Python/project_euler/problem_131/sol1.py

"""
Project Euler Problem 131: https://projecteuler.net/problem=131

There are some prime values, p, for which there exists a positive integer, n,
such that the expression n^3 + n^2p is a perfect cube.

For example, when p = 19, 8^3 + 8^2 x 19 = 12^3.

What is perhaps most surprising is that for each prime with this property
the value of n is unique, and there are only four such primes below one-hundred.

How many primes below one million have this remarkable property?
"""

from math import isqrt


def is_prime(number: int) -> bool:
    """
    Determines whether number is prime

    >>> is_prime(3)
    True

    >>> is_prime(4)
    False
    """

    for divisor in range(2, isqrt(number) + 1):
        if number % divisor == 0:
            return False
    return True


def solution(max_prime: int = 10**6) -> int:
    """
    Returns number of primes below max_prime with the property

    >>> solution(100)
    4
    """

    primes_count = 0
    cube_index = 1
    prime_candidate = 7
    while prime_candidate < max_prime:
        primes_count += is_prime(prime_candidate)

        cube_index += 1
        prime_candidate += 6 * cube_index

    return primes_count


if __name__ == "__main__":
    print(f"{solution() = }")
Add Project Euler problem 131 solution 1 (#8179) Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> 2023-03-15 12:56:03 +00:00			`"""`
			`Project Euler Problem 131: https://projecteuler.net/problem=131`

			`There are some prime values, p, for which there exists a positive integer, n,`
			`such that the expression n^3 + n^2p is a perfect cube.`

			`For example, when p = 19, 8^3 + 8^2 x 19 = 12^3.`

			`What is perhaps most surprising is that for each prime with this property`
			`the value of n is unique, and there are only four such primes below one-hundred.`

			`How many primes below one million have this remarkable property?`
			`"""`

			`from math import isqrt`


			`def is_prime(number: int) -> bool:`
			`"""`
			`Determines whether number is prime`

			`>>> is_prime(3)`
			`True`

			`>>> is_prime(4)`
			`False`
			`"""`

			`for divisor in range(2, isqrt(number) + 1):`
			`if number % divisor == 0:`
			`return False`
			`return True`


			`def solution(max_prime: int = 10**6) -> int:`
			`"""`
			`Returns number of primes below max_prime with the property`

			`>>> solution(100)`
			`4`
			`"""`

			`primes_count = 0`
			`cube_index = 1`
			`prime_candidate = 7`
			`while prime_candidate < max_prime:`
			`primes_count += is_prime(prime_candidate)`

			`cube_index += 1`
			`prime_candidate += 6 * cube_index`

			`return primes_count`


			`if __name__ == "__main__":`
			`print(f"{solution() = }")`