/**************************************************************************** Copyright (c) 2011 Максим Аксенов Copyright (c) 2009-2010 Ricardo Quesada Copyright (c) 2010-2012 cocos2d-x.org Copyright (c) 2011 Zynga Inc. Copyright (c) 2013-2014 Chukong Technologies Inc. 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 #include #include "CCTMXXMLParser.h" #include "CCTMXTiledMap.h" #include "2d/ccMacros.h" #include "2d/platform/CCFileUtils.h" #include "ZipUtils.h" #include "base64.h" #include "2d/CCDirector.h" using namespace std; NS_CC_BEGIN // implementation TMXLayerInfo TMXLayerInfo::TMXLayerInfo() : _name("") , _tiles(nullptr) , _ownTiles(true) , _offset(Vector2::ZERO) { } TMXLayerInfo::~TMXLayerInfo() { CCLOGINFO("deallocing TMXLayerInfo: %p", this); if( _ownTiles && _tiles ) { free(_tiles); _tiles = nullptr; } } ValueMap& TMXLayerInfo::getProperties() { return _properties; } void TMXLayerInfo::setProperties(ValueMap var) { _properties = var; } // implementation TMXTilesetInfo TMXTilesetInfo::TMXTilesetInfo() :_firstGid(0) ,_tileSize(Size::ZERO) ,_spacing(0) ,_margin(0) ,_imageSize(Size::ZERO) { } TMXTilesetInfo::~TMXTilesetInfo() { CCLOGINFO("deallocing TMXTilesetInfo: %p", this); } Rect TMXTilesetInfo::getRectForGID(uint32_t gid) { Rect rect; rect.size = _tileSize; gid &= kTMXFlippedMask; gid = gid - _firstGid; int max_x = (int)((_imageSize.width - _margin*2 + _spacing) / (_tileSize.width + _spacing)); // int max_y = (imageSize.height - margin*2 + spacing) / (tileSize.height + spacing); rect.origin.x = (gid % max_x) * (_tileSize.width + _spacing) + _margin; rect.origin.y = (gid / max_x) * (_tileSize.height + _spacing) + _margin; return rect; } // implementation TMXMapInfo TMXMapInfo * TMXMapInfo::create(const std::string& tmxFile) { TMXMapInfo *ret = new TMXMapInfo(); if(ret->initWithTMXFile(tmxFile)) { ret->autorelease(); return ret; } CC_SAFE_DELETE(ret); return nullptr; } TMXMapInfo * TMXMapInfo::createWithXML(const std::string& tmxString, const std::string& resourcePath) { TMXMapInfo *ret = new TMXMapInfo(); if(ret->initWithXML(tmxString, resourcePath)) { ret->autorelease(); return ret; } CC_SAFE_DELETE(ret); return nullptr; } void TMXMapInfo::internalInit(const std::string& tmxFileName, const std::string& resourcePath) { if (tmxFileName.size() > 0) { _TMXFileName = FileUtils::getInstance()->fullPathForFilename(tmxFileName); } if (resourcePath.size() > 0) { _resources = resourcePath; } _objectGroups.reserve(4); // tmp vars _currentString = ""; _storingCharacters = false; _layerAttribs = TMXLayerAttribNone; _parentElement = TMXPropertyNone; _currentFirstGID = -1; } bool TMXMapInfo::initWithXML(const std::string& tmxString, const std::string& resourcePath) { internalInit("", resourcePath); return parseXMLString(tmxString); } bool TMXMapInfo::initWithTMXFile(const std::string& tmxFile) { internalInit(tmxFile, ""); return parseXMLFile(_TMXFileName.c_str()); } TMXMapInfo::TMXMapInfo() : _mapSize(Size::ZERO) , _tileSize(Size::ZERO) , _layerAttribs(0) , _storingCharacters(false) , _xmlTileIndex(0) , _currentFirstGID(-1) , _recordFirstGID(true) { } TMXMapInfo::~TMXMapInfo() { CCLOGINFO("deallocing TMXMapInfo: %p", this); } bool TMXMapInfo::parseXMLString(const std::string& xmlString) { size_t len = xmlString.size(); if (len <= 0) return false; SAXParser parser; if (false == parser.init("UTF-8") ) { return false; } parser.setDelegator(this); return parser.parse(xmlString.c_str(), len); } bool TMXMapInfo::parseXMLFile(const std::string& xmlFilename) { SAXParser