8_C(0xff)); uint64_t x88 = (x86 >> 8); uint8_t x89 = (uint8_t)(x86 & UINT8_C(0xff)); uint8_t x90 = (uint8_t)(x88 >> 8); uint8_t x91 = (uint8_t)(x88 & UINT8_C(0xff)); out1[0] = x27; out1[1] = x29; out1[2] = x31; out1[3] = x33; out1[4] = x35; out1[5] = x37; out1[6] = x40; out1[7] = x42; out1[8] = x44; out1[9] = x46; out1[10] = x48; out1[11] = x50; out1[12] = x53; out1[13] = x55; out1[14] = x57; out1[15] = x59; out1[16] = x61; out1[17] = x63; out1[18] = x65; out1[19] = x68; out1[20] = x70; out1[21] = x72; out1[22] = x74; out1[23] = x76; out1[24] = x78; out1[25] = x81; out1[26] = x83; out1[27] = x85; out1[28] = x87; out1[29] = x89; out1[30] = x91; out1[31] = x90; } /* * The function fiat_25519_from_bytes deserializes a field element from bytes in little-endian order. * Postconditions: * eval out1 mod m = bytes_eval arg1 mod m * * Input Bounds: * arg1: [[0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0xff], [0x0 ~> 0x7f]] * Output Bounds: * out1: [[0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc], [0x0 ~> 0x8cccccccccccc]] */ static void fiat_25519_from_bytes(uint64_t out1[5], const uint8_t arg1[32]) { uint64_t x1 = ((uint64_t)(arg1[31]) << 44); uint64_t x2 = ((uint64_t)(arg1[30]) << 36); uint64_t x3 = ((uint64_t)(arg1[29]) << 28); uint64_t x4 = ((uint64_t)(arg1[28]) << 20); uint64_t x5 = ((uint64_t)(arg1[27]) << 12); uint64_t x6 = ((uint64_t)(arg1[26]) << 4); uint64_t x7 = ((uint64_t)(arg1[25]) << 47); uint64_t x8 = ((uint64_t)(arg1[24]) << 39); uint64_t x9 = ((uint64_t)(arg1[23]) << 31); uint64_t x10 = ((uint64_t)(arg1[22]) << 23); uint64_t x11 = ((uint64_t)(arg1[21]) << 15); uint64_t x12 = ((uint64_t)(arg1[20]) << 7); uint64_t x13 = ((uint64_t)(arg1[19]) << 50); uint64_t x14 = ((uint64_t)(arg1[18]) << 42); uint64_t x15 = ((uint64_t)(arg1[17]) << 34); uint64_t x16 = ((uint64_t)(arg1[16]) << 26); uint64_t x17 = ((uint64_t)(arg1[15]) << 18); uint64_t x18 = ((uint64_t)(arg1[14]) << 10); uint64_t x19 = ((uint64_t)(arg1[13]) << 2); uint64_t x20 = ((uint64_t)(arg1[12]) << 45); uint64_t x21 = ((uint64_t)(arg1[11]) << 37); uint64_t x22 = ((uint64_t)(arg1[10]) << 29); uint64_t x23 = ((uint64_t)(arg1[9]) << 21); uint64_t x24 = ((uint64_t)(arg1[8]) << 13); uint64_t x25 = ((uint64_t)(arg1[7]) << 5); uint64_t x26 = ((uint64_t)(arg1[6]) << 48); uint64_t x27 = ((uint64_t)(arg1[5]) << 40); uint64_t x28 = ((uint64_t)(arg1[4]) << 32); uint64_t x29 = ((uint64_t)(arg1[3]) << 24); uint64_t x30 = ((uint64_t)(arg1[2]) << 16); uint64_t x31 = ((uint64_t)(arg1[1]) << 8); uint8_t x32 = (arg1[0]); uint64_t x33 = (x32 + (x31 + (x30 + (x29 + (x28 + (x27 + x26)))))); uint8_t x34 = (uint8_t)(x33 >> 51); uint64_t x35 = (x33 & UINT64_C(0x7ffffffffffff)); uint64_t x36 = (x6 + (x5 + (x4 + (x3 + (x2 + x1))))); uint64_t x37 = (x12 + (x11 + (x10 + (x9 + (x8 + x7))))); uint64_t x38 = (x19 + (x18 + (x17 + (x16 + (x15 + (x14 + x13)))))); uint64_t x39 = (x25 + (x24 + (x23 + (x22 + (x21 + x20))))); uint64_t x40 = (x34 + x39); uint8_t x41 = (uint8_t)(x40 >> 51); uint64_t x42 = (x40 & UINT64_C(0x7ffffffffffff)); uint64_t x43 = (x41 + x38); uint8_t x44 = (uint8_t)(x43 >> 51); uint64_t x45 = (x43 & UINT64_C(0x7ffffffffffff)); uint64_t x46 = (x44 + x37); uint8_t x47 = (uint8_t)(x46 >> 51); uint64_t x48 = (x46 & UINT64_C(0x7ffffffffffff)); uint64_t x49 = (x47 + x36); out1[0] = x35; out1[1] = x42; out1[2] = x45; out1[3] = x48; out1[4] = x49; }
the_stack_data/744604.c	#include <stdio.h> #include <math.h> int main(void) { double baseclk = 50e6; double target = 8.113e6; int best_divisor = 0; int best_multipler = 0; double best_error = -1; for(int mult = 1; mult <= 64; mult++) { int divis = round(baseclkmult/target); if(divis>0) { double yield = baseclkmult/divis; double error = fabs((yield-target)/target); if(best_error < 0 \|\| error < best_error) { best_error = error; best_multipler = mult; best_divisor = divis; } } } printf("target: %0.0f, bestmatch: %i/%i, yeild: %0.0f error: %f\r\n", target, best_multipler, best_divisor, baseclk*best_multipler/best_divisor, best_error); return 0; }
the_stack_data/198580946.c	#include <stdio.h> int merge(int a[], int m, int b[], int n, int c[]) { int i = 0; int j = 0; int k = -1; while (i<m \|\| j<n) { if (i == m) { c[++k] = b[j++]; } else if (j == n) { c[++k] = a[i++]; } else if (a[i] < b[j]) { c[++k] = a[i++]; } else { c[++k] = b[j++]; } } return m+n; } int main(int ac, char *av[]) { int a[] = {21, 28, 35, 40, 61, 75}; int b[] = {8, 25, 26, 88}; int c[20] = {0}; int h = 0; int n = 0; n = merge(a, 6, b, 4, c); for (h=0; h<n; ++h) { printf("%d ", c[h]); } printf("\n"); return 0; }
the_stack_data/15763021.c	#include <stdio.h> int main() { int i, j; double matrix[7][7] = { // Variation: {2, 5, 3, 7, 1, 4, 6}, // {1, 2, 3, 4, 5, 6, 7}, // {7, 6, 5, 4, 3, 2, 1}, {0, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, 0}, {0, 0, 0, 0, 0, 0, 0} }; printf("Before sort:\n"); for (i = 0; i < 7; i++) { for (j = 0; j < 7; j++) { printf("%.0lf ", matrix[i][j]); } printf("\n"); } printf("\n"); for (i = 0; i <= 6; i += 2) { int row = 0, T = matrix[row][i]; j = 0; while (matrix[row][j] < T) { j += 2; } for (int k = i - 2; k >= j; k -= 2) { matrix[row][k+2] = matrix[row][k]; } matrix[row][j] = T; } printf("After sort:\n"); for (i = 0; i < 7; i++) { for (j=0; j < 7; j++) { printf("%.0lf ", matrix[i][j]); } printf("\n"); } }
the_stack_data/161079447.c	extern void __VERIFIER_error() __attribute__ ((__noreturn__)); void __VERIFIER_assert(int cond) { if (!(cond)) { ERROR: __VERIFIER_error(); } return; } /************************************************************************/ / / / SNU-RT Benchmark Suite for Worst Case Timing Analysis / / ===================================================== / / Collected and Modified by S.-S. Lim / / [email protected] / / Real-Time Research Group / / Seoul National University / / / / / / < Features > - restrictions for our experimental environment / / / / 1. Completely structured. / / - There are no unconditional jumps. / / - There are no exit from loop bodies. / / (There are no 'break' or 'return' in loop bodies) / / 2. No 'switch' statements. / / 3. No 'do..while' statements. / / 4. Expressions are restricted. / / - There are no multiple expressions joined by 'or', / / 'and' operations. / / 5. No library calls. / / - All the functions needed are implemented in the / / source file. / / / / / /***********************************************************************/ / / / FILE: ludcmp.c / / SOURCE : Turbo C Programming for Engineering / / / / DESCRIPTION : / / / / Simultaneous linear equations by LU decomposition. / / The arrays a[][] and b[] are input and the array x[] is output / / row vector. / / The variable n is the number of equations. / / The input arrays are initialized in function main. / / / / / / REMARK : / / / / EXECUTION TIME : / / / / / /***********************************************************************/ / Benchmark Suite for Real-Time Applications, by Sung-Soo Lim III-4. ludcmp.c : Simultaneous Linear Equations by LU Decomposition (from the book C Programming for EEs by Hyun Soon Ahn) / double a[50][50], b[50], x[50]; int ludcmp(int nmax, int n, double eps); static double fabs(double n) { double f; if (n >= 0) f = n; else f = -n; return f; } int main() { int i, j, nmax = 50, n = 5, chkerr; double eps, w; eps = 1.0e-6; for(i = 0; i <= n; i++) { w = 0.0; for(j = 0; j <= n; j++) { a[i][j] = (i + 1) + (j + 1); if(i == j) a[i][j] = 10.0; w += a[i][j]; } __VERIFIER_assert(i==2); b[i] = w; } chkerr = ludcmp(nmax, n, eps); return 0; } int ludcmp(int nmax, int n, double eps) { int i, j, k; double w, y[100]; if(n > 99 \|\| eps <= 0.0) return(999); for(i = 0; i < n; i++) { if(fabs(a[i][i]) <= eps) return(1); for(j = i+1; j <= n; j++) { w = a[j][i]; if(i != 0) for(k = 0; k < i; k++) w -= a[j][k] * a[k][i]; a[j][i] = w / a[i][i]; } for(j = i+1; j <= n; j++) { w = a[i+1][j]; for(k = 0; k <= i; k++) w -= a[i+1][k] * a[k][j]; a[i+1][j] = w; } } y[0] = b[0]; for(i = 1; i <= n; i++) { w = b[i]; for(j = 0; j < i; j++) w -= a[i][j] * y[j]; y[i] = w; } x[n] = y[n] / a[n][n]; for(i = n-1; i >= 0; i--) { w = y[i]; for(j = i+1; j <= n; j++) w -= a[i][j] * x[j]; x[i] = w / a[i][i] ; } return(0); }
the_stack_data/181393985.c	/* stbi-1.33 - public domain JPEG/PNG reader - http://nothings.org/stb_image.c when you control the images you're loading no warranty implied; use at your own risk QUICK NOTES: Primarily of interest to game developers and other people who can avoid problematic images and only need the trivial interface JPEG baseline (no JPEG progressive) PNG 8-bit only TGA (not sure what subset, if a subset) BMP non-1bpp, non-RLE PSD (composited view only, no extra channels) GIF (comp always reports as 4-channel) HDR (radiance rgbE format) PIC (Softimage PIC) - decode from memory or through FILE (define STBI_NO_STDIO to remove code) - decode from arbitrary I/O callbacks - overridable dequantizing-IDCT, YCbCr-to-RGB conversion (define STBI_SIMD) Latest revisions: 1.33 (2011-07-14) minor fixes suggested by Dave Moore 1.32 (2011-07-13) info support for all filetypes (SpartanJ) 1.31 (2011-06-19) a few more leak fixes, bug in PNG handling (SpartanJ) 1.30 (2011-06-11) added ability to load files via io callbacks (Ben Wenger) 1.29 (2010-08-16) various warning fixes from Aurelien Pocheville 1.28 (2010-08-01) fix bug in GIF palette transparency (SpartanJ) 1.27 (2010-08-01) cast-to-uint8 to fix warnings (Laurent Gomila) allow trailing 0s at end of image data (Laurent Gomila) 1.26 (2010-07-24) fix bug in file buffering for PNG reported by SpartanJ See end of file for full revision history. TODO: stbi_info support for BMP,PSD,HDR,PIC ============================ Contributors ========================= Image formats Optimizations & bugfixes Sean Barrett (jpeg, png, bmp) Fabian "ryg" Giesen Nicolas Schulz (hdr, psd) Jonathan Dummer (tga) Bug fixes & warning fixes Jean-Marc Lienher (gif) Marc LeBlanc Tom Seddon (pic) Christpher Lloyd Thatcher Ulrich (psd) Dave Moore Won Chun the Horde3D community Extensions, features Janez Zemva Jetro Lauha (stbi_info) Jonathan Blow James "moose2000" Brown (iPhone PNG) Laurent Gomila Ben "Disch" Wenger (io callbacks) Aruelien Pocheville Martin "SpartanJ" Golini Ryamond Barbiero David Woo If your name should be here but isn't, let Sean know. / #ifndef STBI_INCLUDE_STB_IMAGE_H #define STBI_INCLUDE_STB_IMAGE_H // To get a header file for this, either cut and paste the header, // or create stb_image.h, #define STBI_HEADER_FILE_ONLY, and // then include stb_image.c from it. //// begin header file //////////////////////////////////////////////////// // // Limitations: // - no jpeg progressive support // - non-HDR formats support 8-bit samples only (jpeg, png) // - no delayed line count (jpeg) -- IJG doesn't support either // - no 1-bit BMP // - GIF always returns comp=4 // // Basic usage (see HDR discussion below): // int x,y,n; // unsigned char data = stbi_load(filename, &x, &y, &n, 0); // // ... process data if not NULL ... // // ... x = width, y = height, n = # 8-bit components per pixel ... // // ... replace '0' with '1'..'4' to force that many components per pixel // // ... but 'n' will always be the number that it would have been if you said 0 // stbi_image_free(data) // // Standard parameters: // int x -- outputs image width in pixels // int y -- outputs image height in pixels // int comp -- outputs # of image components in image file // int req_comp -- if non-zero, # of image components requested in result // // The return value from an image loader is an 'unsigned char ' which points // to the pixel data. The pixel data consists of y scanlines of x pixels, // with each pixel consisting of N interleaved 8-bit components; the first // pixel pointed to is top-left-most in the image. There is no padding between // image scanlines or between pixels, regardless of format. The number of // components N is 'req_comp' if req_comp is non-zero, or comp otherwise. // If req_comp is non-zero, comp has the number of components that _would_ // have been output otherwise. E.g. if you set req_comp to 4, you will always // get RGBA output, but you can check comp to easily see if it's opaque. // // An output image with N components has the following components interleaved // in this order in each pixel: // // N=#comp components // 1 grey // 2 grey, alpha // 3 red, green, blue // 4 red, green, blue, alpha // // If image loading fails for any reason, the return value will be NULL, // and x, y, comp will be unchanged. The function stbi_failure_reason() // can be queried for an extremely brief, end-user unfriendly explanation // of why the load failed. Define STBI_NO_FAILURE_STRINGS to avoid // compiling these strings at all, and STBI_FAILURE_USERMSG to get slightly // more user-friendly ones. // // Paletted PNG, BMP, GIF, and PIC images are automatically depalettized. // // =========================================================================== // // iPhone PNG support: // // By default we convert iphone-formatted PNGs back to RGB; nominally they // would silently load as BGR, except the existing code should have just // failed on such iPhone PNGs. But you can disable this conversion by // by calling stbi_convert_iphone_png_to_rgb(0), in which case // you will always just get the native iphone "format" through. // // Call stbi_set_unpremultiply_on_load(1) as well to force a divide per // pixel to remove any premultiplied alpha only if the image file explicitly // says there's premultiplied data (currently only happens in iPhone images, // and only if iPhone convert-to-rgb processing is on). // // =========================================================================== // // HDR image support (disable by defining STBI_NO_HDR) // // stb_image now supports loading HDR images in general, and currently // the Radiance .HDR file format, although the support is provided // generically. You can still load any file through the existing interface; // if you attempt to load an HDR file, it will be automatically remapped to // LDR, assuming gamma 2.2 and an arbitrary scale factor defaulting to 1; // both of these constants can be reconfigured through this interface: // // stbi_hdr_to_ldr_gamma(2.2f); // stbi_hdr_to_ldr_scale(1.0f); // // (note, do not use _inverse_ constants; stbi_image will invert them // appropriately). // // Additionally, there is a new, parallel interface for loading files as // (linear) floats to preserve the full dynamic range: // // float data = stbi_loadf(filename, &x, &y, &n, 0); // // If you load LDR images through this interface, those images will // be promoted to floating point values, run through the inverse of // constants corresponding to the above: // // stbi_ldr_to_hdr_scale(1.0f); // stbi_ldr_to_hdr_gamma(2.2f); // // Finally, given a filename (or an open file or memory block--see header // file for details) containing image data, you can query for the "most // appropriate" interface to use (that is, whether the image is HDR or // not), using: // // stbi_is_hdr(char filename); // // =========================================================================== // // I/O callbacks // // I/O callbacks allow you to read from arbitrary sources, like packaged // files or some other source. Data read from callbacks are processed // through a small internal buffer (currently 128 bytes) to try to reduce // overhead. // // The three functions you must define are "read" (reads some bytes of data), // "skip" (skips some bytes of data), "eof" (reports if the stream is at the end). #ifndef STBI_NO_STDIO #if defined(_MSC_VER) #define _CRT_SECURE_NO_WARNINGS // suppress bogus warnings about fopen() #endif #include <stdio.h> #endif #define STBI_VERSION 1 enum { STBI_default = 0, // only used for req_comp STBI_grey = 1, STBI_grey_alpha = 2, STBI_rgb = 3, STBI_rgb_alpha = 4 }; typedef unsigned char stbi_uc; #ifdef __cplusplus extern "C" { #endif ////////////////////////////////////////////////////////////////////////////// // // PRIMARY API - works on images of any type // // // load image by filename, open file, or memory buffer // extern stbi_uc stbi_load_from_memory(stbi_uc const buffer, int len, int x, int y, int comp, int req_comp); #ifndef STBI_NO_STDIO extern stbi_uc stbi_load (char const filename, int x, int y, int comp, int req_comp); extern stbi_uc stbi_load_from_file (FILE f, int x, int y, int comp, int req_comp); // for stbi_load_from_file, file pointer is left pointing immediately after image #endif typedef struct { int (read) (void user,char data,int size); // fill 'data' with 'size' bytes. return number of bytes actually read void (skip) (void user,unsigned n); // skip the next 'n' bytes int (eof) (void user); // returns nonzero if we are at end of file/data } stbi_io_callbacks; extern stbi_uc stbi_load_from_callbacks (stbi_io_callbacks const clbk, void user, int x, int y, int comp, int req_comp); #ifndef STBI_NO_HDR extern float stbi_loadf_from_memory(stbi_uc const buffer, int len, int x, int y, int comp, int req_comp); #ifndef STBI_NO_STDIO extern float stbi_loadf (char const filename, int x, int y, int comp, int req_comp); extern float stbi_loadf_from_file (FILE f, int x, int y, int comp, int req_comp); #endif extern float stbi_loadf_from_callbacks (stbi_io_callbacks const clbk, void user, int x, int y, int comp, int req_comp); extern void stbi_hdr_to_ldr_gamma(float gamma); extern void stbi_hdr_to_ldr_scale(float scale); extern void stbi_ldr_to_hdr_gamma(float gamma); extern void stbi_ldr_to_hdr_scale(float scale); #endif // STBI_NO_HDR // stbi_is_hdr is always defined extern int stbi_is_hdr_from_callbacks(stbi_io_callbacks const clbk, void user); extern int stbi_is_hdr_from_memory(stbi_uc const buffer, int len); #ifndef STBI_NO_STDIO extern int stbi_is_hdr (char const filename); extern int stbi_is_hdr_from_file(FILE f); #endif // STBI_NO_STDIO // get a VERY brief reason for failure // NOT THREADSAFE extern const char stbi_failure_reason (void); // free the loaded image -- this is just free() extern void stbi_image_free (void retval_from_stbi_load); // get image dimensions & components without fully decoding extern int stbi_info_from_memory(stbi_uc const buffer, int len, int x, int y, int comp); extern int stbi_info_from_callbacks(stbi_io_callbacks const clbk, void user, int x, int y, int comp); #ifndef STBI_NO_STDIO extern int stbi_info (char const filename, int x, int y, int comp); extern int stbi_info_from_file (FILE f, int x, int y, int comp); #endif // for image formats that explicitly notate that they have premultiplied alpha, // we just return the colors as stored in the file. set this flag to force // unpremultiplication. results are undefined if the unpremultiply overflow. extern void stbi_set_unpremultiply_on_load(int flag_true_if_should_unpremultiply); // indicate whether we should process iphone images back to canonical format, // or just pass them through "as-is" extern void stbi_convert_iphone_png_to_rgb(int flag_true_if_should_convert); // ZLIB client - used by PNG, available for other purposes extern char stbi_zlib_decode_malloc_guesssize(const char buffer, int len, int initial_size, int outlen); extern char stbi_zlib_decode_malloc(const char buffer, int len, int outlen); extern int stbi_zlib_decode_buffer(char obuffer, int olen, const char ibuffer, int ilen); extern char stbi_zlib_decode_noheader_malloc(const char buffer, int len, int outlen); extern int stbi_zlib_decode_noheader_buffer(char obuffer, int olen, const char ibuffer, int ilen); // define faster low-level operations (typically SIMD support) #ifdef STBI_SIMD typedef void (stbi_idct_8x8)(stbi_uc out, int out_stride, short data[64], unsigned short dequantize); // compute an integer IDCT on "input" // input[x] = data[x] dequantize[x] // write results to 'out': 64 samples, each run of 8 spaced by 'out_stride' // CLAMP results to 0..255 typedef void (stbi_YCbCr_to_RGB_run)(stbi_uc output, stbi_uc const y, stbi_uc const cb, stbi_uc const cr, int count, int step); // compute a conversion from YCbCr to RGB // 'count' pixels // write pixels to 'output'; each pixel is 'step' bytes (either 3 or 4; if 4, write '255' as 4th), order R,G,B // y: Y input channel // cb: Cb input channel; scale/biased to be 0..255 // cr: Cr input channel; scale/biased to be 0..255 extern void stbi_install_idct(stbi_idct_8x8 func); extern void stbi_install_YCbCr_to_RGB(stbi_YCbCr_to_RGB_run func); #endif // STBI_SIMD #ifdef __cplusplus } #endif // // //// end header file ///////////////////////////////////////////////////// #endif // STBI_INCLUDE_STB_IMAGE_H #ifndef STBI_HEADER_FILE_ONLY #ifndef STBI_NO_HDR #include <math.h> // ldexp #include <string.h> // strcmp, strtok #endif #ifndef STBI_NO_STDIO #include <stdio.h> #endif #include <stdlib.h> #include <memory.h> #include <assert.h> #include <stdarg.h> #ifndef _MSC_VER #ifdef __cplusplus #define stbi_inline inline #else #define stbi_inline #endif #else #define stbi_inline __forceinline #endif // implementation: typedef unsigned char uint8; typedef unsigned short uint16; typedef signed short int16; typedef unsigned int uint32; typedef signed int int32; typedef unsigned int uint; // should produce compiler error if size is wrong typedef unsigned char validate_uint32[sizeof(uint32)==4 ? 1 : -1]; #if defined(STBI_NO_STDIO) && !defined(STBI_NO_WRITE) #define STBI_NO_WRITE #endif #define STBI_NOTUSED(v) (void)sizeof(v) #ifdef _MSC_VER #define STBI_HAS_LROTL #endif #ifdef STBI_HAS_LROTL #define stbi_lrot(x,y) _lrotl(x,y) #else #define stbi_lrot(x,y) (((x) << (y)) \| ((x) >> (32 - (y)))) #endif /////////////////////////////////////////////// // // stbi struct and start_xxx functions // stbi structure is our basic context used by all images, so it // contains all the IO context, plus some basic image information typedef struct { uint32 img_x, img_y; int img_n, img_out_n; stbi_io_callbacks io; void io_user_data; int read_from_callbacks; int buflen; uint8 buffer_start[128]; uint8 img_buffer, img_buffer_end; uint8 img_buffer_original; } stbi; static void refill_buffer(stbi s); // initialize a memory-decode context static void start_mem(stbi s, uint8 const buffer, int len) { s->io.read = NULL; s->read_from_callbacks = 0; s->img_buffer = s->img_buffer_original = (uint8 ) buffer; s->img_buffer_end = (uint8 ) buffer+len; } // initialize a callback-based context static void start_callbacks(stbi s, stbi_io_callbacks c, void user) { s->io = c; s->io_user_data = user; s->buflen = sizeof(s->buffer_start); s->read_from_callbacks = 1; s->img_buffer_original = s->buffer_start; refill_buffer(s); } #ifndef STBI_NO_STDIO static int stdio_read(void user, char data, int size) { return (int) fread(data,1,size,(FILE) user); } static void stdio_skip(void user, unsigned n) { fseek((FILE) user, n, SEEK_CUR); } static int stdio_eof(void user) { return feof((FILE) user); } static stbi_io_callbacks stbi_stdio_callbacks = { stdio_read, stdio_skip, stdio_eof, }; static void start_file(stbi s, FILE f) { start_callbacks(s, &stbi_stdio_callbacks, (void ) f); } //static void stop_file(stbi s) { } #endif // !STBI_NO_STDIO static void stbi_rewind(stbi s) { // conceptually rewind SHOULD rewind to the beginning of the stream, // but we just rewind to the beginning of the initial buffer, because // we only use it after doing 'test', which only ever looks at at most 92 bytes s->img_buffer = s->img_buffer_original; } static int stbi_jpeg_test(stbi s); static stbi_uc stbi_jpeg_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_jpeg_info(stbi s, int x, int y, int comp); static int stbi_png_test(stbi s); static stbi_uc stbi_png_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_png_info(stbi s, int x, int y, int comp); static int stbi_bmp_test(stbi s); static stbi_uc stbi_bmp_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_tga_test(stbi s); static stbi_uc stbi_tga_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_tga_info(stbi s, int x, int y, int comp); static int stbi_psd_test(stbi s); static stbi_uc stbi_psd_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_hdr_test(stbi s); static float stbi_hdr_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_pic_test(stbi s); static stbi_uc stbi_pic_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_gif_test(stbi s); static stbi_uc stbi_gif_load(stbi s, int x, int y, int comp, int req_comp); static int stbi_gif_info(stbi s, int x, int y, int comp); // this is not threadsafe static const char failure_reason; const char stbi_failure_reason(void) { return failure_reason; } static int e(const char str) { failure_reason = str; return 0; } // e - error // epf - error returning pointer to float // epuc - error returning pointer to unsigned char #ifdef STBI_NO_FAILURE_STRINGS #define e(x,y) 0 #elif defined(STBI_FAILURE_USERMSG) #define e(x,y) e(y) #else #define e(x,y) e(x) #endif #define epf(x,y) ((float ) (e(x,y)?NULL:NULL)) #define epuc(x,y) ((unsigned char ) (e(x,y)?NULL:NULL)) void stbi_image_free(void retval_from_stbi_load) { free(retval_from_stbi_load); } #ifndef STBI_NO_HDR static float ldr_to_hdr(stbi_uc data, int x, int y, int comp); static stbi_uc hdr_to_ldr(float data, int x, int y, int comp); #endif static unsigned char stbi_load_main(stbi s, int x, int y, int comp, int req_comp) { if (stbi_jpeg_test(s)) return stbi_jpeg_load(s,x,y,comp,req_comp); if (stbi_png_test(s)) return stbi_png_load(s,x,y,comp,req_comp); if (stbi_bmp_test(s)) return stbi_bmp_load(s,x,y,comp,req_comp); if (stbi_gif_test(s)) return stbi_gif_load(s,x,y,comp,req_comp); if (stbi_psd_test(s)) return stbi_psd_load(s,x,y,comp,req_comp); if (stbi_pic_test(s)) return stbi_pic_load(s,x,y,comp,req_comp); #ifndef STBI_NO_HDR if (stbi_hdr_test(s)) { float hdr = stbi_hdr_load(s, x,y,comp,req_comp); return hdr_to_ldr(hdr, x, y, req_comp ? req_comp : comp); } #endif // test tga last because it's a crappy test! if (stbi_tga_test(s)) return stbi_tga_load(s,x,y,comp,req_comp); return epuc("unknown image type", "Image not of any known type, or corrupt"); } #ifndef STBI_NO_STDIO unsigned char stbi_load(char const filename, int x, int y, int comp, int req_comp) { FILE f = fopen(filename, "rb"); unsigned char result; if (!f) return epuc("can't fopen", "Unable to open file"); result = stbi_load_from_file(f,x,y,comp,req_comp); fclose(f); return result; } unsigned char stbi_load_from_file(FILE f, int x, int y, int comp, int req_comp) { stbi s; start_file(&s,f); return stbi_load_main(&s,x,y,comp,req_comp); } #endif //!STBI_NO_STDIO unsigned char stbi_load_from_memory(stbi_uc const buffer, int len, int x, int y, int comp, int req_comp) { stbi s; start_mem(&s,buffer,len); return stbi_load_main(&s,x,y,comp,req_comp); } unsigned char stbi_load_from_callbacks(stbi_io_callbacks const clbk, void user, int x, int y, int comp, int req_comp) { stbi s; start_callbacks(&s, (stbi_io_callbacks ) clbk, user); return stbi_load_main(&s,x,y,comp,req_comp); } #ifndef STBI_NO_HDR float stbi_loadf_main(stbi s, int x, int y, int comp, int req_comp) { unsigned char data; #ifndef STBI_NO_HDR if (stbi_hdr_test(s)) return stbi_hdr_load(s,x,y,comp,req_comp); #endif data = stbi_load_main(s, x, y, comp, req_comp); if (data) return ldr_to_hdr(data, x, y, req_comp ? req_comp : comp); return epf("unknown image type", "Image not of any known type, or corrupt"); } float stbi_loadf_from_memory(stbi_uc const buffer, int len, int x, int y, int comp, int req_comp) { stbi s; start_mem(&s,buffer,len); return stbi_loadf_main(&s,x,y,comp,req_comp); } float stbi_loadf_from_callbacks(stbi_io_callbacks const clbk, void user, int x, int y, int comp, int req_comp) { stbi s; start_callbacks(&s, (stbi_io_callbacks ) clbk, user); return stbi_loadf_main(&s,x,y,comp,req_comp); } #ifndef STBI_NO_STDIO float stbi_loadf(char const filename, int x, int y, int comp, int req_comp) { FILE f = fopen(filename, "rb"); float result; if (!f) return epf("can't fopen", "Unable to open file"); result = stbi_loadf_from_file(f,x,y,comp,req_comp); fclose(f); return result; } float stbi_loadf_from_file(FILE f, int x, int y, int comp, int req_comp) { stbi s; start_file(&s,f); return stbi_loadf_main(&s,x,y,comp,req_comp); } #endif // !STBI_NO_STDIO #endif // !STBI_NO_HDR // these is-hdr-or-not is defined independent of whether STBI_NO_HDR is // defined, for API simplicity; if STBI_NO_HDR is defined, it always // reports false! int stbi_is_hdr_from_memory(stbi_uc const buffer, int len) { #ifndef STBI_NO_HDR stbi s; start_mem(&s,buffer,len); return stbi_hdr_test(&s); #else STBI_NOTUSED(buffer); STBI_NOTUSED(len); return 0; #endif } #ifndef STBI_NO_STDIO extern int stbi_is_hdr (char const filename) { FILE f = fopen(filename, "rb"); int result=0; if (f) { result = stbi_is_hdr_from_file(f); fclose(f); } return result; } extern int stbi_is_hdr_from_file(FILE f) { #ifndef STBI_NO_HDR stbi s; start_file(&s,f); return stbi_hdr_test(&s); #else return 0; #endif } #endif // !STBI_NO_STDIO extern int stbi_is_hdr_from_callbacks(stbi_io_callbacks const clbk, void user) { #ifndef STBI_NO_HDR stbi s; start_callbacks(&s, (stbi_io_callbacks ) clbk, user); return stbi_hdr_test(&s); #else return 0; #endif } #ifndef STBI_NO_HDR static float h2l_gamma_i=1.0f/2.2f, h2l_scale_i=1.0f; static float l2h_gamma=2.2f, l2h_scale=1.0f; void stbi_hdr_to_ldr_gamma(float gamma) { h2l_gamma_i = 1/gamma; } void stbi_hdr_to_ldr_scale(float scale) { h2l_scale_i = 1/scale; } void stbi_ldr_to_hdr_gamma(float gamma) { l2h_gamma = gamma; } void stbi_ldr_to_hdr_scale(float scale) { l2h_scale = scale; } #endif ////////////////////////////////////////////////////////////////////////////// // // Common code used by all image loaders // enum { SCAN_load=0, SCAN_type, SCAN_header }; static void refill_buffer(stbi s) { int n = (s->io.read)(s->io_user_data,(char)s->buffer_start,s->buflen); if (n == 0) { // at end of file, treat same as if from memory s->read_from_callbacks = 0; s->img_buffer = s->img_buffer_end-1; s->img_buffer = 0; } else { s->img_buffer = s->buffer_start; s->img_buffer_end = s->buffer_start + n; } } stbi_inline static int get8(stbi s) { if (s->img_buffer < s->img_buffer_end) return s->img_buffer++; if (s->read_from_callbacks) { refill_buffer(s); return s->img_buffer++; } return 0; } stbi_inline static int at_eof(stbi s) { if (s->io.read) { if (!(s->io.eof)(s->io_user_data)) return 0; // if feof() is true, check if buffer = end // special case: we've only got the special 0 character at the end if (s->read_from_callbacks == 0) return 1; } return s->img_buffer >= s->img_buffer_end; } stbi_inline static uint8 get8u(stbi s) { return (uint8) get8(s); } static void skip(stbi s, int n) { if (s->io.read) { int blen = (int)(s->img_buffer_end - s->img_buffer); if (blen < n) { s->img_buffer = s->img_buffer_end; (s->io.skip)(s->io_user_data, n - blen); return; } } s->img_buffer += n; } static int getn(stbi s, stbi_uc buffer, int n) { if (s->io.read) { int blen = (int)(s->img_buffer_end - s->img_buffer); if (blen < n) { int res, count; memcpy(buffer, s->img_buffer, blen); count = (s->io.read)(s->io_user_data, (char) buffer + blen, n - blen); res = (count == (n-blen)); s->img_buffer = s->img_buffer_end; return res; } } if (s->img_buffer+n <= s->img_buffer_end) { memcpy(buffer, s->img_buffer, n); s->img_buffer += n; return 1; } else return 0; } static int get16(stbi s) { int z = get8(s); return (z << 8) + get8(s); } static uint32 get32(stbi s) { uint32 z = get16(s); return (z << 16) + get16(s); } static int get16le(stbi s) { int z = get8(s); return z + (get8(s) << 8); } static uint32 get32le(stbi s) { uint32 z = get16le(s); return z + (get16le(s) << 16); } ////////////////////////////////////////////////////////////////////////////// // // generic converter from built-in img_n to req_comp // individual types do this automatically as much as possible (e.g. jpeg // does all cases internally since it needs to colorspace convert anyway, // and it never has alpha, so very few cases ). png can automatically // interleave an alpha=255 channel, but falls back to this for other cases // // assume data buffer is malloced, so malloc a new one and free that one // only failure mode is malloc failing static uint8 compute_y(int r, int g, int b) { return (uint8) (((r77) + (g150) + (29b)) >> 8); } static unsigned char convert_format(unsigned char data, int img_n, int req_comp, uint x, uint y) { int i,j; unsigned char good; if (req_comp == img_n) return data; assert(req_comp >= 1 && req_comp <= 4); good = (unsigned char ) malloc(req_comp * x * y); if (good == NULL) { free(data); return epuc("outofmem", "Out of memory"); } for (j=0; j < (int) y; ++j) { unsigned char src = data + j x * img_n ; unsigned char dest = good + j x * req_comp; #define COMBO(a,b) ((a)8+(b)) #define CASE(a,b) case COMBO(a,b): for(i=x-1; i >= 0; --i, src += a, dest += b) // convert source image with img_n components to one with req_comp components; // avoid switch per pixel, so use switch per scanline and massive macros switch (COMBO(img_n, req_comp)) { CASE(1,2) dest[0]=src[0], dest[1]=255; break; CASE(1,3) dest[0]=dest[1]=dest[2]=src[0]; break; CASE(1,4) dest[0]=dest[1]=dest[2]=src[0], dest[3]=255; break; CASE(2,1) dest[0]=src[0]; break; CASE(2,3) dest[0]=dest[1]=dest[2]=src[0]; break; CASE(2,4) dest[0]=dest[1]=dest[2]=src[0], dest[3]=src[1]; break; CASE(3,4) dest[0]=src[0],dest[1]=src[1],dest[2]=src[2],dest[3]=255; break; CASE(3,1) dest[0]=compute_y(src[0],src[1],src[2]); break; CASE(3,2) dest[0]=compute_y(src[0],src[1],src[2]), dest[1] = 255; break; CASE(4,1) dest[0]=compute_y(src[0],src[1],src[2]); break; CASE(4,2) dest[0]=compute_y(src[0],src[1],src[2]), dest[1] = src[3]; break; CASE(4,3) dest[0]=src[0],dest[1]=src[1],dest[2]=src[2]; break; default: assert(0); } #undef CASE } free(data); return good; } #ifndef STBI_NO_HDR static float ldr_to_hdr(stbi_uc data, int x, int y, int comp) { int i,k,n; float output = (float ) malloc(x y * comp * sizeof(float)); if (output == NULL) { free(data); return epf("outofmem", "Out of memory"); } // compute number of non-alpha components if (comp & 1) n = comp; else n = comp-1; for (i=0; i < xy; ++i) { for (k=0; k < n; ++k) { output[icomp + k] = (float) pow(data[icomp+k]/255.0f, l2h_gamma) l2h_scale; } if (k < comp) output[icomp + k] = data[icomp+k]/255.0f; } free(data); return output; } #define float2int(x) ((int) (x)) static stbi_uc hdr_to_ldr(float data, int x, int y, int comp) { int i,k,n; stbi_uc output = (stbi_uc ) malloc(x * y * comp); if (output == NULL) { free(data); return epuc("outofmem", "Out of memory"); } // compute number of non-alpha components if (comp & 1) n = comp; else n = comp-1; for (i=0; i < xy; ++i) { for (k=0; k < n; ++k) { float z = (float) pow(data[icomp+k]h2l_scale_i, h2l_gamma_i) 255 + 0.5f; if (z < 0) z = 0; if (z > 255) z = 255; output[icomp + k] = (uint8) float2int(z); } if (k < comp) { float z = data[icomp+k] * 255 + 0.5f; if (z < 0) z = 0; if (z > 255) z = 255; output[icomp + k] = (uint8) float2int(z); } } free(data); return output; } #endif ////////////////////////////////////////////////////////////////////////////// // // "baseline" JPEG/JFIF decoder (not actually fully baseline implementation) // // simple implementation // - channel subsampling of at most 2 in each dimension // - doesn't support delayed output of y-dimension // - simple interface (only one output format: 8-bit interleaved RGB) // - doesn't try to recover corrupt jpegs // - doesn't allow partial loading, loading multiple at once // - still fast on x86 (copying globals into locals doesn't help x86) // - allocates lots of intermediate memory (full size of all components) // - non-interleaved case requires this anyway // - allows good upsampling (see next) // high-quality // - upsampled channels are bilinearly interpolated, even across blocks // - quality integer IDCT derived from IJG's 'slow' // performance // - fast huffman; reasonable integer IDCT // - uses a lot of intermediate memory, could cache poorly // - load http://nothings.org/remote/anemones.jpg 3 times on 2.8Ghz P4 // stb_jpeg: 1.34 seconds (MSVC6, default release build) // stb_jpeg: 1.06 seconds (MSVC6, processor = Pentium Pro) // IJL11.dll: 1.08 seconds (compiled by intel) // IJG 1998: 0.98 seconds (MSVC6, makefile provided by IJG) // IJG 1998: 0.95 seconds (MSVC6, makefile + proc=PPro) // huffman decoding acceleration #define FAST_BITS 9 // larger handles more cases; smaller stomps less cache typedef struct { uint8 fast[1 << FAST_BITS]; // weirdly, repacking this into AoS is a 10% speed loss, instead of a win uint16 code[256]; uint8 values[256]; uint8 size[257]; unsigned int maxcode[18]; int delta[17]; // old 'firstsymbol' - old 'firstcode' } huffman; typedef struct { #ifdef STBI_SIMD unsigned short dequant2[4][64]; #endif stbi s; huffman huff_dc[4]; huffman huff_ac[4]; uint8 dequant[4][64]; // sizes for components, interleaved MCUs int img_h_max, img_v_max; int img_mcu_x, img_mcu_y; int img_mcu_w, img_mcu_h; // definition of jpeg image component struct { int id; int h,v; int tq; int hd,ha; int dc_pred; int x,y,w2,h2; uint8 data; void raw_data; uint8 linebuf; } img_comp[4]; uint32 code_buffer; // jpeg entropy-coded buffer int code_bits; // number of valid bits unsigned char marker; // marker seen while filling entropy buffer int nomore; // flag if we saw a marker so must stop int scan_n, order[4]; int restart_interval, todo; } jpeg; static int build_huffman(huffman h, int count) { int i,j,k=0,code; // build size list for each symbol (from JPEG spec) for (i=0; i < 16; ++i) for (j=0; j < count[i]; ++j) h->size[k++] = (uint8) (i+1); h->size[k] = 0; // compute actual symbols (from jpeg spec) code = 0; k = 0; for(j=1; j <= 16; ++j) { // compute delta to add to code to compute symbol id h->delta[j] = k - code; if (h->size[k] == j) { while (h->size[k] == j) h->code[k++] = (uint16) (code++); if (code-1 >= (1 << j)) return e("bad code lengths","Corrupt JPEG"); } // compute largest code + 1 for this size, preshifted as needed later h->maxcode[j] = code << (16-j); code <<= 1; } h->maxcode[j] = 0xffffffff; // build non-spec acceleration table; 255 is flag for not-accelerated memset(h->fast, 255, 1 << FAST_BITS); for (i=0; i < k; ++i) { int s = h->size[i]; if (s <= FAST_BITS) { int c = h->code[i] << (FAST_BITS-s); int m = 1 << (FAST_BITS-s); for (j=0; j < m; ++j) { h->fast[c+j] = (uint8) i; } } } return 1; } static void grow_buffer_unsafe(jpeg j) { do { int b = j->nomore ? 0 : get8(j->s); if (b == 0xff) { int c = get8(j->s); if (c != 0) { j->marker = (unsigned char) c; j->nomore = 1; return; } } j->code_buffer \|= b << (24 - j->code_bits); j->code_bits += 8; } while (j->code_bits <= 24); } // (1 << n) - 1 static uint32 bmask[17]={0,1,3,7,15,31,63,127,255,511,1023,2047,4095,8191,16383,32767,65535}; // decode a jpeg huffman value from the bitstream stbi_inline static int decode(jpeg j, huffman h) { unsigned int temp; int c,k; if (j->code_bits < 16) grow_buffer_unsafe(j); // look at the top FAST_BITS and determine what symbol ID it is, // if the code is <= FAST_BITS c = (j->code_buffer >> (32 - FAST_BITS)) & ((1 << FAST_BITS)-1); k = h->fast[c]; if (k < 255) { int s = h->size[k]; if (s > j->code_bits) return -1; j->code_buffer <<= s; j->code_bits -= s; return h->values[k]; } // naive test is to shift the code_buffer down so k bits are // valid, then test against maxcode. To speed this up, we've // preshifted maxcode left so that it has (16-k) 0s at the // end; in other words, regardless of the number of bits, it // wants to be compared against something shifted to have 16; // that way we don't need to shift inside the loop. temp = j->code_buffer >> 16; for (k=FAST_BITS+1 ; ; ++k) if (temp < h->maxcode[k]) break; if (k == 17) { // error! code not found j->code_bits -= 16; return -1; } if (k > j->code_bits) return -1; // convert the huffman code to the symbol id c = ((j->code_buffer >> (32 - k)) & bmask[k]) + h->delta[k]; assert((((j->code_buffer) >> (32 - h->size[c])) & bmask[h->size[c]]) == h->code[c]); // convert the id to a symbol j->code_bits -= k; j->code_buffer <<= k; return h->values[c]; } // combined JPEG 'receive' and JPEG 'extend', since baseline // always extends everything it receives. stbi_inline static int extend_receive(jpeg j, int n) { unsigned int m = 1 << (n-1); unsigned int k; if (j->code_bits < n) grow_buffer_unsafe(j); #if 1 k = stbi_lrot(j->code_buffer, n); j->code_buffer = k & ~bmask[n]; k &= bmask[n]; j->code_bits -= n; #else k = (j->code_buffer >> (32 - n)) & bmask[n]; j->code_bits -= n; j->code_buffer <<= n; #endif // the following test is probably a random branch that won't // predict well. I tried to table accelerate it but failed. // maybe it's compiling as a conditional move? if (k < m) return (-1 << n) + k + 1; else return k; } // given a value that's at position X in the zigzag stream, // where does it appear in the 8x8 matrix coded as row-major? static uint8 dezigzag[64+15] = { 0, 1, 8, 16, 9, 2, 3, 10, 17, 24, 32, 25, 18, 11, 4, 5, 12, 19, 26, 33, 40, 48, 41, 34, 27, 20, 13, 6, 7, 14, 21, 28, 35, 42, 49, 56, 57, 50, 43, 36, 29, 22, 15, 23, 30, 37, 44, 51, 58, 59, 52, 45, 38, 31, 39, 46, 53, 60, 61, 54, 47, 55, 62, 63, // let corrupt input sample past end 63, 63, 63, 63, 63, 63, 63, 63, 63, 63, 63, 63, 63, 63, 63 }; // decode one 64-entry block-- static int decode_block(jpeg j, short data[64], huffman hdc, huffman hac, int b) { int diff,dc,k; int t = decode(j, hdc); if (t < 0) return e("bad huffman code","Corrupt JPEG"); // 0 all the ac values now so we can do it 32-bits at a time memset(data,0,64sizeof(data[0])); diff = t ? extend_receive(j, t) : 0; dc = j->img_comp[b].dc_pred + diff; j->img_comp[b].dc_pred = dc; data[0] = (short) dc; // decode AC components, see JPEG spec k = 1; do { int r,s; int rs = decode(j, hac); if (rs < 0) return e("bad huffman code","Corrupt JPEG"); s = rs & 15; r = rs >> 4; if (s == 0) { if (rs != 0xf0) break; // end block k += 16; } else { k += r; // decode into unzigzag'd location data[dezigzag[k++]] = (short) extend_receive(j,s); } } while (k < 64); return 1; } // take a -128..127 value and clamp it and convert to 0..255 stbi_inline static uint8 clamp(int x) { // trick to use a single test to catch both cases if ((unsigned int) x > 255) { if (x < 0) return 0; if (x > 255) return 255; } return (uint8) x; } #define f2f(x) (int) (((x) 4096 + 0.5)) #define fsh(x) ((x) << 12) // derived from jidctint -- DCT_ISLOW #define IDCT_1D(s0,s1,s2,s3,s4,s5,s6,s7) \ int t0,t1,t2,t3,p1,p2,p3,p4,p5,x0,x1,x2,x3; \ p2 = s2; \ p3 = s6; \ p1 = (p2+p3) * f2f(0.5411961f); \ t2 = p1 + p3f2f(-1.847759065f); \ t3 = p1 + p2f2f( 0.765366865f); \ p2 = s0; \ p3 = s4; \ t0 = fsh(p2+p3); \ t1 = fsh(p2-p3); \ x0 = t0+t3; \ x3 = t0-t3; \ x1 = t1+t2; \ x2 = t1-t2; \ t0 = s7; \ t1 = s5; \ t2 = s3; \ t3 = s1; \ p3 = t0+t2; \ p4 = t1+t3; \ p1 = t0+t3; \ p2 = t1+t2; \ p5 = (p3+p4)f2f( 1.175875602f); \ t0 = t0f2f( 0.298631336f); \ t1 = t1f2f( 2.053119869f); \ t2 = t2f2f( 3.072711026f); \ t3 = t3f2f( 1.501321110f); \ p1 = p5 + p1f2f(-0.899976223f); \ p2 = p5 + p2f2f(-2.562915447f); \ p3 = p3f2f(-1.961570560f); \ p4 = p4f2f(-0.390180644f); \ t3 += p1+p4; \ t2 += p2+p3; \ t1 += p2+p4; \ t0 += p1+p3; #ifdef STBI_SIMD typedef unsigned short stbi_dequantize_t; #else typedef uint8 stbi_dequantize_t; #endif // .344 seconds on 3anemones.jpg static void idct_block(uint8 out, int out_stride, short data[64], stbi_dequantize_t dequantize) { int i,val[64],v=val; stbi_dequantize_t dq = dequantize; uint8 o; short d = data; // columns for (i=0; i < 8; ++i,++d,++dq, ++v) { // if all zeroes, shortcut -- this avoids dequantizing 0s and IDCTing if (d[ 8]==0 && d[16]==0 && d[24]==0 && d[32]==0 && d[40]==0 && d[48]==0 && d[56]==0) { // no shortcut 0 seconds // (1\|2\|3\|4\|5\|6\|7)==0 0 seconds // all separate -0.047 seconds // 1 && 2\|3 && 4\|5 && 6\|7: -0.047 seconds int dcterm = d[0] * dq[0] << 2; v[0] = v[8] = v[16] = v[24] = v[32] = v[40] = v[48] = v[56] = dcterm; } else { IDCT_1D(d[ 0]dq[ 0],d[ 8]dq[ 8],d[16]dq[16],d[24]dq[24], d[32]dq[32],d[40]dq[40],d[48]dq[48],d[56]dq[56]) // constants scaled things up by 1<<12; let's bring them back // down, but keep 2 extra bits of precision x0 += 512; x1 += 512; x2 += 512; x3 += 512; v[ 0] = (x0+t3) >> 10; v[56] = (x0-t3) >> 10; v[ 8] = (x1+t2) >> 10; v[48] = (x1-t2) >> 10; v[16] = (x2+t1) >> 10; v[40] = (x2-t1) >> 10; v[24] = (x3+t0) >> 10; v[32] = (x3-t0) >> 10; } } for (i=0, v=val, o=out; i < 8; ++i,v+=8,o+=out_stride) { // no fast case since the first 1D IDCT spread components out IDCT_1D(v[0],v[1],v[2],v[3],v[4],v[5],v[6],v[7]) // constants scaled things up by 1<<12, plus we had 1<<2 from first // loop, plus horizontal and vertical each scale by sqrt(8) so together // we've got an extra 1<<3, so 1<<17 total we need to remove. // so we want to round that, which means adding 0.5 * 1<<17, // aka 65536. Also, we'll end up with -128 to 127 that we want // to encode as 0..255 by adding 128, so we'll add that before the shift x0 += 65536 + (128<<17); x1 += 65536 + (128<<17); x2 += 65536 + (128<<17); x3 += 65536 + (128<<17); // tried computing the shifts into temps, or'ing the temps to see // if any were out of range, but that was slower o[0] = clamp((x0+t3) >> 17); o[7] = clamp((x0-t3) >> 17); o[1] = clamp((x1+t2) >> 17); o[6] = clamp((x1-t2) >> 17); o[2] = clamp((x2+t1) >> 17); o[5] = clamp((x2-t1) >> 17); o[3] = clamp((x3+t0) >> 17); o[4] = clamp((x3-t0) >> 17); } } #ifdef STBI_SIMD static stbi_idct_8x8 stbi_idct_installed = idct_block; void stbi_install_idct(stbi_idct_8x8 func) { stbi_idct_installed = func; } #endif #define MARKER_none 0xff // if there's a pending marker from the entropy stream, return that // otherwise, fetch from the stream and get a marker. if there's no // marker, return 0xff, which is never a valid marker value static uint8 get_marker(jpeg j) { uint8 x; if (j->marker != MARKER_none) { x = j->marker; j->marker = MARKER_none; return x; } x = get8u(j->s); if (x != 0xff) return MARKER_none; while (x == 0xff) x = get8u(j->s); return x; } // in each scan, we'll have scan_n components, and the order // of the components is specified by order[] #define RESTART(x) ((x) >= 0xd0 && (x) <= 0xd7) // after a restart interval, reset the entropy decoder and // the dc prediction static void reset(jpeg j) { j->code_bits = 0; j->code_buffer = 0; j->nomore = 0; j->img_comp[0].dc_pred = j->img_comp[1].dc_pred = j->img_comp[2].dc_pred = 0; j->marker = MARKER_none; j->todo = j->restart_interval ? j->restart_interval : 0x7fffffff; // no more than 1<<31 MCUs if no restart_interal? that's plenty safe, // since we don't even allow 1<<30 pixels } static int parse_entropy_coded_data(jpeg z) { reset(z); if (z->scan_n == 1) { int i,j; #ifdef STBI_SIMD __declspec(align(16)) #endif short data[64]; int n = z->order[0]; // non-interleaved data, we just need to process one block at a time, // in trivial scanline order // number of blocks to do just depends on how many actual "pixels" this // component has, independent of interleaved MCU blocking and such int w = (z->img_comp[n].x+7) >> 3; int h = (z->img_comp[n].y+7) >> 3; for (j=0; j < h; ++j) { for (i=0; i < w; ++i) { if (!decode_block(z, data, z->huff_dc+z->img_comp[n].hd, z->huff_ac+z->img_comp[n].ha, n)) return 0; #ifdef STBI_SIMD stbi_idct_installed(z->img_comp[n].data+z->img_comp[n].w2j8+i8, z->img_comp[n].w2, data, z->dequant2[z->img_comp[n].tq]); #else idct_block(z->img_comp[n].data+z->img_comp[n].w2j8+i8, z->img_comp[n].w2, data, z->dequant[z->img_comp[n].tq]); #endif // every data block is an MCU, so countdown the restart interval if (--z->todo <= 0) { if (z->code_bits < 24) grow_buffer_unsafe(z); // if it's NOT a restart, then just bail, so we get corrupt data // rather than no data if (!RESTART(z->marker)) return 1; reset(z); } } } } else { // interleaved! int i,j,k,x,y; short data[64]; for (j=0; j < z->img_mcu_y; ++j) { for (i=0; i < z->img_mcu_x; ++i) { // scan an interleaved mcu... process scan_n components in order for (k=0; k < z->scan_n; ++k) { int n = z->order[k]; // scan out an mcu's worth of this component; that's just determined // by the basic H and V specified for the component for (y=0; y < z->img_comp[n].v; ++y) { for (x=0; x < z->img_comp[n].h; ++x) { int x2 = (iz->img_comp[n].h + x)8; int y2 = (jz->img_comp[n].v + y)8; if (!decode_block(z, data, z->huff_dc+z->img_comp[n].hd, z->huff_ac+z->img_comp[n].ha, n)) return 0; #ifdef STBI_SIMD stbi_idct_installed(z->img_comp[n].data+z->img_comp[n].w2y2+x2, z->img_comp[n].w2, data, z->dequant2[z->img_comp[n].tq]); #else idct_block(z->img_comp[n].data+z->img_comp[n].w2y2+x2, z->img_comp[n].w2, data, z->dequant[z->img_comp[n].tq]); #endif } } } // after all interleaved components, that's an interleaved MCU, // so now count down the restart interval if (--z->todo <= 0) { if (z->code_bits < 24) grow_buffer_unsafe(z); // if it's NOT a restart, then just bail, so we get corrupt data // rather than no data if (!RESTART(z->marker)) return 1; reset(z); } } } } return 1; } static int process_marker(jpeg z, int m) { int L; switch (m) { case MARKER_none: // no marker found return e("expected marker","Corrupt JPEG"); case 0xC2: // SOF - progressive return e("progressive jpeg","JPEG format not supported (progressive)"); case 0xDD: // DRI - specify restart interval if (get16(z->s) != 4) return e("bad DRI len","Corrupt JPEG"); z->restart_interval = get16(z->s); return 1; case 0xDB: // DQT - define quantization table L = get16(z->s)-2; while (L > 0) { int q = get8(z->s); int p = q >> 4; int t = q & 15,i; if (p != 0) return e("bad DQT type","Corrupt JPEG"); if (t > 3) return e("bad DQT table","Corrupt JPEG"); for (i=0; i < 64; ++i) z->dequant[t][dezigzag[i]] = get8u(z->s); #ifdef STBI_SIMD for (i=0; i < 64; ++i) z->dequant2[t][i] = z->dequant[t][i]; #endif L -= 65; } return L==0; case 0xC4: // DHT - define huffman table L = get16(z->s)-2; while (L > 0) { uint8 v; int sizes[16],i,m=0; int q = get8(z->s); int tc = q >> 4; int th = q & 15; if (tc > 1 \|\| th > 3) return e("bad DHT header","Corrupt JPEG"); for (i=0; i < 16; ++i) { sizes[i] = get8(z->s); m += sizes[i]; } L -= 17; if (tc == 0) { if (!build_huffman(z->huff_dc+th, sizes)) return 0; v = z->huff_dc[th].values; } else { if (!build_huffman(z->huff_ac+th, sizes)) return 0; v = z->huff_ac[th].values; } for (i=0; i < m; ++i) v[i] = get8u(z->s); L -= m; } return L==0; } // check for comment block or APP blocks if ((m >= 0xE0 && m <= 0xEF) \|\| m == 0xFE) { skip(z->s, get16(z->s)-2); return 1; } return 0; } // after we see SOS static int process_scan_header(jpeg z) { int i; int Ls = get16(z->s); z->scan_n = get8(z->s); if (z->scan_n < 1 \|\| z->scan_n > 4 \|\| z->scan_n > (int) z->s->img_n) return e("bad SOS component count","Corrupt JPEG"); if (Ls != 6+2z->scan_n) return e("bad SOS len","Corrupt JPEG"); for (i=0; i < z->scan_n; ++i) { int id = get8(z->s), which; int q = get8(z->s); for (which = 0; which < z->s->img_n; ++which) if (z->img_comp[which].id == id) break; if (which == z->s->img_n) return 0; z->img_comp[which].hd = q >> 4; if (z->img_comp[which].hd > 3) return e("bad DC huff","Corrupt JPEG"); z->img_comp[which].ha = q & 15; if (z->img_comp[which].ha > 3) return e("bad AC huff","Corrupt JPEG"); z->order[i] = which; } if (get8(z->s) != 0) return e("bad SOS","Corrupt JPEG"); get8(z->s); // should be 63, but might be 0 if (get8(z->s) != 0) return e("bad SOS","Corrupt JPEG"); return 1; } static int process_frame_header(jpeg z, int scan) { stbi s = z->s; int Lf,p,i,q, h_max=1,v_max=1,c; Lf = get16(s); if (Lf < 11) return e("bad SOF len","Corrupt JPEG"); // JPEG p = get8(s); if (p != 8) return e("only 8-bit","JPEG format not supported: 8-bit only"); // JPEG baseline s->img_y = get16(s); if (s->img_y == 0) return e("no header height", "JPEG format not supported: delayed height"); // Legal, but we don't handle it--but neither does IJG s->img_x = get16(s); if (s->img_x == 0) return e("0 width","Corrupt JPEG"); // JPEG requires c = get8(s); if (c != 3 && c != 1) return e("bad component count","Corrupt JPEG"); // JFIF requires s->img_n = c; for (i=0; i < c; ++i) { z->img_comp[i].data = NULL; z->img_comp[i].linebuf = NULL; } if (Lf != 8+3s->img_n) return e("bad SOF len","Corrupt JPEG"); for (i=0; i < s->img_n; ++i) { z->img_comp[i].id = get8(s); if (z->img_comp[i].id != i+1) // JFIF requires if (z->img_comp[i].id != i) // some version of jpegtran outputs non-JFIF-compliant files! return e("bad component ID","Corrupt JPEG"); q = get8(s); z->img_comp[i].h = (q >> 4); if (!z->img_comp[i].h \|\| z->img_comp[i].h > 4) return e("bad H","Corrupt JPEG"); z->img_comp[i].v = q & 15; if (!z->img_comp[i].v \|\| z->img_comp[i].v > 4) return e("bad V","Corrupt JPEG"); z->img_comp[i].tq = get8(s); if (z->img_comp[i].tq > 3) return e("bad TQ","Corrupt JPEG"); } if (scan != SCAN_load) return 1; if ((1 << 30) / s->img_x / s->img_n < s->img_y) return e("too large", "Image too large to decode"); for (i=0; i < s->img_n; ++i) { if (z->img_comp[i].h > h_max) h_max = z->img_comp[i].h; if (z->img_comp[i].v > v_max) v_max = z->img_comp[i].v; } // compute interleaved mcu info z->img_h_max = h_max; z->img_v_max = v_max; z->img_mcu_w = h_max * 8; z->img_mcu_h = v_max * 8; z->img_mcu_x = (s->img_x + z->img_mcu_w-1) / z->img_mcu_w; z->img_mcu_y = (s->img_y + z->img_mcu_h-1) / z->img_mcu_h; for (i=0; i < s->img_n; ++i) { // number of effective pixels (e.g. for non-interleaved MCU) z->img_comp[i].x = (s->img_x * z->img_comp[i].h + h_max-1) / h_max; z->img_comp[i].y = (s->img_y * z->img_comp[i].v + v_max-1) / v_max; // to simplify generation, we'll allocate enough memory to decode // the bogus oversized data from using interleaved MCUs and their // big blocks (e.g. a 16x16 iMCU on an image of width 33); we won't // discard the extra data until colorspace conversion z->img_comp[i].w2 = z->img_mcu_x * z->img_comp[i].h * 8; z->img_comp[i].h2 = z->img_mcu_y * z->img_comp[i].v * 8; z->img_comp[i].raw_data = malloc(z->img_comp[i].w2 * z->img_comp[i].h2+15); if (z->img_comp[i].raw_data == NULL) { for(--i; i >= 0; --i) { free(z->img_comp[i].raw_data); z->img_comp[i].data = NULL; } return e("outofmem", "Out of memory"); } // align blocks for installable-idct using mmx/sse z->img_comp[i].data = (uint8) (((size_t) z->img_comp[i].raw_data + 15) & ~15); z->img_comp[i].linebuf = NULL; } return 1; } // use comparisons since in some cases we handle more than one case (e.g. SOF) #define DNL(x) ((x) == 0xdc) #define SOI(x) ((x) == 0xd8) #define EOI(x) ((x) == 0xd9) #define SOF(x) ((x) == 0xc0 \|\| (x) == 0xc1) #define SOS(x) ((x) == 0xda) static int decode_jpeg_header(jpeg z, int scan) { int m; z->marker = MARKER_none; // initialize cached marker to empty m = get_marker(z); if (!SOI(m)) return e("no SOI","Corrupt JPEG"); if (scan == SCAN_type) return 1; m = get_marker(z); while (!SOF(m)) { if (!process_marker(z,m)) return 0; m = get_marker(z); while (m == MARKER_none) { // some files have