Python/project_euler/problem_077/sol1.py

"""
Project Euler Problem 77: https://projecteuler.net/problem=77

It is possible to write ten as the sum of primes in exactly five different ways:

7 + 3
5 + 5
5 + 3 + 2
3 + 3 + 2 + 2
2 + 2 + 2 + 2 + 2

What is the first value which can be written as the sum of primes in over
five thousand different ways?
"""

from functools import lru_cache
from math import ceil
from typing import Optional, Set

NUM_PRIMES = 100

primes = set(range(3, NUM_PRIMES, 2))
primes.add(2)
prime: int

for prime in range(3, ceil(NUM_PRIMES ** 0.5), 2):
    if prime not in primes:
        continue
    primes.difference_update(set(range(prime * prime, NUM_PRIMES, prime)))


@lru_cache(maxsize=100)
def partition(number_to_partition: int) -> Set[int]:
    """
    Return a set of integers corresponding to unique prime partitions of n.
    The unique prime partitions can be represented as unique prime decompositions,
    e.g. (7+3) <-> 7*3 = 12, (3+3+2+2) = 3*3*2*2 = 36
    >>> partition(10)
    {32, 36, 21, 25, 30}
    >>> partition(15)
    {192, 160, 105, 44, 112, 243, 180, 150, 216, 26, 125, 126}
    >>> len(partition(20))
    26
    """
    if number_to_partition < 0:
        return set()
    elif number_to_partition == 0:
        return {1}

    ret: Set[int] = set()
    prime: int
    sub: int

    for prime in primes:
        if prime > number_to_partition:
            continue
        for sub in partition(number_to_partition - prime):
            ret.add(sub * prime)

    return ret


def solution(number_unique_partitions: int = 5000) -> Optional[int]:
    """
    Return the smallest integer that can be written as the sum of primes in over
    m unique ways.
    >>> solution(4)
    10
    >>> solution(500)
    45
    >>> solution(1000)
    53
    """
    for number_to_partition in range(1, NUM_PRIMES):
        if len(partition(number_to_partition)) > number_unique_partitions:
            return number_to_partition
    return None


if __name__ == "__main__":
    print(f"{solution() = }")
Added solution for Project Euler problem 77 (#3132) * Added solution for Project Euler problem 77. * Update docstrings, doctest, type annotations and 0-padding in directory name. Reference: #3256 * Implemented lru_cache, better type hints, more doctests for problem 77 * updating DIRECTORY.md * updating DIRECTORY.md * Added solution for Project Euler problem 77. Fixes: 2695 * Update docstrings, doctest, type annotations and 0-padding in directory name. Reference: #3256 * Implemented lru_cache, better type hints, more doctests for problem 77 * better variable names Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> 2020-11-27 16:08:14 +00:00			`"""`
			`Project Euler Problem 77: https://projecteuler.net/problem=77`

			`It is possible to write ten as the sum of primes in exactly five different ways:`

			`7 + 3`
			`5 + 5`
			`5 + 3 + 2`
			`3 + 3 + 2 + 2`
			`2 + 2 + 2 + 2 + 2`

			`What is the first value which can be written as the sum of primes in over`
			`five thousand different ways?`
			`"""`

			`from functools import lru_cache`
			`from math import ceil`
			`from typing import Optional, Set`

			`NUM_PRIMES = 100`

			`primes = set(range(3, NUM_PRIMES, 2))`
			`primes.add(2)`
			`prime: int`

			`for prime in range(3, ceil(NUM_PRIMES ** 0.5), 2):`
			`if prime not in primes:`
			`continue`
			`primes.difference_update(set(range(prime * prime, NUM_PRIMES, prime)))`


			`@lru_cache(maxsize=100)`
			`def partition(number_to_partition: int) -> Set[int]:`
			`"""`
			`Return a set of integers corresponding to unique prime partitions of n.`
			`The unique prime partitions can be represented as unique prime decompositions,`
			`e.g. (7+3) <-> 73 = 12, (3+3+2+2) = 3322 = 36`
			`>>> partition(10)`
			`{32, 36, 21, 25, 30}`
			`>>> partition(15)`
			`{192, 160, 105, 44, 112, 243, 180, 150, 216, 26, 125, 126}`
			`>>> len(partition(20))`
			`26`
			`"""`
			`if number_to_partition < 0:`
			`return set()`
			`elif number_to_partition == 0:`
			`return {1}`

			`ret: Set[int] = set()`
			`prime: int`
			`sub: int`

			`for prime in primes:`
			`if prime > number_to_partition:`
			`continue`
			`for sub in partition(number_to_partition - prime):`
			`ret.add(sub * prime)`

			`return ret`


			`def solution(number_unique_partitions: int = 5000) -> Optional[int]:`
			`"""`
			`Return the smallest integer that can be written as the sum of primes in over`
			`m unique ways.`
			`>>> solution(4)`
			`10`
			`>>> solution(500)`
			`45`
			`>>> solution(1000)`
			`53`
			`"""`
			`for number_to_partition in range(1, NUM_PRIMES):`
			`if len(partition(number_to_partition)) > number_unique_partitions:`
			`return number_to_partition`
			`return None`


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