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#![allow(clippy::implicit_hasher, clippy::or_fun_call)]
use abnf::abnf::Rule;
pub use abnf::abnf::{
    Alternation, Concatenation, Element, Range, Repeat, Repetition,
};
use itertools::Itertools;
use pretty::{BoxDoc, Doc};
use std::collections::HashMap;

trait Pretty {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>>;
}

impl Pretty for Alternation {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        Doc::intersperse(
            self.concatenations
                .iter()
                .map(|x| x.pretty().nest(2).group()),
            Doc::space().append(Doc::text("| ")),
        )
    }
}

impl Pretty for Concatenation {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        Doc::intersperse(
            self.repetitions.iter().map(Repetition::pretty),
            Doc::space().append(Doc::text("~ ")),
        )
    }
}

impl Pretty for Repetition {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        self.element.pretty().append(
            self.repeat
                .as_ref()
                .map(Repeat::pretty)
                .unwrap_or(Doc::nil()),
        )
    }
}

impl Pretty for Repeat {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        Doc::text(match (self.min.unwrap_or(0), self.max) {
            (0, None) => "*".into(),
            (1, None) => "+".into(),
            (0, Some(1)) => "?".into(),
            (min, None) => format!("{{{},}}", min),
            (min, Some(max)) if min == max => format!("{{{}}}", min),
            (min, Some(max)) => format!("{{{},{}}}", min, max),
        })
    }
}

impl Pretty for Element {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        use abnf::abnf::Element::*;
        match self {
            Rulename(s) => Doc::text(escape_rulename(s)),
            Group(g) => Doc::text("(")
                .append((g.alternation).pretty().nest(4).group())
                .append(Doc::text(")")),
            Option(o) => Doc::text("(")
                .append((o.alternation).pretty().nest(4).group())
                .append(Doc::text(")?")),
            CharVal(s) => Doc::text(format!(
                "^\"{}\"",
                s.replace("\"", "\\\"").replace("\\", "\\\\")
            )),
            NumVal(r) => r.pretty(),
            ProseVal(_) => unimplemented!(),
        }
    }
}

impl Pretty for Range {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        use abnf::abnf::Range::*;
        Doc::text(match self {
            Range(x, y) => {
                format!("'{}'..'{}'", format_char(*x), format_char(*y))
            }
            OneOf(v) => {
                format!("\"{}\"", v.iter().map(|x| format_char(*x)).join(""))
            }
        })
    }
}

pub fn escape_rulename(x: &str) -> String {
    let x = x.replace("-", "_");
    if x == "if"
        || x == "else"
        || x == "as"
        || x == "let"
        || x == "in"
        || x == "fn"
        // TODO: remove when https://github.com/pest-parser/pest/pull/375 gets into a release
        || x == "whitespace"
    {
        x + "_"
    } else {
        x.clone()
    }
}

fn format_char(x: usize) -> String {
    if x <= usize::from(u8::max_value()) {
        let x: u8 = x as u8;
        if x.is_ascii_graphic() {
            let x: char = x as char;
            if x != '"' && x != '\'' && x != '\\' {
                return x.to_string();
            }
        }
    }
    format!("\\u{{{:02X}}}", x)
}

/// Allow control over some of the pest properties of the outputted rule
pub struct PestyRule {
    pub silent: bool,
    pub elements: Alternation,
}

impl Pretty for (String, PestyRule) {
    fn pretty(&self) -> Doc<'static, BoxDoc<'static, ()>> {
        Doc::nil()
            .append(Doc::text(self.0.clone()))
            .append(Doc::text(" = "))
            .append(Doc::text(if self.1.silent { "_" } else { "" }))
            .append(Doc::text("{"))
            .append(Doc::space().append(self.1.elements.pretty()).nest(2))
            .append(Doc::space())
            .append(Doc::text("}"))
            .group()
    }
}

/// Parse an abnf file. Returns a map of rules.
pub fn parse_abnf(
    data: &[u8],
) -> Result<HashMap<String, PestyRule>, std::io::Error> {
    let make_err =
        |e| std::io::Error::new(std::io::ErrorKind::Other, format!("{}", e));
    let rules: Vec<Rule> =
        abnf::abnf::rulelist_comp(&data).map_err(make_err)?.1;
    Ok(rules
        .into_iter()
        .map(|rule| {
            let name = escape_rulename(&rule.name);
            (
                name.clone(),
                PestyRule {
                    silent: false,
                    elements: rule.elements.clone(),
                },
            )
        })
        .collect())
}

pub fn render_rules_to_pest<I>(
    rules: I,
) -> Doc<'static, BoxDoc<'static, ()>, ()>
where
    I: IntoIterator<Item = (String, PestyRule)>,
{
    let pretty_rules = rules.into_iter().map(|x| x.pretty());
    let doc: Doc<_> = Doc::intersperse(pretty_rules, Doc::newline());
    doc
}