/* Copyright (C) 2004 Kimmo Pekkola 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" #include "ConfigParser.h" #include "Litestep.h" #include "Rainmeter.h" #include "System.h" extern CRainmeter* Rainmeter; using namespace Gdiplus; std::map CConfigParser::c_MonitorVariables; /* ** CConfigParser ** ** The constructor ** */ CConfigParser::CConfigParser() { m_Parser = MathParser_Create(NULL); } /* ** ~CConfigParser ** ** The destructor ** */ CConfigParser::~CConfigParser() { MathParser_Destroy(m_Parser); } /* ** Initialize ** ** */ void CConfigParser::Initialize(LPCTSTR filename, CRainmeter* pRainmeter, CMeterWindow* meterWindow) { m_Filename = filename; m_BuiltInVariables.clear(); m_Variables.clear(); m_Measures.clear(); m_Keys.clear(); m_Values.clear(); m_Sections.clear(); // Set the built-in variables. Do this before the ini file is read so that the paths can be used with @include SetBuiltInVariables(pRainmeter, meterWindow); ResetMonitorVariables(meterWindow); std::vector iniFileMappings; CSystem::GetIniFileMappingList(iniFileMappings); ReadIniFile(iniFileMappings, m_Filename); ReadVariables(); } /* ** SetBuiltInVariables ** ** */ void CConfigParser::SetBuiltInVariables(CRainmeter* pRainmeter, CMeterWindow* meterWindow) { if (pRainmeter) { SetBuiltInVariable(L"PROGRAMPATH", pRainmeter->GetPath()); // Extract volume path from program path // E.g.: // "C:\path\" to "C:" // "\\server\share\" to "\\server\share" // "\\server\C:\path\" to "\\server\C:" const std::wstring& path = pRainmeter->GetPath(); std::wstring::size_type loc, loc2; if ((loc = path.find_first_of(L':')) != std::wstring::npos) { SetBuiltInVariable(L"PROGRAMDRIVE", path.substr(0, loc + 1)); } else if (path.length() >= 2 && (path[0] == L'\\' || path[0] == L'/') && (path[1] == L'\\' || path[1] == L'/')) { if ((loc = path.find_first_of(L"\\/", 2)) != std::wstring::npos) { if ((loc2 = path.find_first_of(L"\\/", loc + 1)) != std::wstring::npos || loc != (path.length() - 1)) { loc = loc2; } } SetBuiltInVariable(L"PROGRAMDRIVE", path.substr(0, loc)); } SetBuiltInVariable(L"SETTINGSPATH", pRainmeter->GetSettingsPath()); SetBuiltInVariable(L"SKINSPATH", pRainmeter->GetSkinPath()); SetBuiltInVariable(L"PLUGINSPATH", pRainmeter->GetPluginPath()); SetBuiltInVariable(L"CURRENTPATH", CRainmeter::ExtractPath(m_Filename)); SetBuiltInVariable(L"ADDONSPATH", pRainmeter->GetPath() + L"Addons\\"); SetBuiltInVariable(L"CRLF", L"\n"); if (meterWindow) { const std::wstring& config = meterWindow->GetSkinName(); if ((loc = config.find_first_of(L'\\')) != std::wstring::npos) { SetBuiltInVariable(L"ROOTCONFIGPATH", pRainmeter->GetSkinPath() + config.substr(0, loc + 1)); } else { SetBuiltInVariable(L"ROOTCONFIGPATH", pRainmeter->GetSkinPath() + config + L"\\"); } } } if (meterWindow) { SetBuiltInVariable(L"CURRENTCONFIG", meterWindow->GetSkinName()); } } /* ** ReadVariables ** ** Sets all user-defined variables. ** */ void CConfigParser::ReadVariables() { std::vector listVariables = GetKeys(L"Variables"); for (size_t i = 0; i < listVariables.size(); ++i) { SetVariable(listVariables[i], ReadString(L"Variables", listVariables[i].c_str(), L"", false)); } } /** ** Sets a new value for the variable. The DynamicVariables must be set to 1 in the ** meter/measure for the changes to be applied. ** ** \param variables ** \param strVariable ** \param strValue */ void CConfigParser::SetVariable(std::map& variables, const