# typed: strict require "stringio" require "sorbet-runtime" AnyIO = T.type_alias { T.any(IO, StringIO) } Memory = T.type_alias { T::Array[T.nilable(Integer)] } class Mode < T::Enum enums do Position = new Immediate = new Relative = new end extend T::Sig sig {params(value: String).returns(Mode)} def self.from(value) case value when ?0 then Mode::Position when ?1 then Mode::Immediate when ?2 then Mode::Relative else fail "unexpected mode: #{value}" end end end OPCODES = T.let({ 1 => ->(x, _, _, a, b, c) { x[c] = x[a] + x[b] }, # add 2 => ->(x, _, _, a, b, c) { x[c] = x[a] * x[b] }, # multiply 3 => ->(x, i, _, a) { x[a] = i.gets.to_i }, # input 4 => ->(x, _, o, a) { o.puts(x[a]) }, # output 5 => ->(x, _, _, a, b) { x.pc = x[b] if x[a].nonzero? }, # jump-if-true 6 => ->(x, _, _, a, b) { x.pc = x[b] if x[a].zero? }, # jump-if-false 7 => ->(x, _, _, a, b, c) { x[c] = (x[a] < x[b]) ? 1 : 0 }, # less than 8 => ->(x, _, _, a, b, c) { x[c] = (x[a] == x[b]) ? 1 : 0 }, # equals 9 => ->(x, _, _, a) { x.rb += x[a] }, # adjust relative base 99 => ->(*) { throw :halt }, # halt }, T::Hash[Integer, T.untyped]) class Parameter extend T::Sig sig {params(value: T.any(Parameter, Integer)).returns(Parameter)} def self.from(value) case value when Parameter then value when Integer then new(Mode::Position, value) else T.absurd(value) end end sig {returns(Mode)} attr_reader :mode sig {returns(Integer)} attr_reader :value sig {params(mode: Mode, value: Integer).void} def initialize(mode, value) @mode = T.let(mode, Mode) @value = T.let(value, Integer) end end class Computer extend T::Sig sig {params(input: String).returns(Computer)} def self.from(input) new(input.split(?,).map(&:to_i)) end sig {returns(Integer)} attr_accessor :pc, :rb sig {params(program: Memory).void} def initialize(program) @memory = T.let(program.dup, Memory) @pc = T.let(0, Integer) @rb = T.let(0, Integer) end sig {params(input: T.untyped, output: AnyIO).returns(Memory)} def run(input=STDIN, output=STDOUT) each(input, output).inject(nil) {|_,i| i } end sig { params( input: T.untyped, output: AnyIO, blk: T.nilable(T.proc.params(m: Memory).returns(T.nilable(Integer))) ).returns(T::Enumerator[Memory]) } def each(input, output, &blk) return enum_for(T.must(__method__), input, output) unless block_given? catch(:halt) do loop do instruction = @memory[pc].to_s.rjust(5, ?0) opcode = OPCODES.fetch(instruction[-2..-1].to_i) self.pc += 1 n = opcode.arity - 3 # subtract the computer, input, and output params args = (0...n).map {|i| mode = Mode.from(T.must(instruction[2-i])) value = @memory[pc + i] || 0 Parameter.new(mode, value) } self.pc += n opcode.call(self, input, output, *args) yield @memory end end # Satisfy sorbet: # https://sorbet-ruby.slack.com/archives/CHN2L03NH/p1575648549254600 Enumerator.new {} end sig {params(parameter: Parameter).returns(Integer)} def [](parameter) parameter = Parameter.from(parameter) mode = parameter.mode case mode when Mode::Position then @memory[parameter.value] || 0 when Mode::Immediate then parameter.value when Mode::Relative then @memory[rb + parameter.value] || 0 else T.absurd(mode) end end alias_method :fetch, :[] sig {params(parameter: Parameter, value: Integer).void} def []=(parameter, value) mode = parameter.mode case mode when Mode::Position then @memory[parameter.value] = value when Mode::Immediate then raise "writes should never be in immediate mode" when Mode::Relative then @memory[rb + parameter.value] = value else T.absurd(mode) end end end if __FILE__ == $0 Computer.from(T.cast(ARGF, IO).read || "").run end