def test_docs(self): tree = CQRTree() square = ((0, 0), (0, 1), (1, 1), (1, 0)) tree[square] = 'square' self.assertEqual(list(tree[square]), ['square']) self.assertTrue(square in tree) diagonal = ((0, 0), (1, 1)) self.assertEqual(list(tree[diagonal]), []) self.assertFalse(diagonal in tree) self.assertEqual(list(tree.keys()), [((0, 0), (0, 1), (1, 1), (1, 0))]) self.assertEqual(list(tree.values()), ['square']) self.assertEqual(list(tree.items()), [(((0, 0), (0, 1), (1, 1), (1, 0)), 'square')]) self.assertEqual(len(tree), 1) del tree[square] self.assertEqual(len(tree), 0) tree = CQRTree(default_match=MatchType.OVERLAP) tree[square] = 'square' self.assertEqual(list(tree[diagonal]), ['square']) tree = CQRTree(default_match=MatchType.OVERLAP) tree[square] = 'square' self.assertEqual(list(tree.get_items(diagonal)), [(((0, 0), (0, 1), (1, 1), (1, 0)), 'square')])
def test_underscores(self): for size in 2, 3, 4, 8: seed(size) tree1 = CQRTree(max_entries=size) for i, box in self.gen_random(10): tree1[box] = i tree2 = CQRTree(max_entries=size) for k, v in tree1.items(): tree2.add(k, v) self.assertEqual(tree1, tree2) if size == 2: self.assertEqual(str(tree1), 'Quadratic RTree (10 leaves, 4 height, 1-2 entries)') tree3 = CQRTree(tree1.items(), max_entries=size) self.assertEqual(tree1, tree3) tree = CQRTree() tree.add([(1, 1)], '1') tree.add([(2, 2)], '2') self.assertEqual(len(tree), 2) self.assertTrue([(1, 1)] in tree) self.assertFalse([(3, 3)] in tree) self.assertTrue('1' in list(tree.values())) self.assertTrue(((1, 1),) in list(tree.keys()), list(tree.keys())) self.assertTrue((((1, 1),), '1') in list(tree.items())) del tree[[(1, 1)]] self.assertEqual(len(tree), 1) self.assertTrue(list(tree[[(2, 2)]])) self.assertTrue(list(tree.get([(2, 2)]))) self.assertTrue(list(tree.get([(2, 2)], value='2'))) self.assertFalse(list(tree.get([(2, 2)], value='1'))) self.assertTrue(tree) del tree[[(2, 2)]] self.assertFalse(tree)