+// Copyright (C) 2014-20xx CEA/DEN, EDF R&D -->
+
+// File: SketchPlugin_ConstraintSplit.cpp
+// Created: 17 Jul 2016
+// Author: Natalia ERMOLAEVA
+
+#include "SketchPlugin_ConstraintSplit.h"
+
+//#include <GeomAPI_Circ2d.h>
+//#include <GeomAPI_Dir2d.h>
+//#include <GeomAPI_Lin2d.h>
+//#include <GeomAPI_Pnt2d.h>
+//#include <GeomAPI_XY.h>
+//#include <GeomDataAPI_Point2D.h>
+//#include <ModelAPI_AttributeDouble.h>
+#include <ModelAPI_AttributeSelection.h>
+//#include <ModelAPI_AttributeRefList.h>
+//#include <ModelAPI_AttributeRefAttrList.h>
+//#include <ModelAPI_Data.h>
+//#include <ModelAPI_Events.h>
+//#include <ModelAPI_Session.h>
+//#include <ModelAPI_Validator.h>
+//
+//#include <SketchPlugin_Arc.h>
+//#include <SketchPlugin_Line.h>
+//#include <SketchPlugin_Point.h>
+//#include <SketchPlugin_Sketch.h>
+//#include <SketchPlugin_ConstraintCoincidence.h>
+//#include <SketchPlugin_ConstraintTangent.h>
+//#include <SketchPlugin_ConstraintRadius.h>
+//#include <SketchPlugin_Tools.h>
+//
+//#include <Events_Loop.h>
+//
+//#include <math.h>
+//
+//const double tolerance = 1.e-7;
+//const double paramTolerance = 1.e-4;
+
+///// \brief Attract specified point on theNewArc to the attribute of theFeature
+//static void recalculateAttributes(FeaturePtr theNewArc, const std::string& theNewArcAttribute,
+// FeaturePtr theFeature, const std::string& theFeatureAttribute);
+//
+///// \brief Calculates center of fillet arc and coordinates of tangency points
+//static void calculateFilletCenter(FeaturePtr theFeatureA, FeaturePtr theFeatureB,
+// double theRadius, bool theNotInversed[2],
+// std::shared_ptr<GeomAPI_XY>& theCenter,
+// std::shared_ptr<GeomAPI_XY>& theTangentA,
+// std::shared_ptr<GeomAPI_XY>& theTangentB);
+//
+///// Get point on 1/3 length of edge from fillet point
+//static void getPointOnEdge(const FeaturePtr theFeature,
+// const std::shared_ptr<GeomAPI_Pnt2d> theFilletPoint,
+// std::shared_ptr<GeomAPI_Pnt2d>& thePoint);
+//
+///// Get distance from point to feature
+//static double getProjectionDistance(const FeaturePtr theFeature,
+// const std::shared_ptr<GeomAPI_Pnt2d> thePoint);
+//
+///// Get coincide edges for fillet
+//static std::set<FeaturePtr> getCoincides(const FeaturePtr& theConstraintCoincidence);
+
+SketchPlugin_ConstraintSplit::SketchPlugin_ConstraintSplit()
+//: myListOfPointsChangedInCode(false),
+// myRadiusChangedByUser(false),
+// myRadiusChangedInCode(false),
+// myRadiusInitialized(false)
+{
+}
+
+void SketchPlugin_ConstraintSplit::initAttributes()
+{
+ data()->addAttribute(SketchPlugin_Constraint::ENTITY_A(), ModelAPI_AttributeSelection::typeId());
+
+ //data()->addAttribute(SketchPlugin_Constraint::VALUE(), ModelAPI_AttributeDouble::typeId());
+ //data()->addAttribute(SketchPlugin_Constraint::ENTITY_A(), ModelAPI_AttributeRefAttrList::typeId());
+}
+
+void SketchPlugin_ConstraintSplit::execute()
+{
+/* std::shared_ptr<ModelAPI_Data> aData = data();
+
+ // Check the base objects are initialized.
+ AttributeRefAttrListPtr aPointsRefList = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttrList>(
+ aData->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ if(!aPointsRefList->isInitialized()) {
+ setError("Error: List of points is not initialized.");
+ return;
+ }
+
+ // Get fillet radius.
+ double aFilletRadius = std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(
+ aData->attribute(SketchPlugin_Constraint::VALUE()))->value();
+
+ // Wait all constraints being created, then send update events
+ static Events_ID anUpdateEvent = Events_Loop::eventByName(EVENT_OBJECT_UPDATED);
+ bool isUpdateFlushed = Events_Loop::loop()->isFlushed(anUpdateEvent);
+ if (isUpdateFlushed)
+ Events_Loop::loop()->setFlushed(anUpdateEvent, false);
+
+ for(std::set<AttributePtr>::iterator aPointsIter = myNewPoints.begin();
+ aPointsIter != myNewPoints.end();
+ ++aPointsIter) {
+ AttributePtr aPointAttr = *aPointsIter;
+ std::shared_ptr<GeomDataAPI_Point2D> aFilletPoint2d = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(aPointAttr);
+ if(!aFilletPoint2d.get()) {
+ setError("Error: One of the selected points is empty.");
+ return;
+ }
+ std::shared_ptr<GeomAPI_Pnt2d> aFilletPnt2d = aFilletPoint2d->pnt();
+
+ // Obtain base lines for fillet.
+ bool anIsNeedNewObjects = true;
+ FilletFeatures aFilletFeatures;
+ std::map<AttributePtr, FilletFeatures>::iterator aPrevPointsIter = myPointFeaturesMap.find(aPointAttr);
+ if(aPrevPointsIter != myPointFeaturesMap.end()) {
+ anIsNeedNewObjects = false;
+ aFilletFeatures = aPrevPointsIter->second;
+ }
+ FeaturePtr aBaseEdgeA, aBaseEdgeB;
+ if(!anIsNeedNewObjects) {
+ aBaseEdgeA = aFilletFeatures.baseEdgesState.front().first;
+ aBaseEdgeB = aFilletFeatures.baseEdgesState.back().first;
+ } else {
+ // Obtain constraint coincidence for the fillet point.
+ FeaturePtr aConstraintCoincidence;
+ const std::set<AttributePtr>& aRefsList = aFilletPoint2d->owner()->data()->refsToMe();
+ for(std::set<AttributePtr>::const_iterator anIt = aRefsList.cbegin(); anIt != aRefsList.cend(); ++anIt) {
+ std::shared_ptr<ModelAPI_Attribute> anAttr = (*anIt);
+ FeaturePtr aConstrFeature = std::dynamic_pointer_cast<ModelAPI_Feature>(anAttr->owner());
+ if(aConstrFeature->getKind() == SketchPlugin_ConstraintCoincidence::ID()) {
+ AttributeRefAttrPtr anAttrRefA = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstrFeature->attribute(SketchPlugin_ConstraintCoincidence::ENTITY_A()));
+ AttributeRefAttrPtr anAttrRefB = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstrFeature->attribute(SketchPlugin_ConstraintCoincidence::ENTITY_B()));
+ if(anAttrRefA.get() && !anAttrRefA->isObject()) {
+ AttributePtr anAttrA = anAttrRefA->attr();
+ if(aFilletPoint2d == anAttrA) {
+ aConstraintCoincidence = aConstrFeature;
+ break;
+ }
+ }
+ if(anAttrRefB.get() && !anAttrRefB->isObject()) {
+ AttributePtr anAttrB = anAttrRefB->attr();
+ if(aFilletPoint2d == anAttrB) {
+ aConstraintCoincidence = aConstrFeature;
+ break;
+ }
+ }
+ }
+ }
+
+ if(!aConstraintCoincidence.get()) {
+ setError("Error: No coincident edges at one of the selected points.");
+ return;
+ }
+
+ // Get coincide edges.