extra padding after their blocks, so ok, we'll scan if (at_eof(z->s)) return e("no SOF", "Corrupt JPEG"); m = get_marker(z); } } if (!process_frame_header(z, scan)) return 0; return 1; } static int decode_jpeg_image(jpeg j) { int m; j->restart_interval = 0; if (!decode_jpeg_header(j, SCAN_load)) return 0; m = get_marker(j); while (!EOI(m)) { if (SOS(m)) { if (!process_scan_header(j)) return 0; if (!parse_entropy_coded_data(j)) return 0; if (j->marker == MARKER_none ) { // handle 0s at the end of image data from IP Kamera 9060 while (!at_eof(j->s)) { int x = get8(j->s); if (x == 255) { j->marker = get8u(j->s); break; } else if (x != 0) { return 0; } } // if we reach eof without hitting a marker, get_marker() below will fail and we'll eventually return 0 } } else { if (!process_marker(j, m)) return 0; } m = get_marker(j); } return 1; } // static jfif-centered resampling (across block boundaries) typedef uint8 (resample_row_func)(uint8 out, uint8 in0, uint8 in1, int w, int hs); #define div4(x) ((uint8) ((x) >> 2)) static uint8 resample_row_1(uint8 out, uint8 in_near, uint8 in_far, int w, int hs) { STBI_NOTUSED(out); STBI_NOTUSED(in_far); STBI_NOTUSED(w); STBI_NOTUSED(hs); return in_near; } static uint8* resample_row_v_2(uint8 out, uint8 in_near, uint8 in_far, int w, int hs) { // need to generate two samples vertically for every one in input int i; STBI_NOTUSED(hs); for (i=0; i < w; ++i) out[i] = div4(3in_near[i] + in_far[i] + 2); return out; } static uint8* resample_row_h_2(uint8 out, uint8 in_near, uint8 in_far, int w, int hs) { // need to generate two samples horizontally for every one in input int i; uint8 input = in_near; if (w == 1) { // if only one sample, can't do any interpolation out[0] = out[1] = input[0]; return out; } out[0] = input[0]; out[1] = div4(input[0]3 + input[1] + 2); for (i=1; i < w-1; ++i) { int n = 3input[i]+2; out[i2+0] = div4(n+input[i-1]); out[i2+1] = div4(n+input[i+1]); } out[i2+0] = div4(input[w-2]3 + input[w-1] + 2); out[i2+1] = input[w-1]; STBI_NOTUSED(in_far); STBI_NOTUSED(hs); return out; } #define div16(x) ((uint8) ((x) >> 4)) static uint8 resample_row_hv_2(uint8 out, uint8 in_near, uint8 in_far, int w, int hs) { // need to generate 2x2 samples for every one in input int i,t0,t1; if (w == 1) { out[0] = out[1] = div4(3in_near[0] + in_far[0] + 2); return out; } t1 = 3in_near[0] + in_far[0]; out[0] = div4(t1+2); for (i=1; i < w; ++i) { t0 = t1; t1 = 3in_near[i]+in_far[i]; out[i2-1] = div16(3t0 + t1 + 8); out[i2 ] = div16(3t1 + t0 + 8); } out[w2-1] = div4(t1+2); STBI_NOTUSED(hs); return out; } static uint8 resample_row_generic(uint8 out, uint8 in_near, uint8 in_far, int w, int hs) { // resample with nearest-neighbor int i,j; in_far = in_far; for (i=0; i < w; ++i) for (j=0; j < hs; ++j) out[ihs+j] = in_near[i]; return out; } #define float2fixed(x) ((int) ((x) * 65536 + 0.5)) // 0.38 seconds on 3anemones.jpg (0.25 with processor = Pro) // VC6 without processor=Pro is generating multiple LEAs per multiply! static void YCbCr_to_RGB_row(uint8 out, const uint8 y, const uint8 pcb, const uint8 pcr, int count, int step) { int i; for (i=0; i < count; ++i) { int y_fixed = (y[i] << 16) + 32768; // rounding int r,g,b; int cr = pcr[i] - 128; int cb = pcb[i] - 128; r = y_fixed + crfloat2fixed(1.40200f); g = y_fixed - crfloat2fixed(0.71414f) - cbfloat2fixed(0.34414f); b = y_fixed + cbfloat2fixed(1.77200f); r >>= 16; g >>= 16; b >>= 16; if ((unsigned) r > 255) { if (r < 0) r = 0; else r = 255; } if ((unsigned) g > 255) { if (g < 0) g = 0; else g = 255; } if ((unsigned) b > 255) { if (b < 0) b = 0; else b = 255; } out[0] = (uint8)r; out[1] = (uint8)g; out[2] = (uint8)b; out[3] = 255; out += step; } } #ifdef STBI_SIMD static stbi_YCbCr_to_RGB_run stbi_YCbCr_installed = YCbCr_to_RGB_row; void stbi_install_YCbCr_to_RGB(stbi_YCbCr_to_RGB_run func) { stbi_YCbCr_installed = func; } #endif // clean up the temporary component buffers static void cleanup_jpeg(jpeg j) { int i; for (i=0; i < j->s->img_n; ++i) { if (j->img_comp[i].data) { free(j->img_comp[i].raw_data); j->img_comp[i].data = NULL; } if (j->img_comp[i].linebuf) { free(j->img_comp[i].linebuf); j->img_comp[i].linebuf = NULL; } } } typedef struct { resample_row_func resample; uint8 line0,line1; int hs,vs; // expansion factor in each axis int w_lores; // horizontal pixels pre-expansion int ystep; // how far through vertical expansion we are int ypos; // which pre-expansion row we're on } stbi_resample; static uint8 load_jpeg_image(jpeg z, int out_x, int out_y, int comp, int req_comp) { int n, decode_n; // validate req_comp if (req_comp < 0 \|\| req_comp > 4) return epuc("bad req_comp", "Internal error"); z->s->img_n = 0; // load a jpeg image from whichever source if (!decode_jpeg_image(z)) { cleanup_jpeg(z); return NULL; } // determine actual number of components to generate n = req_comp ? req_comp : z->s->img_n; if (z->s->img_n == 3 && n < 3) decode_n = 1; else decode_n = z->s->img_n; // resample and color-convert { int k; uint i,j; uint8 output; uint8 coutput[4]; stbi_resample res_comp[4]; for (k=0; k < decode_n; ++k) { stbi_resample r = &res_comp[k]; // allocate line buffer big enough for upsampling off the edges // with upsample factor of 4 z->img_comp[k].linebuf = (uint8 ) malloc(z->s->img_x + 3); if (!z->img_comp[k].linebuf) { cleanup_jpeg(z); return epuc("outofmem", "Out of memory"); } r->hs = z->img_h_max / z->img_comp[k].h; r->vs = z->img_v_max / z->img_comp[k].v; r->ystep = r->vs >> 1; r->w_lores = (z->s->img_x + r->hs-1) / r->hs; r->ypos = 0; r->line0 = r->line1 = z->img_comp[k].data; if (r->hs == 1 && r->vs == 1) r->resample = resample_row_1; else if (r->hs == 1 && r->vs == 2) r->resample = resample_row_v_2; else if (r->hs == 2 && r->vs == 1) r->resample = resample_row_h_2; else if (r->hs == 2 && r->vs == 2) r->resample = resample_row_hv_2; else r->resample = resample_row_generic; } // can't error after this so, this is safe output = (uint8 ) malloc(n * z->s->img_x * z->s->img_y + 1); if (!output) { cleanup_jpeg(z); return epuc("outofmem", "Out of memory"); } // now go ahead and resample for (j=0; j < z->s->img_y; ++j) { uint8 out = output + n z->s->img_x * j; for (k=0; k < decode_n; ++k) { stbi_resample r = &res_comp[k]; int y_bot = r->ystep >= (r->vs >> 1); coutput[k] = r->resample(z->img_comp[k].linebuf, y_bot ? r->line1 : r->line0, y_bot ? r->line0 : r->line1, r->w_lores, r->hs); if (++r->ystep >= r->vs) { r->ystep = 0; r->line0 = r->line1; if (++r->ypos < z->img_comp[k].y) r->line1 += z->img_comp[k].w2; } } if (n >= 3) { uint8 y = coutput[0]; if (z->s->img_n == 3) { #ifdef STBI_SIMD stbi_YCbCr_installed(out, y, coutput[1], coutput[2], z->s.img_x, n); #else YCbCr_to_RGB_row(out, y, coutput[1], coutput[2], z->s->img_x, n); #endif } else for (i=0; i < z->s->img_x; ++i) { out[0] = out[1] = out[2] = y[i]; out[3] = 255; // not used if n==3 out += n; } } else { uint8 y = coutput[0]; if (n == 1) for (i=0; i < z->s->img_x; ++i) out[i] = y[i]; else for (i=0; i < z->s->img_x; ++i) out++ = y[i], out++ = 255; } } cleanup_jpeg(z); out_x = z->s->img_x; out_y = z->s->img_y; if (comp) comp = z->s->img_n; // report original components, not output return output; } } static unsigned char stbi_jpeg_load(stbi s, int x, int y, int comp, int req_comp) { jpeg j; j.s = s; return load_jpeg_image(&j, x,y,comp,req_comp); } static int stbi_jpeg_test(stbi s) { int r; jpeg j; j.s = s; r = decode_jpeg_header(&j, SCAN_type); stbi_rewind(s); return r; } static int stbi_jpeg_info_raw(jpeg j, int x, int y, int comp) { if (!decode_jpeg_header(j, SCAN_header)) { stbi_rewind( j->s ); return 0; } if (x) x = j->s->img_x; if (y) y = j->s->img_y; if (comp) comp = j->s->img_n; return 1; } static int stbi_jpeg_info(stbi s, int x, int y, int comp) { jpeg j; j.s = s; return stbi_jpeg_info_raw(&j, x, y, comp); } // public domain zlib decode v0.2 Sean Barrett 2006-11-18 // simple implementation // - all input must be provided in an upfront buffer // - all output is written to a single output buffer (can malloc/realloc) // performance // - fast huffman // fast-way is faster to check than jpeg huffman, but slow way is slower #define ZFAST_BITS 9 // accelerate all cases in default tables #define ZFAST_MASK ((1 << ZFAST_BITS) - 1) // zlib-style huffman encoding // (jpegs packs from left, zlib from right, so can't share code) typedef struct { uint16 fast[1 << ZFAST_BITS]; uint16 firstcode[16]; int maxcode[17]; uint16 firstsymbol[16]; uint8 size[288]; uint16 value[288]; } zhuffman; stbi_inline static int bitreverse16(int n) { n = ((n & 0xAAAA) >> 1) \| ((n & 0x5555) << 1); n = ((n & 0xCCCC) >> 2) \| ((n & 0x3333) << 2); n = ((n & 0xF0F0) >> 4) \| ((n & 0x0F0F) << 4); n = ((n & 0xFF00) >> 8) \| ((n & 0x00FF) << 8); return n; } stbi_inline static int bit_reverse(int v, int bits) { assert(bits <= 16); // to bit reverse n bits, reverse 16 and shift // e.g. 11 bits, bit reverse and shift away 5 return bitreverse16(v) >> (16-bits); } static int zbuild_huffman(zhuffman z, uint8 sizelist, int num) { int i,k=0; int code, next_code[16], sizes[17]; // DEFLATE spec for generating codes memset(sizes, 0, sizeof(sizes)); memset(z->fast, 255, sizeof(z->fast)); for (i=0; i < num; ++i) ++sizes[sizelist[i]]; sizes[0] = 0; for (i=1; i < 16; ++i) assert(sizes[i] <= (1 << i)); code = 0; for (i=1; i < 16; ++i) { next_code[i] = code; z->firstcode[i] = (uint16) code; z->firstsymbol[i] = (uint16) k; code = (code + sizes[i]); if (sizes[i]) if (code-1 >= (1 << i)) return e("bad codelengths","Corrupt JPEG"); z->maxcode[i] = code << (16-i); // preshift for inner loop code <<= 1; k += sizes[i]; } z->maxcode[16] = 0x10000; // sentinel for (i=0; i < num; ++i) { int s = sizelist[i]; if (s) { int c = next_code[s] - z->firstcode[s] + z->firstsymbol[s]; z->size[c] = (uint8)s; z->value[c] = (uint16)i; if (s <= ZFAST_BITS) { int k = bit_reverse(next_code[s],s); while (k < (1 << ZFAST_BITS)) { z->fast[k] = (uint16) c; k += (1 << s); } } ++next_code[s]; } } return 1; } // zlib-from-memory implementation for PNG reading // because PNG allows splitting the zlib stream arbitrarily, // and it's annoying structurally to have PNG call ZLIB call PNG, // we require PNG read all the IDATs and combine them into a single // memory buffer typedef struct { uint8 zbuffer, zbuffer_end; int num_bits; uint32 code_buffer; char zout; char zout_start; char zout_end; int z_expandable; zhuffman z_length, z_distance; } zbuf; stbi_inline static int zget8(zbuf z) { if (z->zbuffer >= z->zbuffer_end) return 0; return z->zbuffer++; } static void fill_bits(zbuf z) { do { assert(z->code_buffer < (1U << z->num_bits)); z->code_buffer \|= zget8(z) << z->num_bits; z->num_bits += 8; } while (z->num_bits <= 24); } stbi_inline static unsigned int zreceive(zbuf z, int n) { unsigned int k; if (z->num_bits < n) fill_bits(z); k = z->code_buffer & ((1 << n) - 1); z->code_buffer >>= n; z->num_bits -= n; return k; } stbi_inline static int zhuffman_decode(zbuf a, zhuffman z) { int b,s,k; if (a->num_bits < 16) fill_bits(a); b = z->fast[a->code_buffer & ZFAST_MASK]; if (b < 0xffff) { s = z->size[b]; a->code_buffer >>= s; a->num_bits -= s; return z->value[b]; } // not resolved by fast table, so compute it the slow way // use jpeg approach, which requires MSbits at top k = bit_reverse(a->code_buffer, 16); for (s=ZFAST_BITS+1; ; ++s) if (k < z->maxcode[s]) break; if (s == 16) return -1; // invalid code! // code size is s, so: b = (k >> (16-s)) - z->firstcode[s] + z->firstsymbol[s]; assert(z->size[b] == s); a->code_buffer >>= s; a->num_bits -= s; return z->value[b]; } static int expand(zbuf z, int n) // need to make room for n bytes { char q; int cur, limit; if (!z->z_expandable) return e("output buffer limit","Corrupt PNG"); cur = (int) (z->zout - z->zout_start); limit = (int) (z->zout_end - z->zout_start); while (cur + n > limit) limit = 2; q = (char ) realloc(z->zout_start, limit); if (q == NULL) return e("outofmem", "Out of memory"); z->zout_start = q; z->zout = q + cur; z->zout_end = q + limit; return 1; } static int length_base[31] = { 3,4,5,6,7,8,9,10,11,13, 15,17,19,23,27,31,35,43,51,59, 67,83,99,115,131,163,195,227,258,0,0 }; static int length_extra[31]= { 0,0,0,0,0,0,0,0,1,1,1,1,2,2,2,2,3,3,3,3,4,4,4,4,5,5,5,5,0,0,0 }; static int dist_base[32] = { 1,2,3,4,5,7,9,13,17,25,33,49,65,97,129,193, 257,385,513,769,1025,1537,2049,3073,4097,6145,8193,12289,16385,24577,0,0}; static int dist_extra[32] = { 0,0,0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13}; static int parse_huffman_block(zbuf a) { for(;;) { int z = zhuffman_decode(a, &a->z_length); if (z < 256) { if (z < 0) return e("bad huffman code","Corrupt PNG"); // error in huffman codes if (a->zout >= a->zout_end) if (!expand(a, 1)) return 0; a->zout++ = (char) z; } else { uint8 p; int len,dist; if (z == 256) return 1; z -= 257; len = length_base[z]; if (length_extra[z]) len += zreceive(a, length_extra[z]); z = zhuffman_decode(a, &a->z_distance); if (z < 0) return e("bad huffman code","Corrupt PNG"); dist = dist_base[z]; if (dist_extra[z]) dist += zreceive(a, dist_extra[z]); if (a->zout - a->zout_start < dist) return e("bad dist","Corrupt PNG"); if (a->zout + len > a->zout_end) if (!expand(a, len)) return 0; p = (uint8 ) (a->zout - dist); while (len--) a->zout++ = p++; } } } static int compute_huffman_codes(zbuf a) { static uint8 length_dezigzag[19] = { 16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15 }; zhuffman z_codelength; uint8 lencodes[286+32+137];//padding for maximum single op uint8 codelength_sizes[19]; int i,n; int hlit = zreceive(a,5) + 257; int hdist = zreceive(a,5) + 1; int hclen = zreceive(a,4) + 4; memset(codelength_sizes, 0, sizeof(codelength_sizes)); for (i=0; i < hclen; ++i) { int s = zreceive(a,3); codelength_sizes[length_dezigzag[i]] = (uint8) s; } if (!zbuild_huffman(&z_codelength, codelength_sizes, 19)) return 0; n = 0; while (n < hlit + hdist) { int c = zhuffman_decode(a, &z_codelength); assert(c >= 0 && c < 19); if (c < 16) lencodes[n++] = (uint8) c; else if (c == 16) { c = zreceive(a,2)+3; memset(lencodes+n, lencodes[n-1], c); n += c; } else if (c == 17) { c = zreceive(a,3)+3; memset(lencodes+n, 0, c); n += c; } else { assert(c == 18); c = zreceive(a,7)+11; memset(lencodes+n, 0, c); n += c; } } if (n != hlit+hdist) return e("bad codelengths","Corrupt PNG"); if (!zbuild_huffman(&a->z_length, lencodes, hlit)) return 0; if (!zbuild_huffman(&a->z_distance, lencodes+hlit, hdist)) return 0; return 1; } static int parse_uncompressed_block(zbuf a) { uint8 header[4]; int len,nlen,k; if (a->num_bits & 7) zreceive(a, a->num_bits & 7); // discard // drain the bit-packed data into header k = 0; while (a->num_bits > 0) { header[k++] = (uint8) (a->code_buffer & 255); // wtf this warns? a->code_buffer >>= 8; a->num_bits -= 8; } assert(a->num_bits == 0); // now fill header the normal way while (k < 4) header[k++] = (uint8) zget8(a); len = header[1] * 256 + header[0]; nlen = header[3] * 256 + header[2]; if (nlen != (len ^ 0xffff)) return e("zlib corrupt","Corrupt PNG"); if (a->zbuffer + len > a->zbuffer_end) return e("read past buffer","Corrupt PNG"); if (a->zout + len > a->zout_end) if (!expand(a, len)) return 0; memcpy(a->zout, a->zbuffer, len); a->zbuffer += len; a->zout += len; return 1; } static int parse_zlib_header(zbuf a) { int cmf = zget8(a); int cm = cmf & 15; / int cinfo = cmf >> 4; / int flg = zget8(a); if ((cmf256+flg) % 31 != 0) return e("bad zlib header","Corrupt PNG"); // zlib spec if (flg & 32) return e("no preset dict","Corrupt PNG"); // preset dictionary not allowed in png if (cm != 8) return e("bad compression","Corrupt PNG"); // DEFLATE required for png // window = 1 << (8 + cinfo)... but who cares, we fully buffer output return 1; } // @TODO: should statically initialize these for optimal thread safety static uint8 default_length[288], default_distance[32]; static void init_defaults(void) { int i; // use <= to match clearly with spec for (i=0; i <= 143; ++i) default_length[i] = 8; for ( ; i <= 255; ++i) default_length[i] = 9; for ( ; i <= 279; ++i) default_length[i] = 7; for ( ; i <= 287; ++i) default_length[i] = 8; for (i=0; i <= 31; ++i) default_distance[i] = 5; } int stbi_png_partial; // a quick hack to only allow decoding some of a PNG... I should implement real streaming support instead static int parse_zlib(zbuf a, int parse_header) { int final, type; if (parse_header) if (!parse_zlib_header(a)) return 0; a->num_bits = 0; a->code_buffer = 0; do { final = zreceive(a,1); type = zreceive(a,2); if (type == 0) { if (!parse_uncompressed_block(a)) return 0; } else if (type == 3) { return 0; } else { if (type == 1) { // use fixed code lengths if (!default_distance[31]) init_defaults(); if (!zbuild_huffman(&a->z_length , default_length , 288)) return 0; if (!zbuild_huffman(&a->z_distance, default_distance, 32)) return 0; } else { if (!compute_huffman_codes(a)) return 0; } if (!parse_huffman_block(a)) return 0; } if (stbi_png_partial && a->zout - a->zout_start > 65536) break; } while (!final); return 1; } static int do_zlib(zbuf a, char obuf, int olen, int exp, int parse_header) { a->zout_start = obuf; a->zout = obuf; a->zout_end = obuf + olen; a->z_expandable = exp; return parse_zlib(a, parse_header); } char stbi_zlib_decode_malloc_guesssize(const char buffer, int len, int initial_size, int outlen) { zbuf a; char p = (char ) malloc(initial_size); if (p == NULL) return NULL; a.zbuffer = (uint8 ) buffer; a.zbuffer_end = (uint8 ) buffer + len; if (do_zlib(&a, p, initial_size, 1, 1)) { if (outlen) outlen = (int) (a.zout - a.zout_start); return a.zout_start; } else { free(a.zout_start); return NULL; } } char stbi_zlib_decode_malloc(char const buffer, int len, int outlen) { return stbi_zlib_decode_malloc_guesssize(buffer, len, 16384, outlen); } char stbi_zlib_decode_malloc_guesssize_headerflag(const char buffer, int len, int initial_size, int outlen, int parse_header) { zbuf a; char p = (char ) malloc(initial_size); if (p == NULL) return NULL; a.zbuffer = (uint8 ) buffer; a.zbuffer_end = (uint8 ) buffer + len; if (do_zlib(&a, p, initial_size, 1, parse_header)) { if (outlen) outlen = (int) (a.zout - a.zout_start); return a.zout_start; } else { free(a.zout_start); return NULL; } } int stbi_zlib_decode_buffer(char obuffer, int olen, char const ibuffer, int ilen) { zbuf a; a.zbuffer = (uint8 ) ibuffer; a.zbuffer_end = (uint8 ) ibuffer + ilen; if (do_zlib(&a, obuffer, olen, 0, 1)) return (int) (a.zout - a.zout_start); else return -1; } char stbi_zlib_decode_noheader_malloc(char const buffer, int len, int outlen) { zbuf a; char p = (char ) malloc(16384); if (p == NULL) return NULL; a.zbuffer = (uint8 ) buffer; a.zbuffer_end = (uint8 ) buffer+len; if (do_zlib(&a, p, 16384, 1, 0)) { if (outlen) outlen = (int) (a.zout - a.zout_start); return a.zout_start; } else { free(a.zout_start); return NULL; } } int stbi_zlib_decode_noheader_buffer(char obuffer, int olen, const char ibuffer, int ilen) { zbuf a; a.zbuffer = (uint8 ) ibuffer; a.zbuffer_end = (uint8 ) ibuffer + ilen; if (do_zlib(&a, obuffer, olen, 0, 0)) return (int) (a.zout - a.zout_start); else return -1; } // public domain "baseline" PNG decoder v0.10 Sean Barrett 2006-11-18 // simple implementation // - only 8-bit samples // - no CRC checking // - allocates lots of intermediate memory // - avoids problem of streaming data between subsystems // - avoids explicit window management // performance // - uses stb_zlib, a PD zlib implementation with fast huffman decoding typedef struct { uint32 length; uint32 type; } chunk; #define PNG_TYPE(a,b,c,d) (((a) << 24) + ((b) << 16) + ((c) << 8) + (d)) static chunk get_chunk_header(stbi s) { chunk c; c.length = get32(s); c.type = get32(s); return c; } static int check_png_header(stbi s) { static uint8 png_sig[8] = { 137,80,78,71,13,10,26,10 }; int i; for (i=0; i < 8; ++i) if (get8u(s) != png_sig[i]) return e("bad png sig","Not a PNG"); return 1; } typedef struct { stbi s; uint8 idata, expanded, out; } png; enum { F_none=0, F_sub=1, F_up=2, F_avg=3, F_paeth=4, F_avg_first, F_paeth_first }; static uint8 first_row_filter[5] = { F_none, F_sub, F_none, F_avg_first, F_paeth_first }; static int paeth(int a, int b, int c) { int p = a + b - c; int pa = abs(p-a); int pb = abs(p-b); int pc = abs(p-c); if (pa <= pb && pa <= pc) return a; if (pb <= pc) return b; return c; } // create the png data from post-deflated data static int create_png_image_raw(png a, uint8 raw, uint32 raw_len, int out_n, uint32 x, uint32 y) { stbi s = a->s; uint32 i,j,stride = xout_n; int k; int img_n = s->img_n; // copy it into a local for later assert(out_n == s->img_n \|\| out_n == s->img_n+1); if (stbi_png_partial) y = 1; a->out = (uint8 ) malloc(x y * out_n); if (!a->out) return e("outofmem", "Out of memory"); if (!stbi_png_partial) { if (s->img_x == x && s->img_y == y) { if (raw_len != (img_n * x + 1) * y) return e("not enough pixels","Corrupt PNG"); } else { // interlaced: if (raw_len < (img_n * x + 1) * y) return e("not enough pixels","Corrupt PNG"); } } for (j=0; j < y; ++j) { uint8 cur = a->out + stridej; uint8 prior = cur - stride; int filter = raw++; if (filter > 4) return e("invalid filter","Corrupt PNG"); // if first row, use special filter that doesn't sample previous row if (j == 0) filter = first_row_filter[filter]; // handle first pixel explicitly for (k=0; k < img_n; ++k) { switch (filter) { case F_none : cur[k] = raw[k]; break; case F_sub : cur[k] = raw[k]; break; case F_up : cur[k] = raw[k] + prior[k]; break; case F_avg : cur[k] = raw[k] + (prior[k]>>1); break; case F_paeth : cur[k] = (uint8) (raw[k] + paeth(0,prior[k],0)); break; case F_avg_first : cur[k] = raw[k]; break; case F_paeth_first: cur[k] = raw[k]; break; } } if (img_n != out_n) cur[img_n] = 255; raw += img_n; cur += out_n; prior += out_n; // this is a little gross, so that we don't switch per-pixel or per-component if (img_n == out_n) { #define CASE(f) \ case f: \ for (i=x-1; i >= 1; --i, raw+=img_n,cur+=img_n,prior+=img_n) \ for (k=0; k < img_n; ++k) switch (filter) { CASE(F_none) cur[k] = raw[k]; break; CASE(F_sub) cur[k] = raw[k] + cur[k-img_n]; break; CASE(F_up) cur[k] = raw[k] + prior[k]; break; CASE(F_avg) cur[k] = raw[k] + ((prior[k] + cur[k-img_n])>>1); break; CASE(F_paeth) cur[k] = (uint8) (raw[k] + paeth(cur[k-img_n],prior[k],prior[k-img_n])); break; CASE(F_avg_first) cur[k] = raw[k] + (cur[k-img_n] >> 1); break; CASE(F_paeth_first) cur[k] = (uint8) (raw[k] + paeth(cur[k-img_n],0,0)); break; } #undef CASE } else { assert(img_n+1 == out_n); #define CASE(f) \ case f: \ for (i=x-1; i >= 1; --i, cur[img_n]=255,raw+=img_n,cur+=out_n,prior+=out_n) \ for (k=0; k < img_n; ++k) switch (filter) { CASE(F_none) cur[k] = raw[k]; break; CASE(F_sub) cur[k] = raw[k] + cur[k-out_n]; break; CASE(F_up) cur[k] = raw[k] + prior[k]; break; CASE(F_avg) cur[k] = raw[k] + ((prior[k] + cur[k-out_n])>>1); break; CASE(F_paeth) cur[k] = (uint8) (raw[k] + paeth(cur[k-out_n],prior[k],prior[k-out_n])); break; CASE(F_avg_first) cur[k] = raw[k] + (cur[k-out_n] >> 1); break; CASE(F_paeth_first) cur[k] = (uint8) (raw[k] + paeth(cur[k-out_n],0,0)); break; } #undef CASE } } return 1; } static int create_png_image(png a, uint8 raw, uint32 raw_len, int out_n, int interlaced) { uint8 final; int p; int save; if (!interlaced) return create_png_image_raw(a, raw, raw_len, out_n, a->s->img_x, a->s->img_y); save = stbi_png_partial; stbi_png_partial = 0; // de-interlacing final = (uint8 ) malloc(a->s->img_x * a->s->img_y * out_n); for (p=0; p < 7; ++p) { int xorig[] = { 0,4,0,2,0,1,0 }; int yorig[] = { 0,0,4,0,2,0,1 }; int xspc[] = { 8,8,4,4,2,2,1 }; int yspc[] = { 8,8,8,4,4,2,2 }; int i,j,x,y; // pass1_x[4] = 0, pass1_x[5] = 1, pass1_x[12] = 1 x = (a->s->img_x - xorig[p] + xspc[p]-1) / xspc[p]; y = (a->s->img_y - yorig[p] + yspc[p]-1) / yspc[p]; if (x && y) { if (!create_png_image_raw(a, raw, raw_len, out_n, x, y)) { free(final); return 0; } for (j=0; j < y; ++j) for (i=0; i < x; ++i) memcpy(final + (jyspc[p]+yorig[p])a->s->img_xout_n + (ixspc[p]+xorig[p])out_n, a->out + (jx+i)out_n, out_n); free(a->out); raw += (xout_n+1)y; raw_len -= (xout_n+1)y; } } a->out = final; stbi_png_partial = save; return 1; } static int compute_transparency(png z, uint8 tc[3], int out_n) { stbi s = z->s; uint32 i, pixel_count = s->img_x s->img_y; uint8 p = z->out; // compute color-based transparency, assuming we've // already got 255 as the alpha value in the output assert(out_n == 2 \|\| out_n == 4); if (out_n == 2) { for (i=0; i < pixel_count; ++i) { p[1] = (p[0] == tc[0] ? 0 : 255); p += 2; } } else { for (i=0; i < pixel_count; ++i) { if (p[0] == tc[0] && p[1] == tc[1] && p[2] == tc[2]) p[3] = 0; p += 4; } } return 1; } static int expand_palette(png a, uint8 palette, int len, int pal_img_n) { uint32 i, pixel_count = a->s->img_x a->s->img_y; uint8 p, temp_out, orig = a->out; p = (uint8 ) malloc(pixel_count * pal_img_n); if (p == NULL) return e("outofmem", "Out of memory"); // between here and free(out) below, exitting would leak temp_out = p; if (pal_img_n == 3) { for (i=0; i < pixel_count; ++i) { int n = orig[i]4; p[0] = palette[n ]; p[1] = palette[n+1]; p[2] = palette[n+2]; p += 3; } } else { for (i=0; i < pixel_count; ++i) { int n = orig[i]4; p[0] = palette[n ]; p[1] = palette[n+1]; p[2] = palette[n+2]; p[3] = palette[n+3]; p += 4; } } free(a->out); a->out = temp_out; STBI_NOTUSED(len); return 1; } static int stbi_unpremultiply_on_load = 0; static int stbi_de_iphone_flag = 0; void stbi_set_unpremultiply_on_load(int flag_true_if_should_unpremultiply) { stbi_unpremultiply_on_load = flag_true_if_should_unpremultiply; } void stbi_convert_iphone_png_to_rgb(int flag_true_if_should_convert) { stbi_de_iphone_flag = flag_true_if_should_convert; } static void stbi_de_iphone(png z) { stbi s = z->s; uint32 i, pixel_count = s->img_x * s->img_y; uint8 p = z->out; if (s->img_out_n == 3) { // convert bgr to rgb for (i=0; i < pixel_count; ++i) { uint8 t = p[0]; p[0] = p[2]; p[2] = t; p += 3; } } else { assert(s->img_out_n == 4); if (stbi_unpremultiply_on_load) { // convert bgr to rgb and unpremultiply for (i=0; i < pixel_count; ++i) { uint8 a = p[3]; uint8 t = p[0]; if (a) { p[0] = p[2] 255 / a; p[1] = p[1] * 255 / a; p[2] = t * 255 / a; } else { p[0] = p[2]; p[2] = t; } p += 4; } } else { // convert bgr to rgb for (i=0; i < pixel_count; ++i) { uint8 t = p[0]; p[0] = p[2]; p[2] = t; p += 4; } } } } static int parse_png_file(png z, int scan, int req_comp) { uint8 palette[1024], pal_img_n=0; uint8 has_trans=0, tc[3]; uint32 ioff=0, idata_limit=0, i, pal_len=0; int first=1,k,interlace=0, iphone=0; stbi s = z->s; z->expanded = NULL; z->idata = NULL; z->out = NULL; if (!check_png_header(s)) return 0; if (scan == SCAN_type) return 1; for (;;) { chunk c = get_chunk_header(s); switch (c.type) { case PNG_TYPE('C','g','B','I'): iphone = stbi_de_iphone_flag; skip(s, c.length); break; case PNG_TYPE('I','H','D','R'): { int depth,color,comp,filter; if (!first) return e("multiple IHDR","Corrupt PNG"); first = 0; if (c.length != 13) return e("bad IHDR len","Corrupt PNG"); s->img_x = get32(s); if (s->img_x > (1 << 24)) return e("too large","Very large image (corrupt?)"); s->img_y = get32(s); if (s->img_y > (1 << 24)) return e("too large","Very large image (corrupt?)"); depth = get8(s); if (depth != 8) return e("8bit only","PNG not supported: 8-bit only"); color = get8(s); if (color > 6) return e("bad ctype","Corrupt PNG"); if (color == 3) pal_img_n = 3; else if (color & 1) return e("bad ctype","Corrupt PNG"); comp = get8(s); if (comp) return e("bad comp method","Corrupt PNG"); filter= get8(s); if (filter) return e("bad filter method","Corrupt PNG"); interlace = get8(s); if (interlace>1) return e("bad interlace method","Corrupt PNG"); if (!s->img_x \|\| !s->img_y) return e("0-pixel image","Corrupt PNG"); if (!pal_img_n) { s->img_n = (color & 2 ? 3 : 1) + (color & 4 ? 1 : 0); if ((1 << 30) / s->img_x / s->img_n < s->img_y) return e("too large", "Image too large to decode"); if (scan == SCAN_header) return 1; } else { // if paletted, then pal_n is our final components, and // img_n is # components to decompress/filter. s->img_n = 1; if ((1 << 30) / s->img_x / 4 < s->img_y) return e("too large","Corrupt PNG"); // if SCAN_header, have to scan to see if we have a tRNS } break; } case PNG_TYPE('P','L','T','E'): { if (first) return e("first not IHDR", "Corrupt PNG"); if (c.length > 2563) return e("invalid PLTE","Corrupt PNG"); pal_len = c.length / 3; if (pal_len 3 != c.length) return e("invalid PLTE","Corrupt PNG"); for (i=0; i < pal_len; ++i) { palette[i4+0] = get8u(s); palette[i4+1] = get8u(s); palette[i4+2] = get8u(s); palette[i4+3] = 255; } break; } case PNG_TYPE('t','R','N','S'): { if (first) return e("first not IHDR", "Corrupt PNG"); if (z->idata) return e("tRNS after IDAT","Corrupt PNG"); if (pal_img_n) { if (scan == SCAN_header) { s->img_n = 4; return 1; } if (pal_len == 0) return e("tRNS before PLTE","Corrupt PNG"); if (c.length > pal_len) return e("bad tRNS len","Corrupt PNG"); pal_img_n = 4; for (i=0; i < c.length; ++i) palette[i4+3] = get8u(s); } else { if (!(s->img_n & 1)) return e("tRNS with alpha","Corrupt PNG"); if (c.length != (uint32) s->img_n2) return e("bad tRNS len","Corrupt PNG"); has_trans = 1; for (k=0; k < s->img_n; ++k) tc[k] = (uint8) get16(s); // non 8-bit images will be larger } break; } case PNG_TYPE('I','D','A','T'): { if (first) return e("first not IHDR", "Corrupt PNG"); if (pal_img_n && !pal_len) return e("no PLTE","Corrupt PNG"); if (scan == SCAN_header) { s->img_n = pal_img_n; return 1; } if (ioff + c.length > idata_limit) { uint8 p; if (idata_limit == 0) idata_limit = c.length > 4096 ? c.length : 4096; while (ioff + c.length > idata_limit) idata_limit = 2; p = (uint8 ) realloc(z->idata, idata_limit); if (p == NULL) return e("outofmem", "Out of memory"); z->idata = p; } if (!getn(s, z->idata+ioff,c.length)) return e("outofdata","Corrupt PNG"); ioff += c.length; break; } case PNG_TYPE('I','E','N','D'): { uint32 raw_len; if (first) return e("first not IHDR", "Corrupt PNG"); if (scan != SCAN_load) return 1; if (z->idata == NULL) return e("no IDAT","Corrupt PNG"); z->expanded = (uint8 ) stbi_zlib_decode_malloc_guesssize_headerflag((char ) z->idata, ioff, 16384, (int ) &raw_len, !iphone); if (z->expanded == NULL) return 0; // zlib should set error free(z->idata); z->idata = NULL; if ((req_comp == s->img_n+1 && req_comp != 3 && !pal_img_n) \|\| has_trans) s->img_out_n = s->img_n+1; else s->img_out_n = s->img_n; if (!create_png_image(z, z->expanded, raw_len, s->img_out_n, interlace)) return 0; if (has_trans) if (!compute_transparency(z, tc, s->img_out_n)) return 0; if (iphone && s->img_out_n > 2) stbi_de_iphone(z); if (pal_img_n) { // pal_img_n == 3 or 4 s->img_n = pal_img_n; // record the actual colors we had s->img_out_n = pal_img_n; if (req_comp >= 3) s->img_out_n = req_comp; if (!expand_palette(z, palette, pal_len, s->img_out_n)) return 0; } free(z->expanded); z->expanded = NULL; return 1; } default: // if critical, fail if (first) return e("first not IHDR", "Corrupt PNG"); if ((c.type & (1 << 29)) == 0) { #ifndef STBI_NO_FAILURE_STRINGS // not threadsafe static char invalid_chunk[] = "XXXX chunk not known"; invalid_chunk[0] = (uint8) (c.type >> 24); invalid_chunk[1] = (uint8) (c.type >> 16); invalid_chunk[2] = (uint8) (c.type >> 8); invalid_chunk[3] = (uint8) (c.type >> 0); #endif return e(invalid_chunk, "PNG not supported: unknown chunk type"); } skip(s, c.length); break; } // end of chunk, read and skip CRC get32(s); } } static unsigned char do_png(png p, int x, int y, int n, int req_comp) { unsigned char result=NULL; if (req_comp < 0 \|\| req_comp > 4) return epuc("bad req_comp", "Internal error"); if (parse_png_file(p, SCAN_load, req_comp)) { result = p->out; p->out = NULL; if (req_comp && req_comp != p->s->img_out_n) { result = convert_format(result, p->s->img_out_n, req_comp, p->s->img_x, p->s->img_y); p->s->img_out_n = req_comp; if (result == NULL) return result; } x = p->s->img_x; y = p->s->img_y; if (n) n = p->s->img_n; } free(p->out); p->out = NULL; free(p->expanded); p->expanded = NULL; free(p->idata); p->idata = NULL; return result; } static unsigned char stbi_png_load(stbi s, int x, int y, int comp, int req_comp) { png p; p.s = s; return do_png(&p, x,y,comp,req_comp); } static int stbi_png_test(stbi s) { int r; r = check_png_header(s); stbi_rewind(s); return r; } static int stbi_png_info_raw(png p, int x, int y, int comp) { if (!parse_png_file(p, SCAN_header, 0)) { stbi_rewind( p->s ); return 0; } if (x) x = p->s->img_x; if (y) y = p->s->img_y; if (comp) comp = p->s->img_n; return 1; } static int stbi_png_info(stbi s, int x, int y, int comp) { png p; p.s = s; return stbi_png_info_raw(&p, x, y, comp); } // Microsoft/Windows BMP image static int bmp_test(stbi s) { int sz; if (get8(s) != 'B') return 0; if (get8(s) != 'M') return 0; get32le(s); // discard filesize get16le(s); // discard reserved get16le(s); // discard reserved get32le(s); // discard data offset sz = get32le(s); if (sz == 12 \|\| sz == 40 \|\| sz == 56 \|\| sz == 108) return 1; return 0; } static int stbi_bmp_test(stbi s) { int r = bmp_test(s); stbi_rewind(s); return r; } // returns 0..31 for the highest set bit static int high_bit(unsigned int z) { int n=0; if (z == 0) return -1; if (z >= 0x10000) n += 16, z >>= 16; if (z >= 0x00100) n += 8, z >>= 8; if (z >= 0x00010) n += 4, z >>= 4; if (z >= 0x00004) n += 2, z >>= 2; if (z >= 0x00002) n += 1, z >>= 1; return n; } static int bitcount(unsigned int a) { a = (a & 0x55555555) + ((a >> 1) & 0x55555555); // max 2 a = (a & 0x33333333) + ((a >> 2) & 0x33333333); // max 4 a = (a + (a >> 4)) & 0x0f0f0f0f; // max 8 per 4, now 8 bits a = (a + (a >> 8)); // max 16 per 8 bits a = (a + (a >> 16)); // max 32 per 8 bits return a & 0xff; } static int shiftsigned(int v, int shift, int bits) { int result; int z=0; if (shift < 0) v <<= -shift; else v >>= shift; result = v; z = bits; while (z < 8) { result += v >> z; z += bits; } return result; } static stbi_uc bmp_load(stbi s, int x, int y, int comp, int req_comp) { uint8 out; unsigned int mr=0,mg=0,mb=0,ma=0, fake_a=0; stbi_uc pal[256][4]; int psize=0,i,j,compress=0,width; int bpp, flip_vertically, pad, target, offset, hsz; if (get8(s) != 'B' \|\| get8(s) != 'M') return epuc("not BMP", "Corrupt BMP"); get32le(s); // discard filesize get16le(s); // discard reserved get16le(s); // discard reserved offset = get32le(s); hsz = get32le(s); if (hsz != 12 && hsz != 40 && hsz != 56 && hsz != 108) return epuc("unknown BMP", "BMP type not supported: unknown"); if (hsz == 12) { s->img_x = get16le(s); s->img_y = get16le(s); } else { s->img_x = get32le(s); s->img_y = get32le(s); } if (get16le(s) != 1) return epuc("bad BMP", "bad BMP"); bpp = get16le(s); if (bpp == 1) return epuc("monochrome", "BMP type not supported: 1-bit"); flip_vertically = ((int) s->img_y) > 0; s->img_y = abs((int) s->img_y); if (hsz == 12) { if (bpp < 24) psize = (offset - 14 - 24) / 3; } else { compress = get32le(s); if (compress == 1 \|\| compress == 2) return epuc("BMP RLE", "BMP type not supported: RLE"); get32le(s); // discard sizeof get32le(s); // discard hres get32le(s); // discard vres get32le(s); // discard colorsused get32le(s); // discard max important if (hsz == 40 \|\| hsz == 56) { if (hsz == 56) { get32le(s); get32le(s); get32le(s); get32le(s); } if (bpp == 16 \|\| bpp == 32) { mr = mg = mb = 0; if (compress == 0) { if (bpp == 32) { mr = 0xffu << 16; mg = 0xffu << 8; mb = 0xffu << 0; ma = 0xffu << 24; fake_a = 1; // @TODO: check for cases like alpha value is all 0 and switch it to 255 } else { mr = 31u << 10; mg = 31u << 5; mb = 31u << 0; } } else if (compress == 3) { mr = get32le(s); mg = get32le(s); mb = get32le(s); // not documented, but generated by photoshop and handled by mspaint if (mr == mg && mg == mb) { // ?!?!? return epuc("bad BMP", "bad BMP"); } } else return epuc("bad BMP", "bad BMP"); } } else { assert(hsz == 108); mr = get32le(s); mg = get32le(s); mb = get32le(s); ma = get32le(s); get32le(s); // discard color space for (i=0; i < 12; ++i) get32le(s); // discard color space parameters } if (bpp < 16) psize = (offset - 14 - hsz) >> 2; } s->img_n = ma ? 4 : 3; if (req_comp && req_comp >= 3) // we can directly decode 3 or 4 target = req_comp; else target = s->img_n; // if they want monochrome, we'll post-convert out = (stbi_uc ) malloc(target s->img_x * s->img_y); if (!out) return epuc("outofmem", "Out of memory"); if (bpp < 16) { int z=0; if (psize == 0 \|\| psize > 256) { free(out); return epuc("invalid", "Corrupt BMP"); } for (i=0; i < psize; ++i) { pal[i][2] = get8u(s); pal[i][1] = get8u(s); pal[i][0] = get8u(s); if (hsz != 12) get8(s); pal[i][3] = 255; } skip(s, offset - 14 - hsz - psize * (hsz == 12 ? 3 : 4)); if (bpp == 4) width = (s->img_x + 1) >> 1; else if (bpp == 8) width = s->img_x; else { free(out); return epuc("bad bpp", "Corrupt BMP"); } pad = (-width)&3; for (j=0; j < (int) s->img_y; ++j) { for (i=0; i < (int) s->img_x; i += 2) { int v=get8(s),v2=0; if (bpp == 4) { v2 = v & 15; v >>= 4; } out[z++] = pal[v][0]; out[z++] = pal[v][1]; out[z++] = pal[v][2]; if (target == 4) out[z++] = 255; if (i+1 == (int) s->img_x) break; v = (bpp == 8) ? get8(s) : v2; out[z++] = pal[v][0]; out[z++] = pal[v][1]; out[z++] = pal[v][2]; if (target == 4) out[z++] = 255; } skip(s, pad); } } else { int rshift=0,gshift=0,bshift=0,ashift=0,rcount=0,gcount=0,bcount=0,acount=0; int z = 0; int easy=0; skip(s, offset - 14 - hsz); if (bpp == 24) width = 3 * s->img_x; else if (bpp == 16) width = 2s->img_x; else / bpp = 32 and pad = 0 / width=0; pad = (-width) & 3; if (bpp == 24) { easy = 1; } else if (bpp == 32) { if (mb == 0xff && mg == 0xff00 && mr == 0x00ff0000 && ma == 0xff000000) easy = 2; } if (!easy) { if (!mr \|\| !mg \|\| !mb) { free(out); return epuc("bad masks", "Corrupt BMP"); } // right shift amt to put high bit in position #7 rshift = high_bit(mr)-7; rcount = bitcount(mr); gshift = high_bit(mg)-7; gcount = bitcount(mr); bshift = high_bit(mb)-7; bcount = bitcount(mr); ashift = high_bit(ma)-7; acount = bitcount(mr); } for (j=0; j < (int) s->img_y; ++j) { if (easy) { for (i=0; i < (int) s->img_x; ++i) { int a; out[z+2] = get8u(s); out[z+1] = get8u(s); out[z+0] = get8u(s); z += 3; a = (easy == 2 ? get8(s) : 255); if (target == 4) out[z++] = (uint8) a; } } else { for (i=0; i < (int) s->img_x; ++i) { uint32 v = (bpp == 16 ? get16le(s) : get32le(s)); int a; out[z++] = (uint8) shiftsigned(v & mr, rshift, rcount); out[z++] = (uint8) shiftsigned(v & mg, gshift, gcount); out[z++] = (uint8) shiftsigned(v & mb, bshift, bcount); a = (ma ? shiftsigned(v & ma, ashift, acount) : 255); if (target == 4) out[z++] = (uint8) a; } } skip(s, pad); } } if (flip_vertically) { stbi_uc t; for (j=0; j < (int) s->img_y>>1; ++j) { stbi_uc p1 = out + j s->img_xtarget; stbi_uc p2 = out + (s->img_y-1-j)s->img_xtarget; for (i=0; i < (int) s->img_xtarget; ++i) { t = p1[i], p1[i] = p2[i], p2[i] = t; } } } if (req_comp && req_comp != target) { out = convert_format(out, target, req_comp, s->img_x, s->img_y); if (out == NULL) return out; // convert_format frees input on failure } x = s->img_x; y = s->img_y; if (comp) comp = s->img_n; return out; } static stbi_uc stbi_bmp_load(stbi s,int x, int y, int comp, int req_comp) { return bmp_load(s, x,y,comp,req_comp); } // Targa Truevision - TGA // by Jonathan Dummer static int tga_info(stbi s, int x, int y, int comp) { int tga_w, tga_h, tga_comp; int sz; get8u(s); // discard Offset sz = get8u(s); // color type if( sz > 1 ) { stbi_rewind(s); return 0; // only RGB or indexed allowed } sz = get8u(s); // image type // only RGB or grey allowed, +/- RLE if ((sz != 1) && (sz != 2) && (sz != 3) && (sz != 9) && (sz != 10) && (sz != 11)) return 0; skip(s,9); tga_w = get16le(s); if( tga_w < 1 ) { stbi_rewind(s); return 0; // test width } tga_h = get16le(s); if( tga_h < 1 ) { stbi_rewind(s); return 0; // test height } sz = get8(s); // bits per pixel // only RGB or RGBA or grey allowed if ((sz != 8) && (sz != 16) && (sz != 24) && (sz != 32)) { stbi_rewind(s); return 0; } tga_comp = sz; if (x) x = tga_w; if (y) y = tga_h; if (comp) comp = tga_comp / 8; return 1; // seems to have passed everything } int stbi_tga_info(stbi s, int x, int y, int comp) { return tga_info(s, x, y, comp); } static int tga_test(stbi s) { int sz; get8u(s); // discard Offset sz = get8u(s); // color type if ( sz > 1 ) return 0; // only RGB or indexed allowed sz = get8u(s); // image type if ( (sz != 1) && (sz != 2) && (sz != 3) && (sz != 9) && (sz != 10) && (sz != 11) ) return 0; // only RGB or grey allowed, +/- RLE get16(s); // discard palette start get16(s); // discard palette length get8(s); // discard bits per palette color entry get16(s); // discard x origin get16(s); // discard y origin if ( get16(s) < 1 ) return 0; // test width if ( get16(s) < 1 ) return 0; // test height sz = get8(s); // bits per pixel if ( (sz != 8) && (sz != 16) && (sz != 24) && (sz != 32) ) return 0; // only RGB or RGBA or grey allowed return 1; // seems to have passed everything } static int stbi_tga_test(stbi s) { int res = tga_test(s); stbi_rewind(s); return res; } static stbi_uc tga_load(stbi s, int x, int y, int comp, int req_comp) { // read in the TGA header stuff int tga_offset = get8u(s); int tga_indexed = get8u(s); int tga_image_type = get8u(s); int tga_is_RLE = 0; int tga_palette_start = get16le(s); int tga_palette_len = get16le(s); int tga_palette_bits = get8u(s); int tga_x_origin = get16le(s); int tga_y_origin = get16le(s); int tga_width = get16le(s); int tga_height = get16le(s); int tga_bits_per_pixel = get8u(s); int tga_inverted = get8u(s); // image data unsigned char tga_data; unsigned char tga_palette = NULL; int i, j; unsigned char raw_data[4]; unsigned char trans_data[4]; int RLE_count = 0; int RLE_repeating = 0; int read_next_pixel = 1; // do a tiny bit of precessing if ( tga_image_type >= 8 ) { tga_image_type -= 8; tga_is_RLE = 1; } /* int tga_alpha_bits = tga_inverted & 15; / tga_inverted = 1 - ((tga_inverted >> 5) & 1); // error check if ( //(tga_indexed) \|\| (tga_width < 1) \|\| (tga_height < 1) \|\| (tga_image_type < 1) \|\| (tga_image_type > 3) \|\| ((tga_bits_per_pixel != 8) && (tga_bits_per_pixel != 16) && (tga_bits_per_pixel != 24) && (tga_bits_per_pixel != 32)) ) { return NULL; // we don't report this as a bad TGA because we don't even know if it's TGA } // If I'm paletted, then I'll use the number of bits from the palette if ( tga_indexed ) { tga_bits_per_pixel = tga_palette_bits; } // tga info x = tga_width; y = tga_height; if ( (req_comp < 1) \|\| (req_comp > 4) ) { // just use whatever the file was req_comp = tga_bits_per_pixel / 8; comp = req_comp; } else { // force a new number of components comp = tga_bits_per_pixel/8; } tga_data = (unsigned char)malloc( tga_width * tga_height * req_comp ); if (!tga_data) return epuc("outofmem", "Out of memory"); // skip to the data's starting position (offset usually = 0) skip(s, tga_offset ); // do I need to load a palette? if ( tga_indexed ) { // any data to skip? (offset usually = 0) skip(s, tga_palette_start ); // load the palette tga_palette = (unsigned char)malloc( tga_palette_len tga_palette_bits / 8 ); if (!tga_palette) return epuc("outofmem", "Out of memory"); if (!getn(s, tga_palette, tga_palette_len * tga_palette_bits / 8 )) { free(tga_data); free(tga_palette); return epuc("bad palette", "Corrupt TGA"); } } // load the data trans_data[0] = trans_data[1] = trans_data[2] = trans_data[3] = 0; for (i=0; i < tga_width * tga_height; ++i) { // if I'm in RLE mode, do I need to get a RLE chunk? if ( tga_is_RLE ) { if ( RLE_count == 0 ) { // yep, get the next byte as a RLE command int RLE_cmd = get8u(s); RLE_count = 1 + (RLE_cmd & 127); RLE_repeating = RLE_cmd >> 7; read_next_pixel = 1; } else if ( !RLE_repeating ) { read_next_pixel = 1; } } else { read_next_pixel = 1; } // OK, if I need to read a pixel, do it now if ( read_next_pixel ) { // load however much data we did have if ( tga_indexed ) { // read in 1 byte, then perform the lookup int pal_idx = get8u(s); if ( pal_idx >= tga_palette_len ) { // invalid index pal_idx = 0; } pal_idx = tga_bits_per_pixel / 8; for (j = 0; j8 < tga_bits_per_pixel; ++j) { raw_data[j] = tga_palette[pal_idx+j]; } } else { // read in the data raw for (j = 0; j8 < tga_bits_per_pixel; ++j) { raw_data[j] = get8u(s); } } // convert raw to the intermediate format switch (tga_bits_per_pixel) { case 8: // Luminous => RGBA trans_data[0] = raw_data[0]; trans_data[1] = raw_data[0]; trans_data[2] = raw_data[0]; trans_data[3] = 255; break; case 16: // Luminous,Alpha => RGBA trans_data[0] = raw_data[0]; trans_data[1] = raw_data[0]; trans_data[2] = raw_data[0]; trans_data[3] = raw_data[1]; break; case 24: // BGR => RGBA trans_data[0] = raw_data[2]; trans_data[1] = raw_data[1]; trans_data[2] = raw_data[0]; trans_data[3] = 255; break; case 32: // BGRA => RGBA trans_data[0] = raw_data[2]; trans_data[1] = raw_data[1]; trans_data[2] = raw_data[0]; trans_data[3] = raw_data[3]; break; } // clear the reading flag for the next pixel read_next_pixel = 0; } // end of reading a pixel // convert to final format switch (req_comp) { case 1: // RGBA => Luminance tga_data[ireq_comp+0] = compute_y(trans_data[0],trans_data[1],trans_data[2]); break; case 2: // RGBA => Luminance,Alpha tga_data[ireq_comp+0] = compute_y(trans_data[0],trans_data[1],trans_data[2]); tga_data[ireq_comp+1] = trans_data[3]; break; case 3: // RGBA => RGB tga_data[ireq_comp+0] = trans_data[0]; tga_data[ireq_comp+1] = trans_data[1]; tga_data[ireq_comp+2] = trans_data[2]; break; case 4: // RGBA => RGBA tga_data[ireq_comp+0] = trans_data[0]; tga_data[ireq_comp+1] = trans_data[1]; tga_data[ireq_comp+2] = trans_data[2]; tga_data[ireq_comp+3] = trans_data[3]; break; } // in case we're in RLE mode, keep counting down --RLE_count; } // do I need to invert the image? if ( tga_inverted ) { for (j = 0; j2 < tga_height; ++j) { int index1 = j * tga_width * req_comp; int index2 = (tga_height - 1 - j) * tga_width * req_comp; for (i = tga_width * req_comp; i > 0; --i) { unsigned char temp = tga_data[index1]; tga_data[index1] = tga_data[index2]; tga_data[index2] = temp; ++index1; ++index2; } } } // clear my palette, if I had one if ( tga_palette != NULL ) { free( tga_palette ); } // the things I do to get rid of an error message, and yet keep // Microsoft's C compilers happy... [8^( tga_palette_start = tga_palette_len = tga_palette_bits = tga_x_origin = tga_y_origin = 0; // OK, done return tga_data; } static stbi_uc stbi_tga_load(stbi s, int x, int y, int comp, int req_comp) { return tga_load(s,x,y,comp,req_comp); } // ************************************************************************************************ // Photoshop PSD loader -- PD by Thatcher Ulrich, integration by Nicolas Schulz, tweaked by STB static int psd_test(stbi s) { if (get32(s) != 0x38425053) return 0; // "8BPS" else return 1; } static int stbi_psd_test(stbi s) { int r = psd_test(s); stbi_rewind(s); return r; } static stbi_uc psd_load(stbi s, int x, int y, int comp, int req_comp) { int pixelCount; int channelCount, compression; int channel, i, count, len; int w,h; uint8 out; // Check identifier if (get32(s) != 0x38425053) // "8BPS" return epuc("not PSD", "Corrupt PSD image"); // Check file type version. if (get16(s) != 1) return epuc("wrong version", "Unsupported version of PSD image"); // Skip 6 reserved bytes. skip(s, 6 ); // Read the number of channels (R, G, B, A, etc). channelCount = get16(s); if (channelCount < 0 \|\| channelCount > 16) return epuc("wrong channel count", "Unsupported number of channels in PSD image"); // Read the rows and columns of the image. h = get32(s); w = get32(s); // Make sure the depth is 8 bits. if (get16(s) != 8) return epuc("unsupported bit depth", "PSD bit depth is not 8 bit"); // Make sure the color mode is RGB. // Valid options are: // 0: Bitmap // 1: Grayscale // 2: Indexed color // 3: RGB color // 4: CMYK color // 7: Multichannel // 8: Duotone // 9: Lab color if (get16(s) != 3) return epuc("wrong color format", "PSD is not in RGB color format"); // Skip the Mode Data. (It's the palette for indexed color; other info for other modes.) skip(s,get32(s) ); // Skip the image resources. (resolution, pen tool paths, etc) skip(s, get32(s) ); // Skip the reserved data. skip(s, get32(s) ); // Find out if the data is compressed. // Known values: // 0: no compression // 1: RLE compressed compression = get16(s); if (compression > 1) return epuc("bad compression", "PSD has an unknown compression format"); // Create the destination image. out = (stbi_uc ) malloc(4 wh); if (!out) return epuc("outofmem", "Out of memory"); pixelCount = wh; // Initialize the data to zero. //memset( out, 0, pixelCount * 4 ); // Finally, the image data. if (compression) { // RLE as used by .PSD and .TIFF // Loop until you get the number of unpacked bytes you are expecting: // Read the next source byte into n. // If n is between 0 and 127 inclusive, copy the next n+1 bytes literally. // Else if n is between -127 and -1 inclusive, copy the next byte -n+1 times. // Else if n is 128, noop. // Endloop // The RLE-compressed data is preceeded by a 2-byte data count for each row in the data, // which we're going to just skip. skip(s, h * channelCount * 2 ); // Read the RLE data by channel. for (channel = 0; channel < 4; channel++) { uint8 p; p = out+channel; if (channel >= channelCount) { // Fill this channel with default data. for (i = 0; i < pixelCount; i++) p = (channel == 3 ? 255 : 0), p += 4; } else { // Read the RLE data. count = 0; while (count < pixelCount) { len = get8(s); if (len == 128) { // No-op. } else if (len < 128) { // Copy next len+1 bytes literally. len++; count += len; while (len) { p = get8u(s); p += 4; len--; } } else if (len > 128) { uint8 val; // Next -len+1 bytes in the dest are replicated from next source byte. // (Interpret len as a negative 8-bit int.) len ^= 0x0FF; len += 2; val = get8u(s); count += len; while (len) { p = val; p += 4; len--; } } } } } } else { // We're at the raw image data. It's each channel in order (Red, Green, Blue, Alpha, ...) // where each channel consists of an 8-bit value for each pixel in the image. // Read the data by channel. for (channel = 0; channel < 4; channel++) { uint8 p; p = out + channel; if (channel > channelCount) { // Fill this channel with default data. for (i = 0; i < pixelCount; i++) p = channel == 3 ? 255 : 0, p += 4; } else { // Read the data. for (i = 0; i < pixelCount; i++) p = get8u(s), p += 4; } } } if (req_comp && req_comp != 4) { out = convert_format(out, 4, req_comp, w, h); if (out == NULL) return out; // convert_format frees input on failure } if (comp) comp = channelCount; y = h; x = w; return out; } static stbi_uc stbi_psd_load(stbi s, int x, int y, int comp, int req_comp) { return psd_load(s,x,y,comp,req_comp); } // ************************************************************************************************ // Softimage PIC loader // by Tom Seddon // // See http://softimage.wiki.softimage.com/index.php/INFO:_PIC_file_format // See http://ozviz.wasp.uwa.edu.au/~pbourke/dataformats/softimagepic/ static int pic_is4(stbi s,const char str) { int i; for (i=0; i<4; ++i) if (get8(s) != (stbi_uc)str[i]) return 0; return 1; } static int pic_test(stbi s) { int i; if (!pic_is4(s,"\x53\x80\xF6\x34")) return 0; for(i=0;i<84;++i) get8(s); if (!pic_is4(s,"PICT")) return 0; return 1; } typedef struct { stbi_uc size,type,channel; } pic_packet_t; static stbi_uc pic_readval(stbi s, int channel, stbi_uc dest) { int mask=0x80, i; for (i=0; i<4; ++i, mask>>=1) { if (channel & mask) { if (at_eof(s)) return epuc("bad file","PIC file too short"); dest[i]=get8u(s); } } return dest; } static void pic_copyval(int channel,stbi_uc dest,const stbi_uc src) { int mask=0x80,i; for (i=0;i<4; ++i, mask>>=1) if (channel&mask) dest[i]=src[i]; } static stbi_uc pic_load2(stbi s,int width,int height,int comp, stbi_uc result) { int act_comp=0,num_packets=0,y,chained; pic_packet_t packets[10]; // this will (should...) cater for even some bizarre stuff like having data // for the same channel in multiple packets. do { pic_packet_t packet; if (num_packets==sizeof(packets)/sizeof(packets[0])) return epuc("bad format","too many packets"); packet = &packets[num_packets++]; chained = get8(s); packet->size = get8u(s); packet->type = get8u(s); packet->channel = get8u(s); act_comp \|= packet->channel; if (at_eof(s)) return epuc("bad file","file too short (reading packets)"); if (packet->size != 8) return epuc("bad format","packet isn't 8bpp"); } while (chained); comp = (act_comp & 0x10 ? 4 : 3); // has alpha channel? for(y=0; y<height; ++y) { int packet_idx; for(packet_idx=0; packet_idx < num_packets; ++packet_idx) { pic_packet_t packet = &packets[packet_idx]; stbi_uc dest = result+ywidth4; switch (packet->type) { default: return epuc("bad format","packet has bad compression type"); case 0: {//uncompressed int x; for(x=0;x<width;++x, dest+=4) if (!pic_readval(s,packet->channel,dest)) return 0; break; } case 1://Pure RLE { int left=width, i; while (left>0) { stbi_uc count,value[4]; count=get8u(s); if (at_eof(s)) return epuc("bad file","file too short (pure read count)"); if (count > left) count = (uint8) left; if (!pic_readval(s,packet->channel,value)) return 0; for(i=0; i<count; ++i,dest+=4) pic_copyval(packet->channel,dest,value); left -= count; } } break; case 2: {//Mixed RLE int left=width; while (left>0) { int count = get8(s), i; if (at_eof(s)) return epuc("bad file","file too short (mixed read count)"); if (count >= 128) { // Repeated stbi_uc value[4]; int i; if (count==128) count = get16(s); else count -= 127; if (count > left) return epuc("bad file","scanline overrun"); if (!pic_readval(s,packet->channel,value)) return 0; for(i=0;i<count;++i, dest += 4) pic_copyval(packet->channel,dest,value); } else { // Raw ++count; if (count>left) return epuc("bad file","scanline overrun"); for(i=0;i<count;++i, dest+=4) if (!pic_readval(s,packet->channel,dest)) return 0; } left-=count; } break; } } } } return result; } static stbi_uc pic_load(stbi s,int px,int py,int comp,int req_comp) { stbi_uc result; int i, x,y; for (i=0; i<92; ++i) get8(s); x = get16(s); y = get16(s); if (at_eof(s)) return epuc("bad file","file too short (pic header)"); if ((1 << 28) / x < y) return epuc("too large", "Image too large to decode"); get32(s); //skip `ratio' get16(s); //skip `fields' get16(s); //skip `pad' // intermediate buffer is RGBA result = (stbi_uc ) malloc(xy4); memset(result, 0xff, xy4); if (!pic_load2(s,x,y,comp, result)) { free(result); result=0; } px = x; py = y; if (req_comp == 0) req_comp = comp; result=convert_format(result,4,req_comp,x,y); return result; } static int stbi_pic_test(stbi s) { int r = pic_test(s); stbi_rewind(s); return r; } static stbi_uc stbi_pic_load(stbi s, int x, int y, int comp, int req_comp) { return pic_load(s,x,y,comp,req_comp); } // ************************************************************************************************* // GIF loader -- public domain by Jean-Marc Lienher -- simplified/shrunk by stb typedef struct stbi_gif_lzw_struct { int16 prefix; uint8 first; uint8 suffix; } stbi_gif_lzw; typedef struct stbi_gif_struct { int w,h; stbi_uc out; // output buffer (always 4 components) int flags, bgindex, ratio, transparent, eflags; uint8 pal[256][4]; uint8 lpal[256][4]; stbi_gif_lzw codes[4096]; uint8 color_table; int parse, step; int lflags; int start_x, start_y; int max_x, max_y; int cur_x, cur_y; int line_size; } stbi_gif; static int gif_test(stbi s) { int sz; if (get8(s) != 'G' \|\| get8(s) != 'I' \|\| get8(s) != 'F' \|\| get8(s) != '8') return 0; sz = get8(s); if (sz != '9' && sz != '7') return 0; if (get8(s) != 'a') return 0; return 1; } static int stbi_gif_test(stbi s) { int r = gif_test(s); stbi_rewind(s); return r; } static void stbi_gif_parse_colortable(stbi s, uint8 pal[256][4], int num_entries, int transp) { int i; for (i=0; i < num_entries; ++i) { pal[i][2] = get8u(s); pal[i][1] = get8u(s); pal[i][0] = get8u(s); pal[i][3] = transp ? 