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use std::collections::HashMap;
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use errors::*;
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pub fn solve(input: &str) -> Result<String> {
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Ok("".into())
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}
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// The assembunny code you've extracted operates on four registers (a, b, c, and d) that start at 0
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// and can hold any integer. However, it seems to make use of only a few instructions:
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#[derive(Clone, Copy, Debug, Hash, Eq, PartialEq)]
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enum Register {
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A,
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B,
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C,
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D,
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}
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#[derive(Clone, Copy)]
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enum Variable {
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Register(Register),
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Value(isize),
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}
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impl From<Register> for Variable {
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fn from(r: Register) -> Self {
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Variable::Register(r)
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}
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}
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impl From<isize> for Variable {
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fn from(i: isize) -> Self {
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Variable::Value(i)
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}
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}
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#[derive(Debug, PartialEq)]
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struct State {
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pc: usize,
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registers: HashMap<Register, isize>,
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}
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impl State {
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fn value(&self, v: Variable) -> isize {
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match v {
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Variable::Register(ref r) => {
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self.registers.get(r).cloned().unwrap_or(0 as isize)
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}
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Variable::Value(value) => value,
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}
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}
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}
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// cpy x y copies x (either an integer or the value of a register) into register y.
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struct Copy {
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variable: Variable,
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register: Register,
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}
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impl Copy {
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fn run(&self, state: &State) -> State {
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let pc = state.pc + 1;
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let mut registers = state.registers.clone();
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let value = state.value(self.variable);
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registers.insert(self.register, value);
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State {
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pc: pc,
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registers: registers,
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}
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}
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}
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// inc x increases the value of register x by one.
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struct Increment {
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register: Register,
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}
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impl Increment {
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fn run(&self, state: &State) -> State {
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let pc = state.pc + 1;
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let mut registers = state.registers.clone();
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let value = state.value(self.register.into()) + 1;
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registers.insert(self.register, value);
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State {
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pc: pc,
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registers: registers,
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}
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}
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}
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// dec x decreases the value of register x by one.
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// jnz x y jumps to an instruction y away (positive means forward; negative means backward), but only if x is not zero.
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#[cfg(test)]
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mod tests {
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use super::{Variable, Register, State, Copy, Increment};
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#[test]
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fn test_state_value() {
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let state = State {
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pc: 0,
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registers: vec![(Register::A, 41)].into_iter().collect(),
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};
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assert_eq!(state.value(Register::A.into()), 41);
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assert_eq!(state.value(Register::B.into()), 0);
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assert_eq!(state.value(23.into()), 23);
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}
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#[test]
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fn test_copy() {
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let variable = Variable::Value(41);
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let register = Register::A;
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let copy = Copy {
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variable: variable,
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register: register,
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};
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let state = State {
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pc: 0,
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registers: vec![].into_iter().collect(),
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};
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let expected = State {
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pc: 1,
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registers: vec![(Register::A, 41)].into_iter().collect(),
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};
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assert_eq!(copy.run(&state), expected);
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}
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#[test]
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fn test_increment() {
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let increment = Increment { register: Register::A };
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let state = State {
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pc: 0,
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registers: vec![(Register::A, 41)].into_iter().collect(),
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};
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let expected = State {
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pc: 1,
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registers: vec![(Register::A, 42)].into_iter().collect(),
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};
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assert_eq!(increment.run(&state), expected);
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}
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}
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