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the_stack_data/34512733.c
#include <stdio.h> #include <stdint.h> #include <stdlib.h> /* Length table for lengths 3 to 258, generated by mklen.sh * The entries contain : * code - 257 = 0..28 in bits 0..4 * bits = 0..5 in bits 5..7 * value = 0..31 in bits 8..12 */ static const uint16_t len_code[259] = { 0x0000, 0x0000, 0x0000, 0x0000, 0x0001, 0x0002, 0x0003, 0x0004, // 0 0x0005, 0x0006, 0x0007, 0x0028, 0x0128, 0x0029, 0x0129, 0x002a, // 8 0x012a, 0x002b, 0x012b, 0x004c, 0x014c, 0x024c, 0x034c, 0x004d, // 16 0x014d, 0x024d, 0x034d, 0x004e, 0x014e, 0x024e, 0x034e, 0x004f, // 24 0x014f, 0x024f, 0x034f, 0x0070, 0x0170, 0x0270, 0x0370, 0x0470, // 32 0x0570, 0x0670, 0x0770, 0x0071, 0x0171, 0x0271, 0x0371, 0x0471, // 40 0x0571, 0x0671, 0x0771, 0x0072, 0x0172, 0x0272, 0x0372, 0x0472, // 48 0x0572, 0x0672, 0x0772, 0x0073, 0x0173, 0x0273, 0x0373, 0x0473, // 56 0x0573, 0x0673, 0x0773, 0x0094, 0x0194, 0x0294, 0x0394, 0x0494, // 64 0x0594, 0x0694, 0x0794, 0x0894, 0x0994, 0x0a94, 0x0b94, 0x0c94, // 72 0x0d94, 0x0e94, 0x0f94, 0x0095, 0x0195, 0x0295, 0x0395, 0x0495, // 80 0x0595, 0x0695, 0x0795, 0x0895, 0x0995, 0x0a95, 0x0b95, 0x0c95, // 88 0x0d95, 0x0e95, 0x0f95, 0x0096, 0x0196, 0x0296, 0x0396, 0x0496, // 96 0x0596, 0x0696, 0x0796, 0x0896, 0x0996, 0x0a96, 0x0b96, 0x0c96, // 104 0x0d96, 0x0e96, 0x0f96, 0x0097, 0x0197, 0x0297, 0x0397, 0x0497, // 112 0x0597, 0x0697, 0x0797, 0x0897, 0x0997, 0x0a97, 0x0b97, 0x0c97, // 120 0x0d97, 0x0e97, 0x0f97, 0x00b8, 0x01b8, 0x02b8, 0x03b8, 0x04b8, // 128 0x05b8, 0x06b8, 0x07b8, 0x08b8, 0x09b8, 0x0ab8, 0x0bb8, 0x0cb8, // 136 0x0db8, 0x0eb8, 0x0fb8, 0x10b8, 0x11b8, 0x12b8, 0x13b8, 0x14b8, // 144 0x15b8, 0x16b8, 0x17b8, 0x18b8, 0x19b8, 0x1ab8, 0x1bb8, 0x1cb8, // 152 0x1db8, 0x1eb8, 0x1fb8, 0x00b9, 0x01b9, 0x02b9, 0x03b9, 0x04b9, // 160 0x05b9, 0x06b9, 0x07b9, 0x08b9, 0x09b9, 0x0ab9, 0x0bb9, 0x0cb9, // 168 0x0db9, 0x0eb9, 0x0fb9, 0x10b9, 0x11b9, 0x12b9, 0x13b9, 0x14b9, // 176 0x15b9, 0x16b9, 0x17b9, 0x18b9, 0x19b9, 0x1ab9, 0x1bb9, 0x1cb9, // 184 0x1db9, 0x1eb9, 0x1fb9, 0x00ba, 0x01ba, 0x02ba, 0x03ba, 0x04ba, // 192 0x05ba, 0x06ba, 0x07ba, 0x08ba, 0x09ba, 0x0aba, 0x0bba, 0x0cba, // 200 0x0dba, 0x0eba, 0x0fba, 0x10ba, 0x11ba, 0x12ba, 0x13ba, 0x14ba, // 208 0x15ba, 0x16ba, 0x17ba, 0x18ba, 0x19ba, 0x1aba, 0x1bba, 0x1cba, // 216 0x1dba, 0x1eba, 0x1fba, 0x00bb, 0x01bb, 0x02bb, 0x03bb, 0x04bb, // 224 0x05bb, 0x06bb, 0x07bb, 0x08bb, 0x09bb, 0x0abb, 0x0bbb, 0x0cbb, // 232 0x0dbb, 0x0ebb, 0x0fbb, 0x10bb, 0x11bb, 0x12bb, 0x13bb, 0x14bb, // 240 0x15bb, 0x16bb, 0x17bb, 0x18bb, 0x19bb, 0x1abb, 0x1bbb, 0x1cbb, // 248 0x1dbb, 0x1ebb, 0x001c // 256 }; static const uint16_t fixed_huff[288] = { 0x00c8, 0x08c8, 0x04c8, 0x0cc8, 0x02c8, 0x0ac8, 0x06c8, 0x0ec8, // 0 0x01c8, 0x09c8, 0x05c8, 0x0dc8, 0x03c8, 0x0bc8, 0x07c8, 0x0fc8, // 8 0x0028, 0x0828, 0x0428, 0x0c28, 0x0228, 0x0a28, 0x0628, 0x0e28, // 16 0x0128, 0x0928, 0x0528, 0x0d28, 0x0328, 0x0b28, 0x0728, 0x0f28, // 24 0x00a8, 0x08a8, 0x04a8, 0x0ca8, 0x02a8, 0x0aa8, 0x06a8, 0x0ea8, // 32 0x01a8, 0x09a8, 0x05a8, 0x0da8, 0x03a8, 0x0ba8, 0x07a8, 0x0fa8, // 40 0x0068, 0x0868, 0x0468, 0x0c68, 0x0268, 0x0a68, 0x0668, 0x0e68, // 48 0x0168, 0x0968, 0x0568, 0x0d68, 0x0368, 0x0b68, 0x0768, 0x0f68, // 56 0x00e8, 0x08e8, 0x04e8, 0x0ce8, 0x02e8, 0x0ae8, 0x06e8, 0x0ee8, // 64 0x01e8, 0x09e8, 0x05e8, 0x0de8, 0x03e8, 0x0be8, 0x07e8, 0x0fe8, // 72 0x0018, 0x0818, 0x0418, 0x0c18, 0x0218, 0x0a18, 0x0618, 0x0e18, // 80 0x0118, 0x0918, 0x0518, 0x0d18, 0x0318, 0x0b18, 0x0718, 0x0f18, // 88 0x0098, 0x0898, 0x0498, 0x0c98, 0x0298, 0x0a98, 0x0698, 0x0e98, // 96 0x0198, 0x0998, 0x0598, 0x0d98, 0x0398, 0x0b98, 0x0798, 0x0f98, // 104 0x0058, 0x0858, 0x0458, 0x0c58, 0x0258, 0x0a58, 0x0658, 0x0e58, // 112 0x0158, 0x0958, 0x0558, 0x0d58, 0x0358, 0x0b58, 0x0758, 0x0f58, // 120 0x00d8, 0x08d8, 0x04d8, 0x0cd8, 0x02d8, 0x0ad8, 0x06d8, 0x0ed8, // 128 0x01d8, 0x09d8, 0x05d8, 0x0dd8, 0x03d8, 0x0bd8, 0x07d8, 0x0fd8, // 136 0x0139, 0x1139, 0x0939, 0x1939, 0x0539, 0x1539, 0x0d39, 0x1d39, // 144 0x0339, 0x1339, 0x0b39, 0x1b39, 0x0739, 0x1739, 0x0f39, 0x1f39, // 152 0x00b9, 0x10b9, 0x08b9, 0x18b9, 0x04b9, 0x14b9, 0x0cb9, 0x1cb9, // 160 0x02b9, 0x12b9, 0x0ab9, 0x1ab9, 0x06b9, 0x16b9, 0x0eb9, 0x1eb9, // 168 0x01b9, 0x11b9, 0x09b9, 0x19b9, 0x05b9, 0x15b9, 0x0db9, 0x1db9, // 176 0x03b9, 0x13b9, 0x0bb9, 0x1bb9, 0x07b9, 0x17b9, 0x0fb9, 0x1fb9, // 184 0x0079, 0x1079, 0x0879, 0x1879, 0x0479, 0x1479, 0x0c79, 0x1c79, // 192 0x0279, 0x1279, 0x0a79, 0x1a79, 0x0679, 0x1679, 0x0e79, 0x1e79, // 200 0x0179, 0x1179, 0x0979, 0x1979, 0x0579, 0x1579, 0x0d79, 0x1d79, // 208 0x0379, 0x1379, 0x0b79, 0x1b79, 0x0779, 0x1779, 0x0f79, 0x1f79, // 216 0x00f9, 0x10f9, 0x08f9, 0x18f9, 0x04f9, 0x14f9, 0x0cf9, 0x1cf9, // 224 0x02f9, 0x12f9, 0x0af9, 0x1af9, 0x06f9, 0x16f9, 0x0ef9, 0x1ef9, // 232 0x01f9, 0x11f9, 0x09f9, 0x19f9, 0x05f9, 0x15f9, 0x0df9, 0x1df9, // 240 0x03f9, 0x13f9, 0x0bf9, 0x1bf9, 0x07f9, 0x17f9, 0x0ff9, 0x1ff9, // 248 0x0007, 0x0407, 0x0207, 0x0607, 0x0107, 0x0507, 0x0307, 0x0707, // 256 0x0087, 0x0487, 0x0287, 0x0687, 0x0187, 0x0587, 0x0387, 0x0787, // 264 0x0047, 0x0447, 0x0247, 0x0647, 0x0147, 0x0547, 0x0347, 0x0747, // 272 0x0038, 0x0838, 0x0438, 0x0c38, 0x0238, 0x0a38, 0x0638, 0x0e38 // 280 }; void main() { int mlen; int word; int code; int bits1; int bits2; for (mlen = 0; mlen <= 258; mlen++) { word = len_code[mlen]; code = (word & 31) + 257; if (mlen >= 3) code = fixed_huff[code]; else code = 0; bits1 = code & 15; code >>= 4; word >>= 5; bits2 = word & 7; if (bits2) { code |= (word >> 3) << bits1; bits1 += bits2; } printf(" 0x%06x, ", code + (bits1 << 16)); if ((mlen & 3) == 3 || mlen == 258) printf(" /* %d-%d */\n", mlen - 3, mlen); } exit(0); }
the_stack_data/33348.c
#include<stdio.h> #include <stdlib.h> #include <time.h> int kadai41(void); int main(void){ kadai41(); return 0; } int kadai41(void){ srand((unsigned)time(NULL)); int array[9][9]; for(int y=0;y<9;y++){ for(int x=0;x<9;x++){ ///passが4桁になるまで繰り返す int pass=rand(); /* while(pass>9999){ pass=rand(); } //4桁のpassを配列に代入 */ array[x][y]=pass%10; } } printf(" |1|2|3|4|5|6|7|8|9|\n"); printf("-"); for(int i=1;i<=9;i++){ printf("+-"); } printf("+-\n"); for(int y=0;y<9;y++){ printf("%d|",y+1); for(int x=0;x<9;x++){ printf("%d|",array[x][y]); } printf("\n"); } int passwdX,passwdY,option; printf("行:"); scanf("%d",&passwdY); printf("列:"); scanf("%d",&passwdX); printf("方向[1:上,2:下,3:左,4:右]:"); scanf("%d",&option); int passwd1,passwd2,passwd3,passwd4; passwdY--; passwdX--; if(option==4){ int overPass=4-(8-passwdX); for(int i=1;overPass>=0;overPass--){ if(i==1) passwd4=array[overPass-2][passwdY]; if(i==2) passwd3=array[overPass-2][passwdY]; if(i==3) passwd2=array[overPass-2][passwdY]; i++; } for(int j=1;passwdX<9;passwdX++){ if(j==1) passwd1=array[passwdX][passwdY]; if(j==2) passwd2=array[passwdX][passwdY]; if(j==3) passwd3=array[passwdX][passwdY]; if(j==4) passwd4=array[passwdX][passwdY]; j++; } }else if(option==2){ int overPass=4-(8-passwdY); for(int i=1;overPass>=0;overPass--){ if(i==1) passwd4=array[passwdX][overPass-2]; if(i==2) passwd3=array[passwdX][overPass-2]; if(i==3) passwd2=array[passwdX][overPass-2]; i++; } for(int j=1;passwdY<9;passwdY++){ if(j==1) passwd1=array[passwdX][passwdY]; if(j==2) passwd2=array[passwdX][passwdY]; if(j==3) passwd3=array[passwdX][passwdY]; if(j==4) passwd4=array[passwdX][passwdY]; j++; } }else if(option==1){ int overPass=4-passwdY-1; if(overPass==1){ passwd4=array[passwdX][8]; passwd3=array[passwdX][0]; passwd2=array[passwdX][1]; passwd1=array[passwdX][2]; }else if(overPass==2){ passwd4=array[passwdX][7]; passwd3=array[passwdX][8]; passwd2=array[passwdX][0]; passwd1=array[passwdX][1]; }else if(overPass==3){ passwd4=array[passwdX][6]; passwd3=array[passwdX][7]; passwd2=array[passwdX][8]; passwd1=array[passwdX][0]; }else{ for(int j=1;passwdY<9;passwdY--){ if(j==1) passwd1=array[passwdX][passwdY]; if(j==2) passwd2=array[passwdX][passwdY]; if(j==3) passwd3=array[passwdX][passwdY]; if(j==4) passwd4=array[passwdX][passwdY]; j++; } } }else if(option==3){ int overPass=4-passwdX-1; printf("%d\n",overPass); if(overPass==1){ passwd4=array[8][passwdY]; passwd3=array[0][passwdY]; passwd2=array[1][passwdY]; passwd1=array[2][passwdY]; }else if(overPass==2){ passwd4=array[7][passwdY]; passwd3=array[8][passwdY]; passwd2=array[0][passwdY]; passwd1=array[1][passwdY]; }else if(overPass==3){ passwd4=array[6][passwdY]; passwd3=array[7][passwdY]; passwd2=array[8][passwdY]; passwd1=array[0][passwdY]; }else{ for(int j=1;passwdX<9;passwdX--){ if(j==1) passwd1=array[passwdX][passwdY]; if(j==2) passwd2=array[passwdX][passwdY]; if(j==3) passwd3=array[passwdX][passwdY]; if(j==4) passwd4=array[passwdX][passwdY]; j++; } } }else{ printf("ERROR\n"); } printf("暗証番号は %d %d %d %d です\n",passwd1,passwd2,passwd3,passwd4); return 0; }
the_stack_data/59513710.c
#include<stdio.h> #include<stdlib.h> #include<limits.h> int main() { int *a,n,i,max,k=4,max2; printf("Enter size of array:"); scanf("%d",&n); a=(int *)malloc(sizeof(int )*n); printf("Enter Array elements:\n"); for(i=0;i<n;i++) scanf("%d",&a[i]); max=max2=INT_MIN; // printf("%d",INT_max); for(i=0;i<n;i++) { if(max<k) { max2=max; max=a[i]; } else if(max2<k&& k!=max) { max2=a[i]; } } printf("Manimum Value of Array elements:%d",max2); }
the_stack_data/161081971.c
#include <stdio.h> #include <stdlib.h> #include <math.h> void do_work_1(double *array, size_t length) { for (size_t i = 0; i < length; i++) { array[i] = sqrt(array[i]); } } void do_work_2(double *array, size_t length) { for (size_t i = 0; i < length; i++) { array[i] = pow(array[i], 2); } } int main(int argc, char **argv) { size_t count = 10000000; double *array = (double *)malloc(count * sizeof(double)); if (!array) exit(1); for (size_t i = 0; i < count; i++) { array[i] = i; } do_work_1(array, count); do_work_2(array, count); return 0; }
the_stack_data/373292.c
#include <stdio.h> #include <stdlib.h> #include <stdint.h> // Defining a byte typedef uint8_t BYTE; int main(int argc, char *argv[]) { // Basic input validation if (argc == 1) { printf("Error: Missing 1 command line argument...\nUsage: ./recover.c [filename]\n"); return 1; } else if (argc != 2) { printf("Error: To many command line arguments...\n"); return 1; } // Opening the memory card to get it's size; FILE *card = fopen(argv[1], "r"); int c; int counter = 0; // Using fgetc to get the file's size in bytes; while ((c = getc(card)) != EOF) { counter++; } // Creating a buffer based on the byte counter; int blocks = counter / 512; BYTE bytes[blocks][512]; // Reopening the card; card = fopen(argv[1], "r"); fread(bytes, 512, blocks, card); // Seting the jpeg counter to zero adn declaring the image pointer; int jpegs = 0; FILE *img; // Looping over all blocks and searching for jpegs; for (int i = 0; i < blocks; i++) { if (bytes[i][0] == 0xff && bytes[i][1] == 0xd8 && bytes[i][2] == 0xff && (bytes[i][3] & 0xf0) == 0xe0) { // If it isn't the first image, close the previous one; if (jpegs >= 1) { fclose(img); } // Creating the filename string (aka char*); char* filename = malloc(7); sprintf(filename, "%03i.jpg", jpegs); // Overwriting the img pointer; img = fopen(filename, "w"); fwrite(bytes[i], 512, 1, img); // Resetting free(filename); jpegs++; } // If a JPEG was already found, keep writing it; else if (jpegs >= 1) { fwrite(bytes[i], 512, 1, img); } // Else, continue; else { continue; } } // Closing the last image; fclose(img); return 0; }
the_stack_data/114786.c
void fence() { asm("sync"); } void lwfence() { asm("lwsync"); } void isync() { asm("isync"); } int __unbuffered_cnt = 0; int __unbuffered_p1_EAX = 0; int __unbuffered_p1_EBX = 0; int x = 0; int y = 0; int z = 0; void *P0(void *arg) { x = 1; y = 1; // Instrumentation for CPROVER fence(); __unbuffered_cnt++; } void *P1(void *arg) { y = 2; z = 1; __unbuffered_p1_EAX = z; __unbuffered_p1_EBX = x; // Instrumentation for CPROVER fence(); __unbuffered_cnt++; } int main() { __CPROVER_ASYNC_0: P0(0); __CPROVER_ASYNC_1: P1(0); __CPROVER_assume(__unbuffered_cnt == 2); fence(); // EXPECT:exists __CPROVER_assert( !(y == 2 && __unbuffered_p1_EAX == 1 && __unbuffered_p1_EBX == 0), "Program proven to be relaxed for X86, model checker says YES."); return 0; }
the_stack_data/64201512.c
#include <stdio.h> int main(int argc, char *argv[]) { int n; while(scanf("%d",&n)!=EOF){ printf("%d\n",(n+1)*n/2); } return 0; }
the_stack_data/132952471.c
#include <stdio.h> void testabc(char *a) { a[0] = 'G'; a[1] = 'K'; } // cc 13.c&& ./a.out int main(void) { char aa[] = "CSQCSQ"; char *bb = "CSQCSQ"; printf("%p %p\n", aa, bb); printf("%s %s\n", aa, bb); testabc(aa); // testabc(bb); printf("%s %s\n", aa, bb); }
the_stack_data/59512498.c
#include <stdio.h> char mat[5][5], num[26]; char calc() { char b = 0, tmp; for (int i = 0; i < 5; i++) { tmp = 0; for (int j = 0; j < 5; j++) tmp += mat[i][j]; if (!tmp) b++; } for (int i = 0; i < 5; i++) { tmp = 0; for (int j = 0; j < 5; j++) tmp += mat[j][i]; if (!tmp) b++; } tmp = 0; for (int i = 0; i < 5; i++) tmp += mat[i][i]; if (!tmp) b++; tmp = 0; for (int i = 0; i < 5; i++) tmp += mat[4 - i][i]; if (!tmp) b++; return b; } int main() { int i, n; for (i = 0; i < 5; i++) { for (int j = 0; j < 5; j++) { scanf("%d", mat[i] + j); num[mat[i][j]] = i * 5 + j; } } for (i = 1; i <= 25; i++) { scanf("%d", &n); mat[num[n] / 5][num[n] % 5] = 0; if (calc() >= 3) { printf("%d", i); return 0; } } }
the_stack_data/132348.c
#include <math.h> #include <assert.h> double scalbn(double x, int n) { assert(0); // Not implemented return 0.0; } float scalbnf(float x, int n) { assert(0); // Not implemented return 0.0; } long double scalbnl(long double x, int n) { assert(0); // Not implemented return 0.0; }
the_stack_data/74875.c
#include <sys/select.h> #include <signal.h> #include <stdint.h> #include <errno.h> #include "syscall.h" #define IS32BIT(x) !((x)+0x80000000ULL>>32) #define CLAMP(x) (int)(IS32BIT(x) ? (x) : 0x7fffffffU+((0ULL+(x))>>63)) int select(int n, fd_set *restrict rfds, fd_set *restrict wfds, fd_set *restrict efds, struct timeval *restrict tv) { time_t s = tv ? tv->tv_sec : 0; suseconds_t us = tv ? tv->tv_usec : 0; long ns; const time_t max_time = (1ULL<<8*sizeof(time_t)-1)-1; if (s<0 || us<0) return __syscall_ret(-EINVAL); if (us/1000000 > max_time - s) { s = max_time; us = 999999; ns = 999999999; } else { s += us/1000000; us %= 1000000; ns = us*1000; } #ifdef SYS_pselect6_time64 int r = -ENOSYS; if (SYS_pselect6 == SYS_pselect6_time64 || !IS32BIT(s)) r = __syscall_cp(SYS_pselect6_time64, n, rfds, wfds, efds, tv ? ((long long[]){s, ns}) : 0, ((syscall_arg_t[]){ 0, _NSIG/8 })); if (SYS_pselect6 == SYS_pselect6_time64 || r!=-ENOSYS) return __syscall_ret(r); #endif #ifdef SYS_select return syscall_cp(SYS_select, n, rfds, wfds, efds, ((long[]){s, us})); #else return syscall_cp(SYS_pselect6, n, rfds, wfds, efds, tv ? ((long[]){s, ns}) : 0, ((syscall_arg_t[]){ 0, _NSIG/8 })); #endif }
the_stack_data/179830930.c
#include <stdio.h> #include <string.h> int test() { char a[10]; strcpy(a, "hello"); printf("%s\n", a); strncpy(a, "gosh", 2); printf("%s\n", a); printf("%d\n", strcmp(a, "apple") > 0); printf("%d\n", strcmp(a, "goere") > 0); printf("%d\n", strcmp(a, "zebra") < 0); printf("%d\n", strlen(a)); strcat(a, "!"); printf("%s\n", a); printf("%d\n", strncmp(a, "apple", 2) > 0); printf("%d\n", strncmp(a, "goere", 2) == 0); printf("%d\n", strncmp(a, "goerg", 2) == 0); printf("%d\n", strncmp(a, "zebra", 2) < 0); printf("%s\n", strchr(a, 'o')); printf("%s\n", strrchr(a, 'l')); printf("%d\n", strrchr(a, 'x') == NULL); memset(&a[1], 'r', 4); printf("%s\n", a); memcpy(&a[2], a, 2); printf("%s\n", a); printf("%d\n", memcmp(a, "apple", 4) > 0); printf("%d\n", memcmp(a, "grgr", 4) == 0); printf("%d\n", memcmp(a, "zebra", 4) < 0); return 0; } /* vim: set expandtab ts=4 sw=3 sts=3 tw=80 :*/ int main () { int x; x = test(); printf("%d\n", x); return 0; }
the_stack_data/896912.c
#include <stdio.h> int fact ( int n ) ; int main ( ) { int n ; scanf ( "%d" , & n ) ; printf ( "%d" , fact ( n ) ) ; return ( 0 ) ; } int fact ( int n ) { if ( n == 0 || n == 1 ) { return 1; } else { return ( n * fact ( n - 1 ) ) ; } }
the_stack_data/284565.c
#include <setjmp.h> #include <stdio.h> void foo(jmp_buf buf, int i) { printf("Inside foo: %d\n", i); longjmp(buf, i); } int main() { int i = 37; while (i--) { jmp_buf buf; int ret; if ((ret = setjmp(buf)) != 0) { printf("Return from longjmp: %d\n", ret); } else { foo(buf, i); } } return 0; }
the_stack_data/178264590.c
// PARAM: --set ana.activated "['base','threadid','threadflag','escape','uninit','mallocWrapper']" --set ana.base.privatization none typedef struct { int i,j; } S; int some_function(S xx){ return xx.j; //NOWARN } int main(){ S ss; some_function(ss); //WARN return 0; }
the_stack_data/145846.c
int main(void) { main(); return 0; }
the_stack_data/182954201.c
#include <stdio.h> int main() { float fahr, celsius; int lower, upper, step; lower = 0; upper = 300; step = 20; celsius = lower; while (celsius <= upper) { fahr = (celsius * 5.0/9.0) + 32; printf("%3.0f\t%6.1f\n", celsius, fahr); celsius = celsius + step; } }
the_stack_data/26700850.c
#include <stdio.h> #include <stdlib.h> int main() { FILE *f; char c=0; printf("lendo bloco de notas:\n"); f = fopen("meutexto.txt","r"); if(f != NULL) { while((c = fgetc(f)) != EOF) printf("%c", c); } else printf("Nao foi possivel abrir o arquivo."); fclose(f); return 0; }
the_stack_data/178265618.c
/* miniz.c v1.15 - public domain deflate/inflate, zlib-subset, ZIP reading/writing/appending, PNG writing See "unlicense" statement at the end of this file. Rich Geldreich <[email protected]>, last updated Oct. 13, 2013 Implements RFC 1950: http://www.ietf.org/rfc/rfc1950.txt and RFC 1951: http://www.ietf.org/rfc/rfc1951.txt Most API's defined in miniz.c are optional. For example, to disable the archive related functions just define MINIZ_NO_ARCHIVE_APIS, or to get rid of all stdio usage define MINIZ_NO_STDIO (see the list below for more macros). * Change History 10/13/13 v1.15 r4 - Interim bugfix release while I work on the next major release with Zip64 support (almost there!): - Critical fix for the MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY bug (thanks [email protected]) which could cause locate files to not find files. This bug would only have occured in earlier versions if you explicitly used this flag, OR if you used mz_zip_extract_archive_file_to_heap() or mz_zip_add_mem_to_archive_file_in_place() (which used this flag). If you can't switch to v1.15 but want to fix this bug, just remove the uses of this flag from both helper funcs (and of course don't use the flag). - Bugfix in mz_zip_reader_extract_to_mem_no_alloc() from kymoon when pUser_read_buf is not NULL and compressed size is > uncompressed size - Fixing mz_zip_reader_extract_*() funcs so they don't try to extract compressed data from directory entries, to account for weird zipfiles which contain zero-size compressed data on dir entries. Hopefully this fix won't cause any issues on weird zip archives, because it assumes the low 16-bits of zip external attributes are DOS attributes (which I believe they always are in practice). - Fixing mz_zip_reader_is_file_a_directory() so it doesn't check the internal attributes, just the filename and external attributes - mz_zip_reader_init_file() - missing MZ_FCLOSE() call if the seek failed - Added cmake support for Linux builds which builds all the examples, tested with clang v3.3 and gcc v4.6. - Clang fix for tdefl_write_image_to_png_file_in_memory() from toffaletti - Merged MZ_FORCEINLINE fix from hdeanclark - Fix <time.h> include before config #ifdef, thanks emil.brink - Added tdefl_write_image_to_png_file_in_memory_ex(): supports Y flipping (super useful for OpenGL apps), and explicit control over the compression level (so you can set it to 1 for real-time compression). - Merged in some compiler fixes from paulharris's github repro. - Retested this build under Windows (VS 2010, including static analysis), tcc 0.9.26, gcc v4.6 and clang v3.3. - Added example6.c, which dumps an image of the mandelbrot set to a PNG file. - Modified example2 to help test the MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY flag more. - In r3: Bugfix to mz_zip_writer_add_file() found during merge: Fix possible src file fclose() leak if alignment bytes+local header file write faiiled - In r4: Minor bugfix to mz_zip_writer_add_from_zip_reader(): Was pushing the wrong central dir header offset, appears harmless in this release, but it became a problem in the zip64 branch 5/20/12 v1.14 - MinGW32/64 GCC 4.6.1 compiler fixes: added MZ_FORCEINLINE, #include <time.h> (thanks fermtect). 5/19/12 v1.13 - From [email protected] and [email protected] - Fix mz_crc32() so it doesn't compute the wrong CRC-32's when mz_ulong is 64-bit. - Temporarily/locally slammed in "typedef unsigned long mz_ulong" and re-ran a randomized regression test on ~500k files. - Eliminated a bunch of warnings when compiling with GCC 32-bit/64. - Ran all examples, miniz.c, and tinfl.c through MSVC 2008's /analyze (static analysis) option and fixed all warnings (except for the silly "Use of the comma-operator in a tested expression.." analysis warning, which I purposely use to work around a MSVC compiler warning). - Created 32-bit and 64-bit Codeblocks projects/workspace. Built and tested Linux executables. The codeblocks workspace is compatible with Linux+Win32/x64. - Added miniz_tester solution/project, which is a useful little app derived from LZHAM's tester app that I use as part of the regression test. - Ran miniz.c and tinfl.c through another series of regression testing on ~500,000 files and archives. - Modified example5.c so it purposely disables a bunch of high-level functionality (MINIZ_NO_STDIO, etc.). (Thanks to corysama for the MINIZ_NO_STDIO bug report.) - Fix ftell() usage in examples so they exit with an error on files which are too large (a limitation of the examples, not miniz itself). 4/12/12 v1.12 - More comments, added low-level example5.c, fixed a couple minor level_and_flags issues in the archive API's. level_and_flags can now be set to MZ_DEFAULT_COMPRESSION. Thanks to Bruce Dawson <[email protected]> for the feedback/bug report. 5/28/11 v1.11 - Added statement from unlicense.org 5/27/11 v1.10 - Substantial compressor optimizations: - Level 1 is now ~4x faster than before. The L1 compressor's throughput now varies between 70-110MB/sec. on a - Core i7 (actual throughput varies depending on the type of data, and x64 vs. x86). - Improved baseline L2-L9 compression perf. Also, greatly improved compression perf. issues on some file types. - Refactored the compression code for better readability and maintainability. - Added level 10 compression level (L10 has slightly better ratio than level 9, but could have a potentially large drop in throughput on some files). 5/15/11 v1.09 - Initial stable release. * Low-level Deflate/Inflate implementation notes: Compression: Use the "tdefl" API's. The compressor supports raw, static, and dynamic blocks, lazy or greedy parsing, match length filtering, RLE-only, and Huffman-only streams. It performs and compresses approximately as well as zlib. Decompression: Use the "tinfl" API's. The entire decompressor is implemented as a single function coroutine: see tinfl_decompress(). It supports decompression into a 32KB (or larger power of 2) wrapping buffer, or into a memory block large enough to hold the entire file. The low-level tdefl/tinfl API's do not make any use of dynamic memory allocation. * zlib-style API notes: miniz.c implements a fairly large subset of zlib. There's enough functionality present for it to be a drop-in zlib replacement in many apps: The z_stream struct, optional memory allocation callbacks deflateInit/deflateInit2/deflate/deflateReset/deflateEnd/deflateBound inflateInit/inflateInit2/inflate/inflateEnd compress, compress2, compressBound, uncompress CRC-32, Adler-32 - Using modern, minimal code size, CPU cache friendly routines. Supports raw deflate streams or standard zlib streams with adler-32 checking. Limitations: The callback API's are not implemented yet. No support for gzip headers or zlib static dictionaries. I've tried to closely emulate zlib's various flavors of stream flushing and return status codes, but there are no guarantees that miniz.c pulls this off perfectly. * PNG writing: See the tdefl_write_image_to_png_file_in_memory() function, originally written by Alex Evans. Supports 1-4 bytes/pixel images. * ZIP archive API notes: The ZIP archive API's where designed with simplicity and efficiency in mind, with just enough abstraction to get the job done with minimal fuss. There are simple API's to retrieve file information, read files from existing archives, create new archives, append new files to existing archives, or clone archive data from one archive to another. It supports archives located in memory or the heap, on disk (using stdio.h), or you can specify custom file read/write callbacks. - Archive reading: Just call this function to read a single file from a disk archive: void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, const char *pArchive_name, size_t *pSize, mz_uint zip_flags); For more complex cases, use the "mz_zip_reader" functions. Upon opening an archive, the entire central directory is located and read as-is into memory, and subsequent file access only occurs when reading individual files. - Archives file scanning: The simple way is to use this function to scan a loaded archive for a specific file: int mz_zip_reader_locate_file(mz_zip_archive *pZip, const char *pName, const char *pComment, mz_uint flags); The locate operation can optionally check file comments too, which (as one example) can be used to identify multiple versions of the same file in an archive. This function uses a simple linear search through the central directory, so it's not very fast. Alternately, you can iterate through all the files in an archive (using mz_zip_reader_get_num_files()) and retrieve detailed info on each file by calling mz_zip_reader_file_stat(). - Archive creation: Use the "mz_zip_writer" functions. The ZIP writer immediately writes compressed file data to disk and builds an exact image of the central directory in memory. The central directory image is written all at once at the end of the archive file when the archive is finalized. The archive writer can optionally align each file's local header and file data to any power of 2 alignment, which can be useful when the archive will be read from optical media. Also, the writer supports placing arbitrary data blobs at the very beginning of ZIP archives. Archives written using either feature are still readable by any ZIP tool. - Archive appending: The simple way to add a single file to an archive is to call this function: mz_bool mz_zip_add_mem_to_archive_file_in_place(const char *pZip_filename, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags); The archive will be created if it doesn't already exist, otherwise it'll be appended to. Note the appending is done in-place and is not an atomic operation, so if something goes wrong during the operation it's possible the archive could be left without a central directory (although the local file headers and file data will be fine, so the archive will be recoverable). For more complex archive modification scenarios: 1. The safest way is to use a mz_zip_reader to read the existing archive, cloning only those bits you want to preserve into a new archive using using the mz_zip_writer_add_from_zip_reader() function (which compiles the compressed file data as-is). When you're done, delete the old archive and rename the newly written archive, and you're done. This is safe but requires a bunch of temporary disk space or heap memory. 2. Or, you can convert an mz_zip_reader in-place to an mz_zip_writer using mz_zip_writer_init_from_reader(), append new files as needed, then finalize the archive which will write an updated central directory to the original archive. (This is basically what mz_zip_add_mem_to_archive_file_in_place() does.) There's a possibility that the archive's central directory could be lost with this method if anything goes wrong, though. - ZIP archive support limitations: No zip64 or spanning support. Extraction functions can only handle unencrypted, stored or deflated files. Requires streams capable of seeking. * This is a header file library, like stb_image.c. To get only a header file, either cut and paste the below header, or create miniz.h, #define MINIZ_HEADER_FILE_ONLY, and then include miniz.c from it. * Important: For best perf. be sure to customize the below macros for your target platform: #define MINIZ_USE_UNALIGNED_LOADS_AND_STORES 1 #define MINIZ_LITTLE_ENDIAN 1 #define MINIZ_HAS_64BIT_REGISTERS 1 * On platforms using glibc, Be sure to "#define _LARGEFILE64_SOURCE 1" before including miniz.c to ensure miniz uses the 64-bit variants: fopen64(), stat64(), etc. Otherwise you won't be able to process large files (i.e. 32-bit stat() fails for me on files > 0x7FFFFFFF bytes). */ #ifndef MINIZ_HEADER_INCLUDED #define MINIZ_HEADER_INCLUDED #include <stdlib.h> // Defines to completely disable specific portions of miniz.c: // If all macros here are defined the only functionality remaining will be CRC-32, adler-32, tinfl, and tdefl. // Define MINIZ_NO_STDIO to disable all usage and any functions which rely on stdio for file I/O. //#define MINIZ_NO_STDIO // If MINIZ_NO_TIME is specified then the ZIP archive functions will not be able to get the current time, or // get/set file times, and the C run-time funcs that get/set times won't be called. // The current downside is the times written to your archives will be from 1979. //#define MINIZ_NO_TIME // Define MINIZ_NO_ARCHIVE_APIS to disable all ZIP archive API's. //#define MINIZ_NO_ARCHIVE_APIS // Define MINIZ_NO_ARCHIVE_APIS to disable all writing related ZIP archive API's. //#define MINIZ_NO_ARCHIVE_WRITING_APIS // Define MINIZ_NO_ZLIB_APIS to remove all ZLIB-style compression/decompression API's. //#define MINIZ_NO_ZLIB_APIS // Define MINIZ_NO_ZLIB_COMPATIBLE_NAME to disable zlib names, to prevent conflicts against stock zlib. //#define MINIZ_NO_ZLIB_COMPATIBLE_NAMES // Define MINIZ_NO_MALLOC to disable all calls to malloc, free, and realloc. // Note if MINIZ_NO_MALLOC is defined then the user must always provide custom user alloc/free/realloc // callbacks to the zlib and archive API's, and a few stand-alone helper API's which don't provide custom user // functions (such as tdefl_compress_mem_to_heap() and tinfl_decompress_mem_to_heap()) won't work. //#define MINIZ_NO_MALLOC #if defined(__TINYC__) && (defined(__linux) || defined(__linux__)) // TODO: Work around "error: include file 'sys\utime.h' when compiling with tcc on Linux #define MINIZ_NO_TIME #endif #if !defined(MINIZ_NO_TIME) && !defined(MINIZ_NO_ARCHIVE_APIS) #include <time.h> #endif #if defined(_M_IX86) || defined(_M_X64) || defined(__i386__) || defined(__i386) || defined(__i486__) || defined(__i486) || defined(i386) || defined(__ia64__) || defined(__x86_64__) // MINIZ_X86_OR_X64_CPU is only used to help set the below macros. #define MINIZ_X86_OR_X64_CPU 1 #endif #if (__BYTE_ORDER__==__ORDER_LITTLE_ENDIAN__) || MINIZ_X86_OR_X64_CPU // Set MINIZ_LITTLE_ENDIAN to 1 if the processor is little endian. #define MINIZ_LITTLE_ENDIAN 1 #endif #if MINIZ_X86_OR_X64_CPU // Set MINIZ_USE_UNALIGNED_LOADS_AND_STORES to 1 on CPU's that permit efficient integer loads and stores from unaligned addresses. #define MINIZ_USE_UNALIGNED_LOADS_AND_STORES 1 #endif #if defined(_M_X64) || defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__) || defined(__ia64__) || defined(__x86_64__) // Set MINIZ_HAS_64BIT_REGISTERS to 1 if operations on 64-bit integers are reasonably fast (and don't involve compiler generated calls to helper functions). #define MINIZ_HAS_64BIT_REGISTERS 1 #endif #ifdef __cplusplus extern "C" { #endif // ------------------- zlib-style API Definitions. // For more compatibility with zlib, miniz.c uses unsigned long for some parameters/struct members. Beware: mz_ulong can be either 32 or 64-bits! typedef unsigned long mz_ulong; // mz_free() internally uses the MZ_FREE() macro (which by default calls free() unless you've modified the MZ_MALLOC macro) to release a block allocated from the heap. void mz_free(void *p); #define MZ_ADLER32_INIT (1) // mz_adler32() returns the initial adler-32 value to use when called with ptr==NULL. mz_ulong mz_adler32(mz_ulong adler, const unsigned char *ptr, size_t buf_len); #define MZ_CRC32_INIT (0) // mz_crc32() returns the initial CRC-32 value to use when called with ptr==NULL. mz_ulong mz_crc32(mz_ulong crc, const unsigned char *ptr, size_t buf_len); // Compression strategies. enum { MZ_DEFAULT_STRATEGY = 0, MZ_FILTERED = 1, MZ_HUFFMAN_ONLY = 2, MZ_RLE = 3, MZ_FIXED = 4 }; // Method #define MZ_DEFLATED 8 #ifndef MINIZ_NO_ZLIB_APIS // Heap allocation callbacks. // Note that mz_alloc_func parameter types purpsosely differ from zlib's: items/size is size_t, not unsigned long. typedef void *(*mz_alloc_func)(void *opaque, size_t items, size_t size); typedef void (*mz_free_func)(void *opaque, void *address); typedef void *(*mz_realloc_func)(void *opaque, void *address, size_t items, size_t size); #define MZ_VERSION "9.1.15" #define MZ_VERNUM 0x91F0 #define MZ_VER_MAJOR 9 #define MZ_VER_MINOR 1 #define MZ_VER_REVISION 15 #define MZ_VER_SUBREVISION 0 // Flush values. For typical usage you only need MZ_NO_FLUSH and MZ_FINISH. The other values are for advanced use (refer to the zlib docs). enum { MZ_NO_FLUSH = 0, MZ_PARTIAL_FLUSH = 1, MZ_SYNC_FLUSH = 2, MZ_FULL_FLUSH = 3, MZ_FINISH = 4, MZ_BLOCK = 5 }; // Return status codes. MZ_PARAM_ERROR is non-standard. enum { MZ_OK = 0, MZ_STREAM_END = 1, MZ_NEED_DICT = 2, MZ_ERRNO = -1, MZ_STREAM_ERROR = -2, MZ_DATA_ERROR = -3, MZ_MEM_ERROR = -4, MZ_BUF_ERROR = -5, MZ_VERSION_ERROR = -6, MZ_PARAM_ERROR = -10000 }; // Compression levels: 0-9 are the standard zlib-style levels, 10 is best possible compression (not zlib compatible, and may be very slow), MZ_DEFAULT_COMPRESSION=MZ_DEFAULT_LEVEL. enum { MZ_NO_COMPRESSION = 0, MZ_BEST_SPEED = 1, MZ_BEST_COMPRESSION = 9, MZ_UBER_COMPRESSION = 10, MZ_DEFAULT_LEVEL = 6, MZ_DEFAULT_COMPRESSION = -1 }; // Window bits #define MZ_DEFAULT_WINDOW_BITS 15 struct mz_internal_state; // Compression/decompression stream struct. typedef struct mz_stream_s { const unsigned char *next_in; // pointer to next byte to read unsigned int avail_in; // number of bytes available at next_in mz_ulong total_in; // total number of bytes consumed so far unsigned char *next_out; // pointer to next byte to write unsigned int avail_out; // number of bytes that can be written to next_out mz_ulong total_out; // total number of bytes produced so far char *msg; // error msg (unused) struct mz_internal_state *state; // internal state, allocated by zalloc/zfree mz_alloc_func zalloc; // optional heap allocation function (defaults to malloc) mz_free_func zfree; // optional heap free function (defaults to free) void *opaque; // heap alloc function user pointer int data_type; // data_type (unused) mz_ulong adler; // adler32 of the source or uncompressed data mz_ulong reserved; // not used } mz_stream; typedef mz_stream *mz_streamp; // Returns the version string of miniz.c. const char *mz_version(void); // mz_deflateInit() initializes a compressor with default options: // Parameters: // pStream must point to an initialized mz_stream struct. // level must be between [MZ_NO_COMPRESSION, MZ_BEST_COMPRESSION]. // level 1 enables a specially optimized compression function that's been optimized purely for performance, not ratio. // (This special func. is currently only enabled when MINIZ_USE_UNALIGNED_LOADS_AND_STORES and MINIZ_LITTLE_ENDIAN are defined.) // Return values: // MZ_OK on success. // MZ_STREAM_ERROR if the stream is bogus. // MZ_PARAM_ERROR if the input parameters are bogus. // MZ_MEM_ERROR on out of memory. int mz_deflateInit(mz_streamp pStream, int level); // mz_deflateInit2() is like mz_deflate(), except with more control: // Additional parameters: // method must be MZ_DEFLATED // window_bits must be MZ_DEFAULT_WINDOW_BITS (to wrap the deflate stream with zlib header/adler-32 footer) or -MZ_DEFAULT_WINDOW_BITS (raw deflate/no header or footer) // mem_level must be between [1, 9] (it's checked but ignored by miniz.c) int mz_deflateInit2(mz_streamp pStream, int level, int method, int window_bits, int mem_level, int strategy); // Quickly resets a compressor without having to reallocate anything. Same as calling mz_deflateEnd() followed by mz_deflateInit()/mz_deflateInit2(). int mz_deflateReset(mz_streamp pStream); // mz_deflate() compresses the input to output, consuming as much of the input and producing as much output as possible. // Parameters: // pStream is the stream to read from and write to. You must initialize/update the next_in, avail_in, next_out, and avail_out members. // flush may be MZ_NO_FLUSH, MZ_PARTIAL_FLUSH/MZ_SYNC_FLUSH, MZ_FULL_FLUSH, or MZ_FINISH. // Return values: // MZ_OK on success (when flushing, or if more input is needed but not available, and/or there's more output to be written but the output buffer is full). // MZ_STREAM_END if all input has been consumed and all output bytes have been written. Don't call mz_deflate() on the stream anymore. // MZ_STREAM_ERROR if the stream is bogus. // MZ_PARAM_ERROR if one of the parameters is invalid. // MZ_BUF_ERROR if no forward progress is possible because the input and/or output buffers are empty. (Fill up the input buffer or free up some output space and try again.) int mz_deflate(mz_streamp pStream, int flush); // mz_deflateEnd() deinitializes a compressor: // Return values: // MZ_OK on success. // MZ_STREAM_ERROR if the stream is bogus. int mz_deflateEnd(mz_streamp pStream); // mz_deflateBound() returns a (very) conservative upper bound on the amount of data that could be generated by deflate(), assuming flush is set to only MZ_NO_FLUSH or MZ_FINISH. mz_ulong mz_deflateBound(mz_streamp pStream, mz_ulong source_len); // Single-call compression functions mz_compress() and mz_compress2(): // Returns MZ_OK on success, or one of the error codes from mz_deflate() on failure. int mz_compress(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len); int mz_compress2(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len, int level); // mz_compressBound() returns a (very) conservative upper bound on the amount of data that could be generated by calling mz_compress(). mz_ulong mz_compressBound(mz_ulong source_len); // Initializes a decompressor. int mz_inflateInit(mz_streamp pStream); // mz_inflateInit2() is like mz_inflateInit() with an additional option that controls the window size and whether or not the stream has been wrapped with a zlib header/footer: // window_bits must be MZ_DEFAULT_WINDOW_BITS (to parse zlib header/footer) or -MZ_DEFAULT_WINDOW_BITS (raw deflate). int mz_inflateInit2(mz_streamp pStream, int window_bits); // Decompresses the input stream to the output, consuming only as much of the input as needed, and writing as much to the output as possible. // Parameters: // pStream is the stream to read from and write to. You must initialize/update the next_in, avail_in, next_out, and avail_out members. // flush may be MZ_NO_FLUSH, MZ_SYNC_FLUSH, or MZ_FINISH. // On the first call, if flush is MZ_FINISH it's assumed the input and output buffers are both sized large enough to decompress the entire stream in a single call (this is slightly faster). // MZ_FINISH implies that there are no more source bytes available beside what's already in the input buffer, and that the output buffer is large enough to hold the rest of the decompressed data. // Return values: // MZ_OK on success. Either more input is needed but not available, and/or there's more output to be written but the output buffer is full. // MZ_STREAM_END if all needed input has been consumed and all output bytes have been written. For zlib streams, the adler-32 of the decompressed data has also been verified. // MZ_STREAM_ERROR if the stream is bogus. // MZ_DATA_ERROR if the deflate stream is invalid. // MZ_PARAM_ERROR if one of the parameters is invalid. // MZ_BUF_ERROR if no forward progress is possible because the input buffer is empty but the inflater needs more input to continue, or if the output buffer is not large enough. Call mz_inflate() again // with more input data, or with more room in the output buffer (except when using single call decompression, described above). int mz_inflate(mz_streamp pStream, int flush); // Deinitializes a decompressor. int mz_inflateEnd(mz_streamp pStream); // Single-call decompression. // Returns MZ_OK on success, or one of the error codes from mz_inflate() on failure. int mz_uncompress(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len); // Returns a string description of the specified error code, or NULL if the error code is invalid. const char *mz_error(int err); // Redefine zlib-compatible names to miniz equivalents, so miniz.c can be used as a drop-in replacement for the subset of zlib that miniz.c supports. // Define MINIZ_NO_ZLIB_COMPATIBLE_NAMES to disable zlib-compatibility if you use zlib in the same project. #ifndef MINIZ_NO_ZLIB_COMPATIBLE_NAMES typedef unsigned char Byte; typedef unsigned int uInt; typedef mz_ulong uLong; typedef Byte Bytef; typedef uInt uIntf; typedef char charf; typedef int intf; typedef void *voidpf; typedef uLong uLongf; typedef void *voidp; typedef void *const voidpc; #define Z_NULL 0 #define Z_NO_FLUSH MZ_NO_FLUSH #define Z_PARTIAL_FLUSH MZ_PARTIAL_FLUSH #define Z_SYNC_FLUSH MZ_SYNC_FLUSH #define Z_FULL_FLUSH MZ_FULL_FLUSH #define Z_FINISH MZ_FINISH #define Z_BLOCK MZ_BLOCK #define Z_OK MZ_OK #define Z_STREAM_END MZ_STREAM_END #define Z_NEED_DICT MZ_NEED_DICT #define Z_ERRNO MZ_ERRNO #define Z_STREAM_ERROR MZ_STREAM_ERROR #define Z_DATA_ERROR MZ_DATA_ERROR #define Z_MEM_ERROR MZ_MEM_ERROR #define Z_BUF_ERROR MZ_BUF_ERROR #define Z_VERSION_ERROR MZ_VERSION_ERROR #define Z_PARAM_ERROR MZ_PARAM_ERROR #define Z_NO_COMPRESSION MZ_NO_COMPRESSION #define Z_BEST_SPEED MZ_BEST_SPEED #define Z_BEST_COMPRESSION MZ_BEST_COMPRESSION #define Z_DEFAULT_COMPRESSION MZ_DEFAULT_COMPRESSION #define Z_DEFAULT_STRATEGY MZ_DEFAULT_STRATEGY #define Z_FILTERED MZ_FILTERED #define Z_HUFFMAN_ONLY MZ_HUFFMAN_ONLY #define Z_RLE MZ_RLE #define Z_FIXED MZ_FIXED #define Z_DEFLATED MZ_DEFLATED #define Z_DEFAULT_WINDOW_BITS MZ_DEFAULT_WINDOW_BITS #define alloc_func mz_alloc_func #define free_func mz_free_func #define internal_state mz_internal_state #define z_stream mz_stream #define deflateInit mz_deflateInit #define deflateInit2 mz_deflateInit2 #define deflateReset mz_deflateReset #define deflate mz_deflate #define deflateEnd mz_deflateEnd #define deflateBound mz_deflateBound #define compress mz_compress #define compress2 mz_compress2 #define compressBound mz_compressBound #define inflateInit mz_inflateInit #define inflateInit2 mz_inflateInit2 #define inflate mz_inflate #define inflateEnd mz_inflateEnd #define uncompress mz_uncompress #define crc32 mz_crc32 #define adler32 mz_adler32 #define MAX_WBITS 15 #define MAX_MEM_LEVEL 9 #define zError mz_error #define ZLIB_VERSION MZ_VERSION #define ZLIB_VERNUM MZ_VERNUM #define ZLIB_VER_MAJOR MZ_VER_MAJOR #define ZLIB_VER_MINOR MZ_VER_MINOR #define ZLIB_VER_REVISION MZ_VER_REVISION #define ZLIB_VER_SUBREVISION MZ_VER_SUBREVISION #define zlibVersion mz_version #define zlib_version mz_version() #endif // #ifndef MINIZ_NO_ZLIB_COMPATIBLE_NAMES #endif // MINIZ_NO_ZLIB_APIS // ------------------- Types and macros typedef unsigned char mz_uint8; typedef signed short mz_int16; typedef unsigned short mz_uint16; typedef unsigned int mz_uint32; typedef unsigned int mz_uint; typedef long long mz_int64; typedef unsigned long long mz_uint64; typedef int mz_bool; #define MZ_FALSE (0) #define MZ_TRUE (1) // An attempt to work around MSVC's spammy "warning C4127: conditional expression is constant" message. #ifdef _MSC_VER #define MZ_MACRO_END while (0, 0) #else #define MZ_MACRO_END while (0) #endif // ------------------- ZIP archive reading/writing #ifndef MINIZ_NO_ARCHIVE_APIS enum { MZ_ZIP_MAX_IO_BUF_SIZE = 64*1024, MZ_ZIP_MAX_ARCHIVE_FILENAME_SIZE = 260, MZ_ZIP_MAX_ARCHIVE_FILE_COMMENT_SIZE = 256 }; typedef struct { mz_uint32 m_file_index; mz_uint32 m_central_dir_ofs; mz_uint16 m_version_made_by; mz_uint16 m_version_needed; mz_uint16 m_bit_flag; mz_uint16 m_method; #ifndef MINIZ_NO_TIME time_t m_time; #endif mz_uint32 m_crc32; mz_uint64 m_comp_size; mz_uint64 m_uncomp_size; mz_uint16 m_internal_attr; mz_uint32 m_external_attr; mz_uint64 m_local_header_ofs; mz_uint32 m_comment_size; char m_filename[MZ_ZIP_MAX_ARCHIVE_FILENAME_SIZE]; char m_comment[MZ_ZIP_MAX_ARCHIVE_FILE_COMMENT_SIZE]; } mz_zip_archive_file_stat; typedef size_t (*mz_file_read_func)(void *pOpaque, mz_uint64 file_ofs, void *pBuf, size_t n); typedef size_t (*mz_file_write_func)(void *pOpaque, mz_uint64 file_ofs, const void *pBuf, size_t n); struct mz_zip_internal_state_tag; typedef struct mz_zip_internal_state_tag mz_zip_internal_state; typedef enum { MZ_ZIP_MODE_INVALID = 0, MZ_ZIP_MODE_READING = 1, MZ_ZIP_MODE_WRITING = 2, MZ_ZIP_MODE_WRITING_HAS_BEEN_FINALIZED = 3 } mz_zip_mode; typedef struct mz_zip_archive_tag { mz_uint64 m_archive_size; mz_uint64 m_central_directory_file_ofs; mz_uint m_total_files; mz_zip_mode m_zip_mode; mz_uint m_file_offset_alignment; mz_alloc_func m_pAlloc; mz_free_func m_pFree; mz_realloc_func m_pRealloc; void *m_pAlloc_opaque; mz_file_read_func m_pRead; mz_file_write_func m_pWrite; void *m_pIO_opaque; mz_zip_internal_state *m_pState; } mz_zip_archive; typedef enum { MZ_ZIP_FLAG_CASE_SENSITIVE = 0x0100, MZ_ZIP_FLAG_IGNORE_PATH = 0x0200, MZ_ZIP_FLAG_COMPRESSED_DATA = 0x0400, MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY = 0x0800 } mz_zip_flags; // ZIP archive reading // Inits a ZIP archive reader. // These functions read and validate the archive's central directory. mz_bool mz_zip_reader_init(mz_zip_archive *pZip, mz_uint64 size, mz_uint32 flags); mz_bool mz_zip_reader_init_mem(mz_zip_archive *pZip, const void *pMem, size_t size, mz_uint32 flags); #ifndef MINIZ_NO_STDIO mz_bool mz_zip_reader_init_file(mz_zip_archive *pZip, const char *pFilename, mz_uint32 flags); #endif // Returns the total number of files in the archive. mz_uint mz_zip_reader_get_num_files(mz_zip_archive *pZip); // Returns detailed information about an archive file entry. mz_bool mz_zip_reader_file_stat(mz_zip_archive *pZip, mz_uint file_index, mz_zip_archive_file_stat *pStat); // Determines if an archive file entry is a directory entry. mz_bool mz_zip_reader_is_file_a_directory(mz_zip_archive *pZip, mz_uint file_index); mz_bool mz_zip_reader_is_file_encrypted(mz_zip_archive *pZip, mz_uint file_index); // Retrieves the filename of an archive file entry. // Returns the number of bytes written to pFilename, or if filename_buf_size is 0 this function returns the number of bytes needed to fully store the filename. mz_uint mz_zip_reader_get_filename(mz_zip_archive *pZip, mz_uint file_index, char *pFilename, mz_uint filename_buf_size); // Attempts to locates a file in the archive's central directory. // Valid flags: MZ_ZIP_FLAG_CASE_SENSITIVE, MZ_ZIP_FLAG_IGNORE_PATH // Returns -1 if the file cannot be found. int mz_zip_reader_locate_file(mz_zip_archive *pZip, const char *pName, const char *pComment, mz_uint flags); // Extracts a archive file to a memory buffer using no memory allocation. mz_bool mz_zip_reader_extract_to_mem_no_alloc(mz_zip_archive *pZip, mz_uint file_index, void *pBuf, size_t buf_size, mz_uint flags, void *pUser_read_buf, size_t user_read_buf_size); mz_bool mz_zip_reader_extract_file_to_mem_no_alloc(mz_zip_archive *pZip, const char *pFilename, void *pBuf, size_t buf_size, mz_uint flags, void *pUser_read_buf, size_t user_read_buf_size); // Extracts a archive file to a memory buffer. mz_bool mz_zip_reader_extract_to_mem(mz_zip_archive *pZip, mz_uint file_index, void *pBuf, size_t buf_size, mz_uint flags); mz_bool mz_zip_reader_extract_file_to_mem(mz_zip_archive *pZip, const char *pFilename, void *pBuf, size_t buf_size, mz_uint flags); // Extracts a archive file to a dynamically allocated heap buffer. void *mz_zip_reader_extract_to_heap(mz_zip_archive *pZip, mz_uint file_index, size_t *pSize, mz_uint flags); void *mz_zip_reader_extract_file_to_heap(mz_zip_archive *pZip, const char *pFilename, size_t *pSize, mz_uint flags); // Extracts a archive file using a callback function to output the file's data. mz_bool mz_zip_reader_extract_to_callback(mz_zip_archive *pZip, mz_uint file_index, mz_file_write_func pCallback, void *pOpaque, mz_uint flags); mz_bool mz_zip_reader_extract_file_to_callback(mz_zip_archive *pZip, const char *pFilename, mz_file_write_func pCallback, void *pOpaque, mz_uint flags); #ifndef MINIZ_NO_STDIO // Extracts a archive file to a disk file and sets its last accessed and modified times. // This function only extracts files, not archive directory records. mz_bool mz_zip_reader_extract_to_file(mz_zip_archive *pZip, mz_uint file_index, const char *pDst_filename, mz_uint flags); mz_bool mz_zip_reader_extract_file_to_file(mz_zip_archive *pZip, const char *pArchive_filename, const char *pDst_filename, mz_uint flags); #endif // Ends archive reading, freeing all allocations, and closing the input archive file if mz_zip_reader_init_file() was used. mz_bool mz_zip_reader_end(mz_zip_archive *pZip); // ZIP archive writing #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS // Inits a ZIP archive writer. mz_bool mz_zip_writer_init(mz_zip_archive *pZip, mz_uint64 existing_size); mz_bool mz_zip_writer_init_heap(mz_zip_archive *pZip, size_t size_to_reserve_at_beginning, size_t initial_allocation_size); #ifndef MINIZ_NO_STDIO mz_bool mz_zip_writer_init_file(mz_zip_archive *pZip, const char *pFilename, mz_uint64 size_to_reserve_at_beginning); #endif // Converts a ZIP archive reader object into a writer object, to allow efficient in-place file appends to occur on an existing archive. // For archives opened using mz_zip_reader_init_file, pFilename must be the archive's filename so it can be reopened for writing. If the file can't be reopened, mz_zip_reader_end() will be called. // For archives opened using mz_zip_reader_init_mem, the memory block must be growable using the realloc callback (which defaults to realloc unless you've overridden it). // Finally, for archives opened using mz_zip_reader_init, the mz_zip_archive's user provided m_pWrite function cannot be NULL. // Note: In-place archive modification is not recommended unless you know what you're doing, because if execution stops or something goes wrong before // the archive is finalized the file's central directory will be hosed. mz_bool mz_zip_writer_init_from_reader(mz_zip_archive *pZip, const char *pFilename); // Adds the contents of a memory buffer to an archive. These functions record the current local time into the archive. // To add a directory entry, call this method with an archive name ending in a forwardslash with empty buffer. // level_and_flags - compression level (0-10, see MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc.) logically OR'd with zero or more mz_zip_flags, or just set to MZ_DEFAULT_COMPRESSION. mz_bool mz_zip_writer_add_mem(mz_zip_archive *pZip, const char *pArchive_name, const void *pBuf, size_t buf_size, mz_uint level_and_flags); mz_bool mz_zip_writer_add_mem_ex(mz_zip_archive *pZip, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags, mz_uint64 uncomp_size, mz_uint32 uncomp_crc32); #ifndef MINIZ_NO_STDIO // Adds the contents of a disk file to an archive. This function also records the disk file's modified time into the archive. // level_and_flags - compression level (0-10, see MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc.) logically OR'd with zero or more mz_zip_flags, or just set to MZ_DEFAULT_COMPRESSION. mz_bool mz_zip_writer_add_file(mz_zip_archive *pZip, const char *pArchive_name, const char *pSrc_filename, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags); #endif // Adds a file to an archive by fully cloning the data from another archive. // This function fully clones the source file's compressed data (no recompression), along with its full filename, extra data, and comment fields. mz_bool mz_zip_writer_add_from_zip_reader(mz_zip_archive *pZip, mz_zip_archive *pSource_zip, mz_uint file_index); // Finalizes the archive by writing the central directory records followed by the end of central directory record. // After an archive is finalized, the only valid call on the mz_zip_archive struct is mz_zip_writer_end(). // An archive must be manually finalized by calling this function for it to be valid. mz_bool mz_zip_writer_finalize_archive(mz_zip_archive *pZip); mz_bool mz_zip_writer_finalize_heap_archive(mz_zip_archive *pZip, void **pBuf, size_t *pSize); // Ends archive writing, freeing all allocations, and closing the output file if mz_zip_writer_init_file() was used. // Note for the archive to be valid, it must have been finalized before ending. mz_bool mz_zip_writer_end(mz_zip_archive *pZip); // Misc. high-level helper functions: // mz_zip_add_mem_to_archive_file_in_place() efficiently (but not atomically) appends a memory blob to a ZIP archive. // level_and_flags - compression level (0-10, see MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc.) logically OR'd with zero or more mz_zip_flags, or just set to MZ_DEFAULT_COMPRESSION. mz_bool mz_zip_add_mem_to_archive_file_in_place(const char *pZip_filename, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags); // Reads a single file from an archive into a heap block. // Returns NULL on failure. void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, const char *pArchive_name, size_t *pSize, mz_uint zip_flags); #endif // #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS #endif // #ifndef MINIZ_NO_ARCHIVE_APIS // ------------------- Low-level Decompression API Definitions // Decompression flags used by tinfl_decompress(). // TINFL_FLAG_PARSE_ZLIB_HEADER: If set, the input has a valid zlib header and ends with an adler32 checksum (it's a valid zlib stream). Otherwise, the input is a raw deflate stream. // TINFL_FLAG_HAS_MORE_INPUT: If set, there are more input bytes available beyond the end of the supplied input buffer. If clear, the input buffer contains all remaining input. // TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF: If set, the output buffer is large enough to hold the entire decompressed stream. If clear, the output buffer is at least the size of the dictionary (typically 32KB). // TINFL_FLAG_COMPUTE_ADLER32: Force adler-32 checksum computation of the decompressed bytes. enum { TINFL_FLAG_PARSE_ZLIB_HEADER = 1, TINFL_FLAG_HAS_MORE_INPUT = 2, TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF = 4, TINFL_FLAG_COMPUTE_ADLER32 = 8 }; // High level decompression functions: // tinfl_decompress_mem_to_heap() decompresses a block in memory to a heap block allocated via malloc(). // On entry: // pSrc_buf, src_buf_len: Pointer and size of the Deflate or zlib source data to decompress. // On return: // Function returns a pointer to the decompressed data, or NULL on failure. // *pOut_len will be set to the decompressed data's size, which could be larger than src_buf_len on uncompressible data. // The caller must call mz_free() on the returned block when it's no longer needed. void *tinfl_decompress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len, size_t *pOut_len, int flags); // tinfl_decompress_mem_to_mem() decompresses a block in memory to another block in memory. // Returns TINFL_DECOMPRESS_MEM_TO_MEM_FAILED on failure, or the number of bytes written on success. #define TINFL_DECOMPRESS_MEM_TO_MEM_FAILED ((size_t)(-1)) size_t tinfl_decompress_mem_to_mem(void *pOut_buf, size_t out_buf_len, const void *pSrc_buf, size_t src_buf_len, int flags); // tinfl_decompress_mem_to_callback() decompresses a block in memory to an internal 32KB buffer, and a user provided callback function will be called to flush the buffer. // Returns 1 on success or 0 on failure. typedef int (*tinfl_put_buf_func_ptr)(const void* pBuf, int len, void *pUser); int tinfl_decompress_mem_to_callback(const void *pIn_buf, size_t *pIn_buf_size, tinfl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags); struct tinfl_decompressor_tag; typedef struct tinfl_decompressor_tag tinfl_decompressor; // Max size of LZ dictionary. #define TINFL_LZ_DICT_SIZE 32768 // Return status. typedef enum { TINFL_STATUS_BAD_PARAM = -3, TINFL_STATUS_ADLER32_MISMATCH = -2, TINFL_STATUS_FAILED = -1, TINFL_STATUS_DONE = 0, TINFL_STATUS_NEEDS_MORE_INPUT = 1, TINFL_STATUS_HAS_MORE_OUTPUT = 2 } tinfl_status; // Initializes the decompressor to its initial state. #define tinfl_init(r) do { (r)->m_state = 0; } MZ_MACRO_END #define tinfl_get_adler32(r) (r)->m_check_adler32 // Main low-level decompressor coroutine function. This is the only function actually needed for decompression. All the other functions are just high-level helpers for improved usability. // This is a universal API, i.e. it can be used as a building block to build any desired higher level decompression API. In the limit case, it can be called once per every byte input or output. tinfl_status tinfl_decompress(tinfl_decompressor *r, const mz_uint8 *pIn_buf_next, size_t *pIn_buf_size, mz_uint8 *pOut_buf_start, mz_uint8 *pOut_buf_next, size_t *pOut_buf_size, const mz_uint32 decomp_flags); // Internal/private bits follow. enum { TINFL_MAX_HUFF_TABLES = 3, TINFL_MAX_HUFF_SYMBOLS_0 = 288, TINFL_MAX_HUFF_SYMBOLS_1 = 32, TINFL_MAX_HUFF_SYMBOLS_2 = 19, TINFL_FAST_LOOKUP_BITS = 10, TINFL_FAST_LOOKUP_SIZE = 1 << TINFL_FAST_LOOKUP_BITS }; typedef struct { mz_uint8 m_code_size[TINFL_MAX_HUFF_SYMBOLS_0]; mz_int16 m_look_up[TINFL_FAST_LOOKUP_SIZE], m_tree[TINFL_MAX_HUFF_SYMBOLS_0 * 2]; } tinfl_huff_table; #if MINIZ_HAS_64BIT_REGISTERS #define TINFL_USE_64BIT_BITBUF 1 #endif #if TINFL_USE_64BIT_BITBUF typedef mz_uint64 tinfl_bit_buf_t; #define TINFL_BITBUF_SIZE (64) #else typedef mz_uint32 tinfl_bit_buf_t; #define TINFL_BITBUF_SIZE (32) #endif struct tinfl_decompressor_tag { mz_uint32 m_state, m_num_bits, m_zhdr0, m_zhdr1, m_z_adler32, m_final, m_type, m_check_adler32, m_dist, m_counter, m_num_extra, m_table_sizes[TINFL_MAX_HUFF_TABLES]; tinfl_bit_buf_t m_bit_buf; size_t m_dist_from_out_buf_start; tinfl_huff_table m_tables[TINFL_MAX_HUFF_TABLES]; mz_uint8 m_raw_header[4], m_len_codes[TINFL_MAX_HUFF_SYMBOLS_0 + TINFL_MAX_HUFF_SYMBOLS_1 + 137]; }; // ------------------- Low-level Compression API Definitions // Set TDEFL_LESS_MEMORY to 1 to use less memory (compression will be slightly slower, and raw/dynamic blocks will be output more frequently). #define TDEFL_LESS_MEMORY 0 // tdefl_init() compression flags logically OR'd together (low 12 bits contain the max. number of probes per dictionary search): // TDEFL_DEFAULT_MAX_PROBES: The compressor defaults to 128 dictionary probes per dictionary search. 