RevEng-24-25/Ghidra-10K · Datasets at Hugging Face

decomp stringlengths 0 152k	original stringlengths 14 1.4M
undefined8 nonzeroMemseti32(void) { long in_FS_OFFSET; if ((long )(in_FS_OFFSET + 0x28) != (long )(in_FS_OFFSET + 0x28)) { /* WARNING: Subroutine does not return */ __stack_chk_fail(); } return 0; }	void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }
void nonzeroMemseti32(void) { return; }	void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }
void nonzeroMemseti32(void) { return; }	void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }
void nonzeroMemseti32(void) { return; }	void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }
void xxx(void) { undefined4 local_c; for (local_c = 0; local_c < 10; local_c = local_c + 1) { } return; }	void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }
void xxx(void) { return; }	void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }
void xxx(void) { return; }	void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }
void xxx(void) { return; }	void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }
bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }	int main(void) { return (sbrk(0) != (void *)0); }
bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }	int main(void) { return (sbrk(0) != (void *)0); }
bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }	int main(void) { return (sbrk(0) != (void *)0); }
bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }	int main(void) { return (sbrk(0) != (void *)0); }
undefined4 axp_set_ocv(void) { return 0; }	static int axp_set_ocv(void) { int ret = 0; return ret; }
undefined8 test_imm_04uint32_reg(uint param_1) { undefined8 uVar1; if ((param_1 & 4) == 0) { uVar1 = 0xffffffd8; } else { uVar1 = 0xffffffec; } return uVar1; }	int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }
int test_imm_04uint32_reg(uint param_1) { return (-(uint)((param_1 & 4) == 0) & 0xffffffec) - 0x14; }	int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }
int test_imm_04uint32_reg(uint param_1) { return (-(uint)((param_1 & 4) == 0) & 0xffffffec) - 0x14; }	int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }
int test_imm_04uint32_reg(uint param_1) { return (-(uint)((param_1 & 4) == 0) & 0xffffffec) - 0x14; }	int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }
void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }	extern int sha256cmp(unsigned char digest1, unsigned char digest2) { return (_digest_cmp(digest1, digest2, 32)); }
void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }	extern int sha256cmp(unsigned char digest1, unsigned char digest2) { return (_digest_cmp(digest1, digest2, 32)); }
void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }	extern int sha256cmp(unsigned char digest1, unsigned char digest2) { return (_digest_cmp(digest1, digest2, 32)); }
void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }	extern int sha256cmp(unsigned char digest1, unsigned char digest2) { return (_digest_cmp(digest1, digest2, 32)); }
uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 \| param_1; }	int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut \| (gain << 16)); }
uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 \| param_1; }	int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut \| (gain << 16)); }
uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 \| param_1; }	int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut \| (gain << 16)); }
uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 \| param_1; }	int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut \| (gain << 16)); }
undefined8 log_close(void) { closelog(); return 0; }	void log_close() { return closelog(); }
undefined8 log_close(void) { closelog(); return 0; }	void log_close() { return closelog(); }
void log_close(void) { closelog(); return; }	void log_close() { return closelog(); }
void log_close(void) { closelog(); return; }	void log_close() { return closelog(); }
undefined [16] rss(int param_1,int param_2) { long lVar1; long lVar2; undefined auVar3 [16]; undefined8 local_20; if (param_1 < 1) { param_1 = -param_1; } lVar1 = (long)param_1; if (param_2 < 1) { param_2 = -param_2; } lVar2 = (long)param_2; if ((lVar1 == 0) && (lVar2 == 0)) { local_20 = 0; } else if (lVar2 < lVar1) { local_20 = lVar1 + (lVar2 >> 1); } else { local_20 = lVar2 + (lVar1 >> 1); } auVar3._8_8_ = 0; auVar3._0_8_ = local_20; return auVar3; }	static long rss (long a, long b) { long result, c, d; c = abs (a); d = abs (b); if (c == 0 && d == 0) result = 0; else { if (c > d) result = (d >> 1) + c; else result = (c >> 1) + d; } return (result); }
undefined8 clear_command(void) { clear_variables(); return 0; }	void clear_command(void) { clear_variables(); }
undefined8 clear_command(void) { clear_variables(); return 0; }	void clear_command(void) { clear_variables(); }
void clear_command(void) { clear_variables(); return; }	void clear_command(void) { clear_variables(); }
void clear_command(void) { clear_variables(); return; }	void clear_command(void) { clear_variables(); }
undefined4 print(long param_1,int param_2,int param_3) { int local_10; int local_c; local_10 = 0; while (local_10 < param_2) { for (local_c = 0; local_c < param_3; local_c = local_c + 1) { printf("%4d",(ulong)(uint )((long)local_10 * 0x10 + param_1 + (long)local_c * 4)); } local_10 = local_10 + 1; putchar(10); } return 0; }	void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }
undefined4 print(long param_1,int param_2,int param_3) { uint puVar1; uint puVar2; long lVar3; if (param_2 < 1) { return 0; } lVar3 = (long)param_3; puVar2 = (uint )(param_1 + lVar3 4); do { puVar1 = puVar2 + -lVar3; if (0 < param_3) { do { printf("%4d",(ulong)puVar1); puVar1 = puVar1 + 1; } while (puVar1 != puVar2); } putchar(10); puVar2 = puVar2 + 4; } while (puVar2 != (uint )(param_1 + (lVar3 + (long)param_2 * 4) * 4)); return 0; }	void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }
undefined4 print(long param_1,int param_2,int param_3) { uint puVar1; uint uVar2; long lVar3; uint puVar4; uint puVar5; if (param_2 < 1) { return 0; } lVar3 = (long)param_3; puVar1 = (uint )(param_1 + (lVar3 + (long)param_2 * 4) * 4); puVar5 = (uint )(lVar3 4 + param_1); do { if (0 < param_3) { do { puVar4 = puVar5 + -lVar3; do { uVar2 = *puVar4; puVar4 = puVar4 + 1; printf("%4d",(ulong)uVar2); } while (puVar4 != puVar5); puVar5 = puVar5 + 4; putchar(10); } while (puVar5 != puVar1); return 0; } puVar5 = puVar5 + 4; putchar(10); } while (puVar5 != puVar1); return 0; }	void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }
undefined4 print(long param_1,int param_2,int param_3) { uint puVar1; uint uVar2; uint puVar3; uint puVar4; if (param_2 < 1) { return 0; } puVar3 = (uint )(param_1 + 0x14); puVar1 = puVar3 + (long)param_2 * 4; do { if (0 < param_3) { do { printf("%4d",(ulong)puVar3[-5]); if (param_3 != 1) { printf("%4d",(ulong)puVar3[-4]); if (param_3 != 2) { printf("%4d",(ulong)puVar3[-3]); if (param_3 != 3) { printf("%4d",(ulong)puVar3[-2]); if (param_3 != 4) { printf("%4d",(ulong)puVar3[-1]); if (param_3 != 5) { puVar4 = puVar3; do { uVar2 = *puVar4; puVar4 = puVar4 + 1; printf("%4d",(ulong)uVar2); } while (puVar4 != puVar3 + (ulong)(param_3 - 6) + 1); } } } } } puVar3 = puVar3 + 4; putchar(10); } while (puVar3 != puVar1); return 0; } puVar3 = puVar3 + 4; putchar(10); } while (puVar3 != puVar1); return 0; }	void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }
int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char local_18 [3]; undefined local_15 [5]; long local_10; local_10 = (long )(in_FS_OFFSET + 0x28); sprintf(local_18,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_15,param_3); iVar1 = mls_conf_set(param_1,local_18,local_15); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_10 != (long )(in_FS_OFFSET + 0x28)) { /* WARNING: Subroutine does not return */ __stack_chk_fail(); } return iVar1; }	int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }
int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char acStack_28 [3]; undefined local_25 [5]; long local_20; local_20 = (long )(in_FS_OFFSET + 0x28); sprintf(acStack_28,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_25,param_3); iVar1 = mls_conf_set(param_1,acStack_28,local_25); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_20 == (long )(in_FS_OFFSET + 0x28)) { return iVar1; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }	int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }
