def buildParseTree(fpexp): exp_list = fpexp.split() # split the expression in a list wth the delimateur being space stack = Stack() current_node = BinaryTree('') tokens = ['+', '-', '/', '*'] #stack.push(current_node) for char in exp: if char == '(': current_node.insertLeft('') S.push(current_node) # push parent into the stack current_node = current_node.leftChild elif char.isdigit(): current_node.key = int(char) current_node = S.pop() elif char in tokens: current_node.insertRight('') current_node.key = char S.push(current_node) current_node = current_node.rightChild elif char == ')': current_node = S.pop() else: raise ValueError
def parseTree(expression): tokens = expression.split() tree_holder = Stack() main_tree = BinaryTree('') tree_holder.push(main_tree) currentTree = main_tree for val in tokens: if val == '(': currentTree.add_left('') tree_holder.push(currentTree) currentTree = currentTree.get_left() elif val not in '+-*/': currentTree.set_root_val(val) parent = tree_holder.pop() currentTree = parent elif val in '+-*/': currentTree.set_root_val(val) currentTree.add_right('') tree_holder.push(currentTree) currentTree = currentTree.get_right() elif val == ')': currentTree = tree_holder.pop() else: raise ValueError return main_tree
class Group(object): def __init__(self, _name): self.name = _name self.groups = [] self.users = [] self.users_b = BinaryTree() def add_group(self, group): self.groups.append(group) def add_user(self, user): self.users.append(user) self.users_b.insert(user) def get_groups(self): return self.groups def get_users(self): return self.users def get_name(self): return self.name
def union(llist_1, llist_2): # Insert elements of llist_1 into linked llist_1 bt1 = BinaryTree() node = llist_1.head while node: bt1.insert(node.value) node = node.next # Fist turn elements of llist_2 into the same btree node = llist_2.head while node: bt1.insert(node.value) node = node.next # Flatten the binary tree flatten(bt1.get_root()) # Empty btree into llist and return llist = LinkedList() node = bt1.get_root() while node: llist.append(node.value) node = node.right return llist
def __init__(self, _name): self.name = _name self.groups = [] self.users = [] self.users_b = BinaryTree()
def intersection(llist_1, llist_2): #edge cases if llist_1.size() == 0 or llist_2.size() == 0: return LinkedList() # Insert elements of llist_1 into bt1 bt1 = BinaryTree() node = llist_1.head while node: bt1.insert(node.value) node = node.next # Insert elements of llist_2 into bt2 bt2 = BinaryTree() node = llist_2.head while node: bt2.insert(node.value) tail2 = node node = node.next #link head of llist1 to the tail of llist2 tail2.next = llist_1.head node = llist_2.head bt = BinaryTree() while node: if bt1.search(node.value) and bt2.search(node.value): bt.insert(node.value) node = node.next flatten(bt.get_root()) # Empty btree into llist and return llist = LinkedList() node = bt.get_root() while node: llist.append(node.value) node = node.right return llist
from data_structures import BinaryTree tree = BinaryTree('') def preorder(tree): if tree: print(tree.get_root()) preorder(tree.get_left()) preorder(tree.get_right())
def setUp(self): self.stack = Stack(range(1, 6)) self.queue = Queue(range(1, 6)) self.single = SinglyLinkedList() self.double = DoublyLinkedList() self.btree = BinaryTree()
