/****************************************************************************
 Copyright (c) 2013 cocos2d-x.org
 Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
 Copyright (c) 2019-2020 simdsoft, @HALX99
 Copyright (c) 2021 Bytedance Inc.

 https://axmolengine.github.io/

 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 "ActionTimeline/CSLoader.h"

#include "base/ObjectFactory.h"
#include "base/Director.h"
#include "base/UTF8.h"
#include "ui/CocosGUI.h"
#include "2d/SpriteFrameCache.h"
#include "2d/ParticleSystemQuad.h"
#include "2d/FastTMXTiledMap.h"
#include "platform/FileUtils.h"

#include "ActionTimeline/ActionTimelineCache.h"
#include "ActionTimeline/ActionTimeline.h"
#include "ActionTimeline/ActionTimelineNode.h"
#include "SGUIReader.h"
#include "ComAudio.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/ProjectNodeReader/ProjectNodeReader.h"
#include "WidgetReader/ComAudioReader/ComAudioReader.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/ArmatureNodeReader/ArmatureNodeReader.h"
#include "WidgetReader/Node3DReader/Node3DReader.h"
#include "WidgetReader/MeshReader/MeshReader.h"
#include "WidgetReader/UserCameraReader/UserCameraReader.h"
#include "WidgetReader/Particle3DReader/Particle3DReader.h"
#include "WidgetReader/GameNode3DReader/GameNode3DReader.h"
#include "WidgetReader/Light3DReader/Light3DReader.h"
#include "WidgetReader/TabControlReader/TabControlReader.h"

#include "WidgetReader/SkeletonReader/BoneNodeReader.h"
#include "WidgetReader/SkeletonReader/SkeletonNodeReader.h"

#if defined(AX_BUILD_WITH_SPINE) && AX_BUILD_WITH_SPINE
#    include "WidgetReader/SpineSkeletonReader/SpineSkeletonReader.h"
#endif
#include "WidgetReader/RichTextReader/RichTextReader.h"
#include "WidgetReader/RadioButtonReader/RadioButtonReader.h"
#include "WidgetReader/RadioButtonReader/RadioButtonGroupReader.h"
#include "WidgetReader/TextFieldReader/TextFieldExReader.h"
#include "ComExtensionData.h"

#include "flatbuffers/flatbuffers.h"

#include "FlatBuffersSerialize.h"

#include "WidgetCallBackHandlerProtocol.h"

#include <fstream>

using namespace ax::ui;
using namespace cocostudio;
using namespace cocostudio::timeline;
/* peterson */
using namespace flatbuffers;
/**/

NS_AX_BEGIN

static const char* ClassName_Node        = "Node";
static const char* ClassName_SubGraph    = "SubGraph";
static const char* ClassName_Sprite      = "Sprite";
static const char* ClassName_Particle    = "Particle";
static const char* ClassName_TMXTiledMap = "TMXTiledMap";

static const char* ClassName_Panel       = "Panel";
static const char* ClassName_Button      = "Button";
static const char* ClassName_CheckBox    = "CheckBox";
static const char* ClassName_ImageView   = "ImageView";
static const char* ClassName_TextAtlas   = "TextAtlas";
static const char* ClassName_LabelAtlas  = "LabelAtlas";
static const char* ClassName_LabelBMFont = "LabelBMFont";
static const char* ClassName_TextBMFont  = "TextBMFont";
static const char* ClassName_Text        = "Text";
static const char* ClassName_LoadingBar  = "LoadingBar";
static const char* ClassName_TextField   = "TextField";
static const char* ClassName_Slider      = "Slider";
static const char* ClassName_Layout      = "Layout";
static const char* ClassName_ScrollView  = "ScrollView";
static const char* ClassName_ListView    = "ListView";
static const char* ClassName_PageView    = "PageView";
static const char* ClassName_Widget      = "Widget";
static const char* ClassName_Label       = "Label";

static const char* ClassName_ComAudio = "ComAudio";

static const char* NODE          = "nodeTree";
static const char* CHILDREN      = "children";
static const char* CLASSNAME     = "classname";
static const char* FILE_PATH     = "fileName";
static const char* PLIST_FILE    = "plistFile";
static const char* TMX_FILE      = "tmxFile";
static const char* TMX_STRING    = "tmxString";
static const char* RESOURCE_PATH = "resourcePath";

static const char* COMPONENTS                = "components";
static const char* COMPONENT_TYPE            = "componentType";
static const char* COMPONENT_NAME            = "componentName";
static const char* COMPONENT_ENABLED         = "componentEnabled";
static const char* COMPONENT_AUDIO_FILE_PATH = "comAudioFilePath";
static const char* COMPONENT_LOOP            = "comAudioloop";

static const char* TAG        = "tag";
static const char* ACTION_TAG = "actionTag";

static const char* OPTIONS = "options";

static const char* WIDTH           = "width";
static const char* HEIGHT          = "height";
static const char* X               = "x";
static const char* Y               = "y";
static const char* SCALE_X         = "scaleX";
static const char* SCALE_Y         = "scaleY";
static const char* SKEW_X          = "skewX";
static const char* SKEW_Y          = "skewY";
static const char* ROTATION        = "rotation";
static const char* ROTATION_SKEW_X = "rotationSkewX";
static const char* ROTATION_SKEW_Y = "rotationSkewY";
static const char* ANCHOR_X        = "anchorPointX";
static const char* ANCHOR_Y        = "anchorPointY";
static const char* ALPHA           = "opacity";
static const char* RED             = "colorR";
static const char* GREEN           = "colorG";
static const char* BLUE            = "colorB";
static const char* ZORDER          = "ZOrder";
static const char* PARTICLE_NUM    = "particleNum";
static const char* FLIPX           = "flipX";
static const char* FLIPY           = "flipY";
static const char* VISIBLE         = "visible";

static const char* TEXTURES     = "textures";
static const char* TEXTURES_PNG = "texturesPng";

static const char* MONO_COCOS2D_VERSION = "cocos2dVersion";

// CSLoader
static CSLoader* _sharedCSLoader = nullptr;

