/**************************************************************************** Copyright (c) 2014 Chukong Technologies Inc. http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #ifndef __CC_BUNDLE_3D_DATA_H__ #define __CC_BUNDLE_3D_DATA_H__ #include "base/CCRef.h" #include "base/ccTypes.h" #include "math/CCMath.h" #include "3d/CCAABB.h" #include #include NS_CC_BEGIN /**mesh vertex attribute*/ struct MeshVertexAttrib { //attribute size GLint size; //GL_FLOAT GLenum type; //VERTEX_ATTRIB_POSITION,VERTEX_ATTRIB_COLOR,VERTEX_ATTRIB_TEX_COORD,VERTEX_ATTRIB_NORMAL, VERTEX_ATTRIB_BLEND_WEIGHT, VERTEX_ATTRIB_BLEND_INDEX, GLProgram for detail int vertexAttrib; //size in bytes int attribSizeBytes; }; struct ModelData; /** Node data, since 3.3 */ struct NodeData { std::string id; Mat4 transform; std::vector modelNodeDatas; std::vector children; virtual ~NodeData() { resetData(); } virtual void resetData() { id.clear(); transform.setIdentity(); for (auto& it : children) { delete it; } children.clear(); } }; /** model node data, since 3.3 */ struct ModelData { std::string subMeshId; std::string matrialId; std::vector bones; std::vector invBindPose; virtual ~ModelData() { resetData(); } virtual void resetData() { bones.clear(); invBindPose.clear(); } }; /** node datas, since 3.3 */ struct NodeDatas { std::vector skeleton; //skeleton std::vector nodes; // nodes, CCNode, Sprite3D or part of Sprite3D void resetData() { for(auto& it : skeleton) { delete it; } skeleton.clear(); for(auto& it : nodes) { delete it; } nodes.clear(); } }; /**mesh data*/ struct MeshData { typedef std::vector IndexArray; std::vector vertex; int vertexSizeInFloat; std::vector subMeshIndices; std::vector subMeshIds; //subMesh Names (since 3.3) std::vector subMeshAABB; int numIndex; std::vector attribs; int attribCount; public: int getPerVertexSize() const { int vertexsize = 0; for(const auto& attrib : attribs) { vertexsize += attrib.attribSizeBytes; } return vertexsize; } void resetData() { vertex.clear(); subMeshIndices.clear(); subMeshAABB.clear(); attribs.clear(); vertexSizeInFloat = 0; numIndex = 0; attribCount = 0; } MeshData() : vertexSizeInFloat(0) , numIndex(0) , attribCount(0) { } ~MeshData() { resetData(); } }; /** mesh datas */ struct MeshDatas { std::vector meshDatas; void resetData() { for(auto& it : meshDatas) { delete it; } meshDatas.clear(); } ~MeshDatas() { resetData(); } }; /**skin data*/ struct SkinData { std::vector skinBoneNames; //skin bones affect skin std::vector nodeBoneNames; //node bones don't affect skin, all bones [skinBone, nodeBone] std::vector inverseBindPoseMatrices; //bind pose of skin bone, only for skin bone std::vector skinBoneOriginMatrices; // original bone transform, for skin bone std::vector nodeBoneOriginMatrices; // original bone transform, for node bone //bone child info, both skinbone and node bone std::map > boneChild;//key parent, value child int rootBoneIndex; void resetData() { skinBoneNames.clear(); nodeBoneNames.clear(); inverseBindPoseMatrices.clear(); skinBoneOriginMatrices.clear(); nodeBoneOriginMatrices.clear(); boneChild.clear(); rootBoneIndex = -1; } void addSkinBoneNames(const std::string& name) { auto it = std::find(skinBoneNames.begin(), skinBoneNames.end(), name); if (it == skinBoneNames.end()) skinBoneNames.push_back(name); } void addNodeBoneNames(const std::string& name) { auto it = std::find(nodeBoneNames.begin(), nodeBoneNames.end(), name); if (it == nodeBoneNames.end()) nodeBoneNames.push_back(name); } int getSkinBoneNameIndex(const std::string& name)const { int i = 0; for (const auto& iter : skinBoneNames) { if ((iter) == name) return i; i++; } return -1; } int getBoneNameIndex(const std::string& name)const { int i = 0; for (const auto& iter : skinBoneNames) { if ((iter) == name) return i; i++; } for(const auto& iter : nodeBoneNames) { if (iter == name) return i; i++; } return -1; } }; /**material data, */ struct MaterialData { std::map texturePaths; //submesh id, texture path void resetData() { texturePaths.clear(); } }; /**new material, since 3.3 */ struct NTextureData { enum class Usage { Unknown = 0, None = 1, Diffuse = 2, Emissive = 3, Ambient = 4, Specular = 5, Shininess = 6, Normal = 7, Bump = 8, Transparency = 9, Reflection = 10 }; std::string id; std::string filename; Usage type; GLenum wrapS; GLenum wrapT; } ; struct NMaterialData { std::vector textures; std::string id; const NTextureData* getTextureData(const NTextureData::Usage& type) const { for(const auto& it : textures) { if (it.type == type) return ⁢ } return nullptr; } }; /** material datas, since 3.3 */ struct MaterialDatas { std::vector materials; void resetData() { materials.clear(); } const NMaterialData* getMaterialData(const std::string& materialid) const { for(const auto& it : materials) { if (it.id == materialid) return ⁢ } return nullptr; } }; /**animation data*/ struct Animation3DData { public: struct Vec3Key { Vec3Key() : _time(0) , _key(Vec3::ZERO) { } Vec3Key(float time, const Vec3& v) : _time(time) , _key(v) { } float _time; Vec3 _key; }; struct QuatKey { QuatKey() : _time(0) , _key(Quaternion::identity()) { } QuatKey(float time, const Quaternion& quat) : _time(time) , _key(quat) { } float _time; Quaternion _key; }; public: std::map> _translationKeys; std::map> _rotationKeys; std::map> _scaleKeys; float _totalTime; public: Animation3DData() :_totalTime(0) { } Animation3DData(const Animation3DData& other) : _translationKeys(other._translationKeys) , _rotationKeys(other._rotationKeys) , _scaleKeys(other._scaleKeys) , _totalTime(other._totalTime) { } void resetData() { _totalTime = 0; _translationKeys.clear(); _rotationKeys.clear(); _scaleKeys.clear(); } }; /**reference data*/ struct Reference { public: std::string id; unsigned int type; unsigned int offset; Reference(){} ~Reference(){} }; NS_CC_END #endif //__CC_BUNDLE_3D_DATA_H__