vendor/rustc-ap-syntax/util/parser.rs - toolchain/rustc - Git at Google

 use crate::parse::token::{Token, BinOpToken};
 use crate::symbol::keywords;
 use crate::ast::{self, BinOpKind};

 /// Associative operator with precedence.
 ///
 /// This is the enum which specifies operator precedence and fixity to the parser.
 #[derive(PartialEq, Debug)]
 pub enum AssocOp {
     /// `+`
     Add,
     /// `-`
     Subtract,
     /// `*`
     Multiply,
     /// `/`
     Divide,
     /// `%`
     Modulus,
     /// `&&`
     LAnd,
     /// `||`
     LOr,
     /// `^`
     BitXor,
     /// `&`
     BitAnd,
     /// `|`
     BitOr,
     /// `<<`
     ShiftLeft,
     /// `>>`
     ShiftRight,
     /// `==`
     Equal,
     /// `<`
     Less,
     /// `<=`
     LessEqual,
     /// `!=`
     NotEqual,
     /// `>`
     Greater,
     /// `>=`
     GreaterEqual,
     /// `=`
     Assign,
     /// `<-`
     ObsoleteInPlace,
     /// `?=` where ? is one of the BinOpToken
     AssignOp(BinOpToken),
     /// `as`
     As,
     /// `..` range
     DotDot,
     /// `..=` range
     DotDotEq,
     /// `:`
     Colon,
 }

 #[derive(PartialEq, Debug)]
 pub enum Fixity {
     /// The operator is left-associative
     Left,
     /// The operator is right-associative
     Right,
     /// The operator is not associative
     None
 }

 impl AssocOp {
     /// Creates a new AssocOP from a token
     pub fn from_token(t: &Token) -> Option<AssocOp> {
         use AssocOp::*;
         match *t {
             Token::BinOpEq(k) => Some(AssignOp(k)),
             Token::LArrow => Some(ObsoleteInPlace),
             Token::Eq => Some(Assign),
             Token::BinOp(BinOpToken::Star) => Some(Multiply),
             Token::BinOp(BinOpToken::Slash) => Some(Divide),
             Token::BinOp(BinOpToken::Percent) => Some(Modulus),
             Token::BinOp(BinOpToken::Plus) => Some(Add),
             Token::BinOp(BinOpToken::Minus) => Some(Subtract),
             Token::BinOp(BinOpToken::Shl) => Some(ShiftLeft),
             Token::BinOp(BinOpToken::Shr) => Some(ShiftRight),
             Token::BinOp(BinOpToken::And) => Some(BitAnd),
             Token::BinOp(BinOpToken::Caret) => Some(BitXor),
             Token::BinOp(BinOpToken::Or) => Some(BitOr),
             Token::Lt => Some(Less),
             Token::Le => Some(LessEqual),
             Token::Ge => Some(GreaterEqual),
             Token::Gt => Some(Greater),
             Token::EqEq => Some(Equal),
             Token::Ne => Some(NotEqual),
             Token::AndAnd => Some(LAnd),
             Token::OrOr => Some(LOr),
             Token::DotDot => Some(DotDot),
             Token::DotDotEq => Some(DotDotEq),
             // DotDotDot is no longer supported, but we need some way to display the error
             Token::DotDotDot => Some(DotDotEq),
             Token::Colon => Some(Colon),
             _ if t.is_keyword(keywords::As) => Some(As),
             _ => None
         }
     }

     /// Creates a new AssocOp from ast::BinOpKind.
     pub fn from_ast_binop(op: BinOpKind) -> Self {
         use AssocOp::*;
         match op {
             BinOpKind::Lt => Less,
             BinOpKind::Gt => Greater,
             BinOpKind::Le => LessEqual,
             BinOpKind::Ge => GreaterEqual,
             BinOpKind::Eq => Equal,
             BinOpKind::Ne => NotEqual,
             BinOpKind::Mul => Multiply,
             BinOpKind::Div => Divide,
             BinOpKind::Rem => Modulus,
             BinOpKind::Add => Add,
             BinOpKind::Sub => Subtract,
             BinOpKind::Shl => ShiftLeft,
             BinOpKind::Shr => ShiftRight,
             BinOpKind::BitAnd => BitAnd,
             BinOpKind::BitXor => BitXor,
             BinOpKind::BitOr => BitOr,
             BinOpKind::And => LAnd,
             BinOpKind::Or => LOr
         }
     }