parser; if (false == parser.init("UTF-8") ) { return false; } parser.setDelegator(this); return parser.parse(FileUtils::getInstance()->fullPathForFilename(xmlFilename).c_str()); } // the XML parser calls here with all the elements void TMXMapInfo::startElement(void *ctx, const char *name, const char **atts) { CC_UNUSED_PARAM(ctx); TMXMapInfo *tmxMapInfo = this; std::string elementName = (char*)name; ValueMap attributeDict; if (atts && atts[0]) { for(int i = 0; atts[i]; i += 2) { std::string key = (char*)atts[i]; std::string value = (char*)atts[i+1]; attributeDict.insert(std::make_pair(key, Value(value))); } } if (elementName == "map") { std::string version = attributeDict["version"].asString(); if ( version != "1.0") { CCLOG("cocos2d: TMXFormat: Unsupported TMX version: %s", version.c_str()); } std::string orientationStr = attributeDict["orientation"].asString(); if (orientationStr == "orthogonal") tmxMapInfo->setOrientation(TMXOrientationOrtho); else if (orientationStr == "isometric") tmxMapInfo->setOrientation(TMXOrientationIso); else if(orientationStr == "hexagonal") tmxMapInfo->setOrientation(TMXOrientationHex); else CCLOG("cocos2d: TMXFomat: Unsupported orientation: %d", tmxMapInfo->getOrientation()); Size s; s.width = attributeDict["width"].asFloat(); s.height = attributeDict["height"].asFloat(); tmxMapInfo->setMapSize(s); s.width = attributeDict["tilewidth"].asFloat(); s.height = attributeDict["tileheight"].asFloat(); tmxMapInfo->setTileSize(s); // The parent element is now "map" tmxMapInfo->setParentElement(TMXPropertyMap); } else if (elementName == "tileset") { // If this is an external tileset then start parsing that std::string externalTilesetFilename = attributeDict["source"].asString(); if (externalTilesetFilename != "") { // Tileset file will be relative to the map file. So we need to convert it to an absolute path if (_TMXFileName.find_last_of("/") != string::npos) { string dir = _TMXFileName.substr(0, _TMXFileName.find_last_of("/") + 1); externalTilesetFilename = dir + externalTilesetFilename; } else { externalTilesetFilename = _resources + "/" + externalTilesetFilename; } externalTilesetFilename = FileUtils::getInstance()->fullPathForFilename(externalTilesetFilename.c_str()); _currentFirstGID = attributeDict["firstgid"].asInt(); if (_currentFirstGID < 0) { _currentFirstGID = 0; } _recordFirstGID = false; tmxMapInfo->parseXMLFile(externalTilesetFilename.c_str()); } else { TMXTilesetInfo *tileset = new TMXTilesetInfo(); tileset->_name = attributeDict["name"].asString(); if (_recordFirstGID) { // unset before, so this is tmx file. tileset->_firstGid = attributeDict["firstgid"].asInt(); if (tileset->_firstGid < 0) { tileset->_firstGid = 0; } } else { tileset->_firstGid = _currentFirstGID; _currentFirstGID = 0; } tileset->_spacing = attributeDict["spacing"].asInt(); tileset->_margin = attributeDict["margin"].asInt(); Size s; s.width = attributeDict["tilewidth"].asFloat(); s.height = attributeDict["tileheight"].asFloat(); tileset->_tileSize = s; tmxMapInfo->getTilesets().pushBack(tileset); tileset->release(); } } else if (elementName == "tile") { if (tmxMapInfo->getParentElement() == TMXPropertyLayer) { TMXLayerInfo* layer = tmxMapInfo->getLayers().back(); Size layerSize = layer->_layerSize; uint32_t gid = static_cast(attributeDict["gid"].asInt()); int tilesAmount = layerSize.width*layerSize.height; if (_xmlTileIndex < tilesAmount) { layer->_tiles[_xmlTileIndex++] = gid; } } else { TMXTilesetInfo* info = tmxMapInfo->getTilesets().back(); tmxMapInfo->setParentGID(info->_firstGid + attributeDict["id"].asInt()); tmxMapInfo->getTileProperties()[tmxMapInfo->getParentGID()] = Value(ValueMap()); tmxMapInfo->setParentElement(TMXPropertyTile); } } else if (elementName == "layer") { TMXLayerInfo *layer = new TMXLayerInfo(); layer->_name = attributeDict["name"].asString(); Size s; s.width = attributeDict["width"].asFloat(); s.height = attributeDict["height"].asFloat(); layer->_layerSize = s; layer->_visible = attributeDict["visible"].asBool(); Value& opacityValue = attributeDict["opacity"]; if( !opacityValue.isNull() ) { layer->_opacity = (unsigned char)(255.0f * opacityValue.asFloat()); } else { layer->_opacity = 255; } float x = attributeDict["x"].asFloat(); float y = attributeDict["y"].asFloat(); layer->_offset = Vector2(x,y); tmxMapInfo->getLayers().pushBack(layer); layer->release(); // The parent element is now "layer" tmxMapInfo->setParentElement(TMXPropertyLayer); } else if (elementName == "objectgroup") { TMXObjectGroup *objectGroup = new TMXObjectGroup(); objectGroup->setGroupName(attributeDict["name"].asString()); Vector2 positionOffset; positionOffset.x = attributeDict["x"].asFloat() * tmxMapInfo->getTileSize().width; positionOffset.y = attributeDict["y"].asFloat() * tmxMapInfo->getTileSize().height; objectGroup->setPositionOffset(positionOffset); tmxMapInfo->getObjectGroups().pushBack(objectGroup); objectGroup->release(); // The parent element is now "objectgroup" tmxMapInfo->setParentElement(TMXPropertyObjectGroup); } else if (elementName == "image") { TMXTilesetInfo* tileset = tmxMapInfo->getTilesets().back(); // build full path std::string imagename = attributeDict["source"].asString(); if (_TMXFileName.find_last_of("/") != string::npos) { string dir = _TMXFileName.substr(0, _TMXFileName.find_last_of("/") + 1); tileset->_sourceImage = dir + imagename; } else { tileset->_sourceImage = _resources + (_resources.size() ? "/" : "") + imagename; } } else if (elementName == "data") { std::string encoding = attributeDict["encoding"].asString(); std::string compression = attributeDict["compression"].asString(); if (encoding == "") { tmxMapInfo->setLayerAttribs(tmxMapInfo->getLayerAttribs() | TMXLayerAttribNone); TMXLayerInfo* layer = tmxMapInfo->getLayers().back(); Size layerSize = layer->_layerSize; int tilesAmount = layerSize.width*layerSize.height; uint32_t *tiles = (uint32_t*) malloc(tilesAmount*sizeof(uint32_t)); // set all value to 0 memset(tiles, 0, tilesAmount*sizeof(int)); layer->_tiles = tiles; } else if (encoding == "base64") { int layerAttribs = tmxMapInfo->getLayerAttribs(); tmxMapInfo->setLayerAttribs(layerAttribs | TMXLayerAttribBase64); tmxMapInfo->setStoringCharacters(true); if( compression == "gzip" ) { layerAttribs = tmxMapInfo->getLayerAttribs(); tmxMapInfo->setLayerAttribs(layerAttribs | TMXLayerAttribGzip); } else if (compression == "zlib") { layerAttribs = tmxMapInfo->getLayerAttribs(); tmxMapInfo->setLayerAttribs(layerAttribs | TMXLayerAttribZlib); } CCASSERT( compression == "" || compression == "gzip" || compression == "zlib", "TMX: unsupported compression method" ); } } else if (elementName == "object") { TMXObjectGroup* objectGroup = tmxMapInfo->getObjectGroups().back(); // The value for "type" was blank or not a valid class name // Create an instance of TMXObjectInfo to store the object and its properties ValueMap dict; // Parse everything automatically const char* array[] = {"name", "type", "width", "height", "gid"}; for(size_t i = 0; i < sizeof(array)/sizeof(array[0]); ++i ) { const char* key = array[i]; Value value = attributeDict[key]; dict[key] = value; } // But X and Y since they need special treatment // X int x = attributeDict["x"].asInt(); // Y int y = attributeDict["y"].asInt(); Vector2 p(x + objectGroup->getPositionOffset().x, _mapSize.height * _tileSize.height - y - objectGroup->getPositionOffset().x - attributeDict["height"].asInt()); p = CC_POINT_PIXELS_TO_POINTS(p); dict["x"] = Value(p.x); dict["y"] = Value(p.y); int width = attributeDict["width"].asInt(); int height = attributeDict["height"].asInt(); Size s(width, height); s = CC_SIZE_PIXELS_TO_POINTS(s); dict["width"] = Value(s.width); dict["height"] = Value(s.height); // Add the object to the objectGroup objectGroup->getObjects().push_back(Value(dict)); // The parent element is now "object" tmxMapInfo->setParentElement(TMXPropertyObject); } else if (elementName == "property") { if ( tmxMapInfo->getParentElement() == TMXPropertyNone ) { CCLOG( "TMX tile map: Parent element is unsupported. Cannot add property named '%s' with value '%s'", attributeDict["name"].asString().c_str(), attributeDict["value"].asString().c_str() ); } else if ( tmxMapInfo->getParentElement() == TMXPropertyMap ) { // The parent element is the map Value value = attributeDict["value"]; std::string key = attributeDict["name"].asString(); tmxMapInfo->getProperties().insert(std::make_pair(key, value)); } else if ( tmxMapInfo->getParentElement() == TMXPropertyLayer ) { // The parent element is the last layer TMXLayerInfo* layer = tmxMapInfo->getLayers().back(); Value value = attributeDict["value"]; std::string key = attributeDict["name"].asString(); // Add the property to the layer layer->getProperties().insert(std::make_pair(key, value)); } else if ( tmxMapInfo->getParentElement() == TMXPropertyObjectGroup ) { // The parent element is the last object group TMXObjectGroup* objectGroup = tmxMapInfo->getObjectGroups().back(); Value value = attributeDict["value"]; std::string key = attributeDict["name"].asString(); objectGroup->getProperties().insert(std::make_pair(key, value)); } else if ( tmxMapInfo->getParentElement() == TMXPropertyObject ) { // The parent element is the last object TMXObjectGroup* objectGroup = tmxMapInfo->getObjectGroups().back(); ValueMap& dict = objectGroup->getObjects().rbegin()->asValueMap(); std::string propertyName = attributeDict["name"].asString(); dict[propertyName] = attributeDict["value"]; } else if ( tmxMapInfo->getParentElement() == TMXPropertyTile ) { ValueMap& dict = tmxMapInfo->getTileProperties().at(tmxMapInfo->getParentGID()).asValueMap(); std::string propertyName = attributeDict["name"].asString(); dict[propertyName] = attributeDict["value"]; } } else if (elementName == "polygon") { // find parent object's dict and add polygon-points to it TMXObjectGroup* objectGroup = _objectGroups.back(); ValueMap& dict = objectGroup->getObjects().rbegin()->asValueMap(); // get points value string std::string value = attributeDict["points"].asString(); if (!value.empty()) { ValueVector pointsArray; pointsArray.reserve(10); // parse points string into a space-separated set of points stringstream pointsStream(value); string pointPair; while(std::getline(pointsStream, pointPair, ' ')) { // parse each point combo into a comma-separated x,y point stringstream pointStream(pointPair); string xStr,yStr; ValueMap pointDict; // set x if(std::getline(pointStream, xStr, ',')) { int x = atoi(xStr.c_str()) + (int)objectGroup->getPositionOffset().x; pointDict["x"] = Value(x); } // set y if(std::getline(pointStream, yStr, ',')) { int