void VarianceShadowMapHandler::createShadowMapsFBO(RenderAction *a, DrawEnv *pEnv) { UInt32 mSize = _pStage->getMapSize(); if(mSize > 2048) mSize = 2048; //------Setting up Window to fit size of ShadowMap---------------- // disable all lights more speed std::vector<bool> vLocalLightStates; const ShadowStageData::LightStore &vLights = _pStageData->getLights(); const ShadowStageData::LStateStore &vLightStates = _pStageData->getLightStates(); const ShadowStageData::CamStore &vLCams = _pStageData->getLightCameras(); const ShadowStageData::StatusStore &vExclActive = _pStageData->getExcludeNodeActive(); for(UInt32 i = 0;i < vLights.size();++i) { // store old states. vLocalLightStates.push_back(vLights[i].second->getOn()); vLights[i].second->setOn(false); } // activate exclude nodes: for(UInt32 i = 0;i < _pStage->getMFExcludeNodes()->size();++i) { Node *exnode = _pStage->getExcludeNodes(i); if(exnode != NULL) { if(vExclActive[i]) { exnode->setTravMask(0); } } } UInt32 uiActiveLightCount = 0; ShadowStageData::ShadowMapStore &vShadowMaps = _pStageData->getShadowMaps(); for(UInt32 i = 0;i < vLights.size();++i) { if(vLightStates[i] != 0) { if(_pStage->getGlobalShadowIntensity() != 0.0 || vLights[i].second->getShadowIntensity() != 0.0) { GLenum *buffers = NULL; buffers = new GLenum[1]; buffers[0] = GL_COLOR_ATTACHMENT0_EXT; Pnt3f lPos; bool isDirLight; Real32 sceneDiagLength; if(vLights[i].second->getType() == PointLight::getClassType()) { PointLight *tmpPoint; tmpPoint = dynamic_cast<PointLight *>(vLights[i].second.get()); lPos = tmpPoint->getPosition(); if(tmpPoint->getBeacon() != NULL) { Matrix m = tmpPoint->getBeacon()->getToWorld(); m.mult(lPos, lPos); } isDirLight = false; Pnt3f center; _pStageData->getLightRoot(i)->getVolume().getCenter(center); Vec3f dir = lPos - center; Real32 dirLength = dir.length(); Vec3f diff = (_pStageData->getLightRoot(i)->getVolume().getMax() - center); Real32 diffLength = diff.length(); sceneDiagLength = dirLength + diffLength; } else if(vLights[i].second->getType() == SpotLight::getClassType()) { SpotLight *tmpSpot; tmpSpot = dynamic_cast<SpotLight *>(vLights[i].second.get()); lPos = tmpSpot->getPosition(); if(tmpSpot->getBeacon() != NULL) { Matrix m = tmpSpot->getBeacon()->getToWorld(); m.mult(lPos, lPos); } isDirLight = false; Pnt3f center; _pStageData->getLightRoot(i)->getVolume().getCenter(center); Vec3f dir = lPos - center; Real32 dirLength = dir.length(); Vec3f diff = (_pStageData->getLightRoot(i)->getVolume().getMax() - center); Real32 diffLength = diff.length(); sceneDiagLength = dirLength + diffLength; } else { isDirLight = true; sceneDiagLength = 1.0; } if(_vDepthCmat.size() == uiActiveLightCount) { _vDepthCmat.push_back(ChunkMaterial::createLocal()); } OSG_ASSERT(uiActiveLightCount < _vDepthCmat.size()); if(_vDepthSHLVar.size() == uiActiveLightCount) { _vDepthSHLVar.push_back( SimpleSHLVariableChunk::createLocal()); #ifndef OSG_NEW_SHADER _vDepthSHLVar[uiActiveLightCount]->setSHLChunk(_depthSHL); #endif } OSG_ASSERT(uiActiveLightCount < _vDepthSHLVar.size()); _vDepthSHLVar[uiActiveLightCount]->addUniformVariable( "sceneDiagLength", Real32(sceneDiagLength)); _vDepthSHLVar[uiActiveLightCount]->addUniformVariable( "isDirLight", bool(isDirLight)); _vDepthCmat[uiActiveLightCount]->clearChunks(); _vDepthCmat[uiActiveLightCount]->addChunk(_depthSHL); _vDepthCmat[uiActiveLightCount]->addChunk( _vDepthSHLVar[uiActiveLightCount]); commitChanges(); _pStage->pushPartition(a); { RenderPartition *pPart = a->getActivePartition(); pPart->addPreRenderCallback( &ShadowTreeHandler::setupAmbientModel); pPart->addPostRenderCallback( &ShadowTreeHandler::endAmbientModel); pPart->setRenderTarget(vShadowMaps[i].pFBO); pPart->setDrawBuffer (*buffers ); pPart->setWindow (a->getWindow()); pPart->calcViewportDimension(0.f, 0.f, mSize - 1, mSize - 1, mSize, mSize); RenderFunctor f = boost::bind(&VarianceShadowMapHandler::genMipMapCB, this, _1, i); pPart->addPreRenderCallback(f); Matrix m, t; // set the projection vLCams[i]->getProjection( m, pPart->getViewportWidth (), pPart->getViewportHeight()); vLCams[i]->getProjectionTranslation( t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); vLCams[i]->getViewing( m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (vLCams[i]->getNear()); pPart->setFar (vLCams[i]->getFar ()); pPart->calcFrustum(); pPart->setBackground(_pClearSMapBack); Node *light = vLights[i].first; Node *parent = light->getParent(); if(parent != NULL) { a->pushMatrix(parent->getToWorld()); } a->overrideMaterial(_vDepthCmat[uiActiveLightCount], a->getActNode()); _pStage->recurse(a, light); a->overrideMaterial( NULL, a->getActNode()); if(parent != NULL) { a->popMatrix(); } } _pStage->popPartition(a); ++uiActiveLightCount; } } } //-------Restoring old states of Window and Viewport---------- // enable all lights. for(UInt32 i = 0;i < vLights.size();++i) { // restore old states. vLights[i].second->setOn(vLocalLightStates[i]); } // activate exclude nodes: for(UInt32 i = 0;i < _pStage->getMFExcludeNodes()->size();++i) { Node *exnode = _pStage->getExcludeNodes(i); if(exnode != NULL) { if(vExclActive[i]) { exnode->setTravMask(TypeTraits<UInt32>::BitsSet); } } } }
void DepthPeelingStage::setupRenderScene(RenderAction* a, Int32 iVPWidth, Int32 iVPHeight, bool isInitial, bool isPing ) { this->pushPartition(a); { RenderPartition *pPart = a->getActivePartition(); FrameBufferObject *pTarget = NULL; Viewarea *pArea = a->getViewarea (); Camera *pCam = a->getCamera (); Background *pBack = NULL; DepthPeelingStageDataUnrecPtr pData = a->getData<DepthPeelingStageData *>(_iDataSlotId); if(!pData) { this->initData(a, iVPWidth, iVPHeight); } else { this->updateData(a, iVPWidth, iVPHeight); } pData = a->getData<DepthPeelingStageData *>(_iDataSlotId); if (isInitial) { pTarget = pData->getBlendFBO(); pBack = a->getBackground (); } else { if (isPing) pTarget = pData->getPeelPingFBO(); else pTarget = pData->getPeelPongFBO(); pBack = pData->getBackground(); } pPart->setRenderTarget(pTarget); if(pArea != NULL) { pPart->setWindow (a->getWindow()); if(pTarget != NULL) { pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), pTarget->getWidth (), pTarget->getHeight ()); } else { pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), a->getWindow()->getWidth (), a->getWindow()->getHeight()); } if(pCam != NULL) { Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum(); } pPart->setBackground(pBack); } pPart->addSetupModeBit(RenderPartition::BackgroundSetup); pPart->pushState(); if (!isInitial) { FrameBufferObject* fbo = isPing ? pData->getPeelPongFBO() : pData->getPeelPingFBO(); TextureBuffer* texbuf = static_cast<TextureBuffer *>(fbo->getDepthAttachment()); TextureObjChunk* depthTexChunk = texbuf->getTexture(); pPart->addOverride(depthTexChunk->getClassId() + getDepthTexUnit(), depthTexChunk ); pPart->addOverride(pData->getSpvIsPeelChunk()->getClassId(), pData->getSpvIsPeelChunk() ); } else { pPart->addOverride(pData->getSpvIsInitialChunk()->getClassId(), pData->getSpvIsInitialChunk() ); } pPart->addOverride(pData->getDepthChunk()->getClassId(), pData->getDepthChunk() ); this->recurseFromThis(a); a->useNodeList(false); pPart->popState(); } this->popPartition(a); }