     /// Gets the precedence of this operator
     pub fn precedence(&self) -> usize {
         use AssocOp::*;
         match *self {
             As | Colon => 14,
             Multiply | Divide | Modulus => 13,
             Add | Subtract => 12,
             ShiftLeft | ShiftRight => 11,
             BitAnd => 10,
             BitXor => 9,
             BitOr => 8,
             Less | Greater | LessEqual | GreaterEqual | Equal | NotEqual => 7,
             LAnd => 6,
             LOr => 5,
             DotDot | DotDotEq => 4,
             ObsoleteInPlace => 3,
             Assign | AssignOp(_) => 2,
         }
     }

     /// Gets the fixity of this operator
     pub fn fixity(&self) -> Fixity {
         use AssocOp::*;
         // NOTE: it is a bug to have an operators that has same precedence but different fixities!
         match *self {
             ObsoleteInPlace | Assign | AssignOp(_) => Fixity::Right,
             As | Multiply | Divide | Modulus | Add | Subtract | ShiftLeft | ShiftRight | BitAnd |
             BitXor | BitOr | Less | Greater | LessEqual | GreaterEqual | Equal | NotEqual |
             LAnd | LOr | Colon => Fixity::Left,
             DotDot | DotDotEq => Fixity::None
         }
     }

     pub fn is_comparison(&self) -> bool {
         use AssocOp::*;
         match *self {
             Less | Greater | LessEqual | GreaterEqual | Equal | NotEqual => true,
             ObsoleteInPlace | Assign | AssignOp(_) | As | Multiply | Divide | Modulus | Add |
             Subtract | ShiftLeft | ShiftRight | BitAnd | BitXor | BitOr | LAnd | LOr |
             DotDot | DotDotEq | Colon => false
         }
     }

     pub fn is_assign_like(&self) -> bool {
         use AssocOp::*;
         match *self {
             Assign | AssignOp(_) | ObsoleteInPlace => true,
             Less | Greater | LessEqual | GreaterEqual | Equal | NotEqual | As | Multiply | Divide |
             Modulus | Add | Subtract | ShiftLeft | ShiftRight | BitAnd | BitXor | BitOr | LAnd |
             LOr | DotDot | DotDotEq | Colon => false
         }
     }

     pub fn to_ast_binop(&self) -> Option<BinOpKind> {
         use AssocOp::*;
         match *self {
             Less => Some(BinOpKind::Lt),
             Greater => Some(BinOpKind::Gt),
             LessEqual => Some(BinOpKind::Le),
             GreaterEqual => Some(BinOpKind::Ge),
             Equal => Some(BinOpKind::Eq),
             NotEqual => Some(BinOpKind::Ne),
             Multiply => Some(BinOpKind::Mul),
             Divide => Some(BinOpKind::Div),
             Modulus => Some(BinOpKind::Rem),
             Add => Some(BinOpKind::Add),
             Subtract => Some(BinOpKind::Sub),
             ShiftLeft => Some(BinOpKind::Shl),
             ShiftRight => Some(BinOpKind::Shr),
             BitAnd => Some(BinOpKind::BitAnd),
             BitXor => Some(BinOpKind::BitXor),
             BitOr => Some(BinOpKind::BitOr),
             LAnd => Some(BinOpKind::And),
             LOr => Some(BinOpKind::Or),
             ObsoleteInPlace | Assign | AssignOp(_) | As | DotDot | DotDotEq | Colon => None
         }
     }
 }

 pub const PREC_RESET: i8 = -100;
 pub const PREC_CLOSURE: i8 = -40;
 pub const PREC_JUMP: i8 = -30;
 pub const PREC_RANGE: i8 = -10;
 // The range 2 ... 14 is reserved for AssocOp binary operator precedences.
 pub const PREC_PREFIX: i8 = 50;
 pub const PREC_POSTFIX: i8 = 60;
 pub const PREC_PAREN: i8 = 99;
 pub const PREC_FORCE_PAREN: i8 = 100;

 #[derive(Debug, Clone, Copy)]
 pub enum ExprPrecedence {
     Closure,
     Break,
     Continue,
     Ret,
     Yield,

     Range,

     Binary(BinOpKind),

     ObsoleteInPlace,
     Cast,
     Type,

     Assign,
     AssignOp,

     Box,
     AddrOf,
     Unary,

     Call,
     MethodCall,
     Field,
     Index,
     Try,
     InlineAsm,
     Mac,

