Python/project_euler/problem_39/sol1.py

"""
If p is the perimeter of a right angle triangle with integral length sides,
{a,b,c}, there are exactly three solutions for p = 120.
{20,48,52}, {24,45,51}, {30,40,50}

For which value of p ≤ 1000, is the number of solutions maximised?
"""

from __future__ import annotations

from collections import Counter


def pythagorean_triple(max_perimeter: int) -> dict:
    """
    Returns a dictionary with keys as the perimeter of a right angled triangle
    and value as the number of corresponding triplets.
    >>> pythagorean_triple(15)
    Counter({12: 1})
    >>> pythagorean_triple(40)
    Counter({12: 1, 30: 1, 24: 1, 40: 1, 36: 1})
    >>> pythagorean_triple(50)
    Counter({12: 1, 30: 1, 24: 1, 40: 1, 36: 1, 48: 1})
    """
    triplets = Counter()
    for base in range(1, max_perimeter + 1):
        for perpendicular in range(base, max_perimeter + 1):
            hypotenuse = (base * base + perpendicular * perpendicular) ** 0.5
            if hypotenuse == int((hypotenuse)):
                perimeter = int(base + perpendicular + hypotenuse)
                if perimeter > max_perimeter:
                    continue
                else:
                    triplets[perimeter] += 1
    return triplets


if __name__ == "__main__":
    triplets = pythagorean_triple(1000)
    print(f"{triplets.most_common()[0][0] = }")
Created problem_39 in project_euler (#2330) * Create __init__.py * Add files via upload * Update sol1.py * Update sol1.py * Update project_euler/problem_39/sol1.py Co-authored-by: Christian Clauss <cclauss@me.com> * Update sol1.py Co-authored-by: Christian Clauss <cclauss@me.com> 2020-08-18 10:49:02 +00:00			`"""`
			`If p is the perimeter of a right angle triangle with integral length sides,`
			`{a,b,c}, there are exactly three solutions for p = 120.`
			`{20,48,52}, {24,45,51}, {30,40,50}`

			`For which value of p ≤ 1000, is the number of solutions maximised?`
			`"""`

from __future__ import annotations (#2464) * from __future__ import annotations * fixup! from __future__ import annotations * fixup! from __future__ import annotations * fixup! Format Python code with psf/black push Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> 2020-09-23 11:30:13 +00:00			`from __future__ import annotations`

Created problem_39 in project_euler (#2330) * Create __init__.py * Add files via upload * Update sol1.py * Update sol1.py * Update project_euler/problem_39/sol1.py Co-authored-by: Christian Clauss <cclauss@me.com> * Update sol1.py Co-authored-by: Christian Clauss <cclauss@me.com> 2020-08-18 10:49:02 +00:00			`from collections import Counter`


from __future__ import annotations (#2464) * from __future__ import annotations * fixup! from __future__ import annotations * fixup! from __future__ import annotations * fixup! Format Python code with psf/black push Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> 2020-09-23 11:30:13 +00:00			`def pythagorean_triple(max_perimeter: int) -> dict:`
Created problem_39 in project_euler (#2330) * Create __init__.py * Add files via upload * Update sol1.py * Update sol1.py * Update project_euler/problem_39/sol1.py Co-authored-by: Christian Clauss <cclauss@me.com> * Update sol1.py Co-authored-by: Christian Clauss <cclauss@me.com> 2020-08-18 10:49:02 +00:00			`"""`
			`Returns a dictionary with keys as the perimeter of a right angled triangle`
			`and value as the number of corresponding triplets.`
			`>>> pythagorean_triple(15)`
			`Counter({12: 1})`
			`>>> pythagorean_triple(40)`
			`Counter({12: 1, 30: 1, 24: 1, 40: 1, 36: 1})`
			`>>> pythagorean_triple(50)`
			`Counter({12: 1, 30: 1, 24: 1, 40: 1, 36: 1, 48: 1})`
			`"""`
			`triplets = Counter()`
			`for base in range(1, max_perimeter + 1):`
			`for perpendicular in range(base, max_perimeter + 1):`
			`hypotenuse = (base * base + perpendicular * perpendicular) ** 0.5`
			`if hypotenuse == int((hypotenuse)):`
			`perimeter = int(base + perpendicular + hypotenuse)`
			`if perimeter > max_perimeter:`
			`continue`
			`else:`
			`triplets[perimeter] += 1`
			`return triplets`


			`if __name__ == "__main__":`
			`triplets = pythagorean_triple(1000)`
			`print(f"{triplets.most_common()[0][0] = }")`