int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char acStack_28 [3]; undefined local_25 [5]; long local_20; local_20 = (long )(in_FS_OFFSET + 0x28); sprintf(acStack_28,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_25,param_3); iVar1 = mls_conf_set(param_1,acStack_28,local_25); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_20 == (long )(in_FS_OFFSET + 0x28)) { return iVar1; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }	int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }
int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char acStack_28 [3]; undefined local_25 [5]; long local_20; local_20 = (long )(in_FS_OFFSET + 0x28); sprintf(acStack_28,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_25,param_3); iVar1 = mls_conf_set(param_1,acStack_28,local_25); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_20 == (long )(in_FS_OFFSET + 0x28)) { return iVar1; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }	int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }
void main(int param_1,undefined8 param_2) { int iVar1; uint uVar2; uint local_18; uint local_14; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",param_2); /* WARNING: Subroutine does not return / exit(0); } iVar1 = atoi((char )param_2[1]); local_18 = 0; local_14 = 1; while ((int)local_14 < iVar1) { uVar2 = local_14 + local_18; local_18 = local_14; printf(" %d ",(ulong)local_14); local_14 = uVar2; } return; }	void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }
void main(int param_1,undefined8 param_2) { int iVar1; uint uVar2; uint uVar3; uint uVar4; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",param_2); /* WARNING: Subroutine does not return / exit(0); } iVar1 = atoi((char )param_2[1]); if (1 < iVar1) { uVar4 = 1; uVar2 = 0; do { uVar3 = uVar4; uVar4 = uVar3 + uVar2; printf(" %d ",(ulong)uVar3); uVar2 = uVar3; } while ((int)uVar4 < iVar1); } return; }	void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }
undefined8 main(int param_1,undefined8 param_2) { int iVar1; uint uVar2; uint uVar3; uint uVar4; undefined8 uStack_28; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",param_2); /* WARNING: Subroutine does not return / exit(0); } iVar1 = atoi((char )param_2[1]); if (1 < iVar1) { uVar2 = 0; uVar3 = 1; do { uVar4 = uVar3 + uVar2; printf(" %d ",(ulong)uVar3); uVar2 = uVar3; uVar3 = uVar4; } while ((int)uVar4 < iVar1); } return uStack_28; }	void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }
undefined8 main(int param_1,undefined8 param_2) { int iVar1; uint uVar2; uint uVar3; uint uVar4; undefined8 uStack_28; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",param_2); /* WARNING: Subroutine does not return / exit(0); } iVar1 = atoi((char )param_2[1]); if (1 < iVar1) { uVar2 = 0; uVar3 = 1; do { uVar4 = uVar3 + uVar2; printf(" %d ",(ulong)uVar3); uVar2 = uVar3; uVar3 = uVar4; } while ((int)uVar4 < iVar1); } return uStack_28; }	void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }
undefined8 distance(double param_1,double param_2) { sqrt((param_1 - param_2) * (param_1 - param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1]) + (param_1[2] - param_2[2]) * (param_1[2] - param_2[2])); return 0; }	double distance(double A, double B) { return sqrt((A[0] - B[0])(A[0] - B[0]) + (A[1] - B[1])(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }
double distance(double param_1,double param_2) { return SQRT((param_1[2] - param_2[2]) * (param_1[2] - param_2[2]) + (param_1 - param_2) * (param_1 - param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1])); }	double distance(double A, double B) { return sqrt((A[0] - B[0])(A[0] - B[0]) + (A[1] - B[1])(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }
double distance(double param_1,double param_2) { return SQRT((param_1[2] - param_2[2]) * (param_1[2] - param_2[2]) + (param_1 - param_2) * (param_1 - param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1])); }	double distance(double A, double B) { return sqrt((A[0] - B[0])(A[0] - B[0]) + (A[1] - B[1])(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }
double distance(double param_1,double param_2) { return SQRT((param_1[2] - param_2[2]) * (param_1[2] - param_2[2]) + (param_1 - param_2) * (param_1 - param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1])); }	double distance(double A, double B) { return sqrt((A[0] - B[0])(A[0] - B[0]) + (A[1] - B[1])(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }
int writen(int param_1,void param_2,uint param_3) { int iVar1; ssize_t sVar2; uint local_30; local_30 = param_3; while( true ) { if ((int)local_30 < 1) { return param_3 - local_30; } sVar2 = write(param_1,param_2,(ulong)local_30); iVar1 = (int)sVar2; if (iVar1 < 1) break; local_30 = local_30 - iVar1; param_2 = (void )((long)param_2 + (long)iVar1); } return iVar1; }	int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }
undefined [16] writen(int param_1,void param_2,uint param_3) { int iVar1; ulong uVar2; uint uVar3; size_t __n; undefined auVar4 [16]; uVar3 = param_3; if (0 < (int)param_3) { __n = (size_t)param_3; do { uVar2 = write(param_1,param_2,__n); iVar1 = (int)uVar2; if (iVar1 < 1) goto LAB_0010003f; uVar3 = (int)__n - iVar1; __n = (size_t)uVar3; param_2 = (void )((long)param_2 + (long)iVar1); } while (0 < (int)uVar3); } uVar2 = (ulong)(param_3 - uVar3); LAB_0010003f: auVar4._8_8_ = 0; auVar4._0_8_ = uVar2; return auVar4; }	int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }
undefined [16] writen(int param_1,void param_2,uint param_3) { int iVar1; uint uVar2; size_t __n; undefined auVar3 [16]; if ((int)param_3 < 1) { return ZEXT816(0); } __n = (size_t)param_3; while( true ) { auVar3._0_8_ = write(param_1,param_2,__n); iVar1 = (int)auVar3._0_8_; if (iVar1 < 1) { auVar3._8_8_ = 0; return auVar3; } uVar2 = (int)__n - iVar1; param_2 = (void )((long)param_2 + (long)iVar1); if ((int)uVar2 < 1) break; __n = (size_t)uVar2; } return ZEXT416((iVar1 - (int)__n) + param_3); }	int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }
undefined [16] writen(int param_1,void param_2,uint param_3) { int iVar1; uint uVar2; size_t __n; undefined auVar3 [16]; if ((int)param_3 < 1) { return ZEXT816(0); } __n = (size_t)param_3; while( true ) { auVar3._0_8_ = write(param_1,param_2,__n); iVar1 = (int)auVar3._0_8_; if (iVar1 < 1) { auVar3._8_8_ = 0; return auVar3; } uVar2 = (int)__n - iVar1; param_2 = (void )((long)param_2 + (long)iVar1); if ((int)uVar2 < 1) break; __n = (size_t)uVar2; } return ZEXT416((iVar1 - (int)__n) + param_3); }	int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }
bool opposite(int param_1,char param_2) { if (param_1 == 0x7d) { return param_2 == '{'; } if (param_1 < 0x7e) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 == 0x21) { return param_2 == 'i'; } if (param_1 == 0x69) { return param_2 == '!'; } } } return false; }	opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }
bool opposite(int param_1,char param_2) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 != 0x21) { return param_1 == 0x69 && param_2 == '!'; } return param_2 == 'i'; } return param_1 == 0x7d && param_2 == '{'; }	opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }
bool opposite(int param_1,char param_2) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 != 0x21) { return param_1 == 0x69 && param_2 == '!'; } return param_2 == 'i'; } return param_1 == 0x7d && param_2 == '{'; }	opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }
bool opposite(int param_1,char param_2) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 != 0x21) { return param_1 == 0x69 && param_2 == '!'; } return param_2 == 'i'; } return param_1 == 0x7d && param_2 == '{'; }	opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }
undefined8 CGPDFObjectRelease(undefined8 param_1) { __free_cf(param_1); return 0; }	void CGPDFObjectRelease(void* item) { __free_cf(item); }
undefined8 CGPDFObjectRelease(void) { __free_cf(); return 0; }	void CGPDFObjectRelease(void* item) { __free_cf(item); }
void CGPDFObjectRelease(void) { __free_cf(); return; }	void CGPDFObjectRelease(void* item) { __free_cf(item); }
void CGPDFObjectRelease(void) { __free_cf(); return; }	void CGPDFObjectRelease(void* item) { __free_cf(item); }
void alt_little_field_gather(void) { return; }	void alt_little_field_gather(_Complex double * w) { return; }
void alt_little_field_gather(void) { return; }	void alt_little_field_gather(_Complex double * w) { return; }
void alt_little_field_gather(void) { return; }	void alt_little_field_gather(_Complex double * w) { return; }