     Array,
     Repeat,
     Tup,
     Lit,
     Path,
     Paren,
     If,
     IfLet,
     While,
     WhileLet,
     ForLoop,
     Loop,
     Match,
     Block,
     TryBlock,
     Struct,
     Async,
     Err,
 }

 impl ExprPrecedence {
     pub fn order(self) -> i8 {
         match self {
             ExprPrecedence::Closure => PREC_CLOSURE,

             ExprPrecedence::Break |
             ExprPrecedence::Continue |
             ExprPrecedence::Ret |
             ExprPrecedence::Yield => PREC_JUMP,

             // `Range` claims to have higher precedence than `Assign`, but `x .. x = x` fails to
             // parse, instead of parsing as `(x .. x) = x`.  Giving `Range` a lower precedence
             // ensures that `pprust` will add parentheses in the right places to get the desired
             // parse.
             ExprPrecedence::Range => PREC_RANGE,

             // Binop-like expr kinds, handled by `AssocOp`.
             ExprPrecedence::Binary(op) => AssocOp::from_ast_binop(op).precedence() as i8,
             ExprPrecedence::ObsoleteInPlace => AssocOp::ObsoleteInPlace.precedence() as i8,
             ExprPrecedence::Cast => AssocOp::As.precedence() as i8,
             ExprPrecedence::Type => AssocOp::Colon.precedence() as i8,

             ExprPrecedence::Assign |
             ExprPrecedence::AssignOp => AssocOp::Assign.precedence() as i8,

             // Unary, prefix
             ExprPrecedence::Box |
             ExprPrecedence::AddrOf |
             ExprPrecedence::Unary => PREC_PREFIX,

             // Unary, postfix
             ExprPrecedence::Call |
             ExprPrecedence::MethodCall |
             ExprPrecedence::Field |
             ExprPrecedence::Index |
             ExprPrecedence::Try |
             ExprPrecedence::InlineAsm |
             ExprPrecedence::Mac => PREC_POSTFIX,

             // Never need parens
             ExprPrecedence::Array |
             ExprPrecedence::Repeat |
             ExprPrecedence::Tup |
             ExprPrecedence::Lit |
             ExprPrecedence::Path |
             ExprPrecedence::Paren |
             ExprPrecedence::If |
             ExprPrecedence::IfLet |
             ExprPrecedence::While |
             ExprPrecedence::WhileLet |
             ExprPrecedence::ForLoop |
             ExprPrecedence::Loop |
             ExprPrecedence::Match |
             ExprPrecedence::Block |
             ExprPrecedence::TryBlock |
             ExprPrecedence::Async |
             ExprPrecedence::Struct |
             ExprPrecedence::Err => PREC_PAREN,
         }
     }
 }


 /// Expressions that syntactically contain an "exterior" struct literal i.e., not surrounded by any
 /// parens or other delimiters, e.g., `X { y: 1 }`, `X { y: 1 }.method()`, `foo == X { y: 1 }` and
 /// `X { y: 1 } == foo` all do, but `(X { y: 1 }) == foo` does not.
 pub fn contains_exterior_struct_lit(value: &ast::Expr) -> bool {
     match value.node {
         ast::ExprKind::Struct(..) => true,

         ast::ExprKind::Assign(ref lhs, ref rhs) |
         ast::ExprKind::AssignOp(_, ref lhs, ref rhs) |
         ast::ExprKind::Binary(_, ref lhs, ref rhs) => {
             // X { y: 1 } + X { y: 2 }
             contains_exterior_struct_lit(&lhs) || contains_exterior_struct_lit(&rhs)
         }
         ast::ExprKind::Unary(_, ref x) |
         ast::ExprKind::Cast(ref x, _) |
         ast::ExprKind::Type(ref x, _) |
         ast::ExprKind::Field(ref x, _) |
         ast::ExprKind::Index(ref x, _) => {
             // &X { y: 1 }, X { y: 1 }.y
             contains_exterior_struct_lit(&x)
         }

         ast::ExprKind::MethodCall(.., ref exprs) => {
             // X { y: 1 }.bar(...)
             contains_exterior_struct_lit(&exprs[0])
         }

         _ => false,
     }
 }
	use crate::parse::token::{Token, BinOpToken};
	use crate::symbol::keywords;
	use crate::ast::{self, BinOpKind};