void PCSSShadowMapHandler::createShadowMapsFBO(RenderAction *a, DrawEnv *pEnv) { // disable all lights more speed std::vector<bool> vLocalLightStates; const ShadowStageData::LightStore &vLights = _pStageData->getLights(); const ShadowStageData::LStateStore &vLightStates = _pStageData->getLightStates(); const ShadowStageData::CamStore &vLCams = _pStageData->getLightCameras(); const ShadowStageData::TravMaskStore &vExclTravMask = _pStageData->getExcludeNodeTravMask(); for(UInt32 i = 0;i < vLights.size();++i) { // store old states. vLocalLightStates.push_back(vLights[i].second->getOn()); vLights[i].second->setOn(false); } // deactivate exclude nodes: for(UInt32 i = 0;i < _pStage->getMFExcludeNodes()->size();++i) { Node *exnode = _pStage->getExcludeNodes(i); if(exnode != NULL) exnode->setTravMask(0); } ShadowStageData::ShadowMapStore &vShadowMaps = _pStageData->getShadowMaps(); for(UInt32 i = 0;i < vLights.size();++i) { if(vLightStates[i] != 0) { if(_pStage->getGlobalShadowIntensity() != 0.0 || vLights[i].second->getShadowIntensity() != 0.0) { _pStage->pushPartition(a); { RenderPartition *pPart = a->getActivePartition(); pPart->addPreRenderCallback( &ShadowTreeHandler::setupAmbientModelAndMasks); pPart->addPostRenderCallback( &ShadowTreeHandler::endAmbientModelAndMasks); pPart->setRenderTarget(vShadowMaps[i].pFBO); pPart->setWindow (a->getWindow()); pPart->calcViewportDimension(0.f, 0.f, _pStage->getMapSize()-1, _pStage->getMapSize()-1, _pStage->getMapSize(), _pStage->getMapSize() ); Matrix m, t; // set the projection vLCams[i]->getProjection( m, pPart->getViewportWidth (), pPart->getViewportHeight()); vLCams[i]->getProjectionTranslation( t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); vLCams[i]->getViewing( m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (vLCams[i]->getNear()); pPart->setFar (vLCams[i]->getFar ()); pPart->calcFrustum(); pPart->setBackground(_pClearSMapBack); Node *light = vLights[i].first; Node *parent = light->getParent(); if(parent != NULL) { a->pushMatrix(parent->getToWorld()); } a->overrideMaterial(_unlitMat, a->getActNode()); _pStage->recurse(a, light); a->overrideMaterial( NULL, a->getActNode()); if(parent != NULL) { a->popMatrix(); } } _pStage->popPartition(a); } } } //-------Restoring old states of Window and Viewport---------- // enable all lights. for(UInt32 i = 0;i < vLights.size();++i) { // restore old states. vLights[i].second->setOn(vLocalLightStates[i]); } // activate exclude nodes: for(UInt32 i = 0;i < _pStage->getMFExcludeNodes()->size();++i) { Node *exnode = _pStage->getExcludeNodes(i); if(exnode != NULL) { exnode->setTravMask(vExclTravMask[i]); } } }
