go/ssa/lvalue.go - tools - Git at Google

 // Copyright 2013 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 ssa

 // lvalues are the union of addressable expressions and map-index
 // expressions.

 import (
 	"go/ast"
 	"go/token"
 	"go/types"
 )

 // An lvalue represents an assignable location that may appear on the
 // left-hand side of an assignment.  This is a generalization of a
 // pointer to permit updates to elements of maps.
 //
 type lvalue interface {
 	store(fn *Function, v Value) // stores v into the location
 	load(fn *Function) Value     // loads the contents of the location
 	address(fn *Function) Value  // address of the location
 	typ() types.Type             // returns the type of the location
 }

 // An address is an lvalue represented by a true pointer.
 type address struct {
 	addr Value
 	pos  token.Pos // source position
 	expr ast.Expr  // source syntax of the value (not address) [debug mode]
 }

 func (a *address) load(fn *Function) Value {
 	load := emitLoad(fn, a.addr)
 	load.pos = a.pos
 	return load
 }

 func (a *address) store(fn *Function, v Value) {
 	store := emitStore(fn, a.addr, v, a.pos)
 	if a.expr != nil {
 		// store.Val is v, converted for assignability.
 		emitDebugRef(fn, a.expr, store.Val, false)
 	}
 }

 func (a *address) address(fn *Function) Value {
 	if a.expr != nil {
 		emitDebugRef(fn, a.expr, a.addr, true)
 	}
 	return a.addr
 }

 func (a *address) typ() types.Type {
 	return deref(a.addr.Type())
 }

 // An element is an lvalue represented by m[k], the location of an
 // element of a map or string.  These locations are not addressable
 // since pointers cannot be formed from them, but they do support
 // load(), and in the case of maps, store().
 //
 type element struct {
 	m, k Value      // map or string
 	t    types.Type // map element type or string byte type
 	pos  token.Pos  // source position of colon ({k:v}) or lbrack (m[k]=v)
 }

 func (e *element) load(fn *Function) Value {
 	l := &Lookup{
 		X:     e.m,
 		Index: e.k,
 	}
 	l.setPos(e.pos)
 	l.setType(e.t)
 	return fn.emit(l)
 }

 func (e *element) store(fn *Function, v Value) {
 	up := &MapUpdate{
 		Map:   e.m,
 		Key:   e.k,
 		Value: emitConv(fn, v, e.t),
 	}
 	up.pos = e.pos
 	fn.emit(up)
 }

 func (e *element) address(fn *Function) Value {
 	panic("map/string elements are not addressable")
 }

 func (e *element) typ() types.Type {
 	return e.t
 }

 // A blank is a dummy variable whose name is "_".
 // It is not reified: loads are illegal and stores are ignored.
 //
 type blank struct{}

 func (bl blank) load(fn *Function) Value {
 	panic("blank.load is illegal")
 }

 func (bl blank) store(fn *Function, v Value) {
 	// no-op
 }

 func (bl blank) address(fn *Function) Value {
 	panic("blank var is not addressable")
 }

 func (bl blank) typ() types.Type {
 	// This should be the type of the blank Ident; the typechecker
 	// doesn't provide this yet, but fortunately, we don't need it
 	// yet either.
 	panic("blank.typ is unimplemented")
 }
	// Copyright 2013 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 ssa

	// lvalues are the union of addressable expressions and map-index
	// expressions.

	import (
	"go/ast"
	"go/token"
	"go/types"
	)

	// An lvalue represents an assignable location that may appear on the
	// left-hand side of an assignment. This is a generalization of a
	// pointer to permit updates to elements of maps.
	//
	type lvalue interface {
	store(fn *Function, v Value) // stores v into the location
	load(fn *Function) Value // loads the contents of the location
	address(fn *Function) Value // address of the location
	typ() types.Type // returns the type of the location
	}

	// An address is an lvalue represented by a true pointer.
	type address struct {
	addr Value
	pos token.Pos // source position
	expr ast.Expr // source syntax of the value (not address) [debug mode]
	}

	func (a address) load(fn Function) Value {
	load := emitLoad(fn, a.addr)
	load.pos = a.pos
	return load
	}

	func (a address) store(fn Function, v Value) {
	store := emitStore(fn, a.addr, v, a.pos)
	if a.expr != nil {
	// store.Val is v, converted for assignability.
	emitDebugRef(fn, a.expr, store.Val, false)
	}
	}

	func (a address) address(fn Function) Value {
	if a.expr != nil {
	emitDebugRef(fn, a.expr, a.addr, true)
	}
	return a.addr
	}

	func (a *address) typ() types.Type {
	return deref(a.addr.Type())
	}

	// An element is an lvalue represented by m[k], the location of an
	// element of a map or string. These locations are not addressable
	// since pointers cannot be formed from them, but they do support
	// load(), and in the case of maps, store().
	//
	type element struct {
	m, k Value // map or string
	t types.Type // map element type or string byte type
	pos token.Pos // source position of colon ({k:v}) or lbrack (m[k]=v)
	}

	func (e element) load(fn Function) Value {
	l := &Lookup{
	X: e.m,
	Index: e.k,
	}
	l.setPos(e.pos)
	l.setType(e.t)
	return fn.emit(l)
	}

	func (e element) store(fn Function, v Value) {
	up := &MapUpdate{
	Map: e.m,
	Key: e.k,
	Value: emitConv(fn, v, e.t),
	}
	up.pos = e.pos
	fn.emit(up)
	}

	func (e element) address(fn Function) Value {
	panic("map/string elements are not addressable")
	}

	func (e *element) typ() types.Type {
	return e.t
	}

	// A blank is a dummy variable whose name is "_".
	// It is not reified: loads are illegal and stores are ignored.
	//
	type blank struct{}

	func (bl blank) load(fn *Function) Value {
	panic("blank.load is illegal")
	}

	func (bl blank) store(fn *Function, v Value) {
	// no-op
	}

	func (bl blank) address(fn *Function) Value {
	panic("blank var is not addressable")
	}

	func (bl blank) typ() types.Type {
	// This should be the type of the blank Ident; the typechecker
	// doesn't provide this yet, but fortunately, we don't need it
	// yet either.
	panic("blank.typ is unimplemented")
	}