tests/common/respan.rs - platform/external/rust/crates/syn - Gitiles

 extern crate syntax;
 extern crate syntax_pos;

 use self::syntax::ast::{Attribute, Expr, ExprKind, Field, FnDecl, FunctionRetTy, ImplItem,
                         ImplItemKind, ItemKind, Mac, MetaItem, MetaItemKind, MethodSig,
                         NestedMetaItem, NestedMetaItemKind, TraitItem, TraitItemKind, TyParam,
                         Visibility, Item, WhereClause};
 use self::syntax::codemap::{self, Spanned};
 use self::syntax::fold::{self, Folder};
 use self::syntax::parse::token::{Lit, Token};
 use self::syntax::ptr::P;
 use self::syntax::symbol::Symbol;
 use self::syntax::util::move_map::MoveMap;
 use self::syntax::util::small_vector::SmallVector;

 use self::syntax_pos::{Span, DUMMY_SP};
 use self::syntax::ast;

 struct Respanner;

 impl Respanner {
     fn fold_spanned<T>(&mut self, spanned: Spanned<T>) -> Spanned<T> {
         codemap::respan(self.new_span(spanned.span), spanned.node)
     }

     fn fold_lit(&mut self, l: Lit) -> Lit {
         // Give up on comparing literals inside of macros because there are
         // so many equivalent representations of the same literal; they are
         // tested elsewhere
         match l {
             Lit::Byte(_) => Lit::Byte(Symbol::intern("")),
             Lit::Char(_) => Lit::Char(Symbol::intern("")),
             Lit::Integer(_) => Lit::Integer(Symbol::intern("")),
             Lit::Float(_) => Lit::Float(Symbol::intern("")),
             Lit::Str_(_) => Lit::Str_(Symbol::intern("")),
             Lit::ByteStr(_) => Lit::ByteStr(Symbol::intern("")),
             _ => l,
         }
     }
 }

 impl Folder for Respanner {
     fn new_span(&mut self, _: Span) -> Span {
         DUMMY_SP
     }

     fn fold_item(&mut self, i: P<Item>) -> SmallVector<P<Item>> {
         let i = i.map(|mut i| {
             i.tokens = None;
             i
         });
         fold::noop_fold_item(i, self)
     }

     fn fold_item_kind(&mut self, i: ItemKind) -> ItemKind {
         match i {
             ItemKind::Fn(decl, unsafety, constness, abi, generics, body) => {
                 let generics = self.fold_generics(generics);
                 let decl = self.fold_fn_decl(decl);
                 let body = self.fold_block(body);
                 // default fold_item_kind does not fold this span
                 let constness = self.fold_spanned(constness);
                 ItemKind::Fn(decl, unsafety, constness, abi, generics, body)
             }
             _ => fold::noop_fold_item_kind(i, self),
         }
     }

     fn fold_expr(&mut self, e: P<Expr>) -> P<Expr> {
         e.map(|e| {
             let folded = fold::noop_fold_expr(e, self);
             Expr {
                 node: match folded.node {
                     ExprKind::Lit(l) => {
                         // default fold_expr does not fold lits
                         ExprKind::Lit(l.map(|l| self.fold_spanned(l)))
                     }
                     ExprKind::Binary(op, lhs, rhs) => {
                         // default fold_expr does not fold the op span
                         ExprKind::Binary(self.fold_spanned(op),
                                             self.fold_expr(lhs),
                                             self.fold_expr(rhs))
                     }
                     ExprKind::AssignOp(op, lhs, rhs) => {
                         // default fold_expr does not fold the op span
                         ExprKind::AssignOp(self.fold_spanned(op),
                                             self.fold_expr(lhs),
                                             self.fold_expr(rhs))
                     }
                     other => other,
                 },
                 ..folded
             }
         })
     }

     fn fold_ty_param(&mut self, tp: TyParam) -> TyParam {
         TyParam {
             // default fold_ty_param does not fold the span
             span: self.new_span(tp.span),
             ..fold::noop_fold_ty_param(tp, self)
         }
     }

