/**************************************************************************** Copyright (c) 2013 cocos2d-x.org Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd. Copyright (c) 2019-2020 simdsoft.com, @HALX99. 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 "FlatBuffersSerialize.h" #include "base/ObjectFactory.h" #include "base/ccConstants.h" #include "ui/CocosGUI.h" #include "platform/CCFileUtils.h" #include "CSLanguageDataBinary_generated.h" #include "CSParseBinary_generated.h" #include "WidgetReader/NodeReaderProtocol.h" #include "WidgetReader/NodeReaderDefine.h" #include "WidgetReader/NodeReader/NodeReader.h" #include "WidgetReader/SingleNodeReader/SingleNodeReader.h" #include "WidgetReader/SpriteReader/SpriteReader.h" #include "WidgetReader/ParticleReader/ParticleReader.h" #include "WidgetReader/GameMapReader/GameMapReader.h" #include "WidgetReader/ComAudioReader/ComAudioReader.h" #include "WidgetReader/ProjectNodeReader/ProjectNodeReader.h" #include "WidgetReader/ButtonReader/ButtonReader.h" #include "WidgetReader/CheckBoxReader/CheckBoxReader.h" #include "WidgetReader/ImageViewReader/ImageViewReader.h" #include "WidgetReader/TextBMFontReader/TextBMFontReader.h" #include "WidgetReader/TextReader/TextReader.h" #include "WidgetReader/TextFieldReader/TextFieldReader.h" #include "WidgetReader/TextAtlasReader/TextAtlasReader.h" #include "WidgetReader/LoadingBarReader/LoadingBarReader.h" #include "WidgetReader/SliderReader/SliderReader.h" #include "WidgetReader/LayoutReader/LayoutReader.h" #include "WidgetReader/ScrollViewReader/ScrollViewReader.h" #include "WidgetReader/PageViewReader/PageViewReader.h" #include "WidgetReader/ListViewReader/ListViewReader.h" #include "WidgetReader/TextFieldReader/TextFieldExReader.h" #include "flatbuffers/flatbuffers.h" USING_NS_CC; using namespace cocos2d::ui; using namespace cocostudio; using namespace cocostudio::timeline; using namespace flatbuffers; namespace cocostudio { static const char* Property_VisibleForFrame = "VisibleForFrame"; static const char* Property_Position = "Position"; static const char* Property_Scale = "Scale"; static const char* Property_RotationSkew = "RotationSkew"; static const char* Property_CColor = "CColor"; static const char* Property_FileData = "FileData"; static const char* Property_FrameEvent = "FrameEvent"; static const char* Property_Alpha = "Alpha"; static const char* Property_AnchorPoint = "AnchorPoint"; static const char* Property_ZOrder = "ZOrder"; static const char* Property_ActionValue = "ActionValue"; static const char* Property_BlendValue = "BlendFunc"; static FlatBuffersSerialize* _instanceFlatBuffersSerialize = nullptr; FlatBuffersSerialize::FlatBuffersSerialize() : _isSimulator(false) , _builder(nullptr) , _csparsebinary(nullptr) { CREATE_CLASS_NODE_READER_INFO(NodeReader); CREATE_CLASS_NODE_READER_INFO(SingleNodeReader); CREATE_CLASS_NODE_READER_INFO(SpriteReader); CREATE_CLASS_NODE_READER_INFO(ParticleReader); CREATE_CLASS_NODE_READER_INFO(GameMapReader); CREATE_CLASS_NODE_READER_INFO(ButtonReader); CREATE_CLASS_NODE_READER_INFO(CheckBoxReader); CREATE_CLASS_NODE_READER_INFO(ImageViewReader); CREATE_CLASS_NODE_READER_INFO(TextBMFontReader); CREATE_CLASS_NODE_READER_INFO(TextReader); CREATE_CLASS_NODE_READER_INFO(TextFieldReader); CREATE_CLASS_NODE_READER_INFO(TextAtlasReader); CREATE_CLASS_NODE_READER_INFO(LoadingBarReader); CREATE_CLASS_NODE_READER_INFO(SliderReader); CREATE_CLASS_NODE_READER_INFO(LayoutReader); CREATE_CLASS_NODE_READER_INFO(ScrollViewReader); CREATE_CLASS_NODE_READER_INFO(PageViewReader); CREATE_CLASS_NODE_READER_INFO(ListViewReader); CREATE_CLASS_NODE_READER_INFO(TextFieldExReader); } FlatBuffersSerialize::~FlatBuffersSerialize() { } FlatBuffersSerialize* FlatBuffersSerialize::getInstance() { if (!