2024 Day 17 Part 1 + not working Part 2
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2024/day17.exs
Executable file
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2024/day17.exs
Executable file
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#!/usr/bin/env elixir
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defmodule Day17 do
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defmodule Computer do
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defstruct a: 0, b: 0, c: 0, output: [], program: []
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end
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def part1(computer) do
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process(computer.program, computer)
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|> Map.fetch!(:output)
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|> Enum.reverse()
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|> Enum.join(",")
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end
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def process([], computer), do: computer
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# adv div(A, 2^ combo operand) -> A
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def process([0, operand | program], computer) do
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value = div(computer.a, 2 ** combo(operand, computer))
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computer = %Computer{computer | a: value}
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process(program, computer)
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end
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# bxl B XOR literal operand -> B
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def process([1, operand | program], computer) do
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value = Bitwise.bxor(computer.b, operand)
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computer = %Computer{computer | b: value}
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process(program, computer)
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end
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# bst combo operand mod 8 -> B (only 3 lowest bits)
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def process([2, operand | program], computer) do
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value = rem(combo(operand, computer), 8)
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computer = %Computer{computer | b: value}
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process(program, computer)
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end
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# jnz noting if A is 0, otherwise set instruction to literal operand - don't inc by 2 if jump
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def process([3, operand | program], computer) do
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if computer.a == 0 do
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process(program, computer)
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else
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program = Enum.drop(computer.program, operand)
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process(program, computer)
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end
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end
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# bxc B XOR C -> B (ignore operand)
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def process([4, _operand | program], computer) do
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value = Bitwise.bxor(computer.b, computer.c)
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computer = %Computer{computer | b: value}
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process(program, computer)
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end
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# out combo operand mod 8 + output (CSV)
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def process([5, operand | program], computer) do
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value = rem(combo(operand, computer), 8)
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computer = %Computer{computer | output: [value | computer.output]}
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process(program, computer)
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end
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# bdv same as adv but store in B
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def process([6, operand | program], computer) do
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value = div(computer.a, 2 ** combo(operand, computer))
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computer = %Computer{computer | b: value}
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process(program, computer)
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end
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# cdv same as adv but store in C
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def process([7, operand | program], computer) do
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value = div(computer.a, 2 ** combo(operand, computer))
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computer = %Computer{computer | c: value}
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process(program, computer)
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end
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def combo(literal, _computer) when literal in [0, 1, 2, 3], do: literal
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def combo(4, computer), do: computer.a
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def combo(5, computer), do: computer.b
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def combo(6, computer), do: computer.c
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def part2(computer) do
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# TODO runs forever. Probably need to detect loops?
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search_for_self(computer)
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end
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def search_for_self(computer, a \\ 0) do
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computer = %Computer{computer | a: a}
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output = process(computer.program, computer).output |> Enum.reverse()
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if output == computer.program do
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a
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else
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search_for_self(computer, a + 1)
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end
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end
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def input do
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with [input_filename] <- System.argv(),
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{:ok, input} <- File.read(input_filename) do
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"Register A: " <> input = input
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{a, input} = Integer.parse(input)
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"\nRegister B: " <> input = input
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{b, input} = Integer.parse(input)
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"\nRegister C: " <> input = input
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{c, input} = Integer.parse(input)
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"\n\nProgram: " <> input = input
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program = input |> String.split([",", "\n"], trim: true) |> Enum.map(&String.to_integer/1)
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%Computer{a: a, b: b, c: c, program: program}
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else
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_ -> :error
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end
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end
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#######################
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# HERE BE BOILERPLATE #
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#######################
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def run do
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case input() do
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:error -> print_usage()
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input -> run_parts_with_timer(input)
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end
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end
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defp run_parts_with_timer(input) do
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run_with_timer(1, fn -> part1(input) end)
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run_with_timer(2, fn -> part2(input) end)
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end
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defp run_with_timer(part, fun) do
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{time, result} = :timer.tc(fun)
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IO.puts("Part #{part} (completed in #{format_time(time)}):\n")
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IO.puts("#{inspect(result)}\n")
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end
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defp format_time(μsec) when μsec < 1_000, do: "#{μsec}μs"
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defp format_time(μsec) when μsec < 1_000_000, do: "#{μsec / 1000}ms"
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defp format_time(μsec), do: "#{μsec / 1_000_000}s"
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defp print_usage do
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IO.puts("Usage: elixir day17.exs input_filename")
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end
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end
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Day17.run()
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