use std::str; use nom::branch::alt; use nom::bytes::complete::{tag, take_until}; use nom::character::complete::char; use nom::combinator::{complete, consumed, cut, eof, map, not, opt, peek, recognize, value}; use nom::error::{Error, ErrorKind}; use nom::multi::{fold_many0, many0, many1, separated_list0, separated_list1}; use nom::sequence::{delimited, pair, preceded, terminated, tuple}; use nom::{error_position, IResult}; use super::{ bool_lit, char_lit, identifier, keyword, num_lit, path, skip_till, split_ws_parts, str_lit, ws, Expr, State, }; #[derive(Debug, PartialEq)] pub enum Node<'a> { Lit(&'a str, &'a str, &'a str), Comment(Ws), Expr(Ws, Expr<'a>), Call(Ws, Option<&'a str>, &'a str, Vec>), LetDecl(Ws, Target<'a>), Let(Ws, Target<'a>, Expr<'a>), Cond(Vec>, Ws), Match(Ws, Expr<'a>, Vec>, Ws), Loop(Loop<'a>), Extends(&'a str), BlockDef(Ws, &'a str, Vec>, Ws), Include(Ws, &'a str), Import(Ws, &'a str, &'a str), Macro(&'a str, Macro<'a>), Raw(Ws, &'a str, &'a str, &'a str, Ws), Break(Ws), Continue(Ws), } impl<'a> Node<'a> { pub(super) fn many(i: &'a str, s: &State<'_>) -> IResult<&'a str, Vec> { many0(alt(( complete(|i| Self::content(i, s)), complete(|i| Self::comment(i, s)), complete(|i| Self::expr(i, s)), complete(|i| Self::parse(i, s)), )))(i) } fn content(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let p_start = alt(( tag(s.syntax.block_start), tag(s.syntax.comment_start), tag(s.syntax.expr_start), )); let (i, _) = not(eof)(i)?; let (i, content) = opt(recognize(skip_till(p_start)))(i)?; let (i, content) = match content { Some("") => { // {block,comment,expr}_start follows immediately. return Err(nom::Err::Error(error_position!(i, ErrorKind::TakeUntil))); } Some(content) => (i, content), None => ("", i), // there is no {block,comment,expr}_start: take everything }; Ok((i, split_ws_parts(content))) } fn parse(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( |i| s.tag_block_start(i), alt(( Self::call, Self::r#let, |i| Self::r#if(i, s), |i| Self::r#for(i, s), |i| Self::r#match(i, s), Self::extends, Self::include, Self::import, |i| Self::block(i, s), |i| Self::r#macro(i, s), |i| Self::raw(i, s), |i| Self::r#break(i, s), |i| Self::r#continue(i, s), )), cut(|i| s.tag_block_end(i)), )); let (i, (_, contents, _)) = p(i)?; Ok((i, contents)) } fn call(i: &'a str) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(keyword("call")), cut(tuple(( opt(tuple((ws(identifier), ws(tag("::"))))), ws(identifier), opt(ws(Expr::parse_arguments)), opt(Whitespace::parse), ))), )); let (i, (pws, _, (scope, name, args, nws))) = p(i)?; let scope = scope.map(|(scope, _)| scope); let args = args.unwrap_or_default(); Ok((i, Self::Call(Ws(pws, nws), scope, name, args))) } fn r#let(i: &'a str) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(alt((keyword("let"), keyword("set")))), cut(tuple(( ws(Target::parse), opt(tuple((ws(char('=')), ws(Expr::parse)))), opt(Whitespace::parse), ))), )); let (i, (pws, _, (var, val, nws))) = p(i)?; Ok(( i, if let Some((_, val)) = val { Self::Let(Ws(pws, nws), var, val) } else { Self::LetDecl(Ws(pws, nws), var) }, )) } fn r#if(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), CondTest::parse, cut(tuple(( opt(Whitespace::parse), |i| s.tag_block_end(i), cut(tuple(( |i| Node::many(i, s), many0(|i| Cond::parse(i, s)), cut(tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("endif")), opt(Whitespace::parse), ))), ))), ))), )); let (i, (pws1, cond, (nws1, _, (block, elifs, (_, pws2, _, nws2))))) = p(i)?; let mut res = vec![Cond { ws: Ws(pws1, nws1), cond: Some(cond), block, }]; res.extend(elifs); Ok((i, Self::Cond(res, Ws(pws2, nws2)))) } fn r#for(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { fn content<'a>(i: &'a str, s: &State<'_>) -> IResult<&'a str, Vec>> { s.enter_loop(); let result = Node::many(i, s); s.leave_loop(); result } let if_cond = preceded(ws(keyword("if")), cut(ws(Expr::parse))); let else_block = |i| { let mut p = preceded( ws(keyword("else")), cut(tuple(( opt(Whitespace::parse), delimited( |i| s.tag_block_end(i), |i| Self::many(i, s), |i| s.tag_block_start(i), ), opt(Whitespace::parse), ))), ); let (i, (pws, nodes, nws)) = p(i)?; Ok((i, (pws, nodes, nws))) }; let mut p = tuple(( opt(Whitespace::parse), ws(keyword("for")), cut(tuple(( ws(Target::parse), ws(keyword("in")), cut(tuple(( ws(Expr::parse), opt(if_cond), opt(Whitespace::parse), |i| s.tag_block_end(i), cut(tuple(( |i| content(i, s), cut(tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), opt(else_block), ws(keyword("endfor")), opt(Whitespace::parse), ))), ))), ))), ))), )); let (i, (pws1, _, (var, _, (iter, cond, nws1, _, (body, (_, pws2, else_block, _, nws2)))))) = p(i)?; let (nws3, else_block, pws3) = else_block.unwrap_or_default(); Ok(( i, Self::Loop(Loop { ws1: Ws(pws1, nws1), var, iter, cond, body, ws2: Ws(pws2, nws3), else_block, ws3: Ws(pws3, nws2), }), )) } fn r#match(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(keyword("match")), cut(tuple(( ws(Expr::parse), opt(Whitespace::parse), |i| s.tag_block_end(i), cut(tuple(( ws(many0(ws(value((), |i| Self::comment(i, s))))), many1(|i| When::when(i, s)), cut(tuple(( opt(|i| When::r#match(i, s)), cut(tuple(( ws(|i| s.tag_block_start(i)), opt(Whitespace::parse), ws(keyword("endmatch")), opt(Whitespace::parse), ))), ))), ))), ))), )); let (i, (pws1, _, (expr, nws1, _, (_, arms, (else_arm, (_, pws2, _, nws2)))))) = p(i)?; let mut arms = arms; if let Some(arm) = else_arm { arms.push(arm); } Ok((i, Self::Match(Ws(pws1, nws1), expr, arms, Ws(pws2, nws2)))) } fn extends(i: &'a str) -> IResult<&'a str, Self> { let (i, (_, name)) = tuple((ws(keyword("extends")), ws(str_lit)))(i)?; Ok((i, Self::Extends(name))) } fn include(i: &'a str) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(keyword("include")), cut(pair(ws(str_lit), opt(Whitespace::parse))), )); let (i, (pws, _, (name, nws))) = p(i)?; Ok((i, Self::Include(Ws(pws, nws), name))) } fn block(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut start = tuple(( opt(Whitespace::parse), ws(keyword("block")), cut(tuple((ws(identifier), opt(Whitespace::parse), |i| { s.tag_block_end(i) }))), )); let (i, (pws1, _, (name, nws1, _))) = start(i)?; let mut end = cut(tuple(( |i| Self::many(i, s), cut(tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("endblock")), cut(tuple((opt(ws(keyword(name))), opt(Whitespace::parse)))), ))), ))); let (i, (contents, (_, pws2, _, (_, nws2)))) = end(i)?; Ok(( i, Self::BlockDef(Ws(pws1, nws1), name, contents, Ws(pws2, nws2)), )) } fn import(i: &'a str) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(keyword("import")), cut(tuple(( ws(str_lit), ws(keyword("as")), cut(pair(ws(identifier), opt(Whitespace::parse))), ))), )); let (i, (pws, _, (name, _, (scope, nws)))) = p(i)?; Ok((i, Self::Import(Ws(pws, nws), name, scope))) } fn r#macro(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { fn parameters(i: &str) -> IResult<&str, Vec<&str>> { delimited( ws(char('(')), separated_list0(char(','), ws(identifier)), ws(char(')')), )(i) } let mut start = tuple(( opt(Whitespace::parse), ws(keyword("macro")), cut(tuple(( ws(identifier), opt(ws(parameters)), opt(Whitespace::parse), |i| s.tag_block_end(i), ))), )); let (i, (pws1, _, (name, params, nws1, _))) = start(i)?; let mut end = cut(tuple(( |i| Self::many(i, s), cut(tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("endmacro")), cut(tuple((opt(ws(keyword(name))), opt(Whitespace::parse)))), ))), ))); let (i, (contents, (_, pws2, _, (_, nws2)))) = end(i)?; assert_ne!