// extrusion works with faces always
aSelection->setSelectionType("SOLID");
- data()->addAttribute(START_FACE_ID(), ModelAPI_AttributeSelection::typeId());
- data()->addAttribute(END_FACE_ID(), ModelAPI_AttributeSelection::typeId());
+ data()->addAttribute(START_SHAPE_ID(), ModelAPI_AttributeSelection::typeId());
+ data()->addAttribute(END_SHAPE_ID(), ModelAPI_AttributeSelection::typeId());
data()->addAttribute(REVERSE_ID(), ModelAPI_AttributeBoolean::typeId());
data()->addAttribute(CENTERING_ID(), ModelAPI_AttributeBoolean::typeId());
}
for(int anObjectsIndex = 0; anObjectsIndex < anObjectsSelList->size(); anObjectsIndex++) {
std::shared_ptr<ModelAPI_AttributeSelection> anObjectAttr = anObjectsSelList->value(anObjectsIndex);
std::shared_ptr<GeomAPI_Shape> anObject = anObjectAttr->value();
- if(!anObject.get()) {
+ if(!anObject.get()) { // may be for not-activated parts
+ eraseResults();
return;
}
anObjects.push_back(anObject);
aContextes.push_back(anObjectAttr->context());
}
- // Verify the start face
- AttributeSelectionPtr anObjRef = selection(START_FACE_ID());
+ // Verify the start shape
+ AttributeSelectionPtr anObjRef = selection(START_SHAPE_ID());
if(!anObjRef) {
return;
}
- std::shared_ptr<GeomAPI_Shape> aStartFace = anObjRef->value();
- if(!aStartFace || !GeomAPI_Face(aStartFace).isPlanar()) {
- static const std::string aSelectionError = "The start face selection is bad";
+ std::shared_ptr<GeomAPI_Shape> aStartShape = anObjRef->value();
+ if(!aStartShape) {
+ static const std::string aSelectionError = "Error: The start shape selection is bad.";
setError(aSelectionError);
return;
}
- std::shared_ptr<GeomAPI_Shape> aStartShape;
+ std::shared_ptr<GeomAPI_Shape> aStartShapeContext;
ResultPtr aContextRes = anObjRef->context();
if (aContextRes.get()) {
- aStartShape = aContextRes->shape();
+ aStartShapeContext = aContextRes->shape();
}
- if(!aStartShape.get()) {
- static const std::string aContextError = "The start face selection context is bad";
+ if(!aStartShapeContext.get()) {
+ static const std::string aContextError = "Error: The start shape selection context is bad.";
setError(aContextError);
return;
}
- // Verify the end face
- anObjRef = selection(END_FACE_ID());
- std::shared_ptr<GeomAPI_Shape> anEndFace = anObjRef->value();
- if(!anEndFace || !GeomAPI_Face(anEndFace).isPlanar()) {
- static const std::string aSelectionError = "The end face selection is bad";
+ // Verify the end shape
+ anObjRef = selection(END_SHAPE_ID());
+ std::shared_ptr<GeomAPI_Shape> anEndShape = anObjRef->value();
+ if(!anEndShape) {
+ static const std::string aSelectionError = "Error: The end shape selection is bad.";
setError(aSelectionError);
return;
}
- std::shared_ptr<GeomAPI_Shape> anEndShape;
+ std::shared_ptr<GeomAPI_Shape> anEndShapeContext;
aContextRes = anObjRef->context();
if(aContextRes.get()) {
- anEndShape = aContextRes->shape();
+ anEndShapeContext = aContextRes->shape();
}
- if(!anEndShape.get()) {
- static const std::string aContextError = "The end face selection context is bad";
+ if(!anEndShapeContext.get()) {
+ static const std::string aContextError = "Error: The end shape selection context is bad.";
setError(aContextError);
return;
}
+ // Verify planarity of faces and linearity of edges
+ std::shared_ptr<GeomAPI_Shape> aShapes[2] = {aStartShape, anEndShape};
+ for (int i = 0; i < 2; i++) {
+ if (aShapes[i]->isFace()) {
+ std::shared_ptr<GeomAPI_Face> aFace(new GeomAPI_Face(aShapes[i]));
+ if (!aFace->isPlanar()) {
+ static const std::string aPlanarityError = "Error: One of selected faces is not planar.";
+ setError(aPlanarityError);
+ return;
+ }
+ }
+ else if (aShapes[i]->isEdge()) {
+ std::shared_ptr<GeomAPI_Edge> anEdge(new GeomAPI_Edge(aShapes[i]));
+ if (!anEdge->isLine()) {
+ static const std::string aLinearityError = "Error: One of selected endges is not linear.";
+ setError(aLinearityError);
+ return;
+ }
+ }
+ }
+
// Flags of the Placement
bool isReverse = boolean(REVERSE_ID())->value();
bool isCentering = boolean(CENTERING_ID())->value();
// Getting transformation.
GeomAlgoAPI_Placement aPlacementAlgo(
- aStartShape, anEndShape, aStartFace, anEndFace, isReverse, isCentering, true);
+ aStartShapeContext, anEndShapeContext, aStartShape, anEndShape, isReverse, isCentering, true);
if(!aPlacementAlgo.isDone()) {
- static const std::string aFeatureError = "Placement algorithm failed";
+ static const std::string aFeatureError = "Error: Placement algorithm failed.";
setError(aFeatureError);
return;
}
// Checking that the algorithm worked properly.
if(!aTransformAlgo.isDone()) {
- static const std::string aFeatureError = "Transform algorithm failed";
+ static const std::string aFeatureError = "Error: Transform algorithm failed.";
setError(aFeatureError);
break;
}
if(aTransformAlgo.shape()->isNull()) {
- static const std::string aShapeError = "Resulting shape is Null";
+ static const std::string aShapeError = "Error: Resulting shape is Null.";
setError(aShapeError);
break;
}
if(!aTransformAlgo.isValid()) {
- std::string aFeatureError = "Warning: resulting shape is not valid";
+ std::string aFeatureError = "Error: Resulting shape is not valid.";
setError(aFeatureError);
break;
}
//load result
theResultBody->storeModified(theSlaveObject, theTransformAlgo.shape()); // the initial Slave, the resulting Slave
- std::shared_ptr<GeomAPI_DataMapOfShapeShape> aSubShapes = theTransformAlgo.mapOfShapes();
+ std::shared_ptr<GeomAPI_DataMapOfShapeShape> aSubShapes = theTransformAlgo.mapOfSubShapes();
// put modifed faces in DF
std::string aModName = "Modified";
- theResultBody->loadAndOrientModifiedShapes(theTransformAlgo.makeShape().get(),
- theSlaveObject, _FACE,
- _MODIFIEDF_TAG, aModName, *aSubShapes.get());
+ theResultBody->loadAndOrientModifiedShapes(&theTransformAlgo,
+ theSlaveObject, _FACE,
+ _MODIFIEDF_TAG, aModName, *aSubShapes.get());
}