//----------------------------------------------------------------------------- // Torque Game Engine // Copyright (C) GarageGames.com, Inc. //----------------------------------------------------------------------------- #include "platformX86UNIX/platformX86UNIX.h" #include #include #include #ifdef HAS_VSSCANF # undef HAS_VSSCANF #endif /* this routine turns a string to all uppercase - rjp */ char *__strtoup(char *str) { char *newStr = str; if (newStr == NULL) return(NULL); while (*newStr) { *newStr = toupper(*newStr); *newStr++; } return(str); } /* this routine turns a string to all lowercase - rjp */ char *__strtolwr(char *str) { char *newStr = str; if (newStr == NULL) return(NULL); while (*newStr) { *newStr = tolower(*newStr); *newStr++; } return(str); } char *strtolwr(char* str) { return __strtolwr(str); } char *stristr(char *szStringToBeSearched, const char *szSubstringToSearchFor) { char *pPos = NULL; char *szCopy1 = NULL; char *szCopy2 = NULL; // verify parameters if ( szStringToBeSearched == NULL || szSubstringToSearchFor == NULL ) { return szStringToBeSearched; } // empty substring - return input (consistent with strstr) if (strlen(szSubstringToSearchFor) == 0 ) { return szStringToBeSearched; } szCopy1 = __strtolwr(strdup(szStringToBeSearched)); szCopy2 = __strtolwr(strdup(szSubstringToSearchFor)); if ( szCopy1 == NULL || szCopy2 == NULL ) { // another option is to raise an exception here free((void*)szCopy1); free((void*)szCopy2); return NULL; } pPos = strstr(szCopy1, szCopy2); if ( pPos != NULL ) { // map to the original string pPos = szStringToBeSearched + (pPos - szCopy1); } free((void*)szCopy1); free((void*)szCopy2); return pPos; } // stristr(...) char *dStrdup_r(const char *src, const char *fileName, U32 lineNumber) { char *buffer = (char *) dMalloc_r(dStrlen(src) + 1, fileName, lineNumber); dStrcpy(buffer, src); return buffer; } char* dStrcat(char *dst, const char *src) { return strcat(dst,src); } char* dStrncat(char *dst, const char *src, U32 len) { return strncat(dst,src,len); } // concatenates a list of src's onto the end of dst // the list of src's MUST be terminated by a NULL parameter // dStrcatl(dst, sizeof(dst), src1, src2, NULL); char* dStrcatl(char *dst, U32 dstSize, ...) { const char* src; char *p = dst; AssertFatal(dstSize > 0, "dStrcatl: destination size is set zero"); dstSize--; // leave room for string termination // find end of dst while (dstSize && *p++) dstSize--; va_list args; va_start(args, dstSize); // concatenate each src to end of dst while ( (src = va_arg(args, const char*)) != NULL ) while( dstSize && *src ) { *p++ = *src++; dstSize--; } va_end(args); // make sure the string is terminated *p = 0; return dst; } // copy a list of src's into dst // the list of src's MUST be terminated by a NULL parameter // dStrccpyl(dst, sizeof(dst), src1, src2, NULL); char* dStrcpyl(char *dst, U32 dstSize, ...) { const char* src; char *p = dst; AssertFatal(dstSize > 0, "dStrcpyl: destination size is set zero"); dstSize--; // leave room for string termination va_list args; va_start(args, dstSize); // concatenate each src to end of dst while ( (src = va_arg(args, const char*)) != NULL ) while( dstSize && *src ) { *p++ = *src++; dstSize--; } va_end(args); // make sure the string is terminated *p = 0; return dst; } S32 dStrcmp(const char *str1, const char *str2) { return strcmp(str1, str2); } S32 dStricmp(const char *str1, const char *str2) { return strcasecmp(str1, str2); } S32 dStrncmp(const char *str1, const char *str2, U32 len) { return strncmp(str1, str2, len); } S32 dStrnicmp(const char *str1, const char *str2, U32 len) { return strncasecmp(str1, str2, len); } char* dStrcpy(char *dst, const char *src) { return strcpy(dst,src); } char* dStrncpy(char *dst, const char *src, U32 len) { return strncpy(dst,src,len); } U32 dStrlen(const char *str) { return strlen(str); } char* dStrupr(char *str) { #ifdef __MWERKS__ // metrowerks strupr is broken _strupr(str); return str; #else return __strtoup(str); #endif } char* dStrlwr(char *str) { return __strtolwr(str); } char* dStrchr(char *str, S32 c) { return strchr(str,c); } const char* dStrchr(const char *str, S32 c) { return strchr(str,c); } const char* dStrrchr(const char *str, S32 c) { return strrchr(str,c); } char* dStrrchr(char *str, S32 