0 : 255; } } static int stbi_gif_header(stbi s, stbi_gif g, int comp, int is_info) { uint8 version; if (get8(s) != 'G' \|\| get8(s) != 'I' \|\| get8(s) != 'F' \|\| get8(s) != '8') return e("not GIF", "Corrupt GIF"); version = get8u(s); if (version != '7' && version != '9') return e("not GIF", "Corrupt GIF"); if (get8(s) != 'a') return e("not GIF", "Corrupt GIF"); failure_reason = ""; g->w = get16le(s); g->h = get16le(s); g->flags = get8(s); g->bgindex = get8(s); g->ratio = get8(s); g->transparent = -1; if (comp != 0) comp = 4; // can't actually tell whether it's 3 or 4 until we parse the comments if (is_info) return 1; if (g->flags & 0x80) stbi_gif_parse_colortable(s,g->pal, 2 << (g->flags & 7), -1); return 1; } static int stbi_gif_info_raw(stbi s, int x, int y, int comp) { stbi_gif g; if (!stbi_gif_header(s, &g, comp, 1)) { stbi_rewind( s ); return 0; } if (x) x = g.w; if (y) y = g.h; return 1; } static void stbi_out_gif_code(stbi_gif g, uint16 code) { uint8 p, c; // recurse to decode the prefixes, since the linked-list is backwards, // and working backwards through an interleaved image would be nasty if (g->codes[code].prefix >= 0) stbi_out_gif_code(g, g->codes[code].prefix); if (g->cur_y >= g->max_y) return; p = &g->out[g->cur_x + g->cur_y]; c = &g->color_table[g->codes[code].suffix * 4]; if (c[3] >= 128) { p[0] = c[2]; p[1] = c[1]; p[2] = c[0]; p[3] = c[3]; } g->cur_x += 4; if (g->cur_x >= g->max_x) { g->cur_x = g->start_x; g->cur_y += g->step; while (g->cur_y >= g->max_y && g->parse > 0) { g->step = (1 << g->parse) * g->line_size; g->cur_y = g->start_y + (g->step >> 1); --g->parse; } } } static uint8 stbi_process_gif_raster(stbi s, stbi_gif g) { uint8 lzw_cs; int32 len, code; uint32 first; int32 codesize, codemask, avail, oldcode, bits, valid_bits, clear; stbi_gif_lzw p; lzw_cs = get8u(s); clear = 1 << lzw_cs; first = 1; codesize = lzw_cs + 1; codemask = (1 << codesize) - 1; bits = 0; valid_bits = 0; for (code = 0; code < clear; code++) { g->codes[code].prefix = -1; g->codes[code].first = (uint8) code; g->codes[code].suffix = (uint8) code; } // support no starting clear code avail = clear+2; oldcode = -1; len = 0; for(;;) { if (valid_bits < codesize) { if (len == 0) { len = get8(s); // start new block if (len == 0) return g->out; } --len; bits \|= (int32) get8(s) << valid_bits; valid_bits += 8; } else { int32 code = bits & codemask; bits >>= codesize; valid_bits -= codesize; // @OPTIMIZE: is there some way we can accelerate the non-clear path? if (code == clear) { // clear code codesize = lzw_cs + 1; codemask = (1 << codesize) - 1; avail = clear + 2; oldcode = -1; first = 0; } else if (code == clear + 1) { // end of stream code skip(s, len); while ((len = get8(s)) > 0) skip(s,len); return g->out; } else if (code <= avail) { if (first) return epuc("no clear code", "Corrupt GIF"); if (oldcode >= 0) { p = &g->codes[avail++]; if (avail > 4096) return epuc("too many codes", "Corrupt GIF"); p->prefix = (int16) oldcode; p->first = g->codes[oldcode].first; p->suffix = (code == avail) ? p->first : g->codes[code].first; } else if (code == avail) return epuc("illegal code in raster", "Corrupt GIF"); stbi_out_gif_code(g, (uint16) code); if ((avail & codemask) == 0 && avail <= 0x0FFF) { codesize++; codemask = (1 << codesize) - 1; } oldcode = code; } else { return epuc("illegal code in raster", "Corrupt GIF"); } } } } static void stbi_fill_gif_background(stbi_gif g) { int i; uint8 c = g->pal[g->bgindex]; // @OPTIMIZE: write a dword at a time for (i = 0; i < g->w * g->h * 4; i += 4) { uint8 p = &g->out[i]; p[0] = c[2]; p[1] = c[1]; p[2] = c[0]; p[3] = c[3]; } } // this function is designed to support animated gifs, although stb_image doesn't support it static uint8 stbi_gif_load_next(stbi s, stbi_gif g, int comp, int req_comp) { int i; uint8 old_out = 0; if (g->out == 0) { if (!stbi_gif_header(s, g, comp,0)) return 0; // failure_reason set by stbi_gif_header g->out = (uint8 ) malloc(4 g->w * g->h); if (g->out == 0) return epuc("outofmem", "Out of memory"); stbi_fill_gif_background(g); } else { // animated-gif-only path if (((g->eflags & 0x1C) >> 2) == 3) { old_out = g->out; g->out = (uint8 ) malloc(4 g->w * g->h); if (g->out == 0) return epuc("outofmem", "Out of memory"); memcpy(g->out, old_out, g->wg->h4); } } for (;;) { switch (get8(s)) { case 0x2C: /* Image Descriptor / { int32 x, y, w, h; uint8 o; x = get16le(s); y = get16le(s); w = get16le(s); h = get16le(s); if (((x + w) > (g->w)) \|\| ((y + h) > (g->h))) return epuc("bad Image Descriptor", "Corrupt GIF"); g->line_size = g->w * 4; g->start_x = x * 4; g->start_y = y * g->line_size; g->max_x = g->start_x + w * 4; g->max_y = g->start_y + h * g->line_size; g->cur_x = g->start_x; g->cur_y = g->start_y; g->lflags = get8(s); if (g->lflags & 0x40) { g->step = 8 * g->line_size; // first interlaced spacing g->parse = 3; } else { g->step = g->line_size; g->parse = 0; } if (g->lflags & 0x80) { stbi_gif_parse_colortable(s,g->lpal, 2 << (g->lflags & 7), g->eflags & 0x01 ? g->transparent : -1); g->color_table = (uint8 ) g->lpal; } else if (g->flags & 0x80) { for (i=0; i < 256; ++i) // @OPTIMIZE: reset only the previous transparent g->pal[i][3] = 255; if (g->transparent >= 0 && (g->eflags & 0x01)) g->pal[g->transparent][3] = 0; g->color_table = (uint8 ) g->pal; } else return epuc("missing color table", "Corrupt GIF"); o = stbi_process_gif_raster(s, g); if (o == NULL) return NULL; if (req_comp && req_comp != 4) o = convert_format(o, 4, req_comp, g->w, g->h); return o; } case 0x21: // Comment Extension. { int len; if (get8(s) == 0xF9) { // Graphic Control Extension. len = get8(s); if (len == 4) { g->eflags = get8(s); get16le(s); // delay g->transparent = get8(s); } else { skip(s, len); break; } } while ((len = get8(s)) != 0) skip(s, len); break; } case 0x3B: // gif stream termination code return (uint8 ) 1; default: return epuc("unknown code", "Corrupt GIF"); } } } static stbi_uc stbi_gif_load(stbi s, int x, int y, int comp, int req_comp) { uint8 u = 0; stbi_gif g={0}; u = stbi_gif_load_next(s, &g, comp, req_comp); if (u == (void ) 1) u = 0; // end of animated gif marker if (u) { x = g.w; y = g.h; } return u; } static int stbi_gif_info(stbi s, int x, int y, int comp) { return stbi_gif_info_raw(s,x,y,comp); } // ************************************************************************************************* // Radiance RGBE HDR loader // originally by Nicolas Schulz #ifndef STBI_NO_HDR static int hdr_test(stbi s) { const char signature = "#?RADIANCE\n"; int i; for (i=0; signature[i]; ++i) if (get8(s) != signature[i]) return 0; return 1; } static int stbi_hdr_test(stbi* s) { int r = hdr_test(s); stbi_rewind(s); return r; } #define HDR_BUFLEN 1024 static char hdr_gettoken(stbi z, char buffer) { int len=0; char c = '\0'; c = (char) get8(z); while (!at_eof(z) && c != '\n') { buffer[len++] = c; if (len == HDR_BUFLEN-1) { // flush to end of line while (!at_eof(z) && get8(z) != '\n') ; break; } c = (char) get8(z); } buffer[len] = 0; return buffer; } static void hdr_convert(float output, stbi_uc input, int req_comp) { if ( input[3] != 0 ) { float f1; // Exponent f1 = (float) ldexp(1.0f, input[3] - (int)(128 + 8)); if (req_comp <= 2) output[0] = (input[0] + input[1] + input[2]) f1 / 3; else { output[0] = input[0] * f1; output[1] = input[1] * f1; output[2] = input[2] * f1; } if (req_comp == 2) output[1] = 1; if (req_comp == 4) output[3] = 1; } else { switch (req_comp) { case 4: output[3] = 1; /* fallthrough / case 3: output[0] = output[1] = output[2] = 0; break; case 2: output[1] = 1; / fallthrough / case 1: output[0] = 0; break; } } } static float hdr_load(stbi s, int x, int y, int comp, int req_comp) { char buffer[HDR_BUFLEN]; char token; int valid = 0; int width, height; stbi_uc scanline; float hdr_data; int len; unsigned char count, value; int i, j, k, c1,c2, z; // Check identifier if (strcmp(hdr_gettoken(s,buffer), "#?RADIANCE") != 0) return epf("not HDR", "Corrupt HDR image"); // Parse header for(;;) { token = hdr_gettoken(s,buffer); if (token[0] == 0) break; if (strcmp(token, "FORMAT=32-bit_rle_rgbe") == 0) valid = 1; } if (!valid) return epf("unsupported format", "Unsupported HDR format"); // Parse width and height // can't use sscanf() if we're not using stdio! token = hdr_gettoken(s,buffer); if (strncmp(token, "-Y ", 3)) return epf("unsupported data layout", "Unsupported HDR format"); token += 3; height = strtol(token, &token, 10); while (token == ' ') ++token; if (strncmp(token, "+X ", 3)) return epf("unsupported data layout", "Unsupported HDR format"); token += 3; width = strtol(token, NULL, 10); x = width; y = height; comp = 3; if (req_comp == 0) req_comp = 3; // Read data hdr_data = (float ) malloc(height * width * req_comp * sizeof(float)); // Load image data // image data is stored as some number of sca if ( width < 8 \|\| width >= 32768) { // Read flat data for (j=0; j < height; ++j) { for (i=0; i < width; ++i) { stbi_uc rgbe[4]; main_decode_loop: getn(s, rgbe, 4); hdr_convert(hdr_data + j * width * req_comp + i * req_comp, rgbe, req_comp); } } } else { // Read RLE-encoded data scanline = NULL; for (j = 0; j < height; ++j) { c1 = get8(s); c2 = get8(s); len = get8(s); if (c1 != 2 \|\| c2 != 2 \|\| (len & 0x80)) { // not run-length encoded, so we have to actually use THIS data as a decoded // pixel (note this can't be a valid pixel--one of RGB must be >= 128) uint8 rgbe[4]; rgbe[0] = (uint8) c1; rgbe[1] = (uint8) c2; rgbe[2] = (uint8) len; rgbe[3] = (uint8) get8u(s); hdr_convert(hdr_data, rgbe, req_comp); i = 1; j = 0; free(scanline); goto main_decode_loop; // yes, this makes no sense } len <<= 8; len \|= get8(s); if (len != width) { free(hdr_data); free(scanline); return epf("invalid decoded scanline length", "corrupt HDR"); } if (scanline == NULL) scanline = (stbi_uc ) malloc(width 4); for (k = 0; k < 4; ++k) { i = 0; while (i < width) { count = get8u(s); if (count > 128) { // Run value = get8u(s); count -= 128; for (z = 0; z < count; ++z) scanline[i++ * 4 + k] = value; } else { // Dump for (z = 0; z < count; ++z) scanline[i++ * 4 + k] = get8u(s); } } } for (i=0; i < width; ++i) hdr_convert(hdr_data+(jwidth + i)req_comp, scanline + i4, req_comp); } free(scanline); } return hdr_data; } static float stbi_hdr_load(stbi s, int x, int y, int comp, int req_comp) { return hdr_load(s,x,y,comp,req_comp); } static int stbi_hdr_info(stbi s, int x, int y, int comp) { char buffer[HDR_BUFLEN]; char token; int valid = 0; if (strcmp(hdr_gettoken(s,buffer), "#?RADIANCE") != 0) { stbi_rewind( s ); return 0; } for(;;) { token = hdr_gettoken(s,buffer); if (token[0] == 0) break; if (strcmp(token, "FORMAT=32-bit_rle_rgbe") == 0) valid = 1; } if (!valid) { stbi_rewind( s ); return 0; } token = hdr_gettoken(s,buffer); if (strncmp(token, "-Y ", 3)) { stbi_rewind( s ); return 0; } token += 3; y = strtol(token, &token, 10); while (token == ' ') ++token; if (strncmp(token, "+X ", 3)) { stbi_rewind( s ); return 0; } token += 3; x = strtol(token, NULL, 10); comp = 3; return 1; } #endif // STBI_NO_HDR static int stbi_bmp_info(stbi s, int x, int y, int comp) { int hsz; if (get8(s) != 'B' \|\| get8(s) != 'M') { stbi_rewind( s ); return 0; } skip(s,12); hsz = get32le(s); if (hsz != 12 && hsz != 40 && hsz != 56 && hsz != 108) { stbi_rewind( s ); return 0; } if (hsz == 12) { x = get16le(s); y = get16le(s); } else { x = get32le(s); y = get32le(s); } if (get16le(s) != 1) { stbi_rewind( s ); return 0; } comp = get16le(s) / 8; return 1; } static int stbi_psd_info(stbi s, int x, int y, int comp) { int channelCount; if (get32(s) != 0x38425053) { stbi_rewind( s ); return 0; } if (get16(s) != 1) { stbi_rewind( s ); return 0; } skip(s, 6); channelCount = get16(s); if (channelCount < 0 \|\| channelCount > 16) { stbi_rewind( s ); return 0; } y = get32(s); x = get32(s); if (get16(s) != 8) { stbi_rewind( s ); return 0; } if (get16(s) != 3) { stbi_rewind( s ); return 0; } comp = 4; return 1; } static int stbi_pic_info(stbi s, int x, int y, int comp) { int act_comp=0,num_packets=0,chained; pic_packet_t packets[10]; skip(s, 92); x = get16(s); y = get16(s); if (at_eof(s)) return 0; if ( (x) != 0 && (1 << 28) / (x) < (y)) { stbi_rewind( s ); return 0; } skip(s, 8); do { pic_packet_t packet; if (num_packets==sizeof(packets)/sizeof(packets[0])) return 0; packet = &packets[num_packets++]; chained = get8(s); packet->size = get8u(s); packet->type = get8u(s); packet->channel = get8u(s); act_comp \|= packet->channel; if (at_eof(s)) { stbi_rewind( s ); return 0; } if (packet->size != 8) { stbi_rewind( s ); return 0; } } while (chained); comp = (act_comp & 0x10 ? 4 : 3); return 1; } static int stbi_info_main(stbi s, int x, int y, int comp) { if (stbi_jpeg_info(s, x, y, comp)) return 1; if (stbi_png_info(s, x, y, comp)) return 1; if (stbi_gif_info(s, x, y, comp)) return 1; if (stbi_bmp_info(s, x, y, comp)) return 1; if (stbi_psd_info(s, x, y, comp)) return 1; if (stbi_pic_info(s, x, y, comp)) return 1; #ifndef STBI_NO_HDR if (stbi_hdr_info(s, x, y, comp)) return 1; #endif // test tga last because it's a crappy test! if (stbi_tga_info(s, x, y, comp)) return 1; return e("unknown image type", "Image not of any known type, or corrupt"); } #ifndef STBI_NO_STDIO int stbi_info(char const filename, int x, int y, int comp) { FILE f = fopen(filename, "rb"); int result; if (!f) return e("can't fopen", "Unable to open file"); result = stbi_info_from_file(f, x, y, comp); fclose(f); return result; } int stbi_info_from_file(FILE f, int x, int y, int comp) { int r; stbi s; long pos = ftell(f); start_file(&s, f); r = stbi_info_main(&s,x,y,comp); fseek(f,pos,SEEK_SET); return r; } #endif // !STBI_NO_STDIO int stbi_info_from_memory(stbi_uc const buffer, int len, int x, int y, int comp) { stbi s; start_mem(&s,buffer,len); return stbi_info_main(&s,x,y,comp); } int stbi_info_from_callbacks(stbi_io_callbacks const c, void user, int x, int y, int comp) { stbi s; start_callbacks(&s, (stbi_io_callbacks ) c, user); return stbi_info_main(&s,x,y,comp); } #endif // STBI_HEADER_FILE_ONLY / revision history: 1.33 (2011-07-14) make stbi_is_hdr work in STBI_NO_HDR (as specified), minor compiler-friendly improvements 1.32 (2011-07-13) support for "info" function for all supported filetypes (SpartanJ) 1.31 (2011-06-20) a few more leak fixes, bug in PNG handling (SpartanJ) 1.30 (2011-06-11) added ability to load files via callbacks to accomidate custom input streams (Ben Wenger) removed deprecated format-specific test/load functions removed support for installable file formats (stbi_loader) -- would have been broken for IO callbacks anyway error cases in bmp and tga give messages and don't leak (Raymond Barbiero, grisha) fix inefficiency in decoding 32-bit BMP (David Woo) 1.29 (2010-08-16) various warning fixes from Aurelien Pocheville 1.28 (2010-08-01) fix bug in GIF palette transparency (SpartanJ) 1.27 (2010-08-01) cast-to-uint8 to fix warnings 1.26 (2010-07-24) fix bug in file buffering for PNG reported by SpartanJ 1.25 (2010-07-17) refix trans_data warning (Won Chun) 1.24 (2010-07-12) perf improvements reading from files on platforms with lock-heavy fgetc() minor perf improvements for jpeg deprecated type-specific functions so we'll get feedback if they're needed attempt to fix trans_data warning (Won Chun) 1.23 fixed bug in iPhone support 1.22 (2010-07-10) removed image writing support stbi_info support from Jetro Lauha GIF support from Jean-Marc Lienher iPhone PNG-extensions from James Brown warning-fixes from Nicolas Schulz and Janez Zemva (i.e. Janez (U+017D)emva) 1.21 fix use of 'uint8' in header (reported by jon blow) 1.20 added support for Softimage PIC, by Tom Seddon 1.19 bug in interlaced PNG corruption check (found by ryg) 1.18 2008-08-02 fix a threading bug (local mutable static) 1.17 support interlaced PNG 1.16 major bugfix - convert_format converted one too many pixels 1.15 initialize some fields for thread safety 1.14 fix threadsafe conversion bug header-file-only version (#define STBI_HEADER_FILE_ONLY before including) 1.13 threadsafe 1.12 const qualifiers in the API 1.11 Support installable IDCT, colorspace conversion routines 1.10 Fixes for 64-bit (don't use "unsigned long") optimized upsampling by Fabian "ryg" Giesen 1.09 Fix format-conversion for PSD code (bad global variables!) 1.08 Thatcher Ulrich's PSD code integrated by Nicolas Schulz 1.07 attempt to fix C++ warning/errors again 1.06 attempt to fix C++ warning/errors again 1.05 fix TGA loading to return correct comp and use good luminance calc 1.04 default float alpha is 1, not 255; use 'void ' for stbi_image_free 1.03 bugfixes to STBI_NO_STDIO, STBI_NO_HDR 1.02 support for (subset of) HDR files, float interface for preferred access to them 1.01 fix bug: possible bug in handling right-side up bmps... not sure fix bug: the stbi_bmp_load() and stbi_tga_load() functions didn't work at all 1.00 interface to zlib that skips zlib header 0.99 correct handling of alpha in palette 0.98 TGA loader by lonesock; dynamically add loaders (untested) 0.97 jpeg errors on too large a file; also catch another malloc failure 0.96 fix detection of invalid v value - particleman@mollyrocket forum 0.95 during header scan, seek to markers in case of padding 0.94 STBI_NO_STDIO to disable stdio usage; rename all #defines the same 0.93 handle jpegtran output; verbose errors 0.92 read 4,8,16,24,32-bit BMP files of several formats 0.91 output 24-bit Windows 3.0 BMP files 0.90 fix a few more warnings; bump version number to approach 1.0 0.61 bugfixes due to Marc LeBlanc, Christopher Lloyd 0.60 fix compiling as c++ 0.59 fix warnings: merge Dave Moore's -Wall fixes 0.58 fix bug: zlib uncompressed mode len/nlen was wrong endian 0.57 fix bug: jpg last huffman symbol before marker was >9 bits but less than 16 available 0.56 fix bug: zlib uncompressed mode len vs. nlen 0.55 fix bug: restart_interval not initialized to 0 0.54 allow NULL for 'int comp' 0.53 fix bug in png 3->4; speedup png decoding 0.52 png handles req_comp=3,4 directly; minor cleanup; jpeg comments 0.51 obey req_comp requests, 1-component jpegs return as 1-component, on 'test' only check type, not whether we support this variant 0.50 first released version /
the_stack_data/859238.c	#include<stdio.h> int main ( void ) { int n[10] = { 32, 27, 64, 18, 95, 14, 90, 70, 60, 37 }; int i; printf("%s%13s\n", "Elemento", "valor"); for(i = 0; i < 10; i++) { printf("%7d%13d\n", i, n[i]); } }
the_stack_data/44755.c	/* fips/ecdsa/fips_ecdsavs.c / / Written by Dr Stephen N Henson ([email protected]) for the OpenSSL * project. / / ==================================================================== * Copyright (c) 2011 The OpenSSL Project. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * 3. All advertising materials mentioning features or use of this * software must display the following acknowledgment: * "This product includes software developed by the OpenSSL Project * for use in the OpenSSL Toolkit. (http://www.OpenSSL.org/)" * * 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to * endorse or promote products derived from this software without * prior written permission. For written permission, please contact * [email protected]. * * 5. Products derived from this software may not be called "OpenSSL" * nor may "OpenSSL" appear in their names without prior written * permission of the OpenSSL Project. * * 6. Redistributions of any form whatsoever must retain the following * acknowledgment: * "This product includes software developed by the OpenSSL Project * for use in the OpenSSL Toolkit (http://www.OpenSSL.org/)" * * THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OpenSSL PROJECT OR * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. * ==================================================================== / #define OPENSSL_FIPSAPI #include <openssl/opensslconf.h> #include <stdio.h> #ifndef OPENSSL_FIPS int main(int argc, char argv) { printf("No FIPS ECDSA support\n"); return (0); } #else # include <string.h> # include <ctype.h> # include <openssl/err.h> # include <openssl/bn.h> # include <openssl/ecdsa.h> # include <openssl/evp.h> # include "fips_utl.h" # include <openssl/objects.h> static int elookup_curve(char in, char curve_name, const EVP_MD pmd) { char cname, p; / Copy buffer as we will change it / strcpy(curve_name, in); cname = curve_name + 1; p = strchr(cname, ']'); if (!p) { fprintf(stderr, "Parse error: missing ]\n"); return NID_undef; } p = 0; p = strchr(cname, ','); if (p) { if (!pmd) { fprintf(stderr, "Parse error: unexpected digest\n"); return NID_undef; } p = 0; p++; if (!strcmp(p, "SHA-1")) pmd = EVP_sha1(); else if (!strcmp(p, "SHA-224")) pmd = EVP_sha224(); else if (!strcmp(p, "SHA-256")) pmd = EVP_sha256(); else if (!strcmp(p, "SHA-384")) pmd = EVP_sha384(); else if (!strcmp(p, "SHA-512")) pmd = EVP_sha512(); else { fprintf(stderr, "Unknown digest %s\n", p); return NID_undef; } } else if (pmd) pmd = EVP_sha1(); if (!strcmp(cname, "B-163")) return NID_sect163r2; if (!strcmp(cname, "B-233")) return NID_sect233r1; if (!strcmp(cname, "B-283")) return NID_sect283r1; if (!strcmp(cname, "B-409")) return NID_sect409r1; if (!strcmp(cname, "B-571")) return NID_sect571r1; if (!strcmp(cname, "K-163")) return NID_sect163k1; if (!strcmp(cname, "K-233")) return NID_sect233k1; if (!strcmp(cname, "K-283")) return NID_sect283k1; if (!strcmp(cname, "K-409")) return NID_sect409k1; if (!strcmp(cname, "K-571")) return NID_sect571k1; if (!strcmp(cname, "P-192")) return NID_X9_62_prime192v1; if (!strcmp(cname, "P-224")) return NID_secp224r1; if (!strcmp(cname, "P-256")) return NID_X9_62_prime256v1; if (!strcmp(cname, "P-384")) return NID_secp384r1; if (!strcmp(cname, "P-521")) return NID_secp521r1; fprintf(stderr, "Unknown Curve name %s\n", cname); return NID_undef; } static int ec_get_pubkey(EC_KEY key, BIGNUM x, BIGNUM y) { const EC_POINT pt; const EC_GROUP grp; const EC_METHOD meth; int rv; BN_CTX ctx; ctx = BN_CTX_new(); if (!ctx) return 0; grp = EC_KEY_get0_group(key); pt = EC_KEY_get0_public_key(key); meth = EC_GROUP_method_of(grp); if (EC_METHOD_get_field_type(meth) == NID_X9_62_prime_field) rv = EC_POINT_get_affine_coordinates_GFp(grp, pt, x, y, ctx); else # ifdef OPENSSL_NO_EC2M { fprintf(stderr, "ERROR: GF2m not supported\n"); exit(1); } # else rv = EC_POINT_get_affine_coordinates_GF2m(grp, pt, x, y, ctx); # endif BN_CTX_free(ctx); return rv; } static int KeyPair(FILE in, FILE out) { char buf[2048], lbuf[2048]; char keyword, value; int curve_nid = NID_undef; int i, count; BIGNUM Qx = NULL, Qy = NULL; const BIGNUM d = NULL; EC_KEY key = NULL; Qx = BN_new(); Qy = BN_new(); while (fgets(buf, sizeof buf, in) != NULL) { if (buf == '[' && buf[2] == '-') { if (buf[2] == '-') curve_nid = elookup_curve(buf, lbuf, NULL); fputs(buf, out); continue; } if (!parse_line(&keyword, &value, lbuf, buf)) { fputs(buf, out); continue; } if (!strcmp(keyword, "N")) { count = atoi(value); for (i = 0; i < count; i++) { key = EC_KEY_new_by_curve_name(curve_nid); if (!EC_KEY_generate_key(key)) { fprintf(stderr, "Error generating key\n"); return 0; } if (!ec_get_pubkey(key, Qx, Qy)) { fprintf(stderr, "Error getting public key\n"); return 0; } d = EC_KEY_get0_private_key(key); do_bn_print_name(out, "d", d); do_bn_print_name(out, "Qx", Qx); do_bn_print_name(out, "Qy", Qy); fputs(RESP_EOL, out); EC_KEY_free(key); } } } BN_free(Qx); BN_free(Qy); return 1; } static int PKV(FILE in, FILE out) { char buf[2048], lbuf[2048]; char keyword, value; int curve_nid = NID_undef; BIGNUM Qx = NULL, Qy = NULL; EC_KEY key = NULL; while (fgets(buf, sizeof buf, in) != NULL) { fputs(buf, out); if (buf == '[' && buf[2] == '-') { curve_nid = elookup_curve(buf, lbuf, NULL); if (curve_nid == NID_undef) return 0; } if (!parse_line(&keyword, &value, lbuf, buf)) continue; if (!strcmp(keyword, "Qx")) { if (!do_hex2bn(&Qx, value)) { fprintf(stderr, "Invalid Qx value\n"); return 0; } } if (!strcmp(keyword, "Qy")) { int rv; if (!do_hex2bn(&Qy, value)) { fprintf(stderr, "Invalid Qy value\n"); return 0; } key = EC_KEY_new_by_curve_name(curve_nid); no_err = 1; rv = EC_KEY_set_public_key_affine_coordinates(key, Qx, Qy); no_err = 0; EC_KEY_free(key); fprintf(out, "Result = %s" RESP_EOL, rv ? "P" : "F"); } } BN_free(Qx); BN_free(Qy); return 1; } static int SigGen(FILE in, FILE out) { char buf[2048], lbuf[2048]; char keyword, value; unsigned char msg; int curve_nid = NID_undef; long mlen; BIGNUM Qx = NULL, Qy = NULL; EC_KEY key = NULL; ECDSA_SIG sig = NULL; const EVP_MD digest = NULL; Qx = BN_new(); Qy = BN_new(); while (fgets(buf, sizeof buf, in) != NULL) { fputs(buf, out); if (buf == '[') { curve_nid = elookup_curve(buf, lbuf, &digest); if (curve_nid == NID_undef) return 0; } if (!parse_line(&keyword, &value, lbuf, buf)) continue; if (!strcmp(keyword, "Msg")) { msg = hex2bin_m(value, &mlen); if (!msg) { fprintf(stderr, "Invalid Message\n"); return 0; } key = EC_KEY_new_by_curve_name(curve_nid); if (!EC_KEY_generate_key(key)) { fprintf(stderr, "Error generating key\n"); return 0; } if (!ec_get_pubkey(key, Qx, Qy)) { fprintf(stderr, "Error getting public key\n"); return 0; } sig = FIPS_ecdsa_sign(key, msg, mlen, digest); if (!sig) { fprintf(stderr, "Error signing message\n"); return 0; } do_bn_print_name(out, "Qx", Qx); do_bn_print_name(out, "Qy", Qy); do_bn_print_name(out, "R", sig->r); do_bn_print_name(out, "S", sig->s); EC_KEY_free(key); OPENSSL_free(msg); FIPS_ecdsa_sig_free(sig); } } BN_free(Qx); BN_free(Qy); return 1; } static int SigVer(FILE in, FILE out) { char buf[2048], lbuf[2048]; char keyword, value; unsigned char msg = NULL; int curve_nid = NID_undef; long mlen; BIGNUM Qx = NULL, Qy = NULL; EC_KEY key = NULL; ECDSA_SIG sg, sig = &sg; const EVP_MD digest = NULL; sig->r = NULL; sig->s = NULL; while (fgets(buf, sizeof buf, in) != NULL) { fputs(buf, out); if (buf == '[') { curve_nid = elookup_curve(buf, lbuf, &digest); if (curve_nid == NID_undef) return 0; } if (!parse_line(&keyword, &value, lbuf, buf)) continue; if (!strcmp(keyword, "Msg")) { msg = hex2bin_m(value, &mlen); if (!msg) { fprintf(stderr, "Invalid Message\n"); return 0; } } if (!strcmp(keyword, "Qx")) { if (!do_hex2bn(&Qx, value)) { fprintf(stderr, "Invalid Qx value\n"); return 0; } } if (!strcmp(keyword, "Qy")) { if (!do_hex2bn(&Qy, value)) { fprintf(stderr, "Invalid Qy value\n"); return 0; } } if (!strcmp(keyword, "R")) { if (!do_hex2bn(&sig->r, value)) { fprintf(stderr, "Invalid R value\n"); return 0; } } if (!strcmp(keyword, "S")) { int rv; if (!do_hex2bn(&sig->s, value)) { fprintf(stderr, "Invalid S value\n"); return 0; } key = EC_KEY_new_by_curve_name(curve_nid); rv = EC_KEY_set_public_key_affine_coordinates(key, Qx, Qy); if (rv != 1) { fprintf(stderr, "Error setting public key\n"); return 0; } no_err = 1; rv = FIPS_ecdsa_verify(key, msg, mlen, digest, sig); EC_KEY_free(key); if (msg) OPENSSL_free(msg); no_err = 0; fprintf(out, "Result = %s" RESP_EOL, rv ? "P" : "F"); } } if (sig->r) BN_free(sig->r); if (sig->s) BN_free(sig->s); if (Qx) BN_free(Qx); if (Qy) BN_free(Qy); return 1; } # ifdef FIPS_ALGVS int fips_ecdsavs_main(int argc, char argv) # else int main(int argc, char argv) # endif { FILE in = NULL, out = NULL; const char cmd = argv[1]; int rv = 0; fips_algtest_init(); if (argc == 4) { in = fopen(argv[2], "r"); if (!in) { fprintf(stderr, "Error opening input file\n"); exit(1); } out = fopen(argv[3], "w"); if (!out) { fprintf(stderr, "Error opening output file\n"); exit(1); } } else if (argc == 2) { in = stdin; out = stdout; } if (!cmd) { fprintf(stderr, "fips_ecdsavs [KeyPair\|PKV\|SigGen\|SigVer]\n"); return 1; } if (!strcmp(cmd, "KeyPair")) rv = KeyPair(in, out); else if (!strcmp(cmd, "PKV")) rv = PKV(in, out); else if (!strcmp(cmd, "SigVer")) rv = SigVer(in, out); else if (!strcmp(cmd, "SigGen")) rv = SigGen(in, out); else { fprintf(stderr, "Unknown command %s\n", cmd); return 1; } if (argc == 4) { fclose(in); fclose(out); } if (rv <= 0) { fprintf(stderr, "Error running %s\n", cmd); return 1; } return 0; } #endif
the_stack_data/63013.c	#include <stdlib.h> struct account { int balance; }; int main() //@ requires true; //@ ensures true; { struct account *myAccount = malloc(sizeof(struct account)); //if (myAccount == 0) { abort(); } myAccount->balance = 5; // Error: NULL dereference free(myAccount); return 0; }
the_stack_data/83555.c	#include <stdlib.h> extern void xmalloc(size_t); / LEVEL 1 BLAS / extern double ddot_(int , double , int , double , int ); extern double dnrm2_(int , double , int ); / LEVEL 2 BLAS / extern int dsymv_(char , int , double , double , int , double , int , double , double , int ); / MINPACK 2 / extern void dbreakpt(int, double , double , double , double , int , double , double ); extern void dgpstep(int, double , double , double , double, double , double ); void dcauchy(int n, double x, double xl, double xu, double A, double g, double delta, double alpha, double s) { /* c ********** c c Subroutine dcauchy c c This subroutine computes a Cauchy step that satisfies a trust c region constraint and a sufficient decrease condition. c c The Cauchy step is computed for the quadratic c c q(s) = 0.5s'As + g's, c c where A is a symmetric matrix , and g is a vector. Given a c parameter alpha, the Cauchy step is c c s[alpha] = P[x - alphag] - x, c c with P the projection onto the n-dimensional interval [xl,xu]. c The Cauchy step satisfies the trust region constraint and the c sufficient decrease condition c c \|\| s \|\| <= delta, q(s) <= mu_0(g's), c c where mu_0 is a constant in (0,1). c c parameters: c c n is an integer variable. c On entry n is the number of variables. c On exit n is unchanged. c c x is a double precision array of dimension n. c On entry x specifies the vector x. c On exit x is unchanged. c c xl is a double precision array of dimension n. c On entry xl is the vector of lower bounds. c On exit xl is unchanged. c c xu is a double precision array of dimension n. c On entry xu is the vector of upper bounds. c On exit xu is unchanged. c c A is a double precision array of dimension nn. c On entry A specifies the matrix A. c On exit A is unchanged. c c g is a double precision array of dimension n. c On entry g specifies the gradient g. c On exit g is unchanged. c c delta is a double precision variable. c On entry delta is the trust region size. c On exit delta is unchanged. c c alpha is a double precision variable. c On entry alpha is the current estimate of the step. c On exit alpha defines the Cauchy step s[alpha]. c c s is a double precision array of dimension n. c On entry s need not be specified. c On exit s is the Cauchy step s[alpha]. c c ********** / double one = 1, zero = 0; / Constant that defines sufficient decrease. Interpolation and extrapolation factors. / double mu0 = 0.01, interpf = 0.1, extrapf = 10; int search, interp, nbrpt, nsteps = 1, i, inc = 1; double alphas, brptmax, brptmin, gts, q; double wa = (double ) xmalloc(sizeof(double)n); /* Find the minimal and maximal break-point on x - alphag. / for (i=0;i<n;i++) wa[i] = -g[i]; dbreakpt(n, x, xl, xu, wa, &nbrpt, &brptmin, &brptmax); /* Evaluate the initial alpha and decide if the algorithm must interpolate or extrapolate. / dgpstep(n, x, xl, xu, -(alpha), g, s); if (dnrm2_(&n, s, &inc) > delta) interp = 1; else { dsymv_("U", &n, &one, A, &n, s, &inc, &zero, wa, &inc); gts = ddot_(&n, g, &inc, s, &inc); q = 0.5ddot_(&n, s, &inc, wa, &inc) + gts; interp = q >= mu0gts ? 1 : 0; } /* Either interpolate or extrapolate to find a successful step. / if (interp) { / Reduce alpha until a successful step is found. / search = 1; while (search) { / This is a crude interpolation procedure that will be replaced in future versions of the code. / nsteps++; (alpha) = interpf; dgpstep(n, x, xl, xu, -(alpha), g, s); if (dnrm2_(&n, s, &inc) <= delta) { dsymv_("U", &n, &one, A, &n, s, &inc, &zero, wa, &inc); gts = ddot_(&n, g, &inc, s, &inc); q = 0.5ddot_(&n, s, &inc, wa, &inc) + gts; search = q > mu0gts ? 1 : 0; } } } else { search = 1; alphas = alpha; / Increase alpha until a successful step is found. / while (search && (alpha) <= brptmax) { /* This is a crude extrapolation procedure that will be replaced in future versions of the code. / nsteps++; alphas = alpha; (alpha) = extrapf; dgpstep(n, x, xl, xu, -(alpha), g, s); if (dnrm2_(&n, s, &inc) <= delta) { dsymv_("U", &n, &one, A, &n, s, &inc, &zero, wa, &inc); gts = ddot_(&n, g, &inc, s, &inc); q = 0.5ddot_(&n, s, &inc, wa, &inc) + gts; search = q < mu0gts ? 1 : 0; } else search = 0; } alpha = alphas; dgpstep(n, x, xl, xu, -(*alpha), g, s); } free(wa); }
the_stack_data/73575986.c	#include <stdio.h> int ertek = 0; int add(int x, int y) { return ertek + x + y; } int main() { printf("%d\n", add(2, 2)); printf("%d\n", add(2, 2)); ertek = 1; printf("%d\n", add(2, 2)); printf("%d\n", add(2, 2)); return 0; }
the_stack_data/57951631.c	#include <stdio.h> main() { int i, j ; i = 127 ; j = i + 1 ; printf("%d\n",j) ; } /* Tentative pas réussie de comprendre des aspects des limites liées à l'encodage de l'information. */
the_stack_data/772390.c	unsigned int alarm(unsigned int seconds); int Ualarm(int usecs){ if( 1 <= usecs/1000000 ) return alarm(usecs/1000000); else return alarm(1); }
the_stack_data/70451336.c	#include<stdio.h> int main(){ int c, newline=0, tabs=0, blanks=0; while((c=getchar())!=EOF){ if(c=='\n'){ newline++; } if(c=='\t'){ tabs++; } if(c==' '){ blanks++; } } printf("\nThe number of new lines is: %d \nThe number of tabs is: %d \nThe number of blanks is: %d \n\n",newline,tabs,blanks); return 0; }
the_stack_data/15895.c	// RUN: %llvmgcc %s -emit-llvm %O0opt -c -o %t.bc // RUN: rm -rf %t.klee-out %t.klee-out-tmp // RUN: %gentmp %t.klee-out-tmp // RUN: %klee --output-dir=%t.klee-out --run-in=%t.klee-out-tmp --search=random-state --libc=uclibc --posix-runtime --exit-on-error %t.bc --sym-files 1 1 > %t1.log // RUN: %llvmgcc -D_FILE_OFFSET_BITS=64 %s -emit-llvm %O0opt -c -o %t.bc // RUN: rm -rf %t.klee-out %t.klee-out-tmp // RUN: %gentmp %t.klee-out-tmp // RUN: %klee --output-dir=%t.klee-out --run-in=%t.klee-out-tmp --search=random-state --libc=uclibc --posix-runtime --exit-on-error %t.bc --sym-files 1 1 > %t2.log // RUN: sort %t1.log %t2.log \| uniq -c > %t3.log // RUN: grep -q "4 COUNT" %t3.log // For this test really to work as intended it needs to be run in a // directory large enough to cause uclibc to do multiple getdents // calls (otherwise uclibc will handle the seeks itself). We should // create a bunch of files or something. // // It is even more important for this test because it requires the // directory not to change while running, which might be a lot to // demand of /tmp. #define _LARGEFILE64_SOURCE #include <assert.h> #include <stdio.h> #include <stdlib.h> #include <dirent.h> #include <sys/stat.h> #include <errno.h> int main(int argc, char *argv) { struct stat s; int res = stat("A", &s); int hasA = !(res!=0 && errno==ENOENT); //printf("sizeof(dirent) = %d\n", sizeof(struct dirent)); //printf("sizeof(dirent64) = %d\n", sizeof(struct dirent64)); //printf("\"A\" exists: %d\n", hasA); DIR d = opendir("."); assert(d); int snum = 1; if (klee_range(0,2,"range")) { snum = 2; printf("state%d\n", snum); } int foundA = 0, count = 0; struct dirent *de; while ((de = readdir(d))) { // printf("state%d: dirent: %s\n", snum, de->d_name); if (strcmp(de->d_name, "A") == 0) foundA = 1; count++; } closedir(d); //printf("found A: %d\n", foundA); // Ensure atomic write char buf[64]; sprintf(buf, "COUNT: %d\n", count); fputs(buf, stdout); assert(hasA == foundA); return 0; }
the_stack_data/193893015.c	/* This testcase is part of GDB, the GNU debugger. Copyright 2009, 2010, 2011 Free Software Foundation, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. / static int watchee; int main (void) { volatile int dummy; / Stub lines are present as no breakpoints/watchpoint gets hit if current PC already stays on the line PC while entering "step"/"continue". / dummy = 0; / Stub to catch WATCHEE access after runto_main. / dummy = watchee; dummy = 1; / Stub to catch break-at-exit after WATCHEE has been hit. / dummy = 2; / break-at-exit */ return 0; }
the_stack_data/54824341.c	#include <stdio.h> int main(void){ printf("Hello, world\n"); }
the_stack_data/2496.c	#include <stdio.h> #include <string.h> #include <stdlib.h> #include <unistd.h> int main() { unsigned int i; char p; free(malloc(1)); int k; k = (int )malloc(10000 sizeof(int)); printf("Alloc\n"); for (i = 4000; i < 5000; i++) { p = malloc(i); memset(p, 'A', i); k[i] = (unsigned int )p; } printf("Freeing\n"); for (i = 4000; i < 5000; i++) { free((void *)k[i]); } free(k); printf("OK\n"); return 0; }
the_stack_data/34512820.c	/* ************************************************************************** / / / / ::: :::::::: / / ft_putchar.c :+: :+: :+: / / +:+ +:+ +:+ / / By: mghazari <[email protected]> +#+ +:+ +#+ / / +#+#+#+#+#+ +#+ / / Created: 2016/09/07 18:06:40 by mghazari #+# #+# / / Updated: 2016/09/07 18:07:47 by mghazari ### ########.fr / / / / ************************************************************************** */ #include <unistd.h> int ft_putchar(char c) { write(1, &c, 1); return (0); }
the_stack_data/152020.c	// // Created by fengyc on 2017/4/28. // #include <stdio.h> int main(void) { char ch; while ((ch = getchar()) != '#') { putchar(ch); } return 0; }
the_stack_data/30280.c	// INFO: rcu detected stall in sched_setattr // https://syzkaller.appspot.com/bug?id=f37492de59263a4007bbf76ff9c6147f5ac5050e // status:open // autogenerated by syzkaller (https://github.com/google/syzkaller) #define _GNU_SOURCE #include <dirent.h> #include <endian.h> #include <errno.h> #include <fcntl.h> #include <signal.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/prctl.h> #include <sys/stat.h> #include <sys/syscall.h> #include <sys/types.h> #include <sys/wait.h> #include <time.h> #include <unistd.h> unsigned long long procid; static void sleep_ms(uint64_t ms) { usleep(ms * 1000); } static uint64_t current_time_ms(void) { struct timespec ts; if (clock_gettime(CLOCK_MONOTONIC, &ts)) exit(1); return (uint64_t)ts.tv_sec * 1000 + (uint64_t)ts.tv_nsec / 1000000; } static void kill_and_wait(int pid, int* status) { kill(-pid, SIGKILL); kill(pid, SIGKILL); int i; for (i = 0; i < 100; i++) { if (waitpid(-1, status, WNOHANG \| __WALL) == pid) return; usleep(1000); } DIR* dir = opendir("/sys/fs/fuse/connections"); if (dir) { for (;;) { struct dirent* ent = readdir(dir); if (!ent) break; if (strcmp(ent->d_name, ".") == 0 \|\| strcmp(ent->d_name, "..") == 0) continue; char abort[300]; snprintf(abort, sizeof(abort), "/sys/fs/fuse/connections/%s/abort", ent->d_name); int fd = open(abort, O_WRONLY); if (fd == -1) { continue; } if (write(fd, abort, 1) < 0) { } close(fd); } closedir(dir); } else { } while (waitpid(-1, status, __WALL) != pid) { } } #define SYZ_HAVE_SETUP_TEST 1 static void setup_test() { prctl(PR_SET_PDEATHSIG, SIGKILL, 0, 0, 0); setpgrp(); } #define SYZ_HAVE_RESET_TEST 1 static void reset_test() { int fd; for (fd = 3; fd < 30; fd++) close(fd); } static void execute_one(void); #define WAIT_FLAGS __WALL static void loop(void) { int iter; for (iter = 0;; iter++) { int pid = fork(); if (pid < 0) exit(1); if (pid == 0) { setup_test(); execute_one(); reset_test(); exit(0); } int status = 0; uint64_t start = current_time_ms(); for (;;) { if (waitpid(-1, &status, WNOHANG \| WAIT_FLAGS) == pid) break; sleep_ms(1); if (current_time_ms() - start < 5 * 1000) continue; kill_and_wait(pid, &status); break; } } } #ifndef __NR_sched_setattr #define __NR_sched_setattr 314 #endif void execute_one(void) { (uint32_t)0x20000000 = 0; (uint32_t)0x20000004 = 6; (uint64_t)0x20000008 = 0; (uint32_t)0x20000010 = 0; (uint32_t)0x20000014 = 0; (uint64_t)0x20000018 = 0x8000000009917; (uint64_t)0x20000020 = 0x400000000000fffd; (uint64_t)0x20000028 = 0; syscall(__NR_sched_setattr, 0, 0x20000000, 0); } int main(void) { syscall(__NR_mmap, 0x20000000, 0x1000000, 3, 0x32, -1, 0); for (procid = 0; procid < 6; procid++) { if (fork() == 0) { loop(); } } sleep(1000000); return 0; }
the_stack_data/138731.c	#include <fcntl.h> #include <stdbool.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> static bool cmov_test(char x, char y, size_t len) { register char * __rdi __asm__("rdi") = x; register char * __rsi __asm__("rsi") = y; register size_t __rcx __asm__("rcx") = len; register long __rax __asm__("rax"); __asm__ __volatile__( "mov $0x1, %%rax\n" "mov $0x0, %%r8\n" "1:\n" "mov (%%rsi), %%bl\n" "mov (%%rdi), %%dl\n" "cmp %%bl, %%dl\n" "cmovne %%r8, %%rax\n" "inc %%rsi\n" "inc %%rdi\n" "dec %%rcx\n" "jnz 1b\n" : "=r"(__rax) : "r"(__rdi), "r"(__rsi) : "r8", "bl", "dl", "memory"); return __rax; } void LLVMFuzzerTestOneInput(char buf, int len) { char match[] = "CBAABC"; if (len > sizeof(match)) { return; } if (cmov_test(buf, match, sizeof(buf)) != 0) { printf("Puzzle solved, congrats!\n"); abort(); } } int main(int argc, char argv) { char file; int fd = -1; off_t len; char * buf = NULL; size_t n_read; int result = -1; if (argc != 2) { return 1; } do { file = argv[1]; dprintf(STDERR_FILENO, "Running: %s\n", file); fd = open(file, O_RDONLY); if (fd < 0) { perror("open"); break; } len = lseek(fd, 0, SEEK_END); if (len < 0) { perror("lseek (SEEK_END)"); break; } if (lseek(fd, 0, SEEK_SET) != 0) { perror("lseek (SEEK_SET)"); break; } buf = (char *)malloc(len); if (buf == NULL) { perror("malloc"); break; } n_read = read(fd, buf, len); if (n_read != len) { perror("read"); break; } dprintf(STDERR_FILENO, "Running: %s: (%zd bytes)\n", file, n_read); LLVMFuzzerTestOneInput(buf, len); dprintf(STDERR_FILENO, "Done: %s: (%zd bytes)\n", file, n_read); result = 0; } while (false); if (buf != NULL) { free(buf); } if (fd != -1) { close(fd); } return result; }
the_stack_data/271516.c	#include <stdio.h> #include <time.h> #define STRMEM 4096 * 96 #define CONMEM 1000 #define ITEMS 128 typedef struct Block { int len; char data[STRMEM]; } Block; typedef struct TimeLog { int year, week, hours; char activity, project; } TimeLog; // Content takes multiple terms typedef struct Week { int len; TimeLog timelog[CONMEM]; } Week; typedef struct Year { int len; Week week[CONMEM]; } Year; #pragma mark - Helpers / clang-format off / int cisp(char c) { return c == ' ' \|\| c == '\t' \|\| c == '\n' \|\| c == '\r'; } / char is space / int cial(char c) { return (c >= 'a' && c <= 'z') \|\| (c >= 'A' && c <= 'Z'); } / char is alpha / int cinu(char c) { return c >= '0' && c <= '9'; } / char is num / char clca(char c) { return c >= 'A' && c <= 'Z' ? c + ('a' - 'A') : c; } / char to lowercase / char cuca(char c) { return c >= 'a' && c <= 'z' ? c - ('a' - 'A') : c; } / char to uppercase / int spad(char s, char c) { int i = 0; while(s[i] && s[i] == c && s[++i]) { ; } return i; } /* string count padding / int slen(char s) { int i = 0; while(s[i] && s[++i]) { ; } return i; } /* string length / char st__(char s, char (fn)(char)) { int i = 0; char c; while((c = s[i])) s[i++] = fn(c); return s; } char stuc(char s) { return st__(s, cuca); } /* string to uppercase / char stlc(char s) { return st__(s, clca); } / string to lowercase / char scpy(char src, char dst, int len) { int i = 0; while((dst[i] = src[i]) && i < len - 2) i++; dst[i + 1] = '\0'; return dst; } /* string copy / int scmp(char a, char b) { int i = 0; while(a[i] == b[i]) if(!a[i++]) return 1; return 0; } / string compare / int sint(char s, int len) { int n = 0, i = 0; while(s[i] && i < len && (s[i] >= '0' && s[i] <= '9')) n = n * 10 + (s[i++] - '0'); return n; } /* string to num / char scsw(char s, char a, char b) { int i = 0; char c; while((c = s[i])) s[i++] = c == a ? b : c; return s; } / string char swap / int sian(char s) { int i = 0; char c; while((c = s[i++])) if(!cial(c) && !cinu(c) && !cisp(c)) return 0; return 1; } /* string is alphanum / int scin(char s, char c) { int i = 0; while(s[i]) if(s[i++] == c) return i - 1; return -1; } /* string char index / char scat(char dst, const char src) { char ptr = dst + slen(dst); while(src) ptr++ = src++; ptr = '\0'; return dst; } / string cat / int ssin(char s, char ss) { int a = 0, b = 0; while(s[a]) { if(s[a] == ss[b]) { if(!ss[b + 1]) return a - b; b++; } else b = 0; a++; } return -1; } / string substring index / char strm(char s) { char end; while(cisp(s)) s++; if(s == 0) return s; end = s + slen(s) - 1; while(end > s && cisp(end)) end--; end[1] = '\0'; return s; } / string trim / int surl(char s) { return ssin(s, "://") >= 0 \|\| ssin(s, "../") >= 0; } /* string is url / char sstr(char src, char dst, int from, int to) { int i; char a = (char )src + from, b = (char )dst; for(i = 0; i < to; i++) b[i] = a[i]; dst[to] = '\0'; return dst; } /* String substring / int afnd(char src[], int len, char val) { int i; for(i = 0; i < len; i++) if(scmp(src[i], val)) return i; return -1; } / Array find string / char ccat(char dst, char c) { int len = slen(dst); dst[len] = c; dst[len + 1] = '\0'; return dst; } / concatenate ? / / clang-format on / #pragma mark - Core int error(char msg, char val) { printf("Error: %s(%s)\n", msg, val); return 0; } int errorid(char msg, char val, int id) { printf("Error: %s:%d(%s)\n", msg, id, val); return 0; } #pragma mark - Time float clockoffset(clock_t start) { return (((double)(clock() - start)) / CLOCKS_PER_SEC) 1000; } #pragma mark - Term TimeLog * makeTimeLog(TimeLog t, int year) { t->year = year; t->year = 0; t->hours = 0; t->activity = 0; t->project = 0; return t; } int parse_content(FILE fp, Block block, Week wee) { int key_len, val_len, len, count = 0, catch_body = 0, catch_link = 0, skip_body = 0, init_size = 2000; char line[1024], buf[1024]; TimeLog w = &wee->timelog[wee->len]; printf("\n"); while(fgets(line, 1024, fp)) { strm(line); len = slen(line); count++; if(wee->len >= CONMEM) return errorid("Increase memory", "Content", wee->len); if(len > 1024) return errorid("Line is too long", line, len); char delim = " "; char ptr; ptr = strtok(line, delim); printf("%s\n", line); int i; for(i = 0; ptr != NULL; i++) { // printf("Adding line: %s \n", ptr); if(i == 0) { int year = sint(ptr, 4); w = makeTimeLog(&wee->timelog[wee->len++], year); // printf("%d\n", w->year); // printf("%ls\n", ptr); } else { ptr = strtok(NULL, delim); if(i == 1) { // w->week = push(block, ptr); // printf("%d\n", w->week); // printf("%d\n", ptr); } } } } printf(":%d ", count); return 1; } parse(Block block, Week wee) { FILE *fcon = fopen("database/time.kaku", "r"); printf("Parsing \| "); printf("Time"); if(!fcon \|\| !parse_content(fcon, block, wee)) { fclose(fcon); return error("Parsing", "time"); } fclose(fcon); return 1; } Block block; Week all_weeks; clock_t start; int main(void) { puts(""); start = clock(); if(!parse(&block, &all_weeks)) return error("Failure", "Parsing"); printf("[%.2fms]\n", clockoffset(start)); return 0; }
the_stack_data/31108.c	/----------------------------------------------/ /PROGRAM Peg Solitaire: / /* Peg solitaire is a traditional game,played / / with marbles(O) sat on wooden board.The pegs / / can take another peg by jumping it going up, / / down,left or right. / /----------------------------------------------/ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <time.h> #define CSEC (double) (CLOCKS_PER_SEC) struct move{ char board; /board is stored as string/ int n; struct move parent; }; /store a board and information allowing its parent board to be identified / typedef struct move Move; struct save_pointer{ Move n; struct save_pointer next; }; / link board/ typedef struct save_pointer Save; struct tree{ struct tree left,right; }; /store characters from board / typedef struct tree Tree; Move AllocateMove(); Move read_board(FILE fp,int x, int y); /read board from file / void print_board(int x,int y,Move last_board); / print solution into file / int move_board(int x,int y,Move p); /* jump pegs and estimate possible ways / int compare_board(Move m,int x,int y,Tree tree); / find repeated boards / int completed_board(int x,int y,Move last_board); /estimate the final situation / void Addlist(Move m,Save endp); / add boards into link list / int count_board(int x,int y,Move p); /* count the number of pegs in the current boards/ Move create_newboard(Save parent_board,int x,int y); /create new board/ void onemove(int cond, int startpos, int pegpos, int gappos, int x, int y,Save temp, Save *endp); /onemove function is used to estimate the situation of pegs' movement/ int main(int argc,char argv) { FILE fp; Move head; clock_t c1,c2; int width,length,value=0; if (argc==2){ printf("--------------------------------------------------------------\n"); printf(" Welcome to the game of Peg Solitaire.\n"); printf(" You should enter the size of board which you want to play :)\n"); printf("--------------------------------------------------------------\n"); printf("Please enter the size of board(e.g. 5 5):"); value=scanf("%d %d",&width,&length); if (value!=2){ printf("Please enter the right form as e.g.!\n"); return 1; } if (width % 2==0){ printf("\nSorry, the size of board should be odd number!\n"); return 1; } c1=clock(); / test running time / if ((fp=fopen("input.txt","r"))==NULL){ /open a file for reading/ printf("\nCan not open file\n"); return 1; } head=read_board(fp,length,width); /read the initial board, size xy, from file fp/ move_board(length,width,head); /* jump pegs and estimate possible ways/ } else{ printf("\nYou gave a wrong form!Try e.g. pegboard input.txt test.txt!\n"); return 1; } c2=clock(); / test running time / printf("\nRunning time:%f\n",(double)(c2-c1)/CSEC); return 0; } /read the initial board from file and check whether it is valid or not/ Move read_board(FILE fp,int x,int y) { int i,j; char ch; Move p; i=0; j=0; p=AllocateMove(); p->board=(char ) malloc(xy); /read the board and check whether it is valid or not/ while (ch!=EOF && i<xy){ ch=fgetc(fp); if (ch=='\n'){ if (i % x!=0){ printf("\nSorry,the board is invalid!\nPlease check your board first.\n"); exit(1); } } if (ch=='O' \|\| ch=='.'){ (p->board+i)=ch; i++; } } if (i!=xy){ printf("\nThe width of board is wrong!\n"); exit(1); } fclose(fp); p->parent=NULL; return p; } / create spaces / Move AllocateMove() { Move p; p=(Move )malloc(sizeof(Move)); return p; } /* count the numbers of pegs in the current board / int count_board(int x,int y,Move p) { int count,i; count=0; for (i=0;i<xy;i++){ if ((p->board+i)=='O'){ count++; } } return count; } /This is the main function of Peg Solitaire / int move_board(int x,int y, Move p) { int i,j,search; Save temp,List,endp,end; List=(Save )malloc(sizeof(Save)); List->n=p; List->next=NULL; temp=List; end=List; endp=&end; search=0; while(temp!=NULL){ search=completed_board(x,y,temp->n); if (search==1){ print_board(x,y,temp->n); return 0; } else{ for (i=0;i<y;i++){ for (j=0;j<x;j++){ if ((temp->n->board+ix+j)=='O'){ onemove(i-2>=0,ix+j,(i-1)x+j,(i-2)x+j,x,y,temp,endp); onemove(i+2<y,ix+j,(i+1)x+j,(i+2)x+j,x,y,temp,endp); onemove(j-2>=0,ix+j,ix+j-1,ix+j-2,x,y,temp,endp); onemove(j+2<x,ix+j,ix+j+1,ix+j+2,x,y,temp,endp); } } } } temp=temp->next; } if (search!=1) printf("This Peg Solitaire has no solution!\n"); return 0; } void onemove(int cond, int startpos, int pegpos, int gappos, int x, int y,Save temp, Save *endp) { Move new_board; Tree tree; tree=(Tree )malloc(sizeof(Tree)); tree->left=NULL; tree->right=NULL; if (cond && (temp->n->board+pegpos)=='O' && (temp->n->board+gappos)=='.'){ new_board=create_newboard(temp,x,y); (new_board->board+gappos)='O'; (new_board->board+pegpos)='.'; (new_board->board+startpos)='.'; new_board->parent=temp->n; if (compare_board(new_board,x,y,tree)==1){ Addlist(new_board,endp); } } } /add generable and unrepeated board into the list/ void Addlist(Move m,Save *endp) { Save temp,new_list; temp=endp; new_list=(Save ) malloc(sizeof(Save)); new_list->n=m; temp->next=new_list; new_list->next=NULL; endp=new_list; } /create new board/ Move create_newboard(Save parent_board,int x,int y) { Move new_board; new_board=AllocateMove(); new_board->board=(char ) malloc(xy); strncpy(new_board->board,parent_board->n->board,xy); return new_board; } /* estimate that whether it finds the solution or not / int completed_board(int x,int y,Move last_board) { int i,n; n=0; for (i=0;i<xy;i++){ if ((last_board->board+i)=='O'){ n++; } } if (n==1 && (last_board->board+(xy-1)/2)=='O'){ /only one peg and also in the centre of board/ return 1; } else{ return 0; } } /compare characters on the board/ int compare_board(Move m,int x,int y,Tree tree) { int i; int compare=0; for (i=0;i<xy;i++){ if ((m->board+i)=='.'){ if (tree->left==NULL){ compare=1; tree->left=(Tree )malloc(sizeof(Tree)); tree->left->left=NULL; tree->left->right=NULL; } tree=tree->left; } else{ if (tree->right==NULL){ compare=1; tree->right=(Tree )malloc(sizeof(Tree)); tree->right->left=NULL; tree->right->right=NULL; } tree=tree->right; } } return compare; } /print board into a file/ void print_board(int x,int y,Move last_board) { int i,j,n; FILE output; n=-1; if ((output=fopen("output.txt","w"))==NULL){ /open a file for writing/ printf("Can not open file\n"); exit(0); } fprintf(output,"The solution of this Peg Solitaire is in reverse order,please look at it from the bottom:\n"); fprintf(output,"\n"); while (last_board!=NULL){ for (i=0;i<y;i++){ for (j=0;j<x;j++){ fprintf(output,"%2c",(last_board->board+ix+j)); } fprintf(output,"\n"); } fprintf(output,"\n"); n++; last_board=last_board->parent; } fprintf(output,"The total steps are %d.\n",n); fclose(output); }
the_stack_data/82949676.c	#include <stdio.h> int main(void){ int banco,year; float ahorro,interes,total; printf ("Cual es su monto que ahorro\n"); scanf("%f",&ahorro); if(ahorro > 0){ printf("Por cuantos años\n"); scanf("%d",&year); if (year < 1500){ interes = (3 * year)/100; //Agregarle el interes total = ahorro + interes; printf("Su saldo depues de %d años es de %2.f\n",year,total); }else{ printf("Su saldo depues de %d años es de %2.f\n",year,ahorro); } }else { printf("Cantidad no valida"); } return 0; }
