From 2f45cfc415626cfae5cba89c88a25fb3225486f7 Mon Sep 17 00:00:00 2001 From: Aleksey Kladov Date: Thu, 13 Aug 2020 10:08:11 +0200 Subject: Rename ra_mbe -> mbe --- crates/mbe/src/mbe_expander/matcher.rs | 477 +++++++++++++++++++++++++++++ crates/mbe/src/mbe_expander/transcriber.rs | 254 +++++++++++++++ 2 files changed, 731 insertions(+) create mode 100644 crates/mbe/src/mbe_expander/matcher.rs create mode 100644 crates/mbe/src/mbe_expander/transcriber.rs (limited to 'crates/mbe/src/mbe_expander') diff --git a/crates/mbe/src/mbe_expander/matcher.rs b/crates/mbe/src/mbe_expander/matcher.rs new file mode 100644 index 000000000..b698b9832 --- /dev/null +++ b/crates/mbe/src/mbe_expander/matcher.rs @@ -0,0 +1,477 @@ +//! FIXME: write short doc here + +use crate::{ + mbe_expander::{Binding, Bindings, Fragment}, + parser::{parse_pattern, Op, RepeatKind, Separator}, + subtree_source::SubtreeTokenSource, + tt_iter::TtIter, + ExpandError, +}; + +use super::ExpandResult; +use parser::{FragmentKind::*, TreeSink}; +use syntax::{SmolStr, SyntaxKind}; +use tt::buffer::{Cursor, TokenBuffer}; + +impl Bindings { + fn push_optional(&mut self, name: &SmolStr) { + // FIXME: Do we have a better way to represent an empty token ? + // Insert an empty subtree for empty token + let tt = tt::Subtree::default().into(); + self.inner.insert(name.clone(), Binding::Fragment(Fragment::Tokens(tt))); + } + + fn push_empty(&mut self, name: &SmolStr) { + self.inner.insert(name.clone(), Binding::Empty); + } + + fn push_nested(&mut self, idx: usize, nested: Bindings) -> Result<(), ExpandError> { + for (key, value) in nested.inner { + if !self.inner.contains_key(&key) { + self.inner.insert(key.clone(), Binding::Nested(Vec::new())); + } + match self.inner.get_mut(&key) { + Some(Binding::Nested(it)) => { + // insert empty nested bindings before this one + while it.len() < idx { + it.push(Binding::Nested(vec![])); + } + it.push(value); + } + _ => { + return Err(ExpandError::BindingError(format!( + "could not find binding `{}`", + key + ))); + } + } + } + Ok(()) + } +} + +macro_rules! err { + () => { + ExpandError::BindingError(format!("")) + }; + ($($tt:tt)*) => { + ExpandError::BindingError(format!($($tt)*)) + }; +} + +#[derive(Debug, Default)] +pub(super) struct Match { + pub bindings: Bindings, + /// We currently just keep the first error and count the rest to compare matches. + pub err: Option, + pub err_count: usize, + /// How many top-level token trees were left to match. + pub unmatched_tts: usize, +} + +impl Match { + pub fn add_err(&mut self, err: ExpandError) { + let prev_err = self.err.take(); + self.err = prev_err.or(Some(err)); + self.err_count += 1; + } +} + +// General note: These functions have two channels to return errors, a `Result` +// return value and the `&mut Match`. The returned Result is for pattern parsing +// errors; if a branch of the macro definition doesn't parse, it doesn't make +// sense to try using it. Matching errors are added to the `Match`. It might +// make sense to make pattern parsing a separate step? + +pub(super) fn match_(pattern: &tt::Subtree, src: &tt::Subtree) -> Result { + assert!(pattern.delimiter == None); + + let mut res = Match::default(); + let mut src = TtIter::new(src); + + match_subtree(&mut res, pattern, &mut src)?; + + if src.len() > 0 { + res.unmatched_tts += src.len(); + res.add_err(err!