Action::ResultE HDRStage::renderEnter(Action *action) { RenderAction *a = dynamic_cast<RenderAction *>(action); a->disableDefaultPartition(); Int32 iVPWidth = a->getActivePartition()->getViewportWidth (); Int32 iVPHeight = a->getActivePartition()->getViewportHeight(); this->beginPartitionGroup(a); { this->pushPartition(a); { RenderPartition *pPart = a ->getActivePartition(); FrameBufferObject *pTarget = this->getRenderTarget (); Viewarea *pArea = a ->getViewarea (); Camera *pCam = a ->getCamera (); Background *pBack = a ->getBackground (); if(pTarget == NULL) { this->initData(a, iVPWidth, iVPHeight); pTarget = this->getRenderTarget(); } else { this->updateData(a, iVPWidth, iVPHeight); } pPart->setRenderTarget(pTarget); pPart->getDrawEnv().setTargetBufferFormat(this->getBufferFormat()); #ifdef OSG_DEBUGX std::string szMessage("HDR: RenderPartition\n"); pPart->setDebugString(szMessage ); #endif if(pArea != NULL) { pPart->setWindow (a->getWindow()); if(pTarget != NULL) { #if 0 pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), pTarget->getWidth (), pTarget->getHeight ()); #endif pPart->calcViewportDimension(0.f, 0.f, 1.f, 1.f, pTarget->getWidth (), pTarget->getHeight ()); } else { pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), a->getWindow()->getWidth (), a->getWindow()->getHeight()); } if(pCam != NULL) { Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum(); } pPart->setBackground(pBack); } this->recurseFromThis(a); } this->popPartition(a); a->getActivePartition()->disable(); this->pushPartition(a, (RenderPartition::CopyWindow | RenderPartition::CopyViewportSize | RenderPartition::CopyTarget ), RenderPartition::SimpleCallback ); { RenderPartition *pPart = a->getActivePartition(); #ifdef OSG_DEBUGX std::string szMessage("HDR: PostProcessPartition\n"); pPart->setDebugString(szMessage ); #endif Matrix m, t; m.setIdentity(); t.setIdentity(); MatrixOrthogonal( m, 0.f, 1.f, 0.f, 1.f, -1.f, 1.f); pPart->setupProjection(m, t); RenderPartition::SimpleDrawCallback f; f = boost::bind(&HDRStage::postProcess, this, _1); pPart->dropFunctor(f); } this->popPartition(a); } this->endPartitionGroup(a); return Action::Skip; }
Action::ResultE PostShaderStage::renderEnter(Action *action) { RenderAction *a = dynamic_cast<RenderAction *>(action); a->disableDefaultPartition(); this->beginPartitionGroup(a); { this->pushPartition(a); { RenderPartition *pPart = a->getActivePartition(); FrameBufferObject *pTarget = this->getRenderTarget(); Viewarea *pArea = a->getViewarea(); Camera *pCam = a->getCamera (); Background *pBack = a->getBackground(); if(pTarget == NULL) { this->initData(a); pTarget = this->getRenderTarget(); } pPart->setRenderTarget(pTarget); #ifdef OSG_DEBUGX std::string szMessage("RenderPartition\n"); pPart->setDebugString(szMessage ); #endif if(pArea != NULL) { // pPart->setViewport(pPort ); pPart->setWindow (a->getWindow()); if(pTarget != NULL) { #if 0 pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), pTarget->getWidth (), pTarget->getHeight ()); #endif pPart->calcViewportDimension(0.f, 0.f, 1.f, 1.f, pTarget->getWidth (), pTarget->getHeight ()); } else { pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), a->getWindow()->getWidth (), a->getWindow()->getHeight()); } if(pCam != NULL) { Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum(); } pPart->setBackground(pBack); } this->recurseFromThis(a); } this->popPartition(a); this->pushPartition(a, (RenderPartition::CopyWindow | RenderPartition::CopyViewportSize), RenderPartition::SimpleCallback ); { RenderPartition *pPart = a->getActivePartition(); #ifdef OSG_DEBUGX std::string szMessage("PostProcessPartition\n"); pPart->setDebugString(szMessage ); #endif Matrix m, t; m.setIdentity(); t.setIdentity(); MatrixOrthogonal( m, 0.f, 1.f, 0.f, 1.f, -1.f, 1.f); pPart->setupProjection(m, t); RenderPartition::SimpleDrawCallback f; f = boost::bind(&PostShaderStage::postProcess, this, _1); pPart->dropFunctor(f); } this->popPartition(a); } this->endPartitionGroup(a); RenderPassVector::iterator passIt = _vPostProcessPasses.begin(); //Update the uniform parameters to the shader for(; passIt != _vPostProcessPasses.end(); ++passIt) { (*passIt)->updateUniformVariables(a); } return Action::Skip; }