the_stack_data/92324597.c	// // file: main.c // author: Michael Brockus // gmail: <[email protected]> // #include <stdio.h> #include <stdlib.h> // main is where program execution starts int main(void) { printf("%s", "Lets do some HackerRank stuff"); return EXIT_SUCCESS; } // end of function main
the_stack_data/546417.c	#include<stdio.h> #include<stdlib.h> //test int int_choice = 0; char char_choice[3]; char bi[3]; int setup_country() { system("clear"); printf("Country Setup Menu"); } int un() { system("clear"); printf("United Nations Menu"); } int diplomacy() { system("clear"); printf("Diplomacy Menu"); } int construction() { system("clear"); printf("Construction Menu"); } int armed_forces() { system("clear"); printf("Armed Forces Menu"); } int fighting() { system("clear"); printf("Wars and Battles Menu"); } int scores() { do { system("clear"); printf("Scoring and Winning\n\n"); printf("1. Scoring\n"); printf("2. Winning\n"); printf("3. View Stats\n"); printf("4. Back\n\n"); printf("after you've read the information, type in any letter and hit enter\n\n"); scanf("%s", char_choice); int_choice = atoi(char_choice); switch(int_choice) { case 1: printf("scoring info\n"); scanf("%s", bi); break; case 2: printf("winning info\n"); scanf("%s", bi); break; case 3: printf("stats\n"); scanf("%s", bi); break; case 4: main_menu(); break; default:printf("not valid. enter again"); break; } }while(int_choice != 99); } int shutdown() { system("clear"); printf("Saving...\n"); //actually save it in like an xml or something printf("Submitting...\n"); //send it to some kind of server //also: figure how the hell to make the server work printf("Shutting Down...\n"); //just a placebo lol int_choice = 99; } int main_menu() { do { system("clear"); printf("Countries Game -- Main Menu:\n\n"); printf("1. Setup Country\n"); printf("2. United Nations\n"); printf("3. Diplomacy\n"); printf("4. Construction\n"); printf("5. Armed Forces\n"); printf("6. Wars and Battles\n"); printf("7. Scoring and Winning\n"); printf("8. Save/Submit\n\n"); scanf("%s", char_choice); int_choice = atoi(char_choice); switch(int_choice) { case 1: setup_country(); break; case 2: un(); break; case 3: diplomacy(); break; case 4: construction(); break; case 5: armed_forces(); break; case 6: fighting(); break; case 7: scores(); break; case 8: shutdown(); break; default:printf("not valid. enter again"); break; } }while(int_choice !=99); } int main() { main_menu(); return 0; }
the_stack_data/721103.c	// I don't think this is needed for linux
the_stack_data/242329465.c	/*~action~ ActionInputPin [Class] * * Description * * An ActionInputPin is a kind of InputPin that executes an Action to determine the values to input to another Action. * * Diagrams * * Actions * * Generalizations * * InputPin * * Association Ends * *  ♦ fromAction : Action [1..1]{subsets Element::ownedElement} (opposite * A_fromAction_actionInputPin::actionInputPin) * * The Action used to provide the values of the ActionInputPin. * * Constraints * *  input_pin * * The fromAction of an ActionInputPin must only have ActionInputPins as InputPins. * * inv: fromAction.input->forAll(oclIsKindOf(ActionInputPin)) * *  one_output_pin * * The fromAction of an ActionInputPin must have exactly one OutputPin. * * inv: fromAction.output->size() = 1 * *  no_control_or_object_flow * * The fromAction of an ActionInputPin cannot have ActivityEdges coming into or out of it or its Pins. * * inv: fromAction.incoming->union(outgoing)->isEmpty() and * fromAction.input.incoming->isEmpty() and * fromAction.output.outgoing->isEmpty() **/
the_stack_data/190768221.c	#include <string.h> void memchr(const void s, int c, size_t n) { const char p = s; while (n--) { if (p == c) { return (void *) p; } p++; } return NULL; }
the_stack_data/148578122.c	/ **************************************************************************** * @file stm32f3xx_ll_dac.c * @author MCD Application Team * @brief DAC LL module driver ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2016 STMicroelectronics</center></h2> * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. Neither the name of STMicroelectronics nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************** / #if defined(USE_FULL_LL_DRIVER) / Includes ------------------------------------------------------------------/ #include "stm32f3xx_ll_dac.h" #include "stm32f3xx_ll_bus.h" #ifdef USE_FULL_ASSERT #include "stm32_assert.h" #else #define assert_param(expr) ((void)0U) #endif /* @addtogroup STM32F3xx_LL_Driver * @{ / #if defined (DAC1) \|\| defined (DAC2) /* @addtogroup DAC_LL DAC * @{ / / Private types -------------------------------------------------------------/ / Private variables ---------------------------------------------------------/ / Private constants ---------------------------------------------------------/ / Private macros ------------------------------------------------------------/ /* @addtogroup DAC_LL_Private_Macros * @{ / #if defined(DAC_CHANNEL2_SUPPORT) #define IS_LL_DAC_CHANNEL(__DACX__, __DAC_CHANNEL__) \ ( \ ((__DAC_CHANNEL__) == LL_DAC_CHANNEL_1) \ \|\| ((__DAC_CHANNEL__) == LL_DAC_CHANNEL_2) \ ) #else #define IS_LL_DAC_CHANNEL(__DACX__, __DAC_CHANNEL__) \ ( \ ((__DAC_CHANNEL__) == LL_DAC_CHANNEL_1) \ ) #endif / DAC_CHANNEL2_SUPPORT / #if defined(STM32F303xE) \|\| defined(STM32F398xx) \|\| defined(STM32F303xC) \|\| defined(STM32F358xx) #define IS_LL_DAC_TRIGGER_SOURCE(__TRIGGER_SOURCE__) \ ( ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_SOFTWARE) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM2_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM3_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM4_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM15_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM6_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM7_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_EXTI_LINE9) \ ) #elif defined(STM32F303x8) \|\| defined(STM32F328xx) #define IS_LL_DAC_TRIGGER_SOURCE(__TRIGGER_SOURCE__) \ ( ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_SOFTWARE) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM2_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM3_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM15_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM6_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM7_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_EXTI_LINE9) \ ) #elif defined(STM32F302xE) \|\| defined(STM32F302xC) \|\| defined(STM32F302x8) #define IS_LL_DAC_TRIGGER_SOURCE(__TRIGGER_SOURCE__) \ ( ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_SOFTWARE) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM2_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM3_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM4_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM15_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM6_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_EXTI_LINE9) \ ) #elif defined(STM32F301x8) \|\| defined(STM32F318xx) #define IS_LL_DAC_TRIGGER_SOURCE(__TRIGGER_SOURCE__) \ ( ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_SOFTWARE) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM2_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM6_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM15_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_EXTI_LINE9) \ ) #elif defined(STM32F373xC) \|\| defined(STM32F378xx) #define IS_LL_DAC_TRIGGER_SOURCE(__TRIGGER_SOURCE__) \ ( ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_SOFTWARE) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM2_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM3_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM4_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM5_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM6_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM7_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_EXTI_LINE9) \ ) #elif defined(STM32F334x8) #define IS_LL_DAC_TRIGGER_SOURCE(__TRIGGER_SOURCE__) \ ( ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_SOFTWARE) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM6_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM3_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM7_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM15_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_TIM2_TRGO) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIGGER_HRTIM1_DACTRG2) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIGGER_HRTIM1_DACTRG3) \ \|\| ((__TRIGGER_SOURCE__) == LL_DAC_TRIG_EXT_EXTI_LINE9) \ ) #endif #define IS_LL_DAC_WAVE_AUTO_GENER_MODE(__WAVE_AUTO_GENERATION_MODE__) \ ( ((__WAVE_AUTO_GENERATION_MODE__) == LL_DAC_WAVE_AUTO_GENERATION_NONE) \ \|\| ((__WAVE_AUTO_GENERATION_MODE__) == LL_DAC_WAVE_AUTO_GENERATION_NOISE) \ \|\| ((__WAVE_AUTO_GENERATION_MODE__) == LL_DAC_WAVE_AUTO_GENERATION_TRIANGLE) \ ) #define IS_LL_DAC_WAVE_AUTO_GENER_CONFIG(__WAVE_AUTO_GENERATION_CONFIG__) \ ( ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BIT0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS1_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS2_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS3_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS4_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS5_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS6_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS7_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS8_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS9_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS10_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_NOISE_LFSR_UNMASK_BITS11_0) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_1) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_3) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_7) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_15) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_31) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_63) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_127) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_255) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_511) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_1023) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_2047) \ \|\| ((__WAVE_AUTO_GENERATION_CONFIG__) == LL_DAC_TRIANGLE_AMPLITUDE_4095) \ ) #define IS_LL_DAC_OUTPUT_BUFFER(__OUTPUT_BUFFER__) \ ( ((__OUTPUT_BUFFER__) == LL_DAC_OUTPUT_BUFFER_ENABLE) \ \|\| ((__OUTPUT_BUFFER__) == LL_DAC_OUTPUT_BUFFER_DISABLE) \ ) /* * @} / / Private function prototypes -----------------------------------------------/ / Exported functions --------------------------------------------------------/ /* @addtogroup DAC_LL_Exported_Functions * @{ / /* @addtogroup DAC_LL_EF_Init * @{ / /* * @brief De-initialize registers of the selected DAC instance * to their default reset values. * @param DACx DAC instance * @retval An ErrorStatus enumeration value: * - SUCCESS: DAC registers are de-initialized * - ERROR: not applicable / ErrorStatus LL_DAC_DeInit(DAC_TypeDef DACx) { /* Check the parameters / assert_param(IS_DAC_ALL_INSTANCE(DACx)); if(DACx == DAC1) { / Force reset of DAC clock / LL_APB1_GRP1_ForceReset(LL_APB1_GRP1_PERIPH_DAC1); / Release reset of DAC clock / LL_APB1_GRP1_ReleaseReset(LL_APB1_GRP1_PERIPH_DAC1); } #if defined(DAC2) else { / Force reset of DAC clock / LL_APB1_GRP1_ForceReset(LL_APB1_GRP1_PERIPH_DAC2); / Release reset of DAC clock / LL_APB1_GRP1_ReleaseReset(LL_APB1_GRP1_PERIPH_DAC2); } #endif return SUCCESS; } /* * @brief Initialize some features of DAC instance. * @note The setting of these parameters by function @ref LL_DAC_Init() * is conditioned to DAC state: * DAC instance must be disabled. * @param DACx DAC instance * @param DAC_Channel This parameter can be one of the following values: * @arg @ref LL_DAC_CHANNEL_1 * @arg @ref LL_DAC_CHANNEL_2 (1) * * (1) On this STM32 serie, parameter not available on all devices. * Refer to device datasheet for channels availability. * @param DAC_InitStruct Pointer to a @ref LL_DAC_InitTypeDef structure * @retval An ErrorStatus enumeration value: * - SUCCESS: DAC registers are initialized * - ERROR: DAC registers are not initialized / ErrorStatus LL_DAC_Init(DAC_TypeDef DACx, uint32_t DAC_Channel, LL_DAC_InitTypeDef DAC_InitStruct) { ErrorStatus status = SUCCESS; / Check the parameters / assert_param(IS_DAC_ALL_INSTANCE(DACx)); assert_param(IS_LL_DAC_CHANNEL(DACx, DAC_Channel)); assert_param(IS_LL_DAC_TRIGGER_SOURCE(DAC_InitStruct->TriggerSource)); assert_param(IS_LL_DAC_OUTPUT_BUFFER(DAC_InitStruct->OutputBuffer)); assert_param(IS_LL_DAC_WAVE_AUTO_GENER_MODE(DAC_InitStruct->WaveAutoGeneration)); if (DAC_InitStruct->WaveAutoGeneration != LL_DAC_WAVE_AUTO_GENERATION_NONE) { assert_param(IS_LL_DAC_WAVE_AUTO_GENER_CONFIG(DAC_InitStruct->WaveAutoGenerationConfig)); } / Note: Hardware constraint (refer to description of this function) / / DAC instance must be disabled. / if(LL_DAC_IsEnabled(DACx, DAC_Channel) == 0U) { / Configuration of DAC channel: / / - TriggerSource / / - WaveAutoGeneration / / - OutputBuffer / if (DAC_InitStruct->WaveAutoGeneration != LL_DAC_WAVE_AUTO_GENERATION_NONE) { MODIFY_REG(DACx->CR, ( DAC_CR_TSEL1 \| DAC_CR_WAVE1 \| DAC_CR_MAMP1 \| DAC_CR_BOFF1 ) << (DAC_Channel & DAC_CR_CHX_BITOFFSET_MASK) , ( DAC_InitStruct->TriggerSource \| DAC_InitStruct->WaveAutoGeneration \| DAC_InitStruct->WaveAutoGenerationConfig \| DAC_InitStruct->OutputBuffer ) << (DAC_Channel & DAC_CR_CHX_BITOFFSET_MASK) ); } else { MODIFY_REG(DACx->CR, ( DAC_CR_TSEL1 \| DAC_CR_WAVE1 \| DAC_CR_BOFF1 ) << (DAC_Channel & DAC_CR_CHX_BITOFFSET_MASK) , ( DAC_InitStruct->TriggerSource \| LL_DAC_WAVE_AUTO_GENERATION_NONE \| DAC_InitStruct->OutputBuffer ) << (DAC_Channel & DAC_CR_CHX_BITOFFSET_MASK) ); } } else { / Initialization error: DAC instance is not disabled. / status = ERROR; } return status; } /* * @brief Set each @ref LL_DAC_InitTypeDef field to default value. * @param DAC_InitStruct pointer to a @ref LL_DAC_InitTypeDef structure * whose fields will be set to default values. * @retval None / void LL_DAC_StructInit(LL_DAC_InitTypeDef DAC_InitStruct) { /* Set DAC_InitStruct fields to default values / DAC_InitStruct->TriggerSource = LL_DAC_TRIG_SOFTWARE; DAC_InitStruct->WaveAutoGeneration = LL_DAC_WAVE_AUTO_GENERATION_NONE; / Note: Parameter discarded if wave auto generation is disabled, / / set anyway to its default value. / DAC_InitStruct->WaveAutoGenerationConfig = LL_DAC_NOISE_LFSR_UNMASK_BIT0; DAC_InitStruct->OutputBuffer = LL_DAC_OUTPUT_BUFFER_ENABLE; } /* * @} / /* * @} / /* * @} / #endif / DAC1 \|\| DAC2 / /* * @} / #endif / USE_FULL_LL_DRIVER / /********************* (C) COPYRIGHT STMicroelectronics *END OF FILE**/
the_stack_data/81806.c	# 1 "benchmarks/ds-02-impl3.c" # 1 "<built-in>" # 1 "<command-line>" # 1 "/usr/include/stdc-predef.h" 1 3 4 # 1 "<command-line>" 2 # 1 "benchmarks/ds-02-impl3.c" # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 1 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/definitions.h" 1 # 132 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/definitions.h" int X_SIZE_VALUE = 0; int overflow_mode = 1; int rounding_mode = 0; # 155 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/definitions.h" typedef struct { double a[100]; int a_size; double b[100]; int b_size; double sample_time; double a_uncertainty[100]; double b_uncertainty[100]; } digital_system; typedef struct { double A[4][4]; double B[4][4]; double C[4][4]; double D[4][4]; double states[4][4]; double outputs[4][4]; double inputs[4][4]; double K[4][4]; unsigned int nStates; unsigned int nInputs; unsigned int nOutputs; } digital_system_state_space; typedef struct { int int_bits; int frac_bits; double max; double min; int default_realization; double delta; int scale; double max_error; } implementation; typedef struct { int push; int in; int sbiw; int cli; int out; int std; int ldd; int subi; int sbci; int lsl; int rol; int add; int adc; int adiw; int rjmp; int mov; int sbc; int ld; int rcall; int cp; int cpc; int ldi; int brge; int pop; int ret; int st; int brlt; int cpi; } instructions; typedef struct { long clock; int device; double cycle; instructions assembly; } hardware; typedef struct{ float Ap, Ar, Ac; float wp, wc, wr; int type; }filter_parameters; # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" # 1 "/usr/include/stdlib.h" 1 3 4 # 25 "/usr/include/stdlib.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 1 3 4 # 33 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 3 4 # 1 "/usr/include/features.h" 1 3 4 # 461 "/usr/include/features.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 1 3 4 # 452 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 453 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/long-double.h" 1 3 4 # 454 "/usr/include/x86_64-linux-gnu/sys/cdefs.h" 2 3 4 # 462 "/usr/include/features.h" 2 3 4 # 485 "/usr/include/features.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/gnu/stubs.h" 1 3 4 # 10 "/usr/include/x86_64-linux-gnu/gnu/stubs.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/gnu/stubs-64.h" 1 3 4 # 11 "/usr/include/x86_64-linux-gnu/gnu/stubs.h" 2 3 4 # 486 "/usr/include/features.h" 2 3 4 # 34 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 2 3 4 # 26 "/usr/include/stdlib.h" 2 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 209 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 3 4 # 209 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 3 4 typedef long unsigned int size_t; # 321 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 3 4 typedef int wchar_t; # 32 "/usr/include/stdlib.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/waitflags.h" 1 3 4 # 52 "/usr/include/x86_64-linux-gnu/bits/waitflags.h" 3 4 typedef enum { P_ALL, P_PID, P_PGID } idtype_t; # 40 "/usr/include/stdlib.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/waitstatus.h" 1 3 4 # 41 "/usr/include/stdlib.h" 2 3 4 # 55 "/usr/include/stdlib.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/floatn.h" 1 3 4 # 120 "/usr/include/x86_64-linux-gnu/bits/floatn.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/floatn-common.h" 1 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/floatn-common.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/long-double.h" 1 3 4 # 25 "/usr/include/x86_64-linux-gnu/bits/floatn-common.h" 2 3 4 # 121 "/usr/include/x86_64-linux-gnu/bits/floatn.h" 2 3 4 # 56 "/usr/include/stdlib.h" 2 3 4 typedef struct { int quot; int rem; } div_t; typedef struct { long int quot; long int rem; } ldiv_t; __extension__ typedef struct { long long int quot; long long int rem; } lldiv_t; # 97 "/usr/include/stdlib.h" 3 4 extern size_t __ctype_get_mb_cur_max (void) __attribute__ ((__nothrow__ , __leaf__)) ; extern double atof (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; extern int atoi (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; extern long int atol (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; __extension__ extern long long int atoll (const char __nptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; extern double strtod (const char __restrict __nptr, char __restrict __endptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern float strtof (const char __restrict __nptr, char *__restrict __endptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern long double strtold (const char __restrict __nptr, char *__restrict __endptr) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 176 "/usr/include/stdlib.h" 3 4 extern long int strtol (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern unsigned long int strtoul (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern long long int strtoq (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern unsigned long long int strtouq (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern long long int strtoll (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); __extension__ extern unsigned long long int strtoull (const char __restrict __nptr, char *__restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 385 "/usr/include/stdlib.h" 3 4 extern char l64a (long int __n) __attribute__ ((__nothrow__ , __leaf__)) ; extern long int a64l (const char __s) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1))) ; # 1 "/usr/include/x86_64-linux-gnu/sys/types.h" 1 3 4 # 27 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types.h" 1 3 4 # 27 "/usr/include/x86_64-linux-gnu/bits/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 28 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/timesize.h" 1 3 4 # 29 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 typedef unsigned char __u_char; typedef unsigned short int __u_short; typedef unsigned int __u_int; typedef unsigned long int __u_long; typedef signed char __int8_t; typedef unsigned char __uint8_t; typedef signed short int __int16_t; typedef unsigned short int __uint16_t; typedef signed int __int32_t; typedef unsigned int __uint32_t; typedef signed long int __int64_t; typedef unsigned long int __uint64_t; typedef __int8_t __int_least8_t; typedef __uint8_t __uint_least8_t; typedef __int16_t __int_least16_t; typedef __uint16_t __uint_least16_t; typedef __int32_t __int_least32_t; typedef __uint32_t __uint_least32_t; typedef __int64_t __int_least64_t; typedef __uint64_t __uint_least64_t; typedef long int __quad_t; typedef unsigned long int __u_quad_t; typedef long int __intmax_t; typedef unsigned long int __uintmax_t; # 141 "/usr/include/x86_64-linux-gnu/bits/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/typesizes.h" 1 3 4 # 142 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/time64.h" 1 3 4 # 143 "/usr/include/x86_64-linux-gnu/bits/types.h" 2 3 4 typedef unsigned long int __dev_t; typedef unsigned int __uid_t; typedef unsigned int __gid_t; typedef unsigned long int __ino_t; typedef unsigned long int __ino64_t; typedef unsigned int __mode_t; typedef unsigned long int __nlink_t; typedef long int __off_t; typedef long int __off64_t; typedef int __pid_t; typedef struct { int __val[2]; } __fsid_t; typedef long int __clock_t; typedef unsigned long int __rlim_t; typedef unsigned long int __rlim64_t; typedef unsigned int __id_t; typedef long int __time_t; typedef unsigned int __useconds_t; typedef long int __suseconds_t; typedef int __daddr_t; typedef int __key_t; typedef int __clockid_t; typedef void __timer_t; typedef long int __blksize_t; typedef long int __blkcnt_t; typedef long int __blkcnt64_t; typedef unsigned long int __fsblkcnt_t; typedef unsigned long int __fsblkcnt64_t; typedef unsigned long int __fsfilcnt_t; typedef unsigned long int __fsfilcnt64_t; typedef long int __fsword_t; typedef long int __ssize_t; typedef long int __syscall_slong_t; typedef unsigned long int __syscall_ulong_t; typedef __off64_t __loff_t; typedef char __caddr_t; typedef long int __intptr_t; typedef unsigned int __socklen_t; typedef int __sig_atomic_t; # 30 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef __u_char u_char; typedef __u_short u_short; typedef __u_int u_int; typedef __u_long u_long; typedef __quad_t quad_t; typedef __u_quad_t u_quad_t; typedef __fsid_t fsid_t; typedef __loff_t loff_t; typedef __ino_t ino_t; # 59 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 typedef __dev_t dev_t; typedef __gid_t gid_t; typedef __mode_t mode_t; typedef __nlink_t nlink_t; typedef __uid_t uid_t; typedef __off_t off_t; # 97 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 typedef __pid_t pid_t; typedef __id_t id_t; typedef __ssize_t ssize_t; typedef __daddr_t daddr_t; typedef __caddr_t caddr_t; typedef __key_t key_t; # 1 "/usr/include/x86_64-linux-gnu/bits/types/clock_t.h" 1 3 4 typedef __clock_t clock_t; # 127 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/clockid_t.h" 1 3 4 typedef __clockid_t clockid_t; # 129 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/time_t.h" 1 3 4 typedef __time_t time_t; # 130 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/timer_t.h" 1 3 4 typedef __timer_t timer_t; # 131 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 144 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 145 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef unsigned long int ulong; typedef unsigned short int ushort; typedef unsigned int uint; # 1 "/usr/include/x86_64-linux-gnu/bits/stdint-intn.h" 1 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/stdint-intn.h" 3 4 typedef __int8_t int8_t; typedef __int16_t int16_t; typedef __int32_t int32_t; typedef __int64_t int64_t; # 156 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef __uint8_t u_int8_t; typedef __uint16_t u_int16_t; typedef __uint32_t u_int32_t; typedef __uint64_t u_int64_t; typedef int register_t __attribute__ ((__mode__ (__word__))); # 176 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/include/endian.h" 1 3 4 # 24 "/usr/include/endian.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/endian.h" 1 3 4 # 35 "/usr/include/x86_64-linux-gnu/bits/endian.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/endianness.h" 1 3 4 # 36 "/usr/include/x86_64-linux-gnu/bits/endian.h" 2 3 4 # 25 "/usr/include/endian.h" 2 3 4 # 35 "/usr/include/endian.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/byteswap.h" 1 3 4 # 33 "/usr/include/x86_64-linux-gnu/bits/byteswap.h" 3 4 static __inline __uint16_t __bswap_16 (__uint16_t __bsx) { return __builtin_bswap16 (__bsx); } static __inline __uint32_t __bswap_32 (__uint32_t __bsx) { return __builtin_bswap32 (__bsx); } # 69 "/usr/include/x86_64-linux-gnu/bits/byteswap.h" 3 4 __extension__ static __inline __uint64_t __bswap_64 (__uint64_t __bsx) { return __builtin_bswap64 (__bsx); } # 36 "/usr/include/endian.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/uintn-identity.h" 1 3 4 # 32 "/usr/include/x86_64-linux-gnu/bits/uintn-identity.h" 3 4 static __inline __uint16_t __uint16_identity (__uint16_t __x) { return __x; } static __inline __uint32_t __uint32_identity (__uint32_t __x) { return __x; } static __inline __uint64_t __uint64_identity (__uint64_t __x) { return __x; } # 37 "/usr/include/endian.h" 2 3 4 # 177 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/sys/select.h" 1 3 4 # 30 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/select.h" 1 3 4 # 22 "/usr/include/x86_64-linux-gnu/bits/select.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 23 "/usr/include/x86_64-linux-gnu/bits/select.h" 2 3 4 # 31 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/sigset_t.h" 1 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__sigset_t.h" 1 3 4 typedef struct { unsigned long int __val[(1024 / (8 sizeof (unsigned long int)))]; } __sigset_t; # 5 "/usr/include/x86_64-linux-gnu/bits/types/sigset_t.h" 2 3 4 typedef __sigset_t sigset_t; # 34 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/struct_timeval.h" 1 3 4 struct timeval { __time_t tv_sec; __suseconds_t tv_usec; }; # 38 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/struct_timespec.h" 1 3 4 # 10 "/usr/include/x86_64-linux-gnu/bits/types/struct_timespec.h" 3 4 struct timespec { __time_t tv_sec; __syscall_slong_t tv_nsec; # 26 "/usr/include/x86_64-linux-gnu/bits/types/struct_timespec.h" 3 4 }; # 40 "/usr/include/x86_64-linux-gnu/sys/select.h" 2 3 4 typedef __suseconds_t suseconds_t; typedef long int __fd_mask; # 59 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 typedef struct { __fd_mask __fds_bits[1024 / (8 * (int) sizeof (__fd_mask))]; } fd_set; typedef __fd_mask fd_mask; # 91 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 # 101 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 extern int select (int __nfds, fd_set __restrict __readfds, fd_set __restrict __writefds, fd_set __restrict __exceptfds, struct timeval __restrict __timeout); # 113 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 extern int pselect (int __nfds, fd_set __restrict __readfds, fd_set __restrict __writefds, fd_set __restrict __exceptfds, const struct timespec __restrict __timeout, const __sigset_t __restrict __sigmask); # 126 "/usr/include/x86_64-linux-gnu/sys/select.h" 3 4 # 180 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 typedef __blksize_t blksize_t; typedef __blkcnt_t blkcnt_t; typedef __fsblkcnt_t fsblkcnt_t; typedef __fsfilcnt_t fsfilcnt_t; # 227 "/usr/include/x86_64-linux-gnu/sys/types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes.h" 1 3 4 # 23 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 1 3 4 # 44 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes-arch.h" 1 3 4 # 21 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes-arch.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 22 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes-arch.h" 2 3 4 # 45 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 2 3 4 typedef struct __pthread_internal_list { struct __pthread_internal_list __prev; struct __pthread_internal_list __next; } __pthread_list_t; typedef struct __pthread_internal_slist { struct __pthread_internal_slist __next; } __pthread_slist_t; # 74 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/struct_mutex.h" 1 3 4 # 22 "/usr/include/x86_64-linux-gnu/bits/struct_mutex.h" 3 4 struct __pthread_mutex_s { int __lock; unsigned int __count; int __owner; unsigned int __nusers; int __kind; short __spins; short __elision; __pthread_list_t __list; # 53 "/usr/include/x86_64-linux-gnu/bits/struct_mutex.h" 3 4 }; # 75 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 2 3 4 # 87 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/struct_rwlock.h" 1 3 4 # 23 "/usr/include/x86_64-linux-gnu/bits/struct_rwlock.h" 3 4 struct __pthread_rwlock_arch_t { unsigned int __readers; unsigned int __writers; unsigned int __wrphase_futex; unsigned int __writers_futex; unsigned int __pad3; unsigned int __pad4; int __cur_writer; int __shared; signed char __rwelision; unsigned char __pad1[7]; unsigned long int __pad2; unsigned int __flags; # 55 "/usr/include/x86_64-linux-gnu/bits/struct_rwlock.h" 3 4 }; # 88 "/usr/include/x86_64-linux-gnu/bits/thread-shared-types.h" 2 3 4 struct __pthread_cond_s { __extension__ union { __extension__ unsigned long long int __wseq; struct { unsigned int __low; unsigned int __high; } __wseq32; }; __extension__ union { __extension__ unsigned long long int __g1_start; struct { unsigned int __low; unsigned int __high; } __g1_start32; }; unsigned int __g_refs[2] ; unsigned int __g_size[2]; unsigned int __g1_orig_size; unsigned int __wrefs; unsigned int __g_signals[2]; }; # 24 "/usr/include/x86_64-linux-gnu/bits/pthreadtypes.h" 2 3 4 typedef unsigned long int pthread_t; typedef union { char __size[4]; int __align; } pthread_mutexattr_t; typedef union { char __size[4]; int __align; } pthread_condattr_t; typedef unsigned int pthread_key_t; typedef int pthread_once_t; union pthread_attr_t { char __size[56]; long int __align; }; typedef union pthread_attr_t pthread_attr_t; typedef union { struct __pthread_mutex_s __data; char __size[40]; long int __align; } pthread_mutex_t; typedef union { struct __pthread_cond_s __data; char __size[48]; __extension__ long long int __align; } pthread_cond_t; typedef union { struct __pthread_rwlock_arch_t __data; char __size[56]; long int __align; } pthread_rwlock_t; typedef union { char __size[8]; long int __align; } pthread_rwlockattr_t; typedef volatile int pthread_spinlock_t; typedef union { char __size[32]; long int __align; } pthread_barrier_t; typedef union { char __size[4]; int __align; } pthread_barrierattr_t; # 228 "/usr/include/x86_64-linux-gnu/sys/types.h" 2 3 4 # 395 "/usr/include/stdlib.h" 2 3 4 extern long int random (void) __attribute__ ((__nothrow__ , __leaf__)); extern void srandom (unsigned int __seed) __attribute__ ((__nothrow__ , __leaf__)); extern char initstate (unsigned int __seed, char __statebuf, size_t __statelen) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern char setstate (char __statebuf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); struct random_data { int32_t fptr; int32_t rptr; int32_t state; int rand_type; int rand_deg; int rand_sep; int32_t end_ptr; }; extern int random_r (struct random_data __restrict __buf, int32_t __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int srandom_r (unsigned int __seed, struct random_data __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern int initstate_r (unsigned int __seed, char __restrict __statebuf, size_t __statelen, struct random_data __restrict __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2, 4))); extern int setstate_r (char __restrict __statebuf, struct random_data __restrict __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int rand (void) __attribute__ ((__nothrow__ , __leaf__)); extern void srand (unsigned int __seed) __attribute__ ((__nothrow__ , __leaf__)); extern int rand_r (unsigned int __seed) __attribute__ ((__nothrow__ , __leaf__)); extern double drand48 (void) __attribute__ ((__nothrow__ , __leaf__)); extern double erand48 (unsigned short int __xsubi[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern long int lrand48 (void) __attribute__ ((__nothrow__ , __leaf__)); extern long int nrand48 (unsigned short int __xsubi[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern long int mrand48 (void) __attribute__ ((__nothrow__ , __leaf__)); extern long int jrand48 (unsigned short int __xsubi[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern void srand48 (long int __seedval) __attribute__ ((__nothrow__ , __leaf__)); extern unsigned short int seed48 (unsigned short int __seed16v[3]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern void lcong48 (unsigned short int __param[7]) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); struct drand48_data { unsigned short int __x[3]; unsigned short int __old_x[3]; unsigned short int __c; unsigned short int __init; __extension__ unsigned long long int __a; }; extern int drand48_r (struct drand48_data __restrict __buffer, double __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int erand48_r (unsigned short int __xsubi[3], struct drand48_data __restrict __buffer, double __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int lrand48_r (struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int nrand48_r (unsigned short int __xsubi[3], struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int mrand48_r (struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int jrand48_r (unsigned short int __xsubi[3], struct drand48_data __restrict __buffer, long int __restrict __result) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int srand48_r (long int __seedval, struct drand48_data __buffer) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern int seed48_r (unsigned short int __seed16v[3], struct drand48_data __buffer) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern int lcong48_r (unsigned short int __param[7], struct drand48_data __buffer) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2))); extern void malloc (size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (1))) ; extern void calloc (size_t __nmemb, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (1, 2))) ; extern void realloc (void __ptr, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__warn_unused_result__)) __attribute__ ((__alloc_size__ (2))); extern void reallocarray (void __ptr, size_t __nmemb, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__warn_unused_result__)) __attribute__ ((__alloc_size__ (2, 3))); extern void free (void __ptr) __attribute__ ((__nothrow__ , __leaf__)); # 1 "/usr/include/alloca.h" 1 3 4 # 24 "/usr/include/alloca.h" 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 25 "/usr/include/alloca.h" 2 3 4 extern void alloca (size_t __size) __attribute__ ((__nothrow__ , __leaf__)); # 569 "/usr/include/stdlib.h" 2 3 4 extern void valloc (size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (1))) ; extern int posix_memalign (void __memptr, size_t __alignment, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; extern void aligned_alloc (size_t __alignment, size_t __size) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) __attribute__ ((__alloc_size__ (2))) ; extern void abort (void) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern int atexit (void (__func) (void)) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int at_quick_exit (void (__func) (void)) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int on_exit (void (__func) (int __status, void __arg), void __arg) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern void exit (int __status) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void quick_exit (int __status) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void _Exit (int __status) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern char getenv (const char __name) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; # 647 "/usr/include/stdlib.h" 3 4 extern int putenv (char __string) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int setenv (const char __name, const char __value, int __replace) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (2))); extern int unsetenv (const char __name) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); extern int clearenv (void) __attribute__ ((__nothrow__ , __leaf__)); # 675 "/usr/include/stdlib.h" 3 4 extern char mktemp (char __template) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 688 "/usr/include/stdlib.h" 3 4 extern int mkstemp (char __template) __attribute__ ((__nonnull__ (1))) ; # 710 "/usr/include/stdlib.h" 3 4 extern int mkstemps (char __template, int __suffixlen) __attribute__ ((__nonnull__ (1))) ; # 731 "/usr/include/stdlib.h" 3 4 extern char mkdtemp (char __template) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; # 784 "/usr/include/stdlib.h" 3 4 extern int system (const char __command) ; # 800 "/usr/include/stdlib.h" 3 4 extern char realpath (const char __restrict __name, char __restrict __resolved) __attribute__ ((__nothrow__ , __leaf__)) ; typedef int (__compar_fn_t) (const void , const void ); # 820 "/usr/include/stdlib.h" 3 4 extern void bsearch (const void __key, const void __base, size_t __nmemb, size_t __size, __compar_fn_t __compar) __attribute__ ((__nonnull__ (1, 2, 5))) ; extern void qsort (void __base, size_t __nmemb, size_t __size, __compar_fn_t __compar) __attribute__ ((__nonnull__ (1, 4))); # 840 "/usr/include/stdlib.h" 3 4 extern int abs (int __x) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; extern long int labs (long int __x) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; __extension__ extern long long int llabs (long long int __x) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; extern div_t div (int __numer, int __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; extern ldiv_t ldiv (long int __numer, long int __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; __extension__ extern lldiv_t lldiv (long long int __numer, long long int __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)) ; # 872 "/usr/include/stdlib.h" 3 4 extern char ecvt (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char fcvt (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char gcvt (double __value, int __ndigit, char __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3))) ; extern char qecvt (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char qfcvt (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4))) ; extern char qgcvt (long double __value, int __ndigit, char __buf) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3))) ; extern int ecvt_r (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int fcvt_r (double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int qecvt_r (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int qfcvt_r (long double __value, int __ndigit, int __restrict __decpt, int __restrict __sign, char __restrict __buf, size_t __len) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (3, 4, 5))); extern int mblen (const char __s, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern int mbtowc (wchar_t __restrict __pwc, const char __restrict __s, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern int wctomb (char __s, wchar_t __wchar) __attribute__ ((__nothrow__ , __leaf__)); extern size_t mbstowcs (wchar_t __restrict __pwcs, const char __restrict __s, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern size_t wcstombs (char __restrict __s, const wchar_t __restrict __pwcs, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern int rpmatch (const char __response) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))) ; # 957 "/usr/include/stdlib.h" 3 4 extern int getsubopt (char __restrict __optionp, char const __restrict __tokens, char __restrict __valuep) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1, 2, 3))) ; # 1003 "/usr/include/stdlib.h" 3 4 extern int getloadavg (double __loadavg[], int __nelem) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__nonnull__ (1))); # 1013 "/usr/include/stdlib.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/stdlib-float.h" 1 3 4 # 1014 "/usr/include/stdlib.h" 2 3 4 # 1023 "/usr/include/stdlib.h" 3 4 # 18 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 2 # 1 "/usr/include/assert.h" 1 3 4 # 66 "/usr/include/assert.h" 3 4 extern void __assert_fail (const char __assertion, const char __file, unsigned int __line, const char __function) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void __assert_perror_fail (int __errnum, const char __file, unsigned int __line, const char __function) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); extern void __assert (const char __assertion, const char __file, int __line) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 2 # 1 "/usr/include/stdio.h" 1 3 4 # 27 "/usr/include/stdio.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 1 3 4 # 28 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stddef.h" 1 3 4 # 34 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdarg.h" 1 3 4 # 40 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdarg.h" 3 4 typedef __builtin_va_list __gnuc_va_list; # 37 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__fpos_t.h" 1 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__mbstate_t.h" 1 3 4 # 13 "/usr/include/x86_64-linux-gnu/bits/types/__mbstate_t.h" 3 4 typedef struct { int __count; union { unsigned int __wch; char __wchb[4]; } __value; } __mbstate_t; # 6 "/usr/include/x86_64-linux-gnu/bits/types/__fpos_t.h" 2 3 4 typedef struct _G_fpos_t { __off_t __pos; __mbstate_t __state; } __fpos_t; # 40 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__fpos64_t.h" 1 3 4 # 10 "/usr/include/x86_64-linux-gnu/bits/types/__fpos64_t.h" 3 4 typedef struct _G_fpos64_t { __off64_t __pos; __mbstate_t __state; } __fpos64_t; # 41 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/__FILE.h" 1 3 4 struct _IO_FILE; typedef struct _IO_FILE __FILE; # 42 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/FILE.h" 1 3 4 struct _IO_FILE; typedef struct _IO_FILE FILE; # 43 "/usr/include/stdio.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/types/struct_FILE.h" 1 3 4 # 35 "/usr/include/x86_64-linux-gnu/bits/types/struct_FILE.h" 3 4 struct _IO_FILE; struct _IO_marker; struct _IO_codecvt; struct _IO_wide_data; typedef void _IO_lock_t; struct _IO_FILE { int _flags; char _IO_read_ptr; char _IO_read_end; char _IO_read_base; char _IO_write_base; char _IO_write_ptr; char _IO_write_end; char _IO_buf_base; char _IO_buf_end; char _IO_save_base; char _IO_backup_base; char _IO_save_end; struct _IO_marker _markers; struct _IO_FILE _chain; int _fileno; int _flags2; __off_t _old_offset; unsigned short _cur_column; signed char _vtable_offset; char _shortbuf[1]; _IO_lock_t _lock; __off64_t _offset; struct _IO_codecvt _codecvt; struct _IO_wide_data _wide_data; struct _IO_FILE _freeres_list; void _freeres_buf; size_t __pad5; int _mode; char _unused2[15 * sizeof (int) - 4 * sizeof (void ) - sizeof (size_t)]; }; # 44 "/usr/include/stdio.h" 2 3 4 # 52 "/usr/include/stdio.h" 3 4 typedef __gnuc_va_list va_list; # 84 "/usr/include/stdio.h" 3 4 typedef __fpos_t fpos_t; # 133 "/usr/include/stdio.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/stdio_lim.h" 1 3 4 # 134 "/usr/include/stdio.h" 2 3 4 extern FILE stdin; extern FILE stdout; extern FILE stderr; extern int remove (const char __filename) __attribute__ ((__nothrow__ , __leaf__)); extern int rename (const char __old, const char __new) __attribute__ ((__nothrow__ , __leaf__)); extern int renameat (int __oldfd, const char __old, int __newfd, const char __new) __attribute__ ((__nothrow__ , __leaf__)); # 173 "/usr/include/stdio.h" 3 4 extern FILE tmpfile (void) ; # 187 "/usr/include/stdio.h" 3 4 extern char tmpnam (char __s) __attribute__ ((__nothrow__ , __leaf__)) ; extern char tmpnam_r (char __s) __attribute__ ((__nothrow__ , __leaf__)) ; # 204 "/usr/include/stdio.h" 3 4 extern char tempnam (const char __dir, const char __pfx) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__malloc__)) ; extern int fclose (FILE __stream); extern int fflush (FILE __stream); # 227 "/usr/include/stdio.h" 3 4 extern int fflush_unlocked (FILE __stream); # 246 "/usr/include/stdio.h" 3 4 extern FILE fopen (const char __restrict __filename, const char __restrict __modes) ; extern FILE freopen (const char __restrict __filename, const char __restrict __modes, FILE __restrict __stream) ; # 279 "/usr/include/stdio.h" 3 4 extern FILE fdopen (int __fd, const char __modes) __attribute__ ((__nothrow__ , __leaf__)) ; # 292 "/usr/include/stdio.h" 3 4 extern FILE fmemopen (void __s, size_t __len, const char __modes) __attribute__ ((__nothrow__ , __leaf__)) ; extern FILE open_memstream (char __bufloc, size_t __sizeloc) __attribute__ ((__nothrow__ , __leaf__)) ; extern void setbuf (FILE __restrict __stream, char __restrict __buf) __attribute__ ((__nothrow__ , __leaf__)); extern int setvbuf (FILE __restrict __stream, char __restrict __buf, int __modes, size_t __n) __attribute__ ((__nothrow__ , __leaf__)); extern void setbuffer (FILE __restrict __stream, char __restrict __buf, size_t __size) __attribute__ ((__nothrow__ , __leaf__)); extern void setlinebuf (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int fprintf (FILE __restrict __stream, const char __restrict __format, ...); extern int printf (const char __restrict __format, ...); extern int sprintf (char __restrict __s, const char __restrict __format, ...) __attribute__ ((__nothrow__)); extern int vfprintf (FILE __restrict __s, const char __restrict __format, __gnuc_va_list __arg); extern int vprintf (const char __restrict __format, __gnuc_va_list __arg); extern int vsprintf (char __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__nothrow__)); extern int snprintf (char __restrict __s, size_t __maxlen, const char __restrict __format, ...) __attribute__ ((__nothrow__)) __attribute__ ((__format__ (__printf__, 3, 4))); extern int vsnprintf (char __restrict __s, size_t __maxlen, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__nothrow__)) __attribute__ ((__format__ (__printf__, 3, 0))); # 379 "/usr/include/stdio.h" 3 4 extern int vdprintf (int __fd, const char __restrict __fmt, __gnuc_va_list __arg) __attribute__ ((__format__ (__printf__, 2, 0))); extern int dprintf (int __fd, const char __restrict __fmt, ...) __attribute__ ((__format__ (__printf__, 2, 3))); extern int fscanf (FILE __restrict __stream, const char __restrict __format, ...) ; extern int scanf (const char __restrict __format, ...) ; extern int sscanf (const char __restrict __s, const char __restrict __format, ...) __attribute__ ((__nothrow__ , __leaf__)); extern int fscanf (FILE __restrict __stream, const char __restrict __format, ...) __asm__ ("" "__isoc99_fscanf") ; extern int scanf (const char __restrict __format, ...) __asm__ ("" "__isoc99_scanf") ; extern int sscanf (const char __restrict __s, const char __restrict __format, ...) __asm__ ("" "__isoc99_sscanf") __attribute__ ((__nothrow__ , __leaf__)) ; # 432 "/usr/include/stdio.h" 3 4 extern int vfscanf (FILE __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__format__ (__scanf__, 2, 0))) ; extern int vscanf (const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__format__ (__scanf__, 1, 0))) ; extern int vsscanf (const char __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__format__ (__scanf__, 2, 0))); extern int vfscanf (FILE __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __asm__ ("" "__isoc99_vfscanf") __attribute__ ((__format__ (__scanf__, 2, 0))) ; extern int vscanf (const char __restrict __format, __gnuc_va_list __arg) __asm__ ("" "__isoc99_vscanf") __attribute__ ((__format__ (__scanf__, 1, 0))) ; extern int vsscanf (const char __restrict __s, const char __restrict __format, __gnuc_va_list __arg) __asm__ ("" "__isoc99_vsscanf") __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__format__ (__scanf__, 2, 0))); # 485 "/usr/include/stdio.h" 3 4 extern int fgetc (FILE __stream); extern int getc (FILE __stream); extern int getchar (void); extern int getc_unlocked (FILE __stream); extern int getchar_unlocked (void); # 510 "/usr/include/stdio.h" 3 4 extern int fgetc_unlocked (FILE __stream); # 521 "/usr/include/stdio.h" 3 4 extern int fputc (int __c, FILE __stream); extern int putc (int __c, FILE __stream); extern int putchar (int __c); # 537 "/usr/include/stdio.h" 3 4 extern int fputc_unlocked (int __c, FILE __stream); extern int putc_unlocked (int __c, FILE __stream); extern int putchar_unlocked (int __c); extern int getw (FILE __stream); extern int putw (int __w, FILE __stream); extern char fgets (char __restrict __s, int __n, FILE __restrict __stream) ; # 603 "/usr/include/stdio.h" 3 4 extern __ssize_t __getdelim (char *__restrict __lineptr, size_t __restrict __n, int __delimiter, FILE __restrict __stream) ; extern __ssize_t getdelim (char __restrict __lineptr, size_t __restrict __n, int __delimiter, FILE __restrict __stream) ; extern __ssize_t getline (char __restrict __lineptr, size_t __restrict __n, FILE __restrict __stream) ; extern int fputs (const char __restrict __s, FILE __restrict __stream); extern int puts (const char __s); extern int ungetc (int __c, FILE __stream); extern size_t fread (void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __stream) ; extern size_t fwrite (const void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __s); # 673 "/usr/include/stdio.h" 3 4 extern size_t fread_unlocked (void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __stream) ; extern size_t fwrite_unlocked (const void __restrict __ptr, size_t __size, size_t __n, FILE __restrict __stream); extern int fseek (FILE __stream, long int __off, int __whence); extern long int ftell (FILE __stream) ; extern void rewind (FILE __stream); # 707 "/usr/include/stdio.h" 3 4 extern int fseeko (FILE __stream, __off_t __off, int __whence); extern __off_t ftello (FILE __stream) ; # 731 "/usr/include/stdio.h" 3 4 extern int fgetpos (FILE __restrict __stream, fpos_t __restrict __pos); extern int fsetpos (FILE __stream, const fpos_t __pos); # 757 "/usr/include/stdio.h" 3 4 extern void clearerr (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int feof (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern int ferror (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern void clearerr_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int feof_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern int ferror_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern void perror (const char __s); # 1 "/usr/include/x86_64-linux-gnu/bits/sys_errlist.h" 1 3 4 # 26 "/usr/include/x86_64-linux-gnu/bits/sys_errlist.h" 3 4 extern int sys_nerr; extern const char const sys_errlist[]; # 782 "/usr/include/stdio.h" 2 3 4 extern int fileno (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern int fileno_unlocked (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; # 800 "/usr/include/stdio.h" 3 4 extern FILE popen (const char __command, const char __modes) ; extern int pclose (FILE __stream); extern char ctermid (char __s) __attribute__ ((__nothrow__ , __leaf__)); # 840 "/usr/include/stdio.h" 3 4 extern void flockfile (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); extern int ftrylockfile (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)) ; extern void funlockfile (FILE __stream) __attribute__ ((__nothrow__ , __leaf__)); # 858 "/usr/include/stdio.h" 3 4 extern int __uflow (FILE ); extern int __overflow (FILE , int); # 873 "/usr/include/stdio.h" 3 4 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 2 # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" void __DSVERIFIER_assume(_Bool expression){ __ESBMC_assume(expression); # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" } void __DSVERIFIER_assert(_Bool expression){ # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ((void) sizeof (( # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ; else __assert_fail ( # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" "expression" # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h", 36, __extension__ __PRETTY_FUNCTION__); })) # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" ; } void __DSVERIFIER_assert_msg(_Bool expression, char msg){ printf("%s", msg); # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ((void) sizeof (( # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" expression # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 ) ; else __assert_fail ( # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" "expression" # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h", 41, __extension__ __PRETTY_FUNCTION__); })) # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/compatibility.h" ; } # 22 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" 1 # 27 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" # 1 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdint.h" 1 3 4 # 9 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdint.h" 3 4 # 1 "/usr/include/stdint.h" 1 3 4 # 26 "/usr/include/stdint.h" 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/libc-header-start.h" 1 3 4 # 27 "/usr/include/stdint.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wchar.h" 1 3 4 # 29 "/usr/include/stdint.