("leftover tokens")); + } + + Ok(res) +} + +fn match_subtree( + res: &mut Match, + pattern: &tt::Subtree, + src: &mut TtIter, +) -> Result<(), ExpandError> { + for op in parse_pattern(pattern) { + match op? { + Op::TokenTree(tt::TokenTree::Leaf(lhs)) => { + let rhs = match src.expect_leaf() { + Ok(l) => l, + Err(()) => { + res.add_err(err!("expected leaf: `{}`", lhs)); + continue; + } + }; + match (lhs, rhs) { + ( + tt::Leaf::Punct(tt::Punct { char: lhs, .. }), + tt::Leaf::Punct(tt::Punct { char: rhs, .. }), + ) if lhs == rhs => (), + ( + tt::Leaf::Ident(tt::Ident { text: lhs, .. }), + tt::Leaf::Ident(tt::Ident { text: rhs, .. }), + ) if lhs == rhs => (), + ( + tt::Leaf::Literal(tt::Literal { text: lhs, .. }), + tt::Leaf::Literal(tt::Literal { text: rhs, .. }), + ) if lhs == rhs => (), + _ => { + res.add_err(ExpandError::UnexpectedToken); + } + } + } + Op::TokenTree(tt::TokenTree::Subtree(lhs)) => { + let rhs = match src.expect_subtree() { + Ok(s) => s, + Err(()) => { + res.add_err(err!("expected subtree")); + continue; + } + }; + if lhs.delimiter_kind() != rhs.delimiter_kind() { + res.add_err(err!("mismatched delimiter")); + continue; + } + let mut src = TtIter::new(rhs); + match_subtree(res, lhs, &mut src)?; + if src.len() > 0 { + res.add_err(err!("leftover tokens")); + } + } + Op::Var { name, kind } => { + let kind = match kind { + Some(k) => k, + None => { + res.add_err(ExpandError::UnexpectedToken); + continue; + } + }; + let ExpandResult(matched, match_err) = match_meta_var(kind.as_str(), src); + match matched { + Some(fragment) => { + res.bindings.inner.insert(name.clone(), Binding::Fragment(fragment)); + } + None if match_err.is_none() => res.bindings.push_optional(name), + _ => {} + } + if let Some(err) = match_err { + res.add_err(err); + } + } + Op::Repeat { subtree, kind, separator } => { + match_repeat(res, subtree, kind, separator, src)?; + } + } + } + Ok(()) +} + +impl<'a> TtIter<'a> { + fn eat_separator(&mut self, separator: &Separator) -> bool { + let mut fork = self.clone(); + let ok = match separator { + Separator::Ident(lhs) => match fork.expect_ident() { + Ok(rhs) => rhs.text == lhs.text, + _ => false, + }, + Separator::Literal(lhs) => match fork.expect_literal() { + Ok(rhs) => match rhs { + tt::Leaf::Literal(rhs) => rhs.text == lhs.text, + tt::Leaf::Ident(rhs) => rhs.text == lhs.text, + tt::Leaf::Punct(_) => false, + }, + _ => false, + }, + Separator::Puncts(lhss) => lhss.iter().all(|lhs| match fork.expect_punct() { + Ok(rhs) => rhs.char == lhs.char, + _ => false, + }), + }; + if ok { + *self = fork; + } + ok + } + + pub(crate) fn expect_tt(&mut self) -> Result { + match self.peek_n(0) { + Some(tt::TokenTree::Leaf(tt::Leaf::Punct(punct))) if punct.char == '\'' => { + return self.expect_lifetime(); + } + _ => (), + } + + let tt = self.next().ok_or_else(|| ())?.clone(); + let punct = match tt { + tt::TokenTree::Leaf(tt::Leaf::Punct(punct)) if punct.spacing == tt::Spacing::Joint => { + punct + } + _ => return Ok(tt), + }; + + let (second, third) = match (self.peek_n(0), self.peek_n(1)) { + ( + Some(tt::TokenTree::Leaf(tt::Leaf::Punct(p2))), + Some(tt::TokenTree::Leaf(tt::Leaf::Punct(p3))), + ) if p2.spacing == tt::Spacing::Joint => (p2.char, Some(p3.char)), + (Some(tt::TokenTree::Leaf(tt::Leaf::Punct(p2))), _) => (p2.char, None), + _ => return Ok(tt), + }; + + match (punct.char, second, third) { + ('.', '.', Some('.')) + | ('.', '.', Some('=')) + | ('<', '<', Some('=')) + | ('>', '>', Some('=')) => { + let tt2 = self.next().unwrap().clone(); + let tt3 = self.next().unwrap().clone(); + Ok(tt::Subtree { delimiter: None, token_trees: vec![tt, tt2, tt3] }.into()) + } + ('-', '=', None) + | ('-', '>', None) + | (':', ':', None) + | ('!', '=', None) + | ('.', '.', None) + | ('*', '=', None) + | ('/', '=', None) + | ('&', '&', None) + | ('&', '=', None) + | ('%', '=', None) + | ('^', '=', None) + | ('+', '=', None) + | ('<', '<', None) + | ('<', '=', None) + | ('=', '=', None) + | ('=', '>', None) + | ('>', '=', None) + | ('>', '>', None) + | ('|', '=', None) + | ('|', '|', None) => { + let tt2 = self.next().unwrap().clone(); + Ok(tt::Subtree { delimiter: None, token_trees: vec![tt, tt2] }.into()) + } + _ => Ok(tt), + } + } + + pub(crate) fn expect_lifetime(&mut self) -> Result { + let punct = self.expect_punct()?; + if punct.char != '\'' { + return Err(()); + } + let ident = self.expect_ident()?; + + Ok(tt::Subtree { + delimiter: None, + token_trees: vec![ + tt::Leaf::Punct(*punct).into(), + tt::Leaf::Ident(ident.clone()).into(), + ], + } + .into()) + } + + pub(crate) fn expect_fragment( + &mut self, + fragment_kind: parser::FragmentKind, + ) -> ExpandResult> { + pub(crate) struct OffsetTokenSink<'a> { + pub(crate) cursor: Cursor<'a>, + pub(crate) error: bool, + } + + impl<'a> TreeSink for OffsetTokenSink<'a> { + fn token(&mut self, kind: SyntaxKind, mut n_tokens: u8) { + if kind == SyntaxKind::LIFETIME { + n_tokens = 2; + } + for _ in 0..n_tokens { + self.cursor = self.cursor.bump_subtree(); + } + } + fn start_node(&mut self, _kind: SyntaxKind) {} + fn finish_node(&mut self) {} + fn error(&mut self, _error: parser::ParseError) { + self.error = true; + } + } + + let buffer = TokenBuffer::new(&self.inner.as_slice()); + let mut src = SubtreeTokenSource::new(&buffer); + let mut sink = OffsetTokenSink { cursor: buffer.begin(), error: false }; + + parser::parse_fragment(&mut src, &mut sink, fragment_kind); + + let mut err = None; + if !sink.cursor.is_root() || sink.error { + err = Some(err!("expected {:?}", fragment_kind)); + } + + let mut curr = buffer.begin(); + let mut res = vec![]; + + if sink.cursor.is_root() { + while curr != sink.cursor { + if let Some(token) = curr.token_tree() { + res.push(token); + } + curr = curr.bump(); + } + } + self.inner = self.inner.as_slice()[res.len()..].iter(); + if res.len() == 0 && err.is_none() { + err = Some(err!("no tokens consumed")); + } + let res = match res.len() { + 1 => Some(res[0].clone()), + 0 => None, + _ => Some(tt::TokenTree::Subtree(tt::Subtree { + delimiter: None, + token_trees: res.into_iter().cloned().collect(), + })), + }; + ExpandResult(res, err) + } + + pub(crate) fn eat_vis(&mut self) -> Option { + let mut fork = self.clone(); + match fork.expect_fragment(Visibility) { + ExpandResult(tt, None) => { + *self = fork; + tt + } + ExpandResult(_, Some(_)) => None, + } + } +} + +pub(super) fn match_repeat( + res: &mut Match, + pattern: &tt::Subtree, + kind: RepeatKind, + separator: Option, + src: &mut TtIter, +) -> Result<(), ExpandError> { + // Dirty hack to make macro-expansion terminate. + // This should be replaced by a propper macro-by-example implementation + let mut limit = 65536; + let mut counter = 0; + + for i in 0.. { + let mut fork = src.clone(); + + if let Some(separator) = &separator { + if i != 0 && !fork.eat_separator(separator) { + break; + } + } + + let mut nested = Match::default(); + match_subtree(&mut nested, pattern, &mut fork)?; + if nested.err.is_none() { + limit -= 1; + if limit == 0 { + log::warn!