src/attr.rs - platform/external/rust/crates/syn - Gitiles

 use super::*;
 use delimited::Delimited;

 use std::iter;

 use proc_macro2::{self, Delimiter, TokenNode, Spacing};

 ast_struct! {
     /// Doc-comments are promoted to attributes that have `is_sugared_doc` = true
     pub struct Attribute {
         pub style: AttrStyle,
         pub pound_token: Token![#],
         pub bracket_token: tokens::Bracket,

         /// The path of the attribute.
         ///
         /// E.g. `derive` in `#[derive(Copy)]`
         /// E.g. `crate::precondition` in `#[crate::precondition x < 5]`
         pub path: Path,

         /// Any tokens after the path.
         ///
         /// E.g. `( Copy )` in `#[derive(Copy)]`
         /// E.g. `x < 5` in `#[crate::precondition x < 5]`
         pub tts: Vec<TokenTree>,

         pub is_sugared_doc: bool,
     }
 }

 impl Attribute {
     /// Parses the tokens after the path as a [`MetaItem`](enum.MetaItem.html) if possible.
     pub fn meta_item(&self) -> Option<MetaItem> {
         let name = if self.path.segments.len() == 1 {
             &self.path.segments.get(0).item().ident
         } else {
             return None;
         };

         if self.tts.is_empty() {
             return Some(MetaItem::Term(name.clone()));
         }

         if self.tts.len() == 1 {
             if let TokenNode::Group(Delimiter::Parenthesis, ref ts) = self.tts[0].0.kind {
                 let tokens = ts.clone().into_iter().collect::<Vec<_>>();
                 if let Some(nested_meta_items) = list_of_nested_meta_items_from_tokens(&tokens) {
                     return Some(MetaItem::List(MetaItemList {
                         paren_token: tokens::Paren(Span(self.tts[0].0.span)),
                         ident: name.clone(),
                         nested: nested_meta_items,
                     }));
                 }
             }
         }

         if self.tts.len() == 2 {
             if let TokenNode::Op('=', Spacing::Alone) = self.tts[0].0.kind {
                 if let TokenNode::Literal(ref lit) = self.tts[1].0.kind {
                     return Some(MetaItem::NameValue(MetaNameValue {
                         ident: name.clone(),
                         eq_token: Token![=]([Span(self.tts[0].0.span)]),
                         lit: Lit {
                             value: LitKind::Other(lit.clone()),
                             span: Span(self.tts[1].0.span),
                         },
                     }));
                 }
             }
         }

         None
     }
 }

 fn nested_meta_item_from_tokens(tts: &[proc_macro2::TokenTree])
     -> Option<(NestedMetaItem, &[proc_macro2::TokenTree])>
 {
     assert!(!tts.is_empty());

     match tts[0].kind {
         TokenNode::Literal(ref lit) => {
             let lit = Lit {
                 value: LitKind::Other(lit.clone()),
                 span: Span(tts[0].span),
             };
             Some((NestedMetaItem::Literal(lit), &tts[1..]))
         }

         TokenNode::Term(sym) => {
             let ident = Ident::new(sym, Span(tts[0].span));
             if tts.len() >= 3 {
                 if let TokenNode::Op('=', Spacing::Alone) = tts[1].kind {
                     if let TokenNode::Literal(ref lit) = tts[2].kind {
                         let pair = MetaNameValue {
                             ident: Ident::new(sym, Span(tts[0].span)),
                             eq_token: Token![=]([Span(tts[1].span)]),
                             lit: Lit {
                                 value: LitKind::Other(lit.clone()),
                                 span: Span(tts[2].span),
                             },
                         };
                         return Some((MetaItem::NameValue(pair).into(), &tts[3..]));
                     }
                 }
             }

             if tts.len() >= 2 {
                 if let TokenNode::Group(Delimiter::Parenthesis, ref inner_tts) = tts[1].kind {
                     let inner_tts = inner_tts.clone().into_iter().collect::<Vec<_>>();
                     return match list_of_nested_meta_items_from_tokens(&inner_tts) {
                         Some(nested_meta_items) => {
                             let list = MetaItemList {
                                 ident: ident,
                                 paren_token: tokens::Paren(Span(tts[1].span)),
                                 nested: nested_meta_items,
                             };
                             Some((MetaItem::List(list).into(), &tts[2..]))
                         }