+ std::set<FeaturePtr> aCoincides = getCoincides(aConstraintCoincidence);
+ if(aCoincides.size() != 2) {
+ setError("Error: One of the selected points does not have two suitable edges for fillet.");
+ return;
+ }
+
+ std::set<FeaturePtr>::iterator aLinesIt = aCoincides.begin();
+ aBaseEdgeA = *aLinesIt++;
+ aBaseEdgeB = *aLinesIt;
+
+ std::pair<FeaturePtr, bool> aBasePairA = std::make_pair(aBaseEdgeA, aBaseEdgeA->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->value());
+ std::pair<FeaturePtr, bool> aBasePairB = std::make_pair(aBaseEdgeB, aBaseEdgeB->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->value());
+ aFilletFeatures.baseEdgesState.push_back(aBasePairA);
+ aFilletFeatures.baseEdgesState.push_back(aBasePairB);
+ }
+
+ if(!aBaseEdgeA.get() || !aBaseEdgeB.get()) {
+ setError("Error: One of the base edges is empty.");
+ return;
+ }
+
+ // Create new edges and arc if needed.
+ FeaturePtr aResultEdgeA, aResultEdgeB, aResultArc;
+ if(!anIsNeedNewObjects) {
+ // Obtain features from the list.
+ std::list<FeaturePtr>::iterator aResultEdgesIt = aFilletFeatures.resultEdges.begin();
+ aResultEdgeA = *aResultEdgesIt++;
+ aResultEdgeB = *aResultEdgesIt++;
+ aResultArc = *aResultEdgesIt;
+ } else {
+ // Copy edges and create arc.
+ aResultEdgeA = SketchPlugin_Sketch::addUniqueNamedCopiedFeature(aBaseEdgeA, sketch());
+ aResultEdgeA->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->setValue(false);
+ aResultEdgeB = SketchPlugin_Sketch::addUniqueNamedCopiedFeature(aBaseEdgeB, sketch());
+ aResultEdgeB->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->setValue(false);
+ aResultArc = sketch()->addFeature(SketchPlugin_Arc::ID());
+
+ aFilletFeatures.resultEdges.push_back(aResultEdgeA);
+ aFilletFeatures.resultEdges.push_back(aResultEdgeB);
+ aFilletFeatures.resultEdges.push_back(aResultArc);
+ }
+
+ // Calculate arc attributes
+ static const int aNbFeatures = 2;
+ FeaturePtr aBaseFeatures[aNbFeatures] = {aBaseEdgeA, aBaseEdgeB};
+ FeaturePtr aResultFeatures[aNbFeatures] = {aResultEdgeA, aResultEdgeB};
+ std::shared_ptr<GeomAPI_Dir2d> aTangentDir[aNbFeatures]; // tangent directions of the features in coincident point
+ bool isStart[aNbFeatures]; // indicates which point the features share
+ std::shared_ptr<GeomAPI_Pnt2d> aStartEndPnt[aNbFeatures * 2]; // first pair of points relate to first feature, second pair - to second
+ std::string aFeatAttributes[aNbFeatures * 2]; // attributes of features
+ for (int i = 0; i < aNbFeatures; i++) {
+ std::string aStartAttr, aEndAttr;
+ if (aResultFeatures[i]->getKind() == SketchPlugin_Line::ID()) {
+ aStartAttr = SketchPlugin_Line::START_ID();
+ aEndAttr = SketchPlugin_Line::END_ID();
+ } else if (aResultFeatures[i]->getKind() == SketchPlugin_Arc::ID()) {
+ aStartAttr = SketchPlugin_Arc::START_ID();
+ aEndAttr = SketchPlugin_Arc::END_ID();
+ } else { // wrong argument
+ setError("Error: One of the points has wrong coincide feature");
+ return;
+ }
+ aFeatAttributes[2*i] = aStartAttr;
+ aStartEndPnt[2*i] = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aBaseFeatures[i]->attribute(aStartAttr))->pnt();
+ aFeatAttributes[2*i+1] = aEndAttr;
+ aStartEndPnt[2*i+1] = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aBaseFeatures[i]->attribute(aEndAttr))->pnt();
+ }
+ for (int aFeatInd = 0; aFeatInd < aNbFeatures; aFeatInd++) {
+ for (int j = 0; j < 2; j++) // loop on start-end of each feature
+ if (aStartEndPnt[aFeatInd * aNbFeatures + j]->distance(aFilletPnt2d) < 1.e-10) {
+ isStart[aFeatInd] = (j==0);
+ break;
+ }
+ }
+ // tangent directions of the features
+ for (int i = 0; i < aNbFeatures; i++) {
+ std::shared_ptr<GeomAPI_XY> aDir;
+ if (aResultFeatures[i]->getKind() == SketchPlugin_Line::ID()) {
+ aDir = aStartEndPnt[2*i+1]->xy()->decreased(aStartEndPnt[2*i]->xy());
+ if (!isStart[i])
+ aDir = aDir->multiplied(-1.0);
+ } else if (aResultFeatures[i]->getKind() == SketchPlugin_Arc::ID()) {
+ std::shared_ptr<GeomAPI_Pnt2d> aCenterPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aResultFeatures[i]->attribute(SketchPlugin_Arc::CENTER_ID()))->pnt();
+ aDir = isStart[i] ? aStartEndPnt[2*i]->xy() : aStartEndPnt[2*i+1]->xy();
+ aDir = aDir->decreased(aCenterPoint->xy());
+
+ double x = aDir->x();
+ double y = aDir->y();
+ aDir->setX(-y);
+ aDir->setY(x);
+ if (isStart[i] == std::dynamic_pointer_cast<SketchPlugin_Arc>(aBaseFeatures[i])->isReversed())
+ aDir = aDir->multiplied(-1.0);
+ }
+ aTangentDir[i] = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d(aDir));
+ }
+
+ // By default, the start point of fillet arc is connected to FeatureA,
+ // and the end point - to FeatureB. But when the angle between TangentDirA and
+ // TangentDirB greater 180 degree, the sequaence of features need to be reversed.
