/**************************************************************************** Copyright (c) 2011 cocos2d-x.org http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "CCLuaEngine.h" #include "tolua++.h" extern "C" { #include "lualib.h" #include "lauxlib.h" #include "tolua_fix.h" } #include "cocos2d.h" #include "LuaCocos2d.h" #include "cocoa/CCArray.h" #include "CCScheduler.h" #if (CC_TARGET_PLATFORM == CC_PLATFORM_ANDROID) #include "Cocos2dxLuaLoader.h" #endif NS_CC_BEGIN // #pragma mark - // #pragma mark CCLuaValue const CCLuaValue CCLuaValue::intValue(const int intValue) { CCLuaValue value; value.m_type = CCLuaValueTypeInt; value.m_field.intValue = intValue; return value; } const CCLuaValue CCLuaValue::floatValue(const float floatValue) { CCLuaValue value; value.m_type = CCLuaValueTypeFloat; value.m_field.floatValue = floatValue; return value; } const CCLuaValue CCLuaValue::booleanValue(const bool booleanValue) { CCLuaValue value; value.m_type = CCLuaValueTypeBoolean; value.m_field.booleanValue = booleanValue; return value; } const CCLuaValue CCLuaValue::stringValue(const char* stringValue) { CCLuaValue value; value.m_type = CCLuaValueTypeString; value.m_field.stringValue = new std::string(stringValue); return value; } const CCLuaValue CCLuaValue::stringValue(const std::string& stringValue) { CCLuaValue value; value.m_type = CCLuaValueTypeString; value.m_field.stringValue = new std::string(stringValue); return value; } const CCLuaValue CCLuaValue::dictValue(const CCLuaValueDict& dictValue) { CCLuaValue value; value.m_type = CCLuaValueTypeDict; value.m_field.dictValue = new CCLuaValueDict(dictValue); return value; } const CCLuaValue CCLuaValue::arrayValue(const CCLuaValueArray& arrayValue) { CCLuaValue value; value.m_type = CCLuaValueTypeArray; value.m_field.arrayValue = new CCLuaValueArray(arrayValue); return value; } const CCLuaValue CCLuaValue::ccobjectValue(CCObject* ccobjectValue, const char* objectTypename) { CCLuaValue value; value.m_type = CCLuaValueTypeCCObject; value.m_field.ccobjectValue = ccobjectValue; ccobjectValue->retain(); value.m_ccobjectType = new std::string(objectTypename); return value; } const CCLuaValue CCLuaValue::ccobjectValue(CCObject* ccobjectValue, const std::string& objectTypename) { return CCLuaValue::ccobjectValue(ccobjectValue, objectTypename.c_str()); } CCLuaValue::CCLuaValue(const CCLuaValue& rhs) { copy(rhs); } CCLuaValue& CCLuaValue::operator=(const CCLuaValue& rhs) { if (this != &rhs) copy(rhs); return *this; } CCLuaValue::~CCLuaValue(void) { if (m_type == CCLuaValueTypeString) { delete m_field.stringValue; } else if (m_type == CCLuaValueTypeDict) { delete m_field.dictValue; } else if (m_type == CCLuaValueTypeArray) { delete m_field.arrayValue; } else if (m_type == CCLuaValueTypeCCObject) { m_field.ccobjectValue->release(); delete m_ccobjectType; } } void CCLuaValue::copy(const CCLuaValue& rhs) { memcpy(&m_field, &rhs.m_field, sizeof(m_field)); m_type = rhs.m_type; if (m_type == CCLuaValueTypeString) { m_field.stringValue = new std::string(*rhs.m_field.stringValue); } else if (m_type == CCLuaValueTypeDict) { m_field.dictValue = new CCLuaValueDict(*rhs.m_field.dictValue); } else if (m_type == CCLuaValueTypeArray) { m_field.arrayValue = new CCLuaValueArray(*rhs.m_field.arrayValue); } else if (m_type == CCLuaValueTypeCCObject) { m_field.ccobjectValue = rhs.m_field.ccobjectValue; m_field.ccobjectValue->retain(); m_ccobjectType = new std::string(*rhs.m_ccobjectType); } } #pragma mark - #pragma mark CCLuaEngine CCLuaEngine* CCLuaEngine::m_defaultEngine = NULL; CCLuaEngine* CCLuaEngine::defaultEngine(void) { if (!m_defaultEngine) { m_defaultEngine = CCLuaEngine::create(); } return m_defaultEngine; } CCLuaEngine* CCLuaEngine::create(void) { CCLuaEngine* pEngine = new CCLuaEngine(); pEngine->init(); return pEngine; } CCLuaEngine::~CCLuaEngine(void) { lua_close(m_state); if (this == m_defaultEngine) { m_defaultEngine = NULL; } } bool CCLuaEngine::init(void) { m_state = lua_open(); luaL_openlibs(m_state); tolua_Cocos2d_open(m_state); toluafix_open(m_state); #if (CC_TARGET_PLATFORM == CC_PLATFORM_ANDROID) addLuaLoader(loader_Android); #endif return true; } void CCLuaEngine::removeScriptObjectByCCObject(CCObject* pObj) { toluafix_remove_ccobject_by_refid(m_state, pObj->m_nLuaID); } void CCLuaEngine::removeScriptHandler(int nHandler) { toluafix_remove_function_by_refid(m_state, nHandler); } void CCLuaEngine::addSearchPath(const char* path) { lua_getglobal(m_state, "package"); /* stack: package */ lua_getfield(m_state, -1, "path"); /* get package.path, stack: package path */ const char* cur_path = lua_tostring(m_state, -1); lua_pop(m_state, 1); /* stack: package */ lua_pushfstring(m_state, "%s;%s/?.lua", cur_path, path); /* stack: package newpath */ lua_setfield(m_state, -2, "path"); /* package.path = newpath, stack: package */ lua_pop(m_state, 1); /* stack: - */ } int CCLuaEngine::executeString(const char *codes) { int nRet = luaL_dostring(m_state, codes); lua_gc(m_state, LUA_GCCOLLECT, 0); if (nRet != 0) { CCLOG("[LUA ERROR] %s", lua_tostring(m_state, -1)); lua_pop(m_state, 1); return nRet; } return 0; } int CCLuaEngine::executeScriptFile(const char* filename) { int nRet = luaL_dofile(m_state, filename); // lua_gc(m_state, LUA_GCCOLLECT, 0); if (nRet != 0) { CCLOG("[LUA ERROR] %s", lua_tostring(m_state, -1)); lua_pop(m_state, 1); return nRet; } return 0; } int CCLuaEngine::executeGlobalFunction(const char* functionName) { lua_getglobal(m_state, functionName); /* query function by name, stack: function */ if (!lua_isfunction(m_state, -1)) { CCLOG("[LUA ERROR] name '%s' does not represent a Lua function", functionName); lua_pop(m_state, 1); return 0; } int error = lua_pcall(m_state, 0, 1, 0); /* call function, stack: ret */ // lua_gc(m_state, LUA_GCCOLLECT, 0); if (error) { CCLOG("[LUA ERROR] %s", lua_tostring(m_state, - 1)); lua_pop(m_state, 1); // clean error message return 0; } // get return value if (!lua_isnumber(m_state, -1)) { lua_pop(m_state, 1); return 0; } int ret = lua_tointeger(m_state, -1); lua_pop(m_state, 1); /* stack: - */ return ret; } int CCLuaEngine::executeNodeEvent(CCNode* pNode, int nAction) { int ret = 0; do { int nScriptHandler = pNode->getScriptHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); CCLuaValueDict dict; if (nAction == kCCNodeOnEnter) { dict["name"] = CCLuaValue::stringValue("enter"); pushCCLuaValueDict(dict); ret = executeFunctionByHandler(nScriptHandler, 1); } else if (nAction == kCCNodeOnExit) { dict["name"] = CCLuaValue::stringValue("exit"); pushCCLuaValueDict(dict); ret = executeFunctionByHandler(nScriptHandler, 1); } } while (0); return ret; } int CCLuaEngine::executeMenuItemEvent(CCMenuItem* pMenuItem) { int ret = 0; do { int nScriptHandler = pMenuItem->getScriptTapHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); pushInt(pMenuItem->getTag()); ret = executeFunctionByHandler(nScriptHandler, 1); } while (0); return ret; } int CCLuaEngine::executeNotificationEvent(CCNotificationCenter* pNotificationCenter, const char* pszName) { int ret = 0; do { int nScriptHandler = pNotificationCenter->getScriptHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); pushString(pszName); ret = executeFunctionByHandler(nScriptHandler, 1); } while (0); return ret; } int CCLuaEngine::executeCallFuncActionEvent(CCCallFunc* pAction, CCObject* pTarget/* = NULL*/) { int ret = 0; do { int nScriptHandler = pAction->getScriptHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); if (pTarget != NULL) { pushCCObject(pTarget, "CCNode"); } else { pushNil(); } ret = executeFunctionByHandler(nScriptHandler, 1); } while (0); return ret; } int CCLuaEngine::executeSchedule(int nHandler, float dt, CCNode* pNode/* = NULL*/) { cleanStack(); pushFloat(dt); return executeFunctionByHandler(nHandler, 1); } // functions for excute touch event int CCLuaEngine::executeLayerTouchEvent(CCLayer* pLayer, int eventType, CCTouch *pTouch) { int ret = 0; do { CCTouchScriptHandlerEntry* pScriptHandlerEntry = pLayer->getScriptTouchHandlerEntry(); CC_BREAK_IF(NULL == pScriptHandlerEntry); int nScriptHandler = pScriptHandlerEntry->getHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); CCPoint pt = CCDirector::sharedDirector()->convertToGL(pTouch->getLocationInView()); lua_pushinteger(m_state, eventType); lua_pushnumber(m_state, pt.x); lua_pushnumber(m_state, pt.y); ret = executeFunctionByHandler(nScriptHandler, 3); } while (0); return ret; } int CCLuaEngine::executeLayerTouchesEvent(CCLayer* pLayer, int eventType, CCSet *pTouches) { int ret = 0; do { CCTouchScriptHandlerEntry* pScriptHandlerEntry = pLayer->getScriptTouchHandlerEntry(); CC_BREAK_IF(NULL == pScriptHandlerEntry); int nScriptHandler = pScriptHandlerEntry->getHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); lua_pushinteger(m_state, eventType); lua_newtable(m_state); CCDirector* pDirector = CCDirector::sharedDirector(); CCSetIterator it = pTouches->begin(); CCTouch* pTouch; int n = 1; while (it != pTouches->end()) { pTouch = (CCTouch*)*it; CCPoint pt = pDirector->convertToGL(pTouch->getLocationInView()); lua_pushnumber(m_state, pt.x); lua_rawseti(m_state, -2, n++); lua_pushnumber(m_state, pt.y); lua_rawseti(m_state, -2, n++); ++it; } ret = executeFunctionByHandler(nScriptHandler, 2); } while (0); return ret; } int CCLuaEngine::executeLayerKeypadEvent(CCLayer* pLayer, int eventType) { int ret = 0; do { CCScriptHandlerEntry* pScriptHandlerEntry = pLayer->getScriptKeypadHandlerEntry(); CC_BREAK_IF(NULL == pScriptHandlerEntry); int nScriptHandler = pScriptHandlerEntry->getHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); lua_newtable(m_state); lua_pushinteger(m_state, eventType); ret = executeFunctionByHandler(nScriptHandler, 1); } while (0); return ret; } int CCLuaEngine::executeAccelerometerEvent(CCLayer* pLayer, CCAcceleration* pAccelerationValue) { int ret = 0; do { CCScriptHandlerEntry* pScriptHandlerEntry = pLayer->getScriptAccelerateHandlerEntry(); CC_BREAK_IF(NULL == pScriptHandlerEntry); int nScriptHandler = pScriptHandlerEntry->getHandler(); CC_BREAK_IF(0 == nScriptHandler); cleanStack(); lua_newtable(m_state); lua_pushnumber(m_state, pAccelerationValue->x); lua_pushnumber(m_state, pAccelerationValue->y); lua_pushnumber(m_state, pAccelerationValue->z); lua_pushnumber(m_state, pAccelerationValue->timestamp); ret = executeFunctionByHandler(nScriptHandler, 4); } while (0); return ret; } int CCLuaEngine::executeFunctionByHandler(int nHandler, int numArgs) { if (pushFunction(nHandler)) /* stack: ... arg1 arg2 ... func */ { if (numArgs > 0) { lua_insert(m_state, -(numArgs + 1)); /* stack: ... func arg1 arg2 ... */ } int traceback = 0; lua_getglobal(m_state, "__G__TRACKBACK__"); /* stack: ... func arg1 arg2 ... G */ if (!lua_isfunction(m_state, -1)) { lua_pop(m_state, 1); /* stack: ... func arg1 arg2 ... */ } else { traceback = -(numArgs + 2); lua_insert(m_state, traceback); /* stack: ... G func arg1 arg2 ... */ } int error = 0; error = lua_pcall(m_state, numArgs, 1, traceback); /* stack: ... ret */ if (error) { if (traceback == 0) { CCLOG("[LUA ERROR] %s", lua_tostring(m_state, - 1)); /* stack: ... error */ lua_pop(m_state, 1); // remove error message from stack } return 0; } // get