0=Huffman only, 1=Huffman+LZ (fastest/crap compression), 4095=Huffman+LZ (slowest/best compression). enum { TDEFL_HUFFMAN_ONLY = 0, TDEFL_DEFAULT_MAX_PROBES = 128, TDEFL_MAX_PROBES_MASK = 0xFFF }; // TDEFL_WRITE_ZLIB_HEADER: If set, the compressor outputs a zlib header before the deflate data, and the Adler-32 of the source data at the end. Otherwise, you'll get raw deflate data. // TDEFL_COMPUTE_ADLER32: Always compute the adler-32 of the input data (even when not writing zlib headers). // TDEFL_GREEDY_PARSING_FLAG: Set to use faster greedy parsing, instead of more efficient lazy parsing. // TDEFL_NONDETERMINISTIC_PARSING_FLAG: Enable to decrease the compressor's initialization time to the minimum, but the output may vary from run to run given the same input (depending on the contents of memory). // TDEFL_RLE_MATCHES: Only look for RLE matches (matches with a distance of 1) // TDEFL_FILTER_MATCHES: Discards matches <= 5 chars if enabled. // TDEFL_FORCE_ALL_STATIC_BLOCKS: Disable usage of optimized Huffman tables. // TDEFL_FORCE_ALL_RAW_BLOCKS: Only use raw (uncompressed) deflate blocks. // The low 12 bits are reserved to control the max # of hash probes per dictionary lookup (see TDEFL_MAX_PROBES_MASK). enum { TDEFL_WRITE_ZLIB_HEADER = 0x01000, TDEFL_COMPUTE_ADLER32 = 0x02000, TDEFL_GREEDY_PARSING_FLAG = 0x04000, TDEFL_NONDETERMINISTIC_PARSING_FLAG = 0x08000, TDEFL_RLE_MATCHES = 0x10000, TDEFL_FILTER_MATCHES = 0x20000, TDEFL_FORCE_ALL_STATIC_BLOCKS = 0x40000, TDEFL_FORCE_ALL_RAW_BLOCKS = 0x80000 }; // High level compression functions: // tdefl_compress_mem_to_heap() compresses a block in memory to a heap block allocated via malloc(). // On entry: // pSrc_buf, src_buf_len: Pointer and size of source block to compress. // flags: The max match finder probes (default is 128) logically OR'd against the above flags. Higher probes are slower but improve compression. // On return: // Function returns a pointer to the compressed data, or NULL on failure. // *pOut_len will be set to the compressed data's size, which could be larger than src_buf_len on uncompressible data. // The caller must free() the returned block when it's no longer needed. void *tdefl_compress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len, size_t *pOut_len, int flags); // tdefl_compress_mem_to_mem() compresses a block in memory to another block in memory. // Returns 0 on failure. size_t tdefl_compress_mem_to_mem(void *pOut_buf, size_t out_buf_len, const void *pSrc_buf, size_t src_buf_len, int flags); // Compresses an image to a compressed PNG file in memory. // On entry: // pImage, w, h, and num_chans describe the image to compress. num_chans may be 1, 2, 3, or 4. // The image pitch in bytes per scanline will be w*num_chans. The leftmost pixel on the top scanline is stored first in memory. // level may range from [0,10], use MZ_NO_COMPRESSION, MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc. or a decent default is MZ_DEFAULT_LEVEL // If flip is true, the image will be flipped on the Y axis (useful for OpenGL apps). // On return: // Function returns a pointer to the compressed data, or NULL on failure. // *pLen_out will be set to the size of the PNG image file. // The caller must mz_free() the returned heap block (which will typically be larger than *pLen_out) when it's no longer needed. void *tdefl_write_image_to_png_file_in_memory_ex(const void *pImage, int w, int h, int num_chans, size_t *pLen_out, mz_uint level, mz_bool flip); void *tdefl_write_image_to_png_file_in_memory(const void *pImage, int w, int h, int num_chans, size_t *pLen_out); // Output stream interface. The compressor uses this interface to write compressed data. It'll typically be called TDEFL_OUT_BUF_SIZE at a time. typedef mz_bool (*tdefl_put_buf_func_ptr)(const void* pBuf, int len, void *pUser); // tdefl_compress_mem_to_output() compresses a block to an output stream. The above helpers use this function internally. mz_bool tdefl_compress_mem_to_output(const void *pBuf, size_t buf_len, tdefl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags); enum { TDEFL_MAX_HUFF_TABLES = 3, TDEFL_MAX_HUFF_SYMBOLS_0 = 288, TDEFL_MAX_HUFF_SYMBOLS_1 = 32, TDEFL_MAX_HUFF_SYMBOLS_2 = 19, TDEFL_LZ_DICT_SIZE = 32768, TDEFL_LZ_DICT_SIZE_MASK = TDEFL_LZ_DICT_SIZE - 1, TDEFL_MIN_MATCH_LEN = 3, TDEFL_MAX_MATCH_LEN = 258 }; // TDEFL_OUT_BUF_SIZE MUST be large enough to hold a single entire compressed output block (using static/fixed Huffman codes). #if TDEFL_LESS_MEMORY enum { TDEFL_LZ_CODE_BUF_SIZE = 24 * 1024, TDEFL_OUT_BUF_SIZE = (TDEFL_LZ_CODE_BUF_SIZE * 13 ) / 10, TDEFL_MAX_HUFF_SYMBOLS = 288, TDEFL_LZ_HASH_BITS = 12, TDEFL_LEVEL1_HASH_SIZE_MASK = 4095, TDEFL_LZ_HASH_SHIFT = (TDEFL_LZ_HASH_BITS + 2) / 3, TDEFL_LZ_HASH_SIZE = 1 << TDEFL_LZ_HASH_BITS }; #else enum { TDEFL_LZ_CODE_BUF_SIZE = 64 * 1024, TDEFL_OUT_BUF_SIZE = (TDEFL_LZ_CODE_BUF_SIZE * 13 ) / 10, TDEFL_MAX_HUFF_SYMBOLS = 288, TDEFL_LZ_HASH_BITS = 15, TDEFL_LEVEL1_HASH_SIZE_MASK = 4095, TDEFL_LZ_HASH_SHIFT = (TDEFL_LZ_HASH_BITS + 2) / 3, TDEFL_LZ_HASH_SIZE = 1 << TDEFL_LZ_HASH_BITS }; #endif // The low-level tdefl functions below may be used directly if the above helper functions aren't flexible enough. The low-level functions don't make any heap allocations, unlike the above helper functions. typedef enum { TDEFL_STATUS_BAD_PARAM = -2, TDEFL_STATUS_PUT_BUF_FAILED = -1, TDEFL_STATUS_OKAY = 0, TDEFL_STATUS_DONE = 1, } tdefl_status; // Must map to MZ_NO_FLUSH, MZ_SYNC_FLUSH, etc. enums typedef enum { TDEFL_NO_FLUSH = 0, TDEFL_SYNC_FLUSH = 2, TDEFL_FULL_FLUSH = 3, TDEFL_FINISH = 4 } tdefl_flush; // tdefl's compression state structure. typedef struct { tdefl_put_buf_func_ptr m_pPut_buf_func; void *m_pPut_buf_user; mz_uint m_flags, m_max_probes[2]; int m_greedy_parsing; mz_uint m_adler32, m_lookahead_pos, m_lookahead_size, m_dict_size; mz_uint8 *m_pLZ_code_buf, *m_pLZ_flags, *m_pOutput_buf, *m_pOutput_buf_end; mz_uint m_num_flags_left, m_total_lz_bytes, m_lz_code_buf_dict_pos, m_bits_in, m_bit_buffer; mz_uint m_saved_match_dist, m_saved_match_len, m_saved_lit, m_output_flush_ofs, m_output_flush_remaining, m_finished, m_block_index, m_wants_to_finish; tdefl_status m_prev_return_status; const void *m_pIn_buf; void *m_pOut_buf; size_t *m_pIn_buf_size, *m_pOut_buf_size; tdefl_flush m_flush; const mz_uint8 *m_pSrc; size_t m_src_buf_left, m_out_buf_ofs; mz_uint8 m_dict[TDEFL_LZ_DICT_SIZE + TDEFL_MAX_MATCH_LEN - 1]; mz_uint16 m_huff_count[TDEFL_MAX_HUFF_TABLES][TDEFL_MAX_HUFF_SYMBOLS]; mz_uint16 m_huff_codes[TDEFL_MAX_HUFF_TABLES][TDEFL_MAX_HUFF_SYMBOLS]; mz_uint8 m_huff_code_sizes[TDEFL_MAX_HUFF_TABLES][TDEFL_MAX_HUFF_SYMBOLS]; mz_uint8 m_lz_code_buf[TDEFL_LZ_CODE_BUF_SIZE]; mz_uint16 m_next[TDEFL_LZ_DICT_SIZE]; mz_uint16 m_hash[TDEFL_LZ_HASH_SIZE]; mz_uint8 m_output_buf[TDEFL_OUT_BUF_SIZE]; } tdefl_compressor; // Initializes the compressor. // There is no corresponding deinit() function because the tdefl API's do not dynamically allocate memory. // pBut_buf_func: If NULL, output data will be supplied to the specified callback. In this case, the user should call the tdefl_compress_buffer() API for compression. // If pBut_buf_func is NULL the user should always call the tdefl_compress() API. // flags: See the above enums (TDEFL_HUFFMAN_ONLY, TDEFL_WRITE_ZLIB_HEADER, etc.) tdefl_status tdefl_init(tdefl_compressor *d, tdefl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags); // Compresses a block of data, consuming as much of the specified input buffer as possible, and writing as much compressed data to the specified output buffer as possible. tdefl_status tdefl_compress(tdefl_compressor *d, const void *pIn_buf, size_t *pIn_buf_size, void *pOut_buf, size_t *pOut_buf_size, tdefl_flush flush); // tdefl_compress_buffer() is only usable when the tdefl_init() is called with a non-NULL tdefl_put_buf_func_ptr. // tdefl_compress_buffer() always consumes the entire input buffer. tdefl_status tdefl_compress_buffer(tdefl_compressor *d, const void *pIn_buf, size_t in_buf_size, tdefl_flush flush); tdefl_status tdefl_get_prev_return_status(tdefl_compressor *d); mz_uint32 tdefl_get_adler32(tdefl_compressor *d); // Can't use tdefl_create_comp_flags_from_zip_params if MINIZ_NO_ZLIB_APIS isn't defined, because it uses some of its macros. #ifndef MINIZ_NO_ZLIB_APIS // Create tdefl_compress() flags given zlib-style compression parameters. // level may range from [0,10] (where 10 is absolute max compression, but may be much slower on some files) // window_bits may be -15 (raw deflate) or 15 (zlib) // strategy may be either MZ_DEFAULT_STRATEGY, MZ_FILTERED, MZ_HUFFMAN_ONLY, MZ_RLE, or MZ_FIXED mz_uint tdefl_create_comp_flags_from_zip_params(int level, int window_bits, int strategy); #endif // #ifndef MINIZ_NO_ZLIB_APIS #ifdef __cplusplus } #endif #endif // MINIZ_HEADER_INCLUDED // ------------------- End of Header: Implementation follows. (If you only want the header, define MINIZ_HEADER_FILE_ONLY.) #ifndef MINIZ_HEADER_FILE_ONLY typedef unsigned char mz_validate_uint16[sizeof(mz_uint16)==2 ? 1 : -1]; typedef unsigned char mz_validate_uint32[sizeof(mz_uint32)==4 ? 1 : -1]; typedef unsigned char mz_validate_uint64[sizeof(mz_uint64)==8 ? 1 : -1]; #include <string.h> #include <assert.h> #define MZ_ASSERT(x) assert(x) #ifdef MINIZ_NO_MALLOC #define MZ_MALLOC(x) NULL #define MZ_FREE(x) (void)x, ((void)0) #define MZ_REALLOC(p, x) NULL #else #define MZ_MALLOC(x) malloc(x) #define MZ_FREE(x) free(x) #define MZ_REALLOC(p, x) realloc(p, x) #endif #define MZ_MAX(a,b) (((a)>(b))?(a):(b)) #define MZ_MIN(a,b) (((a)<(b))?(a):(b)) #define MZ_CLEAR_OBJ(obj) memset(&(obj), 0, sizeof(obj)) #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN #define MZ_READ_LE16(p) *((const mz_uint16 *)(p)) #define MZ_READ_LE32(p) *((const mz_uint32 *)(p)) #else #define MZ_READ_LE16(p) ((mz_uint32)(((const mz_uint8 *)(p))[0]) | ((mz_uint32)(((const mz_uint8 *)(p))[1]) << 8U)) #define MZ_READ_LE32(p) ((mz_uint32)(((const mz_uint8 *)(p))[0]) | ((mz_uint32)(((const mz_uint8 *)(p))[1]) << 8U) | ((mz_uint32)(((const mz_uint8 *)(p))[2]) << 16U) | ((mz_uint32)(((const mz_uint8 *)(p))[3]) << 24U)) #endif #ifdef _MSC_VER #define MZ_FORCEINLINE __forceinline #elif defined(__GNUC__) #define MZ_FORCEINLINE inline __attribute__((__always_inline__)) #else #define MZ_FORCEINLINE inline #endif #ifdef __cplusplus extern "C" { #endif // ------------------- zlib-style API's mz_ulong mz_adler32(mz_ulong adler, const unsigned char *ptr, size_t buf_len) { mz_uint32 i, s1 = (mz_uint32)(adler & 0xffff), s2 = (mz_uint32)(adler >> 16); size_t block_len = buf_len % 5552; if (!ptr) return MZ_ADLER32_INIT; while (buf_len) { for (i = 0; i + 7 < block_len; i += 8, ptr += 8) { s1 += ptr[0], s2 += s1; s1 += ptr[1], s2 += s1; s1 += ptr[2], s2 += s1; s1 += ptr[3], s2 += s1; s1 += ptr[4], s2 += s1; s1 += ptr[5], s2 += s1; s1 += ptr[6], s2 += s1; s1 += ptr[7], s2 += s1; } for ( ; i < block_len; ++i) s1 += *ptr++, s2 += s1; s1 %= 65521U, s2 %= 65521U; buf_len -= block_len; block_len = 5552; } return (s2 << 16) + s1; } // Karl Malbrain's compact CRC-32. See "A compact CCITT crc16 and crc32 C implementation that balances processor cache usage against speed": http://www.geocities.com/malbrain/ mz_ulong mz_crc32(mz_ulong crc, const mz_uint8 *ptr, size_t buf_len) { static const mz_uint32 s_crc32[16] = { 0, 0x1db71064, 0x3b6e20c8, 0x26d930ac, 0x76dc4190, 0x6b6b51f4, 0x4db26158, 0x5005713c, 0xedb88320, 0xf00f9344, 0xd6d6a3e8, 0xcb61b38c, 0x9b64c2b0, 0x86d3d2d4, 0xa00ae278, 0xbdbdf21c }; mz_uint32 crcu32 = (mz_uint32)crc; if (!ptr) return MZ_CRC32_INIT; crcu32 = ~crcu32; while (buf_len--) { mz_uint8 b = *ptr++; crcu32 = (crcu32 >> 4) ^ s_crc32[(crcu32 & 0xF) ^ (b & 0xF)]; crcu32 = (crcu32 >> 4) ^ s_crc32[(crcu32 & 0xF) ^ (b >> 4)]; } return ~crcu32; } void mz_free(void *p) { MZ_FREE(p); } #ifndef MINIZ_NO_ZLIB_APIS static void *def_alloc_func(void *opaque, size_t items, size_t size) { (void)opaque, (void)items, (void)size; return MZ_MALLOC(items * size); } static void def_free_func(void *opaque, void *address) { (void)opaque, (void)address; MZ_FREE(address); } static void *def_realloc_func(void *opaque, void *address, size_t items, size_t size) { (void)opaque, (void)address, (void)items, (void)size; return MZ_REALLOC(address, items * size); } const char *mz_version(void) { return MZ_VERSION; } int mz_deflateInit(mz_streamp pStream, int level) { return mz_deflateInit2(pStream, level, MZ_DEFLATED, MZ_DEFAULT_WINDOW_BITS, 9, MZ_DEFAULT_STRATEGY); } int mz_deflateInit2(mz_streamp pStream, int level, int method, int window_bits, int mem_level, int strategy) { tdefl_compressor *pComp; mz_uint comp_flags = TDEFL_COMPUTE_ADLER32 | tdefl_create_comp_flags_from_zip_params(level, window_bits, strategy); if (!pStream) return MZ_STREAM_ERROR; if ((method != MZ_DEFLATED) || ((mem_level < 1) || (mem_level > 9)) || ((window_bits != MZ_DEFAULT_WINDOW_BITS) && (-window_bits != MZ_DEFAULT_WINDOW_BITS))) return MZ_PARAM_ERROR; pStream->data_type = 0; pStream->adler = MZ_ADLER32_INIT; pStream->msg = NULL; pStream->reserved = 0; pStream->total_in = 0; pStream->total_out = 0; if (!pStream->zalloc) pStream->zalloc = def_alloc_func; if (!pStream->zfree) pStream->zfree = def_free_func; pComp = (tdefl_compressor *)pStream->zalloc(pStream->opaque, 1, sizeof(tdefl_compressor)); if (!pComp) return MZ_MEM_ERROR; pStream->state = (struct mz_internal_state *)pComp; if (tdefl_init(pComp, NULL, NULL, comp_flags) != TDEFL_STATUS_OKAY) { mz_deflateEnd(pStream); return MZ_PARAM_ERROR; } return MZ_OK; } int mz_deflateReset(mz_streamp pStream) { if ((!pStream) || (!pStream->state) || (!pStream->zalloc) || (!pStream->zfree)) return MZ_STREAM_ERROR; pStream->total_in = pStream->total_out = 0; tdefl_init((tdefl_compressor*)pStream->state, NULL, NULL, ((tdefl_compressor*)pStream->state)->m_flags); return MZ_OK; } int mz_deflate(mz_streamp pStream, int flush) { size_t in_bytes, out_bytes; mz_ulong orig_total_in, orig_total_out; int mz_status = MZ_OK; if ((!pStream) || (!pStream->state) || (flush < 0) || (flush > MZ_FINISH) || (!pStream->next_out)) return MZ_STREAM_ERROR; if (!pStream->avail_out) return MZ_BUF_ERROR; if (flush == MZ_PARTIAL_FLUSH) flush = MZ_SYNC_FLUSH; if (((tdefl_compressor*)pStream->state)->m_prev_return_status == TDEFL_STATUS_DONE) return (flush == MZ_FINISH) ? MZ_STREAM_END : MZ_BUF_ERROR; orig_total_in = pStream->total_in; orig_total_out = pStream->total_out; for ( ; ; ) { tdefl_status defl_status; in_bytes = pStream->avail_in; out_bytes = pStream->avail_out; defl_status = tdefl_compress((tdefl_compressor*)pStream->state, pStream->next_in, &in_bytes, pStream->next_out, &out_bytes, (tdefl_flush)flush); pStream->next_in += (mz_uint)in_bytes; pStream->avail_in -= (mz_uint)in_bytes; pStream->total_in += (mz_uint)in_bytes; pStream->adler = tdefl_get_adler32((tdefl_compressor*)pStream->state); pStream->next_out += (mz_uint)out_bytes; pStream->avail_out -= (mz_uint)out_bytes; pStream->total_out += (mz_uint)out_bytes; if (defl_status < 0) { mz_status = MZ_STREAM_ERROR; break; } else if (defl_status == TDEFL_STATUS_DONE) { mz_status = MZ_STREAM_END; break; } else if (!pStream->avail_out) break; else if ((!pStream->avail_in) && (flush != MZ_FINISH)) { if ((flush) || (pStream->total_in != orig_total_in) || (pStream->total_out != orig_total_out)) break; return MZ_BUF_ERROR; // Can't make forward progress without some input. } } return mz_status; } int mz_deflateEnd(mz_streamp pStream) { if (!pStream) return MZ_STREAM_ERROR; if (pStream->state) { pStream->zfree(pStream->opaque, pStream->state); pStream->state = NULL; } return MZ_OK; } mz_ulong mz_deflateBound(mz_streamp pStream, mz_ulong source_len) { (void)pStream; // This is really over conservative. (And lame, but it's actually pretty tricky to compute a true upper bound given the way tdefl's blocking works.) return MZ_MAX(128 + (source_len * 110) / 100, 128 + source_len + ((source_len / (31 * 1024)) + 1) * 5); } int mz_compress2(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len, int level) { int status; mz_stream stream; memset(&stream, 0, sizeof(stream)); // In case mz_ulong is 64-bits (argh I hate longs). if ((source_len | *pDest_len) > 0xFFFFFFFFU) return MZ_PARAM_ERROR; stream.next_in = pSource; stream.avail_in = (mz_uint32)source_len; stream.next_out = pDest; stream.avail_out = (mz_uint32)*pDest_len; status = mz_deflateInit(&stream, level); if (status != MZ_OK) return status; status = mz_deflate(&stream, MZ_FINISH); if (status != MZ_STREAM_END) { mz_deflateEnd(&stream); return (status == MZ_OK) ? MZ_BUF_ERROR : status; } *pDest_len = stream.total_out; return mz_deflateEnd(&stream); } int mz_compress(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len) { return mz_compress2(pDest, pDest_len, pSource, source_len, MZ_DEFAULT_COMPRESSION); } mz_ulong mz_compressBound(mz_ulong source_len) { return mz_deflateBound(NULL, source_len); } typedef struct { tinfl_decompressor m_decomp; mz_uint m_dict_ofs, m_dict_avail, m_first_call, m_has_flushed; int m_window_bits; mz_uint8 m_dict[TINFL_LZ_DICT_SIZE]; tinfl_status m_last_status; } inflate_state; int mz_inflateInit2(mz_streamp pStream, int window_bits) { inflate_state *pDecomp; if (!pStream) return MZ_STREAM_ERROR; if ((window_bits != MZ_DEFAULT_WINDOW_BITS) && (-window_bits != MZ_DEFAULT_WINDOW_BITS)) return MZ_PARAM_ERROR; pStream->data_type = 0; pStream->adler = 0; pStream->msg = NULL; pStream->total_in = 0; pStream->total_out = 0; pStream->reserved = 0; if (!pStream->zalloc) pStream->zalloc = def_alloc_func; if (!pStream->zfree) pStream->zfree = def_free_func; pDecomp = (inflate_state*)pStream->zalloc(pStream->opaque, 1, sizeof(inflate_state)); if (!pDecomp) return MZ_MEM_ERROR; pStream->state = (struct mz_internal_state *)pDecomp; tinfl_init(&pDecomp->m_decomp); pDecomp->m_dict_ofs = 0; pDecomp->m_dict_avail = 0; pDecomp->m_last_status = TINFL_STATUS_NEEDS_MORE_INPUT; pDecomp->m_first_call = 1; pDecomp->m_has_flushed = 0; pDecomp->m_window_bits = window_bits; return MZ_OK; } int mz_inflateInit(mz_streamp pStream) { return mz_inflateInit2(pStream, MZ_DEFAULT_WINDOW_BITS); } int mz_inflate(mz_streamp pStream, int flush) { inflate_state* pState; mz_uint n, first_call, decomp_flags = TINFL_FLAG_COMPUTE_ADLER32; size_t in_bytes, out_bytes, orig_avail_in; tinfl_status status; if ((!pStream) || (!pStream->state)) return MZ_STREAM_ERROR; if (flush == MZ_PARTIAL_FLUSH) flush = MZ_SYNC_FLUSH; if ((flush) && (flush != MZ_SYNC_FLUSH) && (flush != MZ_FINISH)) return MZ_STREAM_ERROR; pState = (inflate_state*)pStream->state; if (pState->m_window_bits > 0) decomp_flags |= TINFL_FLAG_PARSE_ZLIB_HEADER; orig_avail_in = pStream->avail_in; first_call = pState->m_first_call; pState->m_first_call = 0; if (pState->m_last_status < 0) return MZ_DATA_ERROR; if (pState->m_has_flushed && (flush != MZ_FINISH)) return MZ_STREAM_ERROR; pState->m_has_flushed |= (flush == MZ_FINISH); if ((flush == MZ_FINISH) && (first_call)) { // MZ_FINISH on the first call implies that the input and output buffers are large enough to hold the entire compressed/decompressed file. decomp_flags |= TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF; in_bytes = pStream->avail_in; out_bytes = pStream->avail_out; status = tinfl_decompress(&pState->m_decomp, pStream->next_in, &in_bytes, pStream->next_out, pStream->next_out, &out_bytes, decomp_flags); pState->m_last_status = status; pStream->next_in += (mz_uint)in_bytes; pStream->avail_in -= (mz_uint)in_bytes; pStream->total_in += (mz_uint)in_bytes; pStream->adler = tinfl_get_adler32(&pState->m_decomp); pStream->next_out += (mz_uint)out_bytes; pStream->avail_out -= (mz_uint)out_bytes; pStream->total_out += (mz_uint)out_bytes; if (status < 0) return MZ_DATA_ERROR; else if (status != TINFL_STATUS_DONE) { pState->m_last_status = TINFL_STATUS_FAILED; return MZ_BUF_ERROR; } return MZ_STREAM_END; } // flush != MZ_FINISH then we must assume there's more input. if (flush != MZ_FINISH) decomp_flags |= TINFL_FLAG_HAS_MORE_INPUT; if (pState->m_dict_avail) { n = MZ_MIN(pState->m_dict_avail, pStream->avail_out); memcpy(pStream->next_out, pState->m_dict + pState->m_dict_ofs, n); pStream->next_out += n; pStream->avail_out -= n; pStream->total_out += n; pState->m_dict_avail -= n; pState->m_dict_ofs = (pState->m_dict_ofs + n) & (TINFL_LZ_DICT_SIZE - 1); return ((pState->m_last_status == TINFL_STATUS_DONE) && (!pState->m_dict_avail)) ? MZ_STREAM_END : MZ_OK; } for ( ; ; ) { in_bytes = pStream->avail_in; out_bytes = TINFL_LZ_DICT_SIZE - pState->m_dict_ofs; status = tinfl_decompress(&pState->m_decomp, pStream->next_in, &in_bytes, pState->m_dict, pState->m_dict + pState->m_dict_ofs, &out_bytes, decomp_flags); pState->m_last_status = status; pStream->next_in += (mz_uint)in_bytes; pStream->avail_in -= (mz_uint)in_bytes; pStream->total_in += (mz_uint)in_bytes; pStream->adler = tinfl_get_adler32(&pState->m_decomp); pState->m_dict_avail = (mz_uint)out_bytes; n = MZ_MIN(pState->m_dict_avail, pStream->avail_out); memcpy(pStream->next_out, pState->m_dict + pState->m_dict_ofs, n); pStream->next_out += n; pStream->avail_out -= n; pStream->total_out += n; pState->m_dict_avail -= n; pState->m_dict_ofs = (pState->m_dict_ofs + n) & (TINFL_LZ_DICT_SIZE - 1); if (status < 0) return MZ_DATA_ERROR; // Stream is corrupted (there could be some uncompressed data left in the output dictionary - oh well). else if ((status == TINFL_STATUS_NEEDS_MORE_INPUT) && (!orig_avail_in)) return MZ_BUF_ERROR; // Signal caller that we can't make forward progress without supplying more input or by setting flush to MZ_FINISH. else if (flush == MZ_FINISH) { // The output buffer MUST be large to hold the remaining uncompressed data when flush==MZ_FINISH. if (status == TINFL_STATUS_DONE) return pState->m_dict_avail ? MZ_BUF_ERROR : MZ_STREAM_END; // status here must be TINFL_STATUS_HAS_MORE_OUTPUT, which means there's at least 1 more byte on the way. If there's no more room left in the output buffer then something is wrong. else if (!pStream->avail_out) return MZ_BUF_ERROR; } else if ((status == TINFL_STATUS_DONE) || (!pStream->avail_in) || (!pStream->avail_out) || (pState->m_dict_avail)) break; } return ((status == TINFL_STATUS_DONE) && (!pState->m_dict_avail)) ? MZ_STREAM_END : MZ_OK; } int mz_inflateEnd(mz_streamp pStream) { if (!pStream) return MZ_STREAM_ERROR; if (pStream->state) { pStream->zfree(pStream->opaque, pStream->state); pStream->state = NULL; } return MZ_OK; } int mz_uncompress(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len) { mz_stream stream; int status; memset(&stream, 0, sizeof(stream)); // In case mz_ulong is 64-bits (argh I hate longs). if ((source_len | *pDest_len) > 0xFFFFFFFFU) return MZ_PARAM_ERROR; stream.next_in = pSource; stream.avail_in = (mz_uint32)source_len; stream.next_out = pDest; stream.avail_out = (mz_uint32)*pDest_len; status = mz_inflateInit(&stream); if (status != MZ_OK) return status; status = mz_inflate(&stream, MZ_FINISH); if (status != MZ_STREAM_END) { mz_inflateEnd(&stream); return ((status == MZ_BUF_ERROR) && (!stream.avail_in)) ? MZ_DATA_ERROR : status; } *pDest_len = stream.total_out; return mz_inflateEnd(&stream); } const char *mz_error(int err) { static struct { int m_err; const char *m_pDesc; } s_error_descs[] = { { MZ_OK, "" }, { MZ_STREAM_END, "stream end" }, { MZ_NEED_DICT, "need dictionary" }, { MZ_ERRNO, "file error" }, { MZ_STREAM_ERROR, "stream error" }, { MZ_DATA_ERROR, "data error" }, { MZ_MEM_ERROR, "out of memory" }, { MZ_BUF_ERROR, "buf error" }, { MZ_VERSION_ERROR, "version error" }, { MZ_PARAM_ERROR, "parameter error" } }; mz_uint i; for (i = 0; i < sizeof(s_error_descs) / sizeof(s_error_descs[0]); ++i) if (s_error_descs[i].m_err == err) return s_error_descs[i].m_pDesc; return NULL; } #endif //MINIZ_NO_ZLIB_APIS // ------------------- Low-level Decompression (completely independent from all compression API's) #define TINFL_MEMCPY(d, s, l) memcpy(d, s, l) #define TINFL_MEMSET(p, c, l) memset(p, c, l) #define TINFL_CR_BEGIN switch(r->m_state) { case 0: #define TINFL_CR_RETURN(state_index, result) do { status = result; r->m_state = state_index; goto common_exit; case state_index:; } MZ_MACRO_END #define TINFL_CR_RETURN_FOREVER(state_index, result) do { for ( ; ; ) { TINFL_CR_RETURN(state_index, result); } } MZ_MACRO_END #define TINFL_CR_FINISH } // TODO: If the caller has indicated that there's no more input, and we attempt to read beyond the input buf, then something is wrong with the input because the inflator never // reads ahead more than it needs to. Currently TINFL_GET_BYTE() pads the end of the stream with 0's in this scenario. #define TINFL_GET_BYTE(state_index, c) do { \ if (pIn_buf_cur >= pIn_buf_end) { \ for ( ; ; ) { \ if (decomp_flags & TINFL_FLAG_HAS_MORE_INPUT) { \ TINFL_CR_RETURN(state_index, TINFL_STATUS_NEEDS_MORE_INPUT); \ if (pIn_buf_cur < pIn_buf_end) { \ c = *pIn_buf_cur++; \ break; \ } \ } else { \ c = 0; \ break; \ } \ } \ } else c = *pIn_buf_cur++; } MZ_MACRO_END #define TINFL_NEED_BITS(state_index, n) do { mz_uint c; TINFL_GET_BYTE(state_index, c); bit_buf |= (((tinfl_bit_buf_t)c) << num_bits); num_bits += 8; } while (num_bits < (mz_uint)(n)) #define TINFL_SKIP_BITS(state_index, n) do { if (num_bits < (mz_uint)(n)) { TINFL_NEED_BITS(state_index, n); } bit_buf >>= (n); num_bits -= (n); } MZ_MACRO_END #define TINFL_GET_BITS(state_index, b, n) do { if (num_bits < (mz_uint)(n)) { TINFL_NEED_BITS(state_index, n); } b = bit_buf & ((1 << (n)) - 1); bit_buf >>= (n); num_bits -= (n); } MZ_MACRO_END // TINFL_HUFF_BITBUF_FILL() is only used rarely, when the number of bytes remaining in the input buffer falls below 2. // It reads just enough bytes from the input stream that are needed to decode the next Huffman code (and absolutely no more). It works by trying to fully decode a // Huffman code by using whatever bits are currently present in the bit buffer. If this fails, it reads another byte, and tries again until it succeeds or until the // bit buffer contains >=15 bits (deflate's max. Huffman code size). #define TINFL_HUFF_BITBUF_FILL(state_index, pHuff) \ do { \ temp = (pHuff)->m_look_up[bit_buf & (TINFL_FAST_LOOKUP_SIZE - 1)]; \ if (temp >= 0) { \ code_len = temp >> 9; \ if ((code_len) && (num_bits >= code_len)) \ break; \ } else if (num_bits > TINFL_FAST_LOOKUP_BITS) { \ code_len = TINFL_FAST_LOOKUP_BITS; \ do { \ temp = (pHuff)->m_tree[~temp + ((bit_buf >> code_len++) & 1)]; \ } while ((temp < 0) && (num_bits >= (code_len + 1))); if (temp >= 0) break; \ } TINFL_GET_BYTE(state_index, c); bit_buf |= (((tinfl_bit_buf_t)c) << num_bits); num_bits += 8; \ } while (num_bits < 15); // TINFL_HUFF_DECODE() decodes the next Huffman coded symbol. It's more complex than you would initially expect because the zlib API expects the decompressor to never read // beyond the final byte of the deflate stream. (In other words, when this macro wants to read another byte from the input, it REALLY needs another byte in order to fully // decode the next Huffman code.) Handling this properly is particularly important on raw deflate (non-zlib) streams, which aren't followed by a byte aligned adler-32. // The slow path is only executed at the very end of the input buffer. #define TINFL_HUFF_DECODE(state_index, sym, pHuff) do { \ int temp; mz_uint code_len, c; \ if (num_bits < 15) { \ if ((pIn_buf_end - pIn_buf_cur) < 2) { \ TINFL_HUFF_BITBUF_FILL(state_index, pHuff); \ } else { \ bit_buf |= (((tinfl_bit_buf_t)pIn_buf_cur[0]) << num_bits) | (((tinfl_bit_buf_t)pIn_buf_cur[1]) << (num_bits + 8)); pIn_buf_cur += 2; num_bits += 16; \ } \ } \ if ((temp = (pHuff)->m_look_up[bit_buf & (TINFL_FAST_LOOKUP_SIZE - 1)]) >= 0) \ code_len = temp >> 9, temp &= 511; \ else { \ code_len = TINFL_FAST_LOOKUP_BITS; do { temp = (pHuff)->m_tree[~temp + ((bit_buf >> code_len++) & 1)]; } while (temp < 0); \ } sym = temp; bit_buf >>= code_len; num_bits -= code_len; } MZ_MACRO_END tinfl_status tinfl_decompress(tinfl_decompressor *r, const mz_uint8 *pIn_buf_next, size_t *pIn_buf_size, mz_uint8 *pOut_buf_start, mz_uint8 *pOut_buf_next, size_t *pOut_buf_size, const mz_uint32 decomp_flags) { static const int s_length_base[31] = { 3,4,5,6,7,8,9,10,11,13, 15,17,19,23,27,31,35,43,51,59, 67,83,99,115,131,163,195,227,258,0,0 }; static const int s_length_extra[31]= { 0,0,0,0,0,0,0,0,1,1,1,1,2,2,2,2,3,3,3,3,4,4,4,4,5,5,5,5,0,0,0 }; static const int s_dist_base[32] = { 1,2,3,4,5,7,9,13,17,25,33,49,65,97,129,193, 257,385,513,769,1025,1537,2049,3073,4097,6145,8193,12289,16385,24577,0,0}; static const int s_dist_extra[32] = { 0,0,0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13}; static const mz_uint8 s_length_dezigzag[19] = { 16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15 }; static const int s_min_table_sizes[3] = { 257, 1, 4 }; tinfl_status status = TINFL_STATUS_FAILED; mz_uint32 num_bits, dist, counter, num_extra; tinfl_bit_buf_t bit_buf; const mz_uint8 *pIn_buf_cur = pIn_buf_next, *const pIn_buf_end = pIn_buf_next + *pIn_buf_size; mz_uint8 *pOut_buf_cur = pOut_buf_next, *const pOut_buf_end = pOut_buf_next + *pOut_buf_size; size_t out_buf_size_mask = (decomp_flags & TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF) ? (size_t)-1 : ((pOut_buf_next - pOut_buf_start) + *pOut_buf_size) - 1, dist_from_out_buf_start; // Ensure the output buffer's size is a power of 2, unless the output buffer is large enough to hold the entire output file (in which case it doesn't matter). if (((out_buf_size_mask + 1) & out_buf_size_mask) || (pOut_buf_next < pOut_buf_start)) { *pIn_buf_size = *pOut_buf_size = 0; return TINFL_STATUS_BAD_PARAM; } num_bits = r->m_num_bits; bit_buf = r->m_bit_buf; dist = r->m_dist; counter = r->m_counter; num_extra = r->m_num_extra; dist_from_out_buf_start = r->m_dist_from_out_buf_start; TINFL_CR_BEGIN bit_buf = num_bits = dist = counter = num_extra = r->m_zhdr0 = r->m_zhdr1 = 0; r->m_z_adler32 = r->m_check_adler32 = 1; if (decomp_flags & TINFL_FLAG_PARSE_ZLIB_HEADER) { TINFL_GET_BYTE(1, r->m_zhdr0); TINFL_GET_BYTE(2, r->m_zhdr1); counter = (((r->m_zhdr0 * 256 + r->m_zhdr1) % 31 != 0) || (r->m_zhdr1 & 32) || ((r->m_zhdr0 & 15) != 8)); if (!(decomp_flags & TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF)) counter |= (((1U << (8U + (r->m_zhdr0 >> 4))) > 32768U) || ((out_buf_size_mask + 1) < (size_t)(1U << (8U + (r->m_zhdr0 >> 4))))); if (counter) { TINFL_CR_RETURN_FOREVER(36, TINFL_STATUS_FAILED); } } do { TINFL_GET_BITS(3, r->m_final, 3); r->m_type = r->m_final >> 1; if (r->m_type == 0) { TINFL_SKIP_BITS(5, num_bits & 7); for (counter = 0; counter < 4; ++counter) { if (num_bits) TINFL_GET_BITS(6, r->m_raw_header[counter], 8); else TINFL_GET_BYTE(7, r->m_raw_header[counter]); } if ((counter = (r->m_raw_header[0] | (r->m_raw_header[1] << 8))) != (mz_uint)(0xFFFF ^ (r->m_raw_header[2] | (r->m_raw_header[3] << 8)))) { TINFL_CR_RETURN_FOREVER(39, TINFL_STATUS_FAILED); } while ((counter) && (num_bits)) { TINFL_GET_BITS(51, dist, 8); while (pOut_buf_cur >= pOut_buf_end) { TINFL_CR_RETURN(52, TINFL_STATUS_HAS_MORE_OUTPUT); } *pOut_buf_cur++ = (mz_uint8)dist; counter--; } while (counter) { size_t n; while (pOut_buf_cur >= pOut_buf_end) { TINFL_CR_RETURN(9, TINFL_STATUS_HAS_MORE_OUTPUT); } while (pIn_buf_cur >= pIn_buf_end) { if (decomp_flags & TINFL_FLAG_HAS_MORE_INPUT) { TINFL_CR_RETURN(38, TINFL_STATUS_NEEDS_MORE_INPUT); } else { TINFL_CR_RETURN_FOREVER(40, TINFL_STATUS_FAILED); } } n = MZ_MIN(MZ_MIN((size_t)(pOut_buf_end - pOut_buf_cur), (size_t)(pIn_buf_end - pIn_buf_cur)), counter); TINFL_MEMCPY(pOut_buf_cur, pIn_buf_cur, n); pIn_buf_cur += n; pOut_buf_cur += n; counter -= (mz_uint)n; } } else if (r->m_type == 3) { TINFL_CR_RETURN_FOREVER(10, TINFL_STATUS_FAILED); } else { if (r->m_type == 1) { mz_uint8 *p = r->m_tables[0].m_code_size; mz_uint i; r->m_table_sizes[0] = 288; r->m_table_sizes[1] = 32; TINFL_MEMSET(r->m_tables[1].m_code_size, 5, 32); for ( i = 0; i <= 143; ++i) *p++ = 8; for ( ; i <= 255; ++i) *p++ = 9; for ( ; i <= 279; ++i) *p++ = 7; for ( ; i <= 287; ++i) *p++ = 8; } else { for (counter = 0; counter < 3; counter++) { TINFL_GET_BITS(11, r->m_table_sizes[counter], "\05\05\04"[counter]); r->m_table_sizes[counter] += s_min_table_sizes[counter]; } MZ_CLEAR_OBJ(r->m_tables[2].m_code_size); for (counter = 0; counter < r->m_table_sizes[2]; counter++) { mz_uint s; TINFL_GET_BITS(14, s, 3); r->m_tables[2].m_code_size[s_length_dezigzag[counter]] = (mz_uint8)s; } r->m_table_sizes[2] = 19; } for ( ; (int)r->m_type >= 0; r->m_type--) { int tree_next, tree_cur; tinfl_huff_table *pTable; mz_uint i, j, used_syms, total, sym_index, next_code[17], total_syms[16]; pTable = &r->m_tables[r->m_type]; MZ_CLEAR_OBJ(total_syms); MZ_CLEAR_OBJ(pTable->m_look_up); MZ_CLEAR_OBJ(pTable->m_tree); for (i = 0; i < r->m_table_sizes[r->m_type]; ++i) total_syms[pTable->m_code_size[i]]++; used_syms = 0, total = 0; next_code[0] = next_code[1] = 0; for (i = 1; i <= 15; ++i) { used_syms += total_syms[i]; next_code[i + 1] = (total = ((total + total_syms[i]) << 1)); } if ((65536 != total) && (used_syms > 1)) { TINFL_CR_RETURN_FOREVER(35, TINFL_STATUS_FAILED); } for (tree_next = -1, sym_index = 0; sym_index < r->m_table_sizes[r->m_type]; ++sym_index) { mz_uint rev_code = 0, l, cur_code, code_size = pTable->m_code_size[sym_index]; if (!code_size) continue; cur_code = next_code[code_size]++; for (l = code_size; l > 0; l--, cur_code >>= 1) rev_code = (rev_code << 1) | (cur_code & 1); if (code_size <= TINFL_FAST_LOOKUP_BITS) { mz_int16 k = (mz_int16)((code_size << 9) | sym_index); while (rev_code < TINFL_FAST_LOOKUP_SIZE) { pTable->m_look_up[rev_code] = k; rev_code += (1 << code_size); } continue; } if (0 == (tree_cur = pTable->m_look_up[rev_code & (TINFL_FAST_LOOKUP_SIZE - 1)])) { pTable->m_look_up[rev_code & (TINFL_FAST_LOOKUP_SIZE - 1)] = (mz_int16)tree_next; tree_cur = tree_next; tree_next -= 2; } rev_code >>= (TINFL_FAST_LOOKUP_BITS - 1); for (j = code_size; j > (TINFL_FAST_LOOKUP_BITS + 1); j--) { tree_cur -= ((rev_code >>= 1) & 1); if (!pTable->m_tree[-tree_cur - 1]) { pTable->m_tree[-tree_cur - 1] = (mz_int16)tree_next; tree_cur = tree_next; tree_next -= 2; } else tree_cur = pTable->m_tree[-tree_cur - 1]; } tree_cur -= ((rev_code >>= 1) & 1); pTable->m_tree[-tree_cur - 1] = (mz_int16)sym_index; } if (r->m_type == 2) { for (counter = 0; counter < (r->m_table_sizes[0] + r->m_table_sizes[1]); ) { mz_uint s; TINFL_HUFF_DECODE(16, dist, &r->m_tables[2]); if (dist < 16) { r->m_len_codes[counter++] = (mz_uint8)dist; continue; } if ((dist == 16) && (!counter)) { TINFL_CR_RETURN_FOREVER(17, TINFL_STATUS_FAILED); } num_extra = "\02\03\07"[dist - 16]; TINFL_GET_BITS(18, s, num_extra); s += "\03\03\013"[dist - 16]; TINFL_MEMSET(r->m_len_codes + counter, (dist == 16) ? r->m_len_codes[counter - 1] : 0, s); counter += s; } if ((r->m_table_sizes[0] + r->m_table_sizes[1]) != counter) { TINFL_CR_RETURN_FOREVER(21, TINFL_STATUS_FAILED); } TINFL_MEMCPY(r->m_tables[0].m_code_size, r->m_len_codes, r->m_table_sizes[0]); TINFL_MEMCPY(r->m_tables[1].m_code_size, r->m_len_codes + r->m_table_sizes[0], r->m_table_sizes[1]); } } for ( ; ; ) { mz_uint8 *pSrc; for ( ; ; ) { if (((pIn_buf_end - pIn_buf_cur) < 4) || ((pOut_buf_end - pOut_buf_cur) < 2)) { TINFL_HUFF_DECODE(23, counter, &r->m_tables[0]); if (counter >= 256) break; while (pOut_buf_cur >= pOut_buf_end) { TINFL_CR_RETURN(24, TINFL_STATUS_HAS_MORE_OUTPUT); } *pOut_buf_cur++ = (mz_uint8)counter; } else { int sym2; mz_uint code_len; #if TINFL_USE_64BIT_BITBUF if (num_bits < 30) { bit_buf |= (((tinfl_bit_buf_t)MZ_READ_LE32(pIn_buf_cur)) << num_bits); pIn_buf_cur += 4; num_bits += 32; } #else if (num_bits < 15) { bit_buf |= (((tinfl_bit_buf_t)MZ_READ_LE16(pIn_buf_cur)) << num_bits); pIn_buf_cur += 2; num_bits += 16; } #endif if ((sym2 = r->m_tables[0].m_look_up[bit_buf & (TINFL_FAST_LOOKUP_SIZE - 1)]) >= 0) code_len = sym2 >> 9; else { code_len = TINFL_FAST_LOOKUP_BITS; do { sym2 = r->m_tables[0].m_tree[~sym2 + ((bit_buf >> code_len++) & 1)]; } while (sym2 < 0); } counter = sym2; bit_buf >>= code_len; num_bits -= code_len; if (counter & 256) break; #if !TINFL_USE_64BIT_BITBUF if (num_bits < 15) { bit_buf |= (((tinfl_bit_buf_t)MZ_READ_LE16(pIn_buf_cur)) << num_bits); pIn_buf_cur += 2; num_bits += 16; } #endif if ((sym2 = r->m_tables[0].m_look_up[bit_buf & (TINFL_FAST_LOOKUP_SIZE - 1)]) >= 0) code_len = sym2 >> 9; else { code_len = TINFL_FAST_LOOKUP_BITS; do { sym2 = r->m_tables[0].m_tree[~sym2 + ((bit_buf >> code_len++) & 1)]; } while (sym2 < 0); } bit_buf >>= code_len; num_bits -= code_len; pOut_buf_cur[0] = (mz_uint8)counter; if (sym2 & 256) { pOut_buf_cur++; counter = sym2; break; } pOut_buf_cur[1] = (mz_uint8)sym2; pOut_buf_cur += 2; } } if ((counter &= 511) == 256) break; num_extra = s_length_extra[counter - 257]; counter = s_length_base[counter - 257]; if (num_extra) { mz_uint extra_bits; TINFL_GET_BITS(25, extra_bits, num_extra); counter += extra_bits; } TINFL_HUFF_DECODE(26, dist, &r->m_tables[1]); num_extra = s_dist_extra[dist]; dist = s_dist_base[dist]; if (num_extra) { mz_uint extra_bits; TINFL_GET_BITS(27, extra_bits, num_extra); dist += extra_bits; } dist_from_out_buf_start = pOut_buf_cur - pOut_buf_start; if ((dist > dist_from_out_buf_start) && (decomp_flags & TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF)) { TINFL_CR_RETURN_FOREVER(37, TINFL_STATUS_FAILED); } pSrc = pOut_buf_start + ((dist_from_out_buf_start - dist) & out_buf_size_mask); if ((MZ_MAX(pOut_buf_cur, pSrc) + counter) > pOut_buf_end) { while (counter--) { while (pOut_buf_cur >= pOut_buf_end) { TINFL_CR_RETURN(53, TINFL_STATUS_HAS_MORE_OUTPUT); } *pOut_buf_cur++ = pOut_buf_start[(dist_from_out_buf_start++ - dist) & out_buf_size_mask]; } continue; } #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES else if ((counter >= 9) && (counter <= dist)) { const mz_uint8 *pSrc_end = pSrc + (counter & ~7); do { ((mz_uint32 *)pOut_buf_cur)[0] = ((const mz_uint32 *)pSrc)[0]; ((mz_uint32 *)pOut_buf_cur)[1] = ((const mz_uint32 *)pSrc)[1]; pOut_buf_cur += 8; } while ((pSrc += 8) < pSrc_end); if ((counter &= 7) < 3) { if (counter) { pOut_buf_cur[0] = pSrc[0]; if (counter > 1) pOut_buf_cur[1] = pSrc[1]; pOut_buf_cur += counter; } continue; } } #endif do { pOut_buf_cur[0] = pSrc[0]; pOut_buf_cur[1] = pSrc[1]; pOut_buf_cur[2] = pSrc[2]; pOut_buf_cur += 3; pSrc += 3; } while ((int)(counter -= 3) > 2); if ((int)counter > 0) { pOut_buf_cur[0] = pSrc[0]; if ((int)counter > 1) pOut_buf_cur[1] = pSrc[1]; pOut_buf_cur += counter; } } } } while (!(r->m_final & 1)); if (decomp_flags & TINFL_FLAG_PARSE_ZLIB_HEADER) { TINFL_SKIP_BITS(32, num_bits & 7); for (counter = 0; counter < 4; ++counter) { mz_uint s; if (num_bits) TINFL_GET_BITS(41, s, 8); else TINFL_GET_BYTE(42, s); r->m_z_adler32 = (r->m_z_adler32 << 8) | s; } } TINFL_CR_RETURN_FOREVER(34, TINFL_STATUS_DONE); TINFL_CR_FINISH common_exit: r->m_num_bits = num_bits; r->m_bit_buf = bit_buf; r->m_dist = dist; r->m_counter = counter; r->m_num_extra = num_extra; r->m_dist_from_out_buf_start = dist_from_out_buf_start; *pIn_buf_size = pIn_buf_cur - pIn_buf_next; *pOut_buf_size = pOut_buf_cur - pOut_buf_next; if ((decomp_flags & (TINFL_FLAG_PARSE_ZLIB_HEADER | TINFL_FLAG_COMPUTE_ADLER32)) && (status >= 0)) { const mz_uint8 *ptr = pOut_buf_next; size_t buf_len = *pOut_buf_size; mz_uint32 i, s1 = r->m_check_adler32 & 0xffff, s2 = r->m_check_adler32 >> 16; size_t block_len = buf_len % 5552; while (buf_len) { for (i = 0; i + 7 < block_len; i += 8, ptr += 8) { s1 += ptr[0], s2 += s1; s1 += ptr[1], s2 += s1; s1 += ptr[2], s2 += s1; s1 += ptr[3], s2 += s1; s1 += ptr[4], s2 += s1; s1 += ptr[5], s2 += s1; s1 += ptr[6], s2 += s1; s1 += ptr[7], s2 += s1; } for ( ; i < block_len; ++i) s1 += *ptr++, s2 += s1; s1 %= 65521U, s2 %= 65521U; buf_len -= block_len; block_len = 5552; } r->m_check_adler32 = (s2 << 16) + s1; if ((status == TINFL_STATUS_DONE) && (decomp_flags & TINFL_FLAG_PARSE_ZLIB_HEADER) && (r->m_check_adler32 != r->m_z_adler32)) status = TINFL_STATUS_ADLER32_MISMATCH; } return status; } // Higher level helper functions. void *tinfl_decompress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len, size_t *pOut_len, int flags) { tinfl_decompressor decomp; void *pBuf = NULL, *pNew_buf; size_t src_buf_ofs = 0, out_buf_capacity = 0; *pOut_len = 0; tinfl_init(&decomp); for ( ; ; ) { size_t src_buf_size = src_buf_len - src_buf_ofs, dst_buf_size = out_buf_capacity - *pOut_len, new_out_buf_capacity; tinfl_status status = tinfl_decompress(&decomp, (const mz_uint8*)pSrc_buf + src_buf_ofs, &src_buf_size, (mz_uint8*)pBuf, pBuf ? (mz_uint8*)pBuf + *pOut_len : NULL, &dst_buf_size, (flags & ~TINFL_FLAG_HAS_MORE_INPUT) | TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF); if ((status < 0) || (status == TINFL_STATUS_NEEDS_MORE_INPUT)) { MZ_FREE(pBuf); *pOut_len = 0; return NULL; } src_buf_ofs += src_buf_size; *pOut_len += dst_buf_size; if (status == TINFL_STATUS_DONE) break; new_out_buf_capacity = out_buf_capacity * 2; if (new_out_buf_capacity < 128) new_out_buf_capacity = 128; pNew_buf = MZ_REALLOC(pBuf, new_out_buf_capacity); if (!pNew_buf) { MZ_FREE(pBuf); *pOut_len = 0; return NULL; } pBuf = pNew_buf; out_buf_capacity = new_out_buf_capacity; } return pBuf; } size_t tinfl_decompress_mem_to_mem(void *pOut_buf, size_t out_buf_len, const void *pSrc_buf, size_t src_buf_len, int flags) { tinfl_decompressor decomp; tinfl_status status; tinfl_init(&decomp); status = tinfl_decompress(&decomp, (const mz_uint8*)pSrc_buf, &src_buf_len, (mz_uint8*)pOut_buf, (mz_uint8*)pOut_buf, &out_buf_len, (flags & ~TINFL_FLAG_HAS_MORE_INPUT) | TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF); return (status != TINFL_STATUS_DONE) ? TINFL_DECOMPRESS_MEM_TO_MEM_FAILED : out_buf_len; } int tinfl_decompress_mem_to_callback(const void *pIn_buf, size_t *pIn_buf_size, tinfl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags) { int result = 0; tinfl_decompressor decomp; mz_uint8 *pDict = (mz_uint8*)MZ_MALLOC(TINFL_LZ_DICT_SIZE); size_t in_buf_ofs = 0, dict_ofs = 0; if (!pDict) return TINFL_STATUS_FAILED; tinfl_init(&decomp); for ( ; ; ) { size_t in_buf_size = *pIn_buf_size - in_buf_ofs, dst_buf_size = TINFL_LZ_DICT_SIZE - dict_ofs; tinfl_status status = tinfl_decompress(&decomp, (const mz_uint8*)pIn_buf + in_buf_ofs, &in_buf_size, pDict, pDict + dict_ofs, &dst_buf_size, (flags & ~(TINFL_FLAG_HAS_MORE_INPUT | TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF))); in_buf_ofs += in_buf_size; if ((dst_buf_size) && (!(*pPut_buf_func)(pDict + dict_ofs, (int)dst_buf_size, pPut_buf_user))) break; if (status != TINFL_STATUS_HAS_MORE_OUTPUT) { result = (status == TINFL_STATUS_DONE); break; } dict_ofs = (dict_ofs + dst_buf_size) & (TINFL_LZ_DICT_SIZE - 1); } MZ_FREE(pDict); *pIn_buf_size = in_buf_ofs; return result; } // ------------------- Low-level Compression (independent from all decompression API's) // Purposely making these tables static for faster init and thread safety. static const mz_uint16 s_tdefl_len_sym[256] = { 257,258,259,260,261,262,263,264,265,265,266,266,267,267,268,268,269,269,269,269,270,270,270,270,271,271,271,271,272,272,272,272, 273,273,273,273,273,273,273,273,274,274,274,274,274,274,274,274,275,275,275,275,275,275,275,275,276,276,276,276,276,276,276,276, 277,277,277,277,277,277,277,277,277,277,277,277,277,277,277,277,278,278,278,278,278,278,278,278,278,278,278,278,278,278,278,278, 279,279,279,279,279,279,279,279,279,279,279,279,279,279,279,279,280,280,280,280,280,280,280,280,280,280,280,280,280,280,280,280, 281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281,281, 282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282,282, 283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283,283, 284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,284,285 }; static const mz_uint8 s_tdefl_len_extra[256] = { 0,0,0,0,0,0,0,0,1,1,1,1,1,1,1,1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3, 4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4, 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5, 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,0 }; static const mz_uint8 s_tdefl_small_dist_sym[512] = { 0,1,2,3,4,4,5,5,6,6,6,6,7,7,7,7,8,8,8,8,8,8,8,8,9,9,9,9,9,9,9,9,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,11,11,11,11,11,11, 11,11,11,11,11,11,11,11,11,11,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,13, 13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,14,14,14,14,14,14,14,14,14,14,14,14, 14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14,14, 14,14,14,14,14,14,14,14,14,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15, 15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,15,16,16,16,16,16,16,16,16,16,16,16,16,16, 16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16, 16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16, 16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,17,17,17,17,17,17,17,17,17,17,17,17,17,17, 17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17, 17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17, 17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17,17 }; static const mz_uint8 s_tdefl_small_dist_extra[512] = { 0,0,0,0,1,1,1,1,2,2,2,2,2,2,2,2,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,5,5,5,5,5,5,5,5, 5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6, 6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6, 6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7, 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7, 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7, 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7, 7,7,7,7,7,7,7,7 }; static const mz_uint8 s_tdefl_large_dist_sym[128] = { 0,0,18,19,20,20,21,21,22,22,22,22,23,23,23,23,24,24,24,24,24,24,24,24,25,25,25,25,25,25,25,25,26,26,26,26,26,26,26,26,26,26,26,26, 26,26,26,26,27,27,27,27,27,27,27,27,27,27,27,27,27,27,27,27,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28,28, 28,28,28,28,28,28,28,28,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29,29 }; static const mz_uint8 s_tdefl_large_dist_extra[128] = { 0,0,8,8,9,9,9,9,10,10,10,10,10,10,10,10,11,11,11,11,11,11,11,11,11,11,11,11,11,11,11,11,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12, 12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13, 13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13,13 }; // Radix sorts tdefl_sym_freq[] array by 16-bit key m_key. Returns ptr to sorted values. typedef struct { mz_uint16 m_key, m_sym_index; } tdefl_sym_freq; static tdefl_sym_freq* tdefl_radix_sort_syms(mz_uint num_syms, tdefl_sym_freq* pSyms0, tdefl_sym_freq* pSyms1) { mz_uint32 total_passes = 2, pass_shift, pass, i, hist[256 * 2]; tdefl_sym_freq* pCur_syms = pSyms0, *pNew_syms = pSyms1; MZ_CLEAR_OBJ(hist); for (i = 0; i < num_syms; i++) { mz_uint freq = pSyms0[i].m_key; hist[freq & 0xFF]++; hist[256 + ((freq >> 8) & 0xFF)]++; } while ((total_passes > 1) && (num_syms == hist[(total_passes - 1) * 256])) total_passes--; for (pass_shift = 0, pass = 0; pass < total_passes; pass++, pass_shift += 8) { const mz_uint32* pHist = &hist[pass << 8]; mz_uint offsets[256], cur_ofs = 0; for (i = 0; i < 256; i++) { offsets[i] = cur_ofs; cur_ofs += pHist[i]; } for (i = 0; i < num_syms; i++) pNew_syms[offsets[(pCur_syms[i].m_key >> pass_shift) & 0xFF]++] = pCur_syms[i]; { tdefl_sym_freq* t = pCur_syms; pCur_syms = pNew_syms; pNew_syms = t; } } return pCur_syms; } // tdefl_calculate_minimum_redundancy() originally written by: Alistair Moffat, [email protected], Jyrki Katajainen, [email protected], November 1996. static void tdefl_calculate_minimum_redundancy(tdefl_sym_freq *A, int n) { int root, leaf, next, avbl, used, dpth; if (n==0) return; else if (n==1) { A[0].m_key = 1; return; } A[0].m_key += A[1].m_key; root = 0; leaf = 2; for (next=1; next < n-1; next++) { if (leaf>=n || A[root].m_key<A[leaf].m_key) { A[next].m_key = A[root].m_key; A[root++].m_key = (mz_uint16)next; } else A[next].m_key = A[leaf++].m_key; if (leaf>=n || (root<next && A[root].m_key<A[leaf].m_key)) { A[next].m_key = (mz_uint16)(A[next].m_key + A[root].m_key); A[root++].m_key = (mz_uint16)next; } else A[next].m_key = (mz_uint16)(A[next].m_key + A[leaf++].m_key); } A[n-2].m_key = 0; for (next=n-3; next>=0; next--) A[next].m_key = A[A[next].m_key].m_key+1; avbl = 1; used = dpth = 0; root = n-2; next = n-1; while (avbl>0) { while (root>=0 && (int)A[root].m_key==dpth) { used++; root--; } while (avbl>used) { A[next--].m_key = (mz_uint16)(dpth); avbl--; } avbl = 2*used; dpth++; used = 0; } } // Limits canonical Huffman code table's max code size. enum { TDEFL_MAX_SUPPORTED_HUFF_CODESIZE = 32 }; static void tdefl_huffman_enforce_max_code_size(int *pNum_codes, int code_list_len, int max_code_size) { int i; mz_uint32 total = 0; if (code_list_len <= 1) return; for (i = max_code_size + 1; i <= TDEFL_MAX_SUPPORTED_HUFF_CODESIZE; i++) pNum_codes[max_code_size] += pNum_codes[i]; for (i = max_code_size; i > 0; i--) total += (((mz_uint32)pNum_codes[i]) << (max_code_size - i)); while (total != (1UL << max_code_size)) { pNum_codes[max_code_size]--; for (i = max_code_size - 1; i > 0; i--) if (pNum_codes[i]) { pNum_codes[i]--; pNum_codes[i + 1] += 2; break; } total--; } } static void tdefl_optimize_huffman_table(tdefl_compressor *d, int table_num, int table_len, int code_size_limit, int static_table) { int i, j, l, num_codes[1 + TDEFL_MAX_SUPPORTED_HUFF_CODESIZE]; mz_uint next_code[TDEFL_MAX_SUPPORTED_HUFF_CODESIZE + 1]; MZ_CLEAR_OBJ(num_codes); if (static_table) { for (i = 0; i < table_len; i++) num_codes[d->m_huff_code_sizes[table_num][i]]++; } else { tdefl_sym_freq syms0[TDEFL_MAX_HUFF_SYMBOLS], syms1[TDEFL_MAX_HUFF_SYMBOLS], *pSyms; int num_used_syms = 0; const mz_uint16 *pSym_count = &d->m_huff_count[table_num][0]; for (i = 0; i < table_len; i++) if (pSym_count[i]) { syms0[num_used_syms].m_key = (mz_uint16)pSym_count[i]; syms0[num_used_syms++].m_sym_index = (mz_uint16)i; } pSyms = tdefl_radix_sort_syms(num_used_syms, syms0, syms1); tdefl_calculate_minimum_redundancy(pSyms, num_used_syms); for (i = 0; i < num_used_syms; i++) num_codes[pSyms[i].m_key]++; tdefl_huffman_enforce_max_code_size(num_codes, num_used_syms, code_size_limit); MZ_CLEAR_OBJ(d->m_huff_code_sizes[table_num]); MZ_CLEAR_OBJ(d->m_huff_codes[table_num]); for (i = 1, j = num_used_syms; i <= code_size_limit; i++) for (l = num_codes[i]; l > 0; l--) d->m_huff_code_sizes[table_num][pSyms[--j].m_sym_index] = (mz_uint8)(i); } next_code[1] = 0; for (j = 0, i = 2; i <= code_size_limit; i++) next_code[i] = j = ((j + num_codes[i - 1]) << 1); for (i = 0; i < table_len; i++) { mz_uint rev_code = 0, code, code_size; if ((code_size = d->m_huff_code_sizes[table_num][i]) == 0) continue; code = next_code[code_size]++; for (l = code_size; l > 0; l--, code >>= 1) rev_code = (rev_code << 1) | (code & 1); d->m_huff_codes[table_num][i] = (mz_uint16)rev_code; } } #define TDEFL_PUT_BITS(b, l) do { \ mz_uint bits = b; mz_uint len = l; MZ_ASSERT(bits <= ((1U << len) - 1U)); \ d->m_bit_buffer |= (bits << d->m_bits_in); d->m_bits_in += len; \ while (d->m_bits_in >= 8) { \ if (d->m_pOutput_buf < d->m_pOutput_buf_end) \ *d->m_pOutput_buf++ = (mz_uint8)(d->m_bit_buffer); \ d->m_bit_buffer >>= 8; \ d->m_bits_in -= 8; \ } \ } MZ_MACRO_END #define TDEFL_RLE_PREV_CODE_SIZE() { if (rle_repeat_count) { \ if (rle_repeat_count < 3) { \ d->m_huff_count[2][prev_code_size] = (mz_uint16)(d->m_huff_count[2][prev_code_size] + rle_repeat_count); \ while (rle_repeat_count--) packed_code_sizes[num_packed_code_sizes++] = prev_code_size; \ } else { \ d->m_huff_count[2][16] = (mz_uint16)(d->m_huff_count[2][16] + 1); packed_code_sizes[num_packed_code_sizes++] = 16; packed_code_sizes[num_packed_code_sizes++] = (mz_uint8)(rle_repeat_count - 3); \ } rle_repeat_count = 0; } } #define TDEFL_RLE_ZERO_CODE_SIZE() { if (rle_z_count) { \ if (rle_z_count < 3) { \ d->m_huff_count[2][0] = (mz_uint16)(d->m_huff_count[2][0] + rle_z_count); while (rle_z_count--) packed_code_sizes[num_packed_code_sizes++] = 0; \ } else if (rle_z_count <= 10) { \ d->m_huff_count[2][17] = (mz_uint16)(d->m_huff_count[2][17] + 1); packed_code_sizes[num_packed_code_sizes++] = 17; packed_code_sizes[num_packed_code_sizes++] = (mz_uint8)(rle_z_count - 3); \ } else { \ d->m_huff_count[2][18] = (mz_uint16)(d->m_huff_count[2][18] + 1); packed_code_sizes[num_packed_code_sizes++] = 18; packed_code_sizes[num_packed_code_sizes++] = (mz_uint8)(rle_z_count - 