                         None => None
                     };
                 }
             }

             Some((MetaItem::Term(ident).into(), &tts[1..]))
         }

         _ => None
     }
 }

 fn list_of_nested_meta_items_from_tokens(mut tts: &[proc_macro2::TokenTree])
     -> Option<Delimited<NestedMetaItem, Token![,]>>
 {
     let mut delimited = Delimited::new();
     let mut first = true;

     while !tts.is_empty() {
         let prev_comma = if first {
             first = false;
             None
         } else if let TokenNode::Op(',', Spacing::Alone) = tts[0].kind {
             let tok = Token![,]([Span(tts[0].span)]);
             tts = &tts[1..];
             if tts.is_empty() {
                 break
             }
             Some(tok)
         } else {
             return None
         };
         let (nested, rest) = match nested_meta_item_from_tokens(tts) {
             Some(pair) => pair,
             None => return None,
         };
         match prev_comma {
             Some(comma) => delimited.push_next(nested, comma),
             None => delimited.push_first(nested),
         }
         tts = rest;
     }

     Some(delimited)
 }


 ast_enum! {
     /// Distinguishes between Attributes that decorate items and Attributes that
     /// are contained as statements within items. These two cases need to be
     /// distinguished for pretty-printing.
     #[cfg_attr(feature = "clone-impls", derive(Copy))]
     pub enum AttrStyle {
         /// Attribute of the form `#[...]`.
         Outer,

         /// Attribute of the form `#![...]`.
         Inner(Token![!]),
     }
 }

 ast_enum_of_structs! {
     /// A compile-time attribute item.
     ///
     /// E.g. `#[test]`, `#[derive(..)]` or `#[feature = "foo"]`
     pub enum MetaItem {
         /// Term meta item.
         ///
         /// E.g. `test` as in `#[test]`
         pub Term(Ident),

         /// List meta item.
         ///
         /// E.g. `derive(..)` as in `#[derive(..)]`
         pub List(MetaItemList {
             /// Name of this attribute.
             ///
             /// E.g. `derive` in `#[derive(..)]`
             pub ident: Ident,

             pub paren_token: tokens::Paren,

             /// Arguments to this attribute
             ///
             /// E.g. `..` in `#[derive(..)]`
             pub nested: Delimited<NestedMetaItem, Token![,]>,
         }),

         /// Name-value meta item.
         ///
         /// E.g. `feature = "foo"` as in `#[feature = "foo"]`
         pub NameValue(MetaNameValue {
             /// Name of this attribute.
             ///
             /// E.g. `feature` in `#[feature = "foo"]`
             pub ident: Ident,

             pub eq_token: Token![=],

             /// Arguments to this attribute
             ///
             /// E.g. `"foo"` in `#[feature = "foo"]`
             pub lit: Lit,
         }),
     }
 }

 impl MetaItem {
     /// Name of the item.
     ///
     /// E.g. `test` as in `#[test]`, `derive` as in `#[derive(..)]`, and
     /// `feature` as in `#[feature = "foo"]`.
     pub fn name(&self) -> &str {
         match *self {
             MetaItem::Term(ref name) => name.as_ref(),
             MetaItem::NameValue(ref pair) => pair.ident.as_ref(),
             MetaItem::List(ref list) => list.ident.as_ref(),
         }
     }
 }

 ast_enum_of_structs! {
     /// Possible values inside of compile-time attribute lists.
     ///
     /// E.g. the '..' in `#[name(..)]`.
     pub enum NestedMetaItem {
         /// A full `MetaItem`.
         ///
         /// E.g. `Copy` in `#[derive(Copy)]` would be a `MetaItem::Term(Ident::from("Copy"))`.
         pub MetaItem(MetaItem),

         /// A Rust literal.
         ///
         /// E.g. `"name"` in `#[rename("name")]`.
         pub Literal(Lit),
     }
 }

 pub trait FilterAttrs<'a> {
     type Ret: Iterator<Item = &'a Attribute>;

     fn outer(self) -> Self::Ret;
     fn inner(self) -> Self::Ret;
 }

 impl<'a, T> FilterAttrs<'a> for T
     where T: IntoIterator<Item = &'a Attribute>
 {
     type Ret = iter::Filter<T::IntoIter, fn(&&Attribute) -> bool>;

     fn outer(self) -> Self::Ret {
         fn is_outer(attr: &&Attribute) -> bool {
             match attr.style {
                 AttrStyle::Outer => true,
                 _ => false,
             }
         }
         self.into_iter().filter(is_outer)
     }

     fn inner(self) -> Self::Ret {
         fn is_inner(attr: &&Attribute) -> bool {
             match attr.style {
                 AttrStyle::Inner(_) => true,
                 _ => false,
             }
         }
         self.into_iter().filter(is_inner)
     }
 }

