Ejemplo n.º 1
0
bool EC_Mesh::AttachMeshToBone(QObject* targetMesh, const QString& boneName)
{
    if (!entity_)
        return false;
    
    // First make sure that the target mesh is valid, and the bone can be found
    EC_Mesh* targetMeshPtr = dynamic_cast<EC_Mesh*>(targetMesh);
    if (!targetMeshPtr)
        return false;
    Ogre::Entity* targetEntity = targetMeshPtr->GetEntity();
    if (!targetEntity)
        return false;
    std::string boneNameStd = boneName.toStdString();
    Ogre::SkeletonInstance* skeleton = targetEntity->getSkeleton();
    if (!skeleton)
        return false;
    if (!skeleton->hasBone(boneNameStd))
        return false;
    
    // We are ready to go. Detach the entity from its normal scene node first
    DetachMeshFromBone();
    DetachEntity();
    
    bone_tagpoint_ = targetEntity->attachObjectToBone(boneNameStd, entity_);
    bone_parent_mesh_ = targetMeshPtr;
    bone_parent_mesh_->bone_attached_mesh_ = this;
    attached_to_bone_ = true;
    
    // Force the adjustment for the tagpoint now
    OnAttributeUpdated(&nodeTransformation);
    
    return true;
}
Ejemplo n.º 2
0
void gkSkeletonLoader::makeManual(gkEntity* ent)
{

	Ogre::Entity* oent = ent->getEntity();
	if (!oent || !oent->hasSkeleton())
		return;


	Ogre::SkeletonInstance* inst = oent->getSkeleton();


	gkBone::BoneList::Iterator it = m_skeleton->getBoneList().iterator();
	while (it.hasMoreElements())
	{
		gkBone* bone = it.getNext();


		if (inst->hasBone(bone->getName()))
		{
			Ogre::Bone* obone = inst->getBone(bone->getName());
			bone->_setOgreBone(obone);

			obone->setManuallyControlled(true);
		}
	}
}
Ejemplo n.º 3
0
//-------------------------------------------------------------------------------------
void DeltaControl::createScene(void) {

    mSceneMgr->setSkyBox(true, "StormySkyBox");

    mControlCenter = new ControlCenter(mSceneMgr);

    /* *********************************************************
     * ENTITIES
     * *********************************************************/

//	Telephone* phone = new Telephone(mSceneMgr, "phone1");
//	phone->init();

    // Create entity from mesh and attach it to a scene node.
    Ogre::SceneNode* node = mSceneMgr->getRootSceneNode()->createChildSceneNode();
    Ogre::Entity* ent = mSceneMgr->createEntity("Sinbad", "Sinbad.mesh");
    node->attachObject(ent);
    node->setPosition(0,50,0);
    node->scale(10,10,10);

    // Set animation blend mode to additive / cumulative.
    ent->getSkeleton()->setBlendMode(Ogre::ANIMBLEND_CUMULATIVE);

    // Get the two halves of the idle animation
    Ogre::AnimationState* baseAnim = ent->getAnimationState("IdleBase");
    Ogre::AnimationState* topAnim = ent->getAnimationState("IdleTop");

    // Enable both of them and set them to loop.
    baseAnim->setLoop(true);
    topAnim->setLoop(true);
    baseAnim->setEnabled(true);
    topAnim->setEnabled(true);

}
Ejemplo n.º 4
0
	///Get the orientation of the wrist bone
	Ogre::Quaternion getWristOrientation()
	{
		Ogre::Entity* hand = this->Entity();
		assert(hand);

		Ogre::SkeletonInstance* ske;
		Ogre::Bone* wrist;
		if(ske = hand->getSkeleton())
			if(wrist = ske->getBone("Wrist"))
				return wrist->getOrientation();			
		return Ogre::Quaternion::IDENTITY;
	}
void CBlendingAnimationsView::OnTimer(UINT_PTR nIDEvent)
{
	CEngine *Engine = ((CBlendingAnimationsApp*)AfxGetApp())->m_Engine;			
	Ogre::Root *Root = Engine->GetRoot();
	Ogre::SceneNode *RobotNode = Root->getSceneManager("Walking")->getSceneNode("Robot");

	Ogre::Entity *RobotEntity = Root->getSceneManager("Walking")->getEntity("Robot");
	Ogre::Skeleton *Skeleton = RobotEntity->getSkeleton();

	if (m_WeightDlg->m_IsAverage)
	{
		Skeleton->setBlendMode(Ogre::SkeletonAnimationBlendMode::ANIMBLEND_AVERAGE);
	}
	else
	{
		Skeleton->setBlendMode(Ogre::SkeletonAnimationBlendMode::ANIMBLEND_CUMULATIVE);
	}

	double WalkWeight;
	double SlumpWeight;

	switch(nIDEvent)
	{
	case 1:
	