+ double cosBA = aTangentDir[0]->cross(aTangentDir[1]); // cos(B-A), where A and B - angles between corresponding tanget direction and the X axis
+ bool isReversed = cosBA > 0.0;
+
+ // Calculate fillet arc parameters
+ std::shared_ptr<GeomAPI_XY> aCenter, aTangentPntA, aTangentPntB;
+ calculateFilletCenter(aBaseEdgeA, aBaseEdgeB, aFilletRadius, isStart, aCenter, aTangentPntA, aTangentPntB);
+ if(!aCenter.get() || !aTangentPntA.get() || !aTangentPntB.get()) {
+ setError("Can not create fillet with the specified parameters.");
+ return;
+ }
+ // update features
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aResultEdgeA->attribute(aFeatAttributes[isStart[0] ? 0 : 1]))->setValue(aTangentPntA->x(), aTangentPntA->y());
+ aResultEdgeA->execute();
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aResultEdgeB->attribute(aFeatAttributes[2 + (isStart[1] ? 0 : 1)]))->setValue(aTangentPntB->x(), aTangentPntB->y());
+ aResultEdgeB->execute();
+ // update fillet arc: make the arc correct for sure, so, it is not needed to process the "attribute updated"
+ // by arc; moreover, it may cause cyclicity in hte mechanism of updater
+ aResultArc->data()->blockSendAttributeUpdated(true);
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aResultArc->attribute(SketchPlugin_Arc::CENTER_ID()))->setValue(aCenter->x(), aCenter->y());
+ if(isReversed) {
+ std::shared_ptr<GeomAPI_XY> aTmp = aTangentPntA;
+ aTangentPntA = aTangentPntB;
+ aTangentPntB = aTmp;
+ }
+ std::shared_ptr<GeomDataAPI_Point2D> aStartPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aResultArc->attribute(SketchPlugin_Arc::START_ID()));
+ std::shared_ptr<GeomDataAPI_Point2D> aEndPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aResultArc->attribute(SketchPlugin_Arc::END_ID()));
+ if(aStartPoint->isInitialized() && aEndPoint->isInitialized() &&
+ (aStartPoint->pnt()->xy()->distance(aTangentPntA) > tolerance ||
+ aEndPoint->pnt()->xy()->distance(aTangentPntB) > tolerance)) {
+ std::dynamic_pointer_cast<SketchPlugin_Arc>(aResultArc)->setReversed(false);
+ }
+ aStartPoint->setValue(aTangentPntA->x(), aTangentPntA->y());
+ aEndPoint->setValue(aTangentPntB->x(), aTangentPntB->y());
+ aResultArc->data()->blockSendAttributeUpdated(false);
+ aResultArc->execute();
+
+ if(anIsNeedNewObjects) {
+ // Create list of additional constraints:
+ // 1. Coincidence of boundary points of features (copied lines/arcs) and fillet arc
+ // 1.1. coincidence
+ FeaturePtr aConstraint = sketch()->addFeature(SketchPlugin_ConstraintCoincidence::ID());
+ AttributeRefAttrPtr aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ aRefAttr->setAttr(aResultArc->attribute(SketchPlugin_Arc::START_ID()));
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
+ int aFeatInd = isReversed ? 1 : 0;
+ int anAttrInd = (isReversed ? 2 : 0) + (isStart[isReversed ? 1 : 0] ? 0 : 1);
+ aRefAttr->setAttr(aResultFeatures[aFeatInd]->attribute(aFeatAttributes[anAttrInd]));
+ recalculateAttributes(aResultArc, SketchPlugin_Arc::START_ID(), aResultFeatures[aFeatInd], aFeatAttributes[anAttrInd]);
+ aConstraint->execute();
+ aFilletFeatures.resultConstraints.push_back(aConstraint);
+ ModelAPI_EventCreator::get()->sendUpdated(aConstraint, anUpdateEvent);
+ // 1.2. coincidence
+ aConstraint = sketch()->addFeature(SketchPlugin_ConstraintCoincidence::ID());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ aRefAttr->setAttr(aResultArc->attribute(SketchPlugin_Arc::END_ID()));
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
+ aFeatInd = isReversed ? 0 : 1;
+ anAttrInd = (isReversed ? 0 : 2) + (isStart[isReversed ? 0 : 1] ? 0 : 1);
+ aRefAttr->setAttr(aResultFeatures[aFeatInd]->attribute(aFeatAttributes[anAttrInd]));
+ recalculateAttributes(aResultArc, SketchPlugin_Arc::END_ID(), aResultFeatures[aFeatInd], aFeatAttributes[anAttrInd]);
+ aConstraint->execute();
+ aFilletFeatures.resultConstraints.push_back(aConstraint);
+ ModelAPI_EventCreator::get()->sendUpdated(aConstraint, anUpdateEvent);
+ // 2. Fillet arc radius
+ //aConstraint = sketch()->addFeature(SketchPlugin_ConstraintRadius::ID());
+ //aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ // aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ //aRefAttr->setObject(aNewArc->lastResult());
+ //std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(
+ // aConstraint->attribute(SketchPlugin_Constraint::VALUE()))->setValue(aFilletRadius);
+ //std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ // aConstraint->attribute(SketchPlugin_Constraint::FLYOUT_VALUE_PNT()))->setValue(
+ // isStart[0] ? aStartEndPnt[0] : aStartEndPnt[1]);
+ //aConstraint->execute();
+ //myProducedFeatures.push_back(aConstraint);
+ //ModelAPI_EventCreator::get()->sendUpdated(aConstraint, anUpdateEvent);
+ // 3. Tangency of fillet arc and features
+ for (int i = 0; i < aNbFeatures; i++) {
+ aConstraint = sketch()->addFeature(SketchPlugin_ConstraintTangent::ID());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ aRefAttr->setObject(aResultArc->lastResult());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
+ bool isArc = aResultFeatures[i]->getKind() == SketchPlugin_Arc::ID();
+ aRefAttr->setObject(isArc ? aResultFeatures[i]->lastResult() : aResultFeatures[i]->firstResult());
+ aConstraint->execute();
+ aFilletFeatures.resultConstraints.push_back(aConstraint);
+ ModelAPI_EventCreator::get()->sendUpdated(aConstraint, anUpdateEvent);
+ }
+ // 4. Coincidence of free boundaries of base and copied features
+ for (int i = 0; i < aNbFeatures; i++) {
+ anAttrInd = 2*i + (isStart[i] ? 1 : 0);
+ aConstraint = sketch()->addFeature(SketchPlugin_ConstraintCoincidence::ID());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ aRefAttr->setAttr(aBaseFeatures[i]->attribute(aFeatAttributes[anAttrInd]));
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
+ aRefAttr->setAttr(aResultFeatures[i]->attribute(aFeatAttributes[anAttrInd]));
+ aFilletFeatures.resultConstraints.push_back(aConstraint);
+ }
+ // 4.1. Additional tangency constraints when the fillet is based on arcs.
+ // It is used to verify the created arc will be placed on a source.
+ for (int i = 0; i < aNbFeatures; ++i) {
+ if (aResultFeatures[i]->getKind() != SketchPlugin_Arc::ID())
+ continue;
+ aConstraint = sketch()->addFeature(SketchPlugin_ConstraintTangent::ID());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ aRefAttr->setObject(aBaseFeatures[i]->lastResult());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
+ aRefAttr->setObject(aResultFeatures[i]->lastResult());
+ aConstraint->execute();
+ aFilletFeatures.resultConstraints.push_back(aConstraint);
+ ModelAPI_EventCreator::get()->sendUpdated(aConstraint, anUpdateEvent);
+ }
+ // 5. Tangent points should be placed on the base features
+ for (int i = 0; i < aNbFeatures; i++) {
+ anAttrInd = 2*i + (isStart[i] ? 0 : 1);
+ aConstraint = sketch()->addFeature(SketchPlugin_ConstraintCoincidence::ID());
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ aRefAttr->setAttr(aResultFeatures[i]->attribute(aFeatAttributes[anAttrInd]));
+ aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
+ aRefAttr->setObject(aBaseFeatures[i]->lastResult());
+ aFilletFeatures.resultConstraints.push_back(aConstraint);
+ }
+ // make base features auxiliary
+ aBaseEdgeA->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->setValue(true);
+ aBaseEdgeB->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->setValue(true);
+
+ // exchange the naming IDs of newly created and old line that become auxiliary
+ sketch()->exchangeIDs(aBaseEdgeA, aResultEdgeA);
+ sketch()->exchangeIDs(aBaseEdgeB, aResultEdgeB);
+
+ // store point and features in the map.