class TestDataStructures(unittest.TestCase): def setUp(self): self.stack = Stack(range(1, 6)) self.queue = Queue(range(1, 6)) self.single = SinglyLinkedList() self.double = DoublyLinkedList() self.btree = BinaryTree() # STACK def test_stack_push(self): self.stack.push(6) self.assertEqual(self.stack.stack, range(1, 7)) def test_stack_pop(self): self.assertEqual(self.stack.pop(), 5) self.assertEqual(self.stack.pop(), 4) def test_stack_peek(self): self.assertEqual(self.stack.peek(), 5) # QUEUE def test_queue_push(self): self.queue.push(6) self.assertEqual(self.queue.queue, range(1, 7)) def test_queue_pop(self): self.assertEqual(self.queue.pop(), 1) self.assertEqual(self.queue.pop(), 2) def test_queue_peek(self): self.assertEqual(self.queue.peek(), 1) self.queue.pop() self.assertEqual(self.queue.peek(), 2) # SINGLY-LINKED LIST def test_add_nodes_to_single(self): node1, node2, node3 = Node(1), Node(2), Node(3) self.single._insert(node1) self.single._insert(node2, node1) self.assertEqual(self.single.head.value, 1) next = self.single.head.next self.assertEqual(next, node2) self.assertEqual(next.value, 2) self.single._insert(node3, node2) nextnext = self.single.head.next.next self.assertEqual(nextnext, node3) def test_add_node_to_beginning_of_single(self): node0, node1 = Node(0), Node(1) self.single._insert(node1) self.single._insert(node0) self.assertEqual(self.single.head.value, 0) self.assertEqual(self.single.head.next.value, 1) def test_remove_nodes_single(self): node1, node2, node3, node4 = Node(1), Node(2), Node(3), Node(4) self.single._insert(node1) self.single._insert(node2, node1) self.single._insert(node3, node2) self.single._insert(node4, node3) self.single._remove(node2) self.assertEqual(node2.next, node4) def test_remove_node_from_beginning_single(self): node1, node2, node3 = Node(1), Node(2), Node(3) self.single._insert(node1) self.single._insert(node2, node1) self.single._insert(node3, node2) self.single._remove() self.assertEqual(self.single.head, node2) def test_single_iteration(self): node1, node2, node3, node4 = Node(1), Node(2), Node(3), Node(4) self.single._insert(node1) self.single._insert(node2, node1) self.single._insert(node3, node2) self.single._insert(node4, node3) self.assertEqual([node for node in self.single], [node1, node2, node3, node4]) def test_add_node_to_single_for_real(self): self.single.insert(2, 0) self.assertEqual(self.single[0].value, 2) self.single.insert(1, 0) self.assertEqual(self.single[0].value, 1) self.single.insert(3, 2) self.assertEqual(self.single[2].value, 3) self.single.insert(4, 100) self.assertEqual(self.single[3].value, 4) def test_remove_node_from_single_for_real(self): for i in range(4, 0, -1): self.single.insert(i, 0) # [1, 2, 3, 4] self.single.remove(1) # [1, 3, 4] self.assertEqual(self.single[1].value, 3) self.single.remove(2) # [1, 3] self.assertEqual(self.single[0].value, 1) self.assertEqual(self.single[1].value, 3) # DOUBLE-LINKED LIST def test_iteration_double(self): node1, node2, node3 = Node(1), Node(2), Node(3) node1.next, node2.next, node3.next = node2, node3, None node1.prev, node2.prev, node3.prev = None, node1, node2 self.double.head = node1 self.double.tail = node3 # test __iter__ self.assertEqual([str(i) for i in self.double], [str(i) for i in range(1, 4)]) # test iterating over reversed self.assertEqual([str(i) for i in reversed(self.double)], [str(i) for i in range(3, 0, -1)]) def test_double_slicing(self): node1, node2, node3 = Node(1), Node(2), Node(3) node1.next, node2.next, node3.next = node2, node3, None node1.prev, node2.prev, node3.prev = None, node1, node2 self.double.head = node1 self.double.tail = node3 self.assertEqual(self.double[0].value, 1) self.assertEqual(self.double[1].value, 2) self.assertEqual(self.double[2].value, 3) self.assertRaises(IndexError, lambda val: self.double[val], 3) def test_base_insert_moving_forwards_with_double(self): node1, node2, node3 = Node(1), Node(2), Node(3) self.double._insert(node1) self.assertTrue(test_node(self.double[0], 