(name, "super", "invalid macro name 'super'"); let params = params.unwrap_or_default(); Ok(( i, Self::Macro( name, Macro { ws1: Ws(pws1, nws1), args: params, nodes: contents, ws2: Ws(pws2, nws2), }, ), )) } fn raw(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let endraw = tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("endraw")), opt(Whitespace::parse), peek(|i| s.tag_block_end(i)), )); let mut p = tuple(( opt(Whitespace::parse), ws(keyword("raw")), cut(tuple(( opt(Whitespace::parse), |i| s.tag_block_end(i), consumed(skip_till(endraw)), ))), )); let (_, (pws1, _, (nws1, _, (contents, (i, (_, pws2, _, nws2, _)))))) = p(i)?; let (lws, val, rws) = match split_ws_parts(contents) { Node::Lit(lws, val, rws) => (lws, val, rws), _ => unreachable!(), }; let ws1 = Ws(pws1, nws1); let ws2 = Ws(pws2, nws2); Ok((i, Self::Raw(ws1, lws, val, rws, ws2))) } fn r#break(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(keyword("break")), opt(Whitespace::parse), )); let (j, (pws, _, nws)) = p(i)?; if !s.is_in_loop() { return Err(nom::Err::Failure(error_position!(i, ErrorKind::Tag))); } Ok((j, Self::Break(Ws(pws, nws)))) } fn r#continue(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( opt(Whitespace::parse), ws(keyword("continue")), opt(Whitespace::parse), )); let (j, (pws, _, nws)) = p(i)?; if !s.is_in_loop() { return Err(nom::Err::Failure(error_position!(i, ErrorKind::Tag))); } Ok((j, Self::Continue(Ws(pws, nws)))) } fn expr(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( |i| s.tag_expr_start(i), cut(tuple(( opt(Whitespace::parse), ws(Expr::parse), opt(Whitespace::parse), |i| s.tag_expr_end(i), ))), )); let (i, (_, (pws, expr, nws, _))) = p(i)?; Ok((i, Self::Expr(Ws(pws, nws), expr))) } fn comment(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { fn body<'a>(mut i: &'a str, s: &State<'_>) -> IResult<&'a str, &'a str> { let mut level = 0; loop { let (end, tail) = take_until(s.syntax.comment_end)(i)?; match take_until::<_, _, Error<_>>(s.syntax.comment_start)(i) { Ok((start, _)) if start.as_ptr() < end.as_ptr() => { level += 1; i = &start[2..]; } _ if level > 0 => { level -= 1; i = &end[2..]; } _ => return Ok((end, tail)), } } } let mut p = tuple(( |i| s.tag_comment_start(i), cut(tuple(( opt(Whitespace::parse), |i| body(i, s), |i| s.tag_comment_end(i), ))), )); let (i, (_, (pws, tail, _))) = p(i)?; let nws = if tail.ends_with('-') { Some(Whitespace::Suppress) } else if tail.ends_with('+') { Some(Whitespace::Preserve) } else if tail.ends_with('~') { Some(Whitespace::Minimize) } else { None }; Ok((i, Self::Comment(Ws(pws, nws)))) } } #[derive(Debug, PartialEq)] pub enum Target<'a> { Name(&'a str), Tuple(Vec<&'a str>, Vec>), Struct(Vec<&'a str>, Vec<(&'a str, Target<'a>)>), NumLit(&'a str), StrLit(&'a str), CharLit(&'a str), BoolLit(&'a str), Path(Vec<&'a str>), } impl<'a> Target<'a> { pub(super) fn parse(i: &'a str) -> IResult<&'a str, Self> { let mut opt_opening_paren = map(opt(ws(char('('))), |o| o.is_some()); let mut opt_closing_paren = map(opt(ws(char(')'))), |o| o.is_some()); let mut opt_opening_brace = map(opt(ws(char('{'))), |o| o.is_some()); let (i, lit) = opt(Self::lit)(i)?; if let Some(lit) = lit { return Ok((i, lit)); } // match tuples and unused parentheses let (i, target_is_tuple) = opt_opening_paren(i)?; if target_is_tuple { let (i, is_empty_tuple) = opt_closing_paren(i)?; if is_empty_tuple { return Ok((i, Self::Tuple(Vec::new(), Vec::new()))); } let (i, first_target) = Self::parse(i)?; let (i, is_unused_paren) = opt_closing_paren(i)?; if is_unused_paren { return Ok((i, first_target)); } let mut targets = vec![first_target]; let (i, _) = cut(tuple(( fold_many0( preceded(ws(char(',')), Self::parse), || (), |_, target| { targets.push(target); }, ), opt(ws(char(','))), ws(cut(char(')'))), )))(i)?; return Ok((i, Self::Tuple(Vec::new(), targets))); } // match structs let (i, path) = opt(path)(i)?; if let Some(path) = path { let