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|
//! 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(super) bindings: Bindings,
/// We currently just keep the first error and count the rest to compare matches.
pub(super) err: Option<ExpandError>,
pub(super) err_count: usize,
/// How many top-level token trees were left to match.
pub(super) unmatched_tts: usize,
}
impl Match {
pub(super) 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<Match, ExpandError> {
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<tt::TokenTree, ()> {
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<tt::TokenTree, ()> {
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<Option<tt::TokenTree>> {
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<tt::TokenTree> {
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<Separator>,
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<Option<Fragment>> {
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<SmolStr>, 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(())
}
|
