void QGIViewPart::drawViewPart() { if ( getViewObject() == 0 || !getViewObject()->isDerivedFrom(TechDraw::DrawViewPart::getClassTypeId())) { return; } TechDraw::DrawViewPart *viewPart = dynamic_cast<TechDraw::DrawViewPart *>(getViewObject()); float lineWidth = viewPart->LineWidth.getValue() * lineScaleFactor; float lineWidthHid = viewPart->HiddenWidth.getValue() * lineScaleFactor; prepareGeometryChange(); #if MOD_TECHDRAW_HANDLE_FACES // Draw Faces std::vector<TechDraw::DrawHatch*> hatchObjs = viewPart->getHatches(); const std::vector<TechDrawGeometry::Face *> &faceGeoms = viewPart->getFaceGeometry(); std::vector<TechDrawGeometry::Face *>::const_iterator fit = faceGeoms.begin(); for(int i = 0 ; fit != faceGeoms.end(); fit++, i++) { QGIFace* newFace = drawFace(*fit,i); TechDraw::DrawHatch* fHatch = faceIsHatched(i,hatchObjs); if (fHatch) { if (!fHatch->HatchPattern.isEmpty()) { App::Color hColor = fHatch->HatchColor.getValue(); newFace->setHatchColor(hColor.asCSSString()); newFace->setHatch(fHatch->HatchPattern.getValue()); } } newFace->setZValue(ZVALUE::FACE); newFace->setPrettyNormal(); } #endif //#if MOD_TECHDRAW_HANDLE_FACES // Draw Edges const std::vector<TechDrawGeometry::BaseGeom *> &geoms = viewPart->getEdgeGeometry(); std::vector<TechDrawGeometry::BaseGeom *>::const_iterator itEdge = geoms.begin(); QGIEdge* item; for(int i = 0 ; itEdge != geoms.end(); itEdge++, i++) { bool showEdge = false; if ((*itEdge)->visible) { if (((*itEdge)->classOfEdge == ecHARD) || ((*itEdge)->classOfEdge == ecOUTLINE) || (((*itEdge)->classOfEdge == ecSMOOTH) && viewPart->ShowSmoothLines.getValue()) || (((*itEdge)->classOfEdge == ecSEAM) && viewPart->ShowSeamLines.getValue())) { showEdge = true; } } else { if (viewPart->ShowHiddenLines.getValue()) { showEdge = true; } } if (showEdge) { item = new QGIEdge(i); addToGroup(item); //item is at scene(0,0), not group(0,0) item->setPos(0.0,0.0); item->setPath(drawPainterPath(*itEdge)); item->setStrokeWidth(lineWidth); item->setZValue(ZVALUE::EDGE); if(!(*itEdge)->visible) { item->setStrokeWidth(lineWidthHid); item->setHiddenEdge(true); item->setZValue(ZVALUE::HIDEDGE); } item->setPrettyNormal(); //debug a path //QPainterPath edgePath=drawPainterPath(*itEdge); //std::stringstream edgeId; //edgeId << "QGIVP.edgePath" << i; //dumpPath(edgeId.str().c_str(),edgePath); } } // Draw Vertexs: const std::vector<TechDrawGeometry::Vertex *> &verts = viewPart->getVertexGeometry(); std::vector<TechDrawGeometry::Vertex *>::const_iterator vert = verts.begin(); for(int i = 0 ; vert != verts.end(); ++vert, i++) { QGIVertex *item = new QGIVertex(i); addToGroup(item); item->setPos((*vert)->pnt.fX, (*vert)->pnt.fY); //this is in ViewPart coords item->setRadius(lineWidth * vertexScaleFactor); item->setZValue(ZVALUE::VERTEX); } }
