1728cfed7Sksagiyamimport petsc4py 25808f684SSatish Balayfrom petsc4py import PETSc 35808f684SSatish Balayimport unittest 4728cfed7Sksagiyamimport os 5728cfed7Sksagiyamimport filecmp 65808f684SSatish Balayimport numpy as np 75808f684SSatish Balay 85808f684SSatish Balay# -------------------------------------------------------------------- 95808f684SSatish Balay 105808f684SSatish BalayERR_SUP = 56 115808f684SSatish Balay 125808f684SSatish Balayclass BaseTestPlex(object): 135808f684SSatish Balay 145808f684SSatish Balay COMM = PETSc.COMM_WORLD 155808f684SSatish Balay DIM = 1 165808f684SSatish Balay CELLS = [[0, 1], [1, 2]] 175808f684SSatish Balay COORDS = [[0.], [0.5], [1.]] 185808f684SSatish Balay COMP = 1 195808f684SSatish Balay DOFS = [1, 0] 205808f684SSatish Balay 215808f684SSatish Balay def setUp(self): 225808f684SSatish Balay self.plex = PETSc.DMPlex().createFromCellList(self.DIM, 235808f684SSatish Balay self.CELLS, 245808f684SSatish Balay self.COORDS, 255808f684SSatish Balay comm=self.COMM) 265808f684SSatish Balay 275808f684SSatish Balay def tearDown(self): 285808f684SSatish Balay self.plex.destroy() 295808f684SSatish Balay self.plex = None 305808f684SSatish Balay 315808f684SSatish Balay def testTopology(self): 323df08285SMatthew G. Knepley rank = self.COMM.rank 335808f684SSatish Balay dim = self.plex.getDimension() 345808f684SSatish Balay pStart, pEnd = self.plex.getChart() 355808f684SSatish Balay cStart, cEnd = self.plex.getHeightStratum(0) 365808f684SSatish Balay vStart, vEnd = self.plex.getDepthStratum(0) 375808f684SSatish Balay numDepths = self.plex.getLabelSize("depth") 385808f684SSatish Balay coords_raw = self.plex.getCoordinates().getArray() 395808f684SSatish Balay coords = np.reshape(coords_raw, (vEnd - vStart, dim)) 405808f684SSatish Balay self.assertEqual(dim, self.DIM) 415808f684SSatish Balay self.assertEqual(numDepths, self.DIM+1) 423df08285SMatthew G. Knepley if rank == 0 and self.CELLS is not None: 435808f684SSatish Balay self.assertEqual(cEnd-cStart, len(self.CELLS)) 443df08285SMatthew G. Knepley if rank == 0 and self.COORDS is not None: 455808f684SSatish Balay self.assertEqual(vEnd-vStart, len(self.COORDS)) 465808f684SSatish Balay self.assertTrue((coords == self.COORDS).all()) 475808f684SSatish Balay 485808f684SSatish Balay def testClosure(self): 495808f684SSatish Balay pStart, pEnd = self.plex.getChart() 505808f684SSatish Balay for p in range(pStart, pEnd): 515808f684SSatish Balay closure = self.plex.getTransitiveClosure(p)[0] 525808f684SSatish Balay for c in closure: 535808f684SSatish Balay cone = self.plex.getCone(c) 545808f684SSatish Balay self.assertEqual(self.plex.getConeSize(c), len(cone)) 555808f684SSatish Balay for i in cone: 565808f684SSatish Balay self.assertIn(i, closure) 575808f684SSatish Balay star = self.plex.getTransitiveClosure(p, useCone=False)[0] 585808f684SSatish Balay for s in star: 595808f684SSatish Balay support = self.plex.getSupport(s) 605808f684SSatish Balay self.assertEqual(self.plex.getSupportSize(s), len(support)) 615808f684SSatish Balay for i in support: 625808f684SSatish Balay self.assertIn(i, star) 635808f684SSatish Balay 645808f684SSatish Balay def testAdjacency(self): 655808f684SSatish Balay PETSc.DMPlex.setAdjacencyUseAnchors(self.plex, False) 665808f684SSatish Balay flag = PETSc.DMPlex.getAdjacencyUseAnchors(self.plex) 