decomp stringlengths 0 152k | original stringlengths 14 1.4M |
|---|---|
undefined8 main(void)
{
long in_FS_OFFSET;
char local_13 [3];
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
local_13[2] = 0x43;
local_13[0] = 'A';
local_13[1] = 'B';
puts(local_13);
if (local_10 == *(long *)(in_FS_OFFSET + 0x28)) {
return 0;
}
/* WARNING: Subr... | int main(void)
{
char slide_a[] = "Hello";
char dont[] = {'A', 'B', 'C'};
char slide_b[] = "World";
puts(dont);
return 0;
} |
undefined8 main(void)
{
long in_FS_OFFSET;
char local_13 [3];
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
local_13[2] = 0x43;
local_13[0] = 'A';
local_13[1] = 'B';
puts(local_13);
if (local_10 == *(long *)(in_FS_OFFSET + 0x28)) {
return 0;
}
/* WARNING: Subr... | int main(void)
{
char slide_a[] = "Hello";
char dont[] = {'A', 'B', 'C'};
char slide_b[] = "World";
puts(dont);
return 0;
} |
undefined8 MCD_getCodeSize(void)
{
return 0x1748;
} | int MCD_getCodeSize(void)
{
return(0x1748);
} |
undefined8 MCD_getCodeSize(void)
{
return 0x1748;
} | int MCD_getCodeSize(void)
{
return(0x1748);
} |
undefined8 MCD_getCodeSize(void)
{
return 0x1748;
} | int MCD_getCodeSize(void)
{
return(0x1748);
} |
undefined8 MCD_getCodeSize(void)
{
return 0x1748;
} | int MCD_getCodeSize(void)
{
return(0x1748);
} |
undefined8 main(void)
{
long in_FS_OFFSET;
int local_2c;
int local_28;
int local_24;
void *local_20;
void *local_18;
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
printf(&DAT_00100170);
scanf("%d",&local_2c);
local_20 = calloc((long)local_2c,4);
printf(&DAT_001001a8);
scanf("%d... | int main() {
int*n,*p;
int i,n1,n2;
printf("请输入所要创建的动态数组的长度:");
scanf("%d",&n1);
n=(int*)calloc(n1,sizeof(int));
printf("请输入所要扩展的动态数组的长度:");
scanf("%d",&n2);
p=(int*)realloc(n,(n2)*sizeof(int));
for(i=0; i<n2; i++) {
p[i]=i+1;
if(i%5==0)
printf("\n");
... |
undefined8 main(void)
{
void *__ptr;
uint *__ptr_00;
int iVar1;
uint uVar2;
ulong uVar3;
uint *puVar4;
long in_FS_OFFSET;
int local_38;
int local_34;
long local_30;
local_30 = *(long *)(in_FS_OFFSET + 0x28);
printf(&_LC0);
scanf("%d",&local_38);
__ptr = calloc((long)local_38,4);
printf... | int main() {
int*n,*p;
int i,n1,n2;
printf("请输入所要创建的动态数组的长度:");
scanf("%d",&n1);
n=(int*)calloc(n1,sizeof(int));
printf("请输入所要扩展的动态数组的长度:");
scanf("%d",&n2);
p=(int*)realloc(n,(n2)*sizeof(int));
for(i=0; i<n2; i++) {
p[i]=i+1;
if(i%5==0)
printf("\n");
... |
undefined8 main(void)
{
void *__ptr;
uint *__ptr_00;
int iVar1;
uint uVar2;
ulong uVar3;
uint *puVar4;
long in_FS_OFFSET;
int local_38;
int local_34;
long local_30;
local_30 = *(long *)(in_FS_OFFSET + 0x28);
printf(&_LC0);
scanf("%d",&local_38);
__ptr = calloc((long)local_38,4);
printf... | int main() {
int*n,*p;
int i,n1,n2;
printf("请输入所要创建的动态数组的长度:");
scanf("%d",&n1);
n=(int*)calloc(n1,sizeof(int));
printf("请输入所要扩展的动态数组的长度:");
scanf("%d",&n2);
p=(int*)realloc(n,(n2)*sizeof(int));
for(i=0; i<n2; i++) {
p[i]=i+1;
if(i%5==0)
printf("\n");
... |
undefined8 main(void)
{
int iVar1;
uint uVar2;
void *__ptr;
uint *__ptr_00;
uint uVar3;
uint *puVar4;
long in_FS_OFFSET;
int local_38;
int local_34;
long local_30;
local_30 = *(long *)(in_FS_OFFSET + 0x28);
printf(&_LC0);
scanf("%d",&local_38);
__ptr = calloc((long)local_38,4);
printf(... | int main() {
int*n,*p;
int i,n1,n2;
printf("请输入所要创建的动态数组的长度:");
scanf("%d",&n1);
n=(int*)calloc(n1,sizeof(int));
printf("请输入所要扩展的动态数组的长度:");
scanf("%d",&n2);
p=(int*)realloc(n,(n2)*sizeof(int));
for(i=0; i<n2; i++) {
p[i]=i+1;
if(i%5==0)
printf("\n");
... |
void main(void)
{
undefined4 local_10;
undefined4 local_c;
for (local_10 = 0; local_10 < 10; local_10 = local_10 + 1) {
for (local_c = 0; local_c < 10; local_c = local_c + 1) {
}
}
return;
} | void main()
{
int z = 0;
for (int i=0; i<10 ; i++)
{
z = z+1;
for (int j = 0; j < 10 ; j++) ;
z = z+1;
}
return ;
} |
void main(void)
{
return;
} | void main()
{
int z = 0;
for (int i=0; i<10 ; i++)
{
z = z+1;
for (int j = 0; j < 10 ; j++) ;
z = z+1;
}
return ;
} |
void main(void)
{
return;
} | void main()
{
int z = 0;
for (int i=0; i<10 ; i++)
{
z = z+1;
for (int j = 0; j < 10 ; j++) ;
z = z+1;
}
return ;
} |
void main(void)
{
return;
} | void main()
{
int z = 0;
for (int i=0; i<10 ; i++)
{
z = z+1;
for (int j = 0; j < 10 ; j++) ;
z = z+1;
}
return ;
} |
void RTMemCacheDestroy(void)
{
return;
} | void RTMemCacheDestroy(void){} |
void RTMemCacheDestroy(void)
{
return;
} | void RTMemCacheDestroy(void){} |
void RTMemCacheDestroy(void)
{
return;
} | void RTMemCacheDestroy(void){} |
void RTMemCacheDestroy(void)
{
return;
} | void RTMemCacheDestroy(void){} |
undefined [16] early_serial_write(char *param_1,int param_2)
{
