www.mikescher.com/www/statics/aoc/2020/19_solution.rs

use std::collections::HashMap;

use crate::common::AdventOfCodeDay;
use regex::Regex;

pub struct Day19 {
    rules: HashMap<u32, Rule>,
    input: Vec<String>,
}

#[derive(Debug, Clone)]
enum Rule {
    RuleExpand(Vec<u32>),
    RuleSplit(Vec<u32>, Vec<u32>),
    RuleLiteral(char),
}

impl Day19 {
    pub fn new() -> Self {
        let input_bytes = include_bytes!("../res/19_input.txt");
        let input_str = String::from_utf8_lossy(input_bytes);

        let rex_lines = Regex::new(r"(\r?\n){2}").unwrap();
        let split = rex_lines.split(&input_str).collect::<Vec<&str>>();

        Self {
            rules: split[0].lines().map(|p| Day19::parse_rule(String::from(p))).collect(),
            input: split[1].lines().map(|p| String::from(p)).collect(),
        }
    }
}

impl Day19 {
    fn parse_rule(input: String) -> (u32, Rule) {
        lazy_static! {
            static ref REX_EXPAND: Regex = Regex::new(r#"^(?P<id>[0-9]+):(?P<exp>( [0-9]+)+)$"#).unwrap();
            static ref REX_SPLIT: Regex  = Regex::new(r#"^(?P<id>[0-9]+):(?P<exp1>( [0-9]+)+) \|(?P<exp2>( [0-9]+)+)$"#).unwrap();
            static ref REX_LITERAL: Regex  = Regex::new(r#"^(?P<id>[0-9]+): "(?P<chr>[a-z])"$"#).unwrap();
        }

        if let Some(cap) = REX_EXPAND.captures(&input) {
            let id = cap.name("id").unwrap().as_str().parse::<u32>().unwrap();
            let exp = cap.name("exp").unwrap().as_str().trim().split(' ').map(|p| p.parse::<u32>().unwrap()).collect::<Vec<u32>>();

            return (id, Rule::RuleExpand(exp));
        }

        if let Some(cap) = REX_SPLIT.captures(&input) {
            let id = cap.name("id").unwrap().as_str().parse::<u32>().unwrap();
            let exp1 = cap.name("exp1").unwrap().as_str().trim().split(' ').map(|p| p.parse::<u32>().unwrap()).collect::<Vec<u32>>();
            let exp2 = cap.name("exp2").unwrap().as_str().trim().split(' ').map(|p| p.parse::<u32>().unwrap()).collect::<Vec<u32>>();

            return (id, Rule::RuleSplit(exp1, exp2));
        }

        if let Some(cap) = REX_LITERAL.captures(&input) {
            let id = cap.name("id").unwrap().as_str().parse::<u32>().unwrap();
            let chr = cap.name("chr").unwrap().as_str().chars().nth(0).unwrap();

            return (id, Rule::RuleLiteral(chr));
        }

        panic!();
    }

    fn check_rule(rules: &HashMap<u32, Rule>, str: Vec<char>, exp: Vec<u32>) -> bool {

        if str.len() == 0 && exp.len() == 0 { return true; }
        
        if str.len() == 0 || exp.len() == 0 { return false; }

        let r = rules.get(&exp[0]).unwrap();

        match r {
            Rule::RuleLiteral(rchr) => {
                if *rchr != str[0] { return false; }
                let str_sub = str.iter().skip(1).map(|p| *p).collect::<Vec<char>>();
                let exp_sub = exp.iter().skip(1).map(|p| *p).collect::<Vec<u32>>();
                return Self::check_rule(rules, str_sub, exp_sub);
            }

            Rule::RuleExpand(rexp) => {
                let str_sub = str.clone();
                let mut exp_sub = rexp.clone();
                exp_sub.extend(exp.iter().skip(1).map(|p| *p));
                return Self::check_rule(rules, str_sub, exp_sub);
            }

            Rule::RuleSplit(rexp1, rexp2) => {
                let str_sub1 = str.clone();
                let mut exp_sub1 = rexp1.clone();
                exp_sub1.extend(exp.iter().skip(1).map(|p| *p));
                if Self::check_rule(rules, str_sub1, exp_sub1) { return true; }
                
                let str_sub2 = str.clone();
                let mut exp_sub2 = rexp2.clone();
                exp_sub2.extend(exp.iter().skip(1).map(|p| *p));
                if Self::check_rule(rules, str_sub2, exp_sub2) { return true; }

                return false;
            }
        }
    }
}

impl AdventOfCodeDay for Day19 {

    fn task_1(&self) -> String {

        return self.input.iter().filter(|v| Day19::check_rule(&self.rules, v.chars().collect(), vec![0]) ).count().to_string();

    }

    fn task_2(&self) -> String  {

        let mut rules = self.rules.clone();

        rules.insert(8, Rule::RuleSplit(vec![42], vec![42, 8]));
        rules.insert(11, Rule::RuleSplit(vec![42, 31], vec![42, 11, 31]));

        return self.input.iter().filter(|v| Day19::check_rule(&rules, v.chars().collect(), vec![0]) ).count().to_string();

    }
}
Added AOC 2020 day 16 - 20 2020-12-21 06:12:13 +01:00			`use std::collections::HashMap;`

			`use crate::common::AdventOfCodeDay;`
			`use regex::Regex;`

			`pub struct Day19 {`
			`rules: HashMap<u32, Rule>,`
			`input: Vec<String>,`
			`}`

