src/tools/rust-analyzer/crates/parser/src/lib.rs - toolchain/rustc - Git at Google

 //! The Rust parser.
 //!
 //! NOTE: The crate is undergoing refactors, don't believe everything the docs
 //! say :-)
 //!
 //! The parser doesn't know about concrete representation of tokens and syntax
 //! trees. Abstract [`TokenSource`] and [`TreeSink`] traits are used instead. As
 //! a consequence, this crate does not contain a lexer.
 //!
 //! The [`Parser`] struct from the [`parser`] module is a cursor into the
 //! sequence of tokens.  Parsing routines use [`Parser`] to inspect current
 //! state and advance the parsing.
 //!
 //! The actual parsing happens in the [`grammar`] module.
 //!
 //! Tests for this crate live in the `syntax` crate.
 //!
 //! [`Parser`]: crate::parser::Parser

 #![warn(rust_2018_idioms, unused_lifetimes)]
 #![allow(rustdoc::private_intra_doc_links)]
 #![cfg_attr(feature = "in-rust-tree", feature(rustc_private))]

 #[cfg(not(feature = "in-rust-tree"))]
 extern crate ra_ap_rustc_lexer as rustc_lexer;
 #[cfg(feature = "in-rust-tree")]
 extern crate rustc_lexer;

 mod event;
 mod grammar;
 mod input;
 mod lexed_str;
 mod output;
 mod parser;
 mod shortcuts;
 mod syntax_kind;
 mod token_set;

 #[cfg(test)]
 mod tests;

 pub(crate) use token_set::TokenSet;

 pub use crate::{
     input::Input,
     lexed_str::LexedStr,
     output::{Output, Step},
     shortcuts::StrStep,
     syntax_kind::SyntaxKind,
 };

 /// Parse the whole of the input as a given syntactic construct.
 ///
 /// This covers two main use-cases:
 ///
 ///   * Parsing a Rust file.
 ///   * Parsing a result of macro expansion.
 ///
 /// That is, for something like
 ///
 /// ```
 /// quick_check! {
 ///    fn prop() {}
 /// }
 /// ```
 ///
 /// the input to the macro will be parsed with [`PrefixEntryPoint::Item`], and
 /// the result will be [`TopEntryPoint::MacroItems`].
 ///
 /// [`TopEntryPoint::parse`] makes a guarantee that
 ///   * all input is consumed
 ///   * the result is a valid tree (there's one root node)
 #[derive(Debug)]
 pub enum TopEntryPoint {
     SourceFile,
     MacroStmts,
     MacroItems,
     Pattern,
     Type,
     Expr,
     /// Edge case -- macros generally don't expand to attributes, with the
     /// exception of `cfg_attr` which does!
     MetaItem,
     /// Edge case 2 -- eager macros expand their input to a delimited list of comma separated expressions
     MacroEagerInput,
 }

 impl TopEntryPoint {
     pub fn parse(&self, input: &Input) -> Output {
         let entry_point: fn(&'_ mut parser::Parser<'_>) = match self {
             TopEntryPoint::SourceFile => grammar::entry::top::source_file,
             TopEntryPoint::MacroStmts => grammar::entry::top::macro_stmts,
             TopEntryPoint::MacroItems => grammar::entry::top::macro_items,
             TopEntryPoint::Pattern => grammar::entry::top::pattern,
             TopEntryPoint::Type => grammar::entry::top::type_,
             TopEntryPoint::Expr => grammar::entry::top::expr,
             TopEntryPoint::MetaItem => grammar::entry::top::meta_item,
             TopEntryPoint::MacroEagerInput => grammar::entry::top::eager_macro_input,
         };
         let mut p = parser::Parser::new(input);
         entry_point(&mut p);
         let events = p.finish();
         let res = event::process(events);

         if cfg!(debug_assertions) {
             let mut depth = 0;
             let mut first = true;
             for step in res.iter() {
                 assert!(depth > 0 || first);
                 first = false;
                 match step {
                     Step::Enter { .. } => depth += 1,
                     Step::Exit => depth -= 1,
                     Step::FloatSplit { ends_in_dot: has_pseudo_dot } => {
                         depth -= 1 + !has_pseudo_dot as usize
                     }
                     Step::Token { .. } | Step::Error { .. } => (),
                 }
             }
             assert!(!first, "no tree at all");
             assert_eq!(depth, 0, "unbalanced tree");
         }

