From 2821ecdd2272213cac2fccd85d861e46a0f64648 Mon Sep 17 00:00:00 2001 From: Irene Knapp Date: Fri, 24 Dec 2021 18:16:54 -0800 Subject: 24 --- 24/src/main.rs | 420 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 24/src/main.rs.bak | 379 +++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 799 insertions(+) create mode 100644 24/src/main.rs create mode 100644 24/src/main.rs.bak (limited to '24/src') diff --git a/24/src/main.rs b/24/src/main.rs new file mode 100644 index 0000000..1500019 --- /dev/null +++ b/24/src/main.rs @@ -0,0 +1,420 @@ +use advent_lib::prelude::*; + +use std::collections::HashMap; +use std::io::Write; + +#[derive(Debug,Clone,Eq,PartialEq)] +enum Instruction { + Inp(Variable), + Add(Variable, Expression), + Mul(Variable, Expression), + Div(Variable, Expression), + Mod(Variable, Expression), + Eql(Variable, Expression), +} + +#[derive(Debug,Clone,Eq,PartialEq)] +enum Expression { + Variable(Variable), + Literal(i64), +} + +#[derive(Debug,Clone,Copy,Eq,PartialEq)] +enum Variable { + W, + X, + Y, + Z, +} + +#[derive(Debug,Clone,Eq,PartialEq)] +struct State { + w: i64, + x: i64, + y: i64, + z: i64, + program_counter: usize, + input: Vec, +} + + +fn main() -> Result<()> { + let mut args = std::env::args(); + if args.len() != 2 { + eprintln!("Usage: advent input"); + } + let _ = args.next(); + let filename = args.next().unwrap(); + + let input = advent_lib::read_lines_file(&filename)?; + + let mut program = Vec::new(); + for line in &input { + let words: Vec<&str> = line.split_whitespace().collect(); + match words[0] { + "inp" => { + let a = parse_variable(words[1]); + program.push(Instruction::Inp(a)); + }, + "add" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Add(a, b)); + }, + "mul" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Mul(a, b)); + }, + "div" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Div(a, b)); + }, + "mod" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Mod(a, b)); + }, + "eql" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Eql(a, b)); + }, + _ => panic!("not an instruction"), + } + } + + let initial_state = State { + w: 0, + x: 0, + y: 0, + z: 0, + input: Vec::new(), + program_counter: 0, + }; + + /* + run_nondeterminsitically(&initial_state, &program, false); + run_nondeterminsitically(&initial_state, &program, true); + */ + let mut state = initial_state.clone(); + //for n in vec![9, 9, 9, 9, 5, 9, 6, 9, 9, 1, 9, 3, 2, 6].iter().rev() { + //for n in vec![4, 8, 1, 1, 1, 5, 1, 4, 7, 1, 9, 1, 1, 1].iter().rev() { + for n in vec![7, 4, 8, 3, 2, 1, 9, 8, 6, 4, 5, 7, 3, 3].iter().rev() { + state.input.push(*n); + } + for stop in [18, 36, 54, 72, 90, 108, 126, 144, 162, 180, 198, 216, 234, + 252].iter() + { + run_until(&mut state, &program, *stop); + debug_state(&state); + } + + Ok(()) +} + + +fn parse_expression(word: &str) -> Expression { + match word { + "w" => Expression::Variable(Variable::W), + "x" => Expression::Variable(Variable::X), + "y" => Expression::Variable(Variable::Y), + "z" => Expression::Variable(Variable::Z), + _ => Expression::Literal(word.parse::().unwrap()), + } +} + + +fn parse_variable(word: &str) -> Variable { + match word { + "w" => Variable::W, + "x" => Variable::X, + "y" => Variable::Y, + "z" => Variable::Z, + _ => panic!