void QGIViewPart::drawViewPart() { auto viewPart( dynamic_cast<TechDraw::DrawViewPart *>(getViewObject()) ); if ( viewPart == nullptr ) { return; } float lineWidth = viewPart->LineWidth.getValue() * lineScaleFactor; float lineWidthHid = viewPart->HiddenWidth.getValue() * lineScaleFactor; float lineWidthIso = viewPart->IsoWidth.getValue() * lineScaleFactor; prepareGeometryChange(); removePrimitives(); //clean the slate removeDecorations(); #if MOD_TECHDRAW_HANDLE_FACES if (viewPart->handleFaces()) { // Draw Faces std::vector<TechDraw::DrawHatch*> hatchObjs = viewPart->getHatches(); const std::vector<TechDrawGeometry::Face *> &faceGeoms = viewPart->getFaceGeometry(); std::vector<TechDrawGeometry::Face *>::const_iterator fit = faceGeoms.begin(); for(int i = 0 ; fit != faceGeoms.end(); fit++, i++) { QGIFace* newFace = drawFace(*fit,i); TechDraw::DrawHatch* fHatch = faceIsHatched(i,hatchObjs); if (fHatch) { if (!fHatch->HatchPattern.isEmpty()) { App::Color hColor = fHatch->HatchColor.getValue(); newFace->setHatchColor(hColor.asCSSString()); newFace->setHatch(fHatch->HatchPattern.getValue()); } } newFace->setDrawEdges(false); newFace->setZValue(ZVALUE::FACE); newFace->setPrettyNormal(); } } #endif //#if MOD_TECHDRAW_HANDLE_FACES // Draw Edges const std::vector<TechDrawGeometry::BaseGeom *> &geoms = viewPart->getEdgeGeometry(); std::vector<TechDrawGeometry::BaseGeom *>::const_iterator itEdge = geoms.begin(); QGIEdge* item; for(int i = 0 ; itEdge != geoms.end(); itEdge++, i++) { bool showEdge = false; if ((*itEdge)->visible) { if (((*itEdge)->classOfEdge == ecHARD) || ((*itEdge)->classOfEdge == ecOUTLINE) || (((*itEdge)->classOfEdge == ecSMOOTH) && viewPart->SmoothVisible.getValue()) || (((*itEdge)->classOfEdge == ecSEAM) && viewPart->SeamVisible.getValue()) || (((*itEdge)->classOfEdge == ecUVISO) && viewPart->IsoVisible.getValue())) { showEdge = true; } } else { if ( (((*itEdge)->classOfEdge == ecHARD) && (viewPart->HardHidden.getValue())) || (((*itEdge)->classOfEdge == ecOUTLINE) && (viewPart->HardHidden.getValue())) || (((*itEdge)->classOfEdge == ecSMOOTH) && (viewPart->SmoothHidden.getValue())) || (((*itEdge)->classOfEdge == ecSEAM) && (viewPart->SeamHidden.getValue())) || (((*itEdge)->classOfEdge == ecUVISO) && (viewPart->IsoHidden.getValue())) ) { showEdge = true; } } if (showEdge) { item = new QGIEdge(i); addToGroup(item); //item is at scene(0,0), not group(0,0) item->setPos(0.0,0.0); //now at group(0,0) item->setPath(drawPainterPath(*itEdge)); item->setWidth(lineWidth); item->setZValue(ZVALUE::EDGE); if(!(*itEdge)->visible) { item->setWidth(lineWidthHid); item->setHiddenEdge(true); item->setZValue(ZVALUE::HIDEDGE); } if ((*itEdge)->classOfEdge == ecUVISO) { item->setWidth(lineWidthIso); } item->setPrettyNormal(); //debug a path //QPainterPath edgePath=drawPainterPath(*itEdge); //std::stringstream edgeId; //edgeId << "QGIVP.edgePath" << i; //dumpPath(edgeId.str().c_str(),edgePath); } } // Draw Vertexs: const std::vector<TechDrawGeometry::Vertex *> &verts = viewPart->getVertexGeometry(); std::vector<TechDrawGeometry::Vertex *>::const_iterator vert = verts.begin(); bool showCenters = viewPart->ArcCenterMarks.getValue(); double cAdjust = viewPart->CenterScale.getValue(); for(int i = 0 ; vert != verts.end(); ++vert, i++) { if ((*vert)->isCenter) { if (showCenters) { QGICMark* cmItem = new QGICMark(i); addToGroup(cmItem); cmItem->setPos((*vert)->pnt.fX, (*vert)->pnt.fY); //this is in ViewPart coords cmItem->setThick(0.5 * lineWidth * lineScaleFactor); //need minimum? cmItem->setSize( cAdjust * lineWidth * vertexScaleFactor); cmItem->setZValue(ZVALUE::VERTEX); } } else { QGIVertex *item = new QGIVertex(i); addToGroup(item); item->setPos((*vert)->pnt.fX, (*vert)->pnt.fY); //this is in ViewPart coords item->setRadius(lineWidth * vertexScaleFactor); item->setZValue(ZVALUE::VERTEX); } } //draw section line if (viewPart->ShowSectionLine.getValue()) { auto refs = viewPart->getSectionRefs(); for (auto& r:refs) { drawSectionLine(r, true); } } //draw center lines drawCenterLines(true); }
void QGIViewSection::drawSectionFace() { auto section( dynamic_cast<TechDraw::DrawViewSection *>(getViewObject()) ); if( section == nullptr ) { return; } if ( !section->hasGeometry()) { return; } Gui::ViewProvider* gvp = QGIView::getViewProvider(section); ViewProviderViewSection* sectionVp = dynamic_cast<ViewProviderViewSection*>(gvp); if ((sectionVp == nullptr) || (!sectionVp->ShowCutSurface.getValue())) { return; } auto sectionFaces( section->getFaceGeometry() ); if (sectionFaces.empty()) { //Base::Console().Log("INFO - QGIViewSection::drawSectionFace - No sectionFaces available. Check Section plane.\n"); return; } std::vector<TechDrawGeometry::Face *>::iterator fit = sectionFaces.begin(); QColor faceColor = (sectionVp->CutSurfaceColor.getValue()).asValue<QColor>(); int i = 0; for(; fit != sectionFaces.end(); fit++, i++) { QGIFace* newFace = drawFace(*fit,-1); newFace->setZValue(ZVALUE::SECTIONFACE); if (section->showSectionEdges()) { newFace->setDrawEdges(true); } else { newFace->setDrawEdges(false); } newFace->setFill(faceColor, Qt::SolidPattern); if (sectionVp->HatchCutSurface.getValue()) { newFace->isHatched(true); newFace->setFillMode(QGIFace::FromFile); newFace->setHatchColor(sectionVp->HatchColor.getValue()); newFace->setHatchScale(section->HatchScale.getValue()); std::string hatchFile = section->FileHatchPattern.getValue(); newFace->setHatchFile(hatchFile); std::string patternName = section->NameGeomPattern.getValue(); QFileInfo hfi(QString::fromUtf8(hatchFile.data(),hatchFile.size())); if (hfi.isReadable()) { QString ext = hfi.suffix(); if ((ext.toUpper() == QString::fromUtf8("PAT")) && !patternName.empty() ) { newFace->setFillMode(QGIFace::GeomHatchFill); newFace->setLineWeight(sectionVp->WeightPattern.getValue()); std::vector<LineSet> lineSets = section->getDrawableLines(i); if (!lineSets.empty()) { newFace->clearLineSets(); for (auto& ls: lineSets) { // QPainterPath bigPath; // for (auto& g: ls.getGeoms()) { // QPainterPath smallPath = drawPainterPath(g); // bigPath.addPath(smallPath); // } newFace->addLineSet(ls); } } } } } newFace->draw(); newFace->setPrettyNormal(); newFace->setAcceptHoverEvents(false); newFace->setFlag(QGraphicsItem::ItemIsSelectable, false); } }