CSLoader* CSLoader::getInstance()
{
    if (!_sharedCSLoader)
    {
        _sharedCSLoader = new CSLoader();
        _sharedCSLoader->init();
    }

    return _sharedCSLoader;
}

void CSLoader::destroyInstance()
{
    AX_SAFE_DELETE(_sharedCSLoader);
    ActionTimelineCache::destroyInstance();
}

CSLoader::CSLoader()
    : _recordJsonPath(true), _jsonPath(""), _monoCocos2dxVersion(""), _rootNode(nullptr), _csBuildID("10.0.3000.0")
{
    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(ArmatureNodeReader);
    CREATE_CLASS_NODE_READER_INFO(Node3DReader);
    CREATE_CLASS_NODE_READER_INFO(MeshReader);
    CREATE_CLASS_NODE_READER_INFO(UserCameraReader);
    CREATE_CLASS_NODE_READER_INFO(Particle3DReader);
    CREATE_CLASS_NODE_READER_INFO(GameNode3DReader);
    CREATE_CLASS_NODE_READER_INFO(Light3DReader);
    CREATE_CLASS_NODE_READER_INFO(TabControlReader);

    CREATE_CLASS_NODE_READER_INFO(BoneNodeReader);
    CREATE_CLASS_NODE_READER_INFO(SkeletonNodeReader);

    /// Added by x-studio
    CREATE_CLASS_NODE_READER_INFO(RichTextReader);
#if defined(AX_BUILD_WITH_SPINE) && AX_BUILD_WITH_SPINE
    CREATE_CLASS_NODE_READER_INFO(SpineSkeletonReader);
#endif
    CREATE_CLASS_NODE_READER_INFO(RadioButtonReader);
    CREATE_CLASS_NODE_READER_INFO(RadioButtonGroupReader);

    CREATE_CLASS_NODE_READER_INFO(TextFieldExReader);
}

void CSLoader::purge() {}

void CSLoader::init()
{
    using namespace std::placeholders;

    _funcs.insert(Pair(ClassName_Node, std::bind(&CSLoader::loadSimpleNode, this, _1)));
    _funcs.insert(Pair(ClassName_SubGraph, std::bind(&CSLoader::loadSubGraph, this, _1)));
    _funcs.insert(Pair(ClassName_Sprite, std::bind(&CSLoader::loadSprite, this, _1)));
    _funcs.insert(Pair(ClassName_Particle, std::bind(&CSLoader::loadParticle, this, _1)));
    _funcs.insert(Pair(ClassName_TMXTiledMap, std::bind(&CSLoader::loadTMXTiledMap, this, _1)));
    _funcs.insert(Pair(ClassName_LabelAtlas, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_LabelBMFont, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Panel, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Button, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_CheckBox, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_ImageView, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_TextAtlas, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_TextBMFont, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Text, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_LoadingBar, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_TextField, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Slider, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Layout, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_ScrollView, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_ListView, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_PageView, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Widget, std::bind(&CSLoader::loadWidget, this, _1)));
    _funcs.insert(Pair(ClassName_Label, std::bind(&CSLoader::loadWidget, this, _1)));

    _componentFuncs.insert(ComponentPair(ClassName_ComAudio, std::bind(&CSLoader::loadComAudio, this, _1)));
}

Node* CSLoader::createNode(std::string_view filename)
{
    auto path   = filename;
    size_t pos  = path.find_last_of('.');
    auto suffix = path.substr(pos + 1, path.length());

    CSLoader* load = CSLoader::getInstance();

    if (suffix == "csb")
    {
        return load->createNodeWithFlatBuffersFile(filename);
    }
    else if (suffix == "json" || suffix == "ExportJson")
    {
        return load->createNodeFromJson(filename);
    }

    return nullptr;
}

Node* CSLoader::createNode(std::string_view filename, const ccNodeLoadCallback& callback)
{
    auto path   = filename;
    size_t pos  = path.find_last_of('.');
    auto suffix = path.substr(pos + 1, path.length());

    CSLoader* load = CSLoader::getInstance();

    if (suffix == "csb")
    {
        return load->createNodeWithFlatBuffersFile(filename, callback);
    }

    return nullptr;
}

Node* CSLoader::createNodeWithVisibleSize(std::string_view filename)
{
    auto node = createNode(filename);
    if (node != nullptr)
    {
        Size frameSize = Director::getInstance()->getVisibleSize();
        node->setContentSize(frameSize);
        ui::Helper::doLayout(node);
    }
    return node;
}

Node* CSLoader::createNodeWithVisibleSize(std::string_view filename, const ccNodeLoadCallback& callback)
{
    auto node = createNode(filename, callback);
    if (node != nullptr)
    {
        Size frameSize = Director::getInstance()->getVisibleSize();
        node->setContentSize(frameSize);
        ui::Helper::doLayout(node);
    }
    return node;
}

std::string_view CSLoader::getExtentionName(std::string_view name)
{
    auto path   = name;
    size_t pos  = path.find_last_of('.');
    auto result = path.substr(pos + 1, path.length());

    return result;
}

ActionTimeline* CSLoader::createTimeline(std::string_view filename)
{
    auto suffix = getExtentionName(filename);

    ActionTimelineCache* cache = ActionTimelineCache::getInstance();

    if (suffix == "csb")
    {
        return cache->createActionWithFlatBuffersFile(filename);
    }
    else if (suffix == "json" || suffix == "ExportJson")
    {
        return cache->createActionFromJson(filename);
    }

    return nullptr;
}

ActionTimeline* CSLoader::createTimeline(const Data& data, std::string_view filename)
{
    auto suffix = getExtentionName(filename);

    ActionTimelineCache* cache = ActionTimelineCache::getInstance();

    if (suffix == "csb")
    {
        return cache->createActionWithDataBuffer(data, filename);
    }
    else if (suffix == "json" || suffix == "ExportJson")
    {
        std::string_view content((char*)data.getBytes(), data.getSize());
        return cache->createActionFromContent(filename, content);
    }

    return nullptr;
}

/*
ActionTimelineNode* CSLoader::createActionTimelineNode(std::string_view filename)
{
    Node* root = createNode(filename);
    ActionTimeline* action = createTimeline(filename);

    if(root && action)
    {
        root->runAction(action);
        action->gotoFrameAndPlay(0);
    }