("not a variable name"), + } +} + + +#[allow(dead_code)] +fn run(state: &mut State, program: &Vec) { + loop { + if is_done(state, program) { + break; + } + iterate(state, program); + } +} + + +#[allow(dead_code)] +fn run_until(state: &mut State, program: &Vec, end: usize) { + loop { + if state.program_counter == end { + break; + } + iterate(state, program); + } +} + + +fn iterate(state: &mut State, program: &Vec) { + match &program[state.program_counter] { + Instruction::Inp(a) => { + //debug_state(state); + + let result = state.input.pop().unwrap(); + set_variable(state, &a, result); + }, + Instruction::Add(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value + b_value; + set_variable(state, &a, result); + }, + Instruction::Mul(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value * b_value; + set_variable(state, &a, result); + }, + Instruction::Div(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value / b_value; + set_variable(state, &a, result); + }, + Instruction::Mod(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value % b_value; + set_variable(state, &a, result); + }, + Instruction::Eql(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = if a_value == b_value { 1 } else { 0 }; + set_variable(state, &a, result); + }, + } + + state.program_counter += 1; +} + + +fn evaluate_expression(state: &State, expression: &Expression) -> i64 { + match expression { + Expression::Variable(Variable::W) => state.w, + Expression::Variable(Variable::X) => state.x, + Expression::Variable(Variable::Y) => state.y, + Expression::Variable(Variable::Z) => state.z, + Expression::Literal(n) => *n, + } +} + + +fn evaluate_variable(state: &State, variable: &Variable) -> i64 { + match variable { + Variable::W => state.w, + Variable::X => state.x, + Variable::Y => state.y, + Variable::Z => state.z, + } +} + + +fn set_variable(state: &mut State, variable: &Variable, value: i64) { + match variable { + Variable::W => { state.w = value; }, + Variable::X => { state.x = value; }, + Variable::Y => { state.y = value; }, + Variable::Z => { state.z = value; }, + } +} + + +fn is_done(state: &State, program: &Vec) -> bool { + if state.program_counter >= program.len() { + return true; + } + + false +} + + +#[allow(dead_code)] +fn debug_input(input: &Vec) { + for digit in input.iter().rev() { + print!("{}", digit); + } + println!(""); +} + + +#[allow(dead_code)] +fn debug_state(state: &State) { + println!("line {}: {} {} {} {}", state.program_counter, state.w, + state.x, state.y, state.z); +} + + +#[allow(dead_code)] +fn run_fake(state: &mut State) { + // 0 1 2 3 4 5 6 7 8 9 10 11 12 13 + let m = vec![1, 1, 1, 26, 1, 26, 1, 26, 1, 1, 26, 26, 26, 26]; + let n = vec![10, 13, 15, -12, 14, -2, 13, -12, 15, 11, -3, -13, -12, -13]; + let o = vec![10, 5, 12, 12, 6, 4, 15, 3, 7, 11, 2, 12, 4, 11]; + for i in 0 .. 14 { + state.w = state.input.pop().unwrap(); + state.x = state.z % 26; + state.z /= m[i]; + state.x = if state.x + n[i] != state.w { 1 } else { 0 }; + state.z = state.z * (25 * state.x + 1) + (state.w + o[i]) * state.x; + } + + + /* The largest input allowed by this matrix is: 99995969919326 + * The smallest is: 48111514719111 + * + * Below is a trace of the state at the start of each iteration, when + * invoked with the largest allowed input. Note that z (the final column) + * is the only state actually passed between iterations, but for the purpose + * of reverse-engineering, the below trace shows all four registers. + * + * line 18: 9 1 19 19 + * line 36: 9 1 14 508 + * line 54: 9 1 21 13229 + * line 72: 9 0 0 508 + * line 90: 5 1 11 13219 + * line 108: 9 0 0 508 + * line 126: 6 1 21 13229 + * line 144: 9 0 0 508 + * line 162: 9 1 16 13224 + * line 180: 1 1 12 343836 + * line 198: 9 0 0 13224 + * line 216: 3 0 0 508 + * line 234: 2 0 0 19 + * line 252: 6 0 0 0 + * + * Below is a similar trace invoked with the smallest allowed input. + * + * line 18: 4 1 14 14 + * line 36: 8 1 13 377 + * line 54: 1 1 13 9815 + * line 72: 1 0 0 377 + * line 90: 1 1 7 9809 + * line 108: 5 0 0 377 + * line 126: 1 1 16 9818 + * line 144: 4 0 0 377 + * line 162: 7 1 14 9816 + * line 180: 1 1 12 255228 + * line 198: 9 0 0 9816 + * line 216: 1 0 0 377 + * line 234: 1 0 0 14 + * line 252: 1 0 0 0 + * + * Here is a trace of a disallowed input. + * + * line 18: 7 1 17 17 + * line 36: 4 1 9 451 + * line 54: 8 1 20 11746 + * line 72: 3 1 15 11741 + * line 90: 2 1 8 305274 + * line 108: 1 1 5 305271 + * line 126: 9 1 24 7937070 + * line 144: 8 1 11 7937057 + * line 162: 6 1 13 206363495 + * line 180: 4 1 15 5365450885 + * line 198: 5 1 7 5365450877 + * line 216: 7 1 19 5365450889 + * line 234: 3 1 7 5365450877 + * line 252: 3 1 14 5365450884 + * + */ +} + + +#[allow(dead_code)] +fn cmp_histories(a: &Vec, b: &Vec) -> std::cmp::Ordering { + for i in 0 .. a.len() { + if a[i] > b[i] { + return std::cmp::Ordering::Greater; + } else if b[i] > a[i] { + return std::cmp::Ordering::Less; + } + } + + std::cmp::Ordering::Equal +} + + +#[allow(dead_code)] +fn run_nondeterminsitically(initial_state: &State, program: &Vec, + seek_min: bool) +{ + let mut all_states: HashMap> = HashMap::new(); + all_states.insert(0, Vec::new()); + let mut last_program_counter = 0; + for stop in [18, 36, 54, 72, 90, 108, 126, 144, 162, 180, 198, 216, 234, + 252].iter() + { + println!("going until {} with {} states in", stop, all_states.len()); + let mut new_all_states: HashMap> = HashMap::new(); + + let mut odometer = 0; + for (z_in, history) in all_states.iter() { + odometer += 1; + if odometer % 100000 == 0 { + print!(" {}", odometer); + let _ = std::io::stdout().flush(); + } + + for w in 1 .. 10 { + let mut state = initial_state.clone(); + state.z = *z_in; + state.input.push(w); + state.program_counter = last_program_counter; + + run_until(&mut state, &program, *stop); + + let z_out = state.z; + + let mut new_history = history.clone(); + new_history.push(w); + + match new_all_states.get(&z_out) { + None => { + new_all_states.insert(z_out, new_history); + } + Some(matching_history) => { + let mut ordering = cmp_histories(&new_history, matching_history); + if seek_min { + ordering = ordering.reverse(); + } + match ordering { + std::cmp::Ordering::Less => { + let matching_history = matching_history.clone(); + new_all_states.insert(z_out, matching_history); + } + _ => { + new_all_states.insert(z_out, new_history); + } + } + } + } + } + } + println!(""); + + all_states = new_all_states; + last_program_counter = *stop; + } + + let winning_history = all_states.get(&0).unwrap(); + for n in winning_history { + print!("{}", n); + } + println!(""); +} + diff --git a/24/src/main.rs.bak b/24/src/main.rs.bak new file mode 100644 index 0000000..37bfd78 --- /dev/null +++ b/24/src/main.rs.bak @@ -0,0 +1,379 @@ +use advent_lib::prelude::*; + +#[derive(Debug,Clone,Eq,PartialEq)] +enum Instruction { + Inp(Variable), + Add(Variable, Expression), + Mul(Variable, Expression), + Div(Variable, Expression), + Mod(Variable, Expression), + Eql(Variable, Expression), +} + +#[derive(Debug,Clone,Eq,PartialEq)] +enum Expression { + Variable(Variable), + Literal(i64), +} + +#[derive(Debug,Clone,Copy,Eq,PartialEq)] +enum Variable { + W, + X, + Y, + Z, +} + +#[derive(Debug,Clone,Eq,PartialEq)] +struct State { + w: i64, + x: i64, + y: i64, + z: i64, + program_counter: usize, + input: Vec, +} + + +fn main() -> Result<()> { + let mut args = std::env::args(); + if args.len() != 2 { + eprintln!("Usage: advent input"); + } + let _ = args.next(); + let filename = args.next().unwrap(); + + let input = advent_lib::read_lines_file(&filename)?; + + let mut program = Vec::new(); + for line in &input { + let words: Vec<&str> = line.split_whitespace().collect(); + match words[0] { + "inp" => { + let a = parse_variable(words[1]); + program.push(Instruction::Inp(a)); + }, + "add" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Add(a, b)); + }, + "mul" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Mul(a, b)); + }, + "div" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Div(a, b)); + }, + "mod" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Mod(a, b)); + }, + "eql" => { + let a = parse_variable(words[1]); + let b = parse_expression(words[2]); + program.push(Instruction::Eql(a, b)); + }, + _ => panic!