+ myPointFeaturesMap[aPointAttr] = aFilletFeatures;
+ } else {
+ // Update radius value
+ int aNbSubs = sketch()->numberOfSubs();
+ FeaturePtr aSubFeature;
+ for (int aSub = 0; aSub < aNbSubs; aSub++) {
+ aSubFeature = sketch()->subFeature(aSub);
+ if (aSubFeature->getKind() != SketchPlugin_ConstraintRadius::ID())
+ continue;
+ AttributeRefAttrPtr aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aSubFeature->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ if (!aRefAttr || !aRefAttr->isObject())
+ continue;
+ FeaturePtr aFeature = ModelAPI_Feature::feature(aRefAttr->object());
+ if (aFeature == aResultArc) {
+ AttributeDoublePtr aRadius = std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(
+ aSubFeature->attribute(SketchPlugin_Constraint::VALUE()));
+ aRadius->setValue(aFilletRadius);
+ break;
+ }
+ }
+ }
+ }
+
+ // Send events to update the sub-features by the solver.
+ if(isUpdateFlushed) {
+ Events_Loop::loop()->setFlushed(anUpdateEvent, true);
+ }
+*/
+}
+
+void SketchPlugin_ConstraintSplit::attributeChanged(const std::string& theID)
+{
+/* if(theID == SketchPlugin_Constraint::ENTITY_A()) {
+ if(myListOfPointsChangedInCode) {
+ return;
+ }
+
+ // Clear results.
+ clearResults();
+
+ // Clear list of new points.
+ myNewPoints.clear();
+
+ // Get list of points for fillets and current radius.
+ AttributeRefAttrListPtr aRefListOfFilletPoints = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttrList>(
+ data()->attribute(SketchPlugin_Constraint::ENTITY_A()));
+ AttributeDoublePtr aRadiusAttribute = real(VALUE());
+ int aListSize = aRefListOfFilletPoints->size();
+ if(aListSize == 0 && !myRadiusChangedByUser) {
+ // If list is empty reset radius to zero (if it was not changed by user).
+ myRadiusChangedInCode = true;
+ aRadiusAttribute->setValue(0);
+ myRadiusChangedInCode = false;
+ return;
+ }
+
+ // Iterate over points to get base lines an calculate radius for fillets.
+ double aMinimumRadius = 0;
+ std::list<std::pair<ObjectPtr, AttributePtr>> aSelectedPointsList = aRefListOfFilletPoints->list();
+ std::list<std::pair<ObjectPtr, AttributePtr>>::iterator anIter = aSelectedPointsList.begin();
+ std::set<AttributePtr> aPointsToSkeep;
+ for(int anIndex = 0; anIndex < aListSize; anIndex++, anIter++) {
+ AttributePtr aFilletPointAttr = (*anIter).second;
+ std::shared_ptr<GeomDataAPI_Point2D> aFilletPoint2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(aFilletPointAttr);
+ if(!aFilletPoint2D.get()) {
+ myNewPoints.clear();
+ setError("Error: One of the selected points is invalid.");
+ return;
+ }
+
+ // If point or coincident point is already in list remove it from attribute.
+ if(aPointsToSkeep.find(aFilletPointAttr) != aPointsToSkeep.end()) {
+ myListOfPointsChangedInCode = true;
+ aRefListOfFilletPoints->remove(aFilletPointAttr);
+ myListOfPointsChangedInCode = false;
+ continue;
+ }
+
+ // Obtain constraint coincidence for the fillet point.
+ FeaturePtr aConstraintCoincidence;
+ const std::set<AttributePtr>& aRefsList = aFilletPointAttr->owner()->data()->refsToMe();
+ for(std::set<AttributePtr>::const_iterator anIt = aRefsList.cbegin(); anIt != aRefsList.cend(); ++anIt) {
+ std::shared_ptr<ModelAPI_Attribute> anAttr = (*anIt);
+ FeaturePtr aConstrFeature = std::dynamic_pointer_cast<ModelAPI_Feature>(anAttr->owner());
+ if(aConstrFeature->getKind() == SketchPlugin_ConstraintCoincidence::ID()) {
+ AttributeRefAttrPtr anAttrRefA = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstrFeature->attribute(SketchPlugin_ConstraintCoincidence::ENTITY_A()));
+ AttributeRefAttrPtr anAttrRefB = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
+ aConstrFeature->attribute(SketchPlugin_ConstraintCoincidence::ENTITY_B()));
+ if(anAttrRefA.get()) {
+ AttributePtr anAttrA = anAttrRefA->attr();
+ if(aFilletPointAttr == anAttrA) {
+ aConstraintCoincidence = aConstrFeature;
+ break;
+ }
+ }
+ if(anAttrRefB.get()) {
+ AttributePtr anAttrB = anAttrRefB->attr();
+ if(aFilletPointAttr == anAttrB) {
+ aConstraintCoincidence = aConstrFeature;
+ break;
+ }
+ }
+ }
+ }
+
+ if(!aConstraintCoincidence.get()) {
+ myNewPoints.clear();
+ setError("Error: No coincident edges at one of the selected points.");
+ return;
+ }
+
+ // Get coincides from constraint.
+ std::set<FeaturePtr> aCoincides;
+
+
+ SketchPlugin_Tools::findCoincidences(aConstraintCoincidence,
+ SketchPlugin_ConstraintCoincidence::ENTITY_A(),
+ aCoincides);
+ SketchPlugin_Tools::findCoincidences(aConstraintCoincidence,
+ SketchPlugin_ConstraintCoincidence::ENTITY_B(),
+ aCoincides);
+
+ // Remove points from set of coincides. Also get all attributes which is equal to this point to exclude it.
+ std::shared_ptr<GeomAPI_Pnt2d> aFilletPnt2d = aFilletPoint2D->pnt();
+ std::set<FeaturePtr> aNewSetOfCoincides;
+ for(std::set<FeaturePtr>::iterator anIt = aCoincides.begin(); anIt != aCoincides.end(); ++anIt) {
+ std::string aFeatureKind = (*anIt)->getKind();
+ if(aFeatureKind == SketchPlugin_Point::ID()) {
+ AttributePtr anAttr = (*anIt)->attribute(SketchPlugin_Point::COORD_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPoint2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttr);
+ if(aPoint2D.get() && aFilletPnt2d->isEqual(aPoint2D->pnt())) {
+ aPointsToSkeep.insert(anAttr);
+ }
+ } else if(aFeatureKind == SketchPlugin_Line::ID()) {
+ AttributePtr anAttrStart = (*anIt)->attribute(SketchPlugin_Line::START_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPointStart2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttrStart);
+ if(aPointStart2D.get() && aFilletPnt2d->isEqual(aPointStart2D->pnt())) {
+ aPointsToSkeep.insert(anAttrStart);
+ }
+ AttributePtr anAttrEnd = (*anIt)->attribute(SketchPlugin_Line::END_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPointEnd2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttrEnd);
+ if(aPointEnd2D.get() && aFilletPnt2d->isEqual(aPointEnd2D->pnt())) {
+ aPointsToSkeep.insert(anAttrEnd);
+ }
+ aNewSetOfCoincides.insert(*anIt);
+ } else if(aFeatureKind == SketchPlugin_Arc::ID() ) {
+ AttributePtr anAttrCenter = (*anIt)->attribute(SketchPlugin_Arc::CENTER_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPointCenter2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttrCenter);
+ if(aPointCenter2D.get() && aFilletPnt2d->isEqual(aPointCenter2D->pnt())) {
+ aPointsToSkeep.insert(anAttrCenter);
+ continue;
+ }
+ AttributePtr anAttrStart = (*anIt)->attribute(SketchPlugin_Arc::START_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPointStart2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttrStart);
+ if(aPointStart2D.get() && aFilletPnt2d->isEqual(aPointStart2D->pnt())) {
+ aPointsToSkeep.insert(anAttrStart);
+ }
+ AttributePtr anAttrEnd = (*anIt)->attribute(SketchPlugin_Arc::END_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPointEnd2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttrEnd);
+ if(aPointEnd2D.get() && aFilletPnt2d->isEqual(aPointEnd2D->pnt())) {
+ aPointsToSkeep.insert(anAttrEnd);
+ }
+ aNewSetOfCoincides.insert(*anIt);
+ }
+ }
+ aCoincides = aNewSetOfCoincides;
+
+ // If we still have more than two coincides remove auxilary entities from set of coincides.