		WalkWeight = m_WeightDlg->m_WalkWeight.GetPos() / 10.0;
		SlumpWeight = m_WeightDlg->m_SlumpWeight.GetPos() / 10.0;

		m_WalkAnimation->setWeight(WalkWeight);
		m_SlumpAnimation->setWeight(SlumpWeight);
		
		m_WalkAnimation->addTime(0.01);
		m_SlumpAnimation->addTime(0.01);

		break;
	
	case 2:

		m_WalkAnimation->addTime(0.01);

	break;

	case 3:
		
		m_SlumpAnimation->addTime(0.01);

		break;
	}

	Root->renderOneFrame();
	CView::OnTimer(nIDEvent);
}
void CSceletalAnimationView::OnTimer(UINT_PTR nIDEvent)
{
	CEngine *Engine = ((CSceletalAnimationApp*)AfxGetApp())->m_Engine;		
	Ogre::Root *Root = Engine->GetRoot();
	Ogre::SceneManager *SceneManager = Root->getSceneManager("Animation");
	Ogre::Entity *Entity = SceneManager->getEntity("Animation");
	Ogre::Skeleton *Skeleton = Entity->getSkeleton();

	m_AnimationState->addTime(0.1);
	Root->renderOneFrame();

	CView::OnTimer(nIDEvent);
}
OgreCharacterController::OgreCharacterController(Ogre::Camera * Camera, const Ogre::String& name, const Ogre::Vector3& position)
  : CharacterController(Camera, position, name, "Sinbad.mesh", Ogre::Vector3(3, 3, 3)), lastTop(0), lastBase(0), 
  mSword1(0), mSword2(0), swordsOut(false), sliceDir(false), animTimer(0)
{
  Ogre::SceneManager * smgr = Camera->getSceneManager();
  Ogre::Entity * ent = getEntity();

  ent->getSkeleton()->setBlendMode(Ogre::ANIMBLEND_CUMULATIVE);

  mSword1 = smgr->createEntity("Sword1", "Sword.mesh");
  mSword2 = smgr->createEntity("Sword2", "Sword.mesh");
  ent->attachObjectToBone("Sheath.L", mSword1);
  ent->attachObjectToBone("Sheath.R", mSword2);

  getTargetNode()->setFixedYawAxis(true);
}
Ejemplo n.º 8
0
Ogre::Vector3 NpcAnimation::runAnimation(float timepassed)
{
    if(mTimeToChange <= 0.0f)
    {
        mTimeToChange = 0.2f;
        updateParts();
    }
    mTimeToChange -= timepassed;

    Ogre::Vector3 ret = Animation::runAnimation(timepassed);
    const Ogre::SkeletonInstance *skelsrc = mEntityList.mSkelBase->getSkeleton();
    for(size_t i = 0;i < sPartListSize;i++)
    {
        Ogre::Entity *ent = mEntityParts[i].mSkelBase;
        if(!ent) continue;
        updateSkeletonInstance(skelsrc, ent->getSkeleton());
        ent->getAllAnimationStates()->_notifyDirty();
    }
    return ret;
}
Ejemplo n.º 9
0
void BoneCollisionManager::checkMesh(Ogre::String outFileName, Ogre::SceneNode* node)
{
	std::ofstream file(outFileName.c_str());
	if (file)
	{
		Ogre::Entity* ent = (Ogre::Entity*)node->getAttachedObject(0);
		Ogre::SkeletonInstance* skeletonInst = ent->getSkeleton();
		Ogre::Skeleton::BoneIterator boneI=skeletonInst->getBoneIterator();

		//file<<"Creating bone length information from:\n";
		file<<"Mesh name: "<<ent->getMesh()->getName()<<"\n";
		file<<"Skeleton name: "<<skeletonInst->getName()<<"\n\n";

		while(boneI.hasMoreElements())
		{
			Ogre::Bone* bone=boneI.getNext();
			Ogre::String bName=bone->getName();

			if (bone->getChild(0))
			{
				Ogre::Vector3 curr = bone->_getDerivedPosition();
				Ogre::Vector3 next = bone->getChild(0)->_getDerivedPosition();

				Ogre::Vector3 difference = next-curr;

				//length of bone
				Ogre::Real lenght = difference.length();

				file<<bName<<":\nLength\t\t\t=\t"<<Ogre::StringConverter::toString(lenght,3)<<"\n"<<
					"Position"<<"\t\t=\t"<<Ogre::StringConverter::toString(curr.x,1)<<", "<<
					Ogre::StringConverter::toString(curr.y,1)<<", "<<
					Ogre::StringConverter::toString(curr.z,1)<<"\n";
				if (!bone->getParent())
					file<<bName<<" is a Root Bone!\n\n";
				else
					file<<"\n\n";
			}
		}
	}
}
Ejemplo n.º 10
0
//!
//! Clones an Ogre::MovableObject.
//!
//! Is needed because OGRE does not provide clone functions for cameras and
//! lights.
//!
//! \param movableObject The object to clone.
//! \param name The name to use for the object.
//! \param sceneManager The scene manager to use for creating the object.
//! \return The cloned object.
//!
Ogre::MovableObject * OgreTools::cloneMovableObject ( Ogre::MovableObject *movableObject, const QString &name, Ogre::SceneManager *sceneManager /* =  0 */ )
{
    // make sure the given object is valid
    if (!movableObject) {
        Log::error("The given movable object is invalid.", "OgreTools::cloneMovableObject");
        return 0;
    }