_instanceFlatBuffersSerialize) { _instanceFlatBuffersSerialize = new (std::nothrow) FlatBuffersSerialize(); } return _instanceFlatBuffersSerialize; } void FlatBuffersSerialize::purge() { CC_SAFE_DELETE(_instanceFlatBuffersSerialize); } void FlatBuffersSerialize::destroyInstance() { CC_SAFE_DELETE(_instanceFlatBuffersSerialize); } void FlatBuffersSerialize::deleteFlatBufferBuilder() { if (_builder != nullptr) { _builder->Clear(); CC_SAFE_DELETE(_builder); } } std::string FlatBuffersSerialize::serializeFlatBuffersWithXMLFile(const std::string& xmlFileName, const std::string& flatbuffersFileName) { std::string inFullpath = FileUtils::getInstance()->fullPathForFilename(xmlFileName).c_str(); // xml read if (!FileUtils::getInstance()->isFileExist(inFullpath)) { return ".csd file doesn't exists!"; } std::string xmlBuffer = FileUtils::getInstance()->getStringFromFile(inFullpath); return serializeFlatBuffersWithXMLBuffer(xmlBuffer, flatbuffersFileName); } std::string FlatBuffersSerialize::serializeFlatBuffersWithXMLBuffer(std::string& xmlBuffer, const std::string& flatbuffersFileName) { // xml parse pugi::xml_document document; if (!xmlBuffer.empty()) document.load_buffer_inplace(&xmlBuffer.front(), xmlBuffer.length()); if (document) return serializeFlatBuffersWithOpaque(&document, flatbuffersFileName); return ""; } std::string FlatBuffersSerialize::serializeFlatBuffersWithOpaque(void* opaque, const std::string& flatbuffersFileName) { auto thiz = FlatBuffersSerialize::getInstance(); // xml parse pugi::xml_document& document = *reinterpret_cast(opaque); pugi::xml_node rootElement = document.document_element();// Root // CCLOG("rootElement name = %s", rootelement.name()); pugi::xml_node element = rootElement.first_child(); bool serializeEnabled = false; std::string rootType; while (element) { // CCLOG("entity name = %s", element.name()); if (strcmp("PropertyGroup", element.name()) == 0) { auto attribute = element.first_attribute(); while (attribute && strcmp("Version", attribute.name()) != 0) attribute = attribute.next_attribute(); if (attribute) thiz->_csdVersion = attribute.value(); thiz->_csdVersion = "10.0.3000.0"; } if (strcmp("Content", element.name()) == 0) { auto attribute = element.first_attribute(); // if (!attribute) { serializeEnabled = true; rootType = "NodeObjectData"; } // // // while (attribute) // { // std::string name = attribute.name(); // std::string value = attribute.value(); // CCLOG("attribute name = %s, value = %s", name, value); // if (name == "") // { // serializeEnabled = true; // rootType = (strcmp("", value) == 0) ? "Node" : value; // } // // if (serializeEnabled) // { // break; // } // // attribute = attribute.next_attribute(); // } // } if (serializeEnabled) { break; } auto child = element.first_child(); if (child) { element = child; } else { element = element.next_sibling(); } } if (serializeEnabled) { thiz->_builder = new (std::nothrow) FlatBufferBuilder(); Offset nodeTree; Offset action; std::vector> animationInfos; auto child = element.first_child(); while (child) { std::string name = child.name(); if (name == "Animation") // action { pugi::xml_node animation = child; action = thiz->createNodeAction(animation); } else if (name == "ObjectData") // nodeTree { pugi::xml_node objectData = child; auto nameElem = objectData.first_attribute(); while (nameElem) { if (0 == strcmp("ctype", nameElem.name())) { rootType = nameElem.value(); break; } else nameElem = nameElem.next_attribute(); } if (rootType == "GameNodeObjectData" || rootType == "GameLayerObjectData") // for adaptate old version rootType = "NodeObjectData"; nodeTree = thiz->createNodeTree(objectData, rootType); } else if (name == "AnimationList") // animation list { pugi::xml_node animationinfoElement = child.first_child(); while (animationinfoElement) { auto animationinfo = thiz->createAnimationInfo(animationinfoElement); animationInfos.push_back(animationinfo); animationinfoElement = animationinfoElement.next_sibling(); } } child = child.next_sibling(); } auto csparsebinary = CreateCSParseBinary(*thiz->_builder, thiz->_builder->CreateString(thiz->_csdVersion), thiz->_builder->CreateVector(thiz->_textures), thiz->_builder->CreateVector(thiz->_texturePngs), nodeTree, action, thiz->_builder->CreateVector(animationInfos)); thiz->_builder->Finish(csparsebinary); thiz->_textures.clear(); thiz->_texturePngs.clear(); std::string outFullPath = FileUtils::getInstance()->fullPathForFilename(flatbuffersFileName); size_t pos = outFullPath.find_last_of('.'); std::string