/* Variables Plugin for Miranda-IM (www.miranda-im.org) Copyright 2003-2006 P. Boon This program is mir_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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "variables.h" #include "parse_str.h" static TCHAR *parseCaps(ARGUMENTSINFO *ai) { TCHAR *cur, *res; if (ai->argc != 2) return NULL; res = mir_tstrdup(ai->targv[1]); cur = res; CharLower(res); *cur = (TCHAR)CharUpper((LPTSTR)*cur); cur++; while (*cur != _T('\0')) { if ((*cur == _T(' ')) && (*(cur+1) != _T('\0'))) { cur++; if (IsCharLower(*cur)) *cur = (TCHAR)CharUpper((LPTSTR)*cur); } else { cur++; if (IsCharUpper(*cur)) *cur = (TCHAR)CharLower((LPTSTR)*cur); } } return res; } static TCHAR *parseCaps2(ARGUMENTSINFO *ai) { TCHAR *cur, *res; if (ai->argc != 2) return NULL; res = mir_tstrdup(ai->targv[1]); cur = res; *cur = (TCHAR)CharUpper((LPTSTR)*cur); cur++; while (*cur != _T('\0')) { if ((*cur == _T(' ')) && (*(cur+1) != _T('\0'))) { cur++; if (IsCharLower(*cur)) *cur = (TCHAR)CharUpper((LPTSTR)*cur); } else cur++; } return res; } static TCHAR *parseCrlf(ARGUMENTSINFO *ai) { ai->flags |= AIF_DONTPARSE; return mir_tstrdup(_T("\r\n")); } static TCHAR *parseEolToCrlf(ARGUMENTSINFO *ai) { int loc; TCHAR *cur, *res; if (ai->argc != 2) { return NULL; } res = mir_tstrdup(ai->targv[1]); cur = res; do { cur = _tcschr(cur, _T('\n')); if ((cur == NULL) || ((cur > res) && (*(cur-1) == '\r'))) { continue; } log_debug(cur); loc = cur - res; res = ( TCHAR* )realloc(res, (_tcslen(res)+2)*sizeof(TCHAR)); cur = res + loc; MoveMemory(cur+2, cur+1, (_tcslen(cur+1)+1)*sizeof(TCHAR)); CopyMemory(cur, _T("\r\n"), 2*sizeof(TCHAR)); cur += 2; } while (cur != NULL); return res; } static TCHAR *parseFixeol(ARGUMENTSINFO *ai) { TCHAR *cur, *szReplacement, *res; if (ai->argc == 2) { szReplacement = _T("(...)"); } else if (ai->argc == 3) { szReplacement = ai->targv[2]; } else { return NULL; } cur = ai->targv[1]; while ( (_tcscmp(cur, _T("\r\n"))) && (*cur != _T('\n')) && (*cur != _T('\0'))) { cur++; } if (*cur == '\0') { return mir_tstrdup(ai->targv[1]); } cur--; res = ( TCHAR* )mir_alloc((cur-ai->targv[1] + _tcslen(szReplacement) + 1)*sizeof(TCHAR)); if (res == NULL) { return res; } ZeroMemory(res, ((cur - ai->targv[1]) + 1)*sizeof(TCHAR)); _tcsncpy(res, ai->targv[1], cur-ai->targv[1]); _tcscat(res, szReplacement); return res; } static TCHAR *parseFixeol2(ARGUMENTSINFO *ai) { TCHAR *res, *cur, *szEol, *szReplacement; unsigned int pos = 0; res = mir_tstrdup(ai->targv[1]); switch( ai->argc ) { case 2: szReplacement = _T(" "); break; case 3: szReplacement = ai->targv[2]; break; default: return NULL; } for ( pos=0; pos < _tcslen(res); pos++ ) { cur = res+pos; szEol = NULL; if (!