("not an instruction"), + } + } + + let initial_state = State { + w: 0, + x: 0, + y: 0, + z: 0, + input: Vec::new(), + program_counter: 0, + }; + + /* + for w in 1 .. 10 { + for z in 254176 .. 394784 { + //for z in 9776 .. 15185 { + let mut ws = vec![w]; + + let mut state = initial_state.clone(); + state.input = ws.clone(); + state.z = z; + //state.program_counter = 0; // start of iteration 0 + //state.program_counter = 18; // start of iteration 1 + //state.program_counter = 36; // start of iteration 2 + //state.program_counter = 54; // start of iteration 3 + //state.program_counter = 72; // start of iteration 4 + //state.program_counter = 90; // start of iteration 5 + //state.program_counter = 108; // start of iteration 6 + //state.program_counter = 126; // start of iteration 7 + //state.program_counter = 144; // start of iteration 8 + //state.program_counter = 162; // start of iteration 9 + state.program_counter = 180; // start of iteration 10 + + run_until(&mut state, &program, 198); // start of iteration 11 + if state.x == 0 + //if state.z >= 9776 && state.z <= 15184 + //&& state.z / 26 - 3 >= 1 && state.z / 26 - 3 <= 9 + { + println!("yay {} {}", state.z / 26, state.x); + let new_w = state.z / 26 - 3; + ws.push(new_w); + state.input.push(new_w); + } else { + continue; + } + + run_until(&mut state, &program, 216); // start of iteration 12 + if state.z >= 376 && state.z <= 584 + && (state.z - 350) / 26 >= 1 && (state.z - 350) / 26 <= 9 + { + let new_w = state.z / 26 - 12; + ws.push(new_w); + state.input.push(new_w); + } else { + continue; + } + + run_until(&mut state, &program, 234); // start of iteration 13 + if state.z >= 14 && state.z <= 22 { + let new_w = state.z - 13; + ws.push(new_w); + state.input.push(new_w); + } else { + continue; + } + + run(&mut state, &program); + if state.z == 0 { + println!("success! w = {:?}, z = {}", ws, z); + } + } + } + */ + + /* + let mut input = Vec::new(); + for _ in 0 .. 14 { + input.push(9); + } + input[13] = 9; + + let mut odometer = 0; + loop { + if input[0] == 3 { + let mut state = initial_state.clone(); + //state.input = input.clone(); + + run(&mut state, &program); + //run_fake(&mut state); + if state.z == 0 { + break; + } + + odometer += 1; + if odometer % 1 == 0 { + print!("iteration {} ", odometer); + debug_input(&input); + debug_state(&state); + } + } + + for i in 0 .. 14 { + input[i] -= 1; + if input[i] == 0 { + input[i] = 9; + if i == 13 { + println!("tried everything"); + break; + } + } else { + break; + } + } + } + debug_input(&input); + */ + + + let mut state = initial_state.clone(); + for w in 1 .. 10 { + run_until(&mut state, &program, 18); // start of iteration 1 + run_until(&mut state, &program, 36); // start of iteration 2 + run_until(&mut state, &program, 54); // start of iteration 3 + run_until(&mut state, &program, 72); // start of iteration 4 + run_until(&mut state, &program, 90); // start of iteration 5 + run_until(&mut state, &program, 108); // start of iteration 6 + run_until(&mut state, &program, 126); // start of iteration 7 + run_until(&mut state, &program, 144); // start of iteration 8 + run_until(&mut state, &program, 162); // start of iteration 9 + run_until(&mut state, &program, 180); // start of iteration 10 + run_until(&mut state, &program, 198); // start of iteration 11 + run_until(&mut state, &program, 216); // start