675808f684SSatish Balay self.assertFalse(flag) 685808f684SSatish Balay PETSc.DMPlex.setAdjacencyUseAnchors(self.plex, True) 695808f684SSatish Balay flag = PETSc.DMPlex.getAdjacencyUseAnchors(self.plex) 705808f684SSatish Balay self.assertTrue(flag) 715808f684SSatish Balay PETSc.DMPlex.setBasicAdjacency(self.plex, False, False) 725808f684SSatish Balay flagA, flagB = PETSc.DMPlex.getBasicAdjacency(self.plex) 735808f684SSatish Balay self.assertFalse(flagA) 745808f684SSatish Balay self.assertFalse(flagB) 755808f684SSatish Balay PETSc.DMPlex.setBasicAdjacency(self.plex, True, True) 765808f684SSatish Balay flagA, flagB = PETSc.DMPlex.getBasicAdjacency(self.plex) 775808f684SSatish Balay self.assertTrue(flagA) 785808f684SSatish Balay self.assertTrue(flagB) 795808f684SSatish Balay pStart, pEnd = self.plex.getChart() 805808f684SSatish Balay for p in range(pStart, pEnd): 815808f684SSatish Balay adjacency = self.plex.getAdjacency(p) 825808f684SSatish Balay self.assertTrue(p in adjacency) 835808f684SSatish Balay self.assertTrue(len(adjacency) > 1) 845808f684SSatish Balay 855808f684SSatish Balay def testSectionDofs(self): 865808f684SSatish Balay self.plex.setNumFields(1) 875808f684SSatish Balay section = self.plex.createSection([self.COMP], [self.DOFS]) 885808f684SSatish Balay size = section.getStorageSize() 895808f684SSatish Balay entity_dofs = [self.plex.getStratumSize("depth", d) * 905808f684SSatish Balay self.DOFS[d] for d in range(self.DIM+1)] 915808f684SSatish Balay self.assertEqual(sum(entity_dofs), size) 925808f684SSatish Balay 935808f684SSatish Balay def testSectionClosure(self): 945808f684SSatish Balay section = self.plex.createSection([self.COMP], [self.DOFS]) 955808f684SSatish Balay self.plex.setSection(section) 965808f684SSatish Balay vec = self.plex.createLocalVec() 975808f684SSatish Balay pStart, pEnd = self.plex.getChart() 985808f684SSatish Balay for p in range(pStart, pEnd): 995808f684SSatish Balay for i in range(section.getDof(p)): 1005808f684SSatish Balay off = section.getOffset(p) 1015808f684SSatish Balay vec.setValue(off+i, p) 1025808f684SSatish Balay 1035808f684SSatish Balay for p in range(pStart, pEnd): 1045808f684SSatish Balay point_closure = self.plex.getTransitiveClosure(p)[0] 1055808f684SSatish Balay dof_closure = self.plex.vecGetClosure(section, vec, p) 1065808f684SSatish Balay for p in dof_closure: 1075808f684SSatish Balay self.assertIn(p, point_closure) 1085808f684SSatish Balay 1095808f684SSatish Balay def testBoundaryLabel(self): 110439f958dSVaclav Hapla pStart, pEnd = self.plex.getChart() 111439f958dSVaclav Hapla if (pEnd - pStart == 0): return 112439f958dSVaclav Hapla 1135808f684SSatish Balay self.assertFalse(self.plex.hasLabel("boundary")) 1145808f684SSatish Balay self.plex.markBoundaryFaces("boundary") 1155808f684SSatish Balay self.assertTrue(self.plex.hasLabel("boundary")) 1165808f684SSatish Balay 1175808f684SSatish Balay faces = self.plex.getStratumIS("boundary", 1) 1185808f684SSatish Balay for f in faces.getIndices(): 1195808f684SSatish Balay points, orient = self.plex.getTransitiveClosure(f, useCone=True) 1205808f684SSatish Balay for p in points: 1215808f684SSatish Balay self.plex.setLabelValue("boundary", p, 1) 1225808f684SSatish Balay 1235808f684SSatish Balay for p in range(pStart, pEnd): 1245808f684SSatish