    // make sure a valid scene manager is available
    if (!sceneManager)
        sceneManager = movableObject->_getManager();
    if (!sceneManager) {
        Log::error("No valid scene manager available.", "OgreTools::cloneMovableObject");
        return 0;
    }

    Ogre::MovableObject *result = 0;
    Ogre::String typeName = movableObject->getMovableType();
    if (typeName == "Entity") {
        // clone entity
        Ogre::Entity *entity = dynamic_cast<Ogre::Entity *>(movableObject);
        //movableObjectCopy = entity->clone(name.toStdString());
        Ogre::Entity *entityCopy = sceneManager->createEntity(name.toStdString(), entity->getMesh()->getName());
        Ogre::AnimationStateSet *animationStateSet = entity->getAllAnimationStates();
        Ogre::AnimationStateSet *animationStateSetCopy  = entityCopy->getAllAnimationStates();
        // set the same blend mode on entity copy
        if (entity && entityCopy) {
            if (entity->hasSkeleton() && entityCopy->hasSkeleton()) {
                Ogre::Skeleton *skeleton = entity->getSkeleton();
                Ogre::Skeleton *skeletonCopy = entityCopy->getSkeleton();
                skeletonCopy->setBlendMode(skeleton->getBlendMode());
            }
        }
        // copy all animation states
        if (animationStateSet && animationStateSetCopy) {
            Ogre::AnimationStateIterator animationStateIter = animationStateSet->getAnimationStateIterator();
            Ogre::AnimationStateIterator animationStateCopyIter = animationStateSetCopy->getAnimationStateIterator();
            while (animationStateIter.hasMoreElements()) {
                if (!animationStateCopyIter.hasMoreElements())
                    break;
                Ogre::AnimationState *animationState = animationStateIter.getNext();
                Ogre::AnimationState *animationStateCopy = animationStateCopyIter.getNext();
                animationStateCopy->setLoop(animationState->getLoop());
                //bool enabled = animationState->getEnabled();
                //animationStateCopy->setEnabled(animationState->getEnabled());
                animationStateCopy->setEnabled(true);
                animationStateCopy->setTimePosition(animationState->getTimePosition());
            }
        }

        // create a new container for the cloned entity
        OgreContainer *entityCopyContainer = new OgreContainer(entityCopy);
        entityCopy->setUserAny(Ogre::Any(entityCopyContainer));
        if (!entity->getUserAny().isEmpty()) {
            OgreContainer *entityContainer = Ogre::any_cast<OgreContainer *>(entity->getUserAny());
			if (entityContainer) {
                QObject::connect(entityContainer, SIGNAL(animationStateUpdated(const QString &, double)), entityCopyContainer, SLOT(updateAnimationState(const QString &, double)));
				QObject::connect(entityContainer, SIGNAL(boneTransformUpdated(const QString &, double, double, double, double, double, double)), entityCopyContainer, SLOT(updateBoneTransform(const QString &, double, double, double, double, double, double)));
			}
        }
        result = dynamic_cast<Ogre::MovableObject *>(entityCopy);
    } else if (typeName == "Light") {
        // clone light
        Ogre::Light *light = dynamic_cast<Ogre::Light *>(movableObject);
        Ogre::Light *lightCopy = sceneManager->createLight(name.toStdString());
        lightCopy->setType(light->getType());
        lightCopy->setDiffuseColour(light->getDiffuseColour());
        lightCopy->setSpecularColour(light->getSpecularColour());
        lightCopy->setAttenuation(light->getAttenuationRange(), light->getAttenuationConstant(), light->getAttenuationLinear(), light->getAttenuationQuadric());
        lightCopy->setPosition(light->getPosition());
        lightCopy->setDirection(light->getDirection());
        if (lightCopy->getType() == Ogre::Light::LT_SPOTLIGHT)
            lightCopy->setSpotlightRange(light->getSpotlightInnerAngle(), light->getSpotlightOuterAngle(), light->getSpotlightFalloff());
        lightCopy->setPowerScale(light->getPowerScale());
        lightCopy->setCastShadows(light->getCastShadows());

        // create a new container for the cloned light
        OgreContainer *lightCopyContainer = new OgreContainer(lightCopy);
        lightCopy->setUserAny(Ogre::Any(lightCopyContainer));
        if (!light->getUserAny().isEmpty()) {
            OgreContainer *lightContainer = Ogre::any_cast<OgreContainer *>(light->getUserAny());
            if (lightContainer)
                QObject::connect(lightContainer, SIGNAL(sceneNodeUpdated()), lightCopyContainer, SLOT(updateLight()));
        }
        result = dynamic_cast<Ogre::MovableObject *>(lightCopy);
    } else if (typeName == "Camera") {
        // clone camera
        Ogre::Camera *camera = dynamic_cast<Ogre::Camera *>(movableObject);
        Ogre::Camera *cameraCopy = sceneManager->createCamera(name.toStdString());
        //cameraCopy->setCustomParameter(0, camera->getCustomParameter(0));
        cameraCopy->setAspectRatio(camera->getAspectRatio());
        cameraCopy->setAutoAspectRatio(camera->getAutoAspectRatio());
        //cameraCopy->setAutoTracking(...);
        cameraCopy->setCastShadows(camera->getCastsShadows());
        //cameraCopy->setCullingFrustum(camera->getCullingFrustum());
        //cameraCopy->setCustomParameter(...);
        //cameraCopy->setCustomProjectionMatrix(..);
        //cameraCopy->setCustomViewMatrix(..);
        //cameraCopy->setDebugDisplayEnabled(...);
        //cameraCopy->setDefaultQueryFlags(...);
        //cameraCopy->setDefaultVisibilityFlags(...);
        cameraCopy->setDirection(camera->getDirection());
        //cameraCopy->setFixedYawAxis(...);
        cameraCopy->setFocalLength(camera->getFocalLength());
        cameraCopy->setFOVy(camera->getFOVy());