void alt_little_field_gather(void) { return; }	void alt_little_field_gather(_Complex double * w) { return; }
undefined [16] fresult(undefined8 param_1,undefined8 param_2) { int iVar1; undefined auVar2 [16]; iVar1 = do_farg(param_1,param_2,0); auVar2._0_8_ = (ulong)iVar1; auVar2._8_8_ = 0; return auVar2; }	static struct triple fresult(struct compile_state state, struct triple *func) { return do_farg(state, func, 0); }
undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); sqrt((double)iVar1); return 0; }	float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }
undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); if ((double)iVar1 < 0.0) { sqrt((double)iVar1); } return 0; }	float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }
undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); if ((double)iVar1 < 0.0) { sqrt((double)iVar1); } return 0; }	float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }
undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); if ((double)iVar1 < 0.0) { sqrt((double)iVar1); } return 0; }	float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }
void foo_2_1_1_2_1_2_1_1_2(void) { return; }	void foo_2_1_1_2_1_2_1_1_2() {}
void foo_2_1_1_2_1_2_1_1_2(void) { return; }	void foo_2_1_1_2_1_2_1_1_2() {}
void foo_2_1_1_2_1_2_1_1_2(void) { return; }	void foo_2_1_1_2_1_2_1_1_2() {}
void foo_2_1_1_2_1_2_1_1_2(void) { return; }	void foo_2_1_1_2_1_2_1_1_2() {}
undefined8 cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return 0; }	void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }
undefined8 cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return 0; }	void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }
void cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return; }	void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }
void cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return; }	void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }
undefined [16] fh_cli_insert(long param_1,int param_2,int param_3,undefined param_4) { int local_10; int local_c; local_c = 0; for (local_10 = param_2; param_3 < local_10; local_10 = local_10 + -1) { (undefined )(param_1 + local_10) = (undefined )(param_1 + (local_10 + -1)); } (undefined )(param_1 + param_3) = param_4; param_3 = param_3 + 1; param_2 = param_2 + 1; (undefined )(param_1 + param_2) = 0; for (local_10 = param_3; local_10 < param_2; local_10 = local_10 + 1) { fh_cli_write(&DAT_00100119,(int)(char )(param_1 + local_10)); local_c = local_c + 1; param_3 = param_3 + 1; } fh_cli_lmove(param_3,local_c); return ZEXT816(0); }	void fh_cli_insert(char cmd, int cmd_len, int pos, int c) { int i, cnt = 0; for (i=cmd_len; i>pos; i--) { cmd[i] = cmd[i-1]; } cmd[pos] = c; (pos)++; (cmd_len)++; cmd[cmd_len] = 0; for (i=(pos); i<(cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (pos)++; } fh_cli_lmove(pos, cnt); }
undefined [16] fh_cli_insert(long param_1,int param_2,int param_3,undefined param_4) { char pcVar1; int iVar2; undefined puVar3; char pcVar4; int iVar5; iVar2 = param_2; iVar5 = param_3; if (iVar5 < iVar2) { puVar3 = (undefined )(iVar2 + param_1); do { iVar2 = iVar2 + -1; puVar3 = (undefined )(param_1 + iVar2); iVar5 = param_3; puVar3 = puVar3 + -1; } while (iVar5 < iVar2); } (undefined )(param_1 + iVar5) = param_4; param_3 = param_3 + 1; iVar2 = param_2; param_2 = iVar2 + 1; (undefined )(param_1 + (iVar2 + 1)) = 0; iVar2 = param_3; if (iVar2 < param_2) { pcVar1 = (char )(param_1 + iVar2); do { pcVar4 = pcVar1; fh_cli_write(&_LC0,(int)pcVar4); param_3 = param_3 + 1; iVar5 = (int)(char )(param_1 + iVar2); pcVar1 = pcVar4 + 1; } while ((iVar2 - iVar5) + (int)(pcVar4 + 1) < param_2); iVar2 = ((int)pcVar4 - iVar5) + 1; } else { iVar2 = 0; } fh_cli_lmove(param_3,iVar2); return ZEXT816(0); }	void fh_cli_insert(char cmd, int cmd_len, int pos, int c) { int i, cnt = 0; for (i=cmd_len; i>pos; i--) { cmd[i] = cmd[i-1]; } cmd[pos] = c; (pos)++; (cmd_len)++; cmd[cmd_len] = 0; for (i=(pos); i<(cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (pos)++; } fh_cli_lmove(pos, cnt); }
void fh_cli_insert(long param_1,int param_2,int param_3,undefined param_4) { char pcVar1; int iVar2; undefined puVar3; char pcVar4; int iVar5; iVar2 = param_2; iVar5 = param_3; if (iVar5 < iVar2) { puVar3 = (undefined )(iVar2 + param_1); do { iVar2 = iVar2 + -1; puVar3 = (undefined )(param_1 + iVar2); iVar5 = param_3; puVar3 = puVar3 + -1; } while (iVar5 < iVar2); } (undefined )(param_1 + iVar5) = param_4; param_3 = param_3 + 1; iVar2 = param_2; param_2 = iVar2 + 1; (undefined )(param_1 + (iVar2 + 1)) = 0; iVar2 = param_3; if (iVar2 < param_2) { iVar5 = (int)(char )(param_1 + iVar2); pcVar1 = (char )(param_1 + iVar2); do { pcVar4 = pcVar1; fh_cli_write(&_LC0,(int)pcVar4); param_3 = param_3 + 1; pcVar1 = pcVar4 + 1; } while ((iVar2 - iVar5) + (int)(pcVar4 + 1) < param_2); iVar2 = ((int)pcVar4 - iVar5) + 1; } else { iVar2 = 0; } fh_cli_lmove(param_3,iVar2); return; }	void fh_cli_insert(char cmd, int cmd_len, int pos, int c) { int i, cnt = 0; for (i=cmd_len; i>pos; i--) { cmd[i] = cmd[i-1]; } cmd[pos] = c; (pos)++; (cmd_len)++; cmd[cmd_len] = 0; for (i=(pos); i<(cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (pos)++; } fh_cli_lmove(pos, cnt); }
void fh_cli_insert(long param_1,int param_2,int param_3,undefined param_4) { char pcVar1; int iVar2; undefined puVar3; char pcVar4; int iVar5; iVar2 = param_2; iVar5 = param_3; if (iVar5 < iVar2) { puVar3 = (undefined )(iVar2 + param_1); do { iVar2 = iVar2 + -1; puVar3 = (undefined )(param_1 + iVar2); iVar5 = param_3; puVar3 = puVar3 + -1; } while (iVar5 < iVar2); } (undefined )(param_1 + iVar5) = param_4; param_3 = param_3 + 1; iVar2 = param_2; param_2 = iVar2 + 1; (undefined )(param_1 + (iVar2 + 1)) = 0; iVar2 = param_3; if (iVar2 < param_2) { iVar5 = (int)(char )(param_1 + iVar2); pcVar1 = (char )(param_1 + iVar2); do { pcVar4 = pcVar1; fh_cli_write(&_LC0,(int)pcVar4); param_3 = param_3 + 1; pcVar1 = pcVar4 + 1; } while ((iVar2 - iVar5) + (int)(pcVar4 + 1) < param_2); iVar2 = ((int)pcVar4 - iVar5) + 1; } else { iVar2 = 0; } fh_cli_lmove(param_3,iVar2); return; }	void fh_cli_insert(char cmd, int cmd_len, int pos, int c) { int i, cnt = 0; for (i=cmd_len; i>pos; i--) { cmd[i] = cmd[i-1]; } cmd[pos] = c; (pos)++; (cmd_len)++; cmd[cmd_len] = 0; for (i=(pos); i<(cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (pos)++; } fh_cli_lmove(pos, cnt); }
undefined8 file_open(void) { return 0; }	struct file_desc * file_open(char * filename) { return 0; }
undefined8 file_open(void) { return 0; }	struct file_desc * file_open(char * filename) { return 0; }
undefined8 file_open(void) { return 0; }	struct file_desc * file_open(char * filename) { return 0; }
undefined8 file_open(void) { return 0; }	struct file_desc * file_open(char * filename) { return 0; }
void * memset(void __s,int __c,size_t __n) { void in_RAX; return in_RAX; }	void memset() {}
void * memset(void __s,int __c,size_t __n) { void in_RAX; return in_RAX; }	void memset() {}
void * memset(void __s,int __c,size_t __n) { void in_RAX; return in_RAX; }	void memset() {}
void * memset(void __s,int __c,size_t __n) { void in_RAX; return in_RAX; }	void memset() {}
double clamp(double param_1,double param_2,double param_3) { if ((param_2 <= param_1) && (param_2 = param_1, param_3 < param_1)) { param_2 = param_3; } return param_2; }	double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }
double clamp(double param_1,double param_2,double param_3) { if (param_2 <= param_1) { if (param_1 <= param_3) { param_3 = param_1; } return param_3; } return param_2; }	double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }
double clamp(double param_1,double param_2,double param_3) { if (param_2 <= param_1) { if (param_1 <= param_3) { param_3 = param_1; } return param_3; } return param_2; }	double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }
double clamp(double param_1,double param_2,double param_3) { if (param_2 <= param_1) { if (param_1 <= param_3) { param_3 = param_1; } return param_3; } return param_2; }	double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }
void foo641(void) { return; }	void foo641() {}
void foo641(void) { return; }	void foo641() {}
void foo641(void) { return; }	void foo641() {}
void foo641(void) { return; }	void foo641() {}
undefined8 test_imm_46uint32_reg(uint param_1) { undefined8 uVar1; if ((param_1 & 0x46) == 0) { uVar1 = 0xffffffd8; } else { uVar1 = 0xffffffec; } return uVar1; }	int test_imm_46uint32_reg (unsigned int val) { return ((val) & (0x46 << 0)) ? -20 : -40; }