of iteration 12 + run_until(&mut state, &program, 234); // start of iteration 13 + + + Ok(()) +} + + +fn parse_expression(word: &str) -> Expression { + match word { + "w" => Expression::Variable(Variable::W), + "x" => Expression::Variable(Variable::X), + "y" => Expression::Variable(Variable::Y), + "z" => Expression::Variable(Variable::Z), + _ => Expression::Literal(word.parse::().unwrap()), + } +} + + +fn parse_variable(word: &str) -> Variable { + match word { + "w" => Variable::W, + "x" => Variable::X, + "y" => Variable::Y, + "z" => Variable::Z, + _ => panic!("not a variable name"), + } +} + + +#[allow(dead_code)] +fn run(state: &mut State, program: &Vec) { + loop { + if is_done(state, program) { + break; + } + iterate(state, program); + } +} + + +#[allow(dead_code)] +fn run_until(state: &mut State, program: &Vec, end: usize) { + loop { + if state.program_counter == end { + break; + } + iterate(state, program); + } +} + + +fn iterate(state: &mut State, program: &Vec) { + match &program[state.program_counter] { + Instruction::Inp(a) => { + //debug_state(state); + + let result = state.input.pop().unwrap(); + set_variable(state, &a, result); + }, + Instruction::Add(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value + b_value; + set_variable(state, &a, result); + }, + Instruction::Mul(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value * b_value; + set_variable(state, &a, result); + }, + Instruction::Div(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value / b_value; + set_variable(state, &a, result); + }, + Instruction::Mod(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = a_value % b_value; + set_variable(state, &a, result); + }, + Instruction::Eql(a, b) => { + let a_value = evaluate_variable(state, &a); + let b_value = evaluate_expression(state, &b); + let result = if a_value == b_value { 1 } else { 0 }; + set_variable(state, &a, result); + }, + } + + state.program_counter += 1; +} + + +fn evaluate_expression(state: &State, expression: &Expression) -> i64 { + match expression { + Expression::Variable(Variable::W) => state.w, + Expression::Variable(Variable::X) => state.x, + Expression::Variable(Variable::Y) => state.y, + Expression::Variable(Variable::Z) => state.z, + Expression::Literal(n) => *n, + } +} + + +fn evaluate_variable(state: &State, variable: &Variable) -> i64 { + match variable { + Variable::W => state.w, + Variable::X => state.x, + Variable::Y => state.y, + Variable::Z => state.z, + } +} + + +fn set_variable(state: &mut State, variable: &Variable, value: i64) { + match variable { + Variable::W => { state.w = value; }, + Variable::X => { state.x = value; }, + Variable::Y => { state.y = value; }, + Variable::Z => { state.z = value; }, + } +} + + +fn is_done(state: &State, program: &Vec) -> bool { + if state.program_counter >= program.len() { + return true; + } + + false +} + + +#[allow(dead_code)] +fn debug_input(input: &Vec) { + for digit in input.iter().rev() { + print!("{}", digit); + } + println!(""); +} + + +#[allow(dead_code)] +fn debug_state(state: &State) { + println!("line {}: {} {} {} {}", state.program_counter, state.w, + state.x, state.y, state.z); +} + + +#[allow(dead_code)] +fn run_fake(state: &mut State) { + // 0 1 2 3 4 5 6 7 8 9 10 11 12 13 + let m = vec![1, 1, 1, 26, 1, 26, 1, 26, 1, 1, 26, 26, 26, 26]; + let n = vec![10, 13, 15, -12, 14, -2, 13, -12, 15, 11, -3, -13, -12, -13]; + let o = vec![10, 5, 12, 12, 6, 4, 15, 3, 7, 11, 2, 12, 4, 11]; + for i in 0 .. 14 { + state.w = state.input.pop().unwrap(); + state.x = state.z % 26; + state.z /= m[i]; + state.x = if state.x + n[i] != state.w { 1 } else { 0 }; + state.z = state.z * (25 * state.x + 1) + (state.w + o[i]) * state.x; + } +} + -- cgit 1.4.1