#include "AssimpPCH.h" #ifndef ASSIMP_BUILD_NO_OGRE_IMPORTER #include #include using namespace std; //#include "boost/format.hpp" //#include "boost/foreach.hpp" using namespace boost; #include "OgreImporter.h" #include "irrXMLWrapper.h" namespace Assimp { namespace Ogre { bool OgreImporter::CanRead(const std::string &pFile, Assimp::IOSystem *pIOHandler, bool checkSig) const { if(!checkSig)//Check File Extension { std::string extension("mesh.xml"); int l=extension.length(); return pFile.substr(pFile.length()-l, l)==extension; } else//Check file Header { const char* tokens[] = {""}; return BaseImporter::SearchFileHeaderForToken(pIOHandler, pFile, tokens, 1); } } void OgreImporter::InternReadFile(const std::string &pFile, aiScene *pScene, Assimp::IOSystem *pIOHandler) { m_CurrentFilename=pFile; m_CurrentIOHandler=pIOHandler; m_CurrentScene=pScene; //Open the File: boost::scoped_ptr file(pIOHandler->Open(pFile)); if( file.get() == NULL) throw new ImportErrorException("Failed to open file "+pFile+"."); //Read the Mesh File: boost::scoped_ptr mIOWrapper( new CIrrXML_IOStreamReader( file.get())); XmlReader* MeshFile = irr::io::createIrrXMLReader(mIOWrapper.get()); if(!MeshFile)//parse the xml file throw new ImportErrorException("Failed to create XML Reader for "+pFile); DefaultLogger::get()->debug("Mesh File opened"); //Read root Node: if(!(XmlRead(MeshFile) && string(MeshFile->getNodeName())=="mesh")) { throw new ImportErrorException("Root Node is not ! "+pFile+" "+MeshFile->getNodeName()); } //Go to the submeshs: if(!(XmlRead(MeshFile) && string(MeshFile->getNodeName())=="submeshes")) { throw new ImportErrorException("No node in node! "+pFile); } //-------------------Read the submesh:----------------------- SubMesh theSubMesh; XmlRead(MeshFile); if(MeshFile->getNodeName()==string("submesh")) { theSubMesh.MaterialName=GetAttribute(MeshFile, "material"); DefaultLogger::get()->debug("Loading Submehs with Material: "+theSubMesh.MaterialName); ReadSubMesh(theSubMesh, MeshFile); //Load the Material: aiMaterial* MeshMat=LoadMaterial(theSubMesh.MaterialName); //Set the Material: if(m_CurrentScene->mMaterials) throw new ImportErrorException("only 1 material supported at this time!"); m_CurrentScene->mMaterials=new aiMaterial*[1]; m_CurrentScene->mNumMaterials=1; m_CurrentScene->mMaterials[0]=MeshMat; theSubMesh.MaterialIndex=0; } //check for second root node: if(MeshFile->getNodeName()==string("submesh")) throw new ImportErrorException("more than one submesh in the file, abording!"); //____________________________________________________________ //-----------------Create the root node----------------------- pScene->mRootNode=new aiNode("root"); //link the mesh with the root node: pScene->mRootNode->mMeshes=new unsigned int[1]; pScene->mRootNode->mMeshes[0]=0; pScene->mRootNode->mNumMeshes=1; //____________________________________________________________ //----------------Load the skeleton: ------------------------------- vector Bones; vector Animations; if(MeshFile->getNodeName()==string("skeletonlink")) { string SkeletonFile=GetAttribute(MeshFile, "name"); LoadSkeleton(SkeletonFile, Bones, Animations); } else { DefaultLogger::get()->warn("No skeleton file will be loaded"); DefaultLogger::get()->warn(MeshFile->getNodeName()); } //__________________________________________________________________ CreateAssimpSubMesh(theSubMesh, Bones); CreateAssimpSkeleton(Bones, Animations); } void OgreImporter::GetExtensionList(std::string &append) { append+="*.mesh.xml"; } void OgreImporter::SetupProperties(const Importer* pImp) { m_MaterialLibFilename=pImp->GetPropertyString(AI_CONFIG_IMPORT_OGRE_MATERIAL_FILE, "Scene.material"); } void