186 lines
5.6 KiB
C++
186 lines
5.6 KiB
C++
#include "BaseImporter.h"
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#include <vector>
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#include "OgreXmlHelper.hpp"
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#include "irrXMLWrapper.h"
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/// Ogre Importer TODO
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/* - Read Vertex Colors
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- Read multiple TexCoords
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*/
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namespace Assimp
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{
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namespace Ogre
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{
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//Forward declarations:
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struct Face;
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struct Weight;
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struct Bone;
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struct Animation;
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struct Track;
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struct Keyframe;
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///A submesh from Ogre
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struct SubMesh
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{
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bool SharedData;
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std::string Name;
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std::string MaterialName;
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std::vector<Face> FaceList;
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std::vector<aiVector3D> Positions; bool HasPositions;
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std::vector<aiVector3D> Normals; bool HasNormals;
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std::vector<aiVector3D> Tangents; bool HasTangents;
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std::vector<std::vector<aiVector3D> > Uvs;//arbitrary number of texcoords, they are nearly always 2d, but assimp has always 3d texcoords, n vectors(outer) with texcoords for each vertex(inner)
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std::vector< std::vector<Weight> > Weights;//a list(inner) of bones for each vertex(outer)
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int MaterialIndex;///< The Index in the Assimp Materialarray from the material witch is attached to this submesh
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unsigned int BonesUsed;//the highest index of a bone from a bone weight, this is needed to create the assimp bone structur (converting from Vertex-Bones to Bone-Vertices)
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SubMesh(): SharedData(false), HasPositions(false), HasNormals(false), HasTangents(false),
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MaterialIndex(-1), BonesUsed(0) {}//initialize everything
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};
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///The Main Ogre Importer Class
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class OgreImporter : public BaseImporter
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{
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public:
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virtual bool CanRead( const std::string& pFile, IOSystem* pIOHandler, bool checkSig) const;
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virtual void InternReadFile( const std::string& pFile, aiScene* pScene, IOSystem* pIOHandler);
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virtual const aiImporterDesc* GetInfo () const;
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virtual void SetupProperties(const Importer* pImp);
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private:
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//-------------------------------- OgreMesh.cpp -------------------------------
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/// Helper Functions to read parts of the XML File
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void ReadSubMesh(SubMesh& theSubMesh, XmlReader* Reader);//the submesh reference is the result value
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/// Reads a single Vertexbuffer and writes its data in the Submesh
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static void ReadVertexBuffer(SubMesh &theSubMesh, XmlReader *Reader, unsigned int NumVertices);
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/// Reads bone weights are stores them into the given submesh
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static void ReadBoneWeights(SubMesh &theSubMesh, XmlReader *Reader);
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/// After Loading a SubMehs some work needs to be done (make all Vertexes unique, normalize weights)
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static void ProcessSubMesh(SubMesh &theSubMesh, SubMesh &theSharedGeometry);
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/// Uses the bone data to convert a SubMesh into a aiMesh which will be created and returned
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aiMesh* CreateAssimpSubMesh(const SubMesh &theSubMesh, const std::vector<Bone>& Bones) const;
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//-------------------------------- OgreSkeleton.cpp -------------------------------
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/// Writes the results in Bones and Animations, Filename is not const, because its call-by-value and the function will change it!
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void LoadSkeleton(std::string FileName, std::vector<Bone> &Bones, std::vector<Animation> &Animations) const;
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/// Converts the animations in aiAnimations and puts them into the scene
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void PutAnimationsInScene(const std::vector<Bone> &Bones, const std::vector<Animation> &Animations);
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/// Creates the aiskeleton in current scene
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void CreateAssimpSkeleton(const std::vector<Bone> &Bones, const std::vector<Animation> &Animations);
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/// Recursivly creates a filled aiNode from a given root bone
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static aiNode* CreateAiNodeFromBone(int BoneId, const std::vector<Bone> &Bones, aiNode* ParentNode);
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//-------------------------------- OgreMaterial.cpp -------------------------------
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aiMaterial* LoadMaterial(const std::string MaterialName) const;
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void ReadTechnique(std::stringstream &ss, aiMaterial* NewMaterial) const;
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//Now we don't have to give theses parameters to all functions
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std::string m_CurrentFilename;
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std::string m_MaterialLibFilename;
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bool m_TextureTypeFromFilename;
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IOSystem* m_CurrentIOHandler;
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aiScene *m_CurrentScene;
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SubMesh m_SharedGeometry;///< we will just use the vertexbuffers of the submesh
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};
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///For the moment just triangles, no other polygon types!
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struct Face
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{
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unsigned int VertexIndices[3];
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};
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struct BoneAssignment
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{
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unsigned int BoneId;//this is, what we get from ogre
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std::string BoneName;//this is, what we need for assimp
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};
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///for a vertex->bone structur
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struct Weight
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{
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unsigned int BoneId;
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float Value;
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};
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/// Helper Class to describe an ogre-bone for the skeleton:
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/** All Id's are signed ints, because than we have -1 as a simple INVALID_ID Value (we start from 0 so 0 is a valid bone ID!*/
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struct Bone
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{
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int Id;
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int ParentId;
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std::string Name;
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aiVector3D Position;
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float RotationAngle;
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aiVector3D RotationAxis;
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std::vector<int> Children;
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aiMatrix4x4 BoneToWorldSpace;
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///ctor
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Bone(): Id(-1), ParentId(-1), RotationAngle(0.0f) {}
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///this operator is needed to sort the bones after Id's
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bool operator<(const Bone& rval) const
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{return Id<rval.Id; }
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///this operator is needed to find a bone by its name in a vector<Bone>
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bool operator==(const std::string& rval) const
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{return Name==rval; }
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bool operator==(const aiString& rval) const
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{return Name==std::string(rval.data); }
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// implemented in OgreSkeleton.cpp
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void CalculateBoneToWorldSpaceMatrix(std::vector<Bone>& Bones);
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};
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///Describes an Ogre Animation
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struct Animation
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{
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std::string Name;
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float Length;
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std::vector<Track> Tracks;
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};
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///a track (keyframes for one bone) from an animation
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struct Track
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{
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std::string BoneName;
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std::vector<Keyframe> Keyframes;
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};
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/// keyframe (bone transformation) from a track from a animation
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struct Keyframe
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{
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float Time;
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aiVector3D Position;
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aiQuaternion Rotation;
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aiVector3D Scaling;
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};
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}//namespace Ogre
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}//namespace Assimp
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