     fn fold_fn_decl(&mut self, decl: P<FnDecl>) -> P<FnDecl> {
         decl.map(|FnDecl { inputs, output, variadic }| {
             FnDecl {
                 inputs: inputs.move_map(|x| self.fold_arg(x)),
                 output: match output {
                     FunctionRetTy::Ty(ty) => FunctionRetTy::Ty(self.fold_ty(ty)),
                     // default fold_fn_decl does not fold this span
                     FunctionRetTy::Default(span) => FunctionRetTy::Default(self.new_span(span)),
                 },
                 variadic: variadic,
             }
         })
     }

     fn fold_field(&mut self, field: Field) -> Field {
         Field {
             ident: codemap::respan(// default fold_field does not fold this span
                                     self.new_span(field.ident.span),
                                     self.fold_ident(field.ident.node)),
             expr: self.fold_expr(field.expr),
             span: self.new_span(field.span),
             is_shorthand: field.is_shorthand,
             attrs: ast::ThinVec::new(),
         }
     }

     fn fold_trait_item(&mut self, mut i: TraitItem) -> SmallVector<TraitItem> {
         i.tokens = None;
         let noop = fold::noop_fold_trait_item(i, self).expect_one("");
         SmallVector::one(TraitItem {
             node: match noop.node {
                 TraitItemKind::Method(sig, body) => {
                     TraitItemKind::Method(MethodSig {
                         constness: self.fold_spanned(sig.constness),
                         ..sig
                     }, body)
                 }
                 node => node,
             },
             ..noop
         })
     }

     fn fold_impl_item(&mut self, mut i: ImplItem) -> SmallVector<ImplItem> {
         i.tokens = None;
         let noop = fold::noop_fold_impl_item(i, self).expect_one("");
         SmallVector::one(ImplItem {
             node: match noop.node {
                 ImplItemKind::Method(sig, body) => {
                     ImplItemKind::Method(MethodSig {
                         constness: self.fold_spanned(sig.constness),
                         ..sig
                     }, body)
                 }
                 node => node,
             },
             ..noop
         })
     }

     fn fold_attribute(&mut self, mut at: Attribute) -> Option<Attribute> {
         at.id.0 = 0;
         fold::noop_fold_attribute(at, self)
     }

     fn fold_meta_item(&mut self, meta_item: MetaItem) -> MetaItem {
         let MetaItem { name, node, span } = meta_item;
         MetaItem {
             name: name,
             node: match node {
                 MetaItemKind::Word => MetaItemKind::Word,
                 MetaItemKind::List(nested) => {
                     MetaItemKind::List(nested.move_map(|e| self.fold_meta_list_item(e)))
                 }
                 // default fold_meta_item does not fold the value span
                 MetaItemKind::NameValue(lit) => MetaItemKind::NameValue(self.fold_spanned(lit)),
             },
             span: self.new_span(span),
         }
     }

     fn fold_meta_list_item(&mut self, list_item: NestedMetaItem) -> NestedMetaItem {
         Spanned {
             node: match list_item.node {
                 NestedMetaItemKind::MetaItem(mi) => {
                     NestedMetaItemKind::MetaItem(self.fold_meta_item(mi))
                 }
                 // default fold_meta_list_item does not fold the span
                 NestedMetaItemKind::Literal(lit) => {
                     NestedMetaItemKind::Literal(self.fold_spanned(lit))
                 }
             },
             span: self.new_span(list_item.span),
         }
     }

     // This folder is disabled by default.
     fn fold_mac(&mut self, mac: Mac) -> Mac {
         fold::noop_fold_mac(mac, self)
     }

     fn fold_token(&mut self, t: Token) -> Token {
         fold::noop_fold_token(match t {
             // default fold_token does not fold literals
             Token::Literal(lit, repr) => Token::Literal(self.fold_lit(lit), repr),
             _ => t,
         }, self)
     }

     fn fold_vis(&mut self, vis: Visibility) -> Visibility {
         fold::noop_fold_vis(match vis {
             Visibility::Crate(span, sugar) =>
                 Visibility::Crate(self.new_span(span), sugar),
             _ => vis,
         }, self)
     }

     // noop_fold_where_clause doesn't modify the span.
     fn fold_where_clause(&mut self, mut clause: WhereClause) -> WhereClause {
         clause.span = self.new_span(clause.span);
         fold::noop_fold_where_clause(clause, self)
     }
 }

 #[allow(dead_code)]
 pub fn respan_crate(krate: ast::Crate) -> ast::Crate {
     Respanner.fold_crate(krate)
 }

