int main(void) { Avoid::Router *router = new Avoid::Router(Avoid::OrthogonalRouting); Avoid::Point srcPt(0,400); Avoid::Point dstPt(775,400); Avoid::ConnRef *connRef = new Avoid::ConnRef(router, srcPt, dstPt); connRef->setCallback(connCallback, connRef); Avoid::Point srcPt2(775,625); Avoid::Point dstPt2(350,475); Avoid::ConnRef *connRef2 = new Avoid::ConnRef(router, srcPt2, dstPt2); connRef2->setCallback(connCallback, connRef2); router->processTransaction(); printf("\nShifting endpoint.\n"); connRef->setEndpoints(Avoid::Point(0,375), Avoid::Point(775,400)); connRef2->setEndpoints(Avoid::Point(775,625), Avoid::Point(350,450)); router->processTransaction(); printf("\nShifting endpoint.\n"); connRef->setEndpoints(Avoid::Point(0,400), Avoid::Point(775,400)); connRef2->setEndpoints(Avoid::Point(775,625), Avoid::Point(350,475)); router->processTransaction(); delete router; return 0; }
int main(void) { Avoid::Router *router = new Avoid::Router(Avoid::PolyLineRouting); Avoid::Point srcPt(1.2, 0.5); Avoid::Point dstPt(1.5, 4); Avoid::ConnRef *connRef = new Avoid::ConnRef(router, srcPt, dstPt); connRef->setCallback(connCallback, connRef); // Force inital callback: router->processTransaction(); printf("\nAdding a shape.\n"); // Create the ShapeRef: Avoid::Polygon shapePoly(3); shapePoly.ps[0] = Avoid::Point(1, 1); shapePoly.ps[1] = Avoid::Point(2.5, 1.5); shapePoly.ps[2] = Avoid::Point(1.5, 2.5); Avoid::ShapeRef *shapeRef = new Avoid::ShapeRef(router, shapePoly); router->processTransaction(); printf("\nShifting endpoint.\n"); Avoid::Point dstPt2(6, 4.5); connRef->setDestEndpoint(dstPt2); // It's expected you know the connector needs rerouting, so the callback // isn't called. You can force it to be called though, via: router->processTransaction(); printf("\nMoving shape right by 0.5.\n"); router->moveShape(shapeRef, 0.5, 0); router->processTransaction(); router->outputDiagram("output/example"); delete router; return 0; }
int main(void) { Avoid::Router *router = new Avoid::Router(Avoid::OrthogonalRouting); // Create the ShapeRef: Avoid::Rectangle shapePoly(Avoid::Point(0, 0), Avoid::Point(100, 100)); Avoid::ShapeRef *shapeRef = new Avoid::ShapeRef(router, shapePoly); router->addShape(shapeRef); Avoid::ConnEnd srcPt(Avoid::Point(200, 200)); Avoid::ConnEnd dstPt(Avoid::Point(95, 25), ConnDirUp | ConnDirRight | ConnDirDown); new Avoid::ConnRef(router, srcPt, dstPt); dstPt = Avoid::ConnEnd(Avoid::Point(95, 75), ConnDirUp | ConnDirRight | ConnDirDown); new Avoid::ConnRef(router, srcPt, dstPt); // Up goes towards negative coordinates. dstPt = Avoid::ConnEnd(Avoid::Point(25, 5), ConnDirLeft | ConnDirRight | ConnDirUp); new Avoid::ConnRef(router, srcPt, dstPt); dstPt = Avoid::ConnEnd(Avoid::Point(75, 5), ConnDirLeft | ConnDirRight | ConnDirUp); new Avoid::ConnRef(router, srcPt, dstPt); dstPt = Avoid::ConnEnd(Avoid::Point(25, 95), ConnDirLeft | ConnDirRight | ConnDirDown); new Avoid::ConnRef(router, srcPt, dstPt); dstPt = Avoid::ConnEnd(Avoid::Point(75, 95), ConnDirLeft | ConnDirRight | ConnDirDown); new Avoid::ConnRef(router, srcPt, dstPt); router->processTransaction(); router->outputInstanceToSVG("test-inline"); delete router; return 0; }
