def test_depth(self): # # Generate forest # forest = Forest([Tree(2), Tree(2)]) # # Split tree 0 three times # tree = forest.get_child(0) for dummy in range(3): tree.split() tree = tree.get_child(0) # Check that depth is 3 self.assertEqual(forest.depth(), 3) # Remove split tree and verify that depth is 0 forest.remove_tree(0) self.assertEqual(forest.depth(), 0)
def test_refine(self): # ===================================================================== # Simple Refineement # ===================================================================== # Define a new forest with two binary trees forest = Forest([Tree(2), Tree(2)]) # Refine the forest indiscriminantly forest.refine() # Check wether the trees have been split count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 6) # ===================================================================== # Refinement Label # ===================================================================== # Mark second tree and refine only by its label forest.get_child(1).mark(1) forest.refine(refinement_flag=1) # Nothing should have happened (because child is not a leaf) count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 6) forest.get_child(1).get_child(1).mark(1) forest.refine(refinement_flag=1) count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 8) # ===================================================================== # Refinement of subforest # ===================================================================== forest = Forest([Tree(2), Tree(2)]) forest.refine() # Define subforest forest.get_child(0).get_child(0).mark(1) forest.root_subtrees(1) # Check node count count = 0 for dummy in forest.traverse(1): count += 1 self.assertEqual(count, 4) forest.refine(subforest_flag=1) # Check node count count = 0 for dummy in forest.traverse(1): count += 1 self.assertEqual(count, 10) forest.coarsen(subforest_flag=1) count = 0 for dummy in forest.traverse(1): count += 1 self.assertEqual(count, 4) # Now try with a refinement flag forest.get_child(1).mark(2) forest.refine(subforest_flag=1, refinement_flag=2) # Check node count count = 0 for dummy in forest.traverse(1): count += 1 self.assertEqual(count, 6) # ===================================================================== # Refine with new label # ===================================================================== forest = Forest([Tree(2), Tree(2)]) forest.refine() # Define subforest forest.get_child(0).get_child(0).mark(1) forest.root_subtrees(1) # Check node count count = 0 for dummy in forest.traverse(1): count += 1 self.assertEqual(count, 4) forest.refine(subforest_flag=1, new_label=4) # Node count of new label count = 0 for dummy in forest.traverse(4): count += 1 self.assertEqual(count, 10) # Node count for original submesh count = 0 for dummy in forest.traverse(1): count += 1 self.assertEqual(count, 4) # Refinement marker forest.get_child(1).mark(3) # Refine forest.refine(subforest_flag=1, refinement_flag=3, new_label=5) # Check node count count = 0 for dummy in forest.traverse(5): count += 1 self.assertEqual(count, 6)
def test_coarsen(self): # ===================================================================== # Simple Coarsening # ===================================================================== # Define a new forest with two quadtrees forest = Forest([Tree(4), Tree(4)]) # Coarsen, nothing should happen forest.coarsen() # Check that forest is as it was count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 2) # Refine and coarsen again forest.refine() forest.coarsen() # Check that forest is as it was count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 2) # ===================================================================== # Coarsening Flag # ===================================================================== # Refine and mark one grandchild forest.refine() # Check that forest now has 10 Tree count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 10) forest.get_child(0).mark(1) forest.coarsen(coarsening_flag=1) # Tree 0 should not have children, while Tree 1 should have 4 count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 6) self.assertFalse(forest.get_child(0).has_children()) self.assertTrue(forest.get_child(1).has_children()) # Nothing is marked 1 self.assertFalse(any( child.is_marked(1) for child in forest.traverse())) # ===================================================================== # Coarsening with subforests # ===================================================================== forest = Forest([Tree(2), Tree(2)]) forest.refine() # Make a subforest 0, 00, 01, 1 forest.get_child(0).get_child(0).mark(2) forest.root_subtrees(2) count = 0 for node in forest.traverse(flag=2): count += 1 self.assertEqual(count, 4) # Coarsen the subforest forest.coarsen(subforest_flag=2) # Subforest now contains [0], [1] count = 0 for dummy in forest.traverse(flag=2): count += 1 self.assertEqual(count, 2) # Forest still contains 4 nodes (0,1,00,01,10,11) count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 6) # New subforest: 0, 00, 01, 1 forest.get_child(0).get_child(0).mark(2) forest.root_subtrees(2) # Count subforest nodes count = 0 for dummy in forest.traverse(2): count += 1 self.assertEqual(count, 4) # Coarsening flag at a node not in the subforest forest.get_child(1).get_child(1).mark(1) forest.coarsen(subforest_flag=2, coarsening_flag=1) # Count subforest nodes count = 0 for dummy in forest.traverse(2): count += 1 self.assertEqual(count, 4) # Apply coarsening flag to a node in the subforest forest.get_child(0).mark(1) # Coarsen forest.coarsen(subforest_flag=2, coarsening_flag=1) # Now there should be 2 subnodes count = 0 for dummy in forest.traverse(2): count += 1 self.assertEqual(count, 2) # Make sure the coarsening flag is deleted. self.assertFalse(forest.get_child(0).is_marked(1)) # ===================================================================== # Coarsening with new_label # ===================================================================== # TODO: TEST HERE. # Subforest is: 0, 00, 01, 1 forest.get_child(0).get_child(0).mark(2) forest.root_subtrees(2) # Mark [0,0] with coarsening flag forest.get_child(0).mark(1) # Coarsen subforest and label with new_label forest.coarsen(subforest_flag=2, coarsening_flag=1, new_label=3, debug=True) # Check that subforest still has the same nodes count = 0 for dummy in forest.traverse(2): count += 1 self.assertEqual(count, 4) # Check that the new submesh has fewer count = 0 for dummy in forest.traverse(3): count += 1 self.assertEqual(count, 2) # # Now with no submesh # # Check that forest still has 6 nodes count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 6) # Mark with coarsening flag forest.get_child(0).mark(1) # Coarsen forest.coarsen(coarsening_flag=1, new_label=4) # Check that forest still has 6 nodes count = 0 for dummy in forest.traverse(): count += 1 self.assertEqual(count, 6) # Check that subforest has 5 nodes count = 0 for dummy in forest.traverse(4): count += 1 self.assertEqual(count, 4)
def test_child(self): forest = Forest() self.assertRaises(Exception, forest.get_child, *(0, )) forest = Forest([Tree(1), Tree(4)]) self.assertEqual(forest.get_child(1).n_children(), 4)