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/wordsize.h" 1 3 4 # 30 "/usr/include/stdint.h" 2 3 4 # 1 "/usr/include/x86_64-linux-gnu/bits/stdint-uintn.h" 1 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/stdint-uintn.h" 3 4 # 24 "/usr/include/x86_64-linux-gnu/bits/stdint-uintn.h" 3 4 typedef __uint8_t uint8_t; typedef __uint16_t uint16_t; typedef __uint32_t uint32_t; typedef __uint64_t uint64_t; # 38 "/usr/include/stdint.h" 2 3 4 typedef __int_least8_t int_least8_t; typedef __int_least16_t int_least16_t; typedef __int_least32_t int_least32_t; typedef __int_least64_t int_least64_t; typedef __uint_least8_t uint_least8_t; typedef __uint_least16_t uint_least16_t; typedef __uint_least32_t uint_least32_t; typedef __uint_least64_t uint_least64_t; typedef signed char int_fast8_t; typedef long int int_fast16_t; typedef long int int_fast32_t; typedef long int int_fast64_t; # 71 "/usr/include/stdint.h" 3 4 typedef unsigned char uint_fast8_t; typedef unsigned long int uint_fast16_t; typedef unsigned long int uint_fast32_t; typedef unsigned long int uint_fast64_t; # 87 "/usr/include/stdint.h" 3 4 typedef long int intptr_t; typedef unsigned long int uintptr_t; # 101 "/usr/include/stdint.h" 3 4 typedef __intmax_t intmax_t; typedef __uintmax_t uintmax_t; # 10 "/usr/lib/gcc/x86_64-linux-gnu/9/include/stdint.h" 2 3 4 # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" 2 # 1 "/usr/include/inttypes.h" 1 3 4 # 34 "/usr/include/inttypes.h" 3 4 typedef int __gwchar_t; # 266 "/usr/include/inttypes.h" 3 4 typedef struct { long int quot; long int rem; } imaxdiv_t; # 290 "/usr/include/inttypes.h" 3 4 extern intmax_t imaxabs (intmax_t __n) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)); extern imaxdiv_t imaxdiv (intmax_t __numer, intmax_t __denom) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__const__)); extern intmax_t strtoimax (const char __restrict __nptr, char __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); extern uintmax_t strtoumax (const char __restrict __nptr, char ** __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); extern intmax_t wcstoimax (const __gwchar_t __restrict __nptr, __gwchar_t __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); extern uintmax_t wcstoumax (const __gwchar_t __restrict __nptr, __gwchar_t ** __restrict __endptr, int __base) __attribute__ ((__nothrow__ , __leaf__)); # 432 "/usr/include/inttypes.h" 3 4 # 29 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" 2 # 30 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" extern implementation impl; typedef int64_t fxp_t; fxp_t _fxp_one; fxp_t _fxp_half; fxp_t _fxp_minus_one; fxp_t _fxp_min; fxp_t _fxp_max; double _dbl_max; double _dbl_min; fxp_t _fxp_fmask; fxp_t _fxp_imask; static const double scale_factor[31] = { 1.0, 2.0, 4.0, 8.0, 16.0, 32.0, 64.0, 128.0, 256.0, 512.0, 1024.0, 2048.0, 4096.0, 8192.0, 16384.0, 32768.0, 65536.0, 131072.0, 262144.0, 524288.0, 1048576.0, 2097152.0, 4194304.0, 8388608.0, 16777216.0, 33554432.0, 67108864.0, 134217728.0, 268435456.0, 536870912.0, 1073741824.0 }; static const double scale_factor_inv[31] = { 1.0, 0.5, 0.25, 0.125, 0.0625, 0.03125, 0.015625, 0.0078125, 0.00390625, 0.001953125, 0.0009765625, 0.00048828125, 0.000244140625, 0.0001220703125, 0.00006103515625, 0.000030517578125, 0.000015258789063, 0.000007629394531, 0.000003814697266, 0.000001907348633, 0.000000953674316, 0.000000476837158, 0.000000238418579, 0.000000119209290, 0.000000059604645, 0.000000029802322, 0.000000014901161, 0.000000007450581, 0.000000003725290, 0.000000001862645, 0.000000000931323 }; static const float rand_uni[10000] = { -0.486240329978498f, -0.0886462298529236f, -0.140307596103306f, 0.301096597450952f, 0.0993171079928659f, 0.971751769763271f, 0.985173975730828f, 0.555993645184930f, 0.582088652691427f, -0.153377496651175f, 0.383610009058905f, -0.335724126391271f, 0.978768141636516f, -0.276250018648572f, 0.390075705739569f, -0.179022404038782f, 0.690083827115783f, -0.872530132490992f, -0.970585763293203f, -0.581476053441704f, -0.532614615674888f, 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-0.0377864332655202f, -0.327376192853106f, 0.850744189707984f, 0.799571679043808f, -0.111126908452029f, 0.525587242291601f, -0.404486180733535f, -0.134496922397279f, 0.0890128096708100f, -0.815560643303157f, -0.920166023598312f, -0.360079578314899f, -0.556238898466371f, -0.220978103133838f, -0.571530268052405f, 0.573332217175226f, -0.133862258696460f, -0.982130330352248f, -0.352538465285082f, 0.318683937697894f, -0.790927430842686f, 0.691168535237102f, 0.806014327242002f, -0.981639450008060f, 0.407200095027265f, 0.918249921845949f, 0.776880149695420f, -0.437773083955269f, -0.385117533333437f, 0.0115152415796460f, 0.687224538003991f, 0.992524870612626f, 0.471003324792228f, -0.873541777412034f, -0.560923118634380f, -0.726151823613842f, -0.538941951730010f, 0.772057551475325f, 0.858490725829641f, -0.168849338472479f }; # 102 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" fxp_t wrap(fxp_t kX, fxp_t kLowerBound, fxp_t kUpperBound) { int32_t range_size = kUpperBound - kLowerBound + 1; if (kX < kLowerBound){ kX += range_size * ((kLowerBound - kX) / range_size + 1); } return kLowerBound + (kX - kLowerBound) % range_size; } fxp_t fxp_get_int_part(fxp_t in) { return ((in < 0) ? -((-in) & _fxp_imask) : in & _fxp_imask); } fxp_t fxp_get_frac_part(fxp_t in) { return ((in < 0) ? -((-in) & _fxp_fmask) : in & _fxp_fmask); } float fxp_to_float(fxp_t fxp); fxp_t fxp_quantize(fxp_t aquant) { if (overflow_mode == 2) { if(aquant < _fxp_min) { return _fxp_min; } else if(aquant > _fxp_max) { return _fxp_max; } } else if (overflow_mode == 3) { if(aquant < _fxp_min \|\| aquant > _fxp_max) { return wrap(aquant, _fxp_min, _fxp_max); } } return (fxp_t) aquant; } void fxp_verify_overflow(fxp_t value){ fxp_quantize(value); printf("An Overflow Occurred in system's output"); __DSVERIFIER_assert(value <= _fxp_max && value >= _fxp_min); } void fxp_verify_overflow_node(fxp_t value, char* msg){ if (3 == 2) { printf("%s",msg); __DSVERIFIER_assert(value <= _fxp_max && value >= _fxp_min); } } void fxp_verify_overflow_array(fxp_t array[], int n){ int i=0; for(i=0; i<n;i++){ fxp_verify_overflow(array[i]); } } fxp_t fxp_int_to_fxp(int in) { fxp_t lin; lin = (fxp_t) in_fxp_one; return lin; } int fxp_to_int(fxp_t fxp) { if(fxp >= 0){ fxp += _fxp_half; } else { fxp -= _fxp_half; } fxp >>= impl.frac_bits; return (int) fxp; } fxp_t fxp_float_to_fxp(float f) { fxp_t tmp; double ftemp; ftemp = f scale_factor[impl.frac_bits]; if(f >= 0) { tmp = (fxp_t)(ftemp + 0.5); } else { tmp = (fxp_t)(ftemp - 0.5); } return tmp; } fxp_t fxp_double_to_fxp(double value) { fxp_t tmp; double ftemp = value * scale_factor[impl.frac_bits]; if (rounding_mode == 0){ if(value >= 0) { tmp = (fxp_t)(ftemp + 0.5); } else { tmp = (fxp_t)(ftemp - 0.5); } } else if(rounding_mode == 1){ tmp = (fxp_t) ftemp; double residue = ftemp - tmp; if ((value < 0) && (residue != 0)){ ftemp = ftemp - 1; tmp = (fxp_t) ftemp; } } else if (rounding_mode == 0){ tmp = (fxp_t) ftemp; } return tmp; } void fxp_float_to_fxp_array(float f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { r[i] = fxp_float_to_fxp(f[i]); } } void fxp_double_to_fxp_array(double f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { r[i] = fxp_double_to_fxp(f[i]); } } # 275 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" float fxp_to_float(fxp_t fxp) { float f; int f_int = (int) fxp; f = f_int * scale_factor_inv[impl.frac_bits]; return f; } double fxp_to_double(fxp_t fxp) { double f; int f_int = (int) fxp; f = f_int * scale_factor_inv[impl.frac_bits]; return f; } void fxp_to_float_array(float f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { f[i] = fxp_to_float(r[i]); } } void fxp_to_double_array(double f[], fxp_t r[], int N) { int i; for(i = 0; i < N; ++i) { f[i] = fxp_to_double(r[i]); } } fxp_t fxp_abs(fxp_t a) { fxp_t tmp; tmp = ((a < 0) ? -(fxp_t)(a) : a); tmp = fxp_quantize(tmp); return tmp; } fxp_t fxp_add(fxp_t aadd, fxp_t badd) { fxp_t tmpadd; tmpadd = ((fxp_t)(aadd) + (fxp_t)(badd)); tmpadd = fxp_quantize(tmpadd); return tmpadd; } fxp_t fxp_sub(fxp_t asub, fxp_t bsub) { fxp_t tmpsub; tmpsub = (fxp_t)((fxp_t)(asub) - (fxp_t)(bsub)); tmpsub = fxp_quantize(tmpsub); return tmpsub; } fxp_t fxp_mult(fxp_t amult, fxp_t bmult) { fxp_t tmpmult, tmpmultprec; tmpmult = (fxp_t)((fxp_t)(amult)(fxp_t)(bmult)); if (tmpmult >= 0) { tmpmultprec = (tmpmult + ((tmpmult & 1 << (impl.frac_bits - 1)) << 1)) >> impl.frac_bits; } else { tmpmultprec = -(((-tmpmult) + (((-tmpmult) & 1 << (impl.frac_bits - 1)) << 1)) >> impl.frac_bits); } tmpmultprec = fxp_quantize(tmpmultprec); return tmpmultprec; } # 372 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" fxp_t fxp_div(fxp_t a, fxp_t b){ __DSVERIFIER_assume( b!=0 ); fxp_t tmpdiv = ((a << impl.frac_bits) / b); tmpdiv = fxp_quantize(tmpdiv); return tmpdiv; } fxp_t fxp_neg(fxp_t aneg) { fxp_t tmpneg; tmpneg = -(fxp_t)(aneg); tmpneg = fxp_quantize(tmpneg); return tmpneg; } # 398 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" fxp_t fxp_sign(fxp_t a) { return ((a == 0) ? 0 : ((a < 0) ? _fxp_minus_one : _fxp_one) ); } fxp_t fxp_shrl(fxp_t in, int shift) { return (fxp_t) (((unsigned int) in) >> shift); } fxp_t fxp_square(fxp_t a) { return fxp_mult(a, a); } void fxp_print_int(fxp_t a) { printf("\n%i", (int32_t)a); } void fxp_print_float(fxp_t a) { printf("\n%f", fxp_to_float(a)); } void fxp_print_float_array(fxp_t a[], int N) { int i; for(i = 0; i < N; ++i) { printf("\n%f", fxp_to_float(a[i])); } } void print_fxp_array_elements(char name, fxp_t * v, int n){ printf("%s = {", name); int i; for(i=0; i < n; i++){ printf(" %jd ", v[i]); } printf("}\n"); } # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 1 # 24 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" void initialize_array(double v[], int n){ int i; for(i=0; i<n; i++){ v[i] = 0; } } void revert_array(double v[], double out[], int n){ initialize_array(out,n); int i; for(i=0; i<n; i++){ out[i] = v[n-i-1]; } } double internal_pow(double a, double b){ int i; double acc = 1; for (i=0; i < b; i++){ acc = acca; } return acc; } double internal_abs(double a){ return a < 0 ? -a : a; } int fatorial(int n){ return n == 0 ? 1 : n fatorial(n-1); } int check_stability(double a[], int n){ int lines = 2 * n - 1; int columns = n; double m[lines][n]; int i,j; double current_stability[n]; for (i=0; i < n; i++){ current_stability[i] = a[i]; } double sum = 0; for (i=0; i < n; i++){ sum += a[i]; } if (sum <= 0){ printf("[DEBUG] the first constraint of Jury criteria failed: (F(1) > 0)"); return 0; } sum = 0; for (i=0; i < n; i++){ sum += a[i] * internal_pow(-1, n-1-i); } sum = sum * internal_pow(-1, n-1); if (sum <= 0){ printf("[DEBUG] the second constraint of Jury criteria failed: (F(-1)(-1)^n > 0)"); return 0; } if (internal_abs(a[n-1]) > a[0]){ printf("[DEBUG] the third constraint of Jury criteria failed: (abs(a0) < a_{n}z^{n})"); return 0; } for (i=0; i < lines; i++){ for (j=0; j < columns; j++){ m[i][j] = 0; } } for (i=0; i < lines; i++){ for (j=0; j < columns; j++){ if (i == 0){ m[i][j] = a[j]; continue; } if (i % 2 != 0 ){ int x; for(x=0; x<columns;x++){ m[i][x] = m[i-1][columns-x-1]; } columns = columns - 1; j = columns; }else{ m[i][j] = m[i-2][j] - (m[i-2][columns] / m[i-2][0]) * m[i-1][j]; } } } int first_is_positive = m[0][0] >= 0 ? 1 : 0; for (i=0; i < lines; i++){ if (i % 2 == 0){ int line_is_positive = m[i][0] >= 0 ? 1 : 0; if (first_is_positive != line_is_positive){ return 0; } continue; } } return 1; } void poly_sum(double a[], int Na, double b[], int Nb, double ans[], int Nans){ int i; Nans = Na>Nb? Na:Nb; for (i=0; i<Nans; i++){ if (Na>Nb){ ans[i]=a[i]; if (i > Na-Nb-1){ ans[i]=ans[i]+b[i-Na+Nb]; } }else { ans[i]=b[i]; if (i> Nb - Na -1){ ans[i]=ans[i]+a[i-Nb+Na]; } } } } void poly_mult(double a[], int Na, double b[], int Nb, double ans[], int Nans){ int i; int j; int k; Nans = Na+Nb-1; for (i=0; i<Na; i++){ for (j=0; j<Nb; j++){ k= Na + Nb - i - j - 2; ans[k]=0; } } for (i=0; i<Na; i++){ for (j=0; j<Nb; j++){ k= Na + Nb - i - j - 2; ans[k]=ans[k]+a[Na - i - 1]b[Nb - j - 1]; } } } void double_check_oscillations(double y, int y_size){ __DSVERIFIER_assume(y[0] != y[y_size - 1]); int window_timer = 0; int window_count = 0; int i, j; for (i = 2; i < y_size; i++){ int window_size = i; for(j=0; j<y_size; j++){ if (window_timer > window_size){ window_timer = 0; window_count = 0; } int window_index = j + window_size; if (window_index < y_size){ if (y[j] == y[window_index]){ window_count++; # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 ((void) sizeof (( # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" !(window_count == window_size) # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" !(window_count == window_size) # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 ) ; else __assert_fail ( # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" "!(window_count == window_size)" # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h", 209, __extension__ __PRETTY_FUNCTION__); })) # 209 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/util.h" ; } }else{ break; } window_timer++; } } } void double_check_limit_cycle(double * y, int y_size){ double reference = y[y_size - 1]; int idx = 0; int window_size = 1; for(idx = (y_size-2); idx >= 0; idx--){ if (y[idx] != reference){ window_size++; }else{ break; } } __DSVERIFIER_assume(window_size != y_size && window_size != 1); printf("window_size %d\n", window_size); int desired_elements = 2 * window_size; int found_elements = 0; for(idx = (y_size-1); idx >= 0; idx--){ if (idx > (y_size-window_size-1)){ printf("%.0f == %.0f\n", y[idx], y[idx-window_size]); int cmp_idx = idx - window_size; if ((cmp_idx > 0) && (y[idx] == y[idx-window_size])){ found_elements = found_elements + 2; }else{ break; } } } printf("desired_elements %d\n", desired_elements); printf("found_elements %d\n", found_elements); __DSVERIFIER_assert(desired_elements != found_elements); } void double_check_persistent_limit_cycle(double * y, int y_size){ int idy = 0; int count_same = 0; int window_size = 0; double reference = y[0]; for(idy = 0; idy < y_size; idy++){ if (y[idy] != reference){ window_size++; } else if (window_size != 0){ break; } else { count_same++; } } window_size += count_same; __DSVERIFIER_assume(window_size > 1 && window_size <= y_size/2); double lco_elements[window_size]; for(idy = 0; idy < y_size; idy++){ if (idy < window_size){ lco_elements[idy] = y[idy]; } } idy = 0; int lco_idy = 0; _Bool is_persistent = 0; while (idy < y_size){ if(y[idy++] == lco_elements[lco_idy++]){ is_persistent = 1; }else{ is_persistent = 0; break; } if (lco_idy == window_size){ lco_idy = 0; } } __DSVERIFIER_assert(is_persistent == 0); } void print_array_elements(char * name, double * v, int n){ printf("%s = {", name); int i; for(i=0; i < n; i++){ printf(" %.32f ", v[i]); } printf("}\n"); } void double_add_matrix( unsigned int lines, unsigned int columns, double m1[4][4], double m2[4][4], double result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ result[i][j] = m1[i][j] + m2[i][j]; } } } void double_sub_matrix( unsigned int lines, unsigned int columns, double m1[4][4], double m2[4][4], double result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ result[i][j] = m1[i][j] - m2[i][j]; } } } void double_matrix_multiplication( unsigned int i1, unsigned int j1, unsigned int i2, unsigned int j2, double m1[4][4], double m2[4][4], double m3[4][4]){ unsigned int i, j, k; if (j1 == i2) { for (i=0; i<i1; i++) { for (j=0; j<j2; j++) { m3[i][j] = 0; } } for (i=0;i<i1; i++) { for (j=0; j<j2; j++) { for (k=0; k<j1; k++) { double mult = (m1[i][k] * m2[k][j]); m3[i][j] = m3[i][j] + (m1[i][k] * m2[k][j]); } } } } else { printf("\nError! Operation invalid, please enter with valid matrices.\n"); } } void fxp_matrix_multiplication( unsigned int i1, unsigned int j1, unsigned int i2, unsigned int j2, fxp_t m1[4][4], fxp_t m2[4][4], fxp_t m3[4][4]){ unsigned int i, j, k; if (j1 == i2) { for (i=0; i<i1; i++) { for (j=0; j<j2; j++) { m3[i][j] = 0; } } for (i=0;i<i1; i++) { for (j=0; j<j2; j++) { for (k=0; k<j1; k++) { m3[i][j] = fxp_add( m3[i][j], fxp_mult(m1[i][k] , m2[k][j])); } } } } else { printf("\nError! Operation invalid, please enter with valid matrices.\n"); } } void fxp_exp_matrix(unsigned int lines, unsigned int columns, fxp_t m1[4][4], unsigned int expNumber, fxp_t result[4][4]){ unsigned int i, j, l, k; fxp_t m2[4][4]; if(expNumber == 0){ for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ if(i == j){ result[i][j] = fxp_double_to_fxp(1.0); } else { result[i][j] = 0.0; } } } return; } for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = m1[i][j]; if(expNumber == 1){ return; } for(l = 1; l < expNumber; l++){ for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) m2[i][j] = result[i][j]; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = 0; for (i=0;i<lines; i++) { for (j=0; j<columns; j++) { for (k=0; k<columns; k++) { result[i][j] = fxp_add( result[i][j], fxp_mult(m2[i][k] , m1[k][j])); } } } } } void double_exp_matrix(unsigned int lines, unsigned int columns, double m1[4][4], unsigned int expNumber, double result[4][4]){ unsigned int i, j, k, l; double m2[4][4]; if(expNumber == 0){ for (i = 0; i < lines; i++){ for (j = 0; j < columns; j++){ if(i == j){ result[i][j] = 1.0; } else { result[i][j] = 0.0; } } } return; } for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = m1[i][j]; if(expNumber == 1){ return; } for(l = 1; l < expNumber; l++){ for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) m2[i][j] = result[i][j]; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = 0; for (i=0;i<lines; i++) { for (j=0; j<columns; j++) { for (k=0; k<columns; k++) { result[i][j] = result[i][j] + (m2[i][k] * m1[k][j]); } } } } } void fxp_add_matrix( unsigned int lines, unsigned int columns, fxp_t m1[4][4], fxp_t m2[4][4], fxp_t result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) { result[i][j] = fxp_add(m1[i][j] , m2[i][j]); } } void fxp_sub_matrix( unsigned int lines, unsigned int columns, fxp_t m1[4][4], fxp_t m2[4][4], fxp_t result[4][4]){ unsigned int i, j; for (i = 0; i < lines; i++) for (j = 0; j < columns; j++) result[i][j] = fxp_sub(m1[i][j] , m2[i][j]); } void print_matrix(double matrix[4][4], unsigned int lines, unsigned int columns){ printf("\nMatrix\n=====================\n\n"); unsigned int i, j; for (i=0; i<lines; i++) { for (j=0; j<columns; j++) { printf("#matrix[%d][%d]: %2.2f ", i,j,matrix[i][j]); } printf("\n"); } printf("\n"); } double determinant(double a[4][4],int n) { int i,j,j1,j2; double det = 0; double m[4][4]; if (n < 1) { } else if (n == 1) { det = a[0][0]; } else if (n == 2) { det = a[0][0] * a[1][1] - a[1][0] * a[0][1]; } else { det = 0; for (j1=0;j1<n;j1++) { for (i=0;i<n-1;i++) for (i=1;i<n;i++) { j2 = 0; for (j=0;j<n;j++) { if (j == j1) continue; m[i-1][j2] = a[i][j]; j2++; } } det += internal_pow(-1.0,1.0+j1+1.0) * a[0][j1] * determinant(m,n-1); } } return(det); } double fxp_determinant(fxp_t a_fxp[4][4],int n) { int i,j,j1,j2; double a[4][4]; for(i=0; i<n;i++){ for(j=0; j<n;j++){ a[i][j]= fxp_to_double(a_fxp[i][j]); } } double det = 0; double m[4][4]; if (n < 1) { } else if (n == 1) { det = a[0][0]; } else if (n == 2) { det = a[0][0] * a[1][1] - a[1][0] * a[0][1]; } else { det = 0; for (j1=0;j1<n;j1++) { for (i=0;i<n-1;i++) for (i=1;i<n;i++) { j2 = 0; for (j=0;j<n;j++) { if (j == j1) continue; m[i-1][j2] = a[i][j]; j2++; } } det += internal_pow(-1.0,1.0+j1+1.0) * a[0][j1] * determinant(m,n-1); } } return(det); } void transpose(double a[4][4], double b[4][4],int n, int m) { int i,j; for (i=0;i<n;i++) { for (j=0;j<m;j++) { b[j][i] = a[i][j]; } } } void fxp_transpose(fxp_t a[4][4], fxp_t b[4][4],int n, int m) { int i,j; for (i=0;i<n;i++) { for (j=0;j<m;j++) { b[j][i] = a[i][j]; } } } # 24 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" extern int generic_timer; extern hardware hw; double generic_timing_shift_l_double(double zIn, double z[], int N) { generic_timer += ((2 * hw.assembly.push) + (3 * hw.assembly.in) + (3 * hw.assembly.out) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli) + (8 * hw.assembly.std)); int i; double zOut; zOut = z[0]; generic_timer += ((5 * hw.assembly.ldd) + (2 * hw.assembly.mov) + (4 * hw.assembly.std) + (1 * hw.assembly.ld)); generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (i = 0; i < N - 1; i++) { generic_timer += ((17 * hw.assembly.ldd) + (4 * hw.assembly.lsl) + (4 * hw.assembly.rol) + (2 * hw.assembly.add) + (2 * hw.assembly.adc) + (6 * hw.assembly.mov) + (2 * hw.assembly.adiw) + (5 * hw.assembly.std) + (1 * hw.assembly.ld) + (1 * hw.assembly.st) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbc)+ (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brlt)); z[i] = z[i + 1]; } z[N - 1] = zIn; generic_timer += ((12 * hw.assembly.ldd) + (6 * hw.assembly.mov) + (3 * hw.assembly.std) + (2 * hw.assembly.lsl) + (2 * hw.assembly.rol) + (1 * hw.assembly.adc) + (1 * hw.assembly.add) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.st) + (1 * hw.assembly.adiw) + (1 * hw.assembly.in)+ (1 * hw.assembly.cli)); generic_timer += ((3 * hw.assembly.out) + (2 * hw.assembly.pop) + (1 * hw.assembly.ret)); return (zOut); } double generic_timing_shift_r_double(double zIn, double z[], int N) { generic_timer += ((2 * hw.assembly.push) + (3 * hw.assembly.in) + (3 * hw.assembly.out) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli) + (8 * hw.assembly.std)); int i; double zOut; zOut = z[N - 1]; generic_timer += ((7 * hw.assembly.ldd) + (2 * hw.assembly.rol) + (2 * hw.assembly.lsl) + (2 * hw.assembly.mov) + (4 * hw.assembly.std) + (1 * hw.assembly.add) + (1 * hw.assembly.adc) + (1 * hw.assembly.ld) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci)); generic_timer += ((2 * hw.assembly.ldd) + (2 * hw.assembly.std) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.rjmp)); for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; generic_timer += ((15 * hw.assembly.ldd) + (4 * hw.assembly.lsl) + (4 * hw.assembly.rol) + (2 * hw.assembly.add) + (2 * hw.assembly.adc) + (4 * hw.assembly.mov) + (5 * hw.assembly.std) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.ld) + (1 * hw.assembly.st) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brlt)); } z[0] = zIn; generic_timer += ((10 * hw.assembly.ldd) + (5 * hw.assembly.mov) + (3 * hw.assembly.std) + (3 * hw.assembly.out) + (2 * hw.assembly.pop) + (1 * hw.assembly.ret) + (1 * hw.assembly.ret) + (1 * hw.assembly.cli) + (1 * hw.assembly.in) + (1 * hw.assembly.st) + (1 * hw.assembly.adiw)); return zOut; } fxp_t shiftL(fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } fxp_t shiftR(fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; zOut = z[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; } z[0] = zIn; return zOut; } float shiftLfloat(float zIn, float z[], int N) { int i; float zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } float shiftRfloat(float zIn, float z[], int N) { int i; float zOut; zOut = z[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; } z[0] = zIn; return zOut; } double shiftRDdouble(double zIn, double z[], int N) { int i; double zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } double shiftRdouble(double zIn, double z[], int N) { int i; double zOut; zOut = z[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; } z[0] = zIn; return zOut; } double shiftLDouble(double zIn, double z[], int N) { int i; double zOut; zOut = z[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; } z[N - 1] = zIn; return (zOut); } void shiftLboth(float zfIn, float zf[], fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; float zfOut; zOut = z[0]; zfOut = zf[0]; for (i = 0; i < N - 1; i++) { z[i] = z[i + 1]; zf[i] = zf[i + 1]; } z[N - 1] = zIn; zf[N - 1] = zfIn; } void shiftRboth(float zfIn, float zf[], fxp_t zIn, fxp_t z[], int N) { int i; fxp_t zOut; float zfOut; zOut = z[N - 1]; zfOut = zf[N - 1]; for (i = N - 1; i > 0; i--) { z[i] = z[i - 1]; zf[i] = zf[i - 1]; } z[0] = zIn; zf[0] = zfIn; } int order(int Na, int Nb) { return Na > Nb ? Na - 1 : Nb - 1; } void fxp_check_limit_cycle(fxp_t y[], int y_size){ fxp_t reference = y[y_size - 1]; int idx = 0; int window_size = 1; for(idx = (y_size-2); idx >= 0; idx--){ if (y[idx] != reference){ window_size++; }else{ break; } } __DSVERIFIER_assume(window_size != y_size && window_size != 1); printf("window_size %d\n", window_size); int desired_elements = 2 * window_size; int found_elements = 0; for(idx = (y_size-1); idx >= 0; idx--){ if (idx > (y_size-window_size-1)){ printf("%.0f == %.0f\n", y[idx], y[idx-window_size]); int cmp_idx = idx - window_size; if ((cmp_idx > 0) && (y[idx] == y[idx-window_size])){ found_elements = found_elements + 2; }else{ break; } } } __DSVERIFIER_assume(found_elements > 0); printf("desired_elements %d\n", desired_elements); printf("found_elements %d\n", found_elements); __DSVERIFIER_assume(found_elements == desired_elements); __DSVERIFIER_assert(0); } void fxp_check_persistent_limit_cycle(fxp_t * y, int y_size){ int idy = 0; int count_same = 0; int window_size = 0; fxp_t reference = y[0]; for(idy = 0; idy < y_size; idy++){ if (y[idy] != reference){ window_size++; } else if (window_size != 0){ break; } else { count_same++; } } window_size += count_same; __DSVERIFIER_assume(window_size > 1 && window_size <= y_size/2); fxp_t lco_elements[window_size]; for(idy = 0; idy < y_size; idy++){ if (idy < window_size){ lco_elements[idy] = y[idy]; } } idy = 0; int lco_idy = 0; _Bool is_persistent = 0; while (idy < y_size){ if(y[idy++] == lco_elements[lco_idy++]){ is_persistent = 1; }else{ is_persistent = 0; break; } if (lco_idy == window_size){ lco_idy = 0; } } __DSVERIFIER_assert(is_persistent == 0); } void fxp_check_oscillations(fxp_t y[] , int y_size){ __DSVERIFIER_assume((y[0] != y[y_size - 1]) && (y[y_size - 1] != y[y_size - 2])); int window_timer = 0; int window_count = 0; int i, j; for (i = 2; i < y_size; i++){ int window_size = i; for(j=0; j<y_size; j++){ if (window_timer > window_size){ window_timer = 0; window_count = 0; } int window_index = j + window_size; if (window_index < y_size){ if (y[j] == y[window_index]){ window_count++; __DSVERIFIER_assert(!(window_count == window_size)); } }else{ break; } window_timer++; } } } int fxp_ln(int x) { int t, y; y = 0xa65af; if (x < 0x00008000) x <<= 16, y -= 0xb1721; if (x < 0x00800000) x <<= 8, y -= 0x58b91; if (x < 0x08000000) x <<= 4, y -= 0x2c5c8; if (x < 0x20000000) x <<= 2, y -= 0x162e4; if (x < 0x40000000) x <<= 1, y -= 0x0b172; t = x + (x >> 1); if ((t & 0x80000000) == 0) x = t, y -= 0x067cd; t = x + (x >> 2); if ((t & 0x80000000) == 0) x = t, y -= 0x03920; t = x + (x >> 3); if ((t & 0x80000000) == 0) x = t, y -= 0x01e27; t = x + (x >> 4); if ((t & 0x80000000) == 0) x = t, y -= 0x00f85; t = x + (x >> 5); if ((t & 0x80000000) == 0) x = t, y -= 0x007e1; t = x + (x >> 6); if ((t & 0x80000000) == 0) x = t, y -= 0x003f8; t = x + (x >> 7); if ((t & 0x80000000) == 0) x = t, y -= 0x001fe; x = 0x80000000 - x; y -= x >> 15; return y; } double fxp_log10_low(double x) { int xint = (int) (x * 65536.0 + 0.5); int lnum = fxp_ln(xint); int lden = fxp_ln(655360); return ((double) lnum / (double) lden); } double fxp_log10(double x) { if (x > 32767.0) { if (x > 1073676289.0) { x = x / 1073676289.0; return fxp_log10_low(x) + 9.030873362; } x = x / 32767.0; return fxp_log10_low(x) + 4.515436681; } return fxp_log10_low(x); } float snrVariance(float s[], float n[], int blksz) { int i; double sm = 0, nm = 0, sv = 0, nv = 0, snr; for (i = 0; i < blksz; i++) { sm += s[i]; nm += n[i]; } sm /= blksz; nm /= blksz; for (i = 0; i < blksz; i++) { sv += (s[i] - sm) * (s[i] - sm); nv += (n[i] - nm) * (n[i] - nm); } if (nv != 0.0f) { # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "sv >= nv" # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 373, __extension__ __PRETTY_FUNCTION__); })) # 373 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; snr = sv / nv; return snr; } else { return 9999.9f; } } float snrPower(float s[], float n[], int blksz) { int i; double sv = 0, nv = 0, snr; for (i = 0; i < blksz; i++) { sv += s[i] * s[i]; nv += n[i] * n[i]; } if (nv != 0.0f) { # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" sv >= nv # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "sv >= nv" # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 394, __extension__ __PRETTY_FUNCTION__); })) # 394 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; snr = sv / nv; return snr; } else { return 9999.9f; } } float snrPoint(float s[], float n[], int blksz) { int i; double ratio = 0, power = 0; for (i = 0; i < blksz; i++) { if(n[i] == 0) continue; ratio = s[i] / n[i]; if(ratio > 150.0f \|\| ratio < -150.0f) continue; power = ratio * ratio; # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" power >= 1.0f # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" power >= 1.0f # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "power >= 1.0f" # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 412, __extension__ __PRETTY_FUNCTION__); })) # 412 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; } return 9999.9f; } unsigned long next = 1; int rand(void) { next = next1103515245 + 12345; return (unsigned int)(next/65536) % 32768; } void srand(unsigned int seed) { next = seed; } float iirIIOutTime(float w[], float x, float a[], float b[], int Na, int Nb) { int timer1 = 0; float a_ptr, b_ptr, w_ptr; float sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; timer1 += 71; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; timer1 += 54; } w[0] += x; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; timer1 += 46; } timer1 += 38; # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "(double)timer1CYCLE <= (double)DEADLINE" # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 450, __extension__ __PRETTY_FUNCTION__); })) # 450 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; return sum; } float iirIItOutTime(float w[], float x, float a[], float b[], int Na, int Nb) { int timer1 = 0; float a_ptr, b_ptr; float yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ x) + w[0]; int j; timer1 += 105; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; timer1 += 41; } if (j < Nb - 1) { w[j] += b_ptr++ x; timer1 += 38; } timer1 += 54; } timer1 += 7; # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "(double)timer1CYCLE <= (double)DEADLINE" # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 477, __extension__ __PRETTY_FUNCTION__); })) # 477 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; return yout; } double iirIItOutTime_double(double w[], double x, double a[], double b[], int Na, int Nb) { int timer1 = 0; double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ * x) + w[0]; int j; timer1 += 105; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; timer1 += 41; } if (j < Nb - 1) { w[j] += b_ptr++ x; timer1 += 38; } timer1 += 54; } timer1 += 7; # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ((void) sizeof (( # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" (double)timer11 / 16000000 <= (double)1 / 100 # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 ) ; else __assert_fail ( # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" "(double)timer1CYCLE <= (double)DEADLINE" # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h", 504, __extension__ __PRETTY_FUNCTION__); })) # 504 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/functions.h" ; return yout; } void iirOutBoth(float yf[], float xf[], float af[], float bf[], float sumf_ref, fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], fxp_t sum_ref, int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; float af_ptr, yf_ptr, bf_ptr, xf_ptr; fxp_t sum = 0; float sumf = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; af_ptr = &af[1]; yf_ptr = &yf[Na - 1]; bf_ptr = &bf[0]; xf_ptr = &xf[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum = fxp_add(sum, fxp_mult(b_ptr++, x_ptr--)); sumf += bf_ptr++ * xf_ptr--; } for (j = 1; j < Na; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr++, y_ptr--)); sumf -= af_ptr++ * yf_ptr--; } sum_ref = sum; sumf_ref = sumf; } fxp_t iirOutFixedL(fxp_t y[], fxp_t x[], fxp_t xin, fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; int i, j; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); } x[Nb - 1] = xin; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); for (j = 1; j < Na - 1; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[j] = y[j+1]; } if(Na>1) sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[Na - 1] = sum; return sum; } float iirOutFloatL(float y[], float x[], float xin, float a[], float b[], int Na, int Nb) { float a_ptr, y_ptr, b_ptr, x_ptr; float sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; int i, j; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum += b_ptr-- * x_ptr++; } x[Nb - 1] = xin; sum += b_ptr-- * x_ptr++; for (j = 1; j < Na - 1; j++) { sum -= a_ptr-- * y_ptr++; y[j] = y[j+1]; } if(Na>1) sum -= a_ptr-- * y_ptr++; y[Na - 1] = sum; return sum; } float iirOutBothL(float yf[], float xf[], float af[], float bf[], float xfin, fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], fxp_t xin, int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; float af_ptr, yf_ptr, bf_ptr, xf_ptr; float sumf = 0; af_ptr = &af[Na - 1]; yf_ptr = &yf[1]; bf_ptr = &bf[Nb - 1]; xf_ptr = &xf[0]; int i, j; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); xf[i] = xf[i+1]; sumf += bf_ptr-- * xf_ptr++; } x[Nb - 1] = xin; sum = fxp_add(sum, fxp_mult(b_ptr--, x_ptr++)); xf[Nb - 1] = xfin; sumf += bf_ptr-- * xf_ptr++; for (j = 1; j < Na - 1; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[j] = y[j+1]; sumf -= af_ptr-- * yf_ptr++; yf[j] = yf[j+1]; } if(Na>1) sum = fxp_sub(sum, fxp_mult(a_ptr--, y_ptr++)); y[Na - 1] = sum; if(Na>1) sumf -= af_ptr-- * yf_ptr++; yf[Na - 1] = sumf; return fxp_to_float(sum) - sumf; } float iirOutBothL2(float yf[], float xf[], float af[], float bf[], float xfin, fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], fxp_t xin, int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[Na - 1]; y_ptr = &y[1]; b_ptr = &b[Nb - 1]; x_ptr = &x[0]; float af_ptr, yf_ptr, bf_ptr, xf_ptr; float sumf = 0; af_ptr = &af[Na - 1]; yf_ptr = &yf[1]; bf_ptr = &bf[Nb - 1]; xf_ptr = &xf[0]; int i=0, j=1; for (i = 0; i < Nb - 1; i++) { x[i] = x[i+1]; sum = fxp_add(sum, fxp_mult(b[Nb - 1 - i], x[i])); xf[i] = xf[i+1]; sumf += bf[Nb - 1 - i] xf[i]; } x[Nb - 1] = xin; sum = fxp_add(sum, fxp_mult(b[Nb - 1 - i], x[i])); xf[Nb - 1] = xfin; sumf += bf[Nb - 1 - i] * xf[i]; for (j = 1; j < Na - 1; j++) { sum = fxp_sub(sum, fxp_mult(a[Na - j], y[j])); y[j] = y[j+1]; sumf -= af[Na - j] * yf[j]; yf[j] = yf[j+1]; } if(Na>1) sum = fxp_sub(sum, fxp_mult(a[Na - j], y[j])); y[Na - 1] = sum; if(Na>1) sumf -= af[Na - j] * yf[j]; yf[Na - 1] = sumf; return fxp_to_float(sum) - sumf; } # 25 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" extern digital_system ds; extern hardware hw; extern int generic_timer; fxp_t fxp_direct_form_1(fxp_t y[], fxp_t x[], fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, y_ptr, b_ptr, x_ptr; fxp_t sum = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum = fxp_add(sum, fxp_mult(b_ptr++, x_ptr--)); } for (j = 1; j < Na; j++) { sum = fxp_sub(sum, fxp_mult(a_ptr++, y_ptr--)); } fxp_verify_overflow_node(sum, "An Overflow Occurred in the node a0"); sum = fxp_div(sum,a[0]); return fxp_quantize(sum); } fxp_t fxp_direct_form_2(fxp_t w[], fxp_t x, fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, b_ptr, w_ptr; fxp_t sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; for (j = 1; j < Na; j++) { w[0] = fxp_sub(w[0], fxp_mult(a_ptr++, w_ptr++)); } w[0] = fxp_add(w[0], x); w[0] = fxp_div(w[0], a[0]); fxp_verify_overflow_node(w[0], "An Overflow Occurred in the node b0"); w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum = fxp_add(sum, fxp_mult(b_ptr++, w_ptr++)); } return fxp_quantize(sum); } fxp_t fxp_transposed_direct_form_2(fxp_t w[], fxp_t x, fxp_t a[], fxp_t b[], int Na, int Nb) { fxp_t a_ptr, b_ptr; fxp_t yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = fxp_add(fxp_mult(b_ptr++, x), w[0]); yout = fxp_div(yout, a[0]); int j; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] = fxp_sub(w[j], fxp_mult(a_ptr++, yout)); } if (j < Nb - 1) { w[j] = fxp_add(w[j], fxp_mult(b_ptr++, x)); } } fxp_verify_overflow_node(w[j], "An Overflow Occurred in the node a0"); return fxp_quantize(yout); } double double_direct_form_1(double y[], double x[], double a[], double b[], int Na, int Nb) { double a_ptr, y_ptr, b_ptr, x_ptr; double sum = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum += b_ptr++ x_ptr--; } for (j = 1; j < Na; j++) { sum -= a_ptr++ * y_ptr--; } sum = (sum / a[0]); return sum; } double double_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { double a_ptr, b_ptr, w_ptr; double sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; } w[0] += x; w[0] = w[0] / a[0]; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; } return sum; } double double_transposed_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ * x) + w[0]; yout = yout / a[0]; int j; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; } if (j < Nb - 1) { w[j] += b_ptr++ x; } } return yout; } float float_direct_form_1(float y[], float x[], float a[], float b[], int Na, int Nb) { float a_ptr, y_ptr, b_ptr, x_ptr; float sum = 0; a_ptr = &a[1]; y_ptr = &y[Na - 1]; b_ptr = &b[0]; x_ptr = &x[Nb - 1]; int i, j; for (i = 0; i < Nb; i++) { sum += b_ptr++ x_ptr--; } for (j = 1; j < Na; j++) { sum -= a_ptr++ * y_ptr--; } sum = (sum / a[0]); return sum; } float float_direct_form_2(float w[], float x, float a[], float b[], int Na, int Nb) { float a_ptr, b_ptr, w_ptr; float sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; } w[0] += x; w[0] = w[0] / a[0]; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; } return sum; } float float_transposed_direct_form_2(float w[], float x, float a[], float b[], int Na, int Nb) { float a_ptr, b_ptr; float yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ * x) + w[0]; yout = yout / a[0]; int j; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; } if (j < Nb - 1) { w[j] += b_ptr++ x; } } return yout; } double double_direct_form_1_MSP430(double y[], double x[], double a[], double b[], int Na, int Nb){ int timer1 = 0; double a_ptr, y_ptr, b_ptr, x_ptr; double sum = 0; a_ptr = &a[1]; y_ptr = &y[Na-1]; b_ptr = &b[0]; x_ptr = &x[Nb-1]; int i, j; timer1 += 91; for (i = 0; i < Nb; i++){ sum += b_ptr++ x_ptr--; timer1 += 47; } for (j = 1; j < Na; j++){ sum -= a_ptr++ * y_ptr--; timer1 += 57; } timer1 += 3; # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ((void) sizeof (( # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 hw.cycle <= ds.sample_time # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ; else __assert_fail ( # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" "(double) timer1 * hw.cycle <= ds.sample_time" # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h", 235, __extension__ __PRETTY_FUNCTION__); })) # 235 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" ; return sum; } double double_direct_form_2_MSP430(double w[], double x, double a[], double b[], int Na, int Nb) { int timer1 = 0; double a_ptr, b_ptr, w_ptr; double sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; timer1 += 71; for (j = 1; j < Na; j++) { w[0] -= a_ptr++ * w_ptr++; timer1 += 54; } w[0] += x; w[0] = w[0] / a[0]; w_ptr = &w[0]; for (k = 0; k < Nb; k++) { sum += b_ptr++ * w_ptr++; timer1 += 46; } timer1 += 38; # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ((void) sizeof (( # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 hw.cycle <= ds.sample_time # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ; else __assert_fail ( # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" "(double) timer1 * hw.cycle <= ds.sample_time" # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h", 262, __extension__ __PRETTY_FUNCTION__); })) # 262 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" ; return sum; } double double_transposed_direct_form_2_MSP430(double w[], double x, double a[], double b[], int Na, int Nb) { int timer1 = 0; double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ x) + w[0]; int j; timer1 += 105; for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; timer1 += 41; } if (j < Nb - 1) { w[j] += b_ptr++ x; timer1 += 38; } timer1 += 54; } timer1 += 7; # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ((void) sizeof (( # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" (double) timer1 * hw.cycle <= ds.sample_time # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 ) ; else __assert_fail ( # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" "(double) timer1 * hw.cycle <= ds.sample_time" # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h", 291, __extension__ __PRETTY_FUNCTION__); })) # 291 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/realizations.h" ; return yout; } double generic_timing_double_direct_form_1(double y[], double x[], double a[], double b[], int Na, int Nb){ generic_timer += ((6 * hw.assembly.push) + (3 * hw.assembly.in) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli) + (3 * hw.assembly.out) + (12 * hw.assembly.std)); double a_ptr, y_ptr, b_ptr, x_ptr; double sum = 0; a_ptr = &a[1]; y_ptr = &y[Na-1]; b_ptr = &b[0]; x_ptr = &x[Nb-1]; generic_timer += ((12 * hw.assembly.std) + (12 * hw.assembly.ldd) + (2 * hw.assembly.subi) + (2 * hw.assembly.sbci) + (4 * hw.assembly.lsl) + (4 * hw.assembly.rol) + (2 * hw.assembly.add) + (2 * hw.assembly.adc) + (1 * hw.assembly.adiw)); int i, j; generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (i = 0; i < Nb; i++){ generic_timer += ((20 * hw.assembly.ldd) + (24 * hw.assembly.mov) + (2 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.sbc) + (10 * hw.assembly.std) + (2 * hw.assembly.ld) + (2 * hw.assembly.rcall) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.adiw) + (1 * hw.assembly.brge) + (1 * hw.assembly.rjmp)); sum += b_ptr++ x_ptr--; } generic_timer += ((2 hw.assembly.ldi) + (2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (j = 1; j < Na; j++){ generic_timer += ((22 * hw.assembly.ldd) + (24 * hw.assembly.mov) + (2 * hw.assembly.subi) + (8 * hw.assembly.std) + (1 * hw.assembly.sbci) + (2 * hw.assembly.ld) + (2 * hw.assembly.rcall) + (1 * hw.assembly.sbc) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.adiw) + (1 * hw.assembly.brge) + (1 * hw.assembly.rjmp)); sum -= a_ptr++ y_ptr--; } generic_timer += ((4 hw.assembly.ldd) + (4 * hw.assembly.mov) + (1 * hw.assembly.adiw) + (1 * hw.assembly.in) + (1 * hw.assembly.cli) + (3 * hw.assembly.out) + (6 * hw.assembly.pop) + (1 * hw.assembly.ret)); return sum; } double generic_timing_double_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { generic_timer += ((8 * hw.assembly.push) + (14 * hw.assembly.std) + (3 * hw.assembly.out) + (3 * hw.assembly.in) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli)); double a_ptr, b_ptr, w_ptr; double sum = 0; a_ptr = &a[1]; b_ptr = &b[0]; w_ptr = &w[1]; int k, j; generic_timer += ((10 hw.assembly.std) + (6 * hw.assembly.ldd) + (2 * hw.assembly.adiw)); generic_timer += ((2 * hw.assembly.ldi) + (2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (j = 1; j < Na; j++) { w[0] -= a_ptr++ w_ptr++; generic_timer += ((23 hw.assembly.ldd) + (32 * hw.assembly.mov) + (9 * hw.assembly.std) + (2 * hw.assembly.subi) + (3 * hw.assembly.ld) + (2 * hw.assembly.rcall) + (2 * hw.assembly.sbci) + (1 * hw.assembly.st) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brge)); } w[0] += x; w_ptr = &w[0]; generic_timer += ((13 * hw.assembly.ldd) + (12 * hw.assembly.mov) + (5 * hw.assembly.std) + (1 * hw.assembly.st) + (1 * hw.assembly.ld) + (1 * hw.assembly.rcall)); generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (k = 0; k < Nb; k++) { sum += b_ptr++ w_ptr++; generic_timer += ((20 hw.assembly.ldd) + (24 * hw.assembly.mov) + (10 * hw.assembly.std) + (2 * hw.assembly.rcall) + (2 * hw.assembly.ld) + (2 * hw.assembly.subi) + (2 * hw.assembly.sbci) + (1 * hw.assembly.adiw) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brge) + (1 * hw.assembly.rjmp)); } generic_timer += ((4 * hw.assembly.ldd) + (4 * hw.assembly.mov) + (1 * hw.assembly.adiw) + (1 * hw.assembly.in) + (1 * hw.assembly.cli) + (3 * hw.assembly.out) + (8 * hw.assembly.pop) + (1 * hw.assembly.ret)); return sum; } double generic_timing_double_transposed_direct_form_2(double w[], double x, double a[], double b[], int Na, int Nb) { generic_timer += ((8 * hw.assembly.push) + (14 * hw.assembly.std) + (3 * hw.assembly.out) + (3 * hw.assembly.in) + (1 * hw.assembly.sbiw) + (1 * hw.assembly.cli)); double a_ptr, b_ptr; double yout = 0; a_ptr = &a[1]; b_ptr = &b[0]; int Nw = Na > Nb ? Na : Nb; yout = (b_ptr++ x) + w[0]; int j; generic_timer += ((15 * hw.assembly.std) + (22 * hw.assembly.ldd) + (24 * hw.assembly.mov) + (2 * hw.assembly.rcall) + (2 * hw.assembly.ld) + (1 * hw.assembly.cp) + (1 * hw.assembly.cpc) + (1 * hw.assembly.subi) + (1 * hw.assembly.sbci) + (1 * hw.assembly.brge) + (1 * hw.assembly.adiw)); generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); for (j = 0; j < Nw - 1; j++) { w[j] = w[j + 1]; if (j < Na - 1) { w[j] -= a_ptr++ yout; } if (j < Nb - 1) { w[j] += b_ptr++ x; } generic_timer += ((70 * hw.assembly.mov) + (65 * hw.assembly.ldd) + (12 * hw.assembly.lsl) + (12 * hw.assembly.rol) + (15 * hw.assembly.std) + (6 * hw.assembly.add) + (6 * hw.assembly.adc) + (2 * hw.assembly.adiw) + (3 * hw.assembly.cpc) + (3 * hw.assembly.cp) + (5 * hw.assembly.ld) + (4 * hw.assembly.rcall) + (5 * hw.assembly.subi) + (3 * hw.assembly.rjmp) + (2 * hw.assembly.brlt) + (3 * hw.assembly.st) + (2 * hw.assembly.sbci) + (3 * hw.assembly.sbc) + (1 * hw.assembly.brge)); } generic_timer += ((4 * hw.assembly.ldd) + (4 * hw.assembly.mov) + (8 * hw.assembly.pop) + (3 * hw.assembly.out) + (1 * hw.assembly.in) + (1 * hw.assembly.cli) + (1 * hw.assembly.adiw) + (1 * hw.assembly.ret)); return yout; } void double_direct_form_1_impl2(double x[], int x_size, double b[], int b_size, double a[], int a_size, double y[]){ int i = 0; int j = 0; double v[x_size]; for(i = 0; i < x_size; i++){ v[i] = 0; for(j = 0; j < b_size; j++){ if (j > i) break; v[i] = v[i] + x[i-j] * b[j]; } } y[0] = v[0]; for(i = 1; i < x_size; i++){ y[i] = 0; y[i] = y[i] + v[i]; for(j = 1; j < a_size; j++){ if (j > i) break; y[i] = y[i] + y[i-j] * ((-1) * a[j]); } } } void fxp_direct_form_1_impl2(fxp_t x[], int x_size, fxp_t b[], int b_size, fxp_t a[], int a_size, fxp_t y[]){ int i = 0; int j = 0; fxp_t v[x_size]; for(i = 0; i < x_size; i++){ v[i] = 0; for(j = 0; j < b_size; j++){ if (j > i) break; v[i] = fxp_add(v[i], fxp_mult(x[i-j], b[j])); } } y[0] = v[0]; for(i = 1; i < x_size; i++){ y[i] = 0; y[i] = fxp_add(y[i], v[i]); for(j = 1; j < a_size; j++){ if (j > i) break; y[i] = fxp_add(y[i], fxp_mult(y[i-j] , -a[j])); } } } # 26 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" # 1 "/usr/include/assert.h" 1 3 4 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" 2 # 1 "/usr/include/assert.h" 1 3 4 # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/delta-operator.h" 2 int nchoosek(int n, int k){ if (k == 0) return 1; return (n * nchoosek(n - 1, k - 1)) / k; } void generate_delta_coefficients(double vetor[], double out[], int n, double delta){ int i,j; int N = n - 1; double sum_delta_operator; for(i=0; i<=N; i++) { sum_delta_operator = 0; for(j=0; j<=i; j++) { sum_delta_operator = sum_delta_operator + vetor[j]nchoosek(N-j,i-j); } out[i] = internal_pow(delta,N-i)sum_delta_operator; } } void get_delta_transfer_function(double b[], double b_out[], int b_size, double a[], double a_out[], int a_size, double delta){ generate_delta_coefficients(b, b_out, b_size, delta); generate_delta_coefficients(a, a_out, a_size, delta); } void get_delta_transfer_function_with_base(double b[], double b_out[], int b_size, double a[], double a_out[], int a_size, double delta){ int i,j; int N = a_size - 1; int M = b_size - 1; double sum_delta_operator; for(i=0; i<=N; i++) { sum_delta_operator = 0; for(j=0; j<=i; j++) { sum_delta_operator = sum_delta_operator + a[j]nchoosek(N-j,i-j); } a_out[i] = internal_pow(delta,N-i)sum_delta_operator; } for(i=0; i<=M; i++) { sum_delta_operator = 0; for(j=0; j<=i; j++) { sum_delta_operator = sum_delta_operator + b[j]nchoosek(M-j,i-j); } b_out[i] = internal_pow(delta,M-i)sum_delta_operator; } } # 27 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/closed-loop.h" 1 # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/closed-loop.h" void ft_closedloop_series(double c_num[], int Nc_num, double c_den[], int Nc_den, double model_num[], int Nmodel_num, double model_den[], int Nmodel_den, double ans_num[], int Nans_num, double ans_den[], int Nans_den){ Nans_num = Nc_num + Nmodel_num - 1; Nans_den = Nc_den + Nmodel_den - 1 ; double den_mult [Nans_den]; poly_mult(c_num, Nc_num, model_num, Nmodel_num, ans_num, Nans_num); poly_mult(c_den, Nc_den, model_den, Nmodel_den, den_mult, Nans_den ); poly_sum(ans_num, Nans_num , den_mult, Nans_den , ans_den, Nans_den); } void ft_closedloop_sensitivity(double c_num[], int Nc_num, double c_den[], int Nc_den, double model_num[], int Nmodel_num, double model_den[], int Nmodel_den, double ans_num[], int Nans_num, double ans_den[], int Nans_den){ int Nans_num_p = Nc_num + Nmodel_num-1; Nans_den = Nc_den + Nmodel_den-1; Nans_num = Nc_den + Nmodel_den-1; double num_mult [Nans_num_p]; poly_mult(c_den, Nc_den, model_den, Nmodel_den, ans_num, Nans_num); poly_mult(c_num, Nc_num, model_num, Nmodel_num, num_mult, Nans_num_p); poly_sum(ans_num, Nans_num, num_mult, Nans_num_p, ans_den, Nans_den); } void ft_closedloop_feedback(double c_num[], int Nc_num, double c_den[], int Nc_den, double model_num[], int Nmodel_num, double model_den[], int Nmodel_den, double ans_num[], int Nans_num, double ans_den[], int Nans_den){ Nans_num = Nc_den + Nmodel_num - 1; Nans_den = Nc_den + Nmodel_den - 1; int Nnum_mult = Nc_num + Nmodel_num - 1; double den_mult [Nans_den]; double num_mult [Nnum_mult]; poly_mult(c_num, Nc_num, model_num, Nmodel_num, num_mult, Nnum_mult); poly_mult(c_den, Nc_den, model_den, Nmodel_den, den_mult, Nans_den); poly_sum(num_mult, Nnum_mult, den_mult, Nans_den, ans_den, Nans_den); poly_mult(c_den, Nc_den, model_num, Nmodel_num, ans_num, Nans_num); } int check_stability_closedloop(double a[], int n, double plant_num[], int p_num_size, double plant_den[], int p_den_size){ int columns = n; double m[2 * n - 1][n]; int i,j; int first_is_positive = 0; double * p_num = plant_num; double * p_den = plant_den; double sum = 0; for (i=0; i < n; i++){ sum += a[i]; } __DSVERIFIER_assert(sum > 0); sum = 0; for (i=0; i < n; i++){ sum += a[i] * internal_pow(-1, n-1-i); } sum = sum * internal_pow(-1, n-1); __DSVERIFIER_assert(sum > 0); __DSVERIFIER_assert(internal_abs(a[n-1]) < a[0]); for (i=0; i < 2 * n - 1; i++){ for (j=0; j < columns; j++){ m[i][j] = 0; if (i == 0){ m[i][j] = a[j]; continue; } if (i % 2 != 0 ){ int x; for(x=0; x<columns;x++){ m[i][x] = m[i-1][columns-x-1]; } columns = columns - 1; j = columns; }else{ __DSVERIFIER_assert(m[i-2][0] > 0); m[i][j] = m[i-2][j] - (m[i-2][columns] / m[i-2][0]) * m[i-1][j]; __DSVERIFIER_assert((m[0][0] >= 0) && (m[i][0] >= 0)); } } } return 1; } # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" extern digital_system ds; extern digital_system plant; extern digital_system control; extern implementation impl; extern filter_parameters filter; extern hardware hw; void initialization(){ if (impl.frac_bits >= 32){ printf("impl.frac_bits must be less than word width!\n"); } if (impl.int_bits >= 32 - impl.frac_bits){ printf("impl.int_bits must be less than word width subtracted by precision!\n"); # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 ((void) sizeof (( # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 0 # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 0 # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 ) ; else __assert_fail ( # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" "0" # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h", 33, __extension__ __PRETTY_FUNCTION__); })) # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" ; } if(impl.frac_bits >= 31){ _fxp_one = 0x7fffffff; }else{ _fxp_one = (0x00000001 << impl.frac_bits); } _fxp_half = (0x00000001 << (impl.frac_bits - 1)); _fxp_minus_one = -(0x00000001 << impl.frac_bits); _fxp_min = -(0x00000001 << (impl.frac_bits + impl.int_bits - 1)); _fxp_max = (0x00000001 << (impl.frac_bits + impl.int_bits - 1)) - 1; _fxp_fmask = ((((int32_t) 1) << impl.frac_bits) - 1); _fxp_imask = ((0x80000000) >> (32 - impl.frac_bits - 1)); _dbl_min = _fxp_min; _dbl_min /= (1 << impl.frac_bits); _dbl_max = _fxp_max; _dbl_max /= (1 << impl.frac_bits); if ((impl.scale == 0) \|\| (impl.scale == 1)){ impl.scale = 1; return; } if (impl.min != 0){ impl.min = impl.min / impl.scale; } if (impl.max != 0){ impl.max = impl.max / impl.scale; } # 80 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/initialization.h" } # 29 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/state-space.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/state-space.h" extern digital_system_state_space _controller; extern int nStates; extern int nInputs; extern int nOutputs; double double_state_space_representation(void){ double result1[4][4]; double result2[4][4]; int i, j; for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); double_matrix_multiplication(nStates,nStates,nStates,1,_controller.A,_controller.