int test() { // The contents of this function can be replaced by the automatically generated test code from the debug svg file Avoid::ConnEnd end1; Avoid::ConnEnd end2; Avoid::Polygon poly; Avoid::Router * router = new Avoid::Router(Avoid::OrthogonalRouting); router->setTransactionUse(true); router->setRoutingPenalty(Avoid::segmentPenalty); router->setRoutingPenalty(Avoid::crossingPenalty); router->setRoutingPenalty(Avoid::fixedSharedPathPenalty); router->setRoutingParameter(idealNudgingDistance, 25); router->setRoutingOption(Avoid::improveHyperedgeRoutesMovingJunctions, true); poly = Avoid::Polygon(4); poly.setPoint(0, Avoid::Point(51160, 50670)); poly.setPoint(1, Avoid::Point(51160, 50730)); poly.setPoint(2, Avoid::Point(50950, 50730)); poly.setPoint(3, Avoid::Point(50950, 50670)); Avoid::ShapeRef * shape341041314 = new Avoid::ShapeRef(router, poly, 341041314); Avoid::ShapeConnectionPin * pin341041314_0 = new Avoid::ShapeConnectionPin(shape341041314, 1, 0.952381, 0.5, 10, 8); pin341041314_0->setExclusive(true); Avoid::ShapeConnectionPin * pin341041314_1 = new Avoid::ShapeConnectionPin(shape341041314, 2, 0, 0.5, 10, 4); pin341041314_1->setExclusive(true); poly = Avoid::Polygon(4); poly.setPoint(0, Avoid::Point(51160, 50395)); poly.setPoint(1, Avoid::Point(51160, 50455)); poly.setPoint(2, Avoid::Point(50950, 50455)); poly.setPoint(3, Avoid::Point(50950, 50395)); Avoid::ShapeRef * shape47540376 = new Avoid::ShapeRef(router, poly, 47540376); Avoid::ShapeConnectionPin * pin47540376_0 = new Avoid::ShapeConnectionPin(shape47540376, 1, 0.952381, 0.5, 10, 8); pin47540376_0->setExclusive(true); Avoid::ShapeConnectionPin * pin47540376_1 = new Avoid::ShapeConnectionPin(shape47540376, 2, 0, 0.5, 10, 4); pin47540376_1->setExclusive(true); poly = Avoid::Polygon(4); poly.setPoint(0, Avoid::Point(50850, 50770)); poly.setPoint(1, Avoid::Point(50850, 50830)); poly.setPoint(2, Avoid::Point(50665, 50830)); poly.setPoint(3, Avoid::Point(50665, 50770)); Avoid::ShapeRef * shape81920772 = new Avoid::ShapeRef(router, poly, 81920772); Avoid::ShapeConnectionPin * pin81920772_0 = new Avoid::ShapeConnectionPin(shape81920772, 1, 0.047619, 0.5, 10, 4); pin81920772_0->setExclusive(true); Avoid::ShapeConnectionPin * pin81920772_1 = new Avoid::ShapeConnectionPin(shape81920772, 2, 1, 0.5, 10, 8); pin81920772_1->setExclusive(true); Avoid::JunctionRef * junction878282342 = new Avoid::JunctionRef(router, Avoid::Point(50875, 50700), 878282342); junction878282342->setPositionFixed(false); poly = Avoid::Polygon(4); poly.setPoint(0, Avoid::Point(50850, 50470)); poly.setPoint(1, Avoid::Point(50850, 50530)); poly.setPoint(2, Avoid::Point(50665, 50530)); poly.setPoint(3, Avoid::Point(50665, 50470)); Avoid::ShapeRef * shape206564314 = new Avoid::ShapeRef(router, poly, 206564314); Avoid::ShapeConnectionPin * pin206564314_0 = new Avoid::ShapeConnectionPin(shape206564314, 1, 0.047619, 0.5, 10, 4); pin206564314_0->setExclusive(true); Avoid::ShapeConnectionPin * pin206564314_1 = new