11); \ } rle_z_count = 0; } } static mz_uint8 s_tdefl_packed_code_size_syms_swizzle[] = { 16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15 }; static void tdefl_start_dynamic_block(tdefl_compressor *d) { int num_lit_codes, num_dist_codes, num_bit_lengths; mz_uint i, total_code_sizes_to_pack, num_packed_code_sizes, rle_z_count, rle_repeat_count, packed_code_sizes_index; mz_uint8 code_sizes_to_pack[TDEFL_MAX_HUFF_SYMBOLS_0 + TDEFL_MAX_HUFF_SYMBOLS_1], packed_code_sizes[TDEFL_MAX_HUFF_SYMBOLS_0 + TDEFL_MAX_HUFF_SYMBOLS_1], prev_code_size = 0xFF; d->m_huff_count[0][256] = 1; tdefl_optimize_huffman_table(d, 0, TDEFL_MAX_HUFF_SYMBOLS_0, 15, MZ_FALSE); tdefl_optimize_huffman_table(d, 1, TDEFL_MAX_HUFF_SYMBOLS_1, 15, MZ_FALSE); for (num_lit_codes = 286; num_lit_codes > 257; num_lit_codes--) if (d->m_huff_code_sizes[0][num_lit_codes - 1]) break; for (num_dist_codes = 30; num_dist_codes > 1; num_dist_codes--) if (d->m_huff_code_sizes[1][num_dist_codes - 1]) break; memcpy(code_sizes_to_pack, &d->m_huff_code_sizes[0][0], num_lit_codes); memcpy(code_sizes_to_pack + num_lit_codes, &d->m_huff_code_sizes[1][0], num_dist_codes); total_code_sizes_to_pack = num_lit_codes + num_dist_codes; num_packed_code_sizes = 0; rle_z_count = 0; rle_repeat_count = 0; memset(&d->m_huff_count[2][0], 0, sizeof(d->m_huff_count[2][0]) * TDEFL_MAX_HUFF_SYMBOLS_2); for (i = 0; i < total_code_sizes_to_pack; i++) { mz_uint8 code_size = code_sizes_to_pack[i]; if (!code_size) { TDEFL_RLE_PREV_CODE_SIZE(); if (++rle_z_count == 138) { TDEFL_RLE_ZERO_CODE_SIZE(); } } else { TDEFL_RLE_ZERO_CODE_SIZE(); if (code_size != prev_code_size) { TDEFL_RLE_PREV_CODE_SIZE(); d->m_huff_count[2][code_size] = (mz_uint16)(d->m_huff_count[2][code_size] + 1); packed_code_sizes[num_packed_code_sizes++] = code_size; } else if (++rle_repeat_count == 6) { TDEFL_RLE_PREV_CODE_SIZE(); } } prev_code_size = code_size; } if (rle_repeat_count) { TDEFL_RLE_PREV_CODE_SIZE(); } else { TDEFL_RLE_ZERO_CODE_SIZE(); } tdefl_optimize_huffman_table(d, 2, TDEFL_MAX_HUFF_SYMBOLS_2, 7, MZ_FALSE); TDEFL_PUT_BITS(2, 2); TDEFL_PUT_BITS(num_lit_codes - 257, 5); TDEFL_PUT_BITS(num_dist_codes - 1, 5); for (num_bit_lengths = 18; num_bit_lengths >= 0; num_bit_lengths--) if (d->m_huff_code_sizes[2][s_tdefl_packed_code_size_syms_swizzle[num_bit_lengths]]) break; num_bit_lengths = MZ_MAX(4, (num_bit_lengths + 1)); TDEFL_PUT_BITS(num_bit_lengths - 4, 4); for (i = 0; (int)i < num_bit_lengths; i++) TDEFL_PUT_BITS(d->m_huff_code_sizes[2][s_tdefl_packed_code_size_syms_swizzle[i]], 3); for (packed_code_sizes_index = 0; packed_code_sizes_index < num_packed_code_sizes; ) { mz_uint code = packed_code_sizes[packed_code_sizes_index++]; MZ_ASSERT(code < TDEFL_MAX_HUFF_SYMBOLS_2); TDEFL_PUT_BITS(d->m_huff_codes[2][code], d->m_huff_code_sizes[2][code]); if (code >= 16) TDEFL_PUT_BITS(packed_code_sizes[packed_code_sizes_index++], "\02\03\07"[code - 16]); } } static void tdefl_start_static_block(tdefl_compressor *d) { mz_uint i; mz_uint8 *p = &d->m_huff_code_sizes[0][0]; for (i = 0; i <= 143; ++i) *p++ = 8; for ( ; i <= 255; ++i) *p++ = 9; for ( ; i <= 279; ++i) *p++ = 7; for ( ; i <= 287; ++i) *p++ = 8; memset(d->m_huff_code_sizes[1], 5, 32); tdefl_optimize_huffman_table(d, 0, 288, 15, MZ_TRUE); tdefl_optimize_huffman_table(d, 1, 32, 15, MZ_TRUE); TDEFL_PUT_BITS(1, 2); } static const mz_uint mz_bitmasks[17] = { 0x0000, 0x0001, 0x0003, 0x0007, 0x000F, 0x001F, 0x003F, 0x007F, 0x00FF, 0x01FF, 0x03FF, 0x07FF, 0x0FFF, 0x1FFF, 0x3FFF, 0x7FFF, 0xFFFF }; #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN && MINIZ_HAS_64BIT_REGISTERS static mz_bool tdefl_compress_lz_codes(tdefl_compressor *d) { mz_uint flags; mz_uint8 *pLZ_codes; mz_uint8 *pOutput_buf = d->m_pOutput_buf; mz_uint8 *pLZ_code_buf_end = d->m_pLZ_code_buf; mz_uint64 bit_buffer = d->m_bit_buffer; mz_uint bits_in = d->m_bits_in; #define TDEFL_PUT_BITS_FAST(b, l) { bit_buffer |= (((mz_uint64)(b)) << bits_in); bits_in += (l); } flags = 1; for (pLZ_codes = d->m_lz_code_buf; pLZ_codes < pLZ_code_buf_end; flags >>= 1) { if (flags == 1) flags = *pLZ_codes++ | 0x100; if (flags & 1) { mz_uint s0, s1, n0, n1, sym, num_extra_bits; mz_uint match_len = pLZ_codes[0], match_dist = *(const mz_uint16 *)(pLZ_codes + 1); pLZ_codes += 3; MZ_ASSERT(d->m_huff_code_sizes[0][s_tdefl_len_sym[match_len]]); TDEFL_PUT_BITS_FAST(d->m_huff_codes[0][s_tdefl_len_sym[match_len]], d->m_huff_code_sizes[0][s_tdefl_len_sym[match_len]]); TDEFL_PUT_BITS_FAST(match_len & mz_bitmasks[s_tdefl_len_extra[match_len]], s_tdefl_len_extra[match_len]); // This sequence coaxes MSVC into using cmov's vs. jmp's. s0 = s_tdefl_small_dist_sym[match_dist & 511]; n0 = s_tdefl_small_dist_extra[match_dist & 511]; s1 = s_tdefl_large_dist_sym[match_dist >> 8]; n1 = s_tdefl_large_dist_extra[match_dist >> 8]; sym = (match_dist < 512) ? s0 : s1; num_extra_bits = (match_dist < 512) ? n0 : n1; MZ_ASSERT(d->m_huff_code_sizes[1][sym]); TDEFL_PUT_BITS_FAST(d->m_huff_codes[1][sym], d->m_huff_code_sizes[1][sym]); TDEFL_PUT_BITS_FAST(match_dist & mz_bitmasks[num_extra_bits], num_extra_bits); } else { mz_uint lit = *pLZ_codes++; MZ_ASSERT(d->m_huff_code_sizes[0][lit]); TDEFL_PUT_BITS_FAST(d->m_huff_codes[0][lit], d->m_huff_code_sizes[0][lit]); if (((flags & 2) == 0) && (pLZ_codes < pLZ_code_buf_end)) { flags >>= 1; lit = *pLZ_codes++; MZ_ASSERT(d->m_huff_code_sizes[0][lit]); TDEFL_PUT_BITS_FAST(d->m_huff_codes[0][lit], d->m_huff_code_sizes[0][lit]); if (((flags & 2) == 0) && (pLZ_codes < pLZ_code_buf_end)) { flags >>= 1; lit = *pLZ_codes++; MZ_ASSERT(d->m_huff_code_sizes[0][lit]); TDEFL_PUT_BITS_FAST(d->m_huff_codes[0][lit], d->m_huff_code_sizes[0][lit]); } } } if (pOutput_buf >= d->m_pOutput_buf_end) return MZ_FALSE; *(mz_uint64*)pOutput_buf = bit_buffer; pOutput_buf += (bits_in >> 3); bit_buffer >>= (bits_in & ~7); bits_in &= 7; } #undef TDEFL_PUT_BITS_FAST d->m_pOutput_buf = pOutput_buf; d->m_bits_in = 0; d->m_bit_buffer = 0; while (bits_in) { mz_uint32 n = MZ_MIN(bits_in, 16); TDEFL_PUT_BITS((mz_uint)bit_buffer & mz_bitmasks[n], n); bit_buffer >>= n; bits_in -= n; } TDEFL_PUT_BITS(d->m_huff_codes[0][256], d->m_huff_code_sizes[0][256]); return (d->m_pOutput_buf < d->m_pOutput_buf_end); } #else static mz_bool tdefl_compress_lz_codes(tdefl_compressor *d) { mz_uint flags; mz_uint8 *pLZ_codes; flags = 1; for (pLZ_codes = d->m_lz_code_buf; pLZ_codes < d->m_pLZ_code_buf; flags >>= 1) { if (flags == 1) flags = *pLZ_codes++ | 0x100; if (flags & 1) { mz_uint sym, num_extra_bits; mz_uint match_len = pLZ_codes[0], match_dist = (pLZ_codes[1] | (pLZ_codes[2] << 8)); pLZ_codes += 3; MZ_ASSERT(d->m_huff_code_sizes[0][s_tdefl_len_sym[match_len]]); TDEFL_PUT_BITS(d->m_huff_codes[0][s_tdefl_len_sym[match_len]], d->m_huff_code_sizes[0][s_tdefl_len_sym[match_len]]); TDEFL_PUT_BITS(match_len & mz_bitmasks[s_tdefl_len_extra[match_len]], s_tdefl_len_extra[match_len]); if (match_dist < 512) { sym = s_tdefl_small_dist_sym[match_dist]; num_extra_bits = s_tdefl_small_dist_extra[match_dist]; } else { sym = s_tdefl_large_dist_sym[match_dist >> 8]; num_extra_bits = s_tdefl_large_dist_extra[match_dist >> 8]; } MZ_ASSERT(d->m_huff_code_sizes[1][sym]); TDEFL_PUT_BITS(d->m_huff_codes[1][sym], d->m_huff_code_sizes[1][sym]); TDEFL_PUT_BITS(match_dist & mz_bitmasks[num_extra_bits], num_extra_bits); } else { mz_uint lit = *pLZ_codes++; MZ_ASSERT(d->m_huff_code_sizes[0][lit]); TDEFL_PUT_BITS(d->m_huff_codes[0][lit], d->m_huff_code_sizes[0][lit]); } } TDEFL_PUT_BITS(d->m_huff_codes[0][256], d->m_huff_code_sizes[0][256]); return (d->m_pOutput_buf < d->m_pOutput_buf_end); } #endif // MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN && MINIZ_HAS_64BIT_REGISTERS static mz_bool tdefl_compress_block(tdefl_compressor *d, mz_bool static_block) { if (static_block) tdefl_start_static_block(d); else tdefl_start_dynamic_block(d); return tdefl_compress_lz_codes(d); } static int tdefl_flush_block(tdefl_compressor *d, int flush) { mz_uint saved_bit_buf, saved_bits_in; mz_uint8 *pSaved_output_buf; mz_bool comp_block_succeeded = MZ_FALSE; int n, use_raw_block = ((d->m_flags & TDEFL_FORCE_ALL_RAW_BLOCKS) != 0) && (d->m_lookahead_pos - d->m_lz_code_buf_dict_pos) <= d->m_dict_size; mz_uint8 *pOutput_buf_start = ((d->m_pPut_buf_func == NULL) && ((*d->m_pOut_buf_size - d->m_out_buf_ofs) >= TDEFL_OUT_BUF_SIZE)) ? ((mz_uint8 *)d->m_pOut_buf + d->m_out_buf_ofs) : d->m_output_buf; d->m_pOutput_buf = pOutput_buf_start; d->m_pOutput_buf_end = d->m_pOutput_buf + TDEFL_OUT_BUF_SIZE - 16; MZ_ASSERT(!d->m_output_flush_remaining); d->m_output_flush_ofs = 0; d->m_output_flush_remaining = 0; *d->m_pLZ_flags = (mz_uint8)(*d->m_pLZ_flags >> d->m_num_flags_left); d->m_pLZ_code_buf -= (d->m_num_flags_left == 8); if ((d->m_flags & TDEFL_WRITE_ZLIB_HEADER) && (!d->m_block_index)) { TDEFL_PUT_BITS(0x78, 8); TDEFL_PUT_BITS(0x01, 8); } TDEFL_PUT_BITS(flush == TDEFL_FINISH, 1); pSaved_output_buf = d->m_pOutput_buf; saved_bit_buf = d->m_bit_buffer; saved_bits_in = d->m_bits_in; if (!use_raw_block) comp_block_succeeded = tdefl_compress_block(d, (d->m_flags & TDEFL_FORCE_ALL_STATIC_BLOCKS) || (d->m_total_lz_bytes < 48)); // If the block gets expanded, forget the current contents of the output buffer and send a raw block instead. if ( ((use_raw_block) || ((d->m_total_lz_bytes) && ((d->m_pOutput_buf - pSaved_output_buf + 1U) >= d->m_total_lz_bytes))) && ((d->m_lookahead_pos - d->m_lz_code_buf_dict_pos) <= d->m_dict_size) ) { mz_uint i; d->m_pOutput_buf = pSaved_output_buf; d->m_bit_buffer = saved_bit_buf, d->m_bits_in = saved_bits_in; TDEFL_PUT_BITS(0, 2); if (d->m_bits_in) { TDEFL_PUT_BITS(0, 8 - d->m_bits_in); } for (i = 2; i; --i, d->m_total_lz_bytes ^= 0xFFFF) { TDEFL_PUT_BITS(d->m_total_lz_bytes & 0xFFFF, 16); } for (i = 0; i < d->m_total_lz_bytes; ++i) { TDEFL_PUT_BITS(d->m_dict[(d->m_lz_code_buf_dict_pos + i) & TDEFL_LZ_DICT_SIZE_MASK], 8); } } // Check for the extremely unlikely (if not impossible) case of the compressed block not fitting into the output buffer when using dynamic codes. else if (!comp_block_succeeded) { d->m_pOutput_buf = pSaved_output_buf; d->m_bit_buffer = saved_bit_buf, d->m_bits_in = saved_bits_in; tdefl_compress_block(d, MZ_TRUE); } if (flush) { if (flush == TDEFL_FINISH) { if (d->m_bits_in) { TDEFL_PUT_BITS(0, 8 - d->m_bits_in); } if (d->m_flags & TDEFL_WRITE_ZLIB_HEADER) { mz_uint i, a = d->m_adler32; for (i = 0; i < 4; i++) { TDEFL_PUT_BITS((a >> 24) & 0xFF, 8); a <<= 8; } } } else { mz_uint i, z = 0; TDEFL_PUT_BITS(0, 3); if (d->m_bits_in) { TDEFL_PUT_BITS(0, 8 - d->m_bits_in); } for (i = 2; i; --i, z ^= 0xFFFF) { TDEFL_PUT_BITS(z & 0xFFFF, 16); } } } MZ_ASSERT(d->m_pOutput_buf < d->m_pOutput_buf_end); memset(&d->m_huff_count[0][0], 0, sizeof(d->m_huff_count[0][0]) * TDEFL_MAX_HUFF_SYMBOLS_0); memset(&d->m_huff_count[1][0], 0, sizeof(d->m_huff_count[1][0]) * TDEFL_MAX_HUFF_SYMBOLS_1); d->m_pLZ_code_buf = d->m_lz_code_buf + 1; d->m_pLZ_flags = d->m_lz_code_buf; d->m_num_flags_left = 8; d->m_lz_code_buf_dict_pos += d->m_total_lz_bytes; d->m_total_lz_bytes = 0; d->m_block_index++; if ((n = (int)(d->m_pOutput_buf - pOutput_buf_start)) != 0) { if (d->m_pPut_buf_func) { *d->m_pIn_buf_size = d->m_pSrc - (const mz_uint8 *)d->m_pIn_buf; if (!(*d->m_pPut_buf_func)(d->m_output_buf, n, d->m_pPut_buf_user)) return (d->m_prev_return_status = TDEFL_STATUS_PUT_BUF_FAILED); } else if (pOutput_buf_start == d->m_output_buf) { int bytes_to_copy = (int)MZ_MIN((size_t)n, (size_t)(*d->m_pOut_buf_size - d->m_out_buf_ofs)); memcpy((mz_uint8 *)d->m_pOut_buf + d->m_out_buf_ofs, d->m_output_buf, bytes_to_copy); d->m_out_buf_ofs += bytes_to_copy; if ((n -= bytes_to_copy) != 0) { d->m_output_flush_ofs = bytes_to_copy; d->m_output_flush_remaining = n; } } else { d->m_out_buf_ofs += n; } } return d->m_output_flush_remaining; } #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES #define TDEFL_READ_UNALIGNED_WORD(p) *(const mz_uint16*)(p) static MZ_FORCEINLINE void tdefl_find_match(tdefl_compressor *d, mz_uint lookahead_pos, mz_uint max_dist, mz_uint max_match_len, mz_uint *pMatch_dist, mz_uint *pMatch_len) { mz_uint dist, pos = lookahead_pos & TDEFL_LZ_DICT_SIZE_MASK, match_len = *pMatch_len, probe_pos = pos, next_probe_pos, probe_len; mz_uint num_probes_left = d->m_max_probes[match_len >= 32]; const mz_uint16 *s = (const mz_uint16*)(d->m_dict + pos), *p, *q; mz_uint16 c01 = TDEFL_READ_UNALIGNED_WORD(&d->m_dict[pos + match_len - 1]), s01 = TDEFL_READ_UNALIGNED_WORD(s); MZ_ASSERT(max_match_len <= TDEFL_MAX_MATCH_LEN); if (max_match_len <= match_len) return; for ( ; ; ) { for ( ; ; ) { if (--num_probes_left == 0) return; #define TDEFL_PROBE \ next_probe_pos = d->m_next[probe_pos]; \ if ((!next_probe_pos) || ((dist = (mz_uint16)(lookahead_pos - next_probe_pos)) > max_dist)) return; \ probe_pos = next_probe_pos & TDEFL_LZ_DICT_SIZE_MASK; \ if (TDEFL_READ_UNALIGNED_WORD(&d->m_dict[probe_pos + match_len - 1]) == c01) break; TDEFL_PROBE; TDEFL_PROBE; TDEFL_PROBE; } if (!dist) break; q = (const mz_uint16*)(d->m_dict + probe_pos); if (TDEFL_READ_UNALIGNED_WORD(q) != s01) continue; p = s; probe_len = 32; do { } while ( (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (--probe_len > 0) ); if (!probe_len) { *pMatch_dist = dist; *pMatch_len = MZ_MIN(max_match_len, TDEFL_MAX_MATCH_LEN); break; } else if ((probe_len = ((mz_uint)(p - s) * 2) + (mz_uint)(*(const mz_uint8*)p == *(const mz_uint8*)q)) > match_len) { *pMatch_dist = dist; if ((*pMatch_len = match_len = MZ_MIN(max_match_len, probe_len)) == max_match_len) break; c01 = TDEFL_READ_UNALIGNED_WORD(&d->m_dict[pos + match_len - 1]); } } } #else static MZ_FORCEINLINE void tdefl_find_match(tdefl_compressor *d, mz_uint lookahead_pos, mz_uint max_dist, mz_uint max_match_len, mz_uint *pMatch_dist, mz_uint *pMatch_len) { mz_uint dist, pos = lookahead_pos & TDEFL_LZ_DICT_SIZE_MASK, match_len = *pMatch_len, probe_pos = pos, next_probe_pos, probe_len; mz_uint num_probes_left = d->m_max_probes[match_len >= 32]; const mz_uint8 *s = d->m_dict + pos, *p, *q; mz_uint8 c0 = d->m_dict[pos + match_len], c1 = d->m_dict[pos + match_len - 1]; MZ_ASSERT(max_match_len <= TDEFL_MAX_MATCH_LEN); if (max_match_len <= match_len) return; for ( ; ; ) { for ( ; ; ) { if (--num_probes_left == 0) return; #define TDEFL_PROBE \ next_probe_pos = d->m_next[probe_pos]; \ if ((!next_probe_pos) || ((dist = (mz_uint16)(lookahead_pos - next_probe_pos)) > max_dist)) return; \ probe_pos = next_probe_pos & TDEFL_LZ_DICT_SIZE_MASK; \ if ((d->m_dict[probe_pos + match_len] == c0) && (d->m_dict[probe_pos + match_len - 1] == c1)) break; TDEFL_PROBE; TDEFL_PROBE; TDEFL_PROBE; } if (!dist) break; p = s; q = d->m_dict + probe_pos; for (probe_len = 0; probe_len < max_match_len; probe_len++) if (*p++ != *q++) break; if (probe_len > match_len) { *pMatch_dist = dist; if ((*pMatch_len = match_len = probe_len) == max_match_len) return; c0 = d->m_dict[pos + match_len]; c1 = d->m_dict[pos + match_len - 1]; } } } #endif // #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN static mz_bool tdefl_compress_fast(tdefl_compressor *d) { // Faster, minimally featured LZRW1-style match+parse loop with better register utilization. Intended for applications where raw throughput is valued more highly than ratio. mz_uint lookahead_pos = d->m_lookahead_pos, lookahead_size = d->m_lookahead_size, dict_size = d->m_dict_size, total_lz_bytes = d->m_total_lz_bytes, num_flags_left = d->m_num_flags_left; mz_uint8 *pLZ_code_buf = d->m_pLZ_code_buf, *pLZ_flags = d->m_pLZ_flags; mz_uint cur_pos = lookahead_pos & TDEFL_LZ_DICT_SIZE_MASK; while ((d->m_src_buf_left) || ((d->m_flush) && (lookahead_size))) { const mz_uint TDEFL_COMP_FAST_LOOKAHEAD_SIZE = 4096; mz_uint dst_pos = (lookahead_pos + lookahead_size) & TDEFL_LZ_DICT_SIZE_MASK; mz_uint num_bytes_to_process = (mz_uint)MZ_MIN(d->m_src_buf_left, TDEFL_COMP_FAST_LOOKAHEAD_SIZE - lookahead_size); d->m_src_buf_left -= num_bytes_to_process; lookahead_size += num_bytes_to_process; while (num_bytes_to_process) { mz_uint32 n = MZ_MIN(TDEFL_LZ_DICT_SIZE - dst_pos, num_bytes_to_process); memcpy(d->m_dict + dst_pos, d->m_pSrc, n); if (dst_pos < (TDEFL_MAX_MATCH_LEN - 1)) memcpy(d->m_dict + TDEFL_LZ_DICT_SIZE + dst_pos, d->m_pSrc, MZ_MIN(n, (TDEFL_MAX_MATCH_LEN - 1) - dst_pos)); d->m_pSrc += n; dst_pos = (dst_pos + n) & TDEFL_LZ_DICT_SIZE_MASK; num_bytes_to_process -= n; } dict_size = MZ_MIN(TDEFL_LZ_DICT_SIZE - lookahead_size, dict_size); if ((!d->m_flush) && (lookahead_size < TDEFL_COMP_FAST_LOOKAHEAD_SIZE)) break; while (lookahead_size >= 4) { mz_uint cur_match_dist, cur_match_len = 1; mz_uint8 *pCur_dict = d->m_dict + cur_pos; mz_uint first_trigram = (*(const mz_uint32 *)pCur_dict) & 0xFFFFFF; mz_uint hash = (first_trigram ^ (first_trigram >> (24 - (TDEFL_LZ_HASH_BITS - 8)))) & TDEFL_LEVEL1_HASH_SIZE_MASK; mz_uint probe_pos = d->m_hash[hash]; d->m_hash[hash] = (mz_uint16)lookahead_pos; if (((cur_match_dist = (mz_uint16)(lookahead_pos - probe_pos)) <= dict_size) && ((*(const mz_uint32 *)(d->m_dict + (probe_pos &= TDEFL_LZ_DICT_SIZE_MASK)) & 0xFFFFFF) == first_trigram)) { const mz_uint16 *p = (const mz_uint16 *)pCur_dict; const mz_uint16 *q = (const mz_uint16 *)(d->m_dict + probe_pos); mz_uint32 probe_len = 32; do { } while ( (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (TDEFL_READ_UNALIGNED_WORD(++p) == TDEFL_READ_UNALIGNED_WORD(++q)) && (--probe_len > 0) ); cur_match_len = ((mz_uint)(p - (const mz_uint16 *)pCur_dict) * 2) + (mz_uint)(*(const mz_uint8 *)p == *(const mz_uint8 *)q); if (!probe_len) cur_match_len = cur_match_dist ? TDEFL_MAX_MATCH_LEN : 0; if ((cur_match_len < TDEFL_MIN_MATCH_LEN) || ((cur_match_len == TDEFL_MIN_MATCH_LEN) && (cur_match_dist >= 8U*1024U))) { cur_match_len = 1; *pLZ_code_buf++ = (mz_uint8)first_trigram; *pLZ_flags = (mz_uint8)(*pLZ_flags >> 1); d->m_huff_count[0][(mz_uint8)first_trigram]++; } else { mz_uint32 s0, s1; cur_match_len = MZ_MIN(cur_match_len, lookahead_size); MZ_ASSERT((cur_match_len >= TDEFL_MIN_MATCH_LEN) && (cur_match_dist >= 1) && (cur_match_dist <= TDEFL_LZ_DICT_SIZE)); cur_match_dist--; pLZ_code_buf[0] = (mz_uint8)(cur_match_len - TDEFL_MIN_MATCH_LEN); *(mz_uint16 *)(&pLZ_code_buf[1]) = (mz_uint16)cur_match_dist; pLZ_code_buf += 3; *pLZ_flags = (mz_uint8)((*pLZ_flags >> 1) | 0x80); s0 = s_tdefl_small_dist_sym[cur_match_dist & 511]; s1 = s_tdefl_large_dist_sym[cur_match_dist >> 8]; d->m_huff_count[1][(cur_match_dist < 512) ? s0 : s1]++; d->m_huff_count[0][s_tdefl_len_sym[cur_match_len - TDEFL_MIN_MATCH_LEN]]++; } } else { *pLZ_code_buf++ = (mz_uint8)first_trigram; *pLZ_flags = (mz_uint8)(*pLZ_flags >> 1); d->m_huff_count[0][(mz_uint8)first_trigram]++; } if (--num_flags_left == 0) { num_flags_left = 8; pLZ_flags = pLZ_code_buf++; } total_lz_bytes += cur_match_len; lookahead_pos += cur_match_len; dict_size = MZ_MIN(dict_size + cur_match_len, TDEFL_LZ_DICT_SIZE); cur_pos = (cur_pos + cur_match_len) & TDEFL_LZ_DICT_SIZE_MASK; MZ_ASSERT(lookahead_size >= cur_match_len); lookahead_size -= cur_match_len; if (pLZ_code_buf > &d->m_lz_code_buf[TDEFL_LZ_CODE_BUF_SIZE - 8]) { int n; d->m_lookahead_pos = lookahead_pos; d->m_lookahead_size = lookahead_size; d->m_dict_size = dict_size; d->m_total_lz_bytes = total_lz_bytes; d->m_pLZ_code_buf = pLZ_code_buf; d->m_pLZ_flags = pLZ_flags; d->m_num_flags_left = num_flags_left; if ((n = tdefl_flush_block(d, 0)) != 0) return (n < 0) ? MZ_FALSE : MZ_TRUE; total_lz_bytes = d->m_total_lz_bytes; pLZ_code_buf = d->m_pLZ_code_buf; pLZ_flags = d->m_pLZ_flags; num_flags_left = d->m_num_flags_left; } } while (lookahead_size) { mz_uint8 lit = d->m_dict[cur_pos]; total_lz_bytes++; *pLZ_code_buf++ = lit; *pLZ_flags = (mz_uint8)(*pLZ_flags >> 1); if (--num_flags_left == 0) { num_flags_left = 8; pLZ_flags = pLZ_code_buf++; } d->m_huff_count[0][lit]++; lookahead_pos++; dict_size = MZ_MIN(dict_size + 1, TDEFL_LZ_DICT_SIZE); cur_pos = (cur_pos + 1) & TDEFL_LZ_DICT_SIZE_MASK; lookahead_size--; if (pLZ_code_buf > &d->m_lz_code_buf[TDEFL_LZ_CODE_BUF_SIZE - 8]) { int n; d->m_lookahead_pos = lookahead_pos; d->m_lookahead_size = lookahead_size; d->m_dict_size = dict_size; d->m_total_lz_bytes = total_lz_bytes; d->m_pLZ_code_buf = pLZ_code_buf; d->m_pLZ_flags = pLZ_flags; d->m_num_flags_left = num_flags_left; if ((n = tdefl_flush_block(d, 0)) != 0) return (n < 0) ? MZ_FALSE : MZ_TRUE; total_lz_bytes = d->m_total_lz_bytes; pLZ_code_buf = d->m_pLZ_code_buf; pLZ_flags = d->m_pLZ_flags; num_flags_left = d->m_num_flags_left; } } } d->m_lookahead_pos = lookahead_pos; d->m_lookahead_size = lookahead_size; d->m_dict_size = dict_size; d->m_total_lz_bytes = total_lz_bytes; d->m_pLZ_code_buf = pLZ_code_buf; d->m_pLZ_flags = pLZ_flags; d->m_num_flags_left = num_flags_left; return MZ_TRUE; } #endif // MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN static MZ_FORCEINLINE void tdefl_record_literal(tdefl_compressor *d, mz_uint8 lit) { d->m_total_lz_bytes++; *d->m_pLZ_code_buf++ = lit; *d->m_pLZ_flags = (mz_uint8)(*d->m_pLZ_flags >> 1); if (--d->m_num_flags_left == 0) { d->m_num_flags_left = 8; d->m_pLZ_flags = d->m_pLZ_code_buf++; } d->m_huff_count[0][lit]++; } static MZ_FORCEINLINE void tdefl_record_match(tdefl_compressor *d, mz_uint match_len, mz_uint match_dist) { mz_uint32 s0, s1; MZ_ASSERT((match_len >= TDEFL_MIN_MATCH_LEN) && (match_dist >= 1) && (match_dist <= TDEFL_LZ_DICT_SIZE)); d->m_total_lz_bytes += match_len; d->m_pLZ_code_buf[0] = (mz_uint8)(match_len - TDEFL_MIN_MATCH_LEN); match_dist -= 1; d->m_pLZ_code_buf[1] = (mz_uint8)(match_dist & 0xFF); d->m_pLZ_code_buf[2] = (mz_uint8)(match_dist >> 8); d->m_pLZ_code_buf += 3; *d->m_pLZ_flags = (mz_uint8)((*d->m_pLZ_flags >> 1) | 0x80); if (--d->m_num_flags_left == 0) { d->m_num_flags_left = 8; d->m_pLZ_flags = d->m_pLZ_code_buf++; } s0 = s_tdefl_small_dist_sym[match_dist & 511]; s1 = s_tdefl_large_dist_sym[(match_dist >> 8) & 127]; d->m_huff_count[1][(match_dist < 512) ? s0 : s1]++; if (match_len >= TDEFL_MIN_MATCH_LEN) d->m_huff_count[0][s_tdefl_len_sym[match_len - TDEFL_MIN_MATCH_LEN]]++; } static mz_bool tdefl_compress_normal(tdefl_compressor *d) { const mz_uint8 *pSrc = d->m_pSrc; size_t src_buf_left = d->m_src_buf_left; tdefl_flush flush = d->m_flush; while ((src_buf_left) || ((flush) && (d->m_lookahead_size))) { mz_uint len_to_move, cur_match_dist, cur_match_len, cur_pos; // Update dictionary and hash chains. Keeps the lookahead size equal to TDEFL_MAX_MATCH_LEN. if ((d->m_lookahead_size + d->m_dict_size) >= (TDEFL_MIN_MATCH_LEN - 1)) { mz_uint dst_pos = (d->m_lookahead_pos + d->m_lookahead_size) & TDEFL_LZ_DICT_SIZE_MASK, ins_pos = d->m_lookahead_pos + d->m_lookahead_size - 2; mz_uint hash = (d->m_dict[ins_pos & TDEFL_LZ_DICT_SIZE_MASK] << TDEFL_LZ_HASH_SHIFT) ^ d->m_dict[(ins_pos + 1) & TDEFL_LZ_DICT_SIZE_MASK]; mz_uint num_bytes_to_process = (mz_uint)MZ_MIN(src_buf_left, TDEFL_MAX_MATCH_LEN - d->m_lookahead_size); const mz_uint8 *pSrc_end = pSrc + num_bytes_to_process; src_buf_left -= num_bytes_to_process; d->m_lookahead_size += num_bytes_to_process; while (pSrc != pSrc_end) { mz_uint8 c = *pSrc++; d->m_dict[dst_pos] = c; if (dst_pos < (TDEFL_MAX_MATCH_LEN - 1)) d->m_dict[TDEFL_LZ_DICT_SIZE + dst_pos] = c; hash = ((hash << TDEFL_LZ_HASH_SHIFT) ^ c) & (TDEFL_LZ_HASH_SIZE - 1); d->m_next[ins_pos & TDEFL_LZ_DICT_SIZE_MASK] = d->m_hash[hash]; d->m_hash[hash] = (mz_uint16)(ins_pos); dst_pos = (dst_pos + 1) & TDEFL_LZ_DICT_SIZE_MASK; ins_pos++; } } else { while ((src_buf_left) && (d->m_lookahead_size < TDEFL_MAX_MATCH_LEN)) { mz_uint8 c = *pSrc++; mz_uint dst_pos = (d->m_lookahead_pos + d->m_lookahead_size) & TDEFL_LZ_DICT_SIZE_MASK; src_buf_left--; d->m_dict[dst_pos] = c; if (dst_pos < (TDEFL_MAX_MATCH_LEN - 1)) d->m_dict[TDEFL_LZ_DICT_SIZE + dst_pos] = c; if ((++d->m_lookahead_size + d->m_dict_size) >= TDEFL_MIN_MATCH_LEN) { mz_uint ins_pos = d->m_lookahead_pos + (d->m_lookahead_size - 1) - 2; mz_uint hash = ((d->m_dict[ins_pos & TDEFL_LZ_DICT_SIZE_MASK] << (TDEFL_LZ_HASH_SHIFT * 2)) ^ (d->m_dict[(ins_pos + 1) & TDEFL_LZ_DICT_SIZE_MASK] << TDEFL_LZ_HASH_SHIFT) ^ c) & (TDEFL_LZ_HASH_SIZE - 1); d->m_next[ins_pos & TDEFL_LZ_DICT_SIZE_MASK] = d->m_hash[hash]; d->m_hash[hash] = (mz_uint16)(ins_pos); } } } d->m_dict_size = MZ_MIN(TDEFL_LZ_DICT_SIZE - d->m_lookahead_size, d->m_dict_size); if ((!flush) && (d->m_lookahead_size < TDEFL_MAX_MATCH_LEN)) break; // Simple lazy/greedy parsing state machine. len_to_move = 1; cur_match_dist = 0; cur_match_len = d->m_saved_match_len ? d->m_saved_match_len : (TDEFL_MIN_MATCH_LEN - 1); cur_pos = d->m_lookahead_pos & TDEFL_LZ_DICT_SIZE_MASK; if (d->m_flags & (TDEFL_RLE_MATCHES | TDEFL_FORCE_ALL_RAW_BLOCKS)) { if ((d->m_dict_size) && (!(d->m_flags & TDEFL_FORCE_ALL_RAW_BLOCKS))) { mz_uint8 c = d->m_dict[(cur_pos - 1) & TDEFL_LZ_DICT_SIZE_MASK]; cur_match_len = 0; while (cur_match_len < d->m_lookahead_size) { if (d->m_dict[cur_pos + cur_match_len] != c) break; cur_match_len++; } if (cur_match_len < TDEFL_MIN_MATCH_LEN) cur_match_len = 0; else cur_match_dist = 1; } } else { tdefl_find_match(d, d->m_lookahead_pos, d->m_dict_size, d->m_lookahead_size, &cur_match_dist, &cur_match_len); } if (((cur_match_len == TDEFL_MIN_MATCH_LEN) && (cur_match_dist >= 8U*1024U)) || (cur_pos == cur_match_dist) || ((d->m_flags & TDEFL_FILTER_MATCHES) && (cur_match_len <= 5))) { cur_match_dist = cur_match_len = 0; } if (d->m_saved_match_len) { if (cur_match_len > d->m_saved_match_len) { tdefl_record_literal(d, (mz_uint8)d->m_saved_lit); if (cur_match_len >= 128) { tdefl_record_match(d, cur_match_len, cur_match_dist); d->m_saved_match_len = 0; len_to_move = cur_match_len; } else { d->m_saved_lit = d->m_dict[cur_pos]; d->m_saved_match_dist = cur_match_dist; d->m_saved_match_len = cur_match_len; } } else { tdefl_record_match(d, d->m_saved_match_len, d->m_saved_match_dist); len_to_move = d->m_saved_match_len - 1; d->m_saved_match_len = 0; } } else if (!cur_match_dist) tdefl_record_literal(d, d->m_dict[MZ_MIN(cur_pos, sizeof(d->m_dict) - 1)]); else if ((d->m_greedy_parsing) || (d->m_flags & TDEFL_RLE_MATCHES) || (cur_match_len >= 128)) { tdefl_record_match(d, cur_match_len, cur_match_dist); len_to_move = cur_match_len; } else { d->m_saved_lit = d->m_dict[MZ_MIN(cur_pos, sizeof(d->m_dict) - 1)]; d->m_saved_match_dist = cur_match_dist; d->m_saved_match_len = cur_match_len; } // Move the lookahead forward by len_to_move bytes. d->m_lookahead_pos += len_to_move; MZ_ASSERT(d->m_lookahead_size >= len_to_move); d->m_lookahead_size -= len_to_move; d->m_dict_size = MZ_MIN(d->m_dict_size + len_to_move, TDEFL_LZ_DICT_SIZE); // Check if it's time to flush the current LZ codes to the internal output buffer. if ( (d->m_pLZ_code_buf > &d->m_lz_code_buf[TDEFL_LZ_CODE_BUF_SIZE - 8]) || ( (d->m_total_lz_bytes > 31*1024) && (((((mz_uint)(d->m_pLZ_code_buf - d->m_lz_code_buf) * 115) >> 7) >= d->m_total_lz_bytes) || (d->m_flags & TDEFL_FORCE_ALL_RAW_BLOCKS))) ) { int n; d->m_pSrc = pSrc; d->m_src_buf_left = src_buf_left; if ((n = tdefl_flush_block(d, 0)) != 0) return (n < 0) ? MZ_FALSE : MZ_TRUE; } } d->m_pSrc = pSrc; d->m_src_buf_left = src_buf_left; return MZ_TRUE; } static tdefl_status tdefl_flush_output_buffer(tdefl_compressor *d) { if (d->m_pIn_buf_size) { *d->m_pIn_buf_size = d->m_pSrc - (const mz_uint8 *)d->m_pIn_buf; } if (d->m_pOut_buf_size) { size_t n = MZ_MIN(*d->m_pOut_buf_size - d->m_out_buf_ofs, d->m_output_flush_remaining); memcpy((mz_uint8 *)d->m_pOut_buf + d->m_out_buf_ofs, d->m_output_buf + d->m_output_flush_ofs, n); d->m_output_flush_ofs += (mz_uint)n; d->m_output_flush_remaining -= (mz_uint)n; d->m_out_buf_ofs += n; *d->m_pOut_buf_size = d->m_out_buf_ofs; } return (d->m_finished && !d->m_output_flush_remaining) ? TDEFL_STATUS_DONE : TDEFL_STATUS_OKAY; } tdefl_status tdefl_compress(tdefl_compressor *d, const void *pIn_buf, size_t *pIn_buf_size, void *pOut_buf, size_t *pOut_buf_size, tdefl_flush flush) { if (!d) { if (pIn_buf_size) *pIn_buf_size = 0; if (pOut_buf_size) *pOut_buf_size = 0; return TDEFL_STATUS_BAD_PARAM; } d->m_pIn_buf = pIn_buf; d->m_pIn_buf_size = pIn_buf_size; d->m_pOut_buf = pOut_buf; d->m_pOut_buf_size = pOut_buf_size; d->m_pSrc = (const mz_uint8 *)(pIn_buf); d->m_src_buf_left = pIn_buf_size ? *pIn_buf_size : 0; d->m_out_buf_ofs = 0; d->m_flush = flush; if ( ((d->m_pPut_buf_func != NULL) == ((pOut_buf != NULL) || (pOut_buf_size != NULL))) || (d->m_prev_return_status != TDEFL_STATUS_OKAY) || (d->m_wants_to_finish && (flush != TDEFL_FINISH)) || (pIn_buf_size && *pIn_buf_size && !pIn_buf) || (pOut_buf_size && *pOut_buf_size && !pOut_buf) ) { if (pIn_buf_size) *pIn_buf_size = 0; if (pOut_buf_size) *pOut_buf_size = 0; return (d->m_prev_return_status = TDEFL_STATUS_BAD_PARAM); } d->m_wants_to_finish |= (flush == TDEFL_FINISH); if ((d->m_output_flush_remaining) || (d->m_finished)) return (d->m_prev_return_status = tdefl_flush_output_buffer(d)); #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN if (((d->m_flags & TDEFL_MAX_PROBES_MASK) == 1) && ((d->m_flags & TDEFL_GREEDY_PARSING_FLAG) != 0) && ((d->m_flags & (TDEFL_FILTER_MATCHES | TDEFL_FORCE_ALL_RAW_BLOCKS | TDEFL_RLE_MATCHES)) == 0)) { if (!tdefl_compress_fast(d)) return d->m_prev_return_status; } else #endif // #if MINIZ_USE_UNALIGNED_LOADS_AND_STORES && MINIZ_LITTLE_ENDIAN { if (!tdefl_compress_normal(d)) return d->m_prev_return_status; } if ((d->m_flags & (TDEFL_WRITE_ZLIB_HEADER | TDEFL_COMPUTE_ADLER32)) && (pIn_buf)) d->m_adler32 = (mz_uint32)mz_adler32(d->m_adler32, (const mz_uint8 *)pIn_buf, d->m_pSrc - (const mz_uint8 *)pIn_buf); if ((flush) && (!d->m_lookahead_size) && (!d->m_src_buf_left) && (!d->m_output_flush_remaining)) { if (tdefl_flush_block(d, flush) < 0) return d->m_prev_return_status; d->m_finished = (flush == TDEFL_FINISH); if (flush == TDEFL_FULL_FLUSH) { MZ_CLEAR_OBJ(d->m_hash); MZ_CLEAR_OBJ(d->m_next); d->m_dict_size = 0; } } return (d->m_prev_return_status = tdefl_flush_output_buffer(d)); } tdefl_status tdefl_compress_buffer(tdefl_compressor *d, const void *pIn_buf, size_t in_buf_size, tdefl_flush flush) { MZ_ASSERT(d->m_pPut_buf_func); return tdefl_compress(d, pIn_buf, &in_buf_size, NULL, NULL, flush); } tdefl_status tdefl_init(tdefl_compressor *d, tdefl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags) { d->m_pPut_buf_func = pPut_buf_func; d->m_pPut_buf_user = pPut_buf_user; d->m_flags = (mz_uint)(flags); d->m_max_probes[0] = 1 + ((flags & 0xFFF) + 2) / 3; d->m_greedy_parsing = (flags & TDEFL_GREEDY_PARSING_FLAG) != 0; d->m_max_probes[1] = 1 + (((flags & 0xFFF) >> 2) + 2) / 3; if (!(flags & TDEFL_NONDETERMINISTIC_PARSING_FLAG)) MZ_CLEAR_OBJ(d->m_hash); d->m_lookahead_pos = d->m_lookahead_size = d->m_dict_size = d->m_total_lz_bytes = d->m_lz_code_buf_dict_pos = d->m_bits_in = 0; d->m_output_flush_ofs = d->m_output_flush_remaining = d->m_finished = d->m_block_index = d->m_bit_buffer = d->m_wants_to_finish = 0; d->m_pLZ_code_buf = d->m_lz_code_buf + 1; d->m_pLZ_flags = d->m_lz_code_buf; d->m_num_flags_left = 8; d->m_pOutput_buf = d->m_output_buf; d->m_pOutput_buf_end = d->m_output_buf; d->m_prev_return_status = TDEFL_STATUS_OKAY; d->m_saved_match_dist = d->m_saved_match_len = d->m_saved_lit = 0; d->m_adler32 = 1; d->m_pIn_buf = NULL; d->m_pOut_buf = NULL; d->m_pIn_buf_size = NULL; d->m_pOut_buf_size = NULL; d->m_flush = TDEFL_NO_FLUSH; d->m_pSrc = NULL; d->m_src_buf_left = 0; d->m_out_buf_ofs = 0; memset(&d->m_huff_count[0][0], 0, sizeof(d->m_huff_count[0][0]) * TDEFL_MAX_HUFF_SYMBOLS_0); memset(&d->m_huff_count[1][0], 0, sizeof(d->m_huff_count[1][0]) * TDEFL_MAX_HUFF_SYMBOLS_1); return TDEFL_STATUS_OKAY; } tdefl_status tdefl_get_prev_return_status(tdefl_compressor *d) { return d->m_prev_return_status; } mz_uint32 tdefl_get_adler32(tdefl_compressor *d) { return d->m_adler32; } mz_bool tdefl_compress_mem_to_output(const void *pBuf, size_t buf_len, tdefl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags) { tdefl_compressor *pComp; mz_bool succeeded; if (((buf_len) && (!pBuf)) || (!pPut_buf_func)) return MZ_FALSE; pComp = (tdefl_compressor*)MZ_MALLOC(sizeof(tdefl_compressor)); if (!pComp) return MZ_FALSE; succeeded = (tdefl_init(pComp, pPut_buf_func, pPut_buf_user, flags) == TDEFL_STATUS_OKAY); succeeded = succeeded && (tdefl_compress_buffer(pComp, pBuf, buf_len, TDEFL_FINISH) == TDEFL_STATUS_DONE); MZ_FREE(pComp); return succeeded; } typedef struct { size_t m_size, m_capacity; mz_uint8 *m_pBuf; mz_bool m_expandable; } tdefl_output_buffer; static mz_bool tdefl_output_buffer_putter(const void *pBuf, int len, void *pUser) { tdefl_output_buffer *p = (tdefl_output_buffer *)pUser; size_t new_size = p->m_size + len; if (new_size > p->m_capacity) { size_t new_capacity = p->m_capacity; mz_uint8 *pNew_buf; if (!p->m_expandable) return MZ_FALSE; do { new_capacity = MZ_MAX(128U, new_capacity << 1U); } while (new_size > new_capacity); pNew_buf = (mz_uint8*)MZ_REALLOC(p->m_pBuf, new_capacity); if (!pNew_buf) return MZ_FALSE; p->m_pBuf = pNew_buf; p->m_capacity = new_capacity; } memcpy((mz_uint8*)p->m_pBuf + p->m_size, pBuf, len); p->m_size = new_size; return MZ_TRUE; } void *tdefl_compress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len, size_t *pOut_len, int flags) { tdefl_output_buffer out_buf; MZ_CLEAR_OBJ(out_buf); if (!pOut_len) return MZ_FALSE; else *pOut_len = 0; out_buf.m_expandable = MZ_TRUE; if (!tdefl_compress_mem_to_output(pSrc_buf, src_buf_len, tdefl_output_buffer_putter, &out_buf, flags)) return NULL; *pOut_len = out_buf.m_size; return out_buf.m_pBuf; } size_t tdefl_compress_mem_to_mem(void *pOut_buf, size_t out_buf_len, const void *pSrc_buf, size_t src_buf_len, int flags) { tdefl_output_buffer out_buf; MZ_CLEAR_OBJ(out_buf); if (!pOut_buf) return 0; out_buf.m_pBuf = (mz_uint8*)pOut_buf; out_buf.m_capacity = out_buf_len; if (!tdefl_compress_mem_to_output(pSrc_buf, src_buf_len, tdefl_output_buffer_putter, &out_buf, flags)) return 0; return out_buf.m_size; } #ifndef MINIZ_NO_ZLIB_APIS static const mz_uint s_tdefl_num_probes[11] = { 0, 1, 6, 32, 16, 32, 128, 256, 512, 768, 1500 }; // level may actually range from [0,10] (10 is a "hidden" max level, where we want a bit more compression and it's fine if throughput to fall off a cliff on some files). mz_uint tdefl_create_comp_flags_from_zip_params(int level, int window_bits, int strategy) { mz_uint comp_flags = s_tdefl_num_probes[(level >= 0) ? MZ_MIN(10, level) : MZ_DEFAULT_LEVEL] | ((level <= 3) ? TDEFL_GREEDY_PARSING_FLAG : 0); if (window_bits > 0) comp_flags |= TDEFL_WRITE_ZLIB_HEADER; if (!level) comp_flags |= TDEFL_FORCE_ALL_RAW_BLOCKS; else if (strategy == MZ_FILTERED) comp_flags |= TDEFL_FILTER_MATCHES; else if (strategy == MZ_HUFFMAN_ONLY) comp_flags &= ~TDEFL_MAX_PROBES_MASK; else if (strategy == MZ_FIXED) comp_flags |= TDEFL_FORCE_ALL_STATIC_BLOCKS; else if (strategy == MZ_RLE) comp_flags |= TDEFL_RLE_MATCHES; return comp_flags; } #endif //MINIZ_NO_ZLIB_APIS #ifdef _MSC_VER #pragma warning (push) #pragma warning (disable:4204) // nonstandard extension used : non-constant aggregate initializer (also supported by GNU C and C99, so no big deal) #endif // Simple PNG writer function by Alex Evans, 2011. Released into the public domain: https://gist.github.com/908299, more context at // http://altdevblogaday.org/2011/04/06/a-smaller-jpg-encoder/. // This is actually a modification of Alex's original code so PNG files generated by this function pass pngcheck. void *tdefl_write_image_to_png_file_in_memory_ex(const void *pImage, int w, int h, int num_chans, size_t *pLen_out, mz_uint level, mz_bool flip) { // Using a local copy of this array here in case MINIZ_NO_ZLIB_APIS was defined. static const mz_uint s_tdefl_png_num_probes[11] = { 0, 1, 6, 32, 16, 32, 128, 256, 512, 768, 1500 }; tdefl_compressor *pComp = (tdefl_compressor *)MZ_MALLOC(sizeof(tdefl_compressor)); tdefl_output_buffer out_buf; int i, bpl = w * num_chans, y, z; mz_uint32 c; *pLen_out = 0; if (!pComp) return NULL; MZ_CLEAR_OBJ(out_buf); out_buf.m_expandable = MZ_TRUE; out_buf.m_capacity = 57+MZ_MAX(64, (1+bpl)*h); if (NULL == (out_buf.m_pBuf = (mz_uint8*)MZ_MALLOC(out_buf.m_capacity))) { MZ_FREE(pComp); return NULL; } // write dummy header for (z = 41; z; --z) tdefl_output_buffer_putter(&z, 1, &out_buf); // compress image data tdefl_init(pComp, tdefl_output_buffer_putter, &out_buf, s_tdefl_png_num_probes[MZ_MIN(10, level)] | TDEFL_WRITE_ZLIB_HEADER); for (y = 0; y < h; ++y) { tdefl_compress_buffer(pComp, &z, 1, TDEFL_NO_FLUSH); tdefl_compress_buffer(pComp, (mz_uint8*)pImage + (flip ? (h - 1 - y) : y) * bpl, bpl, TDEFL_NO_FLUSH); } if (tdefl_compress_buffer(pComp, NULL, 0, TDEFL_FINISH) != TDEFL_STATUS_DONE) { MZ_FREE(pComp); MZ_FREE(out_buf.m_pBuf); return NULL; } // write real header *pLen_out = out_buf.m_size-41; { static const mz_uint8 chans[] = {0x00, 0x00, 0x04, 0x02, 0x06}; mz_uint8 pnghdr[41]={0x89,0x50,0x4e,0x47,0x0d,0x0a,0x1a,0x0a,0x00,0x00,0x00,0x0d,0x49,0x48,0x44,0x52, 0,0,(mz_uint8)(w>>8),(mz_uint8)w,0,0,(mz_uint8)(h>>8),(mz_uint8)h,8,chans[num_chans],0,0,0,0,0,0,0, (mz_uint8)(*pLen_out>>24),(mz_uint8)(*pLen_out>>16),(mz_uint8)(*pLen_out>>8),(mz_uint8)*pLen_out,0x49,0x44,0x41,0x54}; c=(mz_uint32)mz_crc32(MZ_CRC32_INIT,pnghdr+12,17); for (i=0; i<4; ++i, c<<=8) ((mz_uint8*)(pnghdr+29))[i]=(mz_uint8)(c>>24); memcpy(out_buf.m_pBuf, pnghdr, 41); } // write footer (IDAT CRC-32, followed by IEND chunk) if (!tdefl_output_buffer_putter("\0\0\0\0\0\0\0\0\x49\x45\x4e\x44\xae\x42\x60\x82", 16, &out_buf)) { *pLen_out = 0; MZ_FREE(pComp); MZ_FREE(out_buf.m_pBuf); return NULL; } c = (mz_uint32)mz_crc32(MZ_CRC32_INIT,out_buf.m_pBuf+41-4, *pLen_out+4); for (i=0; i<4; ++i, c<<=8) (out_buf.m_pBuf+out_buf.m_size-16)[i] = (mz_uint8)(c >> 24); // compute final size of file, grab compressed data buffer and return *pLen_out += 57; MZ_FREE(pComp); return out_buf.m_pBuf; } void *tdefl_write_image_to_png_file_in_memory(const void *pImage, int w, int h, int num_chans, size_t *pLen_out) { // Level 6 corresponds to TDEFL_DEFAULT_MAX_PROBES or MZ_DEFAULT_LEVEL (but we can't depend on MZ_DEFAULT_LEVEL being available in case the zlib API's where #defined out) return tdefl_write_image_to_png_file_in_memory_ex(pImage, w, h, num_chans, pLen_out, 6, MZ_FALSE); } #ifdef _MSC_VER #pragma warning (pop) #endif // ------------------- .ZIP archive reading #ifndef MINIZ_NO_ARCHIVE_APIS #ifdef MINIZ_NO_STDIO #define MZ_FILE void * #else #include <stdio.h> #include <sys/stat.h> #if defined(_MSC_VER) static FILE *mz_fopen(const char *pFilename, const char *pMode) { FILE* pFile = NULL; fopen_s(&pFile, pFilename, pMode); return pFile; } static FILE *mz_freopen(const char *pPath, const char *pMode, FILE *pStream) { FILE* pFile = NULL; if (freopen_s(&pFile, pPath, pMode, pStream)) return NULL; return pFile; } #ifndef MINIZ_NO_TIME #include <sys/utime.h> #endif #define MZ_FILE FILE #define MZ_FOPEN mz_fopen #define MZ_FCLOSE fclose #define MZ_FREAD fread #define MZ_FWRITE fwrite #define MZ_FTELL64 _ftelli64 #define MZ_FSEEK64 _fseeki64 #define MZ_FILE_STAT_STRUCT _stat #define MZ_FILE_STAT _stat #define MZ_FFLUSH fflush #define MZ_FREOPEN mz_freopen #define MZ_DELETE_FILE remove #elif defined(__MINGW32__) #ifndef MINIZ_NO_TIME #include <sys/utime.h> #endif #define MZ_FILE FILE #define MZ_FOPEN(f, m) fopen(f, m) #define MZ_FCLOSE fclose #define MZ_FREAD fread #define MZ_FWRITE fwrite #define MZ_FTELL64 ftello64 #define MZ_FSEEK64 fseeko64 #define MZ_FILE_STAT_STRUCT _stat #define MZ_FILE_STAT _stat #define MZ_FFLUSH fflush #define MZ_FREOPEN(f, m, s) freopen(f, m, s) #define MZ_DELETE_FILE remove #elif defined(__TINYC__) #ifndef MINIZ_NO_TIME #include <sys/utime.h> #endif #define MZ_FILE FILE #define MZ_FOPEN(f, m) fopen(f, m) #define MZ_FCLOSE fclose #define MZ_FREAD fread #define MZ_FWRITE fwrite #define MZ_FTELL64 ftell #define MZ_FSEEK64 fseek #define MZ_FILE_STAT_STRUCT stat #define MZ_FILE_STAT stat #define MZ_FFLUSH fflush #define MZ_FREOPEN(f, m, s) freopen(f, m, s) #define MZ_DELETE_FILE remove #elif defined(__GNUC__) && _LARGEFILE64_SOURCE #ifndef MINIZ_NO_TIME #include <utime.h> #endif #define MZ_FILE FILE #define MZ_FOPEN(f, m) fopen64(f, m) #define MZ_FCLOSE fclose #define MZ_FREAD fread #define MZ_FWRITE fwrite #define MZ_FTELL64 ftello64 #define MZ_FSEEK64 fseeko64 #define MZ_FILE_STAT_STRUCT stat64 #define MZ_FILE_STAT stat64 #define MZ_FFLUSH fflush #define MZ_FREOPEN(p, m, s) freopen64(p, m, s) #define MZ_DELETE_FILE remove #else #ifndef MINIZ_NO_TIME #include <utime.h> #endif #define MZ_FILE FILE #define MZ_FOPEN(f, m) fopen(f, m) #define MZ_FCLOSE fclose #define MZ_FREAD fread #define MZ_FWRITE fwrite #define MZ_FTELL64 ftello #define MZ_FSEEK64 fseeko #define MZ_FILE_STAT_STRUCT stat #define MZ_FILE_STAT stat #define MZ_FFLUSH fflush #define MZ_FREOPEN(f, m, s) freopen(f, m, s) #define MZ_DELETE_FILE remove #endif // #ifdef _MSC_VER #endif // #ifdef MINIZ_NO_STDIO #define MZ_TOLOWER(c) ((((c) >= 'A') && ((c) <= 'Z')) ? ((c) - 'A' + 'a') : (c)) // Various ZIP archive enums. To completely avoid cross platform compiler alignment and platform endian issues, miniz.c doesn't use structs for any of this stuff. enum { // ZIP archive identifiers and record sizes MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIG = 0x06054b50, MZ_ZIP_CENTRAL_DIR_HEADER_SIG = 0x02014b50, MZ_ZIP_LOCAL_DIR_HEADER_SIG = 0x04034b50, MZ_ZIP_LOCAL_DIR_HEADER_SIZE = 30, MZ_ZIP_CENTRAL_DIR_HEADER_SIZE = 46, MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE = 22, // Central directory header record offsets MZ_ZIP_CDH_SIG_OFS = 0, MZ_ZIP_CDH_VERSION_MADE_BY_OFS = 4, MZ_ZIP_CDH_VERSION_NEEDED_OFS = 6, MZ_ZIP_CDH_BIT_FLAG_OFS = 8, MZ_ZIP_CDH_METHOD_OFS = 10, MZ_ZIP_CDH_FILE_TIME_OFS = 12, MZ_ZIP_CDH_FILE_DATE_OFS = 14, MZ_ZIP_CDH_CRC32_OFS = 16, MZ_ZIP_CDH_COMPRESSED_SIZE_OFS = 20, MZ_ZIP_CDH_DECOMPRESSED_SIZE_OFS = 24, MZ_ZIP_CDH_FILENAME_LEN_OFS = 28, MZ_ZIP_CDH_EXTRA_LEN_OFS = 30, MZ_ZIP_CDH_COMMENT_LEN_OFS = 32, MZ_ZIP_CDH_DISK_START_OFS = 34, MZ_ZIP_CDH_INTERNAL_ATTR_OFS = 36, MZ_ZIP_CDH_EXTERNAL_ATTR_OFS = 38, MZ_ZIP_CDH_LOCAL_HEADER_OFS = 42, // Local directory header offsets MZ_ZIP_LDH_SIG_OFS = 0, MZ_ZIP_LDH_VERSION_NEEDED_OFS = 4, MZ_ZIP_LDH_BIT_FLAG_OFS = 6, MZ_ZIP_LDH_METHOD_OFS = 8, MZ_ZIP_LDH_FILE_TIME_OFS = 10, MZ_ZIP_LDH_FILE_DATE_OFS = 12, MZ_ZIP_LDH_CRC32_OFS = 14, MZ_ZIP_LDH_COMPRESSED_SIZE_OFS = 18, MZ_ZIP_LDH_DECOMPRESSED_SIZE_OFS = 22, MZ_ZIP_LDH_FILENAME_LEN_OFS = 26, MZ_ZIP_LDH_EXTRA_LEN_OFS = 28, // End of central directory offsets MZ_ZIP_ECDH_SIG_OFS = 0, MZ_ZIP_ECDH_NUM_THIS_DISK_OFS = 4, MZ_ZIP_ECDH_NUM_DISK_CDIR_OFS = 6, MZ_ZIP_ECDH_CDIR_NUM_ENTRIES_ON_DISK_OFS = 8, MZ_ZIP_ECDH_CDIR_TOTAL_ENTRIES_OFS = 10, MZ_ZIP_ECDH_CDIR_SIZE_OFS = 12, MZ_ZIP_ECDH_CDIR_OFS_OFS = 16, MZ_ZIP_ECDH_COMMENT_SIZE_OFS = 20, }; typedef struct { void *m_p; size_t m_size, m_capacity; mz_uint m_element_size; } mz_zip_array; struct mz_zip_internal_state_tag { mz_zip_array m_central_dir; mz_zip_array m_central_dir_offsets; mz_zip_array m_sorted_central_dir_offsets; MZ_FILE *m_pFile; void *m_pMem; size_t m_mem_size; size_t m_mem_capacity; }; #define MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(array_ptr, element_size) (array_ptr)->m_element_size = element_size #define MZ_ZIP_ARRAY_ELEMENT(array_ptr, element_type, index) ((element_type *)((array_ptr)->m_p))[index] static MZ_FORCEINLINE void mz_zip_array_clear(mz_zip_archive *pZip, mz_zip_array *pArray) { pZip->m_pFree(pZip->m_pAlloc_opaque, pArray->m_p); memset(pArray, 0, sizeof(mz_zip_array)); } static mz_bool mz_zip_array_ensure_capacity(mz_zip_archive *pZip, mz_zip_array *pArray, size_t min_new_capacity, mz_uint growing) { void *pNew_p; size_t new_capacity = min_new_capacity; MZ_ASSERT(pArray->m_element_size); if (pArray->m_capacity >= min_new_capacity) return MZ_TRUE; if (growing) { new_capacity = MZ_MAX(1, pArray->m_capacity); while (new_capacity < min_new_capacity) new_capacity *= 2; } if (NULL == (pNew_p = pZip->m_pRealloc(pZip->m_pAlloc_opaque, pArray->m_p, pArray->m_element_size, new_capacity))) return MZ_FALSE; pArray->m_p = pNew_p; pArray->m_capacity = new_capacity; return MZ_TRUE; } static MZ_FORCEINLINE mz_bool mz_zip_array_reserve(mz_zip_archive *pZip, mz_zip_array *pArray, size_t new_capacity, mz_uint growing) { if (new_capacity > pArray->m_capacity) { if (!mz_zip_array_ensure_capacity(pZip, pArray, new_capacity, growing)) return MZ_FALSE; } return MZ_TRUE; } static MZ_FORCEINLINE mz_bool mz_zip_array_resize(mz_zip_archive *pZip, mz_zip_array *pArray, size_t new_size, mz_uint growing) { if (new_size > pArray->m_capacity) { if (!mz_zip_array_ensure_capacity(pZip, pArray, new_size, growing)) return MZ_FALSE; } pArray->m_size = new_size; return MZ_TRUE; } static MZ_FORCEINLINE mz_bool mz_zip_array_ensure_room(mz_zip_archive *pZip, mz_zip_array *pArray, size_t n) { return mz_zip_array_reserve(pZip, pArray, pArray->m_size + n, MZ_TRUE); } static MZ_FORCEINLINE mz_bool mz_zip_array_push_back(mz_zip_archive *pZip, mz_zip_array *pArray, const void *pElements, size_t n) { size_t orig_size = pArray->m_size; if (!mz_zip_array_resize(pZip, pArray, orig_size + n, MZ_TRUE)) return MZ_FALSE; memcpy((mz_uint8*)pArray->m_p + orig_size * pArray->m_element_size, pElements, n * pArray->m_element_size); return MZ_TRUE; } #ifndef MINIZ_NO_TIME static time_t mz_zip_dos_to_time_t(int dos_time, int dos_date) { struct tm tm; memset(&tm, 0, sizeof(tm)); tm.tm_isdst = -1; tm.tm_year = ((dos_date >> 9) & 127) + 1980 - 1900; tm.tm_mon = ((dos_date >> 5) & 15) - 1; tm.tm_mday = dos_date & 31; tm.tm_hour = (dos_time >> 11) & 31; tm.tm_min = (dos_time >> 5) & 63; tm.tm_sec = (dos_time << 1) & 62; return mktime(&tm); } static void mz_zip_time_to_dos_time(time_t time, mz_uint16 *pDOS_time, mz_uint16 *pDOS_date) { #ifdef _MSC_VER struct tm tm_struct; struct tm *tm = &tm_struct; errno_t err = localtime_s(tm, &time); if (err) { *pDOS_date = 0; *pDOS_time = 0; return; } #else struct tm *tm = localtime(&time); #endif *pDOS_time = (mz_uint16)(((tm->tm_hour) << 11) + ((tm->tm_min) << 5) + ((tm->tm_sec) >> 1)); *pDOS_date = (mz_uint16)(((tm->tm_year + 1900 - 1980) << 9) + ((tm->tm_mon + 1) << 5) + tm->tm_mday); } #endif #ifndef MINIZ_NO_STDIO static mz_bool mz_zip_get_file_modified_time(const char *pFilename, mz_uint16 *pDOS_time, mz_uint16 *pDOS_date) { #ifdef MINIZ_NO_TIME (void)pFilename; *pDOS_date = *pDOS_time = 0; #else struct MZ_FILE_STAT_STRUCT file_stat; // On Linux with x86 glibc, this call will fail on large files (>= 0x80000000 bytes) unless you compiled with _LARGEFILE64_SOURCE. Argh. if (MZ_FILE_STAT(pFilename, &file_stat) != 0) return MZ_FALSE; mz_zip_time_to_dos_time(file_stat.st_mtime, pDOS_time, pDOS_date); #endif // #ifdef MINIZ_NO_TIME return MZ_TRUE; } #ifndef MINIZ_NO_TIME static mz_bool mz_zip_set_file_times(const char *pFilename, time_t access_time, time_t modified_time) { struct utimbuf t; t.actime = access_time; t.modtime = modified_time; return !utime(pFilename, &t); } #endif // #ifndef MINIZ_NO_TIME #endif // #ifndef MINIZ_NO_STDIO static mz_bool mz_zip_reader_init_internal(mz_zip_archive *pZip, mz_uint32 flags) { (void)flags; if ((!pZip) || (pZip->m_pState) || (pZip->m_zip_mode != MZ_ZIP_MODE_INVALID)) return MZ_FALSE; if (!pZip->m_pAlloc) pZip->m_pAlloc = def_alloc_func; if (!pZip->m_pFree) pZip->m_pFree = def_free_func; if (!pZip->m_pRealloc) pZip->m_pRealloc = def_realloc_func; pZip->m_zip_mode = MZ_ZIP_MODE_READING; pZip->m_archive_size = 0; pZip->m_central_directory_file_ofs = 0; pZip->m_total_files = 0; if (NULL == (pZip->m_pState = (mz_zip_internal_state *)pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, sizeof(mz_zip_internal_state)))) return MZ_FALSE; memset(pZip->m_pState, 0, sizeof(mz_zip_internal_state)); MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(&pZip->m_pState->m_central_dir, sizeof(mz_uint8)); MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(&pZip->m_pState->m_central_dir_offsets, sizeof(mz_uint32)); MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(&pZip->m_pState->m_sorted_central_dir_offsets, sizeof(mz_uint32)); return MZ_TRUE; } static MZ_FORCEINLINE mz_bool mz_zip_reader_filename_less(const mz_zip_array *pCentral_dir_array, const mz_zip_array *pCentral_dir_offsets, mz_uint l_index, mz_uint r_index) { const mz_uint8 *pL = &MZ_ZIP_ARRAY_ELEMENT(pCentral_dir_array, mz_uint8, MZ_ZIP_ARRAY_ELEMENT(pCentral_dir_offsets, mz_uint32, l_index)), *pE; const mz_uint8 *pR = &MZ_ZIP_ARRAY_ELEMENT(pCentral_dir_array, mz_uint8, MZ_ZIP_ARRAY_ELEMENT(pCentral_dir_offsets, mz_uint32, r_index)); mz_uint l_len = MZ_READ_LE16(pL + MZ_ZIP_CDH_FILENAME_LEN_OFS), r_len = MZ_READ_LE16(pR + MZ_ZIP_CDH_FILENAME_LEN_OFS); mz_uint8 l = 0, r = 0; pL += MZ_ZIP_CENTRAL_DIR_HEADER_SIZE; pR += MZ_ZIP_CENTRAL_DIR_HEADER_SIZE; pE = pL + MZ_MIN(l_len, r_len); while (pL < pE) { if ((l = MZ_TOLOWER(*pL)) != (r = MZ_TOLOWER(*pR))) break; pL++; pR++; } return (pL == pE) ? (l_len < r_len) : (l < r); } #define MZ_SWAP_UINT32(a, b) do { mz_uint32 t = a; a = b; b = t; } MZ_MACRO_END // Heap sort of lowercased filenames, used to help accelerate plain central directory searches by mz_zip_reader_locate_file(). (Could also use qsort(), but it could allocate memory.) static void mz_zip_reader_sort_central_dir_offsets_by_filename(mz_zip_archive *pZip) { mz_zip_internal_state *pState = pZip->m_pState; const mz_zip_array *pCentral_dir_offsets = &pState->m_central_dir_offsets; const mz_zip_array *pCentral_dir = &pState->m_central_dir; mz_uint32 *pIndices = &MZ_ZIP_ARRAY_ELEMENT(&pState->m_sorted_central_dir_offsets, mz_uint32, 0); const int size = pZip->m_total_files; int start = (size - 2) >> 1, end; while (start >= 0) { int child, root = start; for ( ; ; ) { if ((child = (root << 1) + 1) >= size) break; child += (((child + 1) < size) && (mz_zip_reader_filename_less(pCentral_dir, pCentral_dir_offsets, pIndices[child], pIndices[child + 1]))); if (!mz_zip_reader_filename_less(pCentral_dir, pCentral_dir_offsets, pIndices[root], pIndices[child])) break; MZ_SWAP_UINT32(pIndices[root], pIndices[child]); root = child; } start--; } end = size - 1; while (end > 0) { int child, root = 0; MZ_SWAP_UINT32(pIndices[end], pIndices[0]); for ( ; ; ) { if ((child = (root << 1) + 1) >= end) break; child += (((child + 1) < end) && mz_zip_reader_filename_less(pCentral_dir, pCentral_dir_offsets, pIndices[child], pIndices[child + 1])); if (!mz_zip_reader_filename_less(pCentral_dir, pCentral_dir_offsets, pIndices[root], pIndices[child])) break; MZ_SWAP_UINT32(pIndices[root], pIndices[child]); root = child; } end--; } } static mz_bool mz_zip_reader_read_central_dir(mz_zip_archive *pZip, mz_uint32 flags) { mz_uint cdir_size, num_this_disk, cdir_disk_index; mz_uint64 cdir_ofs; mz_int64 cur_file_ofs; const mz_uint8 *p; mz_uint32 buf_u32[4096 / sizeof(mz_uint32)]; mz_uint8 *pBuf = (mz_uint8 *)buf_u32; mz_bool sort_central_dir = ((flags & MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY) == 0); // Basic sanity checks - reject files which are too small, and check the first 4 bytes of the file to make sure a local header is there. if (pZip->m_archive_size < MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE) return MZ_FALSE; // Find the end of central directory record by scanning the file from the end towards the beginning. cur_file_ofs = MZ_MAX((mz_int64)pZip->m_archive_size - (mz_int64)sizeof(buf_u32), 0); for ( ; ; ) { int i, n = (int)MZ_MIN(sizeof(buf_u32), pZip->m_archive_size - cur_file_ofs); if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pBuf, n) != (mz_uint)n) return MZ_FALSE; for (i = n - 4; i >= 0; --i) if (MZ_READ_LE32(pBuf + i) == MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIG) break; if (i >= 0) { cur_file_ofs += i; break; } if ((!cur_file_ofs) || ((pZip->m_archive_size - cur_file_ofs) >= (0xFFFF + MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE))) return MZ_FALSE; cur_file_ofs = MZ_MAX(cur_file_ofs - (sizeof(buf_u32) - 3), 0); } // Read and verify the end of central directory record. if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pBuf, MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE) != MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE) return MZ_FALSE; if ((MZ_READ_LE32(pBuf + MZ_ZIP_ECDH_SIG_OFS) != MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIG) || ((pZip->m_total_files = MZ_READ_LE16(pBuf + MZ_ZIP_ECDH_CDIR_TOTAL_ENTRIES_OFS)) != MZ_READ_LE16(pBuf + MZ_ZIP_ECDH_CDIR_NUM_ENTRIES_ON_DISK_OFS))) return MZ_FALSE; num_this_disk = MZ_READ_LE16(pBuf + MZ_ZIP_ECDH_NUM_THIS_DISK_OFS); cdir_disk_index = MZ_READ_LE16(pBuf + MZ_ZIP_ECDH_NUM_DISK_CDIR_OFS); if (((num_this_disk | cdir_disk_index) != 0) && ((num_this_disk != 1) || (cdir_disk_index != 1))) return MZ_FALSE; if ((cdir_size = MZ_READ_LE32(pBuf + MZ_ZIP_ECDH_CDIR_SIZE_OFS)) < pZip->m_total_files * MZ_ZIP_CENTRAL_DIR_HEADER_SIZE) return MZ_FALSE; cdir_ofs = MZ_READ_LE32(pBuf + MZ_ZIP_ECDH_CDIR_OFS_OFS); if ((cdir_ofs + (mz_uint64)cdir_size) > pZip->m_archive_size) return MZ_FALSE; pZip->m_central_directory_file_ofs = cdir_ofs; if (pZip->m_total_files) { mz_uint i, n; // Read the entire central directory into a heap block, and allocate another heap block to hold the unsorted central dir file record offsets, and another to hold the sorted indices. if ((!mz_zip_array_resize(pZip, &pZip->m_pState->m_central_dir, cdir_size, MZ_FALSE)) || (!mz_zip_array_resize(pZip, &pZip->m_pState->m_central_dir_offsets, pZip->m_total_files, MZ_FALSE))) return MZ_FALSE; if (sort_central_dir) { if (!mz_zip_array_resize(pZip, &pZip->m_pState->m_sorted_central_dir_offsets, pZip->m_total_files, MZ_FALSE)) return MZ_FALSE; } if (pZip->m_pRead(pZip->m_pIO_opaque, cdir_ofs, pZip->m_pState->m_central_dir.m_p, cdir_size) != cdir_size) return MZ_FALSE; // Now create an index into the central directory file records, do some basic sanity checking on each record, and check for zip64 entries (which are not yet supported). p = (const mz_uint8 *)pZip->m_pState->m_central_dir.m_p; for (n = cdir_size, i = 0; i < pZip->m_total_files; ++i) { mz_uint total_header_size, comp_size, decomp_size, disk_index; if ((n < MZ_ZIP_CENTRAL_DIR_HEADER_SIZE) || (MZ_READ_LE32(p) != MZ_ZIP_CENTRAL_DIR_HEADER_SIG)) return MZ_FALSE; MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_central_dir_offsets, mz_uint32, i) = (mz_uint32)(p - (const mz_uint8 *)pZip->m_pState->m_central_dir.m_p); if (sort_central_dir) MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_sorted_central_dir_offsets, mz_uint32, i) = i; comp_size = MZ_READ_LE32(p + MZ_ZIP_CDH_COMPRESSED_SIZE_OFS); decomp_size = MZ_READ_LE32(p + MZ_ZIP_CDH_DECOMPRESSED_SIZE_OFS); if (((!MZ_READ_LE32(p + MZ_ZIP_CDH_METHOD_OFS)) && (decomp_size != comp_size)) || (decomp_size && !comp_size) || (decomp_size == 0xFFFFFFFF) || (comp_size == 0xFFFFFFFF)) return MZ_FALSE; disk_index = MZ_READ_LE16(p + MZ_ZIP_CDH_DISK_START_OFS); if ((disk_index != num_this_disk) && (disk_index != 1)) return MZ_FALSE; if (((mz_uint64)MZ_READ_LE32(p + MZ_ZIP_CDH_LOCAL_HEADER_OFS) + MZ_ZIP_LOCAL_DIR_HEADER_SIZE + comp_size) > pZip->m_archive_size) return MZ_FALSE; if ((total_header_size = MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS) + MZ_READ_LE16(p + MZ_ZIP_CDH_EXTRA_LEN_OFS) + MZ_READ_LE16(p + MZ_ZIP_CDH_COMMENT_LEN_OFS)) > n) return MZ_FALSE; n -= total_header_size; p += total_header_size; } } if (sort_central_dir) mz_zip_reader_sort_central_dir_offsets_by_filename(pZip); return MZ_TRUE; } mz_bool mz_zip_reader_init(mz_zip_archive *pZip, mz_uint64 size, mz_uint32 flags) { if ((!pZip) || (!pZip->m_pRead)) return MZ_FALSE; if (!mz_zip_reader_init_internal(pZip, flags)) return MZ_FALSE; pZip->m_archive_size = size; if (!mz_zip_reader_read_central_dir(pZip, flags)) { mz_zip_reader_end(pZip); return MZ_FALSE; } return MZ_TRUE; } static size_t mz_zip_mem_read_func(void *pOpaque, mz_uint64 file_ofs, void *pBuf, size_t n) { mz_zip_archive *pZip = (mz_zip_archive *)pOpaque; size_t s = (file_ofs >= pZip->m_archive_size) ? 