ActionBase::ResultE CubeMapGenerator::renderEnter(Action *action) { static Matrix transforms[] = { Matrix( 1, 0, 0, 0, 0, -1, 0, 0, 0, 0, -1, 0, 0, 0, 0, 1), Matrix(-1, 0, 0, 0, 0, -1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1), Matrix( 1, 0, 0, 0, 0, 0, -1, 0, 0, 1, 0, 0, 0, 0, 0, 1), Matrix( 1, 0, 0, 0, 0, 0, 1, 0, 0, -1, 0, 0, 0, 0, 0, 1), Matrix( 0, 0, -1, 0, 0, -1, 0, 0, -1, 0, 0, 0, 0, 0, 0, 1), Matrix( 0, 0, 1, 0, 0, -1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 1) }; RenderAction *a = dynamic_cast<RenderAction *>(action); Action::ResultE returnValue = Action::Continue; Background *pBack = a->getBackground(); Viewport *pPort = a->getViewport(); Node *pActNode = a->getActNode(); CubeMapGeneratorStageData *pData = a->getData<CubeMapGeneratorStageData *>(_iDataSlotId); if(pData == NULL) { pData = this->initData(a); } TraversalValidator::ValidationStatus eStatus = this->validateOnEnter(a); if(eStatus == TraversalValidator::Run) { this->beginPartitionGroup(a); { FrameBufferObject *pTarget = this->getRenderTarget(); if(pTarget == NULL) { pTarget = pData->getRenderTarget(); } Pnt3f oOrigin; if(this->getOriginMode() == CubeMapGenerator::UseStoredValue) { oOrigin = this->getOrigin(); } else if(this->getOriginMode() == CubeMapGenerator::UseBeacon) { fprintf(stderr, "CubemapGen::UseBeacon NYI\n"); } else if(this->getOriginMode() == CubeMapGenerator::UseCurrentVolumeCenter) { BoxVolume oWorldVol; commitChanges(); pActNode->updateVolume(); pActNode->getWorldVolume(oWorldVol); oWorldVol.getCenter(oOrigin); } else if(this->getOriginMode() == CubeMapGenerator::UseParentsVolumeCenter) { fprintf(stderr, "CubemapGen::UseParentsCenter NYI\n"); } Camera *pCam = pData->getCamera(); pActNode->setTravMask(0); for(UInt32 i = 0; i < 6; ++i) { this->pushPartition(a); { RenderPartition *pPart = a->getActivePartition(); pPart->setVolumeDrawing(false); pPart->setRenderTarget(pTarget ); pPart->setWindow (a->getWindow()); pPart->calcViewportDimension(0, 0, 1, 1, this->getWidth (), this->getHeight()); Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); m = transforms[i]; m[3][0] = oOrigin[0]; m[3][1] = oOrigin[1]; m[3][2] = oOrigin[2]; m.invert(); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum(); if(this->getBackground() == NULL) { pPart->setBackground(pBack); } else { pPart->setBackground(this->getBackground()); } if(this->getRoot() != NULL) { this->recurse(a, this->getRoot()); } else { this->recurse(a, pPort->getRoot()); } pPart->setDrawBuffer(GL_COLOR_ATTACHMENT0_EXT + i); #ifdef OSG_DEBUGX std::string szMessage("CubeX\n"); pPart->setDebugString(szMessage ); #endif } this->popPartition(a); } pActNode->setTravMask(~0); } this->endPartitionGroup(a); } OSG_ASSERT(pActNode == a->getActNode()); returnValue = Inherited::renderEnter(action); action->useNodeList(false); return returnValue; }
