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the_stack_data/7950024.c | /*
* found at: http://www.sparetimelabs.com/tinyprintf/tinyprintf.php
* and: http://www.sparetimelabs.com/printfrevisited/printfrevisited.php
*/
/*
File: printf.c
Copyright (C) 2004 Kustaa Nyholm
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "printf.h"
typedef void (*putcf)(void*, char);
static putcf stdout_putf;
static void* stdout_putp;
// this adds cca 400 bytes
#define PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_SUPPORT
static void uli2a(unsigned long int num, unsigned int base, int uc, char* bf) {
int n = 0;
unsigned int d = 1;
while (num / d >= base) d *= base;
while (d != 0) {
int dgt = num / d;
num %= d;
d /= base;
if (n || dgt > 0 || d == 0) {
*bf++ = dgt + (dgt < 10 ? '0' : (uc ? 'A' : 'a') - 10);
++n;
}
}
*bf = 0;
}
static void li2a(long num, char* bf) {
if (num < 0) {
num = -num;
*bf++ = '-';
}
uli2a(num, 10, 0, bf);
}
#endif
static void ui2a(unsigned int num, unsigned int base, int uc, char* bf) {
int n = 0;
unsigned int d = 1;
while (num / d >= base) d *= base;
while (d != 0) {
int dgt = num / d;
num %= d;
d /= base;
if (n || dgt > 0 || d == 0) {
*bf++ = dgt + (dgt < 10 ? '0' : (uc ? 'A' : 'a') - 10);
++n;
}
}
*bf = 0;
}
static void i2a(int num, char* bf) {
if (num < 0) {
num = -num;
*bf++ = '-';
}
ui2a(num, 10, 0, bf);
}
static int a2d(char ch) {
if (ch >= '0' && ch <= '9')
return ch - '0';
else if (ch >= 'a' && ch <= 'f')
return ch - 'a' + 10;
else if (ch >= 'A' && ch <= 'F')
return ch - 'A' + 10;
else
return -1;
}
static char a2i(char ch, char** src, int base, int* nump) {
char* p = *src;
int num = 0;
int digit;
while ((digit = a2d(ch)) >= 0) {
if (digit > base) break;
num = num * base + digit;
ch = *p++;
}
*src = p;
*nump = num;
return ch;
}
static void putchw(void* putp, putcf putf, int n, char z, char* bf) {
char fc = z ? '0' : ' ';
char ch;
char* p = bf;
while (*p++ && n > 0) n--;
while (n-- > 0) putf(putp, fc);
while ((ch = *bf++)) putf(putp, ch);
}
void tfp_format(void* putp, putcf putf, char* fmt, va_list va) {
char bf[12];
char ch;
while ((ch = *(fmt++))) {
if (ch != '%')
putf(putp, ch);
else {
char lz = 0;
#ifdef PRINTF_LONG_SUPPORT
char lng = 0;
#endif
int w = 0;
ch = *(fmt++);
if (ch == '0') {
ch = *(fmt++);
lz = 1;
}
if (ch >= '0' && ch <= '9') {
ch = a2i(ch, &fmt, 10, &w);
}
#ifdef PRINTF_LONG_SUPPORT
if (ch == 'l') {
ch = *(fmt++);
lng = 1;
}
#endif
switch (ch) {
case 0:
goto abort;
case 'u': {
#ifdef PRINTF_LONG_SUPPORT
if (lng)
uli2a(va_arg(va, unsigned long int), 10, 0, bf);
else
#endif
ui2a(va_arg(va, unsigned int), 10, 0, bf);
putchw(putp, putf, w, lz, bf);
break;
}
case 'd': {
#ifdef PRINTF_LONG_SUPPORT
if (lng)
li2a(va_arg(va, unsigned long int), bf);
else
#endif
i2a(va_arg(va, int), bf);
putchw(putp, putf, w, lz, bf);
break;
}
case 'x':
case 'X':
#ifdef PRINTF_LONG_SUPPORT
if (lng)
uli2a(va_arg(va, unsigned long int), 16, (ch == 'X'), bf);
else
#endif
ui2a(va_arg(va, unsigned int), 16, (ch == 'X'), bf);
putchw(putp, putf, w, lz, bf);
break;
case 'c':
putf(putp, (char)(va_arg(va, int)));
break;
case 's':
putchw(putp, putf, w, 0, va_arg(va, char*));
break;
case 'b':
#ifdef PRINTF_LONG_SUPPORT
if (lng)
uli2a(va_arg(va, unsigned long int), 2, 0, bf);
else
#endif
ui2a(va_arg(va, unsigned int), 2, 0, bf);
putchw(putp, putf, w, lz, bf);
break;
case '%':
putf(putp, ch);
default:
break;
}
}
}
abort:;
}
void init_printf(void* putp, void (*putf)(void*, char)) {
stdout_putf = putf;
stdout_putp = putp;
}
void tfp_printf(char* fmt, ...) {
va_list va;
va_start(va, fmt);
tfp_format(stdout_putp, stdout_putf, fmt, va);
va_end(va);
}
static void putcp(void* p, char c) { *(*((char**)p))++ = c; }
void tfp_sprintf(char* s, char* fmt, ...) {
va_list va;
va_start(va, fmt);
tfp_format(&s, putcp, fmt, va);
putcp(&s, 0);
va_end(va);
}
|
the_stack_data/151705716.c |
//disable compiler warnings:
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
/*
*
*/
#define _CRT_SECURE_NO_WARNINGS
#define LENGTH 3
#define MAXSTRLEN 100
#define COUNT 4
int data[LENGTH]; //some integers
char* words[LENGTH];
void pointers_memaddr_example()
{
int mem = 1;
int *pointer;
pointer = &mem; //a pointer takes a memory address
printf("pointer value: %p", pointer);
}
void pointerExample()
{
int num;
int* numPtr;
int num2;
num = 100;
numPtr = # //gets address of num variable.
num2 = *numPtr;
printf("num=%d, numPtr=%d, address of num=%d, num2=%d\n", num, numPtr, &num, num2);
}
void indirection()
{
int num;
int* numPtr;
int num2;
num = 100;
numPtr = # //gets address of num variable.
num2 = *numPtr;
printf("num=%d, numPtr=%d, address of num=%d, num2=%d\n", num, numPtr, &num, num2);
}
void main_test(int argc, char **argv) {
}
void strings()
{
char str1[] = "Hello world!";
printf("%s %c %d %d %d\n", str1, str1[0], &str1, &str1[0], str1);
return;
}
void display_pointer_value()
{
char str1[] = "hello";
char *str2 = "Goodbye";
printf("%d %d %s\n", &str1, str1, str1);
printf("%d %d %s\n", &str2, str2, str2);
}
void multiple_indirection()
{
//#define LENGTH 3
//int data [LENGTH]; //some integers
int *pi; // a simple pointer to an integer
int **ppi; // a pointer to a point to an integer
printf("multiple indirection example\n");
// initialize our integer arry
for (int i = 0; i < LENGTH; i++)
{
data[i] = i;
}
for (int i = 0; i < LENGTH; i++)
{
printf("%d\n", data[i]);
}
/*
* A: simple pointer to an integer
*/
pi = data;
ppi = π
for (int i = 0; i < LENGTH; i++) {
printf("- Loop{%d} array address is %p\n", i, data);
printf("\titem pointed to by pi is %d\n", *pi); //de-reference to display the integer value
printf("\titem pointed to by ppi is %p\n", *ppi); //gets the value at pi, which ppi points too
//the following gets the actual number value stored in pi using two levels of pointers
printf("\titem pointed to by double indirection of ppi is %d\n", **ppi); //gets the value of the Pointer that the referenced pointer points to. [<-- not a typo. that's written correctly]
printf("\tThe address of pi is %p \n\tThe value of pi (what it points to) is %p\n\n", &pi, ppi); //shows the value stored by the ppi variable is the address of the pi variable
printf("[x] The value of pi is %p (pi) and it points to %d (*pi)\n", pi, *pi);
printf("--------------------------------------------\n");
//advance the pointer to point to the next element of the data array
pi += 1; // simple example of pointer arithmetic
// (!!) - This advances through the loop with pointer arithmetic
}
}
void multiple_indirection_chars()
{
char *pc; // a pointer to a character
char **ppc; // a pointer to a pointer to a character
printf("multiple indrection example\n");
// initialize our string array
words[0] = "zero";
words[1] = "one";
words[2] = "two";
for (int i = 0; i < LENGTH; i++)
{
printf("%s\n", words[i]);
}
/*
* B: a pointer to an array of strings
* - the same as a pointer to a pointer to a character
*/
printf("\nNow print the chars in each string...\n");
ppc = words;
for (int i = 0; i < LENGTH; i++) {
ppc = words + i;
pc = *ppc;
while (*pc != 0) {
printf("%c ", *pc);
pc += 1;
}
if (*pc == 0)
printf("e: %d", *pc); // *pc == false?
printf("\n");
}
}
void address_sandbox()
{
char str1[] = "my char array";
char *xstr1 = &str1;
printf("%s : %d | %s : %d", str1, str1, xstr1, &xstr1);
}
void generic_pointers()
{
void *gp;
printf("generic pointer example\n");
// initialize our integer array
for (int i = 0; i < LENGTH; i++)
{
data[i] = i;
}
for (int i = 0; i < LENGTH; i++) {
printf("%d\n", data[i]);
}
// initialize our string array
words[0] = "zero";
words[1] = "one";
words[2] = "two";
for (int i = 0; i < LENGTH; i++) {
printf("%s\n", words[i]);
}
/*
* c: example of a generic pointer
*/
gp = data;
printf("\ndata array address is %p\n", gp);
// print out th first item in the array
printf("item points to by gp is %d\n", *(int*)gp);
//the cast tells the compiler what the address type is
gp = (int*)gp + 1;
printf("item pointed to by gp is now %d\n", *(int*)gp); //deference operator (another asterisk)
printf("------------ part 2: char ------------");
gp = words; //set generic pointer to the words array start position
printf("\nwords array address is %p\n", gp);
//now print out the first item in the array
//- a cast is now needed to let the compiler know this is a pointer to a pointer of a char
printf("item pointed to by gp is %s\n", *(char**)gp);
// the cast tells the compiler what the address type is and so we can add
gp = (char**)gp + 1;
printf("item pointed to by gp is now %s\n", *(char**)gp);
}
char * string_function(char *astring)
{
char* s;
s = (char*)malloc(MAXSTRLEN);
s[0] = 0; // need this to initialize the buffer created by malloc
strcat(s, "Hello ");
strcat(s, astring);
strcat(s, "\n");
return s;
}
void runtime_memory_allocation()
{
printf(string_function("John"));
printf(string_function("Gussie Fink-Nottle"));
}
//very simple allocation of memory changing something in the newly allocated
void malloc_and_sizeof()
{
char* s;
int stringsize;
stringsize = sizeof("hello"); //first work out how big the string is
printf("size of 'hello' is %d\n", stringsize);// note, it is 6
//now allocate some memory
s = (char*)malloc(stringsize);
if (s == NULL) {
printf("malloc failed!\n");
exit(0);
}
// now copy the string into the newly allocated memory
strncpy(s, "hello", stringsize);
// and change the first character (just to show we can)
printf("s is %s\n", s);
s[0] = 'c';
printf("s is now %s\n", s);
}
// look at calloc and memory leaks
void calloc_example()
{
char* s;
int i;
int* p;
//use malloc first to allocate some memory and see what is in it (usually junk)
s = (char*)malloc(6); //malloc will return NULL(0) if it fails, so we should check here, but we won't for brevity
for (i = 0; i < 6; i++)
{
printf("s[%d]=%d\n", i, s[i]);
}
free(s); //use 'free' to return the memory so that we don't get the memory leak
// now we'll use calloc to do the same - note that the memory is zero'd out
//Note: the syntax of calloc is different for malloc - the second argument gives the size of the memory unit to allocate
s = (char*)calloc(6, sizeof(char)); // calloc will return 0 if it fails, so we should check here, but we won't for brevity
for (i = 0; i < 6; i++)
{
printf("s[%d]=%d\n", i, s[i]);
}
free(s);
// in this last example, calloc allocates 6 integers, or 24 bytes, since an integer is 4 bytes long
p = (int*)calloc(6, sizeof(int));
for (i = 0; i < 6; i++)
{
printf("p[%d] =%d\n", i, p[i]);
}
}
#define TOTAL 50000
void calloc__big_ex()
{
//An example to test the limits of how much memory can be utilized for a single array of pointers in a program.
int i = 0;
char* charArray[TOTAL];
int count = 0;
while (i < TOTAL)
{
char* s;
s = (char*)calloc(2000, sizeof(char)); // calloc will return 0 if it fails, so we should check here, but we won't for brevity
free(s);
charArray[i] = s;
i++;
}
count += TOTAL;
}
//changing the size of memory
void reallocate()
{
char* s;
int i;
i = sizeof("hello"); // as before first work out how big "hello" is ...
s = (char*)malloc(i); // malloc will return 0 if it fails, so we should check here, but we wont for brevity
strncpy(s, "hello", i); // now copy the string into the newly allocated memory
printf("s is %s\n", s);
// now suppose we want to add 'world' to 'hello' - we can't just do this ...
// strcat(s, " world"); - disaster!!!
realloc(s, 12);
//s = (char*)realloc(s, 12); // but we can use 'realloc' which frees the original 6 bytes of memory and allocates an new 12 bytes
strncpy(s, "hello", i); // now copy the string into the newly re-allocated memory
strcat(s, " world"); // now we can tag on the 'world'
printf("s is now %s\n", s);
free(s); // and when we've finished we should always free up any memory by using 'free'
// NOTE: make a habit of using 'free' whan you've finished with some memory otherwise there will be 'memory leaks'
// where memory that you have allocated will be 'lost' to your program
// these are not as important as they used to be (a few bytes in several GB won't make much of a difference) but it is considered to be good programming practise to tidy up
}
// Advanced C: Pointers - Pointer Arithmetic: https://www.udemy.com/advanced-c-programming-pointers/learn/v4/t/lecture/6863574?start=0
void pointer_arithmetic()
{
int *p;
int a[COUNT];
printf("size of an 'int' is %d\n", sizeof(int));
for (int i = 0; i < COUNT; i++)
a[i] = i;
//do some pointer arithmetic
p = a; //set the pointer to the array to the start of the array
printf("address of 'a[0]' is %p; value of p is %p [%d]; value pointed to by p is %d\n", a, p, p, *p);
p = p + 1;
printf("address of a[1] is %p; value of p is %p [%d]; value pointed to by p is %d\n", a, p, p, *p);
//increment p by another 2 the value pointed by p is now a[3]
p = p + 2;
printf("address of a[3] is %p; value of p is %p [%d]; value pointed to by p is %d\n", a, p, p, *p);
//what happens if we go beyond the array end? there's nothing to stop or warn you from doing this operation...
p = p + 1;
printf("address of a is %p; value of p is %p [%d]; value pointed to by p is %d\n", a, p, p, *p);
}
int main(int argc, char** argv)
{
pointer_arithmetic();
//reallocate();
//calloc__big_ex();
//calloc_example();
//malloc_and_sizeof();
//runtime_memory_allocation();
//generic_pointers();
//main_test(argc, argv);
//multiple_indirection_chars();
//multiple_indirection();
//address_sandbox();
//display_pointer_value();
//strings();
//pointerExample();
return (0);
} |
the_stack_data/129168.c | #include <stddef.h>
#include <stdio.h>
#include <errno.h>
#include <sys/prctl.h>
#include <sys/resource.h>
#include <linux/seccomp.h>
#include <linux/filter.h>
#include <linux/audit.h>
#include <linux/unistd.h>
#include <sys/ptrace.h>
#include <unistd.h>
#define SyscallArg(n) (offsetof(struct seccomp_data, args[n]))
#define SyscallArch (offsetof(struct seccomp_data, arch))
#define SyscallNr (offsetof(struct seccomp_data, nr))
void enable_sandbox(int connection_socket) {
const struct rlimit cpu_limit = {
.rlim_cur = 3,
.rlim_max = 3
};
if (setrlimit(RLIMIT_CPU, &cpu_limit) == -1) {
fprintf(stderr, "Error: could not set CPU resource limit (error code %d)\n", errno);
_exit(1);
}
if (prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0) == -1) {
fprintf(stderr, "Error: failed to set PR_SET_NO_NEW_PRIVS (error code %d)\n", errno);
_exit(1);
}
struct sock_filter filter[] = {
BPF_STMT(BPF_LD + BPF_W + BPF_ABS, SyscallArch),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, AUDIT_ARCH_X86_64, 1, 0),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_KILL),
BPF_STMT(BPF_LD + BPF_W + BPF_ABS, SyscallNr),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_rt_sigreturn, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_exit_group, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_exit, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
/* Allow write only on the connection socket */
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_write, 0, 4),
BPF_STMT(BPF_LD + BPF_W + BPF_ABS, SyscallArg(0)),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, connection_socket, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_KILL),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_read, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
/* Allow only anonymous mappings (file descriptor == -1) */
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_mmap, 0, 4),
BPF_STMT(BPF_LD + BPF_W + BPF_ABS, SyscallArg(4)),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, -1, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_KILL),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_munmap, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
/* Allow lseek only on the connection socket (used internally by glibc dprintf) */
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_lseek, 0, 4),
BPF_STMT(BPF_LD + BPF_W + BPF_ABS, SyscallArg(0)),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, connection_socket, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_KILL),
/* Allow fstat only on the connection socket (used internally by glibc dprintf) */
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_fstat, 0, 4),
BPF_STMT(BPF_LD + BPF_W + BPF_ABS, SyscallArg(0)),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, connection_socket, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_KILL),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_ioctl, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_clock_gettime, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_futex, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_JUMP(BPF_JMP + BPF_JEQ + BPF_K, __NR_sched_yield, 0, 1),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_ALLOW),
BPF_STMT(BPF_RET + BPF_K, SECCOMP_RET_TRAP),
};
struct sock_fprog prog = {
.len = sizeof(filter) / sizeof(filter[0]),
.filter = filter,
};
if (prctl(PR_SET_SECCOMP, SECCOMP_MODE_FILTER, &prog) == -1) {
fprintf(stderr, "Error: could not enter seccomp mode (error code %d)\n", errno);
_exit(1);
}
}
|
the_stack_data/71891.c | unsigned int bitset_empty(void)
{
return 0;
}
unsigned int bitset_size(unsigned int set)
{
/* Bit-Twiddling Hacks */
/* TODO: shall export to bits module to provide more robust solutions
* based on hardware capabilities (eg. popcount instruction) */
set = set - ((set >> 1) & ~(unsigned int)0/3);
set = (set & ~(unsigned int)0/15*3) + ((set >> 2) & ~(unsigned int)0/15*3);
set = (set + (set >> 4)) & ~(unsigned int)0/255*15;
return (set * (~(unsigned int)0/255)) >> (sizeof(unsigned int) - 1) * 8;
}
unsigned int bitset_add(unsigned int set, unsigned int element)
{
if (element > 15) return set;
return set | (1U << element);
}
int bitset_contains(unsigned int set, unsigned int element)
{
if (set & (1U << element)) return 1;
return 0;
}
|
the_stack_data/571680.c | #include <stdio.h> // fprintf, perror
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h> // lseek, read
#include <stdlib.h> // exit, atoi
#include <fcntl.h> // open
#include <string.h>
#define handle_error(msg) \
do { perror(msg); exit(EXIT_FAILURE); } while (0)
int main(int argc, char *argv[]) {
struct stat sb;
int fd, offset, lines;
char * pathname = "";
if (argc != 3 || strlen(argv[1]) <= 1 || argv[1][0] != '-') {
fprintf(stderr, "Usage: %s -<offset> <filename>\n", argv[0]);
exit(EXIT_FAILURE);
}
lines = atoi(argv[1]);
lines *= -1;
lines++;
pathname = argv[2];
if (stat(pathname, &sb) == -1)
handle_error("stat");
if ((fd = open(pathname, O_RDONLY)) == -1)
handle_error("open");
if (lseek(fd, -1, SEEK_END) == -1)
handle_error("lseek");
char buff[sb.st_size];
while (lines > 0) {
if (read(fd, buff, 1) == -1)
handle_error("read");
if (buff[0] == '\n')
lines--;
offset = lseek(fd, -2, SEEK_CUR);
if (offset == -1)
break;
}
if (offset > 0 || lines == 0) {
if (lseek(fd, 2, SEEK_CUR) == -1)
handle_error("lseek");
} else {
if (lseek(fd, 0, SEEK_SET) == -1)
handle_error("lseek");
}
memset(buff, 0, sb.st_size);
if (read(fd, buff, sb.st_size) == -1)
handle_error("read");
printf("%s", buff);
close(fd);
exit(EXIT_SUCCESS);
} |
the_stack_data/14200635.c | #include <stdio.h>
int missingNumber(int *, int);
int main(){
int nums[]={9,6,4,2,3,5,7,0,1};
int number=missingNumber(nums, sizeof(nums)/sizeof(int));
printf("%d\n", number);
return 0;
}
//time complexity:O(n)
int missingNumber(int* nums, int numsSize){
int sum=numsSize*(numsSize+1)/2;
for(int i=0;i<numsSize;i++){
sum-=nums[i];
}
return sum;
} |
the_stack_data/376276.c | //EXERCICIO 3 DA AULA 3
#include <stdio.h>
int main () {
float salario, vendas, saltotal;
printf("Por favor, digite o salário do seu vendedor e o total, em reais, de vendas efetuadas no mes:\n");
printf("Salario = ");
scanf("%f" , &salario);
printf("Vendas = ");
scanf("%f" , &vendas);
saltotal = salario + ( ( vendas * 15 ) / 100 );
printf("\nO salario total sera de: %f\n", saltotal);
return 0; }
|
the_stack_data/103265706.c | /*
* selinux_avc_trace.c
*
* print trace log for selinux
*
* Copyright (c) 2019-2019 Huawei Technologies Co., Ltd.
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* 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.
*
*/
#ifdef CONFIG_SECURITY_SELINUX_TRACE_LOG
#include "selinux_avc_trace.h"
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/fs.h>
#include <linux/init.h>
#include <linux/proc_fs.h>
#include <asm/uaccess.h>
#include <asm/segment.h>
#define AVC_FILE "/system/avc_context.txt"
char avc_scontext[CONTEXT_LEN];
char avc_tcontext[CONTEXT_LEN];
char avc_tclass[CONTEXT_LEN];
static int avc_file_flag = -1;
static int avc_proc_flag = -1;
static struct proc_dir_entry *avc_entry;
enum {
AVC_SUCC = 1,
AVC_FAIL = 0,
AVC_FILE_ERR = -1,
};
void __exit avc_proc_exit(void)
{
if (avc_entry) {
proc_remove(avc_entry);
avc_entry = NULL;
}
}
static int avc_readline(struct file *filp, char *buf, int len)
{
int ret;
int readlen = 0;
mm_segment_t oldfs;
oldfs = get_fs();
set_fs(KERNEL_DS);
for (; readlen < len; buf++, readlen++) {
ret = vfs_read(filp, buf, 1, &filp->f_pos);
if (ret <= 0)
break;
if (*buf == ' ' || *buf == '\r' || *buf == '\n' || *buf == '\0') {
*buf = '\0';
readlen++;
break;
}
}
if (!readlen)
return AVC_FILE_ERR;
set_fs(oldfs);
pr_info("avc_readline completed\n");
return 0;
}
static int avc_readfile(void)
{
int ret;
struct file *file = NULL;
file = filp_open(AVC_FILE, O_RDONLY, 0);
if (IS_ERR(file)) {
pr_err("error occurred while opening file %s\n", AVC_FILE);
return AVC_FILE_ERR;
}
pr_info("==========avc trace settings==========");
ret = avc_readline(file, avc_scontext, CONTEXT_LEN);
if (ret) {
pr_err("error occurred while read scontext\n");
filp_close(file, NULL);
return AVC_FILE_ERR;
}
ret = avc_readline(file, avc_tcontext, CONTEXT_LEN);
if (ret) {
pr_err("error occurred while read tcontext\n");
filp_close(file, NULL);
return AVC_FILE_ERR;
}
ret = avc_readline(file, avc_tclass, CONTEXT_LEN);
if (ret) {
pr_err("error occurred while read tclass\n");
filp_close(file, NULL);
return AVC_FILE_ERR;
}
avc_file_flag = 1;
avc_proc_flag = 1;
filp_close(file, NULL);
return AVC_SUCC;
}
static ssize_t avc_openfile(struct file *file, char __user *buf,
size_t size, loff_t *ppos)
{
if (avc_proc_flag < 0)
avc_proc_flag = 0;
avc_readfile();
return 0;
}
static const struct file_operations trace_fops = {
.read = avc_openfile,
};
int avc_getcontext(void)
{
int ret;
if (avc_proc_flag < 0)
return AVC_SUCC;
if (avc_file_flag > 0)
return AVC_SUCC;
ret = avc_readfile();
if (ret == 1)
return AVC_SUCC;
return AVC_FAIL;
}
int __init avc_proc_init(void)
{
avc_entry = proc_create("avc_trace", 0440, NULL, &trace_fops);
return 0;
}
module_init(avc_proc_init);
module_exit(avc_proc_exit);
MODULE_LICENSE("GPL v2");
MODULE_DESCRIPTION("print log for selinux");
MODULE_AUTHOR("Huawei Technologies Co., Ltd.");
#endif |
the_stack_data/111762.c | // 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 <stdarg.h>
#include <stdbool.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>
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 bool write_file(const char* file, const char* what, ...)
{
char buf[1024];
va_list args;
va_start(args, what);
vsnprintf(buf, sizeof(buf), what, args);
va_end(args);
buf[sizeof(buf) - 1] = 0;
int len = strlen(buf);
int fd = open(file, O_WRONLY | O_CLOEXEC);
if (fd == -1)
return false;
if (write(fd, buf, len) != len) {
int err = errno;
close(fd);
errno = err;
return false;
}
close(fd);
return true;
}
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) {
}
}
static void setup_test()
{
prctl(PR_SET_PDEATHSIG, SIGKILL, 0, 0, 0);
setpgrp();
write_file("/proc/self/oom_score_adj", "1000");
}
#define KMEMLEAK_FILE "/sys/kernel/debug/kmemleak"
static void setup_leak()
{
if (!write_file(KMEMLEAK_FILE, "scan"))
exit(1);
sleep(5);
if (!write_file(KMEMLEAK_FILE, "scan"))
exit(1);
if (!write_file(KMEMLEAK_FILE, "clear"))
exit(1);
}
static void check_leaks(void)
{
int fd = open(KMEMLEAK_FILE, O_RDWR);
if (fd == -1)
exit(1);
uint64_t start = current_time_ms();
if (write(fd, "scan", 4) != 4)
exit(1);
sleep(1);
while (current_time_ms() - start < 4 * 1000)
sleep(1);
if (write(fd, "scan", 4) != 4)
exit(1);
static char buf[128 << 10];
ssize_t n = read(fd, buf, sizeof(buf) - 1);
if (n < 0)
exit(1);
int nleaks = 0;
if (n != 0) {
sleep(1);
if (write(fd, "scan", 4) != 4)
exit(1);
if (lseek(fd, 0, SEEK_SET) < 0)
exit(1);
n = read(fd, buf, sizeof(buf) - 1);
if (n < 0)
exit(1);
buf[n] = 0;
char* pos = buf;
char* end = buf + n;
while (pos < end) {
char* next = strstr(pos + 1, "unreferenced object");
if (!next)
next = end;
char prev = *next;
*next = 0;
fprintf(stderr, "BUG: memory leak\n%s\n", pos);
*next = prev;
pos = next;
nleaks++;
}
}
if (write(fd, "clear", 5) != 5)
exit(1);
close(fd);
if (nleaks)
exit(1);
}
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();
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;
}
check_leaks();
}
}
uint64_t r[2] = {0xffffffffffffffff, 0xffffffffffffffff};
void execute_one(void)
{
intptr_t res = 0;
res = syscall(__NR_socket, 0x11, 3, 0x300);
if (res != -1)
r[0] = res;
*(uint16_t*)0x20000140 = 0;
*(uint8_t*)0x20000142 = 0;
*(uint8_t*)0x20000143 = 0xd7;
syscall(__NR_setsockopt, r[0], 0x107, 0x12, 0x20000140, 4);
res = syscall(__NR_socket, 0x11, 3, 0x300);
if (res != -1)
r[1] = res;
*(uint16_t*)0x20000140 = 0;
*(uint8_t*)0x20000142 = 0;
*(uint8_t*)0x20000143 = 0xd7;
syscall(__NR_setsockopt, r[1], 0x107, 0x12, 0x20000140, 4);
}
int main(void)
{
syscall(__NR_mmap, 0x20000000, 0x1000000, 3, 0x32, -1, 0);
setup_leak();
loop();
return 0;
}
|
the_stack_data/215766920.c | /* $NetBSD: cat.c,v 1.43 2004/01/04 03:31:28 jschauma Exp $ */
/*
* Copyright (c) 1989, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Kevin Fall.
*
* 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 the University 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 REGENTS 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 REGENTS 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.
*/
#include <sys/param.h>
#include <sys/stat.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#define CAT_BUFSIZ (4096)
static int bflag, eflag, fflag, lflag, nflag, sflag, tflag, vflag;
static int rval;
static const char *filename;
static void
cook_buf(FILE *fp)
{
int ch, gobble, line, prev;
int stdout_err = 0;
line = gobble = 0;
for (prev = '\n'; (ch = getc(fp)) != EOF; prev = ch) {
if (prev == '\n') {
if (ch == '\n') {
if (sflag) {
if (!gobble && putchar(ch) == EOF)
break;
gobble = 1;
continue;
}
if (nflag) {
if (!bflag) {
if (fprintf(stdout,
"%6d\t", ++line) < 0) {
stdout_err++;
break;
}
} else if (eflag) {
if (fprintf(stdout,
"%6s\t", "") < 0) {
stdout_err++;
break;
}
}
}
} else if (nflag) {
if (fprintf(stdout, "%6d\t", ++line) < 0) {
stdout_err++;
break;
}
}
}
gobble = 0;
if (ch == '\n') {
if (eflag)
if (putchar('$') == EOF)
break;
} else if (ch == '\t') {
if (tflag) {
if (putchar('^') == EOF || putchar('I') == EOF)
break;
continue;
}
} else if (vflag) {
if (!isascii(ch)) {
if (putchar('M') == EOF || putchar('-') == EOF)
break;
ch = (ch) & 0x7f;
}
if (iscntrl(ch)) {
if (putchar('^') == EOF ||
putchar(ch == '\177' ? '?' :
ch | 0100) == EOF)
break;
continue;
}
}
if (putchar(ch) == EOF)
break;
}
if (stdout_err) {
perror(filename);
rval = 1;
}
}
static void
cook_args(char **argv)
{
FILE *fp;
fp = stdin;
filename = "stdin";
do {
if (*argv) {
if (!strcmp(*argv, "-"))
fp = stdin;
else if ((fp = fopen(*argv,
fflag ? "rf" : "r")) == NULL) {
perror("fopen");
rval = 1;
++argv;
continue;
}
filename = *argv++;
}
cook_buf(fp);
if (fp != stdin)
fclose(fp);
} while (*argv);
}
static void
raw_cat(int rfd)
{
static char *buf;
static char fb_buf[CAT_BUFSIZ];
static size_t bsize;
struct stat sbuf;
ssize_t nr, nw, off;
int wfd;
wfd = fileno(stdout);
if (buf == NULL) {
if (fstat(wfd, &sbuf) == 0) {
bsize = sbuf.st_blksize > CAT_BUFSIZ ?
sbuf.st_blksize : CAT_BUFSIZ;
buf = malloc(bsize);
}
if (buf == NULL) {
buf = fb_buf;
bsize = CAT_BUFSIZ;
}
}
while ((nr = read(rfd, buf, bsize)) > 0)
for (off = 0; nr; nr -= nw, off += nw)
if ((nw = write(wfd, buf + off, (size_t)nr)) < 0)
{
perror("write");
exit(EXIT_FAILURE);
}
if (nr < 0) {
fprintf(stderr,"%s: invalid length\n", filename);
rval = 1;
}
}
#ifdef WITH_HOUDINI
extern int houdini_hook_open(const char *path, int flags, int mode);
#endif
static void
raw_args(char **argv)
{
int fd;
fd = fileno(stdin);
filename = "stdin";
do {
if (*argv) {
if (!strcmp(*argv, "-"))
fd = fileno(stdin);
else if (fflag) {
struct stat st;
#ifdef WITH_HOUDINI
fd = houdini_hook_open(*argv, O_RDONLY|O_NONBLOCK, 0);
#else
fd = open(*argv, O_RDONLY|O_NONBLOCK, 0);
#endif
if (fd < 0)
goto skip;
if (fstat(fd, &st) == -1) {
close(fd);
goto skip;
}
if (!S_ISREG(st.st_mode)) {
close(fd);
errno = EINVAL;
goto skipnomsg;
}
}
#ifdef WITH_HOUDINI
else if ((fd = houdini_hook_open(*argv, O_RDONLY, 0)) < 0) {
#else
else if ((fd = open(*argv, O_RDONLY, 0)) < 0) {
#endif
skip:
perror(*argv);
skipnomsg:
rval = 1;
++argv;
continue;
}
filename = *argv++;
}
raw_cat(fd);
if (fd != fileno(stdin))
close(fd);
} while (*argv);
}
int
cat_main(int argc, char *argv[])
{
int ch;
struct flock stdout_lock;
while ((ch = getopt(argc, argv, "beflnstv")) != -1)
switch (ch) {
case 'b':
bflag = nflag = 1; /* -b implies -n */
break;
case 'e':
eflag = vflag = 1; /* -e implies -v */
break;
case 'f':
fflag = 1;
break;
case 'l':
lflag = 1;
break;
case 'n':
nflag = 1;
break;
case 's':
sflag = 1;
break;
case 't':
tflag = vflag = 1; /* -t implies -v */
break;
case 'v':
vflag = 1;
break;
default:
case '?':
fprintf(stderr,
"usage: cat [-beflnstv] [-] [file ...]\n");
exit(EXIT_FAILURE);
}
argv += optind;
if (lflag) {
stdout_lock.l_len = 0;
stdout_lock.l_start = 0;
stdout_lock.l_type = F_WRLCK;
stdout_lock.l_whence = SEEK_SET;
if (fcntl(STDOUT_FILENO, F_SETLKW, &stdout_lock) == -1)
{
perror("fcntl");
exit(EXIT_FAILURE);
}
}
if (bflag || eflag || nflag || sflag || tflag || vflag)
cook_args(argv);
else
raw_args(argv);
if (fclose(stdout))
{
perror("fclose");
exit(EXIT_FAILURE);
}
exit(rval);
}
|
the_stack_data/199866.c | #include <stdio.h>
int main() {
printf("Testing docker build\n");
return 0;
}
|
the_stack_data/136024.c | #include <stdio.h>
int main(int argc, char *argv[]){
char cipherText;
char plainText;
int shift;
scanf("%c", &cipherText);
plainText = *argv[1];
shift = cipherText - plainText;
printf("%d\n", shift);
}
|
the_stack_data/36075029.c | #include <stdio.h>
#include <malloc.h>
void printArray(int**, int);
int main() {
int i = 0, j = 0, n = 5;
int **arr = (int**)malloc(n * sizeof(int*));
// (3) Add your code to complete allocating and initializing the 2-D array here. The content should be all 0.
for(i = 0; i < n; i++){
*(arr + i) = (int*)malloc(n*sizeof(int));
}
// This will print our your array
printArray(arr, n);
// (6) Add your code to make arr a diagonal matrix
for (i = 0; i < n; ++i) {
*(*(arr+i) + i) = i+1;
}
printf("\n");
// (7) All printArray to print array
printArray(arr, n);
return 0;
}
void printArray(int ** array, int size){
// (5) Implement your printArr here:
int i, j;
for(int i = 0; i < size; i++){
for(int j = 0; j < size; j++){
printf("%d", *(*(array + i) + j));
}
printf("\n");
}
}
|
the_stack_data/28262669.c | //gcc count.c -o count
#include<unistd.h>
#include<stdlib.h>
#include<stdio.h>
int PoC = 0;
int count[256];
int main()
{
int n, i;
char z;
scanf("%d\n", &n);
while(n--)
{
scanf("%c",&z);
count[z]++;
}
for(i=0;i<256;i++)
{
if(count[i]==0)
continue;
printf("Znak [%c] wystapil %d razy.\n",i,count[i]);
}
if(PoC == 1337)
puts("Victory!");
}
|
the_stack_data/150144337.c | #include <stdbool.h>
bool checkPerfectNumber(int num) {
int sum = 0;
for (int i = 1; i < (num/2) + 1; i++) {
if (num % i == 0) {
sum += i;
}
}
return (num == sum);
}
|
the_stack_data/212644330.c | #include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
typedef struct Node
{
int element;
struct Node *address;
} Node;
Node *createNode(int value)
{
"Create a node. Takes 0(1)";
Node *node = (Node *)malloc(sizeof(Node));
node->element = value;
node->address = NULL;
return node;
}
typedef struct Stack
{
Node *head;
int stack_size;
} Stack;
void init(Stack *s)
{
"Initialize the stack. Takes 0(1).";
s->head = NULL;
s->stack_size = 0;
}
bool isEmpty(Stack s)
{
"Check whether the stack is empty or not.";
return s.head == NULL;
}
bool isFull(Stack *s)
{
"Check whether the stack in full or not. Takes 0(1)";
/*
A stack is full(linked list) whether no memory is left
*/
Node *node = createNode(5); /* if memory is full, node will be null */
if (node == NULL)
{
free(node);
return true;
}
else
{
free(node);
return false;
}
}
void push(Stack *s, int value)
{
"Add the element to the stack. Takes 0(1).";
if (isFull(s) == false)
{
Node *link = createNode(value);
link->address = s->head;
s->head = link;
s->stack_size += 1;
}
else
{
printf("Full Stack Exception\n");
}
}
int pop(Stack *s)
{
"Removes Top element from the stack. Takes 0(1)";
if (isEmpty(*s) == false)
{
Node *node = (Node *)malloc(sizeof(Node));
node = s->head;
int removed = node->element;
s->head = node->address;
free(node);
s->stack_size -= 1;
return removed;
}
else
{
printf("Stack Empty Exception\n");
}
}
void show(Stack s)
{
"Traverse the stack and display the element. Takes 0(n).";
while (s.head != NULL)
{
printf("%d\n", s.head->element);
s.head = s.head->address;
}
}
int stackTop(Stack s)
{
"Return the top element of the stack. Takes 0(1)";
return s.head->element;
}
int stackBottom(Stack s)
{
"Return the last element of the stack. Takes 0(n)";
int value;
while (s.head != NULL)
{
value = s.head->element;
s.head = s.head->address;
}
return value;
}
int peek(Stack s, int position)
{
"Return element present in the stack at the given index. Takes 0(n)";
if (position > s.stack_size)
{
printf("Invalid Position\n");
return -1;
}
else
{
Node *temp;
temp = s.head;
for (int i = 1; i < position; i++)
{
temp = temp->address;
}
return temp->element;
}
}
int main()
{
Stack *stack_one;
init(stack_one);
push(stack_one, 1);
push(stack_one, 2);
push(stack_one, 3);
push(stack_one, 4);
push(stack_one, 1);
printf("After pushing element into the stack...\n");
show(*stack_one);
printf("After poping three element from the stack...\n");
pop(stack_one);
show(*stack_one);
printf("Top element of the stack is %d\n", stackTop(*stack_one));
printf("Bottom element of the stack is %d\n", stackBottom(*stack_one));
printf("Element in position 4 is %d", peek(*stack_one, 4));
return 0;
} |
the_stack_data/139032.c | #include<stdio.h>
int main()
{
int disp[3][3];
int i, j;
for(i=0; i<3; i++)
{
for(j=0;j<3;j++)
{
printf("element-[%d][%d]:", i, j);
scanf("%d", &disp[i][j]);
}
}
printf("The matrix is:\n");
for(i=0; i<3; i++)
{
for(j=0;j<3;j++)
{
printf("%d ", disp[i][j]);
if(j==3){
printf("\n");
}
}
}
return 0;
}
|
the_stack_data/31583.c | //
// UVA 10870 Recurrences
// Source: 10870_recurrences.c
// URL: http://uva.onlinejudge.org/external/108/10870.html
//
// Links:
// http://zobayer.blogspot.co.uk/search/label/matrix%20exponentiation
// http://www.mathblog.dk/uva-10229-modular-fibonacci/
//
// Created by Lorenzo Blasa on 27/11/2014.
//
// 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.
//
// 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 THE
// AUTHORS OR COPYRIGHT HOLDERS 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.
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#define kM_SIZE 20
typedef struct matrix
{
long long int values[kM_SIZE][kM_SIZE];
int rowCount;
int colCount;
}
matrix;
void print(matrix m, const char* name)
{
printf("Matrix: %s [Begin \n", name);
for (int row = 0; row < m.rowCount; row++) {
for (int col = 0; col < m.colCount; col++) {
printf("%lld ", m.values[row][col]);
}
printf("\n");
}
printf("End]\n");
}
matrix multiply(matrix matrix1, matrix matrix2, int m)
{
struct matrix result;
result.rowCount = matrix1.rowCount;
result.colCount = matrix2.colCount;
long long int sum = 0;
for (int row1 = 0 ; row1 < matrix1.rowCount ; row1++)
{
for (int col2 = 0 ; col2 < matrix2.colCount ; col2++)
{
for (int k = 0 ; k < matrix2.rowCount; k++ )
{
sum = (sum + matrix1.values[row1][k] * matrix2.values[k][col2]) % m;
}
result.values[row1][col2] = sum;
sum = 0;
}
}
return result;
}
matrix power(matrix matrix, int n, int m)
{
if (n == 0) {
struct matrix result;
result.rowCount = matrix.rowCount;
result.colCount = matrix.colCount;
for (int r = 0; r < result.rowCount; r++) {
for (int c = 0; c < result.colCount; c++) {
if (r == c) {
result.values[r][c] = 1;
}
else {
result.values[r][c] = 0;
}
}
}
return result;
}
else if (n % 2 == 0)
{
struct matrix half = power(matrix, n/2, m);
return multiply(half, half, m);
}
else
{
struct matrix p = power(matrix, n-1, m);
struct matrix result = multiply(matrix, p, m);
return result;
}
}
long long int recurrence(matrix M, matrix A, int n, int m)
{
matrix temp = power(M, n - M.rowCount, m);
matrix result = multiply(temp, A, m);
return result.values[0][0];
}
int main()
{
int d, n, m;
while (scanf("%d %i %i", &d, &n, &m) != EOF) {
if (d == 0 && n == 0 && m == 0) {
break;
}
matrix M;
M.rowCount = d;
M.colCount = d;
matrix A;
A.rowCount = d;
A.colCount = 1;
memset(M.values, 0, kM_SIZE * kM_SIZE);
memset(A.values, 0, kM_SIZE * kM_SIZE);
for (int i = 0; i < d; i++) {
scanf("%lld", &M.values[0][i]);
}
for (int row = 1; row < d; row++) {
for (int col = 0; col < d; col++) {
if (row - 1 == col) {
M.values[row][col] = 1;
}
}
}
for (int i = d - 1; i >= 0; i--) {
scanf("%lld", &A.values[i][0]);
}
if(n <= d){
printf("%lli\n", A.values[n - d][0]);
}
else {
printf("%lld\n", recurrence(M, A, n, m));
}
}
return 0;
} |
the_stack_data/76700975.c | /*
* correct, but too slow
*/
struct RandomListNode {
int label;
struct RandomListNode *next;
struct RandomListNode *random;
};
#include <stdlib.h>
struct RandomListNode *copyRandomList(struct RandomListNode *head)
{
if (!head)
return(head);
struct RandomListNode *newhead, *t1, *t2, *t3;
int i;
newhead = (t1 = NULL);
for (t2 = head; t2; t2 = t2->next) {
t3 = malloc(sizeof(struct RandomListNode));
t3->label = t2->label;
t3->random = (t3->next = NULL);
if (!newhead) {
newhead = t1 = t3;
} else {
t1->next = t3;
t1 = t3;
}
}
for (t1 = head, t2 = newhead; t1; t1 = t1->next, t2 = t2->next) {
if (!t1->random)
continue;
for (i = 0, t3 = head; t3 != t1->random; t3 = t3->next, i++)
;
for (t2->random = newhead; i > 0; i--)
t2->random = t2->random->next;
}
return(newhead);
}
int main(void)
{}
|
the_stack_data/92325294.c | #include<stdio.h>
int a=0,ans=0,i,j;
void swap(int *p,int *q)
{
int temp=*p;
*p=*q;
*q=temp;
}
void bubblesort(int e[])
{
int done=1;
while(done!=0)
{
done=0;
for(i=0;i<a-1;i++)
{
if(e[i]>e[i+1])
{
swap(&e[i],&e[i+1]);
done++;
}
}
}
}
int find(int p,int e[])
{
for(i=0;i<a;i++)
{
if(e[i]==p)
{
return i;
}
}
}
int main()
{
int A[1000];
char c='c';
while(c!='\n')
{
scanf("%d%c",&A[a],&c);
a++;
}
int B[a];
for(i=0;i<a;i++)
{
B[i]=A[i];
}
bubblesort(B);
int q=0;
while(q!=a)
{
int p=find(B[q],A);
for(i=0;i<=p;i++)
{
if(A[i]>B[q])
{
ans++;
}
}
q++;
}
printf("%d\n",ans);
return 0;
}
|
the_stack_data/232956690.c | #include <stdio.h>
#include <string.h>
int main()
{
char str[100];
int i;
printf("Digite uma string: ");
fgets(str, 100, stdin); //fgets recebe a string e armazenando na variavel
printf("A string invertida : ");
for(i=strlen(str); i>=0; i--) //strlen é uma função que retorna o tamanho da string digitada
{
printf("%c" ,str[i]);
}
return 0;
} |
the_stack_data/90761460.c | #include<stdio.h>
#include<string.h>
#define BUFF_SIZE 1000
char buff[BUFF_SIZE];
char* g_line(FILE *f)
{
memset(buff, 0, BUFF_SIZE);
long curr_pos = ftell(f);
static long line_pos = 0;
fseek(f, line_pos, SEEK_SET);
char *p = buff;
unsigned int i;
char c;
for(i = 0; i< BUFF_SIZE; i++)
{
c = fgetc(f);
if(EOF == c || '\n' == c)
{
break;
}
*p++ = c;
}
line_pos = ftell(f);
fseek(f, curr_pos, SEEK_SET);
return buff;
}
int main(void)
{
FILE* fp = fopen("text.txt", "rb");
fseek(fp, 4, SEEK_SET);
puts(g_line(fp));
fseek(fp, 12, SEEK_SET);
puts(g_line(fp));
printf("pos: %li\n", ftell(fp));
puts(g_line(fp));
printf("pos: %li\n", ftell(fp));
puts(g_line(fp));
puts(g_line(fp));
puts(g_line(fp));
puts(g_line(fp));
puts(g_line(fp));
fgets(buff, 19, fp);
fgets(buff, 19, fp);
printf("Last: %s", buff);
fclose(fp);
return 0;
} |
the_stack_data/101638.c | #include <stdlib.h>
#include <stdio.h>
#include <pthread.h>
#include <sys/stat.h>
#include <unistd.h>
#if defined(__APPLE__)
#include <sys/sysctl.h>
#elif defined(_SC_NPROCESSORS_ONLN)
#include <unistd.h>
#endif
void
safe_mutex_lock(pthread_mutex_t *mutex)
{
int ret = pthread_mutex_lock(mutex);
if(ret != 0) {
fprintf(stderr, "pthread_mutex_lock error [%d]! Aborting immediately!\n", ret);
exit(1);
}
}
void
safe_mutex_unlock(pthread_mutex_t *mutex)
{
int ret = pthread_mutex_unlock(mutex);
if(ret != 0) {
fprintf(stderr, "pthread_mutex_unlock error [%d]! Aborting immediately!\n", ret);
exit(1);
}
}
// from pbzip2 version 1.1.6
/*
This program, "pbzip2" is copyright (C) 2003-2011 Jeff Gilchrist.
All rights reserved.
The library "libbzip2" which pbzip2 uses, is copyright
(C) 1996-2008 Julian R Seward. 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. The origin of this software must not be misrepresented; you must
not claim that you wrote the original software. If you use this
software in a product, an acknowledgment in the product
documentation would be appreciated but is not required.
3. Altered source versions must be plainly marked as such, and must
not be misrepresented as being the original software.
4. The name of the author may not be used to endorse or promote
products derived from this software without specific prior written
permission.
THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
Jeff Gilchrist, Ottawa, Canada.
[email protected]
pbzip2 version 1.1.6 of Oct 30, 2011
*/
int32_t
detect_cpus()
{
int32_t ncpu;
// Set default to 1 in case there is no auto-detect
ncpu = 1;
// Autodetect the number of CPUs on a box, if available
#if defined(__APPLE__)
size_t len = sizeof(ncpu);
int32_t mib[2];
mib[0] = CTL_HW;
mib[1] = HW_NCPU;
if (sysctl(mib, 2, &ncpu, &len, 0, 0) < 0 || len != sizeof(ncpu))
ncpu = 1;
#elif defined(_SC_NPROCESSORS_ONLN)
ncpu = sysconf(_SC_NPROCESSORS_ONLN);
#elif defined(WIN32)
SYSTEM_INFO si;
GetSystemInfo(&si);
ncpu = si.dwNumberOfProcessors;
#else
#warning "CPU autodection is disabled"
#endif
// Ensure we have at least one processor to use
if (ncpu < 1)
ncpu = 1;
return ncpu;
}
|
the_stack_data/187642822.c | //unpatched.c with a char overflow
#include <stdio.h>
#include <stdlib.h>
//Program only takes in positive numbers between 0-9
int main(int argc, char *argv[]) {
int input = atoi(argv[1]);
char overflow = 127; //-128 to 128
char test1 = overflow + input;
if(test1 < 0){
return -1; //We overflowed return -1 to indicate a failure
}
return 0; //Return 0 == pass
}
|
the_stack_data/190769522.c | /******************************************************************************
*
* Copyright(c) 2013 - 2019 Realtek Corporation.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* 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.
*
*****************************************************************************/
#define __HAL_BTCOEX_C__
#ifdef CONFIG_BT_COEXIST
#include <hal_data.h>
#include <hal_btcoex.h>
#include "btc/mp_precomp.h"
/* ************************************
* Global variables
* ************************************ */
const char *const BtProfileString[] = {
"NONE",
"A2DP",
"PAN",
"HID",
"SCO",
};
const char *const BtSpecString[] = {
"1.0b",
"1.1",
"1.2",
"2.0+EDR",
"2.1+EDR",
"3.0+HS",
"4.0",
};
const char *const BtLinkRoleString[] = {
"Master",
"Slave",
};
const char *const h2cStaString[] = {
"successful",
"h2c busy",
"rf off",
"fw not read",
};
const char *const ioStaString[] = {
"success",
"can not IO",
"rf off",
"fw not read",
"wait io timeout",
"invalid len",
"idle Q empty",
"insert waitQ fail",
"unknown fail",
"wrong level",
"h2c stopped",
};
const char *const GLBtcWifiBwString[] = {
"11bg",
"HT20",
"HT40",
"VHT80",
"VHT160"
};
const char *const GLBtcWifiFreqString[] = {
"2.4G",
"5G",
"2.4G+5G"
};
const char *const GLBtcIotPeerString[] = {
"UNKNOWN",
"REALTEK",
"REALTEK_92SE",
"BROADCOM",
"RALINK",
"ATHEROS",
"CISCO",
"MERU",
"MARVELL",
"REALTEK_SOFTAP", /* peer is RealTek SOFT_AP, by Bohn, 2009.12.17 */
"SELF_SOFTAP", /* Self is SoftAP */
"AIRGO",
"INTEL",
"RTK_APCLIENT",
"REALTEK_81XX",
"REALTEK_WOW",
"REALTEK_JAGUAR_BCUTAP",
"REALTEK_JAGUAR_CCUTAP"
};
const char *const coexOpcodeString[] = {
"Wifi status notify",
"Wifi progress",
"Wifi info",
"Power state",
"Set Control",
"Get Control"
};
const char *const coexIndTypeString[] = {
"bt info",
"pstdma",
"limited tx/rx",
"coex table",
"request"
};
const char *const coexH2cResultString[] = {
"ok",
"unknown",
"un opcode",
"opVer MM",
"par Err",
"par OoR",
"reqNum MM",
"halMac Fail",
"h2c TimeOut",
"Invalid c2h Len",
"data overflow"
};
#define HALBTCOUTSRC_AGG_CHK_WINDOW_IN_MS 8000
struct btc_coexist GLBtCoexist;
BTC_OFFLOAD gl_coex_offload;
u8 GLBtcWiFiInScanState;
u8 GLBtcWiFiInIQKState;
u8 GLBtcWiFiInIPS;
u8 GLBtcWiFiInLPS;
u8 GLBtcBtCoexAliveRegistered;
/*
* BT control H2C/C2H
*/
/* EXT_EID */
typedef enum _bt_ext_eid {
C2H_WIFI_FW_ACTIVE_RSP = 0,
C2H_TRIG_BY_BT_FW
} BT_EXT_EID;
/* C2H_STATUS */
typedef enum _bt_c2h_status {
BT_STATUS_OK = 0,
BT_STATUS_VERSION_MISMATCH,
BT_STATUS_UNKNOWN_OPCODE,
BT_STATUS_ERROR_PARAMETER
} BT_C2H_STATUS;
/* C2H BT OP CODES */
typedef enum _bt_op_code {
BT_OP_GET_BT_VERSION = 0x00,
BT_OP_WRITE_REG_ADDR = 0x0c,
BT_OP_WRITE_REG_VALUE = 0x0d,
BT_OP_READ_REG = 0x11,
BT_LO_OP_GET_AFH_MAP_L = 0x1e,
BT_LO_OP_GET_AFH_MAP_M = 0x1f,
BT_LO_OP_GET_AFH_MAP_H = 0x20,
BT_OP_GET_BT_COEX_SUPPORTED_FEATURE = 0x2a,
BT_OP_GET_BT_COEX_SUPPORTED_VERSION = 0x2b,
BT_OP_GET_BT_ANT_DET_VAL = 0x2c,
BT_OP_GET_BT_BLE_SCAN_TYPE = 0x2d,
BT_OP_GET_BT_BLE_SCAN_PARA = 0x2e,
BT_OP_GET_BT_DEVICE_INFO = 0x30,
BT_OP_GET_BT_FORBIDDEN_SLOT_VAL = 0x31,
BT_OP_SET_BT_LANCONSTRAIN_LEVEL = 0x32,
BT_OP_SET_BT_TEST_MODE_VAL = 0x33,
BT_OP_MAX
} BT_OP_CODE;
#define BTC_MPOPER_TIMEOUT 50 /* unit: ms */
#define C2H_MAX_SIZE 16
u8 GLBtcBtMpOperSeq;
_mutex GLBtcBtMpOperLock;
_timer GLBtcBtMpOperTimer;
_sema GLBtcBtMpRptSema;
u8 GLBtcBtMpRptSeq;
u8 GLBtcBtMpRptStatus;
u8 GLBtcBtMpRptRsp[C2H_MAX_SIZE];
u8 GLBtcBtMpRptRspSize;
u8 GLBtcBtMpRptWait;
u8 GLBtcBtMpRptWiFiOK;
u8 GLBtcBtMpRptBTOK;
/*
* Debug
*/
u32 GLBtcDbgType[COMP_MAX];
u8 GLBtcDbgBuf[BT_TMP_BUF_SIZE];
u8 gl_btc_trace_buf[BT_TMP_BUF_SIZE];
typedef struct _btcoexdbginfo {
u8 *info;
u32 size; /* buffer total size */
u32 len; /* now used length */
} BTCDBGINFO, *PBTCDBGINFO;
BTCDBGINFO GLBtcDbgInfo;
#define BT_Operation(Adapter) _FALSE
static void DBG_BT_INFO_INIT(PBTCDBGINFO pinfo, u8 *pbuf, u32 size)
{
if (NULL == pinfo)
return;
_rtw_memset(pinfo, 0, sizeof(BTCDBGINFO));
if (pbuf && size) {
pinfo->info = pbuf;
pinfo->size = size;
}
}
void DBG_BT_INFO(u8 *dbgmsg)
{
PBTCDBGINFO pinfo;
u32 msglen, buflen;
u8 *pbuf;
pinfo = &GLBtcDbgInfo;
if (NULL == pinfo->info)
return;
msglen = strlen(dbgmsg);
if (pinfo->len + msglen > pinfo->size)
return;
pbuf = pinfo->info + pinfo->len;
_rtw_memcpy(pbuf, dbgmsg, msglen);
pinfo->len += msglen;
}
/* ************************************
* Debug related function
* ************************************ */
static u8 halbtcoutsrc_IsBtCoexistAvailable(PBTC_COEXIST pBtCoexist)
{
if (!pBtCoexist->bBinded ||
NULL == pBtCoexist->Adapter)
return _FALSE;
return _TRUE;
}
static void halbtcoutsrc_DbgInit(void)
{
u8 i;
for (i = 0; i < COMP_MAX; i++)
GLBtcDbgType[i] = 0;
}
static void halbtcoutsrc_EnterPwrLock(PBTC_COEXIST pBtCoexist)
{
struct dvobj_priv *dvobj = adapter_to_dvobj((PADAPTER)pBtCoexist->Adapter);
struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
_enter_pwrlock(&pwrpriv->lock);
}
static void halbtcoutsrc_ExitPwrLock(PBTC_COEXIST pBtCoexist)
{
struct dvobj_priv *dvobj = adapter_to_dvobj((PADAPTER)pBtCoexist->Adapter);
struct pwrctrl_priv *pwrpriv = dvobj_to_pwrctl(dvobj);
_exit_pwrlock(&pwrpriv->lock);
}
static u8 halbtcoutsrc_IsHwMailboxExist(PBTC_COEXIST pBtCoexist)
{
if (pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC4
|| pBtCoexist->board_info.bt_chip_type == BTC_CHIP_CSR_BC8
)
return _FALSE;
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter))
return _FALSE;
else
return _TRUE;
}
static u8 halbtcoutsrc_LeaveLps(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
padapter = pBtCoexist->Adapter;
pBtCoexist->bt_info.bt_ctrl_lps = _TRUE;
pBtCoexist->bt_info.bt_lps_on = _FALSE;
return rtw_btcoex_LPS_Leave(padapter);
}
void halbtcoutsrc_EnterLps(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
padapter = pBtCoexist->Adapter;
if (pBtCoexist->bdontenterLPS == _FALSE) {
pBtCoexist->bt_info.bt_ctrl_lps = _TRUE;
pBtCoexist->bt_info.bt_lps_on = _TRUE;
rtw_btcoex_LPS_Enter(padapter);
}
}
void halbtcoutsrc_NormalLps(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
padapter = pBtCoexist->Adapter;
if (pBtCoexist->bt_info.bt_ctrl_lps) {
pBtCoexist->bt_info.bt_lps_on = _FALSE;
rtw_btcoex_LPS_Leave(padapter);
pBtCoexist->bt_info.bt_ctrl_lps = _FALSE;
/* recover the LPS state to the original */
#if 0
padapter->hal_func.UpdateLPSStatusHandler(
padapter,
pPSC->RegLeisurePsMode,
pPSC->RegPowerSaveMode);
#endif
}
}
void halbtcoutsrc_Pre_NormalLps(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
padapter = pBtCoexist->Adapter;
if (pBtCoexist->bt_info.bt_ctrl_lps) {
pBtCoexist->bt_info.bt_lps_on = _FALSE;
rtw_btcoex_LPS_Leave(padapter);
}
}
void halbtcoutsrc_Post_NormalLps(PBTC_COEXIST pBtCoexist)
{
if (pBtCoexist->bt_info.bt_ctrl_lps)
pBtCoexist->bt_info.bt_ctrl_lps = _FALSE;
}
/*
* Constraint:
* 1. this function will request pwrctrl->lock
*/
void halbtcoutsrc_LeaveLowPower(PBTC_COEXIST pBtCoexist)
{
#ifdef CONFIG_LPS_LCLK
PADAPTER padapter;
PHAL_DATA_TYPE pHalData;
struct pwrctrl_priv *pwrctrl;
s32 ready;
systime stime;
s32 utime;
u32 timeout; /* unit: ms */
padapter = pBtCoexist->Adapter;
pHalData = GET_HAL_DATA(padapter);
pwrctrl = adapter_to_pwrctl(padapter);
ready = _FAIL;
#ifdef LPS_RPWM_WAIT_MS
timeout = LPS_RPWM_WAIT_MS;
#else /* !LPS_RPWM_WAIT_MS */
timeout = 30;
#endif /* !LPS_RPWM_WAIT_MS */
if (GLBtcBtCoexAliveRegistered == _TRUE)
return;
stime = rtw_get_current_time();
do {
ready = rtw_register_task_alive(padapter, BTCOEX_ALIVE);
if (_SUCCESS == ready)
break;
utime = rtw_get_passing_time_ms(stime);
if (utime > timeout)
break;
rtw_msleep_os(1);
} while (1);
GLBtcBtCoexAliveRegistered = _TRUE;
#endif /* CONFIG_LPS_LCLK */
}
/*
* Constraint:
* 1. this function will request pwrctrl->lock
*/
void halbtcoutsrc_NormalLowPower(PBTC_COEXIST pBtCoexist)
{
#ifdef CONFIG_LPS_LCLK
PADAPTER padapter;
if (GLBtcBtCoexAliveRegistered == _FALSE)
return;
padapter = pBtCoexist->Adapter;
rtw_unregister_task_alive(padapter, BTCOEX_ALIVE);
GLBtcBtCoexAliveRegistered = _FALSE;
#endif /* CONFIG_LPS_LCLK */
}
void halbtcoutsrc_DisableLowPower(PBTC_COEXIST pBtCoexist, u8 bLowPwrDisable)
{
pBtCoexist->bt_info.bt_disable_low_pwr = bLowPwrDisable;
if (bLowPwrDisable)
halbtcoutsrc_LeaveLowPower(pBtCoexist); /* leave 32k low power. */
else
halbtcoutsrc_NormalLowPower(pBtCoexist); /* original 32k low power behavior. */
}
void halbtcoutsrc_AggregationCheck(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
BOOLEAN bNeedToAct = _FALSE;
static u32 preTime = 0;
u32 curTime = 0;
padapter = pBtCoexist->Adapter;
/* ===================================== */
/* To void continuous deleteBA=>addBA=>deleteBA=>addBA */
/* This function is not allowed to continuous called. */
/* It can only be called after 8 seconds. */
/* ===================================== */
curTime = rtw_systime_to_ms(rtw_get_current_time());
if ((curTime - preTime) < HALBTCOUTSRC_AGG_CHK_WINDOW_IN_MS) /* over 8 seconds you can execute this function again. */
return;
else
preTime = curTime;
if (pBtCoexist->bt_info.reject_agg_pkt) {
bNeedToAct = _TRUE;
pBtCoexist->bt_info.pre_reject_agg_pkt = pBtCoexist->bt_info.reject_agg_pkt;
} else {
if (pBtCoexist->bt_info.pre_reject_agg_pkt) {
bNeedToAct = _TRUE;
pBtCoexist->bt_info.pre_reject_agg_pkt = pBtCoexist->bt_info.reject_agg_pkt;
}
if (pBtCoexist->bt_info.pre_bt_ctrl_agg_buf_size !=
pBtCoexist->bt_info.bt_ctrl_agg_buf_size) {
bNeedToAct = _TRUE;
pBtCoexist->bt_info.pre_bt_ctrl_agg_buf_size = pBtCoexist->bt_info.bt_ctrl_agg_buf_size;
}
if (pBtCoexist->bt_info.bt_ctrl_agg_buf_size) {
if (pBtCoexist->bt_info.pre_agg_buf_size !=
pBtCoexist->bt_info.agg_buf_size)
bNeedToAct = _TRUE;
pBtCoexist->bt_info.pre_agg_buf_size = pBtCoexist->bt_info.agg_buf_size;
}
}
if (bNeedToAct)
rtw_btcoex_rx_ampdu_apply(padapter);
}
u8 halbtcoutsrc_is_autoload_fail(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
PHAL_DATA_TYPE pHalData;
padapter = pBtCoexist->Adapter;
pHalData = GET_HAL_DATA(padapter);
return pHalData->bautoload_fail_flag;
}
u8 halbtcoutsrc_is_fw_ready(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
padapter = pBtCoexist->Adapter;
return GET_HAL_DATA(padapter)->bFWReady;
}
u8 halbtcoutsrc_IsDualBandConnected(PADAPTER padapter)
{
u8 ret = BTC_MULTIPORT_SCC;
#ifdef CONFIG_MCC_MODE
if (MCC_EN(padapter) && (rtw_hal_check_mcc_status(padapter, MCC_STATUS_DOING_MCC))) {
struct dvobj_priv *dvobj = adapter_to_dvobj(padapter);
struct mcc_obj_priv *mccobjpriv = &(dvobj->mcc_objpriv);
u8 band0 = mccobjpriv->iface[0]->mlmeextpriv.cur_channel > 14 ? BAND_ON_5G : BAND_ON_2_4G;
u8 band1 = mccobjpriv->iface[1]->mlmeextpriv.cur_channel > 14 ? BAND_ON_5G : BAND_ON_2_4G;
if (band0 != band1)
ret = BTC_MULTIPORT_MCC_DUAL_BAND;
else
ret = BTC_MULTIPORT_MCC_DUAL_CHANNEL;
}
#endif
return ret;
}
u8 halbtcoutsrc_IsWifiBusy(PADAPTER padapter)
{
if (rtw_mi_check_status(padapter, MI_AP_ASSOC))
return _TRUE;
if (rtw_mi_busy_traffic_check(padapter))
return _TRUE;
return _FALSE;
}
static u32 _halbtcoutsrc_GetWifiLinkStatus(PADAPTER padapter)
{
struct mlme_priv *pmlmepriv;
u8 bp2p;
u32 portConnectedStatus;
pmlmepriv = &padapter->mlmepriv;
bp2p = _FALSE;
portConnectedStatus = 0;
#ifdef CONFIG_P2P
if (!rtw_p2p_chk_state(&padapter->wdinfo, P2P_STATE_NONE))
bp2p = _TRUE;
#endif /* CONFIG_P2P */
if (check_fwstate(pmlmepriv, WIFI_ASOC_STATE) == _TRUE) {
if (check_fwstate(pmlmepriv, WIFI_AP_STATE) == _TRUE) {
if (_TRUE == bp2p)
portConnectedStatus |= WIFI_P2P_GO_CONNECTED;
else
portConnectedStatus |= WIFI_AP_CONNECTED;
} else {
if (_TRUE == bp2p)
portConnectedStatus |= WIFI_P2P_GC_CONNECTED;
else
portConnectedStatus |= WIFI_STA_CONNECTED;
}
}
return portConnectedStatus;
}
u32 halbtcoutsrc_GetWifiLinkStatus(PBTC_COEXIST pBtCoexist)
{
/* ================================= */
/* return value: */
/* [31:16]=> connected port number */
/* [15:0]=> port connected bit define */
/* ================================ */
PADAPTER padapter;
u32 retVal;
u32 portConnectedStatus, numOfConnectedPort;
struct dvobj_priv *dvobj;
_adapter *iface;
int i;
padapter = pBtCoexist->Adapter;
retVal = 0;
portConnectedStatus = 0;
numOfConnectedPort = 0;
dvobj = adapter_to_dvobj(padapter);
for (i = 0; i < dvobj->iface_nums; i++) {
iface = dvobj->padapters[i];
if ((iface) && rtw_is_adapter_up(iface)) {
retVal = _halbtcoutsrc_GetWifiLinkStatus(iface);
if (retVal) {
portConnectedStatus |= retVal;
numOfConnectedPort++;
}
}
}
retVal = (numOfConnectedPort << 16) | portConnectedStatus;
return retVal;
}
struct btc_wifi_link_info halbtcoutsrc_getwifilinkinfo(PBTC_COEXIST pBtCoexist)
{
u8 n_assoc_iface = 0, i =0, mcc_en = _FALSE;
PADAPTER adapter = NULL;
PADAPTER iface = NULL;
PADAPTER sta_iface = NULL, p2p_iface = NULL, ap_iface = NULL;
BTC_LINK_MODE btc_link_moe = BTC_LINK_MAX;
struct dvobj_priv *dvobj = NULL;
struct mlme_ext_priv *mlmeext = NULL;
struct btc_wifi_link_info wifi_link_info;
adapter = (PADAPTER)pBtCoexist->Adapter;
dvobj = adapter_to_dvobj(adapter);
n_assoc_iface = rtw_mi_get_assoc_if_num(adapter);
/* init value */
wifi_link_info.link_mode = BTC_LINK_NONE;
wifi_link_info.sta_center_channel = 0;
wifi_link_info.p2p_center_channel = 0;
wifi_link_info.bany_client_join_go = _FALSE;
wifi_link_info.benable_noa = _FALSE;
wifi_link_info.bhotspot = _FALSE;
for (i = 0; i < dvobj->iface_nums; i++) {
iface = dvobj->padapters[i];
if (!iface)
continue;
mlmeext = &iface->mlmeextpriv;
if (MLME_IS_GO(iface)) {
wifi_link_info.link_mode = BTC_LINK_ONLY_GO;
wifi_link_info.p2p_center_channel =
rtw_get_center_ch(mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
p2p_iface = iface;
if (rtw_linked_check(iface))
wifi_link_info.bany_client_join_go = _TRUE;
} else if (MLME_IS_GC(iface)) {
wifi_link_info.link_mode = BTC_LINK_ONLY_GC;
wifi_link_info.p2p_center_channel =
rtw_get_center_ch(mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
p2p_iface = iface;
} else if (MLME_IS_AP(iface)) {
wifi_link_info.link_mode = BTC_LINK_ONLY_AP;
ap_iface = iface;
wifi_link_info.p2p_center_channel =
rtw_get_center_ch(mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
} else if (MLME_IS_STA(iface) && rtw_linked_check(iface)) {
wifi_link_info.link_mode = BTC_LINK_ONLY_STA;
wifi_link_info.sta_center_channel =
rtw_get_center_ch(mlmeext->cur_channel, mlmeext->cur_bwmode, mlmeext->cur_ch_offset);
sta_iface = iface;
}
}
#ifdef CONFIG_MCC_MODE
if (MCC_EN(adapter)) {
if (rtw_hal_check_mcc_status(adapter, MCC_STATUS_DOING_MCC))
mcc_en = _TRUE;
}
#endif/* CONFIG_MCC_MODE */
if (n_assoc_iface == 0) {
wifi_link_info.link_mode = BTC_LINK_NONE;
} else if (n_assoc_iface == 1) {
/* by pass */
} else if (n_assoc_iface == 2) {
if (sta_iface && p2p_iface) {
u8 band_sta = sta_iface->mlmeextpriv.cur_channel > 14 ? BAND_ON_5G : BAND_ON_2_4G;
u8 band_p2p = p2p_iface->mlmeextpriv.cur_channel > 14 ? BAND_ON_5G : BAND_ON_2_4G;
if (band_sta == band_p2p) {
switch (band_sta) {
case BAND_ON_2_4G:
if (MLME_IS_GO(p2p_iface)) {
#ifdef CONFIG_MCC_MODE
wifi_link_info.link_mode =
mcc_en == _TRUE ? BTC_LINK_2G_MCC_GO_STA : BTC_LINK_2G_SCC_GO_STA;
#else /* !CONFIG_MCC_MODE */
wifi_link_info.link_mode = BTC_LINK_2G_SCC_GO_STA;
#endif /* CONFIG_MCC_MODE */
} else if (MLME_IS_GC(p2p_iface)) {
#ifdef CONFIG_MCC_MODE
wifi_link_info.link_mode =
mcc_en == _TRUE ? BTC_LINK_2G_MCC_GC_STA : BTC_LINK_2G_SCC_GC_STA;
#else /* !CONFIG_MCC_MODE */
wifi_link_info.link_mode = BTC_LINK_2G_SCC_GC_STA;
#endif /* CONFIG_MCC_MODE */
}
break;
case BAND_ON_5G:
if (MLME_IS_GO(p2p_iface)) {
#ifdef CONFIG_MCC_MODE
wifi_link_info.link_mode =
mcc_en == _TRUE ? BTC_LINK_5G_MCC_GO_STA : BTC_LINK_5G_SCC_GO_STA;
#else /* !CONFIG_MCC_MODE */
wifi_link_info.link_mode = BTC_LINK_5G_SCC_GO_STA;
#endif /* CONFIG_MCC_MODE */
} else if (MLME_IS_GC(p2p_iface)) {
#ifdef CONFIG_MCC_MODE
wifi_link_info.link_mode =
mcc_en == _TRUE ? BTC_LINK_5G_MCC_GC_STA : BTC_LINK_5G_SCC_GC_STA;
#else /* !CONFIG_MCC_MODE */
wifi_link_info.link_mode = BTC_LINK_5G_SCC_GC_STA;
#endif /* CONFIG_MCC_MODE */
}
break;
}
} else {
if (MLME_IS_GO(p2p_iface))
wifi_link_info.link_mode = BTC_LINK_25G_MCC_GO_STA;
else if (MLME_IS_GC(p2p_iface))
wifi_link_info.link_mode = BTC_LINK_25G_MCC_GC_STA;
}
}
} else {
if (pBtCoexist->board_info.btdm_ant_num == 1)
RTW_ERR("%s do not support n_assoc_iface > 2 (ant_num == 1)", __func__);
}
return wifi_link_info;
}
static void _btmpoper_timer_hdl(void *p)
{
if (GLBtcBtMpRptWait == _TRUE) {
GLBtcBtMpRptWait = _FALSE;
_rtw_up_sema(&GLBtcBtMpRptSema);
}
}
/*
* !IMPORTANT!
