axmol/cocos/3d/CCSprite3D.h

/****************************************************************************
 Copyright (c) 2014-2016 Chukong Technologies Inc.
 Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.

 http://www.cocos2d-x.org

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#ifndef __CCSPRITE3D_H__
#define __CCSPRITE3D_H__

#include <unordered_map>

#include "base/CCVector.h"
#include "base/ccTypes.h"
#include "base/CCProtocols.h"
#include "2d/CCNode.h"
#include "renderer/CCMeshCommand.h"
#include "3d/CCSkeleton3D.h" // need to include for lua-binding
#include "3d/CCAABB.h"
#include "3d/CCBundle3DData.h"
#include "3d/CCMeshVertexIndexData.h"


NS_CC_BEGIN

/**
 * @addtogroup _3d
 * @{
 */

class Mesh;
class Texture2D;
class MeshSkin;
class AttachNode;
struct NodeData;
/** @brief Sprite3D: A sprite can be loaded from 3D model files, .obj, .c3t, .c3b, then can be drawn as sprite */
class CC_DLL Sprite3D : public Node, public BlendProtocol
{
public:
    /**
     * Creates an empty sprite3D without 3D model and texture.
     *
     * @return An autoreleased sprite3D object.
     */
    static Sprite3D* create();
    
    /** creates a Sprite3D*/
    static Sprite3D* create(const std::string &modelPath);
  
    // creates a Sprite3D. It only supports one texture, and overrides the internal texture with 'texturePath'
    static Sprite3D* create(const std::string &modelPath, const std::string &texturePath);
    
    /** create 3d sprite asynchronously
     * If the 3d model was previously loaded, it will create a new 3d sprite and the callback will be called at once.
     * Otherwise it will load the model file in a new thread, and when the 3d sprite is loaded, the callback will be called with the created Sprite3D and a user-defined parameter.
     * The callback will be called from the main thread, so it is safe to create any cocos2d object from the callback.
     * @param modelPath model to be loaded
     * @param callback callback after loading
     * @param callbackparam user defined parameter for the callback
     */
    static void createAsync(const std::string &modelPath, const std::function<void(Sprite3D*, void*)>& callback, void* callbackparam);
    
    static void createAsync(const std::string &modelPath, const std::string &texturePath, const std::function<void(Sprite3D*, void*)>& callback, void* callbackparam);
    
    /**set diffuse texture, set the first if multiple textures exist*/
    void setTexture(const std::string& texFile);
    void setTexture(Texture2D* texture);
    
    /**get Mesh by index*/
    Mesh* getMeshByIndex(int index) const;
    
    /**get Mesh by Name, it returns the first one if there are more than one mesh with the same name */
    Mesh* getMeshByName(const std::string& name) const;
    
    /** 
     * get mesh array by name, returns all meshes with the given name
     *
     * @lua NA
     */
    std::vector<Mesh*> getMeshArrayByName(const std::string& name) const;

    /**get mesh*/
    Mesh* getMesh() const;
    
    /** get mesh count */
    ssize_t getMeshCount() const { return _meshes.size(); }
    
    Skeleton3D* getSkeleton() const { return _skeleton; }
    
    /**get AttachNode by bone name, return nullptr if not exist*/
    AttachNode* getAttachNode(const std::string& boneName);
    
    /**remove attach node*/
    void removeAttachNode(const std::string& boneName);
    
    /**remove all attach nodes*/
    void removeAllAttachNode();

    // overrides
    virtual void setBlendFunc(const BlendFunc &blendFunc) override;
    virtual const BlendFunc &getBlendFunc() const override;
    
    // overrides
    /** Sets ProgramState, you should bind attributes by yourself */
    bool setProgramState(backend::ProgramState *programState, bool needsRetain = true) override;

    /*
     * Get AABB
     * If the sprite has animation, it can't be calculated accurately,
     * because bone can drive the vertices, we just use the origin vertices
     * to calculate the AABB.
     */
    const AABB& getAABB() const;
    
    /* 
     * Get AABB Recursively
     * Because some times we may have an empty Sprite3D Node as parent, but
     * the Sprite3D don't contain any meshes, so getAABB()
     * will return a wrong value at that time.
     */
    AABB getAABBRecursively();
    
    /**
     * Executes an action, and returns the action that is executed. For Sprite3D special logic are needed to take care of Fading.
     *
     * This node becomes the action's target. Refer to Action::getTarget()
     * @warning Actions don't retain their target.
     *
     * @return An Action pointer
     */
    virtual Action* runAction(Action* action) override;
    
    /**
     * Force to write to depth buffer, this is useful if you want to achieve effects like fading.
     */
    void setForceDepthWrite(bool value) { _forceDepthWrite = value; }
    bool isForceDepthWrite() const { return _forceDepthWrite;};
    
    /**
     * Returns 2d bounding-box
     * Note: the bounding-box is just get from the AABB which as Z=0, so that is not very accurate.
     */
    virtual Rect getBoundingBox() const override;

    // set which face is going to cull, CullFaceSide::BACK, CullFaceSide::FRONT and CullFaceSide::NONE.
    virtual void setCullFace(CullFaceSide side);
    // set cull face enable or not
    void setCullFaceEnabled(bool enable);
    
    /** light mask getter & setter, light works only when _lightmask & light's flag is true, default value of _lightmask is 0xffff */
    void setLightMask(unsigned int mask) { _lightMask = mask; }
    unsigned int getLightMask() const { return _lightMask; }
    
    /**draw*/
    virtual void draw(Renderer *renderer, const Mat4 &transform, uint32_t flags) override;

