const double theFromAngle)
{
if(!theBaseShape || !theAxis ||
- (((!theFromShape && !theToShape) || (theFromShape && theToShape && theFromShape->isEqual(theToShape)))
+ (((!theFromShape && !theToShape) ||
+ (theFromShape && theToShape && theFromShape->isEqual(theToShape)))
&& (theFromAngle == -theToAngle))) {
return;
}
if(!aBaseTransform) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aBaseTransform)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aBaseTransform)));
if(!aBaseTransform->IsDone()) {
return;
}
// Making revolution to the angle equal to the sum of "from angle" and "to angle".
BRepPrimAPI_MakeRevol* aRevolBuilder = new BRepPrimAPI_MakeRevol(aRotatedBase,
- anAxis,
- (theFromAngle + theToAngle) / 180 * M_PI,
- Standard_True);
+ anAxis,
+ (theFromAngle + theToAngle) / 180 * M_PI,
+ Standard_True);
if(!aRevolBuilder) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aRevolBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aRevolBuilder)));
if(!aRevolBuilder->IsDone()) {
return;
}
}
} else if(theFromShape && theToShape) { // Case 2: When both bounding planes were set.
// Making revolution to the 360 angle.
- BRepPrimAPI_MakeRevol* aRevolBuilder = new BRepPrimAPI_MakeRevol(aBaseShape, anAxis, 2 * M_PI, Standard_True);
+ BRepPrimAPI_MakeRevol* aRevolBuilder =
+ new BRepPrimAPI_MakeRevol(aBaseShape, anAxis, 2 * M_PI, Standard_True);
if(!aRevolBuilder) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aRevolBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aRevolBuilder)));
if(!aRevolBuilder->IsDone()) {
return;
}
// Getting planes from bounding face.
GeomLib_IsPlanarSurface isFromPlanar(BRep_Tool::Surface(aFromFace));
GeomLib_IsPlanarSurface isToPlanar(BRep_Tool::Surface(aToFace));
- if(!isFromPlanar.IsPlanar() || !isToPlanar.IsPlanar()) {// non-planar shapes is not supported for revolution bounding
+ if(!isFromPlanar.IsPlanar() || !isToPlanar.IsPlanar()) {
+ // non-planar shapes is not supported for revolution bounding
return;
}
// Rotating bounding planes to the specified angle.
gp_Trsf aFromTrsf;
gp_Trsf aToTrsf;
- double aFromRotAngle = ((aFromPln.Axis().Direction() * aBasePlane->Axis().Direction()) > 0) ? -theFromAngle : theFromAngle;
- double aToRotAngle = ((aToPln.Axis().Direction() * aBasePlane->Axis().Direction()) > 0) ? -theToAngle : theToAngle;
+ double aFromRotAngle =
+ ((aFromPln.Axis().Direction() * aBasePlane->Axis().Direction()) > 0) ? -theFromAngle :
+ theFromAngle;
+ double aToRotAngle =
+ ((aToPln.Axis().Direction() * aBasePlane->Axis().Direction()) > 0) ? -theToAngle :
+ theToAngle;
aFromTrsf.SetRotation(anAxis,aFromRotAngle / 180.0 * M_PI);
aToTrsf.SetRotation(anAxis, aToRotAngle / 180.0 * M_PI);
BRepBuilderAPI_Transform aFromTransform(aFromSolid, aFromTrsf, true);
if(!aFromCutBuilder->IsDone()) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aFromCutBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aFromCutBuilder)));
aResult = aFromCutBuilder->Shape();
if(aResult.ShapeType() == TopAbs_COMPOUND) {
aResult = GeomAlgoAPI_DFLoader::refineResult(aResult);
if(!aToCutBuilder->IsDone()) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aToCutBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aToCutBuilder)));
aResult = aToCutBuilder->Shape();
TopoDS_Iterator aCheckIt(aResult);
if(!aCheckIt.More()) {
aResult = aGeomShape->impl<TopoDS_Shape>();
}
- // If after cut we got more than one solids then take closest to the center of mass of the base face.
+ // If after cut we got more than one solids then take closest
+ // to the center of mass of the base face.
aResult = findClosest(aResult, aBaseCentre);
// Setting naming.
}
} else { //Case 3: When only one bounding plane was set.
// Making revolution to the 360 angle.