undefined8 nonzeroMemseti32(void) { long in_FS_OFFSET; if (*(long *)(in_FS_OFFSET + 0x28) != *(long *)(in_FS_OFFSET + 0x28)) { /* WARNING: Subroutine does not return */ __stack_chk_fail(); } return 0; }

void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }

void nonzeroMemseti32(void) { return; }

void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }

void nonzeroMemseti32(void) { return; }

void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }

void nonzeroMemseti32(void) { return; }

void nonzeroMemseti32() { unsigned arr[9] = { 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, 0xF0F0F0F0, }; }

void xxx(void) { undefined4 local_c; for (local_c = 0; local_c < 10; local_c = local_c + 1) { } return; }

void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }

void xxx(void) { return; }

void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }

void xxx(void) { return; }

void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }

void xxx(void) { return; }

void xxx(int argc) { int map; #pragma omp target data map(map) for (int i = 0; i < 10; ++i) ; }

bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }

int main(void) { return (sbrk(0) != (void *)0); }

bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }

int main(void) { return (sbrk(0) != (void *)0); }

bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }

int main(void) { return (sbrk(0) != (void *)0); }

bool main(void) { void *pvVar1; pvVar1 = sbrk(0); return (int)pvVar1 != 0; }

int main(void) { return (sbrk(0) != (void *)0); }

undefined4 axp_set_ocv(void) { return 0; }

static int axp_set_ocv(void) { int ret = 0; return ret; }

undefined8 test_imm_04uint32_reg(uint param_1) { undefined8 uVar1; if ((param_1 & 4) == 0) { uVar1 = 0xffffffd8; } else { uVar1 = 0xffffffec; } return uVar1; }

int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }

int test_imm_04uint32_reg(uint param_1) { return (-(uint)((param_1 & 4) == 0) & 0xffffffec) - 0x14; }

int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }

int test_imm_04uint32_reg(uint param_1) { return (-(uint)((param_1 & 4) == 0) & 0xffffffec) - 0x14; }

