pub use crate::{
syntax_bridge::{
parse_exprs_with_sep, parse_to_token_tree, syntax_node_to_token_tree,
- syntax_node_to_token_tree_censored, token_tree_to_syntax_node,
+ syntax_node_to_token_tree_with_modifications, token_tree_to_syntax_node, SyntheticToken,
+ SyntheticTokenId,
},
token_map::TokenMap,
};
#[derive(Debug, PartialEq, Eq, Clone)]
pub enum ParseError {
- UnexpectedToken(String),
- Expected(String),
+ UnexpectedToken(Box<str>),
+ Expected(Box<str>),
InvalidRepeat,
RepetitionEmptyTokenTree,
}
+impl ParseError {
+ fn expected(e: &str) -> ParseError {
+ ParseError::Expected(e.into())
+ }
+
+ fn unexpected(e: &str) -> ParseError {
+ ParseError::UnexpectedToken(e.into())
+ }
+}
+
impl fmt::Display for ParseError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
#[derive(Debug, PartialEq, Eq, Clone)]
pub enum ExpandError {
+ BindingError(Box<Box<str>>),
+ LeftoverTokens,
+ ConversionError,
+ LimitExceeded,
NoMatchingRule,
UnexpectedToken,
- BindingError(String),
- ConversionError,
- // FIXME: no way mbe should know about proc macros.
- UnresolvedProcMacro,
- Other(String),
+}
+
+impl ExpandError {
+ fn binding_error(e: impl Into<Box<str>>) -> ExpandError {
+ ExpandError::BindingError(Box::new(e.into()))
+ }
}
impl fmt::Display for ExpandError {
ExpandError::UnexpectedToken => f.write_str("unexpected token in input"),
ExpandError::BindingError(e) => f.write_str(e),
ExpandError::ConversionError => f.write_str("could not convert tokens"),
- ExpandError::UnresolvedProcMacro => f.write_str("unresolved proc macro"),
- ExpandError::Other(e) => f.write_str(e),
+ ExpandError::LimitExceeded => f.write_str("Expand exceed limit"),
+ ExpandError::LeftoverTokens => f.write_str("leftover tokens"),
}
}
}
// Find the max token id inside a subtree
fn max_id(subtree: &tt::Subtree) -> Option<u32> {
- subtree
- .token_trees
- .iter()
- .filter_map(|tt| match tt {
- tt::TokenTree::Subtree(subtree) => {
- let tree_id = max_id(subtree);
- match subtree.delimiter {
- Some(it) if it.id != tt::TokenId::unspecified() => {
- Some(tree_id.map_or(it.id.0, |t| t.max(it.id.0)))
- }
- _ => tree_id,
+ let filter = |tt: &_| match tt {
+ tt::TokenTree::Subtree(subtree) => {
+ let tree_id = max_id(subtree);
+ match subtree.delimiter {
+ Some(it) if it.id != tt::TokenId::unspecified() => {
+ Some(tree_id.map_or(it.id.0, |t| t.max(it.id.0)))
}
+ _ => tree_id,
}
- tt::TokenTree::Leaf(leaf) => {
- let &(tt::Leaf::Ident(tt::Ident { id, .. })
- | tt::Leaf::Punct(tt::Punct { id, .. })
- | tt::Leaf::Literal(tt::Literal { id, .. })) = leaf;
+ }
+ tt::TokenTree::Leaf(leaf) => {
+ let &(tt::Leaf::Ident(tt::Ident { id, .. })
+ | tt::Leaf::Punct(tt::Punct { id, .. })
+ | tt::Leaf::Literal(tt::Literal { id, .. })) = leaf;
- (id != tt::TokenId::unspecified()).then(|| id.0)
- }
- })
- .max()
+ (id != tt::TokenId::unspecified()).then(|| id.0)
+ }
+ };
+ subtree.token_trees.iter().filter_map(filter).max()
}
}
rules.push(rule);
if let Err(()) = src.expect_char(';') {
if src.len() > 0 {
