src/cmd/compile/internal/syntax/nodes.go - go - Git at Google

 // Copyright 2016 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package syntax

 // ----------------------------------------------------------------------------
 // Nodes

 type Node interface {
 	// Pos() returns the position associated with the node as follows:
 	// 1) The position of a node representing a terminal syntax production
 	//    (Name, BasicLit, etc.) is the position of the respective production
 	//    in the source.
 	// 2) The position of a node representing a non-terminal production
 	//    (IndexExpr, IfStmt, etc.) is the position of a token uniquely
 	//    associated with that production; usually the left-most one
 	//    ('[' for IndexExpr, 'if' for IfStmt, etc.)
 	Pos() Pos
 	aNode()
 }

 type node struct {
 	// commented out for now since not yet used
 	// doc  *Comment // nil means no comment(s) attached
 	pos Pos
 }

 func (n *node) Pos() Pos { return n.pos }
 func (*node) aNode()     {}

 // ----------------------------------------------------------------------------
 // Files

 // package PkgName; DeclList[0], DeclList[1], ...
 type File struct {
 	Pragma   Pragma
 	PkgName  *Name
 	DeclList []Decl
 	Lines    uint
 	node
 }

 // ----------------------------------------------------------------------------
 // Declarations

 type (
 	Decl interface {
 		Node
 		aDecl()
 	}

 	//              Path
 	// LocalPkgName Path
 	ImportDecl struct {
 		Group        *Group // nil means not part of a group
 		Pragma       Pragma
 		LocalPkgName *Name // including "."; nil means no rename present
 		Path         *BasicLit
 		decl
 	}

 	// NameList
 	// NameList      = Values
 	// NameList Type = Values
 	ConstDecl struct {
 		Group    *Group // nil means not part of a group
 		Pragma   Pragma
 		NameList []*Name
 		Type     Expr // nil means no type
 		Values   Expr // nil means no values
 		decl
 	}

 	// Name Type
 	TypeDecl struct {
 		Group  *Group // nil means not part of a group
 		Pragma Pragma
 		Name   *Name
 		Alias  bool
 		Type   Expr
 		decl
 	}

 	// NameList Type
 	// NameList Type = Values
 	// NameList      = Values
 	VarDecl struct {
 		Group    *Group // nil means not part of a group
 		Pragma   Pragma
 		NameList []*Name
 		Type     Expr // nil means no type
 		Values   Expr // nil means no values
 		decl
 	}

 	// func          Name Type { Body }
 	// func          Name Type
 	// func Receiver Name Type { Body }
 	// func Receiver Name Type
 	FuncDecl struct {
 		Pragma Pragma
 		Recv   *Field // nil means regular function
 		Name   *Name
 		Type   *FuncType
 		Body   *BlockStmt // nil means no body (forward declaration)
 		decl
 	}
 )

 type decl struct{ node }

 func (*decl) aDecl() {}

 // All declarations belonging to the same group point to the same Group node.
 type Group struct {
 	dummy int // not empty so we are guaranteed different Group instances
 }

 // ----------------------------------------------------------------------------
 // Expressions

 type (
 	Expr interface {
 		Node
 		aExpr()
 	}

 	// Placeholder for an expression that failed to parse
 	// correctly and where we can't provide a better node.
 	BadExpr struct {
 		expr
 	}

 	// Value
 	Name struct {
 		Value string
 		expr
 	}

 	// Value
 	BasicLit struct {
 		Value string
 		Kind  LitKind
 		Bad   bool // true means the literal Value has syntax errors
 		expr
 	}

 	// Type { ElemList[0], ElemList[1], ... }
 	CompositeLit struct {
 		Type     Expr // nil means no literal type
 		ElemList []Expr
 		NKeys    int // number of elements with keys
 		Rbrace   Pos
 		expr
 	}

 	// Key: Value
 	KeyValueExpr struct {
 		Key, Value Expr
 		expr
 	}

 	// func Type { Body }
 	FuncLit struct {
 		Type *FuncType
 		Body *BlockStmt
 		expr
 	}