OgreImporter::ReadSubMesh(SubMesh &theSubMesh, XmlReader *Reader) { XmlRead(Reader); //TODO: maybe we have alsways just 1 faces and 1 geometry and always in this order. this loop will only work correct, wenn the order //of faces and geometry changed, and not if we habe more than one of one while(Reader->getNodeName()==string("faces") || string(Reader->getNodeName())=="geometry" || Reader->getNodeName()==string("boneassignments")) { if(string(Reader->getNodeName())=="faces")//Read the face list { //some info logging: unsigned int NumFaces=GetAttribute(Reader, "count"); stringstream ss; ss <<"Submesh has " << NumFaces << " Faces."; DefaultLogger::get()->debug(ss.str()); while(XmlRead(Reader) && Reader->getNodeName()==string("face")) { Face NewFace; NewFace.VertexIndices[0]=GetAttribute(Reader, "v1"); NewFace.VertexIndices[1]=GetAttribute(Reader, "v2"); NewFace.VertexIndices[2]=GetAttribute(Reader, "v3"); if(Reader->getAttributeValue("v4"))//this should be supported in the future { throw new ImportErrorException("Submesh has quads, only traingles are supported!"); } theSubMesh.FaceList.push_back(NewFace); } }//end of faces else if(string(Reader->getNodeName())=="geometry")//Read the vertexdata { //some info logging: unsigned int NumVertices=GetAttribute(Reader, "vertexcount"); stringstream ss; ss<<"VertexCount: "<debug(ss.str()); //General Informations about vertices XmlRead(Reader); if(!(Reader->getNodeName()==string("vertexbuffer"))) { throw new ImportErrorException("vertexbuffer node is not first in geometry node!"); } theSubMesh.HasPositions=GetAttribute(Reader, "positions"); theSubMesh.HasNormals=GetAttribute(Reader, "normals"); if(!Reader->getAttributeValue("texture_coords"))//we can have 1 or 0 uv channels, and if the mesh has no uvs, it also doesn't have the attribute theSubMesh.NumUvs=0; else theSubMesh.NumUvs=GetAttribute(Reader, "texture_coords"); if(theSubMesh.NumUvs>1) throw new ImportErrorException("too many texcoords (just 1 supported!)"); //read all the vertices: XmlRead(Reader); while(Reader->getNodeName()==string("vertex")) { //read all vertex attributes: //Position if(theSubMesh.HasPositions) { XmlRead(Reader); aiVector3D NewPos; NewPos.x=GetAttribute(Reader, "x"); NewPos.y=GetAttribute(Reader, "y"); NewPos.z=GetAttribute(Reader, "z"); theSubMesh.Positions.push_back(NewPos); } //Normal if(theSubMesh.HasNormals) { XmlRead(Reader); aiVector3D NewNormal; NewNormal.x=GetAttribute(Reader, "x"); NewNormal.y=GetAttribute(Reader, "y"); NewNormal.z=GetAttribute(Reader, "z"); theSubMesh.Normals.push_back(NewNormal); } //Uv: if(1==theSubMesh.NumUvs) { XmlRead(Reader); aiVector3D NewUv; NewUv.x=GetAttribute(Reader, "u"); NewUv.y=GetAttribute(Reader, "v")*(-1)+1;//flip the uv vertikal, blender exports them so! theSubMesh.Uvs.push_back(NewUv); } XmlRead(Reader); } }//end of "geometry else if(string(Reader->getNodeName())=="boneassignments") { theSubMesh.Weights.resize(theSubMesh.Positions.size()); while(XmlRead(Reader) && Reader->getNodeName()==string("vertexboneassignment")) { Weight NewWeight; unsigned int VertexId=GetAttribute(Reader, "vertexindex"); NewWeight.BoneId=GetAttribute(Reader, "boneindex"); NewWeight.Value=GetAttribute(Reader, "weight"); theSubMesh.BonesUsed=max(theSubMesh.BonesUsed, NewWeight.BoneId+1);//calculate the number of bones used (this is the highest id +1 becuase bone ids start at 0) theSubMesh.Weights[VertexId].push_back(NewWeight); //XmlRead(Reader);//Once i had this line, and than i got only every second boneassignment, but my first test models had even boneassignment counts, so i thougt, everything would work. And yes, i HATE