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Find prime numbers using Sieve of Atkin on Elixir
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| defmodule SieveOfAtkin do | |
| def run(limit) do | |
| sieve_range = 1..limit |> Enum.to_list() | |
| sieve = 1..limit |> Enum.into(%{}, fn i -> {i + 1, false} end) | |
| sieve = maybe_add_2_or_3(limit, sieve) | |
| iterate_x(sieve_range, limit, sieve, sieve_range) | |
| |> is_perfect_square(5, limit) | |
| |> Enum.filter(fn {_i, value} -> value end) | |
| |> Enum.count() | |
| # |> Enum.map(fn {i, _value} -> i end) | |
| # |> Enum.sort() | |
| end | |
| defp iterate_x([x | _tail], limit, sieve, _sieve_range) when x * x >= limit, do: sieve | |
| defp iterate_x([], _limit, sieve, _sieve_range), do: sieve | |
| defp iterate_x([x | tail], limit, sieve, sieve_range) do | |
| iterate_y(sieve, x, tail, sieve_range, limit, sieve_range) | |
| end | |
| defp iterate_y(sieve, _x, tail_x, [], limit, sieve_range), | |
| do: iterate_x(tail_x, limit, sieve, sieve_range) | |
| defp iterate_y(sieve, _x, tail_x, [y | _tail], limit, sieve_range) when y * y >= limit, | |
| do: iterate_x(tail_x, limit, sieve, sieve_range) | |
| defp iterate_y(sieve, x, tail_x, [y | tail], limit, sieve_range) do | |
| condition1(sieve, x, y, limit) | |
| |> condition2(x, y, limit) | |
| |> condition3(x, y, limit) | |
| |> iterate_y(x, tail_x, tail, limit, sieve_range) | |
| end | |
| defp condition1(sieve, x, y, limit) do | |
| # 4x² + y² = n | |
| n = 4 * x * x + y * y | |
| if(n <= limit and rem(n, 12) in [1, 5]) do | |
| update_sieve(sieve, n) | |
| else | |
| sieve | |
| end | |
| end | |
| defp condition2(sieve, x, y, limit) do | |
| # 3x² + y² | |
| n = 3 * x * x + y * y | |
| if(n <= limit and rem(n, 12) == 7) do | |
| if x == 5 and y == 10 do | |
| end | |
| update_sieve(sieve, n) | |
| else | |
| sieve | |
| end | |
| end | |
| defp condition3(sieve, x, y, limit) do | |
| # 3x² - y² | |
| n = 3 * x * x - y * y | |
| if(x > y and n <= limit and rem(n, 12) == 11) do | |
| update_sieve(sieve, n) | |
| else | |
| sieve | |
| end | |
| end | |
| defp update_sieve(sieve, n) do | |
| # Invert the current value | |
| Map.update(sieve, n, false, &(!&1)) | |
| end | |
| defp is_perfect_square(sieve, r, limit) when r * r <= limit do | |
| case sieve do | |
| %{^r => true} -> | |
| sieve = | |
| Stream.unfold(r * r, fn x -> | |
| if x <= limit, do: {x, x + r} | |
| end) | |
| |> Enum.reduce(sieve, fn i, sieve -> | |
| Map.put(sieve, i, false) | |
| end) | |
| is_perfect_square(sieve, r + 1, limit) | |
| _ -> | |
| is_perfect_square(sieve, r + 1, limit) | |
| end | |
| end | |
| defp is_perfect_square(sieve, _r, _limit), do: sieve | |
| defp maybe_add_2_or_3(limit, sieve) when limit >= 3 do | |
| update_sieve(sieve, 2) | |
| |> update_sieve(3) | |
| end | |
| defp maybe_add_2_or_3(limit, sieve) when limit == 2, do: update_sieve(sieve, 2) | |
| defp maybe_add_2_or_3(_limit, sieve), do: sieve | |
| end |
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