#include <TNaming_NamedShape.hxx>
#include <TNaming_Iterator.hxx>
#include <TNaming_Tool.hxx>
+#include <TNaming_SameShapeIterator.hxx>
#include <TDataStd_Name.hxx>
#include <TDataStd_Integer.hxx>
#include <TopoDS.hxx>
return TopAbs_VERTEX; // bad case
}
+/// Checks that shape is presented in the tree with not-selection evolution
+static bool isShapeInTree(const TDF_Label& theAccess1, const TDF_Label& theAccess2,
+ TopoDS_Shape theShape)
+{
+ bool aResult = TNaming_Tool::HasLabel(theAccess1, theShape);
+ if (aResult) { //check evolution and a label of this shape
+ for(TNaming_SameShapeIterator aShapes(theShape, theAccess1); aShapes.More(); aShapes.Next())
+ {
+ static Handle(TNaming_NamedShape) aNS;
+ if (aShapes.Label().FindAttribute(TNaming_NamedShape::GetID(), aNS)) {
+ if (aNS->Evolution() != TNaming_SELECTED) {
+ return true;
+ }
+ }
+ }
+ }
+ if (!theAccess2.IsNull()) {
+ static const TDF_Label anEmpty;
+ return isShapeInTree(theAccess2, anEmpty, theShape);
+ }
+ return false;
+}
+
void Model_BodyBuilder::loadModifiedShapes(const GeomMakeShapePtr& theAlgo,
const GeomShapePtr& theOldShape,
const GeomAPI_Shape::ShapeType theShapeTypeToExplore,
// There is no sense to write history if shape already processed
// or old shape does not exist in the document.
bool anOldSubShapeAlreadyProcessed = !anAlreadyProcessedShapes.Add(anOldSubShape_);
- bool anOldSubShapeNotInTree = !TNaming_Tool::HasLabel(aData->shapeLab(), anOldSubShape_);
- if (anOldSubShapeNotInTree) {// check this is in the module document
- TDF_Label anAccess = std::dynamic_pointer_cast<Model_Document>(
- ModelAPI_Session::get()->moduleDocument())->generalLabel();
- anOldSubShapeNotInTree = !TNaming_Tool::HasLabel(anAccess, anOldSubShape_);
- }
- if (anOldSubShapeAlreadyProcessed
- || anOldSubShapeNotInTree)
- {
+ TDF_Label anAccess2 = std::dynamic_pointer_cast<Model_Document>(
+ ModelAPI_Session::get()->moduleDocument())->generalLabel();
+ bool anOldSubShapeNotInTree = !isShapeInTree(aData->shapeLab(), anAccess2, anOldSubShape_);
+ if (anOldSubShapeAlreadyProcessed || anOldSubShapeNotInTree) {
continue;
}
// There is no sense to write history if shape already processed
// or old shape does not exist in the document.
bool anOldSubShapeAlreadyProcessed = !anAlreadyProcessedShapes.Add(anOldSubShape_);
- bool anOldSubShapeNotInTree = !TNaming_Tool::HasLabel(aData->shapeLab(), anOldSubShape_);
- if (anOldSubShapeNotInTree) {// check this is in the module document
- TDF_Label anAccess = std::dynamic_pointer_cast<Model_Document>(
- ModelAPI_Session::get()->moduleDocument())->generalLabel();
- anOldSubShapeNotInTree = !TNaming_Tool::HasLabel(anAccess, anOldSubShape_);
- }
- if (anOldSubShapeAlreadyProcessed
- || anOldSubShapeNotInTree)
- {
+ TDF_Label anAccess2 = std::dynamic_pointer_cast<Model_Document>(
+ ModelAPI_Session::get()->moduleDocument())->generalLabel();
+ bool anOldSubShapeNotInTree = !isShapeInTree(aData->shapeLab(), anAccess2, anOldSubShape_);
+ if (anOldSubShapeAlreadyProcessed || anOldSubShapeNotInTree) {
continue;
}
--- /dev/null
+## Copyright (C) 2014-2017 CEA/DEN, EDF R&D
+##
+## This library is free software; you can redistribute it and/or
+## modify it under the terms of the GNU Lesser General Public
+## License as published by the Free Software Foundation; either
+## version 2.1 of the License, or (at your option) any later version.