Avoid::ShapeConnectionPin(shape206564314, 2, 1, 0.5, 10, 8); pin206564314_1->setExclusive(true); Avoid::JunctionRef * junction213455341 = new Avoid::JunctionRef(router, Avoid::Point(50875, 50500), 213455341); junction213455341->setPositionFixed(false); end1 = Avoid::ConnEnd(junction878282342); end2 = Avoid::ConnEnd(shape341041314, 2); Avoid::ConnRef * conn290033688 = new Avoid::ConnRef(router, end1, end2); conn290033688->makePathInvalid(); end1 = Avoid::ConnEnd(shape81920772, 2); end2 = Avoid::ConnEnd(junction878282342); Avoid::ConnRef * conn281807178 = new Avoid::ConnRef(router, end1, end2); conn281807178->makePathInvalid(); end1 = Avoid::ConnEnd(shape47540376, 2); end2 = Avoid::ConnEnd(junction213455341); Avoid::ConnRef * conn762966660 = new Avoid::ConnRef(router, end1, end2); conn762966660->makePathInvalid(); end1 = Avoid::ConnEnd(junction213455341); end2 = Avoid::ConnEnd(junction878282342); Avoid::ConnRef * conn46508714 = new Avoid::ConnRef(router, end1, end2); conn46508714->makePathInvalid(); end1 = Avoid::ConnEnd(shape206564314, 2); end2 = Avoid::ConnEnd(junction213455341); Avoid::ConnRef * conn385831514 = new Avoid::ConnRef(router, end1, end2); conn385831514->makePathInvalid(); router->processTransaction(); outputInstanceToSVG(router); poly = Avoid::Polygon(4); poly.setPoint(0, Avoid::Point(51160, 50645)); poly.setPoint(1, Avoid::Point(51160, 50705)); poly.setPoint(2, Avoid::Point(50950, 50705)); poly.setPoint(3, Avoid::Point(50950, 50645)); router->moveShape(shape341041314, poly); conn290033688->makePathInvalid(); conn281807178->makePathInvalid(); conn46508714->makePathInvalid(); conn762966660->makePathInvalid(); router->processTransaction(); outputInstanceToSVG(router); Avoid::Point junctionPos = junction878282342->recommendedPosition(); delete router; // Regression test to check that a junction is correctly moved. return (junctionPos.y == 50675) ? 0 : 1; }
/* * Make feasible: * - remove overlaps between rectangular boundaries of nodes/clusters * (respecting structural constraints) * - perform routing (preserve previous topology using rubber banding) */ void makeFeasible(vpsc::Rectangles& rs, vector<cola::Edge>& edges, std::vector<topology::Edge*>& routes, std::vector<topology::Node*>& topologyNodes, double defaultEdgeLength) { printf("Removing overlaps...\n"); removeoverlaps(rs,false); printf("done.\n"); printf("Running libavoid to compute routes...\n"); clock_t libavoidstarttime=clock(); // find feasible routes for edges Avoid::Router *router = new Avoid::Router(Avoid::PolyLineRouting); // Use rotational sweep for point visibility router->UseLeesAlgorithm = true; // Don't use invisibility graph. router->InvisibilityGrph = false; double g=0; // make shape that libavoid sees slightly smaller for(unsigned i=0;i<rs.size();++i) { vpsc::Rectangle* r=rs[i]; double x=r->getMinX()+g; double X=r->getMaxX()-g; double y=r->getMinY()+g; double Y=r->getMaxY()-g; // Create the ShapeRef: Avoid::Polygon shapePoly(4); // AntiClockwise! shapePoly.ps[0] = Avoid::Point(X,y); shapePoly.ps[1] = Avoid::Point(X,Y); shapePoly.ps[2] = Avoid::Point(x,Y); shapePoly.ps[3] = Avoid::Point(x,y); //if(i==4||i==13||i==9) { //printf("rect[%d]:{%f,%f,%f,%f}\n",i,x,y,X,Y); //} unsigned