int local_14;
char *local_10;
local_14 = param_2;
for (local_10 = param_1; *local_10 != '\0'; local_10 = local_10 + 1) {
if (local_14 == 0) break;
if (*local_10 == '\n') {
early_serial_putc(0xd);
}
early_serial_putc((int)*... | static void early_serial_write(const char *s, unsigned n)
{
while (*s && n-- > 0) {
if (*s == '\n')
early_serial_putc('\r');
early_serial_putc(*s);
s++;
}
} |
bool main(void)
{
return DAT_00100068 + 3.0 == 0.0;
} | int main(void)
{
int x = 3;
float y = x + 1.0f;
float a = 2.2f;
int b = (int)a;
long int lb = (long int)b;
return y == 0.0f;
} |
undefined8 main(void)
{
return 0;
} | int main(void)
{
int x = 3;
float y = x + 1.0f;
float a = 2.2f;
int b = (int)a;
long int lb = (long int)b;
return y == 0.0f;
} |
undefined8 main(void)
{
return 0;
} | int main(void)
{
int x = 3;
float y = x + 1.0f;
float a = 2.2f;
int b = (int)a;
long int lb = (long int)b;
return y == 0.0f;
} |
undefined8 main(void)
{
return 0;
} | int main(void)
{
int x = 3;
float y = x + 1.0f;
float a = 2.2f;
int b = (int)a;
long int lb = (long int)b;
return y == 0.0f;
} |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined [16]
spline(double param_1,double param_2,double *param_3,double *param_4,int param_5,double *param_6)
{
int iVar1;
double *__ptr;
double dVar2;
double dVar3;
int local_40;
int local_3c;
double local_38;
do... | void spline(double x[], double y[], int n, double yp1, double yp2, double y2[])
{
char *func = {"spline(): "};
int i,k;
double p,qn,sig,un,*u;
u = (double *)mem_alloc((n) * sizeof(double), func, "u[]");
if(yp1 > 1.0E15) y2[0] = u[0] = 0.0;
else {
y2[0] = -0.5;
u[0] = (3.0/(x[1] - x[0])) ... |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined [16]
spline(double param_1,double param_2,double *param_3,double *param_4,int param_5,undefined8 *param_6
)
{
double dVar1;
int iVar2;
double *pdVar3;
double *pdVar4;
double *pdVar5;
int iVar6;
double *... | void spline(double x[], double y[], int n, double yp1, double yp2, double y2[])
{
char *func = {"spline(): "};
int i,k;
double p,qn,sig,un,*u;
u = (double *)mem_alloc((n) * sizeof(double), func, "u[]");
if(yp1 > 1.0E15) y2[0] = u[0] = 0.0;
else {
y2[0] = -0.5;
u[0] = (3.0/(x[1] - x[0])) ... |
void spline(double param_1,double param_2,double *param_3,double *param_4,int param_5,
undefined8 *param_6)
{
double dVar1;
double dVar2;
int iVar3;
double *pdVar4;
double *pdVar5;
uint uVar6;
double *pdVar7;
double *pdVar8;
double *__ptr;
double dVar9;
double dVar10;
double dVar11;
... | void spline(double x[], double y[], int n, double yp1, double yp2, double y2[])
{
char *func = {"spline(): "};
int i,k;
double p,qn,sig,un,*u;
u = (double *)mem_alloc((n) * sizeof(double), func, "u[]");
if(yp1 > 1.0E15) y2[0] = u[0] = 0.0;
else {
y2[0] = -0.5;
u[0] = (3.0/(x[1] - x[0])) ... |
void spline(double param_1,double param_2,double *param_3,double *param_4,int param_5,
undefined8 *param_6)
{
double dVar1;
double dVar2;
int iVar3;
double *pdVar4;
double *pdVar5;
uint uVar6;
double *pdVar7;
double *pdVar8;
double *__ptr;
double dVar9;
double dVar10;
double dVar11;
... | void spline(double x[], double y[], int n, double yp1, double yp2, double y2[])
{
char *func = {"spline(): "};
int i,k;
double p,qn,sig,un,*u;
u = (double *)mem_alloc((n) * sizeof(double), func, "u[]");
if(yp1 > 1.0E15) y2[0] = u[0] = 0.0;
else {
y2[0] = -0.5;
u[0] = (3.0/(x[1] - x[0])) ... |
void ScalePlane(void)
{
return;
} | void ScalePlane() {} |
void ScalePlane(void)
{
return;
} | void ScalePlane() {} |
void ScalePlane(void)
{
return;
} | void ScalePlane() {} |
void ScalePlane(void)
{
return;
} | void ScalePlane() {} |
undefined [16] rtrim(char *param_1)
{
int iVar1;
size_t sVar2;
int local_14;
sVar2 = strlen(param_1);
local_14 = (int)sVar2;
do {
iVar1 = local_14;
local_14 = iVar1 + -1;
if (local_14 < 0) break;
} while ((param_1[local_14] == ' ') || (param_1[local_14] == '\t'));
param_1[iVar1] = '\0';... | void rtrim(char *str)
{
char *p=str;
int i=strlen(str)-1;
while(i>=0)
{
if(p[i]!=32&&p[i]!=9)break;
i--;
}
str[++i]='\0';
} |
undefined [16] rtrim(char *param_1)
{
int iVar1;
size_t sVar2;
char *pcVar3;
sVar2 = strlen(param_1);
iVar1 = (int)sVar2 + -1;
if (-1 < iVar1) {
pcVar3 = param_1 + iVar1;
do {
if ((*pcVar3 != ' ') && (*pcVar3 != '\t')) break;
pcVar3 = pcVar3 + -1;
iVar1 = iVar1 + -1;
} whi... | void rtrim(char *str)
{
char *p=str;
int i=strlen(str)-1;
while(i>=0)
{
if(p[i]!=32&&p[i]!=9)break;
i--;
}
str[++i]='\0';
} |
undefined [16] rtrim(char *param_1)
{
char *pcVar1;
size_t sVar2;
uint uVar3;
char *pcVar4;
sVar2 = strlen(param_1);
uVar3 = (int)sVar2 - 1;
if ((int)uVar3 < 0) {
pcVar4 = param_1 + (int)sVar2;