Balay if self.plex.getLabelValue("boundary", p) != 1: 1255808f684SSatish Balay self.plex.setLabelValue("boundary", p, 2) 1265808f684SSatish Balay 1275808f684SSatish Balay numBoundary = self.plex.getStratumSize("boundary", 1) 1285808f684SSatish Balay numInterior = self.plex.getStratumSize("boundary", 2) 1295808f684SSatish Balay self.assertNotEqual(numBoundary, pEnd - pStart) 1305808f684SSatish Balay self.assertNotEqual(numInterior, pEnd - pStart) 1315808f684SSatish Balay self.assertEqual(numBoundary + numInterior, pEnd - pStart) 1325808f684SSatish Balay 133d6a8d7c6SJoe Wallwork def testMetric(self): 134d6a8d7c6SJoe Wallwork if self.DIM == 1: return 135d6a8d7c6SJoe Wallwork self.plex.distribute() 136d6a8d7c6SJoe Wallwork if self.CELLS is None and not self.plex.isSimplex(): return 137d6a8d7c6SJoe Wallwork 138d6a8d7c6SJoe Wallwork h_min = 1.0e-30 139d6a8d7c6SJoe Wallwork h_max = 1.0e+30 140d6a8d7c6SJoe Wallwork a_max = 1.0e+10 141d6a8d7c6SJoe Wallwork target = 10.0 142d6a8d7c6SJoe Wallwork p = 1.0 143d6a8d7c6SJoe Wallwork self.plex.metricSetIsotropic(False) 144d6a8d7c6SJoe Wallwork self.plex.metricSetRestrictAnisotropyFirst(False) 145d6a8d7c6SJoe Wallwork self.plex.metricSetMinimumMagnitude(h_min) 146d6a8d7c6SJoe Wallwork self.plex.metricSetMaximumMagnitude(h_max) 147d6a8d7c6SJoe Wallwork self.plex.metricSetMaximumAnisotropy(a_max) 148d6a8d7c6SJoe Wallwork self.plex.metricSetTargetComplexity(target) 149d6a8d7c6SJoe Wallwork self.plex.metricSetNormalizationOrder(p) 150d6a8d7c6SJoe Wallwork 151d6a8d7c6SJoe Wallwork self.assertFalse(self.plex.metricIsIsotropic()) 152d6a8d7c6SJoe Wallwork self.assertFalse(self.plex.metricRestrictAnisotropyFirst()) 1531a514187SJoe Wallwork assert np.isclose(self.plex.metricGetMinimumMagnitude(), h_min) 1541a514187SJoe Wallwork assert np.isclose(self.plex.metricGetMaximumMagnitude(), h_max) 1551a514187SJoe Wallwork assert np.isclose(self.plex.metricGetMaximumAnisotropy(), a_max) 1561a514187SJoe Wallwork assert np.isclose(self.plex.metricGetTargetComplexity(), target) 1571a514187SJoe Wallwork assert np.isclose(self.plex.metricGetNormalizationOrder(), p) 158d6a8d7c6SJoe Wallwork 159d6a8d7c6SJoe Wallwork metric1 = self.plex.metricCreateUniform(1.0) 160d6a8d7c6SJoe Wallwork metric2 = self.plex.metricCreateUniform(2.0) 161d6a8d7c6SJoe Wallwork metric = self.plex.metricAverage2(metric1, metric2) 162d6a8d7c6SJoe Wallwork metric2.array[:] *= 0.75 163d6a8d7c6SJoe Wallwork assert np.allclose(metric.array, metric2.array) 164d6a8d7c6SJoe Wallwork metric = self.plex.metricIntersection2(metric1, metric2) 165d6a8d7c6SJoe Wallwork assert np.allclose(metric.array, metric1.array) 166d6a8d7c6SJoe Wallwork self.plex.metricEnforceSPD(metric) 167d6a8d7c6SJoe Wallwork assert np.allclose(metric.array, metric1.array) 1685808f684SSatish Balay 1695808f684SSatish Balay def testAdapt(self): 1701a514187SJoe Wallwork if self.DIM == 1: return 1711a514187SJoe Wallwork self.plex.distribute() 1721a514187SJoe Wallwork if self.CELLS is None and not self.plex.isSimplex(): return 1731a514187SJoe Wallwork if sum(self.DOFS) > 1: return 1741a514187SJoe Wallwork metric = self.plex.metricCreateUniform(9.0) 1755808f684SSatish Balay try: 1765808f684SSatish Balay newplex = self.plex.adaptMetric(metric,"") 1775808f684SSatish Balay except PETSc.Error as exc: 1785808f684SSatish