int shapeID = i + 1; Avoid::ShapeRef *shapeRef = new Avoid::ShapeRef(router, shapePoly, shapeID); // ShapeRef constructor makes a copy of polygon so we can free it: //router->addShape(shapeRef); // FIXME } for(unsigned i=0;i<edges.size();++i) { cola::Edge e=edges[i]; Avoid::ConnRef *connRef; unsigned int connID = i + rs.size() + 1; Rectangle* r0=rs[e.first], *r1=rs[e.second]; Avoid::Point srcPt(r0->getCentreX(),r0->getCentreY()); Avoid::Point dstPt(r1->getCentreX(),r1->getCentreY()); connRef = new Avoid::ConnRef(router, srcPt, dstPt, connID); router->processTransaction(); const Avoid::Polygon& route = connRef->route(); vector<topology::EdgePoint*> eps; eps.push_back( new topology::EdgePoint( topologyNodes[e.first], topology::EdgePoint::CENTRE)); for(size_t j=1;j+1<route.size();j++) { const Avoid::Point& p = route.ps[j]; const unsigned nodeID=p.id-1; topology::Node* node=topologyNodes[nodeID]; topology::EdgePoint::RectIntersect ri; switch(p.vn) { case 0: ri=topology::EdgePoint::BR; break; case 1: ri=topology::EdgePoint::TR; break; case 2: ri=topology::EdgePoint::TL; break; case 3: ri=topology::EdgePoint::BL; break; default: ri=topology::EdgePoint::CENTRE; } eps.push_back(new topology::EdgePoint(node,ri)); } eps.push_back(new topology::EdgePoint(topologyNodes[e.second], topology::EdgePoint::CENTRE)); topology::Edge* edgeRoute=new topology::Edge(i,defaultEdgeLength, eps); edgeRoute->assertConvexBends(); routes.push_back(edgeRoute); } writeFile(topologyNodes,routes,"beautify0.svg"); assert(topology::assertNoSegmentRectIntersection(topologyNodes,routes)); double libavoidtime=double(clock()-libavoidstarttime)/double(CLOCKS_PER_SEC); cout << "done. Libavoid ran in " << libavoidtime << " seconds" << endl; delete router; }
int main(void) { Avoid::Router *router = new Avoid::Router(Avoid::OrthogonalRouting); router->setRoutingPenalty((Avoid::PenaltyType)0, 50); Avoid::Rectangle shapeRect1(Avoid::Point(0, 0), Avoid::Point(30, 20)); Avoid::ShapeRef *shapeRef1 = new Avoid::ShapeRef(router, shapeRect1); Avoid::Rectangle shapeRect2(Avoid::Point(70, 7), Avoid::Point(100, 27)); new Avoid::ShapeRef(router, shapeRect2); Avoid::Rectangle shapeRect3(Avoid::Point(50, 60), Avoid::Point(80, 155)); new Avoid::ShapeRef(router, shapeRect3); Avoid::Rectangle shapeRect4(Avoid::Point(125, 60), Avoid::Point(155, 80)); new Avoid::ShapeRef(router, shapeRect4); Avoid::Rectangle shapeRect5(Avoid::Point(15, 150), Avoid::Point(45, 170)); Avoid::ShapeRef *shapeRef5 = new Avoid::ShapeRef(router, shapeRect5); Avoid::Rectangle shapeRect6(Avoid::Point(130, 130), Avoid::Point(160, 150)); Avoid::ShapeRef *shapeRef6 = new Avoid::ShapeRef(router, shapeRect6); // Add a centre connection pin for the three shapes we'll be using. new Avoid::ShapeConnectionPin(shapeRef1, Avoid::CONNECTIONPIN_CENTRE, Avoid::ATTACH_POS_CENTRE, Avoid::ATTACH_POS_CENTRE, true, 0.0, Avoid::ConnDirNone); new Avoid::ShapeConnectionPin(shapeRef5, Avoid::CONNECTIONPIN_CENTRE, Avoid::ATTACH_POS_CENTRE, Avoid::ATTACH_POS_CENTRE, true, 