irrXML!!! } }//end of boneassignments } DefaultLogger::get()->debug(str(format("Positionen: %1% Normale: %2% TexCoords: %3%") % theSubMesh.Positions.size() % theSubMesh.Normals.size() % theSubMesh.Uvs.size())); DefaultLogger::get()->warn(Reader->getNodeName()); //---------------Make all Vertexes unique: (this is required by assimp)----------------------- vector UniqueFaceList(theSubMesh.FaceList.size()); unsigned int UniqueVertexCount=theSubMesh.FaceList.size()*3;//*3 because each face consists of 3 vertexes, because we only support triangles^^ vector UniquePositions(UniqueVertexCount); vector UniqueNormals(UniqueVertexCount); vector UniqueUvs(UniqueVertexCount); vector< vector > UniqueWeights(UniqueVertexCount); for(unsigned int i=0; i& Bones) { //Mesh is fully loaded, copy it into the aiScene: if(m_CurrentScene->mNumMeshes!=0) throw new ImportErrorException("Currently only one mesh per File is allowed!!"); aiMesh* NewAiMesh=new aiMesh(); //Attach the mesh to the scene: m_CurrentScene->mNumMeshes=1; m_CurrentScene->mMeshes=new aiMesh*; m_CurrentScene->mMeshes[0]=NewAiMesh; //Positions NewAiMesh->mVertices=new aiVector3D[theSubMesh.Positions.size()]; memcpy(NewAiMesh->mVertices, &theSubMesh.Positions[0], theSubMesh.Positions.size()*sizeof(aiVector3D)); NewAiMesh->mNumVertices=theSubMesh.Positions.size(); //Normals NewAiMesh->mNormals=new aiVector3D[theSubMesh.Normals.size()]; memcpy(NewAiMesh->mNormals, &theSubMesh.Normals[0], theSubMesh.Normals.size()*sizeof(aiVector3D)); //Uvs if(0!=theSubMesh.NumUvs) { NewAiMesh->mNumUVComponents[0]=2; NewAiMesh->mTextureCoords[0]= new aiVector3D[theSubMesh.Uvs.size()]; memcpy(NewAiMesh->mTextureCoords[0], &theSubMesh.Uvs[0], theSubMesh.Uvs.size()*sizeof(aiVector3D)); } //---------------------------------------- Bones -------------------------------------------- //Copy the weights in in Bone-Vertices Struktur //(we have them in a Vertex-Bones Struktur, this is much easier for making them unique, which is required by assimp vector< vector > aiWeights(theSubMesh.BonesUsed);//now the outer list are the bones, and the inner vector the vertices for(unsigned int VertexId=0; VertexId aiBones; aiBones.reserve(theSubMesh.BonesUsed);//the vector might be smaller, because there might be empty bones (bones that are not attached to any vertex) //create all the bones and fill them with informations for(unsigned int i=0; i0) { aiBone* NewBone=new aiBone(); NewBone->mNumWeights=aiWeights[i].size(); NewBone->mWeights=new aiVertexWeight[aiWeights[i].size()]; memcpy(NewBone->mWeights, &(aiWeights[i][0]), sizeof(aiVertexWeight)*aiWeights[i].size()); NewBone->mName=Bones[i].Name;//The bone list should be sorted after its ids, this was done in LoadSkeleton NewBone->mOffsetMatrix=aiMatrix4x4(Bones[i].WorldToBoneSpace).Inverse();//we suggest, that the mesh space is the world space! aiBones.push_back(NewBone); } } NewAiMesh->mNumBones=aiBones.size(); NewAiMesh->mBones=new aiBone* [aiBones.size()]; memcpy(NewAiMesh->mBones, &(aiBones[0]), aiBones.size()*sizeof(aiBone*)); //______________________________________________________________________________________________________ //Faces NewAiMesh->mFaces=new aiFace[theSubMesh.FaceList.size()]; for(unsigned int i=0; imFaces[i].mNumIndices=3; NewAiMesh->mFaces[i].mIndices=new unsigned int[3]; NewAiMesh->mFaces[i].mIndices[0]=theSubMesh.FaceList[i].VertexIndices[0]; NewAiMesh->mFaces[i].mIndices[1]=theSubMesh.FaceList[i].VertexIndices[1]; NewAiMesh->mFaces[i].mIndices[2]=theSubMesh.FaceList[i].VertexIndices[2]; } NewAiMesh->mNumFaces=theSubMesh.FaceList.size(); //Link the material: NewAiMesh->mMaterialIndex=theSubMesh.MaterialIndex;//the