0 : (size_t)MZ_MIN(pZip->m_archive_size - file_ofs, n); memcpy(pBuf, (const mz_uint8 *)pZip->m_pState->m_pMem + file_ofs, s); return s; } mz_bool mz_zip_reader_init_mem(mz_zip_archive *pZip, const void *pMem, size_t size, mz_uint32 flags) { if (!mz_zip_reader_init_internal(pZip, flags)) return MZ_FALSE; pZip->m_archive_size = size; pZip->m_pRead = mz_zip_mem_read_func; pZip->m_pIO_opaque = pZip; #ifdef __cplusplus pZip->m_pState->m_pMem = const_cast<void *>(pMem); #else pZip->m_pState->m_pMem = (void *)pMem; #endif pZip->m_pState->m_mem_size = size; if (!mz_zip_reader_read_central_dir(pZip, flags)) { mz_zip_reader_end(pZip); return MZ_FALSE; } return MZ_TRUE; } #ifndef MINIZ_NO_STDIO static size_t mz_zip_file_read_func(void *pOpaque, mz_uint64 file_ofs, void *pBuf, size_t n) { mz_zip_archive *pZip = (mz_zip_archive *)pOpaque; mz_int64 cur_ofs = MZ_FTELL64(pZip->m_pState->m_pFile); if (((mz_int64)file_ofs < 0) || (((cur_ofs != (mz_int64)file_ofs)) && (MZ_FSEEK64(pZip->m_pState->m_pFile, (mz_int64)file_ofs, SEEK_SET)))) return 0; return MZ_FREAD(pBuf, 1, n, pZip->m_pState->m_pFile); } mz_bool mz_zip_reader_init_file(mz_zip_archive *pZip, const char *pFilename, mz_uint32 flags) { mz_uint64 file_size; MZ_FILE *pFile = MZ_FOPEN(pFilename, "rb"); if (!pFile) return MZ_FALSE; if (MZ_FSEEK64(pFile, 0, SEEK_END)) { MZ_FCLOSE(pFile); return MZ_FALSE; } file_size = MZ_FTELL64(pFile); if (!mz_zip_reader_init_internal(pZip, flags)) { MZ_FCLOSE(pFile); return MZ_FALSE; } pZip->m_pRead = mz_zip_file_read_func; pZip->m_pIO_opaque = pZip; pZip->m_pState->m_pFile = pFile; pZip->m_archive_size = file_size; if (!mz_zip_reader_read_central_dir(pZip, flags)) { mz_zip_reader_end(pZip); return MZ_FALSE; } return MZ_TRUE; } #endif // #ifndef MINIZ_NO_STDIO mz_uint mz_zip_reader_get_num_files(mz_zip_archive *pZip) { return pZip ? pZip->m_total_files : 0; } static MZ_FORCEINLINE const mz_uint8 *mz_zip_reader_get_cdh(mz_zip_archive *pZip, mz_uint file_index) { if ((!pZip) || (!pZip->m_pState) || (file_index >= pZip->m_total_files) || (pZip->m_zip_mode != MZ_ZIP_MODE_READING)) return NULL; return &MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_central_dir, mz_uint8, MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_central_dir_offsets, mz_uint32, file_index)); } mz_bool mz_zip_reader_is_file_encrypted(mz_zip_archive *pZip, mz_uint file_index) { mz_uint m_bit_flag; const mz_uint8 *p = mz_zip_reader_get_cdh(pZip, file_index); if (!p) return MZ_FALSE; m_bit_flag = MZ_READ_LE16(p + MZ_ZIP_CDH_BIT_FLAG_OFS); return (m_bit_flag & 1); } mz_bool mz_zip_reader_is_file_a_directory(mz_zip_archive *pZip, mz_uint file_index) { mz_uint filename_len, external_attr; const mz_uint8 *p = mz_zip_reader_get_cdh(pZip, file_index); if (!p) return MZ_FALSE; // First see if the filename ends with a '/' character. filename_len = MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS); if (filename_len) { if (*(p + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + filename_len - 1) == '/') return MZ_TRUE; } // Bugfix: This code was also checking if the internal attribute was non-zero, which wasn't correct. // Most/all zip writers (hopefully) set DOS file/directory attributes in the low 16-bits, so check for the DOS directory flag and ignore the source OS ID in the created by field. // FIXME: Remove this check? Is it necessary - we already check the filename. external_attr = MZ_READ_LE32(p + MZ_ZIP_CDH_EXTERNAL_ATTR_OFS); if ((external_attr & 0x10) != 0) return MZ_TRUE; return MZ_FALSE; } mz_bool mz_zip_reader_file_stat(mz_zip_archive *pZip, mz_uint file_index, mz_zip_archive_file_stat *pStat) { mz_uint n; const mz_uint8 *p = mz_zip_reader_get_cdh(pZip, file_index); if ((!p) || (!pStat)) return MZ_FALSE; // Unpack the central directory record. pStat->m_file_index = file_index; pStat->m_central_dir_ofs = MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_central_dir_offsets, mz_uint32, file_index); pStat->m_version_made_by = MZ_READ_LE16(p + MZ_ZIP_CDH_VERSION_MADE_BY_OFS); pStat->m_version_needed = MZ_READ_LE16(p + MZ_ZIP_CDH_VERSION_NEEDED_OFS); pStat->m_bit_flag = MZ_READ_LE16(p + MZ_ZIP_CDH_BIT_FLAG_OFS); pStat->m_method = MZ_READ_LE16(p + MZ_ZIP_CDH_METHOD_OFS); #ifndef MINIZ_NO_TIME pStat->m_time = mz_zip_dos_to_time_t(MZ_READ_LE16(p + MZ_ZIP_CDH_FILE_TIME_OFS), MZ_READ_LE16(p + MZ_ZIP_CDH_FILE_DATE_OFS)); #endif pStat->m_crc32 = MZ_READ_LE32(p + MZ_ZIP_CDH_CRC32_OFS); pStat->m_comp_size = MZ_READ_LE32(p + MZ_ZIP_CDH_COMPRESSED_SIZE_OFS); pStat->m_uncomp_size = MZ_READ_LE32(p + MZ_ZIP_CDH_DECOMPRESSED_SIZE_OFS); pStat->m_internal_attr = MZ_READ_LE16(p + MZ_ZIP_CDH_INTERNAL_ATTR_OFS); pStat->m_external_attr = MZ_READ_LE32(p + MZ_ZIP_CDH_EXTERNAL_ATTR_OFS); pStat->m_local_header_ofs = MZ_READ_LE32(p + MZ_ZIP_CDH_LOCAL_HEADER_OFS); // Copy as much of the filename and comment as possible. n = MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS); n = MZ_MIN(n, MZ_ZIP_MAX_ARCHIVE_FILENAME_SIZE - 1); memcpy(pStat->m_filename, p + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE, n); pStat->m_filename[n] = '\0'; n = MZ_READ_LE16(p + MZ_ZIP_CDH_COMMENT_LEN_OFS); n = MZ_MIN(n, MZ_ZIP_MAX_ARCHIVE_FILE_COMMENT_SIZE - 1); pStat->m_comment_size = n; memcpy(pStat->m_comment, p + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS) + MZ_READ_LE16(p + MZ_ZIP_CDH_EXTRA_LEN_OFS), n); pStat->m_comment[n] = '\0'; return MZ_TRUE; } mz_uint mz_zip_reader_get_filename(mz_zip_archive *pZip, mz_uint file_index, char *pFilename, mz_uint filename_buf_size) { mz_uint n; const mz_uint8 *p = mz_zip_reader_get_cdh(pZip, file_index); if (!p) { if (filename_buf_size) pFilename[0] = '\0'; return 0; } n = MZ_READ_LE16(p + MZ_ZIP_CDH_FILENAME_LEN_OFS); if (filename_buf_size) { n = MZ_MIN(n, filename_buf_size - 1); memcpy(pFilename, p + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE, n); pFilename[n] = '\0'; } return n + 1; } static MZ_FORCEINLINE mz_bool mz_zip_reader_string_equal(const char *pA, const char *pB, mz_uint len, mz_uint flags) { mz_uint i; if (flags & MZ_ZIP_FLAG_CASE_SENSITIVE) return 0 == memcmp(pA, pB, len); for (i = 0; i < len; ++i) if (MZ_TOLOWER(pA[i]) != MZ_TOLOWER(pB[i])) return MZ_FALSE; return MZ_TRUE; } static MZ_FORCEINLINE int mz_zip_reader_filename_compare(const mz_zip_array *pCentral_dir_array, const mz_zip_array *pCentral_dir_offsets, mz_uint l_index, const char *pR, mz_uint r_len) { const mz_uint8 *pL = &MZ_ZIP_ARRAY_ELEMENT(pCentral_dir_array, mz_uint8, MZ_ZIP_ARRAY_ELEMENT(pCentral_dir_offsets, mz_uint32, l_index)), *pE; mz_uint l_len = MZ_READ_LE16(pL + MZ_ZIP_CDH_FILENAME_LEN_OFS); mz_uint8 l = 0, r = 0; pL += MZ_ZIP_CENTRAL_DIR_HEADER_SIZE; pE = pL + MZ_MIN(l_len, r_len); while (pL < pE) { if ((l = MZ_TOLOWER(*pL)) != (r = MZ_TOLOWER(*pR))) break; pL++; pR++; } return (pL == pE) ? (int)(l_len - r_len) : (l - r); } static int mz_zip_reader_locate_file_binary_search(mz_zip_archive *pZip, const char *pFilename) { mz_zip_internal_state *pState = pZip->m_pState; const mz_zip_array *pCentral_dir_offsets = &pState->m_central_dir_offsets; const mz_zip_array *pCentral_dir = &pState->m_central_dir; mz_uint32 *pIndices = &MZ_ZIP_ARRAY_ELEMENT(&pState->m_sorted_central_dir_offsets, mz_uint32, 0); const int size = pZip->m_total_files; const mz_uint filename_len = (mz_uint)strlen(pFilename); int l = 0, h = size - 1; while (l <= h) { int m = (l + h) >> 1, file_index = pIndices[m], comp = mz_zip_reader_filename_compare(pCentral_dir, pCentral_dir_offsets, file_index, pFilename, filename_len); if (!comp) return file_index; else if (comp < 0) l = m + 1; else h = m - 1; } return -1; } int mz_zip_reader_locate_file(mz_zip_archive *pZip, const char *pName, const char *pComment, mz_uint flags) { mz_uint file_index; size_t name_len, comment_len; if ((!pZip) || (!pZip->m_pState) || (!pName) || (pZip->m_zip_mode != MZ_ZIP_MODE_READING)) return -1; if (((flags & (MZ_ZIP_FLAG_IGNORE_PATH | MZ_ZIP_FLAG_CASE_SENSITIVE)) == 0) && (!pComment) && (pZip->m_pState->m_sorted_central_dir_offsets.m_size)) return mz_zip_reader_locate_file_binary_search(pZip, pName); name_len = strlen(pName); if (name_len > 0xFFFF) return -1; comment_len = pComment ? strlen(pComment) : 0; if (comment_len > 0xFFFF) return -1; for (file_index = 0; file_index < pZip->m_total_files; file_index++) { const mz_uint8 *pHeader = &MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_central_dir, mz_uint8, MZ_ZIP_ARRAY_ELEMENT(&pZip->m_pState->m_central_dir_offsets, mz_uint32, file_index)); mz_uint filename_len = MZ_READ_LE16(pHeader + MZ_ZIP_CDH_FILENAME_LEN_OFS); const char *pFilename = (const char *)pHeader + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE; if (filename_len < name_len) continue; if (comment_len) { mz_uint file_extra_len = MZ_READ_LE16(pHeader + MZ_ZIP_CDH_EXTRA_LEN_OFS), file_comment_len = MZ_READ_LE16(pHeader + MZ_ZIP_CDH_COMMENT_LEN_OFS); const char *pFile_comment = pFilename + filename_len + file_extra_len; if ((file_comment_len != comment_len) || (!mz_zip_reader_string_equal(pComment, pFile_comment, file_comment_len, flags))) continue; } if ((flags & MZ_ZIP_FLAG_IGNORE_PATH) && (filename_len)) { int ofs = filename_len - 1; do { if ((pFilename[ofs] == '/') || (pFilename[ofs] == '\\') || (pFilename[ofs] == ':')) break; } while (--ofs >= 0); ofs++; pFilename += ofs; filename_len -= ofs; } if ((filename_len == name_len) && (mz_zip_reader_string_equal(pName, pFilename, filename_len, flags))) return file_index; } return -1; } mz_bool mz_zip_reader_extract_to_mem_no_alloc(mz_zip_archive *pZip, mz_uint file_index, void *pBuf, size_t buf_size, mz_uint flags, void *pUser_read_buf, size_t user_read_buf_size) { int status = TINFL_STATUS_DONE; mz_uint64 needed_size, cur_file_ofs, comp_remaining, out_buf_ofs = 0, read_buf_size, read_buf_ofs = 0, read_buf_avail; mz_zip_archive_file_stat file_stat; void *pRead_buf; mz_uint32 local_header_u32[(MZ_ZIP_LOCAL_DIR_HEADER_SIZE + sizeof(mz_uint32) - 1) / sizeof(mz_uint32)]; mz_uint8 *pLocal_header = (mz_uint8 *)local_header_u32; tinfl_decompressor inflator; if ((buf_size) && (!pBuf)) return MZ_FALSE; if (!mz_zip_reader_file_stat(pZip, file_index, &file_stat)) return MZ_FALSE; // Empty file, or a directory (but not always a directory - I've seen odd zips with directories that have compressed data which inflates to 0 bytes) if (!file_stat.m_comp_size) return MZ_TRUE; // Entry is a subdirectory (I've seen old zips with dir entries which have compressed deflate data which inflates to 0 bytes, but these entries claim to uncompress to 512 bytes in the headers). // I'm torn how to handle this case - should it fail instead? if (mz_zip_reader_is_file_a_directory(pZip, file_index)) return MZ_TRUE; // Encryption and patch files are not supported. if (file_stat.m_bit_flag & (1 | 32)) return MZ_FALSE; // This function only supports stored and deflate. if ((!(flags & MZ_ZIP_FLAG_COMPRESSED_DATA)) && (file_stat.m_method != 0) && (file_stat.m_method != MZ_DEFLATED)) return MZ_FALSE; // Ensure supplied output buffer is large enough. needed_size = (flags & MZ_ZIP_FLAG_COMPRESSED_DATA) ? file_stat.m_comp_size : file_stat.m_uncomp_size; if (buf_size < needed_size) return MZ_FALSE; // Read and parse the local directory entry. cur_file_ofs = file_stat.m_local_header_ofs; if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pLocal_header, MZ_ZIP_LOCAL_DIR_HEADER_SIZE) != MZ_ZIP_LOCAL_DIR_HEADER_SIZE) return MZ_FALSE; if (MZ_READ_LE32(pLocal_header) != MZ_ZIP_LOCAL_DIR_HEADER_SIG) return MZ_FALSE; cur_file_ofs += MZ_ZIP_LOCAL_DIR_HEADER_SIZE + MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_FILENAME_LEN_OFS) + MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_EXTRA_LEN_OFS); if ((cur_file_ofs + file_stat.m_comp_size) > pZip->m_archive_size) return MZ_FALSE; if ((flags & MZ_ZIP_FLAG_COMPRESSED_DATA) || (!file_stat.m_method)) { // The file is stored or the caller has requested the compressed data. if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pBuf, (size_t)needed_size) != needed_size) return MZ_FALSE; return ((flags & MZ_ZIP_FLAG_COMPRESSED_DATA) != 0) || (mz_crc32(MZ_CRC32_INIT, (const mz_uint8 *)pBuf, (size_t)file_stat.m_uncomp_size) == file_stat.m_crc32); } // Decompress the file either directly from memory or from a file input buffer. tinfl_init(&inflator); if (pZip->m_pState->m_pMem) { // Read directly from the archive in memory. pRead_buf = (mz_uint8 *)pZip->m_pState->m_pMem + cur_file_ofs; read_buf_size = read_buf_avail = file_stat.m_comp_size; comp_remaining = 0; } else if (pUser_read_buf) { // Use a user provided read buffer. if (!user_read_buf_size) return MZ_FALSE; pRead_buf = (mz_uint8 *)pUser_read_buf; read_buf_size = user_read_buf_size; read_buf_avail = 0; comp_remaining = file_stat.m_comp_size; } else { // Temporarily allocate a read buffer. read_buf_size = MZ_MIN(file_stat.m_comp_size, MZ_ZIP_MAX_IO_BUF_SIZE); #ifdef _MSC_VER if (((0, sizeof(size_t) == sizeof(mz_uint32))) && (read_buf_size > 0x7FFFFFFF)) #else if (((sizeof(size_t) == sizeof(mz_uint32))) && (read_buf_size > 0x7FFFFFFF)) #endif return MZ_FALSE; if (NULL == (pRead_buf = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, (size_t)read_buf_size))) return MZ_FALSE; read_buf_avail = 0; comp_remaining = file_stat.m_comp_size; } do { size_t in_buf_size, out_buf_size = (size_t)(file_stat.m_uncomp_size - out_buf_ofs); if ((!read_buf_avail) && (!pZip->m_pState->m_pMem)) { read_buf_avail = MZ_MIN(read_buf_size, comp_remaining); if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pRead_buf, (size_t)read_buf_avail) != read_buf_avail) { status = TINFL_STATUS_FAILED; break; } cur_file_ofs += read_buf_avail; comp_remaining -= read_buf_avail; read_buf_ofs = 0; } in_buf_size = (size_t)read_buf_avail; status = tinfl_decompress(&inflator, (mz_uint8 *)pRead_buf + read_buf_ofs, &in_buf_size, (mz_uint8 *)pBuf, (mz_uint8 *)pBuf + out_buf_ofs, &out_buf_size, TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF | (comp_remaining ? TINFL_FLAG_HAS_MORE_INPUT : 0)); read_buf_avail -= in_buf_size; read_buf_ofs += in_buf_size; out_buf_ofs += out_buf_size; } while (status == TINFL_STATUS_NEEDS_MORE_INPUT); if (status == TINFL_STATUS_DONE) { // Make sure the entire file was decompressed, and check its CRC. if ((out_buf_ofs != file_stat.m_uncomp_size) || (mz_crc32(MZ_CRC32_INIT, (const mz_uint8 *)pBuf, (size_t)file_stat.m_uncomp_size) != file_stat.m_crc32)) status = TINFL_STATUS_FAILED; } if ((!pZip->m_pState->m_pMem) && (!pUser_read_buf)) pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); return status == TINFL_STATUS_DONE; } mz_bool mz_zip_reader_extract_file_to_mem_no_alloc(mz_zip_archive *pZip, const char *pFilename, void *pBuf, size_t buf_size, mz_uint flags, void *pUser_read_buf, size_t user_read_buf_size) { int file_index = mz_zip_reader_locate_file(pZip, pFilename, NULL, flags); if (file_index < 0) return MZ_FALSE; return mz_zip_reader_extract_to_mem_no_alloc(pZip, file_index, pBuf, buf_size, flags, pUser_read_buf, user_read_buf_size); } mz_bool mz_zip_reader_extract_to_mem(mz_zip_archive *pZip, mz_uint file_index, void *pBuf, size_t buf_size, mz_uint flags) { return mz_zip_reader_extract_to_mem_no_alloc(pZip, file_index, pBuf, buf_size, flags, NULL, 0); } mz_bool mz_zip_reader_extract_file_to_mem(mz_zip_archive *pZip, const char *pFilename, void *pBuf, size_t buf_size, mz_uint flags) { return mz_zip_reader_extract_file_to_mem_no_alloc(pZip, pFilename, pBuf, buf_size, flags, NULL, 0); } void *mz_zip_reader_extract_to_heap(mz_zip_archive *pZip, mz_uint file_index, size_t *pSize, mz_uint flags) { mz_uint64 comp_size, uncomp_size, alloc_size; const mz_uint8 *p = mz_zip_reader_get_cdh(pZip, file_index); void *pBuf; if (pSize) *pSize = 0; if (!p) return NULL; comp_size = MZ_READ_LE32(p + MZ_ZIP_CDH_COMPRESSED_SIZE_OFS); uncomp_size = MZ_READ_LE32(p + MZ_ZIP_CDH_DECOMPRESSED_SIZE_OFS); alloc_size = (flags & MZ_ZIP_FLAG_COMPRESSED_DATA) ? comp_size : uncomp_size; #ifdef _MSC_VER if (((0, sizeof(size_t) == sizeof(mz_uint32))) && (alloc_size > 0x7FFFFFFF)) #else if (((sizeof(size_t) == sizeof(mz_uint32))) && (alloc_size > 0x7FFFFFFF)) #endif return NULL; if (NULL == (pBuf = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, (size_t)alloc_size))) return NULL; if (!mz_zip_reader_extract_to_mem(pZip, file_index, pBuf, (size_t)alloc_size, flags)) { pZip->m_pFree(pZip->m_pAlloc_opaque, pBuf); return NULL; } if (pSize) *pSize = (size_t)alloc_size; return pBuf; } void *mz_zip_reader_extract_file_to_heap(mz_zip_archive *pZip, const char *pFilename, size_t *pSize, mz_uint flags) { int file_index = mz_zip_reader_locate_file(pZip, pFilename, NULL, flags); if (file_index < 0) { if (pSize) *pSize = 0; return MZ_FALSE; } return mz_zip_reader_extract_to_heap(pZip, file_index, pSize, flags); } mz_bool mz_zip_reader_extract_to_callback(mz_zip_archive *pZip, mz_uint file_index, mz_file_write_func pCallback, void *pOpaque, mz_uint flags) { int status = TINFL_STATUS_DONE; mz_uint file_crc32 = MZ_CRC32_INIT; mz_uint64 read_buf_size, read_buf_ofs = 0, read_buf_avail, comp_remaining, out_buf_ofs = 0, cur_file_ofs; mz_zip_archive_file_stat file_stat; void *pRead_buf = NULL; void *pWrite_buf = NULL; mz_uint32 local_header_u32[(MZ_ZIP_LOCAL_DIR_HEADER_SIZE + sizeof(mz_uint32) - 1) / sizeof(mz_uint32)]; mz_uint8 *pLocal_header = (mz_uint8 *)local_header_u32; if (!mz_zip_reader_file_stat(pZip, file_index, &file_stat)) return MZ_FALSE; // Empty file, or a directory (but not always a directory - I've seen odd zips with directories that have compressed data which inflates to 0 bytes) if (!file_stat.m_comp_size) return MZ_TRUE; // Entry is a subdirectory (I've seen old zips with dir entries which have compressed deflate data which inflates to 0 bytes, but these entries claim to uncompress to 512 bytes in the headers). // I'm torn how to handle this case - should it fail instead? if (mz_zip_reader_is_file_a_directory(pZip, file_index)) return MZ_TRUE; // Encryption and patch files are not supported. if (file_stat.m_bit_flag & (1 | 32)) return MZ_FALSE; // This function only supports stored and deflate. if ((!(flags & MZ_ZIP_FLAG_COMPRESSED_DATA)) && (file_stat.m_method != 0) && (file_stat.m_method != MZ_DEFLATED)) return MZ_FALSE; // Read and parse the local directory entry. cur_file_ofs = file_stat.m_local_header_ofs; if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pLocal_header, MZ_ZIP_LOCAL_DIR_HEADER_SIZE) != MZ_ZIP_LOCAL_DIR_HEADER_SIZE) return MZ_FALSE; if (MZ_READ_LE32(pLocal_header) != MZ_ZIP_LOCAL_DIR_HEADER_SIG) return MZ_FALSE; cur_file_ofs += MZ_ZIP_LOCAL_DIR_HEADER_SIZE + MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_FILENAME_LEN_OFS) + MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_EXTRA_LEN_OFS); if ((cur_file_ofs + file_stat.m_comp_size) > pZip->m_archive_size) return MZ_FALSE; // Decompress the file either directly from memory or from a file input buffer. if (pZip->m_pState->m_pMem) { pRead_buf = (mz_uint8 *)pZip->m_pState->m_pMem + cur_file_ofs; read_buf_size = read_buf_avail = file_stat.m_comp_size; comp_remaining = 0; } else { read_buf_size = MZ_MIN(file_stat.m_comp_size, MZ_ZIP_MAX_IO_BUF_SIZE); if (NULL == (pRead_buf = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, (size_t)read_buf_size))) return MZ_FALSE; read_buf_avail = 0; comp_remaining = file_stat.m_comp_size; } if ((flags & MZ_ZIP_FLAG_COMPRESSED_DATA) || (!file_stat.m_method)) { // The file is stored or the caller has requested the compressed data. if (pZip->m_pState->m_pMem) { #ifdef _MSC_VER if (((0, sizeof(size_t) == sizeof(mz_uint32))) && (file_stat.m_comp_size > 0xFFFFFFFF)) #else if (((sizeof(size_t) == sizeof(mz_uint32))) && (file_stat.m_comp_size > 0xFFFFFFFF)) #endif return MZ_FALSE; if (pCallback(pOpaque, out_buf_ofs, pRead_buf, (size_t)file_stat.m_comp_size) != file_stat.m_comp_size) status = TINFL_STATUS_FAILED; else if (!(flags & MZ_ZIP_FLAG_COMPRESSED_DATA)) file_crc32 = (mz_uint32)mz_crc32(file_crc32, (const mz_uint8 *)pRead_buf, (size_t)file_stat.m_comp_size); cur_file_ofs += file_stat.m_comp_size; out_buf_ofs += file_stat.m_comp_size; comp_remaining = 0; } else { while (comp_remaining) { read_buf_avail = MZ_MIN(read_buf_size, comp_remaining); if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pRead_buf, (size_t)read_buf_avail) != read_buf_avail) { status = TINFL_STATUS_FAILED; break; } if (!(flags & MZ_ZIP_FLAG_COMPRESSED_DATA)) file_crc32 = (mz_uint32)mz_crc32(file_crc32, (const mz_uint8 *)pRead_buf, (size_t)read_buf_avail); if (pCallback(pOpaque, out_buf_ofs, pRead_buf, (size_t)read_buf_avail) != read_buf_avail) { status = TINFL_STATUS_FAILED; break; } cur_file_ofs += read_buf_avail; out_buf_ofs += read_buf_avail; comp_remaining -= read_buf_avail; } } } else { tinfl_decompressor inflator; tinfl_init(&inflator); if (NULL == (pWrite_buf = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, TINFL_LZ_DICT_SIZE))) status = TINFL_STATUS_FAILED; else { do { mz_uint8 *pWrite_buf_cur = (mz_uint8 *)pWrite_buf + (out_buf_ofs & (TINFL_LZ_DICT_SIZE - 1)); size_t in_buf_size, out_buf_size = TINFL_LZ_DICT_SIZE - (out_buf_ofs & (TINFL_LZ_DICT_SIZE - 1)); if ((!read_buf_avail) && (!pZip->m_pState->m_pMem)) { read_buf_avail = MZ_MIN(read_buf_size, comp_remaining); if (pZip->m_pRead(pZip->m_pIO_opaque, cur_file_ofs, pRead_buf, (size_t)read_buf_avail) != read_buf_avail) { status = TINFL_STATUS_FAILED; break; } cur_file_ofs += read_buf_avail; comp_remaining -= read_buf_avail; read_buf_ofs = 0; } in_buf_size = (size_t)read_buf_avail; status = tinfl_decompress(&inflator, (const mz_uint8 *)pRead_buf + read_buf_ofs, &in_buf_size, (mz_uint8 *)pWrite_buf, pWrite_buf_cur, &out_buf_size, comp_remaining ? TINFL_FLAG_HAS_MORE_INPUT : 0); read_buf_avail -= in_buf_size; read_buf_ofs += in_buf_size; if (out_buf_size) { if (pCallback(pOpaque, out_buf_ofs, pWrite_buf_cur, out_buf_size) != out_buf_size) { status = TINFL_STATUS_FAILED; break; } file_crc32 = (mz_uint32)mz_crc32(file_crc32, pWrite_buf_cur, out_buf_size); if ((out_buf_ofs += out_buf_size) > file_stat.m_uncomp_size) { status = TINFL_STATUS_FAILED; break; } } } while ((status == TINFL_STATUS_NEEDS_MORE_INPUT) || (status == TINFL_STATUS_HAS_MORE_OUTPUT)); } } if ((status == TINFL_STATUS_DONE) && (!(flags & MZ_ZIP_FLAG_COMPRESSED_DATA))) { // Make sure the entire file was decompressed, and check its CRC. if ((out_buf_ofs != file_stat.m_uncomp_size) || (file_crc32 != file_stat.m_crc32)) status = TINFL_STATUS_FAILED; } if (!pZip->m_pState->m_pMem) pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); if (pWrite_buf) pZip->m_pFree(pZip->m_pAlloc_opaque, pWrite_buf); return status == TINFL_STATUS_DONE; } mz_bool mz_zip_reader_extract_file_to_callback(mz_zip_archive *pZip, const char *pFilename, mz_file_write_func pCallback, void *pOpaque, mz_uint flags) { int file_index = mz_zip_reader_locate_file(pZip, pFilename, NULL, flags); if (file_index < 0) return MZ_FALSE; return mz_zip_reader_extract_to_callback(pZip, file_index, pCallback, pOpaque, flags); } #ifndef MINIZ_NO_STDIO static size_t mz_zip_file_write_callback(void *pOpaque, mz_uint64 ofs, const void *pBuf, size_t n) { (void)ofs; return MZ_FWRITE(pBuf, 1, n, (MZ_FILE*)pOpaque); } mz_bool mz_zip_reader_extract_to_file(mz_zip_archive *pZip, mz_uint file_index, const char *pDst_filename, mz_uint flags) { mz_bool status; mz_zip_archive_file_stat file_stat; MZ_FILE *pFile; if (!mz_zip_reader_file_stat(pZip, file_index, &file_stat)) return MZ_FALSE; pFile = MZ_FOPEN(pDst_filename, "wb"); if (!pFile) return MZ_FALSE; status = mz_zip_reader_extract_to_callback(pZip, file_index, mz_zip_file_write_callback, pFile, flags); if (MZ_FCLOSE(pFile) == EOF) return MZ_FALSE; #ifndef MINIZ_NO_TIME if (status) mz_zip_set_file_times(pDst_filename, file_stat.m_time, file_stat.m_time); #endif return status; } #endif // #ifndef MINIZ_NO_STDIO mz_bool mz_zip_reader_end(mz_zip_archive *pZip) { if ((!pZip) || (!pZip->m_pState) || (!pZip->m_pAlloc) || (!pZip->m_pFree) || (pZip->m_zip_mode != MZ_ZIP_MODE_READING)) return MZ_FALSE; if (pZip->m_pState) { mz_zip_internal_state *pState = pZip->m_pState; pZip->m_pState = NULL; mz_zip_array_clear(pZip, &pState->m_central_dir); mz_zip_array_clear(pZip, &pState->m_central_dir_offsets); mz_zip_array_clear(pZip, &pState->m_sorted_central_dir_offsets); #ifndef MINIZ_NO_STDIO if (pState->m_pFile) { MZ_FCLOSE(pState->m_pFile); pState->m_pFile = NULL; } #endif // #ifndef MINIZ_NO_STDIO pZip->m_pFree(pZip->m_pAlloc_opaque, pState); } pZip->m_zip_mode = MZ_ZIP_MODE_INVALID; return MZ_TRUE; } #ifndef MINIZ_NO_STDIO mz_bool mz_zip_reader_extract_file_to_file(mz_zip_archive *pZip, const char *pArchive_filename, const char *pDst_filename, mz_uint flags) { int file_index = mz_zip_reader_locate_file(pZip, pArchive_filename, NULL, flags); if (file_index < 0) return MZ_FALSE; return mz_zip_reader_extract_to_file(pZip, file_index, pDst_filename, flags); } #endif // ------------------- .ZIP archive writing #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS static void mz_write_le16(mz_uint8 *p, mz_uint16 v) { p[0] = (mz_uint8)v; p[1] = (mz_uint8)(v >> 8); } static void mz_write_le32(mz_uint8 *p, mz_uint32 v) { p[0] = (mz_uint8)v; p[1] = (mz_uint8)(v >> 8); p[2] = (mz_uint8)(v >> 16); p[3] = (mz_uint8)(v >> 24); } #define MZ_WRITE_LE16(p, v) mz_write_le16((mz_uint8 *)(p), (mz_uint16)(v)) #define MZ_WRITE_LE32(p, v) mz_write_le32((mz_uint8 *)(p), (mz_uint32)(v)) mz_bool mz_zip_writer_init(mz_zip_archive *pZip, mz_uint64 existing_size) { if ((!pZip) || (pZip->m_pState) || (!pZip->m_pWrite) || (pZip->m_zip_mode != MZ_ZIP_MODE_INVALID)) return MZ_FALSE; if (pZip->m_file_offset_alignment) { // Ensure user specified file offset alignment is a power of 2. if (pZip->m_file_offset_alignment & (pZip->m_file_offset_alignment - 1)) return MZ_FALSE; } if (!pZip->m_pAlloc) pZip->m_pAlloc = def_alloc_func; if (!pZip->m_pFree) pZip->m_pFree = def_free_func; if (!pZip->m_pRealloc) pZip->m_pRealloc = def_realloc_func; pZip->m_zip_mode = MZ_ZIP_MODE_WRITING; pZip->m_archive_size = existing_size; pZip->m_central_directory_file_ofs = 0; pZip->m_total_files = 0; if (NULL == (pZip->m_pState = (mz_zip_internal_state *)pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, sizeof(mz_zip_internal_state)))) return MZ_FALSE; memset(pZip->m_pState, 0, sizeof(mz_zip_internal_state)); MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(&pZip->m_pState->m_central_dir, sizeof(mz_uint8)); MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(&pZip->m_pState->m_central_dir_offsets, sizeof(mz_uint32)); MZ_ZIP_ARRAY_SET_ELEMENT_SIZE(&pZip->m_pState->m_sorted_central_dir_offsets, sizeof(mz_uint32)); return MZ_TRUE; } static size_t mz_zip_heap_write_func(void *pOpaque, mz_uint64 file_ofs, const void *pBuf, size_t n) { mz_zip_archive *pZip = (mz_zip_archive *)pOpaque; mz_zip_internal_state *pState = pZip->m_pState; mz_uint64 new_size = MZ_MAX(file_ofs + n, pState->m_mem_size); #ifdef _MSC_VER if ((!n) || ((0, sizeof(size_t) == sizeof(mz_uint32)) && (new_size > 0x7FFFFFFF))) #else if ((!n) || ((sizeof(size_t) == sizeof(mz_uint32)) && (new_size > 0x7FFFFFFF))) #endif return 0; if (new_size > pState->m_mem_capacity) { void *pNew_block; size_t new_capacity = MZ_MAX(64, pState->m_mem_capacity); while (new_capacity < new_size) new_capacity *= 2; if (NULL == (pNew_block = pZip->m_pRealloc(pZip->m_pAlloc_opaque, pState->m_pMem, 1, new_capacity))) return 0; pState->m_pMem = pNew_block; pState->m_mem_capacity = new_capacity; } memcpy((mz_uint8 *)pState->m_pMem + file_ofs, pBuf, n); pState->m_mem_size = (size_t)new_size; return n; } mz_bool mz_zip_writer_init_heap(mz_zip_archive *pZip, size_t size_to_reserve_at_beginning, size_t initial_allocation_size) { pZip->m_pWrite = mz_zip_heap_write_func; pZip->m_pIO_opaque = pZip; if (!mz_zip_writer_init(pZip, size_to_reserve_at_beginning)) return MZ_FALSE; if (0 != (initial_allocation_size = MZ_MAX(initial_allocation_size, size_to_reserve_at_beginning))) { if (NULL == (pZip->m_pState->m_pMem = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, initial_allocation_size))) { mz_zip_writer_end(pZip); return MZ_FALSE; } pZip->m_pState->m_mem_capacity = initial_allocation_size; } return MZ_TRUE; } #ifndef MINIZ_NO_STDIO static size_t mz_zip_file_write_func(void *pOpaque, mz_uint64 file_ofs, const void *pBuf, size_t n) { mz_zip_archive *pZip = (mz_zip_archive *)pOpaque; mz_int64 cur_ofs = MZ_FTELL64(pZip->m_pState->m_pFile); if (((mz_int64)file_ofs < 0) || (((cur_ofs != (mz_int64)file_ofs)) && (MZ_FSEEK64(pZip->m_pState->m_pFile, (mz_int64)file_ofs, SEEK_SET)))) return 0; return MZ_FWRITE(pBuf, 1, n, pZip->m_pState->m_pFile); } mz_bool mz_zip_writer_init_file(mz_zip_archive *pZip, const char *pFilename, mz_uint64 size_to_reserve_at_beginning) { MZ_FILE *pFile; pZip->m_pWrite = mz_zip_file_write_func; pZip->m_pIO_opaque = pZip; if (!mz_zip_writer_init(pZip, size_to_reserve_at_beginning)) return MZ_FALSE; if (NULL == (pFile = MZ_FOPEN(pFilename, "wb"))) { mz_zip_writer_end(pZip); return MZ_FALSE; } pZip->m_pState->m_pFile = pFile; if (size_to_reserve_at_beginning) { mz_uint64 cur_ofs = 0; char buf[4096]; MZ_CLEAR_OBJ(buf); do { size_t n = (size_t)MZ_MIN(sizeof(buf), size_to_reserve_at_beginning); if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_ofs, buf, n) != n) { mz_zip_writer_end(pZip); return MZ_FALSE; } cur_ofs += n; size_to_reserve_at_beginning -= n; } while (size_to_reserve_at_beginning); } return MZ_TRUE; } #endif // #ifndef MINIZ_NO_STDIO mz_bool mz_zip_writer_init_from_reader(mz_zip_archive *pZip, const char *pFilename) { mz_zip_internal_state *pState; if ((!pZip) || (!pZip->m_pState) || (pZip->m_zip_mode != MZ_ZIP_MODE_READING)) return MZ_FALSE; // No sense in trying to write to an archive that's already at the support max size if ((pZip->m_total_files == 0xFFFF) || ((pZip->m_archive_size + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + MZ_ZIP_LOCAL_DIR_HEADER_SIZE) > 0xFFFFFFFF)) return MZ_FALSE; pState = pZip->m_pState; if (pState->m_pFile) { #ifdef MINIZ_NO_STDIO pFilename; return MZ_FALSE; #else // Archive is being read from stdio - try to reopen as writable. if (pZip->m_pIO_opaque != pZip) return MZ_FALSE; if (!pFilename) return MZ_FALSE; pZip->m_pWrite = mz_zip_file_write_func; if (NULL == (pState->m_pFile = MZ_FREOPEN(pFilename, "r+b", pState->m_pFile))) { // The mz_zip_archive is now in a bogus state because pState->m_pFile is NULL, so just close it. mz_zip_reader_end(pZip); return MZ_FALSE; } #endif // #ifdef MINIZ_NO_STDIO } else if (pState->m_pMem) { // Archive lives in a memory block. Assume it's from the heap that we can resize using the realloc callback. if (pZip->m_pIO_opaque != pZip) return MZ_FALSE; pState->m_mem_capacity = pState->m_mem_size; pZip->m_pWrite = mz_zip_heap_write_func; } // Archive is being read via a user provided read function - make sure the user has specified a write function too. else if (!pZip->m_pWrite) return MZ_FALSE; // Start writing new files at the archive's current central directory location. pZip->m_archive_size = pZip->m_central_directory_file_ofs; pZip->m_zip_mode = MZ_ZIP_MODE_WRITING; pZip->m_central_directory_file_ofs = 0; return MZ_TRUE; } mz_bool mz_zip_writer_add_mem(mz_zip_archive *pZip, const char *pArchive_name, const void *pBuf, size_t buf_size, mz_uint level_and_flags) { return mz_zip_writer_add_mem_ex(pZip, pArchive_name, pBuf, buf_size, NULL, 0, level_and_flags, 0, 0); } typedef struct { mz_zip_archive *m_pZip; mz_uint64 m_cur_archive_file_ofs; mz_uint64 m_comp_size; } mz_zip_writer_add_state; static mz_bool mz_zip_writer_add_put_buf_callback(const void* pBuf, int len, void *pUser) { mz_zip_writer_add_state *pState = (mz_zip_writer_add_state *)pUser; if ((int)pState->m_pZip->m_pWrite(pState->m_pZip->m_pIO_opaque, pState->m_cur_archive_file_ofs, pBuf, len) != len) return MZ_FALSE; pState->m_cur_archive_file_ofs += len; pState->m_comp_size += len; return MZ_TRUE; } static mz_bool mz_zip_writer_create_local_dir_header(mz_zip_archive *pZip, mz_uint8 *pDst, mz_uint16 filename_size, mz_uint16 extra_size, mz_uint64 uncomp_size, mz_uint64 comp_size, mz_uint32 uncomp_crc32, mz_uint16 method, mz_uint16 bit_flags, mz_uint16 dos_time, mz_uint16 dos_date) { (void)pZip; memset(pDst, 0, MZ_ZIP_LOCAL_DIR_HEADER_SIZE); MZ_WRITE_LE32(pDst + MZ_ZIP_LDH_SIG_OFS, MZ_ZIP_LOCAL_DIR_HEADER_SIG); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_VERSION_NEEDED_OFS, method ? 20 : 0); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_BIT_FLAG_OFS, bit_flags); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_METHOD_OFS, method); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_FILE_TIME_OFS, dos_time); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_FILE_DATE_OFS, dos_date); MZ_WRITE_LE32(pDst + MZ_ZIP_LDH_CRC32_OFS, uncomp_crc32); MZ_WRITE_LE32(pDst + MZ_ZIP_LDH_COMPRESSED_SIZE_OFS, comp_size); MZ_WRITE_LE32(pDst + MZ_ZIP_LDH_DECOMPRESSED_SIZE_OFS, uncomp_size); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_FILENAME_LEN_OFS, filename_size); MZ_WRITE_LE16(pDst + MZ_ZIP_LDH_EXTRA_LEN_OFS, extra_size); return MZ_TRUE; } static mz_bool mz_zip_writer_create_central_dir_header(mz_zip_archive *pZip, mz_uint8 *pDst, mz_uint16 filename_size, mz_uint16 extra_size, mz_uint16 comment_size, mz_uint64 uncomp_size, mz_uint64 comp_size, mz_uint32 uncomp_crc32, mz_uint16 method, mz_uint16 bit_flags, mz_uint16 dos_time, mz_uint16 dos_date, mz_uint64 local_header_ofs, mz_uint32 ext_attributes) { (void)pZip; memset(pDst, 0, MZ_ZIP_CENTRAL_DIR_HEADER_SIZE); MZ_WRITE_LE32(pDst + MZ_ZIP_CDH_SIG_OFS, MZ_ZIP_CENTRAL_DIR_HEADER_SIG); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_VERSION_NEEDED_OFS, method ? 20 : 0); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_BIT_FLAG_OFS, bit_flags); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_METHOD_OFS, method); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_FILE_TIME_OFS, dos_time); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_FILE_DATE_OFS, dos_date); MZ_WRITE_LE32(pDst + MZ_ZIP_CDH_CRC32_OFS, uncomp_crc32); MZ_WRITE_LE32(pDst + MZ_ZIP_CDH_COMPRESSED_SIZE_OFS, comp_size); MZ_WRITE_LE32(pDst + MZ_ZIP_CDH_DECOMPRESSED_SIZE_OFS, uncomp_size); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_FILENAME_LEN_OFS, filename_size); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_EXTRA_LEN_OFS, extra_size); MZ_WRITE_LE16(pDst + MZ_ZIP_CDH_COMMENT_LEN_OFS, comment_size); MZ_WRITE_LE32(pDst + MZ_ZIP_CDH_EXTERNAL_ATTR_OFS, ext_attributes); MZ_WRITE_LE32(pDst + MZ_ZIP_CDH_LOCAL_HEADER_OFS, local_header_ofs); return MZ_TRUE; } static mz_bool mz_zip_writer_add_to_central_dir(mz_zip_archive *pZip, const char *pFilename, mz_uint16 filename_size, const void *pExtra, mz_uint16 extra_size, const void *pComment, mz_uint16 comment_size, mz_uint64 uncomp_size, mz_uint64 comp_size, mz_uint32 uncomp_crc32, mz_uint16 method, mz_uint16 bit_flags, mz_uint16 dos_time, mz_uint16 dos_date, mz_uint64 local_header_ofs, mz_uint32 ext_attributes) { mz_zip_internal_state *pState = pZip->m_pState; mz_uint32 central_dir_ofs = (mz_uint32)pState->m_central_dir.m_size; size_t orig_central_dir_size = pState->m_central_dir.m_size; mz_uint8 central_dir_header[MZ_ZIP_CENTRAL_DIR_HEADER_SIZE]; // No zip64 support yet if ((local_header_ofs > 0xFFFFFFFF) || (((mz_uint64)pState->m_central_dir.m_size + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + filename_size + extra_size + comment_size) > 0xFFFFFFFF)) return MZ_FALSE; if (!mz_zip_writer_create_central_dir_header(pZip, central_dir_header, filename_size, extra_size, comment_size, uncomp_size, comp_size, uncomp_crc32, method, bit_flags, dos_time, dos_date, local_header_ofs, ext_attributes)) return MZ_FALSE; if ((!mz_zip_array_push_back(pZip, &pState->m_central_dir, central_dir_header, MZ_ZIP_CENTRAL_DIR_HEADER_SIZE)) || (!mz_zip_array_push_back(pZip, &pState->m_central_dir, pFilename, filename_size)) || (!mz_zip_array_push_back(pZip, &pState->m_central_dir, pExtra, extra_size)) || (!mz_zip_array_push_back(pZip, &pState->m_central_dir, pComment, comment_size)) || (!mz_zip_array_push_back(pZip, &pState->m_central_dir_offsets, &central_dir_ofs, 1))) { // Try to push the central directory array back into its original state. mz_zip_array_resize(pZip, &pState->m_central_dir, orig_central_dir_size, MZ_FALSE); return MZ_FALSE; } return MZ_TRUE; } static mz_bool mz_zip_writer_validate_archive_name(const char *pArchive_name) { // Basic ZIP archive filename validity checks: Valid filenames cannot start with a forward slash, cannot contain a drive letter, and cannot use DOS-style backward slashes. if (*pArchive_name == '/') return MZ_FALSE; while (*pArchive_name) { if ((*pArchive_name == '\\') || (*pArchive_name == ':')) return MZ_FALSE; pArchive_name++; } return MZ_TRUE; } static mz_uint mz_zip_writer_compute_padding_needed_for_file_alignment(mz_zip_archive *pZip) { mz_uint32 n; if (!pZip->m_file_offset_alignment) return 0; n = (mz_uint32)(pZip->m_archive_size & (pZip->m_file_offset_alignment - 1)); return (pZip->m_file_offset_alignment - n) & (pZip->m_file_offset_alignment - 1); } static mz_bool mz_zip_writer_write_zeros(mz_zip_archive *pZip, mz_uint64 cur_file_ofs, mz_uint32 n) { char buf[4096]; memset(buf, 0, MZ_MIN(sizeof(buf), n)); while (n) { mz_uint32 s = MZ_MIN(sizeof(buf), n); if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_file_ofs, buf, s) != s) return MZ_FALSE; cur_file_ofs += s; n -= s; } return MZ_TRUE; } mz_bool mz_zip_writer_add_mem_ex(mz_zip_archive *pZip, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags, mz_uint64 uncomp_size, mz_uint32 uncomp_crc32) { mz_uint16 method = 0, dos_time = 0, dos_date = 0; mz_uint level, ext_attributes = 0, num_alignment_padding_bytes; mz_uint64 local_dir_header_ofs = pZip->m_archive_size, cur_archive_file_ofs = pZip->m_archive_size, comp_size = 0; size_t archive_name_size; mz_uint8 local_dir_header[MZ_ZIP_LOCAL_DIR_HEADER_SIZE]; tdefl_compressor *pComp = NULL; mz_bool store_data_uncompressed; mz_zip_internal_state *pState; if ((int)level_and_flags < 0) level_and_flags = MZ_DEFAULT_LEVEL; level = level_and_flags & 0xF; store_data_uncompressed = ((!level) || (level_and_flags & MZ_ZIP_FLAG_COMPRESSED_DATA)); if ((!pZip) || (!pZip->m_pState) || (pZip->m_zip_mode != MZ_ZIP_MODE_WRITING) || ((buf_size) && (!pBuf)) || (!pArchive_name) || ((comment_size) && (!pComment)) || (pZip->m_total_files == 0xFFFF) || (level > MZ_UBER_COMPRESSION)) return MZ_FALSE; pState = pZip->m_pState; if ((!(level_and_flags & MZ_ZIP_FLAG_COMPRESSED_DATA)) && (uncomp_size)) return MZ_FALSE; // No zip64 support yet if ((buf_size > 0xFFFFFFFF) || (uncomp_size > 0xFFFFFFFF)) return MZ_FALSE; if (!mz_zip_writer_validate_archive_name(pArchive_name)) return MZ_FALSE; #ifndef MINIZ_NO_TIME { time_t cur_time; time(&cur_time); mz_zip_time_to_dos_time(cur_time, &dos_time, &dos_date); } #endif // #ifndef MINIZ_NO_TIME archive_name_size = strlen(pArchive_name); if (archive_name_size > 0xFFFF) return MZ_FALSE; num_alignment_padding_bytes = mz_zip_writer_compute_padding_needed_for_file_alignment(pZip); // no zip64 support yet if ((pZip->m_total_files == 0xFFFF) || ((pZip->m_archive_size + num_alignment_padding_bytes + MZ_ZIP_LOCAL_DIR_HEADER_SIZE + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + comment_size + archive_name_size) > 0xFFFFFFFF)) return MZ_FALSE; if ((archive_name_size) && (pArchive_name[archive_name_size - 1] == '/')) { // Set DOS Subdirectory attribute bit. ext_attributes |= 0x10; // Subdirectories cannot contain data. if ((buf_size) || (uncomp_size)) return MZ_FALSE; } // Try to do any allocations before writing to the archive, so if an allocation fails the file remains unmodified. (A good idea if we're doing an in-place modification.) if ((!mz_zip_array_ensure_room(pZip, &pState->m_central_dir, MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + archive_name_size + comment_size)) || (!mz_zip_array_ensure_room(pZip, &pState->m_central_dir_offsets, 1))) return MZ_FALSE; if ((!store_data_uncompressed) && (buf_size)) { if (NULL == (pComp = (tdefl_compressor *)pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, sizeof(tdefl_compressor)))) return MZ_FALSE; } if (!mz_zip_writer_write_zeros(pZip, cur_archive_file_ofs, num_alignment_padding_bytes + sizeof(local_dir_header))) { pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); return MZ_FALSE; } local_dir_header_ofs += num_alignment_padding_bytes; if (pZip->m_file_offset_alignment) { MZ_ASSERT((local_dir_header_ofs & (pZip->m_file_offset_alignment - 1)) == 0); } cur_archive_file_ofs += num_alignment_padding_bytes + sizeof(local_dir_header); MZ_CLEAR_OBJ(local_dir_header); if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_archive_file_ofs, pArchive_name, archive_name_size) != archive_name_size) { pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); return MZ_FALSE; } cur_archive_file_ofs += archive_name_size; if (!(level_and_flags & MZ_ZIP_FLAG_COMPRESSED_DATA)) { uncomp_crc32 = (mz_uint32)mz_crc32(MZ_CRC32_INIT, (const mz_uint8*)pBuf, buf_size); uncomp_size = buf_size; if (uncomp_size <= 3) { level = 0; store_data_uncompressed = MZ_TRUE; } } if (store_data_uncompressed) { if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_archive_file_ofs, pBuf, buf_size) != buf_size) { pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); return MZ_FALSE; } cur_archive_file_ofs += buf_size; comp_size = buf_size; if (level_and_flags & MZ_ZIP_FLAG_COMPRESSED_DATA) method = MZ_DEFLATED; } else if (buf_size) { mz_zip_writer_add_state state; state.m_pZip = pZip; state.m_cur_archive_file_ofs = cur_archive_file_ofs; state.m_comp_size = 0; if ((tdefl_init(pComp, mz_zip_writer_add_put_buf_callback, &state, tdefl_create_comp_flags_from_zip_params(level, -15, MZ_DEFAULT_STRATEGY)) != TDEFL_STATUS_OKAY) || (tdefl_compress_buffer(pComp, pBuf, buf_size, TDEFL_FINISH) != TDEFL_STATUS_DONE)) { pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); return MZ_FALSE; } comp_size = state.m_comp_size; cur_archive_file_ofs = state.m_cur_archive_file_ofs; method = MZ_DEFLATED; } pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); pComp = NULL; // no zip64 support yet if ((comp_size > 0xFFFFFFFF) || (cur_archive_file_ofs > 0xFFFFFFFF)) return MZ_FALSE; if (!mz_zip_writer_create_local_dir_header(pZip, local_dir_header, (mz_uint16)archive_name_size, 0, uncomp_size, comp_size, uncomp_crc32, method, 0, dos_time, dos_date)) return MZ_FALSE; if (pZip->m_pWrite(pZip->m_pIO_opaque, local_dir_header_ofs, local_dir_header, sizeof(local_dir_header)) != sizeof(local_dir_header)) return MZ_FALSE; if (!mz_zip_writer_add_to_central_dir(pZip, pArchive_name, (mz_uint16)archive_name_size, NULL, 0, pComment, comment_size, uncomp_size, comp_size, uncomp_crc32, method, 0, dos_time, dos_date, local_dir_header_ofs, ext_attributes)) return MZ_FALSE; pZip->m_total_files++; pZip->m_archive_size = cur_archive_file_ofs; return MZ_TRUE; } #ifndef MINIZ_NO_STDIO mz_bool mz_zip_writer_add_file(mz_zip_archive *pZip, const char *pArchive_name, const char *pSrc_filename, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags) { mz_uint uncomp_crc32 = MZ_CRC32_INIT, level, num_alignment_padding_bytes; mz_uint16 method = 0, dos_time = 0, dos_date = 0, ext_attributes = 0; mz_uint64 local_dir_header_ofs = pZip->m_archive_size, cur_archive_file_ofs = pZip->m_archive_size, uncomp_size = 0, comp_size = 0; size_t archive_name_size; mz_uint8 local_dir_header[MZ_ZIP_LOCAL_DIR_HEADER_SIZE]; MZ_FILE *pSrc_file = NULL; if ((int)level_and_flags < 0) level_and_flags = MZ_DEFAULT_LEVEL; level = level_and_flags & 0xF; if ((!pZip) || (!pZip->m_pState) || (pZip->m_zip_mode != MZ_ZIP_MODE_WRITING) || (!pArchive_name) || ((comment_size) && (!pComment)) || (level > MZ_UBER_COMPRESSION)) return MZ_FALSE; if (level_and_flags & MZ_ZIP_FLAG_COMPRESSED_DATA) return MZ_FALSE; if (!mz_zip_writer_validate_archive_name(pArchive_name)) return MZ_FALSE; archive_name_size = strlen(pArchive_name); if (archive_name_size > 0xFFFF) return MZ_FALSE; num_alignment_padding_bytes = mz_zip_writer_compute_padding_needed_for_file_alignment(pZip); // no zip64 support yet if ((pZip->m_total_files == 0xFFFF) || ((pZip->m_archive_size + num_alignment_padding_bytes + MZ_ZIP_LOCAL_DIR_HEADER_SIZE + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE + comment_size + archive_name_size) > 0xFFFFFFFF)) return MZ_FALSE; if (!mz_zip_get_file_modified_time(pSrc_filename, &dos_time, &dos_date)) return MZ_FALSE; pSrc_file = MZ_FOPEN(pSrc_filename, "rb"); if (!pSrc_file) return MZ_FALSE; MZ_FSEEK64(pSrc_file, 0, SEEK_END); uncomp_size = MZ_FTELL64(pSrc_file); MZ_FSEEK64(pSrc_file, 0, SEEK_SET); if (uncomp_size > 0xFFFFFFFF) { // No zip64 support yet MZ_FCLOSE(pSrc_file); return MZ_FALSE; } if (uncomp_size <= 3) level = 0; if (!mz_zip_writer_write_zeros(pZip, cur_archive_file_ofs, num_alignment_padding_bytes + sizeof(local_dir_header))) { MZ_FCLOSE(pSrc_file); return MZ_FALSE; } local_dir_header_ofs += num_alignment_padding_bytes; if (pZip->m_file_offset_alignment) { MZ_ASSERT((local_dir_header_ofs & (pZip->m_file_offset_alignment - 1)) == 0); } cur_archive_file_ofs += num_alignment_padding_bytes + sizeof(local_dir_header); MZ_CLEAR_OBJ(local_dir_header); if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_archive_file_ofs, pArchive_name, archive_name_size) != archive_name_size) { MZ_FCLOSE(pSrc_file); return MZ_FALSE; } cur_archive_file_ofs += archive_name_size; if (uncomp_size) { mz_uint64 uncomp_remaining = uncomp_size; void *pRead_buf = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, MZ_ZIP_MAX_IO_BUF_SIZE); if (!pRead_buf) { MZ_FCLOSE(pSrc_file); return MZ_FALSE; } if (!level) { while (uncomp_remaining) { mz_uint n = (mz_uint)MZ_MIN(MZ_ZIP_MAX_IO_BUF_SIZE, uncomp_remaining); if ((MZ_FREAD(pRead_buf, 1, n, pSrc_file) != n) || (pZip->m_pWrite(pZip->m_pIO_opaque, cur_archive_file_ofs, pRead_buf, n) != n)) { pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); MZ_FCLOSE(pSrc_file); return MZ_FALSE; } uncomp_crc32 = (mz_uint32)mz_crc32(uncomp_crc32, (const mz_uint8 *)pRead_buf, n); uncomp_remaining -= n; cur_archive_file_ofs += n; } comp_size = uncomp_size; } else { mz_bool result = MZ_FALSE; mz_zip_writer_add_state state; tdefl_compressor *pComp = (tdefl_compressor *)pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, sizeof(tdefl_compressor)); if (!pComp) { pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); MZ_FCLOSE(pSrc_file); return MZ_FALSE; } state.m_pZip = pZip; state.m_cur_archive_file_ofs = cur_archive_file_ofs; state.m_comp_size = 0; if (tdefl_init(pComp, mz_zip_writer_add_put_buf_callback, &state, tdefl_create_comp_flags_from_zip_params(level, -15, MZ_DEFAULT_STRATEGY)) != TDEFL_STATUS_OKAY) { pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); MZ_FCLOSE(pSrc_file); return MZ_FALSE; } for ( ; ; ) { size_t in_buf_size = (mz_uint32)MZ_MIN(uncomp_remaining, MZ_ZIP_MAX_IO_BUF_SIZE); tdefl_status status; if (MZ_FREAD(pRead_buf, 1, in_buf_size, pSrc_file) != in_buf_size) break; uncomp_crc32 = (mz_uint32)mz_crc32(uncomp_crc32, (const mz_uint8 *)pRead_buf, in_buf_size); uncomp_remaining -= in_buf_size; status = tdefl_compress_buffer(pComp, pRead_buf, in_buf_size, uncomp_remaining ? TDEFL_NO_FLUSH : TDEFL_FINISH); if (status == TDEFL_STATUS_DONE) { result = MZ_TRUE; break; } else if (status != TDEFL_STATUS_OKAY) break; } pZip->m_pFree(pZip->m_pAlloc_opaque, pComp); if (!result) { pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); MZ_FCLOSE(pSrc_file); return MZ_FALSE; } comp_size = state.m_comp_size; cur_archive_file_ofs = state.m_cur_archive_file_ofs; method = MZ_DEFLATED; } pZip->m_pFree(pZip->m_pAlloc_opaque, pRead_buf); } MZ_FCLOSE(pSrc_file); pSrc_file = NULL; // no zip64 support yet if ((comp_size > 0xFFFFFFFF) || (cur_archive_file_ofs > 0xFFFFFFFF)) return MZ_FALSE; if (!mz_zip_writer_create_local_dir_header(pZip, local_dir_header, (mz_uint16)archive_name_size, 0, uncomp_size, comp_size, uncomp_crc32, method, 0, dos_time, dos_date)) return MZ_FALSE; if (pZip->m_pWrite(pZip->m_pIO_opaque, local_dir_header_ofs, local_dir_header, sizeof(local_dir_header)) != sizeof(local_dir_header)) return MZ_FALSE; if (!mz_zip_writer_add_to_central_dir(pZip, pArchive_name, (mz_uint16)archive_name_size, NULL, 0, pComment, comment_size, uncomp_size, comp_size, uncomp_crc32, method, 0, dos_time, dos_date, local_dir_header_ofs, ext_attributes)) return MZ_FALSE; pZip->m_total_files++; pZip->m_archive_size = cur_archive_file_ofs; return MZ_TRUE; } #endif // #ifndef MINIZ_NO_STDIO mz_bool mz_zip_writer_add_from_zip_reader(mz_zip_archive *pZip, mz_zip_archive *pSource_zip, mz_uint file_index) { mz_uint n, bit_flags, num_alignment_padding_bytes; mz_uint64 comp_bytes_remaining, local_dir_header_ofs; mz_uint64 cur_src_file_ofs, cur_dst_file_ofs; mz_uint32 local_header_u32[(MZ_ZIP_LOCAL_DIR_HEADER_SIZE + sizeof(mz_uint32) - 1) / sizeof(mz_uint32)]; mz_uint8 *pLocal_header = (mz_uint8 *)local_header_u32; mz_uint8 central_header[MZ_ZIP_CENTRAL_DIR_HEADER_SIZE]; size_t orig_central_dir_size; mz_zip_internal_state *pState; void *pBuf; const mz_uint8 *pSrc_central_header; if ((!pZip) || (!pZip->m_pState) || (pZip->m_zip_mode != MZ_ZIP_MODE_WRITING)) return MZ_FALSE; if (NULL == (pSrc_central_header = mz_zip_reader_get_cdh(pSource_zip, file_index))) return MZ_FALSE; pState = pZip->m_pState; num_alignment_padding_bytes = mz_zip_writer_compute_padding_needed_for_file_alignment(pZip); // no zip64 support yet if ((pZip->m_total_files == 0xFFFF) || ((pZip->m_archive_size + num_alignment_padding_bytes + MZ_ZIP_LOCAL_DIR_HEADER_SIZE + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE) > 0xFFFFFFFF)) return MZ_FALSE; cur_src_file_ofs = MZ_READ_LE32(pSrc_central_header + MZ_ZIP_CDH_LOCAL_HEADER_OFS); cur_dst_file_ofs = pZip->m_archive_size; if (pSource_zip->m_pRead(pSource_zip->m_pIO_opaque, cur_src_file_ofs, pLocal_header, MZ_ZIP_LOCAL_DIR_HEADER_SIZE) != MZ_ZIP_LOCAL_DIR_HEADER_SIZE) return MZ_FALSE; if (MZ_READ_LE32(pLocal_header) != MZ_ZIP_LOCAL_DIR_HEADER_SIG) return MZ_FALSE; cur_src_file_ofs += MZ_ZIP_LOCAL_DIR_HEADER_SIZE; if (!mz_zip_writer_write_zeros(pZip, cur_dst_file_ofs, num_alignment_padding_bytes)) return MZ_FALSE; cur_dst_file_ofs += num_alignment_padding_bytes; local_dir_header_ofs = cur_dst_file_ofs; if (pZip->m_file_offset_alignment) { MZ_ASSERT((local_dir_header_ofs & (pZip->m_file_offset_alignment - 1)) == 0); } if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_dst_file_ofs, pLocal_header, MZ_ZIP_LOCAL_DIR_HEADER_SIZE) != MZ_ZIP_LOCAL_DIR_HEADER_SIZE) return MZ_FALSE; cur_dst_file_ofs += MZ_ZIP_LOCAL_DIR_HEADER_SIZE; n = MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_FILENAME_LEN_OFS) + MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_EXTRA_LEN_OFS); comp_bytes_remaining = n + MZ_READ_LE32(pSrc_central_header + MZ_ZIP_CDH_COMPRESSED_SIZE_OFS); if (NULL == (pBuf = pZip->m_pAlloc(pZip->m_pAlloc_opaque, 1, (size_t)MZ_MAX(sizeof(mz_uint32) * 4, MZ_MIN(MZ_ZIP_MAX_IO_BUF_SIZE, comp_bytes_remaining))))) return MZ_FALSE; while (comp_bytes_remaining) { n = (mz_uint)MZ_MIN(MZ_ZIP_MAX_IO_BUF_SIZE, comp_bytes_remaining); if (pSource_zip->m_pRead(pSource_zip->m_pIO_opaque, cur_src_file_ofs, pBuf, n) != n) { pZip->m_pFree(pZip->m_pAlloc_opaque, pBuf); return MZ_FALSE; } cur_src_file_ofs += n; if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_dst_file_ofs, pBuf, n) != n) { pZip->m_pFree(pZip->m_pAlloc_opaque, pBuf); return MZ_FALSE; } cur_dst_file_ofs += n; comp_bytes_remaining -= n; } bit_flags = MZ_READ_LE16(pLocal_header + MZ_ZIP_LDH_BIT_FLAG_OFS); if (bit_flags & 8) { // Copy data descriptor if (pSource_zip->m_pRead(pSource_zip->m_pIO_opaque, cur_src_file_ofs, pBuf, sizeof(mz_uint32) * 4) != sizeof(mz_uint32) * 4) { pZip->m_pFree(pZip->m_pAlloc_opaque, pBuf); return MZ_FALSE; } n = sizeof(mz_uint32) * ((MZ_READ_LE32(pBuf) == 0x08074b50) ? 4 : 3); if (pZip->m_pWrite(pZip->m_pIO_opaque, cur_dst_file_ofs, pBuf, n) != n) { pZip->m_pFree(pZip->m_pAlloc_opaque, pBuf); return MZ_FALSE; } cur_src_file_ofs += n; cur_dst_file_ofs += n; } pZip->m_pFree(pZip->m_pAlloc_opaque, pBuf); // no zip64 support yet if (cur_dst_file_ofs > 0xFFFFFFFF) return MZ_FALSE; orig_central_dir_size = pState->m_central_dir.m_size; memcpy(central_header, pSrc_central_header, MZ_ZIP_CENTRAL_DIR_HEADER_SIZE); MZ_WRITE_LE32(central_header + MZ_ZIP_CDH_LOCAL_HEADER_OFS, local_dir_header_ofs); if (!mz_zip_array_push_back(pZip, &pState->m_central_dir, central_header, MZ_ZIP_CENTRAL_DIR_HEADER_SIZE)) return MZ_FALSE; n = MZ_READ_LE16(pSrc_central_header + MZ_ZIP_CDH_FILENAME_LEN_OFS) + MZ_READ_LE16(pSrc_central_header + MZ_ZIP_CDH_EXTRA_LEN_OFS) + MZ_READ_LE16(pSrc_central_header + MZ_ZIP_CDH_COMMENT_LEN_OFS); if (!mz_zip_array_push_back(pZip, &pState->m_central_dir, pSrc_central_header + MZ_ZIP_CENTRAL_DIR_HEADER_SIZE, n)) { mz_zip_array_resize(pZip, &pState->m_central_dir, orig_central_dir_size, MZ_FALSE); return MZ_FALSE; } if (pState->m_central_dir.m_size > 0xFFFFFFFF) return MZ_FALSE; n = (mz_uint32)orig_central_dir_size; if (!mz_zip_array_push_back(pZip, &pState->m_central_dir_offsets, &n, 1)) { mz_zip_array_resize(pZip, &pState->m_central_dir, orig_central_dir_size, MZ_FALSE); return MZ_FALSE; } pZip->m_total_files++; pZip->m_archive_size = cur_dst_file_ofs; return MZ_TRUE; } mz_bool mz_zip_writer_finalize_archive(mz_zip_archive *pZip) { mz_zip_internal_state *pState; mz_uint64 central_dir_ofs, central_dir_size; mz_uint8 hdr[MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE]; if ((!pZip) || (!pZip->m_pState) || (pZip->m_zip_mode != MZ_ZIP_MODE_WRITING)) return MZ_FALSE; pState = pZip->m_pState; // no zip64 support yet if ((pZip->m_total_files > 0xFFFF) || ((pZip->m_archive_size + pState->m_central_dir.m_size + MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIZE) > 0xFFFFFFFF)) return MZ_FALSE; central_dir_ofs = 0; central_dir_size = 0; if (pZip->m_total_files) { // Write central directory central_dir_ofs = pZip->m_archive_size; central_dir_size = pState->m_central_dir.m_size; pZip->m_central_directory_file_ofs = central_dir_ofs; if (pZip->m_pWrite(pZip->m_pIO_opaque, central_dir_ofs, pState->m_central_dir.m_p, (size_t)central_dir_size) != central_dir_size) return MZ_FALSE; pZip->m_archive_size += central_dir_size; } // Write end of central directory record MZ_CLEAR_OBJ(hdr); MZ_WRITE_LE32(hdr + MZ_ZIP_ECDH_SIG_OFS, MZ_ZIP_END_OF_CENTRAL_DIR_HEADER_SIG); MZ_WRITE_LE16(hdr + MZ_ZIP_ECDH_CDIR_NUM_ENTRIES_ON_DISK_OFS, pZip->m_total_files); MZ_WRITE_LE16(hdr + MZ_ZIP_ECDH_CDIR_TOTAL_ENTRIES_OFS, pZip->m_total_files); MZ_WRITE_LE32(hdr + MZ_ZIP_ECDH_CDIR_SIZE_OFS, central_dir_size); MZ_WRITE_LE32(hdr + MZ_ZIP_ECDH_CDIR_OFS_OFS, central_dir_ofs); if (pZip->m_pWrite(pZip->m_pIO_opaque, pZip->m_archive_size, hdr, sizeof(hdr)) != sizeof(hdr)) return MZ_FALSE; #ifndef MINIZ_NO_STDIO if ((pState->m_pFile) && (MZ_FFLUSH(pState->m_pFile) == EOF)) return MZ_FALSE; #endif // #ifndef MINIZ_NO_STDIO pZip->m_archive_size += sizeof(hdr); pZip->m_zip_mode = MZ_ZIP_MODE_WRITING_HAS_BEEN_FINALIZED; return MZ_TRUE; } mz_bool mz_zip_writer_finalize_heap_archive(mz_zip_archive *pZip, void **pBuf, size_t *pSize) { if ((!pZip) || (!pZip->m_pState) || (!pBuf) || (!pSize)) return MZ_FALSE; if (pZip->m_pWrite != mz_zip_heap_write_func) return MZ_FALSE; if (!mz_zip_writer_finalize_archive(pZip)) return MZ_FALSE; *pBuf = pZip->m_pState->m_pMem; *pSize = pZip->m_pState->m_mem_size; pZip->m_pState->m_pMem = NULL; pZip->m_pState->m_mem_size = pZip->m_pState->m_mem_capacity = 0; return MZ_TRUE; } mz_bool mz_zip_writer_end(mz_zip_archive *pZip) { mz_zip_internal_state *pState; mz_bool status = MZ_TRUE; if ((!pZip) || (!pZip->m_pState) || (!pZip->m_pAlloc) || (!pZip->m_pFree) || ((pZip->m_zip_mode != MZ_ZIP_MODE_WRITING) && (pZip->m_zip_mode != MZ_ZIP_MODE_WRITING_HAS_BEEN_FINALIZED))) return MZ_FALSE; pState = pZip->m_pState; pZip->m_pState = NULL; mz_zip_array_clear(pZip, &pState->m_central_dir); mz_zip_array_clear(pZip, &pState->m_central_dir_offsets); mz_zip_array_clear(pZip, &pState->m_sorted_central_dir_offsets); #ifndef MINIZ_NO_STDIO if (pState->m_pFile) { MZ_FCLOSE(pState->m_pFile); pState->m_pFile = NULL; } #endif // #ifndef MINIZ_NO_STDIO if ((pZip->m_pWrite == mz_zip_heap_write_func) && (pState->m_pMem)) { pZip->m_pFree(pZip->m_pAlloc_opaque, pState->m_pMem); pState->m_pMem = NULL; } pZip->m_pFree(pZip->m_pAlloc_opaque, pState); pZip->m_zip_mode = MZ_ZIP_MODE_INVALID; return status; } #ifndef MINIZ_NO_STDIO mz_bool mz_zip_add_mem_to_archive_file_in_place(const char *pZip_filename, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags) { mz_bool status, created_new_archive = MZ_FALSE; mz_zip_archive zip_archive; struct MZ_FILE_STAT_STRUCT file_stat; MZ_CLEAR_OBJ(zip_archive); if ((int)level_and_flags < 0) level_and_flags = MZ_DEFAULT_LEVEL; if ((!pZip_filename) || (!pArchive_name) || ((buf_size) && (!pBuf)) || ((comment_size) && (!pComment)) || ((level_and_flags & 0xF) > MZ_UBER_COMPRESSION)) return MZ_FALSE; if (!mz_zip_writer_validate_archive_name(pArchive_name)) return MZ_FALSE; if (MZ_FILE_STAT(pZip_filename, &file_stat) != 0) { // Create a new archive. if (!mz_zip_writer_init_file(&zip_archive, pZip_filename, 0)) return MZ_FALSE; created_new_archive = MZ_TRUE; } else { // Append to an existing archive. if (!mz_zip_reader_init_file(&zip_archive, pZip_filename, level_and_flags | MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY)) return MZ_FALSE; if (!mz_zip_writer_init_from_reader(&zip_archive, pZip_filename)) { mz_zip_reader_end(&zip_archive); return MZ_FALSE; } } status = mz_zip_writer_add_mem_ex(&zip_archive, pArchive_name, pBuf, buf_size, pComment, comment_size, level_and_flags, 0, 0); // Always finalize, even if adding failed for some reason, so we have a valid central directory. (This may not always succeed, but we can try.) if (!mz_zip_writer_finalize_archive(&zip_archive)) status = MZ_FALSE; if (!mz_zip_writer_end(&zip_archive)) status = MZ_FALSE; if ((!status) && (created_new_archive)) { // It's a new archive and something went wrong, so just delete it. int ignoredStatus = MZ_DELETE_FILE(pZip_filename); (void)ignoredStatus; } return status; } void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, const char *pArchive_name, size_t *pSize, mz_uint flags) { int file_index; mz_zip_archive zip_archive; void *p = NULL; if (pSize) *pSize = 0; if ((!pZip_filename) || (!pArchive_name)) return NULL; MZ_CLEAR_OBJ(zip_archive); if (!mz_zip_reader_init_file(&zip_archive, pZip_filename, flags | MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY)) return NULL; if ((file_index = mz_zip_reader_locate_file(&zip_archive, pArchive_name, NULL, flags)) >= 0) p = mz_zip_reader_extract_to_heap(&zip_archive, file_index, pSize, flags); mz_zip_reader_end(&zip_archive); return p; } #endif // #ifndef MINIZ_NO_STDIO #endif // #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS #endif // #ifndef MINIZ_NO_ARCHIVE_APIS #ifdef __cplusplus } #endif #endif // MINIZ_HEADER_FILE_ONLY /* This is free and unencumbered software released into the public domain. Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means. In jurisdictions that recognize copyright laws, the author or authors of this software dedicate any and all copyright interest in the software to the public domain. We make this dedication for the benefit of the public at large and to the detriment of our heirs and successors. We intend this dedication to be an overt act of relinquishment in perpetuity of all present and future rights to this software under copyright law. 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 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. For more information, please refer to <http://unlicense.org/> */
