/// Define a type that supports parsing and printing a given identifier as if it /// were a keyword. /// /// # Usage /// /// As a convention, it is recommended that this macro be invoked within a /// module called `kw` or `keyword` and that the resulting parser be invoked /// with a `kw::` or `keyword::` prefix. /// /// ``` /// mod kw { /// syn::custom_keyword!(whatever); /// } /// ``` /// /// The generated syntax tree node supports the following operations just like /// any built-in keyword token. /// /// - [Peeking] — `input.peek(kw::whatever)` /// /// - [Parsing] — `input.parse::()?` /// /// - [Printing] — `quote!( ... #whatever_token ... )` /// /// - Construction from a [`Span`] — `let whatever_token = kw::whatever(sp)` /// /// - Field access to its span — `let sp = whatever_token.span` /// /// [Peeking]: parse::ParseBuffer::peek /// [Parsing]: parse::ParseBuffer::parse /// [Printing]: quote::ToTokens /// [`Span`]: proc_macro2::Span /// /// # Example /// /// This example parses input that looks like `bool = true` or `str = "value"`. /// The key must be either the identifier `bool` or the identifier `str`. If /// `bool`, the value may be either `true` or `false`. If `str`, the value may /// be any string literal. /// /// The symbols `bool` and `str` are not reserved keywords in Rust so these are /// not considered keywords in the `syn::token` module. Like any other /// identifier that is not a keyword, these can be declared as custom keywords /// by crates that need to use them as such. /// /// ``` /// use syn::{LitBool, LitStr, Result, Token}; /// use syn::parse::{Parse, ParseStream}; /// /// mod kw { /// syn::custom_keyword!(bool); /// syn::custom_keyword!(str); /// } /// /// enum Argument { /// Bool { /// bool_token: kw::bool, /// eq_token: Token![=], /// value: LitBool, /// }, /// Str { /// str_token: kw::str, /// eq_token: Token![=], /// value: LitStr, /// }, /// } /// /// impl Parse for Argument { /// fn parse(input: ParseStream) -> Result { /// let lookahead = input.lookahead1(); /// if lookahead.peek(kw::bool) { /// Ok(Argument::Bool { /// bool_token: input.parse::()?, /// eq_token: input.parse()?, /// value: input.parse()?, /// }) /// } else if lookahead.peek(kw::str) { /// Ok(Argument::Str { /// str_token: input.parse::()?, /// eq_token: input.parse()?, /// value: input.parse()?, /// }) /// } else { /// Err(lookahead.error()) /// } /// } /// } /// ``` #[macro_export(local_inner_macros)] macro_rules! custom_keyword { ($ident:ident) => { #[allow(non_camel_case_types)] pub struct $ident { pub span: $crate::export::Span, } #[doc(hidden)] #[allow(non_snake_case)] pub fn $ident<__S: $crate::export::IntoSpans<[$crate::export::Span; 1]>>( span: __S, ) -> $ident { $ident { span: $crate::export::IntoSpans::into_spans(span)[0], } } impl $crate::export::Default for $ident { fn default() -> Self { $ident { span: $crate::export::Span::call_site(), } } } impl_parse_for_custom_keyword!($ident); impl_to_tokens_for_custom_keyword!($ident); impl_clone_for_custom_keyword!($ident); impl_extra_traits_for_custom_keyword!($ident); }; } // Not public API. #[cfg(feature = "parsing")] #[doc(hidden)] #[macro_export] macro_rules! impl_parse_for_custom_keyword { ($ident:ident) => { // For peek. impl $crate::token::CustomToken for $ident { fn peek(cursor: $crate::buffer::Cursor) -> $crate::export::bool { if let Some((ident, _rest)) = cursor.ident() { ident == stringify!($ident) } else { false } } fn display() -> &'static $crate::export::str { concat!("`", stringify!($ident), "`") } } impl $crate::parse::Parse for $ident { fn parse(input: $crate::parse::ParseStream) -> $crate::parse::Result<$ident> { input.step(|cursor| { if let $crate::export::Some((ident, rest)) = cursor.ident() { if ident == stringify!($ident) { return $crate::export::Ok(($ident { span: ident.span() }, rest)); } } $crate::export::Err(cursor.error(concat!( "expected `", stringify!($ident), "`" ))) }) } } }; } // Not public API. #[cfg(not(feature = "parsing"))] #[doc(hidden)] #[macro_export] macro_rules! impl_parse_for_custom_keyword { ($ident:ident) => {}; } // Not public API. #[cfg(feature = "printing")] #[doc(hidden)] #[macro_export] macro_rules! impl_to_tokens_for_custom_keyword { ($ident:ident) => { impl $crate::export::ToTokens for $ident { fn to_tokens(&self, tokens: &mut $crate::export::TokenStream2) { let ident = $crate::Ident::new(stringify!($ident), self.span); $crate::export::TokenStreamExt::append(tokens, ident); } } }; } // Not public API. #[cfg(not(feature = "printing"))] #[doc(hidden)] #[macro_export] macro_rules! impl_to_tokens_for_custom_keyword { ($ident:ident) => {}; } // Not public API. #[cfg(feature = "clone-impls")] #[doc(hidden)] #[macro_export] macro_rules! impl_clone_for_custom_keyword { ($ident:ident) => { impl $crate::export::Copy for $ident {} impl $crate::export::Clone for $ident { fn clone(&self) -> Self { *self } } }; } // Not public API. #[cfg(not(feature = "clone-impls"))] #[doc(hidden)] #[macro_export] macro_rules! impl_clone_for_custom_keyword { ($ident:ident) => {}; } // Not public API. #[cfg(feature = "extra-traits")] #[doc(hidden)] #[macro_export] macro_rules! impl_extra_traits_for_custom_keyword { ($ident:ident) => { impl $crate::export::Debug for $ident { fn fmt(&self, f: &mut $crate::export::Formatter) -> $crate::export::fmt::Result { $crate::export::Formatter::write_str( f, concat!("Keyword [", stringify!($ident), "]"), ) } } impl $crate::export::Eq for $ident {} impl $crate::export::PartialEq for $ident { fn eq(&self, _other: &Self) -> $crate::export::bool { true } } impl $crate::export::Hash for $ident { fn hash<__H: $crate::export::Hasher>(&self, _state: &mut __H) {} } }; } // Not public API. #[cfg(not(feature = "extra-traits"))] #[doc(hidden)] #[macro_export] macro_rules! impl_extra_traits_for_custom_keyword { ($ident:ident) => {}; }