index is set by the function who called ReadSubMesh } aiMaterial* OgreImporter::LoadMaterial(const std::string MaterialName) { MaterialHelper *NewMaterial=new MaterialHelper(); aiString ts(MaterialName.c_str()); NewMaterial->AddProperty(&ts, AI_MATKEY_NAME); /*For bettetr understanding of the material parser, here is a material example file: material Sarg { receive_shadows on technique { pass { ambient 0.500000 0.500000 0.500000 1.000000 diffuse 0.640000 0.640000 0.640000 1.000000 specular 0.500000 0.500000 0.500000 1.000000 12.500000 emissive 0.000000 0.000000 0.000000 1.000000 texture_unit { texture SargTextur.tga tex_address_mode wrap filtering linear linear none } } } } */ string MaterialFileName=m_CurrentFilename.substr(0, m_CurrentFilename.find('.'))+".material"; DefaultLogger::get()->info(str(format("Trying to load %1%") % MaterialFileName)); //Read the file into memory and put it in a stringstream stringstream ss; {// after this block, the temporarly loaded data will be released IOStream* MatFilePtr=m_CurrentIOHandler->Open(MaterialFileName); if(NULL==MatFilePtr) { MatFilePtr=m_CurrentIOHandler->Open(m_MaterialLibFilename); if(NULL==MatFilePtr) { DefaultLogger::get()->error(m_MaterialLibFilename+" and "+MaterialFileName + " could not be opned, Material will not be loaded!"); return NewMaterial; } } scoped_ptr MaterialFile(MatFilePtr); vector FileData(MaterialFile->FileSize()); MaterialFile->Read(&FileData[0], MaterialFile->FileSize(), 1); BaseImporter::ConvertToUTF8(FileData); ss << &FileData[0]; } string Line; ss >> Line; // unsigned int Level=0;//Hierarchielevels in the material file, like { } blocks into another while(!ss.eof()) { if(Line=="material") { ss >> Line; if(Line==MaterialName)//Load the next material { ss >> Line; if(Line!="{") throw new ImportErrorException("empty material!"); while(Line!="}")//read until the end of the material { //Proceed to the first technique ss >> Line; if(Line=="technique") { ss >> Line; if(Line!="{") throw new ImportErrorException("empty technique!"); while(Line!="}")//read until the end of the technique { ss >> Line; if(Line=="pass") { ss >> Line; if(Line!="{") throw new ImportErrorException("empty pass!"); while(Line!="}")//read until the end of the pass { ss >> Line; if(Line=="ambient") { //read the ambient light values: } else if(Line=="diffuse") { } else if(Line=="specular") { } else if(Line=="emmisive") { } else if(Line=="texture_unit") { ss >> Line; if(Line!="{") throw new ImportErrorException("empty texture unit!"); while(Line!="}")//read until the end of the texture_unit { ss >> Line; if(Line=="texture") { ss >> Line; aiString ts(Line.c_str()); NewMaterial->AddProperty(&ts, AI_MATKEY_TEXTURE(aiTextureType_DIFFUSE, 0)); } }//end of texture unit } } } }//end of technique } DefaultLogger::get()->info(Line); //read informations from a custom material: if(Line=="set") { ss >> Line; if(Line=="$specular")//todo load this values: { } if(Line=="$diffuse") { } if(Line=="$ambient") { } if(Line=="$colormap") { ss >> Line; aiString ts(Line.c_str()); NewMaterial->AddProperty(&ts, AI_MATKEY_TEXTURE(aiTextureType_DIFFUSE, 0)); } if(Line=="$normalmap") { ss >> Line; aiString ts(Line.c_str()); NewMaterial->AddProperty(&ts, AI_MATKEY_TEXTURE(aiTextureType_NORMALS, 0)); } } }//end of material } else {} //this is the wrong material, proceed the file until we reach the next material } ss >> Line; } return NewMaterial; } void OgreImporter::LoadSkeleton(std::string FileName, vector &Bones, vector &Animations) { //most likely the skeleton file will only end with .skeleton //But this is a xml reader, so we need: .skeleton.xml