    ActionTimelineNode* node = ActionTimelineNode::create(root, action);
    return node;
}
ActionTimelineNode* CSLoader::createActionTimelineNode(std::string_view filename, int startIndex, int endIndex, bool
loop)
{
    ActionTimelineNode* node = createActionTimelineNode(filename);
    ActionTimeline* action = node->getActionTimeline();
    if(action)
        action->gotoFrameAndPlay(startIndex, endIndex, loop);

    return node;
}
 */

Node* CSLoader::createNodeFromJson(std::string_view filename)
{
    if (_recordJsonPath)
    {
        auto jsonPath = filename.substr(0, filename.find_last_of('/') + 1);
        GUIReader::getInstance()->setFilePath(jsonPath);

        _jsonPath = jsonPath;
    }
    else
    {
        GUIReader::getInstance()->setFilePath("");
    }

    Node* node = loadNodeWithFile(filename);

    return node;
}

Node* CSLoader::loadNodeWithFile(std::string_view fileName)
{
    // Read content from file
    std::string contentStr = FileUtils::getInstance()->getStringFromFile(fileName);

    Node* node = loadNodeWithContent(contentStr);

    // Load animation data from file
    ActionTimelineCache::getInstance()->loadAnimationActionWithContent(fileName, contentStr);

    return node;
}

Node* CSLoader::loadNodeWithContent(std::string_view content)
{
    rapidjson::Document doc;
    doc.Parse<0>(content.data(), content.length());
    if (doc.HasParseError())
    {
        AXLOG("GetParseError %d\n", doc.GetParseError());
    }

    // cocos2dx version mono editor is based on
    _monoCocos2dxVersion = DICTOOL->getStringValue_json(doc, MONO_COCOS2D_VERSION, "");

    // decode plist
    int length = DICTOOL->getArrayCount_json(doc, TEXTURES);

    for (int i = 0; i < length; i++)
    {
        std::string plist = DICTOOL->getStringValueFromArray_json(doc, TEXTURES, i);
        std::string png   = DICTOOL->getStringValueFromArray_json(doc, TEXTURES_PNG, i);
        plist             = _jsonPath + plist;
        png               = _jsonPath + png;
        SpriteFrameCache::getInstance()->addSpriteFramesWithFile(plist, png);
    }

    // decode node tree
    const rapidjson::Value& subJson = DICTOOL->getSubDictionary_json(doc, NODE);
    Node* root                      = loadNode(subJson);
    root->release();

    return root;
}

Node* CSLoader::loadNode(const rapidjson::Value& json)
{
    Node* node           = nullptr;
    std::string nodeType = DICTOOL->getStringValue_json(json, CLASSNAME);

    NodeCreateFunc func = _funcs[nodeType];
    if (func != nullptr)
    {
        const rapidjson::Value& options = DICTOOL->getSubDictionary_json(json, OPTIONS);
        node                            = func(options);

        // component
        if (node)
        {
            const rapidjson::Value& components = DICTOOL->getSubDictionary_json(options, COMPONENTS);
            int componentSize                  = DICTOOL->getArrayCount_json(options, COMPONENTS, 0);
            for (int i = 0; i < componentSize; ++i)
            {
                const rapidjson::Value& dic = DICTOOL->getSubDictionary_json(components, COMPONENTS, i);
                Component* component        = loadComponent(dic);
                if (component)
                {
                    node->addComponent(component);
                }
            }
        }
    }

    if (node)
    {
        int length = DICTOOL->getArrayCount_json(json, CHILDREN, 0);
        for (int i = 0; i < length; i++)
        {
            const rapidjson::Value& dic = DICTOOL->getSubDictionary_json(json, CHILDREN, i);
            Node* child                 = loadNode(dic);
            if (child)
            {
                PageView* pageView = dynamic_cast<PageView*>(node);
                ListView* listView = dynamic_cast<ListView*>(node);
                if (pageView)
                {
                    Layout* layout = dynamic_cast<Layout*>(child);
                    if (layout)
                    {
                        pageView->addPage(layout);
                    }
                }
                else if (listView)
                {
                    Widget* widget = dynamic_cast<Widget*>(child);
                    if (widget)
                    {
                        listView->pushBackCustomItem(widget);
                    }
                }
                else
                {
                    if (_monoCocos2dxVersion != "3.x")
                    {
                        Widget* widget = dynamic_cast<Widget*>(child);
                        Widget* parent = dynamic_cast<Widget*>(node);
                        if (widget && parent && !dynamic_cast<Layout*>(parent))
                        {
                            if (widget->getPositionType() == ui::Widget::PositionType::PERCENT)
                            {
                                widget->setPositionPercent(
                                    Vec2(widget->getPositionPercent().x + parent->getAnchorPoint().x,
                                         widget->getPositionPercent().y + parent->getAnchorPoint().y));
                                widget->setPosition(Vec2(widget->getPositionX() + parent->getAnchorPointInPoints().x,
                                                         widget->getPositionY() + parent->getAnchorPointInPoints().y));
                            }
                            else
                            {
                                Size parentSize = parent->getContentSize();
                                widget->setPosition(
                                    Vec2(widget->getPositionX() + parentSize.width * parent->getAnchorPoint().x,
                                         widget->getPositionY() + parentSize.height * parent->getAnchorPoint().y));
                            }
                        }
                    }

                    node->addChild(child);
                }
                child->release();
            }
        }
    }
    else
    {
        AXLOG("Not supported NodeType: %s", nodeType.c_str());
    }