        //Ogre::Real left;
        //Ogre::Real right;
        //Ogre::Real top;
        //Ogre::Real bottom;
        //camera->getFrustumExtents(left, right, top, bottom);
        //cameraCopy->setFrustumExtents(left, right, top, bottom);
        //cameraCopy->setFrustumOffset(camera->getFrustumOffset());
        //cameraCopy->setListener(camera->getListener());
        cameraCopy->setLodBias(camera->getLodBias());
        //cameraCopy->setLodCamera(camera->getLodCamera());
        cameraCopy->setNearClipDistance(camera->getNearClipDistance());
        cameraCopy->setFarClipDistance(camera->getFarClipDistance());
        cameraCopy->setOrientation(camera->getOrientation());
        //cameraCopy->setOrthoWindow(...);
        //cameraCopy->setOrthoWindowHeight(...);
        //cameraCopy->setOrthoWindowWidth(...);
        cameraCopy->setPolygonMode(camera->getPolygonMode());
        cameraCopy->setPolygonModeOverrideable(camera->getPolygonModeOverrideable());
        cameraCopy->setPosition(camera->getPosition());
        cameraCopy->setProjectionType(camera->getProjectionType());
        cameraCopy->setQueryFlags(camera->getQueryFlags());
        cameraCopy->setRenderingDistance(camera->getRenderingDistance());
        cameraCopy->setRenderQueueGroup(camera->getRenderQueueGroup());
        //cameraCopy->setRenderSystemData(camera->getRenderSystemData());
        cameraCopy->setUseIdentityProjection(camera->getUseIdentityProjection());
        cameraCopy->setUseIdentityView(camera->getUseIdentityView());
        //cameraCopy->setUserAny(camera->getUserAny());
        cameraCopy->setUseRenderingDistance(camera->getUseRenderingDistance());
        //cameraCopy->setUserObject(camera->getUserObject());
        cameraCopy->setVisibilityFlags(camera->getVisibilityFlags());
        cameraCopy->setVisible(camera->getVisible());
        //cameraCopy->setWindow(...);

        if (!movableObject->getUserAny().isEmpty()) {
            CameraInfo *sourceCameraInfo = Ogre::any_cast<CameraInfo *>(movableObject->getUserAny());
            if (sourceCameraInfo) {
                CameraInfo *targetCameraInfo = new CameraInfo();
                targetCameraInfo->width = sourceCameraInfo->width;
                targetCameraInfo->height = sourceCameraInfo->height;
                dynamic_cast<Ogre::MovableObject *>(cameraCopy)->setUserAny(Ogre::Any(targetCameraInfo));
            }
        }

        //// Setup connections for instances
        //SceneNode *targetSceneNode = new SceneNode(cameraCopy);
        //((Ogre::MovableObject *)cameraCopy)->setUserAny(Ogre::Any(targetSceneNode));
        //if (!((Ogre::MovableObject *)camera)->getUserAny().isEmpty()) {
        //    SceneNode *sourceSceneNode = Ogre::any_cast<SceneNode *>(((Ogre::MovableObject *)camera)->getUserAny());
        //    if (sourceSceneNode) {
        //        QObject::connect(sourceSceneNode, SIGNAL(sceneNodeUpdated()), targetSceneNode, SLOT(updateSceneNode()));
        //    }
        //}

        result = dynamic_cast<Ogre::MovableObject *>(cameraCopy);
    }

    if (!result)
        Log::error(QString("Could not clone movable object \"%1\" of type \"%2\".").arg(movableObject->getName().c_str()).arg(typeName.c_str()), "OgreTools::cloneMovableObject");

    return result;
}
Ejemplo n.º 11
0
bool OgreSmartBody::frameRenderingQueued(const Ogre::FrameEvent& evt)
{
    if(mWindow->isClosed())
        return false;
 
    //Need to capture/update each device
    mKeyboard->capture();
    mMouse->capture();
 
    if(mKeyboard->isKeyDown(OIS::KC_ESCAPE))
        return false;

	// smartbody
	if (!m_pScene)
		return true;