1, None, None)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[0])) self.double._insert(node3, node1) self.assertTrue(test_node(self.double[0], 1, 3, None)) self.assertTrue(test_node(self.double[1], 3, None, 1)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[1])) self.double._insert(node2, node1) self.assertTrue(test_node(self.double[0], 1, 2, None)) self.assertTrue(test_node(self.double[1], 2, 3, 1)) self.assertTrue(test_node(self.double[2], 3, None, 2)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[2])) self.assertEqual(str(self.double), str([str(i) for i in range(1, 4)])) def test_base_insert_moving_backwards_with_double(self): node1, node2, node3 = Node(1), Node(2), Node(3) # insert node3 at the beginning/end of the list self.double._rev_insert(node3) self.assertTrue(test_node(self.double[0], 3, None, None)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[0])) # insert node one before node 3 ([node1, node3]) self.double._rev_insert(node1, node3) self.assertTrue(test_node(self.double[0], 1, 3, None)) self.assertTrue(test_node(self.double[1], 3, None, 1)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[1])) # insert node2 before node3 ([node1, node2, node3]) self.double._rev_insert(node2, node3) self.assertTrue(test_node(self.double[0], 1, 2, None)) self.assertTrue(test_node(self.double[1], 2, 3, 1)) self.assertTrue(test_node(self.double[2], 3, None, 2)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[2])) # check that the array is [node1, node2, node3] self.assertEqual(str(self.double), str([str(i) for i in range(1, 4)])) def test_insert_at_beginning_of_double(self): self.double.insert(2, 0) self.assertTrue(test_node(self.double[0], 2, None, None)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[0])) self.double.insert(1, 0) self.assertTrue(test_node(self.double[0], 1, 2, None)) self.assertTrue(test_node(self.double[1], 2, None, 1)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[1])) def test_insert_in_middle_and_end_of_double(self): self.double.insert(1, 0) self.double.insert(3, 1) self.assertTrue(test_node(self.double[0], 1, 3, None)) self.assertTrue(test_node(self.double[1], 3, None, 1)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[1])) self.double.insert(2, 1) self.assertTrue(test_node(self.double[0], 1, 2, None)) self.assertTrue(test_node(self.double[1], 2, 3, 1)) self.assertTrue(test_node(self.double[2], 3, None, 2)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[2])) self.double.insert(5, 3) self.assertTrue(test_node(self.double[0], 1, 2, None)) self.assertTrue(test_node(self.double[1], 2, 3, 1)) self.assertTrue(test_node(self.double[2], 3, 5, 2)) self.assertTrue(test_node(self.double[3], 5, None, 3)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[3])) self.double.insert(4, 3) self.assertTrue(test_node(self.double[0], 1, 2, None)) self.assertTrue(test_node(self.double[1], 2, 3, 1)) self.assertTrue(test_node(self.double[2], 3, 4, 2)) self.assertTrue(test_node(self.double[3], 4, 5, 3)) self.assertTrue(test_node(self.double[4], 5, None, 4)) self.assertTrue(test_linked_list(self.double, self.double[0], self.double[4])) # Binary Tree def test_binary_node_equality(self): one = BinaryNode(1) one2 = BinaryNode(1) self.assertTrue(one == one2) two = BinaryNode(2) self.assertFalse(one == two) def test_add_internal_child_to_binary_node(self): one = BinaryNode(1) two = BinaryNode(2) three = BinaryNode(3) one.left = three # one = {left: 3, right: None} one.insert(two, three) self.assertTrue(test_binary_node(one, 1, 2, None, None)) self.assertTrue(test_binary_node(two, 2, 3, None, 1)) self.assertTrue(test_binary_node(three, 3, None, None, 2)) def