+# Copyright (C) 2014-2019 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
+#
+
#=========================================================================
# Initialization of the test
#=========================================================================
import math
from ModelAPI import *
-import model
+from salome.shaper import model
aSession = ModelAPI_Session.get()
aDocument = aSession.moduleDocument()
aPointFeature = aPart.addFeature("Point")
aPointFeatureData = aPointFeature.data()
assert(aPointFeatureData is not None)
-# aPointFeatureData.string("creation_method").setValue("by_xyz")
-aPointFeatureData.real("x").setValue(0.)
-aPointFeatureData.real("y").setValue(0.)
-aPointFeatureData.real("z").setValue(0.)
+geomDataAPI_Point(aPointFeatureData.attribute("point3d")).setValue(0., 0., 0.)
+aPointFeatureData.string("creation_method").setValue("by_xyz")
aPointFeature.execute()
aSession.finishOperation()
aPoint1Result = aPointFeature.firstResult();
aPointFeature = aPart.addFeature("Point")
aPointFeatureData = aPointFeature.data()
assert(aPointFeatureData is not None)
-# aPointFeatureData.string("creation_method").setValue("by_xyz")
-aPointFeatureData.real("x").setValue(0.)
-aPointFeatureData.real("y").setValue(0.)
-aPointFeatureData.real("z").setValue(100.)
+geomDataAPI_Point(aPointFeatureData.attribute("point3d")).setValue(0., 0., 100.)
+aPointFeatureData.string("creation_method").setValue("by_xyz")
aPointFeature.execute()
aSession.finishOperation()
aPoint2Result = aPointFeature.firstResult();
norm.setValue(0, 0, 1)
# Create circle
aSketchCircle = aCircleSketchFeature.addFeature("SketchCircle")
-anCircleCentr = geomDataAPI_Point2D(aSketchCircle.attribute("CircleCenter"))
-aCircleRadius = aSketchCircle.real("CircleRadius")
+anCircleCentr = geomDataAPI_Point2D(aSketchCircle.attribute("circle_center"))
+aCircleRadius = aSketchCircle.real("circle_radius")
anCircleCentr.setValue(0, 0)
aCircleRadius.setValue(50)
aSession.finishOperation()
# Make extrusion on circle
#=========================================================================
# Build shape from sketcher results
-aCircleSketchResult = aCircleSketchFeature.firstResult()
-aCircleSketchEdges = modelAPI_ResultConstruction(aCircleSketchResult).shape()
-origin = geomDataAPI_Point(aCircleSketchFeature.attribute("Origin")).pnt()
-dirX = geomDataAPI_Dir(aCircleSketchFeature.attribute("DirX")).dir()
-norm = geomDataAPI_Dir(aCircleSketchFeature.attribute("Norm")).dir()
-aCircleSketchFaces = ShapeList()
-GeomAlgoAPI_SketchBuilder.createFaces(origin, dirX, norm, aCircleSketchEdges, aCircleSketchFaces)
-assert (len(aCircleSketchFaces) > 0)
-assert (aCircleSketchFaces[0] is not None)
+aCircleSketchResult = modelAPI_ResultConstruction(aCircleSketchFeature.firstResult())
+assert (aCircleSketchResult.facesNum() > 0)
# Create extrusion
aSession.startOperation()
anExtrusionFt = aPart.addFeature("Extrusion")
assert (anExtrusionFt.getKind() == "Extrusion")
# selection type FACE=4
-anExtrusionFt.selectionList("base").append(aCircleSketchResult, aCircleSketchFaces[0])
+anExtrusionFt.selectionList("base").append(aCircleSketchResult, aCircleSketchResult.face(0))
anExtrusionFt.string("CreationMethod").setValue("BySizes")
anExtrusionFt.real("to_size").setValue(100)
anExtrusionFt.real("from_size").setValue(0)
anAxisFeatureData = anAxisFeature.data()
assert(anAxisFeatureData is not None)
anAxisFeatureData.string("CreationMethod").setValue("AxisByCylindricalFaceCase")
-anAxisFeatureData.selection("CylindricalFace").selectSubShape("face", "Extrusion_1_1/Generated_Face_1")
+anAxisFeatureData.selection("CylindricalFace").selectSubShape("face", "Extrusion_1_1/Generated_Face&Sketch_1/SketchCircle_1_2")
anAxisFeature.execute()
aSession.finishOperation()
# Test an axis by line
aSession.startOperation()
-anAxis = model.addAxis(aPart, aSketchLine.result()[0])
+anAxis = model.addAxis(aPart, aSketchLine.result())
aSession.finishOperation()
-assert (len(anAxis.result()) > 0)
+assert (len(anAxis.results()) > 0)
# Create plane
aSession.startOperation()
# Test an axis by plane and point
aSession.startOperation()
-anAxis = model.addAxis(aPart, aPlane1.result()[0], aSketchPoint.result()[0])
+anAxis = model.addAxis(aPart, aPlane1.result(), aSketchPoint.result())
aSession.finishOperation()
-assert (len(anAxis.result()) > 0)
+assert (len(anAxis.results()) > 0)
# Create plane
aSession.startOperation()
# Test an axis by two planes
aSession.startOperation()
-anAxis = model.addAxis(aPart, aPlane1.result()[0], aPlane2.result()[0])
+anAxis = model.addAxis(aPart, aPlane1.result(), aPlane2.result())
aSession.finishOperation()
-assert (len(anAxis.result()) > 0)
+assert (len(anAxis.results()) > 0)
# Test an axis by two planes and offsets
aSession.startOperation()
-anAxis = model.addAxis(aPart, aPlane1.result()[0], 50, False, aPlane2.result()[0], 100, True)
+anAxis = model.addAxis(aPart, aPlane1.result(), 50, False, aPlane2.result(), 100, True)
aSession.finishOperation()
-assert (len(anAxis.result()) > 0)
+assert (len(anAxis.results()) > 0)
-#import model
-#assert(model.checkPythonDump())
+assert(model.checkPythonDump())