Balay if exc.ierr != ERR_SUP: raise 1795808f684SSatish Balay 1805808f684SSatish Balay 1815808f684SSatish Balay# -------------------------------------------------------------------- 1825808f684SSatish Balay 1835808f684SSatish Balayclass BaseTestPlex_2D(BaseTestPlex): 1845808f684SSatish Balay DIM = 2 1855808f684SSatish Balay CELLS = [[0, 1, 3], [1, 3, 4], [1, 2, 4], [2, 4, 5], 1865808f684SSatish Balay [3, 4, 6], [4, 6, 7], [4, 5, 7], [5, 7, 8]] 1875808f684SSatish Balay COORDS = [[0.0, 0.0], [0.5, 0.0], [1.0, 0.0], 1885808f684SSatish Balay [0.0, 0.5], [0.5, 0.5], [1.0, 0.5], 1895808f684SSatish Balay [0.0, 1.0], [0.5, 1.0], [1.0, 1.0]] 1905808f684SSatish Balay DOFS = [1, 0, 0] 1915808f684SSatish Balay 1925808f684SSatish Balayclass BaseTestPlex_3D(BaseTestPlex): 1935808f684SSatish Balay DIM = 3 1945808f684SSatish Balay CELLS = [[0, 2, 3, 7], [0, 2, 6, 7], [0, 4, 6, 7], 1955808f684SSatish Balay [0, 1, 3, 7], [0, 1, 5, 7], [0, 4, 5, 7]] 1965808f684SSatish Balay COORDS = [[0., 0., 0.], [1., 0., 0.], [0., 1., 0.], [1., 1., 0.], 1975808f684SSatish Balay [0., 0., 1.], [1., 0., 1.], [0., 1., 1.], [1., 1., 1.]] 1985808f684SSatish Balay DOFS = [1, 0, 0, 0] 1995808f684SSatish Balay 2005808f684SSatish Balay# -------------------------------------------------------------------- 2015808f684SSatish Balay 2025808f684SSatish Balayclass TestPlex_1D(BaseTestPlex, unittest.TestCase): 2035808f684SSatish Balay pass 2045808f684SSatish Balay 2055808f684SSatish Balayclass TestPlex_2D(BaseTestPlex_2D, unittest.TestCase): 2065808f684SSatish Balay pass 2075808f684SSatish Balay 2085808f684SSatish Balayclass TestPlex_3D(BaseTestPlex_3D, unittest.TestCase): 2095808f684SSatish Balay pass 2105808f684SSatish Balay 2115808f684SSatish Balayclass TestPlex_2D_P3(BaseTestPlex_2D, unittest.TestCase): 2125808f684SSatish Balay DOFS = [1, 2, 1] 2135808f684SSatish Balay 2145808f684SSatish Balayclass TestPlex_3D_P3(BaseTestPlex_3D, unittest.TestCase): 2155808f684SSatish Balay DOFS = [1, 2, 1, 0] 2165808f684SSatish Balay 2175808f684SSatish Balayclass TestPlex_3D_P4(BaseTestPlex_3D, unittest.TestCase): 2185808f684SSatish Balay DOFS = [1, 3, 3, 1] 2195808f684SSatish Balay 2205808f684SSatish Balayclass TestPlex_2D_BoxTensor(BaseTestPlex_2D, unittest.TestCase): 2215808f684SSatish Balay CELLS = None 2225808f684SSatish Balay COORDS = None 2235808f684SSatish Balay def setUp(self): 2245808f684SSatish Balay self.plex = PETSc.DMPlex().createBoxMesh([3,3], simplex=False) 2255808f684SSatish Balay 2265808f684SSatish Balayclass TestPlex_3D_BoxTensor(BaseTestPlex_3D, unittest.TestCase): 2275808f684SSatish Balay CELLS = None 2285808f684SSatish Balay COORDS = None 2295808f684SSatish Balay def setUp(self): 2305808f684SSatish Balay self.plex = PETSc.DMPlex().createBoxMesh([3,3,3], simplex=False) 2315808f684SSatish Balay 2325808f684SSatish Balaytry: 2335808f684SSatish Balay raise PETSc.Error 2345808f684SSatish Balay PETSc.DMPlex().createBoxMesh([2,2], simplex=True, comm=PETSc.COMM_SELF).destroy() 2355808f684SSatish Balayexcept PETSc.Error: 2365808f684SSatish Balay pass 2375808f684SSatish Balayelse: 2385808f684SSatish Balay class TestPlex_2D_Box(BaseTestPlex_2D, unittest.TestCase): 2395808f684SSatish Balay CELLS = None 2405808f684SSatish Balay COORDS = None 2415808f684SSatish Balay def setUp(self): 2425808f684SSatish Balay