test_add_external_child_to_binary_node(self): one = BinaryNode(1) two = BinaryNode(2) one.insert(two) self.assertTrue(test_binary_node(one, 1, 2, None, None)) self.assertTrue(test_binary_node(two, 2, None, None, 1)) three = BinaryNode(3) one.insert(three) self.assertTrue(test_binary_node(one, 1, 2, 3, None)) self.assertTrue(test_binary_node(two, 2, None, None, 1)) self.assertTrue(test_binary_node(three, 3, None, None, 1)) four = BinaryNode(4) two.insert(four) self.assertTrue(test_binary_node(two, 2, 4, None, 1)) self.assertTrue(test_binary_node(four, 4, None, None, 2)) def test_depth_first_generation(self): self.btree.root = deep_btree() self.assertEquals([int(str(n)) for n in self.btree.depth_gen(self.btree.root)], range(1, 9)) def test_breadth_first_generation(self): self.btree.root = wide_btree() self.assertEqual([int(str(n)) for n in self.btree.breadth_gen([self.btree.root])], range(1, 9)) def test_binary_tree_iteration(self): self.btree.root = deep_btree() self.assertEquals([int(str(n)) for n in self.btree], range(1, 9)) def test_contains(self): self.btree.root = deep_btree() for i in range(1, 9): self.assertTrue(i in self.btree) self.assertFalse(0 in self.btree) self.assertFalse(9 in self.btree) def test_insert_into_binary_tree(self): ## note - indexing grabs the node with that VALUE, not the node that exists at that index # 1 self.btree.insert(1) self.assertTrue(test_binary_node(self.btree[1], 1, None, None, None)) self.btree.insert(4, 1) # 1 # / # 4 self.assertTrue(test_binary_node(self.btree[1], 1, 4, None, None)) self.assertTrue(test_binary_node(self.btree[4], 4, None, None, 1)) self.btree.insert(3, 1) # 1 # / \ # 4 3 self.assertTrue(test_binary_node(self.btree[1], 1, 4, 3, None)) self.assertTrue(test_binary_node(self.btree[4], 4, None, None, 1)) self.assertTrue(test_binary_node(self.btree[3], 3, None, None, 1)) self.btree.insert(2, 1, 4) # 1 # / \ # 2 3 # / # 4 self.assertTrue(test_binary_node(self.btree[1], 1, 2, 3, None)) self.assertTrue(test_binary_node(self.btree[2], 2, 4, None, 1)) self.assertTrue(test_binary_node(self.btree[3], 3, None, None, 1)) self.assertTrue(test_binary_node(self.btree[4], 4, None, None, 2)) # Binary Search Tree def test_binary_search_node(self): root = binary_search_tree() for i in range(1, 9): self.assertTrue(root.search(i)) self.assertFalse(root.search(0)) self.assertFalse(root.search(9)) def test_binary_search_insert(self): # 5 # / \ # 3 8 # / \ / # 2 4 6 root = BinarySearchNode(5) self.assertTrue(test_binary_node(root, 5, None, None, None)) root.insert(3) self.assertTrue(test_binary_node(root, 5, 3, None, None)) self.assertTrue(test_binary_node(root[3], 3, None, None, 5)) root.insert(8) self.assertTrue(test_binary_node(root, 5, 3, 8, None)) self.assertTrue(test_binary_node(root[3], 3, None, None, 5)) self.assertTrue(test_binary_node(root[8], 8, None, None, 5)) root.insert(4) self.assertTrue(test_binary_node(root, 5, 3, 8, None)) self.assertTrue(test_binary_node(root[3], 3, None, 4, 5)) self.assertTrue(test_binary_node(root[8], 8, None, None, 5)) self.assertTrue(test_binary_node(root[4], 4, None, None, 3)) root.insert(2) self.assertTrue(test_binary_node(root, 5, 3, 8, None)) self.assertTrue(test_binary_node(root[3], 3, 2, 4, 5)) self.assertTrue(test_binary_node(root[8], 8, None, None, 5)) self.assertTrue(test_binary_node(root[2], 2, None, None, 3)) self.assertTrue(test_binary_node(root[4], 4, None, None, 3)) root.insert(6) self.assertTrue(test_binary_node(root, 5, 3, 8, None)) self.assertTrue(test_binary_node(root[3], 3, 2, 4, 5)) self.assertTrue(test_binary_node(root[8], 8, 6, None, 5)) self.assertTrue(test_binary_node(root[2], 2, None, None, 3)) self.assertTrue(test_binary_node(root[4], 