    return node;
}

void CSLoader::initNode(Node* node, const rapidjson::Value& json)
{
    float width         = DICTOOL->getFloatValue_json(json, WIDTH);
    float height        = DICTOOL->getFloatValue_json(json, HEIGHT);
    float x             = DICTOOL->getFloatValue_json(json, X);
    float y             = DICTOOL->getFloatValue_json(json, Y);
    float scalex        = DICTOOL->getFloatValue_json(json, SCALE_X, 1);
    float scaley        = DICTOOL->getFloatValue_json(json, SCALE_Y, 1);
    float rotation      = DICTOOL->getFloatValue_json(json, ROTATION);
    float rotationSkewX = DICTOOL->getFloatValue_json(json, ROTATION_SKEW_X);
    float rotationSkewY = DICTOOL->getFloatValue_json(json, ROTATION_SKEW_Y);
    float skewx         = DICTOOL->getFloatValue_json(json, SKEW_X);
    float skewy         = DICTOOL->getFloatValue_json(json, SKEW_Y);
    float anchorx       = DICTOOL->getFloatValue_json(json, ANCHOR_X, 0.5f);
    float anchory       = DICTOOL->getFloatValue_json(json, ANCHOR_Y, 0.5f);
    uint8_t alpha       = (uint8_t)DICTOOL->getIntValue_json(json, ALPHA, 255);
    uint8_t red         = (uint8_t)DICTOOL->getIntValue_json(json, RED, 255);
    uint8_t green       = (uint8_t)DICTOOL->getIntValue_json(json, GREEN, 255);
    uint8_t blue        = (uint8_t)DICTOOL->getIntValue_json(json, BLUE, 255);
    int zorder          = DICTOOL->getIntValue_json(json, ZORDER);
    int tag             = DICTOOL->getIntValue_json(json, TAG);
    int actionTag       = DICTOOL->getIntValue_json(json, ACTION_TAG);
    bool visible        = DICTOOL->getBooleanValue_json(json, VISIBLE);

    if (x != 0 || y != 0)
        node->setPosition(Point(x, y));
    if (scalex != 1)
        node->setScaleX(scalex);
    if (scaley != 1)
        node->setScaleY(scaley);
    if (rotation != 0)
        node->setRotation(rotation);
    if (rotationSkewX != 0)
        node->setRotationSkewX(rotationSkewX);
    if (rotationSkewY != 0)
        node->setRotationSkewY(rotationSkewY);
    if (skewx != 0)
        node->setSkewX(skewx);
    if (skewy != 0)
        node->setSkewY(skewy);
    if (anchorx != 0.5f || anchory != 0.5f)
        node->setAnchorPoint(Point(anchorx, anchory));
    if (width != 0 || height != 0)
        node->setContentSize(Size(width, height));
    if (zorder != 0)
        node->setLocalZOrder(zorder);
    if (visible != true)
        node->setVisible(visible);

    if (alpha != 255)
    {
        node->setOpacity(alpha);
    }
    if (red != 255 || green != 255 || blue != 255)
    {
        node->setColor(Color3B(red, green, blue));
    }

    node->setTag(tag);
    node->setUserObject(ActionTimelineData::create(actionTag));
}

Node* CSLoader::loadSimpleNode(const rapidjson::Value& json)
{
    Node* node = Node::create();
    // fix memory leak for v3.3
    // node->retain();
    initNode(node, json);

    return node;
}

Node* CSLoader::loadSubGraph(const rapidjson::Value& json)
{
    const char* filePath = DICTOOL->getStringValue_json(json, FILE_PATH);

    Node* node = nullptr;
    if (filePath && strcmp("", filePath) != 0)
    {
        node = createNode(filePath);
    }
    else
    {
        node = Node::create();
    }
    // fix memory leak for v3.3
    // node->retain();

    initNode(node, json);

    return node;
}

Node* CSLoader::loadSprite(const rapidjson::Value& json)
{
    const char* filePath = DICTOOL->getStringValue_json(json, FILE_PATH);
    Sprite* sprite       = nullptr;

    if (filePath != nullptr)
    {
        std::string path = filePath;

        SpriteFrame* spriteFrame = SpriteFrameCache::getInstance()->findFrame(path);
        if (!spriteFrame)
        {
            path   = _jsonPath + path;
            sprite = Sprite::create(path);
        }
        else
        {
            sprite = Sprite::createWithSpriteFrame(spriteFrame);
        }

        if (!sprite)
        {
            sprite = Sprite::create();
            AXLOG("filePath is empty. Create a sprite with no texture");
        }
    }
    else
    {
        sprite = Sprite::create();
    }

    // fix memory leak for v3.3
    // sprite->retain();

    initNode(sprite, json);

    bool flipX = DICTOOL->getBooleanValue_json(json, FLIPX);
    bool flipY = DICTOOL->getBooleanValue_json(json, FLIPY);

    if (flipX != false)
        sprite->setFlippedX(flipX);
    if (flipY != false)
        sprite->setFlippedY(flipY);

    return sprite;
}

Node* CSLoader::loadParticle(const rapidjson::Value& json)
{
    const char* filePath = DICTOOL->getStringValue_json(json, PLIST_FILE);
    int num              = DICTOOL->getIntValue_json(json, PARTICLE_NUM);

    ParticleSystemQuad* particle = ParticleSystemQuad::create(filePath);
    particle->setTotalParticles(num);
    // fix memory leak for v3.3
    // particle->retain();

    initNode(particle, json);

    return particle;
}

Node* CSLoader::loadTMXTiledMap(const rapidjson::Value& json)
{
    const char* tmxFile      = DICTOOL->getStringValue_json(json, TMX_FILE);
    const char* tmxString    = DICTOOL->getStringValue_json(json, TMX_STRING);
    const char* resourcePath = DICTOOL->getStringValue_json(json, RESOURCE_PATH);

    TMXTiledMap* tmx = nullptr;

    if (tmxFile && strcmp("", tmxFile) != 0)
    {
        tmx = TMXTiledMap::create(tmxFile);
    }
    else if ((tmxString && strcmp("", tmxString) != 0) && (resourcePath && strcmp("", resourcePath) != 0))
    {
        tmx = TMXTiledMap::createWithXML(tmxString, resourcePath);
    }

    return tmx;
}

Node* CSLoader::loadWidget(const rapidjson::Value& json)
{
    const char* str = DICTOOL->getStringValue_json(json, CLASSNAME);
    if (str == nullptr)
        return nullptr;

    std::string classname = str;

    WidgetPropertiesReader0300 widgetPropertiesReader;
    Widget* widget = nullptr;

    if (isWidget(classname))
    {
        std::string readerName{getGUIClassName(classname)};
        readerName.append("Reader");

        std::string_view guiClassName = getGUIClassName(classname);
        widget                        = dynamic_cast<Widget*>(ObjectFactory::getInstance()->createObject(guiClassName));
        // fix memory leak for v3.3
        // widget->retain();