			`#[derive(Debug, Clone)]`
			`enum Rule {`
			`RuleExpand(Vec<u32>),`
			`RuleSplit(Vec<u32>, Vec<u32>),`
			`RuleLiteral(char),`
			`}`

			`impl Day19 {`
			`pub fn new() -> Self {`
			`let input_bytes = include_bytes!("../res/19_input.txt");`
			`let input_str = String::from_utf8_lossy(input_bytes);`

			`let rex_lines = Regex::new(r"(\r?\n){2}").unwrap();`
			`let split = rex_lines.split(&input_str).collect::<Vec<&str>>();`

			`Self {`
			`rules: split[0].lines().map(\|p\| Day19::parse_rule(String::from(p))).collect(),`
			`input: split[1].lines().map(\|p\| String::from(p)).collect(),`
			`}`
			`}`
			`}`

			`impl Day19 {`
			`fn parse_rule(input: String) -> (u32, Rule) {`
			`lazy_static! {`
			`static ref REX_EXPAND: Regex = Regex::new(r#"^(?P<id>[0-9]+):(?P<exp>( [0-9]+)+)$"#).unwrap();`
			`static ref REX_SPLIT: Regex = Regex::new(r#"^(?P<id>[0-9]+):(?P<exp1>( [0-9]+)+) \\|(?P<exp2>( [0-9]+)+)$"#).unwrap();`
			`static ref REX_LITERAL: Regex = Regex::new(r#"^(?P<id>[0-9]+): "(?P<chr>[a-z])"$"#).unwrap();`
			`}`

			`if let Some(cap) = REX_EXPAND.captures(&input) {`
			`let id = cap.name("id").unwrap().as_str().parse::<u32>().unwrap();`
			`let exp = cap.name("exp").unwrap().as_str().trim().split(' ').map(\|p\| p.parse::<u32>().unwrap()).collect::<Vec<u32>>();`

			`return (id, Rule::RuleExpand(exp));`
			`}`

			`if let Some(cap) = REX_SPLIT.captures(&input) {`
			`let id = cap.name("id").unwrap().as_str().parse::<u32>().unwrap();`
			`let exp1 = cap.name("exp1").unwrap().as_str().trim().split(' ').map(\|p\| p.parse::<u32>().unwrap()).collect::<Vec<u32>>();`
			`let exp2 = cap.name("exp2").unwrap().as_str().trim().split(' ').map(\|p\| p.parse::<u32>().unwrap()).collect::<Vec<u32>>();`

			`return (id, Rule::RuleSplit(exp1, exp2));`
			`}`

			`if let Some(cap) = REX_LITERAL.captures(&input) {`
			`let id = cap.name("id").unwrap().as_str().parse::<u32>().unwrap();`
			`let chr = cap.name("chr").unwrap().as_str().chars().nth(0).unwrap();`

			`return (id, Rule::RuleLiteral(chr));`
			`}`

			`panic!();`
			`}`

			`fn check_rule(rules: &HashMap<u32, Rule>, str: Vec<char>, exp: Vec<u32>) -> bool {`

			`if str.len() == 0 && exp.len() == 0 { return true; }`

			`if str.len() == 0 \|\| exp.len() == 0 { return false; }`

			`let r = rules.get(&exp[0]).unwrap();`

			`match r {`
			`Rule::RuleLiteral(rchr) => {`
			`if *rchr != str[0] { return false; }`
			`let str_sub = str.iter().skip(1).map(\|p\| *p).collect::<Vec<char>>();`
			`let exp_sub = exp.iter().skip(1).map(\|p\| *p).collect::<Vec<u32>>();`
			`return Self::check_rule(rules, str_sub, exp_sub);`
			`}`

			`Rule::RuleExpand(rexp) => {`
			`let str_sub = str.clone();`
			`let mut exp_sub = rexp.clone();`
			`exp_sub.extend(exp.iter().skip(1).map(\|p\| *p));`
			`return Self::check_rule(rules, str_sub, exp_sub);`
			`}`

			`Rule::RuleSplit(rexp1, rexp2) => {`
			`let str_sub1 = str.clone();`
			`let mut exp_sub1 = rexp1.clone();`
			`exp_sub1.extend(exp.iter().skip(1).map(\|p\| *p));`
			`if Self::check_rule(rules, str_sub1, exp_sub1) { return true; }`

			`let str_sub2 = str.clone();`
			`let mut exp_sub2 = rexp2.clone();`
			`exp_sub2.extend(exp.iter().skip(1).map(\|p\| *p));`
			`if Self::check_rule(rules, str_sub2, exp_sub2) { return true; }`

			`return false;`
			`}`
			`}`
			`}`
			`}`

			`impl AdventOfCodeDay for Day19 {`

			`fn task_1(&self) -> String {`

			`return self.input.iter().filter(\|v\| Day19::check_rule(&self.rules, v.chars().collect(), vec![0]) ).count().to_string();`

			`}`

			`fn task_2(&self) -> String {`

			`let mut rules = self.rules.clone();`

			`rules.insert(8, Rule::RuleSplit(vec![42], vec![42, 8]));`
			`rules.insert(11, Rule::RuleSplit(vec![42, 31], vec![42, 11, 31]));`

			`return self.input.iter().filter(\|v\| Day19::check_rule(&rules, v.chars().collect(), vec![0]) ).count().to_string();`

			`}`
			`}`