	/// Associative operator with precedence.
	///
	/// This is the enum which specifies operator precedence and fixity to the parser.
	#[derive(PartialEq, Debug)]
	pub enum AssocOp {
	/// `+`
	Add,
	/// `-`
	Subtract,
	/// `*`
	Multiply,
	/// `/`
	Divide,
	/// `%`
	Modulus,
	/// `&&`
	LAnd,
	/// `\|\|`
	LOr,
	/// `^`
	BitXor,
	/// `&`
	BitAnd,
	/// `\|`
	BitOr,
	/// `<<`
	ShiftLeft,
	/// `>>`
	ShiftRight,
	/// `==`
	Equal,
	/// `<`
	Less,
	/// `<=`
	LessEqual,
	/// `!=`
	NotEqual,
	/// `>`
	Greater,
	/// `>=`
	GreaterEqual,
	/// `=`
	Assign,
	/// `<-`
	ObsoleteInPlace,
	/// `?=` where ? is one of the BinOpToken
	AssignOp(BinOpToken),
	/// `as`
	As,
	/// `..` range
	DotDot,
	/// `..=` range
	DotDotEq,
	/// `:`
	Colon,
	}

	#[derive(PartialEq, Debug)]
	pub enum Fixity {
	/// The operator is left-associative
	Left,
	/// The operator is right-associative
	Right,
	/// The operator is not associative
	None
	}

	impl AssocOp {
	/// Creates a new AssocOP from a token
	pub fn from_token(t: &Token) -> Option<AssocOp> {
	use AssocOp::*;
	match *t {
	Token::BinOpEq(k) => Some(AssignOp(k)),
	Token::LArrow => Some(ObsoleteInPlace),
	Token::Eq => Some(Assign),
	Token::BinOp(BinOpToken::Star) => Some(Multiply),
	Token::BinOp(BinOpToken::Slash) => Some(Divide),
	Token::BinOp(BinOpToken::Percent) => Some(Modulus),
	Token::BinOp(BinOpToken::Plus) => Some(Add),
	Token::BinOp(BinOpToken::Minus) => Some(Subtract),
	Token::BinOp(BinOpToken::Shl) => Some(ShiftLeft),
	Token::BinOp(BinOpToken::Shr) => Some(ShiftRight),
	Token::BinOp(BinOpToken::And) => Some(BitAnd),
	Token::BinOp(BinOpToken::Caret) => Some(BitXor),
	Token::BinOp(BinOpToken::Or) => Some(BitOr),
	Token::Lt => Some(Less),
	Token::Le => Some(LessEqual),
	Token::Ge => Some(GreaterEqual),
	Token::Gt => Some(Greater),
	Token::EqEq => Some(Equal),
	Token::Ne => Some(NotEqual),
	Token::AndAnd => Some(LAnd),
	Token::OrOr => Some(LOr),
	Token::DotDot => Some(DotDot),
	Token::DotDotEq => Some(DotDotEq),
	// DotDotDot is no longer supported, but we need some way to display the error
	Token::DotDotDot => Some(DotDotEq),
	Token::Colon => Some(Colon),
	_ if t.is_keyword(keywords::As) => Some(As),
	_ => None
	}
	}

	/// Creates a new AssocOp from ast::BinOpKind.
	pub fn from_ast_binop(op: BinOpKind) -> Self {
	use AssocOp::*;
	match op {
	BinOpKind::Lt => Less,
	BinOpKind::Gt => Greater,
	BinOpKind::Le => LessEqual,
	BinOpKind::Ge => GreaterEqual,
	BinOpKind::Eq => Equal,
	BinOpKind::Ne => NotEqual,
	BinOpKind::Mul => Multiply,
	BinOpKind::Div => Divide,
	BinOpKind::Rem => Modulus,
	BinOpKind::Add => Add,
	BinOpKind::Sub => Subtract,
	BinOpKind::Shl => ShiftLeft,
	BinOpKind::Shr => ShiftRight,
	BinOpKind::BitAnd => BitAnd,
	BinOpKind::BitXor => BitXor,
	BinOpKind::BitOr => BitOr,
	BinOpKind::And => LAnd,
	BinOpKind::Or => LOr
	}
	}