+ if(aCoincides.size() > 2) {
+ aNewSetOfCoincides.clear();
+ for(std::set<FeaturePtr>::iterator anIt = aCoincides.begin(); anIt != aCoincides.end(); ++anIt) {
+ if(!(*anIt)->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->value()) {
+ aNewSetOfCoincides.insert(*anIt);
+ }
+ }
+ aCoincides = aNewSetOfCoincides;
+ }
+
+ if(aCoincides.size() != 2) {
+ myNewPoints.clear();
+ setError("Error: One of the selected points does not have two suitable edges for fillet.");
+ return;
+ }
+
+ // Store base point for fillet.
+ aPointsToSkeep.insert(aFilletPointAttr);
+ myNewPoints.insert(aFilletPointAttr);
+
+ // Get base lines for fillet.
+ FeaturePtr anOldFeatureA, anOldFeatureB;
+ std::set<FeaturePtr>::iterator aLinesIt = aCoincides.begin();
+ anOldFeatureA = *aLinesIt++;
+ anOldFeatureB = *aLinesIt;
+
+ // Getting radius value if it was not changed by user.
+ if(!myRadiusChangedByUser) {
+ // Getting points located at 1/3 of edge length from fillet point.
+ std::shared_ptr<GeomAPI_Pnt2d> aFilletPnt2d = aFilletPoint2D->pnt();
+ std::shared_ptr<GeomAPI_Pnt2d> aPntA, aPntB;
+ getPointOnEdge(anOldFeatureA, aFilletPnt2d, aPntA);
+ getPointOnEdge(anOldFeatureB, aFilletPnt2d, aPntB);
+
+ /// Getting distances.
+ double aDistanceA = getProjectionDistance(anOldFeatureB, aPntA);
+ double aDistanceB = getProjectionDistance(anOldFeatureA, aPntB);
+ double aRadius = aDistanceA < aDistanceB ? aDistanceA / 2.0 : aDistanceB / 2.0;
+ aMinimumRadius = aMinimumRadius == 0 ? aRadius : aRadius < aMinimumRadius ? aRadius : aMinimumRadius;
+ }
+ }
+
+ // Set new default radius if it was not changed by user.
+ if(!myRadiusChangedByUser) {
+ myRadiusChangedInCode = true;
+ aRadiusAttribute->setValue(aMinimumRadius);
+ myRadiusChangedInCode = false;
+ }
+
+ } else if(theID == SketchPlugin_Constraint::VALUE()) {
+ if(myRadiusInitialized && !myRadiusChangedInCode) {
+ myRadiusChangedByUser = true;
+ }
+ if(!myRadiusInitialized) {
+ myRadiusInitialized = true;
+ }
+ }
+*/
+}
+
+//AISObjectPtr SketchPlugin_ConstraintSplit::getAISObject(AISObjectPtr thePrevious)
+//{
+// if (!sketch())
+// return thePrevious;
+//
+// AISObjectPtr anAIS = thePrevious;
+// /// TODO: Equal constraint presentation should be put here
+// return anAIS;
+//}
+
+bool SketchPlugin_ConstraintSplit::isMacro() const
+{
+ return true;
+}
+
+//void SketchPlugin_ConstraintSplit::clearResults()
+//{
+///* // Clear auxiliary flag on initial objects.
+// for(std::map<AttributePtr, FilletFeatures>::iterator aPointsIter = myPointFeaturesMap.begin();
+// aPointsIter != myPointFeaturesMap.end();) {
+// const FilletFeatures& aFilletFeatures = aPointsIter->second;
+// std::list<std::pair<FeaturePtr, bool>>::const_iterator aFeatureIt;
+// for(aFeatureIt = aFilletFeatures.baseEdgesState.cbegin();
+// aFeatureIt != aFilletFeatures.baseEdgesState.cend();
+// ++aFeatureIt) {
+// aFeatureIt->first->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->setValue(aFeatureIt->second);
+// }
+// ++aPointsIter;
+// }
+//
+// // And remove all produced features.
+// DocumentPtr aDoc = sketch()->document();
+// for(std::map<AttributePtr, FilletFeatures>::iterator aPointsIter = myPointFeaturesMap.begin();
+// aPointsIter != myPointFeaturesMap.end();) {
+// // Remove all produced constraints.
+// const FilletFeatures& aFilletFeatures = aPointsIter->second;
+// std::list<FeaturePtr>::const_iterator aFeatureIt;
+// for(aFeatureIt = aFilletFeatures.resultConstraints.cbegin();
+// aFeatureIt != aFilletFeatures.resultConstraints.cend();
+// ++aFeatureIt) {
+// aDoc->removeFeature(*aFeatureIt);
+// }
+//
+// // Remove all result edges.
+// for(aFeatureIt = aFilletFeatures.resultEdges.cbegin();
+// aFeatureIt != aFilletFeatures.resultEdges.cend();
+// ++aFeatureIt) {
+// aDoc->removeFeature(*aFeatureIt);
+// }
+//
+// // Remove point from map.