int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }

int test_imm_04uint32_reg(uint param_1) { return (-(uint)((param_1 & 4) == 0) & 0xffffffec) - 0x14; }

int test_imm_04uint32_reg (unsigned int val) { return ((val) & (0x04 << 0)) ? -20 : -40; }

void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }

extern int sha256cmp(unsigned char *digest1, unsigned char *digest2) { return (_digest_cmp(digest1, digest2, 32)); }

void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }

extern int sha256cmp(unsigned char *digest1, unsigned char *digest2) { return (_digest_cmp(digest1, digest2, 32)); }

void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }

extern int sha256cmp(unsigned char *digest1, unsigned char *digest2) { return (_digest_cmp(digest1, digest2, 32)); }

void sha256cmp(undefined8 param_1,undefined8 param_2) { _digest_cmp(param_1,param_2,0x20); return; }

extern int sha256cmp(unsigned char *digest1, unsigned char *digest2) { return (_digest_cmp(digest1, digest2, 32)); }

uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 | param_1; }

int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut | (gain << 16)); }

uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 | param_1; }

int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut | (gain << 16)); }

uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 | param_1; }

int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut | (gain << 16)); }

uint BS2BCalculateflevel(uint param_1,int param_2) { return param_2 << 0x10 | param_1; }

int BS2BCalculateflevel(unsigned int fcut, unsigned int gain) { return (int)(fcut | (gain << 16)); }

undefined8 log_close(void) { closelog(); return 0; }

void log_close() { return closelog(); }

undefined8 log_close(void) { closelog(); return 0; }

void log_close() { return closelog(); }

void log_close(void) { closelog(); return; }

void log_close() { return closelog(); }

void log_close(void) { closelog(); return; }

void log_close() { return closelog(); }

undefined [16] rss(int param_1,int param_2) { long lVar1; long lVar2; undefined auVar3 [16]; undefined8 local_20; if (param_1 < 1) { param_1 = -param_1; } lVar1 = (long)param_1; if (param_2 < 1) { param_2 = -param_2; } lVar2 = (long)param_2; if ((lVar1 == 0) && (lVar2 == 0)) { local_20 = 0; } else if (lVar2 < lVar1) { local_20 = lVar1 + (lVar2 >> 1); } else { local_20 = lVar2 + (lVar1 >> 1); } auVar3._8_8_ = 0; auVar3._0_8_ = local_20; return auVar3; }

static long rss (long a, long b) { long result, c, d; c = abs (a); d = abs (b); if (c == 0 && d == 0) result = 0; else { if (c > d) result = (d >> 1) + c; else result = (c >> 1) + d; } return (result); }

undefined8 clear_command(void) { clear_variables(); return 0; }

void clear_command(void) { clear_variables(); }

undefined8 clear_command(void) { clear_variables(); return 0; }

void clear_command(void) { clear_variables(); }

void clear_command(void) { clear_variables(); return; }

void clear_command(void) { clear_variables(); }

void clear_command(void) { clear_variables(); return; }

void clear_command(void) { clear_variables(); }

undefined4 print(long param_1,int param_2,int param_3) { int local_10; int local_c; local_10 = 0; while (local_10 < param_2) { for (local_c = 0; local_c < param_3; local_c = local_c + 1) { printf("%4d",(ulong)*(uint *)((long)local_10 * 0x10 + param_1 + (long)local_c * 4)); } local_10 = local_10 + 1; putchar(10); } return 0; }

void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }

undefined4 print(long param_1,int param_2,int param_3) { uint *puVar1; uint *puVar2; long lVar3; if (param_2 < 1) { return 0; } lVar3 = (long)param_3; puVar2 = (uint *)(param_1 + lVar3 * 4); do { puVar1 = puVar2 + -lVar3; if (0 < param_3) { do { printf("%4d",(ulong)*puVar1); puVar1 = puVar1 + 1; } while (puVar1 != puVar2); } putchar(10); puVar2 = puVar2 + 4; } while (puVar2 != (uint *)(param_1 + (lVar3 + (long)param_2 * 4) * 4)); return 0; }

void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }

undefined4 print(long param_1,int param_2,int param_3) { uint *puVar1; uint uVar2; long lVar3; uint *puVar4; uint *puVar5; if (param_2 < 1) { return 0; } lVar3 = (long)param_3; puVar1 = (uint *)(param_1 + (lVar3 + (long)param_2 * 4) * 4); puVar5 = (uint *)(lVar3 * 4 + param_1); do { if (0 < param_3) { do { puVar4 = puVar5 + -lVar3; do { uVar2 = *puVar4; puVar4 = puVar4 + 1; printf("%4d",(ulong)uVar2); } while (puVar4 != puVar5); puVar5 = puVar5 + 4; putchar(10); } while (puVar5 != puVar1); return 0; } puVar5 = puVar5 + 4; putchar(10); } while (puVar5 != puVar1); return 0; }

void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }

undefined4 print(long param_1,int param_2,int param_3) { uint *puVar1; uint uVar2; uint *puVar3; uint *puVar4; if (param_2 < 1) { return 0; } puVar3 = (uint *)(param_1 + 0x14); puVar1 = puVar3 + (long)param_2 * 4; do { if (0 < param_3) { do { printf("%4d",(ulong)puVar3[-5]); if (param_3 != 1) { printf("%4d",(ulong)puVar3[-4]); if (param_3 != 2) { printf("%4d",(ulong)puVar3[-3]); if (param_3 != 3) { printf("%4d",(ulong)puVar3[-2]); if (param_3 != 4) { printf("%4d",(ulong)puVar3[-1]); if (param_3 != 5) { puVar4 = puVar3; do { uVar2 = *puVar4; puVar4 = puVar4 + 1; printf("%4d",(ulong)uVar2); } while (puVar4 != puVar3 + (ulong)(param_3 - 6) + 1); } } } } } puVar3 = puVar3 + 4; putchar(10); } while (puVar3 != puVar1); return 0; } puVar3 = puVar3 + 4; putchar(10); } while (puVar3 != puVar1); return 0; }

void print(int(*p)[4],int row,int col) { int i,j; for(i=0;i<row;i++,printf("\n")) for(j=0;j<col;j++) printf("%4d",p[i][j]); }

int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char local_18 [3]; undefined local_15 [5]; long local_10; local_10 = *(long *)(in_FS_OFFSET + 0x28); sprintf(local_18,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_15,param_3); iVar1 = mls_conf_set(param_1,local_18,local_15); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_10 != *(long *)(in_FS_OFFSET + 0x28)) { /* WARNING: Subroutine does not return */ __stack_chk_fail(); } return iVar1; }

int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }

int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char acStack_28 [3]; undefined local_25 [5]; long local_20; local_20 = *(long *)(in_FS_OFFSET + 0x28); sprintf(acStack_28,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_25,param_3); iVar1 = mls_conf_set(param_1,acStack_28,local_25); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_20 == *(long *)(in_FS_OFFSET + 0x28)) { return iVar1; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }

int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }

int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char acStack_28 [3]; undefined local_25 [5]; long local_20; local_20 = *(long *)(in_FS_OFFSET + 0x28); sprintf(acStack_28,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_25,param_3); iVar1 = mls_conf_set(param_1,acStack_28,local_25); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_20 == *(long *)(in_FS_OFFSET + 0x28)) { return iVar1; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }

int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }

int mls_type_data_put_ushort(undefined8 param_1,byte param_2,undefined2 param_3) { int iVar1; long in_FS_OFFSET; char acStack_28 [3]; undefined local_25 [5]; long local_20; local_20 = *(long *)(in_FS_OFFSET + 0x28); sprintf(acStack_28,"%02X",(ulong)param_2); mls_type_data_ushort_to_str(local_25,param_3); iVar1 = mls_conf_set(param_1,acStack_28,local_25); if (iVar1 == 0) { mls_conf_store(param_1); } if (local_20 == *(long *)(in_FS_OFFSET + 0x28)) { return iVar1; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }

int mls_type_data_put_ushort(struct mls_conf* storage, unsigned char epc, unsigned short inb) { int ret = 0; char key[2+1]; char val[2*2+1]; sprintf(key, "%02X", epc); mls_type_data_ushort_to_str(val, inb); ret = mls_conf_set(storage, key, val); if (ret != 0) { goto out; } mls_conf_store(storage); out: return ret; }

void main(int param_1,undefined8 *param_2) { int iVar1; uint uVar2; uint local_18; uint local_14; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",*param_2); /* WARNING: Subroutine does not return */ exit(0); } iVar1 = atoi((char *)param_2[1]); local_18 = 0; local_14 = 1; while ((int)local_14 < iVar1) { uVar2 = local_14 + local_18; local_18 = local_14; printf(" %d ",(ulong)local_14); local_14 = uVar2; } return; }

void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }

void main(int param_1,undefined8 *param_2) { int iVar1; uint uVar2; uint uVar3; uint uVar4; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",*param_2); /* WARNING: Subroutine does not return */ exit(0); } iVar1 = atoi((char *)param_2[1]); if (1 < iVar1) { uVar4 = 1; uVar2 = 0; do { uVar3 = uVar4; uVar4 = uVar3 + uVar2; printf(" %d ",(ulong)uVar3); uVar2 = uVar3; } while ((int)uVar4 < iVar1); } return; }

void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }

undefined8 main(int param_1,undefined8 *param_2) { int iVar1; uint uVar2; uint uVar3; uint uVar4; undefined8 uStack_28; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",*param_2); /* WARNING: Subroutine does not return */ exit(0); } iVar1 = atoi((char *)param_2[1]); if (1 < iVar1) { uVar2 = 0; uVar3 = 1; do { uVar4 = uVar3 + uVar2; printf(" %d ",(ulong)uVar3); uVar2 = uVar3; uVar3 = uVar4; } while ((int)uVar4 < iVar1); } return uStack_28; }

void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }

undefined8 main(int param_1,undefined8 *param_2) { int iVar1; uint uVar2; uint uVar3; uint uVar4; undefined8 uStack_28; if (param_1 != 2) { printf("\nUsage: %s n.\nExiting.",*param_2); /* WARNING: Subroutine does not return */ exit(0); } iVar1 = atoi((char *)param_2[1]); if (1 < iVar1) { uVar2 = 0; uVar3 = 1; do { uVar4 = uVar3 + uVar2; printf(" %d ",(ulong)uVar3); uVar2 = uVar3; uVar3 = uVar4; } while ((int)uVar4 < iVar1); } return uStack_28; }

void main(int argc, char *argv[]){ int N; int a=0,b=1, temp =0; if(argc != 2){ printf("\nUsage: %s n.\nExiting.", argv[0]); exit(0); } N = atoi(argv[1]); a = 0; b = 1; while(b < N){ temp = a+b; a = b; b = temp; printf(" %d ", a); } }

undefined8 distance(double *param_1,double *param_2) { sqrt((*param_1 - *param_2) * (*param_1 - *param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1]) + (param_1[2] - param_2[2]) * (param_1[2] - param_2[2])); return 0; }

double distance(double *A, double *B) { return sqrt((A[0] - B[0])*(A[0] - B[0]) + (A[1] - B[1])*(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }

double distance(double *param_1,double *param_2) { return SQRT((param_1[2] - param_2[2]) * (param_1[2] - param_2[2]) + (*param_1 - *param_2) * (*param_1 - *param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1])); }

double distance(double *A, double *B) { return sqrt((A[0] - B[0])*(A[0] - B[0]) + (A[1] - B[1])*(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }

double distance(double *param_1,double *param_2) { return SQRT((param_1[2] - param_2[2]) * (param_1[2] - param_2[2]) + (*param_1 - *param_2) * (*param_1 - *param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1])); }

double distance(double *A, double *B) { return sqrt((A[0] - B[0])*(A[0] - B[0]) + (A[1] - B[1])*(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }

double distance(double *param_1,double *param_2) { return SQRT((param_1[2] - param_2[2]) * (param_1[2] - param_2[2]) + (*param_1 - *param_2) * (*param_1 - *param_2) + (param_1[1] - param_2[1]) * (param_1[1] - param_2[1])); }

double distance(double *A, double *B) { return sqrt((A[0] - B[0])*(A[0] - B[0]) + (A[1] - B[1])*(A[1] - B[1]) + (A[2] - B[2])*(A[2] - B[2])); }

int writen(int param_1,void *param_2,uint param_3) { int iVar1; ssize_t sVar2; uint local_30; local_30 = param_3; while( true ) { if ((int)local_30 < 1) { return param_3 - local_30; } sVar2 = write(param_1,param_2,(ulong)local_30); iVar1 = (int)sVar2; if (iVar1 < 1) break; local_30 = local_30 - iVar1; param_2 = (void *)((long)param_2 + (long)iVar1); } return iVar1; }

int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }

undefined [16] writen(int param_1,void *param_2,uint param_3) { int iVar1; ulong uVar2; uint uVar3; size_t __n; undefined auVar4 [16]; uVar3 = param_3; if (0 < (int)param_3) { __n = (size_t)param_3; do { uVar2 = write(param_1,param_2,__n); iVar1 = (int)uVar2; if (iVar1 < 1) goto LAB_0010003f; uVar3 = (int)__n - iVar1; __n = (size_t)uVar3; param_2 = (void *)((long)param_2 + (long)iVar1); } while (0 < (int)uVar3); } uVar2 = (ulong)(param_3 - uVar3); LAB_0010003f: auVar4._8_8_ = 0; auVar4._0_8_ = uVar2; return auVar4; }

int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }

undefined [16] writen(int param_1,void *param_2,uint param_3) { int iVar1; uint uVar2; size_t __n; undefined auVar3 [16]; if ((int)param_3 < 1) { return ZEXT816(0); } __n = (size_t)param_3; while( true ) { auVar3._0_8_ = write(param_1,param_2,__n); iVar1 = (int)auVar3._0_8_; if (iVar1 < 1) { auVar3._8_8_ = 0; return auVar3; } uVar2 = (int)__n - iVar1; param_2 = (void *)((long)param_2 + (long)iVar1); if ((int)uVar2 < 1) break; __n = (size_t)uVar2; } return ZEXT416((iVar1 - (int)__n) + param_3); }