self.plex = PETSc.DMPlex().createBoxMesh([1,1], simplex=True) 2435808f684SSatish Balay 2445808f684SSatish Balay class TestPlex_2D_Boundary(BaseTestPlex_2D, unittest.TestCase): 2455808f684SSatish Balay CELLS = None 2465808f684SSatish Balay COORDS = None 2475808f684SSatish Balay def setUp(self): 2485808f684SSatish Balay boundary = PETSc.DMPlex().create(self.COMM) 2495808f684SSatish Balay boundary.createSquareBoundary([0., 0.], [1., 1.], [2, 2]) 2505808f684SSatish Balay boundary.setDimension(self.DIM-1) 2515808f684SSatish Balay self.plex = PETSc.DMPlex().generate(boundary) 2525808f684SSatish Balay 2535808f684SSatish Balay class TestPlex_3D_Box(BaseTestPlex_3D, unittest.TestCase): 2545808f684SSatish Balay CELLS = None 2555808f684SSatish Balay COORDS = None 2565808f684SSatish Balay def setUp(self): 2575808f684SSatish Balay self.plex = PETSc.DMPlex().createBoxMesh([1,1,1], simplex=True) 2585808f684SSatish Balay 2595808f684SSatish Balay class TestPlex_3D_Boundary(BaseTestPlex_3D, unittest.TestCase): 2605808f684SSatish Balay CELLS = None 2615808f684SSatish Balay COORDS = None 2625808f684SSatish Balay def setUp(self): 2635808f684SSatish Balay boundary = PETSc.DMPlex().create(self.COMM) 2645808f684SSatish Balay boundary.createCubeBoundary([0., 0., 0.], [1., 1., 1.], [1, 1, 1]) 2655808f684SSatish Balay boundary.setDimension(self.DIM-1) 2665808f684SSatish Balay self.plex = PETSc.DMPlex().generate(boundary) 2675808f684SSatish Balay 2685808f684SSatish Balay# -------------------------------------------------------------------- 2695808f684SSatish Balay 270728cfed7SksagiyamPETSC_DIR = petsc4py.get_config()['PETSC_DIR'] 271728cfed7Sksagiyam 272728cfed7Sksagiyamdef check_dtype(method): 273728cfed7Sksagiyam def wrapper(self, *args, **kwargs): 274728cfed7Sksagiyam if PETSc.ScalarType is PETSc.ComplexType: 275728cfed7Sksagiyam return 276728cfed7Sksagiyam else: 277728cfed7Sksagiyam return method(self, *args, **kwargs) 278728cfed7Sksagiyam return wrapper 279728cfed7Sksagiyam 280728cfed7Sksagiyamdef check_package(method): 281728cfed7Sksagiyam def wrapper(self, *args, **kwargs): 282728cfed7Sksagiyam if not PETSc.Sys.hasExternalPackage("hdf5"): 283728cfed7Sksagiyam return 284728cfed7Sksagiyam elif self.PARTITIONERTYPE != "simple" and \ 285728cfed7Sksagiyam not PETSc.Sys.hasExternalPackage(self.PARTITIONERTYPE): 286728cfed7Sksagiyam return 287728cfed7Sksagiyam else: 288728cfed7Sksagiyam return method(self, *args, **kwargs) 289728cfed7Sksagiyam return wrapper 290728cfed7Sksagiyam 291728cfed7Sksagiyamdef check_nsize(method): 292728cfed7Sksagiyam def wrapper(self, *args, **kwargs): 293728cfed7Sksagiyam if PETSc.COMM_WORLD.size != self.NSIZE: 294728cfed7Sksagiyam return 295728cfed7Sksagiyam else: 296728cfed7Sksagiyam return method(self, *args, **kwargs) 297728cfed7Sksagiyam return wrapper 298728cfed7Sksagiyam 299728cfed7Sksagiyamclass BaseTestPlexHDF5(object): 300728cfed7Sksagiyam NSIZE = 4 301728cfed7Sksagiyam NTIMES = 3 302728cfed7Sksagiyam 303728cfed7Sksagiyam def setUp(self): 304728cfed7Sksagiyam self.txtvwr = PETSc.Viewer() 305728cfed7Sksagiyam 306728cfed7Sksagiyam def tearDown(self): 307728cfed7Sksagiyam if not PETSc.COMM_WORLD.rank: 308728cfed7Sksagiyam if os.path.exists(self.outfile()): 309728cfed7Sksagiyam os.remove(self.outfile()) 310728cfed7Sksagiyam if os.path.exists(self.tmp_output_file()): 