 #[cfg(feature = "parsing")]
 pub mod parsing {
     use super::*;
     use synom::{PResult, Cursor, parse_error};
     use proc_macro2::{TokenNode, Spacing, TokenTree};

     fn eq() -> TokenTree {
         TokenTree {
             span: Default::default(),
             kind: TokenNode::Op('=', Spacing::Alone),
         }
     }

     impl Attribute {
         #[cfg(feature = "full")]
         named!(pub parse_inner -> Self, alt!(
             do_parse!(
                 pound: punct!(#) >>
                 bang: punct!(!) >>
                 path_and_tts: brackets!(tuple!(
                     call!(::Path::parse_mod_style),
                     call!(::TokenTree::parse_list)
                 )) >>
                 ({
                     let ((path, tts), bracket) = path_and_tts;

                     Attribute {
                         style: AttrStyle::Inner(bang),
                         path: path,
                         tts: tts,
                         is_sugared_doc: false,
                         pound_token: pound,
                         bracket_token: bracket,
                     }
                 })
             )
             |
             map!(
                 lit_doc_comment,
                 |lit| Attribute {
                     style: AttrStyle::Inner(<Token![!]>::default()),
                     path: "doc".into(),
                     tts: vec![
                         ::TokenTree(eq()),
                         ::TokenTree(lit),
                     ],
                     is_sugared_doc: true,
                     pound_token: <Token![#]>::default(),
                     bracket_token: tokens::Bracket::default(),
                 }
             )
         ));

         named!(pub parse_outer -> Self, alt!(
             do_parse!(
                 pound: punct!(#) >>
                 path_and_tts: brackets!(tuple!(
                     call!(::Path::parse_mod_style),
                     call!(::TokenTree::parse_list)
                 )) >>
                 ({
                     let ((path, tts), bracket) = path_and_tts;

                     Attribute {
                         style: AttrStyle::Outer,
                         path: path,
                         tts: tts,
                         is_sugared_doc: false,
                         pound_token: pound,
                         bracket_token: bracket,
                     }
                 })
             )
             |
             map!(
                 lit_doc_comment,
                 |lit| Attribute {
                     style: AttrStyle::Outer,
                     path: "doc".into(),
                     tts: vec![
                         ::TokenTree(eq()),
                         ::TokenTree(lit),
                     ],
                     is_sugared_doc: true,
                     pound_token: <Token![#]>::default(),
                     bracket_token: tokens::Bracket::default(),
                 }
             )
         ));
     }

     fn lit_doc_comment(input: Cursor) -> PResult<TokenTree> {
         match input.literal() {
             Some((rest, span, lit)) => {
                 let literal = lit.to_string();
                 if literal.starts_with("//") || literal.starts_with("/*") {
                     Ok((rest, TokenTree {
                         span: span,
                         kind: TokenNode::Literal(lit)
                     }))
                 } else {
                     parse_error()
                 }
             }
             _ => parse_error()
         }
     }
 }

 #[cfg(feature = "printing")]
 mod printing {
     use super::*;
     use quote::{Tokens, ToTokens};

     impl ToTokens for Attribute {
         fn to_tokens(&self, tokens: &mut Tokens) {
             // If this was a sugared doc, emit it in its original form instead of `#[doc = "..."]`
             if self.is_sugared_doc {
                 if let Some(MetaItem::NameValue(ref pair)) = self.meta_item() {
                     if pair.ident == "doc" {
                         let value = pair.lit.value.to_string();
                         if value.starts_with('/') {
                             pair.lit.to_tokens(tokens);
                             return
                         }
                     }
                 }
             }

             self.pound_token.to_tokens(tokens);
             if let AttrStyle::Inner(ref b) = self.style {
                 b.to_tokens(tokens);
             }
             self.bracket_token.surround(tokens, |tokens| {
                 self.path.to_tokens(tokens);
                 tokens.append_all(&self.tts);
             });
         }
     }

     impl ToTokens for MetaItemList {
         fn to_tokens(&self, tokens: &mut Tokens) {
             self.ident.to_tokens(tokens);
             self.paren_token.surround(tokens, |tokens| {
                 self.nested.to_tokens(tokens);
             })
         }
     }

     impl ToTokens for MetaNameValue {
         fn to_tokens(&self, tokens: &mut Tokens) {
             self.ident.to_tokens(tokens);
             self.eq_token.to_tokens(tokens);
             self.lit.to_tokens(tokens);
         }
     }
 }
	use super::*;
	use delimited::Delimited;

	use std::iter;

	use proc_macro2::{self, Delimiter, TokenNode, Spacing};

	ast_struct! {
	/// Doc-comments are promoted to attributes that have `is_sugared_doc` = true
	pub struct Attribute {
	pub style: AttrStyle,
	pub pound_token: Token![#],
	pub bracket_token: tokens::Bracket,

