void BccWorld::draw() { // BoundingBox box; // m_grid->getBounding(box); // glColor3f(.21f, .21f, .21f); // m_drawer->boundingBox(box); // m_grid->draw(m_drawer, (unsigned *)m_mesh.m_anchorBuf->data()); drawTetrahedronMesh(); drawAnchor(); drawTriangleMesh(); glDisable(GL_DEPTH_TEST); // glColor3f(.59f, .02f, 0.f); // drawCurves(); // drawCurveStars(); const unsigned selectedCurveGrp = m_cluster->currentGroup(); if(m_cluster->isGroupIdValid(selectedCurveGrp)) { m_drawer->setGroupColorLight(selectedCurveGrp); m_drawer->geometry(m_cluster->group(selectedCurveGrp)); } // m_drawer->drawKdTree(m_triIntersect); }
void SeedGLWidget::paintGL() { glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); int viewportWidth = _viewportHeight*(_widgetWidth-_planeWidth)*1.0/_widgetHeight; int anchorWidth = 200, anchorHeight = 200; glViewport(0,0,_widgetWidth-_planeWidth, _widgetHeight); glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho(0, viewportWidth, 0, _viewportHeight, -2000, 2000); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glEnable(GL_DEPTH_TEST); glPushMatrix(); glTranslatef(_translateX, _translateY, 0); glTranslatef(viewportWidth/2.0, _viewportHeight/2.0, 0); setRotationMatrix(); glColor3f(1, 1, 1); if (_volumeData) { switch (_viewpoint) { case VP_AXIAL: _volumeData->drawAxialSlice(); break; case VP_CORONAL: _volumeData->drawCoronalSlice(); break; case VP_SAGITTAL: _volumeData->drawSagittalSlice(); break; } } drawSeedRegion(); glPopMatrix(); if (_bDrawing) { drawPenTrack(); } glViewport(_widgetWidth-_planeWidth-anchorWidth, 0, anchorWidth, anchorHeight); drawAnchor(); drawImageInfo(); drawPlanes(_widgetWidth-_planeWidth, _planeWidth, _widgetHeight); }