void Plugin_Entity::updatePolylineData(QList<Plug_VertexData> *data){ if (entity == NULL) return; RS2::EntityType et = entity->rtti(); if (et != RS2::EntityPolyline) return; if (data->size()<2) return; //At least two vertex RS_Vector vec(false); RS_Polyline *pl = static_cast<RS_Polyline*>(entity); // vec.x = data->at(0).point.x(); // vec.y = data->at(0).point.y(); pl->clear(); pl->setEndpoint(vec); pl->setStartpoint(vec); vec.valid = true; for (int i = 0; i < data->size(); ++i) { vec.x = data->at(i).point.x(); vec.y = data->at(i).point.y(); pl->addVertex(vec, data->at(i).bulge ); } }
bool RS_ActionPolylineEquidistant::makeContour() { if (container==NULL) { RS_DEBUG->print("RS_ActionPolylineEquidistant::makeContour: no valid container", RS_Debug::D_WARNING); return false; } RS_Vector offset(false); QList<RS_Entity*> addList; if (document!=NULL) { document->startUndoCycle(); } double neg = 1.0; if(bRightSide) neg = -1.0; // Create new entites RS_Line line1(NULL, RS_LineData(RS_Vector(true), RS_Vector(true))); RS_Line line2(NULL, RS_LineData(RS_Vector(true), RS_Vector(true))); for (int num=1; num<=number || (number==0 && num<=1); num++) { RS_Polyline* newPolyline = new RS_Polyline(container); newPolyline->setClosed(((RS_Polyline*)originalEntity)->isClosed()); // newPolyline->setSelected((RS_Polyline*)originalEntity)->isSelected()); newPolyline->setLayer(((RS_Polyline*)originalEntity)->getLayer()); newPolyline->setPen(((RS_Polyline*)originalEntity)->getPen()); bool first = true; RS_Entity* lastEntity = ((RS_Polyline*)originalEntity)->lastEntity(); for (RS_Entity* en=((RS_Polyline*)originalEntity)->firstEntity(); en!=NULL; en=((RS_Polyline*)originalEntity)->nextEntity()) { double bulge = 0.0; if (en->rtti()==RS2::EntityArc) { double r0 = ((RS_Arc*)en)->getRadius(); double r = r0 - dist*neg; if(r < 0) break; ((RS_Arc*)en)->setRadius(r); bulge = ((RS_Arc*)en)->getBulge(); ((RS_Arc*)en)->setRadius(r0); } else { bulge = 0.0; } RS_Vector v1 = ((RS_AtomicEntity*)en)->getStartpoint(); RS_Vector v2 = ((RS_AtomicEntity*)en)->getEndpoint(); offset.set(dist * cos(v1.angleTo(v2)+M_PI*0.5*neg), dist * sin(v1.angleTo(v2)+M_PI*0.5*neg)); v1.move(offset*num); v2.move(offset*num); if (first) { line1.setStartpoint(v1); line1.setEndpoint(v2); if(newPolyline->isClosed()){ RS_Vector v01 = ((RS_AtomicEntity*)lastEntity)->getStartpoint(); RS_Vector v02 = ((RS_AtomicEntity*)en)->getStartpoint(); offset.set(dist * cos(v01.angleTo(v02)+M_PI*0.5*neg), dist * sin(v01.angleTo(v02)+M_PI*0.5*neg)); v01.move(offset*num); v02.move(offset*num); line2.setStartpoint(v01); line2.setEndpoint(v02); RS_VectorSolutions vsol = RS_Information::getIntersection(&line1, &line2, false); v1 = vsol.get(0); } newPolyline->setStartpoint(v1); newPolyline->addVertex(v1, bulge); first = false; }else{ line2.setStartpoint(v1); line2.setEndpoint(v2); RS_VectorSolutions vsol = RS_Information::getIntersection(&line1, &line2, false); RS_Vector v = vsol.get(0); newPolyline->addVertex(v, bulge); newPolyline->setEndpoint(v); line1.setStartpoint(v1); line1.setEndpoint(v2); if (en==lastEntity/* && newPolyline->isClosed()==false*/){ newPolyline->addVertex(v2, bulge); } } } double bulge = lastEntity->rtti() == RS2::EntityArc? ((RS_Arc*)lastEntity)->getBulge():0.0; // newPolyline->setNextBulge(bulge); newPolyline->endPolyline(); container->addEntity(newPolyline); document->addUndoable(newPolyline); } if (document!=NULL) { document->endUndoCycle(); } if (graphicView!=NULL) { graphicView->redraw(); } return true; }