         res
     }
 }

 /// Parse a prefix of the input as a given syntactic construct.
 ///
 /// This is used by macro-by-example parser to implement things like `$i:item`
 /// and the naming of variants follows the naming of macro fragments.
 ///
 /// Note that this is generally non-optional -- the result is intentionally not
 /// `Option<Output>`. The way MBE work, by the time we *try* to parse `$e:expr`
 /// we already commit to expression. In other words, this API by design can't be
 /// used to implement "rollback and try another alternative" logic.
 #[derive(Debug)]
 pub enum PrefixEntryPoint {
     Vis,
     Block,
     Stmt,
     Pat,
     PatTop,
     Ty,
     Expr,
     Path,
     Item,
     MetaItem,
 }

 impl PrefixEntryPoint {
     pub fn parse(&self, input: &Input) -> Output {
         let entry_point: fn(&'_ mut parser::Parser<'_>) = match self {
             PrefixEntryPoint::Vis => grammar::entry::prefix::vis,
             PrefixEntryPoint::Block => grammar::entry::prefix::block,
             PrefixEntryPoint::Stmt => grammar::entry::prefix::stmt,
             PrefixEntryPoint::Pat => grammar::entry::prefix::pat,
             PrefixEntryPoint::PatTop => grammar::entry::prefix::pat_top,
             PrefixEntryPoint::Ty => grammar::entry::prefix::ty,
             PrefixEntryPoint::Expr => grammar::entry::prefix::expr,
             PrefixEntryPoint::Path => grammar::entry::prefix::path,
             PrefixEntryPoint::Item => grammar::entry::prefix::item,
             PrefixEntryPoint::MetaItem => grammar::entry::prefix::meta_item,
         };
         let mut p = parser::Parser::new(input);
         entry_point(&mut p);
         let events = p.finish();
         event::process(events)
     }
 }

 /// A parsing function for a specific braced-block.
 pub struct Reparser(fn(&mut parser::Parser<'_>));

 impl Reparser {
     /// If the node is a braced block, return the corresponding `Reparser`.
     pub fn for_node(
         node: SyntaxKind,
         first_child: Option<SyntaxKind>,
         parent: Option<SyntaxKind>,
     ) -> Option<Reparser> {
         grammar::reparser(node, first_child, parent).map(Reparser)
     }

     /// Re-parse given tokens using this `Reparser`.
     ///
     /// Tokens must start with `{`, end with `}` and form a valid brace
     /// sequence.
     pub fn parse(self, tokens: &Input) -> Output {
         let Reparser(r) = self;
         let mut p = parser::Parser::new(tokens);
         r(&mut p);
         let events = p.finish();
         event::process(events)
     }
 }
	//! The Rust parser.
	//!
	//! NOTE: The crate is undergoing refactors, don't believe everything the docs
	//! say :-)
	//!
	//! The parser doesn't know about concrete representation of tokens and syntax
	//! trees. Abstract [`TokenSource`] and [`TreeSink`] traits are used instead. As
	//! a consequence, this crate does not contain a lexer.
	//!
	//! The [`Parser`] struct from the [`parser`] module is a cursor into the
	//! sequence of tokens. Parsing routines use [`Parser`] to inspect current
	//! state and advance the parsing.
	//!
	//! The actual parsing happens in the [`grammar`] module.
	//!
	//! Tests for this crate live in the `syntax` crate.
	//!
	//! [`Parser`]: crate::parser::Parser

	#![warn(rust_2018_idioms, unused_lifetimes)]
	#![allow(rustdoc::private_intra_doc_links)]
	#![cfg_attr(feature = "in-rust-tree", feature(rustc_private))]

	#[cfg(not(feature = "in-rust-tree"))]
	extern crate ra_ap_rustc_lexer as rustc_lexer;
	#[cfg(feature = "in-rust-tree")]
	extern crate rustc_lexer;

	mod event;
	mod grammar;
	mod input;
	mod lexed_str;
	mod output;
	mod parser;
	mod shortcuts;
	mod syntax_kind;
	mod token_set;

	#[cfg(test)]
	mod tests;

	pub(crate) use token_set::TokenSet;

	pub use crate::{
	input::Input,
	lexed_str::LexedStr,
	output::{Output, Step},
	shortcuts::StrStep,
	syntax_kind::SyntaxKind,
	};