}
else {
pcVar1 = param_1 + uVar3;
do {
pcVar4 = pcVar1;
if ((*pcVar4 != ' ') &... | void rtrim(char *str)
{
char *p=str;
int i=strlen(str)-1;
while(i>=0)
{
if(p[i]!=32&&p[i]!=9)break;
i--;
}
str[++i]='\0';
} |
undefined [16] rtrim(char *param_1)
{
char *pcVar1;
size_t sVar2;
uint uVar3;
char *pcVar4;
sVar2 = strlen(param_1);
uVar3 = (int)sVar2 - 1;
if ((int)uVar3 < 0) {
pcVar4 = param_1 + (int)sVar2;
}
else {
pcVar1 = param_1 + uVar3;
do {
pcVar4 = pcVar1;
if ((*pcVar4 != ' ') &... | void rtrim(char *str)
{
char *p=str;
int i=strlen(str)-1;
while(i>=0)
{
if(p[i]!=32&&p[i]!=9)break;
i--;
}
str[++i]='\0';
} |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined8 EnableInterrupts(void)
{
_DAT_ffffffb0 = 1;
return 0;
} | void EnableInterrupts()
{
*(volatile unsigned int *)(0xffffffb0 +0x0)=1;
} |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined8 EnableInterrupts(void)
{
_DAT_ffffffb0 = 1;
return 0;
} | void EnableInterrupts()
{
*(volatile unsigned int *)(0xffffffb0 +0x0)=1;
} |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined8 EnableInterrupts(void)
{
_DAT_ffffffb0 = 1;
return 0;
} | void EnableInterrupts()
{
*(volatile unsigned int *)(0xffffffb0 +0x0)=1;
} |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined8 EnableInterrupts(void)
{
_DAT_ffffffb0 = 1;
return 0;
} | void EnableInterrupts()
{
*(volatile unsigned int *)(0xffffffb0 +0x0)=1;
} |
undefined [16] without_dir(char *param_1)
{
char *pcVar1;
undefined auVar2 [16];
int local_24;
char *local_20;
pcVar1 = strrchr(param_1,0x2f);
local_24 = 1;
local_20 = pcVar1 + 1;
while (*local_20 != '\0') {
local_24 = local_24 + 1;
local_20 = local_20 + 1;
}
auVar2._0_8_ = (char *)mall... | char* without_dir(char* filepath){
char *filename = (strrchr(filepath, '/'))+1;
char *c = filename;
int requiredSize = 1;
while(*c++) requiredSize ++;
char *result = (char *)malloc( requiredSize * sizeof(char));
strcpy(result, filename);
return result;
} |
void without_dir(char *param_1)
{
char *pcVar1;
char *pcVar2;
char *pcVar3;
int iVar4;
pcVar1 = strrchr(param_1,0x2f);
if (pcVar1[1] == '\0') {
iVar4 = 1;
}
else {
pcVar3 = pcVar1 + 2;
do {
pcVar2 = pcVar3;
pcVar3 = pcVar2 + 1;
} while (*pcVar2 != '\0');
iVar4 = ((int... | char* without_dir(char* filepath){
char *filename = (strrchr(filepath, '/'))+1;
char *c = filename;
int requiredSize = 1;
while(*c++) requiredSize ++;
char *result = (char *)malloc( requiredSize * sizeof(char));
strcpy(result, filename);
return result;
} |
void without_dir(char *param_1)
{
char *pcVar1;
size_t sVar2;
char *__dest;
pcVar1 = strrchr(param_1,0x2f);
if (pcVar1[1] == '\0') {
sVar2 = 1;
}
else {
sVar2 = strlen(pcVar1 + 2);
sVar2 = (size_t)((int)sVar2 + 2);
}
__dest = (char *)malloc(sVar2);
strcpy(__dest,pcVar1 + 1);
return... | char* without_dir(char* filepath){
char *filename = (strrchr(filepath, '/'))+1;
char *c = filename;
int requiredSize = 1;
while(*c++) requiredSize ++;
char *result = (char *)malloc( requiredSize * sizeof(char));
strcpy(result, filename);
return result;
} |
void without_dir(char *param_1)
{
char *pcVar1;
size_t sVar2;
char *__dest;
pcVar1 = strrchr(param_1,0x2f);
if (pcVar1[1] == '\0') {
sVar2 = 1;
}
else {
sVar2 = strlen(pcVar1 + 2);
sVar2 = (size_t)((int)sVar2 + 2);
}
__dest = (char *)malloc(sVar2);
strcpy(__dest,pcVar1 + 1);
return... | char* without_dir(char* filepath){
char *filename = (strrchr(filepath, '/'))+1;
char *c = filename;
int requiredSize = 1;
while(*c++) requiredSize ++;
char *result = (char *)malloc( requiredSize * sizeof(char));
strcpy(result, filename);
return result;
} |
undefined [16] AT91F_LoadBoot(void)
{
int iVar1;
ulong uVar2;
undefined auVar3 [16];
iVar1 = read_dataflash(0xc0008000,0x21408,0x21f00000);
if (iVar1 == 1) {
uVar2 = 0xffffffff;
}
else {
puts("F DF RD");
uVar2 = 1;
}
auVar3._8_8_ = 0;
auVar3._0_8_ = uVar2;
return auVar3;
} | static int AT91F_LoadBoot(void)
{
volatile unsigned int SizeToDownload = 0x21400;
volatile unsigned int AddressToDownload = 0x21F00000;
if (read_dataflash(0xC0008000, SizeToDownload + 8,
(char *)AddressToDownload) != 0x01)
{
printf("F DF RD\n");
return 1;
}
return -1;
} |
int largestRectangleArea(long param_1,int param_2)
{
int iVar1;
undefined4 *__ptr;
int *__ptr_00;
void *__ptr_01;
int local_3c;
int local_38;
int local_34;
int local_30;
int local_2c;
__ptr = (undefined4 *)malloc((long)(param_2 + 1) << 2);
__ptr_00 = (int *)malloc((long)(param_2 + 1) << 2);
... | int largestRectangleArea(int* height, int heightSize) {
int* tower = malloc((heightSize+1)*sizeof(int));
int* index = malloc((heightSize+1)*sizeof(int));
int* area = malloc((heightSize+1)*sizeof(int));