 	// (X)
 	ParenExpr struct {
 		X Expr
 		expr
 	}

 	// X.Sel
 	SelectorExpr struct {
 		X   Expr
 		Sel *Name
 		expr
 	}

 	// X[Index]
 	IndexExpr struct {
 		X     Expr
 		Index Expr
 		expr
 	}

 	// X[Index[0] : Index[1] : Index[2]]
 	SliceExpr struct {
 		X     Expr
 		Index [3]Expr
 		// Full indicates whether this is a simple or full slice expression.
 		// In a valid AST, this is equivalent to Index[2] != nil.
 		// TODO(mdempsky): This is only needed to report the "3-index
 		// slice of string" error when Index[2] is missing.
 		Full bool
 		expr
 	}

 	// X.(Type)
 	AssertExpr struct {
 		X    Expr
 		Type Expr
 		expr
 	}

 	// X.(type)
 	// Lhs := X.(type)
 	TypeSwitchGuard struct {
 		Lhs *Name // nil means no Lhs :=
 		X   Expr  // X.(type)
 		expr
 	}

 	Operation struct {
 		Op   Operator
 		X, Y Expr // Y == nil means unary expression
 		expr
 	}

 	// Fun(ArgList[0], ArgList[1], ...)
 	CallExpr struct {
 		Fun     Expr
 		ArgList []Expr // nil means no arguments
 		HasDots bool   // last argument is followed by ...
 		expr
 	}

 	// ElemList[0], ElemList[1], ...
 	ListExpr struct {
 		ElemList []Expr
 		expr
 	}

 	// [Len]Elem
 	ArrayType struct {
 		// TODO(gri) consider using Name{"..."} instead of nil (permits attaching of comments)
 		Len  Expr // nil means Len is ...
 		Elem Expr
 		expr
 	}

 	// []Elem
 	SliceType struct {
 		Elem Expr
 		expr
 	}

 	// ...Elem
 	DotsType struct {
 		Elem Expr
 		expr
 	}

 	// struct { FieldList[0] TagList[0]; FieldList[1] TagList[1]; ... }
 	StructType struct {
 		FieldList []*Field
 		TagList   []*BasicLit // i >= len(TagList) || TagList[i] == nil means no tag for field i
 		expr
 	}

 	// Name Type
 	//      Type
 	Field struct {
 		Name *Name // nil means anonymous field/parameter (structs/parameters), or embedded interface (interfaces)
 		Type Expr  // field names declared in a list share the same Type (identical pointers)
 		node
 	}

 	// interface { MethodList[0]; MethodList[1]; ... }
 	InterfaceType struct {
 		MethodList []*Field
 		expr
 	}

 	FuncType struct {
 		ParamList  []*Field
 		ResultList []*Field
 		expr
 	}

 	// map[Key]Value
 	MapType struct {
 		Key, Value Expr
 		expr
 	}

 	//   chan Elem
 	// <-chan Elem
 	// chan<- Elem
 	ChanType struct {
 		Dir  ChanDir // 0 means no direction
 		Elem Expr
 		expr
 	}
 )

 type expr struct{ node }

 func (*expr) aExpr() {}

 type ChanDir uint

 const (
 	_ ChanDir = iota
 	SendOnly
 	RecvOnly
 )

 // ----------------------------------------------------------------------------
 // Statements

 type (
 	Stmt interface {
 		Node
 		aStmt()
 	}

 	SimpleStmt interface {
 		Stmt
 		aSimpleStmt()
 	}

 	EmptyStmt struct {
 		simpleStmt
 	}

 	LabeledStmt struct {
 		Label *Name
 		Stmt  Stmt
 		stmt
 	}

 	BlockStmt struct {
 		List   []Stmt
 		Rbrace Pos
 		stmt
 	}

 	ExprStmt struct {
 		X Expr
 		simpleStmt
 	}

 	SendStmt struct {
 		Chan, Value Expr // Chan <- Value
 		simpleStmt
 	}

 	DeclStmt struct {
 		DeclList []Decl
 		stmt
 	}

 	AssignStmt struct {
 		Op       Operator // 0 means no operation
 		Lhs, Rhs Expr     // Rhs == ImplicitOne means Lhs++ (Op == Add) or Lhs-- (Op == Sub)
 		simpleStmt
 	}