void VRShadowEngine::doLightPass(Light *pLight, RenderAction *pAction, EngineDataPtr pEngineData) { this->pushPartition(pAction); RenderPartition *pPart = pAction ->getActivePartition(); Viewarea *pArea = pAction ->getViewarea (); Background *pBack = pAction ->getBackground (); FrameBufferObject *pTarget = pEngineData->getRenderTarget(); if(pTarget == NULL) { FrameBufferObjectUnrecPtr pFBO = FrameBufferObject::createLocal(); pFBO->setWidth (this->getWidth ()); pFBO->setHeight(this->getHeight()); pEngineData->setRenderTarget(pFBO); pTarget = pFBO; } TextureObjChunk *pTexChunk = pEngineData->getTexChunk(); TextureBufferUnrecPtr pTexBuffer = pEngineData->getTexBuffer(); if(pTexBuffer == NULL) { pTexBuffer = TextureBuffer::createLocal(); pEngineData->setTexBuffer (pTexBuffer); pTexBuffer->setTexture (pTexChunk ); pTarget ->setDepthAttachment(pTexBuffer); } PolygonChunkUnrecPtr pPoly = pEngineData->getPolyChunk(); if(pPoly == NULL) { pPoly = PolygonChunk::createLocal(); pPoly->setOffsetBias (this->getOffsetBias ()); pPoly->setOffsetFactor(this->getOffsetFactor()); pPoly->setOffsetFill (true ); pEngineData->setPolyChunk(pPoly); } pPart->setRenderTarget(pTarget); if(pArea != NULL) { Camera *pCam = pEngineData->getCamera(); pPart->setWindow (pAction->getWindow()); pPart->calcViewportDimension(0.f, 0.f, 1.f, 1.f, pTarget->getWidth (), pTarget->getHeight ()); Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum (); pPart->setBackground(pBack); } Node *pActNode = pAction->getActNode(); pAction->overrideMaterial(_pLightPassMat, pActNode); pAction->pushState(); UInt32 uiPolySlot = pPoly->getClassId(); pAction->addOverride (uiPolySlot, pPoly); // lightRenderEnter(pLight, pAction); pAction->useNodeList(false); this->recurseFrom(pAction, pLight); pAction->popState(); pAction->overrideMaterial(NULL, pActNode); this->popPartition(pAction); }
Action::ResultE DisplayFilterStage::renderEnter(Action *action) { RenderAction *ract = dynamic_cast<RenderAction *>(action); if(ract == NULL) return Action::Continue; DisplayFilterStageDataUnrecPtr pData = ract->getData<DisplayFilterStageData *>(_iDataSlotId); DrawEnv &oEnv = ract->getActivePartition()->getDrawEnv(); bool bFilterActive = false; RenderPartition::Mode partMode = RenderPartition::StateSorting; CalibrationPatternFilter *pCalibFilter = NULL; ResolutionDisplayFilter *pResFilter = NULL; DistortionDisplayFilter *pDistFilter = NULL; ColorDisplayFilter *pColFilter = NULL; bool bDoDraw = true; if(_mfFilterGroups.size() == 0) { pCalibFilter = this->getCalibrationPatternFilter(); pResFilter = this->getResolutionFilter(); pColFilter = this->getColorFilter(); pDistFilter = this->getDistortionFilter(); } else { // Linear search, optimize of needed MFFilterGroupsType::const_iterator gIt = _mfFilterGroups.begin(); MFFilterGroupsType::const_iterator gEnd = _mfFilterGroups.end (); for(; gIt != gEnd; ++gIt) { if((*gIt)->matches(oEnv.getDrawerId(), oEnv.getDrawableId()) == true) { pCalibFilter = (*gIt)->getCalibrationPatternFilter(); pResFilter = (*gIt)->getResolutionFilter(); pColFilter = (*gIt)->getColorFilter(); pDistFilter = (*gIt)->getDistortionFilter(); bDoDraw = ((*gIt)->matches(this->getActiveGroup(), oEnv. getDrawableId ()) == true) || (this->getActiveGroup() == -1 ) ; break; } } } if(pCalibFilter != NULL && pCalibFilter->getEnabled() == true) { if(pData != NULL) pData->setCalibFilter(pCalibFilter); bFilterActive = true; partMode = RenderPartition::SimpleCallback; } else { if(pData != NULL) pData->setCalibFilter(NULL); } if(pColFilter != NULL && pColFilter->getEnabled() == true ) { if(pData != NULL) pData->setColFilter(pColFilter); bFilterActive = true; } else { if(pData != NULL) { pData->setColFilter(NULL); ColorDisplayFilter::deactivate(pData); } } if(pDistFilter != NULL && pDistFilter->getEnabled() == true ) { if(pData != NULL) pData->setDistFilter(pDistFilter); bFilterActive = true; } else { if(pData != NULL) pData->setDistFilter(NULL); } UInt32 uiTargetWidth = oEnv.getPixelWidth (); UInt32 uiTargetHeight = oEnv.getPixelHeight(); Int32 iLeft = oEnv.getPixelLeft (); Int32 iRight = oEnv.getPixelRight (); Int32 iBottom = oEnv.getPixelBottom(); Int32 iTop = oEnv.getPixelTop (); if(pResFilter != NULL && pResFilter->getEnabled() == true ) { bFilterActive = true; uiTargetWidth = UInt32(uiTargetWidth * pResFilter->getDownScale()); uiTargetHeight = UInt32(uiTargetHeight * pResFilter->getDownScale()); iLeft = Int32(iLeft * pResFilter->getDownScale()); iRight = Int32(iRight * pResFilter->getDownScale()); iBottom = Int32(iBottom * pResFilter->getDownScale()); iTop = Int32(iTop * pResFilter->getDownScale()); } if(pData == NULL) { pData = setupStageData(uiTargetWidth, uiTargetHeight); if(pData == NULL) return Action::Continue; this->setData(pData, _iDataSlotId, ract); pData->setColFilter (pColFilter ); pData->setDistFilter (pDistFilter ); pData->setCalibFilter(pCalibFilter); } if((pData->getWidth () != uiTargetWidth ) || (pData->getHeight() != uiTargetHeight) ) { resizeStageData(pData, uiTargetWidth, uiTargetHeight); } if(bFilterActive == false) return Action::Continue; ract->disableDefaultPartition(); this->beginPartitionGroup(ract); { this->pushPartition(ract, 0x0000, partMode); { RenderPartition *pPart = ract ->getActivePartition(); FrameBufferObject *pTarget = pData->getTarget(); Viewarea *pArea = ract ->getViewarea(); Camera *pCam = ract ->getCamera (); Background *pBack = ract ->getBackground(); pPart->setRenderTarget(pTarget); if(pArea != NULL) { pPart->setWindow(ract->getWindow()); if(pTarget != NULL) { pPart->calcViewportDimension(iLeft , iBottom, iRight , iTop , pTarget->getWidth (), pTarget->getHeight ()); } else { pPart->calcViewportDimension( pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), ract->getWindow()->getWidth (), ract->getWindow()->getHeight()); } if(pCam != NULL) { Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum(); } pPart->setBackground(pBack); } if(pCalibFilter != NULL && pCalibFilter->getEnabled() == true) { RenderPartition::SimpleDrawCallback f; if(bDoDraw == true) { f = boost::bind(&DisplayFilterStage::processCalibActive, this, _1); } else { f = boost::bind(&DisplayFilterStage::processCalibInactive, this, _1); } pPart->dropFunctor(f); } else { MFForegroundsType::const_iterator fIt = this->getMFForegrounds()->begin(); MFForegroundsType::const_iterator fEnd = this->getMFForegrounds()->end (); for(; fIt != fEnd; ++fIt) { pPart->pushToForegrounds(*fIt); } this->recurseFromThis(ract); } } this->popPartition(ract); this->pushPartition(ract, (RenderPartition::CopyWindow | RenderPartition::CopyViewportSize), RenderPartition::SimpleCallback); { RenderPartition *pPart = ract->getActivePartition(); Matrix m, t; m.setIdentity(); t.setIdentity(); MatrixOrthogonal( m, 0.f, 1.f, 0.f, 1.f, -1.f, 1.f); pPart->setupProjection(m, t); RenderPartition::SimpleDrawCallback f; f = boost::bind(&DisplayFilterStage::postProcess, this, _1); pPart->dropFunctor(f); } this->popPartition(ract); } this->endPartitionGroup(ract); return Action::Skip; }