+// myPointFeaturesMap.erase(aPointsIter++);
+// }
+//*/
+//};
+//
+//
+//// ========= Auxiliary functions =================
+//void recalculateAttributes(FeaturePtr theNewArc, const std::string& theNewArcAttribute,
+// FeaturePtr theFeature, const std::string& theFeatureAttribute)
+//{
+// std::shared_ptr<GeomAPI_Pnt2d> anArcPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+// theNewArc->attribute(theNewArcAttribute))->pnt();
+// std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+// theFeature->attribute(theFeatureAttribute))->setValue(anArcPoint->x(), anArcPoint->y());
+//}
+
+/*/// \brief Find intersections of lines shifted along normal direction
+void possibleFilletCenterLineLine(
+ std::shared_ptr<GeomAPI_XY> thePointA, std::shared_ptr<GeomAPI_Dir2d> theDirA,
+ std::shared_ptr<GeomAPI_XY> thePointB, std::shared_ptr<GeomAPI_Dir2d> theDirB,
+ double theRadius, std::list< std::shared_ptr<GeomAPI_XY> >& theCenters)
+{
+ std::shared_ptr<GeomAPI_Dir2d> aDirAT(new GeomAPI_Dir2d(-theDirA->y(), theDirA->x()));
+ std::shared_ptr<GeomAPI_Dir2d> aDirBT(new GeomAPI_Dir2d(-theDirB->y(), theDirB->x()));
+ std::shared_ptr<GeomAPI_XY> aPntA, aPntB;
+ double aDet = theDirA->cross(theDirB);
+ for (double aStepA = -1.0; aStepA <= 1.0; aStepA += 2.0) {
+ aPntA = thePointA->added(aDirAT->xy()->multiplied(aStepA * theRadius));
+ for (double aStepB = -1.0; aStepB <= 1.0; aStepB += 2.0) {
+ aPntB = thePointB->added(aDirBT->xy()->multiplied(aStepB * theRadius));
+ double aVX = aDirAT->xy()->dot(aPntA);
+ double aVY = aDirBT->xy()->dot(aPntB);
+ std::shared_ptr<GeomAPI_XY> aPoint(new GeomAPI_XY(
+ (theDirB->x() * aVX - theDirA->x() * aVY) / aDet,
+ (theDirB->y() * aVX - theDirA->y() * aVY) / aDet));
+ theCenters.push_back(aPoint);
+ }
+ }
+}
+
+/// \brief Find intersections of line shifted along normal direction in both sides
+/// and a circle with extended radius
+void possibleFilletCenterLineArc(
+ std::shared_ptr<GeomAPI_XY> theStartLine, std::shared_ptr<GeomAPI_Dir2d> theDirLine,
+ std::shared_ptr<GeomAPI_XY> theCenterArc, double theRadiusArc,
+ double theRadius, std::list< std::shared_ptr<GeomAPI_XY> >& theCenters)
+{
+ std::shared_ptr<GeomAPI_Dir2d> aDirT(new GeomAPI_Dir2d(-theDirLine->y(), theDirLine->x()));
+ std::shared_ptr<GeomAPI_XY> aPnt;
+ double aDirNorm2 = theDirLine->dot(theDirLine);
+ double aRad = 0.0;
+ double aDirX = theDirLine->x();
+ double aDirX2 = theDirLine->x() * theDirLine->x();
+ double aDirY2 = theDirLine->y() * theDirLine->y();
+ double aDirXY = theDirLine->x() * theDirLine->y();
+ for (double aStepA = -1.0; aStepA <= 1.0; aStepA += 2.0) {
+ aPnt = theStartLine->added(aDirT->xy()->multiplied(aStepA * theRadius));
+ double aCoeff = aDirT->xy()->dot(aPnt->decreased(theCenterArc));
+ double aCoeff2 = aCoeff * aCoeff;
+ for (double aStepB = -1.0; aStepB <= 1.0; aStepB += 2.0) {
+ aRad = theRadiusArc + aStepB * theRadius;
+ double aD = aRad * aRad * aDirNorm2 - aCoeff2;
+ if (aD < 0.0)
+ continue;
+ double aDs = sqrt(aD);
+ double x1 = theCenterArc->x() + (aCoeff * aDirT->x() - aDirT->y() * aDs) / aDirNorm2;
+ double x2 = theCenterArc->x() + (aCoeff * aDirT->x() + aDirT->y() * aDs) / aDirNorm2;
+ double y1 = (aDirX2 * aPnt->y() + aDirY2 * theCenterArc->y() -
+ aDirXY * (aPnt->x() - theCenterArc->x()) - theDirLine->y() * aDs) / aDirNorm2;
+ double y2 = (aDirX2 * aPnt->y() + aDirY2 * theCenterArc->y() -
+ aDirXY * (aPnt->x() - theCenterArc->x()) + theDirLine->y() * aDs) / aDirNorm2;
+
+ std::shared_ptr<GeomAPI_XY> aPoint1(new GeomAPI_XY(x1, y1));
+ theCenters.push_back(aPoint1);
+ std::shared_ptr<GeomAPI_XY> aPoint2(new GeomAPI_XY(x2, y2));
+ theCenters.push_back(aPoint2);
+ }
+ }
+}
+
+/// \brief Find intersections of two circles with extended radii
+void possibleFilletCenterArcArc(
+ std::shared_ptr<GeomAPI_XY> theCenterA, double theRadiusA,
+ std::shared_ptr<GeomAPI_XY> theCenterB, double theRadiusB,
+ double theRadius, std::list< std::shared_ptr<GeomAPI_XY> >& theCenters)
+{
+ std::shared_ptr<GeomAPI_XY> aCenterDir = theCenterB->decreased(theCenterA);
+ double aCenterDist2 = aCenterDir->dot(aCenterDir);
+ double aCenterDist = sqrt(aCenterDist2);
+
+ double aRadA, aRadB;
+ for (double aStepA = -1.0; aStepA <= 1.0; aStepA += 2.0) {
+ aRadA = theRadiusA + aStepA * theRadius;
+ for (double aStepB = -1.0; aStepB <= 1.0; aStepB += 2.0) {
+ aRadB = theRadiusB + aStepB * theRadius;
+ if (aRadA + aRadB < aCenterDist || fabs(aRadA - aRadB) > aCenterDist)
+ continue; // there is no intersections
+
+ double aMedDist = (aRadA * aRadA - aRadB * aRadB + aCenterDist2) / (2.0 * aCenterDist);
+ double aHeight = sqrt(aRadA * aRadA - aMedDist * aMedDist);
+
+ double x1 = theCenterA->x() + (aMedDist * aCenterDir->x() + aCenterDir->y() * aHeight) / aCenterDist;
+ double y1 = theCenterA->y() + (aMedDist * aCenterDir->y() - aCenterDir->x() * aHeight) / aCenterDist;
+
+ double x2 = theCenterA->x() + (aMedDist * aCenterDir->x() - aCenterDir->y() * aHeight) / aCenterDist;
+ double y2 = theCenterA->y() + (aMedDist * aCenterDir->y() + aCenterDir->x() * aHeight) / aCenterDist;
+
+ std::shared_ptr<GeomAPI_XY> aPoint1(new GeomAPI_XY(x1, y1));
+ theCenters.push_back(aPoint1);
+ std::shared_ptr<GeomAPI_XY> aPoint2(new GeomAPI_XY(x2, y2));
+ theCenters.push_back(aPoint2);
+ }
+ }
+}
+
+void calculateFilletCenter(FeaturePtr theFeatureA, FeaturePtr theFeatureB,
+ double theRadius, bool theNotInversed[2],
+ std::shared_ptr<GeomAPI_XY>& theCenter,
+ std::shared_ptr<GeomAPI_XY>& theTangentA,
+ std::shared_ptr<GeomAPI_XY>& theTangentB)
+{
+ static const int aNbFeatures = 2;
+ FeaturePtr aFeature[aNbFeatures] = {theFeatureA, theFeatureB};
+ std::shared_ptr<GeomAPI_XY> aStart[aNbFeatures], aEnd[aNbFeatures], aCenter[aNbFeatures];
+ std::shared_ptr<GeomDataAPI_Point2D> aStartPoint, aEndPoint;
+
+ for (int i = 0; i < aNbFeatures; i++) {
+ if (aFeature[i]->getKind() == SketchPlugin_Line::ID()) {
+ aStartPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aFeature[i]->attribute(SketchPlugin_Line::START_ID()));
+ aEndPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aFeature[i]->attribute(SketchPlugin_Line::END_ID()));
+ } else if (aFeature[i]->getKind() == SketchPlugin_Arc::ID()) {
+ aStartPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aFeature[i]->attribute(SketchPlugin_Arc::START_ID()));
+ aEndPoint = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aFeature[i]->attribute(SketchPlugin_Arc::END_ID()));
+ aCenter[i] = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ aFeature[i]->attribute(SketchPlugin_Arc::CENTER_ID()))->pnt()->xy();
+ } else
+ return;
+ aStart[i] = std::shared_ptr<GeomAPI_XY>(theNotInversed[i] ?
