1 # Copyright (C) 2014-2022 CEA/DEN, EDF R&D
3 # This library is free software; you can redistribute it and/or
4 # modify it under the terms of the GNU Lesser General Public
5 # License as published by the Free Software Foundation; either
6 # version 2.1 of the License, or (at your option) any later version.
8 # This library is distributed in the hope that it will be useful,
9 # but WITHOUT ANY WARRANTY; without even the implied warranty of
10 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 # Lesser General Public License for more details.
13 # You should have received a copy of the GNU Lesser General Public
14 # License along with this library; if not, write to the Free Software
15 # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
20 from salome.shaper import model
21 from GeomAPI import GeomAPI_Shape
24 GeomAPI_Shape.SOLID: "GeomAPI_Shape.SOLID",
25 GeomAPI_Shape.FACE: "GeomAPI_Shape.FACE",
26 GeomAPI_Shape.EDGE: "GeomAPI_Shape.EDGE",
27 GeomAPI_Shape.VERTEX: "GeomAPI_Shape.VERTEX"}
29 def testNbUniqueSubShapes(theFeature, theShapeType, theExpectedNbSubShapes):
30 """ Tests number of unique feature sub-shapes of passed type for each result.
31 :param theFeature: feature to test.
32 :param theShapeType: shape type of sub-shapes to test.
33 :param theExpectedNbSubShapes: list of sub-shapes numbers. Size of list should be equal to len(theFeature.results()).
35 aResults = theFeature.feature().results()
36 aNbResults = len(aResults)
37 aListSize = len(theExpectedNbSubShapes)
38 assert (aNbResults == aListSize), "Number of results: {} not equal to list size: {}.".format(aNbResults, aListSize)
39 for anIndex in range(0, aNbResults):
40 aNbResultSubShapes = 0
41 anExpectedNbSubShapes = theExpectedNbSubShapes[anIndex]
42 aNbResultSubShapes = aResults[anIndex].shape().subShapes(theShapeType, True).size()
43 assert (aNbResultSubShapes == anExpectedNbSubShapes), "Number of sub-shapes of type {} for result[{}]: {}. Expected: {}.".format(aShapeTypes[theShapeType], anIndex, aNbResultSubShapes, anExpectedNbSubShapes)
45 def testCompound(theFeature,theModel,NbSubRes,NbSolid,NbFace,NbEdge,NbVertex):
46 """ Tests numbers of unique sub-shapes in compound result
48 aResults = theFeature.feature().results()
49 aNbResults = len(aResults)
50 assert (aNbResults == 1), "Number of results: {} not equal to 1.".format(aNbResults)
51 assert aResults[0].shape().isCompound(), "Result shape type: {}. Expected: COMPOUND.".format(aResults[0].shape().shapeTypeStr())
52 theModel.testNbSubResults(theFeature, NbSubRes)
53 testNbUniqueSubShapes(theFeature, GeomAPI_Shape.SOLID, NbSolid)
54 testNbUniqueSubShapes(theFeature, GeomAPI_Shape.FACE, NbFace)
55 testNbUniqueSubShapes(theFeature, GeomAPI_Shape.EDGE, NbEdge)
56 testNbUniqueSubShapes(theFeature, GeomAPI_Shape.VERTEX, NbVertex)
60 partSet = model.moduleDocument()
61 Part_1 = model.addPart(partSet)
62 Part_1_doc = Part_1.document()
63 Param_dx = model.addParameter(Part_1_doc, "dx", '10')
64 Param_alfa = model.addParameter(Part_1_doc, "alfa", '0')
66 # =============================================================================
67 # Test 1. Glue faces of 2 adjacent boxes
68 # =============================================================================
69 Box_1 = model.addBox(Part_1_doc, 10, 10, 10)
70 Box_2 = model.addBox(Part_1_doc, 10, 10, 10)
71 Translation_1 = model.addTranslation(Part_1_doc, [model.selection("SOLID", "Box_2_1")], axis = model.selection("EDGE", "PartSet/OX"), distance = "dx", keepSubResults = True)
72 Rotation_1 = model.addRotation(Part_1_doc, [model.selection("SOLID", "Translation_1_1")], axis = model.selection("EDGE", "[Box_1_1/Front][Box_1_1/Right]"), angle = "alfa", keepSubResults = True)
75 GlueFaces_1 = model.addGlueFaces(Part_1_doc, [model.selection("SOLID", "Box_1_1"), model.selection("SOLID", "Rotation_1_1")], 1.0e-7, True)
79 testCompound(GlueFaces_1, model, [2], [2], [11], [20], [12])
81 # =============================================================================
82 # Test 2. Glue faces for 2 solids with 1 common edge only
83 # =============================================================================
84 model.undo() # to reuse Box_1_1, Translation_1_1, and Rotation_1_1
86 Param_alfa.setValue(90)
89 GlueFaces_2 = model.addGlueFaces(Part_1_doc, [model.selection("SOLID", "Box_1_1"), model.selection("SOLID", "Rotation_1_1")], 1.0e-7, True)
93 testCompound(GlueFaces_2, model, [2], [2], [12], [23], [14])
95 # =============================================================================
96 # Test 3. Glue faces for 2 solids with 2 adjacent faces above default tolerance
97 # =============================================================================
98 model.undo() # to reuse Box_1_1, Translation_1_1, and Rotation_1_1
101 Param_alfa.setValue(0)
102 Param_dx.setValue(10.0001)
105 GlueFaces_3 = model.addGlueFaces(Part_1_doc, [model.selection("SOLID", "Box_1_1"), model.selection("SOLID", "Rotation_1_1")], 1.0e-7, True)
109 testCompound(GlueFaces_3, model, [2], [2], [12], [24], [16])
111 # =============================================================================
112 # Test 4. Glue faces for 2 solids with 2 adjacent faces using different tolerance
113 # =============================================================================
114 model.undo() # to reuse Box_1_1, Translation_1_1, and Rotation_1_1
118 GlueFaces_4 = model.addGlueFaces(Part_1_doc, [model.selection("SOLID", "Box_1_1"), model.selection("SOLID", "Rotation_1_1")], tol, True)
122 testCompound(GlueFaces_4, model, [2], [2], [11], [20], [12])
124 # =============================================================================
125 # Test 5. Check Python dump
126 # =============================================================================
127 assert(model.checkPythonDump())