return value int ret = 0; if (lua_isnumber(m_state, -1)) { ret = lua_tointeger(m_state, -1); } else if (lua_isboolean(m_state, -1)) { ret = lua_toboolean(m_state, -1); } lua_pop(m_state, 1); // remove return value from stack return ret; } else { lua_pop(m_state, numArgs); // remove args from stack return 0; } } int CCLuaEngine::pushInt(int data) { lua_pushinteger(m_state, data); return lua_gettop(m_state); } int CCLuaEngine::pushFloat(float data) { lua_pushnumber(m_state, data); return lua_gettop(m_state); } int CCLuaEngine::pushBoolean(bool data) { lua_pushboolean(m_state, data); return lua_gettop(m_state); } int CCLuaEngine::pushString(const char* data) { lua_pushstring(m_state, data); return lua_gettop(m_state); } int CCLuaEngine::pushString(const char* data, int length) { lua_pushlstring(m_state, data, length); return lua_gettop(m_state); } int CCLuaEngine::pushNil(void) { lua_pushnil(m_state); return lua_gettop(m_state); } int CCLuaEngine::pushCCObject(CCObject* pObject, const char* typeName) { toluafix_pushusertype_ccobject(m_state, pObject->m_uID, &pObject->m_nLuaID, pObject, typeName); return lua_gettop(m_state); } int CCLuaEngine::pushCCLuaValue(const CCLuaValue& value) { const CCLuaValueType type = value.getType(); if (type == CCLuaValueTypeInt) { return pushInt(value.intValue()); } else if (type == CCLuaValueTypeFloat) { return pushFloat(value.floatValue()); } else if (type == CCLuaValueTypeBoolean) { return pushBoolean(value.booleanValue()); } else if (type == CCLuaValueTypeString) { return pushString(value.stringValue().c_str()); } else if (type == CCLuaValueTypeDict) { pushCCLuaValueDict(value.dictValue()); } else if (type == CCLuaValueTypeArray) { pushCCLuaValueArray(value.arrayValue()); } else if (type == CCLuaValueTypeCCObject) { pushCCObject(value.ccobjectValue(), value.getCCObjectTypename().c_str()); } return lua_gettop(m_state); } int CCLuaEngine::pushCCLuaValueDict(const CCLuaValueDict& dict) { lua_newtable(m_state); /* stack: table */ for (CCLuaValueDictIterator it = dict.begin(); it != dict.end(); ++it) { lua_pushstring(m_state, it->first.c_str()); /* stack: table key */ pushCCLuaValue(it->second); /* stack: table key value */ lua_rawset(m_state, -3); /* table.key = value, stack: table */ } return lua_gettop(m_state); } int CCLuaEngine::pushCCLuaValueArray(const CCLuaValueArray& array) { lua_newtable(m_state); /* stack: table */ int index = 1; for (CCLuaValueArrayIterator it = array.begin(); it != array.end(); ++it) { pushCCLuaValue(*it); /* stack: table value */ lua_rawseti(m_state, -2, index); /* table[index] = value, stack: table */ ++index; } return lua_gettop(m_state); } void CCLuaEngine::cleanStack(void) { lua_settop(m_state, 0); } void CCLuaEngine::addLuaLoader(lua_CFunction func) { if (!func) return; // stack content after the invoking of the function // get loader table lua_getglobal(m_state, "package"); // package lua_getfield(m_state, -1, "loaders"); // package, loaders // insert loader into index 2 lua_pushcfunction(m_state, func); // package, loaders, func for (int i = lua_objlen(m_state, -2) + 1; i > 2; --i) { lua_rawgeti(m_state, -2, i - 1); // package, loaders, func, function // we call lua_rawgeti, so the loader table now is at -3 lua_rawseti(m_state, -3, i); // package, loaders, func } lua_rawseti(m_state, -2, 2); // package, loaders // set loaders into package lua_setfield(m_state, -2, "loaders"); // package lua_pop(m_state, 1); } bool CCLuaEngine::pushFunction(int nHandler) { toluafix_get_function_by_refid(m_state, nHandler); /* stack: ... func */ if (!lua_isfunction(m_state, -1)) { CCLOG("[LUA ERROR] function refid '%d' does not reference a Lua function", nHandler); lua_pop(m_state, 1); return false; } return true; } NS_CC_END