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print reverse: A LinkedList with a tail pointer (#9875)
* print reverse: A LinkedList with a tail pointer * updating DIRECTORY.md --------- Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com>
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* [Index Of Rightmost Set Bit](bit_manipulation/index_of_rightmost_set_bit.py)
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* [Is Even](bit_manipulation/is_even.py)
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* [Is Power Of Two](bit_manipulation/is_power_of_two.py)
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* [Largest Pow Of Two Le Num](bit_manipulation/largest_pow_of_two_le_num.py)
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* [Missing Number](bit_manipulation/missing_number.py)
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* [Numbers Different Signs](bit_manipulation/numbers_different_signs.py)
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* [Reverse Bits](bit_manipulation/reverse_bits.py)
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@ -322,6 +323,7 @@
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* [Integer Partition](dynamic_programming/integer_partition.py)
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* [Iterating Through Submasks](dynamic_programming/iterating_through_submasks.py)
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* [Knapsack](dynamic_programming/knapsack.py)
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* [Largest Divisible Subset](dynamic_programming/largest_divisible_subset.py)
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* [Longest Common Subsequence](dynamic_programming/longest_common_subsequence.py)
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* [Longest Common Substring](dynamic_programming/longest_common_substring.py)
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* [Longest Increasing Subsequence](dynamic_programming/longest_increasing_subsequence.py)
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## Greedy Methods
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* [Fractional Knapsack](greedy_methods/fractional_knapsack.py)
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* [Fractional Knapsack 2](greedy_methods/fractional_knapsack_2.py)
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* [Gas Station](greedy_methods/gas_station.py)
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* [Minimum Waiting Time](greedy_methods/minimum_waiting_time.py)
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* [Optimal Merge Pattern](greedy_methods/optimal_merge_pattern.py)
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* [Average Median](maths/average_median.py)
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* [Average Mode](maths/average_mode.py)
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* [Bailey Borwein Plouffe](maths/bailey_borwein_plouffe.py)
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* [Base Neg2 Conversion](maths/base_neg2_conversion.py)
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* [Basic Maths](maths/basic_maths.py)
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* [Bell Numbers](maths/bell_numbers.py)
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* [Binary Exp Mod](maths/binary_exp_mod.py)
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@ -657,7 +661,6 @@
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* [P Series](maths/series/p_series.py)
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* [Sieve Of Eratosthenes](maths/sieve_of_eratosthenes.py)
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* [Sigmoid](maths/sigmoid.py)
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* [Sigmoid Linear Unit](maths/sigmoid_linear_unit.py)
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* [Signum](maths/signum.py)
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* [Simpson Rule](maths/simpson_rule.py)
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* [Simultaneous Linear Equation Solver](maths/simultaneous_linear_equation_solver.py)
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* [Leaky Rectified Linear Unit](neural_network/activation_functions/leaky_rectified_linear_unit.py)
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* [Rectified Linear Unit](neural_network/activation_functions/rectified_linear_unit.py)
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* [Scaled Exponential Linear Unit](neural_network/activation_functions/scaled_exponential_linear_unit.py)
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* [Sigmoid Linear Unit](neural_network/activation_functions/sigmoid_linear_unit.py)
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* [Back Propagation Neural Network](neural_network/back_propagation_neural_network.py)
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* [Convolution Neural Network](neural_network/convolution_neural_network.py)
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* [Perceptron](neural_network/perceptron.py)
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* [Naive String Search](strings/naive_string_search.py)
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* [Ngram](strings/ngram.py)
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* [Palindrome](strings/palindrome.py)
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* [Pig Latin](strings/pig_latin.py)
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* [Prefix Function](strings/prefix_function.py)
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* [Rabin Karp](strings/rabin_karp.py)
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* [Remove Duplicate](strings/remove_duplicate.py)
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from __future__ import annotations
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from collections.abc import Iterable, Iterator
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from dataclasses import dataclass
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@dataclass
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class Node:
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def __init__(self, data=None):
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self.data = data
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self.next = None
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def __repr__(self):
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"""Returns a visual representation of the node and all its following nodes."""