* Before call this function, caller should acquire "GLBtcBtMpOperLock"!
* Othrewise there will be racing problem and something may go wrong.
*/
static u8 _btmpoper_cmd(PBTC_COEXIST pBtCoexist, u8 opcode, u8 opcodever, u8 *cmd, u8 size)
{
PADAPTER padapter;
u8 buf[H2C_BTMP_OPER_LEN] = {0};
u8 buflen;
u8 seq;
s32 ret;
if (!cmd && size)
size = 0;
if ((size + 2) > H2C_BTMP_OPER_LEN)
return BT_STATUS_H2C_LENGTH_EXCEEDED;
buflen = size + 2;
seq = GLBtcBtMpOperSeq & 0xF;
GLBtcBtMpOperSeq++;
buf[0] = (opcodever & 0xF) | (seq << 4);
buf[1] = opcode;
if (cmd && size)
_rtw_memcpy(buf + 2, cmd, size);
GLBtcBtMpRptWait = _TRUE;
GLBtcBtMpRptWiFiOK = _FALSE;
GLBtcBtMpRptBTOK = _FALSE;
GLBtcBtMpRptStatus = 0;
padapter = pBtCoexist->Adapter;
_set_timer(&GLBtcBtMpOperTimer, BTC_MPOPER_TIMEOUT);
if (rtw_hal_fill_h2c_cmd(padapter, H2C_BT_MP_OPER, buflen, buf) == _FAIL) {
_cancel_timer_ex(&GLBtcBtMpOperTimer);
ret = BT_STATUS_H2C_FAIL;
goto exit;
}
_rtw_down_sema(&GLBtcBtMpRptSema);
/* GLBtcBtMpRptWait should be _FALSE here*/
if (GLBtcBtMpRptWiFiOK == _FALSE) {
RTW_ERR("%s: Didn't get H2C Rsp Event!\n", __FUNCTION__);
ret = BT_STATUS_H2C_TIMTOUT;
goto exit;
}
if (GLBtcBtMpRptBTOK == _FALSE) {
RTW_DBG("%s: Didn't get BT response!\n", __FUNCTION__);
ret = BT_STATUS_H2C_BT_NO_RSP;
goto exit;
}
if (seq != GLBtcBtMpRptSeq) {
RTW_ERR("%s: Sequence number not match!(%d!=%d)!\n",
__FUNCTION__, seq, GLBtcBtMpRptSeq);
ret = BT_STATUS_C2H_REQNUM_MISMATCH;
goto exit;
}
switch (GLBtcBtMpRptStatus) {
/* Examine the status reported from C2H */
case BT_STATUS_OK:
ret = BT_STATUS_BT_OP_SUCCESS;
RTW_DBG("%s: C2H status = BT_STATUS_BT_OP_SUCCESS\n", __FUNCTION__);
break;
case BT_STATUS_VERSION_MISMATCH:
ret = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
RTW_DBG("%s: C2H status = BT_STATUS_OPCODE_L_VERSION_MISMATCH\n", __FUNCTION__);
break;
case BT_STATUS_UNKNOWN_OPCODE:
ret = BT_STATUS_UNKNOWN_OPCODE_L;
RTW_DBG("%s: C2H status = MP_BT_STATUS_UNKNOWN_OPCODE_L\n", __FUNCTION__);
break;
case BT_STATUS_ERROR_PARAMETER:
ret = BT_STATUS_PARAMETER_FORMAT_ERROR_L;
RTW_DBG("%s: C2H status = MP_BT_STATUS_PARAMETER_FORMAT_ERROR_L\n", __FUNCTION__);
break;
default:
ret = BT_STATUS_UNKNOWN_STATUS_L;
RTW_DBG("%s: C2H status = MP_BT_STATUS_UNKNOWN_STATUS_L\n", __FUNCTION__);
break;
}
exit:
return ret;
}
u32 halbtcoutsrc_GetBtPatchVer(PBTC_COEXIST pBtCoexist)
{
if (pBtCoexist->bt_info.get_bt_fw_ver_cnt <= 5) {
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
_irqL irqL;
u8 ret;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
ret = _btmpoper_cmd(pBtCoexist, BT_OP_GET_BT_VERSION, 0, NULL, 0);
if (BT_STATUS_BT_OP_SUCCESS == ret) {
pBtCoexist->bt_info.bt_real_fw_ver = le32_to_cpu(*(u32 *)GLBtcBtMpRptRsp);
pBtCoexist->bt_info.get_bt_fw_ver_cnt++;
}
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else {
#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
u8 dataLen = 2;
u8 buf[4] = {0};
buf[0] = 0x0; /* OP_Code */
buf[1] = 0x0; /* OP_Code_Length */
BT_SendEventExtBtCoexControl(pBtCoexist->Adapter, _FALSE, dataLen, &buf[0]);
#endif /* !CONFIG_BT_COEXIST_SOCKET_TRX */
}
}
return pBtCoexist->bt_info.bt_real_fw_ver;
}
s32 halbtcoutsrc_GetWifiRssi(PADAPTER padapter)
{
return rtw_dm_get_min_rssi(padapter);
}
u32 halbtcoutsrc_GetBtCoexSupportedFeature(void *pBtcContext)
{
PBTC_COEXIST pBtCoexist;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
u32 data = 0;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_GET_BT_COEX_SUPPORTED_FEATURE;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return data;
}
u32 halbtcoutsrc_GetBtCoexSupportedVersion(void *pBtcContext)
{
PBTC_COEXIST pBtCoexist;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
u32 data = 0xFFFF;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_GET_BT_COEX_SUPPORTED_VERSION;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return data;
}
u32 halbtcoutsrc_GetBtDeviceInfo(void *pBtcContext)
{
PBTC_COEXIST pBtCoexist;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
u32 btDeviceInfo = 0;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_GET_BT_DEVICE_INFO;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
btDeviceInfo = le32_to_cpu(*(u32 *)GLBtcBtMpRptRsp);
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return btDeviceInfo;
}
u32 halbtcoutsrc_GetBtForbiddenSlotVal(void *pBtcContext)
{
PBTC_COEXIST pBtCoexist;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
u32 btForbiddenSlotVal = 0;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_GET_BT_FORBIDDEN_SLOT_VAL;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
btForbiddenSlotVal = le32_to_cpu(*(u32 *)GLBtcBtMpRptRsp);
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return btForbiddenSlotVal;
}
static u8 halbtcoutsrc_GetWifiScanAPNum(PADAPTER padapter)
{
struct mlme_priv *pmlmepriv;
struct mlme_ext_priv *pmlmeext;
static u8 scan_AP_num = 0;
pmlmepriv = &padapter->mlmepriv;
pmlmeext = &padapter->mlmeextpriv;
if (GLBtcWiFiInScanState == _FALSE) {
if (pmlmepriv->num_of_scanned > 0xFF)
scan_AP_num = 0xFF;
else
scan_AP_num = (u8)pmlmepriv->num_of_scanned;
}
return scan_AP_num;
}
u32 halbtcoutsrc_GetPhydmVersion(void *pBtcContext)
{
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
PADAPTER Adapter = pBtCoexist->Adapter;
#ifdef CONFIG_RTL8192E
return RELEASE_VERSION_8192E;
#endif
#ifdef CONFIG_RTL8821A
return RELEASE_VERSION_8821A;
#endif
#ifdef CONFIG_RTL8723B
return RELEASE_VERSION_8723B;
#endif
#ifdef CONFIG_RTL8812A
return RELEASE_VERSION_8812A;
#endif
#ifdef CONFIG_RTL8703B
return RELEASE_VERSION_8703B;
#endif
#ifdef CONFIG_RTL8822B
return RELEASE_VERSION_8822B;
#endif
#ifdef CONFIG_RTL8723D
return RELEASE_VERSION_8723D;
#endif
#ifdef CONFIG_RTL8821C
return RELEASE_VERSION_8821C;
#endif
#ifdef CONFIG_RTL8192F
return RELEASE_VERSION_8192F;
#endif
#ifdef CONFIG_RTL8822C
return RELEASE_VERSION_8822C;
#endif
#ifdef CONFIG_RTL8814A
return RELEASE_VERSION_8814A;
#endif
#ifdef CONFIG_RTL8814B
return RELEASE_VERSION_8814B;
#endif
}
u8 halbtcoutsrc_Get(void *pBtcContext, u8 getType, void *pOutBuf)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
PHAL_DATA_TYPE pHalData;
struct mlme_ext_priv *mlmeext;
struct btc_wifi_link_info *wifi_link_info;
u8 bSoftApExist, bVwifiExist;
u8 *pu8;
s32 *pS4Tmp;
u32 *pU4Tmp;
u8 *pU1Tmp;
u16 *pU2Tmp;
u8 ret;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return _FALSE;
padapter = pBtCoexist->Adapter;
pHalData = GET_HAL_DATA(padapter);
mlmeext = &padapter->mlmeextpriv;
bSoftApExist = _FALSE;
bVwifiExist = _FALSE;
pu8 = (u8 *)pOutBuf;
pS4Tmp = (s32 *)pOutBuf;
pU4Tmp = (u32 *)pOutBuf;
pU1Tmp = (u8 *)pOutBuf;
pU2Tmp = (u16*)pOutBuf;
wifi_link_info = (struct btc_wifi_link_info *)pOutBuf;
ret = _TRUE;
switch (getType) {
case BTC_GET_BL_HS_OPERATION:
*pu8 = _FALSE;
ret = _FALSE;
break;
case BTC_GET_BL_HS_CONNECTING:
*pu8 = _FALSE;
ret = _FALSE;
break;
case BTC_GET_BL_WIFI_FW_READY:
*pu8 = halbtcoutsrc_is_fw_ready(pBtCoexist);
break;
case BTC_GET_BL_WIFI_CONNECTED:
*pu8 = (rtw_mi_check_status(padapter, MI_LINKED)) ? _TRUE : _FALSE;
break;
case BTC_GET_BL_WIFI_DUAL_BAND_CONNECTED:
*pu8 = halbtcoutsrc_IsDualBandConnected(padapter);
break;
case BTC_GET_BL_WIFI_BUSY:
*pu8 = halbtcoutsrc_IsWifiBusy(padapter);
break;
case BTC_GET_BL_WIFI_SCAN:
#if 0
*pu8 = (rtw_mi_check_fwstate(padapter, WIFI_SITE_MONITOR)) ? _TRUE : _FALSE;
#else
/* Use the value of the new variable GLBtcWiFiInScanState to judge whether WiFi is in scan state or not, since the originally used flag
WIFI_SITE_MONITOR in fwstate may not be cleared in time */
*pu8 = GLBtcWiFiInScanState;
#endif
break;
case BTC_GET_BL_WIFI_LINK:
*pu8 = (rtw_mi_check_status(padapter, MI_STA_LINKING)) ? _TRUE : _FALSE;
break;
case BTC_GET_BL_WIFI_ROAM:
*pu8 = (rtw_mi_check_status(padapter, MI_STA_LINKING)) ? _TRUE : _FALSE;
break;
case BTC_GET_BL_WIFI_4_WAY_PROGRESS:
*pu8 = _FALSE;
break;
case BTC_GET_BL_WIFI_UNDER_5G:
*pu8 = (pHalData->current_band_type == BAND_ON_5G) ? _TRUE : _FALSE;
break;
case BTC_GET_BL_WIFI_AP_MODE_ENABLE:
*pu8 = (rtw_mi_check_status(padapter, MI_AP_MODE)) ? _TRUE : _FALSE;
break;
case BTC_GET_BL_WIFI_ENABLE_ENCRYPTION:
*pu8 = padapter->securitypriv.dot11PrivacyAlgrthm == 0 ? _FALSE : _TRUE;
break;
case BTC_GET_BL_WIFI_UNDER_B_MODE:
if (mlmeext->cur_wireless_mode == WIRELESS_11B)
*pu8 = _TRUE;
else
*pu8 = _FALSE;
break;
case BTC_GET_BL_WIFI_IS_IN_MP_MODE:
if (padapter->registrypriv.mp_mode == 0)
*pu8 = _FALSE;
else
*pu8 = _TRUE;
break;
case BTC_GET_BL_EXT_SWITCH:
*pu8 = _FALSE;
break;
case BTC_GET_BL_IS_ASUS_8723B:
/* Always return FALSE in linux driver since this case is added only for windows driver */
*pu8 = _FALSE;
break;
case BTC_GET_BL_RF4CE_CONNECTED:
#ifdef CONFIG_RF4CE_COEXIST
if (hal_btcoex_get_rf4ce_link_state() == 0)
*pu8 = FALSE;
else
*pu8 = TRUE;
#else
*pu8 = FALSE;
#endif
break;
case BTC_GET_BL_WIFI_LW_PWR_STATE:
/* return false due to coex do not run during 32K */
*pu8 = FALSE;
break;
case BTC_GET_S4_WIFI_RSSI:
*pS4Tmp = halbtcoutsrc_GetWifiRssi(padapter);
break;
case BTC_GET_S4_HS_RSSI:
*pS4Tmp = 0;
ret = _FALSE;
break;
case BTC_GET_U4_WIFI_BW:
if (IsLegacyOnly(mlmeext->cur_wireless_mode))
*pU4Tmp = BTC_WIFI_BW_LEGACY;
else {
switch (pHalData->current_channel_bw) {
case CHANNEL_WIDTH_20:
*pU4Tmp = BTC_WIFI_BW_HT20;
break;
case CHANNEL_WIDTH_40:
*pU4Tmp = BTC_WIFI_BW_HT40;
break;
case CHANNEL_WIDTH_80:
*pU4Tmp = BTC_WIFI_BW_HT80;
break;
case CHANNEL_WIDTH_160:
*pU4Tmp = BTC_WIFI_BW_HT160;
break;
default:
RTW_INFO("[BTCOEX] unknown bandwidth(%d)\n", pHalData->current_channel_bw);
*pU4Tmp = BTC_WIFI_BW_HT40;
break;
}
}
break;
case BTC_GET_U4_WIFI_TRAFFIC_DIRECTION:
case BTC_GET_U4_WIFI_TRAFFIC_DIR:
{
PRT_LINK_DETECT_T plinkinfo;
plinkinfo = &padapter->mlmepriv.LinkDetectInfo;
if (plinkinfo->NumTxOkInPeriod > plinkinfo->NumRxOkInPeriod)
*pU4Tmp = BTC_WIFI_TRAFFIC_TX;
else
*pU4Tmp = BTC_WIFI_TRAFFIC_RX;
}
break;
case BTC_GET_U4_WIFI_FW_VER:
*pU4Tmp = pHalData->firmware_version << 16;
*pU4Tmp |= pHalData->firmware_sub_version;
break;
case BTC_GET_U4_WIFI_PHY_VER:
*pU4Tmp = halbtcoutsrc_GetPhydmVersion(pBtCoexist);
break;
case BTC_GET_U4_WIFI_LINK_STATUS:
*pU4Tmp = halbtcoutsrc_GetWifiLinkStatus(pBtCoexist);
break;
case BTC_GET_BL_WIFI_LINK_INFO:
*wifi_link_info = halbtcoutsrc_getwifilinkinfo(pBtCoexist);
break;
case BTC_GET_U4_BT_PATCH_VER:
*pU4Tmp = halbtcoutsrc_GetBtPatchVer(pBtCoexist);
break;
case BTC_GET_U4_VENDOR:
*pU4Tmp = BTC_VENDOR_OTHER;
break;
case BTC_GET_U4_SUPPORTED_VERSION:
*pU4Tmp = halbtcoutsrc_GetBtCoexSupportedVersion(pBtCoexist);
break;
case BTC_GET_U4_SUPPORTED_FEATURE:
*pU4Tmp = halbtcoutsrc_GetBtCoexSupportedFeature(pBtCoexist);
break;
case BTC_GET_U4_BT_DEVICE_INFO:
*pU4Tmp = halbtcoutsrc_GetBtDeviceInfo(pBtCoexist);
break;
case BTC_GET_U4_BT_FORBIDDEN_SLOT_VAL:
*pU4Tmp = halbtcoutsrc_GetBtForbiddenSlotVal(pBtCoexist);
break;
case BTC_GET_U4_WIFI_IQK_TOTAL:
*pU4Tmp = pHalData->odmpriv.n_iqk_cnt;
break;
case BTC_GET_U4_WIFI_IQK_OK:
*pU4Tmp = pHalData->odmpriv.n_iqk_ok_cnt;
break;
case BTC_GET_U4_WIFI_IQK_FAIL:
*pU4Tmp = pHalData->odmpriv.n_iqk_fail_cnt;
break;
case BTC_GET_U1_WIFI_DOT11_CHNL:
*pU1Tmp = padapter->mlmeextpriv.cur_channel;
break;
case BTC_GET_U1_WIFI_CENTRAL_CHNL:
*pU1Tmp = pHalData->current_channel;
break;
case BTC_GET_U1_WIFI_HS_CHNL:
*pU1Tmp = 0;
ret = _FALSE;
break;
case BTC_GET_U1_WIFI_P2P_CHNL:
#ifdef CONFIG_P2P
{
struct wifidirect_info *pwdinfo = &(padapter->wdinfo);
*pU1Tmp = pwdinfo->operating_channel;
}
#else
*pU1Tmp = 0;
#endif
break;
case BTC_GET_U1_MAC_PHY_MODE:
/* *pU1Tmp = BTC_SMSP;
* *pU1Tmp = BTC_DMSP;
* *pU1Tmp = BTC_DMDP;
* *pU1Tmp = BTC_MP_UNKNOWN; */
break;
case BTC_GET_U1_AP_NUM:
*pU1Tmp = halbtcoutsrc_GetWifiScanAPNum(padapter);
break;
case BTC_GET_U1_ANT_TYPE:
switch (pHalData->bt_coexist.btAntisolation) {
case 0:
*pU1Tmp = (u8)BTC_ANT_TYPE_0;
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_0;
break;
case 1:
*pU1Tmp = (u8)BTC_ANT_TYPE_1;
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_1;
break;
case 2:
*pU1Tmp = (u8)BTC_ANT_TYPE_2;
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_2;
break;
case 3:
*pU1Tmp = (u8)BTC_ANT_TYPE_3;
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_3;
break;
case 4:
*pU1Tmp = (u8)BTC_ANT_TYPE_4;
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_4;
break;
}
break;
case BTC_GET_U1_IOT_PEER:
*pU1Tmp = mlmeext->mlmext_info.assoc_AP_vendor;
break;
/* =======1Ant=========== */
case BTC_GET_U1_LPS_MODE:
*pU1Tmp = padapter->dvobj->pwrctl_priv.pwr_mode;
break;
case BTC_GET_U2_BEACON_PERIOD:
*pU2Tmp = mlmeext->mlmext_info.bcn_interval;
break;
default:
ret = _FALSE;
break;
}
return ret;
}
u16 halbtcoutsrc_LnaConstrainLvl(void *pBtcContext, u8 *lna_constrain_level)
{
PBTC_COEXIST pBtCoexist;
u16 ret = BT_STATUS_BT_OP_SUCCESS;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
_irqL irqL;
u8 op_code;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
ret = _btmpoper_cmd(pBtCoexist, BT_OP_SET_BT_LANCONSTRAIN_LEVEL, 0, lna_constrain_level, 1);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else {
ret = BT_STATUS_NOT_IMPLEMENT;
RTW_INFO("%s halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == FALSE\n", __func__);
}
return ret;
}
u8 halbtcoutsrc_SetBtGoldenRxRange(void *pBtcContext, u8 profile, u8 range_shift)
{
/* wait for implementation if necessary */
return 0;
}
u8 halbtcoutsrc_Set(void *pBtcContext, u8 setType, void *pInBuf)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
PHAL_DATA_TYPE pHalData;
u8 *pu8;
u8 *pU1Tmp;
u16 *pU2Tmp;
u32 *pU4Tmp;
u8 ret;
u8 result = _TRUE;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return _FALSE;
padapter = pBtCoexist->Adapter;
pHalData = GET_HAL_DATA(padapter);
pu8 = (u8 *)pInBuf;
pU1Tmp = (u8 *)pInBuf;
pU2Tmp = (u16*)pInBuf;
pU4Tmp = (u32 *)pInBuf;
ret = _TRUE;
switch (setType) {
/* set some u8 type variables. */
case BTC_SET_BL_BT_DISABLE:
pBtCoexist->bt_info.bt_disabled = *pu8;
break;
case BTC_SET_BL_BT_ENABLE_DISABLE_CHANGE:
pBtCoexist->bt_info.bt_enable_disable_change = *pu8;
break;
case BTC_SET_BL_BT_TRAFFIC_BUSY:
pBtCoexist->bt_info.bt_busy = *pu8;
break;
case BTC_SET_BL_BT_LIMITED_DIG:
pBtCoexist->bt_info.limited_dig = *pu8;
break;
case BTC_SET_BL_FORCE_TO_ROAM:
pBtCoexist->bt_info.force_to_roam = *pu8;
break;
case BTC_SET_BL_TO_REJ_AP_AGG_PKT:
pBtCoexist->bt_info.reject_agg_pkt = *pu8;
break;
case BTC_SET_BL_BT_CTRL_AGG_SIZE:
pBtCoexist->bt_info.bt_ctrl_agg_buf_size = *pu8;
break;
case BTC_SET_BL_INC_SCAN_DEV_NUM:
pBtCoexist->bt_info.increase_scan_dev_num = *pu8;
break;
case BTC_SET_BL_BT_TX_RX_MASK:
pBtCoexist->bt_info.bt_tx_rx_mask = *pu8;
break;
case BTC_SET_BL_MIRACAST_PLUS_BT:
pBtCoexist->bt_info.miracast_plus_bt = *pu8;
break;
/* set some u8 type variables. */
case BTC_SET_U1_RSSI_ADJ_VAL_FOR_AGC_TABLE_ON:
pBtCoexist->bt_info.rssi_adjust_for_agc_table_on = *pU1Tmp;
break;
case BTC_SET_U1_AGG_BUF_SIZE:
pBtCoexist->bt_info.agg_buf_size = *pU1Tmp;
break;
/* the following are some action which will be triggered */
case BTC_SET_ACT_GET_BT_RSSI:
#if 0
BT_SendGetBtRssiEvent(padapter);
#else
ret = _FALSE;
#endif
break;
case BTC_SET_ACT_AGGREGATE_CTRL:
halbtcoutsrc_AggregationCheck(pBtCoexist);
break;
/* =======1Ant=========== */
/* set some u8 type variables. */
case BTC_SET_U1_RSSI_ADJ_VAL_FOR_1ANT_COEX_TYPE:
pBtCoexist->bt_info.rssi_adjust_for_1ant_coex_type = *pU1Tmp;
break;
case BTC_SET_U1_LPS_VAL:
pBtCoexist->bt_info.lps_val = *pU1Tmp;
break;
case BTC_SET_U1_RPWM_VAL:
pBtCoexist->bt_info.rpwm_val = *pU1Tmp;
break;
/* the following are some action which will be triggered */
case BTC_SET_ACT_LEAVE_LPS:
result = halbtcoutsrc_LeaveLps(pBtCoexist);
break;
case BTC_SET_ACT_ENTER_LPS:
halbtcoutsrc_EnterLps(pBtCoexist);
break;
case BTC_SET_ACT_NORMAL_LPS:
halbtcoutsrc_NormalLps(pBtCoexist);
break;
case BTC_SET_ACT_PRE_NORMAL_LPS:
halbtcoutsrc_Pre_NormalLps(pBtCoexist);
break;
case BTC_SET_ACT_POST_NORMAL_LPS:
halbtcoutsrc_Post_NormalLps(pBtCoexist);
break;
case BTC_SET_ACT_DISABLE_LOW_POWER:
halbtcoutsrc_DisableLowPower(pBtCoexist, *pu8);
break;
case BTC_SET_ACT_UPDATE_RAMASK:
/*
pBtCoexist->bt_info.ra_mask = *pU4Tmp;
if (check_fwstate(&padapter->mlmepriv, WIFI_ASOC_STATE) == _TRUE) {
struct sta_info *psta;
PWLAN_BSSID_EX cur_network;
cur_network = &padapter->mlmeextpriv.mlmext_info.network;
psta = rtw_get_stainfo(&padapter->stapriv, cur_network->MacAddress);
rtw_hal_update_ra_mask(psta);
}
*/
break;
case BTC_SET_ACT_SEND_MIMO_PS: {
u8 newMimoPsMode = 3;
struct mlme_ext_priv *pmlmeext = &(padapter->mlmeextpriv);
struct mlme_ext_info *pmlmeinfo = &(pmlmeext->mlmext_info);
/* *pU1Tmp = 0 use SM_PS static type */
/* *pU1Tmp = 1 disable SM_PS */
if (*pU1Tmp == 0)
newMimoPsMode = WLAN_HT_CAP_SM_PS_STATIC;
else if (*pU1Tmp == 1)
newMimoPsMode = WLAN_HT_CAP_SM_PS_DISABLED;
if (check_fwstate(&padapter->mlmepriv , WIFI_ASOC_STATE) == _TRUE) {
/* issue_action_SM_PS(padapter, get_my_bssid(&(pmlmeinfo->network)), newMimoPsMode); */
issue_action_SM_PS_wait_ack(padapter , get_my_bssid(&(pmlmeinfo->network)) , newMimoPsMode, 3 , 1);
}
}
break;
case BTC_SET_ACT_CTRL_BT_INFO:
#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
{
u8 dataLen = *pU1Tmp;
u8 tmpBuf[BTC_TMP_BUF_SHORT];
if (dataLen)
_rtw_memcpy(tmpBuf, pU1Tmp + 1, dataLen);
BT_SendEventExtBtInfoControl(padapter, dataLen, &tmpBuf[0]);
}
#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
ret = _FALSE;
#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
break;
case BTC_SET_ACT_CTRL_BT_COEX:
#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
{
u8 dataLen = *pU1Tmp;
u8 tmpBuf[BTC_TMP_BUF_SHORT];
if (dataLen)
_rtw_memcpy(tmpBuf, pU1Tmp + 1, dataLen);
BT_SendEventExtBtCoexControl(padapter, _FALSE, dataLen, &tmpBuf[0]);
}
#else /* !CONFIG_BT_COEXIST_SOCKET_TRX */
ret = _FALSE;
#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
break;
case BTC_SET_ACT_CTRL_8723B_ANT:
#if 0
{
u8 dataLen = *pU1Tmp;
u8 tmpBuf[BTC_TMP_BUF_SHORT];
if (dataLen)
PlatformMoveMemory(&tmpBuf[0], pU1Tmp + 1, dataLen);
BT_Set8723bAnt(Adapter, dataLen, &tmpBuf[0]);
}
#else
ret = _FALSE;
#endif
break;
case BTC_SET_BL_BT_LNA_CONSTRAIN_LEVEL:
halbtcoutsrc_LnaConstrainLvl(pBtCoexist, pu8);
break;
case BTC_SET_BL_BT_GOLDEN_RX_RANGE:
halbtcoutsrc_SetBtGoldenRxRange(pBtCoexist, (*pU2Tmp & 0xff00) >> 8, (*pU2Tmp & 0xff));
break;
case BTC_SET_RESET_COEX_VAR:
_rtw_memset(&pBtCoexist->coex_dm, 0x00, sizeof(pBtCoexist->coex_dm));
_rtw_memset(&pBtCoexist->coex_sta, 0x00, sizeof(pBtCoexist->coex_sta));
switch(pBtCoexist->chip_type) {
#ifdef CONFIG_RTL8822B
case BTC_CHIP_RTL8822B:
_rtw_memset(&pBtCoexist->coex_dm_8822b_1ant, 0x00, sizeof(pBtCoexist->coex_dm_8822b_1ant));
_rtw_memset(&pBtCoexist->coex_dm_8822b_2ant, 0x00, sizeof(pBtCoexist->coex_dm_8822b_2ant));
break;
#endif
#ifdef CONFIG_RTL8821C
case BTC_CHIP_RTL8821C:
_rtw_memset(&pBtCoexist->coex_dm_8821c_1ant, 0x00, sizeof(pBtCoexist->coex_dm_8821c_1ant));
_rtw_memset(&pBtCoexist->coex_dm_8821c_2ant, 0x00, sizeof(pBtCoexist->coex_dm_8821c_2ant));
break;
#endif
#ifdef CONFIG_RTL8723D
case BTC_CHIP_RTL8723D:
_rtw_memset(&pBtCoexist->coex_dm_8723d_1ant, 0x00, sizeof(pBtCoexist->coex_dm_8723d_1ant));
_rtw_memset(&pBtCoexist->coex_dm_8723d_2ant, 0x00, sizeof(pBtCoexist->coex_dm_8723d_2ant));
break;
#endif
}
break;
/* ===================== */
default:
ret = _FALSE;
break;
}
return result;
}
u8 halbtcoutsrc_UnderIps(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter;
struct pwrctrl_priv *pwrpriv;
u8 bMacPwrCtrlOn;
padapter = pBtCoexist->Adapter;
pwrpriv = &padapter->dvobj->pwrctl_priv;
bMacPwrCtrlOn = _FALSE;
if ((_TRUE == pwrpriv->bips_processing)
&& (IPS_NONE != pwrpriv->ips_mode_req)
)
return _TRUE;
if (rf_off == pwrpriv->rf_pwrstate)
return _TRUE;
rtw_hal_get_hwreg(padapter, HW_VAR_APFM_ON_MAC, &bMacPwrCtrlOn);
if (_FALSE == bMacPwrCtrlOn)
return _TRUE;
return _FALSE;
}
u8 halbtcoutsrc_UnderLps(PBTC_COEXIST pBtCoexist)
{
return GLBtcWiFiInLPS;
}
u8 halbtcoutsrc_Under32K(PBTC_COEXIST pBtCoexist)
{
/* todo: the method to check whether wifi is under 32K or not */
return _FALSE;
}
void halbtcoutsrc_DisplayCoexStatistics(PBTC_COEXIST pBtCoexist)
{
#if 0
PADAPTER padapter = (PADAPTER)pBtCoexist->Adapter;
PBT_MGNT pBtMgnt = &padapter->MgntInfo.BtInfo.BtMgnt;
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
u8 *cliBuf = pBtCoexist->cliBuf;
u8 i, j;
u8 tmpbuf[BTC_TMP_BUF_SHORT];
if (gl_coex_offload.cnt_h2c_sent) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex h2c notify]============");
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = H2c(%d)/Ack(%d)", "Coex h2c/c2h overall statistics",
gl_coex_offload.cnt_h2c_sent, gl_coex_offload.cnt_c2h_ack);
for (j = 0; j < COL_STATUS_MAX; j++) {
if (gl_coex_offload.status[j]) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.status[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
}
}
CL_PRINTF(cliBuf);
}
for (i = 0; i < COL_OP_WIFI_OPCODE_MAX; i++) {
if (gl_coex_offload.h2c_record[i].count) {
/*==========================================*/
/* H2C result statistics*/
/*==========================================*/
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = total:%d", coexOpcodeString[i], gl_coex_offload.h2c_record[i].count);
for (j = 0; j < COL_STATUS_MAX; j++) {
if (gl_coex_offload.h2c_record[i].status[j]) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.h2c_record[i].status[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
}
}
CL_PRINTF(cliBuf);
/*==========================================*/
/* H2C/C2H content*/
/*==========================================*/
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = ", "H2C / C2H content");
for (j = 0; j < gl_coex_offload.h2c_record[i].h2c_len; j++) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.h2c_record[i].h2c_buf[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
}
if (gl_coex_offload.h2c_record[i].c2h_ack_len) {
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, "/ ", 2);
for (j = 0; j < gl_coex_offload.h2c_record[i].c2h_ack_len; j++) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.h2c_record[i].c2h_ack_buf[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
}
}
CL_PRINTF(cliBuf);
/*==========================================*/
}
}
if (gl_coex_offload.cnt_c2h_ind) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex c2h indication]============");
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = Ind(%d)", "C2H indication statistics",
gl_coex_offload.cnt_c2h_ind);
for (j = 0; j < COL_STATUS_MAX; j++) {
if (gl_coex_offload.c2h_ind_status[j]) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.c2h_ind_status[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
}
}
CL_PRINTF(cliBuf);
}
for (i = 0; i < COL_IND_MAX; i++) {
if (gl_coex_offload.c2h_ind_record[i].count) {
/*==========================================*/
/* H2C result statistics*/
/*==========================================*/
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = total:%d", coexIndTypeString[i], gl_coex_offload.c2h_ind_record[i].count);
for (j = 0; j < COL_STATUS_MAX; j++) {
if (gl_coex_offload.c2h_ind_record[i].status[j]) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, ", %s:%d", coexH2cResultString[j], gl_coex_offload.c2h_ind_record[i].status[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, BTC_TMP_BUF_SHORT);
}
}
CL_PRINTF(cliBuf);
/*==========================================*/
/* content*/
/*==========================================*/
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = ", "C2H indication content");
for (j = 0; j < gl_coex_offload.c2h_ind_record[i].ind_len; j++) {
CL_SPRINTF(tmpbuf, BTC_TMP_BUF_SHORT, "%02x ", gl_coex_offload.c2h_ind_record[i].ind_buf[j]);
CL_STRNCAT(cliBuf, BT_TMP_BUF_SIZE, tmpbuf, 3);
}
CL_PRINTF(cliBuf);
/*==========================================*/
}
}
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Statistics]============");
CL_PRINTF(cliBuf);
#if (H2C_USE_IO_THREAD != 1)
for (i = 0; i < H2C_STATUS_MAX; i++) {
if (pHalData->h2cStatistics[i]) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s] = %d", "H2C statistics", \
h2cStaString[i], pHalData->h2cStatistics[i]);
CL_PRINTF(cliBuf);
}
}
#else
for (i = 0; i < IO_STATUS_MAX; i++) {
if (Adapter->ioComStr.ioH2cStatistics[i]) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = [%s] = %d", "H2C statistics", \
ioStaString[i], Adapter->ioComStr.ioH2cStatistics[i]);
CL_PRINTF(cliBuf);
}
}
#endif
#if 0
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x", "lastHMEBoxNum", \
pHalData->LastHMEBoxNum);
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = 0x%x / 0x%x", "LastOkH2c/FirstFailH2c(fwNotRead)", \
pHalData->lastSuccessH2cEid, pHalData->firstFailedH2cEid);
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "c2hIsr/c2hIntr/clr1AF/noRdy/noBuf", \
pHalData->InterruptLog.nIMR_C2HCMD, DBG_Var.c2hInterruptCnt, DBG_Var.c2hClrReadC2hCnt,
DBG_Var.c2hNotReadyCnt, DBG_Var.c2hBufAlloFailCnt);
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d", "c2hPacket", \
DBG_Var.c2hPacketCnt);
CL_PRINTF(cliBuf);
#endif
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d", "Periodical/ DbgCtrl", \
pBtCoexist->statistics.cntPeriodical, pBtCoexist->statistics.cntDbgCtrl);
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d", "PowerOn/InitHw/InitCoexDm/RfStatus", \
pBtCoexist->statistics.cntPowerOn, pBtCoexist->statistics.cntInitHwConfig, pBtCoexist->statistics.cntInitCoexDm,
pBtCoexist->statistics.cntRfStatusNotify);
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "Ips/Lps/Scan/Connect/Mstatus", \
pBtCoexist->statistics.cntIpsNotify, pBtCoexist->statistics.cntLpsNotify,
pBtCoexist->statistics.cntScanNotify, pBtCoexist->statistics.cntConnectNotify,
pBtCoexist->statistics.cntMediaStatusNotify);
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d", "Special pkt/Bt info/ bind",
pBtCoexist->statistics.cntSpecialPacketNotify, pBtCoexist->statistics.cntBtInfoNotify,
pBtCoexist->statistics.cntBind);
CL_PRINTF(cliBuf);
#endif
PADAPTER padapter = pBtCoexist->Adapter;
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(padapter);
u8 *cliBuf = pBtCoexist->cli_buf;
if (pHalData->EEPROMBluetoothCoexist == 1) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s", "============[Coex Status]============");
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IsBtDisabled", rtw_btcoex_IsBtDisabled(padapter));
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d ", "IsBtControlLps", rtw_btcoex_IsBtControlLps(padapter));
CL_PRINTF(cliBuf);
}
}
void halbtcoutsrc_DisplayBtLinkInfo(PBTC_COEXIST pBtCoexist)
{
#if 0
PADAPTER padapter = (PADAPTER)pBtCoexist->Adapter;
PBT_MGNT pBtMgnt = &padapter->MgntInfo.BtInfo.BtMgnt;
u8 *cliBuf = pBtCoexist->cliBuf;
u8 i;
if (pBtCoexist->stack_info.profile_notified) {
for (i = 0; i < pBtMgnt->ExtConfig.NumberOfACL; i++) {
if (pBtMgnt->ExtConfig.HCIExtensionVer >= 1) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s/ %s", "Bt link type/spec/role", \
BtProfileString[pBtMgnt->ExtConfig.aclLink[i].BTProfile],
BtSpecString[pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec],
BtLinkRoleString[pBtMgnt->ExtConfig.aclLink[i].linkRole]);
CL_PRINTF(cliBuf);
} else {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %s", "Bt link type/spec", \
BtProfileString[pBtMgnt->ExtConfig.aclLink[i].BTProfile],
BtSpecString[pBtMgnt->ExtConfig.aclLink[i].BTCoreSpec]);
CL_PRINTF(cliBuf);
}
}
}
#endif
}
void halbtcoutsrc_DisplayWifiStatus(PBTC_COEXIST pBtCoexist)
{
PADAPTER padapter = pBtCoexist->Adapter;
struct pwrctrl_priv *pwrpriv = adapter_to_pwrctl(padapter);
u8 *cliBuf = pBtCoexist->cli_buf;
s32 wifiRssi = 0, btHsRssi = 0;
BOOLEAN bScan = _FALSE, bLink = _FALSE, bRoam = _FALSE, bWifiBusy = _FALSE, bWifiUnderBMode = _FALSE;
u32 wifiBw = BTC_WIFI_BW_HT20, wifiTrafficDir = BTC_WIFI_TRAFFIC_TX, wifiFreq = BTC_FREQ_2_4G;
u32 wifiLinkStatus = 0x0;
BOOLEAN bBtHsOn = _FALSE, bLowPower = _FALSE;
u8 wifiChnl = 0, wifiP2PChnl = 0, nScanAPNum = 0, FwPSState;
u32 iqk_cnt_total = 0, iqk_cnt_ok = 0, iqk_cnt_fail = 0;
u16 wifiBcnInterval = 0;
PHAL_DATA_TYPE hal = GET_HAL_DATA(padapter);
struct btc_wifi_link_info wifi_link_info;
wifi_link_info = halbtcoutsrc_getwifilinkinfo(pBtCoexist);
switch (wifi_link_info.link_mode) {
case BTC_LINK_NONE:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"None", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = hal->current_channel > 14 ? BTC_FREQ_5G : BTC_FREQ_2_4G;
break;
case BTC_LINK_ONLY_GO:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"ONLY_GO", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = hal->current_channel > 14 ? BTC_FREQ_5G : BTC_FREQ_2_4G;
break;
case BTC_LINK_ONLY_GC:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"ONLY_GC", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = hal->current_channel > 14 ? BTC_FREQ_5G : BTC_FREQ_2_4G;
break;
case BTC_LINK_ONLY_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"ONLY_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = hal->current_channel > 14 ? BTC_FREQ_5G : BTC_FREQ_2_4G;
break;
case BTC_LINK_ONLY_AP:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"ONLY_AP", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = hal->current_channel > 14 ? BTC_FREQ_5G : BTC_FREQ_2_4G;
break;
case BTC_LINK_2G_MCC_GO_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"24G_MCC_GO_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_2_4G;
break;
case BTC_LINK_5G_MCC_GO_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"5G_MCC_GO_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_5G;
break;
case BTC_LINK_25G_MCC_GO_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"2BANDS_MCC_GO_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_25G;
break;
case BTC_LINK_2G_MCC_GC_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"24G_MCC_GC_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_2_4G;
break;
case BTC_LINK_5G_MCC_GC_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"5G_MCC_GC_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_5G;
break;
case BTC_LINK_25G_MCC_GC_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"2BANDS_MCC_GC_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_25G;
break;
case BTC_LINK_2G_SCC_GO_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"24G_SCC_GO_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_2_4G;
break;
case BTC_LINK_5G_SCC_GO_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"5G_SCC_GO_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_5G;
break;
case BTC_LINK_2G_SCC_GC_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"24G_SCC_GC_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_2_4G;
break;
case BTC_LINK_5G_SCC_GC_STA:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"5G_SCC_GC_STA", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = BTC_FREQ_5G;
break;
default:
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s/ %d/ %d/ %d", "WifiLinkMode/HotSpa/Noa/ClientJoin",
"UNKNOWN", wifi_link_info.bhotspot, wifi_link_info.benable_noa, wifi_link_info.bany_client_join_go);
wifiFreq = hal->current_channel > 14 ? BTC_FREQ_5G : BTC_FREQ_2_4G;
break;
}
CL_PRINTF(cliBuf);
wifiLinkStatus = halbtcoutsrc_GetWifiLinkStatus(pBtCoexist);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d/ %d/ %d", "STA/vWifi/HS/p2pGo/p2pGc",
((wifiLinkStatus & WIFI_STA_CONNECTED) ? 1 : 0), ((wifiLinkStatus & WIFI_AP_CONNECTED) ? 1 : 0),
((wifiLinkStatus & WIFI_HS_CONNECTED) ? 1 : 0), ((wifiLinkStatus & WIFI_P2P_GO_CONNECTED) ? 1 : 0),
((wifiLinkStatus & WIFI_P2P_GC_CONNECTED) ? 1 : 0));
CL_PRINTF(cliBuf);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_SCAN, &bScan);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_LINK, &bLink);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_ROAM, &bRoam);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d ", "Link/ Roam/ Scan",
bLink, bRoam, bScan);
CL_PRINTF(cliBuf);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_TOTAL, &iqk_cnt_total);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_OK, &iqk_cnt_ok);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_IQK_FAIL, &iqk_cnt_fail);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d/ %d/ %d %s %s",
"IQK All/ OK/ Fail/AutoLoad/FWDL", iqk_cnt_total, iqk_cnt_ok, iqk_cnt_fail,
((halbtcoutsrc_is_autoload_fail(pBtCoexist) == _TRUE) ? "fail":"ok"), ((halbtcoutsrc_is_fw_ready(pBtCoexist) == _TRUE) ? "ok":"fail"));
CL_PRINTF(cliBuf);
if (wifiLinkStatus & WIFI_STA_CONNECTED) {
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s", "IOT Peer", GLBtcIotPeerString[padapter->mlmeextpriv.mlmext_info.assoc_AP_vendor]);
CL_PRINTF(cliBuf);
}
pBtCoexist->btc_get(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wifiRssi);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U2_BEACON_PERIOD, &wifiBcnInterval);
wifiChnl = wifi_link_info.sta_center_channel;
wifiP2PChnl = wifi_link_info.p2p_center_channel;
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %d dBm/ %d/ %d/ %d", "RSSI/ STA_Chnl/ P2P_Chnl/ BI",
wifiRssi-100, wifiChnl, wifiP2PChnl, wifiBcnInterval);
CL_PRINTF(cliBuf);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_BW, &wifiBw);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &bWifiBusy);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIRECTION, &wifiTrafficDir);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_UNDER_B_MODE, &bWifiUnderBMode);
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U1_AP_NUM, &nScanAPNum);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s / %s/ %s/ %d ", "Band/ BW/ Traffic/ APCnt",
GLBtcWifiFreqString[wifiFreq], ((bWifiUnderBMode) ? "11b" : GLBtcWifiBwString[wifiBw]),
((!bWifiBusy) ? "idle" : ((BTC_WIFI_TRAFFIC_TX == wifiTrafficDir) ? "uplink" : "downlink")),
nScanAPNum);
CL_PRINTF(cliBuf);
/* power status */
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %s%s%s", "Power Status", \
((halbtcoutsrc_UnderIps(pBtCoexist) == _TRUE) ? "IPS ON" : "IPS OFF"),
((halbtcoutsrc_UnderLps(pBtCoexist) == _TRUE) ? ", LPS ON" : ", LPS OFF"),
((halbtcoutsrc_Under32K(pBtCoexist) == _TRUE) ? ", 32k" : ""));
CL_PRINTF(cliBuf);
CL_SPRINTF(cliBuf, BT_TMP_BUF_SIZE, "\r\n %-35s = %02x %02x %02x %02x %02x %02x (0x%x/0x%x)", "Power mode cmd(lps/rpwm)",
pBtCoexist->pwrModeVal[0], pBtCoexist->pwrModeVal[1],
pBtCoexist->pwrModeVal[2], pBtCoexist->pwrModeVal[3],
pBtCoexist->pwrModeVal[4], pBtCoexist->pwrModeVal[5],
pBtCoexist->bt_info.lps_val,
pBtCoexist->bt_info.rpwm_val);
CL_PRINTF(cliBuf);
}
void halbtcoutsrc_DisplayDbgMsg(void *pBtcContext, u8 dispType)
{
PBTC_COEXIST pBtCoexist;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
switch (dispType) {
case BTC_DBG_DISP_COEX_STATISTICS:
halbtcoutsrc_DisplayCoexStatistics(pBtCoexist);
break;
case BTC_DBG_DISP_BT_LINK_INFO:
halbtcoutsrc_DisplayBtLinkInfo(pBtCoexist);
break;
case BTC_DBG_DISP_WIFI_STATUS:
halbtcoutsrc_DisplayWifiStatus(pBtCoexist);
break;
default:
break;
}
}
/* ************************************
* IO related function
* ************************************ */
u8 halbtcoutsrc_Read1Byte(void *pBtcContext, u32 RegAddr)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
return rtw_read8(padapter, RegAddr);
}
u16 halbtcoutsrc_Read2Byte(void *pBtcContext, u32 RegAddr)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
return rtw_read16(padapter, RegAddr);
}
u32 halbtcoutsrc_Read4Byte(void *pBtcContext, u32 RegAddr)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
return rtw_read32(padapter, RegAddr);
}
void halbtcoutsrc_Write1Byte(void *pBtcContext, u32 RegAddr, u8 Data)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
rtw_write8(padapter, RegAddr, Data);
}
void halbtcoutsrc_BitMaskWrite1Byte(void *pBtcContext, u32 regAddr, u8 bitMask, u8 data1b)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
u8 originalValue, bitShift;
u8 i;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
originalValue = 0;
bitShift = 0;
if (bitMask != 0xff) {
originalValue = rtw_read8(padapter, regAddr);
for (i = 0; i <= 7; i++) {
if ((bitMask >> i) & 0x1)
break;
}
bitShift = i;
data1b = (originalValue & ~bitMask) | ((data1b << bitShift) & bitMask);
}
rtw_write8(padapter, regAddr, data1b);
}
void halbtcoutsrc_Write2Byte(void *pBtcContext, u32 RegAddr, u16 Data)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
rtw_write16(padapter, RegAddr, Data);
}
void halbtcoutsrc_Write4Byte(void *pBtcContext, u32 RegAddr, u32 Data)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
rtw_write32(padapter, RegAddr, Data);
}
void halbtcoutsrc_WriteLocalReg1Byte(void *pBtcContext, u32 RegAddr, u8 Data)
{
PBTC_COEXIST pBtCoexist = (PBTC_COEXIST)pBtcContext;
PADAPTER Adapter = pBtCoexist->Adapter;
if (BTC_INTF_SDIO == pBtCoexist->chip_interface)
rtw_write8(Adapter, SDIO_LOCAL_BASE | RegAddr, Data);
else
rtw_write8(Adapter, RegAddr, Data);
}
u32 halbtcoutsrc_WaitLIndirectReg_Ready(void *pBtcContext)
{
PBTC_COEXIST btc = (PBTC_COEXIST)pBtcContext;
u32 delay_count = 0, reg = 0;
if (!btc->chip_para->lte_indirect_access)
return 0;
switch (btc->chip_para->indirect_type) {
case BTC_INDIRECT_1700:
reg = 0x1703;
break;
case BTC_INDIRECT_7C0:
reg = 0x7C3;
break;
default:
return 0;
}
/* wait for ready bit before access */
while (1) {
if ((halbtcoutsrc_Read1Byte(btc, reg) & BIT(5)) == 0) {
rtw_mdelay_os(10);
if (++delay_count >= 10)
break;
} else {
break;
}
}
return delay_count;
}
u32 halbtcoutsrc_ReadLIndirectReg(void *pBtcContext, u16 reg_addr)
{
PBTC_COEXIST btc = (PBTC_COEXIST)pBtcContext;
u32 val = 0;
if (!btc->chip_para->lte_indirect_access)
return 0;
/* wait for ready bit before access */
halbtcoutsrc_WaitLIndirectReg_Ready(btc);
switch (btc->chip_para->indirect_type) {
case BTC_INDIRECT_1700:
halbtcoutsrc_Write4Byte(btc, 0x1700, 0x800F0000 | reg_addr);
val = halbtcoutsrc_Read4Byte(btc, 0x1708); /* get read data */
break;
case BTC_INDIRECT_7C0:
halbtcoutsrc_Write4Byte(btc, 0x7c0, 0x800F0000 | reg_addr);
val = halbtcoutsrc_Read4Byte(btc, 0x7c8); /* get read data */
break;
}
return val;
}
void halbtcoutsrc_WriteLIndirectReg(void *pBtcContext, u16 reg_addr, u32 bit_mask, u32 reg_value)
{
PBTC_COEXIST btc = (PBTC_COEXIST)pBtcContext;
u32 val, i = 0, bitpos = 0, reg0, reg1;
if (!btc->chip_para->lte_indirect_access)
return;
if (bit_mask == 0x0)
return;
switch (btc->chip_para->indirect_type) {
case BTC_INDIRECT_1700:
reg0 = 0x1700;
reg1 = 0x1704;
break;
case BTC_INDIRECT_7C0:
reg0 = 0x7C0;
reg1 = 0x7C4;
break;
default:
return;
}
if (bit_mask == 0xffffffff) {
/* wait for ready bit before access 0x1700 */
halbtcoutsrc_WaitLIndirectReg_Ready(btc);
/* put write data */
halbtcoutsrc_Write4Byte(btc, reg1, reg_value);
halbtcoutsrc_Write4Byte(btc, reg0, 0xc00F0000 | reg_addr);
} else {
for (i = 0; i <= 31; i++) {
if (((bit_mask >> i) & 0x1) == 0x1) {
bitpos = i;
break;
}
}
/* read back register value before write */
val = halbtcoutsrc_ReadLIndirectReg(btc, reg_addr);
val = (val & (~bit_mask)) | (reg_value << bitpos);
/* wait for ready bit before access 0x1700 */
halbtcoutsrc_WaitLIndirectReg_Ready(btc);
halbtcoutsrc_Write4Byte(btc, reg1, val); /* put write data */
halbtcoutsrc_Write4Byte(btc, reg0, 0xc00F0000 | reg_addr);
}
}
void halbtcoutsrc_Read_scbd(void *pBtcContext, u16* score_board_val)
{
PBTC_COEXIST btc = (PBTC_COEXIST)pBtcContext;
struct btc_coex_sta *coex_sta = &btc->coex_sta;
const struct btc_chip_para *chip_para = btc->chip_para;
if (!chip_para->scbd_support)
return;
*score_board_val = (btc->btc_read_2byte(btc, 0xaa)) & 0x7fff;
coex_sta->score_board_BW = *score_board_val;
}
void halbtcoutsrc_Write_scbd(void *pBtcContext, u16 bitpos, u8 state)
{
PBTC_COEXIST btc = (PBTC_COEXIST)pBtcContext;
struct btc_coex_sta *coex_sta = &btc->coex_sta;
const struct btc_chip_para *chip_para = btc->chip_para;
u16 val = 0x2;
u8* btc_dbg_buf = &gl_btc_trace_buf[0];
if (!chip_para->scbd_support)
return;
val = val | coex_sta->score_board_WB;
/* for 8822b, Scoreboard[10]: 0: CQDDR off, 1: CQDDR on
* for 8822c, Scoreboard[10]: 0: CQDDR on, 1:CQDDR fix 2M
*/
if (!btc->chip_para->new_scbd10_def && (bitpos & BTC_SCBD_FIX2M)) {
if (state)
val = val & (~BTC_SCBD_FIX2M);
else
val = val | BTC_SCBD_FIX2M;
} else {
if (state)
val = val | bitpos;
else
val = val & (~bitpos);
}
if (val != coex_sta->score_board_WB) {
coex_sta->score_board_WB = val;
val = val | 0x8000;
btc->btc_write_2byte(btc, 0xaa, val);
BTC_SPRINTF(btc_dbg_buf, BT_TMP_BUF_SIZE,
"[BTCoex], write scoreboard 0x%x\n", val);
} else {
BTC_SPRINTF(btc_dbg_buf, BT_TMP_BUF_SIZE,
"[BTCoex], %s: return for nochange\n", __func__);
}
BTC_TRACE(btc_dbg_buf);
}
void halbtcoutsrc_SetBbReg(void *pBtcContext, u32 RegAddr, u32 BitMask, u32 Data)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
phy_set_bb_reg(padapter, RegAddr, BitMask, Data);
}
u32 halbtcoutsrc_GetBbReg(void *pBtcContext, u32 RegAddr, u32 BitMask)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
return phy_query_bb_reg(padapter, RegAddr, BitMask);
}
void halbtcoutsrc_SetRfReg(void *pBtcContext, enum rf_path eRFPath, u32 RegAddr, u32 BitMask, u32 Data)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
phy_set_rf_reg(padapter, eRFPath, RegAddr, BitMask, Data);
}
u32 halbtcoutsrc_GetRfReg(void *pBtcContext, enum rf_path eRFPath, u32 RegAddr, u32 BitMask)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
return phy_query_rf_reg(padapter, eRFPath, RegAddr, BitMask);
}
u16 halbtcoutsrc_SetBtReg(void *pBtcContext, u8 RegType, u32 RegAddr, u32 Data)
{
PBTC_COEXIST pBtCoexist;
u16 ret = BT_STATUS_BT_OP_SUCCESS;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
Data = cpu_to_le32(Data);
op_code = BT_OP_WRITE_REG_VALUE;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, (u8 *)&Data, 3);
if (status != BT_STATUS_BT_OP_SUCCESS)
ret = SET_BT_MP_OPER_RET(op_code, status);
else {
buf[0] = RegType;
*(u16 *)(buf + 1) = cpu_to_le16((u16)RegAddr);
op_code = BT_OP_WRITE_REG_ADDR;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 3);
if (status != BT_STATUS_BT_OP_SUCCESS)
ret = SET_BT_MP_OPER_RET(op_code, status);
}
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return ret;
}
u8 halbtcoutsrc_SetBtAntDetection(void *pBtcContext, u8 txTime, u8 btChnl)
{
/* Always return _FALSE since we don't implement this yet */
#if 0
PBTC_COEXIST pBtCoexist = (PBTC_COEXIST)pBtcContext;
PADAPTER Adapter = pBtCoexist->Adapter;
u8 btCanTx = 0;
BOOLEAN bStatus = FALSE;
bStatus = NDBG_SetBtAntDetection(Adapter, txTime, btChnl, &btCanTx);
if (bStatus && btCanTx)
return _TRUE;
else
return _FALSE;
#else
return _FALSE;
#endif
}
BOOLEAN
halbtcoutsrc_SetBtTRXMASK(
void *pBtcContext,
u8 bt_trx_mask
)
{
/* Always return _FALSE since we don't implement this yet */
#if 0
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
PADAPTER Adapter = pBtCoexist->Adapter;
BOOLEAN bStatus = FALSE;
u8 btCanTx = 0;
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter) || IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)
|| IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter))
bStatus = NDBG_SetBtTRXMASK(Adapter, 1, bt_trx_mask, &btCanTx);
else
bStatus = NDBG_SetBtTRXMASK(Adapter, 2, bt_trx_mask, &btCanTx);
}
if (bStatus)
return TRUE;
else
return FALSE;
#else
return _FALSE;
#endif
}
u16 halbtcoutsrc_GetBtReg_with_status(void *pBtcContext, u8 RegType, u32 RegAddr, u32 *data)
{
PBTC_COEXIST pBtCoexist;
u16 ret = BT_STATUS_BT_OP_SUCCESS;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
buf[0] = RegType;
*(u16 *)(buf + 1) = cpu_to_le16((u16)RegAddr);
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_READ_REG;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 3);
if (status == BT_STATUS_BT_OP_SUCCESS)
*data = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return ret;
}
u32 halbtcoutsrc_GetBtReg(void *pBtcContext, u8 RegType, u32 RegAddr)
{
u32 regVal;
return (BT_STATUS_BT_OP_SUCCESS == halbtcoutsrc_GetBtReg_with_status(pBtcContext, RegType, RegAddr, ®Val)) ? regVal : 0xffffffff;
}
u16 halbtcoutsrc_setbttestmode(void *pBtcContext, u8 Type)
{
PBTC_COEXIST pBtCoexist;
u16 ret = BT_STATUS_BT_OP_SUCCESS;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
Type = cpu_to_le32(Type);
op_code = BT_OP_SET_BT_TEST_MODE_VAL;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, (u8 *)&Type, 3);
if (status != BT_STATUS_BT_OP_SUCCESS)
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return ret;
}
void halbtcoutsrc_FillH2cCmd(void *pBtcContext, u8 elementId, u32 cmdLen, u8 *pCmdBuffer)
{
PBTC_COEXIST pBtCoexist;
PADAPTER padapter;
s32 ret = 0;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
padapter = pBtCoexist->Adapter;
ret = rtw_hal_fill_h2c_cmd(padapter, elementId, cmdLen, pCmdBuffer);
#ifdef CONFIG_RTL8192F
if (ret == _SUCCESS) {
switch (elementId) {
case H2C_BT_INFO:
case H2C_BT_IGNORE_WLANACT:
case H2C_WL_OPMODE:
case H2C_BT_MP_OPER:
case H2C_BT_CONTROL:
rtw_msleep_os(20);
break;
}
}
#endif
}
static void halbtcoutsrc_coex_offload_init(void)
{
u8 i;
gl_coex_offload.h2c_req_num = 0;
gl_coex_offload.cnt_h2c_sent = 0;
gl_coex_offload.cnt_c2h_ack = 0;
gl_coex_offload.cnt_c2h_ind = 0;
for (i = 0; i < COL_MAX_H2C_REQ_NUM; i++)
init_completion(&gl_coex_offload.c2h_event[i]);
}
static COL_H2C_STATUS halbtcoutsrc_send_h2c(PADAPTER Adapter, PCOL_H2C pcol_h2c, u16 h2c_cmd_len)
{
COL_H2C_STATUS h2c_status = COL_STATUS_C2H_OK;
u8 i;
#if (LINUX_VERSION_CODE >= KERNEL_VERSION(3, 13, 0))
reinit_completion(&gl_coex_offload.c2h_event[pcol_h2c->req_num]); /* set event to un signaled state */
#else
INIT_COMPLETION(gl_coex_offload.c2h_event[pcol_h2c->req_num]);
#endif
if (TRUE) {
#if 0 /*(USE_HAL_MAC_API == 1) */
if (RT_STATUS_SUCCESS == HAL_MAC_Send_BT_COEX(&GET_HAL_MAC_INFO(Adapter), (u8 *)(pcol_h2c), (u32)h2c_cmd_len, 1)) {
if (!wait_for_completion_timeout(&gl_coex_offload.c2h_event[pcol_h2c->req_num], 20)) {
h2c_status = COL_STATUS_H2C_TIMTOUT;
}
} else {
h2c_status = COL_STATUS_H2C_HALMAC_FAIL;
}
#endif
}
return h2c_status;
}
static COL_H2C_STATUS halbtcoutsrc_check_c2h_ack(PADAPTER Adapter, PCOL_SINGLE_H2C_RECORD pH2cRecord)
{
COL_H2C_STATUS c2h_status = COL_STATUS_C2H_OK;
PCOL_H2C p_h2c_cmd = (PCOL_H2C)&pH2cRecord->h2c_buf[0];
u8 req_num = p_h2c_cmd->req_num;
PCOL_C2H_ACK p_c2h_ack = (PCOL_C2H_ACK)&gl_coex_offload.c2h_ack_buf[req_num];
if ((COL_C2H_ACK_HDR_LEN + p_c2h_ack->ret_len) > gl_coex_offload.c2h_ack_len[req_num]) {
c2h_status = COL_STATUS_COEX_DATA_OVERFLOW;
return c2h_status;
}
/* else */
{
_rtw_memmove(&pH2cRecord->c2h_ack_buf[0], &gl_coex_offload.c2h_ack_buf[req_num], gl_coex_offload.c2h_ack_len[req_num]);
pH2cRecord->c2h_ack_len = gl_coex_offload.c2h_ack_len[req_num];
}
if (p_c2h_ack->req_num != p_h2c_cmd->req_num) {
c2h_status = COL_STATUS_C2H_REQ_NUM_MISMATCH;
} else if (p_c2h_ack->opcode_ver != p_h2c_cmd->opcode_ver) {
c2h_status = COL_STATUS_C2H_OPCODE_VER_MISMATCH;
} else {
c2h_status = p_c2h_ack->status;
}
return c2h_status;
}
COL_H2C_STATUS halbtcoutsrc_CoexH2cProcess(void *pBtCoexist,
u8 opcode, u8 opcode_ver, u8 *ph2c_par, u8 h2c_par_len)
{
PADAPTER Adapter = ((struct btc_coexist *)pBtCoexist)->Adapter;
u8 H2C_Parameter[BTC_TMP_BUF_SHORT] = {0};
PCOL_H2C pcol_h2c = (PCOL_H2C)&H2C_Parameter[0];
u16 paraLen = 0;
COL_H2C_STATUS h2c_status = COL_STATUS_C2H_OK, c2h_status = COL_STATUS_C2H_OK;
COL_H2C_STATUS ret_status = COL_STATUS_C2H_OK;
u16 i, col_h2c_len = 0;
pcol_h2c->opcode = opcode;
pcol_h2c->opcode_ver = opcode_ver;
pcol_h2c->req_num = gl_coex_offload.h2c_req_num;
gl_coex_offload.h2c_req_num++;
gl_coex_offload.h2c_req_num %= 16;
_rtw_memmove(&pcol_h2c->buf[0], ph2c_par, h2c_par_len);
col_h2c_len = h2c_par_len + 2; /* 2=sizeof(OPCode, OPCode_version and Request number) */
BT_PrintData(Adapter, "[COL], H2C cmd: ", col_h2c_len, H2C_Parameter);
gl_coex_offload.cnt_h2c_sent++;
gl_coex_offload.h2c_record[opcode].count++;
gl_coex_offload.h2c_record[opcode].h2c_len = col_h2c_len;
_rtw_memmove((void *)&gl_coex_offload.h2c_record[opcode].h2c_buf[0], (void *)pcol_h2c, col_h2c_len);
h2c_status = halbtcoutsrc_send_h2c(Adapter, pcol_h2c, col_h2c_len);
gl_coex_offload.h2c_record[opcode].c2h_ack_len = 0;
if (COL_STATUS_C2H_OK == h2c_status) {
/* if reach here, it means H2C get the correct c2h response, */
c2h_status = halbtcoutsrc_check_c2h_ack(Adapter, &gl_coex_offload.h2c_record[opcode]);
ret_status = c2h_status;
} else {
/* check h2c status error, return error status code to upper layer. */
ret_status = h2c_status;
}
gl_coex_offload.h2c_record[opcode].status[ret_status]++;
gl_coex_offload.status[ret_status]++;
return ret_status;
}
u8 halbtcoutsrc_GetAntDetValFromBt(void *pBtcContext)
{
/* Always return 0 since we don't implement this yet */
#if 0
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
PADAPTER Adapter = pBtCoexist->Adapter;
u8 AntDetVal = 0x0;
u8 opcodeVer = 1;
BOOLEAN status = false;
status = NDBG_GetAntDetValFromBt(Adapter, opcodeVer, &AntDetVal);
RT_TRACE(COMP_DBG, DBG_LOUD, ("$$$ halbtcoutsrc_GetAntDetValFromBt(): status = %d, feature = %x\n", status, AntDetVal));
return AntDetVal;
#else
return 0;
#endif
}
u8 halbtcoutsrc_GetBleScanTypeFromBt(void *pBtcContext)
{
PBTC_COEXIST pBtCoexist;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
u8 data = 0;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_GET_BT_BLE_SCAN_TYPE;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
data = *(u8 *)GLBtcBtMpRptRsp;
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return data;
}
u32 halbtcoutsrc_GetBleScanParaFromBt(void *pBtcContext, u8 scanType)
{
PBTC_COEXIST pBtCoexist;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
u32 data = 0;
pBtCoexist = (PBTC_COEXIST)pBtcContext;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _TRUE) {
u8 buf[3] = {0};
_irqL irqL;
u8 op_code;
u8 status;
buf[0] = scanType;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_OP_GET_BT_BLE_SCAN_PARA;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 1);
if (status == BT_STATUS_BT_OP_SUCCESS)
data = le32_to_cpu(*(u32 *)GLBtcBtMpRptRsp);
else
ret = SET_BT_MP_OPER_RET(op_code, status);
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
} else
ret = BT_STATUS_NOT_IMPLEMENT;
return data;
}
u8 halbtcoutsrc_GetBtAFHMapFromBt(void *pBtcContext, u8 mapType, u8 *afhMap)
{
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
u8 buf[2] = {0};
_irqL irqL;
u8 op_code;
u32 *AfhMapL = (u32 *)&(afhMap[0]);
u32 *AfhMapM = (u32 *)&(afhMap[4]);
u16 *AfhMapH = (u16 *)&(afhMap[8]);
u8 status;
u32 ret = BT_STATUS_BT_OP_SUCCESS;
if (halbtcoutsrc_IsHwMailboxExist(pBtCoexist) == _FALSE)
return _FALSE;
buf[0] = 0;
buf[1] = mapType;
_enter_critical_mutex(&GLBtcBtMpOperLock, &irqL);
op_code = BT_LO_OP_GET_AFH_MAP_L;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
*AfhMapL = le32_to_cpu(*(u32 *)GLBtcBtMpRptRsp);
else {
ret = SET_BT_MP_OPER_RET(op_code, status);
goto exit;
}
op_code = BT_LO_OP_GET_AFH_MAP_M;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
*AfhMapM = le32_to_cpu(*(u32 *)GLBtcBtMpRptRsp);
else {
ret = SET_BT_MP_OPER_RET(op_code, status);
goto exit;
}
op_code = BT_LO_OP_GET_AFH_MAP_H;
status = _btmpoper_cmd(pBtCoexist, op_code, 0, buf, 0);
if (status == BT_STATUS_BT_OP_SUCCESS)
*AfhMapH = le16_to_cpu(*(u16 *)GLBtcBtMpRptRsp);
else {
ret = SET_BT_MP_OPER_RET(op_code, status);
goto exit;
}
exit:
_exit_critical_mutex(&GLBtcBtMpOperLock, &irqL);
return (ret == BT_STATUS_BT_OP_SUCCESS) ? _TRUE : _FALSE;
}
u8 halbtcoutsrc_SetTimer(void *pBtcContext, u32 type, u32 val)
{
struct btc_coexist *pBtCoexist=(struct btc_coexist *)pBtcContext;
if (type >= BTC_TIMER_MAX)
return _FALSE;
pBtCoexist->coex_sta.cnt_timer[type] = val;
RTW_DBG("[BTC], Set Timer: type = %d, val = %d\n", type, val);
return _TRUE;
}
u32 halbtcoutsrc_SetAtomic (void *btc_ctx, u32 *target, u32 val)
{
*target = val;
return _SUCCESS;
}
void halbtcoutsrc_phydm_modify_AntDiv_HwSw(void *pBtcContext, u8 is_hw)
{
/* empty function since we don't need it */
}
void halbtcoutsrc_phydm_modify_RA_PCR_threshold(void *pBtcContext, u8 RA_offset_direction, u8 RA_threshold_offset)
{
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
/* switch to #if 0 in case the phydm version does not provide the function */
#if 1
phydm_modify_RA_PCR_threshold(pBtCoexist->odm_priv, RA_offset_direction, RA_threshold_offset);
#endif
}
u32 halbtcoutsrc_phydm_query_PHY_counter(void *pBtcContext, u8 info_type)
{
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
/* switch to #if 0 in case the phydm version does not provide the function */
#if 1
return phydm_cmn_info_query((struct dm_struct *)pBtCoexist->odm_priv, (enum phydm_info_query)info_type);
#else
return 0;
#endif
}
void halbtcoutsrc_reduce_wl_tx_power(void *pBtcContext, s8 tx_power)
{