0.0, Avoid::ConnDirNone); new Avoid::ShapeConnectionPin(shapeRef6, Avoid::CONNECTIONPIN_CENTRE, Avoid::ATTACH_POS_CENTRE, Avoid::ATTACH_POS_CENTRE, true, 0.0, Avoid::ConnDirNone); Avoid::ConnEnd srcEnd(shapeRef1, Avoid::CONNECTIONPIN_CENTRE); Avoid::ConnEnd dstEnd(shapeRef6, Avoid::CONNECTIONPIN_CENTRE); Avoid::ConnRef *conn1= new Avoid::ConnRef(router, srcEnd, dstEnd); router->processTransaction(); router->outputInstanceToSVG("output/junction04-1"); // Split the connector on its second segment and add a junction point. std::pair<Avoid::JunctionRef *, Avoid::ConnRef *> newObjs = conn1->splitAtSegment(2); router->processTransaction(); router->outputInstanceToSVG("output/junction04-2"); // Create a connector from the centre of shape 5 that connects to // the junction. Avoid::ConnEnd srcEnd3(shapeRef5, Avoid::CONNECTIONPIN_CENTRE); Avoid::ConnEnd dstEnd3(newObjs.first); new Avoid::ConnRef(router, srcEnd3, dstEnd3); router->processTransaction(); router->outputInstanceToSVG("output/junction04-3"); // Delete one half of the original connector, up to the junction. router->deleteConnector(conn1); conn1 = NULL; router->processTransaction(); router->outputInstanceToSVG("output/junction04-4"); // The junction just has two connector now, so merge these into one. newObjs.first->removeJunctionAndMergeConnectors(); router->processTransaction(); router->outputInstanceToSVG("output/junction04-5"); router->processTransaction(); delete router; return 0; }
int main(void) { Avoid::Router *router = new Avoid::Router(Avoid::OrthogonalRouting); // Create the ShapeRef: Avoid::Rectangle shapeRect1(Avoid::Point(0, 0), Avoid::Point(10, 10)); Avoid::ShapeRef *shapeRef1 = new Avoid::ShapeRef(router, shapeRect1); const unsigned int CENTRE = 1; new Avoid::ShapeConnectionPin(shapeRef1, CENTRE, Avoid::ATTACH_POS_CENTRE, Avoid::ATTACH_POS_CENTRE, true, 0.0, Avoid::ConnDirNone); Avoid::Rectangle shapeRect2(Avoid::Point(0, 0), Avoid::Point(10, 10)); Avoid::ShapeRef *shapeRef2 = new Avoid::ShapeRef(router, shapeRect1); Avoid::ConnEnd dstPt(shapeRef1, CENTRE); Avoid::Point srcPt(1.5, 4); Avoid::ConnRef *connRef = new Avoid::ConnRef(router, srcPt, dstPt); // Force inital callback: router->processTransaction(); router->outputDiagram("output/connendmove-1"); Avoid::Point dstPt2(20, 20); connRef->setDestEndpoint(dstPt2); router->moveShape(shapeRef1, 0.5, 0); router->processTransaction(); router->outputDiagram("output/connendmove-2"); srcPt.x += 0.5; connRef->setSourceEndpoint(srcPt); router->moveShape(shapeRef1, 0.5, 0); router->moveShape(shapeRef2, 0, 0.5); srcPt.x += 0.5; connRef->setSourceEndpoint(srcPt); router->moveShape(shapeRef1, 0.5, 0); router->moveShape(shapeRef2, 0, 0.5); srcPt.x += 0.5; connRef->setSourceEndpoint(srcPt); router->moveShape(shapeRef1, 0.5, 0); router->moveShape(shapeRef2, 0, 0.5); srcPt.x += 0.5; connRef->setSourceEndpoint(srcPt); router->moveShape(shapeRef1, 0.5, 0); router->moveShape(shapeRef2, 0, 0.5); router->processTransaction(); router->outputDiagram("output/connendmove-3"); delete router; return 0; }