int length = 1;
tower[0] = -1;
index[0] = 0;
int i;
for (i=0; i<heightSize; i++) {
... |
int largestRectangleArea(long param_1,int param_2)
{
int iVar1;
int iVar2;
undefined4 *__ptr;
int *__ptr_00;
int *__ptr_01;
int *piVar3;
long lVar4;
int iVar5;
int iVar6;
size_t __size;
__size = (long)(param_2 + 1) << 2;
__ptr = (undefined4 *)malloc(__size);
__ptr_00 = (int *)malloc(__size... | int largestRectangleArea(int* height, int heightSize) {
int* tower = malloc((heightSize+1)*sizeof(int));
int* index = malloc((heightSize+1)*sizeof(int));
int* area = malloc((heightSize+1)*sizeof(int));
int length = 1;
tower[0] = -1;
index[0] = 0;
int i;
for (i=0; i<heightSize; i++) {
... |
int largestRectangleArea(long param_1,uint param_2)
{
undefined4 *__ptr;
int *__ptr_00;
int *__ptr_01;
long lVar1;
int *piVar2;
int iVar3;
long lVar4;
long lVar5;
int iVar6;
int iVar7;
int iVar8;
size_t __size;
__size = (long)(int)(param_2 + 1) << 2;
__ptr = (undefined4 *)malloc(__size);... | int largestRectangleArea(int* height, int heightSize) {
int* tower = malloc((heightSize+1)*sizeof(int));
int* index = malloc((heightSize+1)*sizeof(int));
int* area = malloc((heightSize+1)*sizeof(int));
int length = 1;
tower[0] = -1;
index[0] = 0;
int i;
for (i=0; i<heightSize; i++) {
... |
uint largestRectangleArea(long param_1,ulong param_2)
{
int iVar1;
uint uVar2;
uint *puVar3;
uint *puVar4;
uint *puVar5;
long lVar6;
int iVar7;
uint uVar8;
undefined4 *__ptr;
int *__ptr_00;
uint *__ptr_01;
long lVar9;
int iVar10;
long lVar11;
uint *puVar12;
int iVar13;
int *piVar14;
... | int largestRectangleArea(int* height, int heightSize) {
int* tower = malloc((heightSize+1)*sizeof(int));
int* index = malloc((heightSize+1)*sizeof(int));
int* area = malloc((heightSize+1)*sizeof(int));
int length = 1;
tower[0] = -1;
index[0] = 0;
int i;
for (i=0; i<heightSize; i++) {
... |
undefined8 main(undefined4 param_1)
{
undefined8 uVar1;
switch(param_1) {
case 0:
uVar1 = 4;
break;
case 1:
uVar1 = 5;
break;
case 2:
uVar1 = 4;
break;
case 3:
uVar1 = 3;
break;
case 4:
uVar1 = 2;
break;
case 5:
uVar1 = 7;
break;
default:
uVar1 =... | int main(int argc, char* argv[])
{
switch (argc)
{
case 0: return 4;
case 1: return 5;
case 2: return 4;
case 3: return 3;
case 4: return 2;
case 5: return 7;
}
return 0;
} |
undefined4 main(undefined4 param_1)
{
switch(param_1) {
case 0:
case 2:
return 4;
case 1:
return 5;
case 3:
return param_1;
case 4:
return 2;
case 5:
return 7;
default:
return 0;
}
} | int main(int argc, char* argv[])
{
switch (argc)
{
case 0: return 4;
case 1: return 5;
case 2: return 4;
case 3: return 3;
case 4: return 2;
case 5: return 7;
}
return 0;
} |
undefined4 main(uint param_1)
{
undefined4 uVar1;
uVar1 = 0;
if (param_1 < 6) {
uVar1 = *(undefined4 *)(CSWTCH_1 + (ulong)param_1 * 4);
}
return uVar1;
} | int main(int argc, char* argv[])
{
switch (argc)
{
case 0: return 4;
case 1: return 5;
case 2: return 4;
case 3: return 3;
case 4: return 2;
case 5: return 7;
}
return 0;
} |
undefined4 main(uint param_1)
{
undefined4 uVar1;
uVar1 = 0;
if (param_1 < 6) {
uVar1 = *(undefined4 *)(CSWTCH_1 + (ulong)param_1 * 4);
}
return uVar1;
} | int main(int argc, char* argv[])
{
switch (argc)
{
case 0: return 4;
case 1: return 5;
case 2: return 4;
case 3: return 3;
case 4: return 2;
case 5: return 7;
}
return 0;
} |
undefined [16] date_midnight(undefined8 param_1,undefined8 param_2)
{
date_time(param_1,param_2,0);
return ZEXT816(0);
} | static void date_midnight(struct tm *tm, struct tm *now, int *num)
{
date_time(tm, now, 0);
} |
undefined [16] o(int param_1)
{
undefined4 local_c;
for (local_c = param_1; local_c != 0; local_c = local_c >> 8) {
g(local_c);
if (local_c < 0) {
local_c = local_c + 0xff;
}
}
return ZEXT816(0);
} | void o(int c)
{
while (c) {
g(c);
c = c / 256;
}
} |
undefined8 o(int param_1)
{
int iVar1;
if (param_1 != 0) {
do {
g(param_1);
iVar1 = param_1 + 0xff;
if (-1 < param_1) {
iVar1 = param_1;
}
param_1 = iVar1 >> 8;
} while (param_1 != 0);
}
return 0;
} | void o(int c)
{
while (c) {
g(c);
c = c / 256;
}
} |
undefined8 o(int param_1)
{
if (param_1 == 0) {
return 0;
}
do {
g(param_1);
if (param_1 < 0) {
param_1 = param_1 + 0xff;
}
param_1 = param_1 >> 8;
} while (param_1 != 0);
return 0;
} | void o(int c)
{
while (c) {
g(c);
c = c / 256;
}
} |
undefined8 o(int param_1)
{
if (param_1 == 0) {
return 0;
}
do {
g(param_1);
if (param_1 < 0) {
param_1 = param_1 + 0xff;
}
param_1 = param_1 >> 8;
} while (param_1 != 0);
return 0;
} | void o(int c)
{
while (c) {
g(c);
c = c / 256;
}
} |
undefined8 main(void)
{
long in_FS_OFFSET;
uint local_14;
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