	SmartBody::SBSimulationManager* sim = m_pScene->getSimulationManager();
	sim->setTime((Ogre::Root::getSingleton().getTimer()->getMilliseconds() / 1000.0f) - mStartTime);
	m_pScene->update();

	int numCharacters = m_pScene->getNumCharacters();
	if (numCharacters == 0)
		return true;

	const std::vector<std::string>& characterNames = m_pScene->getCharacterNames();

	for (size_t n = 0; n < characterNames.size(); n++)
	{
		SmartBody::SBCharacter* character = m_pScene->getCharacter(characterNames[n]);
		if (!this->getSceneManager()->hasEntity(characterNames[n]))
			continue;

		Ogre::Entity* entity = this->getSceneManager()->getEntity(characterNames[n]);
		Ogre::Skeleton* meshSkel = entity->getSkeleton();
		Ogre::Node* node = entity->getParentNode();

		SrVec pos = character->getPosition();
		SrQuat ori = character->getOrientation();
		//std::cout << ori.w << ori.x << " " << ori.y << " " << ori.z << std::endl;
		node->setPosition(pos.x, pos.y, pos.z);
		node->setOrientation(ori.w, ori.x, ori.y, ori.z);
	
		// Update joints
		SmartBody::SBSkeleton* sbSkel = character->getSkeleton();
			
		int numJoints = sbSkel->getNumJoints();
		for (int j = 0; j < numJoints; j++)
		{
			SmartBody::SBJoint* joint = sbSkel->getJoint(j);
	
			try
			{
				SrQuat orientation = joint->quat()->value();
	
				Ogre::Vector3 posDelta(joint->getPosition().x, joint->getPosition().y, joint->getPosition().z);
				Ogre::Quaternion quatDelta(orientation.w, orientation.x, orientation.y, orientation.z);
				Ogre::Bone* bone = meshSkel->getBone(joint->getName());
				if (!bone)
					continue;
				bone->setPosition(bone->getInitialPosition() + posDelta);
				bone->setOrientation(quatDelta);
			}
			catch (Ogre::ItemIdentityException& ex)
			{
				// Should not happen as we filtered using m_mValidBones
			}
		}
	}
	

 
    return true;
}
Ejemplo n.º 12
0
    void EC_OgreAnimationController::Update(f64 frametime)
    {
        Ogre::Entity* entity = GetEntity();
        if (!entity) return;
        
        std::vector<std::string> erase_list;
        
        // Loop through all animations & update them as necessary
        for (AnimationMap::iterator i = animations_.begin(); i != animations_.end(); ++i)
        {
            Ogre::AnimationState* animstate = GetAnimationState(entity, i->first);
            if (!animstate)
                continue;
                
            switch(i->second.phase_)
            {
            case PHASE_FADEIN:
                // If period is infinitely fast, skip to full weight & PLAY status
                if (i->second.fade_period_ == 0.0f)
                {
                    i->second.weight_ = 1.0f;
                    i->second.phase_ = PHASE_PLAY;
                }   
                else
                {
                    i->second.weight_ += (1.0f / i->second.fade_period_) * frametime;
                    if (i->second.weight_ >= 1.0f)
                    {
                        i->second.weight_ = 1.0f;
                        i->second.phase_ = PHASE_PLAY;
                    }
                }
                break;

            case PHASE_PLAY:
                if (i->second.auto_stop_ || i->second.num_repeats_ != 1)
                {
                    if ((i->second.speed_factor_ >= 0.f && animstate->getTimePosition() >= animstate->getLength()) ||
                        (i->second.speed_factor_ < 0.f && animstate->getTimePosition() <= 0.f))
                    {
                        if (i->second.num_repeats_ != 1)
                        {
                            if (i->second.num_repeats_ > 1)
                                i->second.num_repeats_--;

                            Ogre::Real rewindpos = i->second.speed_factor_ >= 0.f ? (animstate->getTimePosition() - animstate->getLength()) : animstate->getLength();
                            animstate->setTimePosition(rewindpos);
                        }
                        else
                        {
                            i->second.phase_ = PHASE_FADEOUT;
                        }
                    }
                }
                break;	

            case PHASE_FADEOUT:
                // If period is infinitely fast, skip to disabled status immediately
                if (i->second.fade_period_ == 0.0f)
                {
                    i->second.weight_ = 0.0f;
                    i->second.phase_ = PHASE_STOP;
                }
                else
                {
                    i->second.weight_ -= (1.0f / i->second.fade_period_) * frametime;
                    if (i->second.weight_ <= 0.0f)
                    {
                        i->second.weight_ = 0.0f;
                        i->second.phase_ = PHASE_STOP;
                    }
                }
                break;
            }

            // Set weight & step the animation forward
            if (i->second.phase_ != PHASE_STOP)
            {
                Ogre::Real advance = i->second.speed_factor_ * frametime;
                Ogre::Real new_weight = i->second.weight_ * i->second.weight_factor_;
                
                if (new_weight != animstate->getWeight())
                    animstate->setWeight((Ogre::Real)i->second.weight_ * i->second.weight_factor_);
                if (advance != 0.0f)
                    animstate->addTime((Ogre::Real)(i->second.speed_factor_ * frametime));
                if (!animstate->getEnabled())
                    animstate->setEnabled(true);
            }
            else
            {
                // If stopped, disable & remove this animation from list
                animstate->setEnabled(false);
                erase_list.push_back(i->first);
            }
        }
        
        for (uint i = 0; i < erase_list.size(); ++i)
        {
            animations_.erase(erase_list[i]);
        }
        