    /** Adds a new material to the sprite.
     The Material will be applied to all the meshes that belong to the sprite.
     Internally it will call `setMaterial(material,-1)`
     */
    void setMaterial(Material* material);

    /** Adds a new material to a particular mesh of the sprite.
     meshIndex is the mesh that will be applied to.
     if meshIndex == -1, then it will be applied to all the meshes that belong to the sprite.
     */
    void setMaterial(Material* material, int meshIndex);

    /** Adds a new material to a particular mesh of the sprite.
     meshIndex is the mesh that will be applied to.
     if meshIndex == -1, then it will be applied to all the meshes that belong to the sprite.
     */
    Material* getMaterial(int meshIndex) const;
    
    /**
    * force set this Sprite3D to 2D render queue
    */
    void setForce2DQueue(bool force2D);

    /**
    * Get meshes used in sprite 3d
    */
    const Vector<Mesh*>& getMeshes() const { return _meshes; }

CC_CONSTRUCTOR_ACCESS:
    
    Sprite3D();
    virtual ~Sprite3D();
    
    virtual bool init() override;
    
    bool initWithFile(const std::string &path);
    
    bool initFrom(const NodeDatas& nodedatas, const MeshDatas& meshdatas, const MaterialDatas& materialdatas);
    
    /**load sprite3d from cache, return true if succeed, false otherwise*/
    bool loadFromCache(const std::string& path);
    
    /** load file and set it to meshedatas, nodedatas and materialdatas, obj file .mtl file should be at the same directory if exist */
    bool loadFromFile(const std::string& path, NodeDatas* nodedatas, MeshDatas* meshdatas,  MaterialDatas* materialdatas);

    /**
     * Visits this Sprite3D's children and draw them recursively.
     * Note: all its children will rendered as 3D objects
     */
    virtual void visit(Renderer *renderer, const Mat4& parentTransform, uint32_t parentFlags) override;
    
    /**generate default material*/
    void genMaterial(bool useLight = false);

    void createNode(NodeData* nodedata, Node* root, const MaterialDatas& materialdatas, bool singleSprite);
    void createAttachSprite3DNode(NodeData* nodedata, const MaterialDatas& materialdatas);
    Sprite3D* createSprite3DNode(NodeData* nodedata, ModelData* modeldata, const MaterialDatas& materialdatas);

    /**get MeshIndexData by Id*/
    MeshIndexData* getMeshIndexData(const std::string& indexId) const;
    
    void addMesh(Mesh* mesh);
    
    void onAABBDirty() { _aabbDirty = true; }
    
    void afterAsyncLoad(void* param);

    static AABB getAABBRecursivelyImp(Node *node);
    
protected:

    Skeleton3D*                  _skeleton; //skeleton
    
    Vector<MeshVertexData*>      _meshVertexDatas;
    
    std::unordered_map<std::string, AttachNode*> _attachments;

    BlendFunc                    _blend;
    
    Vector<Mesh*>              _meshes;

    mutable AABB                 _aabb;                 // cache current aabb
    mutable Mat4                 _nodeToWorldTransform; // cache the matrix
    mutable bool                 _aabbDirty;
    unsigned int                 _lightMask;
    bool                         _shaderUsingLight; // is current shader using light ?
    bool                         _forceDepthWrite; // Always write to depth buffer
    bool                         _usingAutogeneratedGLProgram;
    
    struct AsyncLoadParam
    {
        std::function<void(Sprite3D*, void*)> afterLoadCallback; // callback after load
        void*                           callbackParam;
        bool                            result; // sprite load result
        std::string                     modelPath;
        std::string                     texPath; //
        MeshDatas* meshdatas;
        MaterialDatas* materialdatas;
        NodeDatas*   nodeDatas;
    };
    AsyncLoadParam             _asyncLoadParam;
};

///////////////////////////////////////////////////////
/**
 * Sprite3DCache
 * @brief the cache data of Sprite3D, use to speed up Sprite3D::create
 */
class CC_DLL Sprite3DCache
{
public:
    struct Sprite3DData
    {
        Vector<MeshVertexData*>   meshVertexDatas;
        Vector<backend::ProgramState*>   programStates;
        NodeDatas*      nodedatas;
        MaterialDatas*  materialdatas;
        ~Sprite3DData()
        {
            if (nodedatas)
                delete nodedatas;
            if (materialdatas)
                delete materialdatas;
            meshVertexDatas.clear();
            programStates.clear();
        }
    };
    
    /**get & destroy*/
    static Sprite3DCache* getInstance();
    static void destroyInstance();

    /**
     * get the SpriteData struct
     *
     * @lua NA
     */
    Sprite3DData* getSpriteData(const std::string& key) const;
    
    /**
     * add the SpriteData into Sprite3D by given the specified key
     *
     * @lua NA
     */
    bool addSprite3DData(const std::string& key, Sprite3DData* spritedata);
    
    /**remove the SpriteData from Sprite3D by given the specified key*/
    void removeSprite3DData(const std::string& key);
    
    /**remove all the SpriteData from Sprite3D*/
    void removeAllSprite3DData();
    
    CC_CONSTRUCTOR_ACCESS:
    Sprite3DCache();
    ~Sprite3DCache();
    
protected:
    
    
    static Sprite3DCache*                        _cacheInstance;
    std::unordered_map<std::string, Sprite3DData*> _spriteDatas; //cached sprite data
};

// end of 3d group
/// @}

NS_CC_END
#endif // __SPRITE3D_H_