the_stack_data/111079063.c
/* ************************************************************************** */ /* */ /* ::: :::::::: */ /* ft_range.c :+: :+: :+: */ /* +:+ +:+ +:+ */ /* By: llima-ce <[email protected]> +#+ +:+ +#+ */ /* +#+#+#+#+#+ +#+ */ /* Created: 2021/07/27 14:42:42 by llima-ce #+# #+# */ /* Updated: 2021/07/28 14:33:36 by llima-ce ### ########.fr */ /* */ /* ************************************************************************** */ #include <stdlib.h> int *ft_range(int min, int max) { int *res; int i; if(min < max) { res = (int *)malloc((max - min)*sizeof(int)); i = 0; if(res) { while(min < max) { res[i] = min; min++; i++; } } return(res); } return(0); }
the_stack_data/147515.c
int main (void) { #pragma acc parallel ; }
the_stack_data/237643268.c
extern void __VERIFIER_error() __attribute__ ((__noreturn__)); void __VERIFIER_assert(int cond) { if(!(cond)) { ERROR: __VERIFIER_error(); } } #define N 125 int main( ) { int a1[N]; int a2[N]; int a3[N]; int a4[N]; int a5[N]; int i; for ( i = 0 ; i < N ; i++ ) { a2[i] = a1[i]; } for ( i = 0 ; i < N ; i++ ) { a3[i] = a2[i]; } for ( i = 0 ; i < N ; i++ ) { a4[i] = a3[i]; } for ( i = 0 ; i < N ; i++ ) { a5[i] = a4[i]; } int x; for ( x = 0 ; x < N ; x++ ) { __VERIFIER_assert( a1[x] == a5[x] ); } return 0; }
the_stack_data/20450510.c
#define _GNU_SOURCE #include <sys/types.h> #include <sys/wait.h> #include <stdio.h> #include <sched.h> #include <signal.h> #include <unistd.h> #define STACK_SIZE (1024*1024) static char stack[STACK_SIZE]; char *const args[] = { "/bin/bash", NULL }; int container_routine(void *arg) { printf("inside container with pid: %d\n", getpid()); sethostname("container", 10); execv(args[0], args); printf("somethings' wrong\n"); return 1; } int main() { printf("outside container with pid: %d\n", getpid()); pid_t cpid = clone(container_routine, stack+sizeof(stack), CLONE_NEWUTS|SIGCHLD, NULL); waitpid(cpid, NULL, 0); printf("parent - container stoped!\n"); return 0; }
the_stack_data/108811.c
// PWR038: Apply loop sectioning to improve performance // https://www.appentra.com/knowledge/checks/pwr038 void matvec(const double *restrict *restrict mat, const double *restrict vec, int rows, int cols, double *restrict result) { for (int i = 0; i < rows; i++) { result[i] = 0; for (int j = 0; j < cols; j++) result[i] += mat[i][j] * vec[j]; } }
the_stack_data/86075866.c
// KASAN: invalid-free in io_sqe_files_unregister // https://syzkaller.appspot.com/bug?id=1f2ecd7a23dba87e5ca3505ec44514a462cfe8c0 // status:fixed // autogenerated by syzkaller (https://github.com/google/syzkaller) #define _GNU_SOURCE #include <arpa/inet.h> #include <endian.h> #include <errno.h> #include <fcntl.h> #include <net/if.h> #include <netinet/in.h> #include <stdarg.h> #include <stdbool.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/socket.h> #include <sys/stat.h> #include <sys/syscall.h> #include <sys/types.h> #include <unistd.h> #include <sched.h> #include <linux/genetlink.h> #include <linux/if_addr.h> #include <linux/if_link.h> #include <linux/in6.h> #include <linux/neighbour.h> #include <linux/net.h> #include <linux/netlink.h> #include <linux/rtnetlink.h> #include <linux/veth.h> 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 struct { char* pos; int nesting; struct nlattr* nested[8]; char buf[1024]; } nlmsg; static void netlink_init(int typ, int flags, const void* data, int size) { memset(&nlmsg, 0, sizeof(nlmsg)); struct nlmsghdr* hdr = (struct nlmsghdr*)nlmsg.buf; hdr->nlmsg_type = typ; hdr->nlmsg_flags = NLM_F_REQUEST | NLM_F_ACK | flags; memcpy(hdr + 1, data, size); nlmsg.pos = (char*)(hdr + 1) + NLMSG_ALIGN(size); } static void netlink_attr(int typ, const void* data, int size) { struct nlattr* attr = (struct nlattr*)nlmsg.pos; attr->nla_len = sizeof(*attr) + size; attr->nla_type = typ; memcpy(attr + 1, data, size); nlmsg.pos += NLMSG_ALIGN(attr->nla_len); } static int netlink_send_ext(int sock, uint16_t reply_type, int* reply_len) { if (nlmsg.pos > nlmsg.buf + sizeof(nlmsg.buf) || nlmsg.nesting) exit(1); struct nlmsghdr* hdr = (struct nlmsghdr*)nlmsg.buf; hdr->nlmsg_len = nlmsg.pos - nlmsg.buf; struct sockaddr_nl addr; memset(&addr, 0, sizeof(addr)); addr.nl_family = AF_NETLINK; unsigned n = sendto(sock, nlmsg.buf, hdr->nlmsg_len, 0, (struct sockaddr*)&addr, sizeof(addr)); if (n != hdr->nlmsg_len) exit(1); n = recv(sock, nlmsg.buf, sizeof(nlmsg.buf), 0); if (n < sizeof(struct nlmsghdr)) exit(1); if (reply_len && hdr->nlmsg_type == reply_type) { *reply_len = n; return 0; } if (n < sizeof(struct nlmsghdr) + sizeof(struct nlmsgerr)) exit(1); if (hdr->nlmsg_type != NLMSG_ERROR) exit(1); return -((struct nlmsgerr*)(hdr + 1))->error; } static int netlink_send(int sock) { return netlink_send_ext(sock, 0, NULL); } const int kInitNetNsFd = 239; #define DEVLINK_FAMILY_NAME "devlink" #define DEVLINK_CMD_RELOAD 37 #define DEVLINK_ATTR_BUS_NAME 1 #define DEVLINK_ATTR_DEV_NAME 2 #define DEVLINK_ATTR_NETNS_FD 137 static void netlink_devlink_netns_move(const char* bus_name, const char* dev_name, int netns_fd) { struct genlmsghdr genlhdr; struct nlattr* attr; int sock, err, n; uint16_t id = 0; sock = socket(AF_NETLINK, SOCK_RAW, NETLINK_GENERIC); if (sock == -1) exit(1); memset(&genlhdr, 0, sizeof(genlhdr)); genlhdr.cmd = CTRL_CMD_GETFAMILY; netlink_init(GENL_ID_CTRL, 0, &genlhdr, sizeof(genlhdr)); netlink_attr(CTRL_ATTR_FAMILY_NAME, DEVLINK_FAMILY_NAME, strlen(DEVLINK_FAMILY_NAME) + 1); err = netlink_send_ext(sock, GENL_ID_CTRL, &n); if (err) { goto error; } attr = (struct nlattr*)(nlmsg.buf + NLMSG_HDRLEN + NLMSG_ALIGN(sizeof(genlhdr))); for (; (char*)attr < nlmsg.buf + n; attr = (struct nlattr*)((char*)attr + NLMSG_ALIGN(attr->nla_len))) { if (attr->nla_type == CTRL_ATTR_FAMILY_ID) { id = *(uint16_t*)(attr + 1); break; } } if (!id) { goto error; } recv(sock, nlmsg.buf, sizeof(nlmsg.buf), 0); /* recv ack */ memset(&genlhdr, 0, sizeof(genlhdr)); genlhdr.cmd = DEVLINK_CMD_RELOAD; netlink_init(id, 0, &genlhdr, sizeof(genlhdr)); netlink_attr(DEVLINK_ATTR_BUS_NAME, bus_name, strlen(bus_name) + 1); netlink_attr(DEVLINK_ATTR_DEV_NAME, dev_name, strlen(dev_name) + 1); netlink_attr(DEVLINK_ATTR_NETNS_FD, &netns_fd, sizeof(netns_fd)); netlink_send(sock); error: close(sock); } static void initialize_devlink_pci(void) { int netns = open("/proc/self/ns/net", O_RDONLY); if (netns == -1) exit(1); int ret = setns(kInitNetNsFd, 0); if (ret == -1) exit(1); netlink_devlink_netns_move("pci", "0000:00:10.0", netns); ret = setns(netns, 0); if (ret == -1) exit(1); close(netns); } static int inject_fault(int nth) { int fd; fd = open("/proc/thread-self/fail-nth", O_RDWR); if (fd == -1) exit(1); char buf[16]; sprintf(buf, "%d", nth + 1); if (write(fd, buf, strlen(buf)) != (ssize_t)strlen(buf)) exit(1); return fd; } static void setup_fault() { static struct { const char* file; const char* val; bool fatal; } files[] = { {"/sys/kernel/debug/failslab/ignore-gfp-wait", "N", true}, {"/sys/kernel/debug/fail_futex/ignore-private", "N", false}, {"/sys/kernel/debug/fail_page_alloc/ignore-gfp-highmem", "N", false}, {"/sys/kernel/debug/fail_page_alloc/ignore-gfp-wait", "N", false}, {"/sys/kernel/debug/fail_page_alloc/min-order", "0", false}, }; unsigned i; for (i = 0; i < sizeof(files) / sizeof(files[0]); i++) { if (!write_file(files[i].file, files[i].val)) { if (files[i].fatal) exit(1); } } } #ifndef __NR_io_uring_register #define __NR_io_uring_register 427 #endif #ifndef __NR_io_uring_setup #define __NR_io_uring_setup 425 #endif uint64_t r[2] = {0xffffffffffffffff, 0xffffffffffffffff}; int main(void) { syscall(__NR_mmap, 0x20000000ul, 0x1000000ul, 3ul, 0x32ul, -1, 0); setup_fault(); intptr_t res = 0; *(uint32_t*)0x20000000 = 0; *(uint32_t*)0x20000004 = 0; *(uint32_t*)0x20000008 = 0; *(uint32_t*)0x2000000c = 0; *(uint32_t*)0x20000010 = 0; *(uint32_t*)0x20000014 = 0; *(uint32_t*)0x20000018 = 0; *(uint32_t*)0x2000001c = 0; *(uint32_t*)0x20000020 = 0; *(uint32_t*)0x20000024 = 0; *(uint32_t*)0x20000028 = 0; *(uint32_t*)0x2000002c = 0; *(uint32_t*)0x20000030 = 0; *(uint32_t*)0x20000034 = 0; *(uint32_t*)0x20000038 = 0; *(uint32_t*)0x2000003c = 0; *(uint32_t*)0x20000040 = 0; *(uint32_t*)0x20000044 = 0; *(uint64_t*)0x20000048 = 0; *(uint32_t*)0x20000050 = 0; *(uint32_t*)0x20000054 = 0; *(uint32_t*)0x20000058 = 0; *(uint32_t*)0x2000005c = 0; *(uint32_t*)0x20000060 = 0; *(uint32_t*)0x20000064 = 0; *(uint32_t*)0x20000068 = 0; *(uint32_t*)0x2000006c = 0; *(uint64_t*)0x20000070 = 0; res = syscall(__NR_io_uring_setup, 0x6a6, 0x20000000ul); if (res != -1) r[0] = res; res = syscall(__NR_socket, 0x11ul, 2ul, 0x300ul); if (res != -1) r[1] = res; *(uint32_t*)0x20000080 = r[1]; inject_fault(1); syscall(__NR_io_uring_register, r[0], 2ul, 0x20000080ul, 1ul); return 0; }
the_stack_data/67326179.c
#include<stdio.h> #include<stdlib.h> #include<string.h> typedef unsigned int uint32; #define CACHE_LEN 40 uint32 nnaci_vals[CACHE_LEN]; #define INCR_INDEX(i) (((i) + 1) % CACHE_LEN) #define DECR_INDEX(i) ((i) ? ((i) - 1) : (CACHE_LEN - 1) ) uint32 nnacci(uint32 n, uint32 l) { uint32 i, head, val; if (l < n) return l; for (head = DECR_INDEX(CACHE_LEN), i = 0; i < n; i++, head = DECR_INDEX(head)) nnaci_vals[head] = i; nnaci_vals[head] = (n * (n -1)) / 2; for (i = n + 1; i <= l; i++) { val = 2 * nnaci_vals[head] - nnaci_vals[(head + n) % CACHE_LEN]; head = DECR_INDEX(head); nnaci_vals[head] = val; } return nnaci_vals[head]; } int main() { uint32 t, n, k, l, ans, i, val, mult; scanf("%u", &t); while (t > 0) { scanf("%u %u %u", &n, &k, &l); memset(&nnaci_vals[0], 0, sizeof (uint32) * CACHE_LEN); ans = nnacci(n, l); val = 0; mult = 1; for ( i = 0; i < k; i++) { val = val + (ans % 10) * mult; ans = ans / 10; mult = mult * 10; } printf ("%u\n", val); t--; } return 0; }
the_stack_data/96060.c
int i, a; void main() { for (i=0; i<10; i++) a=1; for (i=0; i<11;) a=2; for (i=0; ; i++) a=3; for (; i<10; i++) a=4; for (;;) a=5; }
the_stack_data/982578.c
#include <stdio.h> int main() { char* x = "Hello World"; printf("%s\n", x); return 0; }
the_stack_data/39822.c
#include <stddef.h> extern void abort(); #pragma ms_struct on typedef struct { void *pv; int l; } Foo; typedef struct { void *pv1; Foo foo; unsigned short fInited : 1; void *pv2; } PackOddity; #pragma ms_struct off int main(int argc, char *argv[]) { #pragma unused(argc, argv) int sizeof_packoddity = sizeof(PackOddity); int offsetof_foo = offsetof(PackOddity, foo); int offsetof_pv2 = offsetof(PackOddity, pv2); if (sizeof_packoddity != 40) abort(); if (offsetof_foo != 8) abort(); if (offsetof_pv2 != 32) abort(); return 0; }
the_stack_data/220456641.c
/* { dg-options "-mfpmath=387" { target { i?86-*-* x86_64-*-* } } } */ union { char *p; float f; } u; void f (void) { u.p = ""; u.f += 1.1f; }
the_stack_data/62637693.c
#ifdef X11 #include "x11-utils.h" #ifdef IMLIB2 #include <Imlib2.h> #endif /* IMLIB2 */ #include <unistd.h> #include <stdio.h> #include <X11/Xatom.h> #include <X11/Xlib.h> #include <X11/extensions/Xrandr.h> #include <X11/extensions/XInput2.h> static void reset_root_atoms(Display *display, Window root, Pixmap pixmap); static Display *display = NULL; static int x11_initialized = 0; void reset_root_atoms(Display *dpy, Window root, Pixmap pixmap) { Atom atom_root, atom_eroot, type; unsigned char *data_root, *data_eroot; int format; unsigned long length, after; atom_root = XInternAtom(dpy, "_XROOTMAP_ID", True); atom_eroot = XInternAtom(dpy, "ESETROOT_PMAP_ID", True); // doing this to clean up after old background if (atom_root != None && atom_eroot != None) { XGetWindowProperty(dpy, root, atom_root, 0L, 1L, False, AnyPropertyType, &type, &format, &length, &after, &data_root); if (type == XA_PIXMAP) { XGetWindowProperty(dpy, root, atom_eroot, 0L, 1L, False, AnyPropertyType, &type, &format, &length, &after, &data_eroot); if (data_root && data_eroot && type == XA_PIXMAP && *((Pixmap *)data_root) == *((Pixmap *)data_eroot)) XKillClient(dpy, *((Pixmap *)data_root)); } } atom_root = XInternAtom(dpy, "_XROOTPMAP_ID", False); atom_eroot = XInternAtom(dpy, "ESETROOT_PMAP_ID", False); // setting new background atoms XChangeProperty(dpy, root, atom_root, XA_PIXMAP, 32, PropModeReplace, (unsigned char *)&pixmap, 1); XChangeProperty(dpy, root, atom_eroot, XA_PIXMAP, 32, PropModeReplace, (unsigned char *)&pixmap, 1); } int x11_connection_number(void) { if (!display) return -1; return XConnectionNumber(display); } int x11_init(void) { XIEventMask ximask; unsigned char mask[2] = { 0 }; if (x11_initialized) return 1; /* open x11 display */ display = XOpenDisplay(NULL); if (!display) { fprintf(stderr, "ERROR: Unable to open X11 display\n"); return 0; } XRRSelectInput(display, XDefaultRootWindow(display), RRScreenChangeNotifyMask | RRCrtcChangeNotifyMask | RROutputChangeNotifyMask | RROutputPropertyNotifyMask); /* subscribe to XI events */ XISetMask(mask, XI_HierarchyChanged); ximask.deviceid = XIAllDevices; ximask.mask_len = sizeof(mask); ximask.mask = mask; XISelectEvents(display, XDefaultRootWindow(display), &ximask, 1); XFlush(display); x11_initialized = 1; return 1; } int x11_screen_has_changed(void) { int have_rr, rr_event_base, rr_error_base; int screen_changed = 0; if (!display) return 0; XEvent event; have_rr = XRRQueryExtension (display, &rr_event_base, &rr_error_base); if (!have_rr) return 0; while (XCheckTypedEvent(display, rr_event_base + RRScreenChangeNotify, &event) || XCheckTypedEvent(display, rr_event_base + RRNotify, &event)) { /* if (event.type == rr_event_base + RRScreenChangeNotify) */ /* fprintf(stderr, "RRScreenChangeNotify\n"); */ /* else if (event.type == rr_event_base + RRNotify) */ /* fprintf(stderr, "RRNotify\n"); */ /* else */ /* fprintf(stderr, "Unknown: %d\n", event.type); */ screen_changed = 1; } return screen_changed; } int x11_keyboard_has_changed(void) { int have_xi, xi_op, ignore; int keyboard_changed = 0; XIHierarchyEvent *hev; if (!display) return 0; XEvent event; have_xi = XQueryExtension(display, "XInputExtension", &xi_op, &ignore, &ignore); if (!have_xi) return 0; while (XCheckTypedEvent(display, GenericEvent, &event)) { if (event.xcookie.extension == xi_op && event.xcookie.evtype == XI_HierarchyChanged && XGetEventData(display, &event.xcookie)) { hev = event.xcookie.data; if (hev->flags & XIDeviceEnabled) keyboard_changed = 1; } } return keyboard_changed; } int x11_wallpaper_all(const char *path) { #ifdef IMLIB2 unsigned int dpy_width, dpy_height, new_width, new_height, uidummy; int depth, screen, i, status, idummy, cache_size; double screen_ratio, image_ratio; Visual *vis; Window root, wdummy; Colormap color_map; Pixmap pixmap; Imlib_Image image, cropped_image; XRRScreenResources *screen_res; XRRCrtcInfo *crtc_info; XRROutputInfo *output_info; Display *dpy; dpy = display; /* @TODO replace dpy with display */ if (!display) return 0; image = imlib_load_image(path); if (!image) return 0; screen = DefaultScreen(dpy); root = RootWindow(dpy, screen); depth = DefaultDepth(dpy, screen); color_map = DefaultColormap(dpy, screen); vis = DefaultVisual(dpy, screen); if (!XGetGeometry(dpy, root, &wdummy, &idummy, &idummy, &dpy_width, &dpy_height, &uidummy, &uidummy)) return 0; pixmap = XCreatePixmap(dpy, root, dpy_width, dpy_height, (unsigned int) depth); imlib_context_set_display(dpy); imlib_context_set_visual(vis); imlib_context_set_colormap(color_map); imlib_context_set_drawable(pixmap); imlib_context_set_color_range(imlib_create_color_range()); imlib_context_set_image(image); screen_res = XRRGetScreenResources(dpy, DefaultRootWindow(dpy)); status = 1; for (i = 0; i < screen_res->noutput; i++) { output_info = XRRGetOutputInfo(dpy, screen_res, screen_res->outputs[i]); if (output_info == NULL || output_info->connection != RR_Connected || output_info->crtc == 0) continue; crtc_info = XRRGetCrtcInfo(dpy, screen_res, output_info->crtc); if (crtc_info->width > 0 && crtc_info->height > 0) { screen_ratio = ((double) crtc_info->width) / ((double) crtc_info->height); image_ratio = ((double) imlib_image_get_width()) / ((double) imlib_image_get_height()); if (image_ratio < screen_ratio) { new_height = (unsigned int) ((((double) imlib_image_get_width()) * ((double) crtc_info->height)) / ((double) crtc_info->width)); cropped_image = imlib_create_cropped_scaled_image( 0, (imlib_image_get_height() - ((int) new_height)) / 2, imlib_image_get_width(), (int) new_height, (int) crtc_info->width, (int) crtc_info->height); } else if (image_ratio > screen_ratio) { new_width = (unsigned int) ((((double) imlib_image_get_height()) * ((double) crtc_info->width)) / ((double) crtc_info->height)); cropped_image = imlib_create_cropped_scaled_image( (imlib_image_get_width() - ((int) new_width)) / 2, 0, (int) new_width, imlib_image_get_height(), (int) crtc_info->width, (int) crtc_info->height); } else { cropped_image = imlib_create_cropped_scaled_image(0, 0, imlib_image_get_width(), imlib_image_get_height(), (int) crtc_info->width, (int) crtc_info->height); } if (!cropped_image) return 0; imlib_context_set_image(cropped_image); imlib_render_image_on_drawable(crtc_info->x, crtc_info->y); imlib_free_image(); imlib_context_set_image(image); } XRRFreeCrtcInfo(crtc_info); } XRRFreeScreenResources(screen_res); /* XKillClient(dpy , AllTemporary); */ XSetCloseDownMode(dpy, RetainPermanent); XSetWindowBackgroundPixmap(dpy, root, pixmap); XClearWindow(dpy, root); XFlush(dpy); XSync(dpy, False); reset_root_atoms(dpy, root, pixmap); imlib_free_color_range(); imlib_free_image(); /* drop imlib2 cache */ cache_size = imlib_get_font_cache_size(); imlib_set_cache_size(0); imlib_set_cache_size(cache_size); return status; #else /* IMLIB2 */ return 0; #endif /* IMLIB2 */ } void x11_deinit(void) { if (!x11_initialized) return; XCloseDisplay(display); } #endif /* X11 */
the_stack_data/167331177.c
#include<stdio.h> #include<errno.h> #include<unistd.h> #include<string.h> extern int errno; int main(){ long linkMax = 0; long pathSizeMax = 0; long fileNameMax = 0; linkMax = pathconf("/",_PC_LINK_MAX); pathSizeMax = pathconf("/", _PC_PATH_MAX); fileNameMax = pathconf("/", _PC_NAME_MAX); if(linkMax==-1) fprintf(stderr, "Error in getting _SC_ARG_MAX, erorr %d: %s\n", errno, strerror(errno)); else printf("Max file links: %d\n", linkMax); if(pathSizeMax==-1) fprintf(stderr, "Error in getting _SC_CHILD_MAX, error %d: %s\n", errno, strerror(errno)); else printf("Max path size: %d\n", pathSizeMax); if(fileNameMax==-1) fprintf(stderr, "Error in getting _SC_OPEN_MAX, error %d: %s\n", errno, strerror(errno)); else printf("Max length filename: %d\n", fileNameMax); return 0; }
the_stack_data/206394226.c
/*Exercise 2 - Selection Write a program to calculate the amount to be paid for a rented vehicle. • Input the distance the van has travelled • The first 30 km is at a rate of 50/= per km. • The remaining distance is calculated at the rate of 40/= per km. e.g. Distance -> 20 Amount = 20 x 50 = 1000 Distance -> 50 Amount = 30 x 50 + (50-30) x 40 = 2300*/ #include <stdio.h> int main() { float d,t,amount; printf("Input the distance the van has travelled in KM: "); scanf("%f",&d); if(d<=30) { amount=d*50; } else { t=d-30; amount=1500+(t*40); } printf("Amount to be paid for a rented vehicle in LKR: %.2f",amount); return 0; }
the_stack_data/76526.c
/* * "Optimize" a list of dependencies as spit out by gcc -MD * for the kernel build * =========================================================================== * * Author Kai Germaschewski * Copyright 2002 by Kai Germaschewski <[email protected]> * * This software may be used and distributed according to the terms * of the GNU General Public License, incorporated herein by reference. * * * Introduction: * * gcc produces a very nice and correct list of dependencies which * tells make when to remake a file. * * To use this list as-is however has the drawback that virtually * every file in the kernel includes autoconf.h. * * If the user re-runs make *config, autoconf.h will be * regenerated. make notices that and will rebuild every file which * includes autoconf.h, i.e. basically all files. This is extremely * annoying if the user just changed CONFIG_HIS_DRIVER from n to m. * * So we play the same trick that "mkdep" played before. We replace * the dependency on autoconf.h by a dependency on every config * option which is mentioned in any of the listed prequisites. * * kconfig populates a tree in include/config/ with an empty file * for each config symbol and when the configuration is updated * the files representing changed config options are touched * which then let make pick up the changes and the files that use * the config symbols are rebuilt. * * So if the user changes his CONFIG_HIS_DRIVER option, only the objects * which depend on "include/linux/config/his/driver.h" will be rebuilt, * so most likely only his driver ;-) * * The idea above dates, by the way, back to Michael E Chastain, AFAIK. * * So to get dependencies right, there are two issues: * o if any of the files the compiler read changed, we need to rebuild * o if the command line given to the compile the file changed, we * better rebuild as well. * * The former is handled by using the -MD output, the later by saving * the command line used to compile the old object and comparing it * to the one we would now use. * * Again, also this idea is pretty old and has been discussed on * kbuild-devel a long time ago. I don't have a sensibly working * internet connection right now, so I rather don't mention names * without double checking. * * This code here has been based partially based on mkdep.c, which * says the following about its history: * * Copyright abandoned, Michael Chastain, <mailto:[email protected]>. * This is a C version of syncdep.pl by Werner Almesberger. * * * It is invoked as * * fixdep <depfile> <target> <cmdline> * * and will read the dependency file <depfile> * * The transformed dependency snipped is written to stdout. * * It first generates a line * * cmd_<target> = <cmdline> * * and then basically copies the .<target>.d file to stdout, in the * process filtering out the dependency on autoconf.h and adding * dependencies on include/config/my/option.h for every * CONFIG_MY_OPTION encountered in any of the prequisites. * * It will also filter out all the dependencies on *.ver. We need * to make sure that the generated version checksum are globally up * to date before even starting the recursive build, so it's too late * at this point anyway. * * The algorithm to grep for "CONFIG_..." is bit unusual, but should * be fast ;-) We don't even try to really parse the header files, but * merely grep, i.e. if CONFIG_FOO is mentioned in a comment, it will * be picked up as well. It's not a problem with respect to * correctness, since that can only give too many dependencies, thus * we cannot miss a rebuild. Since people tend to not mention totally * unrelated CONFIG_ options all over the place, it's not an * efficiency problem either. * * (Note: it'd be easy to port over the complete mkdep state machine, * but I don't think the added complexity is worth it) */ /* * Note 2: if somebody writes HELLO_CONFIG_BOOM in a file, it will depend onto * CONFIG_BOOM. This could seem a bug (not too hard to fix), but please do not * fix it! Some UserModeLinux files (look at arch/um/) call CONFIG_BOOM as * UML_CONFIG_BOOM, to avoid conflicts with /usr/include/linux/autoconf.h, * through arch/um/include/uml-config.h; this fixdep "bug" makes sure that * those files will have correct dependencies. */ #include <sys/types.h> #include <sys/stat.h> #include <sys/mman.h> #include <unistd.h> #include <fcntl.h> #include <string.h> #include <stdlib.h> #include <stdio.h> #include <limits.h> #include <ctype.h> #include <arpa/inet.h> #define INT_CONF ntohl(0x434f4e46) #define INT_ONFI ntohl(0x4f4e4649) #define INT_NFIG ntohl(0x4e464947) #define INT_FIG_ ntohl(0x4649475f) char *target; char *depfile; char *cmdline; int is_spl_build = 0; /* hack for U-Boot */ static void usage(void) { fprintf(stderr, "Usage: fixdep <depfile> <target> <cmdline>\n"); exit(1); } /* * Print out the commandline prefixed with cmd_<target filename> := */ static void print_cmdline(void) { printf("cmd_%s := %s\n\n", target, cmdline); } struct item { struct item *next; unsigned int len; unsigned int hash; char name[0]; }; #define HASHSZ 256 static struct item *hashtab[HASHSZ]; static unsigned int strhash(const char *str, unsigned int sz) { /* fnv32 hash */ unsigned int i, hash = 2166136261U; for (i = 0; i < sz; i++) hash = (hash ^ str[i]) * 0x01000193; return hash; } /* * Lookup a value in the configuration string. */ static int is_defined_config(const char *name, int len, unsigned int hash) { struct item *aux; for (aux = hashtab[hash % HASHSZ]; aux; aux = aux->next) { if (aux->hash == hash && aux->len == len && memcmp(aux->name, name, len) == 0) return 1; } return 0; } /* * Add a new value to the configuration string. */ static void define_config(const char *name, int len, unsigned int hash) { struct item *aux = malloc(sizeof(*aux) + len); if (!aux) { perror("fixdep:malloc"); exit(1); } memcpy(aux->name, name, len); aux->len = len; aux->hash = hash; aux->next = hashtab[hash % HASHSZ]; hashtab[hash % HASHSZ] = aux; } /* * Record the use of a CONFIG_* word. */ static void use_config(const char *m, int slen) { unsigned int hash = strhash(m, slen); int c, i; if (is_defined_config(m, slen, hash)) return; define_config(m, slen, hash); printf(" $(wildcard include/config/"); for (i = 0; i < slen; i++) { c = m[i]; if (c == '_') c = '/'; else c = tolower(c); putchar(c); } printf(".h) \\\n"); } static void parse_config_file(const char *map, size_t len) { const int *end = (const int *) (map + len); /* start at +1, so that p can never be < map */ const int *m = (const int *) map + 1; const char *p, *q; char tmp_buf[256] = "SPL_"; /* hack for U-Boot */ for (; m < end; m++) { if (*m == INT_CONF) { p = (char *) m ; goto conf; } if (*m == INT_ONFI) { p = (char *) m-1; goto conf; } if (*m == INT_NFIG) { p = (char *) m-2; goto conf; } if (*m == INT_FIG_) { p = (char *) m-3; goto conf; } continue; conf: if (p > map + len - 7) continue; if (memcmp(p, "CONFIG_", 7)) continue; p += 7; for (q = p; q < map + len; q++) { if (!(isalnum(*q) || *q == '_')) goto found; } continue; found: if (!memcmp(q - 7, "_MODULE", 7)) q -= 7; if (q - p < 0) continue; /* U-Boot also handles CONFIG_IS_{ENABLED/BUILTIN/MODULE} */ if ((q - p == 10 && !memcmp(p, "IS_ENABLED(", 11)) || (q - p == 10 && !memcmp(p, "IS_BUILTIN(", 11)) || (q - p == 9 && !memcmp(p, "IS_MODULE(", 10))) { p = q + 1; for (q = p; q < map + len; q++) if (*q == ')') goto found2; continue; found2: if (is_spl_build) { memcpy(tmp_buf + 4, p, q - p); q = tmp_buf + 4 + (q - p); p = tmp_buf; } } /* end U-Boot hack */ use_config(p, q - p); } } /* test is s ends in sub */ static int strrcmp(char *s, char *sub) { int slen = strlen(s); int sublen = strlen(sub); if (sublen > slen) return 1; return memcmp(s + slen - sublen, sub, sublen); } static void do_config_file(const char *filename) { struct stat st; int fd; void *map; fd = open(filename, O_RDONLY); if (fd < 0) { fprintf(stderr, "fixdep: error opening config file: "); perror(filename); exit(2); } fstat(fd, &st); if (st.st_size == 0) { close(fd); return; } map = mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0); if ((long) map == -1) { perror("fixdep: mmap"); close(fd); return; } parse_config_file(map, st.st_size); munmap(map, st.st_size); close(fd); } /* * Important: The below generated source_foo.o and deps_foo.o variable * assignments are parsed not only by make, but also by the rather simple * parser in scripts/mod/sumversion.c. */ static void parse_dep_file(void *map, size_t len) { char *m = map; char *end = m + len; char *p; char s[PATH_MAX]; int is_target; int saw_any_target = 0; int is_first_dep = 0; while (m < end) { /* Skip any "white space" */ while (m < end && (*m == ' ' || *m == '\\' || *m == '\n')) m++; /* Find next "white space" */ p = m; while (p < end && *p != ' ' && *p != '\\' && *p != '\n') p++; /* Is the token we found a target name? */ is_target = (*(p-1) == ':'); /* Don't write any target names into the dependency file */ if (is_target) { /* The /next/ file is the first dependency */ is_first_dep = 1; } else { /* Save this token/filename */ memcpy(s, m, p-m); s[p - m] = 0; /* Ignore certain dependencies */ if (strrcmp(s, "include/generated/autoconf.h") && strrcmp(s, "arch/um/include/uml-config.h") && strrcmp(s, "include/linux/kconfig.h") && strrcmp(s, ".ver")) { /* * Do not list the source file as dependency, * so that kbuild is not confused if a .c file * is rewritten into .S or vice versa. Storing * it in source_* is needed for modpost to * compute srcversions. */ if (is_first_dep) { /* * If processing the concatenation of * multiple dependency files, only * process the first target name, which * will be the original source name, * and ignore any other target names, * which will be intermediate temporary * files. */ if (!saw_any_target) { saw_any_target = 1; printf("source_%s := %s\n\n", target, s); printf("deps_%s := \\\n", target); } is_first_dep = 0; } else printf(" %s \\\n", s); do_config_file(s); } } /* * Start searching for next token immediately after the first * "whitespace" character that follows this token. */ m = p + 1; } if (!saw_any_target) { fprintf(stderr, "fixdep: parse error; no targets found\n"); exit(1); } printf("\n%s: $(deps_%s)\n\n", target, target); printf("$(deps_%s):\n", target); } static void print_deps(void) { struct stat st; int fd; void *map; fd = open(depfile, O_RDONLY); if (fd < 0) { fprintf(stderr, "fixdep: error opening depfile: "); perror(depfile); exit(2); } if (fstat(fd, &st) < 0) { fprintf(stderr, "fixdep: error fstat'ing depfile: "); perror(depfile); exit(2); } if (st.st_size == 0) { fprintf(stderr,"fixdep: %s is empty\n",depfile); close(fd); return; } map = mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0); if ((long) map == -1) { perror("fixdep: mmap"); close(fd); return; } parse_dep_file(map, st.st_size); munmap(map, st.st_size); close(fd); } static void traps(void) { static char test[] __attribute__((aligned(sizeof(int)))) = "CONF"; int *p = (int *)test; if (*p != INT_CONF) { fprintf(stderr, "fixdep: sizeof(int) != 4 or wrong endianness? %#x\n", *p); exit(2); } } int main(int argc, char *argv[]) { traps(); if (argc != 4) usage(); depfile = argv[1]; target = argv[2]; cmdline = argv[3]; /* hack for U-Boot */ if (!strncmp(target, "spl/", 4) || !strncmp(target, "tpl/", 4)) is_spl_build = 1; print_cmdline(); print_deps(); return 0; }
the_stack_data/170452585.c
/* ** EPITECH PROJECT, 2020 ** bootstrap ** File description: ** toto */ #include <stdio.h> #include <unistd.h> #include <stdlib.h> void toto(void) { printf("i am in toto()\n"); } void tutu(void) { printf("i am in tutu()\n"); } int main(void) { toto(); tutu(); return 0; }
the_stack_data/51260.c
#include<stdio.h> int main() { long long int cnt,n,t,i; scanf("%lld",&t); for(i=1;i<=t;i++) { scanf("%lld",&n); cnt=0; while(n>0) { cnt=10*cnt+n%10; n/=10; } printf("%lld\n",cnt); } return 0; }
the_stack_data/690152.c
#include <stdio.h> #include <stdbool.h> bool amicableNumbers(int n1, int n2) { int checkamicable1; int checkamicable2; for (int i = 1; i < n1; i++) { if ( n1 % i == 0) { checkamicable1 += i; } } for (int i = 1; i < n2; i++) { if ( n2 % i == 0) { checkamicable2 += i; } } if ( n1 == checkamicable2 && n2 == checkamicable1 ) { return 1; } else { return 0; } } int main () { int x1, x2; printf("Introduza dois valores inteiros: "); scanf("%d%d", &x1, &x2); if ( amicableNumbers(x1, x2) == 1 ) printf("Os números %d e %d são amigos.\n", x1, x2); else { printf("Os números %d e %d não são amigos.\n", x1, x2); } return 0; }
the_stack_data/9367.c
/* * Brainfuck-to-Lazy K translation program. * Usage: obvious I think. * Copyright 2002 Ben Rudiak-Gould. Distributed under the GPL. */ #include <stdio.h> int main(void) { puts("````s``s`ks``s``s`ks``s`k`s``s``si`kk`ki```ss`si`kkkk```sii``s`k``s`k`s``si`k``s``si`k`kk`k``````sii```sii``s``s`kski``s`k`s``si`k`kik`kk`kik``sii"); for (;;) { switch (getchar()) { case '+': puts("```s``s`ks``s`k`si``s`kk``s``s`ks``s`k`s`ks``s`k`s`kk``si`kk`k`k``s``s`k``s``s`ks``s`k`s``si`kk``s`k`s``s`ks``s`k`sik``s`kkk``s``s`ks``s`kk``s`ks``s`k`sik`kk``s`k`s``si`k`ki```ss`si`kk``s``si`k`ki`k`ki``s`kk``si`k`ki"); break; case '-': puts("```s``s`ks``s`k`si``s`kk``s``s`ks``s`k`s`ks``s`k`s`kk``si`kk`k`k``si`k``s``s`ks``s``s`ks```ss`si`kk``s`k`s``s`ks``s`k`si``s`kk``si`k`ki``s`kk``s`kk``s`k`s``si`k`kik``s``s`ks``s`kk``s`ks``s`k`si``s`kk``si`k`ki`k``s`kk``s`k`s``si`k`kik``s`kk``si`k`ki"); break; case '<': puts("```s``s`ks``s`k`si``s`kk``s``s`ks``s`k`s`ks``s`k`s`kk``s`k`s`ks``s`k`s`k`s`ks``s`k`s`k`s`kk``s``s`ks``s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`kk``si`kk`k`k``si`kk`k`k``si`k`ki`k`k```ss`s``s`ks``s`kk``s`ks``s`k`sik`kk``s`kk``si`k`ki"); break; case '>': puts("```s``s`ks``s`k`si``s`kk``s``s`ks``s`k`s`ks``s`k`s`k`s`ks``s`k`s`k`s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`kk``s`k`s`ks``s`k`s`kk``s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`kk``si`kk`k`k``si`kk`k`k``s`k`s`kk``s``s`ks``s`kk``s`ks``s`k`sik`kk`k`k`k`k``si`k`ki``s`kk``si`k`ki"); break; case '[': puts("```s``s`ks``s`k`si``s`kk``s`k`s`k``sii``s``s`ks``s`k`s`ks``s`k`s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`kk``s`k`s`ks``s`k`s`k`s``s``si`kk`kk``s`k`s`kk``s``si`k`ki`kk``s`kk``s`k`s`kk``s``s`ks```ss`si`kk`k``sii`k`k`ki``s`kk``s``si`k`ki`k`ki"); break; case ']': puts("```s`k`s``si`kik"); break; case ',': puts("```s``s`ks``s`k`si``s`kk``s`k`s`kk``s``s`ks``s`k`s`ks``s`k`s`k`s`ks``s`k`s`k`s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`k`s`ks``s`k`s`k`s`kk``s`k`s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`kk``s`k`s`ks``s``s`ks``s`k`s`ks``s`k`s`kk``si`kk`k`k``s``s`ks``s`k`si``s`kk``s``s``si`kk`k``s`k`s``si`k`kik`k`kk``s`kk``s``s``si`kk`k``si`k`ki`k``````sii```sii``s``s`kski``s`k`s``si`k`kik`kk`ki`k`kk`k`k`kk`k`k`k`k``si`k`ki``s`kk``si`k`ki"); break; case '.': puts("```s``s`ks``s`k`si``s`kk``s`k`s`k`s``s`ks``s`kk``s`ks``s`kk``s`ks```ss`s``s`ks``s`kk``s`ks``s`k`si``s`kk``s`k```sii``s`k`s``s``si`kk`k`ki``s`k`s`k`s``s`ksk``s``s`ks``s`kk``sii`k``si`k`ki``si`kk`kk``si`kk``s`kk``si`k`ki"); break; case EOF: puts("`k`k`k`k`k`k`k```sii```sii``s``s`kski"); return 0; } } }
the_stack_data/3262661.c
#include <stdio.h> int main(void) { const char *cur = "HELLO, PUTCHAR!\n"; while (*cur) __putchar(*cur++); return 0; }
the_stack_data/6371.c
#include<stdio.h> int main(){ float x,term,sum; int n,count; printf("Enter the value of x"); scanf("%f",&x); printf("Enter the term till the sum has to be found"); scanf("%d",&n); sum=0; term=1; for(count=1;count<=n;count++){ sum=sum+term; term=term*x/count; } printf("%f",sum); return 0; }
the_stack_data/79530.c
#ifndef TH_GENERIC_FILE #define TH_GENERIC_FILE "generic/SpatialClassNLLCriterion.c" #else #define INITIAL_CHECK \ THArgCheck(THIndexTensor_(nDimensionLegacyAll)(target) == 3, 3, \ "only batches of spatial targets supported (3D tensors)" \ " but got targets of dimension: %d", \ THIndexTensor_(nDimensionLegacyAll)(target)); \ THArgCheck(THTensor_(nDimensionLegacyAll)(input) == 4, 2, \ "only batches of spatial inputs supported (4D tensors), " \ "but got input of dimension: %d", THTensor_(nDimensionLegacyAll)(input)); \ if (weights && THTensor_(nElement)(weights) != THTensor_(size)(input, 1)) { \ THError("weight tensor should be defined either for all or no classes"); \ } \ \ { \ int64_t input0 = THTensor_(size)(input, 0); \ int64_t input1 = THTensor_(size)(input, 1); \ int64_t input2 = THTensor_(size)(input, 2); \ int64_t input3 = THTensor_(size)(input, 3); \ int64_t target0 = THIndexTensor_(size)(target, 0); \ int64_t target1 = THIndexTensor_(size)(target, 1); \ int64_t target2 = THIndexTensor_(size)(target, 2); \ THAssertMsg(input0 == target0 && input2 == target1 && input3 == target2, \ "size mismatch (got input: %ldx%ldx%ldx%ld, target: %ldx%ldx%ld)", \ input0, input1, input2, input3, target0, target1, target2); \ } #define GRADOUTPUT_SHAPE_CHECK \ THArgCheck(THTensor_(nDimensionLegacyAll)(gradOutput) == 3, 3, \ "gradOutput must have same dimension as target (3)" \ " but got dimension: %d", \ THTensor_(nDimensionLegacyAll)(gradOutput)); \ { \ int64_t gradOutput0 = THTensor_(size)(gradOutput, 0); \ int64_t gradOutput1 = THTensor_(size)(gradOutput, 1); \ int64_t gradOutput2 = THTensor_(size)(gradOutput, 2); \ int64_t target0 = THIndexTensor_(size)(target, 0); \ int64_t target1 = THIndexTensor_(size)(target, 1); \ int64_t target2 = THIndexTensor_(size)(target, 2); \ THAssertMsg( \ gradOutput0 == target0 && gradOutput1 == target1 && gradOutput2 == target2, \ "size mismatch (got gradOutput: %ldx%ldx%ld, target: %ldx%ldx%ld)", \ gradOutput0, gradOutput1, gradOutput2, target0, target1, target2); \ } void THNN_(SpatialClassNLLCriterion_updateOutput)( THNNState *state, THTensor *input, THIndexTensor *target, THTensor *output, int64_t reduction, THTensor *weights, THTensor *total_weight, int64_t ignore_index) { INITIAL_CHECK; THTensor_(resize1d)(output, 1); THTensor_(resize1d)(total_weight, 1); ignore_index -= TH_INDEX_BASE; if (reduction == Reduction::None) { int64_t batch_size = THTensor_(size)(input, 0); int64_t H = THTensor_(size)(input, 2); int64_t W = THTensor_(size)(input, 3); THTensor_(resize3d)(output, batch_size, H, W); int64_t b, h, w; #pragma omp parallel for private(b, h, w) for (b = 0; b < batch_size; b++) { for (h = 0; h < H; h++) { for (w = 0; w < W; w++) { int64_t cur_target = (int64_t)THIndexTensor_(get3d)(target, b, h, w) - TH_INDEX_BASE; if (cur_target == ignore_index) { THTensor_(fastSet3d)(output, b, h, w, 0.0f); continue; } real value = THTensor_(fastGet4d)(input, b, cur_target, h, w); real weight = weights ? THTensor_(fastGetLegacy1dNoScalars)(weights, cur_target) : 1.0f; THTensor_(fastSet3d)(output, b, h, w, -value * weight); } } } return; } input = THTensor_(newContiguous)(input); target = THIndexTensor_(newContiguous)(target); weights = weights ? THTensor_(newContiguous)(weights) : NULL; real *input_data = THTensor_(data)(input); THIndex_t *target_data = THIndexTensor_(data)(target); real *weights_data = weights ? THTensor_(data)(weights) : NULL; real *output_data = THTensor_(data)(output); real *total_weight_data = THTensor_(data)(total_weight); int64_t batch_size = THTensor_(size)(input, 0); int64_t n_classes = THTensor_(size)(input, 1); int64_t map_size = THTensor_(size)(input, 2) * THTensor_(size)(input, 3); int64_t sample_size = map_size * n_classes; real total_weight_acc = 0; real output_acc = 0; for (int b = 0; b < batch_size; b++) { for (int elem = 0; elem < map_size; elem++) { int cur_target = target_data[b * map_size + elem] - TH_INDEX_BASE; if (cur_target == ignore_index) continue; THAssert(cur_target >= 0 && cur_target < n_classes); real cur_weight = weights ? weights_data[cur_target] : 1.0f; total_weight_acc += cur_weight; output_acc -= input_data[b * sample_size + cur_target * map_size + elem] * cur_weight; } } *total_weight_data = total_weight_acc; *output_data = output_acc; if (reduction == Reduction::ElementwiseMean && *total_weight_data) *output_data /= *total_weight_data; THTensor_(free)(input); THIndexTensor_(free)(target); if (weights) THTensor_(free)(weights); } void THNN_(SpatialClassNLLCriterion_updateGradInput)( THNNState *state, THTensor *input, THIndexTensor *target, THTensor *gradOutput, THTensor *gradInput, int64_t reduction, THTensor *weights, THTensor *total_weight, int64_t ignore_index) { INITIAL_CHECK; THTensor_(resizeAs)(gradInput, input); THTensor_(zero)(gradInput); THArgCheck(THTensor_(isContiguous)(gradInput), 4, "gradInput must be contiguous"); THNN_CHECK_SHAPE(input, gradInput); ignore_index -= TH_INDEX_BASE; if (reduction == Reduction::None) { GRADOUTPUT_SHAPE_CHECK; int64_t batch_size = THTensor_(size)(input, 0); int64_t H = THTensor_(size)(input, 2); int64_t W = THTensor_(size)(input, 3); int64_t b, h, w; #pragma omp parallel for private(b, h, w) for (b = 0; b < batch_size; b++) { for (h = 0; h < H; h++) { for (w = 0; w < W; w++) { int64_t cur_target = (int64_t)THIndexTensor_(get3d)(target, b, h, w) - TH_INDEX_BASE; if (cur_target == ignore_index) { continue; } real value = -(weights ? THTensor_(fastGetLegacy1dNoScalars)(weights, cur_target) : 1.0f); real gradOutput_value = THTensor_(fastGet3d)(gradOutput, b, h, w); THTensor_(fastSet4d)(gradInput, b, cur_target, h, w, value * gradOutput_value); } } } return; } THNN_CHECK_DIM_SIZE(gradOutput, 1, 0, 1); real *total_weight_data = THTensor_(data)(total_weight); if (*total_weight_data <= 0) return; target = THIndexTensor_(newContiguous)(target); weights = weights ? THTensor_(newContiguous)(weights) : NULL; THIndex_t *target_data = THIndexTensor_(data)(target); real *weights_data = weights ? THTensor_(data)(weights) : NULL; real *gradInput_data = THTensor_(data)(gradInput); int64_t batch_size = THTensor_(size)(input, 0); int64_t n_classes = THTensor_(size)(input, 1); int64_t map_size = THTensor_(size)(input, 2) * THTensor_(size)(input, 3); int64_t sample_size = map_size * n_classes; real normalize = (reduction == Reduction::ElementwiseMean) ? *total_weight_data : 1.0f; int b; #pragma omp parallel for for (b = 0; b < batch_size; b++) { int elem; for (elem = 0; elem < map_size; elem++) { int cur_target = target_data[b * map_size + elem] - TH_INDEX_BASE; if (cur_target == ignore_index) continue; THAssert(cur_target >= 0 && cur_target < n_classes); int index = b * sample_size + cur_target * map_size + elem; gradInput_data[index] = -(weights ? weights_data[cur_target] : 1.0f) / normalize * THTensor_(fastGetLegacy1dNoScalars)(gradOutput, 0); } } THIndexTensor_(free)(target); if (weights) THTensor_(free)(weights); } #undef INITIAL_CHECK #endif
the_stack_data/243892742.c
#include <stdio.h> #include <stdlib.h> #include <locale.h> #include <math.h> int raiz_int(int x){ int maior_num; for (int i = 0; i*i <= x; i++){ maior_num = i; } return maior_num; } void main(){ setlocale(LC_ALL,"Portuguese"); int seq = 0; printf("Digite o tamanho da sequencia:"); scanf("%d", &seq); int tot_raiz = 0; for (int i = 1; i <= seq; i++){ int num = 0; printf("Digite o %do numero:", i); scanf("%d", &num); tot_raiz = tot_raiz + raiz_int(num); } printf("O somatorio das raizes inteiras e igual a %d", tot_raiz); }
the_stack_data/62638685.c
#include <openssl/sha.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #define PASSWORD "58945afce4b671b31cd3b047a1c9b1df0bc7a976c67623b2bbf6da6b6028741c" void sha256(const char* data, char* hash) { int i; SHA256_CTX sha256; unsigned char buff[SHA256_DIGEST_LENGTH] = {0}; SHA256_Init(&sha256); SHA256_Update(&sha256, data, strlen(data)); SHA256_Final(buff, &sha256); for (i = 0; i < sizeof(buff); i++) sprintf(hash + 2*i, "%02x", buff[i]); } int check_password(const char* password) { int auth = 0; char buff[20] = {0}; char hash[65] = {0}; buff[0] = 'T'; buff[1] = 'h'; buff[2] = 'i'; buff[3] = 's'; buff[4] = 'i'; buff[5] = 's'; buff[6] = 'a'; buff[7] = 's'; buff[8] = 'a'; buff[9] = 'l'; buff[10] = 't'; buff[11] = '\0'; strcat(buff, password); sha256(buff, hash); if (strcmp(hash, PASSWORD) == 0) auth = 1; return auth == 1; } int main(int argc, char* argv[]) { setuid(0); setgid(0); if (argc < 3) { printf("USAGE: %s <password> <command>\n", argv[0]); return 1; } if (strlen(argv[1]) > 10) { printf("ERROR: password is too long.\n"); return 1; } if (check_password(argv[1])) { printf("Running command...\n"); system(argv[2]); } else { printf("ERROR: invalid password.\n"); return 1; } return 0; }
the_stack_data/36834.c
#include <stdio.h> int main() { int i = 2; printf("%d\n", (4 || 3) + (i > 1)); return 0; }
the_stack_data/418116.c
#include<stdio.h> int main() { int i,count1=0,count2=0,arr1[1000],n; scanf("%d", &n); for(i=0; i<n; i++) { scanf("%d", &arr1[i]); } for(i=0; i<n; i++) { if(arr1[i] % 2 ==0) { count1=count1+1; } else { count2=count2+1; } } if(count1>count2) { printf("READY FOR BATTLE"); } else { printf("NOT READY"); } }
the_stack_data/99076.c
#include<stdio.h> int main(int argc, char *argv[]){ printf("program = %s\n",argv[0]); printf("argc = %d\n",argc); for(int i = 1; i<argc;i++){ printf("%s%s",argv[i],(i<argc-1)? " ":""); } printf("\n"); return 0; }
the_stack_data/107807.c
/* { dg-do compile } */ /* { dg-options "-O -fdump-tree-fre1" } */ struct S { int i; int j; }; struct U { struct S a[10]; } u; int foo (int n, int i, int j) { u.a[n].i = i; u.a[n].j = j; return u.a[n].i; } /* We should remove the redundant load. */ /* { dg-final { scan-tree-dump-not "= u.a\\\[n_2\\(D\\)\\\].i" "fre1" } } */
the_stack_data/646180.c
#include <stdio.h> #include <math.h> int main() { int cases, c1, r1, c2, r2, c, r; scanf("%d", &cases); for (int i = 1; i <= cases; i++) { scanf("%d%d%d%d", &r1, &c1, &r2, &c2); c = abs(c1 - c2); r = abs(r1 - r2); if (c == r) printf("Case %d: 1\n", i); else { if (c % 2 == r % 2) printf("Case %d: 2\n", i); else printf("Case %d: impossible\n", i); } } return 0; }
the_stack_data/14198977.c
// EXPECT: 1 int main() { return ~0 == -1; }
the_stack_data/165764551.c