int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }

undefined [16] writen(int param_1,void *param_2,uint param_3) { int iVar1; uint uVar2; size_t __n; undefined auVar3 [16]; if ((int)param_3 < 1) { return ZEXT816(0); } __n = (size_t)param_3; while( true ) { auVar3._0_8_ = write(param_1,param_2,__n); iVar1 = (int)auVar3._0_8_; if (iVar1 < 1) { auVar3._8_8_ = 0; return auVar3; } uVar2 = (int)__n - iVar1; param_2 = (void *)((long)param_2 + (long)iVar1); if ((int)uVar2 < 1) break; __n = (size_t)uVar2; } return ZEXT416((iVar1 - (int)__n) + param_3); }

int writen(fd, ptr, nbytes) register int fd; register char *ptr; register int nbytes; { int nleft, nwritten; nleft = nbytes; while (nleft > 0) { nwritten = write(fd, ptr, nleft); if (nwritten <= 0) return(nwritten); nleft -= nwritten; ptr += nwritten; } return(nbytes - nleft); }

bool opposite(int param_1,char param_2) { if (param_1 == 0x7d) { return param_2 == '{'; } if (param_1 < 0x7e) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 == 0x21) { return param_2 == 'i'; } if (param_1 == 0x69) { return param_2 == '!'; } } } return false; }

opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }

bool opposite(int param_1,char param_2) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 != 0x21) { return param_1 == 0x69 && param_2 == '!'; } return param_2 == 'i'; } return param_1 == 0x7d && param_2 == '{'; }

opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }

bool opposite(int param_1,char param_2) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 != 0x21) { return param_1 == 0x69 && param_2 == '!'; } return param_2 == 'i'; } return param_1 == 0x7d && param_2 == '{'; }

opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }

bool opposite(int param_1,char param_2) { if (param_1 == 0x7b) { return param_2 == '}'; } if (param_1 < 0x7c) { if (param_1 != 0x21) { return param_1 == 0x69 && param_2 == '!'; } return param_2 == 'i'; } return param_1 == 0x7d && param_2 == '{'; }

opposite(face, dir) int face; char dir; { switch (face) { case '{': return (dir == '}'); case '}': return (dir == '{'); case 'i': return (dir == '!'); case '!': return (dir == 'i'); default: return 0; } }

undefined8 CGPDFObjectRelease(undefined8 param_1) { __free_cf(param_1); return 0; }

void CGPDFObjectRelease(void* item) { __free_cf(item); }

undefined8 CGPDFObjectRelease(void) { __free_cf(); return 0; }

void CGPDFObjectRelease(void* item) { __free_cf(item); }

void CGPDFObjectRelease(void) { __free_cf(); return; }

void CGPDFObjectRelease(void* item) { __free_cf(item); }

void CGPDFObjectRelease(void) { __free_cf(); return; }

void CGPDFObjectRelease(void* item) { __free_cf(item); }

void alt_little_field_gather(void) { return; }

void alt_little_field_gather(_Complex double * w) { return; }

void alt_little_field_gather(void) { return; }

void alt_little_field_gather(_Complex double * w) { return; }

void alt_little_field_gather(void) { return; }

void alt_little_field_gather(_Complex double * w) { return; }

void alt_little_field_gather(void) { return; }

void alt_little_field_gather(_Complex double * w) { return; }

undefined [16] fresult(undefined8 param_1,undefined8 param_2) { int iVar1; undefined auVar2 [16]; iVar1 = do_farg(param_1,param_2,0); auVar2._0_8_ = (ulong)iVar1; auVar2._8_8_ = 0; return auVar2; }

static struct triple *fresult(struct compile_state *state, struct triple *func) { return do_farg(state, func, 0); }

undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); sqrt((double)iVar1); return 0; }

float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }

undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); if ((double)iVar1 < 0.0) { sqrt((double)iVar1); } return 0; }

float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }

undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); if ((double)iVar1 < 0.0) { sqrt((double)iVar1); } return 0; }

float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }

undefined8 SmithG(float param_1,float param_2) { int iVar1; iVar1 = lerp((double)(param_1 * param_1),(double)(param_2 * param_2),1); if ((double)iVar1 < 0.0) { sqrt((double)iVar1); } return 0; }

float SmithG(float NdotV, float alpha) { float a = alpha * alpha; float b = NdotV * NdotV; return (2.f * NdotV) / (NdotV + sqrt(lerp(b, 1, a))); }

void foo_2_1_1_2_1_2_1_1_2(void) { return; }

void foo_2_1_1_2_1_2_1_1_2() {}

void foo_2_1_1_2_1_2_1_1_2(void) { return; }

void foo_2_1_1_2_1_2_1_1_2() {}

void foo_2_1_1_2_1_2_1_1_2(void) { return; }

void foo_2_1_1_2_1_2_1_1_2() {}

void foo_2_1_1_2_1_2_1_1_2(void) { return; }

void foo_2_1_1_2_1_2_1_1_2() {}

undefined8 cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return 0; }

void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }

undefined8 cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return 0; }

void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }

void cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return; }

void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }

void cmd_set_zip_out_level(void) { send_error("can\'t set compression level - no libz support!"); return; }

void cmd_set_zip_out_level(struct ctrl_command *cmd) { send_error("can't set compression level - no libz support!"); }

undefined [16] fh_cli_insert(long param_1,int *param_2,int *param_3,undefined param_4) { int local_10; int local_c; local_c = 0; for (local_10 = *param_2; *param_3 < local_10; local_10 = local_10 + -1) { *(undefined *)(param_1 + local_10) = *(undefined *)(param_1 + (local_10 + -1)); } *(undefined *)(param_1 + *param_3) = param_4; *param_3 = *param_3 + 1; *param_2 = *param_2 + 1; *(undefined *)(param_1 + *param_2) = 0; for (local_10 = *param_3; local_10 < *param_2; local_10 = local_10 + 1) { fh_cli_write(&DAT_00100119,(int)*(char *)(param_1 + local_10)); local_c = local_c + 1; *param_3 = *param_3 + 1; } fh_cli_lmove(param_3,local_c); return ZEXT816(0); }

void fh_cli_insert(char *cmd, int *cmd_len, int *pos, int c) { int i, cnt = 0; for (i=*cmd_len; i>*pos; i--) { cmd[i] = cmd[i-1]; } cmd[*pos] = c; (*pos)++; (*cmd_len)++; cmd[*cmd_len] = 0; for (i=(*pos); i<(*cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (*pos)++; } fh_cli_lmove(pos, cnt); }

