<< SketchPlugin_Circle::ID().c_str();
}
- // the control should accept the focus, so the boolen flag is corrected to be true
+ // the control should accept the focus, so the boolean flag is corrected to be true
myIsObligatory = true;
//myOptionParam = theData->getProperty(PREVIOUS_FEATURE_PARAM);
QString aPageName = QString::fromStdString(theData->getProperty(CONTAINER_PAGE_NAME));
myGroupBox = new QGroupBox(aPageName, theParent);
myGroupBox->setFlat(false);
+ bool aAcceptVariables = theData->getBooleanAttribute(DOUBLE_WDG_ACCEPT_EXPRESSIONS, true);
+
QGridLayout* aGroupLay = new QGridLayout(myGroupBox);
ModuleBase_Tools::adjustMargins(aGroupLay);
aGroupLay->setSpacing(2);
aGroupLay->addWidget(aLabel, 0, 0);
myXSpin = new ModuleBase_ParamSpinBox(myGroupBox);
+ myXSpin->setAcceptVariables(aAcceptVariables);
myXSpin->setMinimum(-DBL_MAX);
myXSpin->setMaximum(DBL_MAX);
myXSpin->setToolTip(tr("X"));
aGroupLay->addWidget(aLabel, 1, 0);
myYSpin = new ModuleBase_ParamSpinBox(myGroupBox);
+ myYSpin->setAcceptVariables(aAcceptVariables);
myYSpin->setMinimum(-DBL_MAX);
myYSpin->setMaximum(DBL_MAX);
myYSpin->setToolTip(tr("Y"));
double aX, aY;
if (getPoint2d(aView, aShape, aX, aY)) {
isDone = setPoint(aX, aY);
+ PartSet_Tools::setConstraints(mySketch, feature(), attributeID(), aX, aY);
}
}
else if (canBeActivatedByMove()) {
if (feature()->getKind() == SketchPlugin_Line::ID()) {
FeaturePtr aFeature = std::dynamic_pointer_cast<ModelAPI_Feature>(aValue.object());
- // Initialise new line with first point equal to end of previous
+ // Initialize new line with first point equal to end of previous
if (aFeature.get()) {
std::shared_ptr<ModelAPI_Data> aData = aFeature->data();
std::shared_ptr<GeomDataAPI_Point2D> aPoint =
aModes << TopAbs_VERTEX;
aModes << TopAbs_EDGE;
myWorkshop->activateSubShapesSelection(aModes);
+
+ if (!isEditingMode()) {
+ FeaturePtr aFeature = feature();
+ if (aFeature.get() && aFeature->getKind() == SketchPlugin_Point::ID())
+ storeValue();
+ }
}
bool PartSet_WidgetPoint2D::canBeActivatedByMove()
NCollection_List<TopoDS_Shape> aShapes;
std::list<ObjectPtr> aObjects;
aSelection->selectedShapes(aShapes, aObjects);
- // if we have selection
- if (aShapes.Extent() > 0) {
+ // if we have selection and use it
+ if (aShapes.Extent() > 0 && useSelectedShapes()) {
TopoDS_Shape aShape = aShapes.First();
ObjectPtr aObject = aObjects.front();
FeaturePtr aSelectedFeature = ModelAPI_Feature::feature(aObject);
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())) {
+ std::shared_ptr<SketchPlugin_Feature> aSPFeature;
+ if (aSelectedFeature.get() != NULL)
+ aSPFeature = std::dynamic_pointer_cast<SketchPlugin_Feature>(aSelectedFeature);
+ if ((!aSPFeature && !aShape.IsNull()) ||
+ (aSPFeature.get() && aSPFeature->isExternal())) {
anExternal = true;
ResultPtr aFixedObject = PartSet_Tools::findFixedObjectByExternal(aShape, aObject, mySketch);
if (!aFixedObject.get())
- aObject = PartSet_Tools::createFixedObjectByExternal(aShape, aObject, mySketch);
+ aFixedObject = PartSet_Tools::createFixedObjectByExternal(aShape, aObject, mySketch);
double aX, aY;
if (getPoint2d(aView, aShape, aX, aY) && isFeatureContainsPoint(myFeature, aX, aY)) {
else {
if (getPoint2d(aView, aShape, aX, aY))
setPoint(aX, aY);
- bool anOrphanPoint = isOrphanPoint(aSelectedFeature, mySketch, aX, aY);
- setConstraintWith(aObject);
+ 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);
+ if (anExternal) {
+ anOrphanPoint = true; // we should not stop reentrant operation on external objects because
+ // they are not participate in the contour creation excepting external vertices
+ if (aShape.ShapeType() == TopAbs_VERTEX) {
+ FeaturePtr aFixedFeature = ModelAPI_Feature::feature(aFixedObject);
+ if (aFixedFeature.get() && aFixedFeature->getKind() == SketchPlugin_Point::ID()) {
+ anOrphanPoint = isOrphanPoint(aFixedFeature, mySketch, aX, aY, true);
+ }
+ }
+ }
+
+ setConstraintWith(aFixedObject);
+ // 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)
- emit vertexSelected();
+ emit vertexSelected(); // it stops the reentrant operation
+
emit focusOutWidget(this);
}
}
PartSet_Tools::setConstraints(mySketch, feature(), attributeID(), aX, aY);
}
else if (aShape.ShapeType() == TopAbs_EDGE) {
- if (MyFeaturesForCoincedence.contains(myFeature->getKind().c_str()))
+ 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
// 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)
+ if (!anOrphanPoint && !anExternal)
emit vertexSelected();
emit focusOutWidget(this);
}
return isModified;
}
+bool PartSet_WidgetPoint2D::useSelectedShapes() const
+{
+ return true;
+}
+
bool PartSet_WidgetPoint2D::isOrphanPoint(const FeaturePtr& theFeature,
const CompositeFeaturePtr& theSketch,
- double theX, double theY)
+ double theX, double theY, const bool theSearchInResults)
{
bool anOrphanPoint = false;
if (theFeature.get()) {
if (aPointAttr.get()) {
std::shared_ptr<GeomAPI_Pnt2d> aPoint = aPointAttr->pnt();
- FeaturePtr aCoincidence = PartSet_Tools::findFirstCoincidence(theFeature, aPoint);
+ // we need to find coincidence features in results also, because external object(point)
+ // uses refs to me in another feature.
+ FeaturePtr aCoincidence = PartSet_Tools::findFirstCoincidence(theFeature, aPoint, theSearchInResults);
anOrphanPoint = true;
// if there is at least one concident line to the point, the point is not an orphant
if (aCoincidence.get()) {