struct btc_coexist *pBtCoexist = (struct btc_coexist *)pBtcContext;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA((PADAPTER)pBtCoexist->Adapter);
/* The reduction of wl tx pwr should be processed inside the set tx pwr lvl function */
if (IS_HARDWARE_TYPE_8822C(pBtCoexist->Adapter))
rtw_hal_set_tx_power_level(pBtCoexist->Adapter, pHalData->current_channel);
}
#if 0
static void BT_CoexOffloadRecordErrC2hAck(PADAPTER Adapter)
{
PADAPTER pDefaultAdapter = GetDefaultAdapter(Adapter);
if (pDefaultAdapter != Adapter)
return;
if (!hal_btcoex_IsBtExist(Adapter))
return;
gl_coex_offload.cnt_c2h_ack++;
gl_coex_offload.status[COL_STATUS_INVALID_C2H_LEN]++;
}
static void BT_CoexOffloadC2hAckCheck(PADAPTER Adapter, u8 *tmpBuf, u8 length)
{
PADAPTER pDefaultAdapter = GetDefaultAdapter(Adapter);
PCOL_C2H_ACK p_c2h_ack = NULL;
u8 req_num = 0xff;
if (pDefaultAdapter != Adapter)
return;
if (!hal_btcoex_IsBtExist(Adapter))
return;
gl_coex_offload.cnt_c2h_ack++;
if (length < COL_C2H_ACK_HDR_LEN) { /* c2h ack length must >= 3 (status, opcode_ver, req_num and ret_len) */
gl_coex_offload.status[COL_STATUS_INVALID_C2H_LEN]++;
} else {
BT_PrintData(Adapter, "[COL], c2h ack:", length, tmpBuf);
p_c2h_ack = (PCOL_C2H_ACK)tmpBuf;
req_num = p_c2h_ack->req_num;
_rtw_memmove(&gl_coex_offload.c2h_ack_buf[req_num][0], tmpBuf, length);
gl_coex_offload.c2h_ack_len[req_num] = length;
complete(&gl_coex_offload.c2h_event[req_num]);
}
}
static void BT_CoexOffloadC2hIndCheck(PADAPTER Adapter, u8 *tmpBuf, u8 length)
{
PADAPTER pDefaultAdapter = GetDefaultAdapter(Adapter);
PCOL_C2H_IND p_c2h_ind = NULL;
u8 ind_type = 0, ind_version = 0, ind_length = 0;
if (pDefaultAdapter != Adapter)
return;
if (!hal_btcoex_IsBtExist(Adapter))
return;
gl_coex_offload.cnt_c2h_ind++;
if (length < COL_C2H_IND_HDR_LEN) { /* c2h indication length must >= 3 (type, version and length) */
gl_coex_offload.c2h_ind_status[COL_STATUS_INVALID_C2H_LEN]++;
} else {
BT_PrintData(Adapter, "[COL], c2h indication:", length, tmpBuf);
p_c2h_ind = (PCOL_C2H_IND)tmpBuf;
ind_type = p_c2h_ind->type;
ind_version = p_c2h_ind->version;
ind_length = p_c2h_ind->length;
_rtw_memmove(&gl_coex_offload.c2h_ind_buf[0], tmpBuf, length);
gl_coex_offload.c2h_ind_len = length;
/* log */
gl_coex_offload.c2h_ind_record[ind_type].count++;
gl_coex_offload.c2h_ind_record[ind_type].status[COL_STATUS_C2H_OK]++;
_rtw_memmove(&gl_coex_offload.c2h_ind_record[ind_type].ind_buf[0], tmpBuf, length);
gl_coex_offload.c2h_ind_record[ind_type].ind_len = length;
gl_coex_offload.c2h_ind_status[COL_STATUS_C2H_OK]++;
/*TODO: need to check c2h indication length*/
/* TODO: Notification */
}
}
void BT_CoexOffloadC2hCheck(PADAPTER Adapter, u8 *Buffer, u8 Length)
{
#if 0 /*(USE_HAL_MAC_API == 1)*/
u8 c2hSubCmdId = 0, c2hAckLen = 0, h2cCmdId = 0, h2cSubCmdId = 0, c2hIndLen = 0;
BT_PrintData(Adapter, "[COL], c2h packet:", Length - 2, Buffer + 2);
c2hSubCmdId = (u8)C2H_HDR_GET_C2H_SUB_CMD_ID(Buffer);
if (c2hSubCmdId == C2H_SUB_CMD_ID_H2C_ACK_HDR ||
c2hSubCmdId == C2H_SUB_CMD_ID_BT_COEX_INFO) {
if (c2hSubCmdId == C2H_SUB_CMD_ID_H2C_ACK_HDR) {
/* coex c2h ack */
h2cCmdId = (u8)H2C_ACK_HDR_GET_H2C_CMD_ID(Buffer);
h2cSubCmdId = (u8)H2C_ACK_HDR_GET_H2C_SUB_CMD_ID(Buffer);
if (h2cCmdId == 0xff && h2cSubCmdId == 0x60) {
c2hAckLen = (u8)C2H_HDR_GET_LEN(Buffer);
if (c2hAckLen >= 8)
BT_CoexOffloadC2hAckCheck(Adapter, &Buffer[12], (u8)(c2hAckLen - 8));
else
BT_CoexOffloadRecordErrC2hAck(Adapter);
}
} else if (c2hSubCmdId == C2H_SUB_CMD_ID_BT_COEX_INFO) {
/* coex c2h indication */
c2hIndLen = (u8)C2H_HDR_GET_LEN(Buffer);
BT_CoexOffloadC2hIndCheck(Adapter, &Buffer[4], (u8)c2hIndLen);
}
}
#endif
}
#endif
/* ************************************
* Extern functions called by other module
* ************************************ */
u8 EXhalbtcoutsrc_BindBtCoexWithAdapter(void *padapter)
{
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA((PADAPTER)padapter);
if (pBtCoexist->bBinded)
return _FALSE;
else
pBtCoexist->bBinded = _TRUE;
pBtCoexist->statistics.cnt_bind++;
pBtCoexist->Adapter = padapter;
pBtCoexist->odm_priv = (void *)&(pHalData->odmpriv);
pBtCoexist->stack_info.profile_notified = _FALSE;
pBtCoexist->bt_info.bt_ctrl_agg_buf_size = _FALSE;
pBtCoexist->bt_info.agg_buf_size = 5;
pBtCoexist->bt_info.increase_scan_dev_num = _FALSE;
pBtCoexist->bt_info.miracast_plus_bt = _FALSE;
/* for btc common architecture, inform chip type to coex. mechanism */
if(IS_HARDWARE_TYPE_8822C(padapter)) {
#ifdef CONFIG_RTL8822C
pBtCoexist->chip_type = BTC_CHIP_RTL8822C;
pBtCoexist->chip_para = &btc_chip_para_8822c;
#endif
}
#ifdef CONFIG_RTL8192F
else if (IS_HARDWARE_TYPE_8192F(padapter)) {
pBtCoexist->chip_type = BTC_CHIP_RTL8725A;
pBtCoexist->chip_para = &btc_chip_para_8192f;
}
#endif
else {
pBtCoexist->chip_type = BTC_CHIP_UNDEF;
pBtCoexist->chip_para = NULL;
}
return _TRUE;
}
void EXhalbtcoutsrc_AntInfoSetting(void *padapter)
{
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
u8 antNum = 1, singleAntPath = 0;
antNum = rtw_btcoex_get_pg_ant_num((PADAPTER)padapter);
EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_PG, antNum);
if (antNum == 1) {
singleAntPath = rtw_btcoex_get_pg_single_ant_path((PADAPTER)padapter);
EXhalbtcoutsrc_SetSingleAntPath(singleAntPath);
}
pBtCoexist->board_info.customerID = RT_CID_DEFAULT;
pBtCoexist->board_info.customer_id = RT_CID_DEFAULT;
/* set default antenna position to main port */
pBtCoexist->board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
pBtCoexist->board_info.btdm_ant_det_finish = _FALSE;
pBtCoexist->board_info.btdm_ant_num_by_ant_det = 1;
pBtCoexist->board_info.tfbga_package = rtw_btcoex_is_tfbga_package_type((PADAPTER)padapter);
pBtCoexist->board_info.rfe_type = rtw_btcoex_get_pg_rfe_type((PADAPTER)padapter);
pBtCoexist->board_info.ant_div_cfg = rtw_btcoex_get_ant_div_cfg((PADAPTER)padapter);
pBtCoexist->board_info.ant_distance = 10;
}
u8 EXhalbtcoutsrc_InitlizeVariables(void *padapter)
{
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
/* pBtCoexist->statistics.cntBind++; */
halbtcoutsrc_DbgInit();
halbtcoutsrc_coex_offload_init();
#ifdef CONFIG_PCI_HCI
pBtCoexist->chip_interface = BTC_INTF_PCI;
#elif defined(CONFIG_USB_HCI)
pBtCoexist->chip_interface = BTC_INTF_USB;
#elif defined(CONFIG_SDIO_HCI) || defined(CONFIG_GSPI_HCI)
pBtCoexist->chip_interface = BTC_INTF_SDIO;
#else
pBtCoexist->chip_interface = BTC_INTF_UNKNOWN;
#endif
EXhalbtcoutsrc_BindBtCoexWithAdapter(padapter);
pBtCoexist->btc_read_1byte = halbtcoutsrc_Read1Byte;
pBtCoexist->btc_write_1byte = halbtcoutsrc_Write1Byte;
pBtCoexist->btc_write_1byte_bitmask = halbtcoutsrc_BitMaskWrite1Byte;
pBtCoexist->btc_read_2byte = halbtcoutsrc_Read2Byte;
pBtCoexist->btc_write_2byte = halbtcoutsrc_Write2Byte;
pBtCoexist->btc_read_4byte = halbtcoutsrc_Read4Byte;
pBtCoexist->btc_write_4byte = halbtcoutsrc_Write4Byte;
pBtCoexist->btc_write_local_reg_1byte = halbtcoutsrc_WriteLocalReg1Byte;
pBtCoexist->btc_read_linderct = halbtcoutsrc_ReadLIndirectReg;
pBtCoexist->btc_write_linderct = halbtcoutsrc_WriteLIndirectReg;
pBtCoexist->btc_read_scbd = halbtcoutsrc_Read_scbd;
pBtCoexist->btc_write_scbd = halbtcoutsrc_Write_scbd;
pBtCoexist->btc_set_bb_reg = halbtcoutsrc_SetBbReg;
pBtCoexist->btc_get_bb_reg = halbtcoutsrc_GetBbReg;
pBtCoexist->btc_set_rf_reg = halbtcoutsrc_SetRfReg;
pBtCoexist->btc_get_rf_reg = halbtcoutsrc_GetRfReg;
pBtCoexist->btc_fill_h2c = halbtcoutsrc_FillH2cCmd;
pBtCoexist->btc_disp_dbg_msg = halbtcoutsrc_DisplayDbgMsg;
pBtCoexist->btc_get = halbtcoutsrc_Get;
pBtCoexist->btc_set = halbtcoutsrc_Set;
pBtCoexist->btc_get_bt_reg = halbtcoutsrc_GetBtReg;
pBtCoexist->btc_set_bt_reg = halbtcoutsrc_SetBtReg;
pBtCoexist->btc_set_bt_ant_detection = halbtcoutsrc_SetBtAntDetection;
pBtCoexist->btc_set_bt_trx_mask = halbtcoutsrc_SetBtTRXMASK;
pBtCoexist->btc_coex_h2c_process = halbtcoutsrc_CoexH2cProcess;
pBtCoexist->btc_get_bt_coex_supported_feature = halbtcoutsrc_GetBtCoexSupportedFeature;
pBtCoexist->btc_get_bt_coex_supported_version= halbtcoutsrc_GetBtCoexSupportedVersion;
pBtCoexist->btc_get_ant_det_val_from_bt = halbtcoutsrc_GetAntDetValFromBt;
pBtCoexist->btc_get_ble_scan_type_from_bt = halbtcoutsrc_GetBleScanTypeFromBt;
pBtCoexist->btc_get_ble_scan_para_from_bt = halbtcoutsrc_GetBleScanParaFromBt;
pBtCoexist->btc_get_bt_afh_map_from_bt = halbtcoutsrc_GetBtAFHMapFromBt;
pBtCoexist->btc_get_bt_phydm_version = halbtcoutsrc_GetPhydmVersion;
pBtCoexist->btc_set_timer = halbtcoutsrc_SetTimer;
pBtCoexist->btc_set_atomic= halbtcoutsrc_SetAtomic;
pBtCoexist->btc_phydm_modify_RA_PCR_threshold = halbtcoutsrc_phydm_modify_RA_PCR_threshold;
pBtCoexist->btc_phydm_query_PHY_counter = halbtcoutsrc_phydm_query_PHY_counter;
pBtCoexist->btc_reduce_wl_tx_power = halbtcoutsrc_reduce_wl_tx_power;
pBtCoexist->btc_phydm_modify_antdiv_hwsw = halbtcoutsrc_phydm_modify_AntDiv_HwSw;
pBtCoexist->cli_buf = &GLBtcDbgBuf[0];
GLBtcWiFiInScanState = _FALSE;
GLBtcWiFiInIQKState = _FALSE;
GLBtcWiFiInIPS = _FALSE;
GLBtcWiFiInLPS = _FALSE;
GLBtcBtCoexAliveRegistered = _FALSE;
/* BT Control H2C/C2H*/
GLBtcBtMpOperSeq = 0;
_rtw_mutex_init(&GLBtcBtMpOperLock);
rtw_init_timer(&GLBtcBtMpOperTimer, padapter, _btmpoper_timer_hdl, pBtCoexist);
_rtw_init_sema(&GLBtcBtMpRptSema, 0);
GLBtcBtMpRptSeq = 0;
GLBtcBtMpRptStatus = 0;
_rtw_memset(GLBtcBtMpRptRsp, 0, C2H_MAX_SIZE);
GLBtcBtMpRptRspSize = 0;
GLBtcBtMpRptWait = _FALSE;
GLBtcBtMpRptWiFiOK = _FALSE;
GLBtcBtMpRptBTOK = _FALSE;
return _TRUE;
}
void EXhalbtcoutsrc_PowerOnSetting(PBTC_COEXIST pBtCoexist)
{
HAL_DATA_TYPE *pHalData = NULL;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pHalData = GET_HAL_DATA((PADAPTER)pBtCoexist->Adapter);
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_power_on_setting(pBtCoexist);
#else
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8723B
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_power_on_setting(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_power_on_setting(pBtCoexist);
#endif
}
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_power_on_setting(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_power_on_setting(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_power_on_setting(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821A
else if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_power_on_setting(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_power_on_setting(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8822B
else if ((IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) && (pHalData->EEPROMBluetoothCoexist == _TRUE)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_power_on_setting(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_power_on_setting(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821C
else if ((IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) && (pHalData->EEPROMBluetoothCoexist == _TRUE)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_power_on_setting(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_power_on_setting(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8814A
if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_power_on_setting(pBtCoexist);
/* else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8814a1ant_power_on_setting(pBtCoexist); */
}
#endif
#endif
}
void EXhalbtcoutsrc_PreLoadFirmware(PBTC_COEXIST pBtCoexist)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_pre_load_firmware++;
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8723B
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_pre_load_firmware(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_pre_load_firmware(pBtCoexist);
#endif
}
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_pre_load_firmware(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_pre_load_firmware(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_pre_load_firmware(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_pre_load_firmware(pBtCoexist);
}
#endif
}
void EXhalbtcoutsrc_init_hw_config(PBTC_COEXIST pBtCoexist, u8 bWifiOnly)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_init_hw_config++;
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_init_hw_config(pBtCoexist, bWifiOnly);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_init_hw_config(pBtCoexist, bWifiOnly);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_init_hw_config(pBtCoexist, bWifiOnly);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_init_hw_config(pBtCoexist, bWifiOnly);
}
#endif
#endif
}
void EXhalbtcoutsrc_init_coex_dm(PBTC_COEXIST pBtCoexist)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_init_coex_dm++;
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_init_coex_dm(pBtCoexist);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_init_coex_dm(pBtCoexist);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_init_coex_dm(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_init_coex_dm(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_init_coex_dm(pBtCoexist);
}
#endif
#endif
pBtCoexist->initilized = _TRUE;
}
void EXhalbtcoutsrc_ips_notify(PBTC_COEXIST pBtCoexist, u8 type)
{
u8 ipsType;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_ips_notify++;
if (pBtCoexist->manual_control)
return;
if (IPS_NONE == type) {
ipsType = BTC_IPS_LEAVE;
GLBtcWiFiInIPS = _FALSE;
} else {
ipsType = BTC_IPS_ENTER;
GLBtcWiFiInIPS = _TRUE;
}
/* All notify is called in cmd thread, don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_ips_notify(pBtCoexist, ipsType);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_ips_notify(pBtCoexist, ipsType);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_ips_notify(pBtCoexist, ipsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_ips_notify(pBtCoexist, ipsType);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_lps_notify(PBTC_COEXIST pBtCoexist, u8 type)
{
u8 lpsType;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_lps_notify++;
if (pBtCoexist->manual_control)
return;
if (PS_MODE_ACTIVE == type) {
lpsType = BTC_LPS_DISABLE;
GLBtcWiFiInLPS = _FALSE;
} else {
lpsType = BTC_LPS_ENABLE;
GLBtcWiFiInLPS = _TRUE;
}
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_lps_notify(pBtCoexist, lpsType);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_lps_notify(pBtCoexist, lpsType);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_lps_notify(pBtCoexist, lpsType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_lps_notify(pBtCoexist, lpsType);
}
#endif
#endif
}
void EXhalbtcoutsrc_scan_notify(PBTC_COEXIST pBtCoexist, u8 type)
{
u8 scanType;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_scan_notify++;
if (pBtCoexist->manual_control)
return;
if (type) {
scanType = BTC_SCAN_START;
GLBtcWiFiInScanState = _TRUE;
} else {
scanType = BTC_SCAN_FINISH;
GLBtcWiFiInScanState = _FALSE;
}
/* All notify is called in cmd thread, don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_scan_notify(pBtCoexist, scanType);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_scan_notify(pBtCoexist, scanType);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_scan_notify(pBtCoexist, scanType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_scan_notify(pBtCoexist, scanType);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_scan_notify(pBtCoexist, scanType);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_SetAntennaPathNotify(PBTC_COEXIST pBtCoexist, u8 type)
{
#if 0
u8 switchType;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
if (pBtCoexist->manual_control)
return;
halbtcoutsrc_LeaveLowPower(pBtCoexist);
switchType = type;
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_set_antenna_notify(pBtCoexist, type);
}
if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_set_antenna_notify(pBtCoexist, type);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_set_antenna_notify(pBtCoexist, type);
}
halbtcoutsrc_NormalLowPower(pBtCoexist);
#endif
}
void EXhalbtcoutsrc_connect_notify(PBTC_COEXIST pBtCoexist, u8 assoType)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_connect_notify++;
if (pBtCoexist->manual_control)
return;
/* All notify is called in cmd thread, don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_connect_notify(pBtCoexist, assoType);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_connect_notify(pBtCoexist, assoType);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_connect_notify(pBtCoexist, assoType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_connect_notify(pBtCoexist, assoType);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_connect_notify(pBtCoexist, assoType);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_media_status_notify(PBTC_COEXIST pBtCoexist, RT_MEDIA_STATUS mediaStatus)
{
u8 mStatus = BTC_MEDIA_MAX;
PADAPTER adapter = NULL;
HAL_DATA_TYPE *hal = NULL;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
if (pBtCoexist->manual_control)
return;
pBtCoexist->statistics.cnt_media_status_notify++;
adapter = (PADAPTER)pBtCoexist->Adapter;
hal = GET_HAL_DATA(adapter);
if (RT_MEDIA_CONNECT == mediaStatus) {
if (hal->current_band_type == BAND_ON_2_4G)
mStatus = BTC_MEDIA_CONNECT;
else if (hal->current_band_type == BAND_ON_5G)
mStatus = BTC_MEDIA_CONNECT_5G;
else {
mStatus = BTC_MEDIA_CONNECT;
RTW_ERR("%s unknow band type\n", __func__);
}
} else
mStatus = BTC_MEDIA_DISCONNECT;
/* All notify is called in cmd thread, don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_media_status_notify(pBtCoexist, mStatus);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
/* compatible for 8821A */
if (mStatus == BTC_MEDIA_CONNECT_5G)
mStatus = BTC_MEDIA_CONNECT;
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_media_status_notify(pBtCoexist, mStatus);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
/* compatible for 8812A */
if (mStatus == BTC_MEDIA_CONNECT_5G)
mStatus = BTC_MEDIA_CONNECT;
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_media_status_notify(pBtCoexist, mStatus);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_media_status_notify(pBtCoexist, mStatus);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_specific_packet_notify(PBTC_COEXIST pBtCoexist, u8 pktType)
{
u8 packetType;
PADAPTER adapter = NULL;
HAL_DATA_TYPE *hal = NULL;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
if (pBtCoexist->manual_control)
return;
pBtCoexist->statistics.cnt_specific_packet_notify++;
adapter = (PADAPTER)pBtCoexist->Adapter;
hal = GET_HAL_DATA(adapter);
if (PACKET_DHCP == pktType)
packetType = BTC_PACKET_DHCP;
else if (PACKET_EAPOL == pktType)
packetType = BTC_PACKET_EAPOL;
else if (PACKET_ARP == pktType)
packetType = BTC_PACKET_ARP;
else {
packetType = BTC_PACKET_UNKNOWN;
return;
}
if (hal->current_band_type == BAND_ON_5G)
packetType |= BTC_5G_BAND;
/* All notify is called in cmd thread, don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_specific_packet_notify(pBtCoexist, packetType);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
/* compatible for 8821A */
if (hal->current_band_type == BAND_ON_5G)
packetType &= ~BTC_5G_BAND;
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_specific_packet_notify(pBtCoexist, packetType);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
/* compatible for 8812A */
if (hal->current_band_type == BAND_ON_5G)
packetType &= ~BTC_5G_BAND;
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_specific_packet_notify(pBtCoexist, packetType);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_specific_packet_notify(pBtCoexist, packetType);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_bt_info_notify(PBTC_COEXIST pBtCoexist, u8 *tmpBuf, u8 length)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_bt_info_notify++;
/* All notify is called in cmd thread, don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_bt_info_notify(pBtCoexist, tmpBuf, length);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_bt_info_notify(pBtCoexist, tmpBuf, length);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_WlFwDbgInfoNotify(PBTC_COEXIST pBtCoexist, u8* tmpBuf, u8 length)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_wl_fwdbginfo_notify(pBtCoexist, tmpBuf, length);
#else
if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8703B
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_wl_fwdbginfo_notify(pBtCoexist, tmpBuf, length);
#endif
}
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_wl_fwdbginfo_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_wl_fwdbginfo_notify(pBtCoexist, tmpBuf, length);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_wl_fwdbginfo_notify(pBtCoexist, tmpBuf, length);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_wl_fwdbginfo_notify(pBtCoexist, tmpBuf, length);
}
#endif
#endif
}
void EXhalbtcoutsrc_rx_rate_change_notify(PBTC_COEXIST pBtCoexist, u8 is_data_frame, u8 btc_rate_id)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_rate_id_notify++;
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_rx_rate_change_notify(pBtCoexist, is_data_frame, btc_rate_id);
#else
if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8703B
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_rx_rate_change_notify(pBtCoexist, is_data_frame, btc_rate_id);
#endif
}
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_rx_rate_change_notify(pBtCoexist, is_data_frame, btc_rate_id);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_rx_rate_change_notify(pBtCoexist, is_data_frame, btc_rate_id);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_rx_rate_change_notify(pBtCoexist, is_data_frame, btc_rate_id);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_rx_rate_change_notify(pBtCoexist, is_data_frame, btc_rate_id);
}
#endif
#endif
}
void
EXhalbtcoutsrc_RfStatusNotify(
PBTC_COEXIST pBtCoexist,
u8 type
)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_rf_status_notify++;
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_rf_status_notify(pBtCoexist, type);
#else
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8723B
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_rf_status_notify(pBtCoexist, type);
#endif
}
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_rf_status_notify(pBtCoexist, type);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_rf_status_notify(pBtCoexist, type);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_rf_status_notify(pBtCoexist, type);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_rf_status_notify(pBtCoexist, type);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_rf_status_notify(pBtCoexist, type);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_rf_status_notify(pBtCoexist, type);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_rf_status_notify(pBtCoexist, type);
}
#endif
#endif
}
void EXhalbtcoutsrc_StackOperationNotify(PBTC_COEXIST pBtCoexist, u8 type)
{
#if 0
u8 stackOpType;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cntStackOperationNotify++;
if (pBtCoexist->manual_control)
return;
if ((HCI_BT_OP_INQUIRY_START == type) ||
(HCI_BT_OP_PAGING_START == type) ||
(HCI_BT_OP_PAIRING_START == type))
stackOpType = BTC_STACK_OP_INQ_PAGE_PAIR_START;
else if ((HCI_BT_OP_INQUIRY_FINISH == type) ||
(HCI_BT_OP_PAGING_SUCCESS == type) ||
(HCI_BT_OP_PAGING_UNSUCCESS == type) ||
(HCI_BT_OP_PAIRING_FINISH == type))
stackOpType = BTC_STACK_OP_INQ_PAGE_PAIR_FINISH;
else
stackOpType = BTC_STACK_OP_NONE;
#endif
}
void EXhalbtcoutsrc_halt_notify(PBTC_COEXIST pBtCoexist)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_halt_notify++;
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_halt_notify(pBtCoexist);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_halt_notify(pBtCoexist);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_halt_notify(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_halt_notify(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_halt_notify(pBtCoexist);
}
#endif
#endif
}
void EXhalbtcoutsrc_SwitchBtTRxMask(PBTC_COEXIST pBtCoexist)
{
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2) {
halbtcoutsrc_SetBtReg(pBtCoexist, 0, 0x3c, 0x01); /* BT goto standby while GNT_BT 1-->0 */
} else if (pBtCoexist->board_info.btdm_ant_num == 1) {
halbtcoutsrc_SetBtReg(pBtCoexist, 0, 0x3c, 0x15); /* BT goto standby while GNT_BT 1-->0 */
}
}
}
void EXhalbtcoutsrc_pnp_notify(PBTC_COEXIST pBtCoexist, u8 pnpState)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_pnp_notify++;
/* */
/* currently only 1ant we have to do the notification, */
/* once pnp is notified to sleep state, we have to leave LPS that we can sleep normally. */
/* */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_pnp_notify(pBtCoexist, pnpState);
#else
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8723B
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_pnp_notify(pBtCoexist, pnpState);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_pnp_notify(pBtCoexist, pnpState);
#endif
}
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_pnp_notify(pBtCoexist, pnpState);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8821A
else if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_pnp_notify(pBtCoexist, pnpState);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_pnp_notify(pBtCoexist, pnpState);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_pnp_notify(pBtCoexist, pnpState);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_pnp_notify(pBtCoexist, pnpState);
}
#endif
#endif
}
void EXhalbtcoutsrc_CoexDmSwitch(PBTC_COEXIST pBtCoexist)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_coex_dm_switch++;
halbtcoutsrc_LeaveLowPower(pBtCoexist);
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8723B
if (pBtCoexist->board_info.btdm_ant_num == 1) {
pBtCoexist->stop_coex_dm = TRUE;
ex_halbtc8723b1ant_coex_dm_reset(pBtCoexist);
EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_DETECTED, 2);
ex_halbtc8723b2ant_init_hw_config(pBtCoexist, FALSE);
ex_halbtc8723b2ant_init_coex_dm(pBtCoexist);
pBtCoexist->stop_coex_dm = FALSE;
}
#endif
}
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1) {
pBtCoexist->stop_coex_dm = TRUE;
ex_halbtc8723d1ant_coex_dm_reset(pBtCoexist);
EXhalbtcoutsrc_SetAntNum(BT_COEX_ANT_TYPE_DETECTED, 2);
ex_halbtc8723d2ant_init_hw_config(pBtCoexist, FALSE);
ex_halbtc8723d2ant_init_coex_dm(pBtCoexist);
pBtCoexist->stop_coex_dm = FALSE;
}
}
#endif
halbtcoutsrc_NormalLowPower(pBtCoexist);
}
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
void EXhalbtcoutsrc_TimerNotify(PBTC_COEXIST pBtCoexist, u32 timer_type)
{
rtw_btc_ex_timerup_notify(pBtCoexist, timer_type);
}
void EXhalbtcoutsrc_WLStatusChangeNotify(PBTC_COEXIST pBtCoexist, u32 change_type)
{
rtw_btc_ex_wl_status_change_notify(pBtCoexist, change_type);
}
u32 EXhalbtcoutsrc_CoexTimerCheck(PBTC_COEXIST pBtCoexist)
{
u32 i, timer_map = 0;
for (i = 0; i < BTC_TIMER_MAX; i++) {
if (pBtCoexist->coex_sta.cnt_timer[i] > 0) {
if (pBtCoexist->coex_sta.cnt_timer[i] == 1) {
timer_map |= BIT(i);
RTW_DBG("[BTC], %s(): timer_map = 0x%x\n", __func__, timer_map);
}
pBtCoexist->coex_sta.cnt_timer[i]--;
}
}
return timer_map;
}
u32 EXhalbtcoutsrc_WLStatusCheck(PBTC_COEXIST pBtCoexist)
{
struct btc_wifi_link_info link_info;
const struct btc_chip_para *chip_para = pBtCoexist->chip_para;
u32 change_map = 0;
static bool wl_busy_pre;
bool wl_busy = _FALSE;
s32 wl_rssi;
u32 traffic_dir;
u8 i, tmp;
static u8 rssi_step_pre = 5, wl_noisy_level_pre = 4;
/* WL busy to idle or idle to busy */
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_BUSY, &wl_busy);
if (wl_busy != wl_busy_pre) {
if (wl_busy)
change_map |= BIT(BTC_WLSTATUS_CHANGE_TOBUSY);
else
change_map |= BIT(BTC_WLSTATUS_CHANGE_TOIDLE);
wl_busy_pre = wl_busy;
}
/* WL RSSI */
pBtCoexist->btc_get(pBtCoexist, BTC_GET_S4_WIFI_RSSI, &wl_rssi);
tmp = (u8)(wl_rssi & 0xff);
for (i = 0; i < 4; i++) {
if (tmp >= chip_para->wl_rssi_step[i])
break;
}
if (rssi_step_pre != i) {
rssi_step_pre = i;
change_map |= BIT(BTC_WLSTATUS_CHANGE_RSSI);
}
/* WL Link info */
pBtCoexist->btc_get(pBtCoexist, BTC_GET_BL_WIFI_LINK_INFO, &link_info);
if (link_info.link_mode != pBtCoexist->wifi_link_info.link_mode ||
link_info.sta_center_channel !=
pBtCoexist->wifi_link_info.sta_center_channel ||
link_info.p2p_center_channel !=
pBtCoexist->wifi_link_info.p2p_center_channel ||
link_info.bany_client_join_go !=
pBtCoexist->wifi_link_info.bany_client_join_go) {
change_map |= BIT(BTC_WLSTATUS_CHANGE_LINKINFO);
pBtCoexist->wifi_link_info = link_info;
}
/* WL Traffic Direction */
pBtCoexist->btc_get(pBtCoexist, BTC_GET_U4_WIFI_TRAFFIC_DIR, &traffic_dir);
if (wl_busy && traffic_dir != pBtCoexist->wifi_link_info_ext.traffic_dir) {
change_map |= BIT(BTC_WLSTATUS_CHANGE_DIR);
pBtCoexist->wifi_link_info_ext.traffic_dir = traffic_dir;
}
/* Noisy Detect */
if (pBtCoexist->coex_sta.wl_noisy_level != wl_noisy_level_pre) {
change_map |= BIT(BTC_WLSTATUS_CHANGE_NOISY);
wl_noisy_level_pre = pBtCoexist->coex_sta.wl_noisy_level;
}
RTW_DBG("[BTC], %s(): change_map = 0x%x\n", __func__, change_map);
return change_map;
}
void EXhalbtcoutsrc_status_monitor(PBTC_COEXIST pBtCoexist)
{
u32 timer_up_type = 0, wl_status_change_type = 0;
timer_up_type = EXhalbtcoutsrc_CoexTimerCheck(pBtCoexist);
if (timer_up_type != 0)
EXhalbtcoutsrc_TimerNotify(pBtCoexist, timer_up_type);
wl_status_change_type = EXhalbtcoutsrc_WLStatusCheck(pBtCoexist);
if (wl_status_change_type != 0)
EXhalbtcoutsrc_WLStatusChangeNotify(pBtCoexist, wl_status_change_type);
rtw_btc_ex_periodical(pBtCoexist);
}
#endif
void EXhalbtcoutsrc_periodical(PBTC_COEXIST pBtCoexist)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_periodical++;
/* Periodical should be called in cmd thread, */
/* don't need to leave low power again
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
EXhalbtcoutsrc_status_monitor(pBtCoexist);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1) {
if (!halbtcoutsrc_UnderIps(pBtCoexist))
ex_halbtc8821a1ant_periodical(pBtCoexist);
}
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_periodical(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_periodical(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_periodical(pBtCoexist);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
void EXhalbtcoutsrc_dbg_control(PBTC_COEXIST pBtCoexist, u8 opCode, u8 opLen, u8 *pData)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->statistics.cnt_dbg_ctrl++;
/* This function doesn't be called yet, */
/* default no need to leave low power to avoid deadlock
* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
/* rtw_btc_ex_dbg_control(pBtCoexist, opCode, opLen, pData); */
#else
if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8192E
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
#endif
}
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_dbg_control(pBtCoexist, opCode, opLen, pData);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter))
if(pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_dbg_control(pBtCoexist, opCode, opLen, pData);
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
#if 0
void
EXhalbtcoutsrc_AntennaDetection(
PBTC_COEXIST pBtCoexist,
u32 centFreq,
u32 offset,
u32 span,
u32 seconds
)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
/* Need to refine the following power save operations to enable this function in the future */
#if 0
IPSDisable(pBtCoexist->Adapter, FALSE, 0);
LeisurePSLeave(pBtCoexist->Adapter, LPS_DISABLE_BT_COEX);
#endif
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_AntennaDetection(pBtCoexist, centFreq, offset, span, seconds);
}
/* IPSReturn(pBtCoexist->Adapter, 0xff); */
}
#endif
void EXhalbtcoutsrc_StackUpdateProfileInfo(void)
{
#ifdef CONFIG_BT_COEXIST_SOCKET_TRX
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
PADAPTER padapter = NULL;
PBT_MGNT pBtMgnt = NULL;
u8 i;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
padapter = (PADAPTER)pBtCoexist->Adapter;
pBtMgnt = &padapter->coex_info.BtMgnt;
pBtCoexist->stack_info.profile_notified = _TRUE;
pBtCoexist->stack_info.num_of_link =
pBtMgnt->ExtConfig.NumberOfACL + pBtMgnt->ExtConfig.NumberOfSCO;
/* reset first */
pBtCoexist->stack_info.bt_link_exist = _FALSE;
pBtCoexist->stack_info.sco_exist = _FALSE;
pBtCoexist->stack_info.acl_exist = _FALSE;
pBtCoexist->stack_info.a2dp_exist = _FALSE;
pBtCoexist->stack_info.hid_exist = _FALSE;
pBtCoexist->stack_info.num_of_hid = 0;
pBtCoexist->stack_info.pan_exist = _FALSE;
if (!pBtMgnt->ExtConfig.NumberOfACL)
pBtCoexist->stack_info.min_bt_rssi = 0;
if (pBtCoexist->stack_info.num_of_link) {
pBtCoexist->stack_info.bt_link_exist = _TRUE;
if (pBtMgnt->ExtConfig.NumberOfSCO)
pBtCoexist->stack_info.sco_exist = _TRUE;
if (pBtMgnt->ExtConfig.NumberOfACL)
pBtCoexist->stack_info.acl_exist = _TRUE;
}
for (i = 0; i < pBtMgnt->ExtConfig.NumberOfACL; i++) {
if (BT_PROFILE_A2DP == pBtMgnt->ExtConfig.aclLink[i].BTProfile)
pBtCoexist->stack_info.a2dp_exist = _TRUE;
else if (BT_PROFILE_PAN == pBtMgnt->ExtConfig.aclLink[i].BTProfile)
pBtCoexist->stack_info.pan_exist = _TRUE;
else if (BT_PROFILE_HID == pBtMgnt->ExtConfig.aclLink[i].BTProfile) {
pBtCoexist->stack_info.hid_exist = _TRUE;
pBtCoexist->stack_info.num_of_hid++;
} else
pBtCoexist->stack_info.unknown_acl_exist = _TRUE;
}
#endif /* CONFIG_BT_COEXIST_SOCKET_TRX */
}
void EXhalbtcoutsrc_UpdateMinBtRssi(s8 btRssi)
{
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->stack_info.min_bt_rssi = btRssi;
}
void EXhalbtcoutsrc_SetHciVersion(u16 hciVersion)
{
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->stack_info.hci_version = hciVersion;
}
void EXhalbtcoutsrc_SetBtPatchVersion(u16 btHciVersion, u16 btPatchVersion)
{
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
pBtCoexist->bt_info.bt_real_fw_ver = btPatchVersion;
pBtCoexist->bt_info.bt_hci_ver = btHciVersion;
}
#if 0
void EXhalbtcoutsrc_SetBtExist(u8 bBtExist)
{
GLBtCoexist.boardInfo.bBtExist = bBtExist;
}
#endif
void EXhalbtcoutsrc_SetChipType(u8 chipType)
{
switch (chipType) {
default:
case BT_2WIRE:
case BT_ISSC_3WIRE:
case BT_ACCEL:
case BT_RTL8756:
GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_UNDEF;
break;
case BT_CSR_BC4:
GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_CSR_BC4;
break;
case BT_CSR_BC8:
GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_CSR_BC8;
break;
case BT_RTL8723A:
GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8723A;
break;
case BT_RTL8821:
GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8821;
break;
case BT_RTL8723B:
GLBtCoexist.board_info.bt_chip_type = BTC_CHIP_RTL8723B;
break;
}
}
void EXhalbtcoutsrc_SetAntNum(u8 type, u8 antNum)
{
if (BT_COEX_ANT_TYPE_PG == type) {
GLBtCoexist.board_info.pg_ant_num = antNum;
GLBtCoexist.board_info.btdm_ant_num = antNum;
#if 0
/* The antenna position: Main (default) or Aux for pgAntNum=2 && btdmAntNum =1 */
/* The antenna position should be determined by auto-detect mechanism */
/* The following is assumed to main, and those must be modified if y auto-detect mechanism is ready */
if ((GLBtCoexist.board_info.pg_ant_num == 2) && (GLBtCoexist.board_info.btdm_ant_num == 1))
GLBtCoexist.board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
else
GLBtCoexist.board_info.btdm_ant_pos = BTC_ANTENNA_AT_MAIN_PORT;
#endif
} else if (BT_COEX_ANT_TYPE_ANTDIV == type) {
GLBtCoexist.board_info.btdm_ant_num = antNum;
/* GLBtCoexist.boardInfo.btdmAntPos = BTC_ANTENNA_AT_MAIN_PORT; */
} else if (BT_COEX_ANT_TYPE_DETECTED == type) {
GLBtCoexist.board_info.btdm_ant_num = antNum;
/* GLBtCoexist.boardInfo.btdmAntPos = BTC_ANTENNA_AT_MAIN_PORT; */
}
}
/*
* Currently used by 8723b only, S0 or S1
* */
void EXhalbtcoutsrc_SetSingleAntPath(u8 singleAntPath)
{
GLBtCoexist.board_info.single_ant_path = singleAntPath;
}
void EXhalbtcoutsrc_DisplayBtCoexInfo(PBTC_COEXIST pBtCoexist)
{
HAL_DATA_TYPE *pHalData = NULL;
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
halbtcoutsrc_LeaveLowPower(pBtCoexist);
/* To prevent the racing with IPS enter */
halbtcoutsrc_EnterPwrLock(pBtCoexist);
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
pHalData = GET_HAL_DATA((PADAPTER)pBtCoexist->Adapter);
if (pHalData->EEPROMBluetoothCoexist == _TRUE)
rtw_btc_ex_display_coex_info(pBtCoexist);
#else
if (IS_HARDWARE_TYPE_8821(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8821A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821a2ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821a1ant_display_coex_info(pBtCoexist);
#endif
}
#ifdef CONFIG_RTL8723B
else if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723b2ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8703B
else if (IS_HARDWARE_TYPE_8703B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8703b1ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8723D
else if (IS_HARDWARE_TYPE_8723D(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8723d2ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723d1ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8192E
else if (IS_HARDWARE_TYPE_8192E(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8192e2ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8192e1ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8812A
else if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8812a1ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8822B
else if (IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_display_coex_info(pBtCoexist);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_display_coex_info(pBtCoexist);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_display_coex_info(pBtCoexist);
}
#endif
#endif
halbtcoutsrc_ExitPwrLock(pBtCoexist);
halbtcoutsrc_NormalLowPower(pBtCoexist);
}
void EXhalbtcoutsrc_DisplayAntDetection(PBTC_COEXIST pBtCoexist)
{
if (!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
halbtcoutsrc_LeaveLowPower(pBtCoexist);
if (IS_HARDWARE_TYPE_8723B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8723B
if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8723b1ant_display_ant_detection(pBtCoexist);
#endif
}
halbtcoutsrc_NormalLowPower(pBtCoexist);
}
void ex_halbtcoutsrc_pta_off_on_notify(PBTC_COEXIST pBtCoexist, u8 bBTON)
{
if (IS_HARDWARE_TYPE_8812(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8812A
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8812a2ant_pta_off_on_notify(pBtCoexist, (bBTON == _TRUE) ? BTC_BT_ON : BTC_BT_OFF);
#endif
}
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_pta_off_on_notify(pBtCoexist, (bBTON == _TRUE) ? BTC_BT_ON : BTC_BT_OFF);
}
#endif
}
void EXhalbtcoutsrc_set_rfe_type(u8 type)
{
GLBtCoexist.board_info.rfe_type= type;
}
#ifdef CONFIG_RF4CE_COEXIST
void EXhalbtcoutsrc_set_rf4ce_link_state(u8 state)
{
GLBtCoexist.rf4ce_info.link_state = state;
}
u8 EXhalbtcoutsrc_get_rf4ce_link_state(void)
{
return GLBtCoexist.rf4ce_info.link_state;
}
#endif
void EXhalbtcoutsrc_switchband_notify(struct btc_coexist *pBtCoexist, u8 type)
{
if(!halbtcoutsrc_IsBtCoexistAvailable(pBtCoexist))
return;
if(pBtCoexist->manual_control)
return;
/* Driver should guarantee that the HW status isn't in low power mode */
/* halbtcoutsrc_LeaveLowPower(pBtCoexist); */
#if (CONFIG_BTCOEX_SUPPORT_BTC_CMN == 1)
rtw_btc_ex_switchband_notify(pBtCoexist, type);
#else
if(IS_HARDWARE_TYPE_8822B(pBtCoexist->Adapter)) {
#ifdef CONFIG_RTL8822B
if(pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8822b1ant_switchband_notify(pBtCoexist, type);
else if(pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8822b2ant_switchband_notify(pBtCoexist, type);
#endif
}
#ifdef CONFIG_RTL8821C
else if (IS_HARDWARE_TYPE_8821C(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8821c2ant_switchband_notify(pBtCoexist, type);
else if (pBtCoexist->board_info.btdm_ant_num == 1)
ex_halbtc8821c1ant_switchband_notify(pBtCoexist, type);
}
#endif
#ifdef CONFIG_RTL8814A
else if (IS_HARDWARE_TYPE_8814A(pBtCoexist->Adapter)) {
if (pBtCoexist->board_info.btdm_ant_num == 2)
ex_halbtc8814a2ant_switchband_notify(pBtCoexist, type);
}
#endif
#endif
/* halbtcoutsrc_NormalLowPower(pBtCoexist); */
}
u8 EXhalbtcoutsrc_rate_id_to_btc_rate_id(u8 rate_id)
{
u8 btc_rate_id = BTC_UNKNOWN;
switch (rate_id) {
/* CCK rates */
case DESC_RATE1M:
btc_rate_id = BTC_CCK_1;
break;
case DESC_RATE2M:
btc_rate_id = BTC_CCK_2;
break;
case DESC_RATE5_5M:
btc_rate_id = BTC_CCK_5_5;
break;
case DESC_RATE11M:
btc_rate_id = BTC_CCK_11;
break;
/* OFDM rates */
case DESC_RATE6M:
btc_rate_id = BTC_OFDM_6;
break;
case DESC_RATE9M:
btc_rate_id = BTC_OFDM_9;
break;
case DESC_RATE12M:
btc_rate_id = BTC_OFDM_12;
break;
case DESC_RATE18M:
btc_rate_id = BTC_OFDM_18;
break;
case DESC_RATE24M:
btc_rate_id = BTC_OFDM_24;
break;
case DESC_RATE36M:
btc_rate_id = BTC_OFDM_36;
break;
case DESC_RATE48M:
btc_rate_id = BTC_OFDM_48;
break;
case DESC_RATE54M:
btc_rate_id = BTC_OFDM_54;
break;
/* MCS rates */
case DESC_RATEMCS0:
btc_rate_id = BTC_MCS_0;
break;
case DESC_RATEMCS1:
btc_rate_id = BTC_MCS_1;
break;
case DESC_RATEMCS2:
btc_rate_id = BTC_MCS_2;
break;
case DESC_RATEMCS3:
btc_rate_id = BTC_MCS_3;
break;
case DESC_RATEMCS4:
btc_rate_id = BTC_MCS_4;
break;
case DESC_RATEMCS5:
btc_rate_id = BTC_MCS_5;
break;
case DESC_RATEMCS6:
btc_rate_id = BTC_MCS_6;
break;
case DESC_RATEMCS7:
btc_rate_id = BTC_MCS_7;
break;
case DESC_RATEMCS8:
btc_rate_id = BTC_MCS_8;
break;
case DESC_RATEMCS9:
btc_rate_id = BTC_MCS_9;
break;
case DESC_RATEMCS10:
btc_rate_id = BTC_MCS_10;
break;
case DESC_RATEMCS11:
btc_rate_id = BTC_MCS_11;
break;
case DESC_RATEMCS12:
btc_rate_id = BTC_MCS_12;
break;
case DESC_RATEMCS13:
btc_rate_id = BTC_MCS_13;
break;
case DESC_RATEMCS14:
btc_rate_id = BTC_MCS_14;
break;
case DESC_RATEMCS15:
btc_rate_id = BTC_MCS_15;
break;
case DESC_RATEMCS16:
btc_rate_id = BTC_MCS_16;
break;
case DESC_RATEMCS17:
btc_rate_id = BTC_MCS_17;
break;
case DESC_RATEMCS18:
btc_rate_id = BTC_MCS_18;
break;
case DESC_RATEMCS19:
btc_rate_id = BTC_MCS_19;
break;
case DESC_RATEMCS20:
btc_rate_id = BTC_MCS_20;
break;
case DESC_RATEMCS21:
btc_rate_id = BTC_MCS_21;
break;
case DESC_RATEMCS22:
btc_rate_id = BTC_MCS_22;
break;
case DESC_RATEMCS23:
btc_rate_id = BTC_MCS_23;
break;
case DESC_RATEMCS24:
btc_rate_id = BTC_MCS_24;
break;
case DESC_RATEMCS25:
btc_rate_id = BTC_MCS_25;
break;
case DESC_RATEMCS26:
btc_rate_id = BTC_MCS_26;
break;
case DESC_RATEMCS27:
btc_rate_id = BTC_MCS_27;
break;
case DESC_RATEMCS28:
btc_rate_id = BTC_MCS_28;
break;
case DESC_RATEMCS29:
btc_rate_id = BTC_MCS_29;
break;
case DESC_RATEMCS30:
btc_rate_id = BTC_MCS_30;
break;
case DESC_RATEMCS31:
btc_rate_id = BTC_MCS_31;
break;
case DESC_RATEVHTSS1MCS0:
btc_rate_id = BTC_VHT_1SS_MCS_0;
break;
case DESC_RATEVHTSS1MCS1:
btc_rate_id = BTC_VHT_1SS_MCS_1;
break;
case DESC_RATEVHTSS1MCS2:
btc_rate_id = BTC_VHT_1SS_MCS_2;
break;
case DESC_RATEVHTSS1MCS3:
btc_rate_id = BTC_VHT_1SS_MCS_3;
break;
case DESC_RATEVHTSS1MCS4:
btc_rate_id = BTC_VHT_1SS_MCS_4;
break;
case DESC_RATEVHTSS1MCS5:
btc_rate_id = BTC_VHT_1SS_MCS_5;
break;
case DESC_RATEVHTSS1MCS6:
btc_rate_id = BTC_VHT_1SS_MCS_6;
break;
case DESC_RATEVHTSS1MCS7:
btc_rate_id = BTC_VHT_1SS_MCS_7;
break;
case DESC_RATEVHTSS1MCS8:
btc_rate_id = BTC_VHT_1SS_MCS_8;
break;
case DESC_RATEVHTSS1MCS9:
btc_rate_id = BTC_VHT_1SS_MCS_9;
break;
case DESC_RATEVHTSS2MCS0:
btc_rate_id = BTC_VHT_2SS_MCS_0;
break;
case DESC_RATEVHTSS2MCS1:
btc_rate_id = BTC_VHT_2SS_MCS_1;
break;
case DESC_RATEVHTSS2MCS2:
btc_rate_id = BTC_VHT_2SS_MCS_2;
break;
case DESC_RATEVHTSS2MCS3:
btc_rate_id = BTC_VHT_2SS_MCS_3;
break;
case DESC_RATEVHTSS2MCS4:
btc_rate_id = BTC_VHT_2SS_MCS_4;
break;
case DESC_RATEVHTSS2MCS5:
btc_rate_id = BTC_VHT_2SS_MCS_5;
break;
case DESC_RATEVHTSS2MCS6:
btc_rate_id = BTC_VHT_2SS_MCS_6;
break;
case DESC_RATEVHTSS2MCS7:
btc_rate_id = BTC_VHT_2SS_MCS_7;
break;
case DESC_RATEVHTSS2MCS8:
btc_rate_id = BTC_VHT_2SS_MCS_8;
break;
case DESC_RATEVHTSS2MCS9:
btc_rate_id = BTC_VHT_2SS_MCS_9;
break;
case DESC_RATEVHTSS3MCS0:
btc_rate_id = BTC_VHT_3SS_MCS_0;
break;
case DESC_RATEVHTSS3MCS1:
btc_rate_id = BTC_VHT_3SS_MCS_1;
break;
case DESC_RATEVHTSS3MCS2:
btc_rate_id = BTC_VHT_3SS_MCS_2;
break;
case DESC_RATEVHTSS3MCS3:
btc_rate_id = BTC_VHT_3SS_MCS_3;
break;
case DESC_RATEVHTSS3MCS4:
btc_rate_id = BTC_VHT_3SS_MCS_4;
break;
case DESC_RATEVHTSS3MCS5:
btc_rate_id = BTC_VHT_3SS_MCS_5;
break;
case DESC_RATEVHTSS3MCS6:
btc_rate_id = BTC_VHT_3SS_MCS_6;
break;
case DESC_RATEVHTSS3MCS7:
btc_rate_id = BTC_VHT_3SS_MCS_7;
break;
case DESC_RATEVHTSS3MCS8:
btc_rate_id = BTC_VHT_3SS_MCS_8;
break;
case DESC_RATEVHTSS3MCS9:
btc_rate_id = BTC_VHT_3SS_MCS_9;
break;
case DESC_RATEVHTSS4MCS0:
btc_rate_id = BTC_VHT_4SS_MCS_0;
break;
case DESC_RATEVHTSS4MCS1:
btc_rate_id = BTC_VHT_4SS_MCS_1;
break;
case DESC_RATEVHTSS4MCS2:
btc_rate_id = BTC_VHT_4SS_MCS_2;
break;
case DESC_RATEVHTSS4MCS3:
btc_rate_id = BTC_VHT_4SS_MCS_3;
break;
case DESC_RATEVHTSS4MCS4:
btc_rate_id = BTC_VHT_4SS_MCS_4;
break;
case DESC_RATEVHTSS4MCS5:
btc_rate_id = BTC_VHT_4SS_MCS_5;
break;
case DESC_RATEVHTSS4MCS6:
btc_rate_id = BTC_VHT_4SS_MCS_6;
break;
case DESC_RATEVHTSS4MCS7:
btc_rate_id = BTC_VHT_4SS_MCS_7;
break;
case DESC_RATEVHTSS4MCS8:
btc_rate_id = BTC_VHT_4SS_MCS_8;
break;
case DESC_RATEVHTSS4MCS9:
btc_rate_id = BTC_VHT_4SS_MCS_9;
break;
}
return btc_rate_id;
}
/*
* Description:
* Run BT-Coexist mechansim or not
*
*/
void hal_btcoex_SetBTCoexist(PADAPTER padapter, u8 bBtExist)
{
PHAL_DATA_TYPE pHalData;
pHalData = GET_HAL_DATA(padapter);
pHalData->bt_coexist.bBtExist = bBtExist;
}
/*
* Dewcription:
* Check is co-exist mechanism enabled or not
*
* Return:
* _TRUE Enable BT co-exist mechanism
* _FALSE Disable BT co-exist mechanism
*/
u8 hal_btcoex_IsBtExist(PADAPTER padapter)
{
PHAL_DATA_TYPE pHalData;
pHalData = GET_HAL_DATA(padapter);
return pHalData->bt_coexist.bBtExist;
}
u8 hal_btcoex_IsBtDisabled(PADAPTER padapter)
{
if (!hal_btcoex_IsBtExist(padapter))
return _TRUE;
if (GLBtCoexist.bt_info.bt_disabled)
return _TRUE;
else
return _FALSE;
}
void hal_btcoex_SetChipType(PADAPTER padapter, u8 chipType)
{
PHAL_DATA_TYPE pHalData;
pHalData = GET_HAL_DATA(padapter);
pHalData->bt_coexist.btChipType = chipType;
}
void hal_btcoex_SetPgAntNum(PADAPTER padapter, u8 antNum)
{
PHAL_DATA_TYPE pHalData;
pHalData = GET_HAL_DATA(padapter);
pHalData->bt_coexist.btTotalAntNum = antNum;
}
u8 hal_btcoex_Initialize(PADAPTER padapter)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
u8 ret;
_rtw_memset(&GLBtCoexist, 0, sizeof(GLBtCoexist));
ret = EXhalbtcoutsrc_InitlizeVariables((void *)padapter);
return ret;
}
void hal_btcoex_PowerOnSetting(PADAPTER padapter)
{
EXhalbtcoutsrc_PowerOnSetting(&GLBtCoexist);
}
void hal_btcoex_AntInfoSetting(PADAPTER padapter)
{
hal_btcoex_SetBTCoexist(padapter, rtw_btcoex_get_bt_coexist(padapter));
hal_btcoex_SetChipType(padapter, rtw_btcoex_get_chip_type(padapter));
hal_btcoex_SetPgAntNum(padapter, rtw_btcoex_get_pg_ant_num(padapter));
EXhalbtcoutsrc_AntInfoSetting(padapter);
}
void hal_btcoex_PowerOffSetting(PADAPTER padapter)
{
/* Clear the WiFi on/off bit in scoreboard reg. if necessary */
if (IS_HARDWARE_TYPE_8703B(padapter) || IS_HARDWARE_TYPE_8723D(padapter)
|| IS_HARDWARE_TYPE_8821C(padapter) || IS_HARDWARE_TYPE_8822B(padapter)
|| IS_HARDWARE_TYPE_8822C(padapter))
rtw_write16(padapter, 0xaa, 0x8000);
}
void hal_btcoex_PreLoadFirmware(PADAPTER padapter)
{
EXhalbtcoutsrc_PreLoadFirmware(&GLBtCoexist);
}
void hal_btcoex_InitHwConfig(PADAPTER padapter, u8 bWifiOnly)
{
if (!hal_btcoex_IsBtExist(padapter))
return;
EXhalbtcoutsrc_init_hw_config(&GLBtCoexist, bWifiOnly);
EXhalbtcoutsrc_init_coex_dm(&GLBtCoexist);
}
void hal_btcoex_IpsNotify(PADAPTER padapter, u8 type)
{
EXhalbtcoutsrc_ips_notify(&GLBtCoexist, type);
}
void hal_btcoex_LpsNotify(PADAPTER padapter, u8 type)
{
EXhalbtcoutsrc_lps_notify(&GLBtCoexist, type);
}
void hal_btcoex_ScanNotify(PADAPTER padapter, u8 type)
{
EXhalbtcoutsrc_scan_notify(&GLBtCoexist, type);
}
void hal_btcoex_ConnectNotify(PADAPTER padapter, u8 action)
{
u8 assoType = 0;
u8 is_5g_band = _FALSE;
is_5g_band = (padapter->mlmeextpriv.cur_channel > 14) ? _TRUE : _FALSE;
if (action == _TRUE) {
if (is_5g_band == _TRUE)
assoType = BTC_ASSOCIATE_5G_START;
else
assoType = BTC_ASSOCIATE_START;
}
else {
if (is_5g_band == _TRUE)
assoType = BTC_ASSOCIATE_5G_FINISH;
else
assoType = BTC_ASSOCIATE_FINISH;
}
EXhalbtcoutsrc_connect_notify(&GLBtCoexist, assoType);
}
void hal_btcoex_MediaStatusNotify(PADAPTER padapter, u8 mediaStatus)
{
EXhalbtcoutsrc_media_status_notify(&GLBtCoexist, mediaStatus);
}
void hal_btcoex_SpecialPacketNotify(PADAPTER padapter, u8 pktType)
{
EXhalbtcoutsrc_specific_packet_notify(&GLBtCoexist, pktType);
}
void hal_btcoex_IQKNotify(PADAPTER padapter, u8 state)
{
GLBtcWiFiInIQKState = state;
}
void hal_btcoex_BtInfoNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
{
if (GLBtcWiFiInIQKState == _TRUE)
return;
EXhalbtcoutsrc_bt_info_notify(&GLBtCoexist, tmpBuf, length);
}
void hal_btcoex_BtMpRptNotify(PADAPTER padapter, u8 length, u8 *tmpBuf)
{
u8 extid, status, len, seq;
if (GLBtcBtMpRptWait == _FALSE)
return;
if ((length < 3) || (!tmpBuf))
return;
extid = tmpBuf[0];
/* not response from BT FW then exit*/
switch (extid) {
case C2H_WIFI_FW_ACTIVE_RSP:
GLBtcBtMpRptWiFiOK = _TRUE;
break;
case C2H_TRIG_BY_BT_FW:
GLBtcBtMpRptBTOK = _TRUE;
status = tmpBuf[1] & 0xF;
len = length - 3;
seq = tmpBuf[2] >> 4;
GLBtcBtMpRptSeq = seq;
GLBtcBtMpRptStatus = status;
_rtw_memcpy(GLBtcBtMpRptRsp, tmpBuf + 3, len);
GLBtcBtMpRptRspSize = len;
break;
default:
return;
}
if ((GLBtcBtMpRptWiFiOK == _TRUE) && (GLBtcBtMpRptBTOK == _TRUE)) {
GLBtcBtMpRptWait = _FALSE;
_cancel_timer_ex(&GLBtcBtMpOperTimer);
_rtw_up_sema(&GLBtcBtMpRptSema);
}
}
void hal_btcoex_SuspendNotify(PADAPTER padapter, u8 state)
{
switch (state) {
case BTCOEX_SUSPEND_STATE_SUSPEND:
EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP);
break;
case BTCOEX_SUSPEND_STATE_SUSPEND_KEEP_ANT:
/* should switch to "#if 1" once all ICs' coex. revision are upgraded to support the KEEP_ANT case */
#if 0
EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP_KEEP_ANT);
#else
EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP);
EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_SLEEP_KEEP_ANT);
#endif
break;
case BTCOEX_SUSPEND_STATE_RESUME:
#ifdef CONFIG_FW_MULTI_PORT_SUPPORT
/* re-download FW after resume, inform WL FW port number */
rtw_hal_set_wifi_btc_port_id_cmd(GLBtCoexist.Adapter);
#endif
EXhalbtcoutsrc_pnp_notify(&GLBtCoexist, BTC_WIFI_PNP_WAKE_UP);
break;
}
}
void hal_btcoex_HaltNotify(PADAPTER padapter, u8 do_halt)
{
if (do_halt == 1)
EXhalbtcoutsrc_halt_notify(&GLBtCoexist);
GLBtCoexist.bBinded = _FALSE;
GLBtCoexist.Adapter = NULL;
}
void hal_btcoex_SwitchBtTRxMask(PADAPTER padapter)
{
EXhalbtcoutsrc_SwitchBtTRxMask(&GLBtCoexist);
}
void hal_btcoex_Hanlder(PADAPTER padapter)
{
u32 bt_patch_ver;
EXhalbtcoutsrc_periodical(&GLBtCoexist);
if (GLBtCoexist.bt_info.bt_get_fw_ver == 0) {
GLBtCoexist.btc_get(&GLBtCoexist, BTC_GET_U4_BT_PATCH_VER, &bt_patch_ver);
GLBtCoexist.bt_info.bt_get_fw_ver = bt_patch_ver;
}
}
s32 hal_btcoex_IsBTCoexRejectAMPDU(PADAPTER padapter)
{
return (s32)GLBtCoexist.bt_info.reject_agg_pkt;
}
s32 hal_btcoex_IsBTCoexCtrlAMPDUSize(PADAPTER padapter)
{
return (s32)GLBtCoexist.bt_info.bt_ctrl_agg_buf_size;
}
u32 hal_btcoex_GetAMPDUSize(PADAPTER padapter)
{
return (u32)GLBtCoexist.bt_info.agg_buf_size;
}
void hal_btcoex_SetManualControl(PADAPTER padapter, u8 bmanual)
{
GLBtCoexist.manual_control = bmanual;
}
u8 hal_btcoex_1Ant(PADAPTER padapter)
{
if (hal_btcoex_IsBtExist(padapter) == _FALSE)
return _FALSE;
if (GLBtCoexist.board_info.btdm_ant_num == 1)
return _TRUE;
return _FALSE;
}
u8 hal_btcoex_IsBtControlLps(PADAPTER padapter)
{
if (GLBtCoexist.bdontenterLPS == _TRUE)
return _TRUE;
if (hal_btcoex_IsBtExist(padapter) == _FALSE)
return _FALSE;
if (GLBtCoexist.bt_info.bt_disabled)
return _FALSE;
if (GLBtCoexist.bt_info.bt_ctrl_lps)
return _TRUE;
return _FALSE;
}
u8 hal_btcoex_IsLpsOn(PADAPTER padapter)
{
if (GLBtCoexist.bdontenterLPS == _TRUE)
return _FALSE;
if (hal_btcoex_IsBtExist(padapter) == _FALSE)
return _FALSE;
if (GLBtCoexist.bt_info.bt_disabled)
return _FALSE;
if (GLBtCoexist.bt_info.bt_lps_on)
return _TRUE;
return _FALSE;
}
u8 hal_btcoex_RpwmVal(PADAPTER padapter)
{
return GLBtCoexist.bt_info.rpwm_val;
}
u8 hal_btcoex_LpsVal(PADAPTER padapter)
{
return GLBtCoexist.bt_info.lps_val;
}
u32 hal_btcoex_GetRaMask(PADAPTER padapter)
{
if (!hal_btcoex_IsBtExist(padapter))
return 0;
if (GLBtCoexist.bt_info.bt_disabled)
return 0;
/* Modify by YiWei , suggest by Cosa and Jenyu
* Remove the limit antenna number , because 2 antenna case (ex: 8192eu)also want to get BT coex report rate mask.