 #[allow(dead_code)]
 pub fn respan_expr(expr: P<ast::Expr>) -> P<ast::Expr> {
     Respanner.fold_expr(expr)
 }
	extern crate syntax;
	extern crate syntax_pos;

	use self::syntax::ast::{Attribute, Expr, ExprKind, Field, FnDecl, FunctionRetTy, ImplItem,
	ImplItemKind, ItemKind, Mac, MetaItem, MetaItemKind, MethodSig,
	NestedMetaItem, NestedMetaItemKind, TraitItem, TraitItemKind, TyParam,
	Visibility, Item, WhereClause};
	use self::syntax::codemap::{self, Spanned};
	use self::syntax::fold::{self, Folder};
	use self::syntax::parse::token::{Lit, Token};
	use self::syntax::ptr::P;
	use self::syntax::symbol::Symbol;
	use self::syntax::util::move_map::MoveMap;
	use self::syntax::util::small_vector::SmallVector;

	use self::syntax_pos::{Span, DUMMY_SP};
	use self::syntax::ast;

	struct Respanner;

	impl Respanner {
	fn fold_spanned<T>(&mut self, spanned: Spanned<T>) -> Spanned<T> {
	codemap::respan(self.new_span(spanned.span), spanned.node)
	}

	fn fold_lit(&mut self, l: Lit) -> Lit {
	// Give up on comparing literals inside of macros because there are
	// so many equivalent representations of the same literal; they are
	// tested elsewhere
	match l {
	Lit::Byte(_) => Lit::Byte(Symbol::intern("")),
	Lit::Char(_) => Lit::Char(Symbol::intern("")),
	Lit::Integer(_) => Lit::Integer(Symbol::intern("")),
	Lit::Float(_) => Lit::Float(Symbol::intern("")),
	Lit::Str_(_) => Lit::Str_(Symbol::intern("")),
	Lit::ByteStr(_) => Lit::ByteStr(Symbol::intern("")),
	_ => l,
	}
	}
	}

	impl Folder for Respanner {
	fn new_span(&mut self, _: Span) -> Span {
	DUMMY_SP
	}

	fn fold_item(&mut self, i: P<Item>) -> SmallVector<P<Item>> {
	let i = i.map(\|mut i\| {
	i.tokens = None;
	i
	});
	fold::noop_fold_item(i, self)
	}

	fn fold_item_kind(&mut self, i: ItemKind) -> ItemKind {
	match i {
	ItemKind::Fn(decl, unsafety, constness, abi, generics, body) => {
	let generics = self.fold_generics(generics);
	let decl = self.fold_fn_decl(decl);
	let body = self.fold_block(body);
	// default fold_item_kind does not fold this span
	let constness = self.fold_spanned(constness);
	ItemKind::Fn(decl, unsafety, constness, abi, generics, body)
	}
	_ => fold::noop_fold_item_kind(i, self),
	}
	}

	fn fold_expr(&mut self, e: P<Expr>) -> P<Expr> {
	e.map(\|e\| {
	let folded = fold::noop_fold_expr(e, self);
	Expr {
	node: match folded.node {
	ExprKind::Lit(l) => {
	// default fold_expr does not fold lits
	ExprKind::Lit(l.map(\|l\| self.fold_spanned(l)))
	}
	ExprKind::Binary(op, lhs, rhs) => {
	// default fold_expr does not fold the op span
	ExprKind::Binary(self.fold_spanned(op),
	self.fold_expr(lhs),
	self.fold_expr(rhs))
	}
	ExprKind::AssignOp(op, lhs, rhs) => {
	// default fold_expr does not fold the op span
	ExprKind::AssignOp(self.fold_spanned(op),
	self.fold_expr(lhs),
	self.fold_expr(rhs))
	}
	other => other,
	},
	..folded
	}
	})
	}

	fn fold_ty_param(&mut self, tp: TyParam) -> TyParam {
	TyParam {
	// default fold_ty_param does not fold the span
	span: self.new_span(tp.span),
	..fold::noop_fold_ty_param(tp, self)
	}
	}

	fn fold_fn_decl(&mut self, decl: P<FnDecl>) -> P<FnDecl> {
	decl.map(\|FnDecl { inputs, output, variadic }\| {
	FnDecl {
	inputs: inputs.move_map(\|x\| self.fold_arg(x)),
	output: match output {
	FunctionRetTy::Ty(ty) => FunctionRetTy::Ty(self.fold_ty(ty)),
	// default fold_fn_decl does not fold this span
	FunctionRetTy::Default(span) => FunctionRetTy::Default(self.new_span(span)),
	},
	variadic: variadic,
	}
	})
	}