        // High-priority/low-priority blending code
        if (entity->hasSkeleton())
        {
            Ogre::SkeletonInstance* skel = entity->getSkeleton();
            if (!skel)
                return;
                
		    if (highpriority_mask_.size() != skel->getNumBones())
			    highpriority_mask_.resize(skel->getNumBones());
		    if (lowpriority_mask_.size() != skel->getNumBones())
			    lowpriority_mask_.resize(skel->getNumBones());

            for (uint i = 0; i < skel->getNumBones(); ++i)
            {
                highpriority_mask_[i] = 1.0;
                lowpriority_mask_[i] = 1.0;
            }

		    // Loop through all high priority animations & update the lowpriority-blendmask based on their active tracks
            for (AnimationMap::iterator i = animations_.begin(); i != animations_.end(); ++i)
	        {
                Ogre::AnimationState* animstate = GetAnimationState(entity, i->first);
                if (!animstate)
                    continue;	        
                // Create blend mask if animstate doesn't have it yet
                if (!animstate->hasBlendMask())
                    animstate->createBlendMask(skel->getNumBones());

                if ((i->second.high_priority_) && (i->second.weight_ > 0.0))
                {
				    // High-priority animations get the full weight blend mask
                    animstate->_setBlendMaskData(&highpriority_mask_[0]);
                    if (!skel->hasAnimation(animstate->getAnimationName()))
                        continue;
                        
                    Ogre::Animation* anim = skel->getAnimation(animstate->getAnimationName());
                    
                    Ogre::Animation::NodeTrackIterator it = anim->getNodeTrackIterator();
                    while (it.hasMoreElements())
                    {
					    Ogre::NodeAnimationTrack* track = it.getNext();
					    unsigned id = track->getHandle();
					    // For each active track, reduce corresponding bone weight in lowpriority-blendmask 
					    // by this animation's weight
					    if (id < lowpriority_mask_.size())
					    {
						    lowpriority_mask_[id] -= i->second.weight_;
						    if (lowpriority_mask_[id] < 0.0) lowpriority_mask_[id] = 0.0;
					    }
			        }
                }
            }

		    // Now set the calculated blendmask on low-priority animations
            for (AnimationMap::iterator i = animations_.begin(); i != animations_.end(); ++i)
	        {
                Ogre::AnimationState* animstate = GetAnimationState(entity, i->first);
                if (!animstate)
                    continue;	
                if (i->second.high_priority_ == false)	        
                    animstate->_setBlendMaskData(&lowpriority_mask_[0]);			    			   
		    }
        }
    }
Ejemplo n.º 13
0
void
AnimationSelector::Reload(void)
{
	resetState();

	if (!Ogre::ResourceGroupManager::getSingletonPtr())
		return;
	if(NULL == GetDataManipulator())
		return;

	mAnimationList->Freeze();

	wxTreeItemId root = mAnimationList->GetRootItem();

	mAnimationList->Unselect();

	mAnimationList->DeleteChildren(root);

	if (mIsMeshAnim)
	{
		// Get animation list of current mesh	
		Fairy::ObjectPtr pCurMesh = GetDataManipulator()->m_pMeshObject;
		if (!pCurMesh)
		{
			mAnimationList->Thaw();
			return;
		}

		Fairy::StaticEntityObject* entity = static_cast<Fairy::StaticEntityObject*>((pCurMesh).get());
		Ogre::Entity* pCurEntity = entity->getEntity();
		if(pCurEntity && pCurEntity->hasSkeleton())
		{	
			//更新动画列表
			unsigned short numAnim = pCurEntity->getSkeleton()->getNumAnimations();
			for(int i=0;i<numAnim;++i)
			{
				Ogre::String AniName = pCurEntity->getSkeleton()->getAnimation(i)->getName();
				wxTreeItemId item = AddLeaf(root, AniName);
				mAnimationList->SetItemData(item, new AnimationItemData(AniName));
			}
		}
		mAnimationList->Thaw();
	}
	else
	{
		Fairy::LogicModel* pObjModel = GetDataManipulator()->m_pObjTemplate;
		if (!pObjModel)
		{
			mAnimationList->Thaw();
			return;
		}

		Fairy::LogicModelManager::AnimationSkeletonLinks* pAniLinks = GetDataManipulator()->_getCurAniLinks();
		if (!pAniLinks)
		{
			mAnimationList->Thaw();
			return;
		}

		for ( Fairy::LogicModelManager::AnimationSkeletonLinks::iterator iter = pAniLinks->begin(); iter!= pAniLinks->end(); ++iter)
		{
			Ogre::String AniName(iter->first);
			wxTreeItemId item = AddLeaf(root, AniName);
			mAnimationList->SetItemData(item, new AnimationItemData(AniName));
		}

		mAnimationList->Thaw();
	}
}
void GameObjectFlashLight::update(double elapsedSeconds)
{
	if (isEnabled()) //there is no point to updating the flashlight when it's not active
	{		
		GameObject::update(elapsedSeconds);

		mCurrentColour=calculateCurrentColour(elapsedSeconds);
		setColour(mCurrentColour);