	/// The path of the attribute.
	///
	/// E.g. `derive` in `#[derive(Copy)]`
	/// E.g. `crate::precondition` in `#[crate::precondition x < 5]`
	pub path: Path,

	/// Any tokens after the path.
	///
	/// E.g. `( Copy )` in `#[derive(Copy)]`
	/// E.g. `x < 5` in `#[crate::precondition x < 5]`
	pub tts: Vec<TokenTree>,

	pub is_sugared_doc: bool,
	}
	}

	impl Attribute {
	/// Parses the tokens after the path as a [`MetaItem`](enum.MetaItem.html) if possible.
	pub fn meta_item(&self) -> Option<MetaItem> {
	let name = if self.path.segments.len() == 1 {
	&self.path.segments.get(0).item().ident
	} else {
	return None;
	};

	if self.tts.is_empty() {
	return Some(MetaItem::Term(name.clone()));
	}

	if self.tts.len() == 1 {
	if let TokenNode::Group(Delimiter::Parenthesis, ref ts) = self.tts[0].0.kind {
	let tokens = ts.clone().into_iter().collect::<Vec<_>>();
	if let Some(nested_meta_items) = list_of_nested_meta_items_from_tokens(&tokens) {
	return Some(MetaItem::List(MetaItemList {
	paren_token: tokens::Paren(Span(self.tts[0].0.span)),
	ident: name.clone(),
	nested: nested_meta_items,
	}));
	}
	}
	}

	if self.tts.len() == 2 {
	if let TokenNode::Op('=', Spacing::Alone) = self.tts[0].0.kind {
	if let TokenNode::Literal(ref lit) = self.tts[1].0.kind {
	return Some(MetaItem::NameValue(MetaNameValue {
	ident: name.clone(),
	eq_token: Token![=]([Span(self.tts[0].0.span)]),
	lit: Lit {
	value: LitKind::Other(lit.clone()),
	span: Span(self.tts[1].0.span),
	},
	}));
	}
	}
	}

	None
	}
	}

	fn nested_meta_item_from_tokens(tts: &[proc_macro2::TokenTree])
	-> Option<(NestedMetaItem, &[proc_macro2::TokenTree])>
	{
	assert!(!tts.is_empty());

	match tts[0].kind {
	TokenNode::Literal(ref lit) => {
	let lit = Lit {
	value: LitKind::Other(lit.clone()),
	span: Span(tts[0].span),
	};
	Some((NestedMetaItem::Literal(lit), &tts[1..]))
	}

	TokenNode::Term(sym) => {
	let ident = Ident::new(sym, Span(tts[0].span));
	if tts.len() >= 3 {
	if let TokenNode::Op('=', Spacing::Alone) = tts[1].kind {
	if let TokenNode::Literal(ref lit) = tts[2].kind {
	let pair = MetaNameValue {
	ident: Ident::new(sym, Span(tts[0].span)),
	eq_token: Token![=]([Span(tts[1].span)]),
	lit: Lit {
	value: LitKind::Other(lit.clone()),
	span: Span(tts[2].span),
	},
	};
	return Some((MetaItem::NameValue(pair).into(), &tts[3..]));
	}
	}
	}

	if tts.len() >= 2 {
	if let TokenNode::Group(Delimiter::Parenthesis, ref inner_tts) = tts[1].kind {
	let inner_tts = inner_tts.clone().into_iter().collect::<Vec<_>>();
	return match list_of_nested_meta_items_from_tokens(&inner_tts) {
	Some(nested_meta_items) => {
	let list = MetaItemList {
	ident: ident,
	paren_token: tokens::Paren(Span(tts[1].span)),
	nested: nested_meta_items,
	};
	Some((MetaItem::List(list).into(), &tts[2..]))
	}

