/* Variables Plugin for Miranda-IM (www.miranda-im.org) Copyright 2003-2006 P. Boon 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "variables.h" static TCHAR *parseAnd(ARGUMENTSINFO *ai) { if (ai->argc < 3) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); for (unsigned i = 1; i < ai->argc; i++) { fi.tszFormat = ai->targv[i]; mir_free(formatString(&fi)); if (fi.eCount > 0) { ai->flags |= AIF_FALSE; return mir_tstrdup(_T("")); } } return mir_tstrdup(_T("")); } static TCHAR *parseFalse(ARGUMENTSINFO *ai) { if (ai->argc != 1) return NULL; ai->flags |= AIF_FALSE; return mir_tstrdup(_T("")); } static TCHAR *parseIf(ARGUMENTSINFO *ai) { if (ai->argc != 4) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.eCount = fi.pCount = 0; fi.tszFormat = ai->targv[1]; mir_free(formatString(&fi)); return mir_tstrdup((fi.eCount == 0) ? ai->targv[2] : ai->targv[3]); } static TCHAR *parseIf2(ARGUMENTSINFO *ai) { if (ai->argc != 3) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.eCount = fi.pCount = 0; fi.tszFormat = ai->targv[1]; TCHAR *szCondition = formatString(&fi); if (fi.eCount == 0) return szCondition; mir_free(szCondition); return mir_tstrdup(ai->targv[2]); } static TCHAR *parseIf3(ARGUMENTSINFO *ai) { FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); for (unsigned i = 1; i < ai->argc; i++) { fi.eCount = fi.pCount = 0; fi.tszFormat = ai->targv[i]; TCHAR *szCondition = formatString(&fi); if (fi.eCount == 0) return szCondition; mir_free(szCondition); } return NULL; } static TCHAR *parseIfequal(ARGUMENTSINFO *ai) { if (ai->argc != 5) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.szFormat = ai->argv[1]; ptrT tszFirst(formatString(&fi)); fi.szFormat = ai->argv[2]; ptrT tszSecond(formatString(&fi)); if (tszFirst == NULL || tszSecond == NULL) return NULL; if (ttoi(tszFirst) == ttoi(tszSecond)) return mir_tstrdup(ai->targv[3]); return mir_tstrdup(ai->targv[4]); } static TCHAR *parseIfgreater(ARGUMENTSINFO *ai) { if (ai->argc != 5) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.szFormat = ai->argv[1]; ptrT tszFirst(formatString(&fi)); fi.szFormat = ai->argv[2]; ptrT tszSecond(formatString(&fi)); if (tszFirst == NULL || tszSecond == NULL) return NULL; if (ttoi(tszFirst) > ttoi(tszSecond)) return mir_tstrdup(ai->targv[3]); return mir_tstrdup(ai->targv[4]); } static TCHAR *parseIflonger(ARGUMENTSINFO *ai) { if (ai->argc != 5) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.szFormat = ai->argv[1]; ptrT tszFirst(formatString(&fi)); fi.szFormat = ai->argv[2]; ptrT tszSecond(formatString(&fi)); if (tszFirst == NULL || tszSecond == NULL) return NULL; if (_tcslen(tszFirst) > _tcslen(tszSecond)) return mir_tstrdup(ai->targv[3]); return mir_tstrdup(ai->targv[4]); } /* ?for(init, cond, incr, show) */ static TCHAR *parseFor(ARGUMENTSINFO *ai) { if (ai->argc != 5) return NULL; TCHAR *parsed; TCHAR *res = mir_tstrdup(_T("")); FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.eCount = fi.pCount = 0; fi.tszFormat = ai->targv[1]; mir_free(formatString(&fi)); fi.tszFormat = ai->targv[2]; mir_free(formatString(&fi)); while (fi.eCount == 0) { fi.tszFormat = ai->targv[4]; parsed = formatString(&fi); if (parsed != NULL) { if (res == NULL) { res = (TCHAR*)mir_alloc(_tcslen(parsed) + 1 * sizeof(TCHAR)); if (res == NULL) return NULL; } else res = (TCHAR*)mir_realloc(res, (_tcslen(res) + _tcslen(parsed) + 1)*sizeof(TCHAR)); _tcscat(res, parsed); } fi.tszFormat = ai->targv[3]; mir_free(formatString(&fi)); fi.eCount = 0; fi.tszFormat = ai->targv[2]; mir_free(formatString(&fi)); } return res; } static TCHAR *parseEqual(ARGUMENTSINFO *ai) { if (ai->argc != 3) return NULL; if (ttoi(ai->targv[1]) != ttoi(ai->targv[2])) ai->flags |= AIF_FALSE; return