void SimpleGMap2::cb_initGL() { Utils::GLSLShader::setCurrentOGLVersion(1) ; Geom::BoundingBox<VEC3> bb = Algo::Geometry::computeBoundingBox<PFP>(myMap, position) ; VEC3 gPosObj = bb.center() ; float tailleX = bb.size(0) ; float tailleY = bb.size(1) ; float tailleZ = bb.size(2) ; float gWidthObj = std::max<float>(std::max<float>(tailleX, tailleY), tailleZ) ; setParamObject(gWidthObj, gPosObj.data()); }
void SimpleGMap3::cb_initGL() { Geom::BoundingBox<PFP::VEC3> bb = Algo::Geometry::computeBoundingBox<PFP>(myMap, position) ; VEC3 gPosObj = bb.center() ; float tailleX = bb.size(0) ; float tailleY = bb.size(1) ; float tailleZ = bb.size(2) ; float gWidthObj = std::max<float>(std::max<float>(tailleX, tailleY), tailleZ) ; setParamObject(gWidthObj, gPosObj.data()); m_render_topo = new Algo::Render::GL2::Topo3RenderGMap<PFP>(); m_render_topo->setDartWidth(2.0f); m_render_topo->setInitialDartsColor(1.0f,1.0f,1.0f); m_render_topo->updateData(myMap, position, 0.9f,0.9f,0.8f); }
void SimpleVisu::cb_redraw(Scene* scene){ while(!l_waitingAssoc.isEmpty()){ QPair<Scene*,MapHandler*> p= l_waitingAssoc.takeFirst(); Scene* s= p.first; if(h_info.find(s)==h_info.end()){ MapHandler* vh= p.second; VBOHandler* vboPosition, *vboNormal; if(!(vboPosition=vh->findVBO("positionVBO"))){ vboPosition= vh->addNewVBO("positionVBO"); } if(!(vboNormal=vh->findVBO("normalVBO"))){ vboNormal= vh->addNewVBO("normalVBO"); } PFP::MAP* map= (PFP::MAP*)vh->map(); VertexAttribute<VEC3> position= map->getAttribute<PFP::VEC3, VERTEX>("position"); VertexAttribute<VEC3> normal= map->getAttribute<PFP::VEC3, VERTEX>("normal") ; if(!normal.isValid()){ normal= map->addAttribute<PFP::VEC3, VERTEX>("normal"); if(position.isValid()){ Algo::Geometry::computeNormalVertices<PFP>(*map, position, normal) ; } } Algo::Render::GL2::MapRender* render= NULL; bool valid= position.isValid() && normal.isValid(); if(valid){ vboPosition->updateData(position); vboNormal->updateData(normal) ; render= new Algo::Render::GL2::MapRender(); render->initPrimitives<PFP>(*map, allDarts, Algo::Render::GL2::POINTS) ; render->initPrimitives<PFP>(*map, allDarts, Algo::Render::GL2::LINES) ; render->initPrimitives<PFP>(*map, allDarts, Algo::Render::GL2::TRIANGLES) ; Geom::BoundingBox<PFP::VEC3> bb = Algo::Geometry::computeBoundingBox<PFP>(*map, position) ; s->firstViewFitSphere(bb.center()[0], bb.center()[1], bb.center()[2], bb.maxSize()); } MyContainer mc(map,vboPosition,vboNormal,position,normal,render); mc.valid=valid; h_info.insert(s,mc); } } QHash<Scene*, MyContainer>::iterator it; if(scene && (it=h_info.find(scene))!=h_info.end() && it->valid){ VBOHandler* vboPosition= it->vbos.first; VBOHandler* vboNormal= it->vbos.second; Algo::Render::GL2::MapRender* render= it->render; m_phongShader->setAttributePosition(vboPosition) ; m_phongShader->setAttributeNormal(vboNormal) ; m_flatShader->setAttributePosition(vboPosition) ; m_vectorShader->setAttributePosition(vboPosition) ; m_vectorShader->setAttributeVector(vboNormal) ; m_simpleColorShader->setAttributePosition(vboPosition) ; m_pointSprite->setAttributePosition(vboPosition) ; if(m_drawVertices) { float size = vertexScaleFactor ; m_pointSprite->setSize(size) ; m_pointSprite->predraw(Geom::Vec3f(0.0f, 0.0f, 1.0f)) ; render->draw(m_pointSprite, Algo::Render::GL2::POINTS) ; m_pointSprite->postdraw() ; } if(m_drawEdges) { glLineWidth(1.0f) ; render->draw(m_simpleColorShader, Algo::Render::GL2::LINES) ; } if(m_drawFaces) { glPolygonMode(GL_FRONT_AND_BACK, GL_FILL) ; glEnable(GL_LIGHTING) ; glEnable(GL_POLYGON_OFFSET_FILL) ; glPolygonOffset(1.0f, 1.0f) ; switch(m_renderStyle) { case FLAT : m_flatShader->setExplode(faceShrinkage) ; render->draw(m_flatShader, Algo::Render::GL2::TRIANGLES) ; break ; case PHONG : render->draw(m_phongShader, Algo::Render::GL2::TRIANGLES) ; break ; } glDisable(GL_POLYGON_OFFSET_FILL) ; } if(m_drawNormals) { float size = normalBaseSize * normalScaleFactor ; m_vectorShader->setScale(size) ; glLineWidth(1.0f) ; render->draw(m_vectorShader, Algo::Render::GL2::POINTS) ; } } // if(scene){ // for(int i=0; i<l_map.size(); ++i){ // if(!initOK){ // initVBOs(scene); // } // // PFP::MAP* myMap= (PFP::MAP*)l_map[i]; // if(!fited){ // // Geom::BoundingBox<PFP::VEC3> bb = Algo::Geometry::computeBoundingBox<PFP>((*myMap), m_position) ; // scene->firstViewFitSphere(bb.center()[0], bb.center()[1], bb.center()[2], bb.maxSize()); // // fited= true; // } // // if(m_drawVertices /*&& position_ok*/) // { // float size = vertexScaleFactor ; // m_pointSprite->setSize(size) ; // m_pointSprite->predraw(Geom::Vec3f(0.0f, 0.0f, 1.0f)) ; // m_render->draw(m_pointSprite, Algo::Render::GL2::POINTS) ; // m_pointSprite->postdraw() ; // } // // if(m_drawEdges /*&& position_ok*/) // { // glLineWidth(1.0f) ; // m_render->draw(m_simpleColorShader, Algo::Render::GL2::LINES) ; // } // // if(m_drawFaces /*&& position_ok*/) // { // glPolygonMode(GL_FRONT_AND_BACK, GL_FILL) ; // glEnable(GL_LIGHTING) ; // glEnable(GL_POLYGON_OFFSET_FILL) ; // glPolygonOffset(1.0f, 1.0f) ; // switch(m_renderStyle) // { // case FLAT : // m_flatShader->setExplode(faceShrinkage) ; // m_render->draw(m_flatShader, Algo::Render::GL2::TRIANGLES) ; // break ; // case PHONG : //// if(normal_ok){ // m_render->draw(m_phongShader, Algo::Render::GL2::TRIANGLES) ; //// } // break ; // } // glDisable(GL_POLYGON_OFFSET_FILL) ; // } // // // if(m_drawNormals /*&& normal_ok && position_ok*/) // { // float size = normalBaseSize * normalScaleFactor ; // m_vectorShader->setScale(size) ; // glLineWidth(1.0f) ; // m_render->draw(m_vectorShader, Algo::Render::GL2::POINTS) ; // } // } // } }
void SimpleVisu::cb_initGL(Scene* scene){ if(scene && h_info.find(scene)==h_info.end()){ int t; if(((t=l_recievedScene.size())>0) && t<=l_map.size()){ MapHandler* vh= l_map[l_recievedScene.size()-1]; VBOHandler* vboPosition, *vboNormal; if(!(vboPosition=vh->findVBO("positionVBO"))){ vboPosition= vh->addNewVBO("positionVBO"); } if(!(vboNormal=vh->findVBO("normalVBO"))){ vboNormal= vh->addNewVBO("normalVBO"); } PFP::MAP* map= (PFP::MAP*)vh->map(); VertexAttribute<VEC3> position= map->getAttribute<PFP::VEC3, VERTEX>("position"); VertexAttribute<VEC3> normal= map->getAttribute<PFP::VEC3, VERTEX>("normal") ; if(!normal.isValid()){ normal= map->addAttribute<PFP::VEC3, VERTEX>("normal"); if(position.isValid()){ Algo::Geometry::computeNormalVertices<PFP>(*map, position, normal) ; } } Algo::Render::GL2::MapRender* render= NULL; bool valid= position.isValid() && normal.isValid(); if(valid){ vboPosition->updateData(position); vboNormal->updateData(normal) ; render= new Algo::Render::GL2::MapRender(); render->initPrimitives<PFP>(*map, allDarts, Algo::Render::GL2::POINTS) ; render->initPrimitives<PFP>(*map, allDarts, Algo::Render::GL2::LINES) ; render->initPrimitives<PFP>(*map, allDarts, Algo::Render::GL2::TRIANGLES) ; Geom::BoundingBox<PFP::VEC3> bb = Algo::Geometry::computeBoundingBox<PFP>(*map, position) ; scene->firstViewFitSphere(bb.center()[0], bb.center()[1], bb.center()[2], bb.maxSize()); } MyContainer mc(map,vboPosition,vboNormal,position,normal,render); mc.valid=valid; h_info.insert(scene,mc); } } if(!init && scene){ // m_render = new Algo::Render::GL2::MapRender() ; m_phongShader = new Utils::ShaderPhong() ; // m_phongShader->setAttributePosition(m_positionVBO) ; // m_phongShader->setAttributeNormal(m_normalVBO) ; m_phongShader->setAmbiant(colClear) ; m_phongShader->setDiffuse(colDif) ; m_phongShader->setSpecular(colSpec) ; m_phongShader->setShininess(shininess) ; m_flatShader = new Utils::ShaderFlat() ; // m_flatShader->setAttributePosition(m_positionVBO) ; m_flatShader->setAmbiant(colClear) ; m_flatShader->setDiffuse(colDif) ; m_flatShader->setExplode(faceShrinkage) ; m_vectorShader = new Utils::ShaderVectorPerVertex() ; // m_vectorShader->setAttributePosition(m_positionVBO) ; // m_vectorShader->setAttributeVector(m_normalVBO) ; m_vectorShader->setColor(colNormal) ; m_simpleColorShader = new Utils::ShaderSimpleColor() ; // m_simpleColorShader->setAttributePosition(m_positionVBO) ; Geom::Vec4f c(0.1f, 0.1f, 0.1f, 1.0f) ; m_simpleColorShader->setColor(c) ; m_pointSprite = new Utils::PointSprite() ; // m_pointSprite->setAttributePosition(m_positionVBO) ; GLSLShader::registerShader(NULL,m_phongShader) ; GLSLShader::registerShader(NULL,m_flatShader) ; GLSLShader::registerShader(NULL,m_vectorShader) ; GLSLShader::registerShader(NULL,m_simpleColorShader) ; GLSLShader::registerShader(NULL,m_pointSprite) ; init=true; } }