	None => None
	};
	}
	}

	Some((MetaItem::Term(ident).into(), &tts[1..]))
	}

	_ => None
	}
	}

	fn list_of_nested_meta_items_from_tokens(mut tts: &[proc_macro2::TokenTree])
	-> Option<Delimited<NestedMetaItem, Token![,]>>
	{
	let mut delimited = Delimited::new();
	let mut first = true;

	while !tts.is_empty() {
	let prev_comma = if first {
	first = false;
	None
	} else if let TokenNode::Op(',', Spacing::Alone) = tts[0].kind {
	let tok = Token![,]([Span(tts[0].span)]);
	tts = &tts[1..];
	if tts.is_empty() {
	break
	}
	Some(tok)
	} else {
	return None
	};
	let (nested, rest) = match nested_meta_item_from_tokens(tts) {
	Some(pair) => pair,
	None => return None,
	};
	match prev_comma {
	Some(comma) => delimited.push_next(nested, comma),
	None => delimited.push_first(nested),
	}
	tts = rest;
	}

	Some(delimited)
	}


	ast_enum! {
	/// Distinguishes between Attributes that decorate items and Attributes that
	/// are contained as statements within items. These two cases need to be
	/// distinguished for pretty-printing.
	#[cfg_attr(feature = "clone-impls", derive(Copy))]
	pub enum AttrStyle {
	/// Attribute of the form `#[...]`.
	Outer,

	/// Attribute of the form `#![...]`.
	Inner(Token![!]),
	}
	}

	ast_enum_of_structs! {
	/// A compile-time attribute item.
	///
	/// E.g. `#[test]`, `#[derive(..)]` or `#[feature = "foo"]`
	pub enum MetaItem {
	/// Term meta item.
	///
	/// E.g. `test` as in `#[test]`
	pub Term(Ident),

	/// List meta item.
	///
	/// E.g. `derive(..)` as in `#[derive(..)]`
	pub List(MetaItemList {
	/// Name of this attribute.
	///
	/// E.g. `derive` in `#[derive(..)]`
	pub ident: Ident,

	pub paren_token: tokens::Paren,

	/// Arguments to this attribute
	///
	/// E.g. `..` in `#[derive(..)]`
	pub nested: Delimited<NestedMetaItem, Token![,]>,
	}),

	/// Name-value meta item.
	///
	/// E.g. `feature = "foo"` as in `#[feature = "foo"]`
	pub NameValue(MetaNameValue {
	/// Name of this attribute.
	///
	/// E.g. `feature` in `#[feature = "foo"]`
	pub ident: Ident,

	pub eq_token: Token![=],

	/// Arguments to this attribute
	///
	/// E.g. `"foo"` in `#[feature = "foo"]`
	pub lit: Lit,
	}),
	}
	}

	impl MetaItem {
	/// Name of the item.
	///
	/// E.g. `test` as in `#[test]`, `derive` as in `#[derive(..)]`, and
	/// `feature` as in `#[feature = "foo"]`.
	pub fn name(&self) -> &str {
	match *self {
	MetaItem::Term(ref name) => name.as_ref(),
	MetaItem::NameValue(ref pair) => pair.ident.as_ref(),
	MetaItem::List(ref list) => list.ident.as_ref(),
	}
	}
	}

	ast_enum_of_structs! {
	/// Possible values inside of compile-time attribute lists.
	///
	/// E.g. the '..' in `#[name(..)]`.
	pub enum NestedMetaItem {
	/// A full `MetaItem`.
	///
	/// E.g. `Copy` in `#[derive(Copy)]` would be a `MetaItem::Term(Ident::from("Copy"))`.
	pub MetaItem(MetaItem),

	/// A Rust literal.
	///
	/// E.g. `"name"` in `#[rename("name")]`.
	pub Literal(Lit),
	}
	}

	pub trait FilterAttrs<'a> {
	type Ret: Iterator<Item = &'a Attribute>;

	fn outer(self) -> Self::Ret;
	fn inner(self) -> Self::Ret;
	}

	impl<'a, T> FilterAttrs<'a> for T
	where T: IntoIterator<Item = &'a Attribute>
	{
	type Ret = iter::Filter<T::IntoIter, fn(&&Attribute) -> bool>;

	fn outer(self) -> Self::Ret {
	fn is_outer(attr: &&Attribute) -> bool {
	match attr.style {
	AttrStyle::Outer => true,
	_ => false,
	}
	}
	self.into_iter().filter(is_outer)
	}

	fn inner(self) -> Self::Ret {
	fn is_inner(attr: &&Attribute) -> bool {
	match attr.style {
	AttrStyle::Inner(_) => true,
	_ => false,
	}
	}
	self.into_iter().filter(is_inner)
	}
	}

