示例#1
0
void AspMainTest::TestContactSpotProcess(MainFrame * frame, AspMainTool *tool){

	auto unitMap = tool->product->GetUnitMap();
	auto view = frame->myViewer;

	Standard_Real Gap = 0.5;
	Handle_AIS_InteractiveContext context = view->getIC();
	if (context->HasOpenedContext())
		context->CloseAllContexts();

	context->EraseAll(true);

	Standard_Integer curLC = context->OpenLocalContext();

	for (auto iter = unitMap->begin(); iter != unitMap->end(); iter++){
		Part *part = dynamic_cast<Part *>(iter->second);
		auto subItr = iter;
		for (++subItr; subItr != unitMap->end(); subItr++){
			Part *obstacle = dynamic_cast<Part *>(subItr->second);
			//==========================================
			//			Visualise current Parts
			context->ClearLocalContext(AIS_ClearMode::AIS_CM_Interactive);

			Handle_AIS_Shape shape = tool->mapOfShapes.find(part->GetUri())->second;
			context->LocalContext()->Display(shape, AIS_Shaded);
			context->SetTransparency(shape, 0.2, false);
			shape = tool->mapOfShapes.find(obstacle->GetUri())->second;;
			context->LocalContext()->Display(shape, AIS_WireFrame);
			view->getView()->Redraw();
			//==========================================
			if (obstacle->BndBox()->Distance(*part->BndBox()) < Gap)
			for (auto &sp : *part){
				if (sp.myBox.Distance(*obstacle->BndBox())<Gap)
				for (auto &obstSp : *obstacle){

					if (sp.myBox.Distance(obstSp.myBox)>Gap)
						continue;
					//==========================================
					//			Visualise current surface

					context->ClearLocalContext(AIS_ClearMode::AIS_CM_Interactive);
					tool->ShowSurface(context, sp);
					tool->ShowSurface(context, obstSp);
					view->getView()->Redraw();
					//==========================================
					
					//==========================================
					//			Launch function Contact Spot

					if (asp::DBGBuilder::NotInContact(sp, obstSp, 1, Gap))
						continue;

					ContactSpot spot(sp, obstSp, part, obstacle);
					if (spot.IsDone()){

						//==========================================
						auto vecArray1 = spot.getF1ContactAxis();
						auto vecArray2 = spot.getF2ContactAxis();

						if (vecArray1.size() && vecArray2.size()){
							for (auto &dir : vecArray1){
								Handle_ISession_Direction axis = new ISession_Direction(dir.Location(), dir.Direction(), 10);
								context->LocalContext()->Display(axis, AIS_WireFrame);
							}

							for (auto &dir : vecArray2){
								Handle_ISession_Direction axis = new ISession_Direction(dir.Location(), dir.Direction(), 10);
								context->LocalContext()->Display(axis, AIS_WireFrame);
							}
							view->getView()->Redraw();
						}
						//}
					}
				}
			}

		}
	}
	context->CloseLocalContext(curLC);

}
示例#2
0
void AspMainTest::TestIsoFaceForPartCalculation(MainFrame* frame, AspMainTool *tool){

	auto aView = frame->myViewer;

	Handle_AIS_InteractiveContext context = frame->myViewer->getIC();

	std::vector<Part *> selectedParts = tool->GetSelectedPart(context);

	if (selectedParts.size()<2)
		return;

	/*auto &PartMap = */selectedParts[0]->UnitMap;
	

	
	AssemblyGraphBuilder builder;
	//auto NewPart = Part(*(selectedParts[0]));
	//for (new)
	auto p1G = builder.GetPartGraphsSet(selectedParts[0],false);
	auto p2G = builder.GetPartGraphsSet(selectedParts[1], false);
	
	std::vector<PartIsomorphism> res;
	bool result;
	bool isReversed = false;
	if (p1G.first.vertex_set().size() > p2G.first.vertex_set().size() ||
		p1G.second.vertex_set().size() > p2G.second.vertex_set().size())
	{
		result = builder.IsomorphismOfPartCompare(p2G, p1G, &res);
		isReversed= true;
	}
	else{
		result = builder.IsomorphismOfPartCompare(p1G, p2G, &res);
	}
	context->ClearSelected(false);
	
	if(!result)
		return;

	context->EraseAll();
	context->OpenLocalContext(true, true);
	if (!isReversed){
		res[0].isoPart.first = selectedParts[0]->GetUri();
		res[0].isoPart.second = selectedParts[1]->GetUri();
	}
	else{
		res[0].isoPart.first = selectedParts[1]->GetUri();
		res[0].isoPart.second = selectedParts[0]->GetUri();
	}

	_int cColor=0;
	for (auto &iso : res){
	auto partIter=	std::find_if(selectedParts.begin(), selectedParts.end(),[&iso](Part* p)->bool{return iso.isoPart.first==p->GetUri();});
	auto coPartIter = std::find_if(selectedParts.begin(), selectedParts.end(), [&iso](Part* p)->bool{return iso.isoPart.second == p->GetUri(); });
	auto end = selectedParts.end();

	if (partIter == end && coPartIter == end)
		continue;

	auto FaceSetEnd = iso.isoFaceSet.end();
		for (auto &surfP1: *(*partIter)){
			auto surfP1Uri = surfP1.uri;

			auto isoFacesPair = find_if(iso.isoFaceSet.begin(), FaceSetEnd, [&surfP1Uri](std::pair<FaceUri, FaceUri> &f)-> bool { return f.first == surfP1Uri; });

			if (isoFacesPair == FaceSetEnd)
				continue;

			auto surfP2Uri = isoFacesPair->second;

			auto &coPartSurfCol = (*coPartIter)->colOfSurf;

			auto surfP2 = find_if(coPartSurfCol.begin(), coPartSurfCol.end(), [&surfP2Uri](const SurfaceAttribute &att)->bool{return att.uri==surfP2Uri;});

			if (surfP2 == coPartSurfCol.end())
					continue;

			Handle_AIS_Shape S1 = new AIS_Shape(surfP1.surf.Face());
			Handle_AIS_Shape S2 = new AIS_Shape(surfP2->surf.Face());

			Quantity_Color shapeColor = Color::name(++cColor);

			_int DisplayMode= AIS_Shaded;
			
		
		
		context->LocalContext()->Display(S1, DisplayMode);
		context->LocalContext()->Display(S2, DisplayMode);

		context->SetColor(S1, shapeColor.Name(), false);
		context->SetColor(S2, shapeColor.Name(), false);

		
		}
	}

	aView->Update();

}