i_before_matching_with = i; let (i, _) = opt(ws(keyword("with")))(i)?; let (i, is_unnamed_struct) = opt_opening_paren(i)?; if is_unnamed_struct { let (i, targets) = alt(( map(char(')'), |_| Vec::new()), terminated( cut(separated_list1(ws(char(',')), Self::parse)), pair(opt(ws(char(','))), ws(cut(char(')')))), ), ))(i)?; return Ok((i, Self::Tuple(path, targets))); } let (i, is_named_struct) = opt_opening_brace(i)?; if is_named_struct { let (i, targets) = alt(( map(char('}'), |_| Vec::new()), terminated( cut(separated_list1(ws(char(',')), Self::named)), pair(opt(ws(char(','))), ws(cut(char('}')))), ), ))(i)?; return Ok((i, Self::Struct(path, targets))); } return Ok((i_before_matching_with, Self::Path(path))); } // neither literal nor struct nor path map(identifier, Self::Name)(i) } fn lit(i: &'a str) -> IResult<&'a str, Self> { alt(( map(str_lit, Self::StrLit), map(char_lit, Self::CharLit), map(num_lit, Self::NumLit), map(bool_lit, Self::BoolLit), ))(i) } fn named(i: &'a str) -> IResult<&str, (&str, Self)> { let (i, (src, target)) = pair(identifier, opt(preceded(ws(char(':')), Self::parse)))(i)?; Ok((i, (src, target.unwrap_or(Self::Name(src))))) } } #[derive(Clone, Copy, Debug, PartialEq)] pub enum Whitespace { Preserve, Suppress, Minimize, } impl Whitespace { fn parse(i: &str) -> IResult<&str, Self> { alt((char('-'), char('+'), char('~')))(i).map(|(s, r)| (s, Self::from(r))) } } impl From for Whitespace { fn from(c: char) -> Self { match c { '+' => Self::Preserve, '-' => Self::Suppress, '~' => Self::Minimize, _ => panic!("unsupported `Whitespace` conversion"), } } } #[derive(Debug, PartialEq)] pub struct Loop<'a> { pub ws1: Ws, pub var: Target<'a>, pub iter: Expr<'a>, pub cond: Option>, pub body: Vec>, pub ws2: Ws, pub else_block: Vec>, pub ws3: Ws, } #[derive(Debug, PartialEq)] pub struct When<'a> { pub ws: Ws, pub target: Target<'a>, pub block: Vec>, } impl<'a> When<'a> { fn r#match(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("else")), cut(tuple(( opt(Whitespace::parse), |i| s.tag_block_end(i), cut(|i| Node::many(i, s)), ))), )); let (i, (_, pws, _, (nws, _, block))) = p(i)?; Ok(( i, Self { ws: Ws(pws, nws), target: Target::Name("_"), block, }, )) } #[allow(clippy::self_named_constructors)] fn when(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("when")), cut(tuple(( ws(Target::parse), opt(Whitespace::parse), |i| s.tag_block_end(i), cut(|i| Node::many(i, s)), ))), )); let (i, (_, pws, _, (target, nws, _, block))) = p(i)?; Ok(( i, Self { ws: Ws(pws, nws), target, block, }, )) } } #[derive(Debug, PartialEq)] pub struct Macro<'a> { pub ws1: Ws, pub args: Vec<&'a str>, pub nodes: Vec>, pub ws2: Ws, } /// First field is "minus/plus sign was used on the left part of the item". /// /// Second field is "minus/plus sign was used on the right part of the item". #[derive(Clone, Copy, Debug, PartialEq)] pub struct Ws(pub Option, pub Option); #[derive(Debug, PartialEq)] pub struct Cond<'a> { pub ws: Ws, pub cond: Option>, pub block: Vec>, } impl<'a> Cond<'a> { fn parse(i: &'a str, s: &State<'_>) -> IResult<&'a str, Self> { let mut p = tuple(( |i| s.tag_block_start(i), opt(Whitespace::parse), ws(keyword("else")), cut(tuple(( opt(CondTest::parse), opt(Whitespace::parse), |i| s.tag_block_end(i), cut(|i| Node::many(i, s)), ))), )); let (i, (_, pws, _, (cond, nws, _, block))) = p(i)?; Ok(( i, Self { ws: Ws(pws, nws), cond, block, }, )) } } #[derive(Debug, PartialEq)] pub struct CondTest<'a> { pub target: Option>, pub expr: Expr<'a>, } impl<'a> CondTest<'a> { fn parse(i: &'a str) -> IResult<&'a str, Self> { let mut p = preceded( ws(keyword("if")), cut(tuple(( opt(delimited( ws(alt((keyword("let"), keyword("set")))), ws(Target::parse), ws(char('=')), )), ws(Expr::parse), ))), ); let (i, (target, expr)) = p(i)?; Ok((i, Self { target, expr })) } }