*/
/*if (GLBtCoexist.board_info.btdm_ant_num != 1)
return 0;*/
return GLBtCoexist.bt_info.ra_mask;
}
u8 hal_btcoex_query_reduced_wl_pwr_lvl(PADAPTER padapter)
{
return GLBtCoexist.coex_dm.cur_wl_pwr_lvl;
}
void hal_btcoex_set_reduced_wl_pwr_lvl(PADAPTER padapter, u8 val)
{
GLBtCoexist.coex_dm.cur_wl_pwr_lvl = val;
}
void hal_btcoex_do_reduce_wl_pwr_lvl(PADAPTER padapter)
{
halbtcoutsrc_reduce_wl_tx_power(&GLBtCoexist, 0);
}
void hal_btcoex_RecordPwrMode(PADAPTER padapter, u8 *pCmdBuf, u8 cmdLen)
{
_rtw_memcpy(GLBtCoexist.pwrModeVal, pCmdBuf, cmdLen);
}
void hal_btcoex_DisplayBtCoexInfo(PADAPTER padapter, u8 *pbuf, u32 bufsize)
{
PBTCDBGINFO pinfo;
pinfo = &GLBtcDbgInfo;
DBG_BT_INFO_INIT(pinfo, pbuf, bufsize);
EXhalbtcoutsrc_DisplayBtCoexInfo(&GLBtCoexist);
DBG_BT_INFO_INIT(pinfo, NULL, 0);
}
void hal_btcoex_SetDBG(PADAPTER padapter, u32 *pDbgModule)
{
u32 i;
if (NULL == pDbgModule)
return;
for (i = 0; i < COMP_MAX; i++)
GLBtcDbgType[i] = pDbgModule[i];
}
u32 hal_btcoex_GetDBG(PADAPTER padapter, u8 *pStrBuf, u32 bufSize)
{
s32 count;
u8 *pstr;
u32 leftSize;
if ((NULL == pStrBuf) || (0 == bufSize))
return 0;
count = 0;
pstr = pStrBuf;
leftSize = bufSize;
/* RTW_INFO(FUNC_ADPT_FMT ": bufsize=%d\n", FUNC_ADPT_ARG(padapter), bufSize); */
count = rtw_sprintf(pstr, leftSize, "#define DBG\t%d\n", DBG);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "BTCOEX Debug Setting:\n");
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize,
"COMP_COEX: 0x%08X\n\n",
GLBtcDbgType[COMP_COEX]);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
#if 0
count = rtw_sprintf(pstr, leftSize, "INTERFACE Debug Setting Definition:\n");
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[0]=%d for INTF_INIT\n",
GLBtcDbgType[BTC_MSG_INTERFACE] & INTF_INIT ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[2]=%d for INTF_NOTIFY\n\n",
GLBtcDbgType[BTC_MSG_INTERFACE] & INTF_NOTIFY ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "ALGORITHM Debug Setting Definition:\n");
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[0]=%d for BT_RSSI_STATE\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_BT_RSSI_STATE ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[1]=%d for WIFI_RSSI_STATE\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_WIFI_RSSI_STATE ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[2]=%d for BT_MONITOR\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_BT_MONITOR ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[3]=%d for TRACE\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[4]=%d for TRACE_FW\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[5]=%d for TRACE_FW_DETAIL\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW_DETAIL ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[6]=%d for TRACE_FW_EXEC\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_FW_EXEC ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[7]=%d for TRACE_SW\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[8]=%d for TRACE_SW_DETAIL\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW_DETAIL ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
count = rtw_sprintf(pstr, leftSize, "\tbit[9]=%d for TRACE_SW_EXEC\n",
GLBtcDbgType[BTC_MSG_ALGORITHM] & ALGO_TRACE_SW_EXEC ? 1 : 0);
if ((count < 0) || (count >= leftSize))
goto exit;
pstr += count;
leftSize -= count;
#endif
exit:
count = pstr - pStrBuf;
/* RTW_INFO(FUNC_ADPT_FMT ": usedsize=%d\n", FUNC_ADPT_ARG(padapter), count); */
return count;
}
u8 hal_btcoex_IncreaseScanDeviceNum(PADAPTER padapter)
{
if (!hal_btcoex_IsBtExist(padapter))
return _FALSE;
if (GLBtCoexist.bt_info.increase_scan_dev_num)
return _TRUE;
return _FALSE;
}
u8 hal_btcoex_IsBtLinkExist(PADAPTER padapter)
{
if (GLBtCoexist.bt_link_info.bt_link_exist)
return _TRUE;
return _FALSE;
}
void hal_btcoex_SetBtPatchVersion(PADAPTER padapter, u16 btHciVer, u16 btPatchVer)
{
EXhalbtcoutsrc_SetBtPatchVersion(btHciVer, btPatchVer);
}
void hal_btcoex_SetHciVersion(PADAPTER padapter, u16 hciVersion)
{
EXhalbtcoutsrc_SetHciVersion(hciVersion);
}
void hal_btcoex_StackUpdateProfileInfo(void)
{
EXhalbtcoutsrc_StackUpdateProfileInfo();
}
void hal_btcoex_pta_off_on_notify(PADAPTER padapter, u8 bBTON)
{
ex_halbtcoutsrc_pta_off_on_notify(&GLBtCoexist, bBTON);
}
/*
* Description:
* Setting BT coex antenna isolation type .
* coex mechanisn/ spital stream/ best throughput
* anttype = 0 , PSTDMA / 2SS / 0.5T , bad isolation , WiFi/BT ANT Distance<15cm , (<20dB) for 2,3 antenna
* anttype = 1 , PSTDMA / 1SS / 0.5T , normal isolaiton , 50cm>WiFi/BT ANT Distance>15cm , (>20dB) for 2 antenna
* anttype = 2 , TDMA / 2SS / T , normal isolaiton , 50cm>WiFi/BT ANT Distance>15cm , (>20dB) for 3 antenna
* anttype = 3 , no TDMA / 1SS / 0.5T , good isolation , WiFi/BT ANT Distance >50cm , (>40dB) for 2 antenna
* anttype = 4 , no TDMA / 2SS / T , good isolation , WiFi/BT ANT Distance >50cm , (>40dB) for 3 antenna
* wifi only throughput ~ T
* wifi/BT share one antenna with SPDT
*/
void hal_btcoex_SetAntIsolationType(PADAPTER padapter, u8 anttype)
{
PHAL_DATA_TYPE pHalData;
PBTC_COEXIST pBtCoexist = &GLBtCoexist;
/*RTW_INFO("####%s , anttype = %d , %d\n" , __func__ , anttype , __LINE__); */
pHalData = GET_HAL_DATA(padapter);
pHalData->bt_coexist.btAntisolation = anttype;
switch (pHalData->bt_coexist.btAntisolation) {
case 0:
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_0;
break;
case 1:
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_1;
break;
case 2:
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_2;
break;
case 3:
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_3;
break;
case 4:
pBtCoexist->board_info.ant_type = (u8)BTC_ANT_TYPE_4;
break;
}
}
#ifdef CONFIG_LOAD_PHY_PARA_FROM_FILE
int
hal_btcoex_ParseAntIsolationConfigFile(
PADAPTER Adapter,
char *buffer
)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
u32 i = 0 , j = 0;
char *szLine , *ptmp;
int rtStatus = _SUCCESS;
char param_value_string[10];
u8 param_value;
u8 anttype = 4;
u8 ant_num = 3 , ant_distance = 50 , rfe_type = 1;
typedef struct ant_isolation {
char *param_name; /* antenna isolation config parameter name */
u8 *value; /* antenna isolation config parameter value */
} ANT_ISOLATION;
ANT_ISOLATION ant_isolation_param[] = {
{"ANT_NUMBER" , &ant_num},
{"ANT_DISTANCE" , &ant_distance},
{"RFE_TYPE" , &rfe_type},
{NULL , 0}
};
/* RTW_INFO("===>Hal_ParseAntIsolationConfigFile()\n" ); */
ptmp = buffer;
for (szLine = GetLineFromBuffer(ptmp) ; szLine != NULL; szLine = GetLineFromBuffer(ptmp)) {
/* skip comment */
if (IsCommentString(szLine))
continue;
/* RTW_INFO("%s : szLine = %s , strlen(szLine) = %d\n" , __func__ , szLine , strlen(szLine));*/
for (j = 0 ; ant_isolation_param[j].param_name != NULL ; j++) {
if (strstr(szLine , ant_isolation_param[j].param_name) != NULL) {
i = 0;
while (i < strlen(szLine)) {
if (szLine[i] != '"')
++i;
else {
/* skip only has one " */
if (strpbrk(szLine , "\"") == strrchr(szLine , '"')) {
RTW_INFO("Fail to parse parameters , format error!\n");
break;
}
_rtw_memset((void *)param_value_string , 0 , 10);
if (!ParseQualifiedString(szLine , &i , param_value_string , '"' , '"')) {
RTW_INFO("Fail to parse parameters\n");
return _FAIL;
} else if (!GetU1ByteIntegerFromStringInDecimal(param_value_string , ant_isolation_param[j].value))
RTW_INFO("Fail to GetU1ByteIntegerFromStringInDecimal\n");
break;
}
}
}
}
}
/* YiWei 20140716 , for BT coex antenna isolation control */
/* rfe_type = 0 was SPDT , rfe_type = 1 was coupler */
if (ant_num == 3 && ant_distance >= 50)
anttype = 3;
else if (ant_num == 2 && ant_distance >= 50 && rfe_type == 1)
anttype = 2;
else if (ant_num == 3 && ant_distance >= 15 && ant_distance < 50)
anttype = 2;
else if (ant_num == 2 && ant_distance >= 15 && ant_distance < 50 && rfe_type == 1)
anttype = 2;
else if ((ant_num == 2 && ant_distance < 15 && rfe_type == 1) || (ant_num == 3 && ant_distance < 15))
anttype = 1;
else if (ant_num == 2 && rfe_type == 0)
anttype = 0;
else
anttype = 0;
hal_btcoex_SetAntIsolationType(Adapter, anttype);
RTW_INFO("%s : ant_num = %d\n" , __func__ , ant_num);
RTW_INFO("%s : ant_distance = %d\n" , __func__ , ant_distance);
RTW_INFO("%s : rfe_type = %d\n" , __func__ , rfe_type);
/* RTW_INFO("<===Hal_ParseAntIsolationConfigFile()\n"); */
return rtStatus;
}
int
hal_btcoex_AntIsolationConfig_ParaFile(
PADAPTER Adapter,
char *pFileName
)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
int rlen = 0 , rtStatus = _FAIL;
_rtw_memset(pHalData->para_file_buf , 0 , MAX_PARA_FILE_BUF_LEN);
rtw_get_phy_file_path(Adapter, pFileName);
if (rtw_is_file_readable(rtw_phy_para_file_path) == _TRUE) {
rlen = rtw_retrieve_from_file(rtw_phy_para_file_path, pHalData->para_file_buf, MAX_PARA_FILE_BUF_LEN);
if (rlen > 0)
rtStatus = _SUCCESS;
}
if (rtStatus == _SUCCESS) {
/*RTW_INFO("%s(): read %s ok\n", __func__ , pFileName);*/
rtStatus = hal_btcoex_ParseAntIsolationConfigFile(Adapter , pHalData->para_file_buf);
} else
RTW_INFO("%s(): No File %s, Load from *** Array!\n" , __func__ , pFileName);
return rtStatus;
}
#endif /* CONFIG_LOAD_PHY_PARA_FROM_FILE */
u16 hal_btcoex_btreg_read(PADAPTER padapter, u8 type, u16 addr, u32 *data)
{
u16 ret = 0;
halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
ret = halbtcoutsrc_GetBtReg_with_status(&GLBtCoexist, type, addr, data);
halbtcoutsrc_NormalLowPower(&GLBtCoexist);
return ret;
}
u16 hal_btcoex_btreg_write(PADAPTER padapter, u8 type, u16 addr, u16 val)
{
u16 ret = 0;
halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
ret = halbtcoutsrc_SetBtReg(&GLBtCoexist, type, addr, val);
halbtcoutsrc_NormalLowPower(&GLBtCoexist);
return ret;
}
void hal_btcoex_set_rfe_type(u8 type)
{
EXhalbtcoutsrc_set_rfe_type(type);
}
#ifdef CONFIG_RF4CE_COEXIST
void hal_btcoex_set_rf4ce_link_state(u8 state)
{
EXhalbtcoutsrc_set_rf4ce_link_state(state);
}
u8 hal_btcoex_get_rf4ce_link_state(void)
{
return EXhalbtcoutsrc_get_rf4ce_link_state();
}
#endif /* CONFIG_RF4CE_COEXIST */
void hal_btcoex_switchband_notify(u8 under_scan, u8 band_type)
{
switch (band_type) {
case BAND_ON_2_4G:
if (under_scan)
EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_24G);
else
EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_24G_NOFORSCAN);
break;
case BAND_ON_5G:
EXhalbtcoutsrc_switchband_notify(&GLBtCoexist, BTC_SWITCH_TO_5G);
break;
default:
RTW_INFO("[BTCOEX] unkown switch band type\n");
break;
}
}
void hal_btcoex_WlFwDbgInfoNotify(PADAPTER padapter, u8* tmpBuf, u8 length)
{
EXhalbtcoutsrc_WlFwDbgInfoNotify(&GLBtCoexist, tmpBuf, length);
}
void hal_btcoex_rx_rate_change_notify(PADAPTER padapter, u8 is_data_frame, u8 rate_id)
{
EXhalbtcoutsrc_rx_rate_change_notify(&GLBtCoexist, is_data_frame, EXhalbtcoutsrc_rate_id_to_btc_rate_id(rate_id));
}
u16 hal_btcoex_btset_testode(PADAPTER padapter, u8 type)
{
u16 ret = 0;
halbtcoutsrc_LeaveLowPower(&GLBtCoexist);
ret = halbtcoutsrc_setbttestmode(&GLBtCoexist, type);
halbtcoutsrc_NormalLowPower(&GLBtCoexist);
return ret;
}
#endif /* CONFIG_BT_COEXIST */
|
the_stack_data/145452053.c | #include <linux/serial.h>
#include <linux/serial_core.h>
#include <linux/serial_reg.h>
#include <stdio.h>
#include <stdlib.h>
#include <fcntl.h>
#include <unistd.h>
#include <sys/ioctl.h>
#include <stdint.h>
#include <termios.h>
#include <errno.h>
#include <string.h>
#include <assert.h>
int fd;
const char *fileName = "/dev/ttyS2";
int open_port(const char *fileName);
void setup_port(int fd);
void get_conf(int fd, struct termios *conf);
void set_conf(int fd, const struct termios *conf);
void spam_to_port(int fd);
void set_rts(int fd, int flag);
int main() {
fd = open_port(fileName);
tcflush(fd, TCIOFLUSH);
setup_port(fd);
spam_to_port(fd);
close(fd);
return EXIT_SUCCESS;
}
int open_port(const char *fileName) {
fd = open(fileName, O_RDWR | O_NOCTTY | O_NDELAY);
fcntl(fd, F_SETFL, 0);
if (fd < 0) {
goto error;
}
if (0 != fcntl(fd, F_SETFL, 0)) {
goto error;
}
return fd;
error:
perror("Opening");
abort();
}
void setup_port(int fd) {
struct termios conf;
get_conf(fd, &conf);
conf.c_iflag = (0 | IGNBRK | IUTF8) & ~(0 | IGNBRK | IXON | IXOFF | IXANY | ICRNL);
conf.c_oflag = (0) & ~(0 | OPOST);
conf.c_lflag = (0 | ISIG | IEXTEN) & ~(0 | ECHOE | ECHOK | ECHO | ECHOCTL | ECHOKE | ECHONL | ISIG | IEXTEN | ICANON);
conf.c_cflag = (0 | CS8 | CLOCAL | CRTSCTS | HUPCL | CSIZE | CSTOPB | CREAD | CLOCAL) & ~(0 | PARODD | CSTOPB);
conf.c_cc[VMIN] = 0;
conf.c_cc[VTIME] = 0;
conf.c_line = (0 | TIOCM_RTS) & ~(0);
cfsetispeed(&conf, B115200);
cfsetospeed(&conf, B115200);
printf("speed IN = %u\n", cfgetispeed(&conf));
printf("speed OUT = %u\n", cfgetospeed(&conf));
set_conf(fd, &conf);
}
void get_conf(int fd, struct termios *conf) {
if (tcgetattr(fd, conf) != 0) {
perror("Get parameters failed");
abort();
}
}
void set_conf(int fd, const struct termios *conf) {
if (tcsetattr(fd, TCSANOW, conf) != 0) {
perror("Set parameters failed");
abort();
}
}
void spam_to_port(int fd) {
uint32_t i1 = 0;
const char *str = "1234567890123456789123456789123456789123456789123456789"
"1234567890123456789123456789123456789123456789123456789";
const size_t len = strlen(str);
while (i1 < 10) {
set_rts(fd, 1);
const size_t res = write(fd, str, len);
assert(res == len);
tcdrain(fd);
set_rts(fd, 0);
usleep(200000);
i1++;
}
}
void set_rts(int fd, int flag) {
unsigned status;
if (ioctl(fd, TIOCMGET, &status)) {
goto error;
}
if (flag) {
status |= (TIOCM_RTS | TIOCM_DTR);
} else {
status &= ~(TIOCM_RTS | TIOCM_DTR);
}
if (ioctl(fd, TIOCMSET, &status)) {
goto error;
}
return;
error : {
perror("set rts failed");
abort();
}
}
|
the_stack_data/211081853.c | /*
* arch/Linux/terminfo.c -- routines for getting terminal
* information on Linux machines.
*
* Copyright 2001, David Lindes. All rights reserved.
*/
#include <sys/ioctl.h> /* for ioctl() */
/* globals */
extern int rows;
extern int cols;
void gettermsize()
{
struct winsize info;
/* try to get data via IOCTL: */
if (ioctl(1 /* stdout */, TIOCGWINSZ, &info) != -1)
{
/* if successful, and the data seems sane, set the
* program's globals: */
if(info.ws_col > 0)
cols = info.ws_col;
if(info.ws_row > 0)
rows = info.ws_row;
}
}
|
the_stack_data/234517121.c | #include <stdio.h>
int z;
int func(int a, int b) {
a = a + 5;
return a - b;
}
int main() {
int x, y;
x = 4;
y = 7;
y = func(x, y);
printf("%d, %d\n", x, y);
return 0;
}
|
the_stack_data/562901.c |
void scilab_rt_inttrap_i2_d0(int sin00, int sin01, int in0[sin00][sin01],
double *out0)
{
int i;
int j;
int val0 = 0;
for (i = 0; i < sin00; ++i) {
for (j = 0; j < sin01; ++j) {
val0 += in0[i][j];
}
}
*out0 = val0;
}
|
the_stack_data/62710.c |
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#ifdef __C64__
#include <conio.h>
#endif
/* apparently we dont trigger the bug when not using absolute addresses? */
#ifdef __C64__
#define TARGETMEM 0x4c8
#define SOURCEMEM 0x702
#elif __SIM6502__
#define TARGETMEM 0xc4c8
#define SOURCEMEM 0xc702
#elif __SIM65C02__
#define TARGETMEM 0xc4c8
#define SOURCEMEM 0xc702
#else
static unsigned char mem[0x10];
#define TARGETMEM &mem[0]
#define SOURCEMEM &mem[8]
#endif
/* do not put at pos. 1, and 1 byte apart - so we can eventually notice
off-by-one errors */
static unsigned short u16w = 3;
static unsigned char u8r = 5;
static unsigned char target[8] = { 0x0, 0x1, 0x2, 0x3, 0x4, 0x5, 0x6, 0x7 };
static unsigned char source[8] = { 0x8, 0x9, 0xa, 0xb, 0xc, 0xd, 0xe, 0xf };
static unsigned char expect[8] = { 0x0, 0x1, 0xc, 0xd, 0x4, 0x5, 0x6, 0x7 };
static unsigned char i;
static unsigned char err = EXIT_SUCCESS;
void test1(void)
{
((unsigned char*)TARGETMEM)[u16w--] = ((unsigned char*)SOURCEMEM)[u8r--];
}
void dotest(void)
{
memcpy(TARGETMEM, target, 8);
memcpy(SOURCEMEM, source, 8);
test1();
memcpy(target, TARGETMEM, 8);
memcpy(source, SOURCEMEM, 8);
#ifdef __C64__
clrscr();
#endif
printf("source:");
for(i = 0; i < 8; ++i) {
printf("%0x ", source[i]);
}
printf("\n\rtarget:");
for(i = 0; i < 8; ++i) {
printf("%0x ", target[i]);
}
printf("\n\r");
printf("u16w: %d\n\r", u16w);
printf("u8r: %d\n\r", u8r);
}
int main(void)
{
dotest();
dotest();
if (memcmp(target, expect, 8) != 0) {
printf("buffer data error\n\r");
err = EXIT_FAILURE;
}
if (u16w != 1) {
err = EXIT_FAILURE;
}
if (u8r != 3) {
err = EXIT_FAILURE;
}
printf("return: %d\n\r", err);
return err;
}
|
the_stack_data/45056.c | #include <stdio.h>
int x = 1;
//_Bool v = 0;
int main() {
x = 1 + x;
printf("%d\n", x);
x;
x = x + 1;
printf("%d\n", x);
x;
return 0;
}
|
the_stack_data/684364.c | #include <stdio.h>
int
main()
{
float sla = 0.5423423423;
printf("a minha variavel eh %.2f\n", sla);
}
|
the_stack_data/90763933.c | #include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#define GREETING "STARTING PROCESS..."
int main(int argc, char *argv[]){
int cfd; // socket du client
int success; // etat de la connection
int port;
char *element;
long fileSize;
FILE* fichier = NULL;
char *buffer;
size_t result;
struct sockaddr_in srv_addr; // socket addr du serveur
if(argc!=3){
printf("USAGE: ./client <serveur_ip_addr> <serveur_port>\n");
exit(-1);
}
cfd = socket(AF_INET, SOCK_STREAM, 0); // création de la socket
if (cfd < 0){ // Une erreur s'est produite la socket n'a pas pu être créer
printf("Le SE n'a pas pu créer la socket %d\n", cfd);
exit(-1);
}
/* donne une identite a la socket.
* AF_INET pour dire que c'est le protocole TCP qui sera utilisé
* SRV_PORT est le port du serveur distant que le client desire contacter
* SRV_ADDR est l'adresse du serveur distant que le client desire contacter
* */
port = atoi(argv[2]);
srv_addr.sin_family = AF_INET;
srv_addr.sin_port = htons (port);
inet_aton(argv[1], (struct in_addr *)&srv_addr.sin_addr.s_addr);
/* connexion au serveur
* A l'aide de la fonction connect() on se connecte au serveur distant
* on utilise pour cela la socket qui a été créée par l'SE du client
* on utilise aussi l'identité du serveur qui vient d'être construite */
success = connect(cfd, (struct sockaddr *) &srv_addr,
sizeof(struct sockaddr_in));
if(success < 0){ // la connexion a echouée
printf("Impossible de se connecter au serveur %s:%d error %d\n",
argv[1], port, success);
exit(-1);
}
/* La connexion au serveur est un succes. Disons Bonjour au serveur
* Pour cela nou utilisons la fonction send qui prend en parametre
* la socket creee par le SE et la chaine de caractere BONJOUR
* nou veillons à preciser la taille du message que nous envoyons*/
send(cfd, GREETING, sizeof(GREETING), 0);
/* Après avoir dit bonjour au serveur nous demandons au SE de libérer
* la socket */
fclose(fichier);
close(cfd);
return(0);
}
|
the_stack_data/115765676.c | /*
* nq CMD... - run CMD... in background and in order, saving output
* -w ... wait for all jobs/listed jobs queued so far to finish
* -t ... exit 0 if no (listed) job needs waiting
* -q quiet, do not output job id
* -c clean, don't keep output if job exited with status 0
*
* - requires POSIX.1-2008 and having flock(2)
* - enforcing order works like this:
* - every job has a flock(2)ed output file ala ",TIMESTAMP.PID"
* - every job starts only after all earlier flock(2)ed files finished
* - the lock is released when job terminates
* - no sub-second file system time stamps are required, jobs are started
* with millisecond precision
* - we try hard to make the currently running ,* file have +x bit
* - you can re-queue jobs using "sh ,jobid"
*
* To the extent possible under law, Leah Neukirchen <[email protected]>
* has waived all copyright and related or neighboring rights to this work.
* http://creativecommons.org/publicdomain/zero/1.0/
*/
/* for FreeBSD. */
#define _WITH_DPRINTF
#if defined(__sun) && defined(__SVR4) && !defined(HAVE_DPRINTF)
#define NEED_DPRINTF
#endif
#include <sys/file.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#ifdef NEED_DPRINTF
#include <stdarg.h>
static int
dprintf(int fd, const char *fmt, ...)
{
char buf[128]; // good enough for usage in nq
va_list ap;
int r;
va_start(ap, fmt);
r = vsnprintf(buf, sizeof buf, fmt, ap);
va_end(ap);
if (r >= 0 && r < sizeof buf)
return write(fd, buf, r);
return -1;
}
#endif
static void
swrite(int fd, char *str)
{
size_t l = strlen(str);
if (write(fd, str, l) != l) {
perror("write");
exit(222);
}
}
static void
write_execline(int fd, int argc, char *argv[])
{
int i;
char *s;
swrite(fd, "exec");
for (i = 0; i < argc; i++) {
if (!strpbrk(argv[i],
"\001\002\003\004\005\006\007\010"
"\011\012\013\014\015\016\017\020"
"\021\022\023\024\025\026\027\030"
"\031\032\033\034\035\036\037\040"
"`^#*[]=|\\?${}()'\"<>&;\177")) {
swrite(fd, " ");
swrite(fd, argv[i]);
} else {
swrite(fd, " '");
for (s = argv[i]; *s; s++) {
if (*s == '\'')
swrite(fd, "'\\''");
else
write(fd, s, 1);
}
swrite(fd, "'");
}
}
}
int
main(int argc, char *argv[])
{
int64_t ms;
int dirfd = 0, lockfd = 0;
int opt = 0, cflag = 0, qflag = 0, tflag = 0, wflag = 0;
int pipefd[2];
char lockfile[64];
pid_t child;
struct timeval started;
struct dirent *ent;
DIR *dir;
/* timestamp is milliseconds since epoch. */
gettimeofday(&started, NULL);
ms = (int64_t)started.tv_sec*1000 + started.tv_usec/1000;
while ((opt = getopt(argc, argv, "+chqtw")) != -1) {
switch (opt) {
case 'c':
cflag = 1;
break;
case 'w':
wflag = 1;
break;
case 't':
tflag = 1;
break;
case 'q':
qflag = 1;
break;
case 'h':
default:
goto usage;
}
}
if (!tflag && !wflag && argc <= optind) {
usage:
swrite(2, "usage: nq [-c] [-q] [-w ... | -t ... | CMD...]\n");
exit(1);
}
char *path = getenv("NQDIR");
if (!path)
path = ".";
if (mkdir(path, 0777) < 0) {
if (errno != EEXIST) {
perror("mkdir");
exit(111);
}
}
#ifdef O_DIRECTORY
dirfd = open(path, O_RDONLY | O_DIRECTORY);
#else
dirfd = open(path, O_RDONLY);
#endif
if (dirfd < 0) {
perror("dir open");
exit(111);
}
if (tflag || wflag) {
snprintf(lockfile, sizeof lockfile,
".,%011" PRIx64 ".%d", ms, getpid());
goto wait;
}
if (pipe(pipefd) < 0) {
perror("pipe");
exit(111);
};
/* first fork, parent exits to run in background. */
child = fork();
if (child == -1) {
perror("fork");
exit(111);
}
else if (child > 0) {
char c;
/* wait until child has backgrounded. */
close(pipefd[1]);
read(pipefd[0], &c, 1);
exit(0);
}
close(pipefd[0]);
/* second fork, child later execs the job, parent collects status. */
child = fork();
if (child == -1) {
perror("fork");
exit(111);
}
else if (child > 0) {
int status;
/* output expected lockfile name. */
snprintf(lockfile, sizeof lockfile,
",%011" PRIx64 ".%d", ms, child);
if (!qflag)
dprintf(1, "%s\n", lockfile);
close(0);
close(1);
close(2);
/* signal parent to exit. */
close(pipefd[1]);
wait(&status);
lockfd = openat(dirfd, lockfile, O_RDWR | O_APPEND);
if (lockfd < 0) {
perror("open");
exit(222);
}
fchmod(lockfd, 0600);
if (WIFEXITED(status)) {
dprintf(lockfd, "\n[exited with status %d.]\n",
WEXITSTATUS(status));
if (cflag && WEXITSTATUS(status) == 0)
unlinkat(dirfd, lockfile, 0);
} else {
dprintf(lockfd, "\n[killed by signal %d.]\n",
WTERMSIG(status));
}
exit(0);
}
close(pipefd[1]);
/* create and lock lockfile. since this cannot be done in one step,
use a different filename first. */
snprintf(lockfile, sizeof lockfile,
".,%011" PRIx64 ".%d", ms, getpid());
lockfd = openat(dirfd, lockfile,
O_CREAT | O_EXCL | O_RDWR | O_APPEND, 0600);
if (lockfd < 0) {
perror("open");
exit(222);
}
if (flock(lockfd, LOCK_EX) < 0) {
perror("flock");
exit(222);
}
/* drop leading '.' */
renameat(dirfd, lockfile, dirfd, lockfile+1);
/* block until rename is committed */
fsync(dirfd);
write_execline(lockfd, argc, argv);
if (dup2(lockfd, 2) < 0 ||
dup2(lockfd, 1) < 0) {
perror("dup2");
exit(222);
}
wait:
if ((tflag || wflag) && argc - optind > 0) {
/* wait for files passed as command line arguments. */
int i;
for (i = optind; i < argc; i++) {
int fd;
if (strchr(argv[i], '/'))
fd = open(argv[i], O_RDWR);
else
fd = openat(dirfd, argv[i], O_RDWR);
if (fd < 0)
continue;
if (flock(fd, LOCK_EX | LOCK_NB) == -1 &&
errno == EWOULDBLOCK) {
if (tflag)
exit(1);
flock(fd, LOCK_EX); /* sit it out. */
}
fchmod(fd, 0600);
close(fd);
}
} else {
dir = fdopendir(dirfd);
if (!dir) {
perror("fdopendir");
exit(111);
}
again:
while ((ent = readdir(dir))) {
/* wait for all ,* files. */
if (ent->d_name[0] == ',' &&
strcmp(ent->d_name, lockfile+1) < 0) {
int fd;
fd = openat(dirfd, ent->d_name, O_RDWR);
if (fd < 0)
continue;
if (flock(fd, LOCK_EX | LOCK_NB) == -1 &&
errno == EWOULDBLOCK) {
if (tflag)
exit(1);
flock(fd, LOCK_EX); /* sit it out. */
close(fd);
rewinddir(dir);
goto again;
}
fchmod(fd, 0600);
close(fd);
}
}
closedir(dir); /* closes dirfd too. */
}
if (tflag || wflag)
exit(0);
/* ready to run. */
swrite(lockfd, "\n\n");
fchmod(lockfd, 0700);
close(lockfd);
setenv("NQJOBID", lockfile+1, 1);
setsid();
execvp(argv[optind], argv+optind);
perror("execvp");
return 222;
}
|
the_stack_data/122016254.c | #include <stdio.h>
int main()
{
int a;
printf("Type an integer: ");
scanf("%d",&a);
if( a > 10 )
{
printf("You typed %d.\n",a);
printf("%d is greater than 10.\n",a);
}
if(a <= 10 )
{
printf("You typed %d.\n",a);
printf("%d is less than or equal to 10.\n",a);
}
return(0);
}
|
the_stack_data/82256.c | /* DSO used for ARM immediate binding GNU TLS descriptor relocation test.
Copyright (C) 2014-2020 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
static int __thread bar = 1;
static int __thread foo;
int
getfoo (void)
{
return foo;
}
void
setfoo (int i)
{
foo = 1;
}
int
getbar (void)
{
return bar;
}
void
setbar (int i)
{
bar = 1;
}
|
the_stack_data/424470.c | // RUN: %ucc -o %t %s
// RUN: %t; [ $? -eq 6 ]
add(int a, int b)
{
return (int)&a[(char *)b];
}
main()
{
return add(1, 5);
}
|
the_stack_data/664622.c | /*
* Copyright (C) 2018 A. C. Open Hardware Ideas Lab
*
* Authors:
* Leonardo Morichelli <[email protected]>
*
* 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.
*
* 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 THE
* AUTHORS OR COPYRIGHT HOLDERS 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.
*/
/**
* @file libohiboard/source/STM32L4/lowpower_STM32L4.c
* @author Leonardo Morichelli <[email protected]>
* @brief Low Power implementations for STM32L4 Series
*/
#ifdef LIBOHIBOARD_LOWPOWER
#ifdef __cplusplus
extern "C" {
#endif
#include "platforms.h"
#if defined (LIBOHIBOARD_STM32L4)
/**
* @addtogroup LIBOHIBOARD_Driver
* @{
*/
/**
* @addtogroup LOWPOWER
* @{
*/
#include "lowpower.h"
/**
* @defgroup LOWPOWER_Private Low Power private functions and types.
* @{
*/
/**
*
*/
#define LOWPOWER_IS_FREQUENCY_RIGHT(FREQ1, FREQ2) ((FREQ1 == FREQ2)?(TRUE):(FALSE))
/**
*
*/
#define LOWPOWER_IS_VALID_CLOCK(FREQ) ((FREQ <= 2000000u)?(TRUE):(FALSE))
/**
*
*/
typedef struct _LowPower_Device
{
PWR_TypeDef* regmapPWR;
SCB_Type* regmapSCB;
RCC_TypeDef* regmapRCC;
LowPower_Mode currentMode;
LowPower_ResetControl resetControl;
} LowPower_Device;
static LowPower_Device lpd =
{
.regmapPWR = PWR,
.regmapSCB = SCB,
.regmapRCC = RCC,
.currentMode = LOWPOWER_MODE_RUN,
.resetControl =
{
.value = 0,
},
};
/**
*
*/
static void LowPower_readResetStatus(void)
{
uint32_t regPWR_SR1 = lpd.regmapPWR->SR1;
uint32_t regRCC_CSR = lpd.regmapRCC->CSR;
lpd.resetControl.value = 0;
lpd.resetControl.flags.pwrWufi = ((regPWR_SR1 & PWR_SR1_WUFI) != 0)?(1):(0);
lpd.resetControl.flags.pwrStandby = ((regPWR_SR1 & PWR_SR1_SBF) != 0)?(1):(0);
lpd.resetControl.flags.rccLowPowerReset = ((regRCC_CSR & RCC_CSR_LPWRRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccWatchdogReset = ((regRCC_CSR & RCC_CSR_WWDGRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccIndependentWatchdogReset = ((regRCC_CSR & RCC_CSR_IWDGRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccSoftwareReset = ((regRCC_CSR & RCC_CSR_SFTRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccBOR = ((regRCC_CSR & RCC_CSR_BORRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccPinReset = ((regRCC_CSR & RCC_CSR_PINRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccOptionbyteLoaderReset = ((regRCC_CSR & RCC_CSR_OBLRSTF) != 0)?(1):(0);
lpd.resetControl.flags.rccFirewallReset = ((regRCC_CSR & RCC_CSR_FWRSTF) != 0)?(1):(0);
// Clear Power flags
UTILITY_SET_REGISTER_BIT(lpd.regmapPWR->SCR, PWR_SCR_CSBF);
if (lpd.resetControl.flags.pwrWufi)
{
LowPower_clearWakeUpflags(LOWPOWER_WAKEUPPINS_PIN1 |
LOWPOWER_WAKEUPPINS_PIN2 |
LOWPOWER_WAKEUPPINS_PIN3 |
LOWPOWER_WAKEUPPINS_PIN4 |
LOWPOWER_WAKEUPPINS_PIN5);
}
// Clear Reset flags
UTILITY_SET_REGISTER_BIT(lpd.regmapRCC->CSR, RCC_CSR_RMVF);
}
/**
* Return if system is configured in Low Power mode.
*
* @return TRUE in case of Low-Power Run mode, FALSE otherwise.
*/
static bool LowPower_isLowPowerRunMode (void)
{
return (UTILITY_READ_REGISTER_BIT(lpd.regmapPWR->CR1, PWR_CR1_LPR) == 0)?(FALSE):(TRUE);
}
/**
* Enter Low-Power Run (LPRUN) mode.
*/
static void LowPower_enableLowPowerRunMode (void)
{
UTILITY_SET_REGISTER_BIT(lpd.regmapPWR->CR1, PWR_CR1_LPR);
}
/**
* Exit Low-power Run mode.
*
* @return ERRORS_NO_ERROR whether no error, ERRORS_LOWPOWER_TIMEOUT otherwise.
*/
static System_Errors LowPower_disableLowPowerRunMode (void)
{
System_Errors err = ERRORS_NO_ERROR;
uint32_t tickstart = 0;
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR1, PWR_CR1_LPR);
tickstart = System_currentTick();
while (UTILITY_READ_REGISTER_BIT(lpd.regmapPWR->SR2, PWR_SR2_REGLPF) == 1)
{
if ((System_currentTick() - tickstart) > 5000u)
return ERRORS_LOWPOWER_TIMEOUT;
}
return err;
}
/**
*
*/
static System_Errors LowPower_setVoltageScaling (LowPower_VoltageScaling voltageScaling)
{
System_Errors err = ERRORS_NO_ERROR;
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->CR1, PWR_CR1_VOS_Msk, ((uint32_t)voltageScaling << PWR_CR1_VOS_Pos));
if (voltageScaling == LOWPOWER_VOLTAGESCALING_SCALE1)
{
uint32_t tickstart = 0;
tickstart = System_currentTick();
while (UTILITY_READ_REGISTER_BIT(lpd.regmapPWR->SR2, PWR_SR2_VOSF) == 1)
{
if ((System_currentTick() - tickstart) > 5000u)
return ERRORS_LOWPOWER_TIMEOUT;
}
}
return err;
}
/**
* Wait for Interrupt or Event
* param[in] entry Select the type of wake-up.
* @music Metallica::Loard.UntilItSleeps(); // _|m/
*/
static void LowPower_untilItSleeps (LowPower_WaitFor entry)
{
if (entry == LOWPOWER_WAITFOR_INTERRUPT)
{
/* Request Wait For Interrupt */
__WFI();
}
else
{
/* Request Wait For Event */
__SEV();
__WFE();
__WFE();
}
}
/**
*
*/
static void LowPower_enterSleepMode (LowPower_Regulator regulator, LowPower_WaitFor sleepEntry)
{
switch (regulator)
{
case LOWPOWER_REGULATOR_MAIN:
if (LowPower_isLowPowerRunMode() == TRUE)
{
LowPower_disableLowPowerRunMode();
}
break;
case LOWPOWER_REGULATOR_LOW:
if (LowPower_isLowPowerRunMode() == FALSE)
{
LowPower_enableLowPowerRunMode();
}
break;
}
/* Clear SLEEPDEEP bit of Cortex System Control Register */
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapSCB->SCR, SCB_SCR_SLEEPDEEP_Msk);
LowPower_untilItSleeps(sleepEntry);
}
/**
*
*/
static void LowPower_enterStopMode (uint32_t level, LowPower_WaitFor stopEntry)
{
uint32_t pwrCr1Lpms = 0;
switch (level)
{
default:
case 0:
pwrCr1Lpms = PWR_CR1_LPMS_STOP0;
break;
case 1:
pwrCr1Lpms = PWR_CR1_LPMS_STOP1;
break;
case 2:
pwrCr1Lpms = PWR_CR1_LPMS_STOP2;
break;
}
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->CR1, PWR_CR1_LPMS, pwrCr1Lpms);
UTILITY_SET_REGISTER_BIT(lpd.regmapSCB->SCR, SCB_SCR_SLEEPDEEP_Msk);
LowPower_untilItSleeps(stopEntry);
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapSCB->SCR, SCB_SCR_SLEEPDEEP_Msk);
}
/**
*
*/
static void LowPower_enterStandbyMode (void)
{
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->CR1, PWR_CR1_LPMS, PWR_CR1_LPMS_STANDBY);
UTILITY_SET_REGISTER_BIT(lpd.regmapSCB->SCR, SCB_SCR_SLEEPDEEP_Msk);
LowPower_untilItSleeps(LOWPOWER_WAITFOR_INTERRUPT);
}
/**
*
*/
static void LowPower_enterShutdownMode (void)
{
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->CR1, PWR_CR1_LPMS, PWR_CR1_LPMS_SHUTDOWN);
UTILITY_SET_REGISTER_BIT(lpd.regmapSCB->SCR, SCB_SCR_SLEEPDEEP_Msk);
LowPower_untilItSleeps(LOWPOWER_WAITFOR_INTERRUPT);
}
/**
*
*/
static LowPower_Mode LowPower_modeSwitchingRoute[LOWPOWER_MODE_NUMBER][LOWPOWER_MODE_NUMBER] =
{
/* {LOWPOWER_MODE_RUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_SLEEP, LOWPOWER_MODE_LPSLEEP, LOWPOWER_MODE_STOP0, LOWPOWER_MODE_STOP1, LOWPOWER_MODE_STOP2, LOWPOWER_MODE_STANDBY, LOWPOWER_MODE_SHUTDOWN}, */
/* LOWPOWER_MODE_RUN */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_SLEEP, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_STOP0, LOWPOWER_MODE_STOP1, LOWPOWER_MODE_STOP2, LOWPOWER_MODE_STANDBY, LOWPOWER_MODE_SHUTDOWN},
/* LOWPOWER_MODE_LPRUN */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_LPSLEEP, LOWPOWER_MODE_RUN, LOWPOWER_MODE_STOP1, LOWPOWER_MODE_RUN, LOWPOWER_MODE_STANDBY, LOWPOWER_MODE_SHUTDOWN},
/* LOWPOWER_MODE_SLEEP */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_SLEEP, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN},
/* LOWPOWER_MODE_LPSLEEP */{LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPSLEEP, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_LPRUN},
/* LOWPOWER_MODE_STOP0 */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_STOP0, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN},
/* LOWPOWER_MODE_STOP1 */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_LPRUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_STOP1, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN},
/* LOWPOWER_MODE_STOP2 */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_STOP2, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN},
/* LOWPOWER_MODE_STANDBY */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_STANDBY, LOWPOWER_MODE_RUN},
/* LOWPOWER_MODE_SHUTDOWN */{LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_RUN, LOWPOWER_MODE_SHUTDOWN},
};
/**
* Enter into new power mode.
*
* @note The return value is not used!
*
* @param[in] mode The new low power mode
*/
static System_Errors LowPower_enterMode (LowPower_Mode mode)
{
switch (mode)
{
default:
case LOWPOWER_MODE_RUN:
LowPower_disableLowPowerRunMode();
break;
case LOWPOWER_MODE_LPRUN:
LowPower_enableLowPowerRunMode();
break;
case LOWPOWER_MODE_SLEEP:
System_suspendTick();
LowPower_enterSleepMode(LOWPOWER_REGULATOR_MAIN, LOWPOWER_WAITFOR_INTERRUPT);
System_resumeTick();
break;
case LOWPOWER_MODE_LPSLEEP:
LowPower_enableLowPowerRunMode();
System_suspendTick();
LowPower_enterSleepMode(LOWPOWER_REGULATOR_LOW, LOWPOWER_WAITFOR_INTERRUPT);
System_resumeTick();
break;
case LOWPOWER_MODE_STOP0:
System_suspendTick();
LowPower_enterStopMode(0, LOWPOWER_WAITFOR_INTERRUPT);
System_resumeTick();
break;
case LOWPOWER_MODE_STOP1:
System_suspendTick();
LowPower_enableLowPowerRunMode();
LowPower_enterStopMode(1, LOWPOWER_WAITFOR_INTERRUPT);
System_resumeTick();
break;
case LOWPOWER_MODE_STOP2:
System_suspendTick();
LowPower_enableLowPowerRunMode();
LowPower_enterStopMode(2, LOWPOWER_WAITFOR_INTERRUPT);
System_resumeTick();
break;
case LOWPOWER_MODE_STANDBY:
System_suspendTick();
LowPower_enableLowPowerRunMode();
LowPower_enterStandbyMode();
System_resumeTick();
break;
case LOWPOWER_MODE_SHUTDOWN:
System_suspendTick();
LowPower_enableLowPowerRunMode();
LowPower_enterShutdownMode();
System_resumeTick();
break;
}
lpd.currentMode = mode;
return ERRORS_NO_ERROR;
}
/**
* Switch to another power mode.