( + "match_lhs exceeded repeat pattern limit => {:#?}\n{:#?}\n{:#?}\n{:#?}", + pattern, + src, + kind, + separator + ); + break; + } + *src = fork; + + if let Err(err) = res.bindings.push_nested(counter, nested.bindings) { + res.add_err(err); + } + counter += 1; + if counter == 1 { + if let RepeatKind::ZeroOrOne = kind { + break; + } + } + } else { + break; + } + } + + match (kind, counter) { + (RepeatKind::OneOrMore, 0) => { + res.add_err(ExpandError::UnexpectedToken); + } + (_, 0) => { + // Collect all empty variables in subtrees + let mut vars = Vec::new(); + collect_vars(&mut vars, pattern)?; + for var in vars { + res.bindings.push_empty(&var) + } + } + _ => (), + } + Ok(()) +} + +fn match_meta_var(kind: &str, input: &mut TtIter) -> ExpandResult> { + let fragment = match kind { + "path" => Path, + "expr" => Expr, + "ty" => Type, + "pat" => Pattern, + "stmt" => Statement, + "block" => Block, + "meta" => MetaItem, + "item" => Item, + _ => { + let tt_result = match kind { + "ident" => input + .expect_ident() + .map(|ident| Some(tt::Leaf::from(ident.clone()).into())) + .map_err(|()| err!("expected ident")), + "tt" => input.expect_tt().map(Some).map_err(|()| err!()), + "lifetime" => input + .expect_lifetime() + .map(|tt| Some(tt)) + .map_err(|()| err!("expected lifetime")), + "literal" => input + .expect_literal() + .map(|literal| Some(tt::Leaf::from(literal.clone()).into())) + .map_err(|()| err!()), + // `vis` is optional + "vis" => match input.eat_vis() { + Some(vis) => Ok(Some(vis)), + None => Ok(None), + }, + _ => Err(ExpandError::UnexpectedToken), + }; + return tt_result.map(|it| it.map(Fragment::Tokens)).into(); + } + }; + let result = input.expect_fragment(fragment); + result.map(|tt| if kind == "expr" { tt.map(Fragment::Ast) } else { tt.map(Fragment::Tokens) }) +} + +fn collect_vars(buf: &mut Vec, pattern: &tt::Subtree) -> Result<(), ExpandError> { + for op in parse_pattern(pattern) { + match op? { + Op::Var { name, .. } => buf.push(name.clone()), + Op::TokenTree(tt::TokenTree::Leaf(_)) => (), + Op::TokenTree(tt::TokenTree::Subtree(subtree)) => collect_vars(buf, subtree)?, + Op::Repeat { subtree, .. } => collect_vars(buf, subtree)?, + } + } + Ok(()) +} diff --git a/crates/mbe/src/mbe_expander/transcriber.rs b/crates/mbe/src/mbe_expander/transcriber.rs new file mode 100644 index 000000000..c9525c5bf --- /dev/null +++ b/crates/mbe/src/mbe_expander/transcriber.rs @@ -0,0 +1,254 @@ +//! Transcriber takes a template, like `fn $ident() {}`, a set of bindings like +//! `$ident => foo`, interpolates variables in the template, to get `fn foo() {}` + +use syntax::SmolStr; + +use super::ExpandResult; +use crate::{ + mbe_expander::{Binding, Bindings, Fragment}, + parser::{parse_template, Op, RepeatKind, Separator}, + ExpandError, +}; + +impl Bindings { + fn contains(&self, name: &str) -> bool { + self.inner.contains_key(name) + } + + fn get(&self, name: &str, nesting: &mut [NestingState]) -> Result<&Fragment, ExpandError> { + let mut b = self.inner.get(name).ok_or_else(|| { + ExpandError::BindingError(format!