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller.B,_controller.inputs,result2); double_add_matrix(nStates, 1, result1, result2, _controller.states); return _controller.outputs[0][0]; } double fxp_state_space_representation(void){ fxp_t result1[4][4]; fxp_t result2[4][4]; int i, j; for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } fxp_t A_fpx[4][4]; fxp_t B_fpx[4][4]; fxp_t C_fpx[4][4]; fxp_t D_fpx[4][4]; fxp_t states_fpx[4][4]; fxp_t inputs_fpx[4][4]; fxp_t outputs_fpx[4][4]; for(i=0; i<4;i++){ for(j=0; j<4;j++){ A_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ B_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ C_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ D_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ states_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ inputs_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ outputs_fpx[i][j]=0; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ A_fpx[i][j]= fxp_double_to_fxp(_controller.A[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ B_fpx[i][j]= fxp_double_to_fxp(_controller.B[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ C_fpx[i][j]= fxp_double_to_fxp(_controller.C[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ D_fpx[i][j]= fxp_double_to_fxp(_controller.D[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ states_fpx[i][j]= fxp_double_to_fxp(_controller.states[i][j]); } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ inputs_fpx[i][j]= fxp_double_to_fxp(_controller.inputs[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ outputs_fpx[i][j]= fxp_double_to_fxp(_controller.outputs[i][j]); } } fxp_matrix_multiplication(nOutputs,nStates,nStates,1,C_fpx,states_fpx,result1); fxp_matrix_multiplication(nOutputs,nInputs,nInputs,1,D_fpx,inputs_fpx,result2); fxp_add_matrix(nOutputs, 1, result1, result2, outputs_fpx); fxp_matrix_multiplication(nStates,nStates,nStates,1,A_fpx,states_fpx,result1); fxp_matrix_multiplication(nStates,nInputs,nInputs,1,B_fpx,inputs_fpx,result2); fxp_add_matrix(nStates, 1, result1, result2, states_fpx); for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j]= fxp_to_double(states_fpx[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ _controller.outputs[i][j]= fxp_to_double(outputs_fpx[i][j]); } } return _controller.outputs[0][0]; } # 30 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/filter_functions.h" 1 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/filter_functions.h" double sinTyl(double x, int precision){ double sine; double xsquared = xx; double aux; if (precision < 0) { printf("Warning: Function sinTyl from bmc/core/filter_functions.h: " "Precision must be a positive integer. Assuming 0 precision\n"); precision = 0; } if (precision >= 0) { aux = 0; sine = aux; if (precision >= 1) { aux = x; sine += aux; if (precision >= 2) { aux = auxxsquared; sine -= aux/6; if (precision >= 3) { aux = auxxsquared; sine +=aux/120; if(precision >=4) { aux = auxxsquared; sine -=aux/5040; if(precision >= 5) { aux = auxxsquared; sine +=aux/362880; if(precision >= 6) { aux = auxxsquared; sine -=aux/39916800; if (precision >= 7) printf("Warning: Function sinTyl " "from bmc/core/filter_functions.h: Precision " "representation exceeded. Assuming maximum precision of 6\n"); } } } } } } } return sine; } double cosTyl(double x, int precision){ double cosine; double xsquared = xx; double aux; if (precision < 0) { printf("Warning: Function cosTyl from bmc/core/filter_functions.h: " "Precision must be a positive integer. Assuming 0 precision\n"); precision = 0; } if (precision >= 0) { aux = 0; cosine = aux; if (precision >= 1) { aux = 1; cosine = 1; if (precision >= 2) { aux = xsquared; cosine -= aux/2; if (precision >= 3) { aux = auxxsquared; cosine += aux/24; if(precision >=4) { aux = auxxsquared; cosine -=aux/720; if(precision >= 5) { aux = auxxsquared; cosine +=aux/40320; if(precision >= 6) { aux = auxxsquared; cosine -=aux/3628800; if (precision >= 7) printf("Warning: Function sinTyl " "from bmc/core/filter_functions.h: Precision " "representation exceeded. Assuming maximum precision of 6\n"); } } } } } } } return cosine; } double atanTyl(double x, int precision){ double atangent; double xsquared = xx; double aux; if (precision < 0) { printf("Warning: Function sinTyl from bmc/core/filter_functions.h: " "Precision must be a positive integer. Assuming 0 precision\n"); precision = 0; } if (precision >= 0) { aux = 0; atangent = aux; if (precision >= 1) { aux = x; atangent = aux; if (precision >= 2) { aux = xsquared; atangent -= aux/3; if (precision >= 3) { aux = auxxsquared; atangent += aux/5; if(precision >=4) { aux = auxxsquared; atangent -=aux/7; if (precision >= 7) printf("Warning: Function sinTyl from bmc/core/filter_functions.h: " "Precision representation exceeded. Assuming maximum precision of 4\n"); } } } } } return atangent; } float sqrt1(const float x) { const float xhalf = 0.5fx; union { float x; int i; } u; u.x = x; u.i = 0x5f3759df - (u.i >> 1); return xu.x(1.5f - xhalfu.xu.x); } float sqrt2(const float x) { union { int i; float x; } u; u.x = x; u.i = (1<<29) + (u.i >> 1) - (1<<22); return u.x; } float fabsolut(float x) { if (x < 0) x = -x; return x; } static float sqrt3(float val) { float x = val/10; float dx; double diff; double min_tol = 0.00001; int i, flag; flag = 0; if (val == 0 ) x = 0; else { for (i=1;i<20;i++) { if (!flag) { dx = (val - (xx)) / (2.0 * x); x = x + dx; diff = val - (xx); if (fabsolut(diff) <= min_tol) flag = 1; } else x =x; } } return (x); } # 31 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" 1 # 19 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" int nondet_int(); float nondet_float(); extern digital_system ds; extern implementation impl; int verify_overflow(void) { fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 73 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; int i; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_int(); __DSVERIFIER_assume(x[i] >= min_fxp && x[i] <= max_fxp); } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t xaux[ds.b_size]; fxp_t waux[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; } fxp_t xk, temp; fxp_t aptr, bptr, xptr, yptr, wptr; int j; for (i = 0; i < X_SIZE_VALUE; ++i) { # 129 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" y[i] = fxp_transposed_direct_form_2(waux, x[i], a_fxp, b_fxp, ds.a_size, ds.b_size); # 174 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h" } overflow_mode = 1; fxp_verify_overflow_array(y, X_SIZE_VALUE); return 0; } # 33 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 1 # 15 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" extern digital_system ds; extern implementation impl; extern digital_system_state_space _controller; extern int nStates; extern int nInputs; extern int nOutputs; int verify_limit_cycle_state_space(void){ double stateMatrix[4][4]; double outputMatrix[4][4]; double arrayLimitCycle[4]; double result1[4][4]; double result2[4][4]; int i, j, k; for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; stateMatrix[i][j]=0; outputMatrix[i][j]=0; } } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); k = 0; for (i = 1; i < 0; i++) { double_matrix_multiplication(nStates,nStates,nStates,1,_controller.A,_controller.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller.B,_controller.inputs,result2); double_add_matrix(nStates, 1, result1, result2, _controller.states); double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); int l; for(l = 0; l < nStates; l++){ stateMatrix[l][k] = _controller.states[l][0]; } for(l = 0; l < nOutputs; l++){ stateMatrix[l][k] = _controller.outputs[l][0]; } k++; } printf("#matrix STATES -------------------------------"); print_matrix(stateMatrix,nStates,0); printf("#matrix OUTPUTS -------------------------------"); print_matrix(outputMatrix,nOutputs,0); # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ((void) sizeof (( # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ; else __assert_fail ( # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" "0" # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h", 93, __extension__ __PRETTY_FUNCTION__); })) # 93 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" ; for(i=0; i<nStates;i++){ for(j=0; j<0;j++){ arrayLimitCycle[j] = stateMatrix[i][j]; } double_check_persistent_limit_cycle(arrayLimitCycle,0); } for(i=0; i<nOutputs;i++){ for(j=0; j<0;j++){ arrayLimitCycle[j] = outputMatrix[i][j]; } double_check_persistent_limit_cycle(arrayLimitCycle,0); } # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ((void) sizeof (( # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 0 # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 ) ; else __assert_fail ( # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" "0" # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h", 110, __extension__ __PRETTY_FUNCTION__); })) # 110 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" ; } int verify_limit_cycle(void){ overflow_mode = 3; int i; int Set_xsize_at_least_two_times_Na = 2 * ds.a_size; printf("X_SIZE must be at least 2 * ds.a_size"); __DSVERIFIER_assert(X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na); fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 168 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t xaux[ds.b_size]; int nondet_constant_input = nondet_int(); __DSVERIFIER_assume(nondet_constant_input >= min_fxp && nondet_constant_input <= max_fxp); for (i = 0; i < X_SIZE_VALUE; ++i) { x[i] = nondet_constant_input; y[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = nondet_constant_input; } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t y0[ds.a_size]; fxp_t waux[Nw]; fxp_t w0[Nw]; # 206 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" for (i = 0; i < Nw; ++i) { waux[i] = nondet_int(); __DSVERIFIER_assume(waux[i] >= min_fxp && waux[i] <= max_fxp); w0[i] = waux[i]; } fxp_t xk, temp; fxp_t aptr, bptr, xptr, yptr, wptr; int j; for(i=0; i<X_SIZE_VALUE; ++i){ # 234 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" y[i] = fxp_transposed_direct_form_2(waux, x[i], a_fxp, b_fxp, ds.a_size, ds.b_size); # 278 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h" } fxp_check_persistent_limit_cycle(y, X_SIZE_VALUE); return 0; } # 34 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" extern digital_system ds; extern implementation impl; int verify_error(void){ overflow_mode = 2; double a_cascade[100]; int a_cascade_size; double b_cascade[100]; int b_cascade_size; fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 69 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; double yf[X_SIZE_VALUE]; double xf[X_SIZE_VALUE]; int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t xaux[ds.b_size]; fxp_t waux[Nw]; double yfaux[ds.a_size]; double xfaux[ds.b_size]; double wfaux[Nw]; int i; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; yfaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; xfaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; wfaux[i] = 0; } for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_int(); __DSVERIFIER_assume(x[i] >= min_fxp && x[i] <= max_fxp); yf[i] = 0.0f; xf[i] = fxp_to_double(x[i]); } for (i = 0; i < X_SIZE_VALUE; ++i) { # 156 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" y[i] = fxp_transposed_direct_form_2(waux, x[i], a_fxp, b_fxp, ds.a_size, ds.b_size); yf[i] = double_transposed_direct_form_2(wfaux, xf[i], ds.a, ds.b, ds.a_size, ds.b_size); # 169 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h" double absolute_error = yf[i] - fxp_to_double(y[i]); __DSVERIFIER_assert(absolute_error < (impl.max_error) && absolute_error > (-impl.max_error)); } return 0; } # 35 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 1 # 13 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" extern digital_system ds; extern implementation impl; int verify_zero_input_limit_cycle(void){ overflow_mode = 3; int i,j; int Set_xsize_at_least_two_times_Na = 2 ds.a_size; printf("X_SIZE must be at least 2 * ds.a_size"); # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 ((void) sizeof (( # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 ) ; else __assert_fail ( # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" "X_SIZE_VALUE >= Set_xsize_at_least_two_times_Na" # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h", 23, __extension__ __PRETTY_FUNCTION__); })) # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" ; fxp_t a_fxp[ds.a_size]; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); # 71 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); fxp_t y[X_SIZE_VALUE]; fxp_t x[X_SIZE_VALUE]; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = 0; } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; fxp_t yaux[ds.a_size]; fxp_t xaux[ds.b_size]; fxp_t waux[Nw]; fxp_t y0[ds.a_size]; fxp_t w0[Nw]; # 104 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" for (i = 0; i < Nw; ++i) { waux[i] = nondet_int(); __DSVERIFIER_assume(waux[i] >= min_fxp && waux[i] <= max_fxp); w0[i] = waux[i]; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } fxp_t xk, temp; fxp_t aptr, bptr, xptr, yptr, wptr; for(i=0; i<X_SIZE_VALUE; ++i){ # 141 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" y[i] = fxp_transposed_direct_form_2(waux, x[i], a_fxp, b_fxp, ds.a_size, ds.b_size); # 188 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h" } fxp_check_persistent_limit_cycle(y, X_SIZE_VALUE); return 0; } # 36 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 1 # 16 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" int nondet_int(); float nondet_float(); extern digital_system ds; extern implementation impl; extern hardware hw; int generic_timer = 0; int verify_generic_timing(void) { double y[X_SIZE_VALUE]; double x[X_SIZE_VALUE]; int i; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_float(); __DSVERIFIER_assume(x[i] >= impl.min && x[i] <= impl.max); } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; double yaux[ds.a_size]; double xaux[ds.b_size]; double waux[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; } double xk, temp; double aptr, bptr, xptr, yptr, wptr; int j; generic_timer += ((2 * hw.assembly.std) + (1 * hw.assembly.rjmp)); double initial_timer = generic_timer; for (i = 0; i < X_SIZE_VALUE; ++i) { generic_timer += ((2 * hw.assembly.ldd) + (1 * hw.assembly.adiw) + (2 * hw.assembly.std)); generic_timer += ((2 * hw.assembly.ldd) + (1 * hw.assembly.cpi) + (1 * hw.assembly.cpc) + (1 * hw.assembly.brlt)); # 85 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" y[i] = generic_timing_double_transposed_direct_form_2(waux, x[i], ds.a, ds.b, ds.a_size, ds.b_size); double spent_time = (((double) generic_timer) * hw.cycle); # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 ((void) sizeof (( # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" spent_time <= ds.sample_time # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" spent_time <= ds.sample_time # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 ) ; else __assert_fail ( # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" "spent_time <= ds.sample_time" # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h", 89, __extension__ __PRETTY_FUNCTION__); })) # 89 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h" ; generic_timer = initial_timer; } return 0; } # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" 1 # 16 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" int nondet_int(); float nondet_float(); extern digital_system ds; extern implementation impl; int verify_timing_msp_430(void) { double y[X_SIZE_VALUE]; double x[X_SIZE_VALUE]; int i; for (i = 0; i < X_SIZE_VALUE; ++i) { y[i] = 0; x[i] = nondet_float(); __DSVERIFIER_assume(x[i] >= impl.min && x[i] <= impl.max); } int Nw = 0; Nw = ds.a_size > ds.b_size ? ds.a_size : ds.b_size; double yaux[ds.a_size]; double xaux[ds.b_size]; double waux[Nw]; for (i = 0; i < ds.a_size; ++i) { yaux[i] = 0; } for (i = 0; i < ds.b_size; ++i) { xaux[i] = 0; } for (i = 0; i < Nw; ++i) { waux[i] = 0; } double xk, temp; double aptr, bptr, xptr, yptr, wptr; int j; for (i = 0; i < X_SIZE_VALUE; ++i) { # 75 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" y[i] = double_transposed_direct_form_2_MSP430(waux, x[i], ds.a, ds.b, ds.a_size, ds.b_size); # 121 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h" } return 0; } # 38 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 1 # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" extern digital_system ds; extern implementation impl; int verify_stability(void){ overflow_mode = 0; fxp_t a_fxp[ds.a_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); double _a[ds.a_size]; fxp_to_double_array(_a, a_fxp, ds.a_size); # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 ((void) sizeof (( # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" check_stability(_a, ds.a_size) # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" check_stability(_a, ds.a_size) # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 ) ; else __assert_fail ( # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" "check_stability(_a, ds.a_size)" # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h", 37, __extension__ __PRETTY_FUNCTION__); })) # 37 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" ; # 83 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability.h" return 0; } # 39 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_minimum_phase.h" 1 # 21 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_minimum_phase.h" extern digital_system ds; extern implementation impl; int verify_minimum_phase(void){ overflow_mode = 0; fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); double _b[ds.b_size]; fxp_to_double_array(_b, b_fxp, ds.b_size); __DSVERIFIER_assert(check_stability(_b, ds.b_size)); # 85 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_minimum_phase.h" return 0; } # 40 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" extern digital_system plant; extern digital_system plant_cbmc; extern digital_system controller; int verify_stability_closedloop_using_dslib(void){ double c_num = controller.b; int c_num_size = controller.b_size; double * c_den = controller.a; int c_den_size = controller.a_size; fxp_t c_num_fxp[controller.b_size]; fxp_double_to_fxp_array(c_num, c_num_fxp, controller.b_size); fxp_t c_den_fxp[controller.a_size]; fxp_double_to_fxp_array(c_den, c_den_fxp, controller.a_size); double c_num_qtz[controller.b_size]; fxp_to_double_array(c_num_qtz, c_num_fxp, controller.b_size); double c_den_qtz[controller.a_size]; fxp_to_double_array(c_den_qtz, c_den_fxp, controller.a_size); double * p_num = plant.b; int p_num_size = plant.b_size; double * p_den = plant.a; int p_den_size = plant.a_size; double ans_num[100]; int ans_num_size = controller.b_size + plant.b_size - 1; double ans_den[100]; int ans_den_size = controller.a_size + plant.a_size - 1; # 68 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_stability_closedloop.h" printf("Verifying stability for closedloop function\n"); __DSVERIFIER_assert(check_stability_closedloop(ans_den, ans_den_size, p_num, p_num_size, p_den, p_den_size)); return 0; } # 41 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" 1 # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" extern digital_system plant; extern digital_system plant_cbmc; extern digital_system controller; double nondet_double(); int verify_limit_cycle_closed_loop(void){ overflow_mode = 3; double * c_num = controller.b; int c_num_size = controller.b_size; double * c_den = controller.a; int c_den_size = controller.a_size; fxp_t c_num_fxp[controller.b_size]; fxp_double_to_fxp_array(c_num, c_num_fxp, controller.b_size); fxp_t c_den_fxp[controller.a_size]; fxp_double_to_fxp_array(c_den, c_den_fxp, controller.a_size); double c_num_qtz[controller.b_size]; fxp_to_double_array(c_num_qtz, c_num_fxp, controller.b_size); double c_den_qtz[controller.a_size]; fxp_to_double_array(c_den_qtz, c_den_fxp, controller.a_size); double * p_num = plant.b; int p_num_size = plant.b_size; double * p_den = plant.a; int p_den_size = plant.a_size; double ans_num[100]; int ans_num_size = controller.b_size + plant.b_size - 1; double ans_den[100]; int ans_den_size = controller.a_size + plant.a_size - 1; int i; double y[X_SIZE_VALUE]; double x[X_SIZE_VALUE]; double xaux[ans_num_size]; double nondet_constant_input = nondet_double(); __DSVERIFIER_assume(nondet_constant_input >= impl.min && nondet_constant_input <= impl.max); for (i = 0; i < X_SIZE_VALUE; ++i) { x[i] = nondet_constant_input; y[i] = 0; } for (i = 0; i < ans_num_size; ++i) { xaux[i] = nondet_constant_input; } double yaux[ans_den_size]; double y0[ans_den_size]; int Nw = ans_den_size > ans_num_size ? ans_den_size : ans_num_size; double waux[Nw]; double w0[Nw]; # 105 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" for (i = 0; i < Nw; ++i) { waux[i] = nondet_int(); __DSVERIFIER_assume(waux[i] >= impl.min && waux[i] <= impl.max); w0[i] = waux[i]; } double xk, temp; double aptr, bptr, xptr, yptr, wptr; int j; for(i=0; i<X_SIZE_VALUE; ++i){ # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h" y[i] = double_transposed_direct_form_2(waux, x[i], ans_den, ans_num, ans_den_size, ans_num_size); } double_check_persistent_limit_cycle(y, X_SIZE_VALUE); return 0; } # 42 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" 1 # 23 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" extern digital_system plant; extern digital_system plant_cbmc; extern digital_system controller; int verify_error_closedloop(void){ overflow_mode = 3; double c_num = controller.b; int c_num_size = controller.b_size; double * c_den = controller.a; int c_den_size = controller.a_size; fxp_t c_num_fxp[controller.b_size]; fxp_double_to_fxp_array(c_num, c_num_fxp, controller.b_size); fxp_t c_den_fxp[controller.a_size]; fxp_double_to_fxp_array(c_den, c_den_fxp, controller.a_size); double c_num_qtz[controller.b_size]; fxp_to_double_array(c_num_qtz, c_num_fxp, controller.b_size); double c_den_qtz[controller.a_size]; fxp_to_double_array(c_den_qtz, c_den_fxp, controller.a_size); double * p_num = plant.b; int p_num_size = plant.b_size; double * p_den = plant.a; int p_den_size = plant.a_size; double ans_num_double[100]; double ans_num_qtz[100]; int ans_num_size = controller.b_size + plant.b_size - 1; double ans_den_qtz[100]; double ans_den_double[100]; int ans_den_size = controller.a_size + plant.a_size - 1; # 77 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" int i; double y_qtz[X_SIZE_VALUE]; double y_double[X_SIZE_VALUE]; double x_qtz[X_SIZE_VALUE]; double x_double[X_SIZE_VALUE]; double xaux_qtz[ans_num_size]; double xaux_double[ans_num_size]; double xaux[ans_num_size]; double nondet_constant_input = nondet_double(); __DSVERIFIER_assume(nondet_constant_input >= impl.min && nondet_constant_input <= impl.max); for (i = 0; i < X_SIZE_VALUE; ++i) { x_qtz[i] = nondet_constant_input; x_double[i] = nondet_constant_input; y_qtz[i] = 0; y_double[i] = 0; } for (i = 0; i < ans_num_size; ++i) { xaux_qtz[i] = nondet_constant_input; xaux_double[i] = nondet_constant_input; } double yaux_qtz[ans_den_size]; double yaux_double[ans_den_size]; double y0_qtz[ans_den_size]; double y0_double[ans_den_size]; int Nw = ans_den_size > ans_num_size ? ans_den_size : ans_num_size; double waux_qtz[Nw]; double waux_double[Nw]; double w0_qtz[Nw]; double w0_double[Nw]; for (i = 0; i < Nw; ++i) { waux_qtz[i] = 0; waux_double[i] = 0; } for(i=0; i<X_SIZE_VALUE; ++i){ # 150 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h" y_qtz[i] = double_transposed_direct_form_2(waux_qtz, x_qtz[i], ans_den_qtz, ans_num_qtz, ans_den_size, ans_num_size); y_double[i] = double_transposed_direct_form_2(waux_double, x_double[i], ans_den_double, ans_num_double, ans_den_size, ans_num_size); double absolute_error = y_double[i] - fxp_to_double(y_qtz[i]); __DSVERIFIER_assert(absolute_error < (impl.max_error) && absolute_error > (-impl.max_error)); } return 0; } # 43 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 1 # 20 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" extern digital_system_state_space _controller; extern double error_limit; extern int closed_loop; double new_state[4][4]; double new_stateFWL[4][4]; digital_system_state_space _controller_fxp; digital_system_state_space _controller_double; double ss_system_quantization_error(fxp_t inputs){ digital_system_state_space __backupController; int i; int j; _controller.inputs[0][0] = inputs; for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ __backupController.A[i][j]= (_controller.A[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ __backupController.B[i][j]= (_controller.B[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ __backupController.C[i][j]= (_controller.C[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ __backupController.D[i][j]= (_controller.D[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ __backupController.states[i][j]= (_controller.states[i][j]); } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ __backupController.inputs[i][j]= (_controller.inputs[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ __backupController.outputs[i][j]= (_controller.outputs[i][j]); } } double __quant_error = 0.0; for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j]= (new_state[i][j]); } } double output_double = double_state_space_representation(); for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_state[i][j]= (_controller.states[i][j]); } } __backupController.inputs[0][0] = inputs; for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ _controller.A[i][j] = __backupController.A[i][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ _controller.B[i][j] = __backupController.B[i][j]; } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ _controller.C[i][j] = __backupController.C[i][j]; } } for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ _controller.D[i][j] = __backupController.D[i][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j] = __backupController.states[i][j]; } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ _controller.inputs[i][j] = __backupController.inputs[i][j]; } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ _controller.outputs[i][j] = __backupController.outputs[i][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ _controller.states[i][j]= (new_stateFWL[i][j]); } } double output_fxp = fxp_state_space_representation(); for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_stateFWL[i][j]= (_controller.states[i][j]); } } __quant_error = output_double - output_fxp; return __quant_error; } double fxp_ss_closed_loop_quantization_error(double reference){ double reference_aux[4][4]; double result1[4][4]; double temp_result1[4][4]; double result2[4][4]; double temp_states[4][4]; fxp_t K_fxp[4][4]; fxp_t states_fxp[4][4]; fxp_t result_fxp[4][4]; unsigned int i; unsigned int j; unsigned int k; short unsigned int flag = 0; for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ if(_controller_fxp.D[i][j] != 0){ flag = 1; } } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ reference_aux[i][j]=0; K_fxp[i][j] = 0; } } for(i=0; i<nInputs;i++){ reference_aux[i][0]= reference; } for(i=0; i<4;i++){ states_fxp[i][0]=0; } for(i=0; i<nStates;i++){ K_fxp[0][i]= fxp_double_to_fxp(_controller_fxp.K[0][i]); } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } for(k=0; k<nStates;k++) { states_fxp[k][0]= fxp_double_to_fxp(_controller_fxp.states[k][0]); } fxp_matrix_multiplication(nOutputs,nStates,nStates,1,K_fxp,states_fxp,result_fxp); fxp_t reference_fxp[4][4]; fxp_t result_fxp2[4][4]; for(k=0;k<nInputs;k++) { reference_fxp[k][0] =fxp_double_to_fxp(fxp_quantize(reference_aux[k][0])); } fxp_sub_matrix(nInputs,1, reference_fxp, result_fxp, result_fxp2); for(k=0; k<nInputs;k++) { _controller_fxp.inputs[k][0] = fxp_to_double(fxp_quantize(result_fxp2[k][0])); } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller_fxp.C,_controller_fxp.states,result1); if(flag == 1) { double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller_fxp.D,_controller_fxp.inputs,result2); } double_add_matrix(nOutputs,1,result1,result2,_controller_fxp.outputs); double_matrix_multiplication(nStates,nStates,nStates,1,_controller_fxp.A,_controller_fxp.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller_fxp.B,_controller_fxp.inputs,result2); double_add_matrix(nStates,1,result1,result2,_controller_fxp.states); return _controller_fxp.outputs[0][0]; } double ss_closed_loop_quantization_error(double reference){ double reference_aux[4][4]; double result1[4][4]; double result2[4][4]; unsigned int i; unsigned int j; short unsigned int flag = 0; for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ if(_controller_double.D[i][j] != 0){ flag = 1; } } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ reference_aux[i][j]= reference; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller_double.K,_controller_double.states,result1); double_sub_matrix(nInputs,1,reference_aux,result1, _controller_double.inputs); double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller_double.C,_controller_double.states,result1); if(flag == 1) double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller_double.D,_controller_double.inputs,result2); double_add_matrix(nOutputs,1,result1,result2,_controller_double.outputs); double_matrix_multiplication(nStates,nStates,nStates,1,_controller_double.A,_controller_double.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller_double.B,_controller_double.inputs,result2); double_add_matrix(nStates,1,result1,result2,_controller_double.states); return _controller_double.outputs[0][0]; } int verify_error_state_space(void){ int i,j; for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_state[i][j]= (_controller.states[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<1;j++){ new_stateFWL[i][j]= (_controller.states[i][j]); } } _controller_fxp = _controller; _controller_double = _controller; overflow_mode = 0; fxp_t x[0]; fxp_t min_fxp = fxp_double_to_fxp(impl.min); fxp_t max_fxp = fxp_double_to_fxp(impl.max); double nondet_constant_input = nondet_double(); __DSVERIFIER_assume(nondet_constant_input >= min_fxp && nondet_constant_input <= max_fxp); for (i = 0; i < 0; ++i) { x[i] = nondet_constant_input; } double __quant_error; if(closed_loop){ for (i = 0; i < 0; ++i) { __quant_error = ss_closed_loop_quantization_error(x[i]) - fxp_ss_closed_loop_quantization_error(x[i]); # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ((void) sizeof (( # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ; else __assert_fail ( # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" "__quant_error < error_limit && __quant_error > ((-1)error_limit)" # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h", 354, __extension__ __PRETTY_FUNCTION__); })) # 354 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" ; } } else { for (i=0; i < 0; i++) { __quant_error = ss_system_quantization_error(x[i]); # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ((void) sizeof (( # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" __quant_error < error_limit && __quant_error > ((-1)error_limit) # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 ) ; else __assert_fail ( # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" "__quant_error < error_limit && __quant_error > ((-1)error_limit)" # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h", 361, __extension__ __PRETTY_FUNCTION__); })) # 361 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_state_space.h" ; } } return 0; } # 44 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" extern digital_system_state_space _controller; extern double error_limit; extern int closed_loop; double fxp_ss_closed_loop_safety(){ double reference[4][4]; double result1[4][4]; double result2[4][4]; fxp_t K_fpx[4][4]; fxp_t outputs_fpx[4][4]; fxp_t result_fxp[4][4]; unsigned int i; unsigned int j; unsigned int k; short unsigned int flag = 0; for(i=0; i<nOutputs;i++){ for(j=0; j<nInputs;j++){ if(_controller.D[i][j] != 0){ flag = 1; } } } for(i=0; i<nInputs;i++){ for(j=0; j<1;j++){ reference[i][j]= (_controller.inputs[i][j]); } } for(i=0; i<nInputs;i++){ for(j=0; j<nOutputs;j++){ K_fpx[i][j]=0; } } for(i=0; i<nOutputs;i++){ for(j=0; j<1;j++){ outputs_fpx[i][j]=0; } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result_fxp[i][j]=0; } } for(i=0; i<nInputs;i++){ for(j=0; j<nOutputs;j++){ K_fpx[i][j]= fxp_double_to_fxp(_controller.K[i][j]); } } for(i=0; i<4;i++){ for(j=0; j<4;j++){ result1[i][j]=0; result2[i][j]=0; } } for (i = 1; i < 0; i++) { double_matrix_multiplication(nOutputs,nStates,nStates,1,_controller.C,_controller.states,result1); if(flag == 1){ double_matrix_multiplication(nOutputs,nInputs,nInputs,1,_controller.D,_controller.inputs,result2); } double_add_matrix(nOutputs, 1, result1, result2, _controller.outputs); for(k=0; k<nOutputs;k++){ for(j=0; j<1;j++){ outputs_fpx[k][j]= fxp_double_to_fxp(_controller.outputs[k][j]); } } fxp_matrix_multiplication(nInputs,nOutputs,nOutputs,1,K_fpx,outputs_fpx,result_fxp); for(k=0; k<nInputs;k++){ for(j=0; j<1;j++){ result1[k][j]= fxp_to_double(result_fxp[k][j]); } } printf("### fxp: U (before) = %.9f", _controller.inputs[0][0]); printf("### fxp: reference = %.9f", reference[0][0]); printf("### fxp: result1 = %.9f", result1[0][0]); printf("### fxp: reference - result1 = %.9f", (reference[0][0] - result1[0][0])); double_sub_matrix(nInputs, 1, reference, result1, _controller.inputs); printf("### fxp: Y = %.9f", _controller.outputs[0][0]); printf("### fxp: U (after) = %.9f \n### \n### ", _controller.inputs[0][0]); double_matrix_multiplication(nStates,nStates,nStates,1,_controller.A,_controller.states,result1); double_matrix_multiplication(nStates,nInputs,nInputs,1,_controller.B,_controller.inputs,result2); double_add_matrix(nStates, 1, result1, result2, _controller.states); } return _controller.outputs[0][0]; } int verify_safety_state_space(void){ fxp_t output_fxp = fxp_ss_closed_loop_safety(); double output_double = fxp_to_double(output_fxp); # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 ((void) sizeof (( # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" output_double <= error_limit # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" output_double <= error_limit # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 ) ; else __assert_fail ( # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" "output_double <= error_limit" # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h", 140, __extension__ __PRETTY_FUNCTION__); })) # 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_safety_state_space.h" ; return 0; } # 45 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 1 # 14 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" extern digital_system_state_space _controller; int verify_controllability(void){ int i; int j; fxp_t A_fpx[4][4]; fxp_t B_fpx[4][4]; fxp_t controllabilityMatrix[4][4]; fxp_t backup[4][4]; fxp_t backupSecond[4][4]; double controllabilityMatrix_double[4][4]; for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnInputs);j++){ A_fpx[i][j] = 0.0; B_fpx[i][j] = 0.0; controllabilityMatrix[i][j] = 0.0; backup[i][j] = 0.0; backupSecond[i][j] = 0.0; controllabilityMatrix_double[i][j] = 0.0; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ A_fpx[i][j]= fxp_double_to_fxp(_controller.A[i][j]); } } for(i=0; i<nStates;i++){ for(j=0; j<nInputs;j++){ B_fpx[i][j]= fxp_double_to_fxp(_controller.B[i][j]); } } if(nInputs > 1){ int l = 0; for(j=0; j<(nStatesnInputs);){ fxp_exp_matrix(nStates,nStates,A_fpx,l,backup); l++; fxp_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,B_fpx,backupSecond); for(int k = 0; k < nInputs; k++){ for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][k]; } j++; } } for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnInputs);j++){ backup[i][j]= 0.0; } } fxp_transpose(controllabilityMatrix,backup,nStates,(nStatesnInputs)); fxp_t mimo_controllabilityMatrix_fxp[4][4]; fxp_matrix_multiplication(nStates,(nStatesnInputs),(nStatesnInputs),nStates,controllabilityMatrix,backup,mimo_controllabilityMatrix_fxp); for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ controllabilityMatrix_double[i][j]= fxp_to_double(mimo_controllabilityMatrix_fxp[i][j]); } } # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(controllabilityMatrix_double,nStates) != 0" # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 91, __extension__ __PRETTY_FUNCTION__); })) # 91 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } else { for(j=0; j<nStates;j++){ fxp_exp_matrix(nStates,nStates,A_fpx,j,backup); fxp_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,B_fpx,backupSecond); for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][0]; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ controllabilityMatrix_double[i][j]= fxp_to_double(controllabilityMatrix[i][j]); } } # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix_double,nStates) != 0 # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(controllabilityMatrix_double,nStates) != 0" # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 113, __extension__ __PRETTY_FUNCTION__); })) # 113 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } return 0; } int verify_controllability_double(void){ int i; int j; double controllabilityMatrix[4][4]; double backup[4][4]; double backupSecond[4][4]; double controllabilityMatrix_double[4][4]; if(nInputs > 1){ int l = 0; for(j=0; j<(nStatesnInputs);){ double_exp_matrix(nStates,nStates,_controller.A,l,backup); l++; double_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,_controller.B,backupSecond); for(int k = 0; k < nInputs; k++){ for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][k]; } j++; } } for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnInputs);j++){ backup[i][j]= 0.0; } } transpose(controllabilityMatrix,backup,nStates,(nStatesnInputs)); double mimo_controllabilityMatrix_double[4][4]; double_matrix_multiplication(nStates,(nStatesnInputs),(nStatesnInputs),nStates,controllabilityMatrix,backup,mimo_controllabilityMatrix_double); # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(mimo_controllabilityMatrix_double,nStates) != 0 # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(mimo_controllabilityMatrix_double,nStates) != 0 # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(mimo_controllabilityMatrix_double,nStates) != 0" # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 154, __extension__ __PRETTY_FUNCTION__); })) # 154 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } else { for(j=0; j<nStates;j++){ double_exp_matrix(nStates,nStates,_controller.A,j,backup); double_matrix_multiplication(nStates,nStates,nStates,nInputs,backup,_controller.B,backupSecond); for(i = 0; i<nStates;i++){ controllabilityMatrix[i][j]= backupSecond[i][0]; } } # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ((void) sizeof (( # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix,nStates) != 0 # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" determinant(controllabilityMatrix,nStates) != 0 # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 ) ; else __assert_fail ( # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" "determinant(controllabilityMatrix,nStates) != 0" # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h", 163, __extension__ __PRETTY_FUNCTION__); })) # 163 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_controllability.h" ; } return 0; } # 46 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 1 # 17 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" extern digital_system_state_space _controller; int verify_observability(void){ int i; int j; fxp_t A_fpx[4][4]; fxp_t C_fpx[4][4]; fxp_t observabilityMatrix[4][4]; fxp_t backup[4][4]; fxp_t backupSecond[4][4]; double observabilityMatrix_double[4][4]; for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ observabilityMatrix[i][j]= 0; A_fpx[i][j]=0; C_fpx[i][j]= 0; backup[i][j]= 0; backupSecond[i][j]= 0; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ A_fpx[i][j]= fxp_double_to_fxp(_controller.A[i][j]); } } for(i=0; i<nOutputs;i++){ for(j=0; j<nStates;j++){ C_fpx[i][j]= fxp_double_to_fxp(_controller.C[i][j]); } } if(nOutputs > 1){ int l; j = 0; for(l=0; l<nStates;){ fxp_exp_matrix(nStates,nStates,A_fpx,l,backup); l++; fxp_matrix_multiplication(nOutputs,nStates,nStates,nStates,C_fpx,backup,backupSecond); for(int k = 0; k < nOutputs; k++){ for(i = 0; i<nStates;i++){ observabilityMatrix[j][i]= backupSecond[k][i]; } j++; } } # 80 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" for(i=0; i<nStates;i++){ for(j=0; j<(nStatesnOutputs);j++){ backup[i][j]= 0.0; } } fxp_transpose(observabilityMatrix,backup,(nStatesnOutputs),nStates); # 99 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" fxp_t mimo_observabilityMatrix_fxp[4][4]; fxp_matrix_multiplication(nStates,(nStatesnOutputs),(nStatesnOutputs),nStates,backup,observabilityMatrix,mimo_observabilityMatrix_fxp); # 112 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ observabilityMatrix_double[i][j]= fxp_to_double(mimo_observabilityMatrix_fxp[i][j]); } } # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ((void) sizeof (( # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ; else __assert_fail ( # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" "determinant(observabilityMatrix_double,nStates) != 0" # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h", 119, __extension__ __PRETTY_FUNCTION__); })) # 119 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" ; }else{ for(i=0; i<nStates;i++){ fxp_exp_matrix(nStates,nStates,A_fpx,i,backup); fxp_matrix_multiplication(nOutputs,nStates,nStates,nStates,C_fpx,backup,backupSecond); for(j = 0; j<nStates;j++){ observabilityMatrix[i][j]= backupSecond[0][j]; } } for(i=0; i<nStates;i++){ for(j=0; j<nStates;j++){ observabilityMatrix_double[i][j]= fxp_to_double(observabilityMatrix[i][j]); } } # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ((void) sizeof (( # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ? 1 : 0), __extension__ ({ if ( # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" determinant(observabilityMatrix_double,nStates) != 0 # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 ) ; else __assert_fail ( # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" "determinant(observabilityMatrix_double,nStates) != 0" # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" 3 4 , "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h", 134, __extension__ __PRETTY_FUNCTION__); })) # 134 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_observability.h" ; } return 0; } # 47 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 # 1 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_magnitude.h" 1 # 16 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_magnitude.h" extern filter_parameters filter; extern implementation impl; extern digital_system ds; # 28 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_magnitude.h" void resp_mag(double num, int lnum, double* den, int lden, double* res, int N) { double w; int m, i; double out_numRe[N + 1]; double out_numIm[N + 1]; double out_denRe[N + 1]; double out_denIm[N + 1]; double old_out_Re; double zero_test; for (w = 0, i = 0; w <= 3.14159265358979323846; w += 3.14159265358979323846 / N, ++i) { out_numRe[i] = num[0]; out_numIm[i] = 0; for (m = 1; m < lnum; ++m) { old_out_Re = out_numRe[i]; out_numRe[i] = cosTyl(w, 6) * out_numRe[i] - sinTyl(w, 6) * out_numIm[i] + num[m]; out_numIm[i] = sinTyl(w, 6) * old_out_Re + cosTyl(w, 6) * out_numIm[i]; } out_denRe[i] = den[0]; out_denIm[i] = 0; for (m = 1; m < lden; ++m) { old_out_Re = out_denRe[i]; out_denRe[i] = cosTyl(w, 6) * out_denRe[i] - sinTyl(w, 6) * out_denIm[i] + den[m]; out_denIm[i] = sinTyl(w, 6) * old_out_Re + cosTyl(w, 6) * out_denIm[i]; } res[i] = sqrt3(out_numRe[i] * out_numRe[i] + out_numIm[i] * out_numIm[i]); zero_test = sqrt3(out_denRe[i] * out_denRe[i] + out_denIm[i] * out_denIm[i]); __DSVERIFIER_assume(zero_test != 0); res[i] = res[i] / zero_test; } } int verify_magnitude(void) { int freq_response_samples = 100; double w; double w_incr = 1.0 / freq_response_samples; double res[freq_response_samples+1]; int i,j; fxp_t a_fxp[ds.a_size]; fxp_double_to_fxp_array(ds.a, a_fxp, ds.a_size); double _a[ds.a_size]; fxp_to_double_array(_a, a_fxp, ds.a_size); fxp_t b_fxp[ds.b_size]; fxp_double_to_fxp_array(ds.b, b_fxp, ds.b_size); double _b[ds.b_size]; fxp_to_double_array(_b, b_fxp, ds.b_size); resp_mag(ds.b, ds.b_size, ds.a, ds.a_size, res, freq_response_samples); if (filter.type == 1) { for (i = 0, w = 0; (w <= 1.0); ++i, w += w_incr) { if (w <= filter.wp) { __DSVERIFIER_assert_msg(res[i] >= filter.Ap, "\|----------------Passband Failure-------------\|"); } else if (w == filter.wc) { __DSVERIFIER_assert_msg(res[i] <= filter.Ac, "\|-------------Cutoff Frequency Failure--------\|"); } else if ((w >= filter.wr) && (w <= 1)) { __DSVERIFIER_assert_msg(res[i] <= filter.Ar, "\|----------------Stopband Failure-------------\|"); } } } else if (filter.type == 2) { for (i = 0, w = 0; (w <= 1.0); ++i, w += w_incr) { if (w <= filter.wr) { __DSVERIFIER_assert_msg(res[i] <= filter.Ar, "\|----------------Stopband Failure-------------\|"); } else if (w == filter.wc) { __DSVERIFIER_assert_msg(res[i] <= filter.Ac, "\|-------------Cutoff Frequency Failure--------\|"); } else if ((w > filter.wp) && (w <= 1)) { __DSVERIFIER_assert_msg(res[i] >= filter.Ap, "\|----------------Passband Failure-------------\|"); } } } else { __DSVERIFIER_assert(0); } return 0; } # 48 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/dsverifier.h" 2 extern digital_system ds; extern digital_system plant; digital_system plant_cbmc; extern digital_system controller; extern implementation impl; extern hardware hw; extern digital_system_state_space _controller; extern filter_parameters filter; unsigned int nondet_uint(); extern void initials(); void validation(); void call_verification_task(void * verification_task); void call_closedloop_verification_task(void * closedloop_verification_task); float nondet_float(); double nondet_double(); int main(){ initialization(); validation(); if (1 == 0) rounding_mode = 0; else if (1 == 1) rounding_mode = 1; else if (1 == 2) rounding_mode = 2; if (3 == 3) { call_verification_task(&verify_overflow); } else if (3 == 2) { call_verification_task(&verify_limit_cycle); } else if (3 == 6) { call_verification_task(&verify_error); } else if (3 == 1) { call_verification_task(&verify_zero_input_limit_cycle); } else if (3 == 4) { call_verification_task(&verify_timing_msp_430); } else if (3 == 5) { call_verification_task(&verify_generic_timing); } else if (3 == 7) { call_verification_task(&verify_stability); } else if (3 == 8) { call_verification_task(&verify_minimum_phase); } else if (3 == 9) { call_closedloop_verification_task(&verify_stability_closedloop_using_dslib); } else if (3 == 10) { call_closedloop_verification_task(&verify_limit_cycle_closed_loop); } else if (3 == 11) { call_closedloop_verification_task(&verify_error_closedloop); } else if (3 == 12) { verify_error_state_space(); } else if (3 == 16) { verify_safety_state_space(); } else if (3 == 13) { verify_controllability(); } else if (3 == 14) { verify_observability(); } else if (3 == 15) { verify_limit_cycle_state_space(); } else if (3 == 18) { call_verification_task(&verify_magnitude); } return 0; } void validation() { if (3 == 12 \|\| 3 == 16 \|\| 3 == 15 \|\| 3 == 13 \|\| 3 == 14) { if (0 == 0) { printf("\n\n*******************************************************************************************\n"); printf(" set a K_SIZE to use this property in DSVerifier (use: -DK_SIZE=VALUE) \n"); printf("*****************************************************************************************\n"); __DSVERIFIER_assert(0); exit(1); } initials(); return; } if (((3 != 9) && (3 != 10) && (3 != 11)) && (ds.a_size == 0 \|\| ds.b_size == 0)) { printf("\n\n*************************************************************************\n"); printf(" set (ds and impl) parameters to check with DSVerifier \n"); printf("*************************************************************************\n"); __DSVERIFIER_assert(0); } if ((3 == 9) \|\| (3 == 10) \|\| (3 == 11)) { if (controller.a_size == 0 \|\| plant.b_size == 0 \|\| impl.int_bits == 0 ) { printf("\n\n**************************************************************************************************\n"); printf(" set (controller, plant, and impl) parameters to check CLOSED LOOP with DSVerifier \n"); printf("**************************************************************************************************\n"); __DSVERIFIER_assert(0); } else { printf("\n\n**************************************************************************************************\n"); printf(" set (controller and impl) parameters so that they do not overflow \n"); printf("**************************************************************************************************\n"); unsigned j; for (j = 0; j < controller.a_size; ++j) { const double value=controller.a[j]; __DSVERIFIER_assert(value <= _dbl_max); __DSVERIFIER_assert(value >= _dbl_min); } for (j = 0; j < controller.b_size; ++j) { const double value=controller.b[j]; __DSVERIFIER_assert(value <= _dbl_max); __DSVERIFIER_assert(value >= _dbl_min); } } if (controller.b_size > 0) { unsigned j, zeros=0; for (j = 0; j < controller.b_size; ++j) { if (controller.b[j]==0) ++zeros; } if (zeros == controller.b_size) { printf("\n\n**************************************************************************************************\n"); printf(" The controller numerator must not be zero \n"); printf("**************************************************************************************************\n"); __DSVERIFIER_assert(0); } } if (controller.a_size > 0) { unsigned j, zeros=0; for (j = 0; j < controller.a_size; ++j) { if (controller.a[j]==0) ++zeros; } if (zeros == controller.a_size) { printf("\n\n**************************************************************************************************\n"); printf(" The controller denominator must not be zero \n"); printf("**************************************************************************************************\n"); __DSVERIFIER_assert(0); } } if (0 == 0) { printf("\n\n************************************************************************************************************\n"); printf(" set a connection mode to check CLOSED LOOP with DSVerifier (use: --connection-mode TYPE) \n"); printf("************************************************************************************************************\n"); __DSVERIFIER_assert(0); } } if (3 == 0) { printf("\n\n************************************************************************************\n"); printf(" set the property to check with DSVerifier (use: --property NAME) \n"); printf("************************************************************************************\n"); __DSVERIFIER_assert(0); } if ((3 == 3) \|\| (3 == 2) \|\| (3 == 1) \|\| (3 == 10) \|\| (3 == 11) \|\| (3 == 4 \|\| 3 == 5) \|\| 3 == 6) { if ((5 == 0) && !(0 == 1)) { printf("\n\n*****************************************************************************************\n"); printf(" set a X_SIZE to use this property in DSVerifier (use: --x-size VALUE) \n"); printf("******************************************************************************************\n"); __DSVERIFIER_assert(0); } else if (0 == 1) { X_SIZE_VALUE = nondet_uint(); __DSVERIFIER_assume( X_SIZE_VALUE > (2 ds.a_size)); } else if (5 < 0) { printf("\n\n*******************************************************************************************\n"); printf(" set a X_SIZE > 0 \n"); printf("*****************************************************************************************\n"); __DSVERIFIER_assert(0); } else { X_SIZE_VALUE = 5; } } if ((3 == 0) && (3 != 9) && (3 != 18)) { printf("\n\n******************************************************************************************\n"); printf(" set the realization to check with DSVerifier (use: --realization NAME) \n"); printf("******************************************************************************************\n"); __DSVERIFIER_assert(0); } if (3 == 6 \|\| 3 == 11) { if (impl.max_error == 0) { printf("\n\n********************************************************************\n"); printf(" provide the maximum expected error (use: impl.max_error) \n"); printf("********************************************************************\n"); __DSVERIFIER_assert(0); } } if (3 == 4 \|\| 3 == 5) { if (3 == 5 \|\| 3 == 4) { if (hw.clock == 0l) { printf("\n\n************************\n"); printf(" Clock could not be zero \n"); printf("************************\n"); __DSVERIFIER_assert(0); } hw.cycle = ((double) 1.0 / hw.clock); if (hw.cycle < 0) { printf("\n\n******************************************\n"); printf(" The cycle time could not be representable \n"); printf("******************************************\n"); __DSVERIFIER_assert(0); } if (ds.sample_time == 0) { printf("\n\n**************************************************************************\n"); printf(" provide the sample time of the digital system (ds.sample_time) \n"); printf("**************************************************************************\n"); __DSVERIFIER_assert(0); } } } if (3 == 18) { if (!((filter.Ap > 0) && (filter.Ac >0) && (filter.Ar >0))) { printf("\n\n**************************************************************************\n"); printf(" set values bigger than 0 for Ap, Ac and Ar* \n"); printf("***************************************************************************\n"); __DSVERIFIER_assert(0); } } if ((3 == 7) \|\| (3 == 8) \|\| (3 == 9) \|\| (3 == 10) \|\| (3 == 11) \|\| (3 == 12)) { printf("\n\n***************************************\n"); printf(" Temporarily the cascade modes are disabled \n"); printf("********************************************\n"); __DSVERIFIER_assert(0); } } void call_verification_task(void verification_task) { int i = 0; _Bool base_case_executed = 0; if (0 == 2) { for(i=0; i<ds.b_size; i++) { if (ds.b_uncertainty[i] > 0) { double factor = ds.b_uncertainty[i]; factor = factor < 0 ? factor * (-1) : factor; double min = ds.b[i] - factor; double max = ds.b[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.b[i] = nondet_double(); __DSVERIFIER_assume((ds.b[i] >= min) && (ds.b[i] <= max)); } } for(i=0; i<ds.a_size; i++) { if (ds.a_uncertainty[i] > 0) { double factor = ds.a_uncertainty[i]; factor = factor < 0 ? factor * (-1) : factor; double min = ds.a[i] - factor; double max = ds.a[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.a[i] = nondet_double(); __DSVERIFIER_assume((ds.a[i] >= min) && (ds.a[i] <= max)); } } } else { int i=0; for(i=0; i<ds.b_size; i++) { if (ds.b_uncertainty[i] > 0) { double factor = ((ds.b[i] * ds.b_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = ds.b[i] - factor; double max = ds.b[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.b[i] = nondet_double(); __DSVERIFIER_assume((ds.b[i] >= min) && (ds.b[i] <= max)); } } for(i=0; i<ds.a_size; i++) { if (ds.a_uncertainty[i] > 0) { double factor = ((ds.a[i] * ds.a_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = ds.a[i] - factor; double max = ds.a[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } ds.a[i] = nondet_double(); __DSVERIFIER_assume((ds.a[i] >= min) && (ds.a[i] <= max)); } } } ((void()())verification_task)(); } void call_closedloop_verification_task(void closedloop_verification_task) { _Bool base_case_executed = 0; int i=0; for(i=0; i<plant.b_size; i++) { if (plant.b_uncertainty[i] > 0) { double factor = ((plant.b[i] * plant.b_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = plant.b[i] - factor; double max = plant.b[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } plant.b[i] = nondet_double(); __DSVERIFIER_assume((plant.b[i] >= min) && (plant.b[i] <= max)); }else{ } } for(i=0; i<plant.a_size; i++) { if (plant.a_uncertainty[i] > 0) { double factor = ((plant.a[i] * plant.a_uncertainty[i]) / 100); factor = factor < 0 ? factor * (-1) : factor; double min = plant.a[i] - factor; double max = plant.a[i] + factor; if ((factor == 0) && (base_case_executed == 1)) { continue; } else if ((factor == 0) && (base_case_executed == 0)) { base_case_executed = 1; } plant.a[i] = nondet_double(); __DSVERIFIER_assume((plant.a[i] >= min) && (plant.a[i] <= max)); } else { } } ((void(*)())closedloop_verification_task)(); } # 2 "benchmarks/ds-02-impl3.c" 2 digital_system ds = { .b = { 60.0, -50.0 }, .b_size = 2, .a = { 1.0, 0.0 }, .a_size = 2, .sample_time = 0.02 }; implementation impl = { .int_bits = 10, .frac_bits = 6, .max = 1.0, .min = -1.0, };