*
* @param[in] mode the new power mode
*/
static System_Errors LowPower_switchMode (LowPower_Mode mode)
{
System_Errors err = ERRORS_NO_ERROR;
LowPower_Mode currentMode = LowPower_getMode();
while ((currentMode != mode) && (err == ERRORS_NO_ERROR))
{
err = LowPower_enterMode(LowPower_modeSwitchingRoute[currentMode][mode]);
currentMode = LowPower_getMode();
}
return err;
}
/**
* @}
*/
void LowPower_init (void)
{
LowPower_readResetStatus();
CLOCK_ENABLE_PWR();
CLOCK_ENABLE_SYSCFG();
}
LowPower_ResetControl LowPower_getResetStatus (void)
{
return lpd.resetControl;
}
#define PWR_CR4_WP_Msk (PWR_CR4_WP5_Msk|PWR_CR4_WP4_Msk|PWR_CR4_WP3_Msk|PWR_CR4_WP2_Msk|PWR_CR4_WP1_Msk)
void LowPower_enableWakeUpPin (LowPower_WakeUpPins pins, LowPower_WakeUpEdge polarity)
{
UTILITY_SET_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EIWUL_Msk);
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->CR3, PWR_CR3_EWUP_Msk, pins);
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->CR4, PWR_CR4_WP_Msk, polarity);
}
void LowPower_disableWakeUpPin (LowPower_WakeUpPins pins)
{
if (pins & LOWPOWER_WAKEUPPINS_PIN5)
{
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EWUP5);
}
if (pins & LOWPOWER_WAKEUPPINS_PIN4)
{
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EWUP4);
}
if (pins & LOWPOWER_WAKEUPPINS_PIN3)
{
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EWUP3);
}
if (pins & LOWPOWER_WAKEUPPINS_PIN2)
{
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EWUP2);
}
if (pins & LOWPOWER_WAKEUPPINS_PIN1)
{
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EWUP1);
}
if (pins == 0)
{
UTILITY_CLEAR_REGISTER_BIT(lpd.regmapPWR->CR3, PWR_CR3_EIWF_Msk);
}
}
uint32_t LowPower_getWakeUpflags (void)
{
return UTILITY_READ_REGISTER_BIT(lpd.regmapPWR->SR1, PWR_CR3_EWUP_Msk);
}
void LowPower_clearWakeUpflags (uint32_t flags)
{
UTILITY_MODIFY_REGISTER(lpd.regmapPWR->SCR, PWR_SCR_CWUF_Msk, (flags));
}
System_Errors LowPower_setModeByFrequency(uint32_t frequency, LowPower_Mode mode)
{
System_Errors err = ERRORS_NO_ERROR;
if (((mode == LOWPOWER_MODE_LPRUN) || (mode == LOWPOWER_MODE_LPSLEEP)) && (frequency > 2000000u))
{
frequency = 2000000u;
}
if ((mode != LOWPOWER_MODE_LPRUN) && (mode != LOWPOWER_MODE_LPSLEEP))
{
LowPower_disableLowPowerRunMode();
}
if (frequency > 26000000)
{
LowPower_setVoltageScaling(LOWPOWER_VOLTAGESCALING_SCALE1);
}
err = Clock_setFrequency(frequency);
if (frequency <= 26000000)
{
LowPower_setVoltageScaling(LOWPOWER_VOLTAGESCALING_SCALE2);
}
ohiassert(LOWPOWER_IS_FREQUENCY_RIGHT(frequency, Clock_getOscillatorValue()));
if(err != ERRORS_NO_ERROR)
{
return err;
}
err = LowPower_switchMode(mode);
return err;
}
System_Errors LowPower_setModeByConfiguration (Clock_Config* config, LowPower_Mode mode)
{
System_Errors err = ERRORS_NO_ERROR;
if ((mode != LOWPOWER_MODE_LPRUN) && (mode != LOWPOWER_MODE_LPSLEEP))
{
LowPower_disableLowPowerRunMode();
}
if (Clock_getConfigOscillatorValue(config) > 26000000)
{
LowPower_setVoltageScaling(LOWPOWER_VOLTAGESCALING_SCALE1);
}
err = Clock_init(config);
if (Clock_getOscillatorValue() <= 26000000)
{
LowPower_setVoltageScaling(LOWPOWER_VOLTAGESCALING_SCALE2);
}
if (((mode == LOWPOWER_MODE_LPRUN) || (mode == LOWPOWER_MODE_LPSLEEP)))
{
ohiassert(LOWPOWER_IS_VALID_CLOCK( Clock_getOutputValue(CLOCK_OUTPUT_HCLK) ) );
}
if (err != ERRORS_NO_ERROR)
{
return err;
}
err = LowPower_switchMode(mode);
return err;
}
LowPower_Mode LowPower_getMode(void)
{
return lpd.currentMode;
}
#endif // LIBOHIBOARD_STM32L4
/**
* @}
*/
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif // LIBOHIBOARD_LOWPOWER
|
the_stack_data/63498.c | #include <errno.h>
#include <sys/types.h>
void _exit(void) {
while (1) __asm__("hlt");
}
// malloc/free of Newlib depend on program_break and program_break_end
caddr_t program_break, program_break_end;
// update program break
caddr_t sbrk(int incr) {
// if program break is 0, the variable is not initialized correctly
// if program break + incr >= program_break_end, there is no enough memory left
if (program_break == 0 || program_break + incr >= program_break_end) {
errno = ENOMEM;
return (caddr_t)-1;
}
// if there is no problem, return previous program break value and update program break value
caddr_t prev_break = program_break;
program_break += incr;
return prev_break;
}
int getpid(void) {
return 1;
}
int kill(int pid, int sig) {
errno = EINVAL;
return -1;
}
|
the_stack_data/293988.c | void _start()
{
asm(
"mov $0, %eax \n\t"
"mov $0, %ebx \n\t"
"int $0x80 \n\t"
);
}
|
the_stack_data/29825548.c | // 识别上下左右按键
#include <curses.h>
int main()
{
int key; // getch()返回类型是int
initscr();
// 不显示输入的按键
noecho();
// Special keys. In order to capture special keystrokes like Backspace,
// Delete and the four arrow keys by getch(), you need to call
keypad(stdscr, TRUE);
while (1) {
key = getch();
switch (key) {
case KEY_UP:
printw("KEY_UP\n");
break;
case KEY_DOWN:
printw("KEY_DOWN\n");
break;
case KEY_LEFT:
printw("KEY_LEFT\n");
break;
case KEY_RIGHT:
printw("KEY_RIGHT\n");
break;
default:
// 打印其他按键
printw(" 0%o, %c\n", key, key);
break;
}
}
endwin();
}
|
the_stack_data/57950132.c | /*
test_*.c HSTR test
Copyright (C) 2014-2021 Martin Dvorak <[email protected]>
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 <readline/readline.h>
#include <readline/chardefs.h>
// $ xev
// ... get keycodes
void echo_printable_characters()
{
int c;
for(c=0; c<255; c++) {
printf("Key number: '%3d' / Char: '%c' Meta: \n", c, c, c&meta_character_bit);
}
}
void echo_keyb_characters()
{
int c;
while(1) {
c = getc(stdin);
printf("Key number: '%3d' / Char: '%c' Meta: %d Ctrl: %d Ctrl mask: %d\n", c, c, META_CHAR(c), CTRL_CHAR(c), c&control_character_mask);
}
}
int main(int argc, char *argv[])
{
echo_keyb_characters();
}
|
the_stack_data/70450435.c | /* ************************************************************************** */
/* */
/* ::: :::::::: */
/* rush01.c :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: fpimenta <[email protected]> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2020/10/24 12:19:56 by fpimenta #+# #+# */
/* Updated: 2020/10/24 17:58:53 by anunes-d ### ########.fr */
/* */
/* ************************************************************************** */
#include <stdio.h>
void ft_putchar(char value);
void rush_end(int x)
{
int i;
int k;
k = x - 2;
i = 0;
ft_putchar('A');
while (i < k)
{
ft_putchar('B');
i++;
}
if (x > 1)
ft_putchar('C');
}
void rush_middle(int x, int y, int z)
{
int county;
int count;
int f;
f = y - 2;
county = 0;
while (county < f)
{
count = 0;
ft_putchar('B');
while (count < z)
{
ft_putchar(' ');
count++;
}
if (x > 1)
ft_putchar('B');
ft_putchar('\n');
county++;
}
}
void rush(int x, int y)
{
int i;
int z;
i = 0;
z = x - 2;
if (x == 0 || y == 0)
return ;
ft_putchar('A');
while (i < z)
{
ft_putchar('B');
i++;
}
if (x > 1)
ft_putchar('C');
ft_putchar('\n');
if (y > 2)
rush_middle(x, y, z);
if (y > 1)
rush_end(x);
}
|
the_stack_data/193892716.c | #include <stdio.h>
int main(void)
{
float n1 = 3.0;
double n2 = 3.0;
long n3 = 2000000000;
long n4 = 1234567890;
printf("%.1e %.1e %.1e %1.e\n", n1, n2, n3, n4);
printf("%ld %ld\n", n3, n4);
printf("%ld %ld %ld %ld\n", n1, n2, n3, n4);
return 0;
} |
the_stack_data/54825442.c | /* $NetBSD: wcslen.c,v 1.3 2012/06/25 22:32:46 abs Exp $ */
/*-
* Copyright (c)1999 Citrus 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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.
*
* citrus Id: wcslen.c,v 1.1 1999/12/29 21:47:45 tshiozak Exp
*/
#include <sys/cdefs.h>
#include <assert.h>
#include <wchar.h>
size_t wcslen(const wchar_t *s) {
const wchar_t *p;
_DIAGASSERT(s != NULL);
p = s;
while (*p)
p++;
return p - s;
}
|
the_stack_data/3395.c | /*** prog3.c ***/
#include "syscall.h"
int
main()
{
Fork_POS(1);
Fork_POS(2);
Fork_POS(3);
Exit(0);
}
|
the_stack_data/153723.c | const unsigned char Bg_16bpp_b_fh_fv[] = {
0x7d,0xef,0x7d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5c,0xe7,0x5d,0xe7,0x5c,0xe7,
0x5c,0xe7,0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,
0x1b,0xe7,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xdb,0xde,0xdb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xd6,0xdb,0xd6,0xda,0xd6,0xba,0xd6,0xba,0xd6,
0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0x9a,0xd6,0x9a,0xd6,
0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x99,0xce,0x99,0xce,0x79,0xce,0x79,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x59,0xce,0x59,0xce,0x59,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x58,0xc6,0x58,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,
0x18,0xc6,0x17,0xbe,0x17,0xbe,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xb5,0xd6,0xb5,
0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,
0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x75,0xb5,0x75,0xad,
0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x55,0xad,0x55,0xad,0x55,0xad,
0x55,0xad,0x55,0xad,0x55,0xad,0x54,0xad,0x54,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,
0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x14,0xa5,0x14,0xa5,0x14,0xa5,0x14,0xa5,
0x14,0x9d,0x13,0x9d,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,
0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd2,0x94,0xb2,0x94,0xb2,0x94,
0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0x92,0x94,0x92,0x94,0x92,0x94,
0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,
0x71,0x8c,0x71,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,
0x31,0x8c,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x10,0x84,0x10,0x84,
0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x7c,0xef,0x7b,0xef,0x7b,0xef,0x7b,
0xef,0x7b,0xef,0x7b,0xef,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,
0xcf,0x7b,0xaf,0x73,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,
0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x6e,0x73,0x6d,0x6b,0x6d,0x6b,
0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,
0x4d,0x6b,0x4d,0x6b,0x2d,0x6b,0x2d,0x6b,0x2c,0x63,0x2c,0x63,0x2c,0x63,0x2c,0x63,
0x2c,0x63,0x2c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0xec,0x62,
0xec,0x62,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xcb,0x5a,0xcb,0x5a,
0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xab,0x5a,0xab,0x52,0xaa,0x52,
0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0x8a,0x52,0x8a,0x52,0x8a,0x52,0x8a,0x52,
0x8a,0x52,0x8a,0x52,0x8a,0x52,0x6a,0x4a,0x69,0x4a,0x69,0x4a,0x69,0x4a,0x69,0x4a,
0x69,0x4a,0x69,0x4a,0x49,0x4a,0x49,0x4a,0x49,0x4a,0x49,0x4a,0x49,0x4a,0x49,0x4a,
0x49,0x4a,0x29,0x4a,0x29,0x4a,0x28,0x42,0x28,0x42,0x28,0x42,0x28,0x42,0x28,0x42,
0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0xe8,0x41,
0xe8,0x41,0xe7,0x41,0xe7,0x39,0xe7,0x39,0xe7,0x39,0xe7,0x39,0xc7,0x39,0xc7,0x39,
0xc7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,0xa7,0x39,0xa6,0x39,0xa6,0x31,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xe7,
0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,
0x1c,0xe7,0x1c,0xe7,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xdb,0xde,0xdb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xda,0xde,0xdb,0xd6,0xba,0xd6,0xba,0xd6,
0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0x9a,0xd6,0x9a,0xd6,
0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xce,0x79,0xce,0x99,0xce,0x79,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x59,0xce,0x79,0xce,0x59,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x58,0xce,0x58,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,
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0xeb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,
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0x28,0x42,0x28,0x42,0x28,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,
0x08,0x42,0xe8,0x41,0xe8,0x41,0xe7,0x39,0xe7,0x39,0xe7,0x39,0xe7,0x39,0xe7,0x39,
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0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xda,0xde,
0xda,0xd6,0xda,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,
0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xce,0x99,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xc6,0x58,0xc6,0x38,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x18,0xc6,0x18,0xc6,
0x18,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,0x17,0xbe,0x17,0xbe,0xf7,0xbd,0xf7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,
0xd7,0xbd,0xd7,0xbd,0xd6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,
0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,
0x96,0xb5,0x75,0xb5,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x55,0xad,
0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x54,0xa5,0x54,0xa5,
0x54,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x14,0xa5,
0x14,0xa5,0x14,0xa5,0x14,0xa5,0x13,0x9d,0x13,0x9d,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,
0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,
0xd3,0x94,0xd2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,
0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x71,0x94,0x71,0x8c,
0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,
0x51,0x8c,0x51,0x8c,0x51,0x8c,0x50,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,
0x30,0x84,0x30,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x0f,0x84,
0xf0,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xcf,0x7b,0xcf,0x7b,
0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,
0xae,0x73,0xae,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,
0x8e,0x73,0x6e,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x4d,0x6b,
0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x2d,0x6b,0x2d,0x6b,0x2c,0x6b,
0x2c,0x63,0x2c,0x63,0x2c,0x63,0x2c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,
0x0c,0x63,0x0c,0x63,0xec,0x62,0xec,0x62,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,
0xeb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,
0xab,0x5a,0xab,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0x8a,0x52,
0x8a,0x52,0x8a,0x52,0x8a,0x52,0x8a,0x52,0x8a,0x52,0x8a,0x52,0x69,0x52,0x69,0x4a,
0x69,0x4a,0x69,0x4a,0x69,0x4a,0x69,0x4a,0x69,0x4a,0x69,0x4a,0x49,0x4a,0x49,0x4a,
0x49,0x4a,0x49,0x4a,0x49,0x4a,0x49,0x4a,0x29,0x4a,0x29,0x4a,0x28,0x42,0x28,0x42,
0x28,0x42,0x28,0x42,0x28,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,0x08,0x42,
0x08,0x42,0x08,0x42,0x08,0x42,0xe8,0x41,0xe7,0x39,0xe7,0x39,0xe7,0x39,0xe7,0x39,
0xe7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xc7,0x39,0xc7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x39,0xe7,0x39,0xc7,0x39,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x39,0xe7,0x39,0xe7,0x39,
0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x39,0xe7,0x39,0xe7,0x39,
0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x39,0xe7,0x39,0xe7,0x39,
0x9d,0xef,0x9d,0xef,0x7d,0xef,0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0xff,0xff,0x32,0x03,0xff,0xff,0x32,0x03,0xff,0xff,0xff,0xff,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x39,0xe7,0x39,0xe7,0x39,
0x9d,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0xff,0xff,0x32,0x03,0xff,0xff,0x32,0x03,0xff,0xff,0xff,0xff,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x39,0xe7,0x39,0xe7,0x39,
0x9d,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0xff,0xff,0xff,0xff,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x41,0xe7,0x39,0xe7,0x39,
0x9d,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe7,0x41,0xe7,0x41,0xe7,0x39,
0x9d,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xe8,0x41,0xe7,0x39,0xe7,0x39,
0x9e,0xf7,0x9d,0xef,0x9d,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0xe8,0x41,0xe8,0x41,
0x9e,0xf7,0x9d,0xef,0x9d,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0xe8,0x41,
0x9e,0xf7,0x9e,0xf7,0x9e,0xef,0x9d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x08,0x42,0x08,0x42,
0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x08,0x42,0x08,0x42,0x08,0x42,
0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x08,0x42,0x08,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x28,0x42,0x08,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x28,0x42,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x28,0x42,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x28,0x42,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x42,0x28,0x42,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x28,0x4a,0x28,0x42,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x29,0x4a,0x29,0x42,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x29,0x4a,0x28,0x4a,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x29,0x4a,0x28,0x42,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x49,0x4a,0x49,0x4a,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x49,0x4a,0x49,0x4a,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x49,0x4a,0x49,0x4a,
0xde,0xf7,0xbe,0xf7,0xde,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
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0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x49,0x4a,0x49,0x4a,
0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
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0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x49,0x4a,0x49,0x4a,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x00,0x00,0x00,0x00,0x00,0x00,0x70,
0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x49,0x4a,0x49,0x4a,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xf3,0x9c,0x08,0x42,0x08,0x42,0x79,0xce,0xdf,0xff,0x8e,0x73,
0x28,0x42,0x28,0x42,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x79,0xce,0x08,0x42,0x28,0x42,0x13,0x9d,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0x9e,
0x09,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x49,0x4a,0x49,0x4a,0x49,0x4a,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xde,0xf7,
0xbe,0xf7,0xbe,0xf7,0xef,0x7b,0x20,0x00,0x20,0x00,0xd6,0xb5,0xbe,0xf7,0x08,0x42,
0x20,0x00,0x20,0x00,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xbe,0xf7,
0xbe,0xf7,0xd7,0xbd,0x20,0x00,0x20,0x00,0x10,0x84,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xb7,0x4b,0xf3,0xfe,0xfb,0x4c,0x00,0x00,0x00,0x00,0xa0,0xbb,
0xff,0x9e,0xa9,0xbb,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x49,0x4a,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x7d,0xef,0xf7,0xbd,
0x79,0xce,0xff,0xff,0xff,0xff,0xfb,0xde,0xf7,0xbd,0x7d,0xef,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xf7,0xbd,0xf7,0xbd,
0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xf7,0xbd,
0xf7,0xbd,0x79,0xce,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xbe,0xf7,0x9e,0xf7,
0x7d,0xef,0x5d,0xef,0xae,0x73,0x20,0x00,0x20,0x00,0x96,0xb5,0x5d,0xef,0x18,0xc6,
0xb6,0xb5,0xd7,0xbd,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x79,0xce,0xf7,0xbd,
0xf7,0xbd,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xde,0xf7,0xbe,0xf7,0x9d,0xef,
0x7d,0xef,0x96,0xb5,0x20,0x00,0x20,0x00,0xef,0x7b,0xdf,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,
0x0e,0x00,0x00,0x00,0x00,0x00,0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xae,0xbb,0xff,0xff,0xb7,0x73,0xf7,0xff,0xff,0x9e,0xa9,0xbb,
0xff,0xff,0xb7,0x73,0xff,0x75,0x00,0x00,0xee,0xfd,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0x75,0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xb7,0x03,0x00,0x00,0x00,0x00,
0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,0xfb,0x4c,0xa0,0xbb,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xfb,0x4c,0xa0,0xbb,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x49,0x4a,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xde,0xf7,0x59,0xce,0xa2,0x10,0x20,0x00,
0x20,0x00,0x0c,0x63,0xf3,0x9c,0x20,0x00,0x20,0x00,0x20,0x00,0xf3,0x9c,0x20,0x00,
0x20,0x00,0x10,0x84,0xdf,0xff,0xde,0xf7,0xef,0x7b,0xa2,0x10,0x20,0x00,0x20,0x00,
0x20,0x00,0x0c,0x63,0x5d,0xef,0xdf,0xff,0xde,0xf7,0xf3,0x9c,0xa2,0x10,0x20,0x00,
0x20,0x00,0x20,0x00,0x24,0x21,0x79,0xce,0xff,0xff,0xde,0xf7,0x9e,0xf7,0x5d,0xef,
0x1c,0xe7,0xfb,0xde,0x6d,0x6b,0x20,0x00,0x20,0x00,0x34,0xa5,0xfb,0xde,0xe7,0x39,
0x20,0x00,0x20,0x00,0xbe,0xf7,0xbe,0xf7,0x59,0xce,0x24,0x21,0x20,0x00,0x20,0x00,
0x20,0x00,0xa2,0x10,0x75,0xad,0xdf,0xff,0x58,0xc6,0xa2,0x10,0x20,0x00,0x82,0x10,
0xb6,0xb5,0x54,0xa5,0x20,0x00,0x20,0x00,0xcf,0x7b,0xbe,0xf7,0xdf,0xff,0xdf,0xff,
0x5d,0xef,0x20,0x00,0x20,0x00,0x8e,0x73,0xdf,0xff,0xdf,0xff,0x24,0x21,0x20,0x00,
0x8a,0x52,0xdf,0xff,0xde,0xf7,0x08,0x42,0x20,0x00,0x86,0x31,0x20,0x00,0x20,0x00,
0x8e,0x73,0xdf,0xff,0xdf,0xff,0x24,0x21,0x20,0x00,0x8a,0x52,0xdf,0xff,0xde,0xf7,
0x08,0x42,0x20,0x00,0x86,0x31,0x86,0x31,0x20,0x00,0x86,0x31,0xdf,0xff,0xdf,0xff,
0x0c,0x63,0x20,0x00,0xa2,0x10,0xdf,0xff,0xdf,0xff,0x10,0x84,0x20,0x00,0x20,0x00,
0x7d,0xef,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x70,
0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x00,0xe9,0xdc,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xae,0xbb,0xff,0xff,0xff,0x75,0x00,0x00,0x00,0x00,0xa0,0xbb,
0xff,0xff,0xb7,0x73,0xff,0x75,0x00,0x00,0x00,0x70,0xf7,0xff,0xff,0xff,0xff,0x9e,
0x09,0x00,0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xbf,
0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x00,0x00,0x48,0xf3,0xfe,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x00,0x00,0x48,
0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x69,0x4a,
0xdf,0xff,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xdf,0xff,0xbe,0xf7,0x9e,0xf7,0x7d,0xef,0xcb,0x5a,0x20,0x00,0x20,0x00,
0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,
0x20,0x00,0xcf,0x7b,0x7d,0xef,0x30,0x84,0x20,0x00,0x20,0x00,0x04,0x21,0x86,0x31,
0x20,0x00,0x20,0x00,0xeb,0x5a,0x9d,0xef,0x99,0xce,0x20,0x00,0x20,0x00,0xa2,0x10,
0x08,0x42,0x20,0x00,0x20,0x00,0xa2,0x10,0x5d,0xef,0xbe,0xf7,0x5d,0xef,0x1b,0xdf,
0xba,0xd6,0x59,0xce,0x2c,0x63,0x20,0x00,0x20,0x00,0xd2,0x94,0x79,0xce,0xc7,0x39,
0x20,0x00,0x20,0x00,0x5c,0xe7,0xfb,0xde,0xa2,0x10,0x20,0x00,0x20,0x00,0xe8,0x41,
0xa2,0x10,0x20,0x00,0x20,0x00,0xb6,0xb5,0x5d,0xef,0xd7,0xbd,0x82,0x10,0x20,0x00,
0x82,0x10,0x10,0x84,0x20,0x00,0x20,0x00,0xae,0x73,0x9d,0xef,0xbe,0xf7,0xbe,0xf7,
0x9e,0xf7,0x8a,0x52,0x20,0x00,0x04,0x21,0x9e,0xf7,0x38,0xc6,0x20,0x00,0x20,0x00,
0x20,0x00,0x1b,0xdf,0xfb,0xde,0x20,0x00,0x20,0x00,0x51,0x8c,0x8a,0x52,0x20,0x00,
0x04,0x21,0x9e,0xf7,0x38,0xc6,0x20,0x00,0x20,0x00,0x20,0x00,0x1c,0xe7,0x1b,0xdf,
0x20,0x00,0x20,0x00,0x51,0x8c,0x51,0x8c,0x20,0x00,0x20,0x00,0xba,0xd6,0x9e,0xf7,
0xa2,0x10,0x20,0x00,0x20,0x00,0x55,0xad,0x9e,0xf7,0x86,0x31,0x20,0x00,0x8a,0x52,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x53,0x02,0xee,0xfd,0xff,0xff,0xff,0x75,0x40,0x9a,0xff,0xff,0xb7,0x03,0x00,0x00,
0xa0,0x73,0x0e,0x00,0xee,0xfd,0xff,0xff,0xfb,0x4c,0x00,0x00,0x00,0x00,0xe9,0xdc,
0xff,0xff,0xfb,0x4c,0x00,0x00,0x00,0x00,0x00,0x00,0xee,0xfd,0xff,0xff,0x53,0x02,
0x00,0x00,0xee,0xfd,0xff,0x75,0x00,0x00,0xe9,0xbc,0x53,0x02,0xee,0xfd,0xff,0xff,
0xff,0x9e,0x09,0x00,0x00,0x00,0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xb7,0x4b,0xf3,0xfe,0xfb,0x4c,0xee,0xfd,0xff,0x9e,0xa9,0xbb,
0xff,0x9e,0xa9,0xbb,0xff,0x75,0x00,0x70,0xf3,0x4c,0x40,0x9a,0xfb,0xbf,0x0e,0x00,
0xe9,0x9c,0x0e,0x48,0xf3,0xfe,0xff,0xff,0xfb,0x4c,0xa0,0xbb,0xff,0xff,0xff,0xbf,
0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xfb,0x4c,0x40,0x9a,0xb3,0x03,0xa0,0xbb,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xb7,0x03,0x00,0x00,
0xa0,0x73,0x0e,0x00,0xee,0xfd,0xff,0xff,0xff,0xff,0xfb,0x4c,0x40,0x9a,0xb3,0x03,
0xa0,0xbb,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x69,0x4a,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xdf,0xff,0xbe,0xf7,0x9d,0xef,0x5c,0xe7,0x1b,0xdf,0xc7,0x39,0x20,0x00,0x20,0x00,
0x75,0xad,0x14,0xa5,0x20,0x00,0x20,0x00,0x04,0x21,0x79,0xce,0x8e,0x73,0x20,0x00,
0x20,0x00,0xae,0x73,0x1b,0xdf,0x04,0x21,0x20,0x00,0x82,0x10,0x79,0xce,0x1b,0xdf,
0xe7,0x39,0x20,0x00,0x20,0x00,0x59,0xce,0x18,0xc6,0xd2,0x94,0x6d,0x6b,0x96,0xb5,
0xfb,0xde,0xae,0x73,0x20,0x00,0x20,0x00,0xf3,0x9c,0x9e,0xf7,0x3c,0xe7,0xba,0xd6,
0x38,0xc6,0xd7,0xbd,0xeb,0x5a,0x20,0x00,0x20,0x00,0x71,0x8c,0xf7,0xbd,0xa6,0x31,
0x20,0x00,0x20,0x00,0xdb,0xde,0x51,0x8c,0x20,0x00,0x20,0x00,0x6d,0x6b,0x34,0xa5,
0xf3,0x9c,0x20,0x00,0x20,0x00,0xcb,0x5a,0xfb,0xde,0x9a,0xd6,0xef,0x7b,0x20,0x00,
0x20,0x00,0x82,0x10,0x20,0x00,0x20,0x00,0x8e,0x73,0x5d,0xef,0x7d,0xef,0x5d,0xef,
0x5c,0xe7,0xf3,0x9c,0x20,0x00,0x20,0x00,0xd7,0xbd,0xcb,0x5a,0x20,0x00,0x20,0x00,
0x20,0x00,0x71,0x8c,0xd3,0x9c,0x20,0x00,0x20,0x00,0x9a,0xd6,0xf3,0x9c,0x20,0x00,
0x20,0x00,0xd7,0xbd,0xcb,0x5a,0x20,0x00,0x20,0x00,0x20,0x00,0x71,0x8c,0xf3,0x9c,
0x20,0x00,0x20,0x00,0x9a,0xd6,0xba,0xd6,0x20,0x00,0x20,0x00,0x10,0x84,0x92,0x94,
0x20,0x00,0x20,0x00,0x20,0x00,0xcb,0x5a,0xdb,0xde,0x20,0x00,0x20,0x00,0x55,0xad,
0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0x75,0xa0,0xbb,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0x9e,0x09,0x48,0xf3,0xfe,
0xff,0x75,0x00,0x00,0xee,0xfd,0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,
0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0x9e,0x09,0x70,
0xf7,0xff,0xb7,0x03,0x00,0x48,0xf3,0xfe,0xfb,0x4c,0x00,0x00,0xee,0xfd,0xff,0xbf,
0x0e,0x00,0xee,0xfd,0xff,0xff,0xff,0x9e,0x09,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x00,0xe9,0xdc,0xff,0xff,0xff,0xff,0xff,0x9e,
0x09,0x48,0xf3,0xfe,0xff,0x75,0x00,0x70,0xf7,0xdf,0x53,0x02,0x00,0x00,0xa0,0xbb,
0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xbf,
0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0x9e,0x09,0x70,
0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x48,0xf3,0xfe,
0xff,0x75,0x00,0x00,0xee,0xfd,0xff,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0x9e,
0x09,0x70,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x69,0x4a,
0xdf,0xff,0xde,0xff,0xde,0xff,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xde,0xf7,0x9d,0xef,0x3c,0xe7,0xdb,0xde,0x79,0xce,0xa6,0x31,0x20,0x00,0x20,0x00,
0xf7,0xbd,0xf7,0xbd,0x20,0x00,0x20,0x00,0xa6,0x31,0x38,0xc6,0xd3,0x9c,0x20,0x00,
0x20,0x00,0x4d,0x6b,0x79,0xce,0x20,0x00,0x20,0x00,0xa6,0x31,0x38,0xc6,0x79,0xce,
0x6d,0x6b,0x20,0x00,0x20,0x00,0x14,0xa5,0x99,0xce,0x59,0xce,0x38,0xc6,0x38,0xc6,
0x79,0xce,0x14,0xa5,0x20,0x00,0x20,0x00,0xef,0x7b,0x7d,0xef,0x1b,0xdf,0x99,0xce,
0xf7,0xbd,0x75,0xad,0xaa,0x52,0x20,0x00,0x20,0x00,0x10,0x84,0x96,0xb5,0x86,0x31,
0x20,0x00,0x20,0x00,0x38,0xc6,0x2c,0x63,0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,
0x20,0x00,0x20,0x00,0x20,0x00,0xc7,0x39,0x59,0xce,0xf7,0xbd,0x86,0x31,0x20,0x00,
0x20,0x00,0x20,0x00,0x20,0x00,0x20,0x00,0x8e,0x73,0x1c,0xe7,0x3c,0xe7,0xfb,0xde,
0xda,0xd6,0x9a,0xd6,0x82,0x10,0x20,0x00,0xae,0x73,0x82,0x10,0x20,0x00,0x8a,0x52,
0x20,0x00,0x8a,0x52,0xeb,0x5a,0x20,0x00,0x28,0x42,0x59,0xce,0x79,0xce,0x82,0x10,
0x20,0x00,0xae,0x73,0x82,0x10,0x20,0x00,0x8a,0x52,0x20,0x00,0x8a,0x52,0xeb,0x5a,
0x20,0x00,0x28,0x42,0x79,0xce,0x79,0xce,0x28,0x42,0x20,0x00,0x28,0x42,0x28,0x42,
0x20,0x00,0x8a,0x52,0x20,0x00,0xe4,0x20,0xb2,0x94,0x20,0x00,0x82,0x10,0x9d,0xef,
0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xbf,0x0e,0x48,0xf3,0x9d,0x09,0x70,0xf7,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xbf,0x0e,0x00,0x00,0x00,0xee,0xfd,0xff,0xff,
0xb7,0x03,0xe9,0xdc,0xff,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0x75,0x40,0x9a,
0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0x75,
0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xb7,0x03,0xe9,0xdc,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x53,0x02,0x00,0x00,0x00,0x00,0x00,0x70,
0xf7,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xbf,0x4e,0x9a,0xff,0xff,
0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xfb,0x4c,0x00,0x00,0x00,0x00,
0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,0xb7,0x03,
0xe9,0xdc,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,
0xb7,0x03,0xe9,0xdc,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x69,0x4a,
0xdf,0xff,0xde,0xff,0xde,0xff,0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xbe,0xf7,0x5c,0xe7,0xdb,0xde,0x59,0xce,0xd6,0xb5,0x66,0x31,0x20,0x00,0x20,0x00,
0x14,0xa5,0x14,0xa5,0x20,0x00,0x20,0x00,0x65,0x29,0x75,0xad,0x30,0x84,0x20,0x00,
0x20,0x00,0x0c,0x63,0xb6,0xb5,0x82,0x10,0x20,0x00,0xc3,0x18,0x96,0xb5,0xd7,0xbd,
0x69,0x4a,0x20,0x00,0x20,0x00,0x34,0xa5,0xf3,0x9c,0xae,0x73,0xeb,0x5a,0x54,0xa5,
0xd6,0xb5,0xef,0x7b,0x20,0x00,0x20,0x00,0x30,0x84,0x5c,0xe7,0x51,0x8c,0x2d,0x6b,
0xeb,0x5a,0x34,0xa5,0x8a,0x52,0x20,0x00,0x20,0x00,0xcf,0x7b,0x34,0xa5,0x66,0x31,
0x20,0x00,0x20,0x00,0x96,0xb5,0xd3,0x9c,0xef,0x7b,0xcf,0x7b,0xef,0x7b,0x10,0x84,
0xef,0x7b,0x20,0x00,0x20,0x00,0x08,0x42,0xb6,0xb5,0x4d,0x6b,0x20,0x00,0x20,0x00,
0x04,0x21,0x62,0x10,0x20,0x00,0x20,0x00,0x6d,0x6b,0xdb,0xde,0x34,0xa5,0x4d,0x6b,
0x2c,0x63,0x34,0xa5,0x49,0x4a,0x20,0x00,0x20,0x00,0x20,0x00,0x25,0x29,0x14,0xa5,
0x20,0x00,0x82,0x10,0x24,0x21,0x20,0x00,0xef,0x7b,0x96,0xb5,0xb6,0xb5,0x49,0x4a,
0x20,0x00,0x20,0x00,0x20,0x00,0x25,0x29,0x14,0xa5,0x20,0x00,0x82,0x10,0x25,0x29,
0x20,0x00,0x10,0x84,0xb6,0xb5,0xb6,0xb5,0xae,0x73,0x20,0x00,0x20,0x00,0x20,0x00,
0x20,0x00,0x55,0xad,0xe3,0x18,0x20,0x00,0xa6,0x31,0x20,0x00,0x2c,0x63,0x5d,0xef,
0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xb7,0x03,0x00,0x00,0xe9,0xdc,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xbf,0x0e,0x48,0xf3,0xde,0x53,0x02,0xe9,0xdc,
0xb7,0x03,0xe9,0xdc,0xff,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0x75,0x40,0x9a,
0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0x75,
0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xb7,0x03,0xe9,0xdc,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x48,0xf3,0xfe,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xbf,0x0e,0x00,0xe9,0xdc,0xff,0xbf,
0x0e,0x48,0xf3,0xfe,0xff,0xff,0x53,0x02,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xff,0x53,0x02,0x00,0x00,0x00,0x00,0x00,0x00,
0x00,0x00,0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x69,0x4a,0x69,0x4a,0x69,0x4a,
0xdf,0xff,0xdf,0xff,0xde,0xff,0xde,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0x9e,0xf7,0x1c,0xe7,0x99,0xce,0xd7,0xbd,0x55,0xad,0x45,0x29,0x20,0x00,0x20,0x00,
0x71,0x8c,0x71,0x8c,0x20,0x00,0x20,0x00,0x45,0x29,0xd3,0x9c,0xcf,0x7b,0x20,0x00,
0x20,0x00,0xaa,0x52,0x14,0xa5,0x49,0x4a,0x20,0x00,0x20,0x00,0xa6,0x31,0x69,0x4a,
0x20,0x00,0x20,0x00,0x45,0x29,0xd7,0xbd,0xeb,0x5a,0x20,0x00,0x20,0x00,0x65,0x29,
0xaa,0x52,0x82,0x10,0x20,0x00,0x20,0x00,0x38,0xc6,0x1b,0xdf,0xc7,0x39,0x20,0x00,
0x20,0x00,0x13,0x9d,0x69,0x4a,0x20,0x00,0x20,0x00,0x8e,0x73,0xd3,0x9c,0x65,0x29,
0x20,0x00,0x20,0x00,0x14,0xa5,0x92,0x94,0x45,0x29,0x20,0x00,0x62,0x10,0x69,0x4a,
0x65,0x29,0x20,0x00,0x20,0x00,0x6d,0x6b,0xd2,0x94,0x62,0x10,0x20,0x00,0x20,0x00,
0x0c,0x63,0x2c,0x63,0x20,0x00,0x20,0x00,0x4d,0x6b,0x99,0xce,0x4d,0x6b,0x20,0x00,
0x20,0x00,0xef,0x7b,0x30,0x84,0x20,0x00,0x20,0x00,0x20,0x00,0xcb,0x5a,0x14,0xa5,
0x04,0x21,0x20,0x00,0x20,0x00,0x62,0x10,0x34,0xa5,0x14,0xa5,0x14,0xa5,0x30,0x84,
0x20,0x00,0x20,0x00,0x20,0x00,0xcb,0x5a,0x14,0xa5,0x04,0x21,0x20,0x00,0x20,0x00,
0x62,0x10,0x55,0xad,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x62,0x10,0x20,0x00,0x20,0x00,
0xa6,0x31,0x13,0x9d,0x69,0x4a,0x20,0x00,0x20,0x00,0x20,0x00,0x96,0xb5,0x3c,0xe7,
0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xfb,0x4c,0xa0,0xbb,
0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0x75,0x40,0x9a,
0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0x9e,
0x09,0x00,0xee,0xfd,0xff,0xff,0xff,0x9e,0x09,0x48,0xf3,0xfe,0xff,0xbf,0x4e,0x9a,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x9e,0x09,0x00,0xe9,0xdc,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xff,0xff,0x53,0x02,0xa0,0xbb,0xff,0xff,0xff,0xbf,
0x0e,0x48,0xf3,0xfe,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0x53,0x02,0xee,0xfd,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x32,0x03,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x4a,0x69,0x4a,0x69,0x4a,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0x7d,0xef,0xfb,0xde,0x59,0xce,0x96,0xb5,0xf3,0x9c,0x45,0x29,0x20,0x00,0x20,0x00,
0x30,0x84,0x30,0x84,0x20,0x00,0x20,0x00,0x25,0x29,0x71,0x8c,0x6d,0x6b,0x20,0x00,
0x20,0x00,0x69,0x4a,0xb2,0x94,0x51,0x8c,0x45,0x29,0x20,0x00,0x20,0x00,0x20,0x00,
0x20,0x00,0xc3,0x18,0xb2,0x94,0xb6,0xb5,0x75,0xad,0x65,0x29,0x20,0x00,0x20,0x00,
0x20,0x00,0x20,0x00,0x20,0x00,0x10,0x84,0xba,0xd6,0xba,0xd6,0xa7,0x39,0x20,0x00,
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0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xfd,0xb7,0x03,0x00,0x48,0x49,0x02,0x00,0x00,0xee,0xfd,
0xff,0xff,0xfb,0x4c,0x00,0x00,0x00,0x00,0x00,0x00,0xee,0xfd,0xff,0x75,0x40,0x9a,
0xff,0xff,0xff,0x9e,0x09,0x70,0xf7,0xff,0xff,0xff,0x53,0x02,0xee,0xfd,0xff,0xff,
0xff,0x9e,0x09,0x00,0x00,0x00,0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0x9e,
0x09,0x00,0x00,0x00,0x00,0x00,0x00,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xbf,0x0e,0x48,0xf3,0xde,0x53,0x02,0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xbf,
0x0e,0x48,0xf3,0xde,0x53,0x02,0xe9,0xdc,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xfb,0x4c,0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x75,0x00,0x70,0xf7,0xff,
0xff,0xbf,0x0e,0x00,0xee,0xdd,0x53,0x02,0xe9,0xdc,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xfb,0x4c,0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,0x32,0x03,
0x32,0x03,0x32,0x03,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x69,0x4a,0x69,0x4a,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0x7d,0xef,0xdb,0xde,0x38,0xc6,0x75,0xad,0xf3,0x9c,0xae,0x73,0x4d,0x6b,0x4d,0x6b,
0x51,0x8c,0x51,0x8c,0x2d,0x6b,0x4d,0x6b,0x8e,0x73,0x71,0x8c,0x30,0x84,0x6d,0x6b,
0x8e,0x73,0x10,0x84,0x92,0x94,0x71,0x8c,0x51,0x8c,0x8e,0x73,0x49,0x4a,0x69,0x4a,
0x6d,0x6b,0x55,0xad,0x75,0xad,0x96,0xb5,0x75,0xad,0x34,0xa5,0xef,0x7b,0x69,0x4a,
0x69,0x4a,0xeb,0x5a,0xd3,0x9c,0x17,0xbe,0x59,0xce,0x59,0xce,0xf3,0x9c,0x51,0x8c,
0x10,0x84,0xf3,0x9c,0x30,0x84,0x8e,0x73,0x8e,0x73,0x71,0x8c,0xb2,0x94,0xef,0x7b,
0xae,0x73,0x8e,0x73,0x92,0x94,0x51,0x8c,0x10,0x84,0x4d,0x6b,0x29,0x4a,0x08,0x42,
0x49,0x4a,0xcf,0x7b,0xd3,0x9c,0xb2,0x94,0x4d,0x6b,0x0c,0x63,0xcb,0x5a,0x6d,0x6b,
0xcf,0x7b,0x10,0x84,0xcf,0x7b,0x51,0x8c,0x54,0xa5,0x17,0xbe,0x34,0xa5,0x10,0x84,
0xae,0x73,0x30,0x84,0x51,0x8c,0x8e,0x73,0x0c,0x63,0x0c,0x63,0x10,0x84,0x51,0x8c,
0x30,0x84,0x8e,0x73,0xae,0x73,0xd3,0x9c,0x14,0xa5,0xd2,0x94,0x92,0x94,0x51,0x8c,
0x8e,0x73,0x0c,0x63,0x0c,0x63,0x10,0x84,0x51,0x8c,0x51,0x8c,0x8e,0x73,0xcf,0x7b,
0xf3,0x9c,0x34,0xa5,0xf3,0x9c,0xb2,0x94,0x71,0x8c,0xef,0x7b,0x0c,0x63,0x0c,0x63,
0xcf,0x7b,0x30,0x84,0x71,0x8c,0xae,0x73,0x10,0x84,0x55,0xad,0xdb,0xde,0x5c,0xe7,
0xbe,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0x75,0x40,0x9a,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x89,0x4a,0x69,0x4a,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0x7d,0xef,0xdb,0xde,0x38,0xc6,0x96,0xb5,0x14,0xa5,0xb2,0x94,0xb2,0x94,0x92,0x94,
0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0xb2,0x94,0xb2,0x94,0xd2,0x94,
0xd2,0x94,0xb2,0x94,0x92,0x94,0x92,0x94,0x71,0x8c,0x71,0x8c,0x92,0x94,0xd2,0x94,
0x14,0xa5,0x55,0xad,0x75,0xad,0x96,0xb5,0x75,0xad,0x34,0xa5,0xf3,0x9c,0xd2,0x94,
0xd3,0x9c,0x14,0xa5,0x75,0xad,0xd7,0xbd,0x18,0xc6,0x18,0xc6,0xd7,0xbd,0x96,0xb5,
0x55,0xad,0x14,0xa5,0xf3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xf3,0x9c,
0x14,0xa5,0x13,0x9d,0xd3,0x9c,0xb2,0x94,0x51,0x8c,0x10,0x84,0x10,0x84,0x30,0x84,
0x71,0x8c,0xb2,0x94,0xd3,0x9c,0xd2,0x94,0x71,0x8c,0x30,0x84,0x10,0x84,0xef,0x7b,
0x30,0x84,0x92,0x94,0x14,0xa5,0x96,0xb5,0xd7,0xbd,0xd7,0xbd,0xb6,0xb5,0x55,0xad,
0xd3,0x9c,0x92,0x94,0x51,0x8c,0x30,0x84,0x30,0x84,0x51,0x8c,0x30,0x84,0x71,0x8c,
0xb2,0x94,0xf3,0x9c,0x34,0xa5,0x75,0xad,0x55,0xad,0x14,0xa5,0xd2,0x94,0x71,0x8c,
0x30,0x84,0x30,0x84,0x51,0x8c,0x30,0x84,0x71,0x8c,0xb2,0x94,0xf3,0x9c,0x55,0xad,
0x96,0xb5,0x75,0xad,0x34,0xa5,0xd3,0x9c,0x92,0x94,0x51,0x8c,0x30,0x84,0x51,0x8c,
0x30,0x84,0x51,0x8c,0x92,0x94,0xf3,0x9c,0x96,0xb5,0x59,0xce,0xfb,0xde,0x7d,0xef,
0xde,0xf7,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x48,0xf3,0xfe,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x8a,0x52,0x69,0x52,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0x7d,0xef,0xfb,0xde,0x79,0xce,0xf7,0xbd,0x75,0xad,0x34,0xa5,0x34,0xa5,0x34,0xa5,
0x14,0xa5,0x14,0xa5,0x14,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,
0x34,0xa5,0x14,0xa5,0xf3,0x9c,0xd3,0x9c,0xd2,0x94,0xd2,0x94,0xd3,0x9c,0x14,0xa5,
0x55,0xad,0x96,0xb5,0xb6,0xb5,0xb6,0xb5,0x75,0xad,0x55,0xad,0x14,0xa5,0x13,0x9d,
0x14,0xa5,0x55,0xad,0x96,0xb5,0xf7,0xbd,0x18,0xc6,0xf7,0xbd,0xd7,0xbd,0xb6,0xb5,
0x75,0xad,0x55,0xad,0x34,0xa5,0x54,0xa5,0x54,0xa5,0x34,0xa5,0x54,0xa5,0x55,0xad,
0x75,0xad,0x55,0xad,0x34,0xa5,0x13,0x9d,0xb2,0x94,0x71,0x8c,0x71,0x8c,0x92,0x94,
0xd2,0x94,0x13,0x9d,0x34,0xa5,0x14,0xa5,0xf3,0x9c,0xb2,0x94,0x92,0x94,0x92,0x94,
0xb2,0x94,0xf3,0x9c,0x55,0xad,0xb6,0xb5,0xf7,0xbd,0xd7,0xbd,0xd6,0xb5,0x75,0xad,
0x34,0xa5,0xf3,0x9c,0xd3,0x9c,0xb2,0x94,0xb2,0x94,0xd2,0x94,0xd2,0x94,0xd3,0x9c,
0x14,0xa5,0x75,0xad,0xb6,0xb5,0xf7,0xbd,0xd7,0xbd,0x96,0xb5,0x34,0xa5,0xf3,0x9c,
0xd2,0x94,0xb2,0x94,0xd2,0x94,0xd2,0x94,0xd3,0x9c,0x34,0xa5,0x75,0xad,0xd6,0xb5,
0x18,0xc6,0x18,0xc6,0xb6,0xb5,0x55,0xad,0x14,0xa5,0xd3,0x9c,0xb2,0x94,0xd2,0x94,
0xd2,0x94,0xd3,0x9c,0x14,0xa5,0x55,0xad,0xf7,0xbd,0x9a,0xd6,0x3c,0xe7,0x9e,0xf7,
0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xfb,0x4c,0xa0,0xbb,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xbf,0x0e,0x00,0xee,0xfd,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x8a,0x52,0x69,0x4a,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0x9e,0xf7,0x3c,0xe7,0xba,0xd6,0x59,0xce,0xf7,0xbd,0xd6,0xb5,0xd6,0xb5,0xd6,0xb5,
0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xd6,0xb5,0xd7,0xbd,
0xd6,0xb5,0xb6,0xb5,0x96,0xb5,0x75,0xad,0x55,0xad,0x54,0xa5,0x55,0xad,0x96,0xb5,
0xd7,0xbd,0x18,0xc6,0x38,0xc6,0x17,0xbe,0xd7,0xbd,0x96,0xb5,0x75,0xad,0x75,0xad,
0x96,0xb5,0xd6,0xb5,0x17,0xbe,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x17,0xbe,0xf7,0xbd,
0xd7,0xbd,0xb6,0xb5,0xb6,0xb5,0xd6,0xb5,0xd6,0xb5,0xb6,0xb5,0xd6,0xb5,0xd7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xd6,0xb5,0x96,0xb5,0x55,0xad,0x14,0xa5,0x14,0xa5,0x34,0xa5,
0x55,0xad,0x75,0xad,0x96,0xb5,0x96,0xb5,0x75,0xad,0x55,0xad,0x55,0xad,0x55,0xad,
0x75,0xad,0x96,0xb5,0xd7,0xbd,0x17,0xbe,0x38,0xc6,0x18,0xc6,0x18,0xc6,0xd7,0xbd,
0xb6,0xb5,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,
0xb6,0xb5,0xf7,0xbd,0x58,0xc6,0x79,0xce,0x79,0xce,0x38,0xc6,0xd7,0xbd,0x96,0xb5,
0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0xb6,0xb5,0xf7,0xbd,0x59,0xce,
0x9a,0xd6,0x9a,0xd6,0x59,0xce,0xf7,0xbd,0xb6,0xb5,0x75,0xad,0x75,0xad,0x75,0xad,
0x75,0xad,0x75,0xad,0xb6,0xb5,0xf7,0xbd,0x79,0xce,0xfb,0xde,0x7d,0xef,0xbe,0xf7,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xbe,0xf7,0x7d,0xef,0x1c,0xe7,0xdb,0xde,0x9a,0xd6,0x79,0xce,0x79,0xce,0x79,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,
0x79,0xce,0x59,0xce,0x38,0xc6,0x18,0xc6,0xf7,0xbd,0xf7,0xbd,0x18,0xc6,0x58,0xc6,
0x79,0xce,0xba,0xd6,0xba,0xd6,0x99,0xce,0x59,0xce,0x18,0xc6,0xf7,0xbd,0x18,0xc6,
0x38,0xc6,0x79,0xce,0x9a,0xd6,0xba,0xd6,0xba,0xd6,0x9a,0xd6,0x79,0xce,0x79,0xce,
0x79,0xce,0x59,0xce,0x59,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x99,0xce,
0x9a,0xd6,0x9a,0xd6,0x79,0xce,0x38,0xc6,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,0xf7,0xbd,
0x18,0xc6,0x38,0xc6,0x58,0xc6,0x58,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,
0x38,0xc6,0x59,0xce,0x79,0xce,0x99,0xce,0x9a,0xd6,0x9a,0xd6,0x99,0xce,0x79,0xce,
0x59,0xce,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x58,0xc6,0x38,0xc6,0x59,0xce,
0x79,0xce,0x9a,0xd6,0xdb,0xde,0xfb,0xde,0xfb,0xde,0xdb,0xde,0x9a,0xd6,0x59,0xce,
0x38,0xc6,0x38,0xc6,0x58,0xc6,0x38,0xc6,0x59,0xce,0x79,0xce,0xba,0xd6,0xfb,0xde,
0x1c,0xe7,0x1c,0xe7,0xfb,0xde,0x9a,0xd6,0x79,0xce,0x58,0xc6,0x38,0xc6,0x58,0xc6,
0x38,0xc6,0x58,0xc6,0x79,0xce,0x9a,0xd6,0xfb,0xde,0x5c,0xe7,0x9e,0xf7,0xdf,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xde,0xf7,0xbe,0xf7,0x7d,0xef,0x5c,0xe7,0x1c,0xe7,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0x1b,0xdf,0x1b,0xdf,0x1c,0xe7,
0x1c,0xe7,0xfb,0xde,0xfb,0xde,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xfb,0xde,
0x1b,0xdf,0x3c,0xe7,0x1c,0xe7,0xfb,0xde,0xdb,0xde,0xba,0xd6,0x9a,0xd6,0xba,0xd6,
0xdb,0xde,0xfb,0xde,0x1c,0xe7,0x3c,0xe7,0x1c,0xe7,0x1b,0xdf,0xfb,0xde,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0x1b,0xdf,0x1c,0xe7,
0x3c,0xe7,0x1c,0xe7,0x1b,0xdf,0xfb,0xde,0xba,0xd6,0x9a,0xd6,0x9a,0xd6,0xba,0xd6,
0xdb,0xde,0xdb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0xfb,0xde,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0x1b,0xdf,0x3c,0xe7,0x5d,0xef,0x7d,0xef,0x7d,0xef,0x5c,0xe7,0x3c,0xe7,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0x1b,0xdf,0x3c,0xe7,0x5d,0xef,
0x7d,0xef,0x7d,0xef,0x5d,0xef,0x3c,0xe7,0x1b,0xdf,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0x1b,0xdf,0x3c,0xe7,0x5d,0xef,0x9d,0xef,0xde,0xf7,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xde,0xf7,0xbe,0xf7,0x9e,0xf7,0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x9d,0xef,
0x9d,0xef,0x7d,0xef,0x5d,0xef,0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,0x5c,0xe7,0x5d,0xef,
0x7d,0xef,0x9d,0xef,0x9d,0xef,0x7d,0xef,0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x5d,0xef,0x7d,0xef,0x7d,0xef,0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x9d,0xef,0x7d,0xef,0x7d,0xef,0x5d,0xef,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x5c,0xe7,0x5d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x9e,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0x9d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x9e,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x9d,0xef,0xbe,0xf7,0xde,0xf7,0xdf,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x8a,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xdf,0xff,0xdf,0xff,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xde,0xf7,0xdf,0xff,0xdf,0xff,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xdf,0xff,0xdf,0xff,
0xff,0xff,0xff,0xff,0xdf,0xff,0xdf,0xff,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xdf,0xff,0xdf,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xaa,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,
0xdf,0xff,0xdf,0xff,0xde,0xff,0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xde,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9d,0xf7,
0x9d,0xef,0x9e,0xf7,0x9e,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5c,0xef,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,
0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x3c,0xe7,0x3c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1b,0xe7,
0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xda,0xde,0xda,0xd6,0xba,0xd6,0xba,0xd6,
0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0x9a,0xd6,0xba,0xd6,0x9a,0xd6,
0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x99,0xce,0x79,0xce,0x79,0xce,0x79,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x59,0xce,0x59,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x58,0xc6,0x58,0xc6,0x58,0xc6,0x38,0xc6,0x38,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,0x18,0xc6,
0x18,0xc6,0x18,0xbe,0x17,0xbe,0x17,0xbe,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,
0xd6,0xb5,0xd6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,
0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x75,0xad,
0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x55,0xad,0x55,0xad,
0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x54,0xa5,0x34,0xa5,0x34,0xa5,
0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x14,0xa5,0x14,0xa5,0x14,0xa5,0x14,0xa5,
0x14,0xa5,0x13,0x9d,0x13,0x9d,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,
0xf3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd2,0x94,0xd2,0x94,
0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0x92,0x94,0x92,0x94,
0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x72,0x94,0x71,0x8c,0x71,0x8c,0x71,0x8c,
0x71,0x8c,0x71,0x8c,0x71,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,
0x51,0x8c,0x51,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,
0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x0f,0x84,0xef,0x7b,0xef,0x7b,
0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,
0xcf,0x7b,0xcf,0x7b,0xae,0x7b,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,
0xae,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x6e,0x6b,
0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x4d,0x6b,0x4d,0x6b,
0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x2d,0x6b,0x2c,0x63,0x2c,0x63,0x2c,0x63,
0x2c,0x63,0x2c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,
0x0c,0x63,0xec,0x5a,0xeb,0x62,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xcb,0x5a,
0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xab,0x5a,0xaa,0x5a,
0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,0x9e,0xf7,
0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,
0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,
0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x1c,0xe7,0x1c,0xe7,
0x1c,0xe7,0x1c,0xe7,0x1c,0xdf,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xdb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xd6,0xdb,0xde,0xda,0xd6,0xba,0xd6,
0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,
0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x99,0xd6,0x9a,0xce,0x99,0xce,0x79,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x59,0xce,0x59,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xc6,0x58,0xc6,0x58,0xc6,0x38,0xc6,0x38,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x18,0xc6,0x18,0xc6,
0x18,0xc6,0x18,0xc6,0x17,0xbe,0x17,0xbe,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,
0xd7,0xb5,0xd6,0xb5,0xd6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,
0xb6,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x76,0xad,
0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x55,0xad,0x55,0xad,
0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x54,0xa5,0x34,0xa5,0x34,0xa5,
0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x14,0xa5,0x14,0xa5,
0x14,0xa5,0x14,0xa5,0x13,0x9d,0x13,0x9d,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,
0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd2,0x94,0xd2,0x94,
0xd2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0x92,0x94,0x92,0x94,
0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x91,0x8c,0x71,0x8c,0x71,0x8c,
0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,
0x51,0x8c,0x51,0x8c,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,
0x30,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0xf0,0x7b,0xef,0x7b,
0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,
0xcf,0x7b,0xcf,0x7b,0xce,0x7b,0xae,0x7b,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,
0xae,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x6d,0x73,
0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x4d,0x6b,0x4d,0x6b,
0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x2d,0x63,0x2d,0x63,0x2c,0x63,
0x2c,0x63,0x2c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,
0x0c,0x63,0xec,0x62,0xec,0x62,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,
0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xab,0x5a,0xaa,0x5a,
0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0x8a,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xde,0xff,0xdf,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,
0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,0x9d,0xef,
0x9d,0xef,0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,
0x5d,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x3c,0xe7,
0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x1c,0xe7,
0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,0xfb,0xde,
0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xba,0xd6,
0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,
0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x99,0xd6,0x99,0xce,0x99,0xce,
0x99,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xce,0x58,0xce,0x58,0xc6,0x38,0xc6,0x38,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x18,0xc6,0x18,0xc6,
0x18,0xc6,0x18,0xc6,0x18,0xc6,0x17,0xc6,0x17,0xbe,0x17,0xbe,0xf7,0xbd,0xf7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,
0xd7,0xbd,0xd7,0xb5,0xd6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,
0xb6,0xb5,0xb6,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,
0x76,0xb5,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x55,0xad,
0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x54,0xad,0x54,0xa5,0x34,0xa5,
0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x14,0xa5,0x14,0xa5,
0x14,0xa5,0x14,0xa5,0x14,0x9d,0x13,0x9d,0x13,0x9d,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,
0xf3,0x9c,0xf3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x94,
0xd2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0x92,0x94,
0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x8c,0x71,0x8c,0x71,0x8c,
0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,
0x51,0x8c,0x51,0x8c,0x51,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,
0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0xf0,0x7b,
0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xcf,0x7b,0xcf,0x7b,
0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xae,0x73,0xae,0x73,0xae,0x73,0xae,0x73,
0xae,0x73,0xae,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,
0x8e,0x73,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x4d,0x6b,
0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x2d,0x63,0x2c,0x63,
0x2c,0x63,0x2c,0x63,0x2c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,
0x0c,0x63,0x0c,0x63,0xec,0x62,0xec,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,
0xeb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xab,0x5a,
0xab,0x5a,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0x8a,0x52,
0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xdf,0xff,
0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xdf,0xff,0xde,0xf7,0xde,0xf7,0xde,0xf7,
0xde,0xf7,0xde,0xf7,0xde,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,
0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0xbe,0xf7,0x9e,0xf7,
0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xf7,0x9e,0xef,0x9d,0xef,0x9d,0xef,
0x9d,0xef,0x9d,0xef,0x7d,0xef,0x9d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,
0x7d,0xef,0x7d,0xef,0x7d,0xef,0x7d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,0x5d,0xef,
0x5d,0xef,0x5c,0xef,0x5d,0xe7,0x5c,0xe7,0x5c,0xe7,0x5c,0xe7,0x3c,0xe7,0x3c,0xe7,
0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x3c,0xe7,0x1c,0xe7,
0x1c,0xe7,0x1c,0xe7,0x1c,0xe7,0x1b,0xe7,0x1b,0xe7,0x1b,0xdf,0x1b,0xdf,0x1b,0xdf,
0x1b,0xdf,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,0xfb,0xde,
0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xdb,0xde,0xda,0xde,0xda,0xd6,
0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,0xba,0xd6,
0xba,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xd6,0x9a,0xce,
0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x79,0xce,0x59,0xce,
0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xce,0x59,0xc6,0x58,0xc6,0x58,0xc6,
0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,0x38,0xc6,
0x18,0xc6,0x18,0xc6,0x18,0xc6,0x17,0xc6,0x17,0xbe,0x17,0xbe,0xf7,0xbd,0xf7,0xbd,
0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xf7,0xbd,0xd7,0xbd,0xd7,0xbd,0xd7,0xbd,
0xd7,0xbd,0xd6,0xbd,0xd6,0xb5,0xd6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,
0xb6,0xb5,0xb6,0xb5,0xb6,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,0x96,0xb5,
0x96,0xb5,0x76,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,0x75,0xad,
0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xad,0x55,0xa5,0x54,0xa5,
0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x34,0xa5,0x14,0xa5,0x14,0xa5,
0x14,0xa5,0x14,0xa5,0x14,0xa5,0x14,0x9d,0x13,0x9d,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,
0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xf3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,0xd3,0x9c,
0xd2,0x9c,0xd2,0x94,0xd2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,0xb2,0x94,
0xb2,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x92,0x94,0x91,0x8c,0x71,0x8c,
0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x71,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,
0x51,0x8c,0x51,0x8c,0x51,0x8c,0x51,0x8c,0x30,0x84,0x30,0x84,0x30,0x84,0x30,0x84,
0x30,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,0x10,0x84,
0x0f,0x7c,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xef,0x7b,0xcf,0x7b,
0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xcf,0x7b,0xaf,0x7b,0xae,0x73,0xae,0x73,0xae,0x73,
0xae,0x73,0xae,0x73,0xae,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,0x8e,0x73,
0x8e,0x73,0x6e,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,0x6d,0x6b,
0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x4d,0x6b,0x2d,0x6b,0x2c,0x6b,
0x2c,0x63,0x2c,0x63,0x2c,0x63,0x2c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,0x0c,0x63,
0x0c,0x63,0x0c,0x63,0xec,0x62,0xec,0x62,0xec,0x5a,0xeb,0x5a,0xeb,0x5a,0xeb,0x5a,
0xeb,0x5a,0xeb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,0xcb,0x5a,
0xab,0x5a,0xab,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,0xaa,0x52,
};
|
the_stack_data/17006.c | #include <pthread.h>
#include <assert.h>
#define N 3
void __ESBMC_atomic_begin();
void __ESBMC_atomic_end();
pthread_mutex_t x[N];
void *thread1(void *arg)
{
int id, *aptr1, left, right;
aptr1=(int *)arg;
id=*aptr1;
left=id;
right=(id+1)%N;
__ESBMC_atomic_begin();
pthread_mutex_lock(&x[right]);
pthread_mutex_lock(&x[left]);
pthread_mutex_unlock(&x[left]);
pthread_mutex_unlock(&x[right]);
__ESBMC_atomic_end();
}
int main()
{
int arg,i;
pthread_t trd_id[N];
for(i=0; i<N; i++)
pthread_mutex_init(&x[i], NULL);
for(i=0; i<N; i++)
{
arg=i;
pthread_create(&trd_id[i], 0, thread1, &arg);
}
for(i=0; i<N; i++)
pthread_join(trd_id[i], 0);
return 0;
}
|
the_stack_data/30740.c | #include <stdio.h>
void main()
{
int i,j,k=5;
for(i=0;i<5;i++)
{
for(int q=0;q<k-i-1;q++)
{
printf(" ");
}
for(j=k-i-1;j<5;j++)
{
printf("*");
}
printf("\n");
}
} |
the_stack_data/193891886.c | /*
I declare that the attached assignment is wholly my own work in accordance with Seneca Academic Policy. No
part of this assignment has been copied manually or electronically from any other source (including web
sites) or distributed to other students
Name: M.Saeed Mohiti Student ID: 116236159
*/
#include <stdio.h>
#include <time.h>
#include <stdlib.h>
#define SIZE 10
#define MinPrize 10
#define MaxPrize 100
#define MinGPrize 100
#define MaxGprize 200
void Srandom() {
srand(time(NULL));
}
// checks the user UserInp is numeric
int GetValidInteger(int min, int max);
//checks the user UserInp UserInp is alphabetic
int GetValidCharacter(char min, char max);
// ask user to type the user name
void initPlayer(int* PlayerScore, int PlayerPrize[], unsigned int* PlayerCount, char* PlayerName, int* PlayerPosition);
// this function gets a random NUM inbetween the specified range
int getRandom(int a, int b);
//dice rolls, in range of 3
unsigned int PlayerRoll();
char GetTileType(unsigned int index);
//chek the player position
char getdisplaytile(unsigned int index, unsigned int PlayerPosition, char PlayerName);
// print the tile
void displayBoard(unsigned int size, unsigned int PlayerPosition, char PlayerName);
//create prize
void WinPrize(int PlayerPrize[], unsigned int *PlayerCount);
// create grand prize
void WinGPrize(int PlayerPrize[], unsigned int* PlayerCount);
//create random NUM
int LoseItem(int PlayerPrize[], unsigned int* PlayerCount);
//check sum of all prize
int checkout(int* PlayerScore, int PlayerPrize[], unsigned int* PlayerCount);
//propmt user to enter letter to choose menue
int PlayGame(unsigned int boardsize, int *PlayerScore, int PlayerPrize[], unsigned int *PlayerCount, char *PlayerName, int *PlayerPosition);
int main(void){
Srandom();
unsigned int PlayerCount = 0;
char PlayerName, Pname, UserInp = 'o';
int PlayerPrize[SIZE] = {0};
int maxPoint = 100, PlayerScore = 0, PlayerPosition = 0, boardsize;
int k = 0, j = 2;
do{
printf("Welcome to CHECKOUT\nMain Menu\n\np-(p)lay q-(q)uit r-inst(r)uctions s-HI(s)core:\n");
scanf("%s", &UserInp);
if (UserInp == 'p'){
printf("Nunmebr of players is 1\n");
initPlayer(&PlayerScore, PlayerPrize, &PlayerCount, &PlayerName, &PlayerPosition);
printf("Enter board size: ");
scanf("%d", &boardsize);
PlayGame(boardsize, &PlayerScore, PlayerPrize, &PlayerCount, &PlayerName, &PlayerPosition);
k = k + PlayerPosition;
do{
j = PlayGame(boardsize, &PlayerScore, PlayerPrize, &PlayerCount, &PlayerName, &k);
if (j==1){
printf("You won the game!\n");
maxPoint = PlayerScore;
Pname = PlayerName;
break;
}
else if (j==0){
printf("You lost\n");
break;
}
} while (&PlayerPosition != 0);
}
switch(UserInp){
case 'r':
printf("Type a letter to enter the game\n\n");
break;
case 's':
printf("__\n"
" \\_______\n"
" \\++++++|\n"
" \\=====|\n"
" 0--- 0\n");
printf("HIGH SCORE: %d Player Name: %c\n\n", maxPoint, Pname);
break;
}
} while (UserInp != 'q');
printf("This game is so much more fun than bash...\n");
return 0;
}
int GetValidInteger(int min, int max) {
int UserInp = 0,valid=0;
valid=scanf("%d", &UserInp);
while(getchar()!='\n');
while (valid!=1 || UserInp < min || UserInp > max){
printf("Invalid input, try again: ");
valid=scanf("%d", &UserInp);
}
return UserInp;
}
int GetValidCharacter(char min, char max) {
char UserInp;;
scanf("%c", &UserInp);
while (UserInp < min || UserInp > max)
{
printf("Invalid input, try again: ");
scanf("%c", &UserInp);}
return UserInp;
}
void initPlayer(int* PlayerScore, int PlayerPrize[], unsigned int*
PlayerCount, char* PlayerName, int* PlayerPosition) {
*PlayerScore = 0;
PlayerPrize[SIZE] = 0;
*PlayerCount = 0;
*PlayerPosition = 0;
printf("Enter player ID: ");
scanf("%s", &*PlayerName);
}
int getRandom(int a, int b) {
int random = 0;
random = a + rand() % (b + 1 - a);
return random;
}
unsigned int PlayerRoll()
{
printf("your turn, how many dice will you roll? ");
unsigned int i, diceNumbers = GetValidInteger(1, 3), diceSum = 0, rollResult;
printf("You rolled:");
for (i = 0; i < diceNumbers; i++) {
rollResult = 1 + (rand() % 6);
printf(" %d", rollResult);
diceSum += rollResult;
}
printf("\n");
return diceSum;
}
char GetTileType(unsigned int index) {
char letter;
if (index == 0)
letter = 'C';
else if (index % 7 == 0)
letter = 'G';
else if (index % 5 == 0)
letter = 'L';
else if (index % 3 == 0)
letter = 'W';
else
letter = ' ';
return letter;
}
char getdisplaytile(unsigned int index, unsigned int PlayerPosition, char PlayerName) {
if (index != PlayerPosition) {
char letter = GetTileType(index);
return letter;
}
else
return PlayerName;
}
void displayBoard(unsigned int size, unsigned int PlayerPosition, char PlayerName) {
const int NUM = size;
int i, j, count, ppos = 0;
int numerator = ((NUM * 4) - 5);
int numerator1 = size;
ppos = PlayerPosition;
for (count = 0; count <= (size - 1); count++) {
printf(" ___ ");
}
printf("\n");
for (count = 0; count <= (size - 1); count++) {
printf("| %c |", getdisplaytile(count, ppos, PlayerName));
// printf(" test %c %d \n",PlayerName, ppos);
}
printf("\n");
for (count = 0; count <= (size - 1); count++) {
printf("|___|");
}
printf("\n");
for (j = 0; j < (NUM - 2); j++) {
printf(" ___ ");
for (i = 0; i < (NUM - 2); i++)
printf(" ");
printf(" ___ ");
printf("\n");
printf("| %c |", getdisplaytile(numerator, ppos, PlayerName));
for (i = 0; i < (NUM - 2); i++)
printf(" ");
printf("| %c |", getdisplaytile(numerator1, ppos, PlayerName));
printf("\n");
printf("|___|");
for (i = 0; i < (NUM - 2); i++)
printf(" ");
printf("|___|");
printf("\n");
numerator--;
numerator1++;
}
for (count = ((NUM * 2) + (NUM - 3)); count >= ((NUM * 2) - 2); count--)
printf(" ___ ");
printf("\n");
for (count = ((NUM * 2) + (NUM - 3)); count >= ((NUM * 2) - 2); count--)
printf("| %c |", getdisplaytile(count, ppos, PlayerName));
printf("\n");
for (count = ((NUM * 2) + (NUM - 3)); count >= ((NUM * 2) - 2); count--)
printf("|___|");
printf("\n");
}
void WinPrize(int PlayerPrize[], unsigned int* PlayerCount)
{
if (*PlayerCount == SIZE) {
printf("sorry, your inventory is full.\n");
return;
}
else {
int prize = getRandom(MinPrize, MaxPrize);
PlayerPrize[(*PlayerCount)++] = prize;
printf("you won a prize of %d\n", prize);
}
}
void WinGPrize(int PlayerPrize[], unsigned int* PlayerCount)
{
if (*PlayerCount == SIZE) {
printf("sorry, your inventory is full.\n");
return;
}
else {
int prize = getRandom(MinGPrize, MaxGprize);
PlayerPrize[(*PlayerCount)++] = prize;
printf("you won a grand prize of %d\n", prize);
}
}
int LoseItem(int PlayerPrize[], unsigned int* PlayerCount) {
int itemsSeen, numerator, VAR;
if (*PlayerCount > 0) {
Srandom();
int t = getRandom(1, *PlayerCount);
int amount = PlayerPrize[t - 1];
for (numerator = t - 1; numerator < *PlayerCount; numerator++) {
PlayerPrize[numerator] = PlayerPrize[numerator + 1];
}
*PlayerCount -= 1;
printf("You lose a prize valued at $%d!\n", amount);
}
return VAR;
}
int checkout(int* PlayerScore, int PlayerPrize[], unsigned int* PlayerCount) {
int a;
*PlayerScore = PlayerPrize[0] + PlayerPrize[1] + PlayerPrize[2] + PlayerPrize[3] + PlayerPrize[4] + PlayerPrize[5] + PlayerPrize[6] + PlayerPrize[7] +
PlayerPrize[8] + PlayerPrize[9];
if (*PlayerScore >= 200)
a = 1;
else
a = 0;
return a;
}
int PlayGame(unsigned int boardsize, int *PlayerScore, int PlayerPrize[], unsigned
int *PlayerCount, char *PlayerName, int *PlayerPosition) {
displayBoard(boardsize, *PlayerPosition, *PlayerName);
printf("Score: %d", *PlayerScore);
printf(" Inventory(%d items): ", *PlayerCount);
for (int i = 0; i < *PlayerCount; i++)
printf("%d, ", PlayerPrize[i]);
printf("\n");
int a = PlayerRoll();
int c = 2;
int round = (boardsize * 4 - 4);
*PlayerPosition = *PlayerPosition + a;
while (*PlayerPosition >= round)
*PlayerPosition = *PlayerPosition - (round);
int name = *PlayerName;
int sum = 0;
/*
switch (GetTileType) {
case 'W':
GetTileType(*PlayerPosition);
WinPrize(PlayerPrize, PlayerCount);
break;
case 'L':
GetTileType(*PlayerPosition);
LoseItem(PlayerPrize, PlayerCount);
break;
case 'G':
GetTileType(*PlayerPosition);
WinGPrize(PlayerPrize, PlayerCount);
break;
default:
GetTileType(*PlayerPosition);
printf("Nothing happens, go again.\n");
break;
}
*/
if (*PlayerPosition == 0) {
c = checkout(PlayerScore, PlayerPrize, PlayerCount);
printf("You checkedout!\n");
}
if (GetTileType(*PlayerPosition) == ' ')
printf("Nothing happens, go again.\n");
if (GetTileType(*PlayerPosition) == 'W')
WinPrize(PlayerPrize, PlayerCount);
if (GetTileType(*PlayerPosition) == 'L')
LoseItem(PlayerPrize, PlayerCount);
if (GetTileType(*PlayerPosition) == 'G')
WinGPrize(PlayerPrize, PlayerCount);
*PlayerScore = PlayerPrize[0] + PlayerPrize[1] + PlayerPrize[2] + PlayerPrize[3] + PlayerPrize[4] + PlayerPrize[5] + PlayerPrize[6] + PlayerPrize[7] +
PlayerPrize[8] + PlayerPrize[9];
printf("\n");
return c;
}
|
the_stack_data/257418.c | /* ************************************************************************** */
/* */
/* ::: :::::::: */
/* ft_strcpy.c :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: mmasstou <[email protected]> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2021/06/29 19:21:52 by mmasstou #+# #+# */
/* Updated: 2021/07/07 09:59:16 by mmasstou ### ########.fr */
/* */
/* ************************************************************************** */
char *ft_strcpy(char *dest, char *src)
{
int index;
index = 0;
while (src[index] != '\0')
{
dest[index] = src[index];
index++;
}
dest[index] = '\0';
return (dest);
}
|
the_stack_data/95450171.c | /*
* guesslocale.c
*
* All rights reserved. Copyright (C) 2003 by Tomohiro KUBOTA.