		GameObjectOnyPtr ony = mGameWorldManager->getGameObjectOny();
		Ogre::Vector3 pos;
		if (ony.get() && ony->getRenderComponentEntity()->getEntity()->hasSkeleton()
			&& ony->getRenderComponentEntity()->getEntity()->getSkeleton()->hasBone(ATTACH_BONE_NAME))
		{
			Ogre::Entity* ent = ony->getRenderComponentEntity()->getEntity();
			Ogre::Node* bone = ent->getSkeleton()->getBone(ATTACH_BONE_NAME);
			pos=Utils::getNodeWorldPosition(ent,bone);			
		}
		else
		{
			pos=ony->getRenderComponentPositional()->getPosition();			
		}
		mRenderComponentPositional->setPosition(pos);			
		mRenderComponentPositional->setOrientation(
			ony->getRenderComponentPositional()->getOrientation()*
			Ogre::Quaternion(Ogre::Degree(180),Ogre::Vector3::UNIT_Y)*
			Ogre::Quaternion(Ogre::Radian(rollAngle),Ogre::Vector3::UNIT_Z));

		rollAngle+=elapsedSeconds*DEFAULT_ROLL_OMEGA;
		//constrain the angle into the range [0..2PI)
		if (rollAngle>=2*PI)
		{
			//The while addition is a safety check for situations
			//where the angle increases above 4*PI, which
			//might happen as a result of a dramatic drop in 
			//the framerate
			while(rollAngle>=2*PI)
			{
				rollAngle-=2*PI;
			}
		}

		if (mPhysicsComponentVolumeConvex.get() && mPhysicsComponentVolumeConvex->isInUse())
		{
			//OUCH! BUT FOR THE MOMENT WE LEAVE IT LIKE THIS as there's an error getting the orientation if not done that way
			//mPhysicsComponentVolumeConvex->destroy();
			//mPhysicsComponentVolumeConvex->create();
			mPhysicsComponentVolumeConvex->setPosition(pos);
			mPhysicsComponentVolumeConvex->setOrientation(ony->getRenderComponentPositional()->getOrientation()*Ogre::Quaternion(Ogre::Degree(180),Ogre::Vector3::UNIT_Y));
		}

		if (mPhysicsComponentWeapon.get() && mPhysicsComponentWeapon->isInUse())
		{
			mPhysicsComponentWeapon->setPosition(pos);
			Vector3 nextMovement;
			nextMovement=mLastBonePosition-pos+ony->getPhysicsComponentCharacterOny()->getOuternMovement();
			nextMovement.normalise();
			mPhysicsComponentWeapon->setOuternMovement(nextMovement);
			mPhysicsComponentWeapon->setCyclicCharacter(nextMovement==Vector3::ZERO);

			//Logger::getInstance()->log("setOuternMovement " + Ogre::StringConverter::toString(pos-mLastBonePosition));
			//mPhysicsComponentWeapon->setOrientation(orient);
		}
		mLastBonePosition=pos;
	}
}
Ejemplo n.º 15
0
int initOgreAR(aruco::CameraParameters camParams, unsigned char* buffer, std::string resourcePath)
{
	/// INIT OGRE FUNCTIONS
#ifdef _WIN32
  	root = new Ogre::Root(resourcePath + "plugins_win.cfg", resourcePath + "ogre_win.cfg");
#elif __x86_64__ || __ppc64__
	root = new Ogre::Root(resourcePath + "plugins_x64.cfg", resourcePath + "ogre.cfg");
#else
	root = new Ogre::Root(resourcePath + "plugins.cfg", resourcePath + "ogre.cfg");
#endif
  	if (!root->showConfigDialog()) return -1;
	Ogre::SceneManager* smgr = root->createSceneManager(Ogre::ST_GENERIC);


	/// CREATE WINDOW, CAMERA AND VIEWPORT
    Ogre::RenderWindow* window = root->initialise(true);
	Ogre::Camera *camera;
	Ogre::SceneNode* cameraNode;
	camera = smgr->createCamera("camera");
	camera->setNearClipDistance(0.01f);
	camera->setFarClipDistance(10.0f);
	camera->setProjectionType(Ogre::PT_ORTHOGRAPHIC);
	camera->setPosition(0, 0, 0);
	camera->lookAt(0, 0, 1);
	double pMatrix[16];
	camParams.OgreGetProjectionMatrix(camParams.CamSize,camParams.CamSize, pMatrix, 0.05,10, false);
	Ogre::Matrix4 PM(pMatrix[0], pMatrix[1], pMatrix[2] , pMatrix[3],
			pMatrix[4], pMatrix[5], pMatrix[6] , pMatrix[7],
			pMatrix[8], pMatrix[9], pMatrix[10], pMatrix[11],
			pMatrix[12], pMatrix[13], pMatrix[14], pMatrix[15]);
	camera->setCustomProjectionMatrix(true, PM);
	camera->setCustomViewMatrix(true, Ogre::Matrix4::IDENTITY);
	window->addViewport(camera);
	cameraNode = smgr->getRootSceneNode()->createChildSceneNode("cameraNode");
	cameraNode->attachObject(camera);