        WidgetReaderProtocol* reader =
            dynamic_cast<WidgetReaderProtocol*>(ObjectFactory::getInstance()->createObject(readerName));

        if (reader && widget)
        {
            widgetPropertiesReader.setPropsForAllWidgetFromJsonDictionary(reader, widget, json);
        }
    }
    else if (isCustomWidget(classname))
    {
        widget = dynamic_cast<Widget*>(ObjectFactory::getInstance()->createObject(classname));

        // fix memory leak for v3.3
        // widget->retain();

        //
        // 1st., custom widget parse properties of parent widget with parent widget reader
        std::string_view readerName = getWidgetReaderClassName(widget);
        WidgetReaderProtocol* reader =
            dynamic_cast<WidgetReaderProtocol*>(ObjectFactory::getInstance()->createObject(readerName));
        if (reader && widget)
        {
            widgetPropertiesReader.setPropsForAllWidgetFromJsonDictionary(reader, widget, json);

            // 2nd., custom widget parse with custom reader
            const char* customProperty = DICTOOL->getStringValue_json(json, "customProperty");
            rapidjson::Document customJsonDict;
            customJsonDict.Parse<0>(customProperty);
            if (customJsonDict.HasParseError())
            {
                AXLOG("GetParseError %d\n", customJsonDict.GetParseError());
            }

            widgetPropertiesReader.setPropsForAllCustomWidgetFromJsonDictionary(classname, widget, customJsonDict);
        }
        else
        {
            AXLOG("Widget or WidgetReader doesn't exists!!!  Please check your protocol buffers file.");
        }
    }

    if (widget)
    {
        float rotationSkewX = DICTOOL->getFloatValue_json(json, ROTATION_SKEW_X);
        float rotationSkewY = DICTOOL->getFloatValue_json(json, ROTATION_SKEW_Y);
        float skewx         = DICTOOL->getFloatValue_json(json, SKEW_X);
        float skewy         = DICTOOL->getFloatValue_json(json, SKEW_Y);
        if (rotationSkewX != 0)
            widget->setRotationSkewX(rotationSkewX);
        if (rotationSkewY != 0)
            widget->setRotationSkewY(rotationSkewY);
        if (skewx != 0)
            widget->setSkewX(skewx);
        if (skewy != 0)
            widget->setSkewY(skewy);

        int actionTag = DICTOOL->getIntValue_json(json, ACTION_TAG);
        widget->setUserObject(ActionTimelineData::create(actionTag));
    }

    return widget;
}

Component* CSLoader::loadComponent(const rapidjson::Value& json)
{
    Component* component = nullptr;

    std::string componentType = DICTOOL->getStringValue_json(json, COMPONENT_TYPE);

    ComponentCreateFunc func = _componentFuncs[componentType];

    if (func != nullptr)
    {
        component = func(json);
    }

    return component;
}

Component* CSLoader::loadComAudio(const rapidjson::Value& json)
{
    ComAudio* audio = ComAudio::create();

    const char* name = DICTOOL->getStringValue_json(json, COMPONENT_NAME);
    bool enabled     = DICTOOL->getBooleanValue_json(json, COMPONENT_ENABLED);

    audio->setName(name);
    audio->setEnabled(enabled);

    const char* filePath = DICTOOL->getStringValue_json(json, COMPONENT_AUDIO_FILE_PATH);
    bool loop            = DICTOOL->getBooleanValue_json(json, COMPONENT_LOOP);

    audio->setFile(filePath);
    audio->setLoop(loop);

    return audio;
}

ax::Node* CSLoader::createNode(const Data& data)
{
    return createNode(data, nullptr);
}

template <typename _Elem, typename _Fty>
inline void fast_split(_Elem* s, typename std::remove_const<_Elem>::type delim, const _Fty& op)
{
    auto _Start = s;  // the start of every string
    auto _Ptr   = s;  // source string iterator
    while (*_Ptr != '\0')
    {
        if (delim == *_Ptr /* && _Ptr != _Start*/)
        {
            if (_Ptr != _Start)
                op(_Start, _Ptr);
            _Start = _Ptr + 1;
        }
        ++_Ptr;
    }
    if (_Start != _Ptr)
    {
        op(_Start, _Ptr);
    }
}
Node* CSLoader::createNode(const Data& data, const ccNodeLoadCallback& callback)
{
    CSLoader* loader = CSLoader::getInstance();
    Node* node       = nullptr;
    do
    {
        AX_BREAK_IF(data.isNull() || data.getSize() <= 0);
        auto csparsebinary = GetCSParseBinary(data.getBytes());
        AX_BREAK_IF(nullptr == csparsebinary);
        auto csBuildId = csparsebinary->version();
        if (csBuildId)
        {
            int readerVersion = 0, writterVersion = 0;
            // parse writter version
            int revisionIndex = 0;
            fast_split(csBuildId->c_str(), '.', [&](const char* start, const char* end) {
                auto endv  = const_cast<char*>(end);
                char charS = *endv;
                switch (++revisionIndex)
                {
                case 3:
                    *endv          = '\0';
                    writterVersion = atoi(start);
                    *endv          = charS;
                    break;
                }
            });

            // parse reader version
            revisionIndex = 0;
            fast_split(&loader->_csBuildID.front(), '.', [&](char* start, char* end) {
                auto endv  = const_cast<char*>(end);
                char charS = *endv;
                switch (++revisionIndex)
                {
                case 3:
                    *endv         = '\0';
                    readerVersion = atoi(start);
                    *endv         = charS;
                    break;
                }
            });

            AXASSERT(readerVersion >= writterVersion,
                     StringUtils::format(
                         "%s%s%s%s%s%s%s%s%s%s", "The reader build id of your Cocos exported file(", csBuildId->c_str(),
                         ") and the reader build id in your axis(", loader->_csBuildID.c_str(),
                         ") are not match.\n", "Please get the correct reader(build id ", csBuildId->c_str(), ")from ",
                         "https://github.com/axmolengine/axmol", " and replace it in your axis")
                         .c_str());
        }

