void FvXMLAnimationModelSerializerImpl::ReadAnimation( FvXMLSectionPtr spSection, Ogre::SceneNode* pkNode, FvAnimationModel* pkDest ) { Ogre::SceneManager *pkSceneManager = Ogre::Root::getSingleton(). _getCurrentSceneManager(); FV_ASSERT(pkSceneManager); FvString kAnimationName = spSection->ReadString("name"); bool bEnable = spSection->ReadBool("enable"); bool bLoop = spSection->ReadBool("loop"); FvString kIterpolationMode = spSection->ReadString("interpolationMode"); FvString kRotationIterpolationMode = spSection->ReadString("rotationInterpolationMode"); float fLength = spSection->ReadFloat("length"); if(!pkSceneManager->hasAnimation(pkNode->getName() + kAnimationName)) { std::vector<FvXMLSectionPtr> kKeyFrames; spSection->OpenSections("keyframe",kKeyFrames); Animation *pkAnimation = pkSceneManager->createAnimation(pkNode->getName() + kAnimationName, fLength); if(strcmp(kIterpolationMode.c_str(),"spline") == 0) pkAnimation->setInterpolationMode(Animation::IM_SPLINE); else pkAnimation->setInterpolationMode(Animation::IM_LINEAR); if(strcmp(kRotationIterpolationMode.c_str(),"spherical") == 0) pkAnimation->setRotationInterpolationMode(Animation::RIM_SPHERICAL); else pkAnimation->setRotationInterpolationMode(Animation::RIM_LINEAR); NodeAnimationTrack *pkAnimationTrack = pkAnimation->createNodeTrack( pkAnimation->getNumNodeTracks() + 1, pkNode); for (size_t stKeyframeIndex = 0; stKeyframeIndex < kKeyFrames.size(); stKeyframeIndex++) { float fTime = kKeyFrames[stKeyframeIndex]->ReadFloat("time"); FvVector3 kPosition = kKeyFrames[stKeyframeIndex]->ReadVector3("translation"); FvVector3 kScale = kKeyFrames[stKeyframeIndex]->ReadVector3("scale"); FvQuaternion kQuaternion = kKeyFrames[stKeyframeIndex]->ReadQuaternion("rotation"); TransformKeyFrame *pkKeyFrame = pkAnimationTrack->createNodeKeyFrame(fTime); pkKeyFrame->setTranslate(Vector3(kPosition.x,kPosition.y,kPosition.z)); pkKeyFrame->setRotation(Quaternion(kQuaternion.w,kQuaternion.x,kQuaternion.y,kQuaternion.z)); pkKeyFrame->setScale(Vector3(kScale.x,kScale.y,kScale.z)); } AnimationState *pkAnimationState = pkSceneManager->createAnimationState(pkNode->getName() + kAnimationName); pkAnimationState->setEnabled(bEnable); pkAnimationState->setLoop(bLoop); pkDest->m_kModelAnimations.insert(std::make_pair(kAnimationName,pkAnimationState)); } }
void WheelAnimalSceneObj::load(const std::string & filename) { //Ogre::ru * s = Orz::OgreGraphicsManager::getSingleton().getSceneManager()->getRootSceneNode()->createChildSceneNode(Ogre::Vector3(0, 0 ,0)); //导入场景资源 _impl = BaseSceneImpl::create(_osm, filename); //创建总场景节点 _senceNode = Orz::OgreGraphicsManager::getSingleton().getSceneManager()->getRootSceneNode()->createChildSceneNode(); //创建场景 _osm->createScene(_senceNode); _senceNode->setVisible(true); //s->setVisible(false); /*_impl->getCamera(SCENE_CAMERA)->setPosition(Ogre::Vector3(-98.851, 