_tcsncmp(cur, _T("\r\n"), _tcslen(_T("\r\n")))) { szEol = _T("\r\n"); } if (*cur == _T('\n')) { szEol = _T("\n"); } if (szEol != NULL) { if ( _tcslen(szReplacement) > _tcslen(szEol)) { res = ( TCHAR* )realloc(res, (_tcslen(res) + _tcslen(szReplacement) - _tcslen(szEol) + 1)*sizeof(TCHAR)); cur = res+pos; } MoveMemory(cur+_tcslen(szReplacement), cur+_tcslen(szEol), (_tcslen(cur+_tcslen(szEol))+1)*sizeof(TCHAR)); CopyMemory(cur, szReplacement, _tcslen(szReplacement)*sizeof(TCHAR)); pos += _tcslen(szReplacement) - 1; } } res = ( TCHAR* )realloc(res, (_tcslen(res)+1)*sizeof(TCHAR)); return res; } static TCHAR *parseInsert(ARGUMENTSINFO *ai) { TCHAR *res; unsigned int pos; if (ai->argc != 4) { return NULL; } pos = ttoi(ai->targv[3]); if (pos > _tcslen(ai->targv[1])) { return NULL; } res = ( TCHAR* )mir_alloc((_tcslen(ai->targv[1]) + _tcslen(ai->targv[2]) + 1)*sizeof(TCHAR)); if (res == NULL) { return NULL; } ZeroMemory(res, (_tcslen(ai->targv[1]) + _tcslen(ai->targv[2]) + 1)*sizeof(TCHAR)); _tcsncpy(res, ai->targv[1], pos); _tcscpy(res + pos, ai->targv[2]); _tcscpy(res+pos+_tcslen(ai->targv[2]), ai->targv[1]+pos); return res; } static TCHAR *parseLeft(ARGUMENTSINFO *ai) { int len; TCHAR *res; if (ai->argc != 3) { return NULL; } len = ttoi(ai->targv[2]); if (len < 0) { return NULL; } len = min(len, (signed int)_tcslen(ai->targv[1])); res = ( TCHAR* )mir_alloc((len + 1)*sizeof(TCHAR)); if (res == NULL) { return NULL; } ZeroMemory(res, (len+1)*sizeof(TCHAR)); _tcsncpy(res, ai->targv[1], len); return res; } static TCHAR *parseLen(ARGUMENTSINFO *ai) { int len; if (ai->argc != 2) { return NULL; } len = _tcslen(ai->targv[1]); return itot(len); } static TCHAR *parseLineCount(ARGUMENTSINFO *ai) { int count; TCHAR *cur; if (ai->argc != 2) { return NULL; } count = 1; cur = ai->targv[1]; while (cur < (ai->targv[1] + _tcslen(ai->targv[1]))) { if (!_tcsncmp(cur, _T("\r\n"), 2)) { count += 1; cur++; } else if (*cur == _T('\n')) { count += 1; } cur++; } return itot(count); } static TCHAR *parseLower(ARGUMENTSINFO *ai) { TCHAR *res; if (ai->argc != 2) { return NULL; } res = mir_tstrdup(ai->targv[1]); if (res == NULL) { return NULL; } return CharLower(res); } static TCHAR *parseLongest(ARGUMENTSINFO *ai) { unsigned int i, iLong; if (ai->argc < 2) { return NULL; } iLong = 1; for (i=2;iargc;i++) { if ( _tcslen(ai->targv[i]) > _tcslen(ai->targv[iLong])) { iLong = i; } } return mir_tstrdup(ai->targv[iLong]); } static TCHAR *parseNoOp(ARGUMENTSINFO *ai) { if (ai->argc != 2) { return NULL; } return mir_tstrdup(ai->targv[1]); } static TCHAR *parsePad(ARGUMENTSINFO *ai) { unsigned int addcount, i; int padding; TCHAR *res, padchar, *cur; switch( ai->argc ) { case 3: padchar = _T(' '); break; case 4: padchar = *ai->targv[3]; break; default: return NULL; } padding = ttoi(ai->targv[2]); if (padding < 0) return NULL; addcount = max(padding - (signed int)_tcslen(ai->targv[1]), 0); res = ( TCHAR* )mir_alloc((addcount + _tcslen(ai->targv[1]) + 1)*sizeof(TCHAR)); if (res == NULL) return NULL; ZeroMemory(res, (addcount + _tcslen(ai->targv[1]) + 1)*sizeof(TCHAR)); cur = res; for ( i=0; i < addcount; i++ ) *cur++ = padchar; _tcscat(res, ai->targv[1]); return res; } static TCHAR *parsePadright(ARGUMENTSINFO *ai) { unsigned int addcount, i; int padding; TCHAR *res, padchar, *cur; switch (ai->argc ) { case 3: padchar = _T(' '); break; case 4: padchar = *ai->targv[3]; break; default: return NULL; } padding = ttoi(ai->targv[2]); if (padding < 0) return NULL; addcount = max(padding - (signed int)_tcslen(ai->targv[1]), 0); res = ( TCHAR* )mir_alloc((addcount + _tcslen(ai->targv[1]) + 1)*sizeof(TCHAR)); if (res == NULL) return NULL; ZeroMemory(res, (addcount + _tcslen(ai->targv[1]) + 1)*sizeof(TCHAR)); _tcscpy(res, ai->targv[1]); cur = res + _tcslen(ai->targv[1]); for (i=0;iargc ) { case 3: padchar = _T(' '); break; case 4: padchar = *ai->targv[3]; break; default: return NULL; } padding = ttoi(ai->targv[2]); if (padding < 0) return NULL; addcount = max(padding - (signed int)_tcslen(ai->targv[1]), 0); res = ( TCHAR* )mir_alloc((padding + 1)*sizeof(TCHAR)); if (res == NULL) return NULL; ZeroMemory(res, (padding + 1)*sizeof(TCHAR)); cur = res; for (i=0;i addcount) _tcsncpy(res+addcount, ai->targv[1], padding-addcount); return res; } static TCHAR *parsePadcutright(ARGUMENTSINFO *ai) { int padding, addcount, i; TCHAR *res, padchar, *cur; switch( ai->argc ) { case 3: padchar = _T(' '); break; case 4: padchar = *ai->targv[3]; break; default: return NULL; } padding = ttoi(ai->targv[2]); if (padding < 0) return NULL; addcount = max(padding - (signed int)_tcslen(ai->targv[1]), 0); res = ( TCHAR* )mir_alloc((padding + 1)*sizeof(TCHAR)); if (res == NULL) return NULL; ZeroMemory(res, (padding + 1)*sizeof(TCHAR)); cur = res + padding - addcount; for (i=0; i < addcount; i++ ) *cur++ = padchar; if (padding > addcount ) _tcsncpy(res, ai->targv[1], padding-addcount); return res; } static TCHAR *parseRepeat(ARGUMENTSINFO *ai) { TCHAR *res; unsigned int i, count; if (ai->argc != 3) { return NULL; } count = ttoi(ai->targv[2]); if (count < 0) { return NULL; } res = ( TCHAR* )mir_alloc((count * _tcslen(ai->targv[1]) + 1)*sizeof(TCHAR)); if (res == NULL) { return NULL; } ZeroMemory(res, (count * _tcslen(ai->targv[1]) + 1)*sizeof(TCHAR)); for (i=0;itargv[1]); } return res; } static TCHAR *parseReplace(ARGUMENTSINFO *ai) { TCHAR *res, *cur; unsigned int i, pos; if ((ai->argc < 4) || (ai->argc%2 != 0)) { return NULL; } pos = 0; res = mir_tstrdup(ai->targv[1]); for (i=2;iargc;i+=2) { if ( _tcslen(ai->targv[i]) == 0) { continue; } for (pos=0;pos<_tcslen(res);pos++) { cur = res+pos; if (!_tcsncmp(cur, ai->targv[i], _tcslen(ai->targv[i]))) { if ( _tcslen(ai->targv[i+1]) > _tcslen(ai->targv[i])) { res = ( TCHAR* )realloc(res, (_tcslen(res) + _tcslen(ai->targv[i+1]) - _tcslen(ai->targv[i]) + 1)*sizeof(TCHAR)); cur = res+pos; } MoveMemory(cur+_tcslen(ai->targv[i+1]), cur+_tcslen(ai->targv[i]), (_tcslen(cur+_tcslen(ai->targv[i]))+1)*sizeof(TCHAR)); CopyMemory(cur, ai->targv[i+1], _tcslen(ai->targv[i+1])*sizeof(TCHAR)); pos += _tcslen(ai->targv[i+1]) - 1; } } res = ( TCHAR* )realloc(res, (_tcslen(res)+1)*sizeof(TCHAR)); } return