+##
+## This library is distributed in the hope that it will be useful,
+## but WITHOUT ANY WARRANTY; without even the implied warranty of
+## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+## Lesser General Public License for more details.
+##
+## You should have received a copy of the GNU Lesser General Public
+## License along with this library; if not, write to the Free Software
+## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+##
+## See http:##www.salome-platform.org/ or
+## email : webmaster.salome@opencascade.com<mailto:webmaster.salome@opencascade.com>
+##
+
+# -*- coding: utf-8 -*-
+
+from SketchAPI import *
+
+from salome.shaper import model
+
+model.begin()
+partSet = model.moduleDocument()
+Part_1 = model.addPart(partSet)
+Part_1_doc = Part_1.document()
+param = model.addParameter(Part_1_doc, "p", "10")
+Box_1 = model.addBox(Part_1_doc, 10, 10, 10)
+Sketch_1 = model.addSketch(Part_1_doc, model.selection("FACE", "Box_1_1/Top"))
+SketchLine_1 = Sketch_1.addLine(6.82842712474619, 7.171572875253809, 2.82842712474619, 7.171572875253809)
+SketchLine_2 = Sketch_1.addLine(2.82842712474619, 7.171572875253809, 2.82842712474619, 3.171572875253809)
+SketchLine_3 = Sketch_1.addLine(2.82842712474619, 3.171572875253809, 6.82842712474619, 3.171572875253809)
+SketchLine_4 = Sketch_1.addLine(6.82842712474619, 3.171572875253809, 6.82842712474619, 7.171572875253809)
+SketchConstraintCoincidence_1 = Sketch_1.setCoincident(SketchLine_4.endPoint(), SketchLine_1.startPoint())
+SketchConstraintCoincidence_2 = Sketch_1.setCoincident(SketchLine_1.endPoint(), SketchLine_2.startPoint())
+SketchConstraintCoincidence_3 = Sketch_1.setCoincident(SketchLine_2.endPoint(), SketchLine_3.startPoint())
+SketchConstraintCoincidence_4 = Sketch_1.setCoincident(SketchLine_3.endPoint(), SketchLine_4.startPoint())
+SketchConstraintHorizontal_1 = Sketch_1.setHorizontal(SketchLine_1.result())
+SketchConstraintVertical_1 = Sketch_1.setVertical(SketchLine_2.result())
+SketchConstraintHorizontal_2 = Sketch_1.setHorizontal(SketchLine_3.result())
+SketchConstraintVertical_2 = Sketch_1.setVertical(SketchLine_4.result())
+SketchCircle_1 = Sketch_1.addCircle(4.440892098500626e-16, 0, 1)
+SketchConstraintLength_1 = Sketch_1.setLength(SketchLine_1.result(), 4)
+SketchConstraintLength_2 = Sketch_1.setLength(SketchLine_4.result(), 4)
+SketchLine_5 = Sketch_1.addLine(0, 10, 10, 0)
+SketchLine_5.setAuxiliary(True)
+SketchProjection_1 = Sketch_1.addProjection(model.selection("VERTEX", "[Box_1_1/Back][Box_1_1/Right][Box_1_1/Top]"), False)
+SketchPoint_1 = SketchProjection_1.createdFeature()
+SketchConstraintCoincidence_5 = Sketch_1.setCoincident(SketchLine_5.startPoint(), SketchPoint_1.result())
+SketchProjection_2 = Sketch_1.addProjection(model.selection("VERTEX", "[Box_1_1/Front][Box_1_1/Left][Box_1_1/Top]"), False)
+SketchPoint_2 = SketchProjection_2.createdFeature()