("could not find binding `{}`", name)) + })?; + for nesting_state in nesting.iter_mut() { + nesting_state.hit = true; + b = match b { + Binding::Fragment(_) => break, + Binding::Nested(bs) => bs.get(nesting_state.idx).ok_or_else(|| { + nesting_state.at_end = true; + ExpandError::BindingError(format!("could not find nested binding `{}`", name)) + })?, + Binding::Empty => { + nesting_state.at_end = true; + return Err(ExpandError::BindingError(format!( + "could not find empty binding `{}`", + name + ))); + } + }; + } + match b { + Binding::Fragment(it) => Ok(it), + Binding::Nested(_) => Err(ExpandError::BindingError(format!( + "expected simple binding, found nested binding `{}`", + name + ))), + Binding::Empty => Err(ExpandError::BindingError(format!( + "expected simple binding, found empty binding `{}`", + name + ))), + } + } +} + +pub(super) fn transcribe(template: &tt::Subtree, bindings: &Bindings) -> ExpandResult { + assert!(template.delimiter == None); + let mut ctx = ExpandCtx { bindings: &bindings, nesting: Vec::new() }; + let mut arena: Vec = Vec::new(); + expand_subtree(&mut ctx, template, &mut arena) +} + +#[derive(Debug)] +struct NestingState { + idx: usize, + /// `hit` is currently necessary to tell `expand_repeat` if it should stop + /// because there is no variable in use by the current repetition + hit: bool, + /// `at_end` is currently necessary to tell `expand_repeat` if it should stop + /// because there is no more value avaible for the current repetition + at_end: bool, +} + +#[derive(Debug)] +struct ExpandCtx<'a> { + bindings: &'a Bindings, + nesting: Vec, +} + +fn expand_subtree( + ctx: &mut ExpandCtx, + template: &tt::Subtree, + arena: &mut Vec, +) -> ExpandResult { + // remember how many elements are in the arena now - when returning, we want to drain exactly how many elements we added. This way, the recursive uses of the arena get their own "view" of the arena, but will reuse the allocation + let start_elements = arena.len(); + let mut err = None; + for op in parse_template(template) { + let op = match op { + Ok(op) => op, + Err(e) => { + err = Some(e); + break; + } + }; + match op { + Op::TokenTree(tt @ tt::TokenTree::Leaf(..)) => arena.push(tt.clone()), + Op::TokenTree(tt::TokenTree::Subtree(tt)) => { + let ExpandResult(tt, e) = expand_subtree(ctx, tt, arena); + err = err.or(e); + arena.push(tt.into()); + } + Op::Var { name, kind: _ } => { + let ExpandResult(fragment, e) = expand_var(ctx, name); + err = err.or(e); + push_fragment(arena, fragment); + } + Op::Repeat { subtree, kind, separator } => { + let ExpandResult(fragment, e) = expand_repeat(ctx, subtree, kind, separator, arena); + err = err.or(e); + push_fragment(arena, fragment) + } + } + } + // drain the elements added in this instance of expand_subtree + let tts = arena.drain(start_elements..arena.len()).collect(); + ExpandResult(tt::Subtree { delimiter: template.delimiter, token_trees: tts }, err) +} + +fn expand_var(ctx: &mut ExpandCtx, v: &SmolStr) -> ExpandResult { + if v == "crate" { + // We simply produce identifier `$crate` here. And