res; } static TCHAR *parseRight(ARGUMENTSINFO *ai) { int len; TCHAR *res; if (ai->argc != 3) { return NULL; } len = ttoi(ai->targv[2]); if (len < 0) { return NULL; } len = min(len, (signed int)_tcslen(ai->targv[1])); res = ( TCHAR* )mir_alloc((len+1)*sizeof(TCHAR)); if (res == NULL) { return NULL; } ZeroMemory(res, (len+1)*sizeof(TCHAR)); _tcsncpy(res, ai->targv[1]+_tcslen(ai->targv[1])-len, len); return res; } /* string, display size, scroll amount */ static TCHAR *parseScroll(ARGUMENTSINFO *ai) { unsigned int display, move; TCHAR *res; if (ai->argc != 4) { return NULL; } if ( _tcslen(ai->targv[1]) == 0) { return mir_tstrdup(ai->targv[1]); } move = ttoi(ai->targv[3])%_tcslen(ai->targv[1]); display = ttoi(ai->targv[2]); if (display > _tcslen(ai->targv[1])) { display = _tcslen(ai->targv[1]); } res = ( TCHAR* )mir_alloc((2*_tcslen(ai->targv[1])+1)*sizeof(TCHAR)); if (res == NULL) { return NULL; } ZeroMemory(res, (2*_tcslen(ai->targv[1])+1)*sizeof(TCHAR)); _tcscpy(res, ai->targv[1]); _tcscat(res, ai->targv[1]); MoveMemory(res, res+move, (_tcslen(res+move)+1)*sizeof(TCHAR)); *(res + display) = _T('\0'); res = ( TCHAR* )realloc(res, (_tcslen(res)+1)*sizeof(TCHAR)); return res; } static TCHAR *parseShortest(ARGUMENTSINFO *ai) { unsigned int i, iShort; if (ai->argc <= 1) { return NULL; } iShort = 1; for (i=2;iargc;i++) { if ( _tcslen(ai->targv[i]) < _tcslen(ai->targv[iShort])) { iShort = i; } } return mir_tstrdup(ai->targv[iShort]); } static TCHAR *parseStrchr(ARGUMENTSINFO *ai) { TCHAR *c; char *szVal[34]; if (ai->argc != 3) { return NULL; } ZeroMemory(szVal, sizeof(szVal)); c = _tcschr(ai->targv[1], *ai->targv[2]); if ((c == NULL) || (*c == _T('\0'))) { return mir_tstrdup(_T("0")); } return itot(c-ai->targv[1]+1); } static TCHAR *parseStrcmp(ARGUMENTSINFO *ai) { if (ai->argc != 3) { return NULL; } if ( _tcscmp(ai->targv[1], ai->targv[2])) { ai->flags |= AIF_FALSE; } return mir_tstrdup(_T("")); } static TCHAR *parseStrmcmp(ARGUMENTSINFO *ai) { unsigned int i; if (ai->argc < 3) { return NULL; } ai->flags |= AIF_FALSE; for (i=2;iargc;i++) { if (!_tcscmp(ai->targv[1], ai->targv[i])) { ai->flags &= ~AIF_FALSE; break; } } return mir_tstrdup(_T("")); } static TCHAR *parseStrncmp(ARGUMENTSINFO *ai) { int n; if (ai->argc != 4) { return NULL; } n = ttoi(ai->targv[3]); if (n <= 0) { return NULL; } if ( _tcsncmp(ai->targv[1], ai->targv[2], n)) { ai->flags |= AIF_FALSE; } return mir_tstrdup(_T("")); } static TCHAR *parseStricmp(ARGUMENTSINFO *ai) { if (ai->argc != 3) { return NULL; } if ( _tcsicmp(ai->targv[1], ai->targv[2])) { ai->flags |= AIF_FALSE; } return mir_tstrdup(_T("")); } static TCHAR *parseStrnicmp(ARGUMENTSINFO *ai) { int n; if (ai->argc != 4) { return NULL; } n = ttoi(ai->targv[3]); if (n <= 0) { return NULL; } if ( _tcsnicmp(ai->targv[1], ai->targv[2], n)) { ai->flags |= AIF_FALSE; } return mir_tstrdup(_T("")); } static TCHAR *parseStrrchr(ARGUMENTSINFO *ai) { TCHAR *c; if (ai->argc != 3) { return NULL; } c = _tcsrchr(ai->targv[1], *ai->targv[2]); if ((c == NULL) || (*c == _T('\0'))) { return mir_tstrdup(_T("0")); } return itot(c-ai->targv[1]+1); } static TCHAR *parseStrstr(ARGUMENTSINFO *ai) { TCHAR *c; if (ai->argc != 3) { return NULL; } c = _tcsstr(ai->targv[1], ai->targv[2]); if ((c == NULL) || (*c == _T('\0'))) { return mir_tstrdup(_T("0")); } return itot(c-ai->targv[1]+1); } static TCHAR *parseSubstr(ARGUMENTSINFO *ai) { int from, to; TCHAR *res; if (ai->argc < 3) { return NULL; } from = max(ttoi(ai->targv[2])-1, 0); if (ai->argc > 3) { to = min(ttoi(ai->targv[3]), (signed int)_tcslen(ai->targv[1])); } else { to = _tcslen(ai->targv[1]); } if (to < from) { return NULL; } res = ( TCHAR* )mir_alloc((to-from+1)*sizeof(TCHAR)); ZeroMemory(res, (to-from+1)*sizeof(TCHAR)); _tcsncpy(res, ai->targv[1]+from, to-from); return res; } static TCHAR *parseSelect(ARGUMENTSINFO *ai) { int n; if (ai->argc <= 1) { return NULL; } n = ttoi(ai->targv[1]); if ((n > (signed int)ai->argc-2) || (n <= 0)) { return NULL; } return mir_tstrdup(ai->targv[n+1]); } static TCHAR *parseSwitch(ARGUMENTSINFO *ai) { unsigned int i; if (ai->argc%2 != 0) { return NULL; } for (i=2;iargc;i+=2) { if (!_tcscmp(ai->targv[1], ai->targv[i])) { return mir_tstrdup(ai->targv[i+1]); } } return NULL; } static TCHAR *parseTrim(ARGUMENTSINFO *ai) { TCHAR *scur, *ecur, *res; if (ai->argc != 2) { return NULL; } scur = ai->targv[1]; while (*scur == _T(' ')) { scur++; } ecur = ai->targv[1] + _tcslen(ai->targv[1])-1; while ( (*ecur == _T(' ')) && (ecur > ai->targv[1])) { ecur--; } if (scur >= ecur) { return mir_tstrdup(_T("")); } res = ( TCHAR* )mir_alloc((ecur-scur+2)*sizeof(TCHAR)); if (res == NULL) { return NULL; } ZeroMemory(res, (ecur-scur+2)*sizeof(TCHAR)); _tcsncpy(res, scur, ecur-scur+1); return res; } static TCHAR *parseTab(ARGUMENTSINFO *ai) { int count, i; TCHAR *res, *cur; count = 1; if ((ai->argc == 2) && (_tcslen(ai->targv[1]) > 0)) { count = ttoi(ai->targv[1]); } if (count < 0) { return NULL; } res = ( TCHAR* )mir_alloc((count+1)*sizeof(TCHAR)); if (res == NULL) { return NULL; } memset(res, _T('\0'), (count+1)*sizeof(TCHAR)); cur = res; for (i=0;iargc != 2) { return NULL; } res = mir_tstrdup(ai->targv[1]); if (res == NULL) { return NULL; } return CharUpper(res); } static TCHAR *getNthWord(TCHAR *szString, int w) { int count; TCHAR *res, *scur, *ecur; if (szString == NULL) { return NULL; } count = 0; scur = szString; while (*scur == _T(' ')) { scur++; } count+=1; while ( (count < w) && (scur < szString+_tcslen(szString))) { if (*scur == _T(' ')) { while (*scur == _T(' ')) { scur++; } count+=1; } if (count < w) { scur++; } } if (count != w) { return NULL; } ecur = scur; while ( (*ecur != _T(' ')) && (*ecur != _T('\0'))) { ecur++; } res = ( TCHAR* )mir_alloc((ecur-scur+1)*sizeof(TCHAR)); if (res == NULL) return NULL; ZeroMemory(res, (ecur-scur+1)*sizeof(TCHAR)); _tcsncpy(res, scur, ecur-scur); return res; } static TCHAR *parseWord(ARGUMENTSINFO *ai) { int i, from, to; TCHAR *res, *szWord; if (ai->argc < 3 || ai->argc > 4 ) return NULL; res = NULL; from = ttoi(ai->targv[2]); if (ai->argc == 4) { if ( _tcslen(ai->targv[3]) > 0) to = ttoi(ai->targv[3]); else to = 100000; // rework } else to = from; if ((from == 0) || (to == 0) || (from > to)) return NULL; for (i=from;i<=to;i++) { szWord = getNthWord(ai->targv[1], i); if (szWord == NULL) return res; if (res != NULL) { res = ( TCHAR* )realloc(res, (_tcslen(res) + _tcslen(szWord) + 2)*sizeof(TCHAR)); if (res != NULL) { _tcscat(res, _T(" ")); _tcscat(res, szWord); } } else res = mir_tstrdup(szWord); mir_free(szWord); } return res; } static TCHAR *parseExtratext(ARGUMENTSINFO *ai) { if (ai->argc > 1) return NULL; ai->flags |= AIF_DONTPARSE; if (ai->fi->szExtraText != NULL) return mir_tstrdup(ai->fi->tszExtraText); return NULL; } int registerStrTokens() { registerIntToken(_T(CAPS), parseCaps, TRF_FUNCTION, "String Functions\t(x)\tconverts each first letter of a word to uppercase, all others to lowercase"); registerIntToken(_T(CAPS2), parseCaps2, TRF_FUNCTION, "String Functions\t(x)\tconverts each first letter of a word to uppercase"); registerIntToken(_T(CRLF), parseCrlf, TRF_FUNCTION, "String Functions\t()\tinserts 'end of line' character"); registerIntToken(_T(EXTRATEXT), parseExtratext, TRF_FIELD, "String Functions\tdepends on calling plugin"); registerIntToken(_T(EOL2CRLF), parseEolToCrlf, TRF_FUNCTION, "String Functions\t(x)\tReplace all occurrences of \\n (Unix) by \\r\\n (Windows)"); registerIntToken(_T(FIXEOL), parseFixeol, TRF_FUNCTION, "String Functions\t(x,y)\tcuts x after the first line and appends y (y is optional)"); registerIntToken(_T(FIXEOL2), parseFixeol2, TRF_FUNCTION, "String Functions\t(x,y)\treplaces all end of line characters by y (y is optional)"); registerIntToken(_T(INSERT), parseInsert, TRF_FUNCTION, "String Functions\t(x,y,z)\tinserts string y at position z in string x"); registerIntToken(_T(LEFT), parseLeft, TRF_FUNCTION, "String Functions\t(x,y)\ttrims x to length y, keeping first y characters"); registerIntToken(_T(LEN), parseLen, TRF_FUNCTION, "String Functions\t(x)\tlength of x"); registerIntToken(_T(LINECOUNT), parseLineCount, TRF_FUNCTION, "String Functions\t(x)\tthe number of lines in string x"); registerIntToken(_T(LONGEST), parseLongest, TRF_FUNCTION, "String Functions\t(x,y,...)\tthe longest string of the arguments"); registerIntToken(_T(LOWER), parseLower, TRF_FUNCTION, "String Functions\t(x)\tconverts x to lowercase"); registerIntToken(_T(NOOP), parseNoOp, TRF_FUNCTION, "String Functions\t(x)\tno operation, x as given"); registerIntToken(_T(PAD), parsePad, TRF_FUNCTION, "String Functions\t(x,y,z)\tpads x to length y prepending character z (z is optional)"); registerIntToken(_T(PADRIGHT), parsePadright, TRF_FUNCTION, "String Functions\t(x,y,z)\tpads x to length y appending character z (z is optional)"); registerIntToken(_T(PADCUT), parsePadcut, TRF_FUNCTION, "String