- BRepPrimAPI_MakeRevol* aRevolBuilder = new BRepPrimAPI_MakeRevol(aBaseShape, anAxis, 2 * M_PI, Standard_True);
+ BRepPrimAPI_MakeRevol* aRevolBuilder =
+ new BRepPrimAPI_MakeRevol(aBaseShape, anAxis, 2 * M_PI, Standard_True);
if(!aRevolBuilder) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aRevolBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aRevolBuilder)));
if(!aRevolBuilder->IsDone()) {
return;
}
if(!aBoundingCutBuilder->IsDone()) {
return;
}
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aBoundingCutBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aBoundingCutBuilder)));
aResult = aBoundingCutBuilder->Shape();
if(aResult.ShapeType() == TopAbs_COMPOUND) {
aResult = GeomAlgoAPI_DFLoader::refineResult(aResult);
aBasePlane->Axis().Direction().Z()));
GeomShapePtr aPln = GeomAlgoAPI_FaceBuilder::planarFace(theCenter, theNormal);
aList.push_back(aSh);
- std::list<std::shared_ptr<GeomAPI_Pnt> > aBoundingPoints = GeomAlgoAPI_ShapeTools::getBoundingBox(aList);
+ std::list<std::shared_ptr<GeomAPI_Pnt> >
+ aBoundingPoints = GeomAlgoAPI_ShapeTools::getBoundingBox(aList);
aSh = GeomAlgoAPI_ShapeTools::fitPlaneToBox(aPln, aBoundingPoints);
aModifiedBaseShape = aSh->impl<TopoDS_Shape>();
} else {
TopoDS_Shape aCutResult = aBaseCutBuilder->Shape();
TopoDS_Iterator aCheckIt(aCutResult);
if(aCheckIt.More()) {
- this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(new GeomAlgoAPI_MakeShape(aBaseCutBuilder)));
+ this->appendAlgo(std::shared_ptr<GeomAlgoAPI_MakeShape>(
+ new GeomAlgoAPI_MakeShape(aBaseCutBuilder)));
aResult = aCutResult;
if(aResult.ShapeType() == TopAbs_COMPOUND) {
aResult = GeomAlgoAPI_DFLoader::refineResult(aResult);
aResult = aGeomShape->impl<TopoDS_Shape>();
}
- // If after cut we got more than one solids then take closest to the center of mass of the base face.
+ // If after cut we got more than one solids then take
+ // closest to the center of mass of the base face.
aResult = findClosest(aResult, aBaseCentre);
// Setting naming.
if(aShapeTypeToExp == TopAbs_COMPOUND) {
- storeGenerationHistory(this, aResult, TopAbs_EDGE, aRotatedBoundingFace, aModifiedBaseShape, isFromFaceSet);
- storeGenerationHistory(this, aResult, TopAbs_FACE, aRotatedBoundingFace, aModifiedBaseShape, isFromFaceSet);
+ storeGenerationHistory(this, aResult, TopAbs_EDGE,
+ aRotatedBoundingFace, aModifiedBaseShape, isFromFaceSet);
+ storeGenerationHistory(this, aResult, TopAbs_FACE,
+ aRotatedBoundingFace, aModifiedBaseShape, isFromFaceSet);
} else {
- storeGenerationHistory(this, aResult, aShapeTypeToExp, aRotatedBoundingFace, aModifiedBaseShape, isFromFaceSet);
+ storeGenerationHistory(this, aResult, aShapeTypeToExp,
+ aRotatedBoundingFace, aModifiedBaseShape, isFromFaceSet);
}
}
return aSolid;
}
-//==================================================================================================
+//================================================================================================
gp_Pnt centreOfMass(const TopoDS_Shape& theShape)
{
TopAbs_ShapeEnum aShType = theShape.ShapeType();
return aGProps.CentreOfMass();
}
-//==================================================================================================
+//================================================================================================
TopoDS_Shape findClosest(const TopoDS_Shape& theShape, const gp_Pnt& thePoint)
{
TopoDS_Shape aResult = theShape;
return aResult;
}
-//==================================================================================================
+//================================================================================================
void storeGenerationHistory(GeomAlgoAPI_Revolution* theRevolutionAlgo,
const TopoDS_Shape& theBase,
const TopAbs_ShapeEnum theType,
}
}
-//==================================================================================================