311728cfed7Sksagiyam os.remove(self.tmp_output_file()) 312728cfed7Sksagiyam self.txtvwr = None 313728cfed7Sksagiyam 314728cfed7Sksagiyam def _name(self): 315728cfed7Sksagiyam return "%s_outformat-%s_%s" % (self.SUFFIX, 316728cfed7Sksagiyam self.OUTFORMAT, 317728cfed7Sksagiyam self.PARTITIONERTYPE) 318728cfed7Sksagiyam 319728cfed7Sksagiyam def infile(self): 320728cfed7Sksagiyam return os.path.join(PETSC_DIR, "share/petsc/datafiles/", 321728cfed7Sksagiyam "meshes/blockcylinder-50.h5") 322728cfed7Sksagiyam 323728cfed7Sksagiyam def outfile(self): 324728cfed7Sksagiyam return os.path.join("./temp_test_dmplex_%s.h5" % self._name()) 325728cfed7Sksagiyam 326728cfed7Sksagiyam def informat(self): 327728cfed7Sksagiyam return PETSc.Viewer.Format.HDF5_XDMF 328728cfed7Sksagiyam 329728cfed7Sksagiyam def outformat(self): 330728cfed7Sksagiyam d = {"hdf5_petsc": PETSc.Viewer.Format.HDF5_PETSC, 331728cfed7Sksagiyam "hdf5_xdmf": PETSc.Viewer.Format.HDF5_XDMF} 332728cfed7Sksagiyam return d[self.OUTFORMAT] 333728cfed7Sksagiyam 334728cfed7Sksagiyam def partitionerType(self): 335728cfed7Sksagiyam d = {"simple": PETSc.Partitioner.Type.SIMPLE, 336728cfed7Sksagiyam "ptscotch": PETSc.Partitioner.Type.PTSCOTCH, 337728cfed7Sksagiyam "parmetis": PETSc.Partitioner.Type.PARMETIS} 338728cfed7Sksagiyam return d[self.PARTITIONERTYPE] 339728cfed7Sksagiyam 340728cfed7Sksagiyam def ref_output_file(self): 341728cfed7Sksagiyam return os.path.join(PETSC_DIR, "src/dm/impls/plex/tutorials/", 342728cfed7Sksagiyam "output/ex5_%s.out" % self._name()) 343728cfed7Sksagiyam 344728cfed7Sksagiyam def tmp_output_file(self): 345728cfed7Sksagiyam return os.path.join("./temp_test_dmplex_%s.out" % self._name()) 346728cfed7Sksagiyam 347728cfed7Sksagiyam def outputText(self, msg, comm): 348728cfed7Sksagiyam if not comm.rank: 349728cfed7Sksagiyam with open(self.tmp_output_file(), 'a') as f: 350728cfed7Sksagiyam f.write(msg) 351728cfed7Sksagiyam 352728cfed7Sksagiyam def outputPlex(self, plex): 353728cfed7Sksagiyam self.txtvwr.createASCII(self.tmp_output_file(), 354728cfed7Sksagiyam mode='a', comm=plex.comm) 355728cfed7Sksagiyam plex.view(viewer=self.txtvwr) 356728cfed7Sksagiyam self.txtvwr.destroy() 357728cfed7Sksagiyam 358728cfed7Sksagiyam @check_dtype 359728cfed7Sksagiyam @check_package 360728cfed7Sksagiyam @check_nsize 361728cfed7Sksagiyam def testViewLoadCycle(self): 362728cfed7Sksagiyam grank = PETSc.COMM_WORLD.rank 363728cfed7Sksagiyam for i in range(self.NTIMES): 364728cfed7Sksagiyam if i == 0: 365728cfed7Sksagiyam infname = self.infile() 366728cfed7Sksagiyam informt = self.informat() 367728cfed7Sksagiyam else: 368728cfed7Sksagiyam infname = self.outfile() 369728cfed7Sksagiyam informt = self.outformat() 370728cfed7Sksagiyam if self.HETEROGENEOUS: 371728cfed7Sksagiyam mycolor = (grank > self.NTIMES - i) 372728cfed7Sksagiyam else: 373728cfed7Sksagiyam mycolor = 0 374f89ec98fSSatish Balay try: 375f89ec98fSSatish Balay import mpi4py 376f89ec98fSSatish Balay except ImportError: 377f89ec98fSSatish Balay self.skipTest('mpi4py') # throws special exception to signal test skip 378728cfed7Sksagiyam mpicomm = PETSc.COMM_WORLD.tompi4py() 379728cfed7Sksagiyam comm = PETSc.Comm(comm=mpicomm.Split(color=mycolor, key=grank)) 380728cfed7Sksagiyam if mycolor == 0: 381728cfed7Sksagiyam self.outputText("Begin cycle %d\n" % i, comm) 382728cfed7Sksagiyam plex = PETSc.DMPlex() 383728cfed7Sksagiyam vwr = PETSc.ViewerHDF5() 384728cfed7Sksagiyam # Create plex 385728cfed7Sksagiyam plex.create(comm=comm) 386728cfed7Sksagiyam plex.setName("DMPlex Object") 387728cfed7Sksagiyam # Load data from XDMF into dm in parallel 388728cfed7Sksagiyam vwr.create(infname, mode='r', comm=comm) 389728cfed7Sksagiyam vwr.pushFormat(format=informt) 390728cfed7Sksagiyam plex.load(viewer=vwr) 391728cfed7Sksagiyam plex.setOptionsPrefix("loaded_") 392728cfed7Sksagiyam plex.setFromOptions() 393728cfed7Sksagiyam vwr.popFormat() 394728cfed7Sksagiyam vwr.destroy() 395728cfed7Sksagiyam self.outputPlex(plex) 396728cfed7Sksagiyam # Test DM is indeed distributed 397728cfed7Sksagiyam flg = plex.isDistributed() 398728cfed7Sksagiyam self.outputText("Loaded mesh distributed? %s\n" % 399728cfed7Sksagiyam str(flg).upper(), comm) 400728cfed7Sksagiyam # Interpolate 401728cfed7Sksagiyam plex.interpolate() 402728cfed7Sksagiyam plex.setOptionsPrefix("interpolated_") 403728cfed7Sksagiyam plex.setFromOptions() 404728cfed7Sksagiyam self.outputPlex(plex) 405728cfed7Sksagiyam # Redistribute 406728cfed7Sksagiyam part = plex.getPartitioner() 407728cfed7Sksagiyam part.setType(self.partitionerType()) 408728cfed7Sksagiyam _ = plex.distribute(overlap=0) 409728cfed7Sksagiyam plex.setOptionsPrefix("redistributed_") 410728cfed7Sksagiyam plex.setFromOptions() 411728cfed7Sksagiyam self.outputPlex(plex) 412728cfed7Sksagiyam # Save redistributed dm to XDMF in parallel 413728cfed7Sksagiyam vwr.create(self.outfile(), mode='w', comm=comm) 414728cfed7Sksagiyam vwr.pushFormat(format=self.outformat()) 415*cd7e8a5eSksagiyam plex.setName("DMPlex Object") 416728cfed7Sksagiyam plex.view(viewer=vwr) 417728cfed7Sksagiyam vwr.popFormat() 418728cfed7Sksagiyam vwr.destroy() 419728cfed7Sksagiyam # Destroy plex 420728cfed7Sksagiyam plex.destroy() 421728cfed7Sksagiyam self.outputText("End cycle %d\n--------\n" % i, comm) 422728cfed7Sksagiyam PETSc.COMM_WORLD.Barrier() 423728cfed7Sksagiyam # Check that the output is identical to that of plex/tutorial/ex5.c. 424728cfed7Sksagiyam self.assertTrue(filecmp.cmp(self.tmp_output_file(), 425728cfed7Sksagiyam self.ref_output_file(), shallow=False), 426728cfed7Sksagiyam 'Contents of the files not the same.') 427728cfed7Sksagiyam PETSc.COMM_WORLD.Barrier() 428728cfed7Sksagiyam 429728cfed7Sksagiyamclass BaseTestPlexHDF5Homogeneous(BaseTestPlexHDF5): 430728cfed7Sksagiyam """Test save on N / load on N.""" 431728cfed7Sksagiyam SUFFIX = 0 432728cfed7Sksagiyam HETEROGENEOUS = False 433728cfed7Sksagiyam 434728cfed7Sksagiyamclass BaseTestPlexHDF5Heterogeneous(BaseTestPlexHDF5): 435728cfed7Sksagiyam """Test save on N / load on M.""" 436728cfed7Sksagiyam SUFFIX = 1 437728cfed7Sksagiyam HETEROGENEOUS = True 438728cfed7Sksagiyam 439728cfed7Sksagiyamclass TestPlexHDF5PETSCSimpleHomogeneous(BaseTestPlexHDF5Homogeneous, 440728cfed7Sksagiyam unittest.TestCase): 441728cfed7Sksagiyam OUTFORMAT = "hdf5_petsc" 442728cfed7Sksagiyam PARTITIONERTYPE = "simple" 443728cfed7Sksagiyam 444728cfed7Sksagiyam""" 445728cfed7SksagiyamSkipping. PTScotch produces different distributions when run 446728cfed7Sksagiyamin a sequence in a single session. 