scanf("%d",&local_14);
if ((local_14 & 3) == 0) {
LAB_00100062:
if ((int)local_14 % 400 != 0) {
if ((local_14 & 3) == 0) {
if ((int)local_14 % 100 == 0) {
if ((... | int main(){
int i;
scanf("%d",&i);
if((i%4)&&(i%100==0)||(i%400==0)){
printf("Year is leap");
}
else if((i%4!=0)||(i%100!=0)||(i%400!=0)){
printf("YEAR IS NOT LEAP");
}
} |
undefined8 main(void)
{
long in_FS_OFFSET;
uint local_14;
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
scanf("%d",&local_14);
if ((((local_14 & 3) == 0) || ((int)local_14 % 100 != 0)) && ((int)local_14 % 400 != 0)) {
printf("YEAR IS NOT LEAP");
}
else {
printf("Year is leap");
... | int main(){
int i;
scanf("%d",&i);
if((i%4)&&(i%100==0)||(i%400==0)){
printf("Year is leap");
}
else if((i%4!=0)||(i%100!=0)||(i%400!=0)){
printf("YEAR IS NOT LEAP");
}
} |
undefined8 main(void)
{
long in_FS_OFFSET;
uint local_14;
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
scanf("%d",&local_14);
if ((((local_14 & 3) == 0) || ((int)local_14 % 100 != 0)) &&
(0xa3d70a < (local_14 * -0x3d70a3d7 + 0x51eb850 >> 4 | local_14 * -0x70000000))) {
printf("YEAR... | int main(){
int i;
scanf("%d",&i);
if((i%4)&&(i%100==0)||(i%400==0)){
printf("Year is leap");
}
else if((i%4!=0)||(i%100!=0)||(i%400!=0)){
printf("YEAR IS NOT LEAP");
}
} |
undefined8 main(void)
{
long in_FS_OFFSET;
uint local_14;
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
scanf("%d",&local_14);
if ((((local_14 & 3) == 0) || ((int)local_14 % 100 != 0)) &&
(0xa3d70a < (local_14 * -0x3d70a3d7 + 0x51eb850 >> 4 | local_14 * -0x70000000))) {
printf("YEAR... | int main(){
int i;
scanf("%d",&i);
if((i%4)&&(i%100==0)||(i%400==0)){
printf("Year is leap");
}
else if((i%4!=0)||(i%100!=0)||(i%400!=0)){
printf("YEAR IS NOT LEAP");
}
} |
undefined8
find_minimum(int param_1,int param_2,int param_3,int param_4,int param_5,int param_6,long param_7,
float *param_8)
{
float fVar1;
float fVar2;
float fVar3;
float fVar4;
float fVar5;
float fVar6;
float fVar7;
float fVar8;
float fVar9;
float fVar10;
float fVar11;
float fVar... | float find_minimum(int ic1, int nc1, int jc1,
int ic2, int nc2, int jc2,
float fc, float** prob, float *pick)
{
float f0m, f00, f0p, fpm, fp0, fpp, fmm, fm0, fmp;
float den, den2, x1, x2, df;
const float eps=0.01;
if (0==ic1) {
ic1++;
} else if (nc1-1==ic1) {
ic1--;
}
if (0==i... |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined8
find_minimum(int param_1,int param_2,int param_3,int param_4,int param_5,int param_6,long param_7,
float *param_8)
{
float fVar1;
float fVar2;
float fVar3;
float fVar4;
float fVar5;
float fVar6;
f... | float find_minimum(int ic1, int nc1, int jc1,
int ic2, int nc2, int jc2,
float fc, float** prob, float *pick)
{
float f0m, f00, f0p, fpm, fp0, fpp, fmm, fm0, fmp;
float den, den2, x1, x2, df;
const float eps=0.01;
if (0==ic1) {
ic1++;
} else if (nc1-1==ic1) {
ic1--;
}
if (0==i... |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined4
find_minimum(int param_1,int param_2,int param_3,int param_4,int param_5,int param_6,long *param_7,
float *param_8)
{
float fVar1;
float fVar2;
float fVar3;
float fVar4;
float fVar5;
float fVar6;
... | float find_minimum(int ic1, int nc1, int jc1,
int ic2, int nc2, int jc2,
float fc, float** prob, float *pick)
{
float f0m, f00, f0p, fpm, fp0, fpp, fmm, fm0, fmp;
float den, den2, x1, x2, df;
const float eps=0.01;
if (0==ic1) {
ic1++;
} else if (nc1-1==ic1) {
ic1--;
}
if (0==i... |
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
undefined4
find_minimum(int param_1,int param_2,int param_3,int param_4,int param_5,int param_6,long *param_7,
float *param_8)
{
float fVar1;
float fVar2;
float fVar3;
float fVar4;
float fVar5;
float fVar6;
... | float find_minimum(int ic1, int nc1, int jc1,
int ic2, int nc2, int jc2,
float fc, float** prob, float *pick)
{
float f0m, f00, f0p, fpm, fp0, fpp, fmm, fm0, fmp;
float den, den2, x1, x2, df;
const float eps=0.01;
if (0==ic1) {
ic1++;
} else if (nc1-1==ic1) {
ic1--;
}
if (0==i... |
undefined8 numcmp(double param_1,double param_2)
{
int iVar1;
int iVar2;
undefined8 uVar3;
if (param_2 <= param_1) {
if (param_1 <= param_2) {
if (param_1 == param_2) {
uVar3 = 0;
}
else {
iVar1 = number_good(param_1);
iVar2 = number_good(param_2);
if ((... | int numcmp(double x1,double x2) {
if(x1 < x2) return(-1);
else if(x1 > x2) return(1);
else if (x1 == x2) return(0);
else {
int good1,good2;
good1 = number_good(x1);
good2 = number_good(x2);
if(good1&&(!good2)) return(-1);
else if((!good1)&&good2)return(1);
else return(0);
}
} |
uint numcmp(double param_1,double param_2)
{
int iVar1;
int iVar2;
uint uVar3;
undefined8 in_RCX;
uVar3 = 0xffffffff;
