/* Copyright (C) 2011 Birunthan Mohanathas, Peter Souza 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "StdAfx.h" #include "Rainmeter.h" #include "Export.h" #include "MeterWindow.h" #include "Measure.h" #include "MeasurePlugin.h" #define NULLCHECK(str) { if ((str) == nullptr) { (str) = L""; } } extern Rainmeter* g_Rainmeter; static std::wstring g_Buffer; LPCWSTR __stdcall RmReadString(void* rm, LPCWSTR option, LPCWSTR defValue, BOOL replaceMeasures) { NULLCHECK(option); NULLCHECK(defValue); MeasurePlugin* measure = (MeasurePlugin*)rm; ConfigParser& parser = measure->GetMeterWindow()->GetParser(); return parser.ReadString(measure->GetName(), option, defValue, (bool)replaceMeasures).c_str(); } double __stdcall RmReadFormula(void* rm, LPCWSTR option, double defValue) { NULLCHECK(option); MeasurePlugin* measure = (MeasurePlugin*)rm; ConfigParser& parser = measure->GetMeterWindow()->GetParser(); return parser.ReadFloat(measure->GetName(), option, defValue); } LPCWSTR __stdcall RmPathToAbsolute(void* rm, LPCWSTR relativePath) { NULLCHECK(relativePath); MeasurePlugin* measure = (MeasurePlugin*)rm; g_Buffer = relativePath; measure->GetMeterWindow()->MakePathAbsolute(g_Buffer); return g_Buffer.c_str(); } void* __stdcall RmGet(void* rm, int type) { MeasurePlugin* measure = (MeasurePlugin*)rm; switch (type) { case RMG_MEASURENAME: { return (void*)measure->GetName(); } case RMG_SKIN: { return (void*)measure->GetMeterWindow(); } case RMG_SETTINGSFILE: { return (void*)g_Rainmeter->GetDataFile().c_str(); } case RMG_SKINNAME: { MeterWindow* window = measure->GetMeterWindow(); if (!window) break; return (void*)window->GetFolderPath().c_str(); } case RMG_SKINWINDOWHANDLE: { MeterWindow* window = measure->GetMeterWindow(); if (!window) break; return (void*)window->GetWindow(); } } return nullptr; } void __stdcall RmExecute(void* skin, LPCWSTR command) { MeterWindow* mw = (MeterWindow*)skin; if (command) { // WM_RAINMETER_EXECUTE used instead of ExecuteCommand for thread-safety SendMessage(g_Rainmeter->GetWindow(), WM_RAINMETER_EXECUTE, (WPARAM)mw, (LPARAM)command); } } BOOL LSLog(int nLevel, LPCWSTR unused, LPCWSTR pszMessage) { NULLCHECK(pszMessage); // Ignore Level::Debug messages from plugins unless in debug mode if (nLevel != (int)Logger::Level::Debug || g_Rainmeter->GetDebug()) { Logger::GetInstance().Log((Logger::Level)nLevel, pszMessage); } return TRUE; } // Deprecated! LPCWSTR ReadConfigString(LPCWSTR section, LPCWSTR option, LPCWSTR defValue) { NULLCHECK(section); NULLCHECK(option); NULLCHECK(defValue); ConfigParser* parser = g_Rainmeter->GetCurrentParser(); if (parser) { return parser->ReadString(section, option, defValue, false).c_str(); } return defValue; } // Deprecated! LPCWSTR PluginBridge(LPCWSTR command, LPCWSTR data) { if (command == nullptr || *command == L'\0') { return L"noop"; } NULLCHECK(data); if (_wcsicmp(command, L"GetConfig") == 0) { MeterWindow* meterWindow = g_Rainmeter->GetMeterWindowByINI(data); if (meterWindow) { g_Buffer = L"\""; g_Buffer += meterWindow->GetFolderPath(); g_Buffer += L"\""; return g_Buffer.c_str(); } return L""; } else if (_wcsicmp(command, L"GetWindow") == 0) { std::vector subStrings = CommandHandler::ParseString(data); if (subStrings.size() >= 1) { const std::wstring& config = subStrings[0]; MeterWindow* meterWindow = g_Rainmeter->GetMeterWindow(config); if (meterWindow) { WCHAR buf1[64]; _snwprintf_s(buf1, _TRUNCATE, L"%lu", PtrToUlong(meterWindow->GetWindow())); g_Buffer = buf1; return g_Buffer.c_str(); } } return L"error"; } else if (_wcsicmp(command, L"GetVariable") == 0) { std::vector subStrings = CommandHandler::ParseString(data); if (subStrings.size() >= 2) { const std::wstring& config = subStrings[0]; MeterWindow* meterWindow = g_Rainmeter->GetMeterWindow(config); if (meterWindow) { const std::wstring& variable = subStrings[1]; const std::wstring* value = meterWindow->GetParser().GetVariable(variable); if (value) { return (*value).c_str(); } } } return L""; } else if (_wcsicmp(command, L"SetVariable") == 0) { std::vector subStrings = CommandHandler::ParseString(data); if (subStrings.size() == 3) { MeterWindow* meterWindow = g_Rainmeter->GetMeterWindow(subStrings[0]); if (meterWindow) { meterWindow->SetVariable(subStrings[1], subStrings[2]); return L"success"; } } return L"error"; } return L"noop"; }