Python/project_euler/problem_47/sol1.py

"""
Combinatoric selections

Problem 47

The first two consecutive numbers to have two distinct prime factors are:

14 = 2 × 7
15 = 3 × 5

The first three consecutive numbers to have three distinct prime factors are:

644 = 2² × 7 × 23
645 = 3 × 5 × 43
646 = 2 × 17 × 19.

Find the first four consecutive integers to have four distinct prime factors each.
What is the first of these numbers?
"""

from functools import lru_cache


def unique_prime_factors(n: int) -> set:
    """
    Find unique prime factors of an integer.
    Tests include sorting because only the set really matters,
    not the order in which it is produced.
    >>> sorted(set(unique_prime_factors(14)))
    [2, 7]
    >>> set(sorted(unique_prime_factors(644)))
    [2, 7, 23]
    >>> set(sorted(unique_prime_factors(646)))
    [2, 17, 19]
    """
    i = 2
    factors = set()
    while i * i <= n:
        if n % i:
            i += 1
        else:
            n //= i
            factors.add(i)
    if n > 1:
        factors.add(n)
    return factors


@lru_cache
def upf_len(num: int) -> int:
    """
    Memoize upf() length results for a given value.
    >>> upf_len(14)
    2
    """
    return len(unique_prime_factors(num))


def equality(iterable: list) -> bool:
    """
    Check equality of ALL elements in an interable.
    >>> equality([1, 2, 3, 4])
    False
    >>> equality([2, 2, 2, 2])
    True
    >>> equality([1, 2, 3, 2, 1])
    True
    """
    return len(set(iterable)) in (0, 1)


def run(n: int) -> list:
    """
    Runs core process to find problem solution.
    >>> run(3)
    [644, 645, 646]
    """

    # Incrementor variable for our group list comprehension.
    # This serves as the first number in each list of values
    # to test.
    base = 2

    while True:
        # Increment each value of a generated range
        group = [base + i for i in range(n)]

        # Run elements through out unique_prime_factors function
        # Append our target number to the end.
        checker = [upf_len(x) for x in group]
        checker.append(n)

        # If all numbers in the list are equal, return the group variable.
        if equality(checker):
            return group

        # Increment our base variable by 1
        base += 1


def solution(n: int = 4) -> int:
    """Return the first value of the first four consecutive integers to have four
    distinct prime factors each.
    >>> solution()
    134043
    """
    results = run(n)
    return results[0] if len(results) else None


if __name__ == "__main__":
    print(solution())
-												project_euler/problem_47/sol1.py (#2150)

* Create __init__.py

* Initial commit

Not sure if this should be formatted differently.  I'm open to ideas!

* Completing testing/updates

Ran code through `black`, `flake8`, and `doctest`.  Added some type hints.

`doctest` is finicky on sets, so I had to sort and reformat as set to pass those tests.

* Update project_euler/problem_47/sol1.py

Nice.

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Looks good

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Okay, this should work.  Thank you for the reminder on map(), filter(), reduce().

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

My IDE needs a spellchecker.  Or, lighter comment font.

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

This means that `results = run(N)` should be updated to `results = run(n)`, correct?

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Looks good!

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update project_euler/problem_47/sol1.py

Works for me! I spent way too much time getting this to pass doctest, so any improvement is welcome.

Co-authored-by: Christian Clauss <cclauss@me.com>

* Update sol1.py

Added some suggested changes from the pull request:
* Updated tests outputs in `unique_prime_factors` function.
* Changed `@lru_cache(maxsize=5)` to `@lru_cache(maxsize=None)`
* Removed duplicate `return` line in `equality` function
* Changed `i` to `base` in run function.
* Added some commentary to `run()` function.
* Replaced `group = list(map(lambda x: base + x, [i for i in range(n)]))` with `group = [base + i for i in range(n)]`

* Update sol1.py

* Trailing whitespace

* Update sol1.py

* Update __init__.py

* Update sol1.py

* Update __init__.py

Co-authored-by: Christian Clauss <cclauss@me.com>
											
										
										
											2020-06-25 10:25:19 +00:00
+								"""
 								Combinatoric selections
 								Problem 47
 								The first two consecutive numbers to have two distinct prime factors are:
 = 2 × 7
 = 3 × 5
 								The first three consecutive numbers to have three distinct prime factors are:
 = 2² × 7 × 23
 = 3 × 5 × 43
 = 2 × 17 × 19.
 								Find the first four consecutive integers to have four distinct prime factors each.
 								What is the first of these numbers?
 								"""
 								from functools import lru_cache
 								def unique_prime_factors(n: int) -> set:
 								    """
 								    Find unique prime factors of an integer.
 								    Tests include sorting because only the set really matters,
 								    not the order in which it is produced.
 								    >>> sorted(set(unique_prime_factors(14)))
 								    [2, 7]
 								    >>> set(sorted(unique_prime_factors(644)))
 								    [2, 7, 23]
 								    >>> set(sorted(unique_prime_factors(646)))
 								    [2, 17, 19]
 								    """
 								    i = 2
 								    factors = set()
 								    while i * i <= n:
 								        if n % i:
 								            i += 1
 								        else:
 								            n //= i
 								            factors.add(i)
 								    if n > 1:
 								        factors.add(n)
 								    return factors
 								@lru_cache
 								def upf_len(num: int) -> int:
 								    """
 								    Memoize upf() length results for a given value.
 								    >>> upf_len(14)
 
 								    """
 								    return len(unique_prime_factors(num))
 								def equality(iterable: list) -> bool:
 								    """
 								    Check equality of ALL elements in an interable.
 								    >>> equality([1, 2, 3, 4])
 								    False
 								    >>> equality([2, 2, 2, 2])
 								    True
 								    >>> equality([1, 2, 3, 2, 1])
 								    True
 								    """
 								    return len(set(iterable)) in (0, 1)
 								def run(n: int) -> list:
 								    """
 								    Runs core process to find problem solution.
 								    >>> run(3)
 								    [644, 645, 646]
 								    """
 								    # Incrementor variable for our group list comprehension.
 								    # This serves as the first number in each list of values
 								    # to test.
 								    base = 2
 								    while True:
 								        # Increment each value of a generated range
 								        group = [base + i for i in range(n)]
 								        # Run elements through out unique_prime_factors function
 								        # Append our target number to the end.
 								        checker = [upf_len(x) for x in group]
 								        checker.append(n)
 								        # If all numbers in the list are equal, return the group variable.
 								        if equality(checker):
 								            return group
 								        # Increment our base variable by 1
 								        base += 1
 								def solution(n: int = 4) -> int:
 								    """Return the first value of the first four consecutive integers to have four
 								    distinct prime factors each.
 								    >>> solution()
 
 								    """
 								    results = run(n)
 								    return results[0] if len(results) else None
 								if __name__ == "__main__":
 								    print(solution())