+//================================================================================================
void storeGenerationHistory(GeomAlgoAPI_Revolution* theRevolutionAlgo,
const TopoDS_Shape& theResult,
const TopAbs_ShapeEnum theType,
if(theType == TopAbs_VERTEX) {
gp_Pnt aPnt = BRep_Tool::Pnt(TopoDS::Vertex(aShape));
IntTools_Context anIntTools;
- if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theToFace), Precision::Confusion()) == Standard_True) {
+ if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theToFace),
+ Precision::Confusion()) == Standard_True) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
theRevolutionAlgo->addToShape(aGeomSh);
}
- if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theFromFace), Precision::Confusion()) == Standard_True) {
+ if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theFromFace),
+ Precision::Confusion()) == Standard_True) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
theRevolutionAlgo->addFromShape(aGeomSh);
}
if(theType == TopAbs_VERTEX) {
gp_Pnt aPnt = BRep_Tool::Pnt(TopoDS::Vertex(aShape));
IntTools_Context anIntTools;
- if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theRotatedBoundingFace), Precision::Confusion()) == Standard_True) {
+ if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theRotatedBoundingFace),
+ Precision::Confusion()) == Standard_True) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
- theIsFromFaceSet ? theRevolutionAlgo->addFromShape(aGeomSh) : theRevolutionAlgo->addToShape(aGeomSh);
+ theIsFromFaceSet ? theRevolutionAlgo->addFromShape(aGeomSh) :
+ theRevolutionAlgo->addToShape(aGeomSh);
}
- if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theModifiedBaseShape), Precision::Confusion()) == Standard_True) {
+ if(anIntTools.IsValidPointForFace(aPnt, TopoDS::Face(theModifiedBaseShape),
+ Precision::Confusion()) == Standard_True) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
- theIsFromFaceSet ? theRevolutionAlgo->addToShape(aGeomSh) : theRevolutionAlgo->addFromShape(aGeomSh);
+ theIsFromFaceSet ? theRevolutionAlgo->addToShape(aGeomSh) :
+ theRevolutionAlgo->addFromShape(aGeomSh);
}
} else if(theType == TopAbs_EDGE) {
TopoDS_Edge anEdge = TopoDS::Edge(aShape);
anEdgeCheck.Perform();
if(anEdgeCheck.MaxDistance() < Precision::Confusion()) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
- theIsFromFaceSet ? theRevolutionAlgo->addFromShape(aGeomSh) : theRevolutionAlgo->addToShape(aGeomSh);
+ theIsFromFaceSet ? theRevolutionAlgo->addFromShape(aGeomSh) :
+ theRevolutionAlgo->addToShape(aGeomSh);
}
anEdgeCheck.Init(anEdge, TopoDS::Face(theModifiedBaseShape));
anEdgeCheck.Perform();
if(anEdgeCheck.MaxDistance() < Precision::Confusion()) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
- theIsFromFaceSet ? theRevolutionAlgo->addToShape(aGeomSh) : theRevolutionAlgo->addFromShape(aGeomSh);
+ theIsFromFaceSet ? theRevolutionAlgo->addToShape(aGeomSh) :
+ theRevolutionAlgo->addFromShape(aGeomSh);
}
} else {
Handle(Geom_Surface) aFaceSurface = BRep_Tool::Surface(TopoDS::Face(aShape));
- Handle(Geom_Surface) aBoundingSurface = BRep_Tool::Surface(TopoDS::Face(theRotatedBoundingFace));
+ Handle(Geom_Surface) aBoundingSurface =
+ BRep_Tool::Surface(TopoDS::Face(theRotatedBoundingFace));
Handle(Geom_Surface) aBaseSurface = BRep_Tool::Surface(TopoDS::Face(theModifiedBaseShape));
if(aFaceSurface == aBoundingSurface) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
- theIsFromFaceSet ? theRevolutionAlgo->addFromShape(aGeomSh) : theRevolutionAlgo->addToShape(aGeomSh);
+ theIsFromFaceSet ? theRevolutionAlgo->addFromShape(aGeomSh) :
+ theRevolutionAlgo->addToShape(aGeomSh);
}
if(aFaceSurface == aBaseSurface) {
aGeomSh->setImpl(new TopoDS_Shape(aShape));
- theIsFromFaceSet ? theRevolutionAlgo->addToShape(aGeomSh) : theRevolutionAlgo->addFromShape(aGeomSh);
+ theIsFromFaceSet ? theRevolutionAlgo->addToShape(aGeomSh) :
+ theRevolutionAlgo->addFromShape(aGeomSh);
}
}
}