it will be resolved when lowering ast to Path. + let tt = + tt::Leaf::from(tt::Ident { text: "$crate".into(), id: tt::TokenId::unspecified() }) + .into(); + ExpandResult::ok(Fragment::Tokens(tt)) + } else if !ctx.bindings.contains(v) { + // Note that it is possible to have a `$var` inside a macro which is not bound. + // For example: + // ``` + // macro_rules! foo { + // ($a:ident, $b:ident, $c:tt) => { + // macro_rules! bar { + // ($bi:ident) => { + // fn $bi() -> u8 {$c} + // } + // } + // } + // ``` + // We just treat it a normal tokens + let tt = tt::Subtree { + delimiter: None, + token_trees: vec![ + tt::Leaf::from(tt::Punct { + char: '$', + spacing: tt::Spacing::Alone, + id: tt::TokenId::unspecified(), + }) + .into(), + tt::Leaf::from(tt::Ident { text: v.clone(), id: tt::TokenId::unspecified() }) + .into(), + ], + } + .into(); + ExpandResult::ok(Fragment::Tokens(tt)) + } else { + ctx.bindings.get(&v, &mut ctx.nesting).map_or_else( + |e| ExpandResult(Fragment::Tokens(tt::TokenTree::empty()), Some(e)), + |b| ExpandResult::ok(b.clone()), + ) + } +} + +fn expand_repeat( + ctx: &mut ExpandCtx, + template: &tt::Subtree, + kind: RepeatKind, + separator: Option, + arena: &mut Vec, +) -> ExpandResult { + let mut buf: Vec = Vec::new(); + ctx.nesting.push(NestingState { idx: 0, at_end: false, hit: false }); + // Dirty hack to make macro-expansion terminate. + // This should be replaced by a proper macro-by-example implementation + let limit = 65536; + let mut has_seps = 0; + let mut counter = 0; + + loop { + let ExpandResult(mut t, e) = expand_subtree(ctx, template, arena); + let nesting_state = ctx.nesting.last_mut().unwrap(); + if nesting_state.at_end || !nesting_state.hit { + break; + } + nesting_state.idx += 1; + nesting_state.hit = false; + + counter += 1; + if counter == limit { + log::warn!( + "expand_tt excced in repeat pattern exceed limit => {:#?}\n{:#?}", + template, + ctx + ); + break; + } + + if e.is_some() { + continue; + } + + t.delimiter = None; + push_subtree(&mut buf, t); + + if let Some(ref sep) = separator { + match sep { + Separator::Ident(ident) => { + has_seps = 1; + buf.push(tt::Leaf::from(ident.clone()).into()); + } + Separator::Literal(lit) => { + has_seps = 1; + buf.push(tt::Leaf::from(lit.clone()).into()); + } + + Separator::Puncts(puncts) => { + has_seps = puncts.len(); + for punct in puncts { + buf.push(tt::Leaf::from(*punct).into()); + } + } + } + } + + if RepeatKind::ZeroOrOne == kind { + break; + } + } + + ctx.nesting.pop().unwrap(); + for _ in 0..has_seps { + buf.pop(); + } + + // Check if it is a single token subtree without any delimiter + // e.g {Delimiter:None> ['>'] /Delimiter:None>} + let tt = tt::Subtree { delimiter: None, token_trees: buf }.into(); + + if RepeatKind::OneOrMore == kind && counter == 0 { + return ExpandResult(Fragment::Tokens(tt), Some(ExpandError::UnexpectedToken)); + } + ExpandResult::ok(Fragment::Tokens(tt)) +} + +fn push_fragment(buf: &mut Vec, fragment: Fragment) { + match fragment { + Fragment::Tokens(tt::TokenTree::Subtree(tt)) => push_subtree(buf, tt), + Fragment::Tokens(tt) | Fragment::Ast(tt) => buf.push(tt), + } +} + +fn push_subtree(buf: &mut Vec, tt: tt::Subtree) { + match tt.delimiter { + None => buf.extend(tt.token_trees), + _ => buf.push(tt.into()), + } +} -- cgit v1.2.3