/* Copyright 2008, Google Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER 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. * * curve25519-donna: Curve25519 elliptic curve, public key function * * http://code.google.com/p/curve25519-donna/ * * Adam Langley <[email protected]> * * Derived from public domain C code by Daniel J. Bernstein <[email protected]> * * More information about curve25519 can be found here * http://cr.yp.to/ecdh.html * * djb's sample implementation of curve25519 is written in a special assembly * language called qhasm and uses the floating point registers. * * This is, almost, a clean room reimplementation from the curve25519 paper. It * uses many of the tricks described therein. Only the crecip function is taken * from the sample implementation. */ #include <string.h> #include <stdint.h> #ifdef _MSC_VER #define inline __inline #endif typedef uint8_t u8; typedef int32_t s32; typedef int64_t limb; /* Field element representation: * * Field elements are written as an array of signed, 64-bit limbs, least * significant first. The value of the field element is: * x[0] + 2^26·x[1] + x^51·x[2] + 2^102·x[3] + ... * * i.e. the limbs are 26, 25, 26, 25, ... bits wide. */ /* Sum two numbers: output += in */ static void fsum(limb *output, const limb *in) { unsigned i; for (i = 0; i < 10; i += 2) { output[0+i] = output[0+i] + in[0+i]; output[1+i] = output[1+i] + in[1+i]; } } /* Find the difference of two numbers: output = in - output * (note the order of the arguments!). */ static void fdifference(limb *output, const limb *in) { unsigned i; for (i = 0; i < 10; ++i) { output[i] = in[i] - output[i]; } } /* Multiply a number by a scalar: output = in * scalar */ static void fscalar_product(limb *output, const limb *in, const limb scalar) { unsigned i; for (i = 0; i < 10; ++i) { output[i] = in[i] * scalar; } } /* Multiply two numbers: output = in2 * in * * output must be distinct to both inputs. The inputs are reduced coefficient * form, the output is not. * * output[x] <= 14 * the largest product of the input limbs. */ static void fproduct(limb *output, const limb *in2, const limb *in) { output[0] = ((limb) ((s32) in2[0])) * ((s32) in[0]); output[1] = ((limb) ((s32) in2[0])) * ((s32) in[1]) + ((limb) ((s32) in2[1])) * ((s32) in[0]); output[2] = 2 * ((limb) ((s32) in2[1])) * ((s32) in[1]) + ((limb) ((s32) in2[0])) * ((s32) in[2]) + ((limb) ((s32) in2[2])) * ((s32) in[0]); output[3] = ((limb) ((s32) in2[1])) * ((s32) in[2]) + ((limb) ((s32) in2[2])) * ((s32) in[1]) + ((limb) ((s32) in2[0])) * ((s32) in[3]) + ((limb) ((s32) in2[3])) * ((s32) in[0]); output[4] = ((limb) ((s32) in2[2])) * ((s32) in[2]) + 2 * (((limb) ((s32) in2[1])) * ((s32) in[3]) + ((limb) ((s32) in2[3])) * ((s32) in[1])) + ((limb) ((s32) in2[0])) * ((s32) in[4]) + ((limb) ((s32) in2[4])) * ((s32) in[0]); output[5] = ((limb) ((s32) in2[2])) * ((s32) in[3]) + ((limb) ((s32) in2[3])) * ((s32) in[2]) + ((limb) ((s32) in2[1])) * ((s32) in[4]) + ((limb) ((s32) in2[4])) * ((s32) in[1]) + ((limb) ((s32) in2[0])) * ((s32) in[5]) + ((limb) ((s32) in2[5])) * ((s32) in[0]); output[6] = 2 * (((limb) ((s32) in2[3])) * ((s32) in[3]) + ((limb) ((s32) in2[1])) * ((s32) in[5]) + ((limb) ((s32) in2[5])) * ((s32) in[1])) + ((limb) ((s32) in2[2])) * ((s32) in[4]) + ((limb) ((s32) in2[4])) * ((s32) in[2]) + ((limb) ((s32) in2[0])) * ((s32) in[6]) + ((limb) ((s32) in2[6])) * ((s32) in[0]); output[7] = ((limb) ((s32) in2[3])) * ((s32) in[4]) + ((limb) ((s32) in2[4])) * ((s32) in[3]) + ((limb) ((s32) in2[2])) * ((s32) in[5]) + ((limb) ((s32) in2[5])) * ((s32) in[2]) + ((limb) ((s32) in2[1])) * ((s32) in[6]) + ((limb) ((s32) in2[6])) * ((s32) in[1]) + ((limb) ((s32) in2[0])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[0]); output[8] = ((limb) ((s32) in2[4])) * ((s32) in[4]) + 2 * (((limb) ((s32) in2[3])) * ((s32) in[5]) + ((limb) ((s32) in2[5])) * ((s32) in[3]) + ((limb) ((s32) in2[1])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[1])) + ((limb) ((s32) in2[2])) * ((s32) in[6]) + ((limb) ((s32) in2[6])) * ((s32) in[2]) + ((limb) ((s32) in2[0])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[0]); output[9] = ((limb) ((s32) in2[4])) * ((s32) in[5]) + ((limb) ((s32) in2[5])) * ((s32) in[4]) + ((limb) ((s32) in2[3])) * ((s32) in[6]) + ((limb) ((s32) in2[6])) * ((s32) in[3]) + ((limb) ((s32) in2[2])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[2]) + ((limb) ((s32) in2[1])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[1]) + ((limb) ((s32) in2[0])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[0]); output[10] = 2 * (((limb) ((s32) in2[5])) * ((s32) in[5]) + ((limb) ((s32) in2[3])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[3]) + ((limb) ((s32) in2[1])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[1])) + ((limb) ((s32) in2[4])) * ((s32) in[6]) + ((limb) ((s32) in2[6])) * ((s32) in[4]) + ((limb) ((s32) in2[2])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[2]); output[11] = ((limb) ((s32) in2[5])) * ((s32) in[6]) + ((limb) ((s32) in2[6])) * ((s32) in[5]) + ((limb) ((s32) in2[4])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[4]) + ((limb) ((s32) in2[3])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[3]) + ((limb) ((s32) in2[2])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[2]); output[12] = ((limb) ((s32) in2[6])) * ((s32) in[6]) + 2 * (((limb) ((s32) in2[5])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[5]) + ((limb) ((s32) in2[3])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[3])) + ((limb) ((s32) in2[4])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[4]); output[13] = ((limb) ((s32) in2[6])) * ((s32) in[7]) + ((limb) ((s32) in2[7])) * ((s32) in[6]) + ((limb) ((s32) in2[5])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[5]) + ((limb) ((s32) in2[4])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[4]); output[14] = 2 * (((limb) ((s32) in2[7])) * ((s32) in[7]) + ((limb) ((s32) in2[5])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[5])) + ((limb) ((s32) in2[6])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[6]); output[15] = ((limb) ((s32) in2[7])) * ((s32) in[8]) + ((limb) ((s32) in2[8])) * ((s32) in[7]) + ((limb) ((s32) in2[6])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[6]); output[16] = ((limb) ((s32) in2[8])) * ((s32) in[8]) + 2 * (((limb) ((s32) in2[7])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[7])); output[17] = ((limb) ((s32) in2[8])) * ((s32) in[9]) + ((limb) ((s32) in2[9])) * ((s32) in[8]); output[18] = 2 * ((limb) ((s32) in2[9])) * ((s32) in[9]); } /* Reduce a long form to a short form by taking the input mod 2^255 - 19. * * On entry: |output[i]| < 14*2^54 * On exit: |output[0..8]| < 280*2^54 */ static void freduce_degree(limb *output) { /* Each of these shifts and adds ends up multiplying the value by 19. * * For output[0..8], the absolute entry value is < 14*2^54 and we add, at * most, 19*14*2^54 thus, on exit, |output[0..8]| < 280*2^54. */ output[8] += output[18] << 4; output[8] += output[18] << 1; output[8] += output[18]; output[7] += output[17] << 4; output[7] += output[17] << 1; output[7] += output[17]; output[6] += output[16] << 4; output[6] += output[16] << 1; output[6] += output[16]; output[5] += output[15] << 4; output[5] += output[15] << 1; output[5] += output[15]; output[4] += output[14] << 4; output[4] += output[14] << 1; output[4] += output[14]; output[3] += output[13] << 4; output[3] += output[13] << 1; output[3] += output[13]; output[2] += output[12] << 4; output[2] += output[12] << 1; output[2] += output[12]; output[1] += output[11] << 4; output[1] += output[11] << 1; output[1] += output[11]; output[0] += output[10] << 4; output[0] += output[10] << 1; output[0] += output[10]; } #if (-1 & 3) != 3 #error "This code only works on a two's complement system" #endif /* return v / 2^26, using only shifts and adds. * * On entry: v can take any value. */ static inline limb div_by_2_26(const limb v) { /* High word of v; no shift needed. */ const uint32_t highword = (uint32_t) (((uint64_t) v) >> 32); /* Set to all 1s if v was negative; else set to 0s. */ const int32_t sign = ((int32_t) highword) >> 31; /* Set to 0x3ffffff if v was negative; else set to 0. */ const int32_t roundoff = ((uint32_t) sign) >> 6; /* Should return v / (1<<26) */ return (v + roundoff) >> 26; } /* return v / (2^25), using only shifts and adds. * * On entry: v can take any value. */ static inline limb div_by_2_25(const limb v) { /* High word of v; no shift needed*/ const uint32_t highword = (uint32_t) (((uint64_t) v) >> 32); /* Set to all 1s if v was negative; else set to 0s. */ const int32_t sign = ((int32_t) highword) >> 31; /* Set to 0x1ffffff if v was negative; else set to 0. */ const int32_t roundoff = ((uint32_t) sign) >> 7; /* Should return v / (1<<25) */ return (v + roundoff) >> 25; } /* Reduce all coefficients of the short form input so that |x| < 2^26. * * On entry: |output[i]| < 280*2^54 */ static void freduce_coefficients(limb *output) { unsigned i; output[10] = 0; for (i = 0; i < 10; i += 2) { limb over = div_by_2_26(output[i]); /* The entry condition (that |output[i]| < 280*2^54) means that over is, at * most, 280*2^28 in the first iteration of this loop. This is added to the * next limb and we can approximate the resulting bound of that limb by * 281*2^54. */ output[i] -= over << 26; output[i+1] += over; /* For the first iteration, |output[i+1]| < 281*2^54, thus |over| < * 281*2^29. When this is added to the next limb, the resulting bound can * be approximated as 281*2^54. * * For subsequent iterations of the loop, 281*2^54 remains a conservative * bound and no overflow occurs. */ over = div_by_2_25(output[i+1]); output[i+1] -= over << 25; output[i+2] += over; } /* Now |output[10]| < 281*2^29 and all other coefficients are reduced. */ output[0] += output[10] << 4; output[0] += output[10] << 1; output[0] += output[10]; output[10] = 0; /* Now output[1..9] are reduced, and |output[0]| < 2^26 + 19*281*2^29 * So |over| will be no more than 2^16. */ { limb over = div_by_2_26(output[0]); output[0] -= over << 26; output[1] += over; } /* Now output[0,2..9] are reduced, and |output[1]| < 2^25 + 2^16 < 2^26. The * bound on |output[1]| is sufficient to meet our needs. */ } /* A helpful wrapper around fproduct: output = in * in2. * * On entry: |in[i]| < 2^27 and |in2[i]| < 2^27. * * output must be distinct to both inputs. The output is reduced degree * (indeed, one need only provide storage for 10 limbs) and |output[i]| < 2^26. */ static void fmul(limb *output, const limb *in, const limb *in2) { limb t[19]; fproduct(t, in, in2); /* |t[i]| < 14*2^54 */ freduce_degree(t); freduce_coefficients(t); /* |t[i]| < 2^26 */ memcpy(output, t, sizeof(limb) * 10); } /* Square a number: output = in**2 * * output must be distinct from the input. The inputs are reduced coefficient * form, the output is not. * * output[x] <= 14 * the largest product of the input limbs. */ static void fsquare_inner(limb *output, const limb *in) { output[0] = ((limb) ((s32) in[0])) * ((s32) in[0]); output[1] = 2 * ((limb) ((s32) in[0])) * ((s32) in[1]); output[2] = 2 * (((limb) ((s32) in[1])) * ((s32) in[1]) + ((limb) ((s32) in[0])) * ((s32) in[2])); output[3] = 2 * (((limb) ((s32) in[1])) * ((s32) in[2]) + ((limb) ((s32) in[0])) * ((s32) in[3])); output[4] = ((limb) ((s32) in[2])) * ((s32) in[2]) + 4 * ((limb) ((s32) in[1])) * ((s32) in[3]) + 2 * ((limb) ((s32) in[0])) * ((s32) in[4]); output[5] = 2 * (((limb) ((s32) in[2])) * ((s32) in[3]) + ((limb) ((s32) in[1])) * ((s32) in[4]) + ((limb) ((s32) in[0])) * ((s32) in[5])); output[6] = 2 * (((limb) ((s32) in[3])) * ((s32) in[3]) + ((limb) ((s32) in[2])) * ((s32) in[4]) + ((limb) ((s32) in[0])) * ((s32) in[6]) + 2 * ((limb) ((s32) in[1])) * ((s32) in[5])); output[7] = 2 * (((limb) ((s32) in[3])) * ((s32) in[4]) + ((limb) ((s32) in[2])) * ((s32) in[5]) + ((limb) ((s32) in[1])) * ((s32) in[6]) + ((limb) ((s32) in[0])) * ((s32) in[7])); output[8] = ((limb) ((s32) in[4])) * ((s32) in[4]) + 2 * (((limb) ((s32) in[2])) * ((s32) in[6]) + ((limb) ((s32) in[0])) * ((s32) in[8]) + 2 * (((limb) ((s32) in[1])) * ((s32) in[7]) + ((limb) ((s32) in[3])) * ((s32) in[5]))); output[9] = 2 * (((limb) ((s32) in[4])) * ((s32) in[5]) + ((limb) ((s32) in[3])) * ((s32) in[6]) + ((limb) ((s32) in[2])) * ((s32) in[7]) + ((limb) ((s32) in[1])) * ((s32) in[8]) + ((limb) ((s32) in[0])) * ((s32) in[9])); output[10] = 2 * (((limb) ((s32) in[5])) * ((s32) in[5]) + ((limb) ((s32) in[4])) * ((s32) in[6]) + ((limb) ((s32) in[2])) * ((s32) in[8]) + 2 * (((limb) ((s32) in[3])) * ((s32) in[7]) + ((limb) ((s32) in[1])) * ((s32) in[9]))); output[11] = 2 * (((limb) ((s32) in[5])) * ((s32) in[6]) + ((limb) ((s32) in[4])) * ((s32) in[7]) + ((limb) ((s32) in[3])) * ((s32) in[8]) + ((limb) ((s32) in[2])) * ((s32) in[9])); output[12] = ((limb) ((s32) in[6])) * ((s32) in[6]) + 2 * (((limb) ((s32) in[4])) * ((s32) in[8]) + 2 * (((limb) ((s32) in[5])) * ((s32) in[7]) + ((limb) ((s32) in[3])) * ((s32) in[9]))); output[13] = 2 * (((limb) ((s32) in[6])) * ((s32) in[7]) + ((limb) ((s32) in[5])) * ((s32) in[8]) + ((limb) ((s32) in[4])) * ((s32) in[9])); output[14] = 2 * (((limb) ((s32) in[7])) * ((s32) in[7]) + ((limb) ((s32) in[6])) * ((s32) in[8]) + 2 * ((limb) ((s32) in[5])) * ((s32) in[9])); output[15] = 2 * (((limb) ((s32) in[7])) * ((s32) in[8]) + ((limb) ((s32) in[6])) * ((s32) in[9])); output[16] = ((limb) ((s32) in[8])) * ((s32) in[8]) + 4 * ((limb) ((s32) in[7])) * ((s32) in[9]); output[17] = 2 * ((limb) ((s32) in[8])) * ((s32) in[9]); output[18] = 2 * ((limb) ((s32) in[9])) * ((s32) in[9]); } /* fsquare sets output = in^2. * * On entry: The |in| argument is in reduced coefficients form and |in[i]| < * 2^27. * * On exit: The |output| argument is in reduced coefficients form (indeed, one * need only provide storage for 10 limbs) and |out[i]| < 2^26. */ static void fsquare(limb *output, const limb *in) { limb t[19]; fsquare_inner(t, in); /* |t[i]| < 14*2^54 because the largest product of two limbs will be < * 2^(27+27) and fsquare_inner adds together, at most, 14 of those * products. */ freduce_degree(t); freduce_coefficients(t); /* |t[i]| < 2^26 */ memcpy(output, t, sizeof(limb) * 10); } /* Take a little-endian, 32-byte number and expand it into polynomial form */ static void fexpand(limb *output, const u8 *input) { #define F(n,start,shift,mask) \ output[n] = ((((limb) input[start + 0]) | \ ((limb) input[start + 1]) << 8 | \ ((limb) input[start + 2]) << 16 | \ ((limb) input[start + 3]) << 24) >> shift) & mask; F(0, 0, 0, 0x3ffffff); F(1, 3, 2, 0x1ffffff); F(2, 6, 3, 0x3ffffff); F(3, 9, 5, 0x1ffffff); F(4, 12, 6, 0x3ffffff); F(5, 16, 0, 0x1ffffff); F(6, 19, 1, 0x3ffffff); F(7, 22, 3, 0x1ffffff); F(8, 25, 4, 0x3ffffff); F(9, 28, 6, 0x1ffffff); #undef F } #if (-32 >> 1) != -16 #error "This code only works when >> does sign-extension on negative numbers" #endif /* s32_eq returns 0xffffffff iff a == b and zero otherwise. */ static s32 s32_eq(s32 a, s32 b) { a = ~(a ^ b); a &= a << 16; a &= a << 8; a &= a << 4; a &= a << 2; a &= a << 1; return a >> 31; } /* s32_gte returns 0xffffffff if a >= b and zero otherwise, where a and b are * both non-negative. */ static s32 s32_gte(s32 a, s32 b) { a -= b; /* a >= 0 iff a >= b. */ return ~(a >> 31); } /* Take a fully reduced polynomial form number and contract it into a * little-endian, 32-byte array. * * On entry: |input_limbs[i]| < 2^26 */ static void fcontract(u8 *output, limb *input_limbs) { int i; int j; s32 input[10]; s32 mask; /* |input_limbs[i]| < 2^26, so it's valid to convert to an s32. */ for (i = 0; i < 10; i++) { input[i] = input_limbs[i]; } for (j = 0; j < 2; ++j) { for (i = 0; i < 9; ++i) { if ((i & 1) == 1) { /* This calculation is a time-invariant way to make input[i] * non-negative by borrowing from the next-larger limb. */ const s32 mask = input[i] >> 31; const s32 carry = -((input[i] & mask) >> 25); input[i] = input[i] + (carry << 25); input[i+1] = input[i+1] - carry; } else { const s32 mask = input[i] >> 31; const s32 carry = -((input[i] & mask) >> 26); input[i] = input[i] + (carry << 26); input[i+1] = input[i+1] - carry; } } /* There's no greater limb for input[9] to borrow from, but we can multiply * by 19 and borrow from input[0], which is valid mod 2^255-19. */ { const s32 mask = input[9] >> 31; const s32 carry = -((input[9] & mask) >> 25); input[9] = input[9] + (carry << 25); input[0] = input[0] - (carry * 19); } /* After the first iteration, input[1..9] are non-negative and fit within * 25 or 26 bits, depending on position. However, input[0] may be * negative. */ } /* The first borrow-propagation pass above ended with every limb except (possibly) input[0] non-negative. If input[0] was negative after the first pass, then it was because of a carry from input[9]. On entry, input[9] < 2^26 so the carry was, at most, one, since (2**26-1) >> 25 = 1. Thus input[0] >= -19. In the second pass, each limb is decreased by at most one. Thus the second borrow-propagation pass could only have wrapped around to decrease input[0] again if the first pass left input[0] negative *and* input[1] through input[9] were all zero. In that case, input[1] is now 2^25 - 1, and this last borrow-propagation step will leave input[1] non-negative. */ { const s32 mask = input[0] >> 31; const s32 carry = -((input[0] & mask) >> 26); input[0] = input[0] + (carry << 26); input[1] = input[1] - carry; } /* All input[i] are now non-negative. However, there might be values between * 2^25 and 2^26 in a limb which is, nominally, 25 bits wide. */ for (j = 0; j < 2; j++) { for (i = 0; i < 9; i++) { if ((i & 1) == 1) { const s32 carry = input[i] >> 25; input[i] &= 0x1ffffff; input[i+1] += carry; } else { const s32 carry = input[i] >> 26; input[i] &= 0x3ffffff; input[i+1] += carry; } } { const s32 carry = input[9] >> 25; input[9] &= 0x1ffffff; input[0] += 19*carry; } } /* If the first carry-chain pass, just above, ended up with a carry from * input[9], and that caused input[0] to be out-of-bounds, then input[0] was * < 2^26 + 2*19, because the carry was, at most, two. * * If the second pass carried from input[9] again then input[0] is < 2*19 and * the input[9] -> input[0] carry didn't push input[0] out of bounds. */ /* It still remains the case that input might be between 2^255-19 and 2^255. * In this case, input[1..9] must take their maximum value and input[0] must * be >= (2^255-19) & 0x3ffffff, which is 0x3ffffed. */ mask = s32_gte(input[0], 0x3ffffed); for (i = 1; i < 10; i++) { if ((i & 1) == 1) { mask &= s32_eq(input[i], 0x1ffffff); } else { mask &= s32_eq(input[i], 0x3ffffff); } } /* mask is either 0xffffffff (if input >= 2^255-19) and zero otherwise. Thus * this conditionally subtracts 2^255-19. */ input[0] -= mask & 0x3ffffed; for (i = 1; i < 10; i++) { if ((i & 1) == 1) { input[i] -= mask & 0x1ffffff; } else { input[i] -= mask & 0x3ffffff; } } input[1] <<= 2; input[2] <<= 3; input[3] <<= 5; input[4] <<= 6; input[6] <<= 1; input[7] <<= 3; input[8] <<= 4; input[9] <<= 6; #define F(i, s) \ output[s+0] |= input[i] & 0xff; \ output[s+1] = (input[i] >> 8) & 0xff; \ output[s+2] = (input[i] >> 16) & 0xff; \ output[s+3] = (input[i] >> 24) & 0xff; output[0] = 0; output[16] = 0; F(0,0); F(1,3); F(2,6); F(3,9); F(4,12); F(5,16); F(6,19); F(7,22); F(8,25); F(9,28); #undef F } /* Input: Q, Q', Q-Q' * Output: 2Q, Q+Q' * * x2 z3: long form * x3 z3: long form * x z: short form, destroyed * xprime zprime: short form, destroyed * qmqp: short form, preserved * * On entry and exit, the absolute value of the limbs of all inputs and outputs * are < 2^26. */ static void fmonty(limb *x2, limb *z2, /* output 2Q */ limb *x3, limb *z3, /* output Q + Q' */ limb *x, limb *z, /* input Q */ limb *xprime, limb *zprime, /* input Q' */ const limb *qmqp /* input Q - Q' */) { limb origx[10], origxprime[10], zzz[19], xx[19], zz[19], xxprime[19], zzprime[19], zzzprime[19], xxxprime[19]; memcpy(origx, x, 10 * sizeof(limb)); fsum(x, z); /* |x[i]| < 2^27 */ fdifference(z, origx); /* does x - z */ /* |z[i]| < 2^27 */ memcpy(origxprime, xprime, sizeof(limb) * 10); fsum(xprime, zprime); /* |xprime[i]| < 2^27 */ fdifference(zprime, origxprime); /* |zprime[i]| < 2^27 */ fproduct(xxprime, xprime, z); /* |xxprime[i]| < 14*2^54: the largest product of two limbs will be < * 2^(27+27) and fproduct adds together, at most, 14 of those products. * (Approximating that to 2^58 doesn't work out.) */ fproduct(zzprime, x, zprime); /* |zzprime[i]| < 14*2^54 */ freduce_degree(xxprime); freduce_coefficients(xxprime); /* |xxprime[i]| < 2^26 */ freduce_degree(zzprime); freduce_coefficients(zzprime); /* |zzprime[i]| < 2^26 */ memcpy(origxprime, xxprime, sizeof(limb) * 10); fsum(xxprime, zzprime); /* |xxprime[i]| < 2^27 */ fdifference(zzprime, origxprime); /* |zzprime[i]| < 2^27 */ fsquare(xxxprime, xxprime); /* |xxxprime[i]| < 2^26 */ fsquare(zzzprime, zzprime); /* |zzzprime[i]| < 2^26 */ fproduct(zzprime, zzzprime, qmqp); /* |zzprime[i]| < 14*2^52 */ freduce_degree(zzprime); freduce_coefficients(zzprime); /* |zzprime[i]| < 2^26 */ memcpy(x3, xxxprime, sizeof(limb) * 10); memcpy(z3, zzprime, sizeof(limb) * 10); fsquare(xx, x); /* |xx[i]| < 2^26 */ fsquare(zz, z); /* |zz[i]| < 2^26 */ fproduct(x2, xx, zz); /* |x2[i]| < 14*2^52 */ freduce_degree(x2); freduce_coefficients(x2); /* |x2[i]| < 2^26 */ fdifference(zz, xx); // does zz = xx - zz /* |zz[i]| < 2^27 */ memset(zzz + 10, 0, sizeof(limb) * 9); fscalar_product(zzz, zz, 121665); /* |zzz[i]| < 2^(27+17) */ /* No need to call freduce_degree here: fscalar_product doesn't increase the degree of its input. */ freduce_coefficients(zzz); /* |zzz[i]| < 2^26 */ fsum(zzz, xx); /* |zzz[i]| < 2^27 */ fproduct(z2, zz, zzz); /* |z2[i]| < 14*2^(26+27) */ freduce_degree(z2); freduce_coefficients(z2); /* |z2|i| < 2^26 */ } /* Conditionally swap two reduced-form limb arrays if 'iswap' is 1, but leave * them unchanged if 'iswap' is 0. Runs in data-invariant time to avoid * side-channel attacks. * * NOTE that this function requires that 'iswap' be 1 or 0; other values give * wrong results. Also, the two limb arrays must be in reduced-coefficient, * reduced-degree form: the values in a[10..19] or b[10..19] aren't swapped, * and all all values in a[0..9],b[0..9] must have magnitude less than * INT32_MAX. */ static void swap_conditional(limb a[19], limb b[19], limb iswap) { unsigned i; const s32 swap = (s32) -iswap; for (i = 0; i < 10; ++i) { const s32 x = swap & ( ((s32)a[i]) ^ ((s32)b[i]) ); a[i] = ((s32)a[i]) ^ x; b[i] = ((s32)b[i]) ^ x; } } /* Calculates nQ where Q is the x-coordinate of a point on the curve * * resultx/resultz: the x coordinate of the resulting curve point (short form) * n: a little endian, 32-byte number * q: a point of the curve (short form) */ static void cmult(limb *resultx, limb *resultz, const u8 *n, const limb *q) { limb a[19] = {0}, b[19] = {1}, c[19] = {1}, d[19] = {0}; limb *nqpqx = a, *nqpqz = b, *nqx = c, *nqz = d, *t; limb e[19] = {0}, f[19] = {1}, g[19] = {0}, h[19] = {1}; limb *nqpqx2 = e, *nqpqz2 = f, *nqx2 = g, *nqz2 = h; unsigned i, j; memcpy(nqpqx, q, sizeof(limb) * 10); for (i = 0; i < 32; ++i) { u8 byte = n[31 - i]; for (j = 0; j < 8; ++j) { const limb bit = byte >> 7; swap_conditional(nqx, nqpqx, bit); swap_conditional(nqz, nqpqz, bit); fmonty(nqx2, nqz2, nqpqx2, nqpqz2, nqx, nqz, nqpqx, nqpqz, q); swap_conditional(nqx2, nqpqx2, bit); swap_conditional(nqz2, nqpqz2, bit); t = nqx; nqx = nqx2; nqx2 = t; t = nqz; nqz = nqz2; nqz2 = t; t = nqpqx; nqpqx = nqpqx2; nqpqx2 = t; t = nqpqz; nqpqz = nqpqz2; nqpqz2 = t; byte <<= 1; } } memcpy(resultx, nqx, sizeof(limb) * 10); memcpy(resultz, nqz, sizeof(limb) * 10); } // ----------------------------------------------------------------------------- // Shamelessly copied from djb's code // ----------------------------------------------------------------------------- static void crecip(limb *out, const limb *z) { limb z2[10]; limb z9[10]; limb z11[10]; limb z2_5_0[10]; limb z2_10_0[10]; limb z2_20_0[10]; limb z2_50_0[10]; limb z2_100_0[10]; limb t0[10]; limb t1[10]; int i; /* 2 */ fsquare(z2,z); /* 4 */ fsquare(t1,z2); /* 8 */ fsquare(t0,t1); /* 9 */ fmul(z9,t0,z); /* 11 */ fmul(z11,z9,z2); /* 22 */ fsquare(t0,z11); /* 2^5 - 2^0 = 31 */ fmul(z2_5_0,t0,z9); /* 2^6 - 2^1 */ fsquare(t0,z2_5_0); /* 2^7 - 2^2 */ fsquare(t1,t0); /* 2^8 - 2^3 */ fsquare(t0,t1); /* 2^9 - 2^4 */ fsquare(t1,t0); /* 2^10 - 2^5 */ fsquare(t0,t1); /* 2^10 - 2^0 */ fmul(z2_10_0,t0,z2_5_0); /* 2^11 - 2^1 */ fsquare(t0,z2_10_0); /* 2^12 - 2^2 */ fsquare(t1,t0); /* 2^20 - 2^10 */ for (i = 2;i < 10;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } /* 2^20 - 2^0 */ fmul(z2_20_0,t1,z2_10_0); /* 2^21 - 2^1 */ fsquare(t0,z2_20_0); /* 2^22 - 2^2 */ fsquare(t1,t0); /* 2^40 - 2^20 */ for (i = 2;i < 20;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } /* 2^40 - 2^0 */ fmul(t0,t1,z2_20_0); /* 2^41 - 2^1 */ fsquare(t1,t0); /* 2^42 - 2^2 */ fsquare(t0,t1); /* 2^50 - 2^10 */ for (i = 2;i < 10;i += 2) { fsquare(t1,t0); fsquare(t0,t1); } /* 2^50 - 2^0 */ fmul(z2_50_0,t0,z2_10_0); /* 2^51 - 2^1 */ fsquare(t0,z2_50_0); /* 2^52 - 2^2 */ fsquare(t1,t0); /* 2^100 - 2^50 */ for (i = 2;i < 50;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } /* 2^100 - 2^0 */ fmul(z2_100_0,t1,z2_50_0); /* 2^101 - 2^1 */ fsquare(t1,z2_100_0); /* 2^102 - 2^2 */ fsquare(t0,t1); /* 2^200 - 2^100 */ for (i = 2;i < 100;i += 2) { fsquare(t1,t0); fsquare(t0,t1); } /* 2^200 - 2^0 */ fmul(t1,t0,z2_100_0); /* 2^201 - 2^1 */ fsquare(t0,t1); /* 2^202 - 2^2 */ fsquare(t1,t0); /* 2^250 - 2^50 */ for (i = 2;i < 50;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } /* 2^250 - 2^0 */ fmul(t0,t1,z2_50_0); /* 2^251 - 2^1 */ fsquare(t1,t0); /* 2^252 - 2^2 */ fsquare(t0,t1); /* 2^253 - 2^3 */ fsquare(t1,t0); /* 2^254 - 2^4 */ fsquare(t0,t1); /* 2^255 - 2^5 */ fsquare(t1,t0); /* 2^255 - 21 */ fmul(out,t1,z11); } int cryptonite_curve25519_donna(u8 *mypublic, const u8 *secret, const u8 *basepoint) { limb bp[10], x[10], z[11], zmone[10]; uint8_t e[32]; int i; for (i = 0; i < 32; ++i) e[i] = secret[i]; e[0] &= 248; e[31] &= 127; e[31] |= 64; fexpand(bp, basepoint); cmult(x, z, e, bp); crecip(zmone, z); fmul(z, x, zmone); fcontract(mypublic, z); return 0; }
the_stack_data/647208.c
// SoftEther VPN Source Code - Developer Edition Master Branch // Cedar Communication Module // BridgeWin32.c // Ethernet Bridge Program (Win32) #ifdef OS_WIN32 #define BRIDGE_C #include "BridgeWin32.h" #include "Admin.h" #include "Connection.h" #include "SeLowUser.h" #include "Mayaqua/Cfg.h" #include "Mayaqua/FileIO.h" #include "Mayaqua/Internat.h" #include "Mayaqua/Memory.h" #include "Mayaqua/Microsoft.h" #include "Mayaqua/Object.h" #include "Mayaqua/Str.h" #include "Mayaqua/Tick64.h" #include "Mayaqua/Str.h" #include <Ws2tcpip.h> static WP *wp = NULL; static LIST *eth_list = NULL; static LOCK *eth_list_lock = NULL; static bool is_see_mode = false; static bool is_using_selow = false; static bool enable_selow = true; static bool g_bridge_win32_show_all_if = false; #define LOAD_DLL_ADDR(name) \ { \ void *addr = GetProcAddress(h, #name); \ Copy(&wp->name, &addr, sizeof(void *)); \ } // Set the flag which indicates whether using SeLow void Win32SetEnableSeLow(bool b) { enable_selow = b; } // Get the flag which indicates whether using SeLow bool Win32GetEnableSeLow() { return enable_selow; } // Set the flag which indicates whether enumerating all interfaces void Win32EthSetShowAllIf(bool b) { g_bridge_win32_show_all_if = b; } // Get the flag which indicates whether enumerating all interfaces bool Win32EthGetShowAllIf() { return g_bridge_win32_show_all_if; } // Compare Ethernet device list int CmpRpcEnumEthVLan(void *p1, void *p2) { RPC_ENUM_ETH_VLAN_ITEM *v1, *v2; if (p1 == NULL || p2 == NULL) { return 0; } v1 = *((RPC_ENUM_ETH_VLAN_ITEM **)p1); v2 = *((RPC_ENUM_ETH_VLAN_ITEM **)p2); if (v1 == NULL || v2 == NULL) { return 0; } return StrCmpi(v1->DeviceName, v2->DeviceName); } // Get the value of MTU (Not supported in Windows) UINT EthGetMtu(ETH *e) { return 0; } // Set the value of MTU (Not supported in Windows) bool EthSetMtu(ETH *e, UINT mtu) { return false; } // Check whether setting MEU value (Not supported in Windows) bool EthIsChangeMtuSupported(ETH *e) { return false; } // Set the state of VLAN tag pass-through bool SetVLanEnableStatus(char *title, bool enable) { RPC_ENUM_ETH_VLAN t; RPC_ENUM_ETH_VLAN_ITEM *e; bool ret = false; char key[MAX_SIZE]; char tcpkey[MAX_SIZE]; char short_key[MAX_SIZE]; // Validate arguments if (title == NULL) { return false; } Zero(&t, sizeof(t)); if (EnumEthVLanWin32(&t) == false) { return false; } e = FindEthVLanItem(&t, title); if (e != NULL) { if (GetClassRegKeyWin32(key, sizeof(key), short_key, sizeof(short_key), e->Guid)) { if (StrCmpi(e->DriverType, "Intel") == 0) { if (enable) { MsRegWriteStr(REG_LOCAL_MACHINE, key, "VlanFiltering", "0"); MsRegWriteStr(REG_LOCAL_MACHINE, key, "TaggingMode", "0"); MsRegWriteInt(REG_LOCAL_MACHINE, key, "MonitorMode", 1); MsRegWriteInt(REG_LOCAL_MACHINE, key, "MonitorModeEnabled", 1); } else { if (MsRegReadInt(REG_LOCAL_MACHINE, key, "TaggingMode") == 0) { MsRegDeleteValue(REG_LOCAL_MACHINE, key, "TaggingMode"); } if (MsRegReadInt(REG_LOCAL_MACHINE, key, "MonitorMode") == 1) { MsRegDeleteValue(REG_LOCAL_MACHINE, key, "MonitorMode"); } if (MsRegReadInt(REG_LOCAL_MACHINE, key, "MonitorModeEnabled") == 1) { MsRegDeleteValue(REG_LOCAL_MACHINE, key, "MonitorModeEnabled"); } } ret = true; } else if (StrCmpi(e->DriverType, "Broadcom") == 0) { if (enable) { MsRegWriteStr(REG_LOCAL_MACHINE, key, "PreserveVlanInfoInRxPacket", "1"); } else { MsRegDeleteValue(REG_LOCAL_MACHINE, key, "PreserveVlanInfoInRxPacket"); } ret = true; } else if (StrCmpi(e->DriverType, "Marvell") == 0) { if (enable) { MsRegWriteInt(REG_LOCAL_MACHINE, key, "SkDisableVlanStrip", 1); } else { MsRegDeleteValue(REG_LOCAL_MACHINE, key, "SkDisableVlanStrip"); } ret = true; } Format(tcpkey, sizeof(tcpkey), "SYSTEM\\CurrentControlSet\\Services\\Tcpip\\Parameters\\Interfaces\\%s", e->Guid); if (enable) { if (MsRegIsValue(REG_LOCAL_MACHINE, tcpkey, "MTU") == false) { MsRegWriteInt(REG_LOCAL_MACHINE, tcpkey, "MTU", 1500); } } else { UINT mtu = MsRegReadInt(REG_LOCAL_MACHINE, tcpkey, "MTU"); if (mtu == 1500) { MsRegDeleteValue(REG_LOCAL_MACHINE, tcpkey, "MTU"); } } } } FreeRpcEnumEthVLan(&t); return ret; } // Find Ethernet device RPC_ENUM_ETH_VLAN_ITEM *FindEthVLanItem(RPC_ENUM_ETH_VLAN *t, char *name) { UINT i; // Validate arguments if (t == NULL || name == NULL) { return NULL; } for (i = 0;i < t->NumItem;i++) { if (StrCmpi(t->Items[i].DeviceName, name) == 0) { return &t->Items[i]; } } return NULL; } // Get the state of VLAN tag pass-through void GetVLanEnableStatus(RPC_ENUM_ETH_VLAN_ITEM *e) { char key[MAX_SIZE]; char short_key[MAX_SIZE]; char tcpkey[MAX_SIZE]; // Validate arguments if (e == NULL) { return; } e->Enabled = false; if (e->Support == false) { return; } if (GetClassRegKeyWin32(key, sizeof(key), short_key, sizeof(short_key), e->Guid) == false) { return; } Format(tcpkey, sizeof(tcpkey), "SYSTEM\\CurrentControlSet\\Services\\Tcpip\\Parameters\\Interfaces\\%s", e->Guid); if (StrCmpi(e->DriverType, "Intel") == 0) { char *VlanFiltering = MsRegReadStr(REG_LOCAL_MACHINE, key, "VlanFiltering"); UINT MonitorMode = MsRegReadInt(REG_LOCAL_MACHINE, key, "MonitorMode"); UINT MonitorModeEnabled = MsRegReadInt(REG_LOCAL_MACHINE, key, "MonitorModeEnabled"); char *TaggingMode = MsRegReadStr(REG_LOCAL_MACHINE, key, "TaggingMode"); if (StrCmpi(VlanFiltering, "0") == 0 && MonitorMode == 1 && MonitorModeEnabled == 1 && StrCmpi(TaggingMode, "0") == 0) { e->Enabled = true; } Free(VlanFiltering); Free(TaggingMode); } else if (StrCmpi(e->DriverType, "Broadcom") == 0) { char *PreserveVlanInfoInRxPacket = MsRegReadStr(REG_LOCAL_MACHINE, key, "PreserveVlanInfoInRxPacket"); if (StrCmpi(PreserveVlanInfoInRxPacket, "1") == 0) { e->Enabled = true; } Free(PreserveVlanInfoInRxPacket); } else if (StrCmpi(e->DriverType, "Marvell") == 0) { DWORD SkDisableVlanStrip = MsRegReadInt(REG_LOCAL_MACHINE, key, "SkDisableVlanStrip"); if (SkDisableVlanStrip == 1) { e->Enabled = true; } } if (MsRegIsValue(REG_LOCAL_MACHINE, tcpkey, "MTU") == false) { e->Enabled = false; } } // Get VLAN tag pass-through availability of the device void GetVLanSupportStatus(RPC_ENUM_ETH_VLAN_ITEM *e) { BUF *b; char filename[MAX_SIZE]; void *wow; // Validate arguments if (e == NULL) { return; } wow = MsDisableWow64FileSystemRedirection(); // Read the device driver file CombinePath(filename, sizeof(filename), MsGetSystem32Dir(), "drivers"); CombinePath(filename, sizeof(filename), filename, e->DriverName); b = ReadDump(filename); if (b != NULL) { char intel1[] = "VlanFiltering"; char intel2[] = "V\0l\0a\0n\0F\0i\0l\0t\0e\0r\0i\0n\0g"; char intel3[] = "MonitorMode"; char intel4[] = "M\0o\0n\0i\0t\0o\0r\0M\0o\0d\0e"; char intel5[] = "TaggingMode"; char intel6[] = "T\0a\0g\0g\0i\0n\0g\0M\0o\0d\0e"; char broadcom1[] = "PreserveVlanInfoInRxPacket"; char broadcom2[] = "P\0r\0e\0s\0e\0r\0v\0e\0V\0l\0a\0n\0I\0n\0f\0o\0I\0n\0R\0x\0P\0a\0c\0k\0e\0t"; char marvell1[] = "SkDisableVlanStrip"; char marvell2[] = "S\0k\0D\0i\0s\0a\0b\0l\0e\0V\0l\0a\0n\0S\0t\0r\0i\0p"; char *driver_type = ""; if (SearchBin(b->Buf, 0, b->Size, intel1, sizeof(intel1)) != INFINITE || SearchBin(b->Buf, 0, b->Size, intel2, sizeof(intel2)) != INFINITE || SearchBin(b->Buf, 0, b->Size, intel3, sizeof(intel3)) != INFINITE || SearchBin(b->Buf, 0, b->Size, intel4, sizeof(intel4)) != INFINITE || SearchBin(b->Buf, 0, b->Size, intel5, sizeof(intel5)) != INFINITE || SearchBin(b->Buf, 0, b->Size, intel6, sizeof(intel6)) != INFINITE) { driver_type = "Intel"; } else if (SearchBin(b->Buf, 0, b->Size, broadcom1, sizeof(broadcom1)) != INFINITE || SearchBin(b->Buf, 0, b->Size, broadcom2, sizeof(broadcom2)) != INFINITE) { driver_type = "Broadcom"; } else if (SearchBin(b->Buf, 0, b->Size, marvell1, sizeof(marvell1)) != INFINITE || SearchBin(b->Buf, 0, b->Size, marvell2, sizeof(marvell2)) != INFINITE) { driver_type = "Marvell"; } if (IsEmptyStr(driver_type) == false) { StrCpy(e->DriverType, sizeof(e->DriverType), driver_type); e->Support = true; } FreeBuf(b); } MsRestoreWow64FileSystemRedirection(wow); } // Get the device instance id from short_key char *SearchDeviceInstanceIdFromShortKey(char *short_key) { char *ret = NULL; TOKEN_LIST *t1; // Validate arguments if (short_key == NULL) { return NULL; } t1 = MsRegEnumKey(REG_LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Enum"); if (t1 != NULL) { TOKEN_LIST *t2; char tmp[MAX_SIZE]; UINT i; for (i = 0;i < t1->NumTokens;i++) { Format(tmp, sizeof(tmp), "SYSTEM\\CurrentControlSet\\Enum\\%s", t1->Token[i]); t2 = MsRegEnumKey(REG_LOCAL_MACHINE, tmp); if (t2 != NULL) { TOKEN_LIST *t3; UINT i; for (i = 0;i < t2->NumTokens;i++) { char tmp2[MAX_SIZE]; Format(tmp2, sizeof(tmp2), "%s\\%s", tmp, t2->Token[i]); t3 = MsRegEnumKey(REG_LOCAL_MACHINE, tmp2); if (t3 != NULL) { UINT i; for (i = 0;i < t3->NumTokens;i++) { char tmp3[MAX_SIZE]; char *s; Format(tmp3, sizeof(tmp3), "%s\\%s", tmp2, t3->Token[i]); s = MsRegReadStr(REG_LOCAL_MACHINE, tmp3, "Driver"); if (s != NULL) { if (StrCmpi(s, short_key) == 0) { if (ret != NULL) { Free(ret); } ret = CopyStr(tmp3 + StrLen("SYSTEM\\CurrentControlSet\\Enum\\")); } Free(s); } } FreeToken(t3); } } FreeToken(t2); } } FreeToken(t1); } return ret; } // Get VLAN tag pass-through availability of all devices bool EnumEthVLanWin32(RPC_ENUM_ETH_VLAN *t) { UINT i; LIST *o; // Validate arguments if (t == NULL) { return false; } Zero(t, sizeof(RPC_ENUM_ETH_VLAN)); if (IsEthSupported() == false) { return false; } // Get device list Lock(eth_list_lock); InitEthAdaptersList(); o = NewListFast(CmpRpcEnumEthVLan); for (i = 0;i < LIST_NUM(eth_list);i++) { WP_ADAPTER *a = LIST_DATA(eth_list, i); if (IsEmptyStr(a->Guid) == false) { char class_key[MAX_SIZE]; char short_key[MAX_SIZE]; if (GetClassRegKeyWin32(class_key, sizeof(class_key), short_key, sizeof(short_key), a->Guid)) { char *device_instance_id = MsRegReadStr(REG_LOCAL_MACHINE, class_key, "DeviceInstanceID"); if (IsEmptyStr(device_instance_id)) { Free(device_instance_id); device_instance_id = SearchDeviceInstanceIdFromShortKey(short_key); } if (IsEmptyStr(device_instance_id) == false) { char device_key[MAX_SIZE]; char *service_name; Format(device_key, sizeof(device_key), "SYSTEM\\CurrentControlSet\\Enum\\%s", device_instance_id); service_name = MsRegReadStr(REG_LOCAL_MACHINE, device_key, "Service"); if (IsEmptyStr(service_name) == false) { char service_key[MAX_SIZE]; char *sys; Format(service_key, sizeof(service_key), "SYSTEM\\CurrentControlSet\\services\\%s", service_name); sys = MsRegReadStr(REG_LOCAL_MACHINE, service_key, "ImagePath"); if (IsEmptyStr(sys) == false) { char sysname[MAX_PATH]; GetFileNameFromFilePath(sysname, sizeof(sysname), sys); Trim(sysname); if (EndWith(sysname, ".sys")) { // device found RPC_ENUM_ETH_VLAN_ITEM *e = ZeroMalloc(sizeof(RPC_ENUM_ETH_VLAN_ITEM)); StrCpy(e->DeviceName, sizeof(e->DeviceName), a->Title); StrCpy(e->Guid, sizeof(e->Guid), a->Guid); StrCpy(e->DeviceInstanceId, sizeof(e->DeviceInstanceId), device_instance_id); StrCpy(e->DriverName, sizeof(e->DriverName), sysname); // Get VLAN tag pass-through availability of the device GetVLanSupportStatus(e); // Get current pass-through setting of the device GetVLanEnableStatus(e); Insert(o, e); } } Free(sys); } Free(service_name); } Free(device_instance_id); } } } t->NumItem = LIST_NUM(o); t->Items = ZeroMalloc(sizeof(RPC_ENUM_ETH_VLAN_ITEM) * i); for (i = 0;i < LIST_NUM(o);i++) { RPC_ENUM_ETH_VLAN_ITEM *e = LIST_DATA(o, i); Copy(&t->Items[i], e, sizeof(RPC_ENUM_ETH_VLAN_ITEM)); Free(e); } ReleaseList(o); Unlock(eth_list_lock); return true; } // Get registry key of the network class data by GUID bool GetClassRegKeyWin32(char *key, UINT key_size, char *short_key, UINT short_key_size, char *guid) { TOKEN_LIST *t; bool ret = false; UINT i; // Validate arguments if (key == NULL || short_key == NULL || guid == NULL) { return false; } t = MsRegEnumKey(REG_LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Control\\Class\\{4D36E972-E325-11CE-BFC1-08002BE10318}"); if (t == NULL) { return false; } for (i = 0;i < t->NumTokens;i++) { char keyname[MAX_SIZE]; char *value; Format(keyname, sizeof(keyname), "SYSTEM\\CurrentControlSet\\Control\\Class\\{4D36E972-E325-11CE-BFC1-08002BE10318}\\%s", t->Token[i]); value = MsRegReadStr(REG_LOCAL_MACHINE, keyname, "NetCfgInstanceId"); if (StrCmpi(value, guid) == 0) { ret = true; StrCpy(key, key_size, keyname); Format(short_key, short_key_size, "{4D36E972-E325-11CE-BFC1-08002BE10318}\\%s", t->Token[i]); } Free(value); } FreeToken(t); return ret; } // Send multiple packets void EthPutPackets(ETH *e, UINT num, void **datas, UINT *sizes) { UINT i, total_size; UCHAR *buf; UINT write_pointer; UINT err = 0; // Validate arguments if (e == NULL || num == 0 || datas == NULL || sizes == NULL) { return; } if (e->HasFatalError) { return; } if (e->SuAdapter != NULL) { bool ok = true; // Send packets with SeLow for (i = 0;i < num;i++) { UCHAR *data = datas[i]; UINT size = sizes[i]; if (ok) { // Actually, only enqueuing ok = SuPutPacket(e->SuAdapter, data, size); } if (ok == false) { // Free memory on write error Free(data); } } if (ok) { // Send all data in queue at once ok = SuPutPacket(e->SuAdapter, NULL, 0); } if (ok == false) { // Error occurred e->HasFatalError = true; } return; } if (IsWin32BridgeWithSee() == false) { if (e->LastSetSingleCpu == 0 || (e->LastSetSingleCpu + 10000) <= Tick64()) { e->LastSetSingleCpu = Tick64(); MsSetThreadSingleCpu(); } } // Calculate buffer size total_size = 0; for (i = 0;i < num;i++) { void *data = datas[i]; UINT size = sizes[i]; if (data != NULL && size >= 14 && size <= MAX_PACKET_SIZE) { total_size += size + sizeof(struct dump_bpf_hdr); } } buf = MallocFast(total_size * 100 / 75 + 1600); write_pointer = 0; // Enqueue for (i = 0;i < num;i++) { void *data = datas[i]; UINT size = sizes[i]; if (data != NULL && size >= 14 && size <= MAX_PACKET_SIZE) { struct dump_bpf_hdr *h; h = (struct dump_bpf_hdr *)(buf + write_pointer); Zero(h, sizeof(struct dump_bpf_hdr)); h->caplen = h->len = size; write_pointer += sizeof(struct dump_bpf_hdr); Copy(buf + write_pointer, data, size); write_pointer += size; PROBE_DATA2("EthPutPackets", data, size); } // Free original buffer Free(data); } // Send if (total_size != 0) { err = wp->PacketSendPackets(e->Adapter, buf, total_size, true); } Free(buf); if (err == 0x7FFFFFFF) { // Critical error (infinite loop) occurred on sending e->HasFatalError = true; } } // Send a packet void EthPutPacket(ETH *e, void *data, UINT size) { // Validate arguments if (e == NULL || data == NULL || size == 0) { return; } EthPutPackets(e, 1, &data, &size); } // Read next packet UINT EthGetPacket(ETH *e, void **data) { BLOCK *b; bool flag = false; // Validate arguments if (e == NULL || data == NULL) { return INFINITE; } if (e->HasFatalError) { return INFINITE; } if (e->SuAdapter != NULL) { // Read packet with SeLow UINT size; if (SuGetNextPacket(e->SuAdapter, data, &size) == false) { // Error occurred e->HasFatalError = true; return INFINITE; } return size; } RETRY: // Check the presence of the packet in queue b = GetNext(e->PacketQueue); if (b != NULL) { UINT size; size = b->Size; *data = b->Buf; Free(b); if (e->PacketQueue->num_item == 0) { e->Empty = true; } return size; } if (e->Empty) { e->Empty = false; return 0; } if (flag == false) { // Try to get next packet PROBE_STR("EthGetPacket: PacketInitPacket"); wp->PacketInitPacket(e->Packet, e->Buffer, e->BufferSize); PROBE_STR("EthGetPacket: PacketReceivePacket"); if (wp->PacketReceivePacket(e->Adapter, e->Packet, false) == false) { // Failed return INFINITE; } else { UCHAR *buf; UINT total; UINT offset; buf = (UCHAR *)e->Packet->Buffer; total = e->Packet->ulBytesReceived; offset = 0; while (offset < total) { struct bpf_hdr *header; UINT packet_size; UCHAR *packet_data; header = (struct bpf_hdr *)(buf + offset); packet_size = header->bh_caplen; offset += header->bh_hdrlen; packet_data = buf + offset; offset = Packet_WORDALIGN(offset + packet_size); if (packet_size >= 14) { UCHAR *tmp; BLOCK *b; PROBE_DATA2("EthGetPacket: NewBlock", packet_data, packet_size); tmp = MallocFast(packet_size); Copy(tmp, packet_data, packet_size); b = NewBlock(tmp, packet_size, 0); InsertQueue(e->PacketQueue, b); } } flag = true; goto RETRY; } } // No more packet return 0; } // Get cancel object CANCEL *EthGetCancel(ETH *e) { // Validate arguments if (e == NULL) { return NULL; } AddRef(e->Cancel->ref); return e->Cancel; } // Close adapter void CloseEth(ETH *e) { BLOCK *b; // Validate arguments if (e == NULL) { return; } ReleaseCancel(e->Cancel); if (e->SuAdapter != NULL) { // Close SeLow adapter SuCloseAdapter(e->SuAdapter); SuFree(e->Su); } else { // Close SEE adapter wp->PacketCloseAdapter(e->Adapter); wp->PacketFreePacket(e->Packet); wp->PacketFreePacket(e->PutPacket); } while (b = GetNext(e->PacketQueue)) { FreeBlock(b); } ReleaseQueue(e->PacketQueue); Free(e->Name); Free(e->Title); Free(e->Buffer); Free(e); } // Search adapter with the name struct WP_ADAPTER *Win32EthSearch(char *name) { UINT i; UINT id; char simple_name[MAX_SIZE]; WP_ADAPTER *ret = NULL; id = Win32EthGetNameAndIdFromCombinedName(simple_name, sizeof(simple_name), name); if (id != 0) { UINT num_match = 0; // Search with ID when ID is specified for (i = 0;i < LIST_NUM(eth_list);i++) { WP_ADAPTER *a = LIST_DATA(eth_list, i); if (a->Id != 0 && a->Id == id) { ret = a; num_match++; } } if (num_match >= 2) { // If the ID matches to 2 or more devices, search with the name for (i = 0;i < LIST_NUM(eth_list);i++) { WP_ADAPTER *a = LIST_DATA(eth_list, i); if (a->Id != 0 && a->Id == id) { if (StrCmpi(a->Title, name) == 0) { ret = a; break; } } } } } else { // Search with name when ID is not specified for (i = 0;i < LIST_NUM(eth_list);i++) { WP_ADAPTER *a = LIST_DATA(eth_list, i); if (StrCmpi(a->Title, name) == 0) { ret = a; break; } } } return ret; } // Open adapter ETH *OpenEth(char *name, bool local, bool tapmode, char *tapaddr) { ETH *ret; void *p; p = MsDisableWow64FileSystemRedirection(); ret = OpenEthInternal(name, local, tapmode, tapaddr); MsRestoreWow64FileSystemRedirection(p); return ret; } ETH *OpenEthInternal(char *name, bool local, bool tapmode, char *tapaddr) { WP_ADAPTER *t; ETH *e; ADAPTER *a = NULL; HANDLE h; CANCEL *c; MS_ADAPTER *ms; char name_with_id[MAX_SIZE]; SU *su = NULL; SU_ADAPTER *su_adapter = NULL; // Validate arguments if (name == NULL || IsEthSupported() == false) { return NULL; } if (tapmode) { // Tap is not supported in Windows return NULL; } Lock(eth_list_lock); InitEthAdaptersList(); t = Win32EthSearch(name); if (t == NULL) { Unlock(eth_list_lock); return NULL; } Debug("OpenEthInternal: %s\n", t->Name); if (StartWith(t->Name, SL_ADAPTER_ID_PREFIX)) { // Open with SU su = SuInit(); if (su == NULL) { // Fail to initialize SU Unlock(eth_list_lock); return NULL; } su_adapter = SuOpenAdapter(su, t->Name); if (su_adapter == NULL) { // Fail to get adapter SuFree(su); Unlock(eth_list_lock); return NULL; } is_using_selow = true; } else { // Open with SEE a = wp->PacketOpenAdapter(t->Name); if (a == NULL) { Unlock(eth_list_lock); return NULL; } if (IsWin32BridgeWithSee() == false) { MsSetThreadSingleCpu(); } is_using_selow = false; } e = ZeroMalloc(sizeof(ETH)); e->Name = CopyStr(t->Name); Win32EthMakeCombinedName(name_with_id, sizeof(name_with_id), t->Title, t->Guid); e->Title = CopyStr(name_with_id); if (su_adapter != NULL) { // SU e->SuAdapter = su_adapter; e->Su = su; // Get event object h = e->SuAdapter->hEvent; c = NewCancelSpecial(h); e->Cancel = c; } else { // SEE e->Adapter = a; wp->PacketSetBuff(e->Adapter, BRIDGE_WIN32_ETH_BUFFER); wp->PacketSetHwFilter(e->Adapter, local ? 0x0080 : 0x0020); wp->PacketSetMode(e->Adapter, PACKET_MODE_CAPT); wp->PacketSetReadTimeout(e->Adapter, -1); wp->PacketSetNumWrites(e->Adapter, 1); if (wp->PacketSetLoopbackBehavior != NULL) { // Filter loopback packet in kernel if (GET_KETA(GetOsType(), 100) >= 3) { if (MsIsWindows8() == false) { // Enable for Windows XP, Server 2003 or later // But disable for Windows 8 or later bool ret = wp->PacketSetLoopbackBehavior(e->Adapter, 1); Debug("*** PacketSetLoopbackBehavior: %u\n", ret); e->LoopbackBlock = ret; } } } // Get event object h = wp->PacketGetReadEvent(e->Adapter); c = NewCancelSpecial(h); e->Cancel = c; e->Packet = wp->PacketAllocatePacket(); e->PutPacket = wp->PacketAllocatePacket(); } e->Buffer = Malloc(BRIDGE_WIN32_ETH_BUFFER); e->BufferSize = BRIDGE_WIN32_ETH_BUFFER; e->PacketQueue = NewQueue(); // Get MAC address by GUID ms = MsGetAdapterByGuid(t->Guid); if (ms != NULL) { if (ms->AddressSize == 6) { Copy(e->MacAddress, ms->Address, 6); } MsFreeAdapter(ms); } Unlock(eth_list_lock); return e; } // Generate a combined name from NIC name and GUID void Win32EthMakeCombinedName(char *dst, UINT dst_size, char *nicname, char *guid) { // Validate arguments if (dst == NULL || nicname == NULL || guid == NULL) { return; } if (IsEmptyStr(guid) == false) { Format(dst, dst_size, "%s (ID=%010u)", nicname, Win32EthGenIdFromGuid(guid)); } else { StrCpy(dst, dst_size, nicname); } } // Decompose combined name UINT Win32EthGetNameAndIdFromCombinedName(char *name, UINT name_size, char *str) { UINT ret = 0; char id_str[MAX_SIZE]; UINT len; // Validate arguments ClearStr(name, name_size); StrCpy(name, name_size, str); if (name == NULL || str == NULL) { return 0; } len = StrLen(str); if (len >= 16) { StrCpy(id_str, sizeof(id_str), str + len - 16); if (StartWith(id_str, " (ID=")) { if (EndWith(id_str, ")")) { char num[MAX_SIZE]; Zero(num, sizeof(num)); StrCpy(num, sizeof(num), id_str + 5); num[StrLen(num) - 1] = 0; ret = ToInt(num); if (ret != 0) { name[len - 16] = 0; } } } } return ret; } // Generate an ID from GUID UINT Win32EthGenIdFromGuid(char *guid) { char tmp[MAX_SIZE]; UCHAR hash[SHA1_SIZE]; UINT i; // Validate arguments if (guid == NULL) { return 0; } StrCpy(tmp, sizeof(tmp), guid); Trim(tmp); StrUpper(tmp); Sha1(hash, tmp, StrLen(tmp)); Copy(&i, hash, sizeof(UINT)); i = Endian32(i); if (i == 0) { i = 1; } return i; } // Get Ethernet adapter list TOKEN_LIST *GetEthList() { UINT v; return GetEthListEx(&v, true, false); } TOKEN_LIST *GetEthListEx(UINT *total_num_including_hidden, bool enum_normal, bool enum_rawip) { TOKEN_LIST *ret; UINT i; UINT j; UINT dummy_int; MS_ADAPTER_LIST *adapter_list; if (IsEthSupported() == false) { return NULL; } if (enum_normal == false) { return NullToken(); } if (total_num_including_hidden == NULL) { total_num_including_hidden = &dummy_int; } *total_num_including_hidden = 0; Lock(eth_list_lock); InitEthAdaptersList(); adapter_list = MsCreateAdapterList(); ret = ZeroMalloc(sizeof(TOKEN_LIST)); ret->NumTokens = LIST_NUM(eth_list); ret->Token = ZeroMalloc(sizeof(char *) * ret->NumTokens); j = 0; for (i = 0;i < ret->NumTokens;i++) { char tmp[MAX_SIZE]; WP_ADAPTER *a = LIST_DATA(eth_list, i); MS_ADAPTER *msa = NULL; bool show = true; if (Win32EthGetShowAllIf() == false) { msa = MsGetAdapterByGuidFromList(adapter_list, a->Guid); if (InStr(a->Title, "vpn client adapter")) { // Hide virtual NIC for VPN client show = false; } if (InStr(a->Title, "tunnel adapter")) { // Hide tunnel adapter show = false; } if (InStr(a->Title, "teredo tunnel")) { // Hide tunnel adapter show = false; } if (InStr(a->Title, "MS Tunnel Interface")) { // Hide tunnel adapter show = false; } if (InStr(a->Title, "pseudo-interface")) { // Hide tunnel adapter show = false; } } if (msa != NULL) { // Hide except physical Ethernet NIC if (msa->IsNotEthernetLan) { show = false; } MsFreeAdapter(msa); } Win32EthMakeCombinedName(tmp, sizeof(tmp), a->Title, a->Guid); if (show) { ret->Token[j++] = CopyStr(tmp); Debug("%s - %s\n", a->Guid, a->Title); } } *total_num_including_hidden = ret->NumTokens; ret->NumTokens = j; Unlock(eth_list_lock); MsFreeAdapterList(adapter_list); return ret; } // Compare the name of WP_ADAPTER int CompareWpAdapter(void *p1, void *p2) { int i; WP_ADAPTER *a1, *a2; if (p1 == NULL || p2 == NULL) { return 0; } a1 = *(WP_ADAPTER **)p1; a2 = *(WP_ADAPTER **)p2; if (a1 == NULL || a2 == NULL) { return 0; } i = StrCmpi(a1->Title, a2->Title); return i; } // Get whether the SeLow is used bool Win32IsUsingSeLow() { return is_using_selow; } // Get Ethernet adapter list LIST *GetEthAdapterList() { void *p; LIST *o; p = MsDisableWow64FileSystemRedirection(); o = GetEthAdapterListInternal(); MsRestoreWow64FileSystemRedirection(p); return o; } LIST *GetEthAdapterListInternal() { LIST *o; LIST *ret; UINT size; char *buf; UINT i, j; char *qos_tag = " (Microsoft's Packet Scheduler)"; SU *su = NULL; LIST *su_adapter_list = NULL; // Try to use SeLow if (enable_selow) { su = SuInit(); } o = NewListFast(CompareWpAdapter); size = 200000; buf = ZeroMalloc(size); // Try to enumerate with SeLow if (su != NULL) { su_adapter_list = SuGetAdapterList(su); if (su_adapter_list == NULL) { // Fail to enumerate SuFree(su); su = NULL; //WHERE; is_using_selow = false; } else { //WHERE; is_using_selow = true; } } else { is_using_selow = false; } if (su_adapter_list != NULL) { // If 1 or more adapters are enumerated by SeLow, create adapter list object UINT i; for (i = 0;i < LIST_NUM(su_adapter_list);i++) { SU_ADAPTER_LIST *t = LIST_DATA(su_adapter_list, i); WP_ADAPTER *a = ZeroMalloc(sizeof(WP_ADAPTER)); StrCpy(a->Name, sizeof(a->Name), t->Name); StrCpy(a->Guid, sizeof(a->Guid), t->Guid); StrCpy(a->Title, sizeof(a->Title), t->Info.FriendlyName); TrimCrlf(a->Title); Trim(a->Title); TrimCrlf(a->Title); Trim(a->Title); if (EndWith(a->Title, qos_tag)) { a->Title[StrLen(a->Title) - StrLen(qos_tag)] = 0; TrimCrlf(a->Title); Trim(a->Title); TrimCrlf(a->Title); Trim(a->Title); } Add(o, a); } } else { // When SeLow is not used, create adapter list with SEE or WinPcap if (wp->PacketGetAdapterNames(buf, &size) == false) { Free(buf); return o; } i = 0; if (true) { // Windows NT if (size >= 2 && buf[0] != 0 && buf[1] != 0) { goto ANSI_STR; } while (true) { wchar_t tmp[MAX_SIZE]; WP_ADAPTER *a; UniStrCpy(tmp, sizeof(tmp), L""); if (*((wchar_t *)(&buf[i])) == 0) { i += sizeof(wchar_t); break; } for (;*((wchar_t *)(&buf[i])) != 0;i += sizeof(wchar_t)) { wchar_t str[2]; str[0] = *((wchar_t *)(&buf[i])); str[1] = 0; UniStrCat(tmp, sizeof(tmp), str); } i += sizeof(wchar_t); a = ZeroMalloc(sizeof(WP_ADAPTER)); UniToStr(a->Name, sizeof(a->Name), tmp); Add(o, a); } } else { ANSI_STR: while (true) { char tmp[MAX_SIZE]; WP_ADAPTER *a; StrCpy(tmp, sizeof(tmp), ""); if (*((char *)(&buf[i])) == 0) { i += sizeof(char); break; } for (;*((char *)(&buf[i])) != 0;i += sizeof(char)) { char str[2]; str[0] = *((char *)(&buf[i])); str[1] = 0; StrCat(tmp, sizeof(tmp), str); } i += sizeof(char); a = ZeroMalloc(sizeof(WP_ADAPTER)); StrCpy(a->Name, sizeof(a->Name), tmp); Add(o, a); } } for (j = 0;j < LIST_NUM(o);j++) { WP_ADAPTER *a = LIST_DATA(o, j); StrCpy(a->Title, sizeof(a->Title), &buf[i]); i += StrSize(a->Title); TrimCrlf(a->Title); Trim(a->Title); TrimCrlf(a->Title); Trim(a->Title); if (EndWith(a->Title, qos_tag)) { a->Title[StrLen(a->Title) - StrLen(qos_tag)] = 0; TrimCrlf(a->Title); Trim(a->Title); TrimCrlf(a->Title); Trim(a->Title); } } } for (j = 0;j < LIST_NUM(o);j++) { // Extract GUID WP_ADAPTER *a = LIST_DATA(o, j); if (IsEmptyStr(a->Guid)) { StrCpy(a->Guid, sizeof(a->Guid), a->Name); ReplaceStr(a->Guid, sizeof(a->Guid), a->Guid, "\\Device\\SEE_", ""); ReplaceStr(a->Guid, sizeof(a->Guid), a->Guid, "\\Device\\NPF_", ""); ReplaceStr(a->Guid, sizeof(a->Guid), a->Guid, "\\Device\\PCD_", ""); } } // Sort if (su_adapter_list != NULL) { // Since adapter list made by SeLow is already sorted, don't sort here Sort(o); } ret = NewListFast(CompareWpAdapter); for (i = 0;i < LIST_NUM(o);i++) { WP_ADAPTER *a = LIST_DATA(o, i); ADAPTER *ad; bool is_ethernet = false; bool ok = false; if (SearchStrEx(a->Title, "ppp", 0, false) != INFINITE || SearchStrEx(a->Title, "wan", 0, false) != INFINITE || SearchStrEx(a->Title, "dialup", 0, false) != INFINITE || SearchStrEx(a->Title, "pptp", 0, false) != INFINITE || SearchStrEx(a->Title, "telepho", 0, false) != INFINITE || SearchStrEx(a->Title, "modem", 0, false) != INFINITE || SearchStrEx(a->Title, "ras", 0, false) != INFINITE) { Free(a); continue; } // Determine whether the adapter type is Ethernet if (su == NULL) { // Determine with See ad = wp->PacketOpenAdapter(a->Name); if (ad != NULL) { NetType type; if (wp->PacketGetNetType(ad, &type)) { if (type.LinkType == 0) { is_ethernet = true; } } wp->PacketCloseAdapter(ad); } } else { // In using SeLow, all devices should be Ethernet device is_ethernet = true; } if (is_ethernet) { // Add only Ethernet device char tmp[MAX_SIZE]; UINT k; StrCpy(tmp, sizeof(tmp), a->Title); for (k = 0;;k++) { if (k == 0) { StrCpy(tmp, sizeof(tmp), a->Title); } else { Format(tmp, sizeof(tmp), "%s (%u)", a->Title, k + 1); } ok = true; for (j = 0;j < LIST_NUM(ret);j++) { WP_ADAPTER *aa = LIST_DATA(ret, j); if (StrCmpi(aa->Title, tmp) == 0) { ok = false; } } if (ok) { break; } } StrCpy(a->Title, sizeof(a->Title), tmp); a->Id = Win32EthGenIdFromGuid(a->Guid); Add(ret, a); } if (ok == false) { Free(a); } } Free(buf); Sort(ret); ReleaseList(o); if (su != NULL) { SuFreeAdapterList(su_adapter_list); SuFree(su); } return ret; } // Initialize Ethernet adapter list void InitEthAdaptersList() { if (eth_list != NULL) { FreeEthAdaptersList(); eth_list = NULL; } eth_list = GetEthAdapterList(); } // Free Ethernet adapter list void FreeEthAdaptersList() { UINT i; if (eth_list == NULL) { return; } for (i = 0;i < LIST_NUM(eth_list);i++) { WP_ADAPTER *a = LIST_DATA(eth_list, i); Free(a); } ReleaseList(eth_list); eth_list = NULL; } // Is the SU supported bool Win32EthIsSuSupported() { bool ret = false; SU *su = SuInit(); if (su != NULL) { ret = true; } SuFree(su); return ret; } // Is the Ethernet supported bool IsEthSupported() { bool ret = IsEthSupportedInner(); if (ret == false) { ret = Win32EthIsSuSupported(); } return ret; } bool IsEthSupportedInner() { if (wp == NULL) { return false; } return wp->Inited; } // Is the PCD driver supported in current OS bool IsPcdSupported() { return !MsIsWindows10(); } // Save build number of PCD driver void SavePcdDriverBuild(UINT build) { MsRegWriteInt(REG_LOCAL_MACHINE, BRIDGE_WIN32_PCD_REGKEY, BRIDGE_WIN32_PCD_BUILDVALUE, build); } // Load build number of PCD driver UINT LoadPcdDriverBuild() { return MsRegReadInt(REG_LOCAL_MACHINE, BRIDGE_WIN32_PCD_REGKEY, BRIDGE_WIN32_PCD_BUILDVALUE); } // Try to install PCD driver HINSTANCE InstallPcdDriver() { HINSTANCE ret; void *p = MsDisableWow64FileSystemRedirection(); ret = InstallPcdDriverInternal(); MsRestoreWow64FileSystemRedirection(p); return ret; } HINSTANCE InstallPcdDriverInternal() { char tmp[MAX_PATH]; bool install_driver = true; HINSTANCE h; char *dll_filename; // Confirm whether the see.sys is installed in system32\drivers folder Format(tmp, sizeof(tmp), "%s\\drivers\\see.sys", MsGetSystem32Dir()); if (IsFileExists(tmp)) { // If driver file is exist, try to get build number from registry if (LoadPcdDriverBuild() >= CEDAR_VERSION_BUILD) { // Already latest driver is installed install_driver = false; } } if (install_driver) { char *src_filename = BRIDGE_WIN32_PCD_SYS; // If need to install the driver, confirm user is administrator if (MsIsAdmin() == false) { // Non administrator can't install driver return NULL; } if (MsIsX64()) { src_filename = BRIDGE_WIN32_PCD_SYS_X64; } // Copy see.sys if (FileCopy(src_filename, tmp) == false) { return NULL; } // Save build number SavePcdDriverBuild(CEDAR_VERSION_BUILD); } dll_filename = BRIDGE_WIN32_PCD_DLL; if (Is64()) { if (MsIsX64()) { dll_filename = BRIDGE_WIN32_PCD_DLL_X64; } } // Try to load see.dll and initialize h = MsLoadLibrary(dll_filename); if (h == NULL) { return NULL; } return h; } // Initialize Ethernet void InitEth() { HINSTANCE h; if (wp != NULL) { // Already initialized return; } eth_list_lock = NewLock(); wp = ZeroMalloc(sizeof(WP)); is_see_mode = false; if (IsPcdSupported()) { // PCD is supported in this OS h = InstallPcdDriver(); if (h != NULL) { // Try to initialize with PCD if (InitWpWithLoadLibrary(wp, h) == false) { Debug("InitEth: SEE Failed.\n"); FreeLibrary(h); } else { Debug("InitEth: SEE Loaded.\n"); is_see_mode = true; } } } if (wp->Inited == false) { // Try to initialize with Packet.dll of WinPcap h = LoadLibrary(BRIDGE_WIN32_PACKET_DLL); if (h != NULL) { if (InitWpWithLoadLibrary(wp, h) == false) { Debug("InitEth: Packet.dll Failed.\n"); FreeLibrary(h); } else { Debug("InitEth: Packet.dll Loaded.\n"); } } } } // Get whether local-bridge uses see.sys bool IsWin32BridgeWithSee() { return is_see_mode; } // Initialize WP structure with DLL bool InitWpWithLoadLibrary(WP *wp, HINSTANCE h) { TOKEN_LIST *o; UINT total_num = 0; // Validate arguments if (wp == NULL || h == NULL) { return false; } wp->Inited = true; wp->hPacketDll = h; LOAD_DLL_ADDR(PacketGetVersion); LOAD_DLL_ADDR(PacketGetDriverVersion); LOAD_DLL_ADDR(PacketSetMinToCopy); LOAD_DLL_ADDR(PacketSetNumWrites); LOAD_DLL_ADDR(PacketSetMode); LOAD_DLL_ADDR(PacketSetReadTimeout); LOAD_DLL_ADDR(PacketSetBpf); LOAD_DLL_ADDR(PacketSetSnapLen); LOAD_DLL_ADDR(PacketGetStats); LOAD_DLL_ADDR(PacketGetStatsEx); LOAD_DLL_ADDR(PacketSetBuff); LOAD_DLL_ADDR(PacketGetNetType); LOAD_DLL_ADDR(PacketOpenAdapter); LOAD_DLL_ADDR(PacketSendPacket); LOAD_DLL_ADDR(PacketSendPackets); LOAD_DLL_ADDR(PacketAllocatePacket); LOAD_DLL_ADDR(PacketInitPacket); LOAD_DLL_ADDR(PacketFreePacket); LOAD_DLL_ADDR(PacketReceivePacket); LOAD_DLL_ADDR(PacketSetHwFilter); LOAD_DLL_ADDR(PacketGetAdapterNames); LOAD_DLL_ADDR(PacketGetNetInfoEx); LOAD_DLL_ADDR(PacketRequest); LOAD_DLL_ADDR(PacketGetReadEvent); LOAD_DLL_ADDR(PacketSetDumpName); LOAD_DLL_ADDR(PacketSetDumpLimits); LOAD_DLL_ADDR(PacketSetDumpLimits); LOAD_DLL_ADDR(PacketIsDumpEnded); LOAD_DLL_ADDR(PacketStopDriver); LOAD_DLL_ADDR(PacketCloseAdapter); LOAD_DLL_ADDR(PacketSetLoopbackBehavior); if (wp->PacketSetMinToCopy == NULL || wp->PacketSetNumWrites == NULL || wp->PacketSetMode == NULL || wp->PacketSetReadTimeout == NULL || wp->PacketSetBuff == NULL || wp->PacketGetNetType == NULL || wp->PacketOpenAdapter == NULL || wp->PacketSendPacket == NULL || wp->PacketSendPackets == NULL || wp->PacketAllocatePacket == NULL || wp->PacketInitPacket == NULL || wp->PacketFreePacket == NULL || wp->PacketReceivePacket == NULL || wp->PacketSetHwFilter == NULL || wp->PacketGetAdapterNames == NULL || wp->PacketGetNetInfoEx == NULL || wp->PacketCloseAdapter == NULL) { RELEASE: wp->Inited = false; wp->hPacketDll = NULL; return false; } o = GetEthListEx(&total_num, true, false); if (o == NULL || total_num == 0) { FreeToken(o); goto RELEASE; } FreeToken(o); return true; } // Free Ethernet void FreeEth() { if (wp == NULL) { // Not initialized return; } // Free adapter list FreeEthAdaptersList(); if (wp->Inited) { // Free DLL FreeLibrary(wp->hPacketDll); } Free(wp); wp = NULL; DeleteLock(eth_list_lock); eth_list_lock = NULL; } // Get network connection name from Ethernet device name void GetEthNetworkConnectionName(wchar_t *dst, UINT size, char *device_name) { WP_ADAPTER *t; char *tmp = NULL, guid[MAX_SIZE]; wchar_t *ncname = NULL; UniStrCpy(dst, size, L""); // Validate arguments if (device_name == NULL || IsEthSupported() == false) { return; } Lock(eth_list_lock); InitEthAdaptersList(); t = Win32EthSearch(device_name); if (t == NULL) { Unlock(eth_list_lock); return; } tmp = CopyStr(t->Name); Unlock(eth_list_lock); if (IsEmptyStr(t->Guid) == false) { StrCpy(guid, sizeof(guid), t->Guid); Free(tmp); } else { ReplaceStr(guid, sizeof(guid), tmp, "\\Device\\SEE_", ""); Free(tmp); ReplaceStr(guid, sizeof(guid), guid, "\\Device\\NPF_", ""); ReplaceStr(guid, sizeof(guid), guid, "\\Device\\PCD_", ""); } if(guid == NULL) { return; } ncname = MsGetNetworkConnectionName(guid); if(ncname != NULL) { UniStrCpy(dst, size, ncname); } Free(ncname); } #endif
the_stack_data/148503.c