* $Id: guesslocale.c,v 1.7 2004/01/05 08:41:22 nrt Exp $
*/
/*
* 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 HAVE_SETLOCALE
#include <stdlib.h>
#include <string.h>
#include <locale.h>
#if defined(HAVE_LANGINFO_CODESET)
#include <langinfo.h>
#endif
#include <import.h>
#include <ctable.h>
#include <begin.h>
#include <guesslocale.h>
static int strcmp2( char *str1, char *str2 )
{
while(1) {
if( *str1 == '_' || *str1 == '-' ) {str1++; continue;}
if( *str2 == '_' || *str2 == '-' ) {str2++; continue;}
if( toupper(*str1) != toupper(*str2) ) return -1;
if( *str1 == 0 ) return 0;
str1++; str2++;
}
}
public byte LocaleCodingSystem( char *language )
{
#ifdef MSDOS
strcpy( language, "ja_JP" );
return SHIFT_JIS;
#elif !defined(HAVE_LANGINFO_CODESET)
#warning "XXX There isn't nl_langinfo(CODESET) functionality."
#warning "XXX Using fixed value ``ja_JP'' and EUC_JAPAN..."
strcpy( language, "ja_JP" );
return EUC_JAPAN;
#else
static char lang[6];
char *nl;
static byte c = 0;
if( c ) {
strcpy( language, lang );
return c;
}
nl = setlocale( LC_CTYPE, "" );
if (nl != NULL) {
strncpy( lang, nl, 5 ); lang[5] = 0;
} else
lang[0] = 0;
nl = nl_langinfo( CODESET );
if ( !strcmp2(nl, "UTF-8") ) c = UTF_8;
else if ( !strcmp2(nl, "ISO-8859-1") ) c = ISO_8859_1;
else if ( !strcmp2(nl, "ISO-8859-2") ) c = ISO_8859_2;
else if ( !strcmp2(nl, "ISO-8859-3") ) c = ISO_8859_3;
else if ( !strcmp2(nl, "ISO-8859-4") ) c = ISO_8859_4;
else if ( !strcmp2(nl, "ISO-8859-5") ) c = ISO_8859_5;
else if ( !strcmp2(nl, "ISO-8859-6") ) c = ISO_8859_6;
else if ( !strcmp2(nl, "ISO-8859-7") ) c = ISO_8859_7;
else if ( !strcmp2(nl, "ISO-8859-8") ) c = ISO_8859_8;
else if ( !strcmp2(nl, "ISO-8859-9") ) c = ISO_8859_9;
else if ( !strcmp2(nl, "ISO-8859-10") ) c = ISO_8859_10;
else if ( !strcmp2(nl, "ISO-8859-11") ) c = ISO_8859_11;
else if ( !strcmp2(nl, "TIS-620") ) c = ISO_8859_11;
else if ( !strcmp2(nl, "ISO-8859-13") ) c = ISO_8859_13;
else if ( !strcmp2(nl, "ISO-8859-14") ) c = ISO_8859_14;
else if ( !strcmp2(nl, "ISO-8859-15") ) c = ISO_8859_15;
else if ( !strcmp2(nl, "EUC-JP") ) c = EUC_JAPAN;
else if ( !strcmp2(nl, "GB2312") ) c = EUC_CHINA;
else if ( !strcmp2(nl, "EUC-CN") ) c = EUC_CHINA;
else if ( !strcmp2(nl, "EUC-KR") ) c = EUC_KOREA;
else if ( !strcmp2(nl, "EUC-TW") ) c = EUC_TAIWAN;
else if ( !strcmp2(nl, "BIG5") ) c = BIG_FIVE;
else if ( !strcmp2(nl, "SHIFT_JIS") ) c = SHIFT_JIS;
else if ( !strcmp2(nl, "SJIS") ) c = SHIFT_JIS;
else c = ISO_8859_1;
strcpy( language, lang );
return c;
#endif
}
public byte DetermineEUC( char *language, char defaultEuc )
{
if( EUC_JAPAN == defaultEuc || EUC_KOREA == defaultEuc ||
EUC_CHINA == defaultEuc || EUC_TAIWAN == defaultEuc )
return defaultEuc;
if( !strncmp(language, "ja", 2) ) return EUC_JAPAN;
if( !strncmp(language, "ko", 2) ) return EUC_KOREA;
if( !strcmp(language, "zh_CN") ) return EUC_CHINA;
if( !strcmp(language, "zh_TW") ) return EUC_TAIWAN;
if( !strcmp(language, "zh_HK") ) return EUC_TAIWAN;
if( !strncmp(language, "zh", 2) ) return EUC_TAIWAN;
return EUC_JAPAN;
}
public byte Determine8bit( char *language )
{
char country[3], language2[3], *cp;
cp = strchr(language, '_');
if (cp != NULL) {
strncpy(country, cp + 1, 2);
country[2] = 0;
} else
country[0] = 0;
strncpy( language2, language, 2 );
language2[2] = 0;
/* Euro countries, maybe increased in future */
if( !strcmp(country, "AT") ) return ISO_8859_15;
if( !strcmp(country, "BE") ) return ISO_8859_15;
if( !strcmp(country, "DE") ) return ISO_8859_15;
if( !strcmp(country, "ES") ) return ISO_8859_15;
if( !strcmp(country, "FI") ) return ISO_8859_15;
if( !strcmp(country, "FR") ) return ISO_8859_15;
if( !strcmp(country, "GR") ) return ISO_8859_7;
if( !strcmp(country, "IE") ) return ISO_8859_15;
if( !strcmp(country, "IT") ) return ISO_8859_15;
if( !strcmp(country, "LU") ) return ISO_8859_15;
if( !strcmp(country, "NL") ) return ISO_8859_15;
if( !strcmp(country, "PT") ) return ISO_8859_15;
if( !strcmp(language2, "ar") ) return ISO_8859_6;
if( !strcmp(language2, "bs") ) return ISO_8859_2;
if( !strcmp(language2, "cs") ) return ISO_8859_2;
if( !strcmp(language2, "cy") ) return ISO_8859_14;
if( !strcmp(language2, "fa") ) return ISO_8859_8;
if( !strcmp(language2, "hr") ) return ISO_8859_2;
if( !strcmp(language2, "hu") ) return ISO_8859_2;
if( !strcmp(language2, "iw") ) return ISO_8859_8;
if( !strcmp(language2, "lt") ) return ISO_8859_13;
if( !strcmp(language2, "lv") ) return ISO_8859_13;
if( !strcmp(language2, "mi") ) return ISO_8859_13;
if( !strcmp(language2, "mk") ) return ISO_8859_5;
if( !strcmp(language2, "mt") ) return ISO_8859_3;
if( !strcmp(language2, "pl") ) return ISO_8859_2;
if( !strcmp(language2, "pl") ) return ISO_8859_2;
if( !strcmp(language2, "ro") ) return ISO_8859_2;
if( !strcmp(language2, "ru") ) return ISO_8859_5; /* should be KOI8-R */
if( !strcmp(language2, "sk") ) return ISO_8859_2;
if( !strcmp(language2, "sl") ) return ISO_8859_2;
if( !strcmp(language2, "sr") ) return ISO_8859_2; /* ISO-8859-5? */
if( !strcmp(language2, "th") ) return ISO_8859_11;
if( !strcmp(language2, "tr") ) return ISO_8859_9;
return ISO_8859_1;
}
#endif /* HAVE_SETLOCALE */
|
the_stack_data/902696.c | #define _GNU_SOURCE
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
char* __randname(char*);
char* mktemp(char* template) {
size_t l = strlen(template);
int retries = 100;
struct stat st;
if (l < 6 || memcmp(template + l - 6, "XXXXXX", 6)) {
errno = EINVAL;
*template = 0;
return template;
}
do {
__randname(template + l - 6);
if (stat(template, &st)) {
if (errno != ENOENT)
*template = 0;
return template;
}
} while (--retries);
*template = 0;
errno = EEXIST;
return template;
}
|
the_stack_data/139179.c | // RUN: %clang_cc1 -triple arm64-linux-gnu -emit-llvm -o - %s | FileCheck --check-prefix=CHECK --check-prefix=CHECK-LE %s
// RUN: %clang_cc1 -triple aarch64_be-linux-gnu -emit-llvm -o - %s | FileCheck --check-prefix=CHECK --check-prefix=CHECK-BE %s
#include <stdarg.h>
// Obviously there's more than one way to implement va_arg. This test should at
// least prevent unintentional regressions caused by refactoring.
va_list the_list;
int simple_int(void) {
// CHECK-LABEL: define i32 @simple_int
return va_arg(the_list, int);
// CHECK: [[GR_OFFS:%[a-z_0-9]+]] = load i32, i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[EARLY_ONSTACK:%[a-z_0-9]+]] = icmp sge i32 [[GR_OFFS]], 0
// CHECK: br i1 [[EARLY_ONSTACK]], label %[[VAARG_ON_STACK:[a-z_.0-9]+]], label %[[VAARG_MAYBE_REG:[a-z_.0-9]+]]
// CHECK: [[VAARG_MAYBE_REG]]
// CHECK: [[NEW_REG_OFFS:%[a-z_0-9]+]] = add i32 [[GR_OFFS]], 8
// CHECK: store i32 [[NEW_REG_OFFS]], i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[INREG:%[a-z_0-9]+]] = icmp sle i32 [[NEW_REG_OFFS]], 0
// CHECK: br i1 [[INREG]], label %[[VAARG_IN_REG:[a-z_.0-9]+]], label %[[VAARG_ON_STACK]]
// CHECK: [[VAARG_IN_REG]]
// CHECK: [[REG_TOP:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 1)
// CHECK: [[REG_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[REG_TOP]], i32 [[GR_OFFS]]
// CHECK-BE: [[REG_ADDR_ALIGNED:%[0-9]+]] = getelementptr inbounds i8, i8* [[REG_ADDR]], i64 4
// CHECK-BE: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR_ALIGNED]] to i32*
// CHECK-LE: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR]] to i32*
// CHECK: br label %[[VAARG_END:[a-z._0-9]+]]
// CHECK: [[VAARG_ON_STACK]]
// CHECK: [[STACK:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[NEW_STACK:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[STACK]], i64 8
// CHECK: store i8* [[NEW_STACK]], i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK-BE: [[STACK_ALIGNED:%[a-z_0-9]*]] = getelementptr inbounds i8, i8* [[STACK]], i64 4
// CHECK-BE: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[STACK_ALIGNED]] to i32*
// CHECK-LE: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[STACK]] to i32*
// CHECK: br label %[[VAARG_END]]
// CHECK: [[VAARG_END]]
// CHECK: [[ADDR:%[a-z._0-9]+]] = phi i32* [ [[FROMREG_ADDR]], %[[VAARG_IN_REG]] ], [ [[FROMSTACK_ADDR]], %[[VAARG_ON_STACK]] ]
// CHECK: [[RESULT:%[a-z_0-9]+]] = load i32, i32* [[ADDR]]
// CHECK: ret i32 [[RESULT]]
}
__int128 aligned_int(void) {
// CHECK-LABEL: define i128 @aligned_int
return va_arg(the_list, __int128);
// CHECK: [[GR_OFFS:%[a-z_0-9]+]] = load i32, i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[EARLY_ONSTACK:%[a-z_0-9]+]] = icmp sge i32 [[GR_OFFS]], 0
// CHECK: br i1 [[EARLY_ONSTACK]], label %[[VAARG_ON_STACK:[a-z_.0-9]+]], label %[[VAARG_MAYBE_REG:[a-z_.0-9]+]]
// CHECK: [[VAARG_MAYBE_REG]]
// CHECK: [[ALIGN_REGOFFS:%[a-z_0-9]+]] = add i32 [[GR_OFFS]], 15
// CHECK: [[ALIGNED_REGOFFS:%[a-z_0-9]+]] = and i32 [[ALIGN_REGOFFS]], -16
// CHECK: [[NEW_REG_OFFS:%[a-z_0-9]+]] = add i32 [[ALIGNED_REGOFFS]], 16
// CHECK: store i32 [[NEW_REG_OFFS]], i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[INREG:%[a-z_0-9]+]] = icmp sle i32 [[NEW_REG_OFFS]], 0
// CHECK: br i1 [[INREG]], label %[[VAARG_IN_REG:[a-z_.0-9]+]], label %[[VAARG_ON_STACK]]
// CHECK: [[VAARG_IN_REG]]
// CHECK: [[REG_TOP:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 1)
// CHECK: [[REG_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[REG_TOP]], i32 [[ALIGNED_REGOFFS]]
// CHECK: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR]] to i128*
// CHECK: br label %[[VAARG_END:[a-z._0-9]+]]
// CHECK: [[VAARG_ON_STACK]]
// CHECK: [[STACK:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[STACKINT:%[a-z_0-9]+]] = ptrtoint i8* [[STACK]] to i64
// CHECK: [[ALIGN_STACK:%[a-z_0-9]+]] = add i64 [[STACKINT]], 15
// CHECK: [[ALIGNED_STACK_INT:%[a-z_0-9]+]] = and i64 [[ALIGN_STACK]], -16
// CHECK: [[ALIGNED_STACK_PTR:%[a-z_0-9]+]] = inttoptr i64 [[ALIGNED_STACK_INT]] to i8*
// CHECK: [[NEW_STACK:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[ALIGNED_STACK_PTR]], i64 16
// CHECK: store i8* [[NEW_STACK]], i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[ALIGNED_STACK_PTR]] to i128*
// CHECK: br label %[[VAARG_END]]
// CHECK: [[VAARG_END]]
// CHECK: [[ADDR:%[a-z._0-9]+]] = phi i128* [ [[FROMREG_ADDR]], %[[VAARG_IN_REG]] ], [ [[FROMSTACK_ADDR]], %[[VAARG_ON_STACK]] ]
// CHECK: [[RESULT:%[a-z_0-9]+]] = load i128, i128* [[ADDR]]
// CHECK: ret i128 [[RESULT]]
}
struct bigstruct {
int a[10];
};
struct bigstruct simple_indirect(void) {
// CHECK-LABEL: define void @simple_indirect
return va_arg(the_list, struct bigstruct);
// CHECK: [[GR_OFFS:%[a-z_0-9]+]] = load i32, i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[EARLY_ONSTACK:%[a-z_0-9]+]] = icmp sge i32 [[GR_OFFS]], 0
// CHECK: br i1 [[EARLY_ONSTACK]], label %[[VAARG_ON_STACK:[a-z_.0-9]+]], label %[[VAARG_MAYBE_REG:[a-z_.0-9]+]]
// CHECK: [[VAARG_MAYBE_REG]]
// CHECK-NOT: and i32
// CHECK: [[NEW_REG_OFFS:%[a-z_0-9]+]] = add i32 [[GR_OFFS]], 8
// CHECK: store i32 [[NEW_REG_OFFS]], i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[INREG:%[a-z_0-9]+]] = icmp sle i32 [[NEW_REG_OFFS]], 0
// CHECK: br i1 [[INREG]], label %[[VAARG_IN_REG:[a-z_.0-9]+]], label %[[VAARG_ON_STACK]]
// CHECK: [[VAARG_IN_REG]]
// CHECK: [[REG_TOP:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 1)
// CHECK: [[REG_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[REG_TOP]], i32 [[GR_OFFS]]
// CHECK: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR]] to %struct.bigstruct**
// CHECK: br label %[[VAARG_END:[a-z._0-9]+]]
// CHECK: [[VAARG_ON_STACK]]
// CHECK: [[STACK:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK-NOT: and i64
// CHECK: [[NEW_STACK:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[STACK]], i64 8
// CHECK: store i8* [[NEW_STACK]], i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[STACK]] to %struct.bigstruct**
// CHECK: br label %[[VAARG_END]]
// CHECK: [[VAARG_END]]
// CHECK: [[ADDR:%[a-z._0-9]+]] = phi %struct.bigstruct** [ [[FROMREG_ADDR]], %[[VAARG_IN_REG]] ], [ [[FROMSTACK_ADDR]], %[[VAARG_ON_STACK]] ]
// CHECK: load %struct.bigstruct*, %struct.bigstruct** [[ADDR]]
}
struct aligned_bigstruct {
float a;
long double b;
};
struct aligned_bigstruct simple_aligned_indirect(void) {
// CHECK-LABEL: define void @simple_aligned_indirect
return va_arg(the_list, struct aligned_bigstruct);
// CHECK: [[GR_OFFS:%[a-z_0-9]+]] = load i32, i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[EARLY_ONSTACK:%[a-z_0-9]+]] = icmp sge i32 [[GR_OFFS]], 0
// CHECK: br i1 [[EARLY_ONSTACK]], label %[[VAARG_ON_STACK:[a-z_.0-9]+]], label %[[VAARG_MAYBE_REG:[a-z_.0-9]+]]
// CHECK: [[VAARG_MAYBE_REG]]
// CHECK: [[NEW_REG_OFFS:%[a-z_0-9]+]] = add i32 [[GR_OFFS]], 8
// CHECK: store i32 [[NEW_REG_OFFS]], i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 3)
// CHECK: [[INREG:%[a-z_0-9]+]] = icmp sle i32 [[NEW_REG_OFFS]], 0
// CHECK: br i1 [[INREG]], label %[[VAARG_IN_REG:[a-z_.0-9]+]], label %[[VAARG_ON_STACK]]
// CHECK: [[VAARG_IN_REG]]
// CHECK: [[REG_TOP:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 1)
// CHECK: [[REG_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[REG_TOP]], i32 [[GR_OFFS]]
// CHECK: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR]] to %struct.aligned_bigstruct**
// CHECK: br label %[[VAARG_END:[a-z._0-9]+]]
// CHECK: [[VAARG_ON_STACK]]
// CHECK: [[STACK:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[NEW_STACK:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[STACK]], i64 8
// CHECK: store i8* [[NEW_STACK]], i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[STACK]] to %struct.aligned_bigstruct**
// CHECK: br label %[[VAARG_END]]
// CHECK: [[VAARG_END]]
// CHECK: [[ADDR:%[a-z._0-9]+]] = phi %struct.aligned_bigstruct** [ [[FROMREG_ADDR]], %[[VAARG_IN_REG]] ], [ [[FROMSTACK_ADDR]], %[[VAARG_ON_STACK]] ]
// CHECK: load %struct.aligned_bigstruct*, %struct.aligned_bigstruct** [[ADDR]]
}
double simple_double(void) {
// CHECK-LABEL: define double @simple_double
return va_arg(the_list, double);
// CHECK: [[VR_OFFS:%[a-z_0-9]+]] = load i32, i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 4)
// CHECK: [[EARLY_ONSTACK:%[a-z_0-9]+]] = icmp sge i32 [[VR_OFFS]], 0
// CHECK: br i1 [[EARLY_ONSTACK]], label %[[VAARG_ON_STACK:[a-z_.0-9]+]], label %[[VAARG_MAYBE_REG]]
// CHECK: [[VAARG_MAYBE_REG]]
// CHECK: [[NEW_REG_OFFS:%[a-z_0-9]+]] = add i32 [[VR_OFFS]], 16
// CHECK: store i32 [[NEW_REG_OFFS]], i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 4)
// CHECK: [[INREG:%[a-z_0-9]+]] = icmp sle i32 [[NEW_REG_OFFS]], 0
// CHECK: br i1 [[INREG]], label %[[VAARG_IN_REG:[a-z_.0-9]+]], label %[[VAARG_ON_STACK]]
// CHECK: [[VAARG_IN_REG]]
// CHECK: [[REG_TOP:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 2)
// CHECK: [[REG_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[REG_TOP]], i32 [[VR_OFFS]]
// CHECK-BE: [[REG_ADDR_ALIGNED:%[a-z_0-9]*]] = getelementptr inbounds i8, i8* [[REG_ADDR]], i64 8
// CHECK-BE: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR_ALIGNED]] to double*
// CHECK-LE: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast i8* [[REG_ADDR]] to double*
// CHECK: br label %[[VAARG_END:[a-z._0-9]+]]
// CHECK: [[VAARG_ON_STACK]]
// CHECK: [[STACK:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[NEW_STACK:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[STACK]], i64 8
// CHECK: store i8* [[NEW_STACK]], i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[STACK]] to double*
// CHECK: br label %[[VAARG_END]]
// CHECK: [[VAARG_END]]
// CHECK: [[ADDR:%[a-z._0-9]+]] = phi double* [ [[FROMREG_ADDR]], %[[VAARG_IN_REG]] ], [ [[FROMSTACK_ADDR]], %[[VAARG_ON_STACK]] ]
// CHECK: [[RESULT:%[a-z_0-9]+]] = load double, double* [[ADDR]]
// CHECK: ret double [[RESULT]]
}
struct hfa {
float a, b;
};
struct hfa simple_hfa(void) {
// CHECK-LABEL: define %struct.hfa @simple_hfa
return va_arg(the_list, struct hfa);
// CHECK: [[VR_OFFS:%[a-z_0-9]+]] = load i32, i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 4)
// CHECK: [[EARLY_ONSTACK:%[a-z_0-9]+]] = icmp sge i32 [[VR_OFFS]], 0
// CHECK: br i1 [[EARLY_ONSTACK]], label %[[VAARG_ON_STACK:[a-z_.0-9]+]], label %[[VAARG_MAYBE_REG:[a-z_.0-9]+]]
// CHECK: [[VAARG_MAYBE_REG]]
// CHECK: [[NEW_REG_OFFS:%[a-z_0-9]+]] = add i32 [[VR_OFFS]], 32
// CHECK: store i32 [[NEW_REG_OFFS]], i32* getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 4)
// CHECK: [[INREG:%[a-z_0-9]+]] = icmp sle i32 [[NEW_REG_OFFS]], 0
// CHECK: br i1 [[INREG]], label %[[VAARG_IN_REG:[a-z_.0-9]+]], label %[[VAARG_ON_STACK]]
// CHECK: [[VAARG_IN_REG]]
// CHECK: [[REG_TOP:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 2)
// CHECK: [[FIRST_REG:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[REG_TOP]], i32 [[VR_OFFS]]
// CHECK-LE: [[EL_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[FIRST_REG]], i64 0
// CHECK-BE: [[EL_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[FIRST_REG]], i64 12
// CHECK: [[EL_TYPED:%[a-z_0-9]+]] = bitcast i8* [[EL_ADDR]] to float*
// CHECK: [[EL_TMPADDR:%[a-z_0-9]+]] = getelementptr inbounds [2 x float], [2 x float]* %[[TMP_HFA:[a-z_.0-9]+]], i64 0, i64 0
// CHECK: [[EL:%[a-z_0-9]+]] = load float, float* [[EL_TYPED]]
// CHECK: store float [[EL]], float* [[EL_TMPADDR]]
// CHECK-LE: [[EL_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[FIRST_REG]], i64 16
// CHECK-BE: [[EL_ADDR:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[FIRST_REG]], i64 28
// CHECK: [[EL_TYPED:%[a-z_0-9]+]] = bitcast i8* [[EL_ADDR]] to float*
// CHECK: [[EL_TMPADDR:%[a-z_0-9]+]] = getelementptr inbounds [2 x float], [2 x float]* %[[TMP_HFA]], i64 0, i64 1
// CHECK: [[EL:%[a-z_0-9]+]] = load float, float* [[EL_TYPED]]
// CHECK: store float [[EL]], float* [[EL_TMPADDR]]
// CHECK: [[FROMREG_ADDR:%[a-z_0-9]+]] = bitcast [2 x float]* %[[TMP_HFA]] to %struct.hfa*
// CHECK: br label %[[VAARG_END:[a-z_.0-9]+]]
// CHECK: [[VAARG_ON_STACK]]
// CHECK: [[STACK:%[a-z_0-9]+]] = load i8*, i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[NEW_STACK:%[a-z_0-9]+]] = getelementptr inbounds i8, i8* [[STACK]], i64 8
// CHECK: store i8* [[NEW_STACK]], i8** getelementptr inbounds (%struct.__va_list, %struct.__va_list* @the_list, i32 0, i32 0)
// CHECK: [[FROMSTACK_ADDR:%[a-z_0-9]+]] = bitcast i8* [[STACK]] to %struct.hfa*
// CHECK: br label %[[VAARG_END]]
// CHECK: [[VAARG_END]]
// CHECK: [[ADDR:%[a-z._0-9]+]] = phi %struct.hfa* [ [[FROMREG_ADDR]], %[[VAARG_IN_REG]] ], [ [[FROMSTACK_ADDR]], %[[VAARG_ON_STACK]] ]
}
void check_start(int n, ...) {
// CHECK-LABEL: define void @check_start(i32 %n, ...)
va_list the_list;
va_start(the_list, n);
// CHECK: [[THE_LIST:%[a-z_0-9]+]] = alloca %struct.__va_list
// CHECK: [[VOIDP_THE_LIST:%[a-z_0-9]+]] = bitcast %struct.__va_list* [[THE_LIST]] to i8*
// CHECK: call void @llvm.va_start(i8* [[VOIDP_THE_LIST]])
}
|
the_stack_data/1146120.c | #include <stdio.h>
int add(int a, int b);
int multiple(int a, int b);
int minus(int a, int b){
return a-b;
}
int divide(int a, int b){
return a/b;
}
int main (){
return 0;
}
int add(int a, int b){
return a+b;
}
int multiple(int a, int b){
return a*b;
}
|
the_stack_data/145452118.c | /*
* Copyright 2017 Advanced Micro Devices. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#ifdef DRV_AMDGPU
#include <assert.h>
#include <dlfcn.h>
#include <errno.h>
#include <fcntl.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include <sys/mman.h>
#include <unistd.h>
#include <xf86drm.h>
#include "dri.h"
#include "drv_priv.h"
#include "helpers.h"
#include "util.h"
static const struct {
uint32_t drm_format;
int dri_image_format;
} drm_to_dri_image_formats[] = {
{ DRM_FORMAT_R8, __DRI_IMAGE_FORMAT_R8 },
{ DRM_FORMAT_GR88, __DRI_IMAGE_FORMAT_GR88 },
{ DRM_FORMAT_RGB565, __DRI_IMAGE_FORMAT_RGB565 },
{ DRM_FORMAT_XRGB8888, __DRI_IMAGE_FORMAT_XRGB8888 },
{ DRM_FORMAT_ARGB8888, __DRI_IMAGE_FORMAT_ARGB8888 },
{ DRM_FORMAT_XBGR8888, __DRI_IMAGE_FORMAT_XBGR8888 },
{ DRM_FORMAT_ABGR8888, __DRI_IMAGE_FORMAT_ABGR8888 },
{ DRM_FORMAT_XRGB2101010, __DRI_IMAGE_FORMAT_XRGB2101010 },
{ DRM_FORMAT_ARGB2101010, __DRI_IMAGE_FORMAT_ARGB2101010 },
};
static int drm_format_to_dri_format(uint32_t drm_format)
{
uint32_t i;
for (i = 0; i < ARRAY_SIZE(drm_to_dri_image_formats); i++) {
if (drm_to_dri_image_formats[i].drm_format == drm_format)
return drm_to_dri_image_formats[i].dri_image_format;
}
return 0;
}
static bool lookup_extension(const __DRIextension *const *extensions, const char *name,
int min_version, const __DRIextension **dst)
{
while (*extensions) {
if ((*extensions)->name && !strcmp((*extensions)->name, name) &&
(*extensions)->version >= min_version) {
*dst = *extensions;
return true;
}
extensions++;
}
return false;
}
/*
* The DRI GEM namespace may be different from the minigbm's driver GEM namespace. We have
* to import into minigbm.
*/
static int import_into_minigbm(struct dri_driver *dri, struct bo *bo)
{
uint32_t handle;
int prime_fd, ret;
if (!dri->image_extension->queryImage(bo->priv, __DRI_IMAGE_ATTRIB_FD, &prime_fd))
return -errno;
ret = drmPrimeFDToHandle(bo->drv->fd, prime_fd, &handle);
if (ret) {
drv_log("drmPrimeFDToHandle failed with %s\n", strerror(errno));
return ret;
}
bo->handles[0].u32 = handle;
close(prime_fd);
return 0;
}
/*
* Close Gem Handle
*/
static void close_gem_handle(uint32_t handle, int fd)
{
struct drm_gem_close gem_close;
int ret = 0;
memset(&gem_close, 0, sizeof(gem_close));
gem_close.handle = handle;
ret = drmIoctl(fd, DRM_IOCTL_GEM_CLOSE, &gem_close);
if (ret)
drv_log("DRM_IOCTL_GEM_CLOSE failed (handle=%x) error %d\n", handle, ret);
}
/*
* The caller is responsible for setting drv->priv to a structure that derives from dri_driver.
*/
int dri_init(struct driver *drv, const char *dri_so_path, const char *driver_suffix)
{
char fname[128];
const __DRIextension **(*get_extensions)();
const __DRIextension *loader_extensions[] = { NULL };
struct dri_driver *dri = drv->priv;
dri->fd = open(drmGetRenderDeviceNameFromFd(drv_get_fd(drv)), O_RDWR);
if (dri->fd < 0)
return -ENODEV;
dri->driver_handle = dlopen(dri_so_path, RTLD_NOW | RTLD_GLOBAL);
if (!dri->driver_handle)
goto close_dri_fd;
snprintf(fname, sizeof(fname), __DRI_DRIVER_GET_EXTENSIONS "_%s", driver_suffix);
get_extensions = dlsym(dri->driver_handle, fname);
if (!get_extensions)
goto free_handle;
dri->extensions = get_extensions();
if (!dri->extensions)
goto free_handle;
if (!lookup_extension(dri->extensions, __DRI_CORE, 2,
(const __DRIextension **)&dri->core_extension))
goto free_handle;
/* Version 4 for createNewScreen2 */
if (!lookup_extension(dri->extensions, __DRI_DRI2, 4,
(const __DRIextension **)&dri->dri2_extension))
goto free_handle;
dri->device = dri->dri2_extension->createNewScreen2(0, dri->fd, loader_extensions,
dri->extensions, &dri->configs, NULL);
if (!dri->device)
goto free_handle;
dri->context =
dri->dri2_extension->createNewContext(dri->device, *dri->configs, NULL, NULL);
if (!dri->context)
goto free_screen;
if (!lookup_extension(dri->core_extension->getExtensions(dri->device), __DRI_IMAGE, 12,
(const __DRIextension **)&dri->image_extension))
goto free_context;
if (!lookup_extension(dri->core_extension->getExtensions(dri->device), __DRI2_FLUSH, 4,
(const __DRIextension **)&dri->flush_extension))
goto free_context;
return 0;
free_context:
dri->core_extension->destroyContext(dri->context);
free_screen:
dri->core_extension->destroyScreen(dri->device);
free_handle:
dlclose(dri->driver_handle);
dri->driver_handle = NULL;
close_dri_fd:
close(dri->fd);
return -ENODEV;
}
/*
* The caller is responsible for freeing drv->priv.
*/
void dri_close(struct driver *drv)
{
struct dri_driver *dri = drv->priv;
dri->core_extension->destroyContext(dri->context);
dri->core_extension->destroyScreen(dri->device);
dlclose(dri->driver_handle);
dri->driver_handle = NULL;
close(dri->fd);
}
int dri_bo_create(struct bo *bo, uint32_t width, uint32_t height, uint32_t format,
uint64_t use_flags)
{
unsigned int dri_use;
int ret, dri_format, stride, offset;
struct dri_driver *dri = bo->drv->priv;
assert(bo->num_planes == 1);
dri_format = drm_format_to_dri_format(format);
/* Gallium drivers require shared to get the handle and stride. */
dri_use = __DRI_IMAGE_USE_SHARE;
if (use_flags & BO_USE_SCANOUT)
dri_use |= __DRI_IMAGE_USE_SCANOUT;
if (use_flags & BO_USE_CURSOR)
dri_use |= __DRI_IMAGE_USE_CURSOR;
if (use_flags & BO_USE_LINEAR)
dri_use |= __DRI_IMAGE_USE_LINEAR;
bo->priv = dri->image_extension->createImage(dri->device, width, height, dri_format,
dri_use, NULL);
if (!bo->priv) {
ret = -errno;
return ret;
}
ret = import_into_minigbm(dri, bo);
if (ret)
goto free_image;
if (!dri->image_extension->queryImage(bo->priv, __DRI_IMAGE_ATTRIB_STRIDE, &stride)) {
ret = -errno;
goto close_handle;
}
if (!dri->image_extension->queryImage(bo->priv, __DRI_IMAGE_ATTRIB_OFFSET, &offset)) {
ret = -errno;
goto close_handle;
}
bo->strides[0] = stride;
bo->sizes[0] = stride * height;
bo->offsets[0] = offset;
bo->total_size = offset + bo->sizes[0];
return 0;
close_handle:
close_gem_handle(bo->handles[0].u32, bo->drv->fd);
free_image:
dri->image_extension->destroyImage(bo->priv);
return ret;
}
int dri_bo_import(struct bo *bo, struct drv_import_fd_data *data)
{
int ret;
struct dri_driver *dri = bo->drv->priv;
assert(bo->num_planes == 1);
// clang-format off
bo->priv = dri->image_extension->createImageFromFds(dri->device, data->width, data->height,
data->format, data->fds, bo->num_planes,
(int *)data->strides,
(int *)data->offsets, NULL);
// clang-format on
if (!bo->priv)
return -errno;
ret = import_into_minigbm(dri, bo);
if (ret) {
dri->image_extension->destroyImage(bo->priv);
return ret;
}
return 0;
}
int dri_bo_destroy(struct bo *bo)
{
struct dri_driver *dri = bo->drv->priv;
assert(bo->priv);
close_gem_handle(bo->handles[0].u32, bo->drv->fd);
dri->image_extension->destroyImage(bo->priv);
bo->priv = NULL;
return 0;
}
/*
* Map an image plane.
*
* This relies on the underlying driver to do a decompressing and/or de-tiling
* blit if necessary,
*
* This function itself is not thread-safe; we rely on the fact that the caller
* locks a per-driver mutex.
*/
void *dri_bo_map(struct bo *bo, struct vma *vma, size_t plane, uint32_t map_flags)
{
struct dri_driver *dri = bo->drv->priv;
/* GBM flags and DRI flags are the same. */
vma->addr =
dri->image_extension->mapImage(dri->context, bo->priv, 0, 0, bo->width, bo->height,
map_flags, (int *)&vma->map_strides[plane], &vma->priv);
if (!vma->addr)
return MAP_FAILED;
return vma->addr;
}
int dri_bo_unmap(struct bo *bo, struct vma *vma)
{
struct dri_driver *dri = bo->drv->priv;
assert(vma->priv);
dri->image_extension->unmapImage(dri->context, bo->priv, vma->priv);
/*
* From gbm_dri.c in Mesa:
*
* "Not all DRI drivers use direct maps. They may queue up DMA operations
* on the mapping context. Since there is no explicit gbm flush mechanism,
* we need to flush here."
*/
dri->flush_extension->flush_with_flags(dri->context, NULL, __DRI2_FLUSH_CONTEXT, 0);
return 0;
}
#endif
|
the_stack_data/211081918.c | #define _CRT_SECURE_NO_WARNINGS
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
struct aeroflot
{
char name[100];
char number;
char type[100];
};
struct knot
{
struct aeroflot flights;
struct knot* next;
};
struct knot* first = NULL;
struct knot* newElement;
int main(void)
{
int i = 0, counter = 0, n = 0;
char breaker[5] = {'\0'};
char typeOfAirplane[100];
printf("Enter name, number and type of airplane: \n");
do
{
char AirplanesBuffer[100];
printf("Name of airplane: ");
scanf_s("%s", AirplanesBuffer, 100);
int numberOfFlight;
printf("Number of flight: ");
scanf_s("%d", &numberOfFlight);
char str[100];
printf("Type of airplane: ");
scanf_s("%s", str, 100);
printf("Do you want to continue? (Press f to stop)\n");
scanf_s("%s", breaker, 5);
if (first == NULL)
{
first = malloc(sizeof(struct knot));
first -> next = NULL;
strcpy(first -> flights.name, AirplanesBuffer);
strcpy(first -> flights.type, str);
first -> flights.number = numberOfFlight;
continue;
}
newElement = malloc(sizeof(struct knot));
strcpy(newElement -> flights.name, AirplanesBuffer);
strcpy(newElement -> flights.type, str);
newElement -> flights.number = numberOfFlight;
struct knot* current;
current = first;
if (strcmp(first -> flights.name, newElement -> flights.name) > 0)
{
newElement -> next = first;
first = newElement;
}
else
{
while (current -> next != NULL && strcmp(current -> next -> flights.name, newElement -> flights.name) < 0) current = current -> next;
newElement -> next = current -> next;
current -> next = newElement;
}
} while (strcmp(breaker, "f"));
struct knot* tmp = first;
printf("Input type of airplane to know its name of city and his number race. Or print exit to end: \n");
scanf_s("%s", typeOfAirplane, 100);
while (tmp != NULL)
{
if (strcmp(typeOfAirplane, tmp -> flights.type) == 0)
{
n++;
printf("%s\n", tmp -> flights.name);
printf("%d\n", tmp -> flights.number);
}
if (n == 0) printf("Unknown type of airplane \n");
tmp = tmp -> next;
}
while (first != NULL)
{
struct knot* mnp = first;
first = first -> next;
free(mnp);
}
newElement = NULL;
return 0;
/*struct node* mnp = first;
while (mnp != NULL)
{
printf("%s\n", mnp->flightData.name);
mnp = mnp->next;
}
*/
} |
the_stack_data/93886888.c | int test_trueFiveEighths(int x)
{
long long int x5 = (long long int) x * 5;
return (int) (x5/8);
}
|
the_stack_data/61880.c | /* ************************************************************************** */
/* */
/* ::: :::::::: */
/* ft_striter.c :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: mburson <[email protected]> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2016/12/01 19:52:42 by mburson #+# #+# */
/* Updated: 2016/12/01 19:53:02 by mburson ### ########.fr */
/* */
/* ************************************************************************** */
#include <string.h>
void ft_striter(char *s, void (*f)(char *))
{
size_t i;
i = 0;
while (s[i])
{
f(&s[i]);
i++;
}
}
|
the_stack_data/100140035.c |
#include<stdio.h>
#include<string.h>
#include<stdlib.h>
#include<arpa/inet.h>
#include<sys/socket.h>
#define BUFLEN 2 // Max length of buffer
#define PORT 55000 // The port on which to listen for incoming data
void die(char *s)
{
perror(s);
exit(1);
}
int main(void)
{
static union // union holds discrete data
{
unsigned short value; // allows access to all discrete data at once.
struct
{
unsigned char d9 : 1; // J3
unsigned char d10 : 1;
unsigned char d11 : 1;
unsigned char d12 : 1;
unsigned char d13 : 1; // J4
unsigned char d14 : 1;
unsigned char d15 : 1;
unsigned char d16 : 1;
unsigned char d1 : 1; // J1
unsigned char d2 : 1;
unsigned char d3 : 1;
unsigned char d4 : 1;
unsigned char d5 : 1; //J2
unsigned char d6 : 1;
unsigned char d7 : 1;
unsigned char d8 : 1;
} bits;
} var;
struct sockaddr_in si_me, si_other;
int s, i, slen = sizeof(si_other) , recv_len;
char buf[BUFLEN];
//create a UDP socket
if ((s=socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)) == -1)
{
die("socket");
}
// zero out the structure
memset((char *) &si_me, 0, sizeof(si_me));
si_me.sin_family = AF_INET;
si_me.sin_port = htons(PORT);
si_me.sin_addr.s_addr = htonl(INADDR_ANY);
//bind socket to port
if( bind(s , (struct sockaddr*)&si_me, sizeof(si_me) ) == -1)
{
die("bind");
}
printf("\n\n Received data will be printed on change. \n\n");
//keep listening for data
while(1)
{
static unsigned short last = 1;
//try to receive some data, this is a blocking call
if ((recv_len = recvfrom(s, buf, BUFLEN, 0, (struct sockaddr *) &si_other, &slen)) == -1)
{
die("recvfrom()");
}
// copy the received data into the union
memcpy(&var.value, buf, 2);
// deterine if the data has changed from the last received
if( var.value != last )
{
printf("Data change from %s:%d Data\n", inet_ntoa(si_other.sin_addr), ntohs(si_other.sin_port));
printf("\n J1 \n");
printf(" D1: %d", var.bits.d1);
printf(" D2: %d", var.bits.d2);
printf(" D3: %d", var.bits.d3);
printf(" D4: %d", var.bits.d4);
printf("\n\n J2 \n");
printf(" D5: %d", var.bits.d5);
printf(" D6: %d", var.bits.d6);
printf(" D7: %d", var.bits.d7);
printf(" D8: %d", var.bits.d8);
printf("\n\n J3 \n");
printf(" D9: %d", var.bits.d9);
printf(" D10: %d", var.bits.d10);
printf(" D11: %d", var.bits.d11);
printf(" D12: %d", var.bits.d12);
printf("\n\n J4 \n");
printf(" D13: %d", var.bits.d13);
printf(" D14: %d", var.bits.d14);
printf(" D15: %d", var.bits.d15);
printf(" D16: %d", var.bits.d16);
printf("\n\n\n");
last = var.value;
}
}
close(s);
return 0;
}
|
the_stack_data/190769469.c | #define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
#include <sys/time.h>
int main(void)
{
struct timeval t;
if (gettimeofday(&t, NULL)) { perror("gettimeofday"); }
printf("%ld\n", t.tv_sec%100);
exit(EXIT_SUCCESS);
}
|
the_stack_data/92324057.c | /***************************
* Program Filename: otp_dec_d.c
* Author: Brian Stamm
* Date: 8.14.15
* Description: This program is designed to run in the background. When its
* sister program connects to it via the correct port, it accepts 3 strings and
* writes one back. The first string is to confirm the correct program is connecting
* to it and the size of the other files. If it is not the right program, it ends.
* If it is, it takes the size to create a 3 strings that size. It accepts the strings,
* and it uses those strings to create an decoded string. It then writes back that
* decoded string.
* Notes: None really.
* Citation: Alot. I used the book alot, and I used the code supplied in lecture /
* Canvas to build off of (like the server & client programs). I also reviewed
* Canvas postings, especially from
* codereview.stackexchange.com/questions/43914/client-server-implementation-in-c
* -sending-data-files
* ***********************/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <errno.h>
#include <signal.h>
#include <fcntl.h>
#include <sys/wait.h>
#define DELIMITER " #"
char KEY[] = {'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K',
'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X',
'Y', 'Z', ' '};
/*****
* Function: error
* Variables: a string and an int
* Outcome: It will print out the message to perror and exit
* with the int value passed to it.
* *****/
void error(const char *msg, int x){
perror(msg);
exit(x);
}
/*******
* Function: parse
* Variables: a string
* Outcome: It is used to parse out the header file sent first by the sister
* program. If it sends the correct validation character, it will return the
* length of the files. If it is the wrong validation character, it returns -1
* ******/
int parse(char *str){
char *word;
word = strtok(str, DELIMITER);
if(strcmp(word, "^") == 0){
word = strtok(NULL, DELIMITER);
return (atoi(word));
}
else{
return (-1);
}
}
/************
* Function: encoder
* Variables: 2 strings
* Outcome: It takes the two strings pasted to it. It creates a third of the
* same size, and it uses the One-Time Pads method to decode the message. It
* returns an decoded string.
* ********/
char *decoder(char *str, char *kStr){
int a, b, c, d, mod;
int master = 27; //Total number of character in key
char *rStr = malloc(strlen(str) *sizeof(char)); //creates string
int s = 0;
while(str[s] != 0){
a = str[s]; //Gets each character, it's ASCII value
c = kStr[s];
if(a == 10 || c == 10){ //if newline, ends
break;
}
d = 0;
b = 0;
while(a != KEY[b]){ //Otherwise, goes through key to find
b++;
}
while(c != KEY[d]){
d++;
}
mod = b - d; //Finds difference
if(mod < 0){ //If negative, adds master to it
mod += master;
}
rStr[s] = KEY[mod]; //And then uses value, which decodes it.
s++;
}
return rStr;
}
//Main.
int main(int argc, char** argv){
//Creates the initial variables
int sockfd, newsockfd, portno;
socklen_t clilen;
struct sockaddr_in sAdd, cAdd;
int w, size;
//Checks to make sure user passes a port #, basic error checking.
if(argc < 2){
error("Error. Need port.\n", 1);
}
//Creates a socket
sockfd = socket(AF_INET, SOCK_STREAM, 0);
if (sockfd < 0){
error("Error opening socket.\n", 1);
}
//Initializing
memset((char*)&sAdd, 0, sizeof(sAdd)); //fills string sAdd with 0's
portno = atoi(argv[1]); //Gets port number
sAdd.sin_family = AF_INET; //Sets values for sAdd
sAdd.sin_addr.s_addr = INADDR_ANY; //Accepts anyone who comes knocking
sAdd.sin_port = htons(portno); //Sets port
//Sets up bind
if (bind(sockfd, (struct sockaddr *) &sAdd, sizeof(sAdd)) < 0){
error("Error in binding\n", 1);
}
//Starts listening, can take up to 5 calls at one time.
listen(sockfd, 5);
clilen = sizeof(cAdd); //Client socket
//While loop for when accepting client sockets
while(1){
int status; //For forking later.
//Creates the link between client and server
newsockfd = accept(sockfd, (struct sockaddr *) &cAdd, &clilen);
if (newsockfd < 0){
error("Error on accepting\n", 1);
}
//Then forks off a process to do the work
pid_t childPID = fork();
if(childPID < 0){
error("PID ERROR!\n", 1);
}
//In child process
if(childPID == 0){
close(sockfd);
//Creates variables for first read, gets header information to use in
//next reads.
char buffer[10]; //Predetermined size of header.
int b2r = 9;
int br = 0;
while(br != b2r){
int firC;
do{
firC = read(newsockfd, buffer, 9);
}while((firC == -1) && (errno == EINTR));
if(firC == -1){
error("Error in somteh.\n", 1);
}
br += firC;
}
size = parse(buffer); //Sends string to parse func, returns size of files
if(size == -1){ //If not right header, breaks off.
printf("Cannot connect.\n");
}
else{ //If it is, then continues to do more reading.
char oneString[size]; //creates variables for other reads.
char twoString[size];
int b2read = size;
int bRed = 0;
int b2r2 = b2read;
int bRed2 = 0;
//Does a similar read as other, but uses the size passed in by sister prog
while(bRed != b2read){
int current;
do{
current = read(newsockfd, oneString, size);
}while((current == -1) && (errno == EINTR));
if(current == -1){
error("Error in reading, 2\n", 1);
}
bRed += current;
}
//Another read, gets second file.
while(bRed2 != b2r2){
int cur2;
do{
cur2 = read(newsockfd, twoString, size);
}while((cur2 == -1) && (errno == EINTR));
if(cur2 == -1){
error("Error in reading, 3\n", 1);
}
bRed2 += cur2;
}
//Decodes final string
char *finalString = decoder(oneString, twoString);
char deuxFinal[size];
strcpy(deuxFinal, finalString); //Was having issues sending finalString
int b2write = size; //so trouble shot, and this worked.
int bWritten = 0; //Writes back to client, similar set up as read
while(bWritten != b2write){
int cLoop;
do{
cLoop = write(newsockfd, deuxFinal, b2write);
}while((cLoop == -1) && (errno == EINTR));
if(cLoop == -1){
error("In writting server.\n", 1);
}
bWritten += cLoop;
}
}
exit(0); //Ends process.
}
else{
//Parent process, makes sure child finishes and no zombies.
pid_t endedPID = waitpid(childPID, &status, 0);
if(endedPID == -1){
error("Error with endPID", 1);
}
close(newsockfd);
}
}
return 0;
}
|
the_stack_data/426868.c | // Вычиление числа фибоначчи
// Использование глобальных, статических и локальных переменных
#include <stdio.h>
typedef long long i64;
static i64 p1 = 0;
static i64 p2 = 1;
i64 arg;
i64 result;
void fibo() {
i64 i = 1;
while (i < arg) {
result = p1 + p2;
p1 = p2;
p2 = result;
i++;
}
}
int main() {
arg = 10;
fibo();
printf("%lld\n", arg);
printf("%lld\n", result);
return 0;
}
|
the_stack_data/154830854.c | /*
* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
/*
* This file contains the Q14 radix-2 tables used in ARM9E optimization routines.