	fn fold_field(&mut self, field: Field) -> Field {
	Field {
	ident: codemap::respan(// default fold_field does not fold this span
	self.new_span(field.ident.span),
	self.fold_ident(field.ident.node)),
	expr: self.fold_expr(field.expr),
	span: self.new_span(field.span),
	is_shorthand: field.is_shorthand,
	attrs: ast::ThinVec::new(),
	}
	}

	fn fold_trait_item(&mut self, mut i: TraitItem) -> SmallVector<TraitItem> {
	i.tokens = None;
	let noop = fold::noop_fold_trait_item(i, self).expect_one("");
	SmallVector::one(TraitItem {
	node: match noop.node {
	TraitItemKind::Method(sig, body) => {
	TraitItemKind::Method(MethodSig {
	constness: self.fold_spanned(sig.constness),
	..sig
	}, body)
	}
	node => node,
	},
	..noop
	})
	}

	fn fold_impl_item(&mut self, mut i: ImplItem) -> SmallVector<ImplItem> {
	i.tokens = None;
	let noop = fold::noop_fold_impl_item(i, self).expect_one("");
	SmallVector::one(ImplItem {
	node: match noop.node {
	ImplItemKind::Method(sig, body) => {
	ImplItemKind::Method(MethodSig {
	constness: self.fold_spanned(sig.constness),
	..sig
	}, body)
	}
	node => node,
	},
	..noop
	})
	}

	fn fold_attribute(&mut self, mut at: Attribute) -> Option<Attribute> {
	at.id.0 = 0;
	fold::noop_fold_attribute(at, self)
	}

	fn fold_meta_item(&mut self, meta_item: MetaItem) -> MetaItem {
	let MetaItem { name, node, span } = meta_item;
	MetaItem {
	name: name,
	node: match node {
	MetaItemKind::Word => MetaItemKind::Word,
	MetaItemKind::List(nested) => {
	MetaItemKind::List(nested.move_map(\|e\| self.fold_meta_list_item(e)))
	}
	// default fold_meta_item does not fold the value span
	MetaItemKind::NameValue(lit) => MetaItemKind::NameValue(self.fold_spanned(lit)),
	},
	span: self.new_span(span),
	}
	}

	fn fold_meta_list_item(&mut self, list_item: NestedMetaItem) -> NestedMetaItem {
	Spanned {
	node: match list_item.node {
	NestedMetaItemKind::MetaItem(mi) => {
	NestedMetaItemKind::MetaItem(self.fold_meta_item(mi))
	}
	// default fold_meta_list_item does not fold the span
	NestedMetaItemKind::Literal(lit) => {
	NestedMetaItemKind::Literal(self.fold_spanned(lit))
	}
	},
	span: self.new_span(list_item.span),
	}
	}

	// This folder is disabled by default.
	fn fold_mac(&mut self, mac: Mac) -> Mac {
	fold::noop_fold_mac(mac, self)
	}

	fn fold_token(&mut self, t: Token) -> Token {
	fold::noop_fold_token(match t {
	// default fold_token does not fold literals
	Token::Literal(lit, repr) => Token::Literal(self.fold_lit(lit), repr),
	_ => t,
	}, self)
	}

	fn fold_vis(&mut self, vis: Visibility) -> Visibility {
	fold::noop_fold_vis(match vis {
	Visibility::Crate(span, sugar) =>
	Visibility::Crate(self.new_span(span), sugar),
	_ => vis,
	}, self)
	}

	// noop_fold_where_clause doesn't modify the span.
	fn fold_where_clause(&mut self, mut clause: WhereClause) -> WhereClause {
	clause.span = self.new_span(clause.span);
	fold::noop_fold_where_clause(clause, self)
	}
	}

	#[allow(dead_code)]
	pub fn respan_crate(krate: ast::Crate) -> ast::Crate {
	Respanner.fold_crate(krate)
	}

	#[allow(dead_code)]
	pub fn respan_expr(expr: P<ast::Expr>) -> P<ast::Expr> {
	Respanner.fold_expr(expr)
	}