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Day 19 part 1.

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Johannes
2023-11-12 21:25:31 +01:00
parent 42ead11aa0
commit 2792304040
4 changed files with 241 additions and 1 deletions
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37
input/day19.txt Normal file
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@@ -0,0 +1,37 @@
#ip 4
addi 4 16 4
seti 1 9 5
seti 1 5 2
mulr 5 2 1
eqrr 1 3 1
addr 1 4 4
addi 4 1 4
addr 5 0 0
addi 2 1 2
gtrr 2 3 1
addr 4 1 4
seti 2 6 4
addi 5 1 5
gtrr 5 3 1
addr 1 4 4
seti 1 2 4
mulr 4 4 4
addi 3 2 3
mulr 3 3 3
mulr 4 3 3
muli 3 11 3
addi 1 5 1
mulr 1 4 1
addi 1 2 1
addr 3 1 3
addr 4 0 4
seti 0 2 4
setr 4 8 1
mulr 1 4 1
addr 4 1 1
mulr 4 1 1
muli 1 14 1
mulr 1 4 1
addr 3 1 3
seti 0 0 0
seti 0 2 4

2
src/main.rs
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@@ -1,3 +1,3 @@
fn main() {
aoc_2018::tasks::day16::task2();
aoc_2018::tasks::day19::task1();
}

202
src/tasks/day19.rs Normal file
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@@ -0,0 +1,202 @@
use std::ops::{BitAnd, BitOr};
pub fn task1() {
let input = include_str!("../../input/day19.txt");
let result = run1(input);
println!("Day 19 part 1: {result}");
}
fn run1(input: &str) -> i32 {
let (config, program) = input.split_once("\n").unwrap();
let ip_register: usize = config.split_once(" ").unwrap().1.parse().unwrap();
let program: Vec<Instruction> = program.lines().map(parse_instruction).collect();
let mut registers: Registers = [0i32; 6];
let mut ip = 0;
loop {
//print!("ip={ip}, {registers:?}");
registers[ip_register] = ip as i32;
let instruction = program.get(ip).unwrap();
//print!("{instruction:?}");
let op: Op = instruction.opcode;
registers = op.process(registers, *instruction);
//println!("{registers:?}");
ip = registers[ip_register] as usize;
ip += 1;
if program.get(ip).is_none() {
break;
}
}
registers[0]
}
fn parse_instruction(instruction: &str) -> Instruction {
let instruction: Vec<_> = instruction.split(" ").collect();
let opcode = match instruction[0] {
"addr" => Op::AddR,
"addi" => Op::AddI,
"mulr" => Op::MulR,
"muli" => Op::MulI,
"banr" => Op::BanR,
"bani" => Op::BanI,
"borr" => Op::BorR,
"bori" => Op::BorI,
"setr" => Op::SetR,
"seti" => Op::SetI,
"gtir" => Op::GtIR,
"gtri" => Op::GtRI,
"gtrr" => Op::GtRR,
"eqir" => Op::EqIR,
"eqri" => Op::EqRI,
"eqrr" => Op::EqRR,
&_ => {
panic!("unknown op {}", instruction[0])
}
};
let instruction = Instruction {
opcode,
a: instruction[1].parse().unwrap(),
b: instruction[2].parse().unwrap(),
c: instruction[3].parse().unwrap(),
};
instruction
}
#[derive(Copy, Clone, Debug, Hash, Eq, PartialEq)]
enum Op {
AddR,
AddI,
MulR,
MulI,
BanR,
BanI,
BorR,
BorI,
SetR,
SetI,
GtIR,
GtRI,
GtRR,
EqIR,
EqRI,
EqRR,
}
impl Op {
fn process(&self, registers: Registers, instruction: Instruction) -> Registers {
let mut result = registers.clone();
match self {
Op::AddR => {
result[instruction.c] = result[instruction.a] + result[instruction.b];
}
Op::AddI => {
result[instruction.c] = result[instruction.a] + instruction.b as i32;
}
Op::MulR => {
result[instruction.c] = result[instruction.a] * result[instruction.b];
}
Op::MulI => {
result[instruction.c] = result[instruction.a] * instruction.b as i32;
}
Op::BanR => {
result[instruction.c] = result[instruction.a].bitand(result[instruction.b]);
}
Op::BanI => {
result[instruction.c] = result[instruction.a].bitand(instruction.b as i32);
}
Op::BorR => {
result[instruction.c] = result[instruction.a].bitor(result[instruction.b]);
}
Op::BorI => {
result[instruction.c] = result[instruction.a].bitor(instruction.b as i32);
}
Op::SetR => {
result[instruction.c] = result[instruction.a];
}
Op::SetI => {
result[instruction.c] = instruction.a as i32;
}
Op::GtIR => {
result[instruction.c] = if instruction.a as i32 > result[instruction.b] {
1
} else {
0
}
}
Op::GtRI => {
result[instruction.c] = if result[instruction.a] > instruction.b as i32 {
1
} else {
0
}
}
Op::GtRR => {
result[instruction.c] = if result[instruction.a] > result[instruction.b] {
1
} else {
0
}
}
Op::EqIR => {
result[instruction.c] = if instruction.a as i32 == result[instruction.b] {
1
} else {
0
}
}
Op::EqRI => {
result[instruction.c] = if result[instruction.a] == instruction.b as i32 {
1
} else {
0
}
}
Op::EqRR => {
result[instruction.c] = if result[instruction.a] == result[instruction.b] {
1
} else {
0
}
}
}
result
}
}
type Registers = [i32; 6];
#[derive(Copy, Clone, Debug)]
struct Instruction {
opcode: Op,
a: usize,
b: usize,
c: usize,
}
#[cfg(test)]
mod test {
use crate::tasks::day19::run1;
#[test]
fn example1() {
let input = "#ip 0\n\
seti 5 0 1\n\
seti 6 0 2\n\
addi 0 1 0\n\
addr 1 2 3\n\
setr 1 0 0\n\
seti 8 0 4\n\
seti 9 0 5";
assert_eq!(run1(input), 6);
}
}

1
src/tasks/mod.rs
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@@ -16,6 +16,7 @@ pub mod day15;
pub mod day16;
pub mod day17;
pub mod day18;
pub mod day19;
pub mod day20;
pub mod day22;
pub mod day23;