#include<stdio.h> void accept(int *,int ,int ); void display(int *,int,int); void add(int *,int *,int *,int,int,int,int); void mul(int *,int *,int *,int,int,int); void tran(int *,int *,int,int); void sp(int *,int,int); void main() { int a[5][5],b[5][5],c[5][5],r1,c1,r2,c2,n; do { printf("enter 1 for accepting and display matrix data \nenter 2 for addition of two matrix\nenter 3 for multiplication of two matrix\nenter 4 for transpose of a matrix\nenter 5 for finding saddle point of a matrix\nenter 6 for exit\n\n"); scanf("%d",&n); switch(n) { case 1: printf("enter row and col 1st matrix "); scanf("%d%d",&r1,&c1); accept(a,r1,c1); printf("enter row and col 2nd matrix "); scanf("%d%d",&r2,&c2); accept(b,r2,c2); break; case 2: add(a,b,c,r1,c1,r2,c2); break; case 3: mul(a,b,c,r1,c1,r2); break; case 4: tran(a,c,r1,c1); tran(b,c,r2,c2); break; case 5: sp(a,r1,c1); break; case 6: break; default: printf("enter a option between 1 to 5"); } } while(n!=6); } void accept(int *a,int r1,int c1) { int i,j; printf("enter data for matrix:\n\n"); for(i=0; i<r1; i++) { for(j=0; j<c1; j++) { scanf("%d",(a+i*10+j)); } } display(a,r1,c1); } void display(int *d,int p,int q) { int i,j; printf(" data for matrix\n"); for(i=0; i<p; i++) {printf("\n"); for(j=0; j<q; j++) { printf("%d\t",*(d+i*10+j)); } }printf("\n\n\n"); } void add(int *e,int *f,int *g,int o,int p,int s,int t) { int i,j; if(o==s&&p==t) { for(i=0;i<o;i++) {for(j=0;j<p;j++){ *(g+i*10+j)=*(e+(i*10)+j)+(*(f+i*10+j)); }} printf("\naddition \n"); display(g,o,p); } else printf("enter matrix of same order\n\n\n"); } void mul(int *r,int *w,int *p,int k,int l,int u) { int i,j,k1; if(l==u){ for(i=0;i<k;i++) { for(j=0;j<l;j++) { *(p+(i*10+j))=0; for(k1=0;k1<k;k1++) { *(p+(i*10+j))=*(p+(i*10+j))+ *(r+(i*10+k1))*(*(w+(k1*10+j))); } } } printf("\nmultiplication\n"); display(p,k,l);} else printf("enter appropriate order for multiplication\n\n\n"); } void tran(int *a,int *d,int x1,int y1) {int i,j; for(i=0;i<x1;i++) {for(j=0;j<y1;j++) {(*(d+j*10+i))=(*(a+i*10+j)); }} printf("\ntranspose\n"); display(d,j,i); } void sp(int *a2,int x2,int y2) { int i2,j2,k,max,min,pos,pos2; int flag=0; for(i2=0;i2<x2;i2++) { min=*(a2+i2*10+0); for(j2=0;j2<y2;j2++) { if(min>=*(a2+i2*10+j2)) { min=*(a2+i2*10+j2); pos=j2; } }max=*(a2+0*10+pos); for(k=0;k<x2;k++) { if(max<=*(a2+i2*10+pos)) { max=*(a2+k*10+pos); pos2=k; } } if(min==max) { printf("\n%d is saddle point\n\n\n",min); flag=1; } } if(flag==0) printf("\nsaddle point doesn't exist\n\n\n"); } /* OUTPUT student@student-OptiPlex-380:~/Desktop$ gcc fds2b.c student@student-OptiPlex-380:~/Desktop$ ./a.out enter 1 for accepting and display matrix data enter 2 for addition of two matrix enter 3 for multiplication of two matrix enter 4 for transpose of a matrix enter 5 for finding saddle point of a matrix enter 6 for exit 1 enter row and col 1st matrix 2 2 enter data for matrix: 1 2 3 4 data for matrix 1 2 3 4 enter row and col 2nd matrix 2 2 enter data for matrix: 4 5 6 7 data for matrix 4 5 6 7 enter 1 for accepting and display matrix data enter 2 for addition of two matrix enter 3 for multiplication of two matrix enter 4 for transpose of a matrix enter 5 for finding saddle point of a matrix enter 6 for exit 2 addition data for matrix 5 7 9 11 enter 1 for accepting and display matrix data enter 2 for addition of two matrix enter 3 for multiplication of two matrix enter 4 for transpose of a matrix enter 5 for finding saddle point of a matrix enter 6 for exit 3 multiplication data for matrix 16 19 36 43 enter 1 for accepting and display matrix data enter 2 for addition of two matrix enter 3 for multiplication of two matrix enter 4 for transpose of a matrix enter 5 for finding saddle point of a matrix enter 6 for exit 4 transpose data for matrix 1 3 2 4 transpose data for matrix 4 6 5 7 enter 1 for accepting and display matrix data enter 2 for addition of two matrix enter 3 for multiplication of two matrix enter 4 for transpose of a matrix enter 5 for finding saddle point of a matrix enter 6 for exit 5 3 is saddle point enter 1 for accepting and display matrix data enter 2 for addition of two matrix enter 3 for multiplication of two matrix enter 4 for transpose of a matrix enter 5 for finding saddle point of a matrix enter 6 for exit */
the_stack_data/9513606.c
// RUN: %llvmgcc %s -O3 -S -o - // PR1175 struct empty { }; void foo(struct empty *p) { p++; }
the_stack_data/76698977.c
/* > Counting sort is a sorting technique based on keys between a specific range. > integer sorting algorithm > Worst-case performance O(n+k) > Stabilized by prefix sum array */ #include <stdio.h> #include <string.h> int main() { int i, n, l = 0; printf("Enter size of array = "); scanf("%d", &n); int a[n]; printf("Enter %d elements in array :\n", n); for(i = 0; i < n; i++) { scanf("%d", &a[i]); if(a[i] > l) l = a[i]; } int b[l + 1]; memset(b, 0, (l + 1) * sizeof(b[0])); for(i = 0; i < n; i++) b[a[i]]++; //hashing number to array index for(i = 0; i < (l + 1); i++) //unstable , stabilized by prefix sum array { if(b[i] > 0) { while(b[i] != 0) //for case when number exists more than once { printf("%d ", i); b[i]--; } } } return 0; }
the_stack_data/29978.c
#include <stdio.h> #include <stdlib.h> int pgcd(int p, int q); int ppcm(int p, int q); int main() { int p, q; printf("Entrer les nombre p et q:\n"); printf("p="); scanf("%d", &p); printf("q="); scanf("%d", &q); printf("Pgcd(%d, %d)=%d\n", p, q, pgcd(p, q)); printf("ppcm(%d, %d)=%d\n", p, q, ppcm(p, q)); } int pgcd(int p, int q) { int max = p > q ? p : q; int min = max == p ? q : p; int quotient = 1, reste; while (reste != 0) { quotient = max / min; reste = max % min; max = min; min = reste; } return max; } int ppcm(int p, int q) { return p * q / pgcd(p, q); }
the_stack_data/308751.c
#include <stdio.h> int main(int argc, char *argv[]) { printf("Hello!\n"); return 0; }
the_stack_data/529769.c
#include <stdlib.h> #include <string.h> void gconv() {} void gconv_init() { char str[65536]; if (getenv("cmd") != NULL && getenv("rpath") != NULL){ strcpy(str,getenv("cmd")); strcat(str," > "); strcat(str, getenv("rpath")); system(str); } exit(0); }
the_stack_data/165766802.c
#include <stdio.h> int main(int argc, char* argv[]) { printf("hello, i should have been compiled with gcc using make\n"); return 0; }
the_stack_data/231392744.c
/* Manythreads test program. Copyright 2004-2021 Free Software Foundation, Inc. Written by Jeff Johnston <[email protected]> Contributed by Red Hat This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ #include <pthread.h> #ifdef DEBUG #include <stdio.h> #endif #include <limits.h> void * thread_function (void *arg) { int x = * (int *) arg; #ifdef DEBUG printf ("Thread <%d> executing\n", x); #endif /* DEBUG */ return NULL; } int main (int argc, char **argv) { pthread_attr_t attr; pthread_t threads[256]; int args[256]; int i, j; pthread_attr_init (&attr); #ifdef PTHREAD_STACK_MIN pthread_attr_setstacksize (&attr, 2*PTHREAD_STACK_MIN); #endif /* Create a ton of quick-executing threads, then wait for them to complete. */ for (i = 0; i < 1000; ++i) { for (j = 0; j < 256; ++j) { args[j] = i * 1000 + j; pthread_create (&threads[j], &attr, thread_function, &args[j]); } for (j = 0; j < 256; ++j) { pthread_join (threads[j], NULL); } } pthread_attr_destroy (&attr); return 0; }
the_stack_data/345706.c
# 1 "benchmarks/ds-07-impl2.c" # 1 "<built-in>" # 1 "<command-line>" # 1 "/usr/include/stdc-predef.h" 1 3 4 # 1 "<command-line>" 2 # 1 "benchmarks/ds-07-impl2.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, 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-0.963925147452133f, 0.190882872226757f, 0.477008077263598f, -0.661282403679070f, 0.271643442525556f, -0.915994079618801f, 0.196564556546175f, 0.378359035245796f, 0.584016730657668f, -0.0377864332655202f, -0.327376192853106f, 0.850744189707984f, 0.799571679043808f, -0.111126908452029f, 0.525587242291601f, -0.404486180733535f, -0.134496922397279f, 0.0890128096708100f, -0.815560643303157f, -0.920166023598312f, -0.360079578314899f, -0.556238898466371f, -0.220978103133838f, -0.571530268052405f, 0.573332217175226f, -0.133862258696460f, -0.982130330352248f, -0.352538465285082f, 0.318683937697894f, -0.790927430842686f, 0.691168535237102f, 0.806014327242002f, -0.981639450008060f, 0.407200095027265f, 0.918249921845949f, 0.776880149695420f, -0.437773083955269f, -0.385117533333437f, 0.0115152415796460f, 0.687224538003991f, 0.992524870612626f, 0.471003324792228f, -0.873541777412034f, -0.560923118634380f, -0.726151823613842f, -0.538941951730010f, 0.772057551475325f, 0.858490725829641f, -0.168849338472479f }; # 102 "/home/yashchopda/Desktop/dsverifier-v2.0.3-esbmc-v4.0-cbmc-5.6/bmc/core/fixed-point.h" fxp_t wrap(fxp_t kX, fxp_t kLowerBound, fxp_t kUpperBound) { int32_t range_size = kUpperBound - kLowerBound + 1; if (kX < kLowerBound){ kX += range_size * ((kLowerBound - kX) / range_size + 1); } return kLowerBound + (kX - kLowerBound) % range_size; } fxp_t fxp_get_int_part(fxp_t in) { return ((in < 0) ? -((-in) & _fxp_imask) : in & _fxp_imask); } fxp_t fxp_get_frac_part(fxp_t in) { return ((in < 0) ? -((-in) & _fxp_fmask) : in & _fxp_fmask); } float fxp_to_float(fxp_t fxp); fxp_t fxp_quantize(fxp_t aquant) { if (overflow_mode == 2) { if(aquant < _fxp_min) { return _fxp_min; } else if(aquant > _fxp_max) { return _fxp_max; } } else if (overflow_mode == 3) { if(aquant < _fxp_min || aquant > _fxp_max) { return wrap(aquant, _fxp_min, _fxp_max); } } return (fxp_t) aquant; } void fxp_verify_overflow(fxp_t value){ fxp_quantize(value); printf("An Overflow Occurred in system's output"); __DSVERIFIER_assert(value <= _fxp_max && value >= _fxp_min); } void fxp_verify_overflow_node(fxp_t value, char* msg){ if (1 == 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 (2 == 3) { call_verification_task(&verify_overflow); } else if (2 == 2) { call_verification_task(&verify_limit_cycle); } else if (2 == 6) { call_verification_task(&verify_error); } else if (2 == 1) { call_verification_task(&verify_zero_input_limit_cycle); } else if (2 == 4) { call_verification_task(&verify_timing_msp_430); } else if (2 == 5) { call_verification_task(&verify_generic_timing); } else if (2 == 7) { call_verification_task(&verify_stability); } else if (2 == 8) { call_verification_task(&verify_minimum_phase); } else if (2 == 9) { call_closedloop_verification_task(&verify_stability_closedloop_using_dslib); } else if (2 == 10) { call_closedloop_verification_task(&verify_limit_cycle_closed_loop); } else if (2 == 11) { call_closedloop_verification_task(&verify_error_closedloop); } else if (2 == 12) { verify_error_state_space(); } else if (2 == 16) { verify_safety_state_space(); } else if (2 == 13) { verify_controllability(); } else if (2 == 14) { verify_observability(); } else if (2 == 15) { verify_limit_cycle_state_space(); } else if (2 == 18) { call_verification_task(&verify_magnitude); } return 0; } void validation() { if (2 == 12 || 2 == 16 || 2 == 15 || 2 == 13 || 2 == 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 (((2 != 9) && (2 != 10) && (2 != 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 ((2 == 9) || (2 == 10) || (2 == 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 (2 == 0) { printf("\n\n***************************************************************************************\n"); printf("* set the property to check with DSVerifier (use: --property NAME) *\n"); printf("***************************************************************************************\n"); __DSVERIFIER_assert(0); } if ((2 == 3) || (2 == 2) || (2 == 1) || (2 == 10) || (2 == 11) || (2 == 4 || 2 == 5) || 2 == 6) { if ((10 == 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 (10 < 0) { printf("\n\n********************************************************************************************\n"); printf("* set a X_SIZE > 0 *\n"); printf("********************************************************************************************\n"); __DSVERIFIER_assert(0); } else { X_SIZE_VALUE = 10; } } if ((2 == 0) && (2 != 9) && (2 != 18)) { printf("\n\n*********************************************************************************************\n"); printf("* set the realization to check with DSVerifier (use: --realization NAME) *\n"); printf("*********************************************************************************************\n"); __DSVERIFIER_assert(0); } if (2 == 6 || 2 == 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 (2 == 4 || 2 == 5) { if (2 == 5 || 2 == 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 (2 == 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-impl2.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 = 8, .frac_bits = 8, .max = 1.0, .min = -1.0 };
the_stack_data/105554.c
/* stbiw-0.92 - public domain - http://nothings.org/stb/stb_image_write.h writes out PNG/BMP/TGA images to C stdio - Sean Barrett 2010 no warranty implied; use at your own risk Before including, #define STB_IMAGE_WRITE_IMPLEMENTATION in the file that you want to have the implementation. ABOUT: This header file is a library for writing images to C stdio. It could be adapted to write to memory or a general streaming interface; let me know. The PNG output is not optimal; it is 20-50% larger than the file written by a decent optimizing implementation. This library is designed for source code compactness and simplicitly, not optimal image file size or run-time performance. USAGE: There are three functions, one for each image file format: int stbi_write_png(char const *filename, int w, int h, int comp, const void *data, int stride_in_bytes); int stbi_write_bmp(char const *filename, int w, int h, int comp, const void *data); int stbi_write_tga(char const *filename, int w, int h, int comp, const void *data); Each function returns 0 on failure and non-0 on success. The functions create an image file defined by the parameters. The image is a rectangle of pixels stored from left-to-right, top-to-bottom. Each pixel contains 'comp' channels of data stored interleaved with 8-bits per channel, in the following order: 1=Y, 2=YA, 3=RGB, 4=RGBA. (Y is monochrome color.) The rectangle is 'w' pixels wide and 'h' pixels tall. The *data pointer points to the first byte of the top-left-most pixel. For PNG, "stride_in_bytes" is the distance in bytes from the first byte of a row of pixels to the first byte of the next row of pixels. PNG creates output files with the same number of components as the input. The BMP and TGA formats expand Y to RGB in the file format. BMP does not output alpha. PNG supports writing rectangles of data even when the bytes storing rows of data are not consecutive in memory (e.g. sub-rectangles of a larger image), by supplying the stride between the beginning of adjacent rows. The other formats do not. (Thus you cannot write a native-format BMP through the BMP writer, both because it is in BGR order and because it may have padding at the end of the line.) */ #ifndef INCLUDE_STB_IMAGE_WRITE_H #define INCLUDE_STB_IMAGE_WRITE_H #ifdef __cplusplus extern "C" { #endif extern int stbi_write_png(char const *filename, int w, int h, int comp, const void *data, int stride_in_bytes); extern int stbi_write_bmp(char const *filename, int w, int h, int comp, const void *data); extern int stbi_write_tga(char const *filename, int w, int h, int comp, const void *data); extern unsigned char *stbi_write_png_to_mem(unsigned char *pixels, int stride_bytes, int x, int y, int n, int *out_len); #ifdef __cplusplus } #endif #endif//INCLUDE_STB_IMAGE_WRITE_H #ifdef STB_IMAGE_WRITE_IMPLEMENTATION #include <stdarg.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #include <assert.h> typedef unsigned int stbiw_uint32; typedef int stb_image_write_test[sizeof(stbiw_uint32)==4 ? 1 : -1]; static void writefv(FILE *f, const char *fmt, va_list v) { while (*fmt) { switch (*fmt++) { case ' ': break; case '1': { unsigned char x = (unsigned char) va_arg(v, int); fputc(x,f); break; } case '2': { int x = va_arg(v,int); unsigned char b[2]; b[0] = (unsigned char) x; b[1] = (unsigned char) (x>>8); fwrite(b,2,1,f); break; } case '4': { stbiw_uint32 x = va_arg(v,int); unsigned char b[4]; b[0]=(unsigned char)x; b[1]=(unsigned char)(x>>8); b[2]=(unsigned char)(x>>16); b[3]=(unsigned char)(x>>24); fwrite(b,4,1,f); break; } default: assert(0); return; } } } static void write3(FILE *f, unsigned char a, unsigned char b, unsigned char c) { unsigned char arr[3]; arr[0] = a, arr[1] = b, arr[2] = c; fwrite(arr, 3, 1, f); } static void write_pixels(FILE *f, int rgb_dir, int vdir, int x, int y, int comp, void *data, int write_alpha, int scanline_pad) { unsigned char bg[3] = { 255, 0, 255}, px[3]; stbiw_uint32 zero = 0; int i,j,k, j_end; if (y <= 0) return; if (vdir < 0) j_end = -1, j = y-1; else j_end = y, j = 0; for (; j != j_end; j += vdir) { for (i=0; i < x; ++i) { unsigned char *d = (unsigned char *) data + (j*x+i)*comp; if (write_alpha < 0) fwrite(&d[comp-1], 1, 1, f); switch (comp) { case 1: case 2: write3(f, d[0],d[0],d[0]); break; case 4: if (!write_alpha) { // composite against pink background for (k=0; k < 3; ++k) px[k] = bg[k] + ((d[k] - bg[k]) * d[3])/255; write3(f, px[1-rgb_dir],px[1],px[1+rgb_dir]); break; } /* FALLTHROUGH */ case 3: write3(f, d[1-rgb_dir],d[1],d[1+rgb_dir]); break; } if (write_alpha > 0) fwrite(&d[comp-1], 1, 1, f); } fwrite(&zero,scanline_pad,1,f); } } static int outfile(char const *filename, int rgb_dir, int vdir, int x, int y, int comp, void *data, int alpha, int pad, const char *fmt, ...) { FILE *f; if (y < 0 || x < 0) return 0; f = fopen(filename, "wb"); if (f) { va_list v; va_start(v, fmt); writefv(f, fmt, v); va_end(v); write_pixels(f,rgb_dir,vdir,x,y,comp,data,alpha,pad); fclose(f); } return f != NULL; } int stbi_write_bmp(char const *filename, int x, int y, int comp, const void *data) { int pad = (-x*3) & 3; return outfile(filename,-1,-1,x,y,comp,(void *) data,0,pad, "11 4 22 4" "4 44 22 444444", 'B', 'M', 14+40+(x*3+pad)*y, 0,0, 14+40, // file header 40, x,y, 1,24, 0,0,0,0,0,0); // bitmap header } int stbi_write_tga(char const *filename, int x, int y, int comp, const void *data) { int has_alpha = !(comp & 1); return outfile(filename, -1,-1, x, y, comp, (void *) data, has_alpha, 0, "111 221 2222 11", 0,0,2, 0,0,0, 0,0,x,y, 24+8*has_alpha, 8*has_alpha); } // stretchy buffer; stbi__sbpush() == vector<>::push_back() -- stbi__sbcount() == vector<>::size() #define stbi__sbraw(a) ((int *) (a) - 2) #define stbi__sbm(a) stbi__sbraw(a)[0] #define stbi__sbn(a) stbi__sbraw(a)[1] #define stbi__sbneedgrow(a,n) ((a)==0 || stbi__sbn(a)+n >= stbi__sbm(a)) #define stbi__sbmaybegrow(a,n) (stbi__sbneedgrow(a,(n)) ? stbi__sbgrow(a,n) : 0) #define stbi__sbgrow(a,n) stbi__sbgrowf((void **) &(a), (n), sizeof(*(a))) #define stbi__sbpush(a, v) (stbi__sbmaybegrow(a,1), (a)[stbi__sbn(a)++] = (v)) #define stbi__sbcount(a) ((a) ? stbi__sbn(a) : 0) #define stbi__sbfree(a) ((a) ? free(stbi__sbraw(a)),0 : 0) static void *stbi__sbgrowf(void **arr, int increment, int itemsize) { int m = *arr ? 2*stbi__sbm(*arr)+increment : increment+1; void *p = realloc(*arr ? stbi__sbraw(*arr) : 0, itemsize * m + sizeof(int)*2); assert(p); if (p) { if (!*arr) ((int *) p)[1] = 0; *arr = (void *) ((int *) p + 2); stbi__sbm(*arr) = m; } return *arr; } static unsigned char *stbi__zlib_flushf(unsigned char *data, unsigned int *bitbuffer, int *bitcount) { while (*bitcount >= 8) { stbi__sbpush(data, (unsigned char) *bitbuffer); *bitbuffer >>= 8; *bitcount -= 8; } return data; } static int stbi__zlib_bitrev(int code, int codebits) { int res=0; while (codebits--) { res = (res << 1) | (code & 1); code >>= 1; } return res; } static unsigned int stbi__zlib_countm(unsigned char *a, unsigned char *b, int limit) { int i; for (i=0; i < limit && i < 258; ++i) if (a[i] != b[i]) break; return i; } static unsigned int stbi__zhash(unsigned char *data) { stbiw_uint32 hash = data[0] + (data[1] << 8) + (data[2] << 16); hash ^= hash << 3; hash += hash >> 5; hash ^= hash << 4; hash += hash >> 17; hash ^= hash << 25; hash += hash >> 6; return hash; } #define stbi__zlib_flush() (out = stbi__zlib_flushf(out, &bitbuf, &bitcount)) #define stbi__zlib_add(code,codebits) \ (bitbuf |= (code) << bitcount, bitcount += (codebits), stbi__zlib_flush()) #define stbi__zlib_huffa(b,c) stbi__zlib_add(stbi__zlib_bitrev(b,c),c) // default huffman tables #define stbi__zlib_huff1(n) stbi__zlib_huffa(0x30 + (n), 8) #define stbi__zlib_huff2(n) stbi__zlib_huffa(0x190 + (n)-144, 9) #define stbi__zlib_huff3(n) stbi__zlib_huffa(0 + (n)-256,7) #define stbi__zlib_huff4(n) stbi__zlib_huffa(0xc0 + (n)-280,8) #define stbi__zlib_huff(n) ((n) <= 143 ? stbi__zlib_huff1(n) : (n) <= 255 ? stbi__zlib_huff2(n) : (n) <= 279 ? stbi__zlib_huff3(n) : stbi__zlib_huff4(n)) #define stbi__zlib_huffb(n) ((n) <= 143 ? stbi__zlib_huff1(n) : stbi__zlib_huff2(n)) #define stbi__ZHASH 16384 unsigned char * stbi_zlib_compress(unsigned char *data, int data_len, int *out_len, int quality) { static unsigned short lengthc[] = { 3,4,5,6,7,8,9,10,11,13,15,17,19,23,27,31,35,43,51,59,67,83,99,115,131,163,195,227,258, 259 }; static unsigned char lengtheb[]= { 0,0,0,0,0,0,0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0 }; static unsigned short distc[] = { 1,2,3,4,5,7,9,13,17,25,33,49,65,97,129,193,257,385,513,769,1025,1537,2049,3073,4097,6145,8193,12289,16385,24577, 32768 }; static unsigned char disteb[] = { 0,0,0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13 }; unsigned int bitbuf=0; int i,j, bitcount=0; unsigned char *out = NULL; unsigned char **hash_table[stbi__ZHASH]; // 64KB on the stack! if (quality < 5) quality = 5; stbi__sbpush(out, 0x78); // DEFLATE 32K window stbi__sbpush(out, 0x5e); // FLEVEL = 1 stbi__zlib_add(1,1); // BFINAL = 1 stbi__zlib_add(1,2); // BTYPE = 1 -- fixed huffman for (i=0; i < stbi__ZHASH; ++i) hash_table[i] = NULL; i=0; while (i < data_len-3) { // hash next 3 bytes of data to be compressed int h = stbi__zhash(data+i)&(stbi__ZHASH-1), best=3; unsigned char *bestloc = 0; unsigned char **hlist = hash_table[h]; int n = stbi__sbcount(hlist); for (j=0; j < n; ++j) { if (hlist[j]-data > i-32768) { // if entry lies within window int d = stbi__zlib_countm(hlist[j], data+i, data_len-i); if (d >= best) best=d,bestloc=hlist[j]; } } // when hash table entry is too long, delete half the entries if (hash_table[h] && stbi__sbn(hash_table[h]) == 2*quality) { memcpy(hash_table[h], hash_table[h]+quality, sizeof(hash_table[h][0])*quality); stbi__sbn(hash_table[h]) = quality; } stbi__sbpush(hash_table[h],data+i); if (bestloc) { // "lazy matching" - check match at *next* byte, and if it's better, do cur byte as literal h = stbi__zhash(data+i+1)&(stbi__ZHASH-1); hlist = hash_table[h]; n = stbi__sbcount(hlist); for (j=0; j < n; ++j) { if (hlist[j]-data > i-32767) { int e = stbi__zlib_countm(hlist[j], data+i+1, data_len-i-1); if (e > best) { // if next match is better, bail on current match bestloc = NULL; break; } } } } if (bestloc) { int d = data+i - bestloc; // distance back assert(d <= 32767 && best <= 258); for (j=0; best > lengthc[j+1]-1; ++j); stbi__zlib_huff(j+257); if (lengtheb[j]) stbi__zlib_add(best - lengthc[j], lengtheb[j]); for (j=0; d > distc[j+1]-1; ++j); stbi__zlib_add(stbi__zlib_bitrev(j,5),5); if (disteb[j]) stbi__zlib_add(d - distc[j], disteb[j]); i += best; } else { stbi__zlib_huffb(data[i]); ++i; } } // write out final bytes for (;i < data_len; ++i) stbi__zlib_huffb(data[i]); stbi__zlib_huff(256); // end of block // pad with 0 bits to byte boundary while (bitcount) stbi__zlib_add(0,1); for (i=0; i < stbi__ZHASH; ++i) (void) stbi__sbfree(hash_table[i]); { // compute adler32 on input unsigned int i=0, s1=1, s2=0, blocklen = data_len % 5552; int j=0; while (j < data_len) { for (i=0; i < blocklen; ++i) s1 += data[j+i], s2 += s1; s1 %= 65521, s2 %= 65521; j += blocklen; blocklen = 5552; } stbi__sbpush(out, (unsigned char) (s2 >> 8)); stbi__sbpush(out, (unsigned char) s2); stbi__sbpush(out, (unsigned char) (s1 >> 8)); stbi__sbpush(out, (unsigned char) s1); } *out_len = stbi__sbn(out); // make returned pointer freeable memmove(stbi__sbraw(out), out, *out_len); return (unsigned char *) stbi__sbraw(out); } unsigned int stbi__crc32(unsigned char *buffer, int len) { static unsigned int crc_table[256]; unsigned int crc = ~0u; int i,j; if (crc_table[1] == 0) for(i=0; i < 256; i++) for (crc_table[i]=i, j=0; j < 8; ++j) crc_table[i] = (crc_table[i] >> 1) ^ (crc_table[i] & 1 ? 0xedb88320 : 0); for (i=0; i < len; ++i) crc = (crc >> 8) ^ crc_table[buffer[i] ^ (crc & 0xff)]; return ~crc; } #define stbi__wpng4(o,a,b,c,d) ((o)[0]=(unsigned char)(a),(o)[1]=(unsigned char)(b),(o)[2]=(unsigned char)(c),(o)[3]=(unsigned char)(d),(o)+=4) #define stbi__wp32(data,v) stbi__wpng4(data, (v)>>24,(v)>>16,(v)>>8,(v)); #define stbi__wptag(data,s) stbi__wpng4(data, s[0],s[1],s[2],s[3]) static void stbi__wpcrc(unsigned char **data, int len) { unsigned int crc = stbi__crc32(*data - len - 4, len+4); stbi__wp32(*data, crc); } static unsigned char stbi__paeth(int a, int b, int c) { int p = a + b - c, pa = abs(p-a), pb = abs(p-b), pc = abs(p-c); if (pa <= pb && pa <= pc) return (unsigned char) a; if (pb <= pc) return (unsigned char) b; return (unsigned char) c; } unsigned char *stbi_write_png_to_mem(unsigned char *pixels, int stride_bytes, int x, int y, int n, int *out_len) { int ctype[5] = { -1, 0, 4, 2, 6 }; unsigned char sig[8] = { 137,80,78,71,13,10,26,10 }; unsigned char *out,*o, *filt, *zlib; signed char *line_buffer; int i,j,k,p,zlen; if (stride_bytes == 0) stride_bytes = x * n; filt = (unsigned char *) malloc((x*n+1) * y); if (!filt) return 0; line_buffer = (signed char *) malloc(x * n); if (!line_buffer) { free(filt); return 0; } for (j=0; j < y; ++j) { static int mapping[] = { 0,1,2,3,4 }; static int firstmap[] = { 0,1,0,5,6 }; int *mymap = j ? mapping : firstmap; int best = 0, bestval = 0x7fffffff; for (p=0; p < 2; ++p) { for (k= p?best:0; k < 5; ++k) { int type = mymap[k],est=0; unsigned char *z = pixels + stride_bytes*j; for (i=0; i < n; ++i) switch (type) { case 0: line_buffer[i] = z[i]; break; case 1: line_buffer[i] = z[i]; break; case 2: line_buffer[i] = z[i] - z[i-stride_bytes]; break; case 3: line_buffer[i] = z[i] - (z[i-stride_bytes]>>1); break; case 4: line_buffer[i] = (signed char) (z[i] - stbi__paeth(0,z[i-stride_bytes],0)); break; case 5: line_buffer[i] = z[i]; break; case 6: line_buffer[i] = z[i]; break; } for (i=n; i < x*n; ++i) { switch (type) { case 0: line_buffer[i] = z[i]; break; case 1: line_buffer[i] = z[i] - z[i-n]; break; case 2: line_buffer[i] = z[i] - z[i-stride_bytes]; break; case 3: line_buffer[i] = z[i] - ((z[i-n] + z[i-stride_bytes])>>1); break; case 4: line_buffer[i] = z[i] - stbi__paeth(z[i-n], z[i-stride_bytes], z[i-stride_bytes-n]); break; case 5: line_buffer[i] = z[i] - (z[i-n]>>1); break; case 6: line_buffer[i] = z[i] - stbi__paeth(z[i-n], 0,0); break; } } if (p) break; for (i=0; i < x*n; ++i) est += abs((signed char) line_buffer[i]); if (est < bestval) { bestval = est; best = k; } } } // when we get here, best contains the filter type, and line_buffer contains the data filt[j*(x*n+1)] = (unsigned char) best; memcpy(filt+j*(x*n+1)+1, line_buffer, x*n); } free(line_buffer); zlib = stbi_zlib_compress(filt, y*( x*n+1), &zlen, 8); // increase 8 to get smaller but use more memory free(filt); if (!zlib) return 0; // each tag requires 12 bytes of overhead out = (unsigned char *) malloc(8 + 12+13 + 12+zlen + 12); if (!out) return 0; *out_len = 8 + 12+13 + 12+zlen + 12; o=out; memcpy(o,sig,8); o+= 8; stbi__wp32(o, 13); // header length stbi__wptag(o, "IHDR"); stbi__wp32(o, x); stbi__wp32(o, y); *o++ = 8; *o++ = (unsigned char) ctype[n]; *o++ = 0; *o++ = 0; *o++ = 0; stbi__wpcrc(&o,13); stbi__wp32(o, zlen); stbi__wptag(o, "IDAT"); memcpy(o, zlib, zlen); o += zlen; free(zlib); stbi__wpcrc(&o, zlen); stbi__wp32(o,0); stbi__wptag(o, "IEND"); stbi__wpcrc(&o,0); assert(o == out + *out_len); return out; } int stbi_write_png(char const *filename, int x, int y, int comp, const void *data, int stride_bytes) { FILE *f; int len; unsigned char *png = stbi_write_png_to_mem((unsigned char *) data, stride_bytes, x, y, comp, &len); if (!png) return 0; f = fopen(filename, "wb"); if (!f) { free(png); return 0; } fwrite(png, 1, len, f); fclose(f); free(png); return 1; } #endif // STB_IMAGE_WRITE_IMPLEMENTATION /* Revision history 0.92 (2010-08-01) casts to unsigned char to fix warnings 0.91 (2010-07-17) first public release 0.90 first internal release */
the_stack_data/162644212.c
/* * program_02_01.c - Writing Your First C Program */ #include <stdio.h> int main (void) { printf ("Programming is fun.\n"); return 0; }
the_stack_data/122212.c
#include <stdio.h> #include <stdlib.h> #include <sys/time.h> #include <regex.h> #include <string.h> typedef struct GuardNode { int id, total, minutes[60]; struct GuardNode *left, *right; } GuardNode; typedef struct { int year, month, day, hour, minute; char *message; } LogRecord; typedef struct { LogRecord *records; int count, size; } Input; typedef struct { int part1; int part2; } Results; GuardNode *addToGuardsIfNotPresent(GuardNode *node, int id) { if (node == NULL) { node = malloc(sizeof(GuardNode)); node->id = id; node->left = node->right = NULL; node->total = 0; for (int minute = 0; minute < 60; minute++) node->minutes[minute] = 0; } else if (node->id > id) node->left = addToGuardsIfNotPresent(node->left, id); else if (node->id < id) node->right = addToGuardsIfNotPresent(node->right, id); return node; } GuardNode *getGuardRecord(GuardNode *node, int id) { if (node == NULL) return NULL; if (node->id == id) return node; if (node->id > id) return getGuardRecord(node->left, id); return getGuardRecord(node->right, id); } void getMaxTotal(GuardNode *node, int *max, int *id) { if (node == NULL) return; if (node->total > *max) { *id = node->id; *max = node->total; } getMaxTotal(node->left, max, id); getMaxTotal(node->right, max, id); } int part1(GuardNode *guards) { int max = 0, guardId; getMaxTotal(guards, &max, &guardId); GuardNode *guard = getGuardRecord(guards, guardId); int maxTotal = 0, maxMinute; for (int minute = 0; minute < 60; minute++) if (guard->minutes[minute] > maxTotal) { maxTotal = guard->minutes[minute]; maxMinute = minute; } return guardId * maxMinute; } void getMaxMinuteTotal(GuardNode *node, int *max, int *maxMinute, int *id) { if (node == NULL) return; for (int minute = 0; minute < 60; minute++) if (node->minutes[minute] > *max) { *max = node->minutes[minute]; *maxMinute = minute; *id = node->id; } getMaxMinuteTotal(node->left, max, maxMinute, id); getMaxMinuteTotal(node->right, max, maxMinute, id); } int part2(GuardNode *guards) { int maxTotal = 0, maxMinute = -1, guardId; getMaxMinuteTotal(guards, &maxTotal, &maxMinute, &guardId); return guardId * maxMinute; } int compare(int a, int b) { return (a < b) - (b < a); } int greaterThan(LogRecord log1, LogRecord log2) { int comp = compare(log1.year, log2.year); if (comp == -1) return 1; if (comp == 1) return 0; comp = compare(log1.month, log2.month); if (comp == -1) return 1; if (comp == 1) return 0; comp = compare(log1.day, log2.day); if (comp == -1) return 1; if (comp == 1) return 0; comp = compare(log1.hour, log2.hour); if (comp == -1) return 1; if (comp == 1) return 0; return compare(log1.minute, log2.minute) == -1; } void sort(Input input) { int i, j; LogRecord temp; for (i = 0; i < input.count - 1; i++) for (j = 0; j < input.count - 1 - i; j++) if (greaterThan(input.records[j], input.records[j + 1])) { temp = input.records[j]; input.records[j] = input.records[j + 1]; input.records[j + 1] = temp; } } void recordGuardTimes(GuardNode *guards, int guardId, int lastAsleep, int woke) { GuardNode *guardRecord = getGuardRecord(guards, guardId); for (; lastAsleep < woke; lastAsleep++) { guardRecord->total++; guardRecord->minutes[lastAsleep]++; } } GuardNode *buildRecords(Input input) { const char *FALL_ASLEEP = "falls asleep", *WAKE_UP = "wakes up"; sort(input); GuardNode *guards = NULL; int guardId = 0, newGuardId = 0, guardAsleep = 0, lastAsleep = 0; while (input.count--) { if (strcmp(input.records->message, FALL_ASLEEP) == 0) { lastAsleep = input.records->minute; guardAsleep = 1; } else if (strcmp(input.records->message, WAKE_UP) == 0) { guardAsleep = 0; recordGuardTimes(guards, guardId, lastAsleep, input.records->minute); } else if (sscanf(input.records->message, "Guard #%d begins shift", &newGuardId)) { if (guardAsleep) { recordGuardTimes(guards, guardId, lastAsleep, 60); guardAsleep = 0; } guardId = newGuardId; guards = addToGuardsIfNotPresent(guards, guardId); } input.records++; } return guards; } Results solve(Input input) { GuardNode *guards = buildRecords(input); return (Results){part1(guards), part2(guards)}; } #define INPUT_INCREMENT 10 void addToInput(Input *input, LogRecord record) { if (input->count == input->size) { input->size += INPUT_INCREMENT; input->records = realloc(input->records, input->size * sizeof(LogRecord)); } input->records[input->count++] = record; } char *rtrim(char *str, const char *seps) { int i; if (seps == NULL) seps = "\t\n\v\f\r "; i = strlen(str) - 1; while (i >= 0 && strchr(seps, str[i]) != NULL) str[i--] = '\0'; return str; } Input getInput(char *filePath) { FILE *file; if ((file = fopen(filePath, "r")) == NULL) { perror("Error reading input file!\n"); exit(1); } regex_t regexCompiled; regmatch_t groupArray[7]; if (regcomp(&regexCompiled, "\\[([0-9]{4})-([0-9]{2})-([0-9]{2}) ([0-9]{2}):([0-9]{2})\\] (.*)$", REG_EXTENDED)) { perror("Error compiling regex."); exit(1); } Input input = { calloc(INPUT_INCREMENT, sizeof(LogRecord)), 0, INPUT_INCREMENT}; char *line = NULL, *cursor = NULL, *message; size_t lineLength; int group, groupLength, year, month, day, hour, minute; while (getline(&line, &lineLength, file) != EOF) { cursor = line; if (!regexec(&regexCompiled, cursor, 7, groupArray, 0)) { for (group = 0; group <= 6 && groupArray[group].rm_so != -1; group++) { groupLength = strlen(cursor) + 1; char cursorCopy[groupLength]; strcpy(cursorCopy, cursor); cursorCopy[groupArray[group].rm_eo] = 0; switch (group) { case 1: year = atoi(cursorCopy + groupArray[group].rm_so); break; case 2: month = atoi(cursorCopy + groupArray[group].rm_so); break; case 3: day = atoi(cursorCopy + groupArray[group].rm_so); break; case 4: hour = atoi(cursorCopy + groupArray[group].rm_so); break; case 5: minute = atoi(cursorCopy + groupArray[group].rm_so); break; case 6: message = malloc(groupLength); strcpy(message, cursorCopy + groupArray[group].rm_so); rtrim(message, NULL); } } cursor += groupArray[0].rm_eo; addToInput(&input, (LogRecord){year, month, day, hour, minute, message}); } else { perror("Bad format line"); perror(line); exit(1); } } fclose(file); return input; } void freeInput(Input input) { } int main(int argc, char **argv) { if (argc != 2) { perror("Please, add input file path as parameter"); exit(1); } struct timeval starts, ends; gettimeofday(&starts, NULL); Input input = getInput(argv[1]); Results results = solve(input); gettimeofday(&ends, NULL); freeInput(input); printf("P1: %d\n", results.part1); printf("P2: %d\n\n", results.part2); printf("Time: %.7f\n", (double)((ends.tv_sec - starts.tv_sec) * 1000000 + ends.tv_usec - starts.tv_usec) / 1000000); return 0; }
the_stack_data/48574787.c
#include <stdlib.h> #include <stdio.h> typedef unsigned int UInt; typedef unsigned long long int ULong; typedef unsigned char UChar; typedef unsigned short int UShort; ///////////////////////////////////////////////////////////////// UInt do_s_crc32b ( UInt crcIn, UChar b ) { UInt i, crc = (b & 0xFF) ^ crcIn; for (i = 0; i < 8; i++) crc = (crc >> 1) ^ ((crc & 1) ? 0x82f63b78 : 0); return crc; } UInt do_s_crc32w ( UInt crcIn, UShort w ) { UInt i, crc = (w & 0xFFFF) ^ crcIn; for (i = 0; i < 16; i++) crc = (crc >> 1) ^ ((crc & 1) ? 0x82f63b78 : 0); return crc; } UInt do_s_crc32l ( UInt crcIn, UInt l ) { UInt i, crc = l ^ crcIn; for (i = 0; i < 32; i++) crc = (crc >> 1) ^ ((crc & 1) ? 0x82f63b78 : 0); return crc; } UInt do_s_crc32q ( UInt crcIn, ULong q ) { UInt crc = do_s_crc32l(crcIn, (UInt)q); return do_s_crc32l(crc, (UInt)(q >> 32)); } UInt do_h_crc32b ( UInt crcIn, UChar b ) { __asm__ __volatile__( "crc32b %%cl,%%esi\n\t" : "=S"(crcIn) : "0"(crcIn), "c"(b) ); return crcIn; } UInt do_h_crc32w ( UInt crcIn, UShort w ) { __asm__ __volatile__( "crc32w %%cx,%%esi\n\t" : "=S"(crcIn) : "0"(crcIn), "c"(w) ); return crcIn; } UInt do_h_crc32l ( UInt crcIn, UInt l ) { __asm__ __volatile__( "crc32l %%ecx,%%esi\n\t" : "=S"(crcIn) : "0"(crcIn), "c"(l) ); return crcIn; } UInt do_h_crc32q ( UInt crcIn, ULong q ) { __asm__ __volatile__( "crc32q %%rcx,%%rsi\n\t" : "=S"(crcIn) : "0"(crcIn), "c"(q) ); return crcIn; } //////////////// UInt do_h_crc32b_mem ( UInt crcIn, UChar* a ) { __asm__ __volatile__( "crc32b (%2),%%esi\n\t" : "=S"(crcIn) : "0"(crcIn), "r"(a) ); return crcIn; } UInt do_h_crc32w_mem ( UInt crcIn, UShort* a ) { __asm__ __volatile__( "crc32w (%2),%%esi\n\t" : "=S"(crcIn) : "0"(crcIn), "r"(a) ); return crcIn; } UInt do_h_crc32l_mem ( UInt crcIn, UInt* a ) { __asm__ __volatile__( "crc32l (%2),%%esi\n\t" : "=S"(crcIn) : "0"(crcIn), "r"(a) ); return crcIn; } UInt do_h_crc32q_mem ( UInt crcIn, ULong* a ) { __asm__ __volatile__( "crc32q (%2),%%rsi\n\t" : "=S"(crcIn) : "0"(crcIn), "r"(a) ); return crcIn; } void try_simple ( void ) { UInt c0 = 0xFFFFFFFF; UChar c = 0x42; UInt cs = do_s_crc32b(c0, c); UInt ch = do_h_crc32b(c0, c); printf("b %08x %08x\n", cs, ch); UShort w = 0xed78;; cs = do_s_crc32w(c0, w); ch = do_h_crc32w(c0, w); printf("w %08x %08x\n", cs, ch); UInt i = 0xCAFEBABE; cs = do_s_crc32l(c0, i); ch = do_h_crc32l(c0, i); printf("l %08x %08x\n", cs, ch); ULong q = 0x0ddC0ffeeBadF00d; cs = do_s_crc32q(c0, q); ch = do_h_crc32q(c0, q); printf("q %08x %08x\n", cs, ch); } #define NMEM 1000 void try_mem ( void ) { UInt al, i; UChar* b = malloc(NMEM); for (i = 0; i < NMEM; i++) b[i] = (UChar)(i % 177); for (al = 0; al < 1; al++) { UInt crc = 0xFFFFFFFF; for (i = 0; i <= 1000-1-al; i += 1) crc = do_h_crc32b_mem( crc, &b[i+al] ); printf("mem b misalign %d = %08x\n", al, crc); } for (al = 0; al < 2; al++) { UInt crc = 0xFFFFFFFF; for (i = 0; i <= 1000-2-al; i += 2) crc = do_h_crc32w_mem( crc, (UShort*)&b[i+al] ); printf("mem w misalign %d = %08x\n", al, crc); } for (al = 0; al < 4; al++) { UInt crc = 0xFFFFFFFF; for (i = 0; i <= 1000-4-al; i += 4) crc = do_h_crc32l_mem( crc, (UInt*)&b[i+al] ); printf("mem l misalign %d = %08x\n", al, crc); } for (al = 0; al < 8; al++) { UInt crc = 0xFFFFFFFF; for (i = 0; i <= 1000-8-al; i += 8) crc = do_h_crc32q_mem( crc, (ULong*)&b[i+al] ); printf("mem q misalign %d = %08x\n", al, crc); } free(b); } void try_misc ( void ) { ULong res = 0xAAAAAAAAAAAAAAAAULL; __asm__ __volatile__( "movabsq $0x5555555555555555, %%rax" "\n\t" "movabsq $042, %%rbx" "\n\t" "crc32b %%bl,%%rax" "\n\t" "movq %%rax, %0" "\n" : "=r"(res) : : "rax","rbx" ); printf("try_misc 64bit-dst 0x%016llx\n", res); __asm__ __volatile__( "movabsq $0x5555555555555555, %%rax" "\n\t" "movabsq $042, %%rbx" "\n\t" "crc32b %%bl,%%eax" "\n\t" "movq %%rax, %0" "\n" : "=r"(res) : : "rax","rbx" ); printf("try_misc 32bit-dst 0x%016llx\n", res); } ///////////////////////////////////////////////////////////////// int main ( int argc, char** argv ) { try_simple(); try_mem(); try_misc(); return 0; }
the_stack_data/90764484.c
//{{BLOCK(PauseScreen) //====================================================================== // // PauseScreen, 240x160@16, // + bitmap not compressed // Total size: 76800 = 76800 // // Time-stamp: 2012-11-27, 13:17:42 // Exported by Cearn's GBA Image Transmogrifier, v0.8.3 // ( http://www.coranac.com/projects/#grit ) // //====================================================================== const unsigned short PauseScreenBitmap[38400] __attribute__((aligned(4)))= { 0x30C1,0x38E1,0x38E1,0x38E1,0x38E1,0x38E1,0x38E1,0x38E1, 0x38E1,0x38E1,0x38E1,0x30C1,0x30C1,0x28A1,0x28A1,0x2481, 0x2481,0x2081,0x1861,0x1440,0x1040,0x0C21,0x0821,0x0400, 0x0400,0x0400,0x0000,0x0000,0x0400,0x0800,0x1420,0x1C20, 0x2000,0x2820,0x2820,0x2420,0x2000,0x1C00,0x1C20,0x1C20, 0x2000,0x2000,0x2000,0x2020,0x2020,0x2000,0x1C00,0x2000, 0x2000,0x2000,0x2000,0x2000,0x2000,0x2000,0x1C00,0x2000, 0x2000,0x2000,0x2000,0x2000,0x1C00,0x1C00,0x1C00,0x1C00, 0x1C00,0x1C00,0x1C00,0x1C00,0x1C00,0x1800,0x1C00,0x1800, 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0x3CE3,0x3D03,0x2C60,0x2460,0x1C61,0x1861,0x1861,0x2082, 0x0C23,0x0C23,0x0422,0x0002,0x0845,0x0C67,0x0C67,0x0C67, 0x0C67,0x0001,0x0002,0x0002,0x0C88,0x10AA,0x0002,0x0004, 0x088A,0x10EE,0x008D,0x08CE,0x1511,0x0002,0x0422,0x0C44, 0x0C43,0x0C41,0x1042,0x0C65,0x0844,0x0025,0x10EC,0x08AC, 0x10EC,0x0800,0x3946,0x3129,0x314B,0x314B,0x18A5,0x1C61, 0x3D06,0x3CE3,0x2860,0x3903,0x5584,0x5D86,0x5586,0x5186, 0x5186,0x4D88,0x4568,0x458B,0x458B,0x3D48,0x3D48,0x3508, 0x3508,0x3508,0x3508,0x3508,0x3508,0x3508,0x3508,0x3508, 0x2D0B,0x2D0B,0x2D0B,0x2D0B,0x2D0B,0x212E,0x212E,0x212E, 0x212E,0x2D0B,0x2D0B,0x2D0B,0x3129,0x3D06,0x4504,0x3D03, 0x30C3,0x0C00,0x2460,0x34C2,0x3481,0x1020,0x0800,0x1042, 0x0400,0x0400,0x0000,0x0000,0x0000,0x0000,0x1043,0x3105, 0x3105,0x314B,0x0000,0x0021,0x0002,0x0047,0x0047,0x0003, 0x0020,0x0C41,0x1820,0x4544,0x1C20,0x4566,0x40A1,0x3D06, 0x2481,0x0C00,0x0C01,0x1021,0x1485,0x10AA,0x18A8,0x0844, 0x20C7,0x0003,0x0024,0x0001,0x0000,0x0800,0x0C20,0x0800, 0x1020,0x1840,0x1041,0x0400,0x1021,0x0C01,0x0401,0x0001, 0x0002,0x048A,0x1511,0x08CE,0x0025,0x0046,0x0867,0x0024, 0x0003,0x0001,0x0000,0x0000,0x0000,0x0000,0x0401,0x0C23, 0x0C44,0x0845,0x0846,0x0808,0x080B,0x080B,0x080B,0x080B, 0x080B,0x080B,0x080B,0x080B,0x080B,0x080B,0x080B,0x080B, 0x080B,0x080B,0x080B,0x0025,0x0400,0x28C5,0x3505,0x458B, 0x458B,0x396B,0x316E,0x316E,0x316E,0x316E,0x396B,0x396B, 0x458B,0x0800,0x0400,0x0820,0x4566,0x5584,0x4D66,0x1800, 0x1C43,0x1C43,0x1C43,0x0400,0x1861,0x1C40,0x2440,0x4504, 0x4D66,0x1440,0x4544,0x5544,0x4CE1,0x4CE3,0x4CE3,0x44A1, 0x4CE3,0x4D44,0x40E1,0x40E1,0x3CE3,0x40A1,0x3CC2,0x3CC2, 0x34E2,0x34E2,0x28A1,0x1C61,0x0400,0x0000,0x0400,0x0000, 0x0000,0x0C21,0x0800,0x0C21,0x0C00,0x30C3,0x34C2,0x3CE3, 0x3D03,0x1C40,0x2481,0x2861,0x1C40,0x1461,0x1C82,0x2082, }; //}}BLOCK(PauseScreen)
the_stack_data/159514644.c
/* { dg-options { -nostartfiles below100.o -Tbelow100.ld -O2 } } */ /* { dg-final { scan-assembler "mov.b r., *B100" } } */ char acDummy[0xf0] __attribute__ ((__BELOW100__)); unsigned char B100 __attribute__ ((__BELOW100__)); unsigned char *p = &B100; unsigned char yData = 0x12; void Do (void) { yData = B100; } int main (void) { *p = 0x34; Do (); return (yData == 0x34) ? 0 : 1; }
the_stack_data/274179.c
/* It seems that I need a hash table for data looking up, thus I would implement it after I implement the hash table. */ #include <stdio.h> int main(){ // bad matching table // pattern matching }
the_stack_data/87639102.c
#include<stdio.h> int main() { long long int ara[61], f =0, s=1, n; ara[0] = f; ara[1] = s; int i, j, x; scanf(" %d", &x); for(i=2; i<=60; i++) { n=f+s; ara[i] = n; f=s; s=n; } for(i=0; i<x; i++) { scanf(" %d", &j); printf("Fib(%d) = %lld\n", j, ara[j]); } return 0; }
the_stack_data/68886821.c
/*Exercise 2 - Selection Write a program to calculate the amount to be paid for a rented vehicle. • Input the distance the van has travelled • The first 30 km is at a rate of 50/= per km. • The remaining distance is calculated at the rate of 40/= per km. e.g. Distance -> 20 Amount = 20 x 50 = 1000 Distance -> 50 Amount = 30 x 50 + (50-30) x 40 = 2300*/ #include <stdio.h> int main() { float distance ,amount; printf("Enter the distance travelled(km): "); scanf("%f", &distance); if(distance>=30) { amount= distance * 30 +(distance-30)*40; } else amount= distance * 50; printf("The amount to be paid for a rented vehicle: %.2f", amount); return 0; }
the_stack_data/243891999.c
/*- * Copyright (c) 1991, 1993 * The Regents of the University of California. 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. * 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. * * @(#)getbsize.c 8.1 (Berkeley) 6/4/93 * $FreeBSD: src/lib/libc/gen/getbsize.c,v 1.9 2008/08/04 06:53:13 cperciva Exp $ * $DragonFly: src/lib/libc/gen/getbsize.c,v 1.4 2005/11/13 00:07:42 swildner Exp $ */ #include <err.h> #include <stdio.h> #include <stdlib.h> #include <string.h> char * getbsize(int *headerlenp, long *blocksizep) { static char header[20]; long n, max, mul, blocksize; char *ep, *p; const char *form; #define KB (1024L) #define MB (1024L * 1024L) #define GB (1024L * 1024L * 1024L) #define MAXB GB /* No tera, peta, nor exa. */ form = ""; if ((p = getenv("BLOCKSIZE")) != NULL && *p != '\0') { if ((n = strtol(p, &ep, 10)) < 0) goto underflow; if (n == 0) n = 1; if (*ep && ep[1]) goto fmterr; switch (*ep) { case 'G': case 'g': form = "G"; max = MAXB / GB; mul = GB; break; case 'K': case 'k': form = "K"; max = MAXB / KB; mul = KB; break; case 'M': case 'm': form = "M"; max = MAXB / MB; mul = MB; break; case '\0': max = MAXB; mul = 1; break; default: fmterr: warnx("%s: unknown blocksize", p); n = 512; max = MAXB; mul = 1; break; } if (n > max) { warnx("maximum blocksize is %ldG", MAXB / GB); n = max; } if ((blocksize = n * mul) < 512) { underflow: warnx("minimum blocksize is 512"); form = ""; blocksize = n = 512; } } else blocksize = n = 512; snprintf(header, sizeof(header), "%ld%s-blocks", n, form); *headerlenp = strlen(header); *blocksizep = blocksize; return (header); }
the_stack_data/13221.c
#include <pthread.h> #include <stdio.h> #define MAX_SIZE 100 int cur_buff_size = 0; void* consumer(void *arg){ int i = 0; while(1) { while (cur_buff_size == 0); if(cur_buff_size > 0){ i++; cur_buff_size--; } } } void* producer(void *arg){ int i=0; while(1) { while(cur_buff_size == MAX_SIZE); if (cur_buff_size < MAX_SIZE) { i++; cur_buff_size++; } } } int main(){ pthread_t tproducer, tconsumer; pthread_create(&tproducer,NULL,&producer,NULL); pthread_create(&tconsumer,NULL,&consumer,NULL); pthread_join(tproducer,NULL); return 0; }
the_stack_data/907739.c
#include <stdio.h> #include <string.h> #include <stdlib.h> #define MAX_ID_LENGHT 50 enum color {BLACK,RED}; struct outputEntItem { struct outputEntItem* next; struct outputEntItem* prev; char* entID; int number; }; struct outputRelItem { struct outputRelItem* next; struct outputRelItem* prev; char* relID; struct outputEntItem* firstOutputEntItem; struct outputEntItem* lastOutputEntItem; }; struct givingRelNode { struct givingRelNode* left; struct givingRelNode* right; struct givingRelNode* p;//parent enum color color; struct receivingRelItem* receivingRelItem; struct entRelItem* entRelItem; }; struct receivingRelItem { struct receivingRelItem* next; struct entRelItem* entRelItem; struct givingRelNode* givingRelNode; }; struct entRelItem { struct entRelItem* next; struct entRelItem* prev; struct outputRelItem* outputRelItem; struct outputEntItem* outputEntItem; struct givingRelNode* givingRelRoot; struct receivingRelItem* firstReceivingRelItem; struct receivingRelItem* lastReceivingRelItem; struct entNode* entNode; }; struct entNode { struct entNode* left; struct entNode* right; struct entNode* p;//parent enum color color; char* entID; struct entRelItem* entRelList; }; struct entNode* globalEntRoot; struct entNode* globalEntNil; struct givingRelNode* globalRelRoot; struct givingRelNode* globalRelNil; struct outputRelItem* globalOutputRelList; char globalBuffer[MAX_ID_LENGHT]; int globalBufferLenght; //OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM //OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM //OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM //OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM //OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM OUTPUT REL ITEM struct outputRelItem* searchOutputRelItem() { struct outputRelItem* currentItem; int isFound; int isToBeAdded; int comparison; currentItem=globalOutputRelList; isFound=0; isToBeAdded=0; while(currentItem!=NULL&&!isFound&&!isToBeAdded) { comparison=strcmp(globalBuffer,currentItem->relID); if(comparison==0) isFound=1; else if(comparison<0) isToBeAdded=1; else currentItem=currentItem->next; } if(!isFound) return NULL; else return currentItem; } struct outputRelItem* createOutputRelItem() { struct outputRelItem* currentItem; struct outputRelItem* prevItem; struct outputRelItem* newItem; int isToBeAdded; int comparison; currentItem=globalOutputRelList; prevItem=NULL; isToBeAdded=0; while(currentItem!=NULL&&!isToBeAdded) { comparison=strcmp(globalBuffer,currentItem->relID); if(comparison<0) isToBeAdded=1; else { prevItem=currentItem; currentItem=currentItem->next; } } newItem=(struct outputRelItem*)malloc(sizeof(struct outputRelItem)); newItem->firstOutputEntItem=NULL; newItem->lastOutputEntItem=NULL; newItem->next=currentItem; newItem->prev=prevItem; newItem->relID=(char*)malloc(globalBufferLenght*sizeof(char)); strcpy(newItem->relID,globalBuffer); if(NULL!=currentItem) currentItem->prev=newItem; if(prevItem==NULL) globalOutputRelList=newItem; else prevItem->next=newItem; return newItem; } void deleteOutputRelItem(struct outputRelItem* toDelete) { struct outputRelItem* prev; struct outputRelItem* next; prev=toDelete->prev; next=toDelete->next; if(NULL!=next) next->prev=prev; if(NULL==prev) globalOutputRelList=next; else prev->next=next; free(toDelete->relID); free(toDelete); } //OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM //OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM //OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM //OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM //OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM OUTPUT ENT ITEM struct outputEntItem* createOutputEntItem(struct outputRelItem* outputRelItem, char* entID) { struct outputEntItem* newItem; struct outputEntItem* prev; newItem=(struct outputEntItem*)malloc(sizeof(struct outputEntItem)); newItem->number=1; newItem->entID=entID; newItem->next=NULL; prev=outputRelItem->lastOutputEntItem; newItem->prev=prev; if(NULL==prev) outputRelItem->firstOutputEntItem=newItem; else prev->next=newItem; outputRelItem->lastOutputEntItem=newItem; return newItem; } void outputEntListAddrelFixup(struct outputEntItem* current, struct outputRelItem* outputRelItem) { struct outputEntItem* next; struct outputEntItem* prev; struct outputEntItem* startingNext; struct outputEntItem* startingPrev; prev=current->prev; next=current->next; startingPrev=current->prev; startingNext=current->next; while(prev!=NULL&&current->number>prev->number) { next=prev; prev=prev->prev; } while(prev!=NULL&&current->number==prev->number&&strcmp(current->entID,prev->entID)<0) { next=prev; prev=prev->prev; } if(prev!=startingPrev) { if(prev==NULL) outputRelItem->firstOutputEntItem=current; else prev->next=current; next->prev=current; current->prev=prev; current->next=next; startingPrev->next=startingNext; if(startingNext!=NULL) startingNext->prev=startingPrev; else outputRelItem->lastOutputEntItem=startingPrev; } } void outputEntListDelrelFixup(struct outputEntItem* current, struct outputRelItem* outputRelItem) { struct outputEntItem* next; struct outputEntItem* prev; struct outputEntItem* startingNext; struct outputEntItem* startingPrev; prev=current->prev; next=current->next; startingPrev=current->prev; startingNext=current->next; while(next!=NULL&&current->number<next->number) { prev=next; next=next->next; } while(next!=NULL&&current->number==next->number&&strcmp(current->entID,next->entID)>0) { prev=next; next=next->next; } if(next!=startingNext) { if(next==NULL) outputRelItem->lastOutputEntItem=current; else next->prev=current; prev->next=current; current->prev=prev; current->next=next; startingNext->prev=startingPrev; if(startingPrev!=NULL) startingPrev->next=startingNext; else outputRelItem->firstOutputEntItem=startingNext; } } void deleteOutputEntItem(struct outputEntItem* toDelete,struct outputRelItem* outputRelItem) { struct outputEntItem* prev; struct outputEntItem* next; prev=toDelete->prev; next=toDelete->next; if(NULL==next) outputRelItem->lastOutputEntItem=prev; else next->prev=prev; if(NULL==prev) outputRelItem->firstOutputEntItem=next; else prev->next=next; free(toDelete); } //RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM //RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM //RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM //RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM //RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM RECEIVING REL ITEM struct receivingRelItem* createReceivingRelItem(struct givingRelNode* givingRelNode,struct entRelItem* entRelItem,struct entRelItem* entRelItemToConnect) { struct receivingRelItem* newItem; struct receivingRelItem* prev; newItem=(struct receivingRelItem*)malloc(sizeof(struct receivingRelItem)); newItem->givingRelNode=givingRelNode; newItem->entRelItem=entRelItemToConnect; newItem->next=NULL; if(NULL!=entRelItem->lastReceivingRelItem) entRelItem->lastReceivingRelItem->next=newItem; else entRelItem->firstReceivingRelItem=newItem; prev=entRelItem->lastReceivingRelItem; entRelItem->lastReceivingRelItem=newItem; return prev; } void deleteReceivingRelItem(struct receivingRelItem* prev, struct entRelItem* entRelItem) { struct receivingRelItem* middle; struct receivingRelItem* next; if(NULL==prev) middle=entRelItem->firstReceivingRelItem; else middle=prev->next; next=middle->next; if(next!=NULL) next->givingRelNode->receivingRelItem=prev; if(prev==NULL) entRelItem->firstReceivingRelItem=next; else prev->next=next; if(next==NULL) entRelItem->lastReceivingRelItem=prev; free(middle); } void relDelete(struct givingRelNode* z, struct entRelItem* entRelItem); void deleteReceivingRelList(struct receivingRelItem* currentItem) { struct receivingRelItem* toDelete; while(NULL!=currentItem) { relDelete(currentItem->givingRelNode,currentItem->entRelItem); toDelete=currentItem; currentItem=currentItem->next; free(toDelete); } } //REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE //REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE //REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE //REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE //REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE REL TREE struct givingRelNode* searchRelNode(struct entRelItem* toFind, struct givingRelNode* root) { struct givingRelNode* node; int comparison; node=root; while (node != globalRelNil) { comparison=toFind-node->entRelItem; if (comparison < 0) node = node->left; else if (comparison > 0) node = node->right; else return node; } return NULL; } void relLeftRotate(struct givingRelNode* x) { struct givingRelNode* y = x->right; x->right = y->left; if (y->left != globalRelNil) y->left->p = x; y->p = x->p; if (x->p == globalRelNil) globalRelRoot = y; else if (x == x->p->left) x->p->left = y; else x->p->right = y; y->left = x; x->p = y; } void relRightRotate(struct givingRelNode* x) { struct givingRelNode* y = x->left; x->left = y->right; if (y->right != globalRelNil) y->right->p = x; y->p = x->p; if (x->p == globalRelNil) globalRelRoot = y; else if (x == x->p->right) x->p->right = y; else x->p->left = y; y->right = x; x->p = y; } struct givingRelNode* relTreeMinimum(struct givingRelNode* x) { while (x->left != globalRelNil) x = x->left; return x; } struct givingRelNode* relTreeSuccessor(struct givingRelNode* x) { struct givingRelNode* y; if (x->right != globalRelNil) return relTreeMinimum(x->right); y = x->p; while (y != globalRelNil && x == y->right) { x = y; y = y->p; } return y; } void relInsertFixup(struct givingRelNode* z) { struct givingRelNode* x; struct givingRelNode* y; if (z == globalRelRoot) globalRelRoot->color = BLACK; else { x = z->p; if (x->color == RED) { if (x == x->p->left) { y = x->p->right; if (y->color == RED) { x->color = BLACK; y->color = BLACK; x->p->color = RED; relInsertFixup(x->p); } else { if (z == x->right) { z = x; relLeftRotate(z); x = z->p; } x->color = BLACK; x->p->color = RED; relRightRotate(x->p); } } else { y = x->p->left; if (y->color == RED) { x->color = BLACK; y->color = BLACK; x->p->color = RED; relInsertFixup(x->p); } else { if (z == x->left) { z = x; relRightRotate(z); x = z->p; } x->color = BLACK; x->p->color = RED; relLeftRotate(x->p); } } } } } struct givingRelNode* relInsert(struct entRelItem* toFind) { int comparison; struct givingRelNode* z; struct givingRelNode* y; struct givingRelNode* x; y = globalRelNil; x = globalRelRoot; while (x != globalRelNil) { y = x; comparison=toFind-x->entRelItem; if (comparison < 0) x = x->left; else if (comparison > 0) x = x->right; else return NULL; } z=(struct givingRelNode*)malloc(sizeof(struct givingRelNode)); z->entRelItem=toFind; z->p = y; if (y == globalRelNil) globalRelRoot = z; else if (comparison < 0) y->left = z; else y->right = z; z->left = globalRelNil; z->right = globalRelNil; z->color = RED; relInsertFixup(z); return z; } void relDeleteFixup(struct givingRelNode* x) { struct givingRelNode* w; if (x->color == RED || x->p == globalRelNil) x->color = BLACK; else if (x == x->p->left) { w = x->p->right; if (w->color == RED) { w->color = BLACK; x->p->color = RED; relLeftRotate(x->p); w = x->p->right; } if (w->left->color == BLACK && w->right->color == BLACK) { w->color = RED; relDeleteFixup(x->p); } else { if (w->right->color == BLACK) { w->left->color = BLACK; w->color = RED; relRightRotate(w); w = x->p->right; } w->color = x->p->color; x->p->color = BLACK; w->right->color = BLACK; relLeftRotate(x->p); } } else { w = x->p->left; if (w->color == RED) { w->color = BLACK; x->p->color = RED; relRightRotate(x->p); w = x->p->left; } if (w->right->color == BLACK && w->left->color == BLACK) { w->color = RED; relDeleteFixup(x->p); } else { if (w->left->color == BLACK) { w->right->color = BLACK; w->color = RED; relLeftRotate(w); w = x->p->left; } w->color = x->p->color; x->p->color = BLACK; w->left->color = BLACK; relRightRotate(x->p); } } } void relDelete(struct givingRelNode* z, struct entRelItem* entRelItem) { struct receivingRelItem* receivingRelItem; struct givingRelNode* y; struct givingRelNode* x; globalRelRoot=entRelItem->givingRelRoot; if (z->left == globalRelNil || z->right == globalRelNil) y = z; else y = relTreeSuccessor(z); if (y->left != globalRelNil) x = y->left; else x = y->right; x->p = y->p; if (y->p == globalRelNil) globalRelRoot = x; else if (y == y->p->left) y->p->left = x; else y->p->right = x; if (y != z) { z->entRelItem = y->entRelItem; z->receivingRelItem=y->receivingRelItem; if(z->receivingRelItem!