Python/project_euler/problem_075/sol1.py

"""
Project Euler Problem 75: https://projecteuler.net/problem=75

It turns out that 12 cm is the smallest length of wire that can be bent to form an
integer sided right angle triangle in exactly one way, but there are many more examples.

12 cm: (3,4,5)
24 cm: (6,8,10)
30 cm: (5,12,13)
36 cm: (9,12,15)
40 cm: (8,15,17)
48 cm: (12,16,20)

In contrast, some lengths of wire, like 20 cm, cannot be bent to form an integer sided
right angle triangle, and other lengths allow more than one solution to be found; for
example, using 120 cm it is possible to form exactly three different integer sided
right angle triangles.

120 cm: (30,40,50), (20,48,52), (24,45,51)

Given that L is the length of the wire, for how many values of L ≤ 1,500,000 can
exactly one integer sided right angle triangle be formed?

Solution: we generate all pythagorean triples using Euclid's formula and
keep track of the frequencies of the perimeters.

Reference: https://en.wikipedia.org/wiki/Pythagorean_triple#Generating_a_triple
"""

from collections import defaultdict
from math import gcd


def solution(limit: int = 1500000) -> int:
    """
    Return the number of values of L <= limit such that a wire of length L can be
    formmed into an integer sided right angle triangle in exactly one way.
    >>> solution(50)
    6
    >>> solution(1000)
    112
    >>> solution(50000)
    5502
    """
    frequencies: defaultdict = defaultdict(int)
    euclid_m = 2
    while 2 * euclid_m * (euclid_m + 1) <= limit:
        for euclid_n in range((euclid_m % 2) + 1, euclid_m, 2):
            if gcd(euclid_m, euclid_n) > 1:
                continue
            primitive_perimeter = 2 * euclid_m * (euclid_m + euclid_n)
            for perimeter in range(primitive_perimeter, limit + 1, primitive_perimeter):
                frequencies[perimeter] += 1
        euclid_m += 1
    return sum(1 for frequency in frequencies.values() if frequency == 1)


if __name__ == "__main__":
    print(f"{solution() = }")
Add solution for Project Euler problem 75. (#3129) * Added solution for Project Euler problem 75. * Added doctest for solution() in project_euler/problem_75/sol1.py * Update docstring and 0-padding of directory name. Reference: #3256 * More descriptive variable names * Moved solution explanation to module-level docstring 2020-10-16 10:30:45 +00:00			`"""`
			`Project Euler Problem 75: https://projecteuler.net/problem=75`

			`It turns out that 12 cm is the smallest length of wire that can be bent to form an`
			`integer sided right angle triangle in exactly one way, but there are many more examples.`

			`12 cm: (3,4,5)`
			`24 cm: (6,8,10)`
			`30 cm: (5,12,13)`
			`36 cm: (9,12,15)`
			`40 cm: (8,15,17)`
			`48 cm: (12,16,20)`

			`In contrast, some lengths of wire, like 20 cm, cannot be bent to form an integer sided`
			`right angle triangle, and other lengths allow more than one solution to be found; for`
			`example, using 120 cm it is possible to form exactly three different integer sided`
			`right angle triangles.`

			`120 cm: (30,40,50), (20,48,52), (24,45,51)`

			`Given that L is the length of the wire, for how many values of L ≤ 1,500,000 can`
			`exactly one integer sided right angle triangle be formed?`

			`Solution: we generate all pythagorean triples using Euclid's formula and`
			`keep track of the frequencies of the perimeters.`

			`Reference: https://en.wikipedia.org/wiki/Pythagorean_triple#Generating_a_triple`
			`"""`

			`from collections import defaultdict`
			`from math import gcd`


			`def solution(limit: int = 1500000) -> int:`
			`"""`
			`Return the number of values of L <= limit such that a wire of length L can be`
			`formmed into an integer sided right angle triangle in exactly one way.`
			`>>> solution(50)`
			`6`
			`>>> solution(1000)`
			`112`
			`>>> solution(50000)`
			`5502`
			`"""`
Replace bandit, flake8, isort, and pyupgrade with ruff (#8178) * Replace bandit, flake8, isort, and pyupgrade with ruff * Comment on ruff rules * updating DIRECTORY.md --------- Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> 2023-03-15 12:58:25 +00:00			`frequencies: defaultdict = defaultdict(int)`
Add solution for Project Euler problem 75. (#3129) * Added solution for Project Euler problem 75. * Added doctest for solution() in project_euler/problem_75/sol1.py * Update docstring and 0-padding of directory name. Reference: #3256 * More descriptive variable names * Moved solution explanation to module-level docstring 2020-10-16 10:30:45 +00:00			`euclid_m = 2`
			`while 2 * euclid_m * (euclid_m + 1) <= limit:`
			`for euclid_n in range((euclid_m % 2) + 1, euclid_m, 2):`
			`if gcd(euclid_m, euclid_n) > 1:`
			`continue`
			`primitive_perimeter = 2 * euclid_m * (euclid_m + euclid_n)`
			`for perimeter in range(primitive_perimeter, limit + 1, primitive_perimeter):`
			`frequencies[perimeter] += 1`
			`euclid_m += 1`
			`return sum(1 for frequency in frequencies.values() if frequency == 1)`


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