the_stack_data/145453750.c	#include <stdio.h> #include <stdlib.h> void main (){ int cod=0, quant=0, op=0; float v=0; printf("1- Samsung S21 R$4.0000 \n2- Xiaomi Redmi 9 R$1.000 \n3- Iphone 12 R$5.500 \n4- Asus Zenfone 5 R$2.000"); printf("\nInsira o codigo do produto: "); scanf("%i",&cod); fflush(stdin); printf("\nInsira a quantidade: "); scanf("%i",&quant); fflush(stdin); switch(cod){ case 1: v=quant4000; printf("\nValor total: %.2f",v); break; case 2: v=quant1000; printf("\nValor total: %.2f",v); break; case 3: v=quant5500; printf("\nValor total: %.2f",v); break; case 4: v=quant2000; printf("\nValor total: %.2f",v); break; default: printf("\nopcao invalida."); } printf("\n\nOpcoes de pagamento: \n\n1- Parcelado em 3x SEM Juro \n2- Parcelado em 6x SEM Juros \n3- PARCELADO em 9X com Juros de 17%% \n\n: "); scanf("%i",&op); fflush(stdin); switch(op){ case 1: v=v/3; printf("\nValor total: %.2f",v); break; case 2: v=v/6; printf("\nValor total: %.2f",v); break; case 3: v=(v*1.17)/9; printf("\nValor total: %.2f",v); break; default: printf("\nopcao invalida."); } getchar(); }
the_stack_data/122015804.c	/* * LZMA support routines for PhysicsFS. * * Please see the file lzma.txt in the lzma/ directory. * * This file was written by Dennis Schridde, with some peeking at "7zMain.c" * by Igor Pavlov. / #if (defined PHYSFS_SUPPORTS_7Z) #include <stdlib.h> #include <string.h> #include <time.h> #include "physfs.h" #define __PHYSICSFS_INTERNAL__ #include "physfs_internal.h" #include "lzma/C/7zCrc.h" #include "lzma/C/Archive/7z/7zIn.h" #include "lzma/C/Archive/7z/7zExtract.h" / 7z internal from 7zIn.c / extern int TestSignatureCandidate(Byte testBytes); #ifdef _LZMA_IN_CB # define BUFFER_SIZE (1 << 12) #endif /* _LZMA_IN_CB / / * Carries filestream metadata through 7z / typedef struct _FileInputStream { ISzAlloc allocImp; / Allocation implementation, used by 7z / ISzAlloc allocTempImp; / Temporary allocation implementation, used by 7z / ISzInStream inStream; / Input stream with read callbacks, used by 7z / void file; /* Filehandle, used by read implementation / #ifdef _LZMA_IN_CB Byte buffer[BUFFER_SIZE]; / Buffer, used by read implementation / #endif / _LZMA_IN_CB / } FileInputStream; / * In the 7z format archives are splited into blocks, those are called folders * Set by LZMA_read() / typedef struct _LZMAfolder { PHYSFS_uint32 index; / Index of folder in archive / PHYSFS_uint32 references; / Number of files using this block / PHYSFS_uint8 cache; /* Cached folder / size_t size; / Size of folder / } LZMAfolder; / * Set by LZMA_openArchive(), except folder which gets it's values * in LZMA_read() / typedef struct _LZMAarchive { struct _LZMAfile files; /* Array of files, size == archive->db.Database.NumFiles / LZMAfolder folders; /* Array of folders, size == archive->db.Database.NumFolders / CArchiveDatabaseEx db; / For 7z: Database / FileInputStream stream; / For 7z: Input file incl. read and seek callbacks / } LZMAarchive; / Set by LZMA_openArchive(), except offset which is set by LZMA_read() / typedef struct _LZMAfile { PHYSFS_uint32 index; / Index of file in archive / LZMAarchive archive; /* Link to corresponding archive / LZMAfolder folder; /* Link to corresponding folder / CFileItem item; /* For 7z: File info, eg. name, size / size_t offset; / Offset in folder / size_t position; / Current "virtual" position in file / } LZMAfile; / Memory management implementations to be passed to 7z / static void SzAllocPhysicsFS(size_t size) { return ((size == 0) ? NULL : allocator.Malloc(size)); } /* SzAllocPhysicsFS / static void SzFreePhysicsFS(void address) { if (address != NULL) allocator.Free(address); } /* SzFreePhysicsFS / / Filesystem implementations to be passed to 7z / #ifdef _LZMA_IN_CB / * Read implementation, to be passed to 7z * WARNING: If the ISzInStream in 'object' is not contained in a valid FileInputStream this _will_ break horribly! / SZ_RESULT SzFileReadImp(void object, void *buffer, size_t maxReqSize, size_t processedSize) { FileInputStream s = (FileInputStream )(object - offsetof(FileInputStream, inStream)); /* HACK! / PHYSFS_sint64 processedSizeLoc = 0; if (maxReqSize > BUFFER_SIZE) maxReqSize = BUFFER_SIZE; processedSizeLoc = __PHYSFS_platformRead(s->file, s->buffer, 1, maxReqSize); buffer = s->buffer; if (processedSize != NULL) processedSize = (size_t) processedSizeLoc; return SZ_OK; } / SzFileReadImp / #else / * Read implementation, to be passed to 7z * WARNING: If the ISzInStream in 'object' is not contained in a valid FileInputStream this _will_ break horribly! / SZ_RESULT SzFileReadImp(void object, void buffer, size_t size, size_t processedSize) { FileInputStream s = (FileInputStream )((size_t)object - offsetof(FileInputStream, inStream)); /* HACK! / size_t processedSizeLoc = __PHYSFS_platformRead(s->file, buffer, 1, size); if (processedSize != 0) processedSize = processedSizeLoc; return SZ_OK; } /* SzFileReadImp / #endif / * Seek implementation, to be passed to 7z * WARNING: If the ISzInStream in 'object' is not contained in a valid FileInputStream this _will_ break horribly! / SZ_RESULT SzFileSeekImp(void object, CFileSize pos) { FileInputStream s = (FileInputStream )((size_t)object - offsetof(FileInputStream, inStream)); /* HACK! / if (__PHYSFS_platformSeek(s->file, (PHYSFS_uint64) pos)) return SZ_OK; return SZE_FAIL; } / SzFileSeekImp / / * Translate Microsoft FILETIME (used by 7zip) into UNIX timestamp / static PHYSFS_sint64 lzma_filetime_to_unix_timestamp(CArchiveFileTime ft) { /* MS counts in nanoseconds ... / const PHYSFS_uint64 FILETIME_NANOTICKS_PER_SECOND = __PHYSFS_UI64(10000000); / MS likes to count seconds since 01.01.1601 ... / const PHYSFS_uint64 FILETIME_UNIX_DIFF = __PHYSFS_UI64(11644473600); PHYSFS_uint64 filetime = ft->Low \| ((PHYSFS_uint64)ft->High << 32); return filetime/FILETIME_NANOTICKS_PER_SECOND - FILETIME_UNIX_DIFF; } / lzma_filetime_to_unix_timestamp / / * Compare a file with a given name, C89 stdlib variant * Used for sorting / static int lzma_file_cmp_stdlib(const void key, const void object) { const char name = (const char ) key; LZMAfile file = (LZMAfile ) object; return(strcmp(name, file->item->Name)); } / lzma_file_cmp_posix / / * Compare two files with each other based on the name * Used for sorting / static int lzma_file_cmp(void _a, PHYSFS_uint32 one, PHYSFS_uint32 two) { LZMAfile files = (LZMAfile ) _a; return(strcmp(files[one].item->Name, files[two].item->Name)); } /* lzma_file_cmp / / * Swap two entries in the file array / static void lzma_file_swap(void _a, PHYSFS_uint32 one, PHYSFS_uint32 two) { LZMAfile tmp; LZMAfile first = &(((LZMAfile ) _a)[one]); LZMAfile second = &(((LZMAfile ) _a)[two]); memcpy(&tmp, first, sizeof (LZMAfile)); memcpy(first, second, sizeof (LZMAfile)); memcpy(second, &tmp, sizeof (LZMAfile)); } /* lzma_file_swap / / * Find entry 'name' in 'archive' / static LZMAfile lzma_find_file(LZMAarchive archive, const char name) { LZMAfile file = bsearch(name, archive->files, archive->db.Database.NumFiles, sizeof(archive->files), lzma_file_cmp_stdlib); /* FIXME: Should become __PHYSFS_search!!! / BAIL_IF_MACRO(file == NULL, ERR_NO_SUCH_FILE, NULL); return(file); } / lzma_find_file / / * Load metadata for the file at given index / static int lzma_file_init(LZMAarchive archive, PHYSFS_uint32 fileIndex) { LZMAfile file = &archive->files[fileIndex]; PHYSFS_uint32 folderIndex = archive->db.FileIndexToFolderIndexMap[fileIndex]; file->index = fileIndex; / Store index into 7z array, since we sort our own. / file->archive = archive; file->folder = (folderIndex != (PHYSFS_uint32)-1 ? &archive->folders[folderIndex] : NULL); / Directories don't have a folder (they contain no own data...) / file->item = &archive->db.Database.Files[fileIndex]; / Holds crucial data and is often referenced -> Store link / file->position = 0; file->offset = 0; / Offset will be set by LZMA_read() / return(1); } / lzma_load_file / / * Load metadata for all files / static int lzma_files_init(LZMAarchive archive) { PHYSFS_uint32 fileIndex = 0, numFiles = archive->db.Database.NumFiles; for (fileIndex = 0; fileIndex < numFiles; fileIndex++ ) { if (!lzma_file_init(archive, fileIndex)) { return(0); /* FALSE on failure / } } / for / __PHYSFS_sort(archive->files, numFiles, lzma_file_cmp, lzma_file_swap); return(1); } / lzma_load_files / / * Initialise specified archive / static void lzma_archive_init(LZMAarchive archive) { memset(archive, 0, sizeof(archive)); / Prepare callbacks for 7z / archive->stream.inStream.Read = SzFileReadImp; archive->stream.inStream.Seek = SzFileSeekImp; archive->stream.allocImp.Alloc = SzAllocPhysicsFS; archive->stream.allocImp.Free = SzFreePhysicsFS; archive->stream.allocTempImp.Alloc = SzAllocPhysicsFS; archive->stream.allocTempImp.Free = SzFreePhysicsFS; } / * Deinitialise archive / static void lzma_archive_exit(LZMAarchive archive) { /* Free arrays / allocator.Free(archive->folders); allocator.Free(archive->files); allocator.Free(archive); } / * Wrap all 7z calls in this, so the physfs error state is set appropriately. / static int lzma_err(SZ_RESULT rc) { switch (rc) { case SZ_OK: / Same as LZMA_RESULT_OK / break; case SZE_DATA_ERROR: / Same as LZMA_RESULT_DATA_ERROR / __PHYSFS_setError(ERR_DATA_ERROR); break; case SZE_OUTOFMEMORY: __PHYSFS_setError(ERR_OUT_OF_MEMORY); break; case SZE_CRC_ERROR: __PHYSFS_setError(ERR_CORRUPTED); break; case SZE_NOTIMPL: __PHYSFS_setError(ERR_NOT_IMPLEMENTED); break; case SZE_FAIL: __PHYSFS_setError(ERR_UNKNOWN_ERROR); / !!! FIXME: right? / break; case SZE_ARCHIVE_ERROR: __PHYSFS_setError(ERR_CORRUPTED); / !!! FIXME: right? / break; default: __PHYSFS_setError(ERR_UNKNOWN_ERROR); } / switch / return(rc); } / lzma_err / static PHYSFS_sint64 LZMA_read(fvoid opaque, void outBuffer, PHYSFS_uint32 objSize, PHYSFS_uint32 objCount) { LZMAfile file = (LZMAfile ) opaque; size_t wantedSize = objSizeobjCount; size_t remainingSize = file->item->Size - file->position; size_t fileSize = 0; BAIL_IF_MACRO(wantedSize == 0, NULL, 0); /* quick rejection. / BAIL_IF_MACRO(remainingSize == 0, ERR_PAST_EOF, 0); if (remainingSize < wantedSize) { wantedSize = remainingSize - (remainingSize % objSize); objCount = (PHYSFS_uint32) (remainingSize / objSize); BAIL_IF_MACRO(objCount == 0, ERR_PAST_EOF, 0); / quick rejection. / __PHYSFS_setError(ERR_PAST_EOF); / this is always true here. / } / if / / Only decompress the folder if it is not allready cached / if (file->folder->cache == NULL) { int rc = lzma_err(SzExtract( &file->archive->stream.inStream, / compressed data / &file->archive->db, / 7z's database, containing everything / file->index, / Index into database arrays / / Index of cached folder, will be changed by SzExtract / &file->folder->index, / Cache for decompressed folder, allocated/freed by SzExtract / &file->folder->cache, / Size of cache, will be changed by SzExtract / &file->folder->size, / Offset of this file inside the cache, set by SzExtract / &file->offset, &fileSize, / Size of this file / &file->archive->stream.allocImp, &file->archive->stream.allocTempImp)); if (rc != SZ_OK) return -1; } / if / / Copy wanted bytes over from cache to outBuffer / memcpy(outBuffer, (file->folder->cache + file->offset + file->position), wantedSize); file->position += wantedSize; / Increase virtual position / return objCount; } / LZMA_read / static PHYSFS_sint64 LZMA_write(fvoid opaque, const void buf, PHYSFS_uint32 objSize, PHYSFS_uint32 objCount) { BAIL_MACRO(ERR_NOT_SUPPORTED, -1); } / LZMA_write / static int LZMA_eof(fvoid opaque) { LZMAfile file = (LZMAfile ) opaque; return (file->position >= file->item->Size); } /* LZMA_eof / static PHYSFS_sint64 LZMA_tell(fvoid opaque) { LZMAfile file = (LZMAfile ) opaque; return (file->position); } /* LZMA_tell / static int LZMA_seek(fvoid opaque, PHYSFS_uint64 offset) { LZMAfile file = (LZMAfile ) opaque; BAIL_IF_MACRO(offset < 0, ERR_SEEK_OUT_OF_RANGE, 0); BAIL_IF_MACRO(offset > file->item->Size, ERR_PAST_EOF, 0); file->position = offset; /* We only use a virtual position... / return 1; } / LZMA_seek / static PHYSFS_sint64 LZMA_fileLength(fvoid opaque) { LZMAfile file = (LZMAfile ) opaque; return (file->item->Size); } /* LZMA_fileLength / static int LZMA_fileClose(fvoid opaque) { LZMAfile file = (LZMAfile ) opaque; BAIL_IF_MACRO(file->folder == NULL, ERR_NOT_A_FILE, 0); /* Only decrease refcount if someone actually requested this file... Prevents from overflows and close-on-open... / if (file->folder->references > 0) file->folder->references--; if (file->folder->references == 0) { / Free the cache which might have been allocated by LZMA_read() / allocator.Free(file->folder->cache); file->folder->cache = NULL; } return(1); } / LZMA_fileClose / static int LZMA_isArchive(const char filename, int forWriting) { PHYSFS_uint8 sig[k7zSignatureSize]; void in; BAIL_IF_MACRO(forWriting, ERR_ARC_IS_READ_ONLY, 0); in = __PHYSFS_platformOpenRead(filename); BAIL_IF_MACRO(in == NULL, NULL, 0); / Read signature bytes / if (__PHYSFS_platformRead(in, sig, k7zSignatureSize, 1) != 1) { __PHYSFS_platformClose(in); / Don't forget to close the file before returning... / BAIL_MACRO(NULL, 0); } __PHYSFS_platformClose(in); / Test whether sig is the 7z signature / return(TestSignatureCandidate(sig)); } / LZMA_isArchive / static void LZMA_openArchive(const char name, int forWriting) { size_t len = 0; LZMAarchive archive = NULL; BAIL_IF_MACRO(forWriting, ERR_ARC_IS_READ_ONLY, NULL); BAIL_IF_MACRO(!LZMA_isArchive(name,forWriting), ERR_UNSUPPORTED_ARCHIVE, 0); archive = (LZMAarchive ) allocator.Malloc(sizeof (LZMAarchive)); BAIL_IF_MACRO(archive == NULL, ERR_OUT_OF_MEMORY, NULL); lzma_archive_init(archive); if ( (archive->stream.file = __PHYSFS_platformOpenRead(name)) == NULL ) { __PHYSFS_platformClose(archive->stream.file); lzma_archive_exit(archive); return(NULL); / Error is set by platformOpenRead! / } CrcGenerateTable(); SzArDbExInit(&archive->db); if (lzma_err(SzArchiveOpen(&archive->stream.inStream, &archive->db, &archive->stream.allocImp, &archive->stream.allocTempImp)) != SZ_OK) { SzArDbExFree(&archive->db, SzFreePhysicsFS); __PHYSFS_platformClose(archive->stream.file); lzma_archive_exit(archive); return NULL; / Error is set by lzma_err! / } / if / len = archive->db.Database.NumFiles sizeof (LZMAfile); archive->files = (LZMAfile ) allocator.Malloc(len); if (archive->files == NULL) { SzArDbExFree(&archive->db, SzFreePhysicsFS); __PHYSFS_platformClose(archive->stream.file); lzma_archive_exit(archive); BAIL_MACRO(ERR_OUT_OF_MEMORY, NULL); } / * Init with 0 so we know when a folder is already cached * Values will be set by LZMA_openRead() / memset(archive->files, 0, len); len = archive->db.Database.NumFolders sizeof (LZMAfolder); archive->folders = (LZMAfolder ) allocator.Malloc(len); if (archive->folders == NULL) { SzArDbExFree(&archive->db, SzFreePhysicsFS); __PHYSFS_platformClose(archive->stream.file); lzma_archive_exit(archive); BAIL_MACRO(ERR_OUT_OF_MEMORY, NULL); } / * Init with 0 so we know when a folder is already cached * Values will be set by LZMA_read() / memset(archive->folders, 0, len); if(!lzma_files_init(archive)) { SzArDbExFree(&archive->db, SzFreePhysicsFS); __PHYSFS_platformClose(archive->stream.file); lzma_archive_exit(archive); BAIL_MACRO(ERR_UNKNOWN_ERROR, NULL); } return(archive); } / LZMA_openArchive / / * Moved to seperate function so we can use alloca then immediately throw * away the allocated stack space... / static void doEnumCallback(PHYSFS_EnumFilesCallback cb, void callbackdata, const char odir, const char str, size_t flen) { char newstr = __PHYSFS_smallAlloc(flen + 1); if (newstr == NULL) return; memcpy(newstr, str, flen); newstr[flen] = '\0'; cb(callbackdata, odir, newstr); __PHYSFS_smallFree(newstr); } / doEnumCallback / static void LZMA_enumerateFiles(dvoid opaque, const char dname, int omitSymLinks, PHYSFS_EnumFilesCallback cb, const char origdir, void callbackdata) { size_t dlen = strlen(dname), dlen_inc = dlen + ((dlen > 0) ? 1 : 0); LZMAarchive archive = (LZMAarchive ) opaque; LZMAfile file = NULL, lastFile = &archive->files[archive->db.Database.NumFiles]; if (dlen) { file = lzma_find_file(archive, dname); if (file != NULL) / if 'file' is NULL it should stay so, otherwise errors will not be handled / file += 1; } else { file = archive->files; } BAIL_IF_MACRO(file == NULL, ERR_NO_SUCH_FILE, ); while (file < lastFile) { const char fname = file->item->Name; const char * dirNameEnd = fname + dlen_inc; if (strncmp(dname, fname, dlen) != 0) /* Stop after mismatch, archive->files is sorted / break; if (strchr(dirNameEnd, '/')) / Skip subdirs / { file++; continue; } / Do the actual callback... / doEnumCallback(cb, callbackdata, origdir, dirNameEnd, strlen(dirNameEnd)); file++; } } / LZMA_enumerateFiles / static int LZMA_exists(dvoid opaque, const char name) { LZMAarchive archive = (LZMAarchive ) opaque; return(lzma_find_file(archive, name) != NULL); } / LZMA_exists / static PHYSFS_sint64 LZMA_getLastModTime(dvoid opaque, const char name, int fileExists) { LZMAarchive archive = (LZMAarchive ) opaque; LZMAfile file = lzma_find_file(archive, name); fileExists = (file != NULL); BAIL_IF_MACRO(file == NULL, NULL, -1); BAIL_IF_MACRO(!file->item->IsLastWriteTimeDefined, NULL, -1); /* write-time may not be defined for every file / return(lzma_filetime_to_unix_timestamp(&file->item->LastWriteTime)); } / LZMA_getLastModTime / static int LZMA_isDirectory(dvoid opaque, const char name, int fileExists) { LZMAarchive archive = (LZMAarchive ) opaque; LZMAfile file = lzma_find_file(archive, name); fileExists = (file != NULL); return(file == NULL ? 0 : file->item->IsDirectory); } /* LZMA_isDirectory / static int LZMA_isSymLink(dvoid opaque, const char name, int fileExists) { BAIL_MACRO(ERR_NOT_SUPPORTED, 0); } /* LZMA_isSymLink / static fvoid LZMA_openRead(dvoid opaque, const char name, int fileExists) { LZMAarchive archive = (LZMAarchive ) opaque; LZMAfile file = lzma_find_file(archive, name); fileExists = (file != NULL); BAIL_IF_MACRO(file == NULL, ERR_NO_SUCH_FILE, NULL); BAIL_IF_MACRO(file->folder == NULL, ERR_NOT_A_FILE, NULL); file->position = 0; file->folder->references++; / Increase refcount for automatic cleanup... / return(file); } / LZMA_openRead / static fvoid LZMA_openWrite(dvoid opaque, const char filename) { BAIL_MACRO(ERR_NOT_SUPPORTED, NULL); } /* LZMA_openWrite / static fvoid LZMA_openAppend(dvoid opaque, const char filename) { BAIL_MACRO(ERR_NOT_SUPPORTED, NULL); } /* LZMA_openAppend / static void LZMA_dirClose(dvoid opaque) { LZMAarchive archive = (LZMAarchive ) opaque; PHYSFS_uint32 fileIndex = 0, numFiles = archive->db.Database.NumFiles; for (fileIndex = 0; fileIndex < numFiles; fileIndex++) { LZMA_fileClose(&archive->files[fileIndex]); } /* for / SzArDbExFree(&archive->db, SzFreePhysicsFS); __PHYSFS_platformClose(archive->stream.file); lzma_archive_exit(archive); } / LZMA_dirClose / static int LZMA_remove(dvoid opaque, const char name) { BAIL_MACRO(ERR_NOT_SUPPORTED, 0); } / LZMA_remove / static int LZMA_mkdir(dvoid opaque, const char name) { BAIL_MACRO(ERR_NOT_SUPPORTED, 0); } / LZMA_mkdir / const PHYSFS_ArchiveInfo __PHYSFS_ArchiveInfo_LZMA = { "7Z", LZMA_ARCHIVE_DESCRIPTION, "Dennis Schridde <[email protected]>", "http://icculus.org/physfs/", }; const PHYSFS_Archiver __PHYSFS_Archiver_LZMA = { &__PHYSFS_ArchiveInfo_LZMA, LZMA_isArchive, / isArchive() method / LZMA_openArchive, / openArchive() method / LZMA_enumerateFiles, / enumerateFiles() method / LZMA_exists, / exists() method / LZMA_isDirectory, / isDirectory() method / LZMA_isSymLink, / isSymLink() method / LZMA_getLastModTime, / getLastModTime() method / LZMA_openRead, / openRead() method / LZMA_openWrite, / openWrite() method / LZMA_openAppend, / openAppend() method / LZMA_remove, / remove() method / LZMA_mkdir, / mkdir() method / LZMA_dirClose, / dirClose() method / LZMA_read, / read() method / LZMA_write, / write() method / LZMA_eof, / eof() method / LZMA_tell, / tell() method / LZMA_seek, / seek() method / LZMA_fileLength, / fileLength() method / LZMA_fileClose / fileClose() method / }; #endif / defined PHYSFS_SUPPORTS_7Z / / end of lzma.c ... */
the_stack_data/248094.c	#include <stdio.h> #include <stdlib.h> #include <string.h> void wifi() { FILE fwifi = fopen("/proc/net/wireless", "r"); char line[256]; char s[5]; int n; for (int i = 0; i < 3; i++) { fgets(line, sizeof(line), fwifi); if (i == 2) { for (int j = 0; j < strlen(line); j++) { if (line[j] == '.') { sprintf(s, "%c%c%c", line[j - 3], line[j - 2], line[j - 1]); n = atoi(s) 100 / 70; printf("%d", n); break; } } } } fclose(fwifi); } int main () { wifi(); }
the_stack_data/1115738.c	/* Copyright 2013-2018. The Regents of the University of California. * Copyright 2014. Joseph Y Cheng. * Copyright 2016-2019. Martin Uecker. * All rights reserved. Use of this source code is governed by * a BSD-style license which can be found in the LICENSE file. * * Authors: * 2012-2019 Martin Uecker <[email protected]> * 2014 Joseph Y Cheng <[email protected]> * 2015-2018 Jon Tamir <[email protected]> * * * CUDA support functions. The file exports gpu_ops of type struct vec_ops * for basic operations on single-precision floating pointer vectors defined * in gpukrnls.cu. See vecops.c for the CPU version. / #ifdef USE_CUDA #include <stdbool.h> #include <assert.h> #include <cuda_runtime_api.h> #include <cuda.h> #include <cublas.h> #include "num/vecops.h" #include "num/gpuops.h" #include "num/gpukrnls.h" #include "num/mem.h" #include "misc/misc.h" #include "misc/debug.h" #include "gpuops.h" #define MiBYTE (10241024) static void cuda_error(int line, cudaError_t code) { const char err_str = cudaGetErrorString(code); error("cuda error: %d %s \n", line, err_str); } #define CUDA_ERROR(x) ({ cudaError_t errval = (x); if (cudaSuccess != errval) cuda_error(__LINE__, errval); }) // Print free and used memory on GPU. void print_cuda_meminfo(void) { size_t byte_tot; size_t byte_free; cudaError_t cuda_status = cudaMemGetInfo(&byte_free, &byte_tot); if (cuda_status != cudaSuccess) error("ERROR: cudaMemGetInfo failed. %s\n", cudaGetErrorString(cuda_status)); double dbyte_tot = (double)byte_tot; double dbyte_free = (double)byte_free; double dbyte_used = dbyte_tot - dbyte_free; debug_printf(DP_INFO , "GPU memory usage: used = %.4f MiB, free = %.4f MiB, total = %.4f MiB\n", dbyte_used/MiBYTE, dbyte_free/MiBYTE, dbyte_tot/MiBYTE); } int cuda_devices(void) { int count; CUDA_ERROR(cudaGetDeviceCount(&count)); return count; } static __thread int last_init = -1; void cuda_p2p_table(int n, bool table[n][n]) { assert(n == cuda_devices()); for (int i = 0; i < n; i++) { for (int j = 0; j < n; j++) { int r; CUDA_ERROR(cudaDeviceCanAccessPeer(&r, i, j)); table[i][j] = (1 == r); } } } void cuda_p2p(int a, int b) { int dev; CUDA_ERROR(cudaGetDevice(&dev)); CUDA_ERROR(cudaSetDevice(a)); CUDA_ERROR(cudaDeviceEnablePeerAccess(b, 0)); CUDA_ERROR(cudaSetDevice(dev)); } void cuda_init(int device) { last_init = device; CUDA_ERROR(cudaSetDevice(device)); } int cuda_init_memopt(void) { int num_devices = cuda_devices(); int device; int max_device = 0; if (num_devices > 1) { size_t mem_max = 0; size_t mem_free; size_t mem_total; for (device = 0; device < num_devices; device++) { cuda_init(device); CUDA_ERROR(cudaMemGetInfo(&mem_free, &mem_total)); //printf(" device (%d): %d\n", device, mem_available); if (mem_max < mem_free) { mem_max = mem_free; max_device = device; } } //printf(" max device: %d\n", max_device); CUDA_ERROR(cudaSetDevice(max_device)); // FIXME: we should set last_init } return max_device; } bool cuda_memcache = true; void cuda_memcache_off(void) { assert(-1 == last_init); cuda_memcache = false; } void cuda_clear(long size, void dst) { // printf("CLEAR %x %ld\n", dst, size); CUDA_ERROR(cudaMemset(dst, 0, size)); } static void cuda_float_clear(long size, float* dst) { cuda_clear(size * sizeof(float), (void)dst); } void cuda_memcpy(long size, void dst, const void* src) { // printf("COPY %x %x %ld\n", dst, src, size); CUDA_ERROR(cudaMemcpy(dst, src, size, cudaMemcpyDefault)); } void cuda_memcpy_strided(const long dims[2], long ostr, void* dst, long istr, const void* src) { CUDA_ERROR(cudaMemcpy2D(dst, ostr, src, istr, dims[0], dims[1], cudaMemcpyDefault)); } static void cuda_float_copy(long size, float* dst, const float* src) { cuda_memcpy(size * sizeof(float), (void)dst, (const void)src); } static void cuda_free_wrapper(const void* ptr) { CUDA_ERROR(cudaFree((void)ptr)); } void cuda_memcache_clear(void) { if (!cuda_memcache) return; memcache_clear(last_init, cuda_free_wrapper); } void cuda_exit(void) { cuda_memcache_clear(); CUDA_ERROR(cudaDeviceReset()); } #if 0 // We still don use this because it is slow. Why? Nivida, why? static bool cuda_cuda_ondevice(const void ptr) { if (NULL == ptr) return false; struct cudaPointerAttributes attr; if (cudaSuccess != (cudaPointerGetAttributes(&attr, ptr))) { /* The secret trick to make this work for arbitrary pointers is to clear the error using cudaGetLastError. See end of: http://www.alexstjohn.com/WP/2014/04/28/cuda-6-0-first-look/ / cudaGetLastError(); return false; } return (cudaMemoryTypeDevice == attr.memoryType); } #endif bool cuda_ondevice(const void ptr) { return mem_ondevice(ptr); } bool cuda_accessible(const void* ptr) { #if 1 return mem_device_accessible(ptr); #else struct cudaPointerAttributes attr; //CUDA_ERROR(cudaPointerGetAttributes(&attr, ptr)); if (cudaSuccess != (cudaPointerGetAttributes(&attr, ptr))) return false; return true; #endif } void cuda_free(void* ptr) { mem_device_free(ptr, cuda_free_wrapper); } static void* cuda_malloc_wrapper(size_t size) { void* ptr; CUDA_ERROR(cudaMalloc(&ptr, size)); return ptr; } void* cuda_malloc(long size) { return mem_device_malloc(last_init, size, cuda_malloc_wrapper); } #if 0 void* cuda_hostalloc(long N) { void* ptr; if (cudaSuccess != cudaHostAlloc(&ptr, N, cudaHostAllocDefault)) error("abort"); insert(ptr, N, false); return ptr; } void cuda_hostfree(void* ptr) { struct cuda_mem_s* nptr = search(ptr, true); assert(nptr->ptr == ptr); assert(!nptr->device); xfree(nptr); cudaFreeHost(ptr); } #endif static float* cuda_float_malloc(long size) { return (float)cuda_malloc(size sizeof(float)); } static void cuda_float_free(float* x) { cuda_free((void)x); } static double cuda_sdot(long size, const float src1, const float* src2) { assert(cuda_ondevice(src1)); assert(cuda_ondevice(src2)); // printf("SDOT %x %x %ld\n", src1, src2, size); return cublasSdot(size, src1, 1, src2, 1); } static double cuda_norm(long size, const float* src1) { #if 1 // cublasSnrm2 produces NaN in some situations // e.g. nlinv -g -i8 utests/data/und2x2 o // git rev: ab28a9a953a80d243511640b23501f964a585349 // printf("cublas: %f\n", cublasSnrm2(size, src1, 1)); // printf("GPU norm (sdot: %f)\n", sqrt(cuda_sdot(size, src1, src1))); return sqrt(cuda_sdot(size, src1, src1)); #else return cublasSnrm2(size, src1, 1); #endif } static double cuda_asum(long size, const float* src) { return cublasSasum(size, src, 1); } static void cuda_saxpy(long size, float* y, float alpha, const float* src) { // printf("SAXPY %x %x %ld\n", y, src, size); cublasSaxpy(size, alpha, src, 1, y, 1); } static void cuda_swap(long size, float* a, float* b) { cublasSswap(size, a, 1, b, 1); } const struct vec_ops gpu_ops = { .float2double = cuda_float2double, .double2float = cuda_double2float, .dot = cuda_sdot, .asum = cuda_asum, .zsum = cuda_zsum, .zl1norm = NULL, .add = cuda_add, .sub = cuda_sub, .mul = cuda_mul, .div = cuda_div, .fmac = cuda_fmac, .fmac2 = cuda_fmac2, .smul = cuda_smul, .axpy = cuda_saxpy, .pow = cuda_pow, .sqrt = cuda_sqrt, .le = cuda_le, .zsmul = cuda_zsmul, .zmul = cuda_zmul, .zdiv = cuda_zdiv, .zfmac = cuda_zfmac, .zfmac2 = cuda_zfmac2, .zmulc = cuda_zmulc, .zfmacc = cuda_zfmacc, .zfmacc2 = cuda_zfmacc2, .zpow = cuda_zpow, .zphsr = cuda_zphsr, .zconj = cuda_zconj, .zexpj = cuda_zexpj, .zexp = cuda_zexp, .zarg = cuda_zarg, .zabs = cuda_zabs, .zcmp = cuda_zcmp, .zdiv_reg = cuda_zdiv_reg, .zfftmod = cuda_zfftmod, .zmax = cuda_zmax, .zle = cuda_zle, .smax = cuda_smax, .max = cuda_max, .min = cuda_min, .zsoftthresh = cuda_zsoftthresh, .zsoftthresh_half = cuda_zsoftthresh_half, .softthresh = cuda_softthresh, .softthresh_half = cuda_softthresh_half, .zhardthresh = NULL, }; // defined in iter/vec.h struct vec_iter_s { float* (allocate)(long N); void (del)(float* x); void (clear)(long N, float x); void (copy)(long N, float a, const float* x); void (swap)(long N, float a, float* x); double (norm)(long N, const float x); double (dot)(long N, const float x, const float* y); void (sub)(long N, float a, const float* x, const float* y); void (add)(long N, float a, const float* x, const float* y); void (smul)(long N, float alpha, float a, const float* x); void (xpay)(long N, float alpha, float a, const float* x); void (axpy)(long N, float a, float alpha, const float* x); void (axpbz)(long N, float out, const float a, const float* x, const float b, const float* z); }; extern const struct vec_iter_s gpu_iter_ops; const struct vec_iter_s gpu_iter_ops = { .allocate = cuda_float_malloc, .del = cuda_float_free, .clear = cuda_float_clear, .copy = cuda_float_copy, .dot = cuda_sdot, .norm = cuda_norm, .axpy = cuda_saxpy, .xpay = cuda_xpay, .axpbz = cuda_axpbz, .smul = cuda_smul, .add = cuda_add, .sub = cuda_sub, .swap = cuda_swap, }; #endif
the_stack_data/45596.c	// test // input - unsigned int, output input with // 1010 -> 0101 // 1 unsigned int swap_adj_bits (unsigned int v) { int num_bits = sizeof(v) * 8; unsigned int t0, t1; int i; // 1010 // 3210 // 0101 // 0x55555555 t0 = v & 0xAAAAAAAA; t1 = v & 0x55555555; v = (t0 >> 1) \| (t1 << 1); // for (i = 0; i < num_bits/2; i++) { // t0 = v & (1 << i); // t1 = v & (1 << (i + 1)); // v &= ~(1 << i); // v &= ~(1 << (i + 1)); // //if (t0) // // v \|= (1 << (i + 1)); // v \|= t0 << 1; // //if (t1) // // v \|= (1 << i); // v \|= t1 >> 1; // } return v; }
the_stack_data/104827117.c	// RUN: %libomp-compile-and-run #include <string.h> #include <stdlib.h> enum kmp_target_offload_kind { tgt_disabled = 0, tgt_default = 1, tgt_mandatory = 2 }; extern int __kmpc_get_target_offload(); extern void kmp_set_defaults(char const str); const char disabled_examples[] = { // Allowed inputs "disabled", "DISABLED", "Disabled", "dIsAbLeD", "DiSaBlEd"}; const char default_examples[] = { // Allowed inputs "default", "DEFAULT", "Default", "deFAulT", "DEfaULt", // These should be changed to default (failed match) "mandatry", "defaults", "disable", "enabled", "mandatorynot"}; const char mandatory_examples[] = { // Allowed inputs "mandatory", "MANDATORY", "Mandatory", "manDatoRy", "MANdATOry"}; // Return target-offload-var ICV int get_target_offload_icv() { #pragma omp parallel {} return __kmpc_get_target_offload(); } int main() { int i; const char omp_target_offload = "OMP_TARGET_OFFLOAD="; char buf[80]; for (i = 0; i < sizeof(disabled_examples) / sizeof(char ); ++i) { strcpy(buf, omp_target_offload); strcat(buf, disabled_examples[i]); kmp_set_defaults(buf); if (tgt_disabled != get_target_offload_icv()) return EXIT_FAILURE; } for (i = 0; i < sizeof(default_examples) / sizeof(char ); ++i) { strcpy(buf, omp_target_offload); strcat(buf, default_examples[i]); kmp_set_defaults(buf); if (tgt_default != get_target_offload_icv()) return EXIT_FAILURE; } for (i = 0; i < sizeof(mandatory_examples) / sizeof(char ); ++i) { strcpy(buf, omp_target_offload); strcat(buf, mandatory_examples[i]); kmp_set_defaults(buf); if (tgt_mandatory != get_target_offload_icv()) return EXIT_FAILURE; } return EXIT_SUCCESS; }
the_stack_data/63158.c	#define NULL ((void)0) typedef unsigned long size_t; // Customize by platform. typedef long intptr_t; typedef unsigned long uintptr_t; typedef long scalar_t__; // Either arithmetic or pointer type. / By default, we understand bool (as a convenience). / typedef int bool; #define false 0 #define true 1 / Forward declarations / typedef struct TYPE_11__ TYPE_5__ ; typedef struct TYPE_10__ TYPE_4__ ; typedef struct TYPE_9__ TYPE_3__ ; typedef struct TYPE_8__ TYPE_2__ ; typedef struct TYPE_7__ TYPE_1__ ; / Type definitions / struct TYPE_11__ {TYPE_4__ private_; } ; struct TYPE_7__ {int /<<< orphan/ md5sum; int /<<< orphan/ total_samples; void* bits_per_sample; void* channels; void* sample_rate; void* max_framesize; void* min_framesize; void* max_blocksize; void* min_blocksize; } ; struct TYPE_8__ {TYPE_1__ stream_info; } ; struct TYPE_9__ {int is_last; unsigned int length; TYPE_2__ data; int /<<< orphan/ type; } ; struct TYPE_10__ {int /<<< orphan/ input; TYPE_3__ stream_info; } ; typedef void* FLAC__uint32 ; typedef int FLAC__bool ; typedef TYPE_5__ FLAC__StreamDecoder ; /* Variables and functions / int /<<< orphan/ FLAC__ASSERT (int) ; int /<<< orphan/ FLAC__METADATA_TYPE_STREAMINFO ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_BITS_PER_SAMPLE_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_CHANNELS_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_MAX_BLOCK_SIZE_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_MAX_FRAME_SIZE_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_MIN_BLOCK_SIZE_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_MIN_FRAME_SIZE_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_SAMPLE_RATE_LEN ; unsigned int FLAC__STREAM_METADATA_STREAMINFO_TOTAL_SAMPLES_LEN ; int FLAC__bitreader_is_consumed_byte_aligned (int /<<< orphan/ ) ; int /<<< orphan/ FLAC__bitreader_read_byte_block_aligned_no_crc (int /<<< orphan/ ,int /<<< orphan/ ,int) ; int /<<< orphan/ FLAC__bitreader_read_raw_uint32 (int /<<< orphan/ ,void,unsigned int) ; int /<<< orphan/ FLAC__bitreader_read_raw_uint64 (int /<<< orphan/ ,int /<<< orphan/ ,unsigned int) ; int /<<< orphan/ FLAC__bitreader_skip_byte_block_aligned_no_crc (int /<<< orphan/ ,unsigned int) ; FLAC__bool read_metadata_streaminfo_(FLAC__StreamDecoder decoder, FLAC__bool is_last, unsigned length) { FLAC__uint32 x; unsigned bits, used_bits = 0; FLAC__ASSERT(FLAC__bitreader_is_consumed_byte_aligned(decoder->private_->input)); decoder->private_->stream_info.type = FLAC__METADATA_TYPE_STREAMINFO; decoder->private_->stream_info.is_last = is_last; decoder->private_->stream_info.length = length; bits = FLAC__STREAM_METADATA_STREAMINFO_MIN_BLOCK_SIZE_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, bits)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.min_blocksize = x; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_MAX_BLOCK_SIZE_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, FLAC__STREAM_METADATA_STREAMINFO_MAX_BLOCK_SIZE_LEN)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.max_blocksize = x; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_MIN_FRAME_SIZE_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, FLAC__STREAM_METADATA_STREAMINFO_MIN_FRAME_SIZE_LEN)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.min_framesize = x; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_MAX_FRAME_SIZE_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, FLAC__STREAM_METADATA_STREAMINFO_MAX_FRAME_SIZE_LEN)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.max_framesize = x; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_SAMPLE_RATE_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, FLAC__STREAM_METADATA_STREAMINFO_SAMPLE_RATE_LEN)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.sample_rate = x; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_CHANNELS_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, FLAC__STREAM_METADATA_STREAMINFO_CHANNELS_LEN)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.channels = x+1; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_BITS_PER_SAMPLE_LEN; if(!FLAC__bitreader_read_raw_uint32(decoder->private_->input, &x, FLAC__STREAM_METADATA_STREAMINFO_BITS_PER_SAMPLE_LEN)) return false; / read_callback_ sets the state for us / decoder->private_->stream_info.data.stream_info.bits_per_sample = x+1; used_bits += bits; bits = FLAC__STREAM_METADATA_STREAMINFO_TOTAL_SAMPLES_LEN; if(!FLAC__bitreader_read_raw_uint64(decoder->private_->input, &decoder->private_->stream_info.data.stream_info.total_samples, FLAC__STREAM_METADATA_STREAMINFO_TOTAL_SAMPLES_LEN)) return false; / read_callback_ sets the state for us / used_bits += bits; if(!FLAC__bitreader_read_byte_block_aligned_no_crc(decoder->private_->input, decoder->private_->stream_info.data.stream_info.md5sum, 16)) return false; / read_callback_ sets the state for us / used_bits += 168; /* skip the rest of the block / FLAC__ASSERT(used_bits % 8 == 0); length -= (used_bits / 8); if(!FLAC__bitreader_skip_byte_block_aligned_no_crc(decoder->private_->input, length)) return false; / read_callback_ sets the state for us */ return true; }
the_stack_data/107952467.c	//WARNING: This Font Require X-GLCD Lib. // You can not use it with MikroE GLCD Lib. //Font Generated by MikroElektronika GLCD Font Creator 1.2.0.0 //MikroElektronika 2011 //http://www.mikroe.com //GLCD FontName : wendy7x8 //Based on a font by Wendy - [email protected] //GLCD FontSize : 7 x 8 const unsigned short wendy7x8[] = { 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char 0x01, 0x5C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ! 0x03, 0x0C, 0x00, 0x0C, 0x00, 0x00, 0x00, 0x00, // Code for char " 0x05, 0x60, 0x7C, 0x04, 0x64, 0x7C, 0x00, 0x00, // Code for char # 0x03, 0x5C, 0xFE, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char $ 0x04, 0x48, 0x20, 0x10, 0x48, 0x00, 0x00, 0x00, // Code for char % 0x03, 0x10, 0x38, 0x10, 0x00, 0x00, 0x00, 0x00, // Code for char & 0x01, 0x0C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ' 0x02, 0x38, 0x44, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ( 0x02, 0x44, 0x38, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ) 0x07, 0x08, 0x1C, 0x3C, 0x78, 0x3C, 0x1C, 0x08, // Code for char * 0x03, 0x10, 0x38, 0x10, 0x00, 0x00, 0x00, 0x00, // Code for char + 0x01, 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char , 0x03, 0x10, 0x10, 0x10, 0x00, 0x00, 0x00, 0x00, // Code for char - 0x01, 0x40, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char . 0x03, 0x60, 0x10, 0x0C, 0x00, 0x00, 0x00, 0x00, // Code for char / 0x03, 0x7C, 0x44, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char 0 0x01, 0x7C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char 1 0x03, 0x74, 0x54, 0x5C, 0x00, 0x00, 0x00, 0x00, // Code for char 2 0x03, 0x54, 0x54, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char 3 0x03, 0x3C, 0x20, 0x78, 0x00, 0x00, 0x00, 0x00, // Code for char 4 0x03, 0x5C, 0x54, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char 5 0x03, 0x7C, 0x54, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char 6 0x03, 0x04, 0x04, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char 7 0x03, 0x7C, 0x54, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char 8 0x03, 0x5C, 0x54, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char 9 0x01, 0x50, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char : 0x01, 0xD0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ; 0x03, 0x10, 0x28, 0x44, 0x00, 0x00, 0x00, 0x00, // Code for char < 0x02, 0x28, 0x28, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char = 0x03, 0x44, 0x28, 0x10, 0x00, 0x00, 0x00, 0x00, // Code for char > 0x03, 0x5A, 0x0A, 0x0E, 0x00, 0x00, 0x00, 0x00, // Code for char ? 0x05, 0x7E, 0x42, 0x5A, 0x52, 0x5E, 0x00, 0x00, // Code for char @ 0x03, 0x7C, 0x14, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char A 0x03, 0x7C, 0x54, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char B 0x03, 0x7C, 0x44, 0x44, 0x00, 0x00, 0x00, 0x00, // Code for char C 0x03, 0x7C, 0x44, 0x38, 0x00, 0x00, 0x00, 0x00, // Code for char D 0x03, 0x7C, 0x54, 0x54, 0x00, 0x00, 0x00, 0x00, // Code for char E 0x03, 0x7C, 0x14, 0x04, 0x00, 0x00, 0x00, 0x00, // Code for char F 0x03, 0x7C, 0x44, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char G 0x03, 0x7C, 0x10, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char H 0x01, 0x7C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char I 0x03, 0x40, 0x40, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char J 0x03, 0x7C, 0x10, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char K 0x03, 0x7C, 0x40, 0x40, 0x00, 0x00, 0x00, 0x00, // Code for char L 0x05, 0x7C, 0x04, 0x38, 0x04, 0x7C, 0x00, 0x00, // Code for char M 0x03, 0x7C, 0x04, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char N 0x03, 0x7C, 0x44, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char O 0x03, 0x7C, 0x14, 0x1C, 0x00, 0x00, 0x00, 0x00, // Code for char P 0x03, 0x1C, 0x14, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char Q 0x03, 0x7C, 0x14, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char R 0x03, 0x5C, 0x54, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char S 0x03, 0x04, 0x7C, 0x04, 0x00, 0x00, 0x00, 0x00, // Code for char T 0x03, 0x7C, 0x40, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char U 0x03, 0x3C, 0x40, 0x3C, 0x00, 0x00, 0x00, 0x00, // Code for char V 0x05, 0x7C, 0x40, 0x30, 0x40, 0x7C, 0x00, 0x00, // Code for char W 0x03, 0x6C, 0x10, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char X 0x03, 0x5C, 0x50, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char Y 0x03, 0x64, 0x54, 0x4C, 0x00, 0x00, 0x00, 0x00, // Code for char Z 0x02, 0x7C, 0x44, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char [ 0x03, 0x0C, 0x10, 0x60, 0x00, 0x00, 0x00, 0x00, // Code for char BackSlash 0x02, 0x44, 0x7C, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ] 0x01, 0x5C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ^ 0x03, 0x40, 0x40, 0x40, 0x00, 0x00, 0x00, 0x00, // Code for char _ 0x01, 0x5C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char ` 0x03, 0x7C, 0x14, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char a 0x03, 0x7C, 0x54, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char b 0x03, 0x7C, 0x44, 0x44, 0x00, 0x00, 0x00, 0x00, // Code for char c 0x03, 0x7C, 0x44, 0x38, 0x00, 0x00, 0x00, 0x00, // Code for char d 0x03, 0x7C, 0x54, 0x54, 0x00, 0x00, 0x00, 0x00, // Code for char e 0x03, 0x7C, 0x14, 0x04, 0x00, 0x00, 0x00, 0x00, // Code for char f 0x03, 0x7C, 0x44, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char g 0x03, 0x7C, 0x10, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char h 0x01, 0x7C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char i 0x03, 0x40, 0x40, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char j 0x03, 0x7C, 0x10, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char k 0x03, 0x7C, 0x40, 0x40, 0x00, 0x00, 0x00, 0x00, // Code for char l 0x05, 0x7C, 0x04, 0x38, 0x04, 0x7C, 0x00, 0x00, // Code for char m 0x03, 0x7C, 0x04, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char n 0x03, 0x7C, 0x44, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char o 0x03, 0x7C, 0x14, 0x1C, 0x00, 0x00, 0x00, 0x00, // Code for char p 0x03, 0x1C, 0x14, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char q 0x03, 0x7C, 0x14, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char r 0x03, 0x5C, 0x54, 0x74, 0x00, 0x00, 0x00, 0x00, // Code for char s 0x03, 0x04, 0x7C, 0x04, 0x00, 0x00, 0x00, 0x00, // Code for char t 0x03, 0x7C, 0x40, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char u 0x03, 0x3C, 0x40, 0x3C, 0x00, 0x00, 0x00, 0x00, // Code for char v 0x05, 0x7C, 0x40, 0x30, 0x40, 0x7C, 0x00, 0x00, // Code for char w 0x03, 0x6C, 0x10, 0x6C, 0x00, 0x00, 0x00, 0x00, // Code for char x 0x03, 0x5C, 0x50, 0x7C, 0x00, 0x00, 0x00, 0x00, // Code for char y 0x03, 0x64, 0x54, 0x4C, 0x00, 0x00, 0x00, 0x00, // Code for char z 0x01, 0x5C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char { 0x01, 0xFE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char \| 0x01, 0x5C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Code for char } 0x04, 0x10, 0x08, 0x10, 0x08, 0x00, 0x00, 0x00, // Code for char ~ 0x03, 0x7E, 0x42, 0x7E, 0x00, 0x00, 0x00, 0x00 // Code for char };
the_stack_data/82796.c	#include <stdio.h> #include <stdlib.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> int main(int argc,char *argv[]){ int from; int to; int bsize = 1024; char buff[1024]; int count; if(argc<3){ printf("NOT ENOUGH ARGS!\n"); exit(1); } if((from=open(argv[1], O_RDONLY))==-1){ perror("CANNOT OPEN!"); exit(1); } if((to=open(argv[2], O_WRONLY\|O_CREAT, S_IRWXU))==-1){ perror("CANNOT OPEN OR CREATE"); exit(1); } while(0 != (count=read(from, buff, bsize))){ // printf("%s", buff); if (count<0){ perror("READ ERROR"); exit(1); } if(write(to,buff,count)!=count){ perror("WRITE ERROR"); exit(1); } } close(from); close(to); return 0; }
the_stack_data/122016794.c	#include <stdio.h> #include <assert.h> #include <string.h> #define CNT(x) cnt[(x)-'A'] #define DEC(a, b) CNT(a) -= CNT(b) char buf[2010]; int cnt[26], v[10]; int main() { int c; scanf("%d", &c); for(int p = 1; p <= c; p++) { scanf("%s", buf); memset(cnt, 0, sizeof(cnt)); for (int i = 0; buf[i] != 0; i++) CNT(buf[i])++; //TWO v[2] = CNT('W'); CNT('T') -= CNT('W'); CNT('O') -= CNT('W'); CNT('W') = 0; //SIX v[6] = CNT('X'); CNT('S') -= CNT('X'); CNT('I') -= CNT('X'); CNT('X') = 0; //ZERO v[0] = CNT('Z'); CNT('E') -= CNT('Z'); CNT('R') -= CNT('Z'); CNT('O') -= CNT('Z'); CNT('Z') = 0; //FOUR v[4] = CNT('U'); CNT('F') -= CNT('U'); DEC('O', 'U'); DEC('R', 'U'); CNT('U') = 0; //FIVE v[5] = CNT('F'); DEC('I', 'F'); DEC('V','F'); DEC('E','F'); CNT('F')=0; //SEVEN v[7] = CNT('V'); DEC('S','V'); DEC('N', 'V'); CNT('E') -= 2CNT('V'); CNT('V') = 0; //ONE v[1] = CNT('O'); DEC('N','O'); DEC('E','O'); CNT('O')=0; //THREE v[3] = CNT('R'); DEC('T','R'); DEC('H','R'); CNT('E')-=2CNT('R'); CNT('R')=0; v[8]=CNT('G'); DEC('E','G'); DEC('I','G'); DEC('H','G'); DEC('T','G'); CNT('G')=0; v[9] = CNT('I'); CNT('N')-=2*v[9]; CNT('E')-=v[9]; CNT('I')=0; for(int i = 0; i < 26; i++) assert(cnt[i] == 0); printf("Case #%d: ", p); for(int i = 0; i < 10; i++) for(int j = 0; j < v[i]; j++) printf("%d", i); printf("\n"); } }
the_stack_data/50137276.c	#include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/types.h> #include <sys/stat.h> int make_child (char parent, char first, char second) { char end[5]; end[0] = '/'; end[1] = first; if (second) { end[2] = '/'; end[3] = second; end[4] = '\0'; } else { end[2] = '\0'; } char child; child = malloc(strlen(parent) + 5); strcpy(child, parent); strcat(child, end); return mkdir(child, 0755); } char character (int num) { return num < 26 ? 'a' + num : '0' + (num - 26); } int main (int argc, char *argv) { if (argc != 2) { printf("There must be one argument for the parent directory\n"); return 1; } char parent = argv[1]; for (int n1 = 0; n1 < 36; n1++) { if (make_child(parent, character(n1), 0)) { printf("Error in creating directories\n"); return 1; } for (int n2 = 0; n2 < 36; n2++) { if (make_child(parent, character(n1), character(n2))) { printf("Error in creating directories\n"); return 1; } } } return 0; }
the_stack_data/192331981.c	// RUN: %clang_analyze_cc1 -analyzer-checker=core,debug.ExprInspection -analyzer-inline-max-stack-depth=3 -analyzer-config ipa-always-inline-size=3 -verify %s void clang_analyzer_eval(int); int nested5() { if (5 < 3) return 0; else if (3 == 3) return 0; return 0; } int nested4() { return nested5(); } int nested3() { return nested4(); } int nested2() { return nested3(); } int nested1() { return nested2(); } void testNested() { clang_analyzer_eval(nested1() == 0); // expected-warning{{TRUE}} } // Make sure we terminate a recursive path. int recursive() { return recursive(); } int callRecursive() { return recursive(); } int mutuallyRecursive1(); int mutuallyRecursive2() { return mutuallyRecursive1(); } int mutuallyRecursive1() { return mutuallyRecursive2(); } int callMutuallyRecursive() { return mutuallyRecursive1(); }
the_stack_data/12639062.c	/*************************************************************************** * Description: * Securely set the same password on multiple machines in a cluster. * Assumes passwordless ssh login to all target nodes. * Avoid placing raw password in command-line arguments for any cmd. * * Arguments: * * Returns: * * History: * Date Name Modification * 2018-12-12 Jason Bacon Begin **************************************************************************/ #include <stdio.h> #include <sysexits.h> #include <stdlib.h> #include <unistd.h> #include <sys/types.h> #include <pwd.h> #include <termios.h> #define PW_LEN 128 / * Use absolute pathnames to prevent malicious users from running their * own programs as root. / #define PIPE_PW "/home/bacon/piped-passwd" int main(int argc,char argv[]) { uid_t uid, euid; char user_name, pw[PW_LEN+1], pw2[PW_LEN+1]; struct passwd pw_ent; FILE pipe; struct termios term; tcflag_t save_lflag; uid = getuid(); euid = geteuid(); if ( uid == 0 ) { if ( argc == 2 ) { user_name = argv[1]; } else { fputs("A user name must be specified when running as root.\n", stderr); return EX_USAGE; } } else { if ( (pw_ent = getpwuid(uid)) == NULL ) { fprintf(stderr, "Error: Unable to read password entry for %u.\n", uid); return EX_NOUSER; } user_name = pw_ent->pw_name; } / Input password with no echo / tcgetattr(fileno(stdout), &term); save_lflag = term.c_lflag; term.c_lflag &= ~ECHO; term.c_lflag \|= ECHONL; tcsetattr(fileno(stdout), TCSANOW, &term); / FIXME: Don't allow redirecting stdin: Get tty stream. / printf("New Password: "); fgets(pw, PW_LEN, stdin); printf("Retype New Password: "); fgets(pw2, PW_LEN, stdin); term.c_lflag = save_lflag; tcsetattr(fileno(stdout), TCSANOW, &term); / Feed password to piped-passwd via stdin to avoid showing in CLI args */ pipe = popen(PIPE_PW, "w"); if ( pipe == NULL ) { fprintf(stderr, "Error opening pipe to %s\n", PIPE_PW); return EX_UNAVAILABLE; } fprintf(pipe, "%s\n%s\n", user_name, pw); pclose(pipe); return EX_OK; }
the_stack_data/29825088.c	#include <stdio.h> #include <string.h> #include <sys/stat.h> #include <sys/types.h> #include <unistd.h> #include <fcntl.h> int main(int argc, char *argv){ char file1 = argv[1]; char file2 = argv[2]; char pwd = getcwd(NULL,0); char path1[strlen(file1)+strlen(pwd)+2]; char path2[strlen(file2)+strlen(pwd)+2]; sprintf(path1,"%s/%s",pwd,file1); sprintf(path2,"%s/%s",pwd,file2); int fd1 = open(path1,O_RDONLY); int fd2 = open(path2,O_CREAT\|O_WRONLY,0666); char buf[100]; int n; while((n = read(fd1,buf,100)) != 0) { //printf("n = %d \n",n); write(fd2,buf,n); } close(fd1); close(fd2); }
the_stack_data/3655.c	#include <stdio.h> #include <stdlib.h> int main() { char nome[15]; char a; int idade; float peso; printf("Digite seu nome: "); fgets(nome,30,stdin); printf("Informe sua idade: "); scanf("%d",&idade); printf("Informe seu peso: "); scanf("%f",&peso); if(peso>=50 && (idade>=16 && idade<=69)){ printf("Proxima pergunta"); } else if(a=='s'){ Printf("O %s esta apto",nome); } else{ printf("O %s esta inapto",nome); } }
the_stack_data/29824300.c	/* libs/cutils/iosched_policy.c Copyright 2007, The Android Open Source Project 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. / #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <string.h> #include <errno.h> #include <fcntl.h> #ifdef HAVE_SCHED_H #include <cutils/iosched_policy.h> extern int ioprio_set(int which, int who, int ioprio); enum { WHO_PROCESS = 1, WHO_PGRP, WHO_USER, }; #define CLASS_SHIFT 13 #define IOPRIO_NORM 4 int android_set_ioprio(int pid, IoSchedClass clazz, int ioprio) { #ifdef HAVE_ANDROID_OS_ARM if (ioprio_set(WHO_PROCESS, pid, ioprio \| (clazz << CLASS_SHIFT))) { return -1; } #endif return 0; } int android_get_ioprio(int pid, IoSchedClass clazz, int ioprio) { #ifdef HAVE_ANDROID_OS_ARM int rc; if ((rc = ioprio_get(WHO_PROCESS, pid)) < 0) { return -1; } clazz = (rc >> CLASS_SHIFT); ioprio = (rc & 0xff); #else clazz = IoSchedClass_NONE; ioprio = 0; #endif return 0; } #endif / HAVE_SCHED_H */
the_stack_data/54825182.c	#include <string.h> int memcmp(const void* aptr, const void* bptr, size_t size) { const unsigned char* a = (const unsigned char) aptr; const unsigned char b = (const unsigned char*) bptr; for (size_t i = 0; i < size; i++) { if (a[i] < b[i]) return -1; else if (b[i] < a[i]) return 1; } return 0; }
the_stack_data/32950001.c	#include <stdio.h> #include <sys/types.h> #include <unistd.h> #include <stdlib.h> typedef void f_t(int i, int xi); void gen(int start, int diff, int num, f_t f) { for (int i=1;i<=num;i++) { f(i, start); start+=diff; } } void printer(int i, int xi) { printf("%i-th element is %i\n", i, xi); } void child_proc() { printf("Hello from child!\n"); } void parent_proc() { printf("Hello from parent!\n"); gen(1,2,20,printer); } int main(int argc, char *argv[]) { int cid; int pid=getpid(); printf("Hello, World!\n"); cid=fork(); if (cid<0) { perror("fork"); exit(EXIT_FAILURE); }; if (cid==0) { child_proc(); } if (cid>0) { parent_proc(); } return 0; }
the_stack_data/247018174.c	#include <stdio.h> int main(void) { const int FREEZING = 0; float temperature; int cold_days = 0; int all_days = 0; printf("Enter list plz\n"); printf("Use Celsius, and enter q to quit\n"); while (scanf("%f", &temperature) == 1) { all_days++; if (temperature < FREEZING) cold_days++; } if (all_days != 0) printf("%d days total: %.1f were below freezing.\n", all_days, 100.0 * (float)cold_days / all_days); if (all_days == 0) printf("Null"); return 0; }
the_stack_data/58989.c	// RUN: %llvmgcc -S %s -o - \| llvm-as -f -o /dev/null /* Testcase for when struct tag conflicts with typedef name... grr / typedef struct foo { struct foo X; int Y; } * foo; foo F1; struct foo *F2; enum bar { test1, test2 }; typedef float bar; enum bar B1; bar B2;
the_stack_data/31043.c	#include <stdlib.h> #include <stdbool.h> bool b0(int x); bool b1(int x); bool b2(int x); int f0(); int f1(); int f2(); void multiexit_test(int c) { if (b0(c)) { f0(); } else if (b1(c)) { f1(); exit(1); } else { f2(); } }