	/// Parse the whole of the input as a given syntactic construct.
	///
	/// This covers two main use-cases:
	///
	/// * Parsing a Rust file.
	/// * Parsing a result of macro expansion.
	///
	/// That is, for something like
	///
	/// ```
	/// quick_check! {
	/// fn prop() {}
	/// }
	/// ```
	///
	/// the input to the macro will be parsed with [`PrefixEntryPoint::Item`], and
	/// the result will be [`TopEntryPoint::MacroItems`].
	///
	/// [`TopEntryPoint::parse`] makes a guarantee that
	/// * all input is consumed
	/// * the result is a valid tree (there's one root node)
	#[derive(Debug)]
	pub enum TopEntryPoint {
	SourceFile,
	MacroStmts,
	MacroItems,
	Pattern,
	Type,
	Expr,
	/// Edge case -- macros generally don't expand to attributes, with the
	/// exception of `cfg_attr` which does!
	MetaItem,
	/// Edge case 2 -- eager macros expand their input to a delimited list of comma separated expressions
	MacroEagerInput,
	}

	impl TopEntryPoint {
	pub fn parse(&self, input: &Input) -> Output {
	let entry_point: fn(&'_ mut parser::Parser<'_>) = match self {
	TopEntryPoint::SourceFile => grammar::entry::top::source_file,
	TopEntryPoint::MacroStmts => grammar::entry::top::macro_stmts,
	TopEntryPoint::MacroItems => grammar::entry::top::macro_items,
	TopEntryPoint::Pattern => grammar::entry::top::pattern,
	TopEntryPoint::Type => grammar::entry::top::type_,
	TopEntryPoint::Expr => grammar::entry::top::expr,
	TopEntryPoint::MetaItem => grammar::entry::top::meta_item,
	TopEntryPoint::MacroEagerInput => grammar::entry::top::eager_macro_input,
	};
	let mut p = parser::Parser::new(input);
	entry_point(&mut p);
	let events = p.finish();
	let res = event::process(events);

	if cfg!(debug_assertions) {
	let mut depth = 0;
	let mut first = true;
	for step in res.iter() {
	assert!(depth > 0 \|\| first);
	first = false;
	match step {
	Step::Enter { .. } => depth += 1,
	Step::Exit => depth -= 1,
	Step::FloatSplit { ends_in_dot: has_pseudo_dot } => {
	depth -= 1 + !has_pseudo_dot as usize
	}
	Step::Token { .. } \| Step::Error { .. } => (),
	}
	}
	assert!(!first, "no tree at all");
	assert_eq!(depth, 0, "unbalanced tree");
	}

	res
	}
	}

	/// Parse a prefix of the input as a given syntactic construct.
	///
	/// This is used by macro-by-example parser to implement things like `$i:item`
	/// and the naming of variants follows the naming of macro fragments.
	///
	/// Note that this is generally non-optional -- the result is intentionally not
	/// `Option<Output>`. The way MBE work, by the time we try to parse `$e:expr`
	/// we already commit to expression. In other words, this API by design can't be
	/// used to implement "rollback and try another alternative" logic.
	#[derive(Debug)]
	pub enum PrefixEntryPoint {
	Vis,
	Block,
	Stmt,
	Pat,
	PatTop,
	Ty,
	Expr,
	Path,
	Item,
	MetaItem,
	}

	impl PrefixEntryPoint {
	pub fn parse(&self, input: &Input) -> Output {
	let entry_point: fn(&'_ mut parser::Parser<'_>) = match self {
	PrefixEntryPoint::Vis => grammar::entry::prefix::vis,
	PrefixEntryPoint::Block => grammar::entry::prefix::block,
	PrefixEntryPoint::Stmt => grammar::entry::prefix::stmt,
	PrefixEntryPoint::Pat => grammar::entry::prefix::pat,
	PrefixEntryPoint::PatTop => grammar::entry::prefix::pat_top,
	PrefixEntryPoint::Ty => grammar::entry::prefix::ty,
	PrefixEntryPoint::Expr => grammar::entry::prefix::expr,
	PrefixEntryPoint::Path => grammar::entry::prefix::path,
	PrefixEntryPoint::Item => grammar::entry::prefix::item,
	PrefixEntryPoint::MetaItem => grammar::entry::prefix::meta_item,
	};
	let mut p = parser::Parser::new(input);
	entry_point(&mut p);
	let events = p.finish();
	event::process(events)
	}
	}

	/// A parsing function for a specific braced-block.
	pub struct Reparser(fn(&mut parser::Parser<'_>));

	impl Reparser {
	/// If the node is a braced block, return the corresponding `Reparser`.
	pub fn for_node(
	node: SyntaxKind,
	first_child: Option<SyntaxKind>,
	parent: Option<SyntaxKind>,
	) -> Option<Reparser> {
	grammar::reparser(node, first_child, parent).map(Reparser)
	}

	/// Re-parse given tokens using this `Reparser`.
	///
	/// Tokens must start with `{`, end with `}` and form a valid brace
	/// sequence.
	pub fn parse(self, tokens: &Input) -> Output {
	let Reparser(r) = self;
	let mut p = parser::Parser::new(tokens);
	r(&mut p);
	let events = p.finish();
	event::process(events)
	}
	}