        // decode plist
        auto textures   = csparsebinary->textures();
        int textureSize = csparsebinary->textures()->size();
        AXLOG("textureSize = %d", textureSize);
        for (int i = 0; i < textureSize; ++i)
        {
            std::string plist = textures->Get(i)->c_str();
            SpriteFrameCache::getInstance()->addSpriteFramesWithFile(plist);
        }

        node = loader->nodeWithFlatBuffers(csparsebinary->nodeTree(), callback);
    } while (0);

    loader->reconstructNestNode(node);

    return node;
}

Node* CSLoader::createNodeWithFlatBuffersFile(std::string_view filename)
{
    return createNodeWithFlatBuffersFile(filename, nullptr);
}

Node* CSLoader::createNodeWithFlatBuffersFile(std::string_view filename, const ccNodeLoadCallback& callback)
{
    Node* node = nodeWithFlatBuffersFile(filename, callback);

    reconstructNestNode(node);

    return node;
}

inline void CSLoader::reconstructNestNode(ax::Node* node)
{
    /* To reconstruct nest node as WidgetCallBackHandlerProtocol. */
    auto callbackHandler = dynamic_cast<WidgetCallBackHandlerProtocol*>(node);
    if (callbackHandler)
    {
        _callbackHandlers.popBack();
        if (_callbackHandlers.empty())
        {
            _rootNode = nullptr;
            AXLOG("Call back handler container has been clear.");
        }
        else
        {
            _rootNode = _callbackHandlers.back();
            AXLOG("after pop back _rootNode name = %s", _rootNode->getName().data());
        }
    }
}

Node* CSLoader::nodeWithFlatBuffersFile(std::string_view fileName)
{
    return nodeWithFlatBuffersFile(fileName, nullptr);
}

Node* CSLoader::nodeWithFlatBuffersFile(std::string_view fileName, const ccNodeLoadCallback& callback)
{
    std::string fullPath = FileUtils::getInstance()->fullPathForFilename(fileName);

    AX_ASSERT(FileUtils::getInstance()->isFileExist(fullPath));

    Data buf = FileUtils::getInstance()->getDataFromFile(fullPath);

    if (buf.isNull())
    {
        AXLOG("CSLoader::nodeWithFlatBuffersFile - failed read file: %s", fileName.data());
        AX_ASSERT(false);
        return nullptr;
    }

    auto csparsebinary = GetCSParseBinary(buf.getBytes());

    auto csBuildId = csparsebinary->version();
    if (csBuildId)
    {
        int readerVersion = 0, writterVersion = 0;
        // parse writter version
        int revisionIndex = 0;
        fast_split(csBuildId->c_str(), '.', [&](const char* start, const char* end) {
            auto endv  = const_cast<char*>(end);
            char charS = *endv;
            switch (++revisionIndex)
            {
            case 3:
                *endv          = '\0';
                writterVersion = atoi(start);
                *endv          = charS;
                break;
            }
        });

        // parse reader version
        revisionIndex = 0;
        fast_split(&_csBuildID.front(), '.', [&](char* start, char* end) {
            auto endv  = const_cast<char*>(end);
            char charS = *endv;
            switch (++revisionIndex)
            {
            case 3:
                *endv         = '\0';
                readerVersion = atoi(start);
                *endv         = charS;
                break;
            }
        });

        AXASSERT(readerVersion >= writterVersion,
                 StringUtils::format(
                     "%s%s%s%s%s%s%s%s%s%s", "The reader build id of your Cocos exported file(", csBuildId->c_str(),
                     ") and the reader build id in your axis(", _csBuildID.c_str(), ") are not match.\n",
                     "Please get the correct reader(build id ", csBuildId->c_str(), ")from ",
                     "https://github.com/axmolengine/axmol", " and replace it in your axis")
                     .c_str());

        if (readerVersion < writterVersion)
        {
            auto exceptionMsg =
                StringUtils::format("error: The csloader version not match, require version is:%s, but %s provided!",
                                    csBuildId->c_str(), _csBuildID.c_str());
            throw std::logic_error(exceptionMsg.c_str());
            return nullptr;
        }
    }

    // decode plist
    auto textures   = csparsebinary->textures();
    int textureSize = textures->size();
    for (int i = 0; i < textureSize; ++i)
    {
        std::string plist = textures->Get(i)->c_str();
        SpriteFrameCache::getInstance()->addSpriteFramesWithFile(plist);
    }

    Node* node = nodeWithFlatBuffers(csparsebinary->nodeTree(), callback);

    return node;
}

Node* CSLoader::nodeWithFlatBuffers(const flatbuffers::NodeTree* nodetree)
{
    return nodeWithFlatBuffers(nodetree, nullptr);
}

Node* CSLoader::nodeWithFlatBuffers(const flatbuffers::NodeTree* nodetree, const ccNodeLoadCallback& callback)
{
    if (nodetree == nullptr)
        return nullptr;

    {
        Node* node = nullptr;

        std::string classname = nodetree->classname()->c_str();

        auto options = nodetree->options();

        if (classname == "ProjectNode")
        {
            auto reader             = ProjectNodeReader::getInstance();
            auto projectNodeOptions = (ProjectNodeOptions*)options->data();
            std::string filePath    = projectNodeOptions->fileName()->c_str();

            cocostudio::timeline::ActionTimeline* action = nullptr;
            if (!filePath.empty() && FileUtils::getInstance()->isFileExist(filePath))
            {
                Data buf = FileUtils::getInstance()->getDataFromFile(filePath);
                node     = createNode(buf, callback);
                action   = createTimeline(buf, filePath);
            }
            else
            {
                node = Node::create();
            }
            reader->setPropsWithFlatBuffers(node, (const flatbuffers::Table*)options->data());
            if (action)
            {
                action->setTimeSpeed(projectNodeOptions->innerActionSpeed());
                node->runAction(action);
                action->gotoFrameAndPause(0);
            }
        }
        else if (classname == "SimpleAudio")
        {
            node                 = Node::create();
            auto reader          = ComAudioReader::getInstance();
            Component* component = reader->createComAudioWithFlatBuffers((const flatbuffers::Table*)options->data());
            if (component)
            {
                component->setName(PlayableFrame::PLAYABLE_EXTENTION);
                node->addComponent(component);
                reader->setPropsWithFlatBuffers(node, (const flatbuffers::Table*)options->data());
            }
        }
        else
        {
            std::string customClassName = nodetree->customClassName()->c_str();
            if (customClassName != "")
            {
                classname = customClassName;
            }
            std::string readername{getGUIClassName(classname)};
            readername.append("Reader");