if (((param_2 <= param_1) && (uVar3 = 1, param_1 <= param_2)) && (uVar3 = 0, param_1 != param_2))
{
iVar1 = number_good();
iVar2 = number_good(param_2);
if ((iVar1 == 0) ||... | int numcmp(double x1,double x2) {
if(x1 < x2) return(-1);
else if(x1 > x2) return(1);
else if (x1 == x2) return(0);
else {
int good1,good2;
good1 = number_good(x1);
good2 = number_good(x2);
if(good1&&(!good2)) return(-1);
else if((!good1)&&good2)return(1);
else return(0);
}
} |
uint numcmp(double param_1,double param_2)
{
int iVar1;
int iVar2;
uint uVar3;
undefined8 extraout_RDX;
if (param_1 < param_2) {
uVar3 = 0xffffffff;
}
else {
uVar3 = 1;
if ((param_1 <= param_2) && (uVar3 = 0, param_1 != param_2)) {
iVar1 = number_good();
iVar2 = number_good(par... | int numcmp(double x1,double x2) {
if(x1 < x2) return(-1);
else if(x1 > x2) return(1);
else if (x1 == x2) return(0);
else {
int good1,good2;
good1 = number_good(x1);
good2 = number_good(x2);
if(good1&&(!good2)) return(-1);
else if((!good1)&&good2)return(1);
else return(0);
}
} |
uint numcmp(double param_1,double param_2)
{
int iVar1;
int iVar2;
uint uVar3;
undefined8 extraout_RDX;
if (param_1 < param_2) {
uVar3 = 0xffffffff;
}
else {
uVar3 = 1;
if ((param_1 <= param_2) && (uVar3 = 0, param_1 != param_2)) {
iVar1 = number_good();
iVar2 = number_good(par... | int numcmp(double x1,double x2) {
if(x1 < x2) return(-1);
else if(x1 > x2) return(1);
else if (x1 == x2) return(0);
else {
int good1,good2;
good1 = number_good(x1);
good2 = number_good(x2);
if(good1&&(!good2)) return(-1);
else if((!good1)&&good2)return(1);
else return(0);
}
} |
undefined4 RNDResponseSink_AVTransport_Play(undefined8 param_1,uint param_2)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n",(ulong)param_2);
return 0;
} | void RNDResponseSink_AVTransport_Play(struct UPnPService* Service,int ErrorCode,void *User)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n",ErrorCode);
} |
undefined8 RNDResponseSink_AVTransport_Play(void)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n");
return 0;
} | void RNDResponseSink_AVTransport_Play(struct UPnPService* Service,int ErrorCode,void *User)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n",ErrorCode);
} |
void RNDResponseSink_AVTransport_Play(void)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n");
return;
} | void RNDResponseSink_AVTransport_Play(struct UPnPService* Service,int ErrorCode,void *User)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n",ErrorCode);
} |
void RNDResponseSink_AVTransport_Play(void)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n");
return;
} | void RNDResponseSink_AVTransport_Play(struct UPnPService* Service,int ErrorCode,void *User)
{
printf("RND Invoke Response: AVTransport/Play[ErrorCode:%d]()\r\n",ErrorCode);
} |
undefined [16] is_pseudo_tty(int param_1)
{
int iVar1;
char *pcVar2;
ulong uVar3;
undefined auVar4 [16];
pcVar2 = ttyname(param_1);
pcVar2 = (char *)(long)(int)pcVar2;
iVar1 = strncmp(pcVar2,"/dev/pts/",9);
if (iVar1 == 0) {
uVar3 = 1;
}
else {
iVar1 = strncmp(pcVar2,"/dev/tty",8);
... | int is_pseudo_tty(int fd)
{
char *tty = ttyname(fd);
if (!strncmp(tty, "/dev/pts/", 9))
return 1;
if (!strncmp(tty, "/dev/tty", 8) && tty[8] >= 'a' && tty[8] <= 'z')
return 1;
return 0;
} |
bool is_pseudo_tty(int param_1)
{
bool bVar1;
int iVar2;
char *pcVar3;
pcVar3 = ttyname(param_1);
pcVar3 = (char *)(long)(int)pcVar3;
iVar2 = strncmp(pcVar3,"/dev/pts/",9);
bVar1 = true;
if (iVar2 != 0) {
iVar2 = strncmp(pcVar3,"/dev/tty",8);
bVar1 = false;
if (iVar2 == 0) {
bVar1 ... | int is_pseudo_tty(int fd)
{
char *tty = ttyname(fd);
if (!strncmp(tty, "/dev/pts/", 9))
return 1;
if (!strncmp(tty, "/dev/tty", 8) && tty[8] >= 'a' && tty[8] <= 'z')
return 1;
return 0;
} |
bool is_pseudo_tty(int param_1)
{
bool bVar1;
int iVar2;
char *pcVar3;
pcVar3 = ttyname(param_1);
pcVar3 = (char *)(long)(int)pcVar3;
iVar2 = strncmp(pcVar3,"/dev/pts/",9);
bVar1 = true;
if (iVar2 != 0) {
iVar2 = strncmp(pcVar3,"/dev/tty",8);
bVar1 = false;
if (iVar2 == 0) {
bVar1 ... | int is_pseudo_tty(int fd)
{
char *tty = ttyname(fd);
if (!strncmp(tty, "/dev/pts/", 9))
return 1;
if (!strncmp(tty, "/dev/tty", 8) && tty[8] >= 'a' && tty[8] <= 'z')
return 1;
return 0;
} |
bool is_pseudo_tty(int param_1)
{
bool bVar1;
int iVar2;
char *pcVar3;
pcVar3 = ttyname(param_1);
pcVar3 = (char *)(long)(int)pcVar3;
iVar2 = strncmp(pcVar3,"/dev/pts/",9);
bVar1 = true;
if (iVar2 != 0) {
iVar2 = strncmp(pcVar3,"/dev/tty",8);
bVar1 = false;
if (iVar2 == 0) {
bVar1 ... | int is_pseudo_tty(int fd)
{
char *tty = ttyname(fd);
if (!strncmp(tty, "/dev/pts/", 9))
return 1;
if (!strncmp(tty, "/dev/tty", 8) && tty[8] >= 'a' && tty[8] <= 'z')