FileName+=".xml"; DefaultLogger::get()->debug(string("Loading Skeleton: ")+FileName); //Open the File: boost::scoped_ptr File(m_CurrentIOHandler->Open(FileName)); if(NULL==File.get()) throw new ImportErrorException("Failed to open skeleton file "+FileName+"."); //Read the Mesh File: boost::scoped_ptr mIOWrapper(new CIrrXML_IOStreamReader(File.get())); XmlReader* SkeletonFile = irr::io::createIrrXMLReader(mIOWrapper.get()); if(!SkeletonFile) throw new ImportErrorException(string("Failed to create XML Reader for ")+FileName); //Quick note: Whoever read this should know this one thing: irrXml fucking sucks!!! XmlRead(SkeletonFile); if(string("skeleton")!=SkeletonFile->getNodeName()) throw new ImportErrorException("No node in SkeletonFile: "+FileName); //------------------------------------load bones----------------------------------------- XmlRead(SkeletonFile); if(string("bones")!=SkeletonFile->getNodeName()) throw new ImportErrorException("No bones node in skeleton "+FileName); XmlRead(SkeletonFile); while(string("bone")==SkeletonFile->getNodeName()) { //TODO: Maybe we can have bone ids for the errrors, but normaly, they should never appera, so what.... //read a new bone: Bone NewBone; NewBone.Id=GetAttribute(SkeletonFile, "id"); NewBone.Name=GetAttribute(SkeletonFile, "name"); //load the position: XmlRead(SkeletonFile); if(string("position")!=SkeletonFile->getNodeName()) throw new ImportErrorException("Position is not first node in Bone!"); NewBone.Position.x=GetAttribute(SkeletonFile, "x"); NewBone.Position.y=GetAttribute(SkeletonFile, "y"); NewBone.Position.z=GetAttribute(SkeletonFile, "z"); //Rotation: XmlRead(SkeletonFile); if(string("rotation")!=SkeletonFile->getNodeName()) throw new ImportErrorException("Rotation is not the second node in Bone!"); NewBone.RotationAngle=GetAttribute(SkeletonFile, "angle"); XmlRead(SkeletonFile); if(string("axis")!=SkeletonFile->getNodeName()) throw new ImportErrorException("No axis specified for bone rotation!"); NewBone.RotationAxis.x=GetAttribute(SkeletonFile, "x"); NewBone.RotationAxis.y=GetAttribute(SkeletonFile, "y"); NewBone.RotationAxis.z=GetAttribute(SkeletonFile, "z"); //append the newly loaded bone to the bone list Bones.push_back(NewBone); //Proceed to the next bone: XmlRead(SkeletonFile); } //The bones in the file a not neccesarly ordered by there id's so we do it now: std::sort(Bones.begin(), Bones.end()); //now the id of each bone should be equal to its position in the vector: //so we do a simple check: { bool IdsOk=true; for(int i=0; i(Bones.size()); ++i)//i is signed, because all Id's are also signed! { if(Bones[i].Id!=i) IdsOk=false; } if(!IdsOk) throw new ImportErrorException("Bone Ids are not valid!"+FileName); } DefaultLogger::get()->debug(str(format("Number of bones: %1%") % Bones.size())); //________________________________________________________________________________ //----------------------------load bonehierarchy-------------------------------- if(string("bonehierarchy")!=SkeletonFile->getNodeName()) throw new ImportErrorException("no bonehierarchy node in "+FileName); DefaultLogger::get()->debug("loading bonehierarchy..."); XmlRead(SkeletonFile); while(string("boneparent")==SkeletonFile->getNodeName()) { string Child, Parent; Child=GetAttribute(SkeletonFile, "bone"); Parent=GetAttribute(SkeletonFile, "parent"); unsigned int ChildId, ParentId; ChildId=find(Bones.begin(), Bones.end(), Child)->Id; ParentId=find(Bones.begin(), Bones.end(), Parent)->Id; Bones[ChildId].ParentId=ParentId; Bones[ParentId].Children.push_back(ChildId); XmlRead(SkeletonFile);//i once forget this line, which led to an endless loop, did i mentioned, that irrxml