convert = outFullPath.substr(0, pos).append(".csb"); auto save = FileUtils::writeBinaryToFile(thiz->_builder->GetBufferPointer(), thiz->_builder->GetSize(), convert); if (!save) { return "couldn't save files!"; } thiz->deleteFlatBufferBuilder(); } return ""; } // NodeTree Offset FlatBuffersSerialize::createNodeTree(pugi::xml_node objectData, std::string classType) { std::string classname = classType.substr(0, classType.find("ObjectData")); // CCLOG("classname = %s", classname.c_str()); std::string name; Offset options; std::vector> children; if (classname == "ProjectNode") { auto reader = ProjectNodeReader::getInstance(); auto tempOptions = reader->createOptionsWithFlatBuffers(objectData, _builder); options = CreateOptions(*_builder, *(Offset*)(&tempOptions)); } else if (classname == "SimpleAudio") { auto reader = ComAudioReader::getInstance(); auto tempOptions = reader->createOptionsWithFlatBuffers(objectData, _builder); options = CreateOptions(*_builder, *(Offset*)(&tempOptions)); } else { std::string readername = getGUIClassName(classname); readername.append("Reader"); NodeReaderProtocol* reader = dynamic_cast(ObjectFactory::getInstance()->createObject(readername)); if (reader != nullptr) { auto tempOptions = reader->createOptionsWithFlatBuffers(objectData, _builder); options = CreateOptions(*_builder, *(Offset*)(&tempOptions)); } } // children bool containChildrenElement = false; auto child = objectData.first_child(); while (child) { // CCLOG("child name = %s", child.name()); if (strcmp("Children", child.name()) == 0) { containChildrenElement = true; break; } child = child.next_sibling(); } if (containChildrenElement) { child = child.first_child(); // CCLOG("element name = %s", child.name()); while (child) { auto attribute = child.first_attribute(); bool bHasType = false; while (attribute) { std::string attriname = attribute.name(); std::string value = attribute.value(); if (attriname == "ctype") { children.push_back(createNodeTree(child, value)); bHasType = true; break; } attribute = attribute.next_attribute(); } if (!bHasType) { children.push_back(createNodeTree(child, "NodeObjectData")); } child = child.next_sibling(); } } // std::string customClassName; auto attribute = objectData.first_attribute(); while (attribute) { std::string attriname = attribute.name(); std::string value = attribute.value(); if (attriname == "CustomClassName") { customClassName = value; break; } attribute = attribute.next_attribute(); } return CreateNodeTree(*_builder, _builder->CreateString(classname), _builder->CreateVector(children), options, _builder->CreateString(customClassName)); } int FlatBuffersSerialize::getResourceType(std::string key) { if (key == "Normal" || key == "Default") { return 0; } if (_isSimulator) { if (key == "MarkedSubImage") { return 0; } } return 1; } std::string FlatBuffersSerialize::getGUIClassName(const std::string &name) { std::string convertedClassName = name; if (name == "Panel") { convertedClassName = "Layout"; } else if (name == "TextArea") { convertedClassName = "Text"; } else if (name == "TextButton") { convertedClassName = "Button"; } else if (name == "Label") { convertedClassName = "Text"; } else if (name == "LabelAtlas") { convertedClassName = "TextAtlas"; } else if (name == "LabelBMFont") { convertedClassName = "TextBMFont"; } return convertedClassName; } std::string FlatBuffersSerialize::getWidgetReaderClassName(Widget* widget) { std::string readerName; // 1st., custom widget parse properties of parent widget with parent widget reader if (dynamic_cast(widget)) { readerName = "ButtonReader"; } else if (dynamic_cast(widget)) { readerName = "CheckBoxReader"; } else if (dynamic_cast(widget)) { readerName = "ImageViewReader"; } else if (dynamic_cast(widget)) { readerName = "TextAtlasReader"; } else if (dynamic_cast(widget)) { readerName = "TextBMFontReader"; } else if (dynamic_cast(widget)) { readerName = "TextReader"; } else if (dynamic_cast(widget)) { readerName = "LoadingBarReader"; } else if (dynamic_cast(widget)) { readerName = "SliderReader"; } else if (dynamic_cast(widget)) { readerName = "TextFieldReader"; } else if (dynamic_cast(widget)) { readerName = "ListViewReader"; } else if (dynamic_cast(widget)) { readerName = "PageViewReader"; } else if (dynamic_cast(widget)) { readerName = "ScrollViewReader"; } else if (dynamic_cast(widget)) { readerName = "LayoutReader"; } else if (dynamic_cast(widget)) { readerName = "WidgetReader"; } return readerName; } // NodeAction Offset FlatBuffersSerialize::createNodeAction(pugi::xml_node objectData) { int duration = 0; float speed = 0.0f; std::string currentAnimationName; // CCLOG("animation name = %s", objectData->Name()); // ActionTimeline auto attribute = objectData.first_attribute(); // attributes while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "Duration") { duration = atoi(value.c_str()); } else if (name == "Speed") { speed = atof(value.c_str()); } else if (name == "ActivedAnimationName") { currentAnimationName = value.c_str(); } attribute = attribute.next_attribute(); } // all Timeline std::vector> timelines; pugi::xml_node timelineElement = objectData.first_child(); while (timelineElement) { auto timeLine = createTimeLine(timelineElement); timelines.push_back(timeLine); timelineElement = timelineElement.next_sibling(); } return CreateNodeAction(*_builder, duration, speed, _builder->CreateVector(timelines), _builder->CreateString(currentAnimationName)); } Offset FlatBuffersSerialize::createAnimationInfo(pugi::xml_node objectData) { std::string infoName; int startIndex = 0; int endIndex = 0; auto attribute = objectData.first_attribute(); while (attribute) { std::string attriname = attribute.name(); std::string attrivalue = attribute.value(); if (attriname == "Name") { infoName = attrivalue; } else if (attriname == "StartIndex") { startIndex = atoi(attrivalue.c_str()); } else if (attriname == "EndIndex") { endIndex = atoi(attrivalue.c_str()); } attribute = attribute.next_attribute(); } return CreateAnimationInfo(*_builder, _builder->CreateString(infoName), startIndex, endIndex); } Offset FlatBuffersSerialize::createTimeLine(pugi::xml_node objectData) { int actionTag = 0; std::string property; // TimelineData attributes auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "ActionTag") { actionTag = atoi(value.c_str()); } else if (name == "Property") { property = value; } attribute = attribute.next_attribute(); } // all Frame std::vector> frames; pugi::xml_node frameElement = objectData.first_child(); while (frameElement) { Offset frame; if (property == Property_VisibleForFrame) { auto boolFrame = createBoolFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame 0, // TextureFrame 0, // EventFrame 0, // IntFrame boolFrame); } else if (property == Property_Position) { auto pointFrame = createPointFrame(frameElement); frame = CreateFrame(*_builder, pointFrame); } else if (property == Property_Scale) { auto scaleFrame = createScaleFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame scaleFrame); } else if (property == Property_RotationSkew) { auto scaleFrame = createScaleFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame scaleFrame); } else if (property == Property_CColor) { auto colorFrame = createColorFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame colorFrame); } else if (property == Property_FileData) { auto textureFrame = createTextureFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame textureFrame); } else if (property == Property_FrameEvent) { auto eventFrame = createEventFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame 0, // TextureFrame eventFrame); } else if (property == Property_Alpha) { auto intFrame = createIntFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame 0, // TextureFrame 0, // EventFrame intFrame); } else if (property == Property_AnchorPoint) { auto scaleFrame = createScaleFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame scaleFrame); } else if (property == Property_ZOrder) { auto intFrame = createIntFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame 0, // TextureFrame 0, // EventFrame intFrame); } else if (property == Property_ActionValue) { auto innerActionFrame = createInnerActionFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame 0, // TextureFrame 0, // EventFrame 0, // IntFrame 