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string_rep = []
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temp = self
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while temp:
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string_rep.append(f"{temp.data}")
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temp = temp.next
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return "->".join(string_rep)
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data: int
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next_node: Node | None = None
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def make_linked_list(elements_list: list):
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class LinkedList:
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"""A class to represent a Linked List.
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Use a tail pointer to speed up the append() operation.
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"""
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def __init__(self) -> None:
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"""Initialize a LinkedList with the head node set to None.
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>>> linked_list = LinkedList()
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>>> (linked_list.head, linked_list.tail)
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(None, None)
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"""
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self.head: Node | None = None
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self.tail: Node | None = None # Speeds up the append() operation
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def __iter__(self) -> Iterator[int]:
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"""Iterate the LinkedList yielding each Node's data.
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>>> linked_list = LinkedList()
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>>> items = (1, 2, 3, 4, 5)
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>>> linked_list.extend(items)
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>>> tuple(linked_list) == items
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True
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"""
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node = self.head
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while node:
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yield node.data
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node = node.next_node
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def __repr__(self) -> str:
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"""Returns a string representation of the LinkedList.
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>>> linked_list = LinkedList()
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>>> str(linked_list)
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''
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>>> linked_list.append(1)
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>>> str(linked_list)
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'1'
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>>> linked_list.extend([2, 3, 4, 5])
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>>> str(linked_list)
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'1 -> 2 -> 3 -> 4 -> 5'
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"""
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return " -> ".join([str(data) for data in self])
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def append(self, data: int) -> None:
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"""Appends a new node with the given data to the end of the LinkedList.
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>>> linked_list = LinkedList()
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>>> str(linked_list)
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''
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>>> linked_list.append(1)
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>>> str(linked_list)
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'1'
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>>> linked_list.append(2)
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>>> str(linked_list)
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'1 -> 2'
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"""
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if self.tail:
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self.tail.next_node = self.tail = Node(data)
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else:
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self.head = self.tail = Node(data)
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def extend(self, items: Iterable[int]) -> None:
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"""Appends each item to the end of the LinkedList.
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>>> linked_list = LinkedList()
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>>> linked_list.extend([])
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>>> str(linked_list)
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''
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>>> linked_list.extend([1, 2])
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>>> str(linked_list)
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'1 -> 2'
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>>> linked_list.extend([3,4])
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>>> str(linked_list)
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'1 -> 2 -> 3 -> 4'
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"""
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for item in items:
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self.append(item)
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def make_linked_list(elements_list: Iterable[int]) -> LinkedList:
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"""Creates a Linked List from the elements of the given sequence
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(list/tuple) and returns the head of the Linked List.
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>>> make_linked_list([])
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>>> make_linked_list(['abc'])
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abc
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>>> make_linked_list([7, 25])
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7->25
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7 -> 25
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"""
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if not elements_list:
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raise Exception("The Elements List is empty")
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current = head = Node(elements_list[0])
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for i in range(1, len(elements_list)):
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current.next = Node(elements_list[i])
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current = current.next
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return head
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linked_list = LinkedList()
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linked_list.extend(elements_list)
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return linked_list
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def print_reverse(head_node: Node) -> None:
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def in_reverse(linked_list: LinkedList) -> str:
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"""Prints the elements of the given Linked List in reverse order
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>>> print_reverse([])
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>>> linked_list = make_linked_list([69, 88, 73])
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>>> print_reverse(linked_list)
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73
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88
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69
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>>> in_reverse(LinkedList())
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''
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>>> in_reverse(make_linked_list([69, 88, 73]))
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'73 <- 88 <- 69'
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"""
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if head_node is not None and isinstance(head_node, Node):
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print_reverse(head_node.next)
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print(head_node.data)
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def main():
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from doctest import testmod
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testmod()
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linked_list = make_linked_list([14, 52, 14, 12, 43])
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print("Linked List:")
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print(linked_list)
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print("Elements in Reverse:")
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print_reverse(linked_list)
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return " <- ".join(str(line) for line in reversed(tuple(linked_list)))
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if __name__ == "__main__":
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main()
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from doctest import testmod
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testmod()
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linked_list = make_linked_list((14, 52, 14, 12, 43))
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print(f"Linked List: {linked_list}")
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print(f"Reverse List: {in_reverse(linked_list)}")
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