bool RS_ActionPolylineEquidistant::makeContour() { if (container==NULL) { RS_DEBUG->print("RS_ActionPolylineEquidistant::makeContour: no valid container", RS_Debug::D_WARNING); return false; } RS_Polyline* originalPolyline = (RS_Polyline*)originalEntity; //create a list of entities to offset without length = 0 QList<RS_Entity*> entities; for (RS_Entity* en=originalPolyline->firstEntity(); en!=NULL; en=originalPolyline->nextEntity()) { if (en->getLength() > 1.0e-12) entities.append(en); } if (entities.isEmpty()) { return false; } if (document!=NULL) { document->startUndoCycle(); } double neg = 1.0; if(bRightSide) neg = -1.0; // Create new helper entities RS_Line line1(NULL, RS_LineData(RS_Vector(true), RS_Vector(true)));//current line RS_Line lineFirst(NULL, RS_LineData(RS_Vector(true), RS_Vector(true)));//previous line RS_Arc arc1(NULL, RS_ArcData(RS_Vector(true), 0,0,0,false));//current arc RS_Arc arcFirst(NULL, RS_ArcData(RS_Vector(true), 0,0,0,false));//previous arc for (int num=1; num<=number || (number==0 && num<=1); num++) { RS_Polyline* newPolyline = new RS_Polyline(container); newPolyline->setLayer(((RS_Polyline*)originalEntity)->getLayer()); newPolyline->setPen(((RS_Polyline*)originalEntity)->getPen()); bool first = true; bool closed = originalPolyline->isClosed(); double bulge = 0.0; RS_Entity* en; RS_Entity* prevEntity = entities.last(); RS_Entity* currEntity; for (int i = 0; i < entities.size(); ++i) { en = entities.at(i); RS_Vector v(false); if (en->rtti()==RS2::EntityArc) { currEntity = &arc1; calculateOffset(currEntity, en, dist*num*neg); bulge = arc1.getBulge(); } else { currEntity = &line1; bulge = 0.0; calculateOffset(currEntity, en, dist*num*neg); } if (first) { if (closed) { if (prevEntity->rtti()==RS2::EntityArc) { prevEntity = calculateOffset(&arcFirst, prevEntity, dist*num*neg); } else { prevEntity = calculateOffset(&lineFirst, prevEntity, dist*num*neg); } v = calculateIntersection(prevEntity, currEntity); } if (!v.valid) { v = currEntity->getStartpoint(); closed = false; } else if (currEntity->rtti()==RS2::EntityArc) { //update bulge arc1.setAngle1(arc1.getCenter().angleTo(v)); arc1.calculateEndpoints(); bulge = arc1.getBulge(); } first = false; if (!prevEntity) break; //prevent crash if not exist offset for prevEntity } else { v = calculateIntersection(prevEntity, currEntity); if (!v.valid) { v= prevEntity->getEndpoint(); double dess = currEntity->getStartpoint().distanceTo(prevEntity->getEndpoint()); if (dess > 1.0e-12) { newPolyline->addVertex(v, bulge); prevEntity = NULL; break; } } double startAngle = prevEntity->getStartpoint().angleTo(prevEntity->getEndpoint()); if (prevEntity->rtti()==RS2::EntityArc) { arcFirst.setAngle2(arcFirst.getCenter().angleTo(v)); arcFirst.calculateEndpoints(); newPolyline->setNextBulge(arcFirst.getBulge()); } //check if the entity are reverted if (abs (prevEntity->getStartpoint().angleTo(prevEntity->getEndpoint())- startAngle) > 0.785) { prevEntity = newPolyline->lastEntity(); RS_Vector v0 = calculateIntersection(prevEntity, currEntity); if (prevEntity->rtti()==RS2::EntityArc) { ((RS_Arc*)prevEntity)->setAngle2(arcFirst.getCenter().angleTo(v0)); ((RS_Arc*)prevEntity)->calculateEndpoints(); newPolyline->setNextBulge( ((RS_Arc*)prevEntity)->getBulge() ); } else { ((RS_Line*)prevEntity)->setEndpoint(v0); newPolyline->setNextBulge( 0.0 ); } newPolyline->setEndpoint(v0); } if (currEntity->rtti()==RS2::EntityArc) { arc1.setAngle1(arc1.getCenter().angleTo(v)); arc1.calculateEndpoints(); bulge = arc1.getBulge(); } else bulge = 0.0; } if (prevEntity) { newPolyline->addVertex(v, bulge, false); if (currEntity->rtti()==RS2::EntityArc) { arcFirst.setData(arc1.getData()); arcFirst.calculateEndpoints(); prevEntity = &arcFirst; } else { lineFirst.setStartpoint(line1.getStartpoint()); lineFirst.setEndpoint(line1.getEndpoint()); prevEntity = &lineFirst; } } } //properly terminated, check closed if (prevEntity) { if (closed) { if (currEntity->rtti()==RS2::EntityArc) { arc1.setAngle2(arc1.getCenter().angleTo(newPolyline->getStartpoint())); arc1.calculateEndpoints(); newPolyline->setNextBulge(arc1.getBulge()); bulge = arc1.getBulge(); } newPolyline->setClosed(true, bulge); } else { newPolyline->addVertex(currEntity->getEndpoint(), bulge); } } if (!newPolyline->isEmpty()) { container->addEntity(newPolyline); document->addUndoable(newPolyline); } } if (document!=NULL) { document->endUndoCycle(); } if (graphicView!=NULL) { graphicView->redraw(); } return true; }