 	BranchStmt struct {
 		Tok   token // Break, Continue, Fallthrough, or Goto
 		Label *Name
 		// Target is the continuation of the control flow after executing
 		// the branch; it is computed by the parser if CheckBranches is set.
 		// Target is a *LabeledStmt for gotos, and a *SwitchStmt, *SelectStmt,
 		// or *ForStmt for breaks and continues, depending on the context of
 		// the branch. Target is not set for fallthroughs.
 		Target Stmt
 		stmt
 	}

 	CallStmt struct {
 		Tok  token // Go or Defer
 		Call *CallExpr
 		stmt
 	}

 	ReturnStmt struct {
 		Results Expr // nil means no explicit return values
 		stmt
 	}

 	IfStmt struct {
 		Init SimpleStmt
 		Cond Expr
 		Then *BlockStmt
 		Else Stmt // either nil, *IfStmt, or *BlockStmt
 		stmt
 	}

 	ForStmt struct {
 		Init SimpleStmt // incl. *RangeClause
 		Cond Expr
 		Post SimpleStmt
 		Body *BlockStmt
 		stmt
 	}

 	SwitchStmt struct {
 		Init   SimpleStmt
 		Tag    Expr // incl. *TypeSwitchGuard
 		Body   []*CaseClause
 		Rbrace Pos
 		stmt
 	}

 	SelectStmt struct {
 		Body   []*CommClause
 		Rbrace Pos
 		stmt
 	}
 )

 type (
 	RangeClause struct {
 		Lhs Expr // nil means no Lhs = or Lhs :=
 		Def bool // means :=
 		X   Expr // range X
 		simpleStmt
 	}

 	CaseClause struct {
 		Cases Expr // nil means default clause
 		Body  []Stmt
 		Colon Pos
 		node
 	}

 	CommClause struct {
 		Comm  SimpleStmt // send or receive stmt; nil means default clause
 		Body  []Stmt
 		Colon Pos
 		node
 	}
 )

 type stmt struct{ node }

 func (stmt) aStmt() {}

 type simpleStmt struct {
 	stmt
 }

 func (simpleStmt) aSimpleStmt() {}

 // ----------------------------------------------------------------------------
 // Comments

 // TODO(gri) Consider renaming to CommentPos, CommentPlacement, etc.
 //           Kind = Above doesn't make much sense.
 type CommentKind uint

 const (
 	Above CommentKind = iota
 	Below
 	Left
 	Right
 )

 type Comment struct {
 	Kind CommentKind
 	Text string
 	Next *Comment
 }
	// Copyright 2016 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package syntax

	// ----------------------------------------------------------------------------
	// Nodes

	type Node interface {
	// Pos() returns the position associated with the node as follows:
	// 1) The position of a node representing a terminal syntax production
	// (Name, BasicLit, etc.) is the position of the respective production
	// in the source.
	// 2) The position of a node representing a non-terminal production
	// (IndexExpr, IfStmt, etc.) is the position of a token uniquely
	// associated with that production; usually the left-most one
	// ('[' for IndexExpr, 'if' for IfStmt, etc.)
	Pos() Pos
	aNode()
	}

	type node struct {
	// commented out for now since not yet used
	// doc *Comment // nil means no comment(s) attached
	pos Pos
	}

	func (n *node) Pos() Pos { return n.pos }
	func (*node) aNode() {}

	// ----------------------------------------------------------------------------
	// Files

	// package PkgName; DeclList[0], DeclList[1], ...
	type File struct {
	Pragma Pragma
	PkgName *Name
	DeclList []Decl
	Lines uint
	node
	}

	// ----------------------------------------------------------------------------
	// Declarations

	type (
	Decl interface {
	Node
	aDecl()
	}

	// Path
	// LocalPkgName Path
	ImportDecl struct {
	Group *Group // nil means not part of a group
	Pragma Pragma
	LocalPkgName *Name // including "."; nil means no rename present
	Path *BasicLit
	decl
	}