+SketchConstraintCoincidence_6 = Sketch_1.setCoincident(SketchLine_5.endPoint(), SketchPoint_2.result())
+SketchConstraintCoincidence_7 = Sketch_1.setCoincident(SketchLine_5.result(), SketchLine_2.startPoint())
+SketchConstraintDistance_1 = Sketch_1.setDistance(SketchLine_2.startPoint(), SketchLine_5.startPoint(), 4, True)
+SketchProjection_3 = Sketch_1.addProjection(model.selection("EDGE", "[Box_1_1/Left][Box_1_1/Top]"), False)
+SketchLine_6 = SketchProjection_3.createdFeature()
+SketchConstraintCoincidence_8 = Sketch_1.setCoincident(SketchLine_6.result(), SketchCircle_1.center())
+SketchConstraintRadius_1 = Sketch_1.setRadius(SketchCircle_1.results()[1], 1)
+SketchConstraintDistance_2 = Sketch_1.setDistance(SketchAPI_Line(SketchLine_6).endPoint(), SketchCircle_1.center(), "p", True)
+model.do()
+Extrusion_1 = model.addExtrusion(Part_1_doc, [model.selection("FACE", "Sketch_1/Face-SketchCircle_1_2f")], model.selection(), 1, 1)
+Cut_1 = model.addCut(Part_1_doc, [model.selection("SOLID", "Box_1_1")], [model.selection("SOLID", "Extrusion_1_1")])
+Revolution_1 = model.addRevolution(Part_1_doc, [model.selection("WIRE", "Sketch_1/Face-SketchLine_1r-SketchLine_2f-SketchLine_3f-SketchLine_4f_wire")], model.selection("EDGE", "[Cut_1_1/Modified_Face&Box_1_1/Left][Cut_1_1/Modified_Face&Box_1_1/Top]"), 45, 0)
+model.do()
+# relocate circle to split the edge - axis of revolution
+param.setValue(5)
+model.end()
+
+# check that revolution is valid
+from ModelAPI import *
+aFactory = ModelAPI_Session.get().validators()
+assert(aFactory.validate(Revolution_1.feature()))
+
+assert(model.checkPythonDump(model.ModelHighAPI.CHECK_NAMING))
TopoDS_Face aFace2 = TopoDS::Face(theShape2);
Handle(Geom_Surface) aSurf2 = BRep_Tool::Surface(aFace2, aLoc2);
return aSurf1 == aSurf2 && aLoc1.IsEqual(aLoc2);
- } else if (theShape1.ShapeType() == TopAbs_FACE) { // check curves
+ } else if (theShape1.ShapeType() == TopAbs_EDGE) { // check curves
TopLoc_Location aLoc1, aLoc2;
Standard_Real aFirst, aLast;
TopoDS_Edge anEdge1 = TopoDS::Edge(theShape1);
if (myWeakIndex != -1) {
Selector_NExplode aNexp(aCommon);
aResult = aNexp.shape(myWeakIndex);
+ } else if (myGeometricalNaming && aCommon.Extent() > 1) {
+ // check results are on the same geometry, create compound
+ TopoDS_ListOfShape::Iterator aCommonIter(aCommon);
+ TopoDS_Shape aFirst = aCommonIter.Value();
+ for(aCommonIter.Next(); aCommonIter.More(); aCommonIter.Next()) {
+ if (!sameGeometry(aFirst, aCommonIter.Value()))
+ break;
+ }
+ if (!aCommonIter.More()) { // all geometry is same, create a result compound
+ TopoDS_Builder aBuilder;
+ TopoDS_Compound aCompound;
+ aBuilder.MakeCompound(aCompound);
+ for(aCommonIter.Initialize(aCommon); aCommonIter.More(); aCommonIter.Next()) {
+ aBuilder.Add(aCompound, aCommonIter.Value());
+ }
+ aResult = aCompound;
+ }
} else {
return false;
}