return 1;
return 0;
} |
undefined [16] emit_fdivd(int param_1,int param_2,uint param_3)
{
undefined4 uVar1;
assert(param_1 == 0x1f);
if ((param_2 == 0x1e) || (param_2 == 0x1f)) {
uVar1 = 1;
}
else {
uVar1 = 0;
}
assert(uVar1);
assert(param_3 == 0x1f);
assem_debug("fdivd d%d,d%d,d%d",param_3,param_1,param_2);
o... | static void emit_fdivd(int s1,int s2,int d)
{
assert(s1==31);
assert((s2==30)||(s2==31));
assert(d==31);
assem_debug("fdivd d%d,d%d,d%d",d,s1,s2);
output_w32(0x1e601800|s2<<16|s1<<5|d);
} |
undefined [16] BGBMID_ScaleSampleHQ(long param_1,int param_2,long param_3,int param_4)
{
undefined4 local_c;
if (param_2 == param_4) {
for (local_c = 0; local_c < param_4; local_c = local_c + 1) {
*(undefined2 *)(param_1 + (long)local_c * 2) = *(undefined2 *)(param_3 + (long)local_c * 2);
}
}
... | int BGBMID_ScaleSampleHQ(short *d, int dl, short *s, int sl)
{
int i;
if(dl==sl)
{
for(i=0; i<sl; i++)d[i]=s[i];
return(0);
}
if(dl>sl)
{
BGBMID_ScaleSampleSpline(d, dl, s, sl);
return(0);
}
BGBMID_ScaleSampleTrilinear(d, dl, s, sl);
return(0);
} |
undefined [16] BGBMID_ScaleSampleHQ(long param_1,int param_2,long param_3,int param_4)
{
long lVar1;
if (param_2 == param_4) {
if (0 < param_4) {
lVar1 = 0;
do {
*(undefined2 *)(param_1 + lVar1) = *(undefined2 *)(param_3 + lVar1);
lVar1 = lVar1 + 2;
} while (lVar1 != (long... | int BGBMID_ScaleSampleHQ(short *d, int dl, short *s, int sl)
{
int i;
if(dl==sl)
{
for(i=0; i<sl; i++)d[i]=s[i];
return(0);
}
if(dl>sl)
{
BGBMID_ScaleSampleSpline(d, dl, s, sl);
return(0);
}
BGBMID_ScaleSampleTrilinear(d, dl, s, sl);
return(0);
} |
undefined [16] BGBMID_ScaleSampleHQ(long param_1,int param_2,long param_3,int param_4)
{
long lVar1;
if (param_2 == param_4) {
lVar1 = 0;
if (0 < param_2) {
do {
*(undefined2 *)(param_1 + lVar1) = *(undefined2 *)(param_3 + lVar1);
lVar1 = lVar1 + 2;
} while (lVar1 != (long)p... | int BGBMID_ScaleSampleHQ(short *d, int dl, short *s, int sl)
{
int i;
if(dl==sl)
{
for(i=0; i<sl; i++)d[i]=s[i];
return(0);
}
if(dl>sl)
{
BGBMID_ScaleSampleSpline(d, dl, s, sl);
return(0);
}
BGBMID_ScaleSampleTrilinear(d, dl, s, sl);
return(0);
} |
undefined [16] BGBMID_ScaleSampleHQ(long param_1,uint param_2,long param_3,ulong param_4)
{
int iVar1;
undefined8 uVar2;
uint uVar3;
int iVar4;
long lVar5;
uint uVar6;
ulong uVar7;
uint uVar8;
uVar6 = (uint)param_4;
if (param_2 != uVar6) {
if ((int)uVar6 < (int)param_2) {
BGBMID_Scale... | int BGBMID_ScaleSampleHQ(short *d, int dl, short *s, int sl)
{
int i;
if(dl==sl)
{
for(i=0; i<sl; i++)d[i]=s[i];
return(0);
}
if(dl>sl)
{
BGBMID_ScaleSampleSpline(d, dl, s, sl);
return(0);
}
BGBMID_ScaleSampleTrilinear(d, dl, s, sl);
return(0);
} |
char * replaceCRLF2Space(char *param_1)
{
char *local_10;
for (local_10 = param_1; *local_10 != '\0'; local_10 = local_10 + 1) {
if ((*local_10 == '\r') || (*local_10 == '\n')) {
*local_10 = ' ';
}
}
return param_1;
} | char *replaceCRLF2Space(char *s)
{
char *p = s;
while (*p != '\0')
{
if (*p == '\r' || *p == '\n')
{
*p = ' ';
}
p++;
}
return s;
} |
undefined [16] replaceCRLF2Space(char *param_1)
{
char cVar1;
char *pcVar2;
undefined auVar3 [16];
cVar1 = *param_1;
pcVar2 = param_1;
while (cVar1 != '\0') {
if ((cVar1 == '\r') || (cVar1 == '\n')) {
*pcVar2 = ' ';
}
pcVar2 = pcVar2 + 1;
cVar1 = *pcVar2;
}
auVar3._8_8_ = 0;
... | char *replaceCRLF2Space(char *s)
{
char *p = s;
while (*p != '\0')
{
if (*p == '\r' || *p == '\n')
{
*p = ' ';
}
p++;
}
return s;
} |
undefined [16] replaceCRLF2Space(char *param_1)
{
char *pcVar1;
char *pcVar2;
char cVar3;
undefined auVar4 [16];
cVar3 = *param_1;
pcVar2 = param_1;
while (cVar3 != '\0') {
while ((cVar3 != '\r' && (cVar3 != '\n'))) {
cVar3 = pcVar2[1];
pcVar2 = pcVar2 + 1;
if (cVar3 == '\0') go... | char *replaceCRLF2Space(char *s)
{
char *p = s;
while (*p != '\0')
{
if (*p == '\r' || *p == '\n')
{
*p = ' ';
}
p++;
}
return s;
} |
undefined [16] replaceCRLF2Space(char *param_1)
{
char *pcVar1;
char cVar2;
undefined auVar3 [16];
undefined auVar4 [16];
cVar2 = *param_1;
pcVar1 = param_1;
do {
if (cVar2 == '\0') {
auVar3._8_8_ = 0;
auVar3._0_8_ = param_1;
return auVar3;
}
while ((cVar2 == '\r' || (cV... | char *replaceCRLF2Space(char *s)
{
char *p = s;
while (*p != '\0')
{
if (*p == '\r' || *p == '\n')
{
*p = ' ';
}
p++;
}
return s;
} |
undefined8 main(void)
{
float fVar1;
float local_1c;
float local_18;
float local_14;
int local_10;
local_1c = DAT_001000b0;
local_18 = DAT_001000b4;
local_14 = 0.0;
for (local_10 = 1; fVar1 = local_1c, local_10 < 0xb; local_10 = local_10 + 1) {
local_14 = local_1c / local_18 + local_14;
lo... | int main(){