	// NameList
	// NameList = Values
	// NameList Type = Values
	ConstDecl struct {
	Group *Group // nil means not part of a group
	Pragma Pragma
	NameList []*Name
	Type Expr // nil means no type
	Values Expr // nil means no values
	decl
	}

	// Name Type
	TypeDecl struct {
	Group *Group // nil means not part of a group
	Pragma Pragma
	Name *Name
	Alias bool
	Type Expr
	decl
	}

	// NameList Type
	// NameList Type = Values
	// NameList = Values
	VarDecl struct {
	Group *Group // nil means not part of a group
	Pragma Pragma
	NameList []*Name
	Type Expr // nil means no type
	Values Expr // nil means no values
	decl
	}

	// func Name Type { Body }
	// func Name Type
	// func Receiver Name Type { Body }
	// func Receiver Name Type
	FuncDecl struct {
	Pragma Pragma
	Recv *Field // nil means regular function
	Name *Name
	Type *FuncType
	Body *BlockStmt // nil means no body (forward declaration)
	decl
	}
	)

	type decl struct{ node }

	func (*decl) aDecl() {}

	// All declarations belonging to the same group point to the same Group node.
	type Group struct {
	dummy int // not empty so we are guaranteed different Group instances
	}

	// ----------------------------------------------------------------------------
	// Expressions

	type (
	Expr interface {
	Node
	aExpr()
	}

	// Placeholder for an expression that failed to parse
	// correctly and where we can't provide a better node.
	BadExpr struct {
	expr
	}

	// Value
	Name struct {
	Value string
	expr
	}

	// Value
	BasicLit struct {
	Value string
	Kind LitKind
	Bad bool // true means the literal Value has syntax errors
	expr
	}

	// Type { ElemList[0], ElemList[1], ... }
	CompositeLit struct {
	Type Expr // nil means no literal type
	ElemList []Expr
	NKeys int // number of elements with keys
	Rbrace Pos
	expr
	}

	// Key: Value
	KeyValueExpr struct {
	Key, Value Expr
	expr
	}

	// func Type { Body }
	FuncLit struct {
	Type *FuncType
	Body *BlockStmt
	expr
	}

	// (X)
	ParenExpr struct {
	X Expr
	expr
	}

	// X.Sel
	SelectorExpr struct {
	X Expr
	Sel *Name
	expr
	}

	// X[Index]
	IndexExpr struct {
	X Expr
	Index Expr
	expr
	}

	// X[Index[0] : Index[1] : Index[2]]
	SliceExpr struct {
	X Expr
	Index [3]Expr
	// Full indicates whether this is a simple or full slice expression.
	// In a valid AST, this is equivalent to Index[2] != nil.
	// TODO(mdempsky): This is only needed to report the "3-index
	// slice of string" error when Index[2] is missing.
	Full bool
	expr
	}

	// X.(Type)
	AssertExpr struct {
	X Expr
	Type Expr
	expr
	}

	// X.(type)
	// Lhs := X.(type)
	TypeSwitchGuard struct {
	Lhs *Name // nil means no Lhs :=
	X Expr // X.(type)
	expr
	}

	Operation struct {
	Op Operator
	X, Y Expr // Y == nil means unary expression
	expr
	}

	// Fun(ArgList[0], ArgList[1], ...)
	CallExpr struct {
	Fun Expr
	ArgList []Expr // nil means no arguments
	HasDots bool // last argument is followed by ...
	expr
	}

	// ElemList[0], ElemList[1], ...
	ListExpr struct {
	ElemList []Expr
	expr
	}

	// [Len]Elem
	ArrayType struct {
	// TODO(gri) consider using Name{"..."} instead of nil (permits attaching of comments)
	Len Expr // nil means Len is ...
	Elem Expr
	expr
	}

	// []Elem
	SliceType struct {
	Elem Expr
	expr
	}

	// ...Elem
	DotsType struct {
	Elem Expr
	expr
	}

	// struct { FieldList[0] TagList[0]; FieldList[1] TagList[1]; ... }
	StructType struct {
	FieldList []*Field
	TagList []*BasicLit // i >= len(TagList) \|\| TagList[i] == nil means no tag for field i
	expr
	}