0, // BoolFrame innerActionFrame); } else if (property == Property_BlendValue) { auto blendFrame = createBlendFrame(frameElement); frame = CreateFrame(*_builder, 0, // PointFrame 0, // ScaleFrame 0, // ColorFrame 0, // TextureFrame 0, // EventFrame 0, // IntFrame 0, // BoolFrame 0, //InnerActionFrame blendFrame); } frames.push_back(frame); frameElement = frameElement.next_sibling(); } return CreateTimeLine(*_builder, _builder->CreateString(property), actionTag, _builder->CreateVector(frames)); } Offset FlatBuffersSerialize::createPointFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; Vec2 position; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "X") { position.x = atof(value.c_str()); } else if (name == "Y") { position.y = atof(value.c_str()); } else if (name == "FrameIndex") { frameIndex = atoi(value.c_str()); } else if (name == "Tween") { tween = (value == "True") ? true : false; } attribute = attribute.next_attribute(); } FVec2 f_position(position.x, position.y); return CreatePointFrame(*_builder, frameIndex, tween, &f_position, createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createScaleFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; Vec2 scale; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "X") { scale.x = atof(value.c_str()); } else if (name == "Y") { scale.y = atof(value.c_str()); } else if (name == "FrameIndex") { frameIndex = atoi(value.c_str()); } else if (name == "Tween") { tween = (value == "True") ? true : false; } attribute = attribute.next_attribute(); } Scale f_scale(scale.x, scale.y); return CreateScaleFrame(*_builder, frameIndex, tween, &f_scale, createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createColorFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; Color3B color; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "FrameIndex") { frameIndex = atoi(value.c_str()); } else if (name == "Tween") { tween = (value == "True") ? true : false; } attribute = attribute.next_attribute(); } // color auto child = objectData.first_child(); while (child) { attribute = child.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "R") { color.r = atoi(value.c_str()); } else if (name == "G") { color.g = atoi(value.c_str()); } else if (name == "B") { color.b = atoi(value.c_str()); } attribute = attribute.next_attribute(); } child = child.next_sibling(); } Color f_color(255, color.r, color.g, color.b); return CreateColorFrame(*_builder, frameIndex, tween, &f_color, createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createTextureFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; std::string path; std::string plistFile; int resourceType = 0; std::string texture; std::string texturePng; auto attribute = objectData.first_attribute(); while (attribute) { std::string attriname = attribute.name(); std::string value = attribute.value(); if (attriname == "FrameIndex") { frameIndex = atoi(value.c_str()); } else if (attriname == "Tween") { tween = (value == "True") ? true : false; } attribute = attribute.next_attribute(); } auto child = objectData.first_child(); while (child) { attribute = child.first_attribute(); while (attribute) { std::string attriname = attribute.name(); std::string value = attribute.value(); if (attriname == "Path") { path = value; } else if (attriname == "Type") { resourceType = getResourceType(value); } else if (attriname == "Plist") { plistFile = value; texture = value; } attribute = attribute.next_attribute(); } if (resourceType == 1) { _textures.push_back(_builder->CreateString(texture)); } child = child.next_sibling(); } return CreateTextureFrame(*_builder, frameIndex, tween, CreateResourceData(*_builder, _builder->CreateString(path), _builder->CreateString(plistFile), resourceType), createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createEventFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; std::string value; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string attrivalue = attribute.value(); if (name == "Value") // to be gonna modify { value = attrivalue; } else if (name == "FrameIndex") { frameIndex = atoi(attrivalue.c_str()); } else if (name == "Tween") { tween = (attrivalue == "True") ? true : false; } attribute = attribute.next_attribute(); } return CreateEventFrame(*_builder, frameIndex, tween, _builder->CreateString(value), createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createIntFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; int value = 0; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string attrivalue = attribute.value(); if (name == "Value") // to be gonna modify { value = atoi(attrivalue.c_str()); } else if (name == "FrameIndex") { frameIndex = atoi(attrivalue.c_str()); } else if (name == "Tween") { tween = (attrivalue == "True") ? true : false; } attribute = attribute.next_attribute(); } return CreateIntFrame(*_builder, frameIndex, tween, value, createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createBoolFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; bool value = true; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string attrivalue = attribute.value(); if (name == "Value") { value = (attrivalue == "True") ? true : false; } else if (name == "FrameIndex") { frameIndex = atoi(attrivalue.c_str()); } else if (name == "Tween") { tween = (attrivalue == "True") ? true : false; } attribute = attribute.next_attribute(); } return CreateBoolFrame(*_builder, frameIndex, tween, value, createEasingData(objectData.first_child())); } Offset FlatBuffersSerialize::createInnerActionFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; int innerActionType = 0; std::string currentAniamtionName; int singleFrameIndex = 0; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string attrivalue = attribute.value(); if (name == "InnerActionType") { if (attrivalue == "LoopAction") { innerActionType = 0; } else if (attrivalue == "NoLoopAction") { innerActionType = 1; } else if (attrivalue == "SingleFrame") { innerActionType = 2; } } else if (name == "CurrentAniamtionName") { currentAniamtionName = attrivalue; } else if (name == "SingleFrameIndex") { singleFrameIndex = atoi(attrivalue.c_str()); } else if (name == "FrameIndex") { frameIndex = atoi(attrivalue.c_str()); } else if (name == "Tween") { tween = (attrivalue == "True") ? true : false; } attribute = attribute.next_attribute(); } return CreateInnerActionFrame(*_builder, frameIndex, tween, innerActionType, _builder->CreateString(currentAniamtionName), singleFrameIndex, createEasingData(objectData.first_child())); } flatbuffers::Offset FlatBuffersSerialize::createBlendFrame(pugi::xml_node objectData) { int frameIndex = 0; bool tween = true; int32_t src = GLBlendConst::ONE, dst = GLBlendConst::ONE_MINUS_SRC_ALPHA; std::string name; std::string value; auto attribute = objectData.first_attribute(); while (attribute) { name = attribute.name(); value = attribute.value(); if (name == "FrameIndex") { frameIndex = atoi(value.c_str()); } else if (name == "Tween") { tween = (value == "True") ? true : false; } else if (name == "Src") { src = atoi(value.c_str()); } else if (name == "Dst") { dst = atoi(value.c_str()); } attribute = attribute.next_attribute(); } flatbuffers::Offset easingData; flatbuffers::BlendFunc blendFunc(src, dst); return CreateBlendFrame(*_builder, frameIndex, tween, &blendFunc, easingData); } flatbuffers::Offset FlatBuffersSerialize::createEasingData(pugi::xml_node objectData) { if (!objectData) { return 0; } int type = -1; std::vector points; auto attribute = objectData.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "Type") { type = atoi(value.c_str()); break; } attribute = attribute.next_attribute(); } pugi::xml_node Points = objectData.first_child(); if (Points) { pugi::xml_node PointF = Points.first_child(); while (PointF) { Vec2 pointF; attribute = PointF.first_attribute(); while (attribute) { std::string name = attribute.name(); std::string value = attribute.value(); if (name == "X") { pointF.x = atof(value.c_str()); } else if (name == "Y") { pointF.y = atof(value.c_str()); } attribute = attribute.next_attribute(); } flatbuffers::FVec2 f_PointF(pointF.x, pointF.y); points.push_back(f_PointF); PointF = PointF.next_sibling(); } } return CreateEasingData(*_builder, type, _builder->CreateVectorOfStructs(points)); } /* create flat buffers with