+ new GeomAPI_XY(aStartPoint->x(), aStartPoint->y()) :
+ new GeomAPI_XY(aEndPoint->x(), aEndPoint->y()));
+ aEnd[i] = std::shared_ptr<GeomAPI_XY>(theNotInversed[i] ?
+ new GeomAPI_XY(aEndPoint->x(), aEndPoint->y()) :
+ new GeomAPI_XY(aStartPoint->x(), aStartPoint->y()));
+ }
+
+ if (theFeatureA->getKind() == SketchPlugin_Line::ID() &&
+ theFeatureB->getKind() == SketchPlugin_Line::ID()) {
+ std::shared_ptr<GeomAPI_Dir2d> aDir[2];
+ std::shared_ptr<GeomAPI_Dir2d> aDirT[2];
+ for (int i = 0; i < aNbFeatures; i++) {
+ aDir[i] = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d(aEnd[i]->decreased(aStart[i])));
+ aDirT[i] = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d(-aDir[i]->y(), aDir[i]->x()));
+ }
+
+ // get and filter possible centers
+ std::list< std::shared_ptr<GeomAPI_XY> > aSuspectCenters;
+ possibleFilletCenterLineLine(aStart[0], aDir[0], aStart[1], aDir[1], theRadius, aSuspectCenters);
+ double aDot = 0.0;
+ std::list< std::shared_ptr<GeomAPI_XY> >::iterator anIt = aSuspectCenters.begin();
+ for (; anIt != aSuspectCenters.end(); anIt++) {
+ aDot = aDirT[0]->xy()->dot(aStart[0]->decreased(*anIt));
+ theTangentA = (*anIt)->added(aDirT[0]->xy()->multiplied(aDot));
+ if (theTangentA->decreased(aStart[0])->dot(aDir[0]->xy()) < 0.0)
+ continue; // incorrect position
+ aDot = aDirT[1]->xy()->dot(aStart[1]->decreased(*anIt));
+ theTangentB = (*anIt)->added(aDirT[1]->xy()->multiplied(aDot));
+ if (theTangentB->decreased(aStart[1])->dot(aDir[1]->xy()) < 0.0)
+ continue; // incorrect position
+ // the center is found, stop searching
+ theCenter = *anIt;
+ return;
+ }
+ } else if ((theFeatureA->getKind() == SketchPlugin_Arc::ID() &&
+ theFeatureB->getKind() == SketchPlugin_Line::ID()) ||
+ (theFeatureA->getKind() == SketchPlugin_Line::ID() &&
+ theFeatureB->getKind() == SketchPlugin_Arc::ID())) {
+ int aLineInd = theFeatureA->getKind() == SketchPlugin_Line::ID() ? 0 : 1;
+ double anArcRadius = aStart[1-aLineInd]->distance(aCenter[1-aLineInd]);
+ std::shared_ptr<GeomAPI_Dir2d> aDirLine = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d(aEnd[aLineInd]->decreased(aStart[aLineInd])));
+ std::shared_ptr<GeomAPI_Dir2d> aDirT = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d(-aDirLine->y(), aDirLine->x()));
+
+ std::shared_ptr<GeomAPI_Dir2d> aStartArcDir = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d(aStart[1-aLineInd]->decreased(aCenter[1-aLineInd])));
+ std::shared_ptr<GeomAPI_Dir2d> aEndArcDir = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d(aEnd[1-aLineInd]->decreased(aCenter[1-aLineInd])));
+ double anArcAngle = aEndArcDir->angle(aStartArcDir);
+
+ // get possible centers and filter them
+ std::list< std::shared_ptr<GeomAPI_XY> > aSuspectCenters;
+ possibleFilletCenterLineArc(aStart[aLineInd], aDirLine, aCenter[1-aLineInd], anArcRadius, theRadius, aSuspectCenters);
+ double aDot = 0.0;
+ // the line is forward into the arc
+ double innerArc = aCenter[1-aLineInd]->decreased(aStart[aLineInd])->dot(aDirLine->xy());
+ std::shared_ptr<GeomAPI_XY> aLineTgPoint, anArcTgPoint;
+ // The possible centers are ranged by their positions.
+ // If the point is not satisfy one of criteria, the weight is decreased with penalty.
+ int aBestWeight = 0;
+ std::list< std::shared_ptr<GeomAPI_XY> >::iterator anIt = aSuspectCenters.begin();
+ for (; anIt != aSuspectCenters.end(); anIt++) {
+ int aWeight = 2;
+ aDot = aDirT->xy()->dot(aStart[aLineInd]->decreased(*anIt));
+ aLineTgPoint = (*anIt)->added(aDirT->xy()->multiplied(aDot));
+ // Check the point is placed on the correct arc (penalty if false)
+ if (aCenter[1-aLineInd]->distance(*anIt) * innerArc > anArcRadius * innerArc)
+ aWeight -= 1;
+ std::shared_ptr<GeomAPI_Dir2d> aCurDir = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d((*anIt)->decreased(aCenter[1-aLineInd])));
+ double aCurAngle = aCurDir->angle(aStartArcDir);
+ if (anArcAngle < 0.0) aCurAngle *= -1.0;
+ if (aCurAngle < 0.0 || aCurAngle > fabs(anArcAngle))
+ continue;
+ if (aWeight > aBestWeight)
+ aBestWeight = aWeight;
+ else if (aWeight < aBestWeight ||
+ aStart[aLineInd]->distance(*anIt) >
+ aStart[aLineInd]->distance(theCenter)) // <-- take closer point
+ continue;
+ // the center is found, stop searching
+ theCenter = *anIt;
+ anArcTgPoint = aCenter[1-aLineInd]->added(aCurDir->xy()->multiplied(anArcRadius));
+ if (theFeatureA->getKind() == SketchPlugin_Line::ID()) {
+ theTangentA = aLineTgPoint;
+ theTangentB = anArcTgPoint;
+ } else {
+ theTangentA = anArcTgPoint;
+ theTangentB = aLineTgPoint;
+ }
+ //return;
+ }
+ } else if (theFeatureA->getKind() == SketchPlugin_Arc::ID() &&
+ theFeatureB->getKind() == SketchPlugin_Arc::ID()) {
+ double anArcRadius[aNbFeatures];
+ double anArcAngle[aNbFeatures];
+ std::shared_ptr<GeomAPI_Dir2d> aStartArcDir[aNbFeatures];
+ for (int i = 0; i < aNbFeatures; i++) {
+ anArcRadius[i] = aStart[i]->distance(aCenter[i]);
+ aStartArcDir[i] = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d(aStart[i]->decreased(aCenter[i])));
+ std::shared_ptr<GeomAPI_Dir2d> aEndArcDir = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d(aEnd[i]->decreased(aCenter[i])));
+ anArcAngle[i] = aEndArcDir->angle(aStartArcDir[i]);
+ }
+
+ // get and filter possible centers
+ std::list< std::shared_ptr<GeomAPI_XY> > aSuspectCenters;
+ possibleFilletCenterArcArc(aCenter[0], anArcRadius[0], aCenter[1], anArcRadius[1], theRadius, aSuspectCenters);
+ double aDot = 0.0;
+ std::shared_ptr<GeomAPI_XY> aLineTgPoint, anArcTgPoint;
+ std::list< std::shared_ptr<GeomAPI_XY> >::iterator anIt = aSuspectCenters.begin();
+ for (; anIt != aSuspectCenters.end(); anIt++) {
+ std::shared_ptr<GeomAPI_Dir2d> aCurDir = std::shared_ptr<GeomAPI_Dir2d>(