	// Name Type
	// Type
	Field struct {
	Name *Name // nil means anonymous field/parameter (structs/parameters), or embedded interface (interfaces)
	Type Expr // field names declared in a list share the same Type (identical pointers)
	node
	}

	// interface { MethodList[0]; MethodList[1]; ... }
	InterfaceType struct {
	MethodList []*Field
	expr
	}

	FuncType struct {
	ParamList []*Field
	ResultList []*Field
	expr
	}

	// map[Key]Value
	MapType struct {
	Key, Value Expr
	expr
	}

	// chan Elem
	// <-chan Elem
	// chan<- Elem
	ChanType struct {
	Dir ChanDir // 0 means no direction
	Elem Expr
	expr
	}
	)

	type expr struct{ node }

	func (*expr) aExpr() {}

	type ChanDir uint

	const (
	_ ChanDir = iota
	SendOnly
	RecvOnly
	)

	// ----------------------------------------------------------------------------
	// Statements

	type (
	Stmt interface {
	Node
	aStmt()
	}

	SimpleStmt interface {
	Stmt
	aSimpleStmt()
	}

	EmptyStmt struct {
	simpleStmt
	}

	LabeledStmt struct {
	Label *Name
	Stmt Stmt
	stmt
	}

	BlockStmt struct {
	List []Stmt
	Rbrace Pos
	stmt
	}

	ExprStmt struct {
	X Expr
	simpleStmt
	}

	SendStmt struct {
	Chan, Value Expr // Chan <- Value
	simpleStmt
	}

	DeclStmt struct {
	DeclList []Decl
	stmt
	}

	AssignStmt struct {
	Op Operator // 0 means no operation
	Lhs, Rhs Expr // Rhs == ImplicitOne means Lhs++ (Op == Add) or Lhs-- (Op == Sub)
	simpleStmt
	}

	BranchStmt struct {
	Tok token // Break, Continue, Fallthrough, or Goto
	Label *Name
	// Target is the continuation of the control flow after executing
	// the branch; it is computed by the parser if CheckBranches is set.
	// Target is a LabeledStmt for gotos, and a SwitchStmt, *SelectStmt,
	// or *ForStmt for breaks and continues, depending on the context of
	// the branch. Target is not set for fallthroughs.
	Target Stmt
	stmt
	}

	CallStmt struct {
	Tok token // Go or Defer
	Call *CallExpr
	stmt
	}

	ReturnStmt struct {
	Results Expr // nil means no explicit return values
	stmt
	}

	IfStmt struct {
	Init SimpleStmt
	Cond Expr
	Then *BlockStmt
	Else Stmt // either nil, IfStmt, or BlockStmt
	stmt
	}

	ForStmt struct {
	Init SimpleStmt // incl. *RangeClause
	Cond Expr
	Post SimpleStmt
	Body *BlockStmt
	stmt
	}

	SwitchStmt struct {
	Init SimpleStmt
	Tag Expr // incl. *TypeSwitchGuard
	Body []*CaseClause
	Rbrace Pos
	stmt
	}

	SelectStmt struct {
	Body []*CommClause
	Rbrace Pos
	stmt
	}
	)

	type (
	RangeClause struct {
	Lhs Expr // nil means no Lhs = or Lhs :=
	Def bool // means :=
	X Expr // range X
	simpleStmt
	}

	CaseClause struct {
	Cases Expr // nil means default clause
	Body []Stmt
	Colon Pos
	node
	}

	CommClause struct {
	Comm SimpleStmt // send or receive stmt; nil means default clause
	Body []Stmt
	Colon Pos
	node
	}
	)

	type stmt struct{ node }

	func (stmt) aStmt() {}

	type simpleStmt struct {
	stmt
	}

	func (simpleStmt) aSimpleStmt() {}

	// ----------------------------------------------------------------------------
	// Comments

	// TODO(gri) Consider renaming to CommentPos, CommentPlacement, etc.
	// Kind = Above doesn't make much sense.
	type CommentKind uint

	const (
	Above CommentKind = iota
	Below
	Left
	Right
	)

	type Comment struct {
	Kind CommentKind
	Text string
	Next *Comment
	}