Action::ResultE Stage::renderEnter(Action *action) { RenderAction *a = dynamic_cast<RenderAction *>(action); if(a == NULL) return Action::Continue; RenderPartition *pParentPart = a->getActivePartition(); FrameBufferObject *pTarget = this->getRenderTarget(); if(pTarget == NULL && this->getInheritedTarget() == true) { pTarget = pParentPart->getRenderTarget(); } this->pushPartition(a); RenderPartition *pPart = a->getActivePartition(); Viewarea *pArea = a->getViewarea(); Camera *pCam = a->getCamera (); Background *pBack = a->getBackground(); pPart->setRenderTarget(pTarget); if(pArea != NULL) { pPart->setWindow (a->getWindow()); if(pTarget != NULL) { pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), pTarget->getWidth (), pTarget->getHeight ()); } else { pPart->calcViewportDimension(pArea->getLeft (), pArea->getBottom(), pArea->getRight (), pArea->getTop (), a->getWindow()->getWidth (), a->getWindow()->getHeight()); } if(pCam != NULL) { Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum(); } } pPart->setBackground(pBack); return Action::Continue; }
ActionBase::ResultE GroupingStage::renderEnter(Action *action) { RenderAction *a = dynamic_cast<RenderAction *>(action); if(a == NULL) return ActionBase::Continue; #if 0 RenderPartition *pParentPart = a ->getActivePartition(); FrameBufferObject *pTarget = pParentPart->getRenderTarget(); #endif this->pushPartition(a, RenderPartition::CopyAll); RenderPartition *pPart = a->getActivePartition(); Inherited::addCallbacks(pPart); #if 0 RenderPartition *pParentPart = a ->getActivePartition(); FrameBufferObject *pTarget = this->getRenderTarget(); Background *pBack = this->getBackground(); Viewport *pPort = a->getViewport(); Window *pWin = a->getWindow (); if(pTarget == NULL && this->getInheritedTarget() == true) { pTarget = pParentPart->getRenderTarget(); } RenderPartition *pPart = a->getActivePartition(); Camera *pCam = this->getCamera(); pPart->setRenderTarget(pTarget); // pPart->setViewport(pPort); pPart->setWindow (pWin ); if(pTarget != NULL) { pPart->calcViewportDimension(this->getLeft (), this->getBottom(), this->getRight (), this->getTop (), pTarget->getWidth (), pTarget->getHeight ()); } else if(pWin != NULL) { pPart->calcViewportDimension(this->getLeft (), this->getBottom(), this->getRight (), this->getTop (), pWin->getWidth (), pWin->getHeight ()); } if(pCam != NULL) { Matrix m, t; // set the projection pCam->getProjection (m, pPart->getViewportWidth (), pPart->getViewportHeight()); pCam->getProjectionTranslation(t, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupProjection(m, t); pCam->getViewing(m, pPart->getViewportWidth (), pPart->getViewportHeight()); pPart->setupViewing(m ); pPart->setNear (pCam->getNear()); pPart->setFar (pCam->getFar ()); pPart->calcFrustum ( ); } this->fillPreRenderStore(vCallbackStore); GroupingStage::RenderFunctorStore::const_iterator cbIt = vCallbackStore.begin(); GroupingStage::RenderFunctorStore::const_iterator cbEnd = vCallbackStore.end (); while(cbIt != cbEnd) { pPart->addPreRenderCallback(*cbIt); ++cbIt; } vCallbackStore.clear(); this->fillPostRenderStore(vCallbackStore); cbIt = vCallbackStore.begin(); cbEnd = vCallbackStore.end (); while(cbIt != cbEnd) { pPart->addPostRenderCallback(*cbIt); ++cbIt; } pPart->setBackground(pBack); #endif return ActionBase::Continue; }