c) { return strrchr(str,c); } U32 dStrspn(const char *str, const char *set) { return(strspn(str, set)); } U32 dStrcspn(const char *str, const char *set) { return strcspn(str, set); } char* dStrstr(char *str1, char *str2) { return strstr(str1,str2); } char* dStrstr(const char *str1, const char *str2) { return strstr(str1,str2); } char* dStrtok(char *str, const char *sep) { return strtok(str, sep); } S32 dAtoi(const char *str) { return atoi(str); } F32 dAtof(const char *str) { return atof(str); } bool dAtob(const char *str) { return !dStricmp(str, "true") || dAtof(str); } bool dIsalnum(const char c) { return isalnum(c); } bool dIsalpha(const char c) { return(isalpha(c)); } bool dIsspace(const char c) { return(isspace(c)); } bool dIsdigit(const char c) { return(isdigit(c)); } void dPrintf(const char *format, ...) { va_list args; va_start(args, format); vprintf(format, args); } S32 dVprintf(const char *format, void *arglist) { S32 len = vprintf(format, (char*)arglist); return (len); } S32 dSprintf(char *buffer, U32 bufferSize, const char *format, ...) { va_list args; va_start(args, format); S32 len = vsnprintf(buffer, bufferSize, format, args); return (len); } S32 dVsprintf(char *buffer, U32 bufferSize, const char *format, void *arglist) { S32 len = vsnprintf(buffer, bufferSize, format, (char*)arglist); return (len); } S32 dSscanf(const char *buffer, const char *format, ...) { va_list args; #if defined(HAS_VSSCANF) va_start(args, format); return __vsscanf(buffer, format, args); #else va_start(args, format); // Boy is this lame. We have to scan through the format string, and find out how many // arguments there are. We'll store them off as void*, and pass them to the sscanf // function through specialized calls. We're going to have to put a cap on the number of args that // can be passed, 8 for the moment. Sigh. static void* sVarArgs[20]; U32 numArgs = 0; for (const char* search = format; *search != '\0'; search++) { if (search[0] == '%' && search[1] != '%') numArgs++; } AssertFatal(numArgs <= 20, "Error, too many arguments to lame implementation of dSscanf. Fix implmentation"); // Ok, we have the number of arguments... for (U32 i = 0; i < numArgs; i++) sVarArgs[i] = va_arg(args, void*); va_end(args); switch (numArgs) { case 0: return 0; case 1: return sscanf(buffer, format, sVarArgs[0]); case 2: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1]); case 3: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2]); case 4: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3]); case 5: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4]); case 6: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5]); case 7: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6]); case 8: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7]); case 9: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8]); case 10: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9]); case 11: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10]); case 12: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11]); case 13: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12]); case 14: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13]); case 15: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13], sVarArgs[14]); case 16: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13], sVarArgs[14], sVarArgs[15]); case 17: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13], sVarArgs[14], sVarArgs[15], sVarArgs[16]); case 18: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13], sVarArgs[14], sVarArgs[15], sVarArgs[16], sVarArgs[17]); case 19: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13], sVarArgs[14], sVarArgs[15], sVarArgs[16], sVarArgs[17], sVarArgs[18]); case 20: return sscanf(buffer, format, sVarArgs[0], sVarArgs[1], sVarArgs[2], sVarArgs[3], sVarArgs[4], sVarArgs[5], sVarArgs[6], sVarArgs[7], sVarArgs[8], sVarArgs[9], sVarArgs[10], sVarArgs[11], sVarArgs[12], sVarArgs[13], sVarArgs[14], sVarArgs[15], sVarArgs[16], sVarArgs[17], sVarArgs[18], sVarArgs[19]); } return 0; #endif } S32 dFflushStdout() { return fflush(stdout); } S32 dFflushStderr() { return fflush(stderr); } void dQsort(void *base, U32 nelem, U32 width, S32 (QSORT_CALLBACK *fcmp)(const void *, const void *)) { qsort(base, nelem, width, fcmp); }