third_party/rust_crates/vendor/syn/src/lookahead.rs - fuchsia - Git at Google

 use crate::buffer::Cursor;
 use crate::error::{self, Error};
 use crate::sealed::lookahead::Sealed;
 use crate::span::IntoSpans;
 use crate::token::Token;
 use proc_macro2::{Delimiter, Span};
 use std::cell::RefCell;

 /// Support for checking the next token in a stream to decide how to parse.
 ///
 /// An important advantage over [`ParseStream::peek`] is that here we
 /// automatically construct an appropriate error message based on the token
 /// alternatives that get peeked. If you are producing your own error message,
 /// go ahead and use `ParseStream::peek` instead.
 ///
 /// Use [`ParseStream::lookahead1`] to construct this object.
 ///
 /// [`ParseStream::peek`]: crate::parse::ParseBuffer::peek
 /// [`ParseStream::lookahead1`]: crate::parse::ParseBuffer::lookahead1
 ///
 /// # Example
 ///
 /// ```
 /// use syn::{ConstParam, Ident, Lifetime, LifetimeDef, Result, Token, TypeParam};
 /// use syn::parse::{Parse, ParseStream};
 ///
 /// // A generic parameter, a single one of the comma-separated elements inside
 /// // angle brackets in:
 /// //
 /// //     fn f<T: Clone, 'a, 'b: 'a, const N: usize>() { ... }
 /// //
 /// // On invalid input, lookahead gives us a reasonable error message.
 /// //
 /// //     error: expected one of: identifier, lifetime, `const`
 /// //       |
 /// //     5 |     fn f<!Sized>() {}
 /// //       |          ^
 /// enum GenericParam {
 ///     Type(TypeParam),
 ///     Lifetime(LifetimeDef),
 ///     Const(ConstParam),
 /// }
 ///
 /// impl Parse for GenericParam {
 ///     fn parse(input: ParseStream) -> Result<Self> {
 ///         let lookahead = input.lookahead1();
 ///         if lookahead.peek(Ident) {
 ///             input.parse().map(GenericParam::Type)
 ///         } else if lookahead.peek(Lifetime) {
 ///             input.parse().map(GenericParam::Lifetime)
 ///         } else if lookahead.peek(Token![const]) {
 ///             input.parse().map(GenericParam::Const)
 ///         } else {
 ///             Err(lookahead.error())
 ///         }
 ///     }
 /// }
 /// ```
 pub struct Lookahead1<'a> {
     scope: Span,
     cursor: Cursor<'a>,
     comparisons: RefCell<Vec<&'static str>>,
 }

 pub fn new(scope: Span, cursor: Cursor) -> Lookahead1 {
     Lookahead1 {
         scope,
         cursor,
         comparisons: RefCell::new(Vec::new()),
     }
 }

 fn peek_impl(
     lookahead: &Lookahead1,
     peek: fn(Cursor) -> bool,
     display: fn() -> &'static str,
 ) -> bool {
     if peek(lookahead.cursor) {
         return true;
     }
     lookahead.comparisons.borrow_mut().push(display());
     false
 }

 impl<'a> Lookahead1<'a> {
     /// Looks at the next token in the parse stream to determine whether it
     /// matches the requested type of token.
     ///
     /// # Syntax
     ///
     /// Note that this method does not use turbofish syntax. Pass the peek type
     /// inside of parentheses.
     ///
     /// - `input.peek(Token![struct])`
     /// - `input.peek(Token![==])`
     /// - `input.peek(Ident)`&emsp;*(does not accept keywords)*
     /// - `input.peek(Ident::peek_any)`
     /// - `input.peek(Lifetime)`
     /// - `input.peek(token::Brace)`
     pub fn peek<T: Peek>(&self, token: T) -> bool {
         let _ = token;
         peek_impl(self, T::Token::peek, T::Token::display)
     }

     /// Triggers an error at the current position of the parse stream.
     ///
     /// The error message will identify all of the expected token types that
     /// have been peeked against this lookahead instance.
     pub fn error(self) -> Error {
         let comparisons = self.comparisons.borrow();
         match comparisons.len() {
             0 => {
                 if self.cursor.eof() {
                     Error::new(self.scope, "unexpected end of input")
                 } else {
                     Error::new(self.cursor.span(), "unexpected token")
                 }
             }
             1 => {
                 let message = format!("expected {}", comparisons[0]);
                 error::new_at(self.scope, self.cursor, message)
             }
             2 => {
                 let message = format!("expected {} or {}", comparisons[0], comparisons[1]);
                 error::new_at(self.scope, self.cursor, message)
             }
             _ => {
                 let join = comparisons.join(", ");
                 let message = format!("expected one of: {}", join);
                 error::new_at(self.scope, self.cursor, message)
             }
         }
     }
 }

 /// Types that can be parsed by looking at just one token.
 ///
 /// Use [`ParseStream::peek`] to peek one of these types in a parse stream
 /// without consuming it from the stream.
 ///
 /// This trait is sealed and cannot be implemented for types outside of Syn.
 ///
 /// [`ParseStream::peek`]: crate::parse::ParseBuffer::peek
 pub trait Peek: Sealed {
     // Not public API.
     #[doc(hidden)]
     type Token: Token;
 }

 impl<F: Copy + FnOnce(TokenMarker) -> T, T: Token> Peek for F {
     type Token = T;
 }

 pub enum TokenMarker {}

 impl<S> IntoSpans<S> for TokenMarker {
     fn into_spans(self) -> S {
         match self {}
     }
 }

 pub fn is_delimiter(cursor: Cursor, delimiter: Delimiter) -> bool {
     cursor.group(delimiter).is_some()
 }

 impl<F: Copy + FnOnce(TokenMarker) -> T, T: Token> Sealed for F {}
	use crate::buffer::Cursor;
	use crate::error::{self, Error};
	use crate::sealed::lookahead::Sealed;
	use crate::span::IntoSpans;
	use crate::token::Token;
	use proc_macro2::{Delimiter, Span};
	use std::cell::RefCell;