            NodeReaderProtocol* reader =
                dynamic_cast<NodeReaderProtocol*>(ObjectFactory::getInstance()->createObject(readername));
            if (reader == nullptr)
                reader = dynamic_cast<NodeReaderProtocol*>(
                    ObjectFactory::getInstance()->createObject("CustomRootNodeReader"));
            if (reader != nullptr)
            {
                if (!customClassName.empty())
                    reader->setCurrentCustomClassName(customClassName.c_str());

                node = reader->createNodeWithFlatBuffers((const flatbuffers::Table*)options->data());
            }
            else
            {
                auto exceptionMsg = StringUtils::format(
                    R"(error: Missing custom reader class name:%s, please config at your project fiile xxx.xsxproj like follow:
    <Project>
      <publish-opts> 
         <custom-readers>
           <item>%s</item>
         </custom-readers>
      </publish-opts>
    </Project>
)",
                    readername.c_str(), readername.c_str());
                throw std::logic_error(exceptionMsg.c_str());
            }

            Widget* widget = dynamic_cast<Widget*>(node);
            if (widget)
            {
                auto callbackName = widget->getCallbackName();
                auto callbackType = widget->getCallbackType();

                bindCallback(callbackName, callbackType, widget, _rootNode);
            }

            /* To reconstruct nest node as WidgetCallBackHandlerProtocol. */
            auto callbackHandler = dynamic_cast<WidgetCallBackHandlerProtocol*>(node);
            if (callbackHandler)
            {
                _callbackHandlers.pushBack(node);
                _rootNode = _callbackHandlers.back();
            }
            /**/
            //        _loadingNodeParentHierarchy.emplace_back(node);
        }

        // If node is invalid, there is no necessity to process children of node.
        if (!node)
        {
            return nullptr;
        }

        auto children = nodetree->children();
        int size      = children->size();
        for (int i = 0; i < size; ++i)
        {
            auto subNodeTree = children->Get(i);
            Node* child      = nodeWithFlatBuffers(subNodeTree, callback);
            if (child)
            {
                if (auto pageView = dynamic_cast<PageView*>(node))
                {
                    Layout* layout = dynamic_cast<Layout*>(child);
                    if (layout)
                    {
                        pageView->addPage(layout);
                    }
                }
                else if (auto listView = dynamic_cast<ListView*>(node))
                {
                    Widget* widget = dynamic_cast<Widget*>(child);
                    if (widget)
                    {
                        listView->pushBackCustomItem(widget);
                    }
                }
                else if (auto radioButtonGroup = dynamic_cast<RadioButtonGroup*>(node))
                {
                    radioButtonGroup->addRadioButton(dynamic_cast<RadioButton*>(child));
                    radioButtonGroup->addChild(child);
                }
                else
                {
                    node->addChild(child);
                }

                if (callback)
                {
                    callback(child);
                }
            }
        }

        //    _loadingNodeParentHierarchy.pop_back();

        return node;
    }
}

bool CSLoader::bindCallback(std::string_view callbackName,
                            std::string_view callbackType,
                            ax::ui::Widget* sender,
                            ax::Node* handler)
{
    if (callbackName.empty())
        return false;

    auto callbackHandler = dynamic_cast<WidgetCallBackHandlerProtocol*>(handler);
    if (callbackHandler)  // The handler can handle callback
    {
        if (callbackType == "Click")
        {
            Widget::ccWidgetClickCallback callbackFunc = callbackHandler->onLocateClickCallback(callbackName);
            if (callbackFunc)
            {
                sender->addClickEventListener(callbackFunc);
                return true;
            }
        }
        else if (callbackType == "Touch")
        {
            Widget::ccWidgetTouchCallback callbackFunc = callbackHandler->onLocateTouchCallback(callbackName);
            if (callbackFunc)
            {
                sender->addTouchEventListener(callbackFunc);
                return true;
            }
        }
        else if (callbackType == "Event")
        {
            Widget::ccWidgetEventCallback callbackFunc = callbackHandler->onLocateEventCallback(callbackName);
            if (callbackFunc)
            {
                sender->addCCSEventListener(callbackFunc);
                return true;
            }
        }
    }

    AXLOG("callBackName %s cannot be found", callbackName.data());

    return false;
}

bool CSLoader::isWidget(std::string_view type)
{
    return (type == ClassName_Panel || type == ClassName_Button || type == ClassName_CheckBox ||
            type == ClassName_ImageView || type == ClassName_TextAtlas || type == ClassName_LabelAtlas ||
            type == ClassName_LabelBMFont || type == ClassName_TextBMFont || type == ClassName_Text ||
            type == ClassName_LoadingBar || type == ClassName_TextField || type == ClassName_Slider ||
            type == ClassName_Layout || type == ClassName_ScrollView || type == ClassName_ListView ||
            type == ClassName_PageView || type == ClassName_Widget || type == ClassName_Label);
}

bool CSLoader::isCustomWidget(std::string_view type)
{
    Widget* widget = dynamic_cast<Widget*>(ObjectFactory::getInstance()->createObject(type));
    if (widget)
    {
        AX_SAFE_DELETE(widget);
        return true;
    }

    return false;
}

std::string_view CSLoader::getGUIClassName(std::string_view name)
{
    std::string_view convertedClassName;
    if (name == "Panel")
    {
        convertedClassName = "Layout"sv;
    }
    else if (name == "TextArea")
    {
        convertedClassName = "Text"sv;
    }
    else if (name == "TextButton")
    {
        convertedClassName = "Button"sv;
    }
    else if (name == "Label")
    {
        convertedClassName = "Text"sv;
    }
    else if (name == "LabelAtlas")
    {
        convertedClassName = "TextAtlas"sv;
    }
    else if (name == "LabelBMFont")
    {
        convertedClassName = "TextBMFont"sv;
    }
    else
        convertedClassName = name;

    return convertedClassName;
}

std::string_view CSLoader::getWidgetReaderClassName(Widget* widget)
{
    std::string_view readerName;