4, None, None, 3)) self.assertTrue(test_binary_node(root[6], 6, None, None, 8)) # def test_binary_search_remove_external_node(self): # root = binary_search_tree() # root.remove(1) # self.assertTrue(test_binary_node(root, 5, 3, 8, None)) # self.assertTrue(test_binary_node(root[3], 3, 2, 4, 5)) # self.assertTrue(test_binary_node(root[8], 8, 6, None, 5)) # self.assertTrue(test_binary_node(root[2], 2, None, None, 3)) # self.assertTrue(test_binary_node(root[4], 4, None, None, 3)) # self.assertTrue(test_binary_node(root[6], 6, None, 7, 8)) # self.assertTrue(test_binary_node(root[7], 7, None, None, 6)) # self.assertFalse(1 in root) # self.assertFalse(root.search(1)) def test_binary_search_remove_internal_node_without_children(self): root = binary_search_tree() root.remove(3, root[4]) self.assertTrue(test_binary_node(root, 5, 4, 8, None)) self.assertTrue(test_binary_node(root[4], 4, 2, None, 5)) self.assertTrue(test_binary_node(root[8], 8, 6, None, 5)) self.assertTrue(test_binary_node(root[2], 2, 1, None, 4)) self.assertTrue(test_binary_node(root[6], 6, None, 7, 8)) self.assertTrue(test_binary_node(root[7], 7, None, None, 6)) self.assertFalse(3 in root) def test_binary_search_remove_internal_node_with_children1(self): root = binary_search_tree() root.insert(3.5) root.insert(4.5) root.remove(3, root[4]) self.assertTrue(test_binary_node(root, 5, 4, 8, None)) self.assertTrue(test_binary_node(root[4], 4, 3.5, 4.5, 5)) self.assertTrue(test_binary_node(root[8], 8, 6, None, 5)) self.assertTrue(test_binary_node(root[2], 2, 1, None, 3.5)) self.assertTrue(test_binary_node(root[6], 6, None, 7, 8)) self.assertTrue(test_binary_node(root[1], 1, None, None, 2)) self.assertTrue(test_binary_node(root[3.5], 3.5, 2, None, 4)) self.assertTrue(test_binary_node(root[4.5], 4.5, None, None, 4)) self.assertTrue(test_binary_node(root[7], 7, None, None, 6)) self.assertFalse(3 in root) def test_binary_search_remove_internal_node_with_children2(self): root = binary_search_tree() root.insert(3.5) root.insert(4.5) root.remove(3, root[2]) self.assertTrue(test_binary_node(root, 5, 2, 8, None)) self.assertTrue(test_binary_node(root[2], 2, 1, 4, 5)) self.assertTrue(test_binary_node(root[8], 8, 6, None, 5)) self.assertTrue(test_binary_node(root[6], 6, None, 7, 8)) self.assertTrue(test_binary_node(root[1], 1, None, None, 2)) self.assertTrue(test_binary_node(root[4], 4, 3.5, 4.5, 2)) self.assertTrue(test_binary_node(root[3.5], 3.5, None, None, 4)) self.assertTrue(test_binary_node(root[4.5], 4.5, None, None, 4)) self.assertTrue(test_binary_node(root[7], 7, None, None, 6)) self.assertFalse(3 in root) # HEAP def test_heap_iteration(self): heap = Heap(max_heap()) self.assertEqual([int(str(n)) for n in heap.breadth()], [17, 15, 10, 6, 10, 7]) self.assertEqual([int(str(n)) for n in heap], [17, 15, 10, 6, 10, 7]) self.assertEqual(heap.flatten(), [17, 15, 10, 6, 10, 7]) def test_find_open_with_empty_aunt(self): node17 = HeapNode(17) node15 = HeapNode(15) node11 = HeapNode(11) node6 = HeapNode(6) node10 = HeapNode(10) node17.left = node15 node17.right = node11 node15.left = node6 node15.right = HeapNode(10) heap = Heap(node17) self.assertEqual(heap[-1].value, 10) self.assertEqual(heap.find_open(), (node11, 'left')) def test_find_open_with_single_child_aunt(self): node17 = HeapNode(17) node15 = HeapNode(15) node11 = HeapNode(11) node6 = HeapNode(6) node10 = HeapNode(10) node7 = HeapNode(7) node17.left = node15 node17.right = node11 node15.left = node6 node15.right = HeapNode(10) node11.left = node7 heap = Heap(node17) self.assertEqual(heap[-1].value, 7) self.assertEqual(heap.find_open(), (node11, 'right')) def test_find_open_with_non_empty_aunt(self): node17 = HeapNode(17) node15 = HeapNode(15) node11 = HeapNode(11) node6 = HeapNode(6) node10 = HeapNode(10) node7 = HeapNode(7) node5 = HeapNode(5) node17.left = node15 node17.right = node11 node15.left = node6 node15.right = HeapNode(10) node11.left = node7 node11.right = node5 heap = Heap(node17) self.assertEqual(heap[-1].value, 5) self.assertEqual(heap.find_open(), (node6, 'left')) def test_insert(self): node17 = HeapNode(17) heap = Heap(node17) heap.insert(15) self.assertTrue(test_binary_node(heap.root, 17, 15, None, None)) self.assertTrue(test_binary_node(heap.root.left, 15, None, None, 17)) heap.insert(10) self.assertTrue(test_binary_node(heap.root, 17, 15, 10, None)) self.assertTrue(test_binary_node(heap.root.left, 15, None, None, 17)) self.assertTrue(test_binary_node(heap.root.right, 10, None, None, 17)) heap.insert(6) self.assertTrue(test_binary_node(heap.root, 17, 15, 10, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, None, 17)) self.assertTrue(test_binary_node(heap.root.right, 10, None, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) heap.insert(10) self.assertTrue(test_binary_node(heap.root, 17, 15, 10, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, 10, 17)) self.assertTrue(test_binary_node(heap.root.right, 10, None, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 15)) heap.insert(7) self.assertTrue(test_binary_node(heap.root, 17, 15, 10, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, 10, 17)) self.assertTrue(test_binary_node(heap.root.right, 10, 7, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 15)) self.assertTrue(test_binary_node(heap.root.right.left, 7, None, None, 10)) def test_bubble(self): # 17 17 100 # / \ / \ / \ # 15 10 --> 15 100 --> 15 17 # / \ / \ / \ / \ / \ / \ # 6 10 7 100 6 10 7 10 6 10 7 10 heap = Heap(max_heap()) parent = heap.root.right last = HeapNode(100) parent.right = last last.parent = parent heap.bubble(last) self.assertTrue(test_binary_node(heap.root, 100, 15, 17, None)) self.assertTrue(test_binary_node(heap.root.right, 17, 7, 10, 100)) self.assertTrue(test_binary_node(heap.root.right.left, 7, None, None, 17)) self.assertTrue(test_binary_node(heap.root.right.right, 10, None, None, 17)) # 100 100 100 # / \ / \ / \ # 15 17 --> 15 17 --> 99 17 # / \ / \ / \ / \ / \ / \ # 6 10 7 10 99 10 7 10 15 10 7 10 # / / / # 99 6 6 parent = heap.root.left.left last = HeapNode(99) last.parent = parent parent.left = last heap.bubble(last) self.assertTrue(test_binary_node(heap.root, 100, 99, 17, None)) self.assertTrue(test_binary_node(heap.root.left, 99, 15, 10, 100)) self.assertTrue(test_binary_node(heap.root.left.left, 15, 6, None, 99)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 99)) self.assertTrue(test_binary_node(heap.root.left.left.left, 6, None, None, 15)) # 100 100 100 # / \ / \ / \ # 99 17 --> 99 17 --> 100 17 # / \ / \ / \ / \ / \ / \ # 15 10 7 10 15 100 7 10 15 99 7 10 # / \ / / \ / / \ / # 6 12 100 6 12 10 6 12 10 fifteen = heap.root.left.left twelve = HeapNode(12) twelve.parent = fifteen fifteen.right = twelve ten = heap.root.left.right last = HeapNode(100) ten.left = last last.parent = ten heap.bubble(last) self.assertTrue(test_binary_node(heap.root, 100, 100, 17, None)) self.assertTrue(test_binary_node(heap.root.left, 100, 15, 99, 100)) self.assertTrue(test_binary_node(heap.root.left.left, 15, 6, 12, 100)) self.assertTrue(test_binary_node(heap.root.left.right, 99, 10, None, 100)) def test_insertion_with_percolation(self): # 17 # / \ # 15 10 # / \ / # 6 10 7 # 6 six = HeapNode(6) heap = Heap(six) self.assertTrue(test_binary_node(heap.root, 6, None, None, None)) # 6 10 # / --> / # 10 6 heap.insert(10) self.assertTrue(test_binary_node(heap.root, 