	/// Gets the precedence of this operator
	pub fn precedence(&self) -> usize {
	use AssocOp::*;
	match *self {
	As \| Colon => 14,
	Multiply \| Divide \| Modulus => 13,
	Add \| Subtract => 12,
	ShiftLeft \| ShiftRight => 11,
	BitAnd => 10,
	BitXor => 9,
	BitOr => 8,
	Less \| Greater \| LessEqual \| GreaterEqual \| Equal \| NotEqual => 7,
	LAnd => 6,
	LOr => 5,
	DotDot \| DotDotEq => 4,
	ObsoleteInPlace => 3,
	Assign \| AssignOp(_) => 2,
	}
	}

	/// Gets the fixity of this operator
	pub fn fixity(&self) -> Fixity {
	use AssocOp::*;
	// NOTE: it is a bug to have an operators that has same precedence but different fixities!
	match *self {
	ObsoleteInPlace \| Assign \| AssignOp(_) => Fixity::Right,
	As \| Multiply \| Divide \| Modulus \| Add \| Subtract \| ShiftLeft \| ShiftRight \| BitAnd \|
	BitXor \| BitOr \| Less \| Greater \| LessEqual \| GreaterEqual \| Equal \| NotEqual \|
	LAnd \| LOr \| Colon => Fixity::Left,
	DotDot \| DotDotEq => Fixity::None
	}
	}

	pub fn is_comparison(&self) -> bool {
	use AssocOp::*;
	match *self {
	Less \| Greater \| LessEqual \| GreaterEqual \| Equal \| NotEqual => true,
	ObsoleteInPlace \| Assign \| AssignOp(_) \| As \| Multiply \| Divide \| Modulus \| Add \|
	Subtract \| ShiftLeft \| ShiftRight \| BitAnd \| BitXor \| BitOr \| LAnd \| LOr \|
	DotDot \| DotDotEq \| Colon => false
	}
	}

	pub fn is_assign_like(&self) -> bool {
	use AssocOp::*;
	match *self {
	Assign \| AssignOp(_) \| ObsoleteInPlace => true,
	Less \| Greater \| LessEqual \| GreaterEqual \| Equal \| NotEqual \| As \| Multiply \| Divide \|
	Modulus \| Add \| Subtract \| ShiftLeft \| ShiftRight \| BitAnd \| BitXor \| BitOr \| LAnd \|
	LOr \| DotDot \| DotDotEq \| Colon => false
	}
	}

	pub fn to_ast_binop(&self) -> Option<BinOpKind> {
	use AssocOp::*;
	match *self {
	Less => Some(BinOpKind::Lt),
	Greater => Some(BinOpKind::Gt),
	LessEqual => Some(BinOpKind::Le),
	GreaterEqual => Some(BinOpKind::Ge),
	Equal => Some(BinOpKind::Eq),
	NotEqual => Some(BinOpKind::Ne),
	Multiply => Some(BinOpKind::Mul),
	Divide => Some(BinOpKind::Div),
	Modulus => Some(BinOpKind::Rem),
	Add => Some(BinOpKind::Add),
	Subtract => Some(BinOpKind::Sub),
	ShiftLeft => Some(BinOpKind::Shl),
	ShiftRight => Some(BinOpKind::Shr),
	BitAnd => Some(BinOpKind::BitAnd),
	BitXor => Some(BinOpKind::BitXor),
	BitOr => Some(BinOpKind::BitOr),
	LAnd => Some(BinOpKind::And),
	LOr => Some(BinOpKind::Or),
	ObsoleteInPlace \| Assign \| AssignOp(_) \| As \| DotDot \| DotDotEq \| Colon => None
	}
	}
	}

	pub const PREC_RESET: i8 = -100;
	pub const PREC_CLOSURE: i8 = -40;
	pub const PREC_JUMP: i8 = -30;
	pub const PREC_RANGE: i8 = -10;
	// The range 2 ... 14 is reserved for AssocOp binary operator precedences.
	pub const PREC_PREFIX: i8 = 50;
	pub const PREC_POSTFIX: i8 = 60;
	pub const PREC_PAREN: i8 = 99;
	pub const PREC_FORCE_PAREN: i8 = 100;

	#[derive(Debug, Clone, Copy)]
	pub enum ExprPrecedence {
	Closure,
	Break,
	Continue,
	Ret,
	Yield,