    // 1st., custom widget parse properties of parent widget with parent widget reader
    if (dynamic_cast<Button*>(widget))
    {
        readerName = "ButtonReader";
    }
    else if (dynamic_cast<CheckBox*>(widget))
    {
        readerName = "CheckBoxReader";
    }
    else if (dynamic_cast<ImageView*>(widget))
    {
        readerName = "ImageViewReader";
    }
    else if (dynamic_cast<TextAtlas*>(widget))
    {
        readerName = "TextAtlasReader";
    }
    else if (dynamic_cast<TextBMFont*>(widget))
    {
        readerName = "TextBMFontReader";
    }
    else if (dynamic_cast<Text*>(widget))
    {
        readerName = "TextReader";
    }
    else if (dynamic_cast<LoadingBar*>(widget))
    {
        readerName = "LoadingBarReader";
    }
    else if (dynamic_cast<Slider*>(widget))
    {
        readerName = "SliderReader";
    }
    else if (dynamic_cast<TextField*>(widget))
    {
        readerName = "TextFieldReader";
    }
    else if (dynamic_cast<ListView*>(widget))
    {
        readerName = "ListViewReader";
    }
    else if (dynamic_cast<PageView*>(widget))
    {
        readerName = "PageViewReader";
    }
    else if (dynamic_cast<ScrollView*>(widget))
    {
        readerName = "ScrollViewReader";
    }

    else if (dynamic_cast<Layout*>(widget))
    {
        readerName = "LayoutReader";
    }
    else if (dynamic_cast<Widget*>(widget))
    {
        readerName = "WidgetReader";
    }
    else
        readerName = hlookup::empty_sv;

    return readerName;
}

void CSLoader::registReaderObject(std::string_view className, ObjectFactory::Instance ins)
{
    ObjectFactory::TInfo t;
    t._class = className;
    t._fun   = ins;

    ObjectFactory::getInstance()->registerType(t);
}

Node* CSLoader::createNodeWithFlatBuffersForSimulator(std::string_view filename)
{
    FlatBuffersSerialize* fbs  = FlatBuffersSerialize::getInstance();
    fbs->_isSimulator          = true;
    FlatBufferBuilder* builder = fbs->createFlatBuffersWithXMLFileForSimulator(filename);

    auto csparsebinary = GetCSParseBinary(builder->GetBufferPointer());

    // decode plist
    auto textures   = csparsebinary->textures();
    int textureSize = csparsebinary->textures()->size();
    //    AXLOG("textureSize = %d", textureSize);
    for (int i = 0; i < textureSize; ++i)
    {
        SpriteFrameCache::getInstance()->addSpriteFramesWithFile(textures->Get(i)->c_str());
    }

    auto nodeTree = csparsebinary->nodeTree();

    Node* node = nodeWithFlatBuffersForSimulator(nodeTree);

    _rootNode = nullptr;

    fbs->deleteFlatBufferBuilder();

    return node;
}

Node* CSLoader::nodeWithFlatBuffersForSimulator(const flatbuffers::NodeTree* nodetree)
{
    Node* node = nullptr;

    std::string classname = nodetree->classname()->c_str();

    auto options = nodetree->options();

    if (classname == "ProjectNode")
    {
        auto reader             = ProjectNodeReader::getInstance();
        auto projectNodeOptions = (ProjectNodeOptions*)options->data();
        std::string filePath    = projectNodeOptions->fileName()->c_str();

        cocostudio::timeline::ActionTimeline* action = nullptr;
        if (filePath != "" && FileUtils::getInstance()->isFileExist(filePath))
        {
            node   = createNodeWithFlatBuffersForSimulator(filePath);
            action = cocostudio::timeline::ActionTimelineCache::getInstance()->createActionWithFlatBuffersForSimulator(
                filePath);
        }
        else
        {
            node = Node::create();
        }
        reader->setPropsWithFlatBuffers(node, (const flatbuffers::Table*)options->data());
        if (action)
        {
            action->setTimeSpeed(projectNodeOptions->innerActionSpeed());
            node->runAction(action);
            action->gotoFrameAndPause(0);
        }
    }
    else if (classname == "SimpleAudio")
    {
        node                 = Node::create();
        auto reader          = ComAudioReader::getInstance();
        Component* component = reader->createComAudioWithFlatBuffers((const flatbuffers::Table*)options->data());
        if (component)
        {
            node->addComponent(component);
            reader->setPropsWithFlatBuffers(node, (const flatbuffers::Table*)options->data());
        }
    }
    else
    {
        std::string readername{getGUIClassName(classname)};
        readername.append("Reader");

        NodeReaderProtocol* reader =
            dynamic_cast<NodeReaderProtocol*>(ObjectFactory::getInstance()->createObject(readername));
        if (reader)
        {
            node = reader->createNodeWithFlatBuffers((const flatbuffers::Table*)options->data());
        }

        Widget* widget = dynamic_cast<Widget*>(node);
        if (widget)
        {
            auto callbackName = widget->getCallbackName();
            auto callbackType = widget->getCallbackType();

            bindCallback(callbackName, callbackType, widget, _rootNode);
        }

        if (_rootNode == nullptr)
        {
            _rootNode = node;
        }
        //        _loadingNodeParentHierarchy.emplace_back(node);
    }

    // If node is invalid, there is no necessity to process children of node.
    if (!node)
    {
        return nullptr;
    }

    auto children = nodetree->children();
    int size      = children->size();
    for (int i = 0; i < size; ++i)
    {
        auto subNodeTree = children->Get(i);
        Node* child      = nodeWithFlatBuffersForSimulator(subNodeTree);
        if (child)
        {
            PageView* pageView = dynamic_cast<PageView*>(node);
            ListView* listView = dynamic_cast<ListView*>(node);
            if (pageView)
            {
                Layout* layout = dynamic_cast<Layout*>(child);
                if (layout)
                {
                    pageView->addPage(layout);
                }
            }
            else if (listView)
            {
                Widget* widget = dynamic_cast<Widget*>(child);
                if (widget)
                {
                    listView->pushBackCustomItem(widget);
                }
            }
            else
            {
                node->addChild(child);
            }
        }
    }

    //    _loadingNodeParentHierarchy.pop_back();

    return node;
}

NS_AX_END