+# Copyright (C) 2014-2023 CEA, EDF
+#
+# 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
+#
+
import unittest
import ModelAPI
-import model
-from model.tools import Selection
+from salome.shaper import model
#-----------------------------------------------------------------------------
# Fixtures
def tearDown(self):
model.end()
+ assert(model.checkPythonDump())
model.reset()
base = base_sketch.selectFace()
axis_point1 = model.addPoint(self.part, 20, -10, 0).result()
axis_point2 = model.addPoint(self.part, 20, 10, 0).result()
- axis_object = model.addAxis(self.part, axis_point1[0], axis_point2[0]).result()
+ axis_object = model.addAxis(self.part, axis_point1, axis_point2).result()
- self.revolution = model.addRevolution(self.part, base, axis_object[0],
- 0, 180)
+ self.revolution = model.addRevolution(self.part, base, axis_object, 0, 180)
model.do()
base = base_sketch.selectFace()
axis_point1 = model.addPoint(self.part, 20, -10, 0).result()
axis_point2 = model.addPoint(self.part, 20, 10, 0).result()
- axis_object = model.addAxis(self.part, axis_point1[0], axis_point2[0]).result()
+ axis_object = model.addAxis(self.part, axis_point1, axis_point2).result()
- revolution = model.addRevolution(self.part, base, axis_object[0],
- 0, 180)
+ revolution = model.addRevolution(self.part, base, axis_object, 0, 180)
self.assertEqual(revolution.creationMethod().value(), "ByAngles")
self.assertEqual(revolution.toAngle().value(), 0)
self.assertEqual(revolution.fromAngle().value(), 180)
self.assertEqual(revolution.toObject().context(), None)
- self.assertEqual(revolution.toOffset().value(), 0)
self.assertEqual(revolution.fromObject().context(), None)
- self.assertEqual(revolution.fromOffset().value(), 0)
def test_add_revolution_by_face_and_planes(self):
# base
base = base_sketch.selectFace()
axis_point1 = model.addPoint(self.part, 20, -10, 0).result()
axis_point2 = model.addPoint(self.part, 20, 10, 0).result()
- axis_object = model.addAxis(self.part, axis_point1[0], axis_point2[0]).result()
+ axis_object = model.addAxis(self.part, axis_point1, axis_point2).result()
to_obejct = to_sketch.selectFace()[0]
from_object = from_sketch.selectFace()[0]
- revolution = model.addRevolution(self.part, base, axis_object[0],
- to_obejct, 15,
- from_object, 20)
+ self.revolution = model.addRevolution(self.part, base, axis_object,
+ to_obejct, 15,
+ from_object, 20)
- self.assertEqual(revolution.creationMethod().value(), "ByPlanesAndOffsets")
- self.assertEqual(revolution.toAngle().value(), 0)
- self.assertEqual(revolution.fromAngle().value(), 0)
-# self.assertEqual(revolution.getToObject().context(),
-# to_sketch.result())
- self.assertEqual(revolution.toOffset().value(), 15)
-# self.assertEqual(revolution.getFromObject().context(),
-# from_sketch.result())
- self.assertEqual(revolution.fromOffset().value(), 20)
+ self.assertEqual(self.revolution.creationMethod().value(), "ByPlanesAndOffsets")
+ self.assertNotEqual(self.revolution.toObject().context(), None)
+ self.assertEqual(self.revolution.toOffset().value(), 15)
+ self.assertNotEqual(self.revolution.fromObject().context(), None)
+ self.assertEqual(self.revolution.fromOffset().value(), 20)
class FeaturesRevolutionTestCase(FeaturesRevolutionFixture):
self.assertEqual(self.revolution.toAngle().value(), 90)
self.assertEqual(self.revolution.fromAngle().value(), 270)
self.assertEqual(self.revolution.toObject().context(), None)
- self.assertEqual(self.revolution.toOffset().value(), 0)
self.assertEqual(self.revolution.fromObject().context(), None)
- self.assertEqual(self.revolution.fromOffset().value(), 0)
def test_revolution_set_planes_and_offsets(self):
# base
base = base_sketch.selectFace()
axis_point1 = model.addPoint(self.part, 20, -10, 0).result()
axis_point2 = model.addPoint(self.part, 20, 10, 0).result()
- axis_object = model.addAxis(self.part, axis_point1[0], axis_point2[0]).result()
+ axis_object = model.addAxis(self.part, axis_point1, axis_point2).result()
to_obejct = to_sketch.selectFace()[0]
from_object = from_sketch.selectFace()[0]
+ self.revolution = model.addRevolution(self.part, base, axis_object, 0, 180)
self.revolution.setPlanesAndOffsets(to_obejct, 15, from_object, 20)
self.assertEqual(self.revolution.creationMethod().value(), "ByPlanesAndOffsets")
- # self.assertEqual(self.revolution.toAngle().value(), 0)
- # self.assertEqual(self.revolution.fromAngle().value(), 0)
-# self.assertEqual(self.revolution.getToObject().context(), None)
+ self.assertNotEqual(self.revolution.toObject().context(), None)
self.assertEqual(self.revolution.toOffset().value(), 15)
-# self.assertEqual(self.revolution.getFromObject().context(), None)
+ self.assertNotEqual(self.revolution.fromObject().context(), None)
self.assertEqual(self.revolution.fromOffset().value(), 20)
if __name__ == "__main__":
- unittest.main()
+ test_program = unittest.main(exit=False)
+ assert test_program.result.wasSuccessful(), "Test failed"