*
*/
extern const unsigned short t_Q14S_rad8[2];
const unsigned short t_Q14S_rad8[2] = { 0x0000,0x2d41 };
//extern const int t_Q30S_rad8[2];
//const int t_Q30S_rad8[2] = { 0x00000000,0x2d413ccd };
extern const unsigned short t_Q14R_rad8[2];
const unsigned short t_Q14R_rad8[2] = { 0x2d41,0x2d41 };
//extern const int t_Q30R_rad8[2];
//const int t_Q30R_rad8[2] = { 0x2d413ccd,0x2d413ccd };
|
the_stack_data/145453290.c | #include <stdio.h>
#include <stdlib.h>
int main() {
int valor;
printf("Forneca um numero menor ou igual a zero: ");
scanf(" %d", &valor);
if(valor <= 0){
for(int i = 0; i >= valor; i--){
printf(" %d", i);
}
} else {
printf("Valor incorreto (positivo)");
}
return 0;
}
|
the_stack_data/101773.c |
#include <assert.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
void __vassert(char value, const char* message) {
if (!value) {
printf("%s\n", message);
exit((unsigned char)255);
}
}
void __vassertI64Eq(int64_t expected, int64_t actual, const char* message) {
if (expected != actual) {
printf("%s Expected %ld but was %ld.\n", message, expected, actual);
exit((unsigned char)255);
}
}
void __vflare_i64(int64_t color, int64_t x) {
printf("Flare %ld: %ld\n", color, x);
}
|
the_stack_data/126035.c | #include<stdio.h>
#include<string.h>
#include<stdlib.h>
char custom[]="";
char A[]="LOREM";
char B[]="IPSUM";
char C[]="CONSE";
char D[]="CRATO";
int size=0;
struct customer {
char Appweb[40];
char Username[40];
char password[41];
char id[3];
}s[100];
void getFile(){
FILE* fp = fopen("data.csv", "r");
int i=0;
if (!fp)
printf("File is empty!!\n");
else
{
char buffer[256];
int row = 0,column=0;
while (fgets(buffer,256, fp))
{
column = 0;
row++;
if (row == 1)continue;
char* value = strtok(buffer, ",\n");
while (value)
{
strcpy(s[i].id,value);
value = strtok(NULL, ",\n");
strcpy(s[i].Appweb,value);
value = strtok(NULL, ",\n");
strcpy(s[i].Username,value);
value = strtok(NULL, ",\n");
strcpy(s[i].password,value);
value = strtok(NULL, ",\n");
i++;
}
}
fclose(fp);
}
size=i;
}
void putFile(){
FILE* fp = fopen("data.csv", "w");
fprintf(fp,"Id,App or web,Username,Password\n");
for(int i=0;i<size;i++)
fprintf(fp,"%s,%s,%s,%s\n",s[i].id,s[i].Appweb,s[i].Username,s[i].password);
fclose(fp);
}
void encrypt(char *a){
char n[40];
int l=strlen(a);
int count=0;
for(int i=0;i<l;i++)
{
if(i%4==0)
{
n[i]=(a[i]+A[count]);
}
else if(i%3==0)
{
n[i]=(a[i]+C[count]);
}
else if(i%2==0)
{
n[i]=(a[i]+B[count]);
}
else
{
n[i]=(a[i]+D[count]);
}
count++;
if(count==5)
count=0;
}
n[l]=';'-2*l;
count=0;
for(int i=l+1;i<39;i++)
{
if(i%4==0)
{
n[i]=(B[count]+A[count]);
}
else if(i%3==0)
{
n[i]=(B[count]+C[count]);
}
else if(i%2==0)
{
n[i]=(D[count]+A[count]);
}
else
{
n[i]=(B[count]+D[count]);
}
if(n[i]=='\n')
n[i]='!';
else if(n[i]=='\t')
n[i]='"';
else if(n[i]==',')
n[i]='#';
else if(n[i]==' ')
n[i]='$';
count++;
if(count==5)
count=0;
}
n[39]='\0';
strcpy(a,n);
}
void decrypt(char *a){
int l;
for(int i=0;i<40;i++)
{
if((a[i]+2*i)==';')
{
l=i;
break;
}
}
char n[l];
int count=0;
for(int i=0;i<l;i++)
{
if(a[i]=='!')
a[i]='\n';
else if(a[i]=='*')
a[i]='\t';
else if(a[i]=='#')
a[i]=',';
else if(n[i]=='$')
n[i]=' ';
if(i%4==0)
{
n[i]=(a[i]-A[count]);
}
else if(i%3==0)
{
n[i]=(a[i]-C[count]);
}
else if(i%2==0)
{
n[i]=(a[i]-B[count]);
}
else
{
n[i]=(a[i]-D[count]);
}
count++;
if(count==5)
count=0;
}
n[l]='\0';
strcpy(a,n);
}
void makeNew(){
getFile();
char webName[50],user[50];
printf("Enter name of app or website: ");
fflush(stdin);
scanf("%s",webName);
printf("Enter username: ");
fflush(stdin);
scanf("%s",user);
for(int i=0;i<size;i++)
if(!strcmp(s[i].Username,user) && !strcmp(s[i].Appweb,webName)){
printf("Data already exists for user %s.\n",user);
return;
}
strcpy(s[size].Appweb,webName);
strcpy(s[size].Username,user);
printf("Enter the password: ");
fflush(stdin);
scanf("%s",s[size].password);
encrypt(s[size].password);
char str[3];
sprintf(str,"%d",size+1);
strcpy(s[size].id,str);
size++;
putFile();
}
void show(){
getFile();
if(size==0){
printf("No data found!\n");
return;
}
char search[40];
int flag=1;
printf("Enter the name of ur app or website: ");
scanf("%s",search);
for(int i=0;i<size;i++){
if(!strcmp(s[i].Appweb,search)){
char pass[41];
strcpy(pass,s[i].password);
decrypt(pass);
printf("\nUser number %d\n",i+1);
printf("Username is: %s\nPassword is: %s\n\n",s[i].Username,pass);
flag=0;
}
}
if(flag)
printf("No entry found.\n");
}
void editPass(){
getFile();
char webName[50],user[50];
printf("Enter name of app or website: ");
fflush(stdin);
scanf("%s",webName);
printf("Enter username: ");
fflush(stdin);
scanf("%s",user);
for(int i=0;i<size;i++)
if(!strcmp(s[i].Username,user) && !strcmp(s[i].Appweb,webName)){
char pass[41],rePass[41];
printf("Enter new pass: ");
scanf("%s",pass);
printf("Re-enter new pass: ");
scanf("%s",rePass);
if(!strcmp(pass,rePass)){
encrypt(pass);
strcpy(s[i].password,pass);
}
else{
printf("Re enetered password is wrong!\n");
}
putFile();
return;
}
printf("No entry found.\n");
}
void deleteAcc(){
getFile();
char webName[50],user[50];
printf("Enter name of app or website: ");
fflush(stdin);
scanf("%s",webName);
printf("Enter username to delete: ");
fflush(stdin);
scanf("%s",user);
for(int i=0;i<size;i++)
if(!strcmp(s[i].Username,user) && !strcmp(s[i].Appweb,webName)){
for(int j=i;j<size-1;j++){
strcpy(s[j].Appweb,s[j+1].Appweb);
strcpy(s[j].Username,s[j+1].Username);
strcpy(s[j].password,s[j+1].password);
}
size--;
putFile();
return;
}
printf("No entry found.\n");
}
int main(){
while(1){
int choice;
printf("\n----------------Password Manager Menu----------------\n");
printf("(1)Make a new entry.\n");
printf("(2)Access Existing password.\n");
printf("(3)Change Existing password.\n");
printf("(4)Delete an account.\n");
printf("(5)Exit.\n");
printf("-----------------------------------------------------\n");
printf("Enter a choice: ");
scanf("%d",&choice);
switch(choice)
{
case 1:
makeNew();
break;
case 2:
show();
break;
case 3:
editPass();
break;
case 4:
deleteAcc();
break;
case 5:
return 0;
break;
default:
printf("Enter a valid choice.\n");
break;
}
}
return 0;
}
|
the_stack_data/187642969.c | #include <stdio.h>
int max(int num1, int num2);
int main(void)
{
int a = 100;
int b = 200;
int ret;
ret = max(a, b);
printf("Max vlaue is : %d\n", ret);
return 0;
}
int max(int num1, int num2)
{
int result;
if(num1 > num2)
result = num1;
else
result = num2;
return result;
}
|
the_stack_data/232955900.c | void fence()
{
asm("sync");
}
void lwfence()
{
asm("lwsync");
}
void isync()
{
asm("isync");
}
int __unbuffered_cnt = 0;
int __unbuffered_p0_r1 = 0;
int __unbuffered_p0_r3 = 0;
int __unbuffered_p1_r1 = 0;
int __unbuffered_p1_r3 = 0;
int __unbuffered_p2_r1 = 0;
int __unbuffered_p2_r3 = 0;
int __unbuffered_p2_r4 = 0;
int __unbuffered_p2_r6 = 0;
int __unbuffered_p2_r8 = 0;
int a = 0;
int x = 0;
int y = 0;
int z = 0;
void *P0(void *arg)
{
__unbuffered_p0_r1 = 2;
a = __unbuffered_p0_r1;
fence();
__unbuffered_p0_r3 = x;
// Instrumentation for CPROVER
fence();
__unbuffered_cnt++;
}
void *P1(void *arg)
{
__unbuffered_p1_r1 = 1;
x = __unbuffered_p1_r1;
fence();
__unbuffered_p1_r3 = 1;
y = __unbuffered_p1_r3;
// Instrumentation for CPROVER
fence();
__unbuffered_cnt++;
}
void *P2(void *arg)
{
__unbuffered_p2_r1 = y;
__unbuffered_p2_r3 = __unbuffered_p2_r1 ^ __unbuffered_p2_r1;
__unbuffered_p2_r4 = *(&z + __unbuffered_p2_r3);
__unbuffered_p2_r6 = 1;
a = __unbuffered_p2_r6;
__unbuffered_p2_r8 = a;
// Instrumentation for CPROVER
fence();
__unbuffered_cnt++;
}
int main()
{
__CPROVER_ASYNC_0:
P0(0);
__CPROVER_ASYNC_1:
P1(0);
__CPROVER_ASYNC_2:
P2(0);
__CPROVER_assume(__unbuffered_cnt == 3);
fence();
// EXPECT:exists
__CPROVER_assert(
!(a == 2 && __unbuffered_p0_r3 == 0 && __unbuffered_p2_r1 == 1 &&
__unbuffered_p2_r8 == 1),
"Program proven to be relaxed for PPC, model checker says YES.");
return 0;
}
|
the_stack_data/44295.c | /*
* Copyright (c) 2000, 2001, 2002, 2003, 2004, 2005, 2008, 2009
* The President and Fellows of Harvard College.
*
* 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 the University 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 UNIVERSITY 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 UNIVERSITY 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.
*/
/*
* kitchen.c
*
* Run a bunch of sinks (only).
*
* This tests concurrent read access to the console driver.
*/
#include <unistd.h>
#include <err.h>
static char *sargv[2] = { (char *)"sink", NULL };
#define MAXPROCS 6
static int pids[MAXPROCS], npids;
static
void
sink(void)
{
int pid = fork();
switch (pid) {
case -1:
err(1, "fork");
case 0:
/* child */
execv("/testbin/sink", sargv);
err(1, "/testbin/sink");
default:
/* parent */
pids[npids++] = pid;
break;
}
}
static
void
waitall(void)
{
int i, status;
for (i=0; i<npids; i++) {
if (waitpid(pids[i], &status, 0)<0) {
warn("waitpid for %d", pids[i]);
}
else if (WIFSIGNALED(status)) {
warnx("pid %d: signal %d", pids[i], WTERMSIG(status));
}
else if (WEXITSTATUS(status) != 0) {
warnx("pid %d: exit %d", pids[i], WEXITSTATUS(status));
}
}
}
int
main(void)
{
sink();
sink();
sink();
sink();
waitall();
return 0;
}
|
the_stack_data/1074984.c | /* 10001st prime
* Problem 7
* By listing the first six prime numbers: 2, 3, 5, 7, 11, and 13, we can
* see that the 6th prime is 13. What is the 10 001st prime number? */
#include <stdio.h>
#include <math.h>
int isPrime007(int n) {
int i = 0;
if (n < 4) {
return 1;
}
if (! (n % 2)) {
return 0;
}
for (i = 3; i <= pow(n, 0.5); i+=2) {
if (! (n % i)) {
return 0;
}
}
return 1;
}
int problem007() {
int i = 0;
int count = 0;
while (count <= 10001) {
i++;
if (isPrime007(i)) {
count++;
}
}
printf("%d\n", i);
return 0;
}
|
the_stack_data/976343.c |
#include <stdio.h>
#define L 0
#define U 300
#define S 20
main ()
{
int f;
for (f = L; f <= U; f = f + S)
printf ("%3d%6.1f\n", f, (5.0 / 9.0) * (f - 32));
}
|
the_stack_data/83095.c | /*
# Copyright 2021 Hewlett Packard Enterprise Development LP
#
# 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.
#
# 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 THE AUTHORS OR COPYRIGHT HOLDERS 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.
*/
/* Really simplistic, bordering on brain-dead way to go about allowing
netperf to run successfully on a system with firewalls enabled, and
only the netperf control port open in the firewall. We expect code
called by netserver to call into this with the port number to open.
We will then open the port in the system-local firewall, and
store-off if that port was already open. Then at the end of the
test, code called by netserver will call in again and if the port
was not enabled before, we will disable it. If it was enabled
before, we do nothing. We assume there is only ever one port
number being manipulated in this way per netserver process. raj
20130211*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <netinet/in.h>
static int port_was_enabled = 0;
static int enabled_port = -1;
static int enabled_protocol = -1;
static char *protocol_to_ufw(int protocol) {
switch (protocol) {
case IPPROTO_TCP:
return("tcp");
break;
case IPPROTO_UDP:
return("udp");
break;
#if defined(IPPROTO_SCTP)
case IPPROTO_SCTP:
return("sctp");
break;
#endif
#if defined(IPPROTO_DCCP)
case IPPROTO_DCCP:
return "dccp";
break;
#endif
#if defined(IPPROTO_UDPLITE)
case IPPROTO_UDPLITE:
return "udplite";
break;
#endif
default:
return("UNKNOWN");
}
}
void
enable_port(int port, int protocol) {
char command[128];
if ((port < 0) || (port > 65535))
return;
/* one of these days we will have to learn the proper way to see if
a port is already open under Linux... */
sprintf(command,
"ufw allow %d/%s 2>&1 > /dev/null",
port,
protocol_to_ufw(protocol));
if (system(command) < 0) {
/* if the command failed outright, don't bother at the back-end */
port_was_enabled = 0;
}
else {
port_was_enabled = 1;
enabled_port = port;
enabled_protocol = protocol;
}
return;
}
void
done_with_port(int port, int protocol) {
char command[128];
if (port_was_enabled) {
sprintf(command,
"ufw delete allow %d/%s 2>&1 > /dev/null",
enabled_port,
protocol_to_ufw(enabled_protocol));
system(command);
}
return;
}
|
the_stack_data/107953364.c | // ==============================================================
// File generated on Mon Oct 28 13:17:19 +0800 2019
// Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC v2018.3 (64-bit)
// SW Build 2405991 on Thu Dec 6 23:38:27 MST 2018
// IP Build 2404404 on Fri Dec 7 01:43:56 MST 2018
// Copyright 1986-2018 Xilinx, Inc. All Rights Reserved.
// ==============================================================
#ifndef __linux__
#include "xstatus.h"
#include "xparameters.h"
#include "xcanny_edge.h"
extern XCanny_edge_Config XCanny_edge_ConfigTable[];
XCanny_edge_Config *XCanny_edge_LookupConfig(u16 DeviceId) {
XCanny_edge_Config *ConfigPtr = NULL;
int Index;
for (Index = 0; Index < XPAR_XCANNY_EDGE_NUM_INSTANCES; Index++) {
if (XCanny_edge_ConfigTable[Index].DeviceId == DeviceId) {
ConfigPtr = &XCanny_edge_ConfigTable[Index];
break;
}
}
return ConfigPtr;
}
int XCanny_edge_Initialize(XCanny_edge *InstancePtr, u16 DeviceId) {
XCanny_edge_Config *ConfigPtr;
Xil_AssertNonvoid(InstancePtr != NULL);
ConfigPtr = XCanny_edge_LookupConfig(DeviceId);
if (ConfigPtr == NULL) {
InstancePtr->IsReady = 0;
return (XST_DEVICE_NOT_FOUND);
}
return XCanny_edge_CfgInitialize(InstancePtr, ConfigPtr);
}
#endif
|
the_stack_data/90763878.c | //----------------------------------------------------------------------------
// The confidential and proprietary information contained in this file may
// only be used by a person authorised under and to the extent permitted
// by a subsisting licensing agreement from ARM Limited or its affiliates.
//
// (C) COPYRIGHT 2016-2020 ARM Limited or its affiliates.
// ALL RIGHTS RESERVED
//
// This entire notice must be reproduced on all copies of this file
// and copies of this file may only be made by a person if such person is
// permitted to do so under the terms of a subsisting license agreement
// from ARM Limited or its affiliates.
//----------------------------------------------------------------------------
#ifdef MBED_CLOUD_CLIENT_USER_CONFIG_FILE
#include MBED_CLOUD_CLIENT_USER_CONFIG_FILE
#endif
#include <stdint.h>
#ifdef MBED_CLOUD_CLIENT_FOTA_ENABLE
#warning "Please run manifest-tool init ... to generate proper update certificates, or disable MBED_CLOUD_CLIENT_SUPPORT_UPDATE"
#ifdef MBED_CLOUD_DEV_UPDATE_ID
const uint8_t arm_uc_vendor_id[] = { "dev_manufacturer" };
const uint16_t arm_uc_vendor_id_size = sizeof(arm_uc_vendor_id);
const uint8_t arm_uc_class_id[] = { "dev_model_number" };
const uint16_t arm_uc_class_id_size = sizeof(arm_uc_class_id);
#endif
#ifdef MBED_CLOUD_DEV_UPDATE_CERT
const uint8_t arm_uc_default_fingerprint[32] = { 0 };
const uint16_t arm_uc_default_fingerprint_size =
sizeof(arm_uc_default_fingerprint);
const uint8_t arm_uc_default_certificate[1] = { 0 };
const uint16_t arm_uc_default_certificate_size =
sizeof(arm_uc_default_certificate);
#endif
#ifdef MBED_CLOUD_DEV_UPDATE_RAW_PUBLIC_KEY
const uint8_t arm_uc_update_public_key[] = { "public_key" };
#endif
#ifdef MBED_CLOUD_DEV_UPDATE_PSK
const uint8_t arm_uc_default_psk[1] = { 0 };
const uint8_t arm_uc_default_psk_size = sizeof(arm_uc_default_psk);
const uint16_t arm_uc_default_psk_bits = sizeof(arm_uc_default_psk) * 8;
const uint8_t arm_uc_default_psk_id[1] = { 0 };
const uint8_t arm_uc_default_psk_id_size = sizeof(arm_uc_default_psk_id);
#endif
#endif // MBED_CLOUD_CLIENT_FOTA_ENABLE
|
the_stack_data/50136575.c | #include <stdlib.h>
void dummy (x, y)
int *x;
int y;
{}
int main (argc, argv)
int argc;
char **argv;
{
int number_columns=9;
int cnt0 = 0;
int cnt1 = 0;
int i,A1;
for (i = number_columns-1; i != 0; i--)
{
if (i == 1)
{
dummy(&A1, i);
cnt0++;
}
else
{
dummy(&A1, i-1);
cnt1++;
}
}
if (cnt0 != 1 || cnt1 != 7)
abort ();
exit (0);
}
|
the_stack_data/153668.c | /******************************************************************************
* Show all prime dates in a year where the date is formatted as YYYYMMDD.
* Use the current year or the one provided as a command line parameter.
*
* Tested on MacOS 11.4 and Raspberry Pi OS 5.10.17 (32-bit).
*
* Version : 1.0
* Date : 2021-05-25
* Licence : MIT (free to use as you like, attribution appreciated)
*
* (c) E. Dronkert 2021 https://github.com/ednl
******************************************************************************/
#include <stdio.h> // printf
#include <stdlib.h> // atol, NULL
#include <stdbool.h> // bool
#include <time.h> // time, mktime, strftime
#include <locale.h> // setlocale_r
static bool isprime(int n)
{
if (n < 2) {
return false;
}
if (n < 4) {
return true;
}
if ((n & 1) == 0) {
return false;
}
// sq0 = f0^2, sq1 = f1^2 = (f0+2)^2 = f0^2 + 4f0 + 4 = sq0 + 4(f0+1)
int f = 3, sq = 9;
while (sq <= n) {
if (n % f++ == 0) {
return false;
}
sq += f++ << 2;
}
return true;
}
int main(int argc, char *argv[])
{
setlocale(LC_TIME, "");
char buf[32] = {0};
int n, count = 0, y = 0;
struct tm T;
// Use command line parameter or current year
if (argc > 1) {
long a = atol(argv[1]);
if (a >= 1000 && a <= 9999) {
y = (int)a;
}
}
if (y == 0) {
time_t t = time(NULL);
localtime_r(&t, &T);
y = T.tm_year + 1900;
}
// First date to check = 1 Jan <year>
T = (struct tm){
.tm_year = y - 1900,
.tm_mon = 0,
.tm_mday = 1,
};
mktime(&T);
// Check all days of the specified year
while (T.tm_year + 1900 == y) {
// n = YYYYMMDD
n = (T.tm_year + 1900) * 10000 + (T.tm_mon + 1) * 100 + T.tm_mday;
if (isprime(n)) {
strftime(buf, sizeof buf, "%a %e %b", &T);
printf("%2i. %8i = %s\n", ++count, n, buf);
}
// Next day
T.tm_mday++;
mktime(&T);
}
return 0;
}
|
the_stack_data/12638761.c | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
void set_rate(int ac_status){
if (ac_status == 1){
system("/usr/bin/xrandr -r 144");
} else {
system("/usr/bin/xrandr -r 60");
}
}
void gnome_animations(int ac_status){
if (ac_status == 1){
system("gsettings set org.gnome.desktop.interface enable-animations true");
} else {
system("gsettings set org.gnome.desktop.interface enable-animations false");
}
}
int check_ac(){
char c[10];
FILE *fptr;
int status;
if ((fptr = fopen("/sys/class/power_supply/AC0/online", "r")) == NULL) {
printf("/sys/class/power_supply/AC0/online not found");
exit(1);
}
fscanf(fptr, "%[^\n]", c);
status = atoi(c);
fclose(fptr);
return status;
}
int main(){
int old_status = check_ac();
set_rate(old_status);
gnome_animations(old_status);
int new_status;
while (1)
{
sleep(2);
new_status = check_ac();
if (new_status != old_status) {
// just comment out the things you don't want/need
set_rate(new_status);
gnome_animations(new_status);
old_status = new_status;
}
}
} |
the_stack_data/1025644.c | /* Simulator instruction semantics for crisv10f.
THIS FILE IS MACHINE GENERATED WITH CGEN.
Copyright 1996-2015 Free Software Foundation, Inc.
This file is part of the GNU simulators.
This file 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, or (at your option)
any later version.
It 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/>.
*/
#ifdef DEFINE_LABELS
/* The labels have the case they have because the enum of insn types
is all uppercase and in the non-stdc case the insn symbol is built
into the enum name. */
static struct {
int index;
void *label;
} labels[] = {
{ CRISV10F_INSN_X_INVALID, && case_sem_INSN_X_INVALID },
{ CRISV10F_INSN_X_AFTER, && case_sem_INSN_X_AFTER },
{ CRISV10F_INSN_X_BEFORE, && case_sem_INSN_X_BEFORE },
{ CRISV10F_INSN_X_CTI_CHAIN, && case_sem_INSN_X_CTI_CHAIN },
{ CRISV10F_INSN_X_CHAIN, && case_sem_INSN_X_CHAIN },
{ CRISV10F_INSN_X_BEGIN, && case_sem_INSN_X_BEGIN },
{ CRISV10F_INSN_NOP, && case_sem_INSN_NOP },
{ CRISV10F_INSN_MOVE_B_R, && case_sem_INSN_MOVE_B_R },
{ CRISV10F_INSN_MOVE_W_R, && case_sem_INSN_MOVE_W_R },
{ CRISV10F_INSN_MOVE_D_R, && case_sem_INSN_MOVE_D_R },
{ CRISV10F_INSN_MOVEPCR, && case_sem_INSN_MOVEPCR },
{ CRISV10F_INSN_MOVEQ, && case_sem_INSN_MOVEQ },
{ CRISV10F_INSN_MOVS_B_R, && case_sem_INSN_MOVS_B_R },
{ CRISV10F_INSN_MOVS_W_R, && case_sem_INSN_MOVS_W_R },
{ CRISV10F_INSN_MOVU_B_R, && case_sem_INSN_MOVU_B_R },
{ CRISV10F_INSN_MOVU_W_R, && case_sem_INSN_MOVU_W_R },
{ CRISV10F_INSN_MOVECBR, && case_sem_INSN_MOVECBR },
{ CRISV10F_INSN_MOVECWR, && case_sem_INSN_MOVECWR },
{ CRISV10F_INSN_MOVECDR, && case_sem_INSN_MOVECDR },
{ CRISV10F_INSN_MOVSCBR, && case_sem_INSN_MOVSCBR },
{ CRISV10F_INSN_MOVSCWR, && case_sem_INSN_MOVSCWR },
{ CRISV10F_INSN_MOVUCBR, && case_sem_INSN_MOVUCBR },
{ CRISV10F_INSN_MOVUCWR, && case_sem_INSN_MOVUCWR },
{ CRISV10F_INSN_ADDQ, && case_sem_INSN_ADDQ },
{ CRISV10F_INSN_SUBQ, && case_sem_INSN_SUBQ },
{ CRISV10F_INSN_CMP_R_B_R, && case_sem_INSN_CMP_R_B_R },
{ CRISV10F_INSN_CMP_R_W_R, && case_sem_INSN_CMP_R_W_R },
{ CRISV10F_INSN_CMP_R_D_R, && case_sem_INSN_CMP_R_D_R },
{ CRISV10F_INSN_CMP_M_B_M, && case_sem_INSN_CMP_M_B_M },
{ CRISV10F_INSN_CMP_M_W_M, && case_sem_INSN_CMP_M_W_M },
{ CRISV10F_INSN_CMP_M_D_M, && case_sem_INSN_CMP_M_D_M },
{ CRISV10F_INSN_CMPCBR, && case_sem_INSN_CMPCBR },
{ CRISV10F_INSN_CMPCWR, && case_sem_INSN_CMPCWR },
{ CRISV10F_INSN_CMPCDR, && case_sem_INSN_CMPCDR },
{ CRISV10F_INSN_CMPQ, && case_sem_INSN_CMPQ },
{ CRISV10F_INSN_CMPS_M_B_M, && case_sem_INSN_CMPS_M_B_M },
{ CRISV10F_INSN_CMPS_M_W_M, && case_sem_INSN_CMPS_M_W_M },
{ CRISV10F_INSN_CMPSCBR, && case_sem_INSN_CMPSCBR },
{ CRISV10F_INSN_CMPSCWR, && case_sem_INSN_CMPSCWR },
{ CRISV10F_INSN_CMPU_M_B_M, && case_sem_INSN_CMPU_M_B_M },
{ CRISV10F_INSN_CMPU_M_W_M, && case_sem_INSN_CMPU_M_W_M },
{ CRISV10F_INSN_CMPUCBR, && case_sem_INSN_CMPUCBR },
{ CRISV10F_INSN_CMPUCWR, && case_sem_INSN_CMPUCWR },
{ CRISV10F_INSN_MOVE_M_B_M, && case_sem_INSN_MOVE_M_B_M },
{ CRISV10F_INSN_MOVE_M_W_M, && case_sem_INSN_MOVE_M_W_M },
{ CRISV10F_INSN_MOVE_M_D_M, && case_sem_INSN_MOVE_M_D_M },
{ CRISV10F_INSN_MOVS_M_B_M, && case_sem_INSN_MOVS_M_B_M },
{ CRISV10F_INSN_MOVS_M_W_M, && case_sem_INSN_MOVS_M_W_M },
{ CRISV10F_INSN_MOVU_M_B_M, && case_sem_INSN_MOVU_M_B_M },
{ CRISV10F_INSN_MOVU_M_W_M, && case_sem_INSN_MOVU_M_W_M },
{ CRISV10F_INSN_MOVE_R_SPRV10, && case_sem_INSN_MOVE_R_SPRV10 },
{ CRISV10F_INSN_MOVE_SPR_RV10, && case_sem_INSN_MOVE_SPR_RV10 },
{ CRISV10F_INSN_RET_TYPE, && case_sem_INSN_RET_TYPE },
{ CRISV10F_INSN_MOVE_M_SPRV10, && case_sem_INSN_MOVE_M_SPRV10 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P5, && case_sem_INSN_MOVE_C_SPRV10_P5 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P9, && case_sem_INSN_MOVE_C_SPRV10_P9 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P10, && case_sem_INSN_MOVE_C_SPRV10_P10 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P11, && case_sem_INSN_MOVE_C_SPRV10_P11 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P12, && case_sem_INSN_MOVE_C_SPRV10_P12 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P13, && case_sem_INSN_MOVE_C_SPRV10_P13 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P7, && case_sem_INSN_MOVE_C_SPRV10_P7 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P14, && case_sem_INSN_MOVE_C_SPRV10_P14 },
{ CRISV10F_INSN_MOVE_C_SPRV10_P15, && case_sem_INSN_MOVE_C_SPRV10_P15 },
{ CRISV10F_INSN_MOVE_SPR_MV10, && case_sem_INSN_MOVE_SPR_MV10 },
{ CRISV10F_INSN_SBFS, && case_sem_INSN_SBFS },
{ CRISV10F_INSN_MOVEM_R_M, && case_sem_INSN_MOVEM_R_M },
{ CRISV10F_INSN_MOVEM_M_R, && case_sem_INSN_MOVEM_M_R },
{ CRISV10F_INSN_MOVEM_M_PC, && case_sem_INSN_MOVEM_M_PC },
{ CRISV10F_INSN_ADD_B_R, && case_sem_INSN_ADD_B_R },
{ CRISV10F_INSN_ADD_W_R, && case_sem_INSN_ADD_W_R },
{ CRISV10F_INSN_ADD_D_R, && case_sem_INSN_ADD_D_R },
{ CRISV10F_INSN_ADD_M_B_M, && case_sem_INSN_ADD_M_B_M },
{ CRISV10F_INSN_ADD_M_W_M, && case_sem_INSN_ADD_M_W_M },
{ CRISV10F_INSN_ADD_M_D_M, && case_sem_INSN_ADD_M_D_M },
{ CRISV10F_INSN_ADDCBR, && case_sem_INSN_ADDCBR },
{ CRISV10F_INSN_ADDCWR, && case_sem_INSN_ADDCWR },
{ CRISV10F_INSN_ADDCDR, && case_sem_INSN_ADDCDR },
{ CRISV10F_INSN_ADDCPC, && case_sem_INSN_ADDCPC },
{ CRISV10F_INSN_ADDS_B_R, && case_sem_INSN_ADDS_B_R },
{ CRISV10F_INSN_ADDS_W_R, && case_sem_INSN_ADDS_W_R },
{ CRISV10F_INSN_ADDS_M_B_M, && case_sem_INSN_ADDS_M_B_M },
{ CRISV10F_INSN_ADDS_M_W_M, && case_sem_INSN_ADDS_M_W_M },
{ CRISV10F_INSN_ADDSCBR, && case_sem_INSN_ADDSCBR },
{ CRISV10F_INSN_ADDSCWR, && case_sem_INSN_ADDSCWR },
{ CRISV10F_INSN_ADDSPCPC, && case_sem_INSN_ADDSPCPC },
{ CRISV10F_INSN_ADDU_B_R, && case_sem_INSN_ADDU_B_R },
{ CRISV10F_INSN_ADDU_W_R, && case_sem_INSN_ADDU_W_R },
{ CRISV10F_INSN_ADDU_M_B_M, && case_sem_INSN_ADDU_M_B_M },
{ CRISV10F_INSN_ADDU_M_W_M, && case_sem_INSN_ADDU_M_W_M },
{ CRISV10F_INSN_ADDUCBR, && case_sem_INSN_ADDUCBR },
{ CRISV10F_INSN_ADDUCWR, && case_sem_INSN_ADDUCWR },
{ CRISV10F_INSN_SUB_B_R, && case_sem_INSN_SUB_B_R },
{ CRISV10F_INSN_SUB_W_R, && case_sem_INSN_SUB_W_R },
{ CRISV10F_INSN_SUB_D_R, && case_sem_INSN_SUB_D_R },
{ CRISV10F_INSN_SUB_M_B_M, && case_sem_INSN_SUB_M_B_M },
{ CRISV10F_INSN_SUB_M_W_M, && case_sem_INSN_SUB_M_W_M },
{ CRISV10F_INSN_SUB_M_D_M, && case_sem_INSN_SUB_M_D_M },
{ CRISV10F_INSN_SUBCBR, && case_sem_INSN_SUBCBR },
{ CRISV10F_INSN_SUBCWR, && case_sem_INSN_SUBCWR },
{ CRISV10F_INSN_SUBCDR, && case_sem_INSN_SUBCDR },
{ CRISV10F_INSN_SUBS_B_R, && case_sem_INSN_SUBS_B_R },
{ CRISV10F_INSN_SUBS_W_R, && case_sem_INSN_SUBS_W_R },
{ CRISV10F_INSN_SUBS_M_B_M, && case_sem_INSN_SUBS_M_B_M },
{ CRISV10F_INSN_SUBS_M_W_M, && case_sem_INSN_SUBS_M_W_M },
{ CRISV10F_INSN_SUBSCBR, && case_sem_INSN_SUBSCBR },
{ CRISV10F_INSN_SUBSCWR, && case_sem_INSN_SUBSCWR },
{ CRISV10F_INSN_SUBU_B_R, && case_sem_INSN_SUBU_B_R },
{ CRISV10F_INSN_SUBU_W_R, && case_sem_INSN_SUBU_W_R },
{ CRISV10F_INSN_SUBU_M_B_M, && case_sem_INSN_SUBU_M_B_M },
{ CRISV10F_INSN_SUBU_M_W_M, && case_sem_INSN_SUBU_M_W_M },
{ CRISV10F_INSN_SUBUCBR, && case_sem_INSN_SUBUCBR },
{ CRISV10F_INSN_SUBUCWR, && case_sem_INSN_SUBUCWR },
{ CRISV10F_INSN_ADDI_B_R, && case_sem_INSN_ADDI_B_R },
{ CRISV10F_INSN_ADDI_W_R, && case_sem_INSN_ADDI_W_R },
{ CRISV10F_INSN_ADDI_D_R, && case_sem_INSN_ADDI_D_R },
{ CRISV10F_INSN_NEG_B_R, && case_sem_INSN_NEG_B_R },
{ CRISV10F_INSN_NEG_W_R, && case_sem_INSN_NEG_W_R },
{ CRISV10F_INSN_NEG_D_R, && case_sem_INSN_NEG_D_R },
{ CRISV10F_INSN_TEST_M_B_M, && case_sem_INSN_TEST_M_B_M },
{ CRISV10F_INSN_TEST_M_W_M, && case_sem_INSN_TEST_M_W_M },
{ CRISV10F_INSN_TEST_M_D_M, && case_sem_INSN_TEST_M_D_M },
{ CRISV10F_INSN_MOVE_R_M_B_M, && case_sem_INSN_MOVE_R_M_B_M },
{ CRISV10F_INSN_MOVE_R_M_W_M, && case_sem_INSN_MOVE_R_M_W_M },
{ CRISV10F_INSN_MOVE_R_M_D_M, && case_sem_INSN_MOVE_R_M_D_M },
{ CRISV10F_INSN_MULS_B, && case_sem_INSN_MULS_B },
{ CRISV10F_INSN_MULS_W, && case_sem_INSN_MULS_W },
{ CRISV10F_INSN_MULS_D, && case_sem_INSN_MULS_D },
{ CRISV10F_INSN_MULU_B, && case_sem_INSN_MULU_B },
{ CRISV10F_INSN_MULU_W, && case_sem_INSN_MULU_W },
{ CRISV10F_INSN_MULU_D, && case_sem_INSN_MULU_D },
{ CRISV10F_INSN_MSTEP, && case_sem_INSN_MSTEP },
{ CRISV10F_INSN_DSTEP, && case_sem_INSN_DSTEP },
{ CRISV10F_INSN_ABS, && case_sem_INSN_ABS },
{ CRISV10F_INSN_AND_B_R, && case_sem_INSN_AND_B_R },
{ CRISV10F_INSN_AND_W_R, && case_sem_INSN_AND_W_R },
{ CRISV10F_INSN_AND_D_R, && case_sem_INSN_AND_D_R },
{ CRISV10F_INSN_AND_M_B_M, && case_sem_INSN_AND_M_B_M },
{ CRISV10F_INSN_AND_M_W_M, && case_sem_INSN_AND_M_W_M },
{ CRISV10F_INSN_AND_M_D_M, && case_sem_INSN_AND_M_D_M },
{ CRISV10F_INSN_ANDCBR, && case_sem_INSN_ANDCBR },
{ CRISV10F_INSN_ANDCWR, && case_sem_INSN_ANDCWR },
{ CRISV10F_INSN_ANDCDR, && case_sem_INSN_ANDCDR },
{ CRISV10F_INSN_ANDQ, && case_sem_INSN_ANDQ },
{ CRISV10F_INSN_ORR_B_R, && case_sem_INSN_ORR_B_R },
{ CRISV10F_INSN_ORR_W_R, && case_sem_INSN_ORR_W_R },
{ CRISV10F_INSN_ORR_D_R, && case_sem_INSN_ORR_D_R },
{ CRISV10F_INSN_OR_M_B_M, && case_sem_INSN_OR_M_B_M },
{ CRISV10F_INSN_OR_M_W_M, && case_sem_INSN_OR_M_W_M },
{ CRISV10F_INSN_OR_M_D_M, && case_sem_INSN_OR_M_D_M },
{ CRISV10F_INSN_ORCBR, && case_sem_INSN_ORCBR },
{ CRISV10F_INSN_ORCWR, && case_sem_INSN_ORCWR },
{ CRISV10F_INSN_ORCDR, && case_sem_INSN_ORCDR },
{ CRISV10F_INSN_ORQ, && case_sem_INSN_ORQ },
{ CRISV10F_INSN_XOR, && case_sem_INSN_XOR },
{ CRISV10F_INSN_SWAP, && case_sem_INSN_SWAP },
{ CRISV10F_INSN_ASRR_B_R, && case_sem_INSN_ASRR_B_R },
{ CRISV10F_INSN_ASRR_W_R, && case_sem_INSN_ASRR_W_R },
{ CRISV10F_INSN_ASRR_D_R, && case_sem_INSN_ASRR_D_R },
{ CRISV10F_INSN_ASRQ, && case_sem_INSN_ASRQ },
{ CRISV10F_INSN_LSRR_B_R, && case_sem_INSN_LSRR_B_R },
{ CRISV10F_INSN_LSRR_W_R, && case_sem_INSN_LSRR_W_R },
{ CRISV10F_INSN_LSRR_D_R, && case_sem_INSN_LSRR_D_R },
{ CRISV10F_INSN_LSRQ, && case_sem_INSN_LSRQ },
{ CRISV10F_INSN_LSLR_B_R, && case_sem_INSN_LSLR_B_R },
{ CRISV10F_INSN_LSLR_W_R, && case_sem_INSN_LSLR_W_R },
{ CRISV10F_INSN_LSLR_D_R, && case_sem_INSN_LSLR_D_R },
{ CRISV10F_INSN_LSLQ, && case_sem_INSN_LSLQ },
{ CRISV10F_INSN_BTST, && case_sem_INSN_BTST },
{ CRISV10F_INSN_BTSTQ, && case_sem_INSN_BTSTQ },
{ CRISV10F_INSN_SETF, && case_sem_INSN_SETF },
{ CRISV10F_INSN_CLEARF, && case_sem_INSN_CLEARF },
{ CRISV10F_INSN_BCC_B, && case_sem_INSN_BCC_B },
{ CRISV10F_INSN_BA_B, && case_sem_INSN_BA_B },
{ CRISV10F_INSN_BCC_W, && case_sem_INSN_BCC_W },
{ CRISV10F_INSN_BA_W, && case_sem_INSN_BA_W },
{ CRISV10F_INSN_JUMP_R, && case_sem_INSN_JUMP_R },
{ CRISV10F_INSN_JUMP_M, && case_sem_INSN_JUMP_M },
{ CRISV10F_INSN_JUMP_C, && case_sem_INSN_JUMP_C },
{ CRISV10F_INSN_BREAK, && case_sem_INSN_BREAK },
{ CRISV10F_INSN_BOUND_R_B_R, && case_sem_INSN_BOUND_R_B_R },
{ CRISV10F_INSN_BOUND_R_W_R, && case_sem_INSN_BOUND_R_W_R },
{ CRISV10F_INSN_BOUND_R_D_R, && case_sem_INSN_BOUND_R_D_R },
{ CRISV10F_INSN_BOUND_M_B_M, && case_sem_INSN_BOUND_M_B_M },
{ CRISV10F_INSN_BOUND_M_W_M, && case_sem_INSN_BOUND_M_W_M },
{ CRISV10F_INSN_BOUND_M_D_M, && case_sem_INSN_BOUND_M_D_M },
{ CRISV10F_INSN_BOUND_CB, && case_sem_INSN_BOUND_CB },
{ CRISV10F_INSN_BOUND_CW, && case_sem_INSN_BOUND_CW },
{ CRISV10F_INSN_BOUND_CD, && case_sem_INSN_BOUND_CD },
{ CRISV10F_INSN_SCC, && case_sem_INSN_SCC },
{ CRISV10F_INSN_LZ, && case_sem_INSN_LZ },
{ CRISV10F_INSN_ADDOQ, && case_sem_INSN_ADDOQ },
{ CRISV10F_INSN_BDAPQPC, && case_sem_INSN_BDAPQPC },
{ CRISV10F_INSN_BDAP_32_PC, && case_sem_INSN_BDAP_32_PC },
{ CRISV10F_INSN_MOVE_M_PCPLUS_P0, && case_sem_INSN_MOVE_M_PCPLUS_P0 },
{ CRISV10F_INSN_MOVE_M_SPPLUS_P8, && case_sem_INSN_MOVE_M_SPPLUS_P8 },
{ CRISV10F_INSN_ADDO_M_B_M, && case_sem_INSN_ADDO_M_B_M },
{ CRISV10F_INSN_ADDO_M_W_M, && case_sem_INSN_ADDO_M_W_M },
{ CRISV10F_INSN_ADDO_M_D_M, && case_sem_INSN_ADDO_M_D_M },
{ CRISV10F_INSN_ADDO_CB, && case_sem_INSN_ADDO_CB },
{ CRISV10F_INSN_ADDO_CW, && case_sem_INSN_ADDO_CW },
{ CRISV10F_INSN_ADDO_CD, && case_sem_INSN_ADDO_CD },
{ CRISV10F_INSN_DIP_M, && case_sem_INSN_DIP_M },
{ CRISV10F_INSN_DIP_C, && case_sem_INSN_DIP_C },
{ CRISV10F_INSN_ADDI_ACR_B_R, && case_sem_INSN_ADDI_ACR_B_R },
{ CRISV10F_INSN_ADDI_ACR_W_R, && case_sem_INSN_ADDI_ACR_W_R },
{ CRISV10F_INSN_ADDI_ACR_D_R, && case_sem_INSN_ADDI_ACR_D_R },
{ CRISV10F_INSN_BIAP_PC_B_R, && case_sem_INSN_BIAP_PC_B_R },
{ CRISV10F_INSN_BIAP_PC_W_R, && case_sem_INSN_BIAP_PC_W_R },
{ CRISV10F_INSN_BIAP_PC_D_R, && case_sem_INSN_BIAP_PC_D_R },
{ 0, 0 }
};
int i;
for (i = 0; labels[i].label != 0; ++i)
{
#if FAST_P
CPU_IDESC (current_cpu) [labels[i].index].sem_fast_lab = labels[i].label;
#else
CPU_IDESC (current_cpu) [labels[i].index].sem_full_lab = labels[i].label;
#endif
}
#undef DEFINE_LABELS
#endif /* DEFINE_LABELS */
#ifdef DEFINE_SWITCH
/* If hyper-fast [well not unnecessarily slow] execution is selected, turn
off frills like tracing and profiling. */
/* FIXME: A better way would be to have CGEN_TRACE_RESULT check for something
that can cause it to be optimized out. Another way would be to emit
special handlers into the instruction "stream". */
#if FAST_P
#undef CGEN_TRACE_RESULT
#define CGEN_TRACE_RESULT(cpu, abuf, name, type, val)
#endif
#undef GET_ATTR
#define GET_ATTR(cpu, num, attr) CGEN_ATTR_VALUE (NULL, abuf->idesc->attrs, CGEN_INSN_##attr)
{
#if WITH_SCACHE_PBB
/* Branch to next handler without going around main loop. */
#define NEXT(vpc) goto * SEM_ARGBUF (vpc) -> semantic.sem_case
SWITCH (sem, SEM_ARGBUF (vpc) -> semantic.sem_case)
#else /* ! WITH_SCACHE_PBB */
#define NEXT(vpc) BREAK (sem)
#ifdef __GNUC__
#if FAST_P
SWITCH (sem, SEM_ARGBUF (sc) -> idesc->sem_fast_lab)
#else
SWITCH (sem, SEM_ARGBUF (sc) -> idesc->sem_full_lab)
#endif
#else
SWITCH (sem, SEM_ARGBUF (sc) -> idesc->num)
#endif
#endif /* ! WITH_SCACHE_PBB */
{
CASE (sem, INSN_X_INVALID) : /* --invalid-- */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 0);
{
/* Update the recorded pc in the cpu state struct.
