"""
In this problem, we want to determine all possible subsequences
of the given sequence. We use backtracking to solve this problem.
Time complexity: O(2^n),
where n denotes the length of the given sequence.
"""
from typing import Any, List
def generate_all_subsequences(sequence: List[Any]) -> None:
create_state_space_tree(sequence, [], 0)
def create_state_space_tree(
sequence: List[Any], current_subsequence: List[Any], index: int
) -> None:
"""
Creates a state space tree to iterate through each branch using DFS.
We know that each state has exactly two children.
It terminates when it reaches the end of the given sequence.
"""
if index == len(sequence):
print(current_subsequence)
return
create_state_space_tree(sequence, current_subsequence, index + 1)
current_subsequence.append(sequence[index])
create_state_space_tree(sequence, current_subsequence, index + 1)
current_subsequence.pop()
if __name__ == "__main__":
seq: List[Any] = [3, 1, 2, 4]
generate_all_subsequences(seq)
seq.clear()
seq.extend(["A", "B", "C"])
generate_all_subsequences(seq)