Functions\t(x,y,z)\tpads x to length y prepending character z, or cut if x is longer (z is optional)"); registerIntToken(_T(PADCUTRIGHT), parsePadcutright, TRF_FUNCTION, "String Functions\t(x,y,z)\tpads x to length y appending character z, or cut if x is longer (z is optional)"); registerIntToken(_T(REPEAT), parseRepeat, TRF_FUNCTION, "String Functions\t(x,y)\trepeats x y times"); registerIntToken(_T(REPLACE), parseReplace, TRF_FUNCTION, "String Functions\t(x,y,z,...)\treplace all occurrences of y in x with z, multiple y and z arguments allowed"); registerIntToken(_T(RIGHT), parseRight, TRF_FUNCTION, "String Functions\t(x,y)\ttrims x to length y, keeping last y characters"); registerIntToken(_T(SCROLL), parseScroll, TRF_FUNCTION, "String Functions\t(x,y,z)\tmoves string x, z characters to the left and trims it to y characters"); registerIntToken(_T(STRCMP), parseStrcmp, TRF_FUNCTION, "String Functions\t(x,y)\tTRUE if x equals y"); registerIntToken(_T(STRMCMP), parseStrmcmp, TRF_FUNCTION, "String Functions\t(x,y,...)\tTRUE if x equals any of the following arguments"); registerIntToken(_T(STRNCMP), parseStrncmp, TRF_FUNCTION, "String Functions\t(x,y,z)\tTRUE if the first z characters of x equal y"); registerIntToken(_T(STRICMP), parseStricmp, TRF_FUNCTION, "String Functions\t(x,y)\tTRUE if x equals y, ignoring case"); registerIntToken(_T(STRNICMP), parseStrnicmp, TRF_FUNCTION, "String Functions\t(x,y)\tTRUE if the first z characters of x equal y, ignoring case"); registerIntToken(_T(SHORTEST), parseShortest, TRF_FUNCTION, "String Functions\t(x,y,...)\tthe shortest string of the arguments"); registerIntToken(_T(STRCHR), parseStrchr, TRF_FUNCTION, "String Functions\t(x,y)\tlocation of first occurrence of character y in string x"); registerIntToken(_T(STRRCHR), parseStrrchr, TRF_FUNCTION, "String Functions\t(x,y)\tlocation of last occurrence of character y in string x"); registerIntToken(_T(STRSTR), parseStrstr, TRF_FUNCTION, "String Functions\t(x,y)\tlocation of first occurrence of string y in x"); registerIntToken(_T(SUBSTR), parseSubstr, TRF_FUNCTION, "String Functions\t(x,y,z)\tsubstring of x starting from position y to z"); registerIntToken(_T(SELECT), parseSelect, TRF_FUNCTION, "String Functions\t(x,y,...)\tthe xth string of the arguments"); registerIntToken(_T(SWITCH), parseSwitch, TRF_FUNCTION, "String Functions\t(x,y,z,...)\tz if y equals x, multiple y and z arguments allowed"); registerIntToken(_T(TRIM), parseTrim, TRF_FUNCTION, "String Functions\t(x)\tremoves white spaces in before and after x"); registerIntToken(_T(TAB), parseTab, TRF_FUNCTION, "String Functions\t(x)\tinserts x tab characters (x is optional)"); registerIntToken(_T(UPPER), parseUpper, TRF_FUNCTION, "String Functions\t(x)\tconverts x to upper case"); registerIntToken(_T(WORD), parseWord, TRF_FUNCTION, "String Functions\t(x,y,z)\twords (separated by white spaces) number y to z from string x (z is optional)"); return 0; }