mir_tstrdup(_T("")); } static TCHAR *parseGreater(ARGUMENTSINFO *ai) { if (ai->argc != 3) return NULL; if (ttoi(ai->targv[1]) <= ttoi(ai->targv[2])) ai->flags |= AIF_FALSE; return mir_tstrdup(_T("")); } static TCHAR *parseLonger(ARGUMENTSINFO *ai) { if (ai->argc != 3) return NULL; if (_tcslen(ai->targv[1]) <= _tcslen(ai->targv[2])) ai->flags |= AIF_FALSE; return mir_tstrdup(_T("")); } static TCHAR *parseNot(ARGUMENTSINFO *ai) { if (ai->argc != 2) { return NULL; } FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); fi.tszFormat = ai->targv[1]; mir_free(formatString(&fi)); if (fi.eCount == 0) ai->flags |= AIF_FALSE; return mir_tstrdup(_T("")); } static TCHAR *parseOr(ARGUMENTSINFO *ai) { if (ai->argc < 2) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); ai->flags |= AIF_FALSE; for (unsigned i = 1; (i < ai->argc) && (ai->flags&AIF_FALSE); i++) { fi.tszFormat = ai->targv[i]; fi.eCount = 0; mir_free(formatString(&fi)); if (fi.eCount == 0) ai->flags &= ~AIF_FALSE; } return mir_tstrdup(_T("")); } static TCHAR *parseTrue(ARGUMENTSINFO *ai) { return (ai->argc != 1) ? NULL : mir_tstrdup(_T("")); } static TCHAR *parseXor(ARGUMENTSINFO *ai) { if (ai->argc != 3) return NULL; FORMATINFO fi; memcpy(&fi, ai->fi, sizeof(fi)); ai->flags = AIF_FALSE; fi.tszFormat = ai->targv[0]; mir_free(formatString(&fi)); int val1 = fi.eCount == 0; fi.tszFormat = ai->targv[1]; mir_free(formatString(&fi)); int val2 = fi.eCount == 0; ai->flags |= ((val1 & AIF_FALSE) == !(val2 & AIF_FALSE)) ? 0 : AIF_FALSE; return mir_tstrdup(_T("")); } void registerLogicTokens() { registerIntToken(AND, parseAnd, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y, ...)\t"LPGEN("performs logical AND (x && y && ...)")); registerIntToken(STR_FALSE, parseFalse, TRF_FIELD, LPGEN("Logical Expressions")"\t"LPGEN("Boolean FALSE")); registerIntToken(FOR, parseFor, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(w,x,y,z)\t"LPGEN("performs w, then shows z and performs y while x is TRUE")); registerIntToken(IF, parseIf, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y,z)\t"LPGEN("shows y if x is TRUE, otherwise it shows z")); registerIntToken(IF2, parseIf2, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y)\t"LPGEN("shows x if x is TRUE, otherwise it shows y (if(x,x,y))")); registerIntToken(IF3, parseIf3, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y, ...)\t"LPGEN("the first argument parsed successfully")); registerIntToken(IFEQUAL, parseIfequal, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(w,x,y,z)\t"LPGEN("y if w = x, else z")); registerIntToken(IFGREATER, parseIfgreater, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(w,x,y,z)\t"LPGEN("y if w > x, else z")); registerIntToken(IFLONGER, parseIflonger, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(w,x,y,z)\t"LPGEN("y if string length of w > x, else z")); registerIntToken(EQUAL, parseEqual, TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y)\t"LPGEN("TRUE if x = y")); registerIntToken(GREATER, parseGreater, TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y)\t"LPGEN("TRUE if x > y")); registerIntToken(LONGER, parseLonger, TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y)\t"LPGEN("TRUE if x is longer than y")); registerIntToken(NOT, parseNot, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x)\t"LPGEN("performs logical NOT (!x)")); registerIntToken(OR, parseOr, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y,...)\t"LPGEN("performs logical OR (x || y || ...)")); registerIntToken(STR_TRUE, parseTrue, TRF_FIELD, LPGEN("Logical Expressions")"\t"LPGEN("Boolean TRUE")); registerIntToken(XOR, parseXor, TRF_UNPARSEDARGS | TRF_FUNCTION, LPGEN("Logical Expressions")"\t(x,y)\t"LPGEN("performs logical XOR (x ^ y)")); }