from __future__ import annotations from dataclasses import dataclass @dataclass class ListNode: val: int = 0 next_node: ListNode | None = None def is_palindrome(head: ListNode | None) -> bool: """ Check if a linked list is a palindrome. Args: head: The head of the linked list. Returns: bool: True if the linked list is a palindrome, False otherwise. Examples: >>> is_palindrome(None) True >>> is_palindrome(ListNode(1)) True >>> is_palindrome(ListNode(1, ListNode(2))) False >>> is_palindrome(ListNode(1, ListNode(2, ListNode(1)))) True >>> is_palindrome(ListNode(1, ListNode(2, ListNode(2, ListNode(1))))) True """ if not head: return True # split the list to two parts fast: ListNode | None = head.next_node slow: ListNode | None = head while fast and fast.next_node: fast = fast.next_node.next_node slow = slow.next_node if slow else None if slow: # slow will always be defined, # adding this check to resolve mypy static check second = slow.next_node slow.next_node = None # Don't forget here! But forget still works! # reverse the second part node: ListNode | None = None while second: nxt = second.next_node second.next_node = node node = second second = nxt # compare two parts # second part has the same or one less node while node and head: if node.val != head.val: return False node = node.next_node head = head.next_node return True def is_palindrome_stack(head: ListNode | None) -> bool: """ Check if a linked list is a palindrome using a stack. Args: head (ListNode): The head of the linked list. Returns: bool: True if the linked list is a palindrome, False otherwise. Examples: >>> is_palindrome_stack(None) True >>> is_palindrome_stack(ListNode(1)) True >>> is_palindrome_stack(ListNode(1, ListNode(2))) False >>> is_palindrome_stack(ListNode(1, ListNode(2, ListNode(1)))) True >>> is_palindrome_stack(ListNode(1, ListNode(2, ListNode(2, ListNode(1))))) True """ if not head or not head.next_node: return True # 1. Get the midpoint (slow) slow: ListNode | None = head fast: ListNode | None = head while fast and fast.next_node: fast = fast.next_node.next_node slow = slow.next_node if slow else None # slow will always be defined, # adding this check to resolve mypy static check if slow: stack = [slow.val] # 2. Push the second half into the stack while slow.next_node: slow = slow.next_node stack.append(slow.val) # 3. Comparison cur: ListNode | None = head while stack and cur: if stack.pop() != cur.val: return False cur = cur.next_node return True def is_palindrome_dict(head: ListNode | None) -> bool: """ Check if a linked list is a palindrome using a dictionary. Args: head (ListNode): The head of the linked list. Returns: bool: True if the linked list is a palindrome, False otherwise. Examples: >>> is_palindrome_dict(None) True >>> is_palindrome_dict(ListNode(1)) True >>> is_palindrome_dict(ListNode(1, ListNode(2))) False >>> is_palindrome_dict(ListNode(1, ListNode(2, ListNode(1)))) True >>> is_palindrome_dict(ListNode(1, ListNode(2, ListNode(2, ListNode(1))))) True >>> is_palindrome_dict( ... ListNode( ... 1, ListNode(2, ListNode(1, ListNode(3, ListNode(2, ListNode(1))))) ... ) ... ) False """ if not head or not head.next_node: return True d: dict[int, list[int]] = {} pos = 0 while head: if head.val in d: d[head.val].append(pos) else: d[head.val] = [pos] head = head.next_node pos += 1 checksum = pos - 1 middle = 0 for v in d.values(): if len(v) % 2 != 0: middle += 1 else: step = 0 for i in range(len(v)): if v[i] + v[len(v) - 1 - step] != checksum: return False step += 1 if middle > 1: return False return True if __name__ == "__main__": import doctest doctest.testmod()