10, 6, None, None)) self.assertTrue(test_binary_node(heap.root.left, 6, None, None, 10)) # 10 10 # / \ --> / \ # 6 7 6 7 heap.insert(7) self.assertTrue(test_binary_node(heap.root, 10, 6, 7, None)) self.assertTrue(test_binary_node(heap.root.left, 6, None, None, 10)) self.assertTrue(test_binary_node(heap.root.right, 7, None, None, 10)) # 10 15 # / \ --> / \ # 6 7 10 7 # / / # 15 6 heap.insert(15) self.assertTrue(test_binary_node(heap.root, 15, 10, 7, None)) self.assertTrue(test_binary_node(heap.root.left, 10, 6, None, 15)) self.assertTrue(test_binary_node(heap.root.right, 7, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 10)) # 15 17 # / \ --> / \ # 10 7 15 7 # / \ / \ # 6 17 6 10 heap.insert(17) self.assertTrue(test_binary_node(heap.root, 17, 15, 7, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, 10, 17)) self.assertTrue(test_binary_node(heap.root.right, 7, None, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 15)) # 17 17 # / \ --> / \ # 15 7 15 11 # / \ / / \ / # 6 10 11 6 10 7 heap.insert(11) self.assertTrue(test_binary_node(heap.root, 17, 15, 11, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, 10, 17)) self.assertTrue(test_binary_node(heap.root.right, 11, 7, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 15)) self.assertTrue(test_binary_node(heap.root.right.left, 7, None, None, 11)) def test_build_from_array(self): heap1 = [17, 15, 11, 6, 10, 7] heap2 = [6, 10, 7, 15, 17, 11] heap = Heap(array=heap1) self.assertTrue(test_binary_node(heap.root, 17, 15, 11, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, 10, 17)) self.assertTrue(test_binary_node(heap.root.right, 11, 7, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 15)) self.assertTrue(test_binary_node(heap.root.right.left, 7, None, None, 11)) heap = Heap(array=heap2) self.assertTrue(test_binary_node(heap.root, 17, 15, 11, None)) self.assertTrue(test_binary_node(heap.root.left, 15, 6, 10, 17)) self.assertTrue(test_binary_node(heap.root.right, 11, 7, None, 17)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.right, 10, None, None, 15)) self.assertTrue(test_binary_node(heap.root.right.left, 7, None, None, 11)) def test_delete(self): # 17 7 15 15 # / \ / \ / \ / \ # 15 11 --> 15 11 --> 7 11 --> 10 11 # / \ / / \ / \ / \ # 6 10 7 6 10 6 10 6 7 heap = Heap(max_heap()) heap[2].value = 11 heap.delete_root() self.assertTrue(test_binary_node(heap.root, 15, 10, 11, None)) self.assertTrue(test_binary_node(heap.root.left, 10, 6, 7, 15)) self.assertTrue(test_binary_node(heap.root.right, 11, None, None, 15)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 10)) self.assertTrue(test_binary_node(heap.root.left.right, 7, None, None, 10)) # 15 7 11 # / \ / \ / \ # 10 11 --> 10 11 --> 10 7 # / \ / / # 6 7 6 6 heap.delete_root() self.assertTrue(test_binary_node(heap.root, 11, 10, 7, None)) self.assertTrue(test_binary_node(heap.root.left, 10, 6, None, 11)) self.assertTrue(test_binary_node(heap.root.right, 7, None, None, 11)) self.assertTrue(test_binary_node(heap.root.left.left, 6, None, None, 10)) # 11 6 10 # / \ / \ / \ # 10 7 --> 10 7 --> 6 7 # / # 6 heap.delete_root() self.assertTrue(test_binary_node(heap.root, 10, 6, 7, None)) self.assertTrue(test_binary_node(heap.root.left, 6, None, None, 10)) self.assertTrue(test_binary_node(heap.root.right, 7, None, None, 10)) # 10 7 # / \ --> / # 6 7 6 heap.delete_root() self.assertTrue(test_binary_node(heap.root, 7, 6, None, None)) self.assertTrue(test_binary_node(heap.root.left, 6, None, None, 7)) # 7 # / --> 6 # 6 heap.delete_root() self.assertTrue(test_binary_node(heap.root, 6, None, None, None)) # 6 --> None heap.delete_root() self.assertFalse(heap.root)