// ------------------------------------------------------------------ // The Goldware Library // Copyright (C) 1990-1999 Odinn Sorensen // Copyright (C) 1999-2000 Alexander S. Aganichev // ------------------------------------------------------------------ // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. // ------------------------------------------------------------------ // $Id$ // ------------------------------------------------------------------ // Based on source from the CXL library by Mike Smedley. // String manipulation. // ------------------------------------------------------------------ #include #include #include // ------------------------------------------------------------------- // snprintf() and vsnprintf() #if defined(_MSC_VER) /* It is need a workaround for implementation "speciality" in snprintf() and vsnprintf() from Microsoft. */ int snprintf( char *buffer, size_t sizeOfBuffer, const char *format, ... ) { va_list argptr; va_start(argptr, format); int r = _vsnprintf( buffer, sizeOfBuffer, format, argptr ); if( r == -1 || r >= sizeOfBuffer ) buffer[sizeOfBuffer-1] = '\0'; va_end(argptr); return r; } # define HAVE_SNPRINTF 1 int vsnprintf( char *buffer, size_t sizeOfBuffer, const char *format, va_list argptr ) { int r = _vsnprintf( buffer, sizeOfBuffer, format, argptr ); if( r == -1 || r >= sizeOfBuffer ) buffer[sizeOfBuffer-1] = '\0'; return r; } # define HAVE_VSNPRINTF 1 #endif #ifndef HAVE_SNPRINTF # if defined(HAVE__SNPRINTF) # define snprintf _snprintf # define HAVE_SNPRINTF 1 # endif #endif #ifndef HAVE_VSNPRINTF # if defined(HAVE__VSNPRINTF) # define vsnprintf _vsnprintf # define HAVE_VSNPRINTF 1 # endif #endif #if !defined(HAVE_SNPRINTF) || !defined(HAVE_VSNPRINTF) # include "snprintf.c" # if defined(HAVE__SNPRINTF) # define HAVE_SNPRINTF 1 # endif # if defined(HAVE__VSNPRINTF) # define HAVE_VSNPRINTF 1 # endif #endif //-------------------------------------------------------------------- #include #include #include extern glog LOG; // ------------------------------------------------------------------ // Determines if a string is blank bool strblank(const char* str) { const char* p; for(p = str; *p; p++) if(not isspace(*p)) return false; return true; } // ------------------------------------------------------------------ // Changes all occurrences of one character to another size_t strchg(char *str, char oldch, char newch) { size_t count = 0; for (char *p = str; *p; p++) { if (oldch == *p) { *p = newch; count++; } } return count; } // ------------------------------------------------------------------ // Changes all occurrences of one character to another size_t strchg(std::string &str, char oldch, char newch) { size_t count = 0; std::string::iterator it = str.begin(); std::string::iterator end = str.end(); for (; it != end; it++) { if (oldch == *it) { *it = newch; count++; } } return count; } // ------------------------------------------------------------------ // Deletes a substring from within a string static char* strdel(const char* substr, char* str) { char* dest = strstr(str, substr); if(!dest) return NULL; char* src = dest + strlen(substr); // strcpy(dest, src); /* Source and destination overlap. This is rigth. */ memmove(dest, src, strlen(src)+1); return str; } // ------------------------------------------------------------------ // Deletes a substring from within a string, ignores case static char* stridel(const char* substr, char* str) { char* dest = (char*)striinc(substr, str); if(!dest) return NULL; char* src = dest + strlen(substr); // strcpy(dest, src); memmove(dest, src, strlen(src)+1); /* Source and destination overlaps. */ return str; } // ------------------------------------------------------------------ // Deletes all occurrences of one string inside another char* stridela(const char* substr, char* str) { int count = 0; char* p = str; while((p = (char*)striinc(substr, p)) != NULL) { stridel(substr, p); count++; } if(count) return str; return NULL; } // ------------------------------------------------------------------ // Compare two strings, allowing wildcards int strnicmpw(const char* str1, const char* str2, int len) { int cmp = 0; for(int n=0; n=st_pos; i--) *(str+leninstr+i) = *(str+i); // insert instr text for(i=0; i 0); while(ptr-- > tmp) *str++ = *ptr; *str = NUL; return out; } // ------------------------------------------------------------------ char* strp2c(char* str) { int len = *str; memmove(str, str+1, len); // Copy data part str[len] = NUL; // Set length return str; } // ------------------------------------------------------------------ char* strnp2c(char* str, int n) { int len = (n < *str) ? n : *str; memmove(str, str+1, len); // Copy data part str[len] = NUL; // Set length return str; } // ------------------------------------------------------------------ char* strnp2cc(char* dest, const char* str, int n) { int len = (n < *str) ? n : *str; memcpy(dest, str+1, len); // Copy data part dest[len] = NUL; // Set length return dest; } // ------------------------------------------------------------------ char* strc2p(char* str) { char len = (char)strlen(str); memmove(str+1, str, len); // Copy data part *str = len; // Set length return str; } // ------------------------------------------------------------------ // Strip the quotes off a quoted string ("" or '') char* StripQuotes(char* str) { int len; switch(*str) { case '\'': case '\"': len = strlen(str); switch(*(str+len-1)) { case '\'': case '\"': memmove(str, str+1, len); str[len-2] = NUL; } } return str; } // ------------------------------------------------------------------ // Right justifies a string char* strrjust(char* str) { char* p; char* q; for(p=str; *p; p++) ; // find end of string p--; for(q=p; isspace(*q) and q>=str; q--) ; // find last non-space character if(p != q) { while(q >= str) { *p-- = *q; *q-- = ' '; } } return str; } // ------------------------------------------------------------------ // Changes all occurrences of one string to another char* strschg(char* str, const char* find, const char* replace) { int count = 0; char* p = str; int len = strlen(replace); while((p = strstr(p, find)) != NULL) { strsrep(p, find, replace); p += len; count++; } if(count) return str; return NULL; } // ------------------------------------------------------------------ // Adjusts the size of a string char* strsetsz(char* str, int newsize) { int i; int len = strlen(str); if(newsize < len) *(str+newsize) = NUL; else { for(i=len; i0; i--) *(str+i) = *(str+i-1); *(str) = ' '; } } return str; } // ------------------------------------------------------------------ // String search and replace, case sensitive char* strsrep(char* str, const char* search, const char* replace) { char* p; if((p = strstr(str, search)) != NULL) { strdel(search, str); strins(replace, str, (int)(p-str)); p = str; } return p; } // ------------------------------------------------------------------ // Trims trailing spaces off of a string char* strtrim(char* p) { int i; for(i = strlen(p) - 1; (i >= 0) and (isspace(p[i]) or iscntrl(p[i])); i--) {} p[i + 1] = NUL; return p; } std::string &strtrim(std::string &str) { if (!str.empty()) { std::string::iterator begin = str.begin(); std::string::iterator trail = str.end(); while (trail != begin) { --trail; if (not isspace(*trail) and not iscntrl(*trail)) { ++trail; break; } } str.erase(trail, str.end()); } return str; } // ------------------------------------------------------------------ // Trims leading spaces off of a string char* strltrim(char* str) { char* p; char* q; p = q = str; while(*p and (isspace(*p) or iscntrl(*p))) p++; if(p != q) { while(*p) *q++ = *p++; *q = NUL; } return str; } // ------------------------------------------------------------------ std::string &strltrim(std::string &str) { if (!str.empty()) { std::string::iterator begin = str.begin(); std::string::iterator end = str.end(); std::string::iterator it = begin; for (; (it != end) && isspace(*it); it++) { /**/ } if (it != begin) str.erase(begin, it); } return str; } // ------------------------------------------------------------------ const char* strlword(const char* str, const char *separator) { char buf[256]; static char left[40]; *left = NUL; if(*str) { strxcpy(buf, str, sizeof(buf)); if(strtok(buf, (separator == NULL) ? " \t\n\r" : separator) != NULL) { strxcpy(left, buf, sizeof(left)); } } return left; } // ------------------------------------------------------------------ const char* strrword(const char* str, const char *separator) { char* ptr; char* ptr2; char buf[256]; static char right[40]; *right = NUL; if(*str) { strxcpy(buf, str, sizeof(buf)); if(separator == NULL) { separator = " \t\n\r"; } ptr = strtok(buf, separator); ptr2 = ptr; while(ptr != NULL) { ptr2 = ptr; ptr = strtok(NULL, separator); } if(ptr2) { strxcpy(right, ptr2, sizeof(right)); } } return right; } // ------------------------------------------------------------------ // copy not more n-1 bytes of "s" into "d", insert '\0' into end of string. // return d TCHAR *strxcpy(TCHAR *d, const TCHAR *s, size_t n) { #if defined(_tcsncpy_s) _tcsncpy_s(d, n, s, _TRUNCATE); #else if (n) { strncpy(d, s, n-1); d[n-1] = NUL; } else *d = NUL; #endif return d; } // ------------------------------------------------------------------ char *strxcat(char *dest, const char *src, size_t max) { while (*dest and (max > 0)) { --max; dest++; } while (*src and (max > 0)) { --max; *dest++ = *src++; } *dest = NUL; return dest; } // ------------------------------------------------------------------ char *strxmerge(char *dest, size_t max, ...) { va_list a; va_start(a, max); for(; max > 0;) { const char *src = va_arg(a, const char *); if (src == NULL) break; while (*src and (max > 0)) { --max; *dest++ = *src++; } } va_end(a); *dest = NUL; return dest; } // ------------------------------------------------------------------ int gsprintf(TCHAR* buffer, size_t sizeOfBuffer, const TCHAR* __file, int __line, const TCHAR* format, ...) { int ret = -1; if (!buffer || !format) { LOG.errpointer(__file, __line); LOG.printf( "! Parameter is NULL pointer: gsprintf(%s,%lu,%s,...).", (buffer?"buffer":"NULL"), (unsigned long)sizeOfBuffer, (format?"format":"NULL") ); PointerErrorExit(); return -1; } if (!sizeOfBuffer) { LOG.errmemory(__file, __line); LOG.printf("! Buffer size is 0: gsprintf(buf,0,...)."); MemoryErrorExit(); return -1; } if (!*format) { LOG.errtest(__file, __line); LOG.printf("! Format is empty string: gsprintf(buffer,%lu,"",...).", (unsigned long)sizeOfBuffer); return 0; } { va_list argptr; va_start(argptr, format); /* _vsnprintf_s() may cause exception. Need to test before enabling. # if __VISUAL_C_NOT_LESS(14,00) // defined HAVE__VSTPRINTF_S // _vsnprintf_s() recommended in MSDN ret = _vsnprintf_s(buffer, _TRUNCATE, format, argptr); if (ret < 0) { if (sizeOfBuffer>7) strcpy(buffer," ERROR "); else buffer[sizeOfBuffer-1] = '\0'; LOG.errtest(__FILE__,__LINE__-5); LOG.printf("! gsprintf()(buffer,%i,%s,...): _vsnprintf_s() error: \"%s\".", sizeOfBuffer, format, strerror(errno)); return -1; } buffer[sizeOfBuffer-1] = '\0'; // Microsoft implementation don't write final '\0' if buffer full. # elif __VISUAL_C_NOT_LESS(10,00) // defined HAVE__VSTPRINTF // _vsnprintf() exist in VS6 and deprecated in VS2005 */ # if __VISUAL_C_NOT_LESS(10,00) // defined HAVE__VSTPRINTF // _vsnprintf() exist in VS6 and deprecated in VS2005 char * b1 = new char[sizeOfBuffer+1]; const size_t endOfBuffer = sizeOfBuffer-1; ret = _vsnprintf(b1, sizeOfBuffer+1, format, argptr); if (ret == -1 || ret >= sizeOfBuffer) // Microsoft implementation returns -1 when buffer overflow. { strncpy(buffer,b1,endOfBuffer); buffer[endOfBuffer] = '\0'; // Microsoft implementation don't write final '\0' when buffer full. if (b1[sizeOfBuffer] && strlen(buffer)>=endOfBuffer) { LOG.printf("! %s", gerrinfo("Memory error", __file, __line)); LOG.printf("! gsprintf(buffer,%i,%s,...): buffer overflow, result in next line:", sizeOfBuffer, format); LOG.printf("! %s", buffer); if (sizeOfBuffer>17) memcpy(buffer, " ERROR, see log! ", 17); else if (sizeOfBuffer>7) memcpy(buffer," ERROR ", 7); } } else if (ret < 0) { LOG.errtest(__file, __line); LOG.printf("! gsprintf()(buffer,%i,%s,...): _vsnprintf() error: \"%s\".", sizeOfBuffer, format, strerror(errno)); TestErrorExit(); } else { strncpy(buffer,b1,endOfBuffer); buffer[endOfBuffer] = '\0'; } # elif defined HAVE_VSNPRINTF // C99 and above ret = vsnprintf(buffer, sizeOfBuffer, format, argptr); if (ret < 0) // Until glibc 2.0.6 vsnprintf() would return -1 when the output was truncated. { LOG.errtest(__file, __line); LOG.printf("! gsprintf(buffer,%i,%s,...): vsnprintf() error: \"%s\".", sizeOfBuffer, format, strerror(errno)); TestErrorExit(); } else if (ret >= sizeOfBuffer) { if (sizeOfBuffer>17) strcpy(buffer, " ERROR, see log! "); else if (sizeOfBuffer>7) strcpy(buffer," ERROR "); else buffer[sizeOfBuffer-1] = '\0'; LOG.printf("! %s", gerrinfo("Memory error", __file, __line)); LOG.printf("! gsprintf(buffer,%i,%s,...): buffer overflow (need %i bytes).", sizeOfBuffer, format, ret); } # else # error Please look C library of your compiler for function like vsnprintf, what do not write more than size bytes into string. # endif va_end(argptr); } return ret; } // ------------------------------------------------------------------ GTok::GTok(char* sep) { separator = sep ? sep : ", \t"; } // ------------------------------------------------------------------ #if defined(__GNUC__) && !defined(__EMX__) char* strupr(char* s) { char* p = s; while(*p) { *p = g_toupper(*p); p++; } return s; } char* strlwr(char* s) { char* p = s; while(*p) { *p = g_tolower(*p); p++; } return s; } #endif // ------------------------------------------------------------------ void tokenize(gstrarray &array, const TCHAR* str, const TCHAR *delim) { if (delim == NULL) delim = ", \t"; #if defined(_tcstok_s) TCHAR *tmp = _strdup(str); TCHAR *next_token; TCHAR *token = _tcstok_s(tmp, delim, &next_token); #else TCHAR *tmp = strdup(str); TCHAR *token = strtok(tmp, delim); #endif while (token) { array.push_back(token); #if defined(_tcstok_s) token = _tcstok_s(NULL, delim, &next_token); #else token = strtok(NULL, delim); #endif } free(tmp); } // ------------------------------------------------------------------ std::string &FormatString(std::string &format, const char *token, const char *replace) { size_t tokenLen = strlen(token); size_t pos = format.find(token); for (; pos != std::string::npos; pos = format.find(token)) { format.replace(pos, tokenLen, replace); } return format; } // ------------------------------------------------------------------ std::string &FormatString(std::string &format, const char *token, size_t replace) { char buff[128]; gsprintf(PRINTF_DECLARE_BUFFER(buff), "%u", replace); return FormatString(format, token, buff); } // ------------------------------------------------------------------