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Improve comments, add doctests in symmetric_tree.py (#11619)
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@ -13,7 +13,21 @@ from dataclasses import dataclass
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@dataclass
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@dataclass
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class Node:
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class Node:
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"""
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"""
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A Node has data variable and pointers to Nodes to its left and right.
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A Node represents an element of a binary tree, which contains:
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Attributes:
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data: The value stored in the node (int).
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left: Pointer to the left child node (Node or None).
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right: Pointer to the right child node (Node or None).
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Example:
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>>> node = Node(1, Node(2), Node(3))
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>>> node.data
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1
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>>> node.left.data
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2
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>>> node.right.data
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3
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"""
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"""
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data: int
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data: int
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@ -24,12 +38,25 @@ class Node:
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def make_symmetric_tree() -> Node:
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def make_symmetric_tree() -> Node:
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r"""
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r"""
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Create a symmetric tree for testing.
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Create a symmetric tree for testing.
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The tree looks like this:
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The tree looks like this:
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1
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1
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/ \
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/ \
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2 2
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2 2
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/ \ / \
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/ \ / \
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3 4 4 3
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3 4 4 3
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Returns:
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Node: Root node of a symmetric tree.
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Example:
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>>> tree = make_symmetric_tree()
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>>> tree.data
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1
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>>> tree.left.data == tree.right.data
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True
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>>> tree.left.left.data == tree.right.right.data
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True
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"""
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"""
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root = Node(1)
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root = Node(1)
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root.left = Node(2)
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root.left = Node(2)
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@ -43,13 +70,26 @@ def make_symmetric_tree() -> Node:
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def make_asymmetric_tree() -> Node:
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def make_asymmetric_tree() -> Node:
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r"""
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r"""
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Create a asymmetric tree for testing.
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Create an asymmetric tree for testing.
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The tree looks like this:
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The tree looks like this:
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1
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1
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/ \
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/ \
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2 2
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2 2
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/ \ / \
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/ \ / \
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3 4 3 4
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3 4 3 4
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Returns:
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Node: Root node of an asymmetric tree.
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Example:
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>>> tree = make_asymmetric_tree()
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>>> tree.data
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1
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>>> tree.left.data == tree.right.data
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True
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>>> tree.left.left.data == tree.right.right.data
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False
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"""
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"""
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root = Node(1)
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root = Node(1)
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root.left = Node(2)
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root.left = Node(2)
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@ -63,7 +103,15 @@ def make_asymmetric_tree() -> Node:
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def is_symmetric_tree(tree: Node) -> bool:
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def is_symmetric_tree(tree: Node) -> bool:
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"""
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"""
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Test cases for is_symmetric_tree function
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Check if a binary tree is symmetric (i.e., a mirror of itself).
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Parameters:
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tree: The root node of the binary tree.
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Returns:
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bool: True if the tree is symmetric, False otherwise.
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Example:
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>>> is_symmetric_tree(make_symmetric_tree())
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>>> is_symmetric_tree(make_symmetric_tree())
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True
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True
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>>> is_symmetric_tree(make_asymmetric_tree())
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>>> is_symmetric_tree(make_asymmetric_tree())
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@ -76,8 +124,17 @@ def is_symmetric_tree(tree: Node) -> bool:
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def is_mirror(left: Node | None, right: Node | None) -> bool:
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def is_mirror(left: Node | None, right: Node | None) -> bool:
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"""
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"""
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Check if two subtrees are mirror images of each other.
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Parameters:
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left: The root node of the left subtree.
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right: The root node of the right subtree.
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Returns:
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bool: True if the two subtrees are mirrors of each other, False otherwise.
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Example:
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>>> tree1 = make_symmetric_tree()
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>>> tree1 = make_symmetric_tree()
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>>> tree1.right.right = Node(3)
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>>> is_mirror(tree1.left, tree1.right)
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>>> is_mirror(tree1.left, tree1.right)
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True
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True
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>>> tree2 = make_asymmetric_tree()
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>>> tree2 = make_asymmetric_tree()
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@ -91,7 +148,7 @@ def is_mirror(left: Node | None, right: Node | None) -> bool:
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# One side is empty while the other is not, which is not symmetric.
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# One side is empty while the other is not, which is not symmetric.
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return False
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return False
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if left.data == right.data:
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if left.data == right.data:
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# The values match, so check the subtree
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# The values match, so check the subtrees recursively.
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return is_mirror(left.left, right.right) and is_mirror(left.right, right.left)
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return is_mirror(left.left, right.right) and is_mirror(left.right, right.left)
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return False
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return False
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