Only necessary for WITH_SCACHE case, but to avoid the
conditional compilation .... */
SET_H_PC (pc);
/* Virtual insns have zero size. Overwrite vpc with address of next insn
using the default-insn-bitsize spec. When executing insns in parallel
we may want to queue the fault and continue execution. */
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
vpc = sim_engine_invalid_insn (current_cpu, pc, vpc);
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_X_AFTER) : /* --after-- */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 0);
{
#if WITH_SCACHE_PBB_CRISV10F
crisv10f_pbb_after (current_cpu, sem_arg);
#endif
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_X_BEFORE) : /* --before-- */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 0);
{
#if WITH_SCACHE_PBB_CRISV10F
crisv10f_pbb_before (current_cpu, sem_arg);
#endif
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_X_CTI_CHAIN) : /* --cti-chain-- */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 0);
{
#if WITH_SCACHE_PBB_CRISV10F
#ifdef DEFINE_SWITCH
vpc = crisv10f_pbb_cti_chain (current_cpu, sem_arg,
pbb_br_type, pbb_br_npc);
BREAK (sem);
#else
/* FIXME: Allow provision of explicit ifmt spec in insn spec. */
vpc = crisv10f_pbb_cti_chain (current_cpu, sem_arg,
CPU_PBB_BR_TYPE (current_cpu),
CPU_PBB_BR_NPC (current_cpu));
#endif
#endif
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_X_CHAIN) : /* --chain-- */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 0);
{
#if WITH_SCACHE_PBB_CRISV10F
vpc = crisv10f_pbb_chain (current_cpu, sem_arg);
#ifdef DEFINE_SWITCH
BREAK (sem);
#endif
#endif
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_X_BEGIN) : /* --begin-- */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 0);
{
#if WITH_SCACHE_PBB_CRISV10F
#if defined DEFINE_SWITCH || defined FAST_P
/* In the switch case FAST_P is a constant, allowing several optimizations
in any called inline functions. */
vpc = crisv10f_pbb_begin (current_cpu, FAST_P);
#else
#if 0 /* cgen engine can't handle dynamic fast/full switching yet. */
vpc = crisv10f_pbb_begin (current_cpu, STATE_RUN_FAST_P (CPU_STATE (current_cpu)));
#else
vpc = crisv10f_pbb_begin (current_cpu, 0);
#endif
#endif
#endif
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_NOP) : /* nop */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_B_R) : /* move.b move.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_newval;
tmp_newval = GET_H_GR (FLD (f_operand1));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_W_R) : /* move.w move.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_newval;
tmp_newval = GET_H_GR (FLD (f_operand1));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_D_R) : /* move.d move.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_newval;
tmp_newval = GET_H_GR (FLD (f_operand1));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVEPCR) : /* move.d PC,${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_moveq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_pcval;
tmp_pcval = ADDSI (pc, 2);
{
SI opval = tmp_pcval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_pcval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_pcval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVEQ) : /* moveq $i,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_moveq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_newval;
tmp_newval = FLD (f_s6);
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SET_H_NBIT_MOVE (LTSI (tmp_newval, 0));
SET_H_ZBIT_MOVE (ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1))));
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVS_B_R) : /* movs.b movs.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_newval = EXTQISI (tmp_tmpops);
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVS_W_R) : /* movs.w movs.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_newval = EXTHISI (tmp_tmpops);
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVU_B_R) : /* movu.b movu.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_newval = ZEXTQISI (tmp_tmpops);
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVU_W_R) : /* movu.w movu.m ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_newval = ZEXTHISI (tmp_tmpops);
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVECBR) : /* move.b ${sconst8},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
QI tmp_newval;
tmp_newval = FLD (f_indir_pc__byte);
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVECWR) : /* move.w ${sconst16},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
HI tmp_newval;
tmp_newval = FLD (f_indir_pc__word);
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVECDR) : /* move.d ${const32},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cd.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_newval;
tmp_newval = FLD (f_indir_pc__dword);
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVSCBR) : /* movs.b ${sconst8},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_newval;
tmp_newval = EXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVSCWR) : /* movs.w ${sconst16},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_newval;
tmp_newval = EXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVUCBR) : /* movu.b ${uconst8},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_newval;
tmp_newval = ZEXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVUCWR) : /* movu.w ${uconst16},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_newval;
tmp_newval = ZEXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDQ) : /* addq $j,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = FLD (f_u6);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBQ) : /* subq $j,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = FLD (f_u6);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMP_R_B_R) : /* cmp-r.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMP_R_W_R) : /* cmp-r.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMP_R_D_R) : /* cmp-r.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMP_M_B_M) : /* cmp-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMP_M_W_M) : /* cmp-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMP_M_D_M) : /* cmp-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPCBR) : /* cmp.b $sconst8,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = TRUNCSIQI (FLD (f_indir_pc__byte));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPCWR) : /* cmp.w $sconst16,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = TRUNCSIHI (FLD (f_indir_pc__word));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPCDR) : /* cmp.d $const32,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cd.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__dword);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPQ) : /* cmpq $i,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_andq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = FLD (f_s6);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPS_M_B_M) : /* cmps-m.b [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPS_M_W_M) : /* cmps-m.w [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPSCBR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPSCWR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPU_M_B_M) : /* cmpu-m.b [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPU_M_W_M) : /* cmpu-m.w [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPUCBR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CMPUCWR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_M_B_M) : /* move-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_tmp, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_M_W_M) : /* move-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_tmp, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_M_D_M) : /* move-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI opval = tmp_tmp;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVS_M_B_M) : /* movs-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = EXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVS_M_W_M) : /* movs-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = EXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVU_M_B_M) : /* movu-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = ZEXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVU_M_W_M) : /* movu-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = ZEXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_tmp;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_tmp, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmp, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_R_SPRV10) : /* move ${Rs},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_m_sprv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
SI tmp_rno;
tmp_tmp = GET_H_GR (FLD (f_operand1));
tmp_rno = FLD (f_operand2);
if (ORIF (ORIF (EQSI (tmp_rno, 0), EQSI (tmp_rno, 1)), ORIF (EQSI (tmp_rno, 4), EQSI (tmp_rno, 8)))) {
cgen_rtx_error (current_cpu, "move-r-spr: trying to set a read-only special register");
}
else {
{
SI opval = tmp_tmp;
SET_H_SR (FLD (f_operand2), opval);
written |= (1 << 2);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_SPR_RV10) : /* move ${Ps},${Rd-sfield} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_rv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_grno;
SI tmp_prno;
SI tmp_newval;
tmp_prno = FLD (f_operand2);
tmp_newval = GET_H_SR (FLD (f_operand2));
if (EQSI (tmp_prno, 5)) {
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand1));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
else if (EQSI (tmp_prno, 9)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 10)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 11)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 12)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 13)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 0)) {
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand1));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
else if (EQSI (tmp_prno, 1)) {
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand1));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
else if (EQSI (tmp_prno, 4)) {
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand1));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
else if (EQSI (tmp_prno, 8)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 7)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 14)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else if (EQSI (tmp_prno, 15)) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
else {
cgen_rtx_error (current_cpu, "move-spr-r from unimplemented register");
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_RET_TYPE) : /* ret/reti/retb */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_rv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_retaddr;
tmp_retaddr = GET_H_SR (FLD (f_operand2));
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
{
{
USI opval = tmp_retaddr;
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_M_SPRV10) : /* move [${Rs}${inc}],${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_m_sprv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_rno;
SI tmp_newval;
tmp_rno = FLD (f_operand2);
if (EQSI (tmp_rno, 5)) {
tmp_newval = EXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
}
else if (EQSI (tmp_rno, 9)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 10)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 11)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 12)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 13)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 7)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 14)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else if (EQSI (tmp_rno, 15)) {
tmp_newval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
}
else {
cgen_rtx_error (current_cpu, "Trying to set unimplemented special register");
}
{
SI opval = tmp_newval;
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P5) : /* move ${sconst16},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p5.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
{
SI opval = FLD (f_indir_pc__word);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P9) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P10) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P11) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P12) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P13) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P7) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P14) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_C_SPRV10_P15) : /* move ${const32},${Pd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_SPR_MV10) : /* move ${Ps},[${Rd-sfield}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_rno;
tmp_rno = FLD (f_operand2);
if (EQSI (tmp_rno, 5)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
HI opval = GET_H_SR (FLD (f_operand2));
SETMEMHI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
HI opval = GET_H_SR (FLD (f_operand2));
SETMEMHI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 9)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 10)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 11)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 12)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 13)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 0)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
QI opval = GET_H_SR (FLD (f_operand2));
SETMEMQI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
QI opval = GET_H_SR (FLD (f_operand2));
SETMEMQI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 1)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
QI opval = GET_H_SR (FLD (f_operand2));
SETMEMQI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
QI opval = GET_H_SR (FLD (f_operand2));
SETMEMQI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 4)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
HI opval = GET_H_SR (FLD (f_operand2));
SETMEMHI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
HI opval = GET_H_SR (FLD (f_operand2));
SETMEMHI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 8)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 7)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 14)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else if (EQSI (tmp_rno, 15)) {
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = GET_H_SR (FLD (f_operand2));
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
}
else {
cgen_rtx_error (current_cpu, "write from unimplemented special register");
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SBFS) : /* sbfs [${Rd-sfield}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
cgen_rtx_error (current_cpu, "SBFS isn't implemented");
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVEM_R_M) : /* movem ${Rs-dfield},[${Rd-sfield}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_movem_r_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
{
SI tmp_dummy;
tmp_dummy = GET_H_GR (FLD (f_operand2));
}
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
{
if (GESI (FLD (f_operand2), 15)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 15));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 14)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 14));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 13)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 13));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 12)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 12));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 11)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 11));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 10)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 10));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 9)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 9));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 8)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 8));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 7)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 7));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 6)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 6));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 5)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 5));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 4)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 4));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 3)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 3));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 2)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 2));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 1)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 1));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 0)) {
{
SI tmp_tmp;
tmp_tmp = GET_H_GR (((UINT) 0));
{
SI opval = tmp_tmp;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 23);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
}
if (NEBI (tmp_postinc, 0)) {
{
SI opval = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (tmp_addr) : (CPU (h_prefixreg_pre_v32)));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 22);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVEM_M_R) : /* movem [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_movem_m_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
{
SI tmp_dummy;
tmp_dummy = GET_H_GR (FLD (f_operand2));
}
{
if (GESI (FLD (f_operand2), 14)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 14), opval);
written |= (1 << 14);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 13)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 13), opval);
written |= (1 << 13);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 12)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 12), opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 11)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 11), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 10)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 10), opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 9)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 9), opval);
written |= (1 << 22);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 8)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 8), opval);
written |= (1 << 21);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 7)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 7), opval);
written |= (1 << 20);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 6)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 6), opval);
written |= (1 << 19);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 5)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 5), opval);
written |= (1 << 18);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 4)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 4), opval);
written |= (1 << 17);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 3)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 3), opval);
written |= (1 << 16);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 2)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 2), opval);
written |= (1 << 15);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 1)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (GESI (FLD (f_operand2), 0)) {
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 0), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
}
if (NEBI (tmp_postinc, 0)) {
{
SI opval = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (tmp_addr) : (CPU (h_prefixreg_pre_v32)));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVEM_M_PC) : /* movem [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_movem_m_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
{
{
USI opval = GETMEMSI (current_cpu, pc, tmp_addr);
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 14), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 13), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 12), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 11), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 10), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 9), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 8), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 6), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 5), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 4), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 3), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 1), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI tmp_tmp;
tmp_tmp = GETMEMSI (current_cpu, pc, tmp_addr);
{
SI opval = tmp_tmp;
SET_H_GR (((UINT) 0), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
tmp_addr = ADDSI (tmp_addr, 4);
}
}
if (NEBI (tmp_postinc, 0)) {
{
SI opval = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (tmp_addr) : (CPU (h_prefixreg_pre_v32)));
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 5);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADD_B_R) : /* add.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), ORIF (ANDIF (LTQI (tmp_tmpopd, 0), GEQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (GEQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADD_W_R) : /* add.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), ORIF (ANDIF (LTHI (tmp_tmpopd, 0), GEHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (GEHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADD_D_R) : /* add.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADD_M_B_M) : /* add-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), ORIF (ANDIF (LTQI (tmp_tmpopd, 0), GEQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (GEQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADD_M_W_M) : /* add-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), ORIF (ANDIF (LTHI (tmp_tmpopd, 0), GEHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (GEHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADD_M_D_M) : /* add-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDCBR) : /* add.b ${sconst8}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__byte);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), ORIF (ANDIF (LTQI (tmp_tmpopd, 0), GEQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (GEQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDCWR) : /* add.w ${sconst16}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__word);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), ORIF (ANDIF (LTHI (tmp_tmpopd, 0), GEHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (GEHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDCDR) : /* add.d ${const32}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcdr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__dword);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDCPC) : /* add.d ${sconst32},PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_newpc;
SI tmp_oldpc;
SI tmp_offs;
tmp_offs = FLD (f_indir_pc__dword);
tmp_oldpc = ADDSI (pc, 6);
tmp_newpc = ADDSI (tmp_oldpc, tmp_offs);
{
USI opval = tmp_newpc;
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_offs, 0), LTSI (tmp_oldpc, 0)), ORIF (ANDIF (LTSI (tmp_oldpc, 0), GESI (tmp_newpc, 0)), ANDIF (LTSI (tmp_offs, 0), GESI (tmp_newpc, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newpc, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newpc, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_offs, 0), LTSI (tmp_oldpc, 0)), GESI (tmp_newpc, 0)), ANDIF (ANDIF (GESI (tmp_offs, 0), GESI (tmp_oldpc, 0)), LTSI (tmp_newpc, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDS_B_R) : /* adds.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDS_W_R) : /* adds.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDS_M_B_M) : /* adds-m.b [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDS_M_W_M) : /* adds-m.w [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDSCBR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDSCWR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDSPCPC) : /* adds.w [PC],PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_empty.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_newpc;
SI tmp_oldpc;
HI tmp_offs;
if (NOTBI (GET_H_INSN_PREFIXED_P ())) {
cgen_rtx_error (current_cpu, "Unexpected adds.w [PC],PC without prefix");
}
tmp_offs = GETMEMHI (current_cpu, pc, CPU (h_prefixreg_pre_v32));
tmp_oldpc = ADDSI (pc, 2);
tmp_newpc = ADDSI (tmp_oldpc, tmp_offs);
{
USI opval = tmp_newpc;
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (EXTHISI (tmp_offs), 0), LTSI (tmp_oldpc, 0)), ORIF (ANDIF (LTSI (tmp_oldpc, 0), GESI (tmp_newpc, 0)), ANDIF (LTSI (EXTHISI (tmp_offs), 0), GESI (tmp_newpc, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newpc, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newpc, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (EXTHISI (tmp_offs), 0), LTSI (tmp_oldpc, 0)), GESI (tmp_newpc, 0)), ANDIF (ANDIF (GESI (EXTHISI (tmp_offs), 0), GESI (tmp_oldpc, 0)), LTSI (tmp_newpc, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDU_B_R) : /* addu.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDU_W_R) : /* addu.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDU_M_B_M) : /* addu-m.b [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDU_M_W_M) : /* addu-m.w [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDUCBR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDUCWR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = ADDCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), ORIF (ANDIF (LTSI (tmp_tmpopd, 0), GESI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (GESI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUB_B_R) : /* sub.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUB_W_R) : /* sub.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUB_D_R) : /* sub.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUB_M_B_M) : /* sub-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUB_M_W_M) : /* sub-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 12);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUB_M_D_M) : /* sub-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBCBR) : /* sub.b ${sconst8}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__byte);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBCWR) : /* sub.w ${sconst16}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__word);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBCDR) : /* sub.d ${const32}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcdr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__dword);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBS_B_R) : /* subs.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBS_W_R) : /* subs.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBS_M_B_M) : /* subs-m.b [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBS_M_W_M) : /* subs-m.w [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBSCBR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBSCWR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = EXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBU_B_R) : /* subu.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBU_W_R) : /* subu.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBU_M_B_M) : /* subu-m.b [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBU_M_W_M) : /* subu-m.w [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBUCBR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SUBUCWR) : /* [${Rs}${inc}],$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (TRUNCSIHI (FLD (f_indir_pc__word)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDI_B_R) : /* addi.b ${Rs-dfield}.m,${Rd-sfield} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand1)), MULSI (GET_H_GR (FLD (f_operand2)), 1));
SET_H_GR (FLD (f_operand1), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDI_W_R) : /* addi.w ${Rs-dfield}.m,${Rd-sfield} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand1)), MULSI (GET_H_GR (FLD (f_operand2)), 2));
SET_H_GR (FLD (f_operand1), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDI_D_R) : /* addi.d ${Rs-dfield}.m,${Rd-sfield} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand1)), MULSI (GET_H_GR (FLD (f_operand2)), 4));
SET_H_GR (FLD (f_operand1), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_NEG_B_R) : /* neg.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = 0;
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_NEG_W_R) : /* neg.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = 0;
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_newval, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_NEG_D_R) : /* neg.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = GET_H_GR (FLD (f_operand1));
tmp_tmpopd = 0;
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_TEST_M_B_M) : /* test-m.b [${Rs}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
tmp_tmpd = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
QI tmp_tmpopd;
QI tmp_tmpops;
BI tmp_carry;
QI tmp_newval;
tmp_tmpops = 0;
tmp_tmpopd = tmp_tmpd;
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCQI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), ORIF (ANDIF (GEQI (tmp_tmpopd, 0), LTQI (tmp_newval, 0)), ANDIF (LTQI (tmp_tmpops, 0), LTQI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTQI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEQI (tmp_tmpops, 0), LTQI (tmp_tmpopd, 0)), GEQI (tmp_newval, 0)), ANDIF (ANDIF (LTQI (tmp_tmpops, 0), GEQI (tmp_tmpopd, 0)), LTQI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_TEST_M_W_M) : /* test-m.w [${Rs}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
tmp_tmpd = ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
HI tmp_tmpopd;
HI tmp_tmpops;
BI tmp_carry;
HI tmp_newval;
tmp_tmpops = 0;
tmp_tmpopd = tmp_tmpd;
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCHI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), ORIF (ANDIF (GEHI (tmp_tmpopd, 0), LTHI (tmp_newval, 0)), ANDIF (LTHI (tmp_tmpops, 0), LTHI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTHI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GEHI (tmp_tmpops, 0), LTHI (tmp_tmpopd, 0)), GEHI (tmp_newval, 0)), ANDIF (ANDIF (LTHI (tmp_tmpops, 0), GEHI (tmp_tmpopd, 0)), LTHI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_TEST_M_D_M) : /* test-m.d [${Rs}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI tmp_tmpopd;
SI tmp_tmpops;
BI tmp_carry;
SI tmp_newval;
tmp_tmpops = 0;
tmp_tmpopd = tmp_tmpd;
tmp_carry = CPU (h_cbit);
tmp_newval = SUBCSI (tmp_tmpopd, tmp_tmpops, ((EQBI (CPU (h_xbit), 0)) ? (0) : (tmp_carry)));
((void) 0); /*nop*/
{
{
BI opval = ORIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), ORIF (ANDIF (GESI (tmp_tmpopd, 0), LTSI (tmp_newval, 0)), ANDIF (LTSI (tmp_tmpops, 0), LTSI (tmp_newval, 0))));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = ORIF (ANDIF (ANDIF (GESI (tmp_tmpops, 0), LTSI (tmp_tmpopd, 0)), GESI (tmp_newval, 0)), ANDIF (ANDIF (LTSI (tmp_tmpops, 0), GESI (tmp_tmpopd, 0)), LTSI (tmp_newval, 0)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_R_M_B_M) : /* move-r-m.b ${Rs-dfield},[${Rd-sfield}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
tmp_tmpd = GET_H_GR (FLD (f_operand2));
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
QI opval = tmp_tmpd;
SETMEMQI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
QI opval = tmp_tmpd;
SETMEMQI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_R_M_W_M) : /* move-r-m.w ${Rs-dfield},[${Rd-sfield}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
tmp_tmpd = GET_H_GR (FLD (f_operand2));
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
HI opval = tmp_tmpd;
SETMEMHI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
HI opval = tmp_tmpd;
SETMEMHI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_R_M_D_M) : /* move-r-m.d ${Rs-dfield},[${Rd-sfield}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = GET_H_GR (FLD (f_operand2));
{
SI tmp_addr;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
if (ANDIF (GET_H_V32_NON_V32 (), NEBI (CPU (h_xbit), 0))) {
if (EQBI (CPU (h_pbit), 0)) {
{
{
SI opval = tmp_tmpd;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
{
BI opval = CPU (h_pbit);
CPU (h_cbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
} else {
{
SI opval = tmp_tmpd;
SETMEMSI (current_cpu, pc, tmp_addr, opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "memory", 'x', opval);
}
}
if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MULS_B) : /* muls.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
DI tmp_src1;
DI tmp_src2;
DI tmp_tmpr;
tmp_src1 = EXTQIDI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_src2 = EXTQIDI (TRUNCSIQI (GET_H_GR (FLD (f_operand2))));
tmp_tmpr = MULDI (tmp_src1, tmp_src2);
{
SI opval = TRUNCDISI (tmp_tmpr);
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SI opval = TRUNCDISI (SRLDI (tmp_tmpr, 32));
SET_H_SR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = ANDIF (GET_H_V32_NON_V32 (), CPU (h_cbit));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTDI (tmp_tmpr, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQDI (tmp_tmpr, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = NEDI (tmp_tmpr, EXTSIDI (TRUNCDISI (tmp_tmpr)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MULS_W) : /* muls.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
DI tmp_src1;
DI tmp_src2;
DI tmp_tmpr;
tmp_src1 = EXTHIDI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_src2 = EXTHIDI (TRUNCSIHI (GET_H_GR (FLD (f_operand2))));
tmp_tmpr = MULDI (tmp_src1, tmp_src2);
{
SI opval = TRUNCDISI (tmp_tmpr);
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SI opval = TRUNCDISI (SRLDI (tmp_tmpr, 32));
SET_H_SR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = ANDIF (GET_H_V32_NON_V32 (), CPU (h_cbit));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTDI (tmp_tmpr, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQDI (tmp_tmpr, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = NEDI (tmp_tmpr, EXTSIDI (TRUNCDISI (tmp_tmpr)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MULS_D) : /* muls.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
DI tmp_src1;
DI tmp_src2;
DI tmp_tmpr;
tmp_src1 = EXTSIDI (TRUNCSISI (GET_H_GR (FLD (f_operand1))));
tmp_src2 = EXTSIDI (TRUNCSISI (GET_H_GR (FLD (f_operand2))));
tmp_tmpr = MULDI (tmp_src1, tmp_src2);
{
SI opval = TRUNCDISI (tmp_tmpr);
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SI opval = TRUNCDISI (SRLDI (tmp_tmpr, 32));
SET_H_SR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = ANDIF (GET_H_V32_NON_V32 (), CPU (h_cbit));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTDI (tmp_tmpr, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQDI (tmp_tmpr, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = NEDI (tmp_tmpr, EXTSIDI (TRUNCDISI (tmp_tmpr)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MULU_B) : /* mulu.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
DI tmp_src1;
DI tmp_src2;
DI tmp_tmpr;
tmp_src1 = ZEXTQIDI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_src2 = ZEXTQIDI (TRUNCSIQI (GET_H_GR (FLD (f_operand2))));
tmp_tmpr = MULDI (tmp_src1, tmp_src2);
{
SI opval = TRUNCDISI (tmp_tmpr);
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SI opval = TRUNCDISI (SRLDI (tmp_tmpr, 32));
SET_H_SR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = ANDIF (GET_H_V32_NON_V32 (), CPU (h_cbit));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTDI (tmp_tmpr, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQDI (tmp_tmpr, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = NEDI (tmp_tmpr, ZEXTSIDI (TRUNCDISI (tmp_tmpr)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MULU_W) : /* mulu.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
DI tmp_src1;
DI tmp_src2;
DI tmp_tmpr;
tmp_src1 = ZEXTHIDI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_src2 = ZEXTHIDI (TRUNCSIHI (GET_H_GR (FLD (f_operand2))));
tmp_tmpr = MULDI (tmp_src1, tmp_src2);
{
SI opval = TRUNCDISI (tmp_tmpr);
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SI opval = TRUNCDISI (SRLDI (tmp_tmpr, 32));
SET_H_SR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = ANDIF (GET_H_V32_NON_V32 (), CPU (h_cbit));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTDI (tmp_tmpr, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQDI (tmp_tmpr, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = NEDI (tmp_tmpr, ZEXTSIDI (TRUNCDISI (tmp_tmpr)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MULU_D) : /* mulu.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
DI tmp_src1;
DI tmp_src2;
DI tmp_tmpr;
tmp_src1 = ZEXTSIDI (TRUNCSISI (GET_H_GR (FLD (f_operand1))));
tmp_src2 = ZEXTSIDI (TRUNCSISI (GET_H_GR (FLD (f_operand2))));
tmp_tmpr = MULDI (tmp_src1, tmp_src2);
{
SI opval = TRUNCDISI (tmp_tmpr);
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
SI opval = TRUNCDISI (SRLDI (tmp_tmpr, 32));
SET_H_SR (((UINT) 7), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
{
BI opval = ANDIF (GET_H_V32_NON_V32 (), CPU (h_cbit));
CPU (h_cbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
{
BI opval = LTDI (tmp_tmpr, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQDI (tmp_tmpr, 0), ORIF (CPU (h_zbit), NOTBI (CPU (h_xbit))));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
{
BI opval = NEDI (tmp_tmpr, ZEXTSIDI (TRUNCDISI (tmp_tmpr)));
CPU (h_vbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MSTEP) : /* mstep $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_tmps;
tmp_tmps = GET_H_GR (FLD (f_operand1));
tmp_tmpd = ADDSI (SLLSI (GET_H_GR (FLD (f_operand2)), 1), ((CPU (h_nbit)) ? (tmp_tmps) : (0)));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_DSTEP) : /* dstep $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
SI tmp_tmps;
SI tmp_tmpd;
tmp_tmps = GET_H_GR (FLD (f_operand1));
tmp_tmp = SLLSI (GET_H_GR (FLD (f_operand2)), 1);
tmp_tmpd = ((GEUSI (tmp_tmp, tmp_tmps)) ? (SUBSI (tmp_tmp, tmp_tmps)) : (tmp_tmp));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ABS) : /* abs $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ABSSI (GET_H_GR (FLD (f_operand1)));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_AND_B_R) : /* and.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
tmp_tmpd = ANDQI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_AND_W_R) : /* and.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
tmp_tmpd = ANDHI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_AND_D_R) : /* and.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ANDSI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_AND_M_B_M) : /* and-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
tmp_tmpd = ANDQI (GET_H_GR (FLD (f_operand2)), ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_AND_M_W_M) : /* and-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
tmp_tmpd = ANDHI (GET_H_GR (FLD (f_operand2)), ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_AND_M_D_M) : /* and-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ANDSI (GET_H_GR (FLD (f_operand2)), ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
{
SI opval = tmp_tmpd;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ANDCBR) : /* and.b ${sconst8}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
QI tmp_tmpd;
tmp_tmpd = ANDQI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__byte));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ANDCWR) : /* and.w ${sconst16}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
HI tmp_tmpd;
tmp_tmpd = ANDHI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__word));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ANDCDR) : /* and.d ${const32}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcdr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_tmpd;
tmp_tmpd = ANDSI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__dword));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ANDQ) : /* andq $i,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_andq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ANDSI (GET_H_GR (FLD (f_operand2)), FLD (f_s6));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORR_B_R) : /* orr.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
tmp_tmpd = ORQI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORR_W_R) : /* orr.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
tmp_tmpd = ORHI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORR_D_R) : /* orr.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ORSI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_OR_M_B_M) : /* or-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
tmp_tmpd = ORQI (GET_H_GR (FLD (f_operand2)), ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_OR_M_W_M) : /* or-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
tmp_tmpd = ORHI (GET_H_GR (FLD (f_operand2)), ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 11);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_OR_M_D_M) : /* or-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ORSI (GET_H_GR (FLD (f_operand2)), ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 10);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
{
SI opval = tmp_tmpd;
SET_H_GR (((ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) ? (FLD (f_operand1)) : (FLD (f_operand2))), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORCBR) : /* or.b ${sconst8}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcbr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
QI tmp_tmpd;
tmp_tmpd = ORQI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__byte));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORCWR) : /* or.w ${sconst16}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcwr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
HI tmp_tmpd;
tmp_tmpd = ORHI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__word));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORCDR) : /* or.d ${const32}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addcdr.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_tmpd;
tmp_tmpd = ORSI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__dword));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ORQ) : /* orq $i,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_andq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = ORSI (GET_H_GR (FLD (f_operand2)), FLD (f_s6));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_XOR) : /* xor $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = XORSI (GET_H_GR (FLD (f_operand2)), GET_H_GR (FLD (f_operand1)));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SWAP) : /* swap${swapoption} ${Rs} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmps;
SI tmp_tmpd;
tmp_tmps = GET_H_GR (FLD (f_operand1));
tmp_tmpd = ({ SI tmp_tmpcode;
SI tmp_tmpval;
SI tmp_tmpres;
tmp_tmpcode = FLD (f_operand2);
; tmp_tmpval = tmp_tmps;
; if (EQSI (tmp_tmpcode, 0)) {
tmp_tmpres = (cgen_rtx_error (current_cpu, "SWAP without swap modifier isn't implemented"), 0);
}
else if (EQSI (tmp_tmpcode, 1)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = tmp_tmpval;
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 2)) {
tmp_tmpres = ({ SI tmp_tmpb;
tmp_tmpb = tmp_tmpval;
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
}
else if (EQSI (tmp_tmpcode, 3)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = ({ SI tmp_tmpb;
tmp_tmpb = tmp_tmpval;
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 4)) {
tmp_tmpres = ({ SI tmp_tmpb;
tmp_tmpb = tmp_tmpval;
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
}
else if (EQSI (tmp_tmpcode, 5)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = ({ SI tmp_tmpb;
tmp_tmpb = tmp_tmpval;
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 6)) {
tmp_tmpres = ({ SI tmp_tmpb;
tmp_tmpb = ({ SI tmp_tmpb;
tmp_tmpb = tmp_tmpval;
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
}
else if (EQSI (tmp_tmpcode, 7)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = ({ SI tmp_tmpb;
tmp_tmpb = ({ SI tmp_tmpb;
tmp_tmpb = tmp_tmpval;
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 8)) {
tmp_tmpres = INVSI (tmp_tmpval);
}
else if (EQSI (tmp_tmpcode, 9)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = INVSI (tmp_tmpval);
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 10)) {
tmp_tmpres = ({ SI tmp_tmpb;
tmp_tmpb = INVSI (tmp_tmpval);
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
}
else if (EQSI (tmp_tmpcode, 11)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = ({ SI tmp_tmpb;
tmp_tmpb = INVSI (tmp_tmpval);
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 12)) {
tmp_tmpres = ({ SI tmp_tmpb;
tmp_tmpb = INVSI (tmp_tmpval);
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
}
else if (EQSI (tmp_tmpcode, 13)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = ({ SI tmp_tmpb;
tmp_tmpb = INVSI (tmp_tmpval);
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
else if (EQSI (tmp_tmpcode, 14)) {
tmp_tmpres = ({ SI tmp_tmpb;
tmp_tmpb = ({ SI tmp_tmpb;
tmp_tmpb = INVSI (tmp_tmpval);
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
}
else if (EQSI (tmp_tmpcode, 15)) {
tmp_tmpres = ({ SI tmp_tmpr;
tmp_tmpr = ({ SI tmp_tmpb;
tmp_tmpb = ({ SI tmp_tmpb;
tmp_tmpb = INVSI (tmp_tmpval);
; ORSI (ANDSI (SLLSI (tmp_tmpb, 16), 0xffff0000), ANDSI (SRLSI (tmp_tmpb, 16), 65535)); });
; ORSI (ANDSI (SLLSI (tmp_tmpb, 8), 0xff00ff00), ANDSI (SRLSI (tmp_tmpb, 8), 16711935)); });
; ORSI (SLLSI (ANDSI (tmp_tmpr, 16843009), 7), ORSI (SLLSI (ANDSI (tmp_tmpr, 33686018), 5), ORSI (SLLSI (ANDSI (tmp_tmpr, 67372036), 3), ORSI (SLLSI (ANDSI (tmp_tmpr, 134744072), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 269488144), 1), ORSI (SRLSI (ANDSI (tmp_tmpr, 538976288), 3), ORSI (SRLSI (ANDSI (tmp_tmpr, 1077952576), 5), SRLSI (ANDSI (tmp_tmpr, 0x80808080), 7)))))))); });
}
; tmp_tmpres; });
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand1), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ASRR_B_R) : /* asrr.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmpd;
SI tmp_cnt1;
SI tmp_cnt2;
tmp_cnt1 = GET_H_GR (FLD (f_operand1));
tmp_cnt2 = ((NESI (ANDSI (tmp_cnt1, 32), 0)) ? (31) : (ANDSI (tmp_cnt1, 31)));
tmp_tmpd = SRASI (EXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand2)))), tmp_cnt2);
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ASRR_W_R) : /* asrr.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmpd;
SI tmp_cnt1;
SI tmp_cnt2;
tmp_cnt1 = GET_H_GR (FLD (f_operand1));
tmp_cnt2 = ((NESI (ANDSI (tmp_cnt1, 32), 0)) ? (31) : (ANDSI (tmp_cnt1, 31)));
tmp_tmpd = SRASI (EXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand2)))), tmp_cnt2);
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ASRR_D_R) : /* asrr.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt1;
SI tmp_cnt2;
tmp_cnt1 = GET_H_GR (FLD (f_operand1));
tmp_cnt2 = ((NESI (ANDSI (tmp_cnt1, 32), 0)) ? (31) : (ANDSI (tmp_cnt1, 31)));
tmp_tmpd = SRASI (EXTSISI (TRUNCSISI (GET_H_GR (FLD (f_operand2)))), tmp_cnt2);
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ASRQ) : /* asrq $c,${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_asrq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = SRASI (GET_H_GR (FLD (f_operand2)), FLD (f_u5));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSRR_B_R) : /* lsrr.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_cnt = ANDSI (GET_H_GR (FLD (f_operand1)), 63);
tmp_tmpd = ((NESI (ANDSI (tmp_cnt, 32), 0)) ? (0) : (SRLSI (ZEXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand2)))), ANDSI (tmp_cnt, 31))));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSRR_W_R) : /* lsrr.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_cnt = ANDSI (GET_H_GR (FLD (f_operand1)), 63);
tmp_tmpd = ((NESI (ANDSI (tmp_cnt, 32), 0)) ? (0) : (SRLSI (ZEXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand2)))), ANDSI (tmp_cnt, 31))));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSRR_D_R) : /* lsrr.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_cnt = ANDSI (GET_H_GR (FLD (f_operand1)), 63);
tmp_tmpd = ((NESI (ANDSI (tmp_cnt, 32), 0)) ? (0) : (SRLSI (ZEXTSISI (TRUNCSISI (GET_H_GR (FLD (f_operand2)))), ANDSI (tmp_cnt, 31))));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSRQ) : /* lsrq $c,${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_asrq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = SRLSI (GET_H_GR (FLD (f_operand2)), FLD (f_u5));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSLR_B_R) : /* lslr.b $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_cnt = ANDSI (GET_H_GR (FLD (f_operand1)), 63);
tmp_tmpd = ((NESI (ANDSI (tmp_cnt, 32), 0)) ? (0) : (SLLSI (ZEXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand2)))), ANDSI (tmp_cnt, 31))));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 255), ANDSI (tmp_oldregval, 0xffffff00));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTQI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQQI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSLR_W_R) : /* lslr.w $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_cnt = ANDSI (GET_H_GR (FLD (f_operand1)), 63);
tmp_tmpd = ((NESI (ANDSI (tmp_cnt, 32), 0)) ? (0) : (SLLSI (ZEXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand2)))), ANDSI (tmp_cnt, 31))));
{
SI tmp_oldregval;
tmp_oldregval = GET_H_RAW_GR_PC (FLD (f_operand2));
{
SI opval = ORSI (ANDSI (tmp_tmpd, 65535), ANDSI (tmp_oldregval, 0xffff0000));
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTHI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQHI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSLR_D_R) : /* lslr.d $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_cnt = ANDSI (GET_H_GR (FLD (f_operand1)), 63);
tmp_tmpd = ((NESI (ANDSI (tmp_cnt, 32), 0)) ? (0) : (SLLSI (ZEXTSISI (TRUNCSISI (GET_H_GR (FLD (f_operand2)))), ANDSI (tmp_cnt, 31))));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LSLQ) : /* lslq $c,${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_asrq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = SLLSI (GET_H_GR (FLD (f_operand2)), FLD (f_u5));
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BTST) : /* $Rs,$Rd */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_cnt;
tmp_tmpd = SLLSI (GET_H_GR (FLD (f_operand2)), SUBSI (31, ANDSI (GET_H_GR (FLD (f_operand1)), 31)));
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BTSTQ) : /* btstq $c,${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_asrq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
tmp_tmpd = SLLSI (GET_H_GR (FLD (f_operand2)), SUBSI (31, FLD (f_u5)));
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SETF) : /* setf ${list-of-flags} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_setf.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = FLD (f_dstsrc);
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 0)), 0)) {
{
BI opval = 1;
CPU (h_cbit) = opval;
written |= (1 << 1);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 1)), 0)) {
{
BI opval = 1;
CPU (h_vbit) = opval;
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 2)), 0)) {
{
BI opval = 1;
CPU (h_zbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 3)), 0)) {
{
BI opval = 1;
CPU (h_nbit) = opval;
written |= (1 << 3);
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 4)), 0)) {
{
BI opval = 1;
CPU (h_xbit) = opval;
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 5)), 0)) {
{
BI opval = 1;
SET_H_IBIT (opval);
written |= (1 << 2);
CGEN_TRACE_RESULT (current_cpu, abuf, "ibit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 6)), 0)) {
{
BI opval = 1;
SET_H_UBIT (opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "ubit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 7)), 0)) {
{
BI opval = 1;
CPU (h_pbit) = opval;
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "pbit", 'x', opval);
}
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
if (EQSI (ANDSI (tmp_tmp, SLLSI (1, 4)), 0)) {
{
BI opval = 0;
CPU (h_xbit) = opval;
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_CLEARF) : /* clearf ${list-of-flags} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_setf.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmp;
tmp_tmp = FLD (f_dstsrc);
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 0)), 0)) {
{
BI opval = 0;
CPU (h_cbit) = opval;
written |= (1 << 1);
CGEN_TRACE_RESULT (current_cpu, abuf, "cbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 1)), 0)) {
{
BI opval = 0;
CPU (h_vbit) = opval;
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "vbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 2)), 0)) {
{
BI opval = 0;
CPU (h_zbit) = opval;
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 3)), 0)) {
{
BI opval = 0;
CPU (h_nbit) = opval;
written |= (1 << 3);
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 4)), 0)) {
{
BI opval = 0;
CPU (h_xbit) = opval;
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 5)), 0)) {
{
BI opval = 0;
SET_H_IBIT (opval);
written |= (1 << 2);
CGEN_TRACE_RESULT (current_cpu, abuf, "ibit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 6)), 0)) {
{
BI opval = 0;
SET_H_UBIT (opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "ubit", 'x', opval);
}
}
if (NESI (ANDSI (tmp_tmp, SLLSI (1, 7)), 0)) {
{
BI opval = 0;
CPU (h_pbit) = opval;
written |= (1 << 4);
CGEN_TRACE_RESULT (current_cpu, abuf, "pbit", 'x', opval);
}
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BCC_B) : /* b${cc} ${o-pcrel} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bcc_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
BI tmp_truthval;
tmp_truthval = ({ SI tmp_tmpcond;
BI tmp_condres;
tmp_tmpcond = FLD (f_operand2);
; if (EQSI (tmp_tmpcond, 0)) {
tmp_condres = NOTBI (CPU (h_cbit));
}
else if (EQSI (tmp_tmpcond, 1)) {
tmp_condres = CPU (h_cbit);
}
else if (EQSI (tmp_tmpcond, 2)) {
tmp_condres = NOTBI (CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 3)) {
tmp_condres = CPU (h_zbit);
}
else if (EQSI (tmp_tmpcond, 4)) {
tmp_condres = NOTBI (CPU (h_vbit));
}
else if (EQSI (tmp_tmpcond, 5)) {
tmp_condres = CPU (h_vbit);
}
else if (EQSI (tmp_tmpcond, 6)) {
tmp_condres = NOTBI (CPU (h_nbit));
}
else if (EQSI (tmp_tmpcond, 7)) {
tmp_condres = CPU (h_nbit);
}
else if (EQSI (tmp_tmpcond, 8)) {
tmp_condres = ORBI (CPU (h_cbit), CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 9)) {
tmp_condres = NOTBI (ORBI (CPU (h_cbit), CPU (h_zbit)));
}
else if (EQSI (tmp_tmpcond, 10)) {
tmp_condres = NOTBI (XORBI (CPU (h_vbit), CPU (h_nbit)));
}
else if (EQSI (tmp_tmpcond, 11)) {
tmp_condres = XORBI (CPU (h_vbit), CPU (h_nbit));
}
else if (EQSI (tmp_tmpcond, 12)) {
tmp_condres = NOTBI (ORBI (XORBI (CPU (h_vbit), CPU (h_nbit)), CPU (h_zbit)));
}
else if (EQSI (tmp_tmpcond, 13)) {
tmp_condres = ORBI (XORBI (CPU (h_vbit), CPU (h_nbit)), CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 14)) {
tmp_condres = 1;
}
else if (EQSI (tmp_tmpcond, 15)) {
tmp_condres = CPU (h_pbit);
}
; tmp_condres; });
crisv10f_branch_taken (current_cpu, pc, FLD (i_o_pcrel), tmp_truthval);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
if (tmp_truthval) {
{
{
USI opval = FLD (i_o_pcrel);
SEM_BRANCH_VIA_CACHE (current_cpu, sem_arg, opval, vpc);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
}
}
abuf->written = written;
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BA_B) : /* ba ${o-pcrel} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bcc_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
{
{
USI opval = FLD (i_o_pcrel);
SEM_BRANCH_VIA_CACHE (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BCC_W) : /* b${cc} ${o-word-pcrel} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bcc_w.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
BI tmp_truthval;
tmp_truthval = ({ SI tmp_tmpcond;
BI tmp_condres;
tmp_tmpcond = FLD (f_operand2);
; if (EQSI (tmp_tmpcond, 0)) {
tmp_condres = NOTBI (CPU (h_cbit));
}
else if (EQSI (tmp_tmpcond, 1)) {
tmp_condres = CPU (h_cbit);
}
else if (EQSI (tmp_tmpcond, 2)) {
tmp_condres = NOTBI (CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 3)) {
tmp_condres = CPU (h_zbit);
}
else if (EQSI (tmp_tmpcond, 4)) {
tmp_condres = NOTBI (CPU (h_vbit));
}
else if (EQSI (tmp_tmpcond, 5)) {
tmp_condres = CPU (h_vbit);
}
else if (EQSI (tmp_tmpcond, 6)) {
tmp_condres = NOTBI (CPU (h_nbit));
}
else if (EQSI (tmp_tmpcond, 7)) {
tmp_condres = CPU (h_nbit);
}
else if (EQSI (tmp_tmpcond, 8)) {
tmp_condres = ORBI (CPU (h_cbit), CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 9)) {
tmp_condres = NOTBI (ORBI (CPU (h_cbit), CPU (h_zbit)));
}
else if (EQSI (tmp_tmpcond, 10)) {
tmp_condres = NOTBI (XORBI (CPU (h_vbit), CPU (h_nbit)));
}
else if (EQSI (tmp_tmpcond, 11)) {
tmp_condres = XORBI (CPU (h_vbit), CPU (h_nbit));
}
else if (EQSI (tmp_tmpcond, 12)) {
tmp_condres = NOTBI (ORBI (XORBI (CPU (h_vbit), CPU (h_nbit)), CPU (h_zbit)));
}
else if (EQSI (tmp_tmpcond, 13)) {
tmp_condres = ORBI (XORBI (CPU (h_vbit), CPU (h_nbit)), CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 14)) {
tmp_condres = 1;
}
else if (EQSI (tmp_tmpcond, 15)) {
tmp_condres = CPU (h_pbit);
}
; tmp_condres; });
crisv10f_branch_taken (current_cpu, pc, FLD (i_o_word_pcrel), tmp_truthval);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
if (tmp_truthval) {
{
{
USI opval = FLD (i_o_word_pcrel);
SEM_BRANCH_VIA_CACHE (current_cpu, sem_arg, opval, vpc);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
}
}
abuf->written = written;
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BA_W) : /* ba ${o-word-pcrel} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bcc_w.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
{
{
USI opval = FLD (i_o_word_pcrel);
SEM_BRANCH_VIA_CACHE (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_JUMP_R) : /* jump/jsr/jir ${Rs} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_m_sprv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (pc, 2);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
USI opval = GET_H_GR (FLD (f_operand1));
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_JUMP_M) : /* jump/jsr/jir [${Rs}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_m_sprv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (pc, 2);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
USI opval = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
abuf->written = written;
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_JUMP_C) : /* jump/jsr/jir ${const32} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = ADDSI (pc, 6);
SET_H_SR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "sr", 'x', opval);
}
{
USI opval = FLD (f_indir_pc__dword);
SEM_BRANCH_VIA_CACHE (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BREAK) : /* break $n */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_break.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
{
USI opval = crisv10f_break_handler (current_cpu, FLD (f_u4), pc);
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_R_B_R) : /* bound-r.b ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_R_W_R) : /* bound-r.w ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (TRUNCSIHI (GET_H_GR (FLD (f_operand1))));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_R_D_R) : /* bound-r.d ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = TRUNCSISI (GET_H_GR (FLD (f_operand1)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_M_B_M) : /* bound-m.b [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_M_W_M) : /* bound-m.w [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ZEXTHISI (({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; }));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_M_D_M) : /* bound-m.d [${Rs}${inc}],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
if (ANDIF (GET_H_INSN_PREFIXED_P (), NOTSI (FLD (f_memmode)))) {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 9);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
} else {
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
written |= (1 << 8);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_CB) : /* bound.b [PC+],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ZEXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte)));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_CW) : /* bound.w [PC+],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = ZEXTSISI (FLD (f_indir_pc__word));
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BOUND_CD) : /* bound.d [PC+],${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cd.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_tmpopd;
SI tmp_tmpops;
SI tmp_newval;
tmp_tmpops = FLD (f_indir_pc__dword);
tmp_tmpopd = GET_H_GR (FLD (f_operand2));
tmp_newval = ((LTUSI (tmp_tmpops, tmp_tmpopd)) ? (tmp_tmpops) : (tmp_tmpopd));
{
SI opval = tmp_newval;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_newval, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_newval, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_SCC) : /* s${cc} ${Rd-sfield} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
BI tmp_truthval;
tmp_truthval = ({ SI tmp_tmpcond;
BI tmp_condres;
tmp_tmpcond = FLD (f_operand2);
; if (EQSI (tmp_tmpcond, 0)) {
tmp_condres = NOTBI (CPU (h_cbit));
}
else if (EQSI (tmp_tmpcond, 1)) {
tmp_condres = CPU (h_cbit);
}
else if (EQSI (tmp_tmpcond, 2)) {
tmp_condres = NOTBI (CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 3)) {
tmp_condres = CPU (h_zbit);
}
else if (EQSI (tmp_tmpcond, 4)) {
tmp_condres = NOTBI (CPU (h_vbit));
}
else if (EQSI (tmp_tmpcond, 5)) {
tmp_condres = CPU (h_vbit);
}
else if (EQSI (tmp_tmpcond, 6)) {
tmp_condres = NOTBI (CPU (h_nbit));
}
else if (EQSI (tmp_tmpcond, 7)) {
tmp_condres = CPU (h_nbit);
}
else if (EQSI (tmp_tmpcond, 8)) {
tmp_condres = ORBI (CPU (h_cbit), CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 9)) {
tmp_condres = NOTBI (ORBI (CPU (h_cbit), CPU (h_zbit)));
}
else if (EQSI (tmp_tmpcond, 10)) {
tmp_condres = NOTBI (XORBI (CPU (h_vbit), CPU (h_nbit)));
}
else if (EQSI (tmp_tmpcond, 11)) {
tmp_condres = XORBI (CPU (h_vbit), CPU (h_nbit));
}
else if (EQSI (tmp_tmpcond, 12)) {
tmp_condres = NOTBI (ORBI (XORBI (CPU (h_vbit), CPU (h_nbit)), CPU (h_zbit)));
}
else if (EQSI (tmp_tmpcond, 13)) {
tmp_condres = ORBI (XORBI (CPU (h_vbit), CPU (h_nbit)), CPU (h_zbit));
}
else if (EQSI (tmp_tmpcond, 14)) {
tmp_condres = 1;
}
else if (EQSI (tmp_tmpcond, 15)) {
tmp_condres = CPU (h_pbit);
}
; tmp_condres; });
{
SI opval = ZEXTBISI (tmp_truthval);
SET_H_GR (FLD (f_operand1), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_LZ) : /* lz ${Rs},${Rd} */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_muls_b.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmpd;
SI tmp_tmp;
tmp_tmp = GET_H_GR (FLD (f_operand1));
tmp_tmpd = 0;
{
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
if (GESI (tmp_tmp, 0)) {
{
tmp_tmp = SLLSI (tmp_tmp, 1);
tmp_tmpd = ADDSI (tmp_tmpd, 1);
}
}
}
{
SI opval = tmp_tmpd;
SET_H_GR (FLD (f_operand2), opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
{
{
BI opval = LTSI (tmp_tmpd, 0);
CPU (h_nbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "nbit", 'x', opval);
}
{
BI opval = ANDIF (EQSI (tmp_tmpd, 0), ((CPU (h_xbit)) ? (CPU (h_zbit)) : (1)));
CPU (h_zbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "zbit", 'x', opval);
}
SET_H_CBIT_MOVE (0);
SET_H_VBIT_MOVE (0);
{
{
BI opval = 0;
CPU (h_xbit) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDOQ) : /* addoq $o,$Rs,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addoq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), FLD (f_s8));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BDAPQPC) : /* bdapq $o,PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addoq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (ADDSI (pc, 2), FLD (f_s8));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
cris_flush_simulator_decode_cache (current_cpu, pc);
}
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BDAP_32_PC) : /* bdap ${sconst32},PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
SI tmp_newpc;
SI tmp_oldpc;
SI tmp_offs;
tmp_offs = FLD (f_indir_pc__dword);
tmp_oldpc = ADDSI (pc, 6);
tmp_newpc = ADDSI (tmp_oldpc, tmp_offs);
{
SI opval = tmp_newpc;
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_M_PCPLUS_P0) : /* move [PC+],P0 */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_m_spplus_p8.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
SEM_BRANCH_INIT
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
if (GET_H_INSN_PREFIXED_P ()) {
{
QI tmp_dummy;
tmp_dummy = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (pc) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
USI opval = tmp_addr;
SEM_BRANCH_VIA_ADDR (current_cpu, sem_arg, opval, vpc);
written |= (1 << 5);
CGEN_TRACE_RESULT (current_cpu, abuf, "pc", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
{
BI opval = 0;
CPU (h_xbit) = opval;
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
} else {
cgen_rtx_error (current_cpu, "move [PC+],P0 without prefix is not implemented");
}
abuf->written = written;
SEM_BRANCH_FINI (vpc);
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_MOVE_M_SPPLUS_P8) : /* move [SP+],P8 */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_m_spplus_p8.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
if (GET_H_INSN_PREFIXED_P ()) {
{
SI tmp_dummy;
tmp_dummy = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (((UINT) 14))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (((UINT) 14), opval);
written |= (1 << 5);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
{
BI opval = 0;
CPU (h_xbit) = opval;
written |= (1 << 7);
CGEN_TRACE_RESULT (current_cpu, abuf, "xbit", 'x', opval);
}
{
BI opval = 0;
SET_H_INSN_PREFIXED_P (opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
}
} else {
cgen_rtx_error (current_cpu, "move [SP+],P8 without prefix is not implemented");
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDO_M_B_M) : /* addo-m.b [${Rs}${inc}],$Rd,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
QI tmp_tmps;
tmp_tmps = ({ SI tmp_addr;
QI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMQI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 1);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), EXTQISI (tmp_tmps));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDO_M_W_M) : /* addo-m.w [${Rs}${inc}],$Rd,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
HI tmp_tmps;
tmp_tmps = ({ SI tmp_addr;
HI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMHI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 2);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), EXTHISI (tmp_tmps));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDO_M_D_M) : /* addo-m.d [${Rs}${inc}],$Rd,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_m_b_m.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmps;
tmp_tmps = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 6);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), tmp_tmps);
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDO_CB) : /* addo.b [PC+],$Rd,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cb.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), EXTQISI (TRUNCSIQI (FLD (f_indir_pc__byte))));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDO_CW) : /* addo.w [PC+],$Rd,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cw.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 4);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), EXTHISI (TRUNCSIHI (FLD (f_indir_pc__word))));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDO_CD) : /* addo.d [PC+],$Rd,ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_bound_cd.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand2)), FLD (f_indir_pc__dword));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_DIP_M) : /* dip [${Rs}${inc}] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_spr_mv10.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
SI tmp_tmps;
tmp_tmps = ({ SI tmp_addr;
SI tmp_tmp_mem;
BI tmp_postinc;
tmp_postinc = FLD (f_memmode);
; tmp_addr = ((EQBI (GET_H_INSN_PREFIXED_P (), 0)) ? (GET_H_GR (FLD (f_operand1))) : (CPU (h_prefixreg_pre_v32)));
; tmp_tmp_mem = GETMEMSI (current_cpu, pc, tmp_addr);
; if (NEBI (tmp_postinc, 0)) {
{
if (EQBI (GET_H_INSN_PREFIXED_P (), 0)) {
tmp_addr = ADDSI (tmp_addr, 4);
}
{
SI opval = tmp_addr;
SET_H_GR (FLD (f_operand1), opval);
written |= (1 << 5);
CGEN_TRACE_RESULT (current_cpu, abuf, "gr", 'x', opval);
}
}
}
; tmp_tmp_mem; });
{
SI opval = tmp_tmps;
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
abuf->written = written;
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_DIP_C) : /* dip [PC+] */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_move_c_sprv10_p9.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 6);
{
{
SI opval = FLD (f_indir_pc__dword);
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDI_ACR_B_R) : /* addi-acr.b ${Rs-dfield}.m,${Rd-sfield},ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand1)), MULSI (GET_H_GR (FLD (f_operand2)), 1));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDI_ACR_W_R) : /* addi-acr.w ${Rs-dfield}.m,${Rd-sfield},ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand1)), MULSI (GET_H_GR (FLD (f_operand2)), 2));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_ADDI_ACR_D_R) : /* addi-acr.d ${Rs-dfield}.m,${Rd-sfield},ACR */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_add_b_r.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (GET_H_GR (FLD (f_operand1)), MULSI (GET_H_GR (FLD (f_operand2)), 4));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BIAP_PC_B_R) : /* biap-pc.b ${Rs-dfield}.m,PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addoq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (ADDSI (pc, 4), MULSI (GET_H_GR (FLD (f_operand2)), 1));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BIAP_PC_W_R) : /* biap-pc.w ${Rs-dfield}.m,PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addoq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (ADDSI (pc, 4), MULSI (GET_H_GR (FLD (f_operand2)), 2));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
CASE (sem, INSN_BIAP_PC_D_R) : /* biap-pc.d ${Rs-dfield}.m,PC */
{
SEM_ARG sem_arg = SEM_SEM_ARG (vpc, sc);
ARGBUF *abuf = SEM_ARGBUF (sem_arg);
#define FLD(f) abuf->fields.sfmt_addoq.f
int UNUSED written = 0;
IADDR UNUSED pc = abuf->addr;
vpc = SEM_NEXT_VPC (sem_arg, pc, 2);
{
{
SI opval = ADDSI (ADDSI (pc, 4), MULSI (GET_H_GR (FLD (f_operand2)), 4));
CPU (h_prefixreg_pre_v32) = opval;
CGEN_TRACE_RESULT (current_cpu, abuf, "prefixreg", 'x', opval);
}
{
BI opval = 1;
SET_H_INSN_PREFIXED_P (opval);
CGEN_TRACE_RESULT (current_cpu, abuf, "insn-prefixed-p", 'x', opval);
}
}
#undef FLD
}
NEXT (vpc);
}
ENDSWITCH (sem) /* End of semantic switch. */
/* At this point `vpc' contains the next insn to execute. */
}
#undef DEFINE_SWITCH
#endif /* DEFINE_SWITCH */
|
the_stack_data/54825509.c | #include <stdio.h>
#include <stdlib.h>
int main() {
float custo, convite, qtd;
printf("Digite valor do espetaculo:");
scanf("%f", &custo);
printf("Digite valor do convite:");
scanf("%f", &convite);
qtd = custo / convite;
printf("%f",qtd);
getch();
return 0; //
} |
the_stack_data/2156.c | #include <stdio.h>
#include <stdlib.h>
int asal_mi(int sayi)
{
int j, i = sayi;
for (j = 2; j <= (i / j); j++)
if (!(i % j))
break;
if (j > (i / j))
return 1;
return 0;
}
int main()
{
int a, b;
printf("iki sayi girin: ");
scanf("%d %d", &a, &b);
int sayi;
for (sayi = a; sayi <= b; sayi++)
{
int sonuc = asal_mi(sayi);
if (sonuc == 1)
printf("asal: %d\n", sayi);
}
return 0;
} |
the_stack_data/54824681.c | #include<stdio.h>
#include<string.h>
int main()
{
void copy(char *p1,char *p2,int m1);
char a[20]="dinghaiyin",b[20];
int n,m;
printf("please enter m\n");
scanf("%d",&m);
n=strlen(a);
if(m>n)
printf("m is so long");
else
copy(a,b,m);
printf("a=%s\tb=%s\t",a,b);
}
void copy(char *p1,char *p2,int m1)
{
int i=1;
while(i<m1)
{ p1++;
i++;
}
//for(i=0;*(p1+i)!='\0';i++)
// *(p2+i)=*(p1+i);
//*(p2+i)='\0';
while(*p1!='\0')
{ *p2=*p1;
p1++;
p2++;
}
*p2='\0';
}
|
the_stack_data/29825403.c | #include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/wait.h>
int main()
{
int n = 5;
int i = 0;
pid_t pid = 0;
for (i = 0;i < 5;++i)
{
pid = fork();
if (pid == 0)
{
printf("i am child,pid = %d,ppid = %d\n",getpid(), getppid());
break;
}
}
if (i == 5)
{
for (i = 0;i < 5;++i){
pid_t wpid = wait(NULL);
printf("wpid = %d\n",wpid);
}
while(1){
sleep(1);
}
}
return 0;
}
|
the_stack_data/57950079.c | /*
* Program used in the experimental evaluation of the following paper.
* 2008ESOP - Chawdhary,Cook,Gulwani,Sagiv,Yang - Ranking Abstractions
*
* Date: 2014
* Author: Caterina Urban
*/
extern int __VERIFIER_nondet_int(void);
int main() {
int x = 0, y = 100;
int z = __VERIFIER_nondet_int();
while (x < 40) {
if (z == 0) {
x = x + 1;
} else {
x = x + 2;
}
}
return 0;
}
|
the_stack_data/72701.c | /*
* Copyright (c) 1982, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Edward Wang at The University of California, Berkeley.
*
* 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 acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University 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 REGENTS 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 REGENTS 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.
*/
#ifndef lint
static char sccsid[] = "@(#)wwterminfo.c 8.1 (Berkeley) 6/6/93";
static char rcsid[] =
"$FreeBSD: src/usr.bin/window/wwterminfo.c,v 1.6 2001/05/17 09:38:49 obrien Exp $";
#endif /* not lint */
#ifdef TERMINFO
#include "ww.h"
#include <stdio.h>
#include <paths.h>
#include "local.h"
/*
* Terminfo support
*
* Written by Brian Buhrow
*
* Subsequently modified by Edward Wang
*/
/*
* Initialize the working terminfo directory
*/
wwterminfoinit()
{
FILE *fp;
char buf[2048];
/* make the directory */
(void) sprintf(wwterminfopath, "%swwinXXXXXX", _PATH_TMP);
if (mkdtemp(wwterminfopath) < 0 ||
chmod(wwterminfopath, 00755) < 0) {
wwerrno = WWE_SYS;
return -1;
}
(void) setenv("TERMINFO", wwterminfopath, 1);
/* make a termcap entry and turn it into terminfo */
(void) sprintf(buf, "%s/cap", wwterminfopath);
if ((fp = fopen(buf, "w")) == NULL) {
wwerrno = WWE_SYS;
return -1;
}
(void) fprintf(fp, "%sco#%d:li#%d:%s\n",
WWT_TERMCAP, wwncol, wwnrow, wwwintermcap);
(void) fclose(fp);
(void) sprintf(buf,
"cd %s; %s cap >info 2>" _PATH_DEVNULL "; %s info >" _PATH_DEVNULL " 2>&1",
wwterminfopath, _PATH_CAPTOINFO, _PATH_TIC);
(void) system(buf);
return 0;
}
/*
* Delete the working terminfo directory at shutdown
*/
wwterminfoend()
{
char *args[4];
args[0] = _PATH_RM;
args[1] = "-rf";
args[2] = wwterminfopath;
args[3] = NULL;
switch (vfork()) {
case -1:
/* can't really do (or say) anything about errors */
return -1;
case 0:
execv(args[0], args);
_exit(0);
default:
wait(NULL);
return 0;
}
}
#endif /* TERMINFO */
|
the_stack_data/218893515.c | #include<stdio.h>
#include<stdlib.h>
#include<string.h>
typedef struct node{
struct node *prev;
struct node *next;
int scope;
int occur;
}NODE;
int scope = 0,occur = 0;
typedef struct dllist
{
NODE *head;
int no;
}DLIST;
void addNode(DLIST *list,int open)
{
NODE *temp = (NODE*)malloc(sizeof(NODE));
temp->next = NULL;
temp->prev = list->head;
if(open == 1)
{
NODE *iter = list->head;
int flag =0;
temp->scope = ++scope;
while(iter!=NULL)
{
if(iter->scope == scope)
{
temp->occur = iter->occur+1;
flag = 1;
}
if(flag == 1)
break;
iter = iter->prev;
}
if(flag == 0)
{
temp->occur = 0 ;
}
}
else
{
NODE *iter = list->head;
--scope;
int flag =0;
temp->scope = scope;
while(iter!=NULL)
{
if(iter->scope == scope)
{
temp->occur = iter->occur;
flag = 1;
}
if(flag ==1 )
break;
iter = iter->prev;
}
if(flag == 0)
{
temp->occur = 0;
}
}
list->head = temp;
}
void printlist(DLIST *list)
{
NODE *temp = list->head;
while(temp!=NULL)
{
printf("%d%d<-",temp->scope,temp->occur);
temp = temp->prev;
}
}
int main()
{
char *str = strdup("{{}{{}{}}}");
DLIST *list = (DLIST*)malloc(sizeof(DLIST));
NODE *first = (NODE*)malloc(sizeof(NODE));
first->prev = NULL;
first->next = NULL;
first->scope = scope;
first->occur = occur;
list->head = first;
for(int i=0;i<strlen(str);i++)
{
if(str[i] == '{')
{
addNode(list,1);
}
else if(str[i] == '}')
{
addNode(list,0);
}
}
printlist(list);
} |
the_stack_data/55047.c | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
void ans (int n,char* S)
{
int count[26];
// notice sizeof here,
// memset set first n bytes to the given value
memset(count,0,sizeof(count));
if (n<26) {
printf("NO");
return;
}
for (int i=0; i<26; i++) {
printf("%d", count[i]);
}
for (int i=0; i<n; i++) {
if(((int)*(S+i)>=97)&&((int)*(S+i)<=122)){
*(S+i)=*(S+i)-32;
}
count[(int)*(S+i)-65] +=1;
printf("%d: %d\n", i, count[i]);
}
for (int i=0; i<26; i++) {
if(count[i]==0) {
printf("NO, i:%d, count: %d", i, count[i]);
return;
}
}
printf("YES");
return ;
}
int main() {
int n;
char s[100];
scanf("%d", &n);
scanf("%s", s);
ans(n,s);
}
|
the_stack_data/176705439.c | /* PR tree-optimization/51683 */
/* { dg-do compile } */
/* { dg-options "-O2 -fdump-tree-optimized" } */
static inline void *
bar (void *p, void *q, int r)
{
return __builtin_memcpy (p, q, r);
}
void *
foo (void *p)
{
return bar ((void *) 0x12345000, p, 256);
}
/* { dg-final { scan-tree-dump "memcpy" "optimized" } } */
|
the_stack_data/233097.c | #include <stdlib.h>
#include <stdbool.h>
void mx_sort(int* arr, int size, bool(*f)(int, int));
void mx_sort(int* arr, int size, bool(*f)(int, int)){
for(int i = 0; i < size; i++)
for(int j = 0; j < size-1; j++)
if(f(arr[j], arr[j+1])){
int temp = arr[j];
arr[j] = arr[j+1];
arr[j+1] = temp;
}
}
|
the_stack_data/12637777.c | #include<stdio.h>
int n,m;
int binary_serach(int *array,int target,int n){
int index,l = 0,r = n-1;
while(l < r){
int mid = (l+r)/2;
if(target == array[mid]) return mid;
if(target > array[mid]) l = mid+1;
else r = mid;
}
return r;
}
int main(){
int array[100010];
scanf("%d",&n);
int i;
for(i = 0;i < n;i++) scanf("%d",&array[i]);
scanf("%d",&m);
while(m--){
int target;
scanf("%d",&target);
printf("%d\n",binary_serach(array,target,n));
}
return 0;
} |
the_stack_data/73489.c | # 1 "benchmarks/ds-07-impl1.c"
# 1 "<built-in>"
# 1 "<command-line>"
# 1 "/usr/include/stdc-predef.h" 1 3 4
# 1 "<command-line>" 2
# 1 "benchmarks/ds-07-impl1.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, -0.239699306693312f, -0.678183014035494f, 0.349502640932782f, -0.210469890686263f, 0.841262085391842f, -0.473585465151401f, 0.659383565443701f, -0.651160036945754f, -0.961043527561335f, -0.0814927639199137f, 0.621303110569702f, -0.784529166943541f, 0.0238464770757800f, 0.392694728594110f, 0.776848735202001f, 0.0870059709310509f, 0.880563655271790f, 0.883457036977564f, -0.249235082877382f, -0.691040749216870f, 0.578731120064320f, -0.973932858000832f, -0.117699105431720f, -0.723831748151088f, -0.483149657477524f, -0.821277691383664f, -0.459725618100875f, 0.148175952221864f, 0.444306875534854f, -0.325610376336498f, 0.544142311404910f, -0.165319440455435f, 0.136706800705517f, 0.543312481350682f, 0.467210959764607f, -0.349266618228534f, -0.660110730565862f, 0.910332331495431f, 0.961049802789367f, -0.786168905164629f, 0.305648402726554f, 0.510815258508885f, 0.0950733260984060f, 0.173750645487898f, 0.144488668408672f, 0.0190031984466126f, -0.299194577636724f, 0.302411647442273f, -0.730462524226212f, 0.688646006554796f, 0.134948379722118f, 0.533716723458894f, -0.00226300779660438f, -0.561340777806718f, 0.450396313744017f, -0.569445876566955f, 0.954155246557698f, -0.255403882430676f, -0.759820984120828f, -0.855279790307514f, -0.147352581758156f, -0.302269055643746f, -0.642038024364086f, -0.367405981107491f, 0.491844011712164f, -0.542191710121194f, -0.938294043323732f, 0.683979894338020f, 0.294728290855287f, 0.00662691839443919f, -0.931040350582855f, 0.152356209974418f, 0.678620860551457f, 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# 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 (2 == 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 = acc*a;
}
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 = next*1103515245 + 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)timer1*1 / 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)timer1*1 / 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)timer1*CYCLE <= (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)timer1*1 / 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)timer1*1 / 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)timer1*CYCLE <= (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)timer1*1 / 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)timer1*1 / 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)timer1*CYCLE <= (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 = x*x;
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 = aux*xsquared;
sine -= aux/6;
if (precision >= 3)
{
aux = aux*xsquared;
sine +=aux/120;
if(precision >=4)
{
aux = aux*xsquared;
sine -=aux/5040;
if(precision >= 5)
{
aux = aux*xsquared;
sine +=aux/362880;
if(precision >= 6)
{
aux = aux*xsquared;
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 = x*x;
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 = aux*xsquared;
cosine += aux/24;
if(precision >=4)
{
aux = aux*xsquared;
cosine -=aux/720;
if(precision >= 5)
{
aux = aux*xsquared;
cosine +=aux/40320;
if(precision >= 6)
{
aux = aux*xsquared;
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 = x*x;
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 = aux*xsquared;
atangent += aux/5;
if(precision >=4)
{
aux = aux*xsquared;
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 = 0.5f*x;
union
{
float x;
int i;
} u;
u.x = x;
u.i = 0x5f3759df - (u.i >> 1);
return x*u.x*(1.5f - xhalf*u.x*u.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 - (x*x)) / (2.0 * x);
x = x + dx;
diff = val - (x*x);
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) {
# 123 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_overflow.h"
shiftR(0, waux, Nw);
y[i] = fxp_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){
# 228 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle.h"
shiftR(0, waux, Nw);
y[i] = fxp_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) {
# 139 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error.h"
shiftRboth(0.0f, wfaux, 0, waux, Nw);
y[i] = fxp_direct_form_2(waux, x[i], a_fxp, b_fxp, ds.a_size, ds.b_size);
yf[i] = double_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){
# 132 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_zero_input_limit_cycle.h"
shiftR(0, waux, Nw);
y[i] = fxp_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));
# 79 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_generic_timing.h"
generic_timing_shift_r_double(0, waux, Nw);
y[i] = generic_timing_double_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) {
# 69 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_timing_msp430.h"
shiftR(0, waux, Nw);
y[i] = double_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){
# 128 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_limit_cycle_closedloop.h"
shiftRDdouble(0, waux, Nw);
y[i] = double_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){
# 140 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h"
shiftRDdouble(0, waux_qtz, Nw);
y_qtz[i] = double_direct_form_2(waux_qtz, x_qtz[i], ans_den_qtz, ans_num_qtz, ans_den_size, ans_num_size);
shiftRDdouble(0, waux_double, Nw);
y_double[i] = double_direct_form_2(waux_double, x_double[i], ans_den_double, ans_num_double, ans_den_size, ans_num_size);
# 156 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/engine/verify_error_closedloop.h"
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<(nStates*nInputs);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<(nStates*nInputs);){
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<(nStates*nInputs);j++){
backup[i][j]= 0.0;
}
}
fxp_transpose(controllabilityMatrix,backup,nStates,(nStates*nInputs));
fxp_t mimo_controllabilityMatrix_fxp[4][4];
fxp_matrix_multiplication(nStates,(nStates*nInputs),(nStates*nInputs),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<(nStates*nInputs);){
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<(nStates*nInputs);j++){
backup[i][j]= 0.0;
}
}
transpose(controllabilityMatrix,backup,nStates,(nStates*nInputs));
double mimo_controllabilityMatrix_double[4][4];
double_matrix_multiplication(nStates,(nStates*nInputs),(nStates*nInputs),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<(nStates*nOutputs);j++){
backup[i][j]= 0.0;
}
}
fxp_transpose(observabilityMatrix,backup,(nStates*nOutputs),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,(nStates*nOutputs),(nStates*nOutputs),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 ((2 == 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 ((2 == 7) || (2 == 8) || (2 == 9) ||
(2 == 10) || (2 == 11) || (2 == 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-07-impl1.c" 2
digital_system ds = {
.b = { 0.1, -0.09998 },
.b_size = 2,
.a = { 1.0, -1.0 },
.a_size = 2,
.sample_time = 0.02
};
implementation impl = {
.int_bits = 4,
.frac_bits = 12,
.max = 1.0,
.min = -1.0
};
|
the_stack_data/92247.c | /*
The program AbsMinus (implemented in function foo) takes
two integers i and j as input and returns the absolute value of i-j.
There is an error in this program that is in the assignment
"result=i+1", which should be "result=i. By putting as input
{i=0, j=1}, the program returns the value 0, however,
the returned value should be 1 as the absolute value of i-j.
This program shows a a case where all if-condition are free
from faults.
SPDX-FileCopyrightText: Mohammed Bekkouche <http://www.i3s.unice.fr>
SPDX-License-Identifier: GPL-3.0-or-later
*/
extern int __VERIFIER_nondet_int();
extern void __VERIFIER_error();
void __VERIFIER_assert(int cond) {
if (!(cond)) {
ERROR: __VERIFIER_error();
}
return;
}
/* returns |i-j|, the absolute value of i minus j */
int foo (int i, int j) {
int result=i+1; // error in the assignment : result = i instead of result = i+1
int k = 0;
if (i <= j) {
k = k+1;
}
if (k == 1 && i != j) {
result = j-result;
}
else {
result = result-j;
}
//assert(result==1);
__VERIFIER_assert( (i<j && result==j-i) || (i>=j && result==i-j));
}
int main()
{
foo( __VERIFIER_nondet_int(),__VERIFIER_nondet_int());
return 0;
}
|
the_stack_data/11075306.c | /* spkmodem-recv.c - decode spkmodem signals */
/*
* Copyright (C) 2013 Vladimir 'phcoder' Serbinenko
*
* spkmodem-recv 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.
*
* spkmodem-recv 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.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/* Compilation: gcc -o spkmodem-recv spkmodem-recv */
/* Usage: parecord --channels=1 --rate=48000 --format=s16le | ./spkmodem-recv */
#define SAMPLES_PER_TRAME 240
#define FREQ_SEP_MIN 5
#define FREQ_SEP_MAX 15
#define FREQ_DATA_MIN 15
#define FREQ_DATA_THRESHOLD 25
#define FREQ_DATA_MAX 60
#define THRESHOLD 500
#define DEBUG 0
#define FLUSH_TIMEOUT 1
static signed short trame[2 * SAMPLES_PER_TRAME];
static signed short pulse[2 * SAMPLES_PER_TRAME];
static int ringpos = 0;
static int pos, f1, f2;
static int amplitude = 0;
static int lp = 0;
static void
read_sample (void)
{
amplitude -= abs (trame[ringpos]);
f1 -= pulse[ringpos];
f1 += pulse[(ringpos + SAMPLES_PER_TRAME) % (2 * SAMPLES_PER_TRAME)];
f2 -= pulse[(ringpos + SAMPLES_PER_TRAME) % (2 * SAMPLES_PER_TRAME)];
fread (trame + ringpos, 1, sizeof (trame[0]), stdin);
amplitude += abs (trame[ringpos]);
if (pos ? (trame[ringpos] < -THRESHOLD)
: (trame[ringpos] > +THRESHOLD))
{
pulse[ringpos] = 1;
pos = !pos;
f2++;
}
else
pulse[ringpos] = 0;
ringpos++;
ringpos %= 2 * SAMPLES_PER_TRAME;
lp++;
}
int
main ()
{
int bitn = 7;
char c = 0;
int i;
int llp = 0;
while (!feof (stdin))
{
if (lp > 3 * SAMPLES_PER_TRAME)
{
bitn = 7;
c = 0;
lp = 0;
llp++;
}
if (llp == FLUSH_TIMEOUT)
fflush (stdout);
if (f2 > FREQ_SEP_MIN && f2 < FREQ_SEP_MAX
&& f1 > FREQ_DATA_MIN && f1 < FREQ_DATA_MAX)
{
#if DEBUG
printf ("%d %d %d @%d\n", f1, f2, FREQ_DATA_THRESHOLD,
ftell (stdin) - sizeof (trame));
#endif
if (f1 < FREQ_DATA_THRESHOLD)
c |= (1 << bitn);
bitn--;
if (bitn < 0)
{
#if DEBUG
printf ("<%c, %x>", c, c);
#else
printf ("%c", c);
#endif
bitn = 7;
c = 0;
}
lp = 0;
llp = 0;
for (i = 0; i < SAMPLES_PER_TRAME; i++)
read_sample ();
continue;
}
read_sample ();
}
return 0;
}
|
the_stack_data/184532.c | /**
* 反转字符串
* @param str string字符串
* @return string字符串
*/
char* solve(char* str ) {
// write code here
int len = strlen(str);
int len_2 = len / 2;
len -= 1;
for(int i = 0; i < len_2; i++)
{
str[i] += str[len - i];
str[len - i] = str[i] - str[len - i];
str[i] = str[i] - str[len - i];
}
return str;
}
|
the_stack_data/37636810.c | #include <stdio.h>
int main() {
printf("Ola Mundo!");
return 0;
}
|
the_stack_data/179829708.c | extern void abort(void);
int main() {
abort();
return 1;
}
// clang-format off
// I cannot determine yet whether a process has signaled or not
// https://github.com/DaanDeMeyer/reproc/issues/49
// XFAIL: *
// RUN: cd / && %clang_cc -fembed-bitcode %s -o %s.exe
// RUN: cd %CURRENT_DIR
// RUN: (unset TERM; %MULL_EXEC -linker=%clang_cc -workers=1 %s.exe 2>&1; test $? = 0) | %FILECHECK_EXEC %s --dump-input=fail --strict-whitespace --match-full-lines
// CHECK:[warning] Original test failed
// CHECK-NEXT:test: main
// CHECK-NEXT:status: Crashed
// CHECK-NEXT:stdout: ''
// CHECK-NEXT:stderr: ''
|
the_stack_data/245811.c | #include <math.h>
#define CA 0.0003
void sncndn(float uu, float emmc, float *sn, float *cn, float *dn)
{
float a,b,c,d,emc,u;
float em[14],en[14];
int i,ii,l,bo;
emc=emmc;
u=uu;
if (emc) {
bo=(emc < 0.0);
if (bo) {
d=1.0-emc;
emc /= -1.0/d;
u *= (d=sqrt(d));
}
a=1.0;
*dn=1.0;
for (i=1;i<=13;i++) {
l=i;
em[i]=a;
en[i]=(emc=sqrt(emc));
c=0.5*(a+emc);
if (fabs(a-emc) <= CA*a) break;
emc *= a;
a=c;
}
u *= c;
*sn=sin(u);
*cn=cos(u);
if (*sn) {
a=(*cn)/(*sn);
c *= a;
for (ii=l;ii>=1;ii--) {
b=em[ii];
a *= c;
c *= (*dn);
*dn=(en[ii]+a)/(b+a);
a=c/b;
}
a=1.0/sqrt(c*c+1.0);
*sn=(*sn >= 0.0 ? a : -a);
*cn=c*(*sn);
}
if (bo) {
a=(*dn);
*dn=(*cn);
*cn=a;
*sn /= d;
}
} else {
*cn=1.0/cosh(u);
*dn=(*cn);
*sn=tanh(u);
}
}
#undef CA
|
the_stack_data/15762669.c | // Copyright (c) 2015 RV-Match Team. All Rights Reserved.
struct s s0;
struct s {
int x;
};
int main(void){
struct s s1 = s0;
}
|
the_stack_data/857466.c | extern void puts(const char *s);
int main() {
for(int i=0; i<3; i++) {
puts("TOTO\n");
}
for(int i=0; i<4; i++) {
puts("MIAOU\n");
}
puts("MIXOU\n");
puts("MITOU\n");
return 0;
}
|
the_stack_data/164074.c | /*
* binsearch, example program to be modified in exercise 3-1
* found on page 58 in K&R's ANSI C Programming Language
*/
#include <stdio.h>
#include <stdlib.h>
/* binsearch prototype */
/* find x in v[0] <= v[1] .. <= v[n-1] */
int binsearch(int x, int v[], int n);
int main()
{
/* declare a few vars for use in the binsearch function */
int x, n;
int v[100-1];
x = 10;
n = 100;
for (n = 0; n < 101; n++)
{
v[n] = n;
}
printf("binsearch(x, v[], n) = %d\n",binsearch(x,v,n));
return 0;
}
int binsearch(int x, int v[], int n)
{
int low, high, mid;
low = 0;
high = n - 1;
while (low <= high)
{
mid = (low + high) / 2;
if (x < v[mid])
high = mid - 1;
else if (x > v[mid])
low = mid + 1;
else /* found match */
return mid;
}
return -1; /* no match */
}
|
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