the_stack_data/1180423.c	/* ************************************************************************* * Ralink Tech Inc. * 5F., No.36, Taiyuan St., Jhubei City, * Hsinchu County 302, * Taiwan, R.O.C. * * (c) Copyright 2002-2010, Ralink Technology, Inc. * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * * ************************************************************************/ #ifdef UAPSD_SUPPORT #define MODULE_TDLS_UAPSD #include "rt_config.h" / receive a traffic indication frame / static VOID TDLS_UAPSD_PeerTrafficIndAction( IN PRTMP_ADAPTER pAd, IN MLME_QUEUE_ELEM pElem); /* receive a traffic response frame / static VOID TDLS_UAPSD_PeerTrafficRspAction( IN PRTMP_ADAPTER pAd, IN MLME_QUEUE_ELEM pElem); /* build the traffic indication frame / static ULONG TDLS_UAPSD_TrafficIndBuild( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac, OUT UCHAR pFrameBuf, OUT UCHAR pHeader802_3); /* build the traffic indication frame payload / static VOID TDLS_UAPSD_TrafficIndPayloadBuild( IN PRTMP_ADAPTER pAd, OUT PUCHAR pFrameBuf, OUT PULONG pFrameLen, IN PRT_802_11_TDLS pTDLS); / send a traffic indication frame / static NDIS_STATUS TDLS_UAPSD_TrafficIndSend( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac); /* send a traffic response frame / static NDIS_STATUS TDLS_UAPSD_TrafficRspSend( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac, IN UCHAR PeerToken); /* build the traffic response frame body / static VOID TDLS_UAPSD_TrafficRspBuild( IN PRTMP_ADAPTER pAd, OUT PUCHAR pFrameBuf, OUT PULONG pFrameLen, IN PRT_802_11_TDLS pTDLS, IN UCHAR PeerToken); / get argument number value / static UINT32 TDLS_UAPSD_CmdUtilHexGet( IN CHAR ppArgv); / get argument number value / static UINT32 TDLS_UAPSD_CmdUtilNumGet( IN CHAR ppArgv); / get argument MAC value / static VOID TDLS_UAPSD_CmdUtilMacGet( IN CHAR ppArgv, IN UCHAR pDevMac); /* simulate to send a TDLS Setup request to a peer / static VOID TDLS_UAPSD_CmdSimSetupReqSend( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv); /* simulate to receive a TDLS Traffic response from a peer / static VOID TDLS_UAPSD_CmdSimTrafficRspRcv( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv); /* simulate to receive a TDLS Traffic indication from a peer / static VOID TDLS_UAPSD_CmdSimTrafficIndRcv( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv); /* simulate to change the power save of a peer / static VOID TDLS_UAPSD_CmdSimPeerPowerSaveChg( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv); /* simulate to change our power save / static VOID TDLS_UAPSD_CmdSimSelfPowerSaveChg( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv); /* simulate to send a TDLS Traffic response to a peer / static VOID TDLS_UAPSD_CmdSimTrafficRspSnd( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv); /* public functions / / ======================================================================== Routine Description: Initialze TDLS UAPSD function. Arguments: pAd - WLAN control block pointer pFSM - TDLS Finite State Machine Return Value: TRUE - init ok FALSE - init fail Note: Peer U-APSD Sleep STA is default feature in spec. Peer U-APSD Buffer STA is optional feature in spec. ======================================================================== / BOOLEAN TDLS_UAPSDP_Init( IN PRTMP_ADAPTER pAd, IN STATE_MACHINE pFSM) { /* init FSM / StateMachineSetAction(pFSM, TDLS_IDLE, MT2_PEER_TDLS_TRAFFIC_IND, (STATE_MACHINE_FUNC)TDLS_UAPSD_PeerTrafficIndAction); StateMachineSetAction(pFSM, TDLS_IDLE, MT2_PEER_TDLS_TRAFFIC_RSP, (STATE_MACHINE_FUNC)TDLS_UAPSD_PeerTrafficRspAction); / init lock / NdisAllocateSpinLock(pAd, &pAd->StaCfg.TdlsInfo.TDLSUapsdLock); DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> initialization ok!\n")); return TRUE; } / ======================================================================== Routine Description: Release TDLS UAPSD function. Arguments: pAd - WLAN control block pointer Return Value: TRUE - release ok FALSE - release fail Note: ======================================================================== / BOOLEAN TDLS_UAPSDP_Release( IN PRTMP_ADAPTER pAd) { / free lock / NdisFreeSpinLock(&pAd->StaCfg.TdlsInfo.TDLSUapsdLock); return TRUE; } / ======================================================================== Routine Description: Send a traffic indication frame. Arguments: pAd - WLAN control block pointer pPeerMac - the peer MAC Return Value: NDIS_STATUS_SUCCESS NDIS_STATUS_FAILURE Note: 11.2.1.14.1 Peer U-APSD Behavior at the PU buffer STA A PU buffer STA shall transmit a unicast TDLS Peer Traffic Indication frame to a PU sleep STA, through the AP, if and only if all of the following conditions are met: -- A frame with an RA corresponding to a PU sleep STA was placed into a buffer at the PU buffer STA; -- The buffer into which the frame was placed contained no other frames with the same RA; and -- One or more periods of dot11TDLSPeerUAPSDIndicationWindow beacon intervals have expired after the last service period. ======================================================================== / NDIS_STATUS TDLS_UAPSDP_TrafficIndSend( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac) { NDIS_STATUS NStatus; TDLS_SEMLOCK(pAd); NStatus = TDLS_UAPSD_TrafficIndSend(pAd, pPeerMac); TDLS_SEMUNLOCK(pAd); return NStatus; } /* ======================================================================== Routine Description: Check if ASIC can go to sleep mode. Arguments: pAd - WLAN control block pointer Return Value: None Note: Check all TDLS entries and return TRUE if all SPs are closed. ======================================================================== / BOOLEAN TDLS_UAPSDP_AsicCanSleep( IN PRTMP_ADAPTER pAd) { RT_802_11_TDLS pTDLS; UINT32 IdEntry; BOOLEAN FlgAllSpClosed = TRUE; TDLS_SEMLOCK(pAd); /* check if all SPs are closed / for(IdEntry=0; IdEntry<MAX_NUM_OF_TDLS_ENTRY; IdEntry++) { pTDLS = (PRT_802_11_TDLS)&pAd->StaCfg.TdlsInfo.TDLSEntry[IdEntry]; if ((pTDLS->Valid == TRUE) && (pTDLS->Status == TDLS_MODE_CONNECTED)) { UINT32 Wcid = pTDLS->MacTabMatchWCID; PMAC_TABLE_ENTRY pEntry = &pAd->MacTab.Content[Wcid]; if (!IS_ENTRY_TDLS(pEntry)) continue; / Two cases we can not sleep: 1. One of any SP is not ended. 2. A traffic indication is sent and no response is received. / if ((pEntry->bAPSDFlagSPStart != 0) \|\| (pTDLS->FlgIsWaitingUapsdTraRsp == TRUE)) { DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> SP not close or Ind sent (%d %d)!\n", pEntry->bAPSDFlagSPStart, pTDLS->FlgIsWaitingUapsdTraRsp)); hex_dump("pEntry=", pEntry->Addr, 6); FlgAllSpClosed = FALSE; break; } } } TDLS_SEMUNLOCK(pAd); return FlgAllSpClosed; } / ======================================================================== Routine Description: Check if ASIC can go to sleep mode. Arguments: pAd - WLAN control block pointer PsmOld - Current power save mode PsmNew - New power save mode Return Value: None Note: ======================================================================== / VOID TDLS_UAPSDP_PsmModeChange( IN PRTMP_ADAPTER pAd, IN USHORT PsmOld, IN USHORT PsmNew) { MAC_TABLE_ENTRY pMacEntry; RT_802_11_TDLS pTDLS; UINT32 IdTdls; if (PsmOld == PsmNew) return; / no inform needs / / sanity check / / WPA 802.1x secured port control / if (((pAd->StaCfg.AuthMode == Ndis802_11AuthModeWPA) \|\| (pAd->StaCfg.AuthMode == Ndis802_11AuthModeWPAPSK) \|\| (pAd->StaCfg.AuthMode == Ndis802_11AuthModeWPA2) \|\| (pAd->StaCfg.AuthMode == Ndis802_11AuthModeWPA2PSK) #ifdef WPA_SUPPLICANT_SUPPORT \|\| (pAd->StaCfg.IEEE8021X == TRUE) #endif ) && (pAd->StaCfg.PortSecured == WPA_802_1X_PORT_NOT_SECURED)) { return; / port not yet secure / } DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> our PSM mode change!\n")); / indicate the peer / TDLS_SEMLOCK(pAd); for(IdTdls=0; IdTdls<MAX_NUM_OF_TDLS_ENTRY; IdTdls++) { pTDLS = (RT_802_11_TDLS ) &pAd->StaCfg.TdlsInfo.TDLSEntry[IdTdls]; if ((pTDLS->Valid) && (pTDLS->Status == TDLS_MODE_CONNECTED)) { /* get MAC Entry / pMacEntry = MacTableLookup(pAd, pTDLS->MacAddr); if (pMacEntry == NULL) continue; / check next one / / check if the peer is in ACTIVE mode / if (TDLS_UAPSD_ARE_PEER_IN_ACTIVE(pMacEntry)) { / pMacEntry->RssiSample.LastRssi0 is used to check if we have ever received any packet from the peer. / / send a null frame to the peer directly / DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> send a NULL frame!\n")); RtmpEnqueueNullFrame(pAd, pMacEntry->Addr, pAd->CommonCfg.TxRate, pMacEntry->Aid, pMacEntry->apidx, TRUE, FALSE, 0); continue; } / Send traffic indication frame to the peer when the peer is in power-save mode. / TDLS_UAPSD_TrafficIndSend(pAd, pMacEntry->Addr); } } TDLS_SEMUNLOCK(pAd); } / private functions / / ======================================================================== Routine Description: Display the UAPSD information for a peer. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=01_[PEER MAC] ======================================================================== / static VOID TDLS_UAPSD_CmdPeerInfoDisplay( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { MAC_TABLE_ENTRY pMacEntry; UCHAR PeerMac[6]; UINT32 IdAcNum; /* get MAC address / TDLS_UAPSD_CmdUtilMacGet(&pArgv, PeerMac); / get pEntry / pMacEntry = MacTableLookup(pAd, PeerMac); if (pMacEntry == NULL) { DBGPRINT(RT_DEBUG_ERROR, ("tdls_cmd> ERROR! No such peer!\n")); return; } / display UAPSD information / if (TDLS_UAPSD_ARE_PEER_IN_PS(pMacEntry)) printk("\n EDCA AC UAPSD information: (POWER SAVE)\n"); else printk("\n EDCA AC UAPSD information: (ACTIVE)\n"); / End of if / if (pMacEntry->MaxSPLength != 0) { printk(" Max SP Length: %d (%d frames)\n", pMacEntry->MaxSPLength, pMacEntry->MaxSPLength<<1); } else printk(" Max SP Length: 0 (all frames)\n"); / End of if / printk(" UAPSD/AC AC0 AC1 AC2 AC3"); printk("\n Tr/De "); for(IdAcNum=0; IdAcNum<4; IdAcNum++) { printk("%d/%d ", pMacEntry->bAPSDCapablePerAC[IdAcNum], pMacEntry->bAPSDDeliverEnabledPerAC[IdAcNum]); } / End of for / printk("\n"); } / ======================================================================== Routine Description: Display our UAPSD information. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=02 2. 11.2.1.14 Peer U-APSD A STA that configured Peer U-APSD at a TDLS peer STA enters power save mode on a TDLS direct link after the successful transmission to the TDLS peer STA over the direct link of an acknowledged MPDU with the Power Management field set to one. ======================================================================== / static VOID TDLS_UAPSD_CmdSelfInfoDisplay( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { if (TDLS_UAPSD_ARE_WE_IN_PS(pAd)) printk("\n EDCA AC UAPSD information: (POWER SAVE)\n"); else printk("\n EDCA AC UAPSD information: (ACTIVE)\n"); / End of if / if (pAd->CommonCfg.MaxSPLength != 0) { printk(" Max SP Length: %d (%d frames)\n", pAd->CommonCfg.MaxSPLength, pAd->CommonCfg.MaxSPLength<<1); } else printk(" Max SP Length: 0 (all frames)\n"); / End of if / printk(" AP UAPSD/AC AC0 AC1 AC2 AC3"); printk("\n Tr/De %d/%d %d/%d %d/%d %d/%d\n\n", pAd->CommonCfg.bACMAPSDTr[0], pAd->CommonCfg.bAPSDAC_BE, pAd->CommonCfg.bACMAPSDTr[1], pAd->CommonCfg.bAPSDAC_BK, pAd->CommonCfg.bACMAPSDTr[2], pAd->CommonCfg.bAPSDAC_VI, pAd->CommonCfg.bACMAPSDTr[3], pAd->CommonCfg.bAPSDAC_VO); printk(" TDLS UAPSD/AC AC0 AC1 AC2 AC3"); printk("\n Tr/De %d/%d %d/%d %d/%d %d/%d\n", pAd->CommonCfg.TDLS_bAPSDAC_BE, pAd->CommonCfg.TDLS_bAPSDAC_BE, pAd->CommonCfg.TDLS_bAPSDAC_BK, pAd->CommonCfg.TDLS_bAPSDAC_BK, pAd->CommonCfg.TDLS_bAPSDAC_VI, pAd->CommonCfg.TDLS_bAPSDAC_VI, pAd->CommonCfg.TDLS_bAPSDAC_VO, pAd->CommonCfg.TDLS_bAPSDAC_VO); printk("\n"); } / ======================================================================== Routine Description: Configure our UAPSD information. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=03_1_1_1_1_0 [UAPSD for BE] [UAPSD for BK] [UAPSD for VI] [UAPSD for VO] [Max SP length] ======================================================================== / static VOID TDLS_UAPSD_CmdConfigure( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { pAd->CommonCfg.TDLS_bAPSDAC_BE = TDLS_UAPSD_CmdUtilNumGet(&pArgv); pAd->CommonCfg.TDLS_bAPSDAC_BK = TDLS_UAPSD_CmdUtilNumGet(&pArgv); pAd->CommonCfg.TDLS_bAPSDAC_VI = TDLS_UAPSD_CmdUtilNumGet(&pArgv); pAd->CommonCfg.TDLS_bAPSDAC_VO = TDLS_UAPSD_CmdUtilNumGet(&pArgv); pAd->CommonCfg.TDLS_MaxSPLength = TDLS_UAPSD_CmdUtilNumGet(&pArgv); DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> configure our UAPSD to %d %d %d %d %d\n", pAd->CommonCfg.TDLS_bAPSDAC_BE, pAd->CommonCfg.TDLS_bAPSDAC_BK, pAd->CommonCfg.TDLS_bAPSDAC_VI, pAd->CommonCfg.TDLS_bAPSDAC_VO, pAd->CommonCfg.TDLS_MaxSPLength)); } #define TDLS_UAPSD_PEER_SHOW 01 / tdls uapsd peer display / #define TDLS_UAPSD_SELF_SHOW 02 / tdls uapsd self display / #define TDLS_UAPSD_CONFIG 03 / tdls uapsd configure / #ifdef TDLS_UAPSD_DEBUG #define TDLS_UAPSD_SIM_SETUP_REQ 51 / tdls setup request / #define TDLS_UAPSD_SIM_TRAFFIC_RSP_RCV 52 / tdls traffic rsp receive / #define TDLS_UAPSD_SIM_TRAFFIC_IND_RCV 53 / tdls traffic ind receive / #define TDLS_UAPSD_SIM_PEER_PS 54 / tdls peer ps mode change / #define TDLS_UAPSD_SIM_PS 55 / tdls ps mode change / #define TDLS_UAPSD_SIM_TRAFFIC_RSP_SND 56 / tdls traffic rsp send / #define TDLS_UAPSD_SIM_BEACON_LOST 57 / tdls beacon lost / #endif / TDLS_UAPSD_DEBUG / / ======================================================================== Routine Description: Test command. Arguments: pAd - WLAN control block pointer pArgvIn - the data flow information Return Value: 0 - OK others - FAIL ======================================================================== / INT TDLS_Ioctl( IN PRTMP_ADAPTER pAd, IN PSTRING pArgvIn) { CHAR BufCmd[3] = { 0, 0, 0 }; CHAR pArgv, pParam; UINT32 Command; INT32 Argc; / init / pArgv = (CHAR )pArgvIn; /* get command type / / command format is iwpriv ra0 set tdls=[cmd id]_[arg1]_......_[argn] / NdisCopyMemory(BufCmd, pArgv, 2); Command = simple_strtol((PSTRING)BufCmd, 0, 10); pArgv += 2; / skip command field / / get Argc number / Argc = 0; pParam = pArgv; while(1) { if (pParam == '_') Argc ++; /* End of if / if ((pParam == 0x00) \|\| (Argc > 20)) break; /* End of if / pParam++; } / End of while / pArgv++; / skip _ points to arg1 / / handle the command / switch(Command) { case TDLS_UAPSD_PEER_SHOW: / display peer uapsd info / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> display peer UAPSD information\n")); TDLS_UAPSD_CmdPeerInfoDisplay(pAd, Argc, pArgv); break; case TDLS_UAPSD_SELF_SHOW: / display self uapsd info / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> display self UAPSD information\n")); TDLS_UAPSD_CmdSelfInfoDisplay(pAd, Argc, pArgv); break; case TDLS_UAPSD_CONFIG: / tdls uapsd configure / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> configure our UAPSD\n")); TDLS_UAPSD_CmdConfigure(pAd, Argc, pArgv); break; #ifdef TDLS_UAPSD_DEBUG case TDLS_UAPSD_SIM_SETUP_REQ: / tdls setup request / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate to send a setup request\n")); TDLS_UAPSD_CmdSimSetupReqSend(pAd, Argc, pArgv); break; case TDLS_UAPSD_SIM_TRAFFIC_RSP_RCV: / tdls traffic response / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate to receive a traffic response\n")); TDLS_UAPSD_CmdSimTrafficRspRcv(pAd, Argc, pArgv); break; case TDLS_UAPSD_SIM_TRAFFIC_IND_RCV: / tdls traffic indication / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate to receive a traffic indication\n")); TDLS_UAPSD_CmdSimTrafficIndRcv(pAd, Argc, pArgv); break; case TDLS_UAPSD_SIM_PEER_PS: / tdls peer power save / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate to change the peer power save\n")); TDLS_UAPSD_CmdSimPeerPowerSaveChg(pAd, Argc, pArgv); break; case TDLS_UAPSD_SIM_PS: / tdls power save / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate to change our power save\n")); TDLS_UAPSD_CmdSimSelfPowerSaveChg(pAd, Argc, pArgv); break; case TDLS_UAPSD_SIM_TRAFFIC_RSP_SND: / tdls traffic response / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate to send traffic response\n")); TDLS_UAPSD_CmdSimTrafficRspSnd(pAd, Argc, pArgv); break; case TDLS_UAPSD_SIM_BEACON_LOST: / tdls beacon lost / DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> simulate the beacon lost case\n")); pAd->Mlme.ChannelQuality = 0; if (pAd->StaCfg.bAutoConnectByBssid) pAd->StaCfg.bAutoConnectByBssid = FALSE; pAd->MlmeAux.CurrReqIsFromNdis = FALSE; / Lost AP, send disconnect & link down event/ LinkDown(pAd, FALSE); break; #endif / TDLS_UAPSD_DEBUG / default: / error command type / DBGPRINT(RT_DEBUG_ERROR, ("tdls_cmd> ERROR! No such command!\n")); return -EINVAL; / input error / } / End of switch / return 0; / ok / } / ======================================================================== Routine Description: Set our UAPSD. Arguments: pAd - WLAN control block pointer pArgvIn - the data flow information Return Value: 0 - OK others - FAIL ======================================================================== / INT Set_TdlsUapsdProc( IN PRTMP_ADAPTER pAd, IN PSTRING pArgvIn) { return TDLS_Ioctl(pAd, pArgvIn); } / private function / / ======================================================================== Routine Description: Build the traffic indication frame. Arguments: pAd - WLAN control block pointer pPeerMac - the peer pFrameBuf - frame pHeader802_3 - frame header Return Value: Frame Length Note: ======================================================================== / static ULONG TDLS_UAPSD_TrafficIndBuild( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac, OUT UCHAR pFrameBuf, OUT UCHAR pHeader802_3) { RT_802_11_TDLS pTDLS = NULL; UCHAR TDLS_ETHERTYPE[] = {0x89, 0x0d}; ULONG FrameLen = 0; INT32 LinkId; BOOLEAN TimerCancelled; DBGPRINT(RT_DEBUG_TRACE, ("====> %s\n", __FUNCTION__)); / search TDLS entry / LinkId = TDLS_SearchLinkId(pAd, pPeerMac); if (TDLS_UAPSD_IS_LINK_INVALID(LinkId)) { DBGPRINT(RT_DEBUG_TRACE, ("%s: can not find the LinkId!\n", __FUNCTION__)); TDLS_UAPSD_REBUILD_LINK(pAd, pPeerMac); goto LabelExit; } DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> LinkId = %d\n", LinkId)); pTDLS = TDLS_UAPSD_ENTRY_GET(pAd, LinkId); / sanity check / if (TDLS_UAPSD_IS_CONN_NOT_BUILT(pTDLS)) { DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> link is not yet built " "so we can not send a traffic ind to the peer!!!")); goto LabelExit; } if (pTDLS->FlgIsWaitingUapsdTraRsp == TRUE) { DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> traffic ind was sent before!\n")); goto LabelExit; / has sent it / } pTDLS->FlgIsWaitingUapsdTraRsp = TRUE; / init packet header / MAKE_802_3_HEADER(pHeader802_3, pTDLS->MacAddr, pAd->CurrentAddress, TDLS_ETHERTYPE); / build the frame / TDLS_UAPSD_TrafficIndPayloadBuild(pAd, pFrameBuf, &FrameLen, pTDLS); hex_dump("TDLS UAPSD Peer Traffic Ind sending packet", pFrameBuf, FrameLen); / 11.2.1.14.1 Peer U-APSD Behavior at the PU buffer STA When no corresponding TDLS Peer Traffic Response frame has been received within dot11TDLSResponseTimeout after sending a TDLS Peer Traffic Indication frame, the STA shall tear down the direct link. The default value is 5 seconds. / / set traffic indication timer / RTMPCancelTimer(&pTDLS->Timer, &TimerCancelled); RTMPSetTimer(&pTDLS->Timer, TDLS_TIMEOUT); / free resources / LabelExit: return FrameLen; } / ======================================================================== Routine Description: Build the traffic indication frame payload. Arguments: pAd - WLAN control block pointer pFrameBuf - frame pFrameLen - frame length pTDLS - TDLS link entry Return Value: None Note: ======================================================================== / static VOID TDLS_UAPSD_TrafficIndPayloadBuild( IN PRTMP_ADAPTER pAd, OUT PUCHAR pFrameBuf, OUT PULONG pFrameLen, IN PRT_802_11_TDLS pTDLS) { UCHAR RemoteFrameType = PROTO_NAME_TDLS; ULONG TempLen; UCHAR Token; // Dialog token / fill remote frame type / MakeOutgoingFrame(pFrameBuf, &TempLen, 1, &RemoteFrameType, END_OF_ARGS); pFrameLen = TempLen; /* fill action code / TDLS_InsertActField(pAd, (pFrameBuf + pFrameLen), pFrameLen, CATEGORY_TDLS, TDLS_ACTION_CODE_PEER_TRAFFIC_INDICATION); /* fill Dialog Token / TDLS_UAPSD_DIALOG_GET(pAd, Token); TDLS_InsertDialogToken(pAd, (pFrameBuf + pFrameLen), pFrameLen, Token); /* fill link identifier / if (pTDLS->bInitiator) TDLS_InsertLinkIdentifierIE(pAd, (pFrameBuf + pFrameLen), pFrameLen, pTDLS->MacAddr, pAd->CurrentAddress); else TDLS_InsertLinkIdentifierIE(pAd, (pFrameBuf + pFrameLen), pFrameLen, pAd->CurrentAddress, pTDLS->MacAddr); / fill PU buffer status / TDLS_InsertPuBufferStatus(pAd, (pFrameBuf + pFrameLen), pFrameLen, pTDLS->MacAddr); } /* ======================================================================== Routine Description: Send a traffic indication frame. Arguments: pAd - WLAN control block pointer pPeerMac - the peer MAC Return Value: NDIS_STATUS_SUCCESS NDIS_STATUS_FAILURE Note: 11.2.1.14.1 Peer U-APSD Behavior at the PU buffer STA A PU buffer STA shall transmit a unicast TDLS Peer Traffic Indication frame to a PU sleep STA, through the AP, if and only if all of the following conditions are met: -- A frame with an RA corresponding to a PU sleep STA was placed into a buffer at the PU buffer STA; -- The buffer into which the frame was placed contained no other frames with the same RA; and -- One or more periods of dot11TDLSPeerUAPSDIndicationWindow beacon intervals have expired after the last service period. ======================================================================== / static NDIS_STATUS TDLS_UAPSD_TrafficIndSend( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac) { PUCHAR pOutBuffer = NULL; ULONG FrameLen = 0; UCHAR Header802_3[14]; NDIS_STATUS NStatus = NDIS_STATUS_FAILURE; DBGPRINT(RT_DEBUG_TRACE, ("====> %s\n", __FUNCTION__)); /* allocate resources / NStatus = MlmeAllocateMemory(pAd, &pOutBuffer); if (NStatus != NDIS_STATUS_SUCCESS) goto LabelExit; FrameLen = TDLS_UAPSD_TrafficIndBuild(pAd, pPeerMac, pOutBuffer, Header802_3); if (FrameLen <= 0) goto LabelExit; / Keep ACTIVE and do not enter sleep mode until all EOSPs are sent and we will wake up our ASIC in STAHardTransmit() of TDLS_UAPSD_PKT_SEND_THROUGH_AP() if we are sleep. / ASIC_PS_CAN_NOT_SLEEP(pAd); / send the frame to the peer with AP's help / TDLS_UAPSD_PKT_SEND_THROUGH_AP(pAd, Header802_3, pOutBuffer, FrameLen); / hex_dump("TDLS traffic indication send pack", pOutBuffer, FrameLen); / NStatus = NDIS_STATUS_SUCCESS; / free resources / LabelExit: if (pOutBuffer != NULL) MlmeFreeMemory(pAd, pOutBuffer); return NStatus; } / ======================================================================== Routine Description: Send a traffic response frame. Arguments: pAd - WLAN control block pointer pTDLS - the peer entry Return Value: NDIS_STATUS_SUCCESS NDIS_STATUS_FAILURE Note: ======================================================================== / static NDIS_STATUS TDLS_UAPSD_TrafficRspSend( IN PRTMP_ADAPTER pAd, IN UCHAR pPeerMac, IN UCHAR PeerToken) { MAC_TABLE_ENTRY pMacEntry; RT_802_11_TDLS pTDLS = NULL; UCHAR TDLS_ETHERTYPE[] = {0x89, 0x0d}; UCHAR Header802_3[14]; PUCHAR pOutBuffer = NULL; ULONG FrameLen = 0; ULONG TempLen; INT32 LinkId; UCHAR RemoteFrameType = PROTO_NAME_TDLS; NDIS_STATUS NStatus = NDIS_STATUS_FAILURE; DBGPRINT(RT_DEBUG_TRACE, ("====> %s\n", __FUNCTION__)); /* search TDLS entry / LinkId = TDLS_SearchLinkId(pAd, pPeerMac); if (TDLS_UAPSD_IS_LINK_INVALID(LinkId)) { DBGPRINT(RT_DEBUG_TRACE, ("%s: can not find the LinkId!\n", __FUNCTION__)); TDLS_UAPSD_REBUILD_LINK(pAd, pPeerMac); goto LabelExit; } DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> LinkId = %d\n", LinkId)); pTDLS = TDLS_UAPSD_ENTRY_GET(pAd, LinkId); / sanity check / if (TDLS_UAPSD_IS_CONN_NOT_BUILT(pTDLS)) { DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> link is not yet built " "so we can not send a traffic ind to the peer!!!")); goto LabelExit; } / init / MAKE_802_3_HEADER(Header802_3, pTDLS->MacAddr, pAd->CurrentAddress, TDLS_ETHERTYPE); / allocate buffer for transmitting message / NStatus = MlmeAllocateMemory(pAd, &pOutBuffer); if (NStatus != NDIS_STATUS_SUCCESS) goto LabelExit; / build the frame / MakeOutgoingFrame(pOutBuffer, &TempLen, 1, &RemoteFrameType, END_OF_ARGS); FrameLen = FrameLen + TempLen; TDLS_UAPSD_TrafficRspBuild(pAd, pOutBuffer, &FrameLen, pTDLS, PeerToken); hex_dump("TDLS UAPSD Peer Traffic Response sending packet", pOutBuffer, FrameLen); / need to set the power save mode of the peer to ACTIVE / / we will recover its mode after EOSP frame is received / pMacEntry = MacTableLookup(pAd, pTDLS->MacAddr); if (pMacEntry == NULL) goto LabelExit; / peer can not sleep for a while / RTMP_PS_VIRTUAL_WAKEUP_PEER(pMacEntry); / send the frame to the peer without AP's help / TDLS_UAPSD_PKT_SEND_TO_PEER(pAd, Header802_3, pOutBuffer, FrameLen, pTDLS); / hex_dump("TDLS traffic response send pack", pOutBuffer, FrameLen); / NStatus = NDIS_STATUS_SUCCESS; / free resources / LabelExit: if (pOutBuffer != NULL) MlmeFreeMemory(pAd, pOutBuffer); return NStatus; } / ======================================================================== Routine Description: Build the traffic response frame body. Arguments: pAd - WLAN control block pointer pFrameBuf - frame pFrameLen - frame length pTDLS - TDLS link entry Return Value: None Note: ======================================================================== / static VOID TDLS_UAPSD_TrafficRspBuild( IN PRTMP_ADAPTER pAd, OUT PUCHAR pFrameBuf, OUT PULONG pFrameLen, IN PRT_802_11_TDLS pTDLS, IN UCHAR PeerToken) { / fill action code / TDLS_InsertActField(pAd, (pFrameBuf + pFrameLen), pFrameLen, CATEGORY_TDLS, TDLS_ACTION_CODE_PEER_TRAFFIC_RESPONSE); /* fill Dialog Token / TDLS_InsertDialogToken(pAd, (pFrameBuf + pFrameLen), pFrameLen, PeerToken); /* fill link identifier / if (pTDLS->bInitiator) { TDLS_InsertLinkIdentifierIE(pAd, (pFrameBuf + pFrameLen), pFrameLen, pTDLS->MacAddr, pAd->CurrentAddress); } else { TDLS_InsertLinkIdentifierIE(pAd, (pFrameBuf + pFrameLen), pFrameLen, pAd->CurrentAddress, pTDLS->MacAddr); } } / ======================================================================== Routine Description: Receive a traffic indication frame. Arguments: pAd - WLAN control block pointer pElem - the frame information Return Value: None Note: ======================================================================== / static VOID TDLS_UAPSD_PeerTrafficIndAction( IN PRTMP_ADAPTER pAd, IN MLME_QUEUE_ELEM pElem) { UCHAR Token; UCHAR PeerAddr[6]; UCHAR PeerAddr1[6]; ULONG OffsetPuBuff; INT LinkId = 0xff; PRT_802_11_TDLS pTDLS = NULL; PFRAME_802_11 pFrame = (PFRAME_802_11)pElem->Msg; DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> ====> %s\n", __FUNCTION__)); /* Not TDLS Capable, ignore it / if (!IS_TDLS_SUPPORT(pAd)) return; / Not BSS mode, ignore it / if (!INFRA_ON(pAd)) return; hex_dump("TDLS UAPSD Peer Traffic Ind receive pack", pElem->Msg, pElem->MsgLen); / sanity check / if (TDLS_UAPSD_ARE_WE_IN_ACTIVE(pAd)) return; / we are not in power-save mode / COPY_MAC_ADDR(PeerAddr, &pFrame->Hdr.Addr3); // Drop not within my TDLS Table that created before ! LinkId = TDLS_SearchLinkId(pAd, PeerAddr); if (LinkId == -1 \|\| LinkId == MAX_NUM_OF_TDLS_ENTRY) { DBGPRINT(RT_DEBUG_ERROR,("TDLS - TDLS_UAPSD_PeerTrafficIndAction() can not find the LinkId!\n")); return; } // Point to the current Link ID pTDLS = (PRT_802_11_TDLS)&pAd->StaCfg.TdlsInfo.TDLSEntry[LinkId]; OffsetPuBuff = PeerTdlsBasicSanity(pAd, pElem->Msg, pElem->MsgLen, pTDLS->bInitiator, &Token, PeerAddr1); if (OffsetPuBuff <= 0) return; / hex_dump("PeerAddr=", PeerAddr, 6); / DBGPRINT(RT_DEBUG_ERROR, ("tdls uapsd> PU Buffer Status = 0x%x\n", pElem->Msg[OffsetPuBuff+2])); / 2: skip ID and length field / / reply a response frame with UP = 5 / / for TDLS UAPSD, all AC will be UAPSD mode / TDLS_UAPSD_TrafficRspSend(pAd, PeerAddr, Token); } / ======================================================================== Routine Description: Receive a traffic response frame. Arguments: pAd - WLAN control block pointer pElem - the frame information Return Value: None Note: ======================================================================== / static VOID TDLS_UAPSD_PeerTrafficRspAction( IN PRTMP_ADAPTER pAd, IN MLME_QUEUE_ELEM pElem) { UCHAR Token; UCHAR PeerAddr[6]; UCHAR PeerAddr1[6]; RT_802_11_TDLS pTDLS; INT32 LinkId = 0xff; BOOLEAN TimerCancelled; PFRAME_802_11 pFrame = (PFRAME_802_11)pElem->Msg; DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> ====> %s\n", __FUNCTION__)); / Not TDLS Capable, ignore it / if (!IS_TDLS_SUPPORT(pAd)) return; / Not BSS mode, ignore it / if (!INFRA_ON(pAd)) return; hex_dump("TDLS UAPSD Peer Traffic Response receive pack", pElem->Msg, pElem->MsgLen); COPY_MAC_ADDR(PeerAddr, &pFrame->Hdr.Addr2); // Drop not within my TDLS Table that created before ! LinkId = TDLS_SearchLinkId(pAd, PeerAddr); if (TDLS_UAPSD_IS_LINK_INVALID(LinkId)) { DBGPRINT(RT_DEBUG_ERROR, ("%s: can not find the LinkId!\n", __FUNCTION__)); return; } // Point to the current Link ID pTDLS = (PRT_802_11_TDLS)&pAd->StaCfg.TdlsInfo.TDLSEntry[LinkId]; / sanity check / PeerTdlsBasicSanity(pAd, pElem->Msg, pElem->MsgLen, pTDLS->bInitiator, &Token, PeerAddr1); / hex_dump("PeerAddr=", PeerAddr, 6); / / search TDLS entry / LinkId = TDLS_SearchLinkId(pAd, PeerAddr); if (TDLS_UAPSD_IS_LINK_INVALID(LinkId)) { DBGPRINT(RT_DEBUG_TRACE, ("%s: can not find the LinkId!\n", __FUNCTION__)); TDLS_UAPSD_REBUILD_LINK(pAd, PeerAddr); return; } DBGPRINT(RT_DEBUG_TRACE, ("tdls uapsd> LinkId = %d\n", LinkId)); / cancel waiting flag to avoid tear down the link / pTDLS = TDLS_UAPSD_ENTRY_GET(pAd, LinkId); pTDLS->FlgIsWaitingUapsdTraRsp = FALSE; RTMPCancelTimer(&pTDLS->Timer, &TimerCancelled); / check if we can sleep if we are sleep mode / RtmpAsicSleepHandle(pAd); } / ======================================================================== Routine Description: Get argument number value. Arguments: *ppArgv - input parameters Return Value: decimal number Note: Only for one hex byte. ======================================================================== / static UINT32 TDLS_UAPSD_CmdUtilHexGet( IN CHAR *ppArgv) { CHAR Buf[3], pNum; UINT32 ID; UCHAR Value; pNum = (ppArgv); Buf[0] = 0x30; Buf[1] = 0x30; Buf[2] = 0; for(ID=0; ID<sizeof(Buf)-1; ID++) { if ((pNum == '_') \|\| (pNum == 0x00)) break; / End of if / pNum ++; } / End of for / if (ID == 0) return 0; / argument length is too small / / End of if / if (ID >= 2) memcpy(Buf, (ppArgv), 2); else Buf[1] = (*ppArgv); / End of if / (ppArgv) += ID; if ((*ppArgv) == '_') (ppArgv) ++; /* skip _ / / End of if / AtoH(Buf, &Value, 1); return (UINT32)Value; } / End of TDLS_UAPSD_CmdUtilHexGet / / ======================================================================== Routine Description: Get argument number value. Arguments: pArgv - input parameters Return Value: decimal number Note: ======================================================================== / static UINT32 TDLS_UAPSD_CmdUtilNumGet( IN CHAR *ppArgv) { CHAR Buf[20], pNum; UINT32 ID; pNum = (ppArgv); for(ID=0; ID<sizeof(Buf)-1; ID++) { if ((pNum == '_') \|\| (pNum == 0x00)) break; / End of if / pNum ++; } / End of for / if (ID == sizeof(Buf)-1) return 0; / argument length is too large / / End of if / memcpy(Buf, (ppArgv), ID); Buf[ID] = 0x00; ppArgv += ID+1; / skip _ / return simple_strtol((PSTRING)Buf, 0, 10); } / End of TDLS_UAPSD_CmdUtilNumGet / / ======================================================================== Routine Description: Get argument MAC value. Arguments: *ppArgv - input parameters pDevMac - MAC address Return Value: None Note: ======================================================================== / static VOID TDLS_UAPSD_CmdUtilMacGet( IN CHAR ppArgv, IN UCHAR pDevMac) { CHAR Buf[3]; CHAR pMAC = (CHAR )(ppArgv); UINT32 ID; if ((pMAC[0] == '0') && (pMAC[1] == '_')) { ppArgv = (&pMAC[2]); return; } /* End of if / NdisZeroMemory(pDevMac, 6); / must exist 18 octets / for(ID=0; ID<18; ID+=2) { if ((pMAC[ID] == '_') \|\| (pMAC[ID] == 0x00)) { ppArgv = (&pMAC[ID]+1); return; } /* End of if / } / End of for / / get mac / for(ID=0; ID<18; ID+=3) { Buf[0] = pMAC[0]; Buf[1] = pMAC[1]; Buf[2] = 0x00; AtoH(Buf, pDevMac, 1); pMAC += 3; pDevMac ++; } / End of for / ppArgv += 17+1; /* skip _ / } / End of TDLS_UAPSD_CmdUtilMacGet / / ======================================================================== Routine Description: Simulate to send a TDLS Setup request to a peer. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=51_[PEER MAC] 11.21.4 TDLS direct-link establishment TDLS Setup Request frames, TDLS Setup Response frames, and TDLS Setup Confirm frames shall be transmitted through the AP and shall not be transmitted to a group address. ======================================================================== / static VOID TDLS_UAPSD_CmdSimSetupReqSend( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { MLME_QUEUE_ELEM pElem; RT_802_11_TDLS TDLS, pTDLS = &TDLS; UCHAR TDLS_ETHERTYPE[] = {0x89, 0x0d}; UCHAR Header802_3[14]; PUCHAR pOutBuffer = NULL; ULONG FrameLen = 0; ULONG TempLen; UCHAR RemoteFrameType = PROTO_NAME_TDLS; NDIS_STATUS NStatus = NDIS_STATUS_SUCCESS; UCHAR PeerMac[6]; UINT32 IdTdls; / get MAC address / TDLS_UAPSD_CmdUtilMacGet(&pArgv, PeerMac); / allocate buffer for transmitting message / NStatus = MlmeAllocateMemory(pAd, &pOutBuffer); if (NStatus != NDIS_STATUS_SUCCESS) return; os_alloc_mem(NULL, (UCHAR )&pElem, sizeof(MLME_QUEUE_ELEM)); if (pElem == NULL) { MlmeFreeMemory(pAd, pOutBuffer); return; } / init link entry / NdisZeroMemory(pTDLS, sizeof(RT_802_11_TDLS)); pTDLS->TimeOut = 0; COPY_MAC_ADDR(pTDLS->MacAddr, PeerMac); pTDLS->Valid = 1; / search a empty entry / for(IdTdls=0; IdTdls<MAX_NUM_OF_TDLS_ENTRY; IdTdls++) { if (!pAd->StaCfg.TdlsInfo.TDLSEntry[IdTdls].Valid) { NdisMoveMemory(&pAd->StaCfg.TdlsInfo.TDLSEntry[IdTdls], pTDLS, sizeof(RT_802_11_TDLS_UI)); break; } } if (IdTdls == MAX_NUM_OF_TDLS_ENTRY) { MlmeFreeMemory(pAd, pOutBuffer); os_free_mem(NULL, pElem); return; } / init request frame / MAKE_802_3_HEADER(Header802_3, pTDLS->MacAddr, pAd->CurrentAddress, TDLS_ETHERTYPE); MakeOutgoingFrame(pOutBuffer, &TempLen, 1, &RemoteFrameType, END_OF_ARGS); FrameLen = FrameLen + TempLen; TDLS_BuildSetupRequest(pAd, pOutBuffer, &FrameLen, TDLS_UAPSD_ENTRY_GET(pAd, IdTdls)); hex_dump("Request=", pOutBuffer, FrameLen); TDLS_UAPSD_PKT_SEND_THROUGH_AP(pAd, Header802_3, pOutBuffer, FrameLen); / init response frame / FrameLen += LENGTH_802_11 + LENGTH_802_1_H; pElem->MsgLen = LENGTH_802_11 + LENGTH_802_1_H + FrameLen; / copy payload type, category, action (3B) / memcpy(pElem->Msg + LENGTH_802_11 + LENGTH_802_1_H, pOutBuffer, 3); / status code = 0x00 00 (2B) / (USHORT )(pElem->Msg + LENGTH_802_11 + LENGTH_802_1_H + 3) = 0x00; / copy others / memcpy(pElem->Msg + LENGTH_802_11 + LENGTH_802_1_H + 3 + 2, pOutBuffer + 3, FrameLen - 3); / handle response frame / TDLS_PeerSetupRspAction(pAd, pElem); / free memory / MlmeFreeMemory(pAd, pOutBuffer); os_free_mem(NULL, pElem); } / End of TDLS_UAPSD_CmdSimSetupReqSend / / ======================================================================== Routine Description: Simulate to receive a TDLS Traffic response from a peer. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=52_[PEER MAC] 2. In the actual case, the traffic response frame will be handled in STAHandleRxDataFrame() because the traffic response frame is a DATA frame, not management action frame. ======================================================================== / static VOID TDLS_UAPSD_CmdSimTrafficRspRcv( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { MAC_TABLE_ENTRY pMacEntry; UCHAR PeerMac[6]; RT_802_11_TDLS pTDLS = NULL; INT32 LinkId; / get MAC address / TDLS_UAPSD_CmdUtilMacGet(&pArgv, PeerMac); / get pEntry / pMacEntry = MacTableLookup(pAd, PeerMac); if (pMacEntry == NULL) { DBGPRINT(RT_DEBUG_ERROR, ("tdls_cmd> ERROR! No such peer!\n")); return; } / search TDLS entry / LinkId = TDLS_SearchLinkId(pAd, PeerMac); if (TDLS_UAPSD_IS_LINK_INVALID(LinkId)) { DBGPRINT(RT_DEBUG_ERROR, ("%s: can not find the LinkId!\n", __FUNCTION__)); TDLS_UAPSD_REBUILD_LINK(pAd, PeerMac); return; } DBGPRINT(RT_DEBUG_ERROR, ("tdls uapsd> LinkId = %d\n", LinkId)); / cancel waiting flag to avoid tear down the link / pTDLS = TDLS_UAPSD_ENTRY_GET(pAd, LinkId); pTDLS->FlgIsWaitingUapsdTraRsp = FALSE; / handle UAPSD SP / / TDLS uses Ethertype 89-0d frames, as defined in Annex U. The TDLS payload contains a TDLS Action frame body as is specified in 7.4.11. The UP shall be AC_VI, unless otherwise specified. So these TDLS action frames are DATA frame, not management frame. / UAPSD_TriggerFrameHandle(pAd, pMacEntry, 5); } / ======================================================================== Routine Description: Simulate to receive a TDLS Traffic indication from a peer. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=53_[PEER MAC] ======================================================================== / static VOID TDLS_UAPSD_CmdSimTrafficIndRcv( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { UCHAR PeerMac[6]; MLME_QUEUE_ELEM pElem = NULL; PUCHAR pOutBuffer = NULL; ULONG FrameLen = 0; INT32 LinkId; RT_802_11_TDLS pTDLS = NULL; NDIS_STATUS NStatus = NDIS_STATUS_SUCCESS; UCHAR RemoteFrameType = PROTO_NAME_TDLS; ULONG TempLen; UCHAR Token; // Dialog token / get MAC address / TDLS_UAPSD_CmdUtilMacGet(&pArgv, PeerMac); / allocate resources / NStatus = MlmeAllocateMemory(pAd, &pOutBuffer); if (NStatus != NDIS_STATUS_SUCCESS) goto LabelExit; / make up a virtual traffic indication frame / / search TDLS entry / LinkId = TDLS_SearchLinkId(pAd, PeerMac); if (TDLS_UAPSD_IS_LINK_INVALID(LinkId)) { DBGPRINT(RT_DEBUG_ERROR, ("%s: can not find the LinkId!\n", __FUNCTION__)); TDLS_UAPSD_REBUILD_LINK(pAd, PeerMac); goto LabelExit; } pTDLS = TDLS_UAPSD_ENTRY_GET(pAd, LinkId); / build the frame / / fill remote frame type / MakeOutgoingFrame(pOutBuffer, &TempLen, 1, &RemoteFrameType, END_OF_ARGS); FrameLen = TempLen; / fill action code / TDLS_InsertActField(pAd, (pOutBuffer + FrameLen), &FrameLen, CATEGORY_TDLS, TDLS_ACTION_CODE_SETUP_REQUEST); / fill Dialog Token / TDLS_UAPSD_DIALOG_GET(pAd, Token); TDLS_InsertDialogToken(pAd, (pOutBuffer + FrameLen), &FrameLen, Token); / fill link identifier / TDLS_InsertLinkIdentifierIE(pAd, (pOutBuffer + FrameLen), &FrameLen, pTDLS->MacAddr, pAd->CurrentAddress); / fill PU buffer status / TDLS_InsertPuBufferStatus(pAd, (pOutBuffer + FrameLen), &FrameLen, pTDLS->MacAddr); if (FrameLen <= 0) goto LabelExit; / hex_dump("TDLS traffic indication send pack", pOutBuffer, FrameLen); / / allocate resources / os_alloc_mem(NULL, (UCHAR )&pElem, sizeof(MLME_QUEUE_ELEM)); if (pElem == NULL) goto LabelExit; / copy the indication frame / FrameLen += LENGTH_802_11 + LENGTH_802_1_H; pElem->MsgLen = LENGTH_802_11 + LENGTH_802_1_H + FrameLen; / copy payload / memcpy(pElem->Msg + LENGTH_802_11 + LENGTH_802_1_H, pOutBuffer, FrameLen); / handle it / TDLS_UAPSD_PeerTrafficIndAction(pAd, pElem); / free resources / LabelExit: if (pElem != NULL) os_free_mem(NULL, pElem); if (pOutBuffer != NULL) MlmeFreeMemory(pAd, pOutBuffer); } / ======================================================================== Routine Description: Simulate to change the power save of a peer. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=54_[PEER MAC]_[0/1] ======================================================================== / static VOID TDLS_UAPSD_CmdSimPeerPowerSaveChg( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { MAC_TABLE_ENTRY pMacEntry; UCHAR PeerMac[6]; UINT32 PeerPsMode; /* get MAC address / TDLS_UAPSD_CmdUtilMacGet(&pArgv, PeerMac); / get pEntry / pMacEntry = MacTableLookup(pAd, PeerMac); if (pMacEntry == NULL) { DBGPRINT(RT_DEBUG_ERROR, ("tdls_cmd> ERROR! No such peer!\n")); return; } / change mode / PeerPsMode = TDLS_UAPSD_CmdUtilNumGet(&pArgv); if (PeerPsMode != 0) { pMacEntry->PsMode = PWR_ACTIVE; DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> Change to ACTIVE!\n")); } else { pMacEntry->PsMode = PWR_SAVE; DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> Change to POWER SAVE!\n")); } } / ======================================================================== Routine Description: Simulate to change our power save. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=55_[0/1] ======================================================================== / static VOID TDLS_UAPSD_CmdSimSelfPowerSaveChg( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { UINT32 PeerPsMode; PeerPsMode = TDLS_UAPSD_CmdUtilNumGet(&pArgv); if (PeerPsMode != 0) { pAd->StaCfg.Psm = PWR_ACTIVE; DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> Change to ACTIVE!\n")); } else { pAd->StaCfg.Psm = PWR_SAVE; DBGPRINT(RT_DEBUG_TRACE, ("tdls_cmd> Change to POWER SAVE!\n")); } } / ======================================================================== Routine Description: Simulate to send a TDLS Traffic response to a peer. Arguments: pAd - WLAN control block pointer Argc - the number of input parameters pArgv - input parameters Return Value: None Note: 1. Command Format: iwpriv ra0 set tdls=56_[PEER MAC] ======================================================================== / static VOID TDLS_UAPSD_CmdSimTrafficRspSnd( IN PRTMP_ADAPTER pAd, IN INT32 Argc, IN CHAR pArgv) { MAC_TABLE_ENTRY pMacEntry; UCHAR PeerMac[6]; UCHAR Token = 0; /* get MAC address / TDLS_UAPSD_CmdUtilMacGet(&pArgv, PeerMac); / get pEntry / pMacEntry = MacTableLookup(pAd, PeerMac); if (pMacEntry == NULL) { DBGPRINT(RT_DEBUG_ERROR, ("tdls_cmd> ERROR! No such peer!\n")); return; } / send reponse / TDLS_UAPSD_TrafficRspSend(pAd, PeerMac, Token); } #endif / UAPSD_SUPPORT / / End of tdls_uapsd.c */
the_stack_data/16705.c	#include <stdio.h> #include <stdlib.h> #include <string.h> #include <ctype.h> /*** valid sym. character / int readline(file,dest) FILE file; char dest; { char run=dest; int zeichen='a'; while ((!feof(file))&&(zeichen!=EOF)&&(zeichen!='\n')) { zeichen=fgetc(file); if ((zeichen!=EOF)&&(zeichen!='\n')) (run++)=zeichen; } run='\0'; return 0; } int isblankline(line) char line; { for (; line!='\0'; line++) if (!isspace(line)) return 0; return 1; } int linestartswidth(line,needle) char line; char needle; { while (isspace(line)) line++; return (strncmp(line,needle,strlen(needle))==0); } #define BUFFERSIZE 10 int main(argc, argv) int argc; char *argv; { FILE inpfile,outfile; char lines[BUFFERSIZE][500],p; char orig[1000],dest[1000],params[1000],single[1000],save; int BufferFill,start,z,flag; if (argc!=3) { fprintf(stderr,"usage: %s <input file> <output file>\n",argv[0]); exit(1); } if (strcmp(argv[1],"-")==0) inpfile=stdin; else inpfile=fopen(argv[1],"r"); if (inpfile==NULL) { perror(argv[1]); return 2; } if (strcmp(argv[2],"-")==0) outfile=stdout; else outfile=fopen(argv[2],"w"); if (outfile==NULL) { perror(argv[2]); return 2; } BufferFill=0; while (!feof(inpfile)) { if (BUFFERSIZE==BufferFill) { fprintf(outfile,"%s\n",lines[0]); for (z=0; z<BufferFill; z++) strcpy(lines[z],lines[z+1]); BufferFill--; } readline(inpfile,lines[BufferFill++]); /* condition for a function header: 1. body begins with '{' or 'BEGIN' in first column 2. header searched backward until blank, comment, or preprocessor line detected / if ((strcmp(lines[BufferFill-1],"BEGIN")==0)\|\|(strcmp(lines[BufferFill-1],"{")==0)) { for (start=BufferFill-1; start>=0; start--) if (isblankline(lines[start])) break; else if (lines[start]=='#') break; else if (strncmp(lines[start],"/",2)==0) break; else if (strcmp(lines[start]+strlen(lines[start])-2,"/")==0) break; start++; /* found: assemble source lines into a single line / for (z=start,orig='\0'; z<=BufferFill-2; z++) { p=lines[z]; while (isspace(p)) p++; strcat(orig,p); if (z!=BufferFill-2) strcat(orig," "); } / cut function name+prefixes: parameter list starts at first '(' / p=strchr(orig,'('); p='\0'; sprintf(dest,"\t%s",orig); strcat(dest,"("); strcpy(orig,p+1); /* cut trailing ')' / for (p=orig+strlen(orig)-1; p!=')'; p--); p='\0'; / loop through parameters: discard 'void' entries / params=0; flag=0; while (orig!='\0') { p=strchr(orig,','); if (p==NULL) { strcpy(single,orig); orig='\0'; } else { p='\0'; strcpy(single,orig); strcpy(orig,p+1); } for (p=single; isspace(p); p++); strcpy(single,p); for (p=single+strlen(single)-1; isspace(p); p--); p[1]='\0'; if (strncmp(single,"const ",6)==0) strcpy(single,single+6); if (strcmp(single,"void")!=0) { strcat(params,single); strcat(params,";\n"); for (p=single+strlen(single)-1; (isalnum(p))\|\|(p=='_'); p--); if (flag) strcat(dest,","); strcat(dest,p+1); flag=1; } } / close function head / strcat(dest,")"); / flush contents berore header from buffer / for (z=0; z<start; fprintf(outfile,"%s\n",lines[z++])); / print K&R header; don't forget opening of function body! / fprintf(outfile,"%s\n%sBEGIN\n",dest,params); / flush buffer / BufferFill=0; } / Detect 'extern' definitions in header files / else if (linestartswidth(lines[BufferFill-1],"extern ")) { / find opening parenthesis. if none, it's a variable definition / p=strchr(lines[BufferFill-1],'('); if (p!=NULL) { / if next character is a '', we have an external definition of a function pointer and have to find the next '(' / if (p[1]=='') p=strchr(p+1,'('); / copy out first part, extend by ');' and write the 'prototype'. flush line buffer before. / save=p[1]; p[1]='\0'; strcpy(dest,lines[BufferFill-1]); strcat(dest,");"); p[1]=save; for (z=0; z<BufferFill-1; fprintf(outfile,"%s\n",lines[z++])); fprintf(outfile,"%s\n",dest); / discard lines until end of prototype */ strcpy(dest,lines[BufferFill-1]); BufferFill=0; while (strcmp(dest+strlen(dest)-2,");")!=0) { readline(inpfile,dest); } } } } for (z=0; z<BufferFill; fprintf(outfile,"%s\n",lines[z++])); fclose(inpfile); fclose(outfile); return 0; }
the_stack_data/32951389.c	extern void abort (); int f(int x) { return (x >> (sizeof (x) * __CHAR_BIT__ - 1)) ? -1 : 1; } volatile int one = 1; int main (void) { /* Test that the function above returns different values for different signs. */ if (f(one) == f(-one)) abort (); return 0; }
the_stack_data/791946.c	#include <stdio.h> //Search for key in array[] of size n int BinarySearch(int array[], int min_index, int max_index, int key) { int position = -1; // indicates key not found (default) int mid; while (min_index < (max_index - 1)) { mid = (min_index + max_index)/2; // find the middle index in the array. if(array[mid] == key) // COMPARE KEY with A[k] here { position = mid; return position; // return position of key in array[] } else if(key < array[mid]) // search first half { max_index = mid; // COMPUTE max_index HERE, first half } else if(key < array[mid]) // search second half { min_index = mid; // COMPUTE min_index HERE, second half } } return position; // indicates key is not found } // after 'while' loop is finished void main() // main program to test the algorithm { //declare and initialise a simple array of size 10 int myarray[10] = {2, 4, 7, 8, 11, 14, 17, 19, 21, 24 }; //PART 2 /for(i=0; i >100; i++) { int myarray[i] = 2 i + 1; } */ int position, key; int low, high; int i; printf("\nArray is "); for(i = 0; i < 10; i++) { printf("%d ", myarray[i]); } printf("\nInput value to search for: "); scanf("%d", &key); flushall(); low = 0; // Initial min index high = 9; // Initial max index // Call the Binary Search algorithm position = BinarySearch(myarray, low, high, key); if(position == -1) { printf("\nValue %d not found\n\n", myarray[0]); // key not found } else { printf("\nValue %d found at array position: %d\n\n", myarray[position],position); } getchar(); }
the_stack_data/125140851.c	/****************************************************************************** * * Copyright (C) 2009 - 2014 Xilinx, Inc. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * Use of the Software is limited solely to applications: * (a) running on a Xilinx device, or * (b) that interact with a Xilinx device through a bus or interconnect. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * XILINX BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF * OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * * Except as contained in this notice, the name of the Xilinx shall not be used * in advertising or otherwise to promote the sale, use or other dealings in * this Software without prior written authorization from Xilinx. * *****************************************************************************/ #include <stdio.h> / * fcntl -- Manipulate a file descriptor. * We don't have a filesystem, so we do nothing. */ int fcntl (int fd, int cmd, long arg) { (void)fd; (void)cmd; (void)arg; return 0; }
the_stack_data/95451672.c	/* * index of minimum value / int idmin(int n, double x, int incx) { register int i, indx = ( n > 0 ) ? 0 : -1; register double xmin = x; for(i = 0;i < n;i++) { if( x < xmin ) { xmin = x; indx = i; } x += incx; } return indx; } int ismin(int n, float x, int incx) { register int i, indx = ( n > 0 ) ? 0 : -1; register float xmin = x; for(i = 0; i < n; i++) { if( x < xmin ) { xmin = x; indx = i; } x += incx; } return indx; } / FORTRAN versions / int idmin_(int np, double x, int incxp) { register int i, n = np, incx = incxp, indx = ( n > 0 ) ? 0 : -1; register double xmin = x; for (i = 0; i < n; i++) { if( x < xmin ) { xmin = x; indx = i; } } return ++indx; } int ismin_(int np, float x, int incxp) { register int i, n = np, incx = incxp, indx = ( n > 0 ) ? 0 : -1; register float xmin = x; for (i = 0; i < n; i++) { if( x < xmin ) { xmin = *x; indx = i; } x += incx; } return ++indx; }
the_stack_data/100141736.c	// Test a for() loop that runs forever char * const SCREEN = (char)0x0400; void main() { for (;;) { (SCREEN)++; } }
the_stack_data/232956350.c	/* paramters for functions / const double L_ratio = 0.957619047619048, b = 1.124915095238095, a = -5.593809523809524, J_inv = 1.886792452830189e+02, Tload = 0.3, k = 1e-2, Ts = 0.01; / dynamics of the system / void model_mpc(const double x,const double* u, double* xp){ xp[0] = (1 + Tsa)x[0] + Tsbu[0]; xp[1] = (1 - Tsk J_inv)x[1] + Ts J_inv (L_ratio x[0]u[1] - Tload); } / jacobian of dynamics w.r.t. x / void Jacobian_x(const double x, const double* u, double* F){ F[0] = (1 + Tsa); F[1] = Ts J_inv * L_ratio * u[1]; F[2] = 1 - Ts * k * J_inv; } /* jacobian of dynamics w.r.t. u / void Jacobian_u(const double x, const double* u, double* G){ G[0] = Ts * b; G[1] = Ts * J_inv * L_ratio * x[0] ; } /* nonlinear constraint. It can depend on stage k. For example: if( k<N-2){ n[0] = ...; } else ...; / void build_n(const double u, const unsigned int k, double* n){ n[0] = u[0]u[0]0.5 + u[1]u[1]0.5 - 7.569; } /* jacobian_u of nonlinear constraint / void build_Dn(const double u, const unsigned int k, double* Dn){ Dn[0] = u[0]; Dn[1] = u[1]; }
the_stack_data/148578069.c	/* * ===================================================================================== * * Created: 01/06/2020 * Compiler: * Apple clang version 11.0.3 (clang-1103.0.32.29) * Target: x86_64-apple-darwin19.4.0 * Thread model: posix * Description: Extend atof to handle scientific notation of the form 123.45e-6 * where a floating-point number may be followed by e or E and an optionally signed exponent. * * ===================================================================================== / #include <stdio.h> #include <ctype.h> #define MAXLINE 1000 / maximum input line length / int main(){ double sum, atof(char s[]); char line[MAXLINE]; int getLine(char line[], int max); sum = 0; while (getLine(line, MAXLINE) > 0) printf("\t%g\n", sum += atof(line)); } / getLine: get line into s, return length / int getLine(char s[], int lim){ int c, i; i = 0; while (--lim > 0 && (c=getchar()) != EOF && c != '\n') s[i++] = c; if (c == '\n') s[i++] = c; s[i] = '\0'; return i; } double atof(char s[]){ double val, power; int i, sign, esign, exp, tenth; for(i = 0; isspace(s[i]); i++) ; sign = (s[i]== '-') ? -1 : 1; if (s[i] == '+' \|\| s[i] == '-') i++; for(val = 0.0; isdigit(s[i]); i++) val = 10.0 val + (s[i] - '0'); if(s[i] == '.') i++; for(power = 1.0; isdigit(s[i]); i++){ val = 10.0 * val + (s[i] - '0'); power = 10; } if(s[i] == 'E' \|\| s[i] == 'e') i++; esign = s[i++]; for(exp = 0; isdigit(s[i]); i++) exp = 10 exp + (s[i] - '0'); tenth = 1; while(exp--){ tenth = 10; } return (esign == '-') ? sign (val / power) / tenth : sign * (val / power) * tenth; }
the_stack_data/92325754.c	#include <sys/types.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <string.h> #include <sys/socket.h> #include <netdb.h> #define BUF_SIZE 500 int main(int argc, char argv[]) { struct addrinfo hints; struct addrinfo result, rp; int sfd, s; struct sockaddr_storage peer_addr; socklen_t peer_addr_len; ssize_t nread; char buf[BUF_SIZE]; if (argc != 2) { fprintf(stderr, "Usage: %s port\n", argv[0]); exit(EXIT_FAILURE); } memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_UNSPEC; / Allow IPv4 or IPv6 / hints.ai_socktype = SOCK_DGRAM; / Datagram socket / hints.ai_flags = AI_PASSIVE; / For wildcard IP address / hints.ai_protocol = 0; / Any protocol / hints.ai_canonname = NULL; hints.ai_addr = NULL; hints.ai_next = NULL; s = getaddrinfo(NULL, argv[1], &hints, &result); if (s != 0) { fprintf(stderr, "getaddrinfo: %s\n", gai_strerror(s)); exit(EXIT_FAILURE); } / getaddrinfo() returns a list of address structures. Try each address until we successfully bind(2). If socket(2) (or bind(2)) fails, we (close the socket and) try the next address. / for (rp = result; rp != NULL; rp = rp->ai_next) { sfd = socket(rp->ai_family, rp->ai_socktype, rp->ai_protocol); if (sfd == -1) continue; if (bind(sfd, rp->ai_addr, rp->ai_addrlen) == 0) break; / Success / close(sfd); } freeaddrinfo(result); / No longer needed / if (rp == NULL) { / No address succeeded / fprintf(stderr, "Could not bind\n"); exit(EXIT_FAILURE); } / Read datagrams and echo them back to sender / for (;;) { peer_addr_len = sizeof(peer_addr); nread = recvfrom(sfd, buf, BUF_SIZE, 0, (struct sockaddr ) &peer_addr, &peer_addr_len); if (nread == -1) continue; /* Ignore failed request / char host[NI_MAXHOST], service[NI_MAXSERV]; s = getnameinfo((struct sockaddr ) &peer_addr, peer_addr_len, host, NI_MAXHOST, service, NI_MAXSERV, NI_NUMERICSERV); if (s == 0) printf("Received %zd bytes from %s:%s\n", nread, host, service); else fprintf(stderr, "getnameinfo: %s\n", gai_strerror(s)); if (sendto(sfd, buf, nread, 0, (struct sockaddr *) &peer_addr, peer_addr_len) != nread) fprintf(stderr, "Error sending response\n"); } }
the_stack_data/748982.c	#include <stdio.h> #define SIZE 10001 #define MOD 1000000007 int hanoi(char now,char taget,int *step,int n){ char subta[SIZE]; int steps=0,base=1; while(now[base+1]==now[1] && base<n-1) ++base; subta[n]=taget[n]; for(int i=n;i>1;--i) subta[i-1]=now[i]==subta[i]?subta[i]:6-now[i]-subta[i]; char temp=now[base]; for(int i=base+1;i<=n;++i){ if(now[i]==subta[i])continue; if(temp+now[i]+subta[i]==6)++steps; else{ steps=(steps+step[base])%MOD; base=i-1; temp=6-now[i]-subta[i]; } } temp=subta[n-1]; for(int i=base;i;--i){ if(temp==taget[i])continue; temp=6-temp-taget[i]; steps=(steps+step[i-1])%MOD; } return steps; } int main(){ int n; int step[SIZE]={1}; for(int i=1;i<SIZE;++i)step[i]=(step[i-1]<<1)%MOD; while(scanf("%d",&n)!=EOF){ if(n==0)break; char now[SIZE],taget[SIZE]; for(int i=1;i<=n;++i) scanf("%d",&now[i]); for(int i=1;i<=n;++i) scanf("%d",&taget[i]); while(now[n]==taget[n] && n) --n; if(n) printf("%d\n",hanoi(now,taget,step,n)); else puts("0"); } }

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