- if (aSelectedFeature.get() != NULL) {
- std::shared_ptr<SketchPlugin_Feature> aSPFeature =
- std::dynamic_pointer_cast<SketchPlugin_Feature>(aSelectedFeature);
- if ((!aSPFeature) && (!aShape.IsNull()))
- PartSet_Tools::createFixedObjectByExternal(aShape, aObject, mySketch);
- }
- double aX, aY;
- if (getPoint2d(aView, aShape, aX, aY)) {
- setPoint(aX, aY);
-
- PartSet_Tools::setConstraints(mySketch, feature(), attributeID(),aX, aY);
- emit vertexSelected();
- emit focusOutWidget(this);
- return;
+ bool anExternal = false;
+ std::shared_ptr<SketchPlugin_Feature> aSPFeature;
+ if (aSelectedFeature.get() != NULL)
+ aSPFeature = std::dynamic_pointer_cast<SketchPlugin_Feature>(aSelectedFeature);
+ if ((!aSPFeature) && (!aShape.IsNull())) {
+ anExternal = true;
+ ResultPtr aFixedObject = PartSet_Tools::findFixedObjectByExternal(aShape, aObject, mySketch);
+ if (!aFixedObject.get())
+ aObject = PartSet_Tools::createFixedObjectByExternal(aShape, aObject, mySketch);
+
+ double aX, aY;
+ if (getPoint2d(aView, aShape, aX, aY) && isFeatureContainsPoint(myFeature, aX, aY)) {
+ // do not create a constraint to the point, which already used by the feature
+ // if the feature contains the point, focus is not switched
+ setPoint(aX, aY);
+ }
+ else {
+ if (getPoint2d(aView, aShape, aX, aY))
+ setPoint(aX, aY);
+ else
+ setValueState(Stored); // in case of edge selection, Apply state should also be updated
+ bool anOrphanPoint = aShape.ShapeType() == TopAbs_VERTEX ||
+ isOrphanPoint(aSelectedFeature, mySketch, aX, aY);
+ setConstraintWith(aObject);
+ // fignal updated should be flushed in order to visualize possible created external objects
+ // e.g. selection of trihedron axis when input end arc point
+ updateObject(feature());
+ if (!anOrphanPoint && !anExternal)
+ emit vertexSelected();
+
+ emit focusOutWidget(this);
+ }
+ }
+ if (!anExternal) {
+ double aX, aY;
+ bool isProcessed = false;
+ if (getPoint2d(aView, aShape, aX, aY) && isFeatureContainsPoint(myFeature, aX, aY)) {
+ // when the point is selected, the coordinates of the point should be set into the attribute
+ // if the feature contains the point, focus is not switched
+ setPoint(aX, aY);
+ }
+ else {
+ bool anOrphanPoint = isOrphanPoint(aSelectedFeature, mySketch, aX, aY);
+ // do not set a coincidence constraint in the attribute if the feature contains a point
+ // with the same coordinates. It is important for line creation in order to do not set
+ // the same constraints for the same points, oterwise the result line has zero length.
+ if (getPoint2d(aView, aShape, aX, aY)) {
+ setPoint(aX, aY);
+ PartSet_Tools::setConstraints(mySketch, feature(), attributeID(), aX, aY);
+ }
+ else if (aShape.ShapeType() == TopAbs_EDGE) {
+ if (MyFeaturesForCoincedence.contains(myFeature->getKind().c_str())) {
+ setConstraintWith(aObject);
+ setValueState(Stored); // in case of edge selection, Apply state should also be updated
+ }
+ }
+ // it is important to perform updateObject() in order to the current value is
+ // processed by Sketch Solver. Test case: line is created from a previous point
+ // to some distance, but in the area of the highlighting of the point. Constraint
+ // coincidence is created, after the solver is performed, the distance between the
+ // points of the line becomes less than the tolerance. Validator of the line returns
+ // false, the line will be aborted, but sketch stays valid.
+ updateObject(feature());
+ if (!anOrphanPoint && !anExternal)
+ emit vertexSelected();
+ emit focusOutWidget(this);
+ }