	#[cfg(feature = "parsing")]
	pub mod parsing {
	use super::*;
	use synom::{PResult, Cursor, parse_error};
	use proc_macro2::{TokenNode, Spacing, TokenTree};

	fn eq() -> TokenTree {
	TokenTree {
	span: Default::default(),
	kind: TokenNode::Op('=', Spacing::Alone),
	}
	}

	impl Attribute {
	#[cfg(feature = "full")]
	named!(pub parse_inner -> Self, alt!(
	do_parse!(
	pound: punct!(#) >>
	bang: punct!(!) >>
	path_and_tts: brackets!(tuple!(
	call!(::Path::parse_mod_style),
	call!(::TokenTree::parse_list)
	)) >>
	({
	let ((path, tts), bracket) = path_and_tts;

	Attribute {
	style: AttrStyle::Inner(bang),
	path: path,
	tts: tts,
	is_sugared_doc: false,
	pound_token: pound,
	bracket_token: bracket,
	}
	})
	)
	\|
	map!(
	lit_doc_comment,
	\|lit\| Attribute {
	style: AttrStyle::Inner(<Token![!]>::default()),
	path: "doc".into(),
	tts: vec![
	::TokenTree(eq()),
	::TokenTree(lit),
	],
	is_sugared_doc: true,
	pound_token: <Token![#]>::default(),
	bracket_token: tokens::Bracket::default(),
	}
	)
	));

	named!(pub parse_outer -> Self, alt!(
	do_parse!(
	pound: punct!(#) >>
	path_and_tts: brackets!(tuple!(
	call!(::Path::parse_mod_style),
	call!(::TokenTree::parse_list)
	)) >>
	({
	let ((path, tts), bracket) = path_and_tts;

	Attribute {
	style: AttrStyle::Outer,
	path: path,
	tts: tts,
	is_sugared_doc: false,
	pound_token: pound,
	bracket_token: bracket,
	}
	})
	)
	\|
	map!(
	lit_doc_comment,
	\|lit\| Attribute {
	style: AttrStyle::Outer,
	path: "doc".into(),
	tts: vec![
	::TokenTree(eq()),
	::TokenTree(lit),
	],
	is_sugared_doc: true,
	pound_token: <Token![#]>::default(),
	bracket_token: tokens::Bracket::default(),
	}
	)
	));
	}

	fn lit_doc_comment(input: Cursor) -> PResult<TokenTree> {
	match input.literal() {
	Some((rest, span, lit)) => {
	let literal = lit.to_string();
	if literal.starts_with("//") \|\| literal.starts_with("/*") {
	Ok((rest, TokenTree {
	span: span,
	kind: TokenNode::Literal(lit)
	}))
	} else {
	parse_error()
	}
	}
	_ => parse_error()
	}
	}
	}

	#[cfg(feature = "printing")]
	mod printing {
	use super::*;
	use quote::{Tokens, ToTokens};

	impl ToTokens for Attribute {
	fn to_tokens(&self, tokens: &mut Tokens) {
	// If this was a sugared doc, emit it in its original form instead of `#[doc = "..."]`
	if self.is_sugared_doc {
	if let Some(MetaItem::NameValue(ref pair)) = self.meta_item() {
	if pair.ident == "doc" {
	let value = pair.lit.value.to_string();
	if value.starts_with('/') {
	pair.lit.to_tokens(tokens);
	return
	}
	}
	}
	}

	self.pound_token.to_tokens(tokens);
	if let AttrStyle::Inner(ref b) = self.style {
	b.to_tokens(tokens);
	}
	self.bracket_token.surround(tokens, \|tokens\| {
	self.path.to_tokens(tokens);
	tokens.append_all(&self.tts);
	});
	}
	}

	impl ToTokens for MetaItemList {
	fn to_tokens(&self, tokens: &mut Tokens) {
	self.ident.to_tokens(tokens);
	self.paren_token.surround(tokens, \|tokens\| {
	self.nested.to_tokens(tokens);
	})
	}
	}

	impl ToTokens for MetaNameValue {
	fn to_tokens(&self, tokens: &mut Tokens) {
	self.ident.to_tokens(tokens);
	self.eq_token.to_tokens(tokens);
	self.lit.to_tokens(tokens);
	}
	}
	}