- return Err(ParseError::Expected("expected `;`".to_string()));
+ return Err(ParseError::expected("expected `;`"));
}
break;
}
rules.push(rule);
if let Err(()) = src.expect_any_char(&[';', ',']) {
if src.len() > 0 {
- return Err(ParseError::Expected(
- "expected `;` or `,` to delimit rules".to_string(),
- ));
+ return Err(ParseError::expected("expected `;` or `,` to delimit rules"));
}
break;
}
cov_mark::hit!(parse_macro_def_simple);
let rule = Rule::parse(&mut src, false)?;
if src.len() != 0 {
- return Err(ParseError::Expected("remaining tokens in macro def".to_string()));
+ return Err(ParseError::expected("remaining tokens in macro def"));
}
rules.push(rule);
}
impl Rule {
fn parse(src: &mut TtIter, expect_arrow: bool) -> Result<Self, ParseError> {
- let lhs = src
- .expect_subtree()
- .map_err(|()| ParseError::Expected("expected subtree".to_string()))?;
+ let lhs = src.expect_subtree().map_err(|()| ParseError::expected("expected subtree"))?;
if expect_arrow {
- src.expect_char('=').map_err(|()| ParseError::Expected("expected `=`".to_string()))?;
- src.expect_char('>').map_err(|()| ParseError::Expected("expected `>`".to_string()))?;
+ src.expect_char('=').map_err(|()| ParseError::expected("expected `=`"))?;
+ src.expect_char('>').map_err(|()| ParseError::expected("expected `>`"))?;
}
- let rhs = src
- .expect_subtree()
- .map_err(|()| ParseError::Expected("expected subtree".to_string()))?;
+ let rhs = src.expect_subtree().map_err(|()| ParseError::expected("expected subtree"))?;
let lhs = MetaTemplate::parse_pattern(lhs)?;
let rhs = MetaTemplate::parse_template(rhs)?;
Ok(())
}
+pub type ExpandResult<T> = ValueResult<T, ExpandError>;
+
#[derive(Debug, Clone, Eq, PartialEq)]
-pub struct ExpandResult<T> {
+pub struct ValueResult<T, E> {
pub value: T,
- pub err: Option<ExpandError>,
+ pub err: Option<E>,
}
-impl<T> ExpandResult<T> {
+impl<T, E> ValueResult<T, E> {
pub fn ok(value: T) -> Self {
Self { value, err: None }
}
- pub fn only_err(err: ExpandError) -> Self
+ pub fn only_err(err: E) -> Self
where
T: Default,
{
Self { value: Default::default(), err: Some(err) }
}
- pub fn str_err(err: String) -> Self
- where
- T: Default,
- {
- Self::only_err(ExpandError::Other(err))
+ pub fn map<U>(self, f: impl FnOnce(T) -> U) -> ValueResult<U, E> {
+ ValueResult { value: f(self.value), err: self.err }
}
- pub fn map<U>(self, f: impl FnOnce(T) -> U) -> ExpandResult<U> {
- ExpandResult { value: f(self.value), err: self.err }
+ pub fn map_err<E2>(self, f: impl FnOnce(E) -> E2) -> ValueResult<T, E2> {
+ ValueResult { value: self.value, err: self.err.map(f) }
}
- pub fn result(self) -> Result<T, ExpandError> {
+ pub fn result(self) -> Result<T, E> {
self.err.map_or(Ok(self.value), Err)
}
}
-impl<T: Default> From<Result<T, ExpandError>> for ExpandResult<T> {
- fn from(result: Result<T, ExpandError>) -> Self {
+impl<T: Default, E> From<Result<T, E>> for ValueResult<T, E> {
+ fn from(result: Result<T, E>) -> Self {
result.map_or_else(Self::only_err, Self::ok)
}
}