XML */ FlatBufferBuilder* FlatBuffersSerialize::createFlatBuffersWithXMLFileForSimulator(const std::string &xmlFileName) { std::string inFullpath = FileUtils::getInstance()->fullPathForFilename(xmlFileName); // xml read if (!FileUtils::getInstance()->isFileExist(inFullpath)) { // CCLOG(".csd file does not exist."); } std::string content = FileUtils::getInstance()->getStringFromFile(inFullpath); // xml parse pugi::xml_document document; if(!content.empty()) document.load_buffer_inplace(&content.front(), content.length()); pugi::xml_node rootElement = document.document_element();// Root // CCLOG("rootElement name = %s", rootelement.name()); pugi::xml_node element = rootElement.first_child(); bool serializeEnabled = false; std::string rootType; while (element) { // CCLOG("entity name = %s", element.name()); if (strcmp("PropertyGroup", element.name()) == 0) { auto attribute = element.first_attribute(); while (attribute && strcmp("Version", attribute.name()) != 0) attribute = attribute.next_attribute(); if (attribute) _csdVersion = attribute.value(); } if (strcmp("Content", element.name()) == 0) { auto attribute = element.first_attribute(); // if (!attribute) { serializeEnabled = true; rootType = "NodeObjectData"; } } if (serializeEnabled) { break; } auto child = element.first_child(); if (child) { element = child; } else { element = element.next_sibling(); } } if (serializeEnabled) { _builder = new (std::nothrow) FlatBufferBuilder(); Offset nodeTree; Offset action; std::vector > animationInfos; auto child = element.first_child(); while (child) { std::string name = child.name(); if (name == "Animation") // action { pugi::xml_node animation = child; action = createNodeAction(animation); } else if (name == "ObjectData") // nodeTree { pugi::xml_node objectData = child; auto nameElem = objectData.first_attribute(); while (nameElem) { if (0 == strcmp("ctype", nameElem.name())) { rootType = nameElem.value(); break; } else nameElem = nameElem.next_attribute(); } if (rootType == "GameNodeObjectData" || rootType == "GameLayerObjectData") // for adaptate old version rootType = "NodeObjectData"; nodeTree = createNodeTreeForSimulator(objectData, rootType); } else if (name == "AnimationList") // animation list { pugi::xml_node animationinfoElement = child.first_child(); while (animationinfoElement) { auto animationinfo = createAnimationInfo(animationinfoElement); animationInfos.push_back(animationinfo); animationinfoElement = animationinfoElement.next_sibling(); } } child = child.next_sibling(); } auto csparsebinary = CreateCSParseBinary(*_builder, _builder->CreateString(_csdVersion), _builder->CreateVector(_textures), _builder->CreateVector(_texturePngs), nodeTree, action, _builder->CreateVector(animationInfos)); _builder->Finish(csparsebinary); _textures.clear(); _texturePngs.clear(); } return _builder; } Offset FlatBuffersSerialize::createNodeTreeForSimulator(pugi::xml_node objectData, std::string classType) { std::string classname = classType.substr(0, classType.find("ObjectData")); // CCLOG("classname = %s", classname.c_str()); std::string name; Offset options; std::vector> children; if (classname == "ProjectNode") { auto projectNodeOptions = createProjectNodeOptionsForSimulator(objectData); options = CreateOptions(*_builder, *(Offset*)(&projectNodeOptions)); } else if (classname == "SimpleAudio") { auto reader = ComAudioReader::getInstance(); auto tempOptions = reader->createOptionsWithFlatBuffers(objectData, _builder); options = CreateOptions(*_builder, *(Offset*)(&tempOptions)); } else { std::string readername = getGUIClassName(classname); readername.append("Reader"); NodeReaderProtocol* reader = dynamic_cast(ObjectFactory::getInstance()->createObject(readername)); if (reader != nullptr) { auto tempOptions = reader->createOptionsWithFlatBuffers(objectData, _builder); options = CreateOptions(*_builder, *(Offset*)(&tempOptions)); } } // children bool containChildrenElement = false; auto child = objectData.first_child(); while (child) { // CCLOG("child name = %s", child.name()); if (strcmp("Children", child.name()) == 0) { containChildrenElement = true; break; } child = child.next_sibling(); } if (containChildrenElement) { child = child.first_child(); // CCLOG("element name = %s", child.name()); while (child) { auto attribute = child.first_attribute(); bool bHasType = false; while (attribute) { std::string attriname = attribute.name(); std::string value = attribute.value(); if (attriname == "ctype") { children.push_back(createNodeTreeForSimulator(child, value)); bHasType = true; break; } attribute = attribute.next_attribute(); } if (!bHasType) { children.push_back(createNodeTreeForSimulator(child, "NodeObjectData")); } child = child.next_sibling(); } } // std::string customClassName; auto attribute = objectData.first_attribute(); while (attribute) { std::string attriname = attribute.name(); std::string value = attribute.value(); if (attriname == "CustomClassName") { customClassName = value; break; } attribute = attribute.next_attribute(); } return CreateNodeTree(*_builder, _builder->CreateString(classname), _builder->CreateVector(children), options, _builder->CreateString(customClassName)); } Offset FlatBuffersSerialize::createProjectNodeOptionsForSimulator(pugi::xml_node objectData) { auto temp = NodeReader::getInstance()->createOptionsWithFlatBuffers(objectData, _builder); auto nodeOptions = *(Offset*)(&temp); std::string filename; float innerspeed = 1.0f; pugi::xml_attribute objattri = objectData.first_attribute(); // inneraction speed while (objattri) { std::string name = objattri.name(); std::string value = objattri.value(); if (name == "InnerActionSpeed") { innerspeed = atof(objattri.value()); break; } objattri = objattri.next_attribute(); } // FileData auto child = objectData.first_child(); while (child) { std::string name = child.name(); if (name == "FileData") { auto attribute = child.first_attribute(); while (attribute) { name = attribute.name(); std::string value = attribute.value(); if (name == "Path") { filename = value; } attribute = attribute.next_attribute(); } } child = child.next_sibling(); } return CreateProjectNodeOptions(*_builder, nodeOptions, _builder->CreateString(filename), innerspeed); } /* Serialize language XML file to Flat Buffers file. */ std::string FlatBuffersSerialize::serializeFlatBuffersWithXMLFileForLanguageData(const std::string& xmlFilePath, const std::string& flatBuffersFilePath, const std::string& languageName) { //Read and parse XML data file. if (!FileUtils::getInstance()->isFileExist(xmlFilePath)) return "Language XML file does not exist."; std::string content = FileUtils::getInstance()->getStringFromFile(xmlFilePath); pugi::xml_document document; if (!content.empty()) document.load_buffer_inplace(&content.front(), content.length()); pugi::xml_node element = document.document_element(); element = element.first_child(); //Create FlatBuffers file using the language data in XML file. _builder = new (std::nothrow) FlatBufferBuilder(); std::vector> langItemList; while (element) { if (strcmp("language", element.name()) != 0) { element = element.next_sibling(); continue; } //Read all of the Key-Values in the XML file. std::string key; std::string text; bool hasKeyReaded = false; bool hasTextReaded = false; pugi::xml_node childElement = element.first_child(); while (childElement) { //Record language key. if (strcmp("key", childElement.name()) == 0) { key = childElement.text().as_string(); hasKeyReaded = true; } //Record corresponding text. else if (strcmp(languageName.c_str(), childElement.name()) == 0) { const char* langText = childElement.text().as_string(); if (langText && langText[0] != '\0') text = langText; else text = key; hasTextReaded = true; } if (hasKeyReaded && hasTextReaded) break; childElement = childElement.next_sibling(); } Offset langItem = CreateLanguageItem(*_builder, _builder->CreateString(key), _builder->CreateString(text)); langItemList.push_back(langItem); element = element.next_sibling(); } auto langSet = CreateLanguageSet(*_builder, _builder->CreateVector(langItemList)); _builder->Finish(langSet); bool isSuccess = FileUtils::writeBinaryToFile(_builder->GetBufferPointer(), _builder->GetSize(), flatBuffersFilePath); if (isSuccess) return ""; else return "Failed to save language .csb file."; } } /**/