std::wstring& strVariable, const std::wstring& strValue) { // DebugLog(L"Variable: %s=%s (size=%i)", strVariable.c_str(), strValue.c_str(), m_Variables.size()); std::wstring strTmp(strVariable); std::transform(strTmp.begin(), strTmp.end(), strTmp.begin(), ::towlower); variables[strTmp] = strValue; } /** ** Gets a value for the variable. ** ** \param strVariable ** \param strValue ** \return true if variable is found */ bool CConfigParser::GetVariable(const std::wstring& strVariable, std::wstring& strValue) { std::wstring strTmp(strVariable); std::transform(strTmp.begin(), strTmp.end(), strTmp.begin(), ::towlower); // #1: Built-in variables std::map::const_iterator iter = m_BuiltInVariables.find(strTmp); if (iter != m_BuiltInVariables.end()) { // Built-in variable found strValue = (*iter).second; return true; } // #2: Monitor variables iter = c_MonitorVariables.find(strTmp); if (iter != c_MonitorVariables.end()) { // SCREENAREA/WORKAREA variable found strValue = (*iter).second; return true; } // #3: User-defined variables iter = m_Variables.find(strTmp); if (iter != m_Variables.end()) { // Variable found strValue = (*iter).second; return true; } // Not found return false; } /* ** ResetMonitorVariables ** ** */ void CConfigParser::ResetMonitorVariables(CMeterWindow* meterWindow) { // Set the SCREENAREA/WORKAREA variables if (c_MonitorVariables.empty()) { SetMultiMonitorVariables(true); } // Set the SCREENAREA/WORKAREA variables for present monitor SetAutoSelectedMonitorVariables(meterWindow); } /* ** SetMultiMonitorVariables ** ** Sets new values for the SCREENAREA/WORKAREA variables. ** */ void CConfigParser::SetMultiMonitorVariables(bool reset) { TCHAR buffer[256]; RECT workArea, scrArea; if (!reset && c_MonitorVariables.empty()) { reset = true; // Set all variables } SystemParametersInfo(SPI_GETWORKAREA, 0, &workArea, 0); swprintf(buffer, L"%i", workArea.left); SetMonitorVariable(L"WORKAREAX", buffer); SetMonitorVariable(L"PWORKAREAX", buffer); swprintf(buffer, L"%i", workArea.top); SetMonitorVariable(L"WORKAREAY", buffer); SetMonitorVariable(L"PWORKAREAY", buffer); swprintf(buffer, L"%i", workArea.right - workArea.left); SetMonitorVariable(L"WORKAREAWIDTH", buffer); SetMonitorVariable(L"PWORKAREAWIDTH", buffer); swprintf(buffer, L"%i", workArea.bottom - workArea.top); SetMonitorVariable(L"WORKAREAHEIGHT", buffer); SetMonitorVariable(L"PWORKAREAHEIGHT", buffer); if (reset) { scrArea.left = 0; scrArea.top = 0; scrArea.right = GetSystemMetrics(SM_CXSCREEN); scrArea.bottom = GetSystemMetrics(SM_CYSCREEN); swprintf(buffer, L"%i", scrArea.left); SetMonitorVariable(L"SCREENAREAX", buffer); SetMonitorVariable(L"PSCREENAREAX", buffer); swprintf(buffer, L"%i", scrArea.top); SetMonitorVariable(L"SCREENAREAY", buffer); SetMonitorVariable(L"PSCREENAREAY", buffer); swprintf(buffer, L"%i", scrArea.right - scrArea.left); SetMonitorVariable(L"SCREENAREAWIDTH", buffer); SetMonitorVariable(L"PSCREENAREAWIDTH", buffer); swprintf(buffer, L"%i", scrArea.bottom - scrArea.top); SetMonitorVariable(L"SCREENAREAHEIGHT", buffer); SetMonitorVariable(L"PSCREENAREAHEIGHT", buffer); swprintf(buffer, L"%i", GetSystemMetrics(SM_XVIRTUALSCREEN)); SetMonitorVariable(L"VSCREENAREAX", buffer); swprintf(buffer, L"%i", GetSystemMetrics(SM_YVIRTUALSCREEN)); SetMonitorVariable(L"VSCREENAREAY", buffer); swprintf(buffer, L"%i", GetSystemMetrics(SM_CXVIRTUALSCREEN)); SetMonitorVariable(L"VSCREENAREAWIDTH", buffer); swprintf(buffer, L"%i", GetSystemMetrics(SM_CYVIRTUALSCREEN)); SetMonitorVariable(L"VSCREENAREAHEIGHT", buffer); } if (CSystem::GetMonitorCount() > 0) { const MULTIMONITOR_INFO& multimonInfo = CSystem::GetMultiMonitorInfo(); const std::vector& monitors = multimonInfo.monitors; for (size_t i = 0; i < monitors.size(); ++i) { TCHAR buffer2[256]; const RECT work = (monitors[i].active) ? monitors[i].work : workArea; swprintf(buffer, L"%i", work.left); swprintf(buffer2, L"WORKAREAX@%i", i + 1); SetMonitorVariable(buffer2, buffer); swprintf(buffer, L"%i", work.top); swprintf(buffer2, L"WORKAREAY@%i", i + 1); SetMonitorVariable(buffer2, buffer); swprintf(buffer, L"%i", work.right - work.left); swprintf(buffer2, L"WORKAREAWIDTH@%i", i + 1); SetMonitorVariable(buffer2, buffer); swprintf(buffer, L"%i", work.bottom - work.top); swprintf(buffer2, L"WORKAREAHEIGHT@%i", i + 1); SetMonitorVariable(buffer2, buffer); if (reset) { const RECT screen = (monitors[i].active) ? monitors[i].screen : scrArea; swprintf(buffer, L"%i", screen.left); swprintf(buffer2, L"SCREENAREAX@%i", i + 1); SetMonitorVariable(buffer2, buffer); swprintf(buffer, L"%i", screen.top); swprintf(buffer2, L"SCREENAREAY@%i", i + 1); SetMonitorVariable(buffer2, buffer); swprintf(buffer, L"%i", screen.right - screen.left); swprintf(buffer2, L"SCREENAREAWIDTH@%i", i + 1); SetMonitorVariable(buffer2, buffer); swprintf(buffer, L"%i", screen.bottom - screen.top); swprintf(buffer2, L"SCREENAREAHEIGHT@%i", i + 1); SetMonitorVariable(buffer2, buffer); } } } } /* ** SetAutoSelectedMonitorVariables ** ** Sets new SCREENAREA/WORKAREA variables for present monitor. ** */ void CConfigParser::SetAutoSelectedMonitorVariables(CMeterWindow* meterWindow) { if (meterWindow) { TCHAR buffer[256]; if (CSystem::GetMonitorCount() > 0) { int w1, w2, s1, s2; int screenIndex; const MULTIMONITOR_INFO& multimonInfo = CSystem::GetMultiMonitorInfo(); const std::vector& monitors = multimonInfo.monitors; // Set X / WIDTH screenIndex = multimonInfo.primary; if (meterWindow->GetXScreenDefined()) { int i = meterWindow->GetXScreen(); if (i >= 0 && (i == 0 || i <= (int)monitors.size() && monitors[i-1].active)) { screenIndex = i; } } if (screenIndex == 0) { s1 = w1 = multimonInfo.vsL; s2 = w2 = multimonInfo.vsW; } else { w1 = monitors[screenIndex-1].work.left; w2 = monitors[screenIndex-1].work.right - monitors[screenIndex-1].work.left; s1 = monitors[screenIndex-1].screen.left; s2 = monitors[screenIndex-1].screen.right - monitors[screenIndex-1].screen.left; } swprintf(buffer, L"%i", w1); SetBuiltInVariable(L"WORKAREAX", buffer); swprintf(buffer, L"%i", w2); SetBuiltInVariable(L"WORKAREAWIDTH", buffer); swprintf(buffer, L"%i", s1); SetBuiltInVariable(L"SCREENAREAX", buffer); swprintf(buffer, L"%i", s2); SetBuiltInVariable(L"SCREENAREAWIDTH", buffer); // Set Y / HEIGHT screenIndex = multimonInfo.primary; if (meterWindow->GetYScreenDefined()) { int i = meterWindow->GetYScreen(); if (i >= 0 && (i == 0 || i <= (int)monitors.size() && monitors[i-1].active)) { screenIndex = i; } } if (screenIndex == 0) { s1 = w1 = multimonInfo.vsL; s2 = w2 = multimonInfo.vsW; } else { w1 = monitors[screenIndex-1].work.top; w2 = monitors[screenIndex-1].work.bottom - monitors[screenIndex-1].work.top; s1 = monitors[screenIndex-1].screen.top; s2 = monitors[screenIndex-1].screen.bottom - monitors[screenIndex-1].screen.top; } swprintf(buffer, L"%i", w1); SetBuiltInVariable(L"WORKAREAY", buffer); swprintf(buffer, L"%i", w2); SetBuiltInVariable(L"WORKAREAHEIGHT", buffer); swprintf(buffer, L"%i", s1); SetBuiltInVariable(L"SCREENAREAY", buffer); swprintf(buffer, L"%i", s2); SetBuiltInVariable(L"SCREENAREAHEIGHT", buffer); } else { RECT r; // Set default WORKAREA SystemParametersInfo(SPI_GETWORKAREA, 0, &r, 0); swprintf(buffer, L"%i", r.left); SetBuiltInVariable(L"WORKAREAX", buffer); swprintf(buffer, L"%i", r.top); SetBuiltInVariable(L"WORKAREAY", buffer); swprintf(buffer, L"%i", r.right - r.left); SetBuiltInVariable(L"WORKAREAWIDTH", buffer); swprintf(buffer, L"%i", r.bottom - r.top); SetBuiltInVariable(L"WORKAREAHEIGHT", buffer); // Set default SCREENAREA r.left = 0; r.top = 0; r.right = GetSystemMetrics(SM_CXSCREEN); r.bottom = GetSystemMetrics(SM_CYSCREEN); swprintf(buffer, L"%i", r.left); SetBuiltInVariable(L"SCREENAREAX", buffer); swprintf(buffer, L"%i", r.top); SetBuiltInVariable(L"SCREENAREAY", buffer); swprintf(buffer, L"%i", r.right - r.left); SetBuiltInVariable(L"SCREENAREAWIDTH", buffer); swprintf(buffer, L"%i", r.bottom - r.top); SetBuiltInVariable(L"SCREENAREAHEIGHT", buffer); } } } /** ** Replaces environment and internal variables in the given string. ** ** \param result The string where the variables are returned. The string is modified. */ bool CConfigParser::ReplaceVariables(std::wstring& result) { bool replaced = false; CRainmeter::ExpandEnvironmentVariables(result); if (c_MonitorVariables.empty()) { SetMultiMonitorVariables(true); } // Check for variables (#VAR#) size_t start = 0; size_t end = std::wstring::npos; size_t pos = std::wstring::npos; bool loop = true; do { pos = result.find(L'#', start); if (pos != std::wstring::npos) { end = result.find(L'#', pos + 1); if (end != std::wstring::npos) { std::wstring strVariable(result.begin() + pos + 1, result.begin() + end); std::wstring strValue; if (GetVariable(strVariable, strValue)) { // Variable found, replace it with the value result.replace(result.begin() + pos, result.begin() + end + 1, strValue); start = pos + strValue.length(); replaced = true; } else { start = end; } } else { loop = false; } } else { loop = false; } } while(loop); return replaced; } /** ** Replaces measures in the given string. ** ** \param result The string where the measure values are returned. The string is modified. */ bool CConfigParser::ReplaceMeasures(std::wstring& result) { bool replaced = false; // Check for measures ([Measure]) if (!m_Measures.empty()) { size_t start = 0; size_t end = std::wstring::npos; size_t pos = std::wstring::npos; size_t pos2 = std::wstring::npos; bool loop = true; do { pos = result.find(L'[', start); if (pos != std::wstring::npos) { end = result.find(L']', pos + 1); if (end != std::wstring::npos) { pos2 = result.find(L'[', pos + 1); if (pos2 == std::wstring::npos || end < pos2) { std::wstring var(result.begin() + pos + 1, result.begin() + end); CMeasure* measure = GetMeasure(var); if (measure) { std::wstring value = measure->GetStringValue(false, 1, -1, false); // Measure found, replace it with the value result.replace(result.begin() + pos, result.begin() + end + 1, value); start = pos + value.length(); replaced = true; } else { start = end; } } else { start = pos2; } } else { loop = false; } } else { loop = false; } } while(loop); } return replaced; } /* ** ReadString ** ** */ const std::wstring& CConfigParser::ReadString(LPCTSTR