+ new GeomAPI_Dir2d((*anIt)->decreased(aCenter[0])));
+ double aCurAngle = aCurDir->angle(aStartArcDir[0]);
+ if (anArcAngle[0] < 0.0) aCurAngle *= -1.0;
+ if (aCurAngle < 0.0 || aCurAngle > fabs(anArcAngle[0]))
+ continue; // incorrect position
+ theTangentA = aCenter[0]->added(aCurDir->xy()->multiplied(anArcRadius[0]));
+
+ aCurDir = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d((*anIt)->decreased(aCenter[1])));
+ aCurAngle = aCurDir->angle(aStartArcDir[1]);
+ if (anArcAngle[1] < 0.0) aCurAngle *= -1.0;
+ if (aCurAngle < 0.0 || aCurAngle > fabs(anArcAngle[1]))
+ continue; // incorrect position
+ theTangentB = aCenter[1]->added(aCurDir->xy()->multiplied(anArcRadius[1]));
+
+ // the center is found, stop searching
+ theCenter = *anIt;
+ return;
+ }
+ }
+}
+
+void getPointOnEdge(const FeaturePtr theFeature,
+ const std::shared_ptr<GeomAPI_Pnt2d> theFilletPoint,
+ std::shared_ptr<GeomAPI_Pnt2d>& thePoint) {
+ if(theFeature->getKind() == SketchPlugin_Line::ID()) {
+ std::shared_ptr<GeomAPI_Pnt2d> aPntStart = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Line::START_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Pnt2d> aPntEnd = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Line::END_ID()))->pnt();
+ if(aPntStart->distance(theFilletPoint) > 1.e-7) {
+ aPntStart = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Line::END_ID()))->pnt();
+ aPntEnd = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Line::START_ID()))->pnt();
+ }
+ thePoint.reset( new GeomAPI_Pnt2d(aPntStart->xy()->added( aPntEnd->xy()->decreased( aPntStart->xy() )->multiplied(1.0 / 3.0) ) ) );
+ } else {
+ std::shared_ptr<GeomAPI_Pnt2d> aPntTemp;
+ std::shared_ptr<GeomAPI_Pnt2d> aPntStart = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Arc::START_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Pnt2d> aPntEnd = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Arc::END_ID()))->pnt();
+ if(theFeature->attribute(SketchPlugin_Arc::INVERSED_ID())) {
+ aPntTemp = aPntStart;
+ aPntStart = aPntEnd;
+ aPntEnd = aPntTemp;
+ }
+ std::shared_ptr<GeomAPI_Pnt2d> aCenterPnt = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Arc::CENTER_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Circ2d> aCirc(new GeomAPI_Circ2d(aCenterPnt, aPntStart));
+ double aStartParameter(0), anEndParameter(0);
+ aCirc->parameter(aPntStart, paramTolerance, aStartParameter);
+ aCirc->parameter(aPntEnd, paramTolerance, anEndParameter);
+ if(aPntStart->distance(theFilletPoint) > tolerance) {
+ double aTmpParameter = aStartParameter;
+ aStartParameter = anEndParameter;
+ anEndParameter = aTmpParameter;
+ }
+ double aPntParameter = aStartParameter + (anEndParameter - aStartParameter) / 3.0;
+ aCirc->D0(aPntParameter, thePoint);
+ }
+}
+
+double getProjectionDistance(const FeaturePtr theFeature,
+ const std::shared_ptr<GeomAPI_Pnt2d> thePoint)
+{
+ std::shared_ptr<GeomAPI_Pnt2d> aProjectPnt;
+ if(theFeature->getKind() == SketchPlugin_Line::ID()) {
+ std::shared_ptr<GeomAPI_Pnt2d> aPntStart = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Line::START_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Pnt2d> aPntEnd = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Line::END_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Lin2d> aLin(new GeomAPI_Lin2d(aPntStart, aPntEnd));
+ aProjectPnt = aLin->project(thePoint);
+ } else {
+ std::shared_ptr<GeomAPI_Pnt2d> aPntStart = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Arc::START_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Pnt2d> aPntEnd = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Arc::END_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Pnt2d> aCenterPnt = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(
+ theFeature->attribute(SketchPlugin_Arc::CENTER_ID()))->pnt();
+ std::shared_ptr<GeomAPI_Circ2d> aCirc(new GeomAPI_Circ2d(aCenterPnt, aPntStart));
+ aProjectPnt = aCirc->project(thePoint);
+ }
+ if(aProjectPnt.get()) {
+ return aProjectPnt->distance(thePoint);
+ }
+ return -1;
+}
+
+std::set<FeaturePtr> getCoincides(const FeaturePtr& theConstraintCoincidence)
+{
+ std::set<FeaturePtr> aCoincides;
+
+ std::shared_ptr<GeomAPI_Pnt2d> aFilletPnt = SketchPlugin_Tools::getCoincidencePoint(theConstraintCoincidence);
+
+ SketchPlugin_Tools::findCoincidences(theConstraintCoincidence,
+ SketchPlugin_ConstraintCoincidence::ENTITY_A(),
+ aCoincides);
+ SketchPlugin_Tools::findCoincidences(theConstraintCoincidence,
+ SketchPlugin_ConstraintCoincidence::ENTITY_B(),
+ aCoincides);
+
+ // Remove points from set of coincides.
+ std::set<FeaturePtr> aNewSetOfCoincides;
+ for(std::set<FeaturePtr>::iterator anIt = aCoincides.begin(); anIt != aCoincides.end(); ++anIt) {
+ if((*anIt)->getKind() == SketchPlugin_Line::ID()) {
+ aNewSetOfCoincides.insert(*anIt);
+ } else if((*anIt)->getKind() == SketchPlugin_Arc::ID()) {
+ AttributePtr anAttrCenter = (*anIt)->attribute(SketchPlugin_Arc::CENTER_ID());
+ std::shared_ptr<GeomDataAPI_Point2D> aPointCenter2D =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttrCenter);
+ if(aPointCenter2D.get() && aFilletPnt->isEqual(aPointCenter2D->pnt())) {
+ continue;
+ }
+ aNewSetOfCoincides.insert(*anIt);
+ }
+ }
+ aCoincides = aNewSetOfCoincides;
+
+ // If we still have more than two coincides remove auxilary entities from set of coincides.
+ if(aCoincides.size() > 2) {
+ aNewSetOfCoincides.clear();
+ for(std::set<FeaturePtr>::iterator anIt = aCoincides.begin(); anIt != aCoincides.end(); ++anIt) {
+ if(!(*anIt)->boolean(SketchPlugin_SketchEntity::AUXILIARY_ID())->value()) {
+ aNewSetOfCoincides.insert(*anIt);
+ }
+ }
+ aCoincides = aNewSetOfCoincides;
+ }
+
+ return aCoincides;
+}
+*/