undefined [16] fh_cli_insert(long param_1,int *param_2,int *param_3,undefined param_4) { char *pcVar1; int iVar2; undefined *puVar3; char *pcVar4; int iVar5; iVar2 = *param_2; iVar5 = *param_3; if (iVar5 < iVar2) { puVar3 = (undefined *)(iVar2 + param_1); do { iVar2 = iVar2 + -1; *puVar3 = *(undefined *)(param_1 + iVar2); iVar5 = *param_3; puVar3 = puVar3 + -1; } while (iVar5 < iVar2); } *(undefined *)(param_1 + iVar5) = param_4; *param_3 = *param_3 + 1; iVar2 = *param_2; *param_2 = iVar2 + 1; *(undefined *)(param_1 + (iVar2 + 1)) = 0; iVar2 = *param_3; if (iVar2 < *param_2) { pcVar1 = (char *)(param_1 + iVar2); do { pcVar4 = pcVar1; fh_cli_write(&_LC0,(int)*pcVar4); *param_3 = *param_3 + 1; iVar5 = (int)(char *)(param_1 + iVar2); pcVar1 = pcVar4 + 1; } while ((iVar2 - iVar5) + (int)(pcVar4 + 1) < *param_2); iVar2 = ((int)pcVar4 - iVar5) + 1; } else { iVar2 = 0; } fh_cli_lmove(param_3,iVar2); return ZEXT816(0); }

void fh_cli_insert(char *cmd, int *cmd_len, int *pos, int c) { int i, cnt = 0; for (i=*cmd_len; i>*pos; i--) { cmd[i] = cmd[i-1]; } cmd[*pos] = c; (*pos)++; (*cmd_len)++; cmd[*cmd_len] = 0; for (i=(*pos); i<(*cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (*pos)++; } fh_cli_lmove(pos, cnt); }

void fh_cli_insert(long param_1,int *param_2,int *param_3,undefined param_4) { char *pcVar1; int iVar2; undefined *puVar3; char *pcVar4; int iVar5; iVar2 = *param_2; iVar5 = *param_3; if (iVar5 < iVar2) { puVar3 = (undefined *)(iVar2 + param_1); do { iVar2 = iVar2 + -1; *puVar3 = *(undefined *)(param_1 + iVar2); iVar5 = *param_3; puVar3 = puVar3 + -1; } while (iVar5 < iVar2); } *(undefined *)(param_1 + iVar5) = param_4; *param_3 = *param_3 + 1; iVar2 = *param_2; *param_2 = iVar2 + 1; *(undefined *)(param_1 + (iVar2 + 1)) = 0; iVar2 = *param_3; if (iVar2 < *param_2) { iVar5 = (int)(char *)(param_1 + iVar2); pcVar1 = (char *)(param_1 + iVar2); do { pcVar4 = pcVar1; fh_cli_write(&_LC0,(int)*pcVar4); *param_3 = *param_3 + 1; pcVar1 = pcVar4 + 1; } while ((iVar2 - iVar5) + (int)(pcVar4 + 1) < *param_2); iVar2 = ((int)pcVar4 - iVar5) + 1; } else { iVar2 = 0; } fh_cli_lmove(param_3,iVar2); return; }

void fh_cli_insert(char *cmd, int *cmd_len, int *pos, int c) { int i, cnt = 0; for (i=*cmd_len; i>*pos; i--) { cmd[i] = cmd[i-1]; } cmd[*pos] = c; (*pos)++; (*cmd_len)++; cmd[*cmd_len] = 0; for (i=(*pos); i<(*cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (*pos)++; } fh_cli_lmove(pos, cnt); }

void fh_cli_insert(long param_1,int *param_2,int *param_3,undefined param_4) { char *pcVar1; int iVar2; undefined *puVar3; char *pcVar4; int iVar5; iVar2 = *param_2; iVar5 = *param_3; if (iVar5 < iVar2) { puVar3 = (undefined *)(iVar2 + param_1); do { iVar2 = iVar2 + -1; *puVar3 = *(undefined *)(param_1 + iVar2); iVar5 = *param_3; puVar3 = puVar3 + -1; } while (iVar5 < iVar2); } *(undefined *)(param_1 + iVar5) = param_4; *param_3 = *param_3 + 1; iVar2 = *param_2; *param_2 = iVar2 + 1; *(undefined *)(param_1 + (iVar2 + 1)) = 0; iVar2 = *param_3; if (iVar2 < *param_2) { iVar5 = (int)(char *)(param_1 + iVar2); pcVar1 = (char *)(param_1 + iVar2); do { pcVar4 = pcVar1; fh_cli_write(&_LC0,(int)*pcVar4); *param_3 = *param_3 + 1; pcVar1 = pcVar4 + 1; } while ((iVar2 - iVar5) + (int)(pcVar4 + 1) < *param_2); iVar2 = ((int)pcVar4 - iVar5) + 1; } else { iVar2 = 0; } fh_cli_lmove(param_3,iVar2); return; }

void fh_cli_insert(char *cmd, int *cmd_len, int *pos, int c) { int i, cnt = 0; for (i=*cmd_len; i>*pos; i--) { cmd[i] = cmd[i-1]; } cmd[*pos] = c; (*pos)++; (*cmd_len)++; cmd[*cmd_len] = 0; for (i=(*pos); i<(*cmd_len); i++) { fh_cli_write("%c", cmd[i]); cnt++; (*pos)++; } fh_cli_lmove(pos, cnt); }

undefined8 file_open(void) { return 0; }

struct file_desc * file_open(char * filename) { return 0; }

undefined8 file_open(void) { return 0; }

struct file_desc * file_open(char * filename) { return 0; }

undefined8 file_open(void) { return 0; }

struct file_desc * file_open(char * filename) { return 0; }

undefined8 file_open(void) { return 0; }

struct file_desc * file_open(char * filename) { return 0; }

void * memset(void *__s,int __c,size_t __n) { void *in_RAX; return in_RAX; }

void memset() {}

void * memset(void *__s,int __c,size_t __n) { void *in_RAX; return in_RAX; }

void memset() {}

void * memset(void *__s,int __c,size_t __n) { void *in_RAX; return in_RAX; }

void memset() {}

void * memset(void *__s,int __c,size_t __n) { void *in_RAX; return in_RAX; }

void memset() {}

double clamp(double param_1,double param_2,double param_3) { if ((param_2 <= param_1) && (param_2 = param_1, param_3 < param_1)) { param_2 = param_3; } return param_2; }

double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }

double clamp(double param_1,double param_2,double param_3) { if (param_2 <= param_1) { if (param_1 <= param_3) { param_3 = param_1; } return param_3; } return param_2; }

double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }

double clamp(double param_1,double param_2,double param_3) { if (param_2 <= param_1) { if (param_1 <= param_3) { param_3 = param_1; } return param_3; } return param_2; }

double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }

double clamp(double param_1,double param_2,double param_3) { if (param_2 <= param_1) { if (param_1 <= param_3) { param_3 = param_1; } return param_3; } return param_2; }

double clamp( double v, double min, double max ) { if ( v < min ) { return min; } if ( v > max ) { return max; } return v; }

void foo641(void) { return; }

void foo641() {}

void foo641(void) { return; }

void foo641() {}

void foo641(void) { return; }

void foo641() {}

void foo641(void) { return; }

void foo641() {}

undefined8 test_imm_46uint32_reg(uint param_1) { undefined8 uVar1; if ((param_1 & 0x46) == 0) { uVar1 = 0xffffffd8; } else { uVar1 = 0xffffffec; } return uVar1; }

int test_imm_46uint32_reg (unsigned int val) { return ((val) & (0x46 << 0)) ? -20 : -40; }