	/// CREATE BACKGROUND FROM CAMERA IMAGE
	int width = camParams.CamSize.width;
	int height = camParams.CamSize.height;
	// create background camera image
	mPixelBox = Ogre::PixelBox(width, height, 1, Ogre::PF_R8G8B8, buffer);
	// Create Texture
	mTexture = Ogre::TextureManager::getSingleton().createManual("CameraTexture",Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME,
		      Ogre::TEX_TYPE_2D,width,height,0,Ogre::PF_R8G8B8,Ogre::TU_DYNAMIC_WRITE_ONLY_DISCARDABLE);

	//Create Camera Material
	Ogre::MaterialPtr material = Ogre::MaterialManager::getSingleton().create("CameraMaterial", Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
	Ogre::Technique *technique = material->createTechnique();
	technique->createPass();
	material->getTechnique(0)->getPass(0)->setLightingEnabled(false);
	material->getTechnique(0)->getPass(0)->setDepthWriteEnabled(false);
	material->getTechnique(0)->getPass(0)->createTextureUnitState("CameraTexture");

	Ogre::Rectangle2D* rect = new Ogre::Rectangle2D(true);
	rect->setCorners(-1.0, 1.0, 1.0, -1.0);
	rect->setMaterial("CameraMaterial");

	// Render the background before everything else
	rect->setRenderQueueGroup(Ogre::RENDER_QUEUE_BACKGROUND);

	// Hacky, but we need to set the bounding box to something big, use infinite AAB to always stay visible
	Ogre::AxisAlignedBox aabInf;
	aabInf.setInfinite();
	rect->setBoundingBox(aabInf);

	// Attach background to the scene
	Ogre::SceneNode* node = smgr->getRootSceneNode()->createChildSceneNode("Background");
	node->attachObject(rect);


	/// CREATE SIMPLE OGRE SCENE
	// add sinbad.mesh
	Ogre::ResourceGroupManager::getSingleton().addResourceLocation(resourcePath + "Sinbad.zip", "Zip", "Popular");
 	Ogre::ResourceGroupManager::getSingleton().initialiseAllResourceGroups();
	for(int i=0; i<MAX_MARKERS; i++) {
	  Ogre::String entityName = "Marker_" + Ogre::StringConverter::toString(i);
	  Ogre::Entity* ogreEntity = smgr->createEntity(entityName, "Sinbad.mesh");
	  Ogre::Real offset = ogreEntity->getBoundingBox().getHalfSize().y;
	  ogreNode[i] = smgr->getRootSceneNode()->createChildSceneNode();
	  // add entity to a child node to correct position (this way, entity axis is on feet of sinbad)
	  Ogre::SceneNode *ogreNodeChild = ogreNode[i]->createChildSceneNode();
	  ogreNodeChild->attachObject(ogreEntity);
	  // Sinbad is placed along Y axis, we need to rotate to put it along Z axis so it stands up over the marker
	  // first rotate along X axis, then add offset in Z dir so it is over the marker and not in the middle of it
	  ogreNodeChild->rotate(Ogre::Vector3(1,0,0), Ogre::Radian(Ogre::Degree(90)));
	  ogreNodeChild->translate(0,0,offset,Ogre::Node::TS_PARENT);
	  // mesh is too big, rescale!
	  const float scale = 0.006675f;
	  ogreNode[i]->setScale(scale, scale, scale);

	    // Init animation
	  ogreEntity->getSkeleton()->setBlendMode(Ogre::ANIMBLEND_CUMULATIVE);
	  if(i==0)
	  {
        baseAnim[i] = ogreEntity->getAnimationState("HandsClosed");
        topAnim[i] = ogreEntity->getAnimationState("HandsRelaxed");
	  }
	  else if(i==1)
	  {
        baseAnim[i] = ogreEntity->getAnimationState("Dance");
        topAnim[i] = ogreEntity->getAnimationState("Dance");
	  }
	  else if(i==2)
	  {
        baseAnim[i] = ogreEntity->getAnimationState("RunBase");
        topAnim[i] = ogreEntity->getAnimationState("RunTop");
	  }
	  else
	  {
        baseAnim[i] = ogreEntity->getAnimationState("IdleBase");
        topAnim[i] = ogreEntity->getAnimationState("IdleTop");
	  }
	  baseAnim[i]->setLoop(true);
	  topAnim[i]->setLoop(true);
	  baseAnim[i]->setEnabled(true);
	  topAnim[i]->setEnabled(true);
	}


 	/// KEYBOARD INPUT READING
 	size_t windowHnd = 0;
 	window->getCustomAttribute("WINDOW", &windowHnd);
 	im = OIS::InputManager::createInputSystem(windowHnd);
 	keyboard = static_cast<OIS::Keyboard*>(im->createInputObject(OIS::OISKeyboard, true));

	return 1;
}