sucks?? } //_____________________________________________________________________________ //--------- Calculate the WorldToBoneSpace Matrix recursivly for all bones: ------------------ BOOST_FOREACH(Bone theBone, Bones) { if(-1==theBone.ParentId) //the bone is a root bone { theBone.CalculateWorldToBoneSpaceMatrix(Bones); } } //_______________________________________________________________________ //---------------------------load animations----------------------------- if(string("animations")==SkeletonFile->getNodeName())//animations are optional values { DefaultLogger::get()->debug("Loading Animations"); XmlRead(SkeletonFile); while(string("animation")==SkeletonFile->getNodeName()) { Animation NewAnimation; NewAnimation.Name=GetAttribute(SkeletonFile, "name"); NewAnimation.Length=GetAttribute(SkeletonFile, "length"); //Load all Tracks XmlRead(SkeletonFile); if(string("tracks")!=SkeletonFile->getNodeName()) throw new ImportErrorException("no tracks node in animation"); XmlRead(SkeletonFile); while(string("track")==SkeletonFile->getNodeName()) { Track NewTrack; NewTrack.BoneName=GetAttribute(SkeletonFile, "bone"); //Load all keyframes; XmlRead(SkeletonFile); if(string("keyframes")!=SkeletonFile->getNodeName()) throw new ImportErrorException("no keyframes node!"); XmlRead(SkeletonFile); while(string("keyframe")==SkeletonFile->getNodeName()) { Keyframe NewKeyframe; NewKeyframe.Time=GetAttribute(SkeletonFile, "time"); //Position: XmlRead(SkeletonFile); if(string("translate")!=SkeletonFile->getNodeName()) throw new ImportErrorException("translate node not first in keyframe"); NewKeyframe.Position.x=GetAttribute(SkeletonFile, "x"); NewKeyframe.Position.y=GetAttribute(SkeletonFile, "y"); NewKeyframe.Position.z=GetAttribute(SkeletonFile, "z"); //Rotation: XmlRead(SkeletonFile); if(string("rotate")!=SkeletonFile->getNodeName()) throw new ImportErrorException("rotate is not second node in keyframe"); float RotationAngle=GetAttribute(SkeletonFile, "angle"); aiVector3D RotationAxis; XmlRead(SkeletonFile); if(string("axis")!=SkeletonFile->getNodeName()) throw new ImportErrorException("No axis for keyframe rotation!"); RotationAxis.x=GetAttribute(SkeletonFile, "x"); RotationAxis.y=GetAttribute(SkeletonFile, "y"); RotationAxis.z=GetAttribute(SkeletonFile, "z"); NewKeyframe.Rotation=aiQuaternion(RotationAxis, RotationAngle); //Scaling: XmlRead(SkeletonFile); if(string("scale")!=SkeletonFile->getNodeName()) throw new ImportErrorException("no scalling key in keyframe!"); NewKeyframe.Scaling.x=GetAttribute(SkeletonFile, "x"); NewKeyframe.Scaling.y=GetAttribute(SkeletonFile, "y"); NewKeyframe.Scaling.z=GetAttribute(SkeletonFile, "z"); NewTrack.Keyframes.push_back(NewKeyframe); XmlRead(SkeletonFile); } NewAnimation.Tracks.push_back(NewTrack); } Animations.push_back(NewAnimation); } } //_____________________________________________________________________________ } void OgreImporter::CreateAssimpSkeleton(const std::vector &Bones, const std::vector &Animations) { //-----------------skeleton is completly loaded, now but it in the assimp scene:------------------------------- if(!m_CurrentScene->mRootNode) throw new ImportErrorException("No root node exists!!"); if(0!