y = atoi(yStr.c_str()) + (int)objectGroup->getPositionOffset().y; pointDict["y"] = Value(y); } // add to points array pointsArray.push_back(Value(pointDict)); } dict["points"] = Value(pointsArray); } } else if (elementName == "polyline") { // find parent object's dict and add polyline-points to it TMXObjectGroup* objectGroup = _objectGroups.back(); ValueMap& dict = objectGroup->getObjects().rbegin()->asValueMap(); // get points value string std::string value = attributeDict["points"].asString(); if (!value.empty()) { ValueVector pointsArray; pointsArray.reserve(10); // parse points string into a space-separated set of points stringstream pointsStream(value); string pointPair; while(std::getline(pointsStream, pointPair, ' ')) { // parse each point combo into a comma-separated x,y point stringstream pointStream(pointPair); string xStr,yStr; ValueMap pointDict; // set x if(std::getline(pointStream, xStr, ',')) { int x = atoi(xStr.c_str()) + (int)objectGroup->getPositionOffset().x; pointDict["x"] = Value(x); } // set y if(std::getline(pointStream, yStr, ',')) { int y = atoi(yStr.c_str()) + (int)objectGroup->getPositionOffset().y; pointDict["y"] = Value(y); } // add to points array pointsArray.push_back(Value(pointDict)); } dict["polylinePoints"] = Value(pointsArray); } } } void TMXMapInfo::endElement(void *ctx, const char *name) { CC_UNUSED_PARAM(ctx); TMXMapInfo *tmxMapInfo = this; std::string elementName = (char*)name; int len = 0; if(elementName == "data") { if (tmxMapInfo->getLayerAttribs() & TMXLayerAttribBase64) { tmxMapInfo->setStoringCharacters(false); TMXLayerInfo* layer = tmxMapInfo->getLayers().back(); std::string currentString = tmxMapInfo->getCurrentString(); unsigned char *buffer; len = base64Decode((unsigned char*)currentString.c_str(), (unsigned int)currentString.length(), &buffer); if( ! buffer ) { CCLOG("cocos2d: TiledMap: decode data error"); return; } if( tmxMapInfo->getLayerAttribs() & (TMXLayerAttribGzip | TMXLayerAttribZlib) ) { unsigned char *deflated = nullptr; Size s = layer->_layerSize; // int sizeHint = s.width * s.height * sizeof(uint32_t); ssize_t sizeHint = s.width * s.height * sizeof(unsigned int); ssize_t CC_UNUSED inflatedLen = ZipUtils::inflateMemoryWithHint(buffer, len, &deflated, sizeHint); CCASSERT(inflatedLen == sizeHint, ""); free(buffer); buffer = nullptr; if( ! deflated ) { CCLOG("cocos2d: TiledMap: inflate data error"); return; } layer->_tiles = reinterpret_cast(deflated); } else { layer->_tiles = reinterpret_cast(buffer); } tmxMapInfo->setCurrentString(""); } else if (tmxMapInfo->getLayerAttribs() & TMXLayerAttribNone) { _xmlTileIndex = 0; } } else if (elementName == "map") { // The map element has ended tmxMapInfo->setParentElement(TMXPropertyNone); } else if (elementName == "layer") { // The layer element has ended tmxMapInfo->setParentElement(TMXPropertyNone); } else if (elementName == "objectgroup") { // The objectgroup element has ended tmxMapInfo->setParentElement(TMXPropertyNone); } else if (elementName == "object") { // The object element has ended tmxMapInfo->setParentElement(TMXPropertyNone); } else if (elementName == "tileset") { _recordFirstGID = true; } } void TMXMapInfo::textHandler(void *ctx, const char *ch, int len) { CC_UNUSED_PARAM(ctx); TMXMapInfo *tmxMapInfo = this; std::string text((char*)ch,0,len); if (tmxMapInfo->isStoringCharacters()) { std::string currentString = tmxMapInfo->getCurrentString(); currentString += text; tmxMapInfo->setCurrentString(currentString.c_str()); } } NS_CC_END