section, LPCTSTR key, LPCTSTR defValue, bool bReplaceMeasures) { static std::wstring result; if (section == NULL) { section = L""; } if (key == NULL) { key = L""; } if (defValue == NULL) { defValue = L""; } // Clear last status m_LastUsedStyle.clear(); m_LastReplaced = false; m_LastDefaultUsed = false; std::wstring strDefault = defValue; // If the template is defined read the value first from there. if (!m_StyleTemplate.empty()) { std::vector::const_reverse_iterator iter = m_StyleTemplate.rbegin(); for ( ; iter != m_StyleTemplate.rend(); ++iter) { if (!(*iter).empty()) { std::wstring strSection = (*iter); std::wstring::size_type pos = strSection.find_first_not_of(L" \t\r\n"); if (pos != std::wstring::npos) { std::wstring::size_type lastPos = strSection.find_last_not_of(L" \t\r\n"); if (pos != 0 || lastPos != (strSection.length() - 1)) { // Trim white-space strSection.swap(std::wstring(strSection, pos, lastPos - pos + 1)); } const std::wstring& strStyle = GetValue(strSection, key, strDefault); //DebugLog(L"[%s] %s (from [%s]) : strDefault=%s (0x%08X), strStyle=%s (0x%08X)", // section, key, strSection.c_str(), strDefault.c_str(), &strDefault, strStyle.c_str(), &strStyle); if (&strStyle != &strDefault) { strDefault = strStyle; m_LastUsedStyle = strSection; break; } } } } } const std::wstring& strValue = GetValue(section, key, strDefault); result = strValue; if (!m_LastUsedStyle.empty()) { if (&strValue != &strDefault) { m_LastUsedStyle.clear(); } } else { if (&strValue == &strDefault) { m_LastDefaultUsed = true; return result; } } // Check Litestep vars if (Rainmeter && !Rainmeter->GetDummyLitestep()) { std::string ansi = ConvertToAscii(result.c_str()); char buffer[4096]; // lets hope the buffer is large enough... if (ansi.size() < 4096) { VarExpansion(buffer, ansi.c_str()); result = ConvertToWide(buffer); } } if (ReplaceVariables(result)) { m_LastReplaced = true; } if (bReplaceMeasures && ReplaceMeasures(result)) { m_LastReplaced = true; } return result; } void CConfigParser::AddMeasure(CMeasure* pMeasure) { if (pMeasure) { m_Measures[pMeasure->GetName()] = pMeasure; } } CMeasure* CConfigParser::GetMeasure(const std::wstring& name) { std::map::const_iterator iter = m_Measures.begin(); for ( ; iter != m_Measures.end(); ++iter) { if (_wcsicmp((*iter).first.c_str(), name.c_str()) == 0) { return (*iter).second; } } return NULL; } double CConfigParser::ReadFloat(LPCTSTR section, LPCTSTR key, double defValue) { const std::wstring& result = ReadString(section, key, L""); return (m_LastDefaultUsed) ? defValue : ParseDouble(result, defValue); } std::vector CConfigParser::ReadFloats(LPCTSTR section, LPCTSTR key) { std::vector result; std::wstring tmp = ReadString(section, key, L""); if (!tmp.empty() && tmp[tmp.length() - 1] != L';') { tmp += L";"; } // Tokenize and parse the floats std::vector tokens = Tokenize(tmp, L";"); for (size_t i = 0; i < tokens.size(); ++i) { result.push_back((Gdiplus::REAL)ParseDouble(tokens[i], 0)); } return result; } int CConfigParser::ReadInt(LPCTSTR section, LPCTSTR key, int defValue) { const std::wstring& result = ReadString(section, key, L""); return (m_LastDefaultUsed) ? defValue : (int)ParseDouble(result, defValue, true); } // Works as ReadFloat except if the value is surrounded by parenthesis in which case it tries to evaluate the formula double CConfigParser::ReadFormula(LPCTSTR section, LPCTSTR key, double defValue) { const