/* 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 "stdafx.h" static wchar_t *parseAdd(ARGUMENTSINFO *ai) { if (ai->argc < 3) return nullptr; int result = 0; for (unsigned int i = 1; i < ai->argc; i++) result += ttoi(ai->targv[i]); return itot(result); } static wchar_t *parseDiv(ARGUMENTSINFO *ai) { if (ai->argc != 3) return nullptr; int val1 = ttoi(ai->targv[1]); int val2 = ttoi(ai->targv[2]); if (val2 == 0) return nullptr; return itot(val1 / val2); } static wchar_t *parseHex(ARGUMENTSINFO *ai) { unsigned int i; wchar_t szVal[34]; if (ai->argc != 3) return nullptr; int val = ttoi(ai->targv[1]); int padding = ttoi(ai->targv[2]); mir_snwprintf(szVal, L"%x", val); unsigned int zeros = max(padding - (signed int)mir_wstrlen(szVal), 0); wchar_t *res = (wchar_t*)mir_alloc((zeros + mir_wstrlen(szVal) + 3)*sizeof(wchar_t)); if (res == nullptr) return nullptr; memset(res, 0, ((zeros + mir_wstrlen(szVal) + 3) * sizeof(wchar_t))); mir_wstrcpy(res, L"0x"); for (i = 0; i < zeros; i++) *(res + 2 + i) = '0'; mir_wstrcat(res, szVal); return res; } static wchar_t *parseMod(ARGUMENTSINFO *ai) { if (ai->argc != 3) return nullptr; int val1 = ttoi(ai->targv[1]); int val2 = ttoi(ai->targv[2]); if (val2 == 0) return nullptr; return itot(val1 % val2); } static wchar_t *parseMul(ARGUMENTSINFO *ai) { if (ai->argc < 3) return nullptr; int result = ttoi(ai->targv[1]); for (unsigned i = 2; i < ai->argc; i++) result *= ttoi(ai->targv[i]); return itot(result); } static wchar_t *parseMuldiv(ARGUMENTSINFO *ai) { if (ai->argc != 4) return nullptr; if (ttoi(ai->targv[3]) == 0) return nullptr; return itot((ttoi(ai->targv[1])*ttoi(ai->targv[2])) / ttoi(ai->targv[3])); } static wchar_t *parseMin(ARGUMENTSINFO *ai) { if (ai->argc < 2) return nullptr; int minVal = ttoi(ai->targv[1]); for (unsigned i = 2; i < ai->argc; i++) minVal = min(ttoi(ai->targv[i]), minVal); return itot(minVal); } static wchar_t *parseMax(ARGUMENTSINFO *ai) { if (ai->argc < 2) return nullptr; int maxVal = ttoi(ai->targv[1]); for (unsigned i = 2; i < ai->argc; i++) maxVal = max(ttoi(ai->targv[i]), maxVal); return itot(maxVal); } static wchar_t *parseNum(ARGUMENTSINFO *ai) { if (ai->argc != 3) return nullptr; int val = ttoi(ai->targv[1]); int padding = ttoi(ai->targv[2]); wchar_t *szVal = itot(val); if (szVal == nullptr) return nullptr; unsigned zeros = max(padding - (signed int)mir_wstrlen(szVal), 0); wchar_t *res = (wchar_t*)mir_alloc((zeros + mir_wstrlen(szVal) + 1)*sizeof(wchar_t)); if (res == nullptr) { mir_free(szVal); return nullptr; } memset(res, 0, ((zeros + mir_wstrlen(szVal) + 1) * sizeof(wchar_t))); wchar_t *cur = res; for (unsigned i = 0; i < zeros; i++) *cur++ = '0'; mir_wstrcat(res, szVal); mir_free(szVal); return res; } static wchar_t *parseRand(ARGUMENTSINFO *) { return itot(rand()); } static wchar_t *parseSub(ARGUMENTSINFO *ai) { if (ai->argc < 3) return nullptr; int result = ttoi(ai->targv[1]); for (unsigned i = 2; i < ai->argc; i++) result -= ttoi(ai->targv[i]); return itot(result); } void registerMathTokens() { registerIntToken(ADD, parseAdd, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y ,...)\t" LPGEN("x + y + ...")); registerIntToken(DIV, parseDiv, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y)\t" LPGEN("x divided by y")); registerIntToken(HEX, parseHex, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y)\t" LPGEN("converts decimal value x to hex value and padds to length y")); registerIntToken(MOD, parseMod, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y)\t" LPGEN("x modulo y (remainder of x divided by y)")); registerIntToken(MUL, parseMul, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y)\t" LPGEN("x times y")); registerIntToken(MULDIV, parseMuldiv, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y,z)\t" LPGEN("x times y divided by z")); registerIntToken(MIN, parseMin, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y,...)\t" LPGEN("minimum value of (decimal) arguments")); registerIntToken(MAX, parseMax, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y,...)\t" LPGEN("maximum value of (decimal) arguments")); registerIntToken(NUM, parseNum, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y)\t" LPGEN("pads decimal value x to length y with zeros")); registerIntToken(RAND, parseRand, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t()\t" LPGEN("random number")); registerIntToken(SUB, parseSub, TRF_FUNCTION, LPGEN("Mathematical Functions") "\t(x,y,...)\t" LPGEN("x - y - ...")); srand((unsigned int)GetTickCount()); }