164.283, 237.886)); _impl->getCamera(SCENE_CAMERA)->setOrientation(Ogre::Quaternion(0.999578, -0.0192806, -0.0226839));*/ //创建摄像机的节点 _cameraSn = OgreGraphicsManager::getSingleton().getSceneManager()->getRootSceneNode()->createChildSceneNode(); //获取场景的摄像机 Ogre::Camera * camera = _impl->getCamera(SCENE_CAMERA); //创建摄像机的节点并设置它的位置 _cameraSn = camera->getParentSceneNode()->createChildSceneNode(Ogre::Vector3(0.f, 164.283f, 237.886f)); //_cameraSn->setPosition(Ogre::Vector3(-98.851, 164.283, 237.886)); //_cameraSn->setOrientation(Ogre::Quaternion(0.999578, -0.0192806, -0.0226839)); //camera->detatchFromParent(); //脱离原有的节点 camera->detachFromParent(); //摄像机绑定在节点上 _cameraSn->attachObject(_impl->getCamera(SCENE_CAMERA)); //创建场景的中心节点 Ogre::SceneNode * sn = getBaseCenter()->createChildSceneNode(Ogre::Vector3(0, 100,0)); //setAutoTracking可以让你的摄像机总是盯着你场景中的某一个节点 //方法中第一个参数确定是否打开自动跟踪,在任何一帧渲染之前都可以重新设置它。 //二个参数是被跟踪节点得指针,除非你第一个参数是false(这时候可以用NULL),否则你必须确定调用的时候指针指向的节点必须有效 camera->setAutoTracking(true, sn); // std::cout<<_camera->getPosition()<<"!"<<_camera->getOrientation()<<std::endl; //获取场景管理器 Ogre::SceneManager * sm = Orz::OgreGraphicsManager::getSingleton().getSceneManager(); // set up spline animation of node //定义动画,指定动画的名称及长度(这里为4秒) _anim = sm->createAnimation("Cam_", 4); //// Spline it for nice curves // // 指定动画关键帧之间的插值方式(包括线性插值和样条插值) _anim->setInterpolationMode(Ogre::Animation::IM_LINEAR); //定义动画的一个动画轨迹,并指定这个轨迹是作用到_cameraSn节点上的 //// Create a track to animate the camera's node Ogre::NodeAnimationTrack * track = _anim->createNodeTrack(0, _cameraSn); // 定义动画轨迹包含的关键帧,下面定义了3个关键帧,加上起始帧 // 4个关健帧形成了一个曲线的动画 Ogre::TransformKeyFrame* key = track->createNodeKeyFrame(0); // startposition key->setTranslate(Ogre::Vector3(0.f, 0.3f, 237.886f)); key = track->createNodeKeyFrame(3); // startposition key->setTranslate(Ogre::Vector3(0.f, 0.3f, 237.886f)); key = track->createNodeKeyFrame(4); key->setTranslate(Ogre::Vector3(0.f, -80.f, -400.f)); ////////////////////////////////// //定义动画的一个动画轨迹,并指定这个轨迹是作用到创建场景的中心节点sn上的 track = _anim->createNodeTrack(1, sn); key = track->createNodeKeyFrame(0); // startposition key->setTranslate(Ogre::Vector3(0, 0,0)); key = track->createNodeKeyFrame(3); // startposition key->setTranslate(Ogre::Vector3(0, 0,0)); key = track->createNodeKeyFrame(4); key->setTranslate(Ogre::Vector3(0, 200,0)); //// Create a new animation state to track this //定义AnimationState类的对象,它和刚才定义的动画类相对应。设置动画的状态为启用: _animState = sm->createAnimationState("Cam_"); _animState->setEnabled(true);// 启用该动画 _animState->setLoop(false); /* Ogre::MaterialPtr material = Ogre::MaterialPtr(Ogre::MaterialManager::getSingleton().getByName("Material_#11/lanseshuijing")); material->getTechnique(0)->getPass(0)->getTextureUnitState(0)->setTextureName("shuijing-lv.dds");*/ }