std::wstring& result = ReadString(section, key, L""); // Formulas must be surrounded by parenthesis if (!result.empty() && result[0] == L'(' && result[result.size() - 1] == L')') { double resultValue = defValue; char* errMsg = MathParser_Parse(m_Parser, ConvertToAscii(result.substr(1, result.size() - 2).c_str()).c_str(), &resultValue); if (errMsg != NULL) { LSLog(LOG_DEBUG, APPNAME, ConvertToWide(errMsg).c_str()); } return resultValue; } return (m_LastDefaultUsed) ? defValue : ParseDouble(result, defValue); } // Returns an int if the formula was read successfully, -1 for failure. // Pass a pointer to a double. int CConfigParser::ReadFormula(const std::wstring& result, double* resultValue) { // Formulas must be surrounded by parenthesis if (!result.empty() && result[0] == L'(' && result[result.size() - 1] == L')') { char* errMsg = MathParser_Parse(m_Parser, ConvertToAscii(result.substr(1, result.size() - 2).c_str()).c_str(), resultValue); if (errMsg != NULL) { LSLog(LOG_DEBUG, APPNAME, ConvertToWide(errMsg).c_str()); return -1; } return 1; } return -1; } Color CConfigParser::ReadColor(LPCTSTR section, LPCTSTR key, const Color& defValue) { const std::wstring& result = ReadString(section, key, L""); return (m_LastDefaultUsed) ? defValue : ParseColor(result.c_str()); } /* ** Tokenize ** ** Splits the string from the delimiters ** ** http://www.digitalpeer.com/id/simple */ std::vector CConfigParser::Tokenize(const std::wstring& str, const std::wstring& delimiters) { std::vector tokens; std::wstring::size_type lastPos = str.find_first_not_of(delimiters, 0); // skip delimiters at beginning. std::wstring::size_type pos = str.find_first_of(delimiters, lastPos); // find first "non-delimiter". while (std::wstring::npos != pos || std::wstring::npos != lastPos) { tokens.push_back(str.substr(lastPos, pos - lastPos)); // found a token, add it to the vector. lastPos = str.find_first_not_of(delimiters, pos); // skip delimiters. Note the "not_of" pos = str.find_first_of(delimiters, lastPos); // find next "non-delimiter" } return tokens; } /* ** ParseDouble ** ** This is a helper method that parses the floating-point value from the given string. ** If the given string is invalid format or causes overflow/underflow, returns given default value. ** */ double CConfigParser::ParseDouble(const std::wstring& string, double defValue, bool rejectExp) { std::wstring::size_type pos; // Ignore inline comments which start with ';' if ((pos = string.find_first_of(L';')) != std::wstring::npos) { std::wstring temp(string, 0, pos); return ParseDouble(temp, defValue, rejectExp); } if (rejectExp) { // Reject if the given string includes the exponential part if (string.find_last_of(L"dDeE") != std::wstring::npos) { return defValue; } } if ((pos = string.find_first_not_of(L" \t\r\n")) != std::wstring::npos) { // Trim white-space std::wstring temp(string, pos, string.find_last_not_of(L" \t\r\n") - pos + 1); WCHAR* end = NULL; errno = 0; double resultValue = wcstod(temp.c_str(), &end); if (end && *end == L'\0' && errno != ERANGE) { return resultValue; } } return defValue; } /* ** ParseColor ** ** This is a helper method that parses the color values from the given string. ** The color can be supplied as three/four comma separated values or as one ** hex-value. ** */ Color CConfigParser::ParseColor(LPCTSTR string) { int R, G, B, A; if(wcschr(string, L',') != NULL) { WCHAR* parseSz = _wcsdup(string); WCHAR* token; token = wcstok(parseSz, L","); if (token != NULL) { R = _wtoi(token); R = max(R, 0); R = min(R, 255); } else { R = 255; } token = wcstok( NULL, L","); if (token != NULL) { G = _wtoi(token); G = max(G, 0); G = min(G, 255); } else { G = 255; } token = wcstok( NULL, L","); if (token != NULL) { B = _wtoi(token); B = max(B, 0); B = min(B, 255); } else { B = 255; } token = wcstok( NULL, L","); if (token != NULL) { A = _wtoi(token); A = max(A, 0); A = min(A, 255); } else { A = 255; } free(parseSz); } else { const WCHAR* start = string; if (wcsncmp(string, L"0x", 2) == 0) { start = string + 2; } if (wcslen(string) > 6 && !iswspace(string[6])) { swscanf(string, L"%02x%02x%02x%02x", &R, &G, &B, &A); } else { swscanf(string, L"%02x%02x%02x", &R, &G, &B); A = 255; // Opaque } } return Color(A, R, G, B); } //============================================================================== /** ** Reads the given ini file and fills the m_Values and m_Keys maps. ** ** \param iniFile The ini file to be read. */ void CConfigParser::ReadIniFile(const std::vector& iniFileMappings, const std::wstring& iniFile, int depth) { if (depth > 100) // Is 100 enough to assume the include loop never ends? { MessageBox(NULL, L"It looks like you've made an infinite\nloop with the @include statements.\nPlease check your skin.", L"Rainmeter", MB_OK | MB_TOPMOST | MB_ICONERROR); return; } // Verify whether the file exists if (_waccess(iniFile.c_str(), 0) == -1) { DebugLog(L"Unable to read file: %s", iniFile.c_str()); return; } // Avoid "IniFileMapping" std::wstring iniRead = CSystem::GetTemporaryFile(iniFileMappings, iniFile); bool temporary = (!iniRead.empty() && iniRead != L"<>"); if (temporary) { if (CRainmeter::GetDebug()) DebugLog(L"Reading file: %s (Temp: %s)", iniFile.c_str(), iniRead.c_str()); } else { if (CRainmeter::GetDebug()) DebugLog(L"Reading file: %s", iniFile.c_str()); iniRead = iniFile; } // Get all the sections (i.e. different meters) WCHAR* items = new WCHAR[MAX_LINE_LENGTH]; int size = MAX_LINE_LENGTH; WCHAR* epos = NULL; // Get all the sections while(true) { items[0] = 0; int res = GetPrivateProfileString( NULL, NULL, NULL, items, size, iniRead.c_str()); if (res == 0) // File not found { delete [] items; if (temporary) CSystem::RemoveFile(iniRead); return; } if (res < size - 2) // Fits in the buffer { epos = items + res; break; } delete [] items; size *= 2; items = new WCHAR[size]; } // Read the sections std::list sections; WCHAR* pos = items; while (pos < epos) { if (*pos) { std::wstring strTmp(pos); std::transform(strTmp.begin(), strTmp.end(), strTmp.begin(), ::towlower); if (m_Keys.find(strTmp) == m_Keys.end()) { m_Keys[strTmp] = std::vector(); m_Sections.push_back(pos); } sections.push_back(pos); pos += wcslen(pos) + 1; } else // Empty string { ++pos; } } // Read the keys and values int bufferSize = MAX_LINE_LENGTH; WCHAR* buffer = new WCHAR[bufferSize]; std::list::const_iterator iter = sections.begin(); for ( ; iter != sections.end(); ++iter) { while(true) { items[0] = 0; int res = GetPrivateProfileString((*iter).c_str(), NULL, NULL, items, size, iniRead.c_str()); if (res < size - 2) // Fits in the buffer { epos = items + res; break; } delete [] items; size *= 2; items = new WCHAR[size]; } pos = items; while (pos < epos) { if (*pos) { std::wstring strKey = pos; while(true) { buffer[0] = 0; int res = GetPrivateProfileString((*iter).c_str(), strKey.c_str(), L"", buffer, bufferSize, iniRead.c_str()); if (res < bufferSize - 2) break; // Fits in the buffer delete [] buffer; bufferSize *= 2; buffer = new WCHAR[bufferSize]; } if (_wcsnicmp(strKey.c_str(), L"@include", 8) == 0) { std::wstring strIncludeFile = buffer; ReadVariables(); ReplaceVariables(strIncludeFile); if (strIncludeFile.find(L':') == std::wstring::npos && (strIncludeFile.length() < 2 || (strIncludeFile[0] != L'\\' && strIncludeFile[0] != L'/') || (strIncludeFile[1] != L'\\' && strIncludeFile[1] != L'/'))) { // It's a relative path so add the current path as a prefix strIncludeFile = CRainmeter::ExtractPath(iniFile) + strIncludeFile; } ReadIniFile(iniFileMappings, strIncludeFile, depth + 1); } else { SetValue((*iter), strKey, buffer); } pos += wcslen(pos) + 1; } else // Empty string { ++pos; } } } delete [] buffer; delete [] items; if (temporary) CSystem::RemoveFile(iniRead); } //============================================================================== /** ** Sets the value for the key under the given section. ** ** \param strSection The name of the section. ** \param strKey The name of the key. ** \param strValue The value for the key. */ void CConfigParser::SetValue(const std::wstring& strSection, const std::wstring& strKey, const std::wstring& strValue) { // DebugLog(L"[%s] %s=%s (size: %i)", strSection.c_str(), strKey.c_str(), strValue.c_str(), m_Values.size()); std::wstring strTmpSection(strSection); std::wstring strTmpKey(strKey); std::transform(strTmpSection.begin(), strTmpSection.end(), strTmpSection.begin(), ::towlower); std::transform(strTmpKey.begin(), strTmpKey.end(), strTmpKey.begin(), ::towlower); stdext::hash_map >::iterator iter = m_Keys.find(strTmpSection); if (iter != m_Keys.end()) { std::vector& array = (*iter).second; array.push_back(strTmpKey); } m_Values[strTmpSection + L"::" + strTmpKey] = strValue; } //============================================================================== /** ** Returns the value for the key under the given section. ** ** \param strSection The name of the section. ** \param strKey The name of the key. ** \param strDefault The default value for the key. ** \return The value for the key. */ const std::wstring& CConfigParser::GetValue(const std::wstring& strSection, const std::wstring& strKey, const std::wstring& strDefault) { std::wstring strTmp(strSection + L"::" + strKey); std::transform(strTmp.begin(), strTmp.end(), strTmp.begin(), ::towlower); stdext::hash_map::const_iterator iter = m_Values.find(strTmp); if (iter != m_Values.end()) { return (*iter).second; } return strDefault; } //============================================================================== /** ** Returns the list of sections in the ini file. ** ** \return A list of sections in the ini file. */ const std::vector& CConfigParser::GetSections() { return m_Sections; } //============================================================================== /** ** Returns a list of keys under the given section. ** ** \param strSection The name of the section. ** \return A list of keys under the given section. */ std::vector CConfigParser::GetKeys(const std::wstring& strSection) { std::wstring strTmp(strSection); std::transform(strTmp.begin(), strTmp.end(), strTmp.begin(), ::towlower); stdext::hash_map >::const_iterator iter = m_Keys.find(strTmp); if (iter != m_Keys.end()) { return (*iter).second; } return std::vector(); }