-module(day21).

-export([solve/1]).

solve(InputData) ->
    {eval(<<"root">>, parse_input(InputData)), none}.

parse_input(Input) -> parse_input(Input, #{}).

parse_input(<<>>, Acc) -> Acc;
parse_input(<<$\n, Rest/binary>>, Acc) -> parse_input(Rest, Acc);
parse_input(<<Name:4/bytes, $:, $\s, Left:4/bytes, $\s, Op, $\s, Right:4/bytes, Rest/binary>>, Monkeys) ->
    parse_input(Rest, Monkeys#{Name => {Op, Left, Right}});
parse_input(<<Name:4/bytes, $:, $\s, RestIn/binary>>, Monkeys) ->
    {Value, RestOut} = parse_int(RestIn),
    parse_input(RestOut, Monkeys#{Name => Value}).

eval(Name, Monkeys) ->
    #{Name := Node} = Monkeys,
    case Node of
        Value when is_integer(Value) -> Value;
        {Op, Left, Right} ->
            LeftValue = eval(Left, Monkeys),
            RightValue = eval(Right, Monkeys),
            case Op of
                $+ -> LeftValue + RightValue;
                $- -> LeftValue - RightValue;
                $/ -> LeftValue div RightValue;
                $* -> LeftValue * RightValue
            end
    end.

%% Parse Integer standard code
parse_int(<<$-, Rest/binary>>) ->
    {AbsoluteValue, Binary} = parse_int0(Rest, 0),
    {-1 * AbsoluteValue, Binary};
parse_int(Binary) ->
    parse_int0(Binary, 0).

parse_int0(<<Digit, Rest/binary>>, Acc) when Digit >= $0 andalso Digit =< $9 ->
    parse_int0(Rest, Acc*10 + Digit - $0);
parse_int0(Binary, Acc) when is_binary(Binary) -> {Acc, Binary}.