Python/dynamic_programming/catalan_numbers.py

"""
Print all the Catalan numbers from 0 to n, n being the user input.

 * The Catalan numbers are a sequence of positive integers that
 * appear in many counting problems in combinatorics [1]. Such
 * problems include counting [2]:
 * - The number of Dyck words of length 2n
 * - The number well-formed expressions with n pairs of parentheses
 *   (e.g., `()()` is valid but `())(` is not)
 * - The number of different ways n + 1 factors can be completely
 *   parenthesized (e.g., for n = 2, C(n) = 2 and (ab)c and a(bc)
 *   are the two valid ways to parenthesize.
 * - The number of full binary trees with n + 1 leaves

 * A Catalan number satisfies the following recurrence relation
 * which we will use in this algorithm [1].
 * C(0) = C(1) = 1
 * C(n) = sum(C(i).C(n-i-1)), from i = 0 to n-1

 * In addition, the n-th Catalan number can be calculated using
 * the closed form formula below [1]:
 * C(n) = (1 / (n + 1)) * (2n choose n)

 * Sources:
 *  [1] https://brilliant.org/wiki/catalan-numbers/
 *  [2] https://en.wikipedia.org/wiki/Catalan_number
"""


def catalan_numbers(upper_limit: int) -> "list[int]":
    """
    Return a list of the Catalan number sequence from 0 through `upper_limit`.

    >>> catalan_numbers(5)
    [1, 1, 2, 5, 14, 42]
    >>> catalan_numbers(2)
    [1, 1, 2]
    >>> catalan_numbers(-1)
    Traceback (most recent call last):
    ValueError: Limit for the Catalan sequence must be ≥ 0
    """
    if upper_limit < 0:
        raise ValueError("Limit for the Catalan sequence must be ≥ 0")

    catalan_list = [0] * (upper_limit + 1)

    # Base case: C(0) = C(1) = 1
    catalan_list[0] = 1
    if upper_limit > 0:
        catalan_list[1] = 1

    # Recurrence relation: C(i) = sum(C(j).C(i-j-1)), from j = 0 to i
    for i in range(2, upper_limit + 1):
        for j in range(i):
            catalan_list[i] += catalan_list[j] * catalan_list[i - j - 1]

    return catalan_list


if __name__ == "__main__":
    print("\n********* Catalan Numbers Using Dynamic Programming ************\n")
    print("\n*** Enter -1 at any time to quit ***")
    print("\nEnter the upper limit (≥ 0) for the Catalan number sequence: ", end="")
    try:
        while True:
            N = int(input().strip())
            if N < 0:
                print("\n********* Goodbye!! ************")
                break
            else:
                print(f"The Catalan numbers from 0 through {N} are:")
                print(catalan_numbers(N))
                print("Try another upper limit for the sequence: ", end="")
    except (NameError, ValueError):
        print("\n********* Invalid input, goodbye! ************\n")

    import doctest

    doctest.testmod()
Add catalan_numbers.py (#4455) Reviewed by @mrmaxguns. This is an implementation of Catalan Numbers. 2021-06-01 00:55:01 +00:00			`"""`
			`Print all the Catalan numbers from 0 to n, n being the user input.`

			`* The Catalan numbers are a sequence of positive integers that`
			`* appear in many counting problems in combinatorics [1]. Such`
			`* problems include counting [2]:`
			`* - The number of Dyck words of length 2n`
			`* - The number well-formed expressions with n pairs of parentheses`
			* (e.g., `()()` is valid but `())(` is not)
			`* - The number of different ways n + 1 factors can be completely`
			`* parenthesized (e.g., for n = 2, C(n) = 2 and (ab)c and a(bc)`
			`* are the two valid ways to parenthesize.`
			`* - The number of full binary trees with n + 1 leaves`

			`* A Catalan number satisfies the following recurrence relation`
			`* which we will use in this algorithm [1].`
			`* C(0) = C(1) = 1`
			`* C(n) = sum(C(i).C(n-i-1)), from i = 0 to n-1`

			`* In addition, the n-th Catalan number can be calculated using`
			`* the closed form formula below [1]:`
			`* C(n) = (1 / (n + 1)) * (2n choose n)`

			`* Sources:`
			`* [1] https://brilliant.org/wiki/catalan-numbers/`
			`* [2] https://en.wikipedia.org/wiki/Catalan_number`
			`"""`


			`def catalan_numbers(upper_limit: int) -> "list[int]":`
			`"""`
			Return a list of the Catalan number sequence from 0 through `upper_limit`.

			`>>> catalan_numbers(5)`
			`[1, 1, 2, 5, 14, 42]`
			`>>> catalan_numbers(2)`
			`[1, 1, 2]`
			`>>> catalan_numbers(-1)`
			`Traceback (most recent call last):`
			`ValueError: Limit for the Catalan sequence must be ≥ 0`
			`"""`
			`if upper_limit < 0:`
			`raise ValueError("Limit for the Catalan sequence must be ≥ 0")`

			`catalan_list = [0] * (upper_limit + 1)`

			`# Base case: C(0) = C(1) = 1`
			`catalan_list[0] = 1`
			`if upper_limit > 0:`
			`catalan_list[1] = 1`

			`# Recurrence relation: C(i) = sum(C(j).C(i-j-1)), from j = 0 to i`
			`for i in range(2, upper_limit + 1):`
			`for j in range(i):`
			`catalan_list[i] += catalan_list[j] * catalan_list[i - j - 1]`

			`return catalan_list`


			`if __name__ == "__main__":`
			`print("\n******* Catalan Numbers Using Dynamic Programming **********\n")`
			`print("\n* Enter -1 at any time to quit *")`
			`print("\nEnter the upper limit (≥ 0) for the Catalan number sequence: ", end="")`
			`try:`
			`while True:`
			`N = int(input().strip())`
			`if N < 0:`
			`print("\n******* Goodbye!! **********")`
			`break`
			`else:`
			`print(f"The Catalan numbers from 0 through {N} are:")`
			`print(catalan_numbers(N))`
			`print("Try another upper limit for the sequence: ", end="")`
			`except (NameError, ValueError):`
			`print("\n******* Invalid input, goodbye! **********\n")`

			`import doctest`

			`doctest.testmod()`