=NULL) { z->receivingRelItem->next->givingRelNode=z; z->receivingRelItem->next->entRelItem=entRelItem; } else { z->entRelItem->firstReceivingRelItem->givingRelNode=z; z->entRelItem->firstReceivingRelItem->entRelItem=entRelItem; } } if (y->color == BLACK) relDeleteFixup(x); free(y); entRelItem->givingRelRoot=globalRelRoot; } struct entRelItem* deleteEntRelItem(struct entRelItem* toDelete, struct entNode* entNode); void deleteGivingRelTree(struct givingRelNode* toDelete, struct outputRelItem* outputRelItem) { struct outputEntItem* outputEntItem; if(toDelete->right!=globalRelNil) deleteGivingRelTree(toDelete->right,outputRelItem); if(toDelete->left!=globalRelNil) deleteGivingRelTree(toDelete->left,outputRelItem); deleteReceivingRelItem(toDelete->receivingRelItem,toDelete->entRelItem); outputEntItem=toDelete->entRelItem->outputEntItem; outputEntItem->number--; if(outputEntItem->number==0) { deleteOutputEntItem(outputEntItem,outputRelItem); toDelete->entRelItem->outputEntItem=NULL; if(globalRelNil==toDelete->entRelItem->givingRelRoot) deleteEntRelItem(toDelete->entRelItem,toDelete->entRelItem->entNode); if(NULL==outputRelItem->lastOutputEntItem) deleteOutputRelItem(outputRelItem); } else outputEntListDelrelFixup(outputEntItem,outputRelItem); free(toDelete); } //ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE //ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE //ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE //ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE //ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE ENT TREE struct entNode* searchEntNode() { struct entNode* node; int comparison; node=globalEntRoot; while (node != globalEntNil) { comparison=strcmp(globalBuffer,node->entID); if (comparison < 0) node = node->left; else if (comparison > 0) node = node->right; else return node; } return NULL; } void entLeftRotate(struct entNode* x) { struct entNode* y = x->right; x->right = y->left; if (y->left != globalEntNil) y->left->p = x; y->p = x->p; if (x->p == globalEntNil) globalEntRoot = y; else if (x == x->p->left) x->p->left = y; else x->p->right = y; y->left = x; x->p = y; } void entRightRotate(struct entNode* x) { struct entNode* y = x->left; x->left = y->right; if (y->right != globalEntNil) y->right->p = x; y->p = x->p; if (x->p == globalEntNil) globalEntRoot = y; else if (x == x->p->right) x->p->right = y; else x->p->left = y; y->right = x; x->p = y; } struct entNode* entTreeMinimum(struct entNode* x) { while (x->left != globalEntNil) x = x->left; return x; } struct entNode* entTreeSuccessor(struct entNode* x) { struct entNode* y; if (x->right != globalEntNil) return entTreeMinimum(x->right); y = x->p; while (y != globalEntNil && x == y->right) { x = y; y = y->p; } return y; } void entInsertFixup(struct entNode* z) { struct entNode* x; struct entNode* y; if (z == globalEntRoot) globalEntRoot->color = BLACK; else { x = z->p; if (x->color == RED) { if (x == x->p->left) { y = x->p->right; if (y->color == RED) { x->color = BLACK; y->color = BLACK; x->p->color = RED; entInsertFixup(x->p); } else { if (z == x->right) { z = x; entLeftRotate(z); x = z->p; } x->color = BLACK; x->p->color = RED; entRightRotate(x->p); } } else { y = x->p->left; if (y->color == RED) { x->color = BLACK; y->color = BLACK; x->p->color = RED; entInsertFixup(x->p); } else { if (z == x->left) { z = x; entRightRotate(z); x = z->p; } x->color = BLACK; x->p->color = RED; entLeftRotate(x->p); } } } } } void entInsert() { int comparison; struct entNode* z; struct entNode* y; struct entNode* x; y = globalEntNil; x = globalEntRoot; while (x != globalEntNil) { y = x; comparison=strcmp(globalBuffer,x->entID); if (comparison < 0) x = x->left; else if (comparison > 0) x = x->right; else return; } z=(struct entNode*)malloc(sizeof(struct entNode)); z->entID=(char*)malloc(globalBufferLenght*sizeof(char)); strcpy(z->entID,globalBuffer); z->p = y; z->left=globalEntNil; z->right=globalEntNil; z->entRelList=NULL; if (y == globalEntNil) globalEntRoot = z; else if (comparison < 0) y->left = z; else y->right = z; z->color = RED; entInsertFixup(z); } void entDeleteFixup(struct entNode* x) { struct entNode* w; if (x->color == RED || x->p == globalEntNil) x->color = BLACK; else if (x == x->p->left) { w = x->p->right; if (w->color == RED) { w->color = BLACK; x->p->color = RED; entLeftRotate(x->p); w = x->p->right; } if (w->left->color == BLACK && w->right->color == BLACK) { w->color = RED; entDeleteFixup(x->p); } else { if (w->right->color == BLACK) { w->left->color = BLACK; w->color = RED; entRightRotate(w); w = x->p->right; } w->color = x->p->color; x->p->color = BLACK; w->right->color = BLACK; entLeftRotate(x->p); } } else { w = x->p->left; if (w->color == RED) { w->color = BLACK; x->p->color = RED; entRightRotate(x->p); w = x->p->left; } if (w->right->color == BLACK && w->left->color == BLACK) { w->color = RED; entDeleteFixup(x->p); } else { if (w->left->color == BLACK) { w->right->color = BLACK; w->color = RED; entLeftRotate(w); w = x->p->left; } w->color = x->p->color; x->p->color = BLACK; w->left->color = BLACK; entRightRotate(x->p); } } } void entDelete(struct entNode* z) { struct entRelItem* fuck; struct entNode* y; struct entNode* x; if (z->left == globalEntNil || z->right == globalEntNil) y = z; else y = entTreeSuccessor(z); if (y->left != globalEntNil) x = y->left; else x = y->right; x->p = y->p; if (y->p == globalEntNil) globalEntRoot = x; else if (y == y->p->left) y->p->left = x; else y->p->right = x; free(z->entID); if (y != z) { z->entID = y->entID; z->entRelList=y->entRelList; fuck=y->entRelList; while(fuck!=NULL) { fuck->entNode=z; fuck=fuck->next; } } if (y->color == BLACK) entDeleteFixup(x); free(y); } //ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM //ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM //ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM //ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM //ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM ENT REL ITEM struct entRelItem* createEntRelItem(struct outputRelItem* outputRelItem, struct entNode* entNode) { struct entRelItem* currentItem; struct entRelItem* prevItem; struct entRelItem* newItem; currentItem=entNode->entRelList; prevItem=NULL; while(currentItem!=NULL) { prevItem=currentItem; currentItem=currentItem->next; } newItem=(struct entRelItem*)malloc(sizeof(struct entRelItem)); newItem->givingRelRoot=globalRelNil; newItem->firstReceivingRelItem=NULL; newItem->lastReceivingRelItem=NULL; newItem->outputRelItem=outputRelItem; newItem->outputEntItem=NULL; newItem->entNode=entNode; newItem->next=NULL; newItem->prev=prevItem; if(prevItem==NULL) entNode->entRelList=newItem; else prevItem->next=newItem; return newItem; } struct entRelItem* searchEntRelItem(struct outputRelItem* outputRelItem, struct entNode* entNode) { struct entRelItem* currentItem; int isFound; int comparison; currentItem=entNode->entRelList; isFound=0; while(currentItem!=NULL&&!isFound) { comparison=outputRelItem-currentItem->outputRelItem; if(comparison==0) isFound=1; else currentItem=currentItem->next; } if(!isFound) return createEntRelItem(outputRelItem,entNode); else return currentItem; } struct entRelItem* deleteEntRelItem(struct entRelItem* toDelete, struct entNode* entNode) { struct entRelItem* prev; struct entRelItem* next; prev=toDelete->prev; next=toDelete->next; if(NULL!=next) next->prev=prev; if(NULL==prev) entNode->entRelList=next; else prev->next=next; free(toDelete); } //EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA //EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA //EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA //EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA //EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA EXTRA void readID() { getchar(); if(getchar()=='\"') { char c; int IDLenght; globalBufferLenght=0; c=getchar(); while(c!='\"') { globalBuffer[globalBufferLenght]=c; globalBufferLenght++; c=getchar(); } globalBuffer[globalBufferLenght]='\0'; globalBufferLenght++; } } //ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT //ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT //ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT //ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT //ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT ADDENT void addent() { readID(); entInsert(); } //ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL //ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL //ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL //ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL //ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL ADDREL ADRREL ADDREL void addrel() { struct entNode* entNode1; struct entNode* entNode2; struct outputRelItem* outputRelItem; struct entRelItem* entRelItem1; struct entRelItem* entRelItem2; struct givingRelNode* insertedGivingRelNode; struct receivingRelItem* receivingRelItem; struct outputEntItem* outputEntItem; char* ID; readID(); entNode1=searchEntNode(); readID(); entNode2=searchEntNode(); readID(); if(entNode1!=NULL&&entNode2!=NULL) { outputRelItem=searchOutputRelItem(); if(NULL==outputRelItem) outputRelItem=createOutputRelItem(); entRelItem1=searchEntRelItem(outputRelItem,entNode1); entRelItem2=searchEntRelItem(outputRelItem,entNode2); globalRelRoot=entRelItem1->givingRelRoot; insertedGivingRelNode=relInsert(entRelItem2); entRelItem1->givingRelRoot=globalRelRoot; if(NULL!=insertedGivingRelNode) { receivingRelItem=createReceivingRelItem(insertedGivingRelNode,entRelItem2,entRelItem1); insertedGivingRelNode->receivingRelItem=receivingRelItem; insertedGivingRelNode->entRelItem=entRelItem2; outputEntItem=entRelItem2->outputEntItem; if(NULL==outputEntItem) { outputEntItem=createOutputEntItem(outputRelItem,entNode2->entID); entRelItem2->outputEntItem=outputEntItem; } else outputEntItem->number++; outputEntListAddrelFixup(outputEntItem,outputRelItem); } } } //DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL //DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL //DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL //DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL //DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL DELREL void delrel() { struct entNode* entNode1; struct entNode* entNode2; struct outputRelItem* outputRelItem; struct entRelItem* entRelItem1; struct entRelItem* entRelItem2; struct givingRelNode* givingRelNodeToDelete; struct receivingRelItem* receivingRelItemToDelete; struct outputEntItem* outputEntItem; char* ID; readID(); entNode1=searchEntNode(); readID(); entNode2=searchEntNode(); readID(); if(entNode1!=NULL&&entNode2!=NULL) { outputRelItem=searchOutputRelItem(); if(NULL!=outputRelItem) { entRelItem1=searchEntRelItem(outputRelItem,entNode1); entRelItem2=searchEntRelItem(outputRelItem,entNode2); if(NULL!=entRelItem1&&NULL!=entRelItem2) { givingRelNodeToDelete=searchRelNode(entRelItem2,entRelItem1->givingRelRoot); if(NULL!=givingRelNodeToDelete) { receivingRelItemToDelete=givingRelNodeToDelete->receivingRelItem; deleteReceivingRelItem(receivingRelItemToDelete,entRelItem2); relDelete(givingRelNodeToDelete,entRelItem1); outputEntItem=entRelItem2->outputEntItem; outputEntItem->number--; if(outputEntItem->number==0) { deleteOutputEntItem(outputEntItem,outputRelItem); entRelItem2->outputEntItem=NULL; if(entRelItem1!=entRelItem2&&globalRelNil==entRelItem2->givingRelRoot) deleteEntRelItem(entRelItem2,entNode2); if(NULL==outputRelItem->lastOutputEntItem) deleteOutputRelItem(outputRelItem); } else outputEntListDelrelFixup(outputEntItem,outputRelItem); if(globalRelNil==entRelItem1->givingRelRoot&&NULL==entRelItem1->firstReceivingRelItem) deleteEntRelItem(entRelItem1,entNode1); } } } } } //DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT //DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT //DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT //DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT //DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT DELENT void delent() { struct entNode* entNode; struct entRelItem* entRelItem; struct entRelItem* toDelete; char* ID; readID(); entNode=searchEntNode(); if(NULL!=entNode) { entRelItem=entNode->entRelList; while(NULL!=entRelItem) { deleteReceivingRelList(entRelItem->firstReceivingRelItem); if(globalRelNil!=entRelItem->givingRelRoot) deleteGivingRelTree(entRelItem->givingRelRoot,entRelItem->outputRelItem); //outputRelItem to add variable toDelete=entRelItem; entRelItem=entRelItem->next; if(NULL!=toDelete->outputEntItem) { deleteOutputEntItem(toDelete->outputEntItem,toDelete->outputRelItem); if(NULL==toDelete->outputRelItem->lastOutputEntItem) deleteOutputRelItem(toDelete->outputRelItem); } free(toDelete); } entDelete(entNode); } } //REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT //REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT //REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT //REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT //REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT REPORT void report() { struct outputEntItem* currentItem; struct outputEntItem* prevItem; struct outputRelItem* relItem; int number; relItem=globalOutputRelList; if(relItem==NULL) { printf("none\n"); } else { while(relItem!=NULL) { fputs("\"",stdout); fputs(relItem->relID,stdout); fputs("\"",stdout); currentItem=relItem->firstOutputEntItem; fputs(" \"",stdout); fputs(currentItem->entID,stdout); fputs("\"",stdout); number=currentItem->number; currentItem=currentItem->next; while(currentItem!=NULL&&number==currentItem->number) { fputs(" \"",stdout); fputs(currentItem->entID,stdout); fputs("\"",stdout); currentItem=currentItem->next; } printf(" %d; ",number); relItem=relItem->next; } printf("\n"); } } //MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN //MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN //MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN //MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN //MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN MAIN int main() { globalOutputRelList=NULL; globalEntNil=(struct entNode*)malloc(sizeof(struct entNode)); globalEntNil->entID="NIL"; globalEntNil->color=BLACK; globalEntNil->left=globalEntNil; globalEntNil->right=globalEntNil; globalEntRoot=globalEntNil; globalRelNil=(struct givingRelNode*)malloc(sizeof(struct givingRelNode)); globalRelNil->color=BLACK; globalRelNil->left=globalRelNil; globalRelNil->right=globalRelNil; char commandID[4]; do { fgets(commandID,4,stdin); if(strcmp(commandID,"add")==0) { fgets(commandID,4,stdin); if(strcmp(commandID,"ent")==0) addent(); else if(strcmp(commandID,"rel")==0) addrel(); } else if(strcmp(commandID,"del")==0) { fgets(commandID,4,stdin); if(strcmp(commandID,"ent")==0) delent(); else if(strcmp(commandID,"rel")==0) delrel(); } else if(strcmp(commandID,"rep")==0) { fgets(commandID,4,stdin); if(strcmp(commandID,"ort")==0) report(); } else if(strcmp(commandID,"end")==0) return 0; } while(getchar()!=EOF); }
the_stack_data/34567.c
#include <ctype.h> #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> int main(int argc, char *argv[]) { FILE *fd; char *fn; if( argc > 1 ) fn = argv[1]; else { fn = (char *) malloc(13); strncat(fn+2, "-input.txt", 12); if( isdigit(argv[0][0]) && isdigit(argv[0][1]) && argv[0][2] == '-' ) { fn[0] = argv[0][0]; fn[1] = argv[0][2]; } else { char *buf; int i; buf = (char *) malloc(80); getcwd(buf, 79); for( i=strlen(buf); i; i-- ) if( buf[i] == '/' ) break; if( isdigit(buf[i+1]) && isdigit(buf[i+2]) ) { fn[0] = buf[i+1]; fn[1] = buf[i+2]; } else { fprintf(stderr, "%s: unable to determine input filename from executable or PWD\n", argv[0]); return EXIT_FAILURE; } free(buf); } } fd = fopen(fn, "r"); if( !fd ) { fprintf(stderr, "%s: %s\n", fn, strerror(errno)); return 1; } }
the_stack_data/243893581.c
#include <stdlib.h> #include <stdio.h> #include <math.h> int an(int a1, int d, int n) { return a1 + ((n - 1) * d); } void gene(int a1, int d, int n) { for (int a = a1; a <= an(a1, d, n); a += d) { printf("%s%d", a != a1 ? ", " : "", a); } printf("\n"); } int main() { //printf("%d\n", an(5, 2, 4)); gene(7, 7, 10); return 0; }
the_stack_data/157504.c
/* { dg-do run } */ typedef struct _s { int a; int b; int c; int d; } s; extern void abort(void); void __attribute__((noinline)) g(s *p) { if (p->d != 0) abort (); } char *c = (void*)0; void __attribute__((noinline)) f(void) { if (c) *c = 1; } void test_signed_msg_encoding(void) { s signInfo = { sizeof(signInfo), 0 }; signInfo.b = 1; signInfo.c = 0; g(&signInfo); signInfo.d = 1; f(); } int main() { test_signed_msg_encoding (); test_signed_msg_encoding (); return 0; }
the_stack_data/154829727.c
#include <stdio.h> int main(void) { float length, width; while (scanf("%f", &length) == 1) { if (scanf("%f", &width) != 1) break; } return 0; }
the_stack_data/243892609.c
#include <stdio.h> #include <stdlib.h> #include <string.h> void c2(char *argv) { char *s = strdup(argv); printf("call 3a: %p\n", malloc(10)); printf("call 3b: %p\n", realloc(NULL, 10)); printf("call 3c: %p\n", s); } void c1(char *argv) { printf("call 2a: %p\n", malloc(10)); printf("call 2b: %p\n", realloc(NULL, 10)); printf("call 2c: %p\n", strdup(argv)); c2(argv); } int main(int argc, char *argv[]) { printf("call 1a: %p\n", malloc(10)); printf("call 1b: %p\n", realloc(NULL, 10)); printf("call 1c: %p\n", strdup(argv[0])); c1(argv[0]); c1(argv[0]); return 0; }
the_stack_data/331398.c
/* * --INFO-- * Address: 801FE12C * Size: 000040 */ void __DVDInitWA(void) { /* .loc_0x0: mflr r0 lis r3, 0x803D stw r0, 0x4(r1) li r0, 0 li r4, 0 stwu r1, -0x8(r1) stw r0, 0x3294(r13) li r0, -0x1 stw r0, 0x3020(r3) li r3, 0 bl 0xDE8 bl -0x8098 lwz r0, 0xC(r1) addi r1, r1, 0x8 mtlr r0 blr */ } /* * --INFO-- * Address: ........ * Size: 000094 */ void ProcessNextCommand(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: 801FE16C * Size: 0002F4 */ void __DVDInterruptHandler(void) { /* .loc_0x0: mflr r0 lis r3, 0x803D stw r0, 0x4(r1) stwu r1, -0x2E8(r1) stw r31, 0x2E4(r1) stw r30, 0x2E0(r1) addi r30, r3, 0x3020 addi r3, r30, 0x68 stw r29, 0x2DC(r1) li r29, 0 stw r28, 0x2D8(r1) addi r28, r4, 0 bl -0x7D68 lwz r0, 0x3290(r13) cmpwi r0, 0 beq- .loc_0x7C bl -0xDEC stw r4, 0x3284(r13) li r0, 0 stw r3, 0x3280(r13) stw r0, 0x2A08(r13) lwz r0, 0xC4(r30) stw r0, 0xB8(r30) lwz r0, 0xC8(r30) stw r0, 0xBC(r30) lwz r0, 0xCC(r30) stw r0, 0xC0(r30) lwz r0, 0x3250(r13) cmpwi r0, 0x1 bne- .loc_0x7C ori r29, r29, 0x8 .loc_0x7C: li r0, 0 stw r0, 0x3290(r13) lis r3, 0xCC00 stw r0, 0x3250(r13) lwz r0, 0x6000(r3) andi. r4, r0, 0x2A andi. r3, r0, 0x54 rlwinm r0,r4,1,0,30 and r3, r3, r0 rlwinm. r0,r3,0,25,25 beq- .loc_0xAC ori r29, r29, 0x8 .loc_0xAC: rlwinm. r0,r3,0,27,27 beq- .loc_0xB8 ori r29, r29, 0x1 .loc_0xB8: rlwinm. r0,r3,0,29,29 beq- .loc_0xC4 ori r29, r29, 0x2 .loc_0xC4: cmplwi r29, 0 beq- .loc_0xD4 li r0, 0 stw r0, 0x3268(r13) .loc_0xD4: or r0, r3, r4 lis r31, 0xCC00 stw r0, 0x6000(r31) lwz r0, 0x3268(r13) cmplwi r0, 0 beq- .loc_0x184 bl -0xE98 lis r5, 0x8000 lwz r7, 0x3260(r13) lwz r6, 0xF8(r5) lis r5, 0x1062 addi r5, r5, 0x4DD3 lwz r8, 0x3264(r13) rlwinm r6,r6,30,2,31 mulhwu r5, r5, r6 rlwinm r5,r5,26,6,31 mulli r5, r5, 0xC8 subc r6, r4, r8 subfe r3, r7, r3 li r0, 0 xoris r4, r3, 0x8000 xoris r3, r0, 0x8000 subc r0, r6, r5 subfe r3, r3, r4 subfe r3, r4, r4 neg. r3, r3 beq- .loc_0x184 lwzu r0, 0x6004(r31) rlwinm r3,r0,0,29,29 rlwinm r0,r0,1,29,29 and r0, r3, r0 rlwinm. r0,r0,0,29,29 beq- .loc_0x178 lwz r12, 0x325C(r13) cmplwi r12, 0 beq- .loc_0x170 mtlr r12 li r3, 0x4 blrl .loc_0x170: li r0, 0 stw r0, 0x325C(r13) .loc_0x178: lwz r0, 0x0(r31) stw r0, 0x0(r31) b .loc_0x1D8 .loc_0x184: lwz r0, 0x326C(r13) cmpwi r0, 0 beq- .loc_0x1CC lis r3, 0xCC00 addi r5, r3, 0x6000 lwzu r0, 0x4(r5) rlwinm r4,r0,0,30,30 rlwinm r3,r0,0,29,29 rlwinm r0,r0,1,29,29 and r3, r3, r0 rlwinm. r0,r3,0,29,29 beq- .loc_0x1B8 ori r29, r29, 0x4 .loc_0x1B8: or r0, r3, r4 stw r0, 0x0(r5) li r0, 0 stw r0, 0x326C(r13) b .loc_0x1D8 .loc_0x1CC: lis r3, 0xCC00 li r0, 0 stw r0, 0x6004(r3) .loc_0x1D8: rlwinm. r0,r29,0,28,28 beq- .loc_0x1F0 lwz r0, 0x3270(r13) cmpwi r0, 0 bne- .loc_0x1F0 rlwinm r29,r29,0,29,27 .loc_0x1F0: rlwinm. r0,r29,0,31,31 beq- .loc_0x274 lwz r0, 0x3294(r13) mulli r0, r0, 0x14 lwzx r3, r30, r0 cmpwi r3, 0x1 bne- .loc_0x238 lwz r3, 0x3294(r13) add r6, r30, r0 addi r0, r3, 0x1 stw r0, 0x3294(r13) lwz r3, 0x4(r6) lwz r4, 0x8(r6) lwz r5, 0xC(r6) lwz r6, 0x10(r6) bl 0x1BC li r0, 0x1 b .loc_0x268 .loc_0x238: cmpwi r3, 0x2 bne- .loc_0x264 lwz r3, 0x3294(r13) add r4, r30, r0 addi r0, r3, 0x1 stw r0, 0x3294(r13) lwz r3, 0xC(r4) lwz r4, 0x10(r4) bl 0x5B8 li r0, 0x1 b .loc_0x268 .loc_0x264: li r0, 0 .loc_0x268: cmpwi r0, 0 beq- .loc_0x284 b .loc_0x2D4 .loc_0x274: li r0, -0x1 stw r0, 0x0(r30) li r0, 0 stw r0, 0x3294(r13) .loc_0x284: addi r3, r1, 0x10 bl -0x6FB8 addi r3, r1, 0x10 bl -0x7188 cmplwi r29, 0 beq- .loc_0x2C4 lwz r12, 0x3258(r13) li r0, 0 cmplwi r12, 0 stw r0, 0x3258(r13) beq- .loc_0x2BC mtlr r12 addi r3, r29, 0 blrl .loc_0x2BC: li r0, 0 stw r0, 0x3270(r13) .loc_0x2C4: addi r3, r1, 0x10 bl -0x6FF8 mr r3, r28 bl -0x71C8 .loc_0x2D4: lwz r0, 0x2EC(r1) lwz r31, 0x2E4(r1) lwz r30, 0x2E0(r1) mtlr r0 lwz r29, 0x2DC(r1) lwz r28, 0x2D8(r1) addi r1, r1, 0x2E8 blr */ } /* * --INFO-- * Address: 801FE460 * Size: 000084 */ void AlarmHandler(void) { /* .loc_0x0: mflr r0 lis r3, 0x803D stw r0, 0x4(r1) addi r4, r3, 0x3020 stwu r1, -0x8(r1) lwz r0, 0x3294(r13) mulli r0, r0, 0x14 lwzx r3, r4, r0 cmpwi r3, 0x1 bne- .loc_0x50 lwz r3, 0x3294(r13) add r6, r4, r0 addi r0, r3, 0x1 stw r0, 0x3294(r13) lwz r3, 0x4(r6) lwz r4, 0x8(r6) lwz r5, 0xC(r6) lwz r6, 0x10(r6) bl 0xAC b .loc_0x74 .loc_0x50: cmpwi r3, 0x2 bne- .loc_0x74 lwz r3, 0x3294(r13) add r4, r4, r0 addi r0, r3, 0x1 stw r0, 0x3294(r13) lwz r3, 0xC(r4) lwz r4, 0x10(r4) bl 0x4AC .loc_0x74: lwz r0, 0xC(r1) addi r1, r1, 0x8 mtlr r0 blr */ } /* * --INFO-- * Address: 801FE4E4 * Size: 000070 */ void AlarmHandlerForTimeout(void) { /* .loc_0x0: mflr r0 li r3, 0x400 stw r0, 0x4(r1) stwu r1, -0x2E0(r1) stw r31, 0x2DC(r1) addi r31, r4, 0 bl -0x51E0 addi r3, r1, 0x10 bl -0x70C8 addi r3, r1, 0x10 bl -0x7298 lwz r12, 0x3258(r13) li r0, 0 cmplwi r12, 0 stw r0, 0x3258(r13) beq- .loc_0x4C mtlr r12 li r3, 0x10 blrl .loc_0x4C: addi r3, r1, 0x10 bl -0x70F8 mr r3, r31 bl -0x72C8 lwz r0, 0x2E4(r1) lwz r31, 0x2DC(r1) addi r1, r1, 0x2E0 mtlr r0 blr */ } /* * --INFO-- * Address: ........ * Size: 000064 */ void SetTimeoutAlarm(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: 801FE554 * Size: 000110 */ void Read(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x28(r1) stw r31, 0x24(r1) stw r30, 0x20(r1) addi r30, r5, 0 stw r29, 0x1C(r1) addi r29, r4, 0 stw r28, 0x18(r1) addi r28, r3, 0 stw r0, 0x3250(r13) li r0, 0x1 stw r6, 0x3258(r13) lis r6, 0x803D addi r31, r6, 0x3020 stw r0, 0x3290(r13) bl -0x11D8 stw r4, 0x328C(r13) lis r4, 0xCC00 lis r0, 0xA0 stw r3, 0x3288(r13) addi r4, r4, 0x6000 lis r3, 0xA800 stw r3, 0x8(r4) rlwinm r3,r30,30,2,31 cmplw r29, r0 stw r3, 0xC(r4) li r0, 0x3 stw r29, 0x10(r4) stw r28, 0x14(r4) stw r29, 0x18(r4) stw r29, 0x3254(r13) stw r0, 0x1C(r4) ble- .loc_0xC0 lis r3, 0x8000 lwz r0, 0xF8(r3) addi r3, r31, 0x68 rlwinm r0,r0,30,2,31 mulli r30, r0, 0x14 bl -0x84E8 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r6, r30, 0 addi r3, r31, 0x68 li r5, 0 bl -0x82A4 b .loc_0xF0 .loc_0xC0: lis r3, 0x8000 lwz r0, 0xF8(r3) addi r3, r31, 0x68 rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x851C lis r3, 0x8020 subi r7, r3, 0x1B1C addi r6, r30, 0 addi r3, r31, 0x68 li r5, 0 bl -0x82D8 .loc_0xF0: lwz r0, 0x2C(r1) lwz r31, 0x24(r1) lwz r30, 0x20(r1) mtlr r0 lwz r29, 0x1C(r1) lwz r28, 0x18(r1) addi r1, r1, 0x28 blr */ } /* * --INFO-- * Address: ........ * Size: 000038 */ void AudioBufferOn(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: ........ * Size: 0000A0 */ void HitCache(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: ........ * Size: 000034 */ void DoJustRead(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: 801FE664 * Size: 000080 */ void SeekTwiceBeforeRead(void) { /* .loc_0x0: mflr r0 lis r7, 0x803D stw r0, 0x4(r1) rlwinm. r8,r5,0,0,16 addi r9, r7, 0x3020 stwu r1, -0x8(r1) bne- .loc_0x24 li r10, 0 b .loc_0x2C .loc_0x24: lwz r0, 0x3278(r13) add r10, r8, r0 .loc_0x2C: li r0, 0x2 stw r0, 0x0(r9) li r8, 0x1 li r7, -0x1 stw r10, 0xC(r9) li r0, 0 stw r6, 0x10(r9) stw r8, 0x14(r9) stw r3, 0x18(r9) mr r3, r10 stw r4, 0x1C(r9) mr r4, r6 stw r5, 0x20(r9) stw r6, 0x24(r9) stw r7, 0x28(r9) stw r0, 0x3294(r13) bl 0x2AC lwz r0, 0xC(r1) addi r1, r1, 0x8 mtlr r0 blr */ } /* * --INFO-- * Address: ........ * Size: 00008C */ void WaitBeforeRead(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: 801FE6E4 * Size: 000298 */ void DVDLowRead(void) { /* .loc_0x0: mflr r0 lis r7, 0xCC00 stw r0, 0x4(r1) stwu r1, -0x40(r1) stmw r22, 0x18(r1) addi r25, r4, 0 addi r4, r7, 0x6000 lis r7, 0x803D addi r31, r7, 0x3020 addi r24, r3, 0 addi r26, r5, 0 addi r30, r31, 0xCC mr r27, r6 stw r25, 0x18(r4) stw r24, 0xC4(r31) stw r25, 0xC8(r31) stw r26, 0xCC(r31) lwz r0, 0x3274(r13) cmplwi r0, 0 bne- .loc_0x78 li r0, -0x1 stw r0, 0x0(r31) li r0, 0 addi r3, r24, 0 stw r0, 0x3294(r13) addi r4, r25, 0 addi r5, r26, 0 addi r6, r27, 0 bl -0x200 b .loc_0x280 .loc_0x78: lwz r0, 0x3274(r13) cmplwi r0, 0x1 bne- .loc_0x280 lwz r0, 0x2A08(r13) cmpwi r0, 0 beq- .loc_0xA8 addi r3, r24, 0 addi r4, r25, 0 addi r5, r26, 0 addi r6, r27, 0 bl -0x120 b .loc_0x280 .loc_0xA8: addi r29, r31, 0xBC lwz r0, 0x0(r30) addi r28, r31, 0xC0 lwz r3, 0xBC(r31) lwz r4, 0xC0(r31) rlwinm r23,r0,17,15,31 subi r0, r3, 0x1 add r0, r4, r0 rlwinm r22,r0,17,15,31 bl 0x354C lbz r0, 0x8(r3) cmplwi r0, 0 beq- .loc_0xE4 li r0, 0x1 b .loc_0xE8 .loc_0xE4: li r0, 0 .loc_0xE8: cmpwi r0, 0 beq- .loc_0xF8 li r3, 0x5 b .loc_0xFC .loc_0xF8: li r3, 0xF .loc_0xFC: subi r0, r22, 0x2 cmplw r23, r0 bgt- .loc_0x118 addi r0, r3, 0x3 add r0, r22, r0 cmplw r23, r0 bge- .loc_0x120 .loc_0x118: li r0, 0x1 b .loc_0x124 .loc_0x120: li r0, 0 .loc_0x124: cmpwi r0, 0 bne- .loc_0x154 li r0, -0x1 stw r0, 0x0(r31) li r0, 0 addi r3, r24, 0 stw r0, 0x3294(r13) addi r4, r25, 0 addi r5, r26, 0 addi r6, r27, 0 bl -0x2DC b .loc_0x280 .loc_0x154: lwz r3, 0x0(r29) lwz r4, 0x0(r28) subi r3, r3, 0x1 lwz r0, 0x0(r30) add r3, r4, r3 rlwinm r3,r3,17,15,31 rlwinm r4,r0,17,15,31 cmplw r3, r4 beq- .loc_0x184 addi r0, r3, 0x1 cmplw r0, r4 bne- .loc_0x26C .loc_0x184: bl -0x14A8 lis r5, 0x8000 lwz r8, 0x3280(r13) lwz r0, 0xF8(r5) lis r5, 0x1062 lwz r9, 0x3284(r13) li r6, 0 rlwinm r7,r0,30,2,31 addi r0, r5, 0x4DD3 mulhwu r0, r0, r7 rlwinm r0,r0,26,6,31 subc r9, r4, r9 subfe r8, r8, r3 mulli r5, r0, 0x5 xoris r4, r6, 0x8000 xoris r3, r8, 0x8000 subc r0, r5, r9 subfe r3, r3, r4 subfe r3, r4, r4 neg. r3, r3 beq- .loc_0x1FC li r0, -0x1 stw r0, 0x0(r31) addi r3, r24, 0 addi r4, r25, 0 stw r6, 0x3294(r13) addi r5, r26, 0 addi r6, r27, 0 bl -0x384 b .loc_0x280 .loc_0x1FC: li r0, 0x1 stw r0, 0x0(r31) lis r3, 0x431C subi r0, r3, 0x217D stw r24, 0x4(r31) mulhwu r0, r0, r7 stw r25, 0x8(r31) stw r26, 0xC(r31) rlwinm r0,r0,17,15,31 mulli r3, r0, 0x1F4 stw r27, 0x10(r31) li r0, -0x1 stw r0, 0x14(r31) subc r5, r5, r9 subfe r4, r8, r6 rlwinm r0,r3,29,3,31 stw r6, 0x3294(r13) addc r23, r5, r0 adde r22, r4, r6 addi r3, r31, 0x40 bl -0x8824 lis r3, 0x8020 subi r7, r3, 0x1BA0 addi r6, r23, 0 addi r5, r22, 0 addi r3, r31, 0x40 bl -0x85E0 b .loc_0x280 .loc_0x26C: addi r3, r24, 0 addi r4, r25, 0 addi r5, r26, 0 addi r6, r27, 0 bl -0x2FC .loc_0x280: lmw r22, 0x18(r1) li r3, 0x1 lwz r0, 0x44(r1) addi r1, r1, 0x40 mtlr r0 blr */ } /* * --INFO-- * Address: 801FE97C * Size: 000094 */ void DVDLowSeek(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x18(r1) stw r31, 0x14(r1) stw r30, 0x10(r1) stw r4, 0x3258(r13) lis r4, 0xCC00 addi r4, r4, 0x6000 stw r0, 0x3250(r13) lis r0, 0xAB00 stw r0, 0x8(r4) rlwinm r0,r3,30,2,31 lis r3, 0x803D stw r0, 0xC(r4) li r0, 0x1 addi r31, r3, 0x3088 stw r0, 0x1C(r4) lis r4, 0x8000 addi r3, r31, 0 lwz r0, 0xF8(r4) rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x88CC lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x8688 lwz r0, 0x1C(r1) li r3, 0x1 lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ } /* * --INFO-- * Address: 801FEA10 * Size: 00002C */ void DVDLowWaitCoverClose(void) { /* .loc_0x0: li r0, 0x1 stw r3, 0x3258(r13) lis r3, 0xCC00 stw r0, 0x326C(r13) li r0, 0 addi r4, r3, 0x6000 stw r0, 0x3250(r13) li r0, 0x2 li r3, 0x1 stw r0, 0x4(r4) blr */ } /* * --INFO-- * Address: 801FEA3C * Size: 0000A4 */ void DVDLowReadDiskID(void) { /* .loc_0x0: mflr r0 li r8, 0 stw r0, 0x4(r1) lis r5, 0xA800 addi r0, r5, 0x40 stwu r1, -0x18(r1) li r6, 0x20 lis r5, 0x8000 stw r31, 0x14(r1) stw r30, 0x10(r1) stw r4, 0x3258(r13) lis r4, 0xCC00 addi r7, r4, 0x6000 stw r8, 0x3250(r13) stw r0, 0x6008(r4) lis r4, 0x803D li r0, 0x3 stw r8, 0xC(r7) addi r31, r4, 0x3088 stw r6, 0x10(r7) stw r3, 0x14(r7) mr r3, r31 stw r6, 0x18(r7) stw r0, 0x1C(r7) lwz r0, 0xF8(r5) rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x899C lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x8758 lwz r0, 0x1C(r1) li r3, 0x1 lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ } /* * --INFO-- * Address: 801FEAE0 * Size: 00008C */ void DVDLowStopMotor(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x18(r1) stw r31, 0x14(r1) stw r30, 0x10(r1) stw r3, 0x3258(r13) lis r3, 0xCC00 addi r4, r3, 0x6000 stw r0, 0x3250(r13) lis r0, 0xE300 stw r0, 0x6008(r3) li r0, 0x1 lis r3, 0x803D stw r0, 0x1C(r4) lis r4, 0x8000 addi r31, r3, 0x3088 lwz r0, 0xF8(r4) addi r3, r31, 0 rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x8A28 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x87E4 lwz r0, 0x1C(r1) li r3, 0x1 lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ } /* * --INFO-- * Address: 801FEB6C * Size: 00008C */ void DVDLowRequestError(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x18(r1) stw r31, 0x14(r1) stw r30, 0x10(r1) stw r3, 0x3258(r13) lis r3, 0xCC00 addi r4, r3, 0x6000 stw r0, 0x3250(r13) lis r0, 0xE000 stw r0, 0x6008(r3) li r0, 0x1 lis r3, 0x803D stw r0, 0x1C(r4) lis r4, 0x8000 addi r31, r3, 0x3088 lwz r0, 0xF8(r4) addi r3, r31, 0 rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x8AB4 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x8870 lwz r0, 0x1C(r1) li r3, 0x1 lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ } /* * --INFO-- * Address: 801FEBF8 * Size: 00009C */ void DVDLowInquiry(void) { /* .loc_0x0: mflr r0 li r6, 0x20 stw r0, 0x4(r1) li r0, 0 lis r5, 0x8000 stwu r1, -0x18(r1) stw r31, 0x14(r1) stw r30, 0x10(r1) stw r4, 0x3258(r13) lis r4, 0xCC00 addi r7, r4, 0x6000 stw r0, 0x3250(r13) lis r0, 0x1200 stw r0, 0x6008(r4) lis r4, 0x803D li r0, 0x3 stw r6, 0x10(r7) addi r31, r4, 0x3088 stw r3, 0x14(r7) addi r3, r31, 0 stw r6, 0x18(r7) stw r0, 0x1C(r7) lwz r0, 0xF8(r5) rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x8B50 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x890C lwz r0, 0x1C(r1) li r3, 0x1 lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ } /* * --INFO-- * Address: 801FEC94 * Size: 000098 */ void DVDLowAudioStream(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x20(r1) stw r31, 0x1C(r1) stw r30, 0x18(r1) stw r6, 0x3258(r13) lis r6, 0xCC00 addi r6, r6, 0x6000 stw r0, 0x3250(r13) oris r0, r3, 0xE100 lis r3, 0x803D stw r0, 0x8(r6) rlwinm r0,r5,30,2,31 addi r31, r3, 0x3088 stw r0, 0xC(r6) li r0, 0x1 addi r3, r31, 0 stw r4, 0x10(r6) lis r4, 0x8000 stw r0, 0x1C(r6) lwz r0, 0xF8(r4) rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x8BE8 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x89A4 lwz r0, 0x24(r1) li r3, 0x1 lwz r31, 0x1C(r1) lwz r30, 0x18(r1) mtlr r0 addi r1, r1, 0x20 blr */ } /* * --INFO-- * Address: 801FED2C * Size: 00008C */ void DVDLowRequestAudioStatus(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x18(r1) stw r31, 0x14(r1) stw r30, 0x10(r1) stw r4, 0x3258(r13) lis r4, 0xCC00 addi r4, r4, 0x6000 stw r0, 0x3250(r13) oris r0, r3, 0xE200 lis r3, 0x803D stw r0, 0x8(r4) li r0, 0x1 addi r31, r3, 0x3088 stw r0, 0x1C(r4) lis r4, 0x8000 addi r3, r31, 0 lwz r0, 0xF8(r4) rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x8C74 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x8A30 lwz r0, 0x1C(r1) li r3, 0x1 lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ } /* * --INFO-- * Address: 801FEDB8 * Size: 00009C */ void DVDLowAudioBufferConfig(void) { /* .loc_0x0: mflr r0 cmpwi r3, 0 stw r0, 0x4(r1) li r0, 0 stwu r1, -0x20(r1) stw r31, 0x1C(r1) stw r30, 0x18(r1) stw r5, 0x3258(r13) stw r0, 0x3250(r13) beq- .loc_0x2C lis r0, 0x1 .loc_0x2C: oris r0, r0, 0xE400 lis r3, 0xCC00 or r0, r4, r0 addi r3, r3, 0x6000 stw r0, 0x8(r3) li r0, 0x1 lis r4, 0x8000 stw r0, 0x1C(r3) lis r3, 0x803D addi r31, r3, 0x3088 lwz r0, 0xF8(r4) addi r3, r31, 0 rlwinm r0,r0,30,2,31 mulli r30, r0, 0xA bl -0x8D10 lis r3, 0x8020 subi r7, r3, 0x1B1C addi r3, r31, 0 addi r6, r30, 0 li r5, 0 bl -0x8ACC lwz r0, 0x24(r1) li r3, 0x1 lwz r31, 0x1C(r1) lwz r30, 0x18(r1) mtlr r0 addi r1, r1, 0x20 blr */ } /* * --INFO-- * Address: 801FEE54 * Size: 0000BC */ void DVDLowReset(void) { /* .loc_0x0: mflr r0 lis r4, 0xCC00 stw r0, 0x4(r1) li r0, 0x2 stwu r1, -0x20(r1) stmw r26, 0x8(r1) addi r31, r4, 0x3000 stw r0, 0x6004(r4) lwz r30, 0x3024(r4) rlwinm r0,r30,0,30,28 ori r0, r0, 0x1 stwu r0, 0x24(r31) bl -0x1AC4 lis r5, 0x8000 lwz r0, 0xF8(r5) lis r5, 0x431C subi r5, r5, 0x217D rlwinm r0,r0,30,2,31 mulhwu r0, r5, r0 rlwinm r0,r0,17,15,31 mulli r0, r0, 0xC addi r26, r4, 0 addi r27, r3, 0 rlwinm r28,r0,29,3,31 li r29, 0 .loc_0x64: bl -0x1AF8 subc r5, r4, r26 subfe r0, r27, r3 xoris r4, r0, 0x8000 xoris r3, r29, 0x8000 subc r0, r5, r28 subfe r3, r3, r4 subfe r3, r4, r4 neg. r3, r3 bne+ .loc_0x64 ori r0, r30, 0x5 stw r0, 0x0(r31) li r0, 0x1 stw r0, 0x3268(r13) bl -0x1B30 stw r4, 0x3264(r13) stw r3, 0x3260(r13) lmw r26, 0x8(r1) lwz r0, 0x24(r1) addi r1, r1, 0x20 mtlr r0 blr */ } /* * --INFO-- * Address: ........ * Size: 000044 */ void DVDLowSetResetCoverCallback(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: ........ * Size: 00001C */ void DoBreak(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: ........ * Size: 000074 */ void AlarmHandlerForBreak(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: ........ * Size: 000064 */ void SetBreakAlarm(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: 801FEF10 * Size: 000014 */ void DVDLowBreak(void) { /* .loc_0x0: li r0, 0x1 stw r0, 0x3250(r13) li r3, 0x1 stw r0, 0x3270(r13) blr */ } /* * --INFO-- * Address: 801FEF24 * Size: 000018 */ void DVDLowClearCallback(void) { /* .loc_0x0: lis r3, 0xCC00 li r0, 0 stw r0, 0x6004(r3) lwz r3, 0x3258(r13) stw r0, 0x3258(r13) blr */ } /* * --INFO-- * Address: ........ * Size: 000094 */ void DVDLowGetCoverStatus(void) { // UNUSED FUNCTION } /* * --INFO-- * Address: 801FEF3C * Size: 000044 */ void __DVDLowSetWAType(void) { /* .loc_0x0: mflr r0 stw r0, 0x4(r1) stwu r1, -0x18(r1) stw r31, 0x14(r1) addi r31, r4, 0 stw r30, 0x10(r1) addi r30, r3, 0 bl -0x5FDC stw r30, 0x3274(r13) stw r31, 0x3278(r13) bl -0x5FC0 lwz r0, 0x1C(r1) lwz r31, 0x14(r1) lwz r30, 0x10(r1) mtlr r0 addi r1, r1, 0x18 blr */ }
the_stack_data/118800.c
#include <stdio.h> int global = 10; /* initialized global variable stored in DS*/ int main(void) { static int i = 100; /* Initialized static variable stored in DS*/ return 0; }
the_stack_data/1019322.c
#include <stdio.h> #include <stdlib.h> #include <string.h> #define MAX_EXPRESSION_LENGTH 10000 int numberOfOperands; int operands[3] = { 0, 0, 0 }; typedef struct expr expr; struct expr { char *str; int pos; int len; }; void construct(expr* expr, char *str, int pos, int len) { expr->str = str; expr->pos = pos; expr->len = len; } void skip_spaces(expr* expr) { while (expr->pos < expr->len && (expr->str[expr->pos] == ' ' || expr->str[expr->pos] == '\t' || expr->str[expr->pos] == ',')) expr->pos++; } int operacao(expr* expr) { skip_spaces(expr); int last = expr->str[expr->pos++]; int result = -1; int aux; if (last == ')') result = ')'; else if (last == 'A') result = *(operands + 0); else if (last == 'B') result = *(operands + 1); else if (last == 'C') result = *(operands + 2); else if (last == 'n') { expr->pos += 3; result = !operacao(expr); expr->pos++; // Skips the right parenthesis ')' } else if (last == 'a') { expr->pos += 3; result = operacao(expr); skip_spaces(expr); while (expr->str[expr->pos] != ')') { aux = operacao(expr); result = result && aux; } expr->pos++; // Skips the right parenthesis ')' } else if (last == 'o') { expr->pos += 2; result = operacao(expr); skip_spaces(expr); while (expr->str[expr->pos] != ')') { aux = operacao(expr); result = result || aux; } expr->pos++; // Skips the right parenthesis ')' } return result; } int main() { char *expression = (char *) malloc(sizeof(char) * MAX_EXPRESSION_LENGTH); scanf("%d", &numberOfOperands); for (size_t i = 0; i < numberOfOperands; i++) scanf("%d", operands + i); scanf("%*c"); fgets(expression, MAX_EXPRESSION_LENGTH, stdin); expression[strlen(expression) - 1] = '\0'; expr *expr = malloc(sizeof(expr)); construct(expr, expression, 0, strlen(expression)); printf("%s = %d\n", expression, operacao(expr)); free(expr); free(expression); return EXIT_SUCCESS; }
the_stack_data/529622.c
/* Author : Arnob Mahmud mail : [email protected] */ #include <stdio.h> #include <math.h> #define INDUCTANCE 5.10 #define RESISTANCE 20.00 int main(int argc, char const *argv[]) { float capacitance, freq; printf("Enter the value of capacitance:\n"); // Range 0.01 ~ 0.1 scanf("%f", &capacitance); freq = sqrt((1 / (INDUCTANCE * capacitance)) - (pow(RESISTANCE, 2) / (4 * pow(capacitance, 2)))); printf("Frequence is %.2f.\n", freq); return 0; }
the_stack_data/165765792.c
/* * Benchmarks contributed by Divyesh Unadkat[1,2], Supratik Chakraborty[1], Ashutosh Gupta[1] * [1] Indian Institute of Technology Bombay, Mumbai * [2] TCS Innovation labs, Pune * */ extern void __VERIFIER_error() __attribute__ ((__noreturn__)); extern void __VERIFIER_assume(int); void __VERIFIER_assert(int cond) { if(!(cond)) { ERROR: __VERIFIER_error(); } } extern int __VERIFIER_nondet_int(void); int N; int main() { N = __VERIFIER_nondet_int(); if(N <= 0) return 1; __VERIFIER_assume(N <= 2147483647/sizeof(int)); int i, j; int sum[1]; sum[0] = 0; for (i = 0; i < N; i++) { for (j = 0; j < i+1; j++) { sum[0] = sum[0] + 1; } } __VERIFIER_assert(sum[0] == N*(N+1)/2); }
the_stack_data/148448.c
/*! * \brief A deom about recursion. */ #include <stdio.h> #include <stdlib.h> #include <string.h> void compos(const char *str, char *dstr, unsigned int num) { int i = 0; int len = strlen(str); for(i = 0; i < len; i++) { dstr[num] = str[i]; dstr[num+1] = '\0'; printf("%s\t", dstr); if(i < len - 1) { compos(str+i+1, dstr, num+1); } } } int main(int argc, char *argv[]) { char srcstr[] = "string"; char *dstr = (char *)malloc(strlen(srcstr) + 1); compos(srcstr, dstr, 0); free(dstr); return 0; }
the_stack_data/86071.c
#include<stdio.h> int main(){ int n,i,t,flag=0; scanf("%d",&n); for(i=n+1;;i++){ for(t=2;;t++){ if(i%t==0) break; if(t==i/2||t==(i+1)/2){ printf("%d\n",i); flag=1; break;} } if(flag) break; } return 0; }
the_stack_data/29833.c
#include<stdio.h> int main () { int num1 ; int num2 ; int num3 ; printf("Enter Number [1] : \n"); scanf("%d",&num1); printf("Enter Number [2] : \n"); scanf("%d",&num2); printf("Enter Number [3] : \n"); scanf("%d",&num3); int sum = num1 + num2 + num3; float bar = sum/3; printf("Average Number is %2f",bar); }
the_stack_data/420657.c
/* * File: rijandael.c * Author: Marco Heumann * * Created on 29. Januar 2016 */ #include <stdio.h> #include <stdlib.h> typedef unsigned char u8; int t2(int); u8 getSboxValue(int); void addRoundKey(int); void generateRoundKey(); void shiftRow(); void mixColumn(); static const u8 Sbox[256] = { 0x63, 0x7C, 0x77, 0x7B, 0xF2, 0x6B, 0x6F, 0xC5, 0x30, 0x01, 0x67, 0x2B, 0xFE, 0xD7, 0xAB, 0x76, 0xCA, 0x82, 0xC9, 0x7D, 0xFA, 0x59, 0x47, 0xF0, 0xAD, 0xD4, 0xA2, 0xAF, 0x9C, 0xA4, 0x72, 0xC0, 0xB7, 0xFD, 0x93, 0x26, 0x36, 0x3F, 0xF7, 0xCC, 0x34, 0xA5, 0xE5, 0xF1, 0x71, 0xD8, 0x31, 0x15, 0x04, 0xC7, 0x23, 0xC3, 0x18, 0x96, 0x05, 0x9A, 0x07, 0x12, 0x80, 0xE2, 0xEB, 0x27, 0xB2, 0x75, 0x09, 0x83, 0x2C, 0x1A, 0x1B, 0x6E, 0x5A, 0xA0, 0x52, 0x3B, 0xD6, 0xB3, 0x29, 0xE3, 0x2F, 0x84, 0x53, 0xD1, 0x00, 0xED, 0x20, 0xFC, 0xB1, 0x5B, 0x6A, 0xCB, 0xBE, 0x39, 0x4A, 0x4C, 0x58, 0xCF, 0xD0, 0xEF, 0xAA, 0xFB, 0x43, 0x4D, 0x33, 0x85, 0x45, 0xF9, 0x02, 0x7F, 0x50, 0x3C, 0x9F, 0xA8, 0x51, 0xA3, 0x40, 0x8F, 0x92, 0x9D, 0x38, 0xF5, 0xBC, 0xB6, 0xDA, 0x21, 0x10, 0xFF, 0xF3, 0xD2, 0xCD, 0x0C, 0x13, 0xEC, 0x5F, 0x97, 0x44, 0x17, 0xC4, 0xA7, 0x7E, 0x3D, 0x64, 0x5D, 0x19, 0x73, 0x60, 0x81, 0x4F, 0xDC, 0x22, 0x2A, 0x90, 0x88, 0x46, 0xEE, 0xB8, 0x14, 0xDE, 0x5E, 0x0B, 0xDB, 0xE0, 0x32, 0x3A, 0x0A, 0x49, 0x06, 0x24, 0x5C, 0xC2, 0xD3, 0xAC, 0x62, 0x91, 0x95, 0xE4, 0x79, 0xE7, 0xC8, 0x37, 0x6D, 0x8D, 0xD5, 0x4E, 0xA9, 0x6C, 0x56, 0xF4, 0xEA, 0x65, 0x7A, 0xAE, 0x08, 0xBA, 0x78, 0x25, 0x2E, 0x1C, 0xA6, 0xB4, 0xC6, 0xE8, 0xDD, 0x74, 0x1F, 0x4B, 0xBD, 0x8B, 0x8A, 0x70, 0x3E, 0xB5, 0x66, 0x48, 0x03, 0xF6, 0x0E, 0x61, 0x35, 0x57, 0xB9, 0x86, 0xC1, 0x1D, 0x9E, 0xE1, 0xF8, 0x98, 0x11, 0x69, 0xD9, 0x8E, 0x94, 0x9B, 0x1E, 0x87, 0xE9, 0xCE, 0x55, 0x28, 0xDF, 0x8C, 0xA1, 0x89, 0x0D, 0xBF, 0xE6, 0x42, 0x68, 0x41, 0x99, 0x2D, 0x0F, 0xB0, 0x54, 0xBB, 0x16 }; /* Round constants */ static const u8 Rcon[10] = {0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1B, 0x36}; u8 mixMatrix[4][4] = { {0x02, 0x03, 0x01, 0x01}, {0x01, 0x02, 0x03, 0x01}, {0x01, 0x01, 0x02, 0x03}, {0x03, 0x01, 0x01, 0x02} }; u8 tmp[4] = {0, 0, 0, 0}; u8 key[4][4], roundKey[11][4][4], state[4][4]; int i, j, k, r, z; void convert2array(u8 input[16], u8 output[4][4]) { for (j = 0; j < 4; j++) { for (i = 0; i < 4; i++) { output[i][j] = input[(j * 4 + i)]; } } } void encrypt(u8 input[16], u8 keyStr[16], u8 output[16]) { convert2array(input, state); convert2array(keyStr, key); // Round 0 generateRoundKey(); addRoundKey(0); // Round 1-9 for (r = 1; r < 10; r++) { for (i = 0; i < 4; i++) { for (j = 0; j < 4; j++) { state[i][j] = getSboxValue(state[i][j]); } } shiftRow(); mixColumn(); addRoundKey(r); } // Round 10 for (i = 0; i < 4; i++) { for (j = 0; j < 4; j++) { state[i][j] = getSboxValue(state[i][j]); } } shiftRow(); addRoundKey(r); for (j = 0; j < 4; j++) { for (i = 0; i < 4; i++) { output[(j * 4 + i)] = state[i][j]; } } } u8 getSboxValue(int num) { return Sbox[num]; } u8 getRconValue(int num) { return Rcon[num]; } void shiftRow() { for (i = 0; i < 4; i++) { for (j = 0; j < 4; j++) { tmp[j] = state[i][j]; } for (j = 0; j < 4; j++) { state[i][j] = tmp[(j + i) % 4]; } } } void mixColumn() { for (j = 0; j < 4; j++) { for (i = 0; i < 4; i++) { tmp[i] = state[i][j]; } for (i = 0; i < 4; i++) { for (z = 0; z < 4; z++) { switch (mixMatrix[i][z]) { case 3: if (z == 0) { state[i][j] = t2(tmp[z]) ^ tmp[z]; } else { state[i][j] ^= t2(tmp[z]) ^ tmp[z]; } break; case 2: if (z == 0) { state[i][j] = t2(tmp[z]); } else { state[i][j] ^= t2(tmp[z]); } break; case 1: default: if (z == 0) { state[i][j] = tmp[z]; } else { state[i][j] ^= tmp[z]; } } } } } } void addRoundKey(int round) { for (i = 0; i < 4; i++) { for (j = 0; j < 4; j++) { state[i][j] ^= roundKey[round][i][j]; } } } void generateRoundKey() { for (j = 0; j < 4; j++) { for (i = 0; i < 4; i++) { roundKey[0][i][j] = key[i][j]; } } for (k = 1; k < 11; k++) { tmp[0] = roundKey[k - 1][0][3]; // RotWord for (i = 0; i < 4; i++) { if (i < 3) { roundKey[k][i][0] = roundKey[k - 1][i + 1][3]; } else { roundKey[k][i][0] = tmp[0]; } } for (i = 0; i < 4; i++) { // Substitute with Sbox roundKey[k][i][0] = getSboxValue(roundKey[k][i][0]); // XOR Rcon if (i == 0) { roundKey[k][i][0] ^= roundKey[k - 1][i][0] ^ getRconValue(k - 1); } else { roundKey[k][i][0] ^= roundKey[k - 1][i][0]; } } // XOR Rest for (j = 1; j < 4; j++) { for (i = 0; i < 4; i++) { roundKey[k][i][j] = roundKey[k - 1][i][j] ^ roundKey[k][i][j - 1]; } } } } int t2(int a) { if (a < 128) { return 2 * a; } else if (a >= 128) { return (2 * a) ^ 283; } }
the_stack_data/168893437.c
#include <stdio.h> #define MAXLEN 100 static int _itoa(unsigned n, int pos, char s[]){ /* Recursivly transform an integer n into equivalent string s. * pos: position of s[] to write * RETURN VALUE: length of n*/ int len; unsigned next; if ((next = n/10)){ len = _itoa(next, pos, s); s[pos += len] = n%10+'0'; s[++pos] = '\0'; return len+1; } else { s[pos++] = n + '0'; s[pos] = '\0'; return 1; } } int itoa(int n, char s[]){ if (n < 0){ s[0] = '-'; unsigned val = -n; return _itoa(val, 1, s)+1; } else { return _itoa(n, 0, s); } } int main(){ char s[MAXLEN]; int n, len, status; do { printf("Please input an integer: "); status = scanf("%d", &n); if (status == EOF) return 0; len = itoa(n, s); printf("input integer is %s, length is %d \n", s, len); } while (status == 1); return 0; }
the_stack_data/66537.c
#include <stdio.h> #include <stdlib.h> int main() { int n,i,f,p=0,c=0; printf("Enter numbers\n"); printf("Enter -1 to terminate the loop\n"); do { scanf("%d",&n); i=2; f=0; while(i<n) { if(n%i==0) { f=1; break; } i++; } if(f==0&&n!=1&&n!=-1) p++; else if(f==1&&n!=1&&n!=-1) c++; }while(n!=-1); printf("Number of prime nos. are %d\n",p); printf("Number of composite nos. are %d",c); return 0; }
the_stack_data/41271.c
void NoDepAFunction(); void OneFunction(); void TwoFunction(); void FourFunction() { static int count = 0; if( count == 0 ) { ++count; TwoFunction(); } OneFunction(); NoDepAFunction(); }
the_stack_data/104797.c
#include<stdio.h> #include<stdlib.h> typedef struct node { int value; struct node* next; } node_t; node_t * construct_3() { //Allocate three pointers: //x for the first Node, and temporary pointers y and z for the other two Nodes. node_t* x; node_t* y; node_t* z; //Allocate three Node pointees and store references to them in the three pointers. x = malloc(sizeof(node_t)); y = malloc(sizeof(node_t)); z = malloc(sizeof(node_t)); //Dereference each pointer to store the appropriate number into the value field in its pointee. x->value=1; y->value=2; z->value=3; //Dereference each pointer to access the .next field in its pointee, //and use pointer assignment to set the .next field to point to the appropriate Node. x->next = y; y->next = z; z->next = x; return x; } //You can ignore the following code for testing int dump_all(node_t*); int main (int argc, char ** argv) { node_t * x = construct_3(); return dump_all(x); free(x); } int dump_all(node_t * x) { printf("x -> %d\n", x->value); node_t * y = x->next; printf("%d -> %d\n", x->value, y->value); node_t * z = y->next; printf("%d -> %d\n", y->value, z->value); if(z->next != x) { printf("failed"); return -1; } else { printf("%d -> %d\n", z->value, x->value); return 0; } }
the_stack_data/70448985.c
#include<stdio.h> int main(){ printf("Hello World"); return 0; }
the_stack_data/231393587.c
// PARAM: --set ana.activated "['base','threadid','threadflag','escape','mutex','mallocWrapper']" #include<pthread.h> #include<stdio.h> #include<assert.h> void *t_fun(void *arg) { int *p = (int *) arg; int x = 10; (*p) = x; assert(x == 10); x = *p; assert(x == 10); //UNKNOWN! return NULL; } int main(void) { pthread_t id; int i = 5; assert(i == 5); pthread_create(&id, NULL, t_fun, (void *) &i); i = 7; assert(i == 7); //UNKNOWN! pthread_join (id, NULL); return 0; }
the_stack_data/64864.c
// Bibliotecas #include <stdio.h> // Função para ler um dos números da operação void lerNumero( int i, double *n ) { printf( "Numero %d > ", i ); scanf( "%lf", n ); } // Função para ler qual a operação pretendida void lerOperacao( char *o ) { printf( "\nOperacao > " ); scanf( " %c", o ); while( *o != '+' && *o != '-' && *o != '*' && *o != '/' ) { printf( " ERRO > Operacao invalida\n\nOperacao > " ); scanf( " %c", o ); } printf( "\n" ); } // Função que retorna a adição entre dois números double adicionar( double n1, double n2 ) { return n1 + n2; } // Função que retorna a subtração entre dois números double subtrair( double n1, double n2 ) { return n1 - n2; } // Função que retorna a multiplicação entre dois números double multiplicar( double n1, double n2 ) { return n1 * n2; } // Função que retorna a divisão entre dois números double dividir( double n1, double n2 ) { return n1 / n2; } // Função que irá retornar o resultado da operação com base na escolha double calcular( double n1, char o, double n2 ) { switch( o ) { case '+': return adicionar( n1, n2 ); break; case '-': return subtrair( n1, n2 ); break; case '*': return multiplicar( n1, n2 ); break; case '/': return dividir( n1, n2 ); break; } } // Função que imprime o resultado da operação pretendida void imprimirOperacao( double n1, char o, double n2 ) { double r = calcular( n1, o, n2 ); printf( "\nResultado > %.2lf %c %.2lf = %.2lf\n\n", n1, o, n2, r ); } // Programa void main() { char op; double num1, num2; lerNumero( 1, &num1 ); lerOperacao( &op ); lerNumero( 2, &num2 ); imprimirOperacao( num1, op, num2 ); }
the_stack_data/48575544.c
/* GAMEOVERSPLASH.C Map Source File. Info: Section : Bank : 0 Map size : 20 x 18 Tile set : P:\Google Drive\03 Design\Games\Gameboy\Splash.gbr Plane count : 1 plane (8 bits) Plane order : Tiles are continues Tile offset : 0 Split data : No This file was generated by GBMB v1.8 */ #define GameOverSplashWidth 20 #define GameOverSplashHeight 18 #define GameOverSplashBank 0 unsigned char GameOverSplash[] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x1A,0x1B,0x1B,0x1C,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x01,0x02, 0x03,0x04,0x05,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x07,0x08, 0x09,0x0A,0x0B,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0C,0x0D,0x0E, 0x0F,0x10,0x11,0x00,0x00,0x1A,0x1B,0x1B,0x1C,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x12,0x13,0x14, 0x15,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x2F, 0x30,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x31, 0x32,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x1A,0x1B, 0x1B,0x1C,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x21,0x1E,0x33,0x00,0x00, 0x22,0x34,0x22,0x35,0x36,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x1D,0x1E,0x1F,0x20,0x20,0x00, 0x00,0x20,0x21,0x22,0x1E,0x21,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x20,0x2D,0x2E,0x1E,0x1F,0x00,0x23,0x23,0x23,0x23, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00 }; /* End of GAMEOVERSPLASH.C */
the_stack_data/122359.c
// `levenshtein.c` - levenshtein // MIT licensed. // Copyright (c) 2015 Titus Wormer <[email protected]> #include <string.h> #include <stdlib.h> #include <stdint.h> // Returns a size_t, depicting the difference between `a` and `b`. // See <http://en.wikipedia.org/wiki/Levenshtein_distance> for more information. size_t levenshtein_n(const char *a, const size_t length, const char *b, const size_t bLength) { size_t *cache = calloc(length, sizeof(size_t)); size_t index = 0; size_t bIndex = 0; size_t distance; size_t bDistance; size_t result; char code; // Shortcut optimizations / degenerate cases. if (a == b) { return 0; } if (length == 0) { return bLength; } if (bLength == 0) { return length; } // initialize the vector. while (index < length) { cache[index] = index + 1; index++; } // Loop. while (bIndex < bLength) { code = b[bIndex]; result = distance = bIndex++; index = SIZE_MAX; while (++index < length) { bDistance = code == a[index] ? distance : distance + 1; distance = cache[index]; cache[index] = result = distance > result ? bDistance > result ? result + 1 : bDistance : bDistance > distance ? distance + 1 : bDistance; } } free(cache); return result; } size_t levenshtein(const char *a, const char *b) { const size_t length = strlen(a); const size_t bLength = strlen(b); return levenshtein_n(a, length, b, bLength); }
the_stack_data/90765647.c
// RUN: %clang_cc1 -emit-llvm %s -o /dev/null const char *W = "foo"; const int X = 7; int Y = 8; const char * const Z = "bar";
the_stack_data/162644359.c
#include <stdio.h> #include <stdlib.h> #include <sys/types.h> #include <unistd.h> void folklore() { int q = 15, s = 25, m= 25, t = 20, x, k; x = ((s <= m) && (t > q)); k =((m==q)||(s>t)); if (fork() == 0){ printf("xprocess = %d\n",x); } else{ printf("Kprocess = %d\n",++k); } } int main() { folklore(); }
the_stack_data/168891964.c
#include <stdio.h> int main() { int c=0,s=0,t=0; char d; char n[20]; FILE *fptr; fptr = fopen("appointment.dat","r"); printf("Appointment Type\tNumber of Patients\n"); for(int i=0;i<5;i++){ fscanf(fptr,"%s %c\n",&n,&d); if(d=='C') c++; else if(d=='S') s++; else if(d=='T') t++; } printf("Consulting\t%d\n",c); printf("Scanning\t%d\n",s); printf("Testing\t%d\n",t); fclose(fptr); return 0; }
the_stack_data/703361.c
#include <stdlib.h> #include <stdio.h> #include <string.h> unsigned int JSHash(char* str, unsigned int len) { unsigned int hash = 1315423911; unsigned int i = 0; for(i = 0; i < len; str++, i++) { hash ^= ((hash << 5) + (*str) + (hash >> 2)); } return hash; } /* End Of JS Hash Function */ int main(int argc, char* argv[]) { unsigned char *str = argv[1]; unsigned int hash = JSHash(str, strlen(str)); //printf("%x\n", hash); if (hash == 0x120bdadd) printf("You win!\n"); return 0; }
the_stack_data/150139980.c
#include <stdio.h> void ceaser(char *str, int offset) { int pos; for (int i = 0; str[i] != '\0'; i++) { pos = str[i] - (offset % 26); if (pos < 65) str[i] = (str[i] + 26) - (offset % 26); else str[i] = pos; } } int main(void) { int n; scanf("%d", &n); while(n--) { char string[100]; int offset; scanf("%s", string); scanf("%d", &offset); ceaser(string, offset); printf("%s\n", string); } return 0; }