def test_variable_type(self): """Test variable_type method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) self.assertEqual(pool.variable_type(self.mesh.name), "Mesh")
def test_clear(self): """Test clear method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) pool.clear() with self.assertRaises(RuntimeError): numerrin.meshsize(pool.ph, self.mesh.name)
def test_import_mesh(self): """Test import_mesh method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) self.assertEqual( numerrin.meshsize(pool.ph, self.mesh.name)[0], len(self.points)) self.assertEqual( numerrin.meshsize(pool.ph, self.mesh.name)[2], len(self.faces)) self.assertEqual( numerrin.meshsize(pool.ph, self.mesh.name)[3], len(self.cells))
def test_import_mesh(self): """Test import_mesh method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) self.assertEqual(numerrin.meshsize(pool.ph, self.mesh.name)[0], len(self.points)) self.assertEqual(numerrin.meshsize(pool.ph, self.mesh.name)[2], len(self.faces)) self.assertEqual(numerrin.meshsize(pool.ph, self.mesh.name)[3], len(self.cells))
def test_delete_mesh_and_variables(self): """Test delete_mesh_and_variables method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) pool.put_variable(self.variablename, self.variable) pool.delete_mesh_and_variables(self.mesh.name) with self.assertRaises(RuntimeError): pool.get_variable(self.variablename) with self.assertRaises(RuntimeError): numerrin.meshsize(pool.ph, self.mesh.name)
def test_export_mesh(self): """Test export_mesh method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) boundary_names = self.boundaries.keys() (smesh, mmap, boundaries) = pool.export_mesh(self.mesh.name, self.mesh.name, boundary_names) self.assertEqual(sum(1 for _ in smesh.iter(item_type=CUBA.POINT)), sum(1 for _ in self.mesh.iter(item_type=CUBA.POINT))) self.assertEqual(sum(1 for _ in smesh.iter(item_type=CUBA.FACE)), sum(1 for _ in self.mesh.iter(item_type=CUBA.FACE))) self.assertEqual(sum(1 for _ in smesh.iter(item_type=CUBA.CELL)), sum(1 for _ in self.mesh.iter(item_type=CUBA.CELL))) self.assertEqual( set([p.coordinates for p in smesh.iter(item_type=CUBA.POINT)]), set([p.coordinates for p in self.mesh.iter(item_type=CUBA.POINT)])) self.assertEqual(boundaries.keys(), boundary_names)
def test_export_mesh(self): """Test export_mesh method """ pool = NumerrinPool() pool.import_mesh(self.mesh.name, self.mesh, self.boundaries) boundary_names = self.boundaries.keys() (smesh, mmap, boundaries) = pool.export_mesh(self.mesh.name, self.mesh.name, boundary_names) self.assertEqual(sum(1 for _ in smesh.iter(item_type=CUBA.POINT)), sum(1 for _ in self.mesh.iter(item_type=CUBA.POINT))) self.assertEqual(sum(1 for _ in smesh.iter(item_type=CUBA.FACE)), sum(1 for _ in self.mesh.iter(item_type=CUBA.FACE))) self.assertEqual(sum(1 for _ in smesh.iter(item_type=CUBA.CELL)), sum(1 for _ in self.mesh.iter(item_type=CUBA.CELL))) self.assertEqual(set([p.coordinates for p in smesh.iter(item_type=CUBA.POINT)]), set([p.coordinates for p in self.mesh.iter(item_type=CUBA.POINT)])) self.assertEqual(boundaries.keys(), boundary_names)