	Range,

	Binary(BinOpKind),

	ObsoleteInPlace,
	Cast,
	Type,

	Assign,
	AssignOp,

	Box,
	AddrOf,
	Unary,

	Call,
	MethodCall,
	Field,
	Index,
	Try,
	InlineAsm,
	Mac,

	Array,
	Repeat,
	Tup,
	Lit,
	Path,
	Paren,
	If,
	IfLet,
	While,
	WhileLet,
	ForLoop,
	Loop,
	Match,
	Block,
	TryBlock,
	Struct,
	Async,
	Err,
	}

	impl ExprPrecedence {
	pub fn order(self) -> i8 {
	match self {
	ExprPrecedence::Closure => PREC_CLOSURE,

	ExprPrecedence::Break \|
	ExprPrecedence::Continue \|
	ExprPrecedence::Ret \|
	ExprPrecedence::Yield => PREC_JUMP,

	// `Range` claims to have higher precedence than `Assign`, but `x .. x = x` fails to
	// parse, instead of parsing as `(x .. x) = x`. Giving `Range` a lower precedence
	// ensures that `pprust` will add parentheses in the right places to get the desired
	// parse.
	ExprPrecedence::Range => PREC_RANGE,

	// Binop-like expr kinds, handled by `AssocOp`.
	ExprPrecedence::Binary(op) => AssocOp::from_ast_binop(op).precedence() as i8,
	ExprPrecedence::ObsoleteInPlace => AssocOp::ObsoleteInPlace.precedence() as i8,
	ExprPrecedence::Cast => AssocOp::As.precedence() as i8,
	ExprPrecedence::Type => AssocOp::Colon.precedence() as i8,

	ExprPrecedence::Assign \|
	ExprPrecedence::AssignOp => AssocOp::Assign.precedence() as i8,

	// Unary, prefix
	ExprPrecedence::Box \|
	ExprPrecedence::AddrOf \|
	ExprPrecedence::Unary => PREC_PREFIX,

	// Unary, postfix
	ExprPrecedence::Call \|
	ExprPrecedence::MethodCall \|
	ExprPrecedence::Field \|
	ExprPrecedence::Index \|
	ExprPrecedence::Try \|
	ExprPrecedence::InlineAsm \|
	ExprPrecedence::Mac => PREC_POSTFIX,

	// Never need parens
	ExprPrecedence::Array \|
	ExprPrecedence::Repeat \|
	ExprPrecedence::Tup \|
	ExprPrecedence::Lit \|
	ExprPrecedence::Path \|
	ExprPrecedence::Paren \|
	ExprPrecedence::If \|
	ExprPrecedence::IfLet \|
	ExprPrecedence::While \|
	ExprPrecedence::WhileLet \|
	ExprPrecedence::ForLoop \|
	ExprPrecedence::Loop \|
	ExprPrecedence::Match \|
	ExprPrecedence::Block \|
	ExprPrecedence::TryBlock \|
	ExprPrecedence::Async \|
	ExprPrecedence::Struct \|
	ExprPrecedence::Err => PREC_PAREN,
	}
	}
	}


	/// Expressions that syntactically contain an "exterior" struct literal i.e., not surrounded by any
	/// parens or other delimiters, e.g., `X { y: 1 }`, `X { y: 1 }.method()`, `foo == X { y: 1 }` and
	/// `X { y: 1 } == foo` all do, but `(X { y: 1 }) == foo` does not.
	pub fn contains_exterior_struct_lit(value: &ast::Expr) -> bool {
	match value.node {
	ast::ExprKind::Struct(..) => true,

	ast::ExprKind::Assign(ref lhs, ref rhs) \|
	ast::ExprKind::AssignOp(_, ref lhs, ref rhs) \|
	ast::ExprKind::Binary(_, ref lhs, ref rhs) => {
	// X { y: 1 } + X { y: 2 }
	contains_exterior_struct_lit(&lhs) \|\| contains_exterior_struct_lit(&rhs)
	}
	ast::ExprKind::Unary(_, ref x) \|
	ast::ExprKind::Cast(ref x, _) \|
	ast::ExprKind::Type(ref x, _) \|
	ast::ExprKind::Field(ref x, _) \|
	ast::ExprKind::Index(ref x, _) => {
	// &X { y: 1 }, X { y: 1 }.y
	contains_exterior_struct_lit(&x)
	}

	ast::ExprKind::MethodCall(.., ref exprs) => {
	// X { y: 1 }.bar(...)
	contains_exterior_struct_lit(&exprs[0])
	}

	_ => false,
	}
	}