float m=1,n=2,temp,s=0;int i;
for(i=1;i<=10;i++){
s+=m/n;
temp=m;m=n;n+=temp;
}
printf("sum=%f\n",s);
return 0;
} |
undefined8 main(void)
{
float fVar1;
int iVar2;
float fVar3;
float fVar4;
float fVar5;
iVar2 = 10;
fVar3 = 0.0;
fVar1 = _LC1;
fVar5 = _LC2;
do {
fVar4 = fVar1;
fVar3 = fVar3 + fVar5 / fVar4;
iVar2 = iVar2 + -1;
fVar1 = fVar4 + fVar5;
fVar5 = fVar4;
} while (iVar2 != 0);
p... | int main(){
float m=1,n=2,temp,s=0;int i;
for(i=1;i<=10;i++){
s+=m/n;
temp=m;m=n;n+=temp;
}
printf("sum=%f\n",s);
return 0;
} |
undefined8 main(void)
{
float fVar1;
int iVar2;
float fVar3;
float fVar4;
float fVar5;
fVar3 = 0.0;
iVar2 = 10;
fVar1 = _LC1;
fVar5 = _LC2;
do {
fVar4 = fVar1;
fVar3 = fVar3 + fVar5 / fVar4;
iVar2 = iVar2 + -1;
fVar1 = fVar4 + fVar5;
fVar5 = fVar4;
} while (iVar2 != 0);
p... | int main(){
float m=1,n=2,temp,s=0;int i;
for(i=1;i<=10;i++){
s+=m/n;
temp=m;m=n;n+=temp;
}
printf("sum=%f\n",s);
return 0;
} |
undefined8 main(void)
{
printf("sum=%f\n",_LC0);
return 0;
} | int main(){
float m=1,n=2,temp,s=0;int i;
for(i=1;i<=10;i++){
s+=m/n;
temp=m;m=n;n+=temp;
}
printf("sum=%f\n",s);
return 0;
} |
undefined [16] _expect_false(int param_1,undefined8 param_2,undefined4 param_3)
{
if (param_1 == 0) {
expectation_passed();
}
else {
expect_false_failed(param_1,param_2,param_3);
}
return ZEXT816(0);
} | void _expect_false(int act, const char* file, int line) {
if((act) == 0)
expectation_passed();
else
expect_false_failed(act, file, line);
} |
undefined [16] _expect_false(int param_1)
{
if (param_1 == 0) {
expectation_passed();
}
else {
expect_false_failed();
}
return ZEXT816(0);
} | void _expect_false(int act, const char* file, int line) {
if((act) == 0)
expectation_passed();
else
expect_false_failed(act, file, line);
} |
void _expect_false(int param_1)
{
if (param_1 == 0) {
expectation_passed();
return;
}
expect_false_failed();
return;
} | void _expect_false(int act, const char* file, int line) {
if((act) == 0)
expectation_passed();
else
expect_false_failed(act, file, line);
} |
void _expect_false(int param_1)
{
if (param_1 == 0) {
expectation_passed();
return;
}
expect_false_failed();
return;
} | void _expect_false(int act, const char* file, int line) {
if((act) == 0)
expectation_passed();
else
expect_false_failed(act, file, line);
} |
undefined [16] ecmp(char *param_1,char *param_2,int param_3)
{
char cVar1;
char cVar2;
ulong uVar3;
undefined auVar4 [16];
do {
if (param_3 == 0) {
uVar3 = 1;
goto LAB_00100039;
}
cVar1 = *param_1;
cVar2 = *param_2;
param_1 = param_1 + 1;
param_2 = param_2 + 1;
par... | ecmp(a, b, count)
register char *a, *b;
register count;
{
while(count--)
if(*a++ != *b++) return(0);
return(1);
} |
undefined [16] ecmp(long param_1,long param_2,uint param_3)
{
char *pcVar1;
ulong uVar2;
uVar2 = 0;
do {
if (uVar2 == param_3) {
return ZEXT816(1);
}
pcVar1 = (char *)(param_1 + uVar2);
uVar2 = uVar2 + 1;
} while (*pcVar1 == *(char *)(param_2 + -1 + uVar2));
return ZEXT816(0) << 0... | ecmp(a, b, count)
register char *a, *b;
register count;
{
while(count--)
if(*a++ != *b++) return(0);
return(1);
} |
undefined [16] ecmp(long param_1,long param_2,uint param_3)
{
char *pcVar1;
ulong uVar2;
uVar2 = 0;
do {
if (uVar2 == param_3) {
return ZEXT816(1);
}
pcVar1 = (char *)(param_1 + uVar2);
uVar2 = uVar2 + 1;
} while (*pcVar1 == *(char *)(param_2 + -1 + uVar2));
return ZEXT816(0);
} | ecmp(a, b, count)
register char *a, *b;
register count;
{
while(count--)
if(*a++ != *b++) return(0);
return(1);
} |
undefined [16] ecmp(long param_1,long param_2,uint param_3)
{
char *pcVar1;
ulong uVar2;
uVar2 = 0;
do {
if (uVar2 == param_3) {
return ZEXT816(1);
}
pcVar1 = (char *)(param_1 + uVar2);
uVar2 = uVar2 + 1;
} while (*pcVar1 == *(char *)(param_2 + -1 + uVar2));
return ZEXT816(0);
} | ecmp(a, b, count)
register char *a, *b;
register count;
{
while(count--)
if(*a++ != *b++) return(0);
return(1);
} |
undefined [16] abyx(double param_1,long param_2,int param_3)
{
undefined4 local_c;
for (local_c = 0; local_c < param_3; local_c = local_c + 1) {
*(double *)(param_2 + (long)local_c * 8) = *(double *)(param_2 + (long)local_c * 8) * param_1;
}
return ZEXT816(0) << 0x40;
} | int abyx (double a, double x[], int n)
{ int i; for (i=0; i<n; x[i]*=a,i++) ; return(0); } |
undefined [16] abyx(double param_1,double *param_2,int param_3)
{
double *pdVar1;
if (0 < param_3) {
pdVar1 = param_2 + param_3;
do {
*param_2 = param_1 * *param_2;
param_2 = param_2 + 1;
} while (param_2 != pdVar1);
}
return ZEXT816(0) << 0x40;
} | int abyx (double a, double x[], int n)
{ int i; for (i=0; i<n; x[i]*=a,i++) ; return(0); } |
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