require "minitest" require "minitest/pride" OPCODES = { addr: ->(a, b, c) { ->(registers) { registers[c] = registers[a] + registers[b] } }, addi: ->(a, b, c) { ->(registers) { registers[c] = registers[a] + b } }, mulr: ->(a, b, c) { ->(registers) { registers[c] = registers[a] * registers[b] } }, muli: ->(a, b, c) { ->(registers) { registers[c] = registers[a] * b } }, banr: ->(a, b, c) { ->(registers) { registers[c] = registers[a] & registers[b] } }, bani: ->(a, b, c) { ->(registers) { registers[c] = registers[a] & b } }, borr: ->(a, b, c) { ->(registers) { registers[c] = registers[a] | registers[b] } }, bori: ->(a, b, c) { ->(registers) { registers[c] = registers[a] | b } }, setr: ->(a, b, c) { ->(registers) { registers[c] = registers[a] } }, seti: ->(a, b, c) { ->(registers) { registers[c] = a } }, gtir: ->(a, b, c) { ->(registers) { registers[c] = (a > registers[b]) ? 1 : 0 } }, gtri: ->(a, b, c) { ->(registers) { registers[c] = (a > b) ? 1 : 0 } }, gtrr: ->(a, b, c) { ->(registers) { registers[c] = (registers[a] > registers[b]) ? 1 : 0 } }, eqir: ->(a, b, c) { ->(registers) { registers[c] = (a == registers[b]) ? 1 : 0 } }, eqri: ->(a, b, c) { ->(registers) { registers[c] = (a == b) ? 1 : 0 } }, eqrr: ->(a, b, c) { ->(registers) { registers[c] = (registers[a] == registers[b]) ? 1 : 0 } }, } class TestOpcodes < Minitest::Test def test_mulr registers = [3, 2, 1, 1] OPCODES[:mulr].call(2, 1, 2).call(registers) assert_equal [3, 2, 2, 1], registers end def test_addi registers = [3, 2, 1, 1] OPCODES[:addi].call(2, 1, 2).call(registers) assert_equal [3, 2, 2, 1], registers end def test_seti registers = [3, 2, 1, 1] OPCODES[:seti].call(2, 1, 2).call(registers) assert_equal [3, 2, 2, 1], registers end end def solve(input) samples = input.scan(/ Before:\s*((?~\n))\n ((?~\n))\n After:\s*((?~\n))\n /mx) samples.count {|sample| before = sample[0].scan(/\d+/).map(&:to_i) opcode = sample[1].scan(/\d+/).map(&:to_i) after = sample[2].scan(/\d+/).map(&:to_i) _, *args = opcode opcode_count = OPCODES.count {|_, instruction| registers = before.dup instruction[*args][registers] registers == after } opcode_count >= 3 } end if __FILE__ == $0 require "minitest/autorun" and exit if ENV["TEST"] puts solve(ARGF.read) end