=m_CurrentScene->mRootNode->mNumChildren) throw new ImportErrorException("Root Node already has childnodes!"); //--------------Createt the assimp bone hierarchy----------------- DefaultLogger::get()->debug("Root Bones"); vector RootBoneNodes; BOOST_FOREACH(Bone theBone, Bones) { if(-1==theBone.ParentId) //the bone is a root bone { DefaultLogger::get()->debug(theBone.Name); RootBoneNodes.push_back(CreateAiNodeFromBone(theBone.Id, Bones, m_CurrentScene->mRootNode)); } } m_CurrentScene->mRootNode->mNumChildren=RootBoneNodes.size(); m_CurrentScene->mRootNode->mChildren=new aiNode*[RootBoneNodes.size()]; memcpy(m_CurrentScene->mRootNode->mChildren, &RootBoneNodes[0], sizeof(aiNode*)*RootBoneNodes.size()); //_______________________________________________________________ //-----------------Create the Assimp Animations -------------------- if(Animations.size()>0)//Maybe the model had only a skeleton and no animations. (If it also has no skeleton, this function would'nt have benn called { m_CurrentScene->mNumAnimations=Animations.size(); m_CurrentScene->mAnimations=new aiAnimation*[Animations.size()]; for(unsigned int i=0; imName=Animations[i].Name; NewAnimation->mDuration=Animations[i].Length; NewAnimation->mTicksPerSecond=1.0f; //Create all tracks in this animation NewAnimation->mNumChannels=Animations[i].Tracks.size(); NewAnimation->mChannels=new aiNodeAnim*[Animations[i].Tracks.size()]; for(unsigned int j=0; jmNodeName=Animations[i].Tracks[j].BoneName; //Create the keyframe arrays... unsigned int KeyframeCount=Animations[i].Tracks[j].Keyframes.size(); NewNodeAnim->mNumPositionKeys=KeyframeCount; NewNodeAnim->mPositionKeys=new aiVectorKey[KeyframeCount]; NewNodeAnim->mNumRotationKeys=KeyframeCount; NewNodeAnim->mRotationKeys=new aiQuatKey[KeyframeCount]; NewNodeAnim->mNumScalingKeys=KeyframeCount; NewNodeAnim->mScalingKeys=new aiVectorKey[KeyframeCount]; //...and fill them for(unsigned int k=0; kmPositionKeys[k].mTime=Animations[i].Tracks[j].Keyframes[k].Time; NewNodeAnim->mPositionKeys[k].mValue=Animations[i].Tracks[j].Keyframes[k].Position; NewNodeAnim->mRotationKeys[k].mTime=Animations[i].Tracks[j].Keyframes[k].Time; NewNodeAnim->mRotationKeys[k].mValue=Animations[i].Tracks[j].Keyframes[k].Rotation; NewNodeAnim->mScalingKeys[k].mTime=Animations[i].Tracks[j].Keyframes[k].Time; NewNodeAnim->mScalingKeys[k].mValue=Animations[i].Tracks[j].Keyframes[k].Scaling; } NewAnimation->mChannels[j]=NewNodeAnim; } m_CurrentScene->mAnimations[i]=NewAnimation; } } //__________________________________________________________________ } aiNode* OgreImporter::CreateAiNodeFromBone(int BoneId, const std::vector &Bones, aiNode* ParentNode) { //----Create the node for this bone and set its values----- aiNode* NewNode=new aiNode(Bones[BoneId].Name); NewNode->mParent=ParentNode; aiMatrix4x4 t0,t1; //create a matrix from the transformation values of the ogre bone NewNode->mTransformation=aiMatrix4x4::Translation(Bones[BoneId].Position, t0) * aiMatrix4x4::Rotation(Bones[BoneId].RotationAngle, Bones[BoneId].RotationAxis, t1) ; //__________________________________________________________ //---------- recursivly create all children Nodes: ---------- NewNode->mNumChildren=Bones[BoneId].Children.size(); NewNode->mChildren=new aiNode*[Bones[BoneId].Children.size()]; for(unsigned int i=0; imChildren[i]=CreateAiNodeFromBone(Bones[BoneId].Children[i], Bones, NewNode); } //____________________________________________________ return NewNode; } void Bone::CalculateWorldToBoneSpaceMatrix(vector &Bones) { //Calculate the matrix for this bone: aiMatrix4x4 t0,t1; if(-1==ParentId) { WorldToBoneSpace= aiMatrix4x4::Translation(Position, t0) * aiMatrix4x4::Rotation(RotationAngle, RotationAxis, t1) ; } else { WorldToBoneSpace= Bones[ParentId].WorldToBoneSpace * aiMatrix4x4::Translation(Position, t0) * aiMatrix4x4::Rotation(RotationAngle, RotationAxis, t1) ; } //and recursivly for all children: BOOST_FOREACH(int theChildren, Children) { Bones[theChildren].CalculateWorldToBoneSpaceMatrix(Bones); } } }//namespace Ogre }//namespace Assimp #endif // !! ASSIMP_BUILD_NO_OGRE_IMPORTER