447728cfed7Sksagiyam 448728cfed7Sksagiyamclass TestPlexHDF5PETSCPTScotchHomogeneous(BaseTestPlexHDF5Homogeneous, 449728cfed7Sksagiyam unittest.TestCase): 450728cfed7Sksagiyam OUTFORMAT = "hdf5_petsc" 451728cfed7Sksagiyam PARTITIONERTYPE = "ptscotch" 452728cfed7Sksagiyam""" 453728cfed7Sksagiyam 454728cfed7Sksagiyamclass TestPlexHDF5PETSCParmetisHomogeneous(BaseTestPlexHDF5Homogeneous, 455728cfed7Sksagiyam unittest.TestCase): 456728cfed7Sksagiyam OUTFORMAT = "hdf5_petsc" 457728cfed7Sksagiyam PARTITIONERTYPE = "parmetis" 458728cfed7Sksagiyam 459728cfed7Sksagiyamclass TestPlexHDF5XDMFSimpleHomogeneous(BaseTestPlexHDF5Homogeneous, 460728cfed7Sksagiyam unittest.TestCase): 461728cfed7Sksagiyam OUTFORMAT = "hdf5_xdmf" 462728cfed7Sksagiyam PARTITIONERTYPE = "simple" 463728cfed7Sksagiyam 464728cfed7Sksagiyam""" 465728cfed7SksagiyamSkipping. PTScotch produces different distributions when run 466728cfed7Sksagiyamin a sequence in a single session. 467728cfed7Sksagiyam 468728cfed7Sksagiyamclass TestPlexHDF5XDMFPTScotchHomogeneous(BaseTestPlexHDF5Homogeneous, 469728cfed7Sksagiyam unittest.TestCase): 470728cfed7Sksagiyam OUTFORMAT = "hdf5_xdmf" 471728cfed7Sksagiyam PARTITIONERTYPE = "ptscotch" 472728cfed7Sksagiyam""" 473728cfed7Sksagiyam 474728cfed7Sksagiyamclass TestPlexHDF5XDMFParmetisHomogeneous(BaseTestPlexHDF5Homogeneous, 475728cfed7Sksagiyam unittest.TestCase): 476728cfed7Sksagiyam OUTFORMAT = "hdf5_xdmf" 477728cfed7Sksagiyam PARTITIONERTYPE = "parmetis" 478728cfed7Sksagiyam 479728cfed7Sksagiyamclass TestPlexHDF5PETSCSimpleHeterogeneous(BaseTestPlexHDF5Heterogeneous, 480728cfed7Sksagiyam unittest.TestCase): 481728cfed7Sksagiyam OUTFORMAT = "hdf5_petsc" 482728cfed7Sksagiyam PARTITIONERTYPE = "simple" 483728cfed7Sksagiyam 484728cfed7Sksagiyam""" 485728cfed7SksagiyamSkipping. PTScotch produces different distributions when run 486728cfed7Sksagiyamin a sequence in a single session. 487728cfed7Sksagiyam 488728cfed7Sksagiyamclass TestPlexHDF5PETSCPTScotchHeterogeneous(BaseTestPlexHDF5Heterogeneous, 489728cfed7Sksagiyam unittest.TestCase): 490728cfed7Sksagiyam OUTFORMAT = "hdf5_petsc" 491728cfed7Sksagiyam PARTITIONERTYPE = "ptscotch" 492728cfed7Sksagiyam""" 493728cfed7Sksagiyam 494728cfed7Sksagiyamclass TestPlexHDF5PETSCParmetisHeterogeneous(BaseTestPlexHDF5Heterogeneous, 495728cfed7Sksagiyam unittest.TestCase): 496728cfed7Sksagiyam OUTFORMAT = "hdf5_petsc" 497728cfed7Sksagiyam PARTITIONERTYPE = "parmetis" 498728cfed7Sksagiyam 499728cfed7Sksagiyamclass TestPlexHDF5XDMFSimpleHeterogeneous(BaseTestPlexHDF5Heterogeneous, 500728cfed7Sksagiyam unittest.TestCase): 501728cfed7Sksagiyam OUTFORMAT = "hdf5_xdmf" 502728cfed7Sksagiyam PARTITIONERTYPE = "simple" 503728cfed7Sksagiyam 504728cfed7Sksagiyamclass TestPlexHDF5XDMFPTScotchHeterogeneous(BaseTestPlexHDF5Heterogeneous, 505728cfed7Sksagiyam unittest.TestCase): 506728cfed7Sksagiyam OUTFORMAT = "hdf5_xdmf" 507728cfed7Sksagiyam PARTITIONERTYPE = "ptscotch" 508728cfed7Sksagiyam 509728cfed7Sksagiyamclass TestPlexHDF5XDMFParmetisHeterogeneous(BaseTestPlexHDF5Heterogeneous, 510728cfed7Sksagiyam unittest.TestCase): 511728cfed7Sksagiyam OUTFORMAT = "hdf5_xdmf" 512728cfed7Sksagiyam PARTITIONERTYPE = "parmetis" 513728cfed7Sksagiyam 514728cfed7Sksagiyam# -------------------------------------------------------------------- 515728cfed7Sksagiyam 5165808f684SSatish Balayif __name__ == '__main__': 5175808f684SSatish Balay unittest.main() 518