defmodule Day7 do def part1(input) do input |> Enum.frequencies() |> Enum.into(Map.new(Enum.min(input)..Enum.max(input), &{&1, 0})) |> calculate_costs() |> Enum.min() end defp calculate_costs(crabs) do for here <- Map.keys(crabs) do for {there, crabs_there} <- Map.delete(crabs, here), reduce: 0 do cost -> cost + abs(here - there) * crabs_there end end end def part2(input) do input |> Enum.frequencies() |> Enum.into(Map.new(Enum.min(input)..Enum.max(input), &{&1, 0})) |> calculate_sum_costs() |> Enum.min() end defp calculate_sum_costs(crabs) do for here <- Map.keys(crabs) do for {there, crabs_there} <- Map.delete(crabs, here), reduce: 0 do cost -> distance = abs(here - there) # Mmm maths. Can get the sum of 1..n by doing (n * n+1)/2. Guess you have to know it. sum = div(distance * (distance + 1), 2) cost + sum * crabs_there end end end def input do with [input_filename] <- System.argv(), {:ok, input} <- File.read(input_filename) do input |> String.trim() |> String.split(",") |> Enum.map(&String.to_integer/1) else _ -> :error end end ####################### # HERE BE BOILERPLATE # ####################### def run do case input() do :error -> print_usage() input -> run_parts_with_timer(input) end end defp run_parts_with_timer(input) do run_with_timer(1, fn -> part1(input) end) run_with_timer(2, fn -> part2(input) end) end defp run_with_timer(part, fun) do {time, result} = :timer.tc(fun) IO.puts("Part #{part} (completed in #{format_time(time)}):\n") IO.puts("#{result}\n") end defp format_time(μsec) when μsec < 1_000, do: "#{μsec}μs" defp format_time(μsec) when μsec < 1_000_000, do: "#{μsec / 1000}ms" defp format_time(μsec), do: "#{μsec / 1_000_000}s" defp print_usage do IO.puts("Usage: elixir day7.exs input_filename") end end Day7.run()