	/// Support for checking the next token in a stream to decide how to parse.
	///
	/// An important advantage over [`ParseStream::peek`] is that here we
	/// automatically construct an appropriate error message based on the token
	/// alternatives that get peeked. If you are producing your own error message,
	/// go ahead and use `ParseStream::peek` instead.
	///
	/// Use [`ParseStream::lookahead1`] to construct this object.
	///
	/// [`ParseStream::peek`]: crate::parse::ParseBuffer::peek
	/// [`ParseStream::lookahead1`]: crate::parse::ParseBuffer::lookahead1
	///
	/// # Example
	///
	/// ```
	/// use syn::{ConstParam, Ident, Lifetime, LifetimeDef, Result, Token, TypeParam};
	/// use syn::parse::{Parse, ParseStream};
	///
	/// // A generic parameter, a single one of the comma-separated elements inside
	/// // angle brackets in:
	/// //
	/// // fn f<T: Clone, 'a, 'b: 'a, const N: usize>() { ... }
	/// //
	/// // On invalid input, lookahead gives us a reasonable error message.
	/// //
	/// // error: expected one of: identifier, lifetime, `const`
	/// // \|
	/// // 5 \| fn f<!Sized>() {}
	/// // \| ^
	/// enum GenericParam {
	/// Type(TypeParam),
	/// Lifetime(LifetimeDef),
	/// Const(ConstParam),
	/// }
	///
	/// impl Parse for GenericParam {
	/// fn parse(input: ParseStream) -> Result<Self> {
	/// let lookahead = input.lookahead1();
	/// if lookahead.peek(Ident) {
	/// input.parse().map(GenericParam::Type)
	/// } else if lookahead.peek(Lifetime) {
	/// input.parse().map(GenericParam::Lifetime)
	/// } else if lookahead.peek(Token![const]) {
	/// input.parse().map(GenericParam::Const)
	/// } else {
	/// Err(lookahead.error())
	/// }
	/// }
	/// }
	/// ```
	pub struct Lookahead1<'a> {
	scope: Span,
	cursor: Cursor<'a>,
	comparisons: RefCell<Vec<&'static str>>,
	}

	pub fn new(scope: Span, cursor: Cursor) -> Lookahead1 {
	Lookahead1 {
	scope,
	cursor,
	comparisons: RefCell::new(Vec::new()),
	}
	}

	fn peek_impl(
	lookahead: &Lookahead1,
	peek: fn(Cursor) -> bool,
	display: fn() -> &'static str,
	) -> bool {
	if peek(lookahead.cursor) {
	return true;
	}
	lookahead.comparisons.borrow_mut().push(display());
	false
	}

	impl<'a> Lookahead1<'a> {
	/// Looks at the next token in the parse stream to determine whether it
	/// matches the requested type of token.
	///
	/// # Syntax
	///
	/// Note that this method does not use turbofish syntax. Pass the peek type
	/// inside of parentheses.
	///
	/// - `input.peek(Token![struct])`
	/// - `input.peek(Token![==])`
	/// - `input.peek(Ident)`&emsp;(does not accept keywords)
	/// - `input.peek(Ident::peek_any)`
	/// - `input.peek(Lifetime)`
	/// - `input.peek(token::Brace)`
	pub fn peek<T: Peek>(&self, token: T) -> bool {
	let _ = token;
	peek_impl(self, T::Token::peek, T::Token::display)
	}

	/// Triggers an error at the current position of the parse stream.
	///
	/// The error message will identify all of the expected token types that
	/// have been peeked against this lookahead instance.
	pub fn error(self) -> Error {
	let comparisons = self.comparisons.borrow();
	match comparisons.len() {
	0 => {
	if self.cursor.eof() {
	Error::new(self.scope, "unexpected end of input")
	} else {
	Error::new(self.cursor.span(), "unexpected token")
	}
	}
	1 => {
	let message = format!("expected {}", comparisons[0]);
	error::new_at(self.scope, self.cursor, message)
	}
	2 => {
	let message = format!("expected {} or {}", comparisons[0], comparisons[1]);
	error::new_at(self.scope, self.cursor, message)
	}
	_ => {
	let join = comparisons.join(", ");
	let message = format!("expected one of: {}", join);
	error::new_at(self.scope, self.cursor, message)
	}
	}
	}
	}

	/// Types that can be parsed by looking at just one token.
	///
	/// Use [`ParseStream::peek`] to peek one of these types in a parse stream
	/// without consuming it from the stream.
	///
	/// This trait is sealed and cannot be implemented for types outside of Syn.
	///
	/// [`ParseStream::peek`]: crate::parse::ParseBuffer::peek
	pub trait Peek: Sealed {
	// Not public API.
	#[doc(hidden)]
	type Token: Token;
	}

	impl<F: Copy + FnOnce(TokenMarker) -> T, T: Token> Peek for F {
	type Token = T;
	}

	pub enum TokenMarker {}

	impl<S> IntoSpans<S> for TokenMarker {
	fn into_spans(self) -> S {
	match self {}
	}
	}

	pub fn is_delimiter(cursor: Cursor, delimiter: Delimiter) -> bool {
	cursor.group(delimiter).is_some()
	}

	impl<F: Copy + FnOnce(TokenMarker) -> T, T: Token> Sealed for F {}