src/cmd/compile/internal/walk/select.go - go - Git at Google

 // Copyright 2009 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 walk

 import (
 	"cmd/compile/internal/base"
 	"cmd/compile/internal/ir"
 	"cmd/compile/internal/typecheck"
 	"cmd/compile/internal/types"
 )

 func walkSelect(sel *ir.SelectStmt) {
 	lno := ir.SetPos(sel)
 	if sel.Walked() {
 		base.Fatalf("double walkSelect")
 	}
 	sel.SetWalked(true)

 	init := ir.TakeInit(sel)

 	init = append(init, walkSelectCases(sel.Cases)...)
 	sel.Cases = nil

 	sel.Compiled = init
 	walkStmtList(sel.Compiled)

 	base.Pos = lno
 }

 func walkSelectCases(cases []*ir.CommClause) []ir.Node {
 	ncas := len(cases)
 	sellineno := base.Pos

 	// optimization: zero-case select
 	if ncas == 0 {
 		return []ir.Node{mkcallstmt("block")}
 	}

 	// optimization: one-case select: single op.
 	if ncas == 1 {
 		cas := cases[0]
 		ir.SetPos(cas)
 		l := cas.Init()
 		if cas.Comm != nil { // not default:
 			n := cas.Comm
 			l = append(l, ir.TakeInit(n)...)
 			switch n.Op() {
 			default:
 				base.Fatalf("select %v", n.Op())

 			case ir.OSEND:
 				// already ok

 			case ir.OSELRECV2:
 				r := n.(*ir.AssignListStmt)
 				if ir.IsBlank(r.Lhs[0]) && ir.IsBlank(r.Lhs[1]) {
 					n = r.Rhs[0]
 					break
 				}
 				r.SetOp(ir.OAS2RECV)
 			}

 			l = append(l, n)
 		}

 		l = append(l, cas.Body...)
 		l = append(l, ir.NewBranchStmt(base.Pos, ir.OBREAK, nil))
 		return l
 	}

 	// convert case value arguments to addresses.
 	// this rewrite is used by both the general code and the next optimization.
 	var dflt *ir.CommClause
 	for _, cas := range cases {
 		ir.SetPos(cas)
 		n := cas.Comm
 		if n == nil {
 			dflt = cas
 			continue
 		}
 		switch n.Op() {
 		case ir.OSEND:
 			n := n.(*ir.SendStmt)
 			n.Value = typecheck.NodAddr(n.Value)
 			n.Value = typecheck.Expr(n.Value)

 		case ir.OSELRECV2:
 			n := n.(*ir.AssignListStmt)
 			if !ir.IsBlank(n.Lhs[0]) {
 				n.Lhs[0] = typecheck.NodAddr(n.Lhs[0])
 				n.Lhs[0] = typecheck.Expr(n.Lhs[0])
 			}
 		}
 	}

 	// optimization: two-case select but one is default: single non-blocking op.
 	if ncas == 2 && dflt != nil {
 		cas := cases[0]
 		if cas == dflt {
 			cas = cases[1]
 		}

 		n := cas.Comm
 		ir.SetPos(n)
 		r := ir.NewIfStmt(base.Pos, nil, nil, nil)
 		*r.PtrInit() = cas.Init()
 		var cond ir.Node
 		switch n.Op() {
 		default:
 			base.Fatalf("select %v", n.Op())

 		case ir.OSEND:
 			// if selectnbsend(c, v) { body } else { default body }
 			n := n.(*ir.SendStmt)
 			ch := n.Chan
 			cond = mkcall1(chanfn("selectnbsend", 2, ch.Type()), types.Types[types.TBOOL], r.PtrInit(), ch, n.Value)

 		case ir.OSELRECV2:
 			n := n.(*ir.AssignListStmt)
 			recv := n.Rhs[0].(*ir.UnaryExpr)
 			ch := recv.X
 			elem := n.Lhs[0]
 			if ir.IsBlank(elem) {
 				elem = typecheck.NodNil()
 			}
 			cond = typecheck.Temp(types.Types[types.TBOOL])
 			fn := chanfn("selectnbrecv", 2, ch.Type())
 			call := mkcall1(fn, fn.Type().Results(), r.PtrInit(), elem, ch)
 			as := ir.NewAssignListStmt(r.Pos(), ir.OAS2, []ir.Node{cond, n.Lhs[1]}, []ir.Node{call})
 			r.PtrInit().Append(typecheck.Stmt(as))
 		}

 		r.Cond = typecheck.Expr(cond)
 		r.Body = cas.Body
 		r.Else = append(dflt.Init(), dflt.Body...)
 		return []ir.Node{r, ir.NewBranchStmt(base.Pos, ir.OBREAK, nil)}
 	}

 	if dflt != nil {
 		ncas--
 	}
 	casorder := make([]*ir.CommClause, ncas)
 	nsends, nrecvs := 0, 0

 	var init []ir.Node

 	// generate sel-struct
 	base.Pos = sellineno
 	selv := typecheck.Temp(types.NewArray(scasetype(), int64(ncas)))
 	init = append(init, typecheck.Stmt(ir.NewAssignStmt(base.Pos, selv, nil)))

 	// No initialization for order; runtime.selectgo is responsible for that.
 	order := typecheck.Temp(types.NewArray(types.Types[types.TUINT16], 2*int64(ncas)))

 	var pc0, pcs ir.Node
 	if base.Flag.Race {
 		pcs = typecheck.Temp(types.NewArray(types.Types[types.TUINTPTR], int64(ncas)))
 		pc0 = typecheck.Expr(typecheck.NodAddr(ir.NewIndexExpr(base.Pos, pcs, ir.NewInt(0))))
 	} else {
 		pc0 = typecheck.NodNil()
 	}

 	// register cases
 	for _, cas := range cases {
 		ir.SetPos(cas)

 		init = append(init, ir.TakeInit(cas)...)

 		n := cas.Comm
 		if n == nil { // default:
 			continue
 		}

 		var i int
 		var c, elem ir.Node
 		switch n.Op() {
 		default:
 			base.Fatalf("select %v", n.Op())
 		case ir.OSEND:
 			n := n.(*ir.SendStmt)
 			i = nsends
 			nsends++
 			c = n.Chan
 			elem = n.Value
 		case ir.OSELRECV2:
 			n := n.(*ir.AssignListStmt)
 			nrecvs++
 			i = ncas - nrecvs
 			recv := n.Rhs[0].(*ir.UnaryExpr)
 			c = recv.X
 			elem = n.Lhs[0]
 		}

 		casorder[i] = cas

 		setField := func(f string, val ir.Node) {
 			r := ir.NewAssignStmt(base.Pos, ir.NewSelectorExpr(base.Pos, ir.ODOT, ir.NewIndexExpr(base.Pos, selv, ir.NewInt(int64(i))), typecheck.Lookup(f)), val)
 			init = append(init, typecheck.Stmt(r))
 		}

 		c = typecheck.ConvNop(c, types.Types[types.TUNSAFEPTR])
 		setField("c", c)
 		if !ir.IsBlank(elem) {
 			elem = typecheck.ConvNop(elem, types.Types[types.TUNSAFEPTR])
 			setField("elem", elem)
 		}

 		// TODO(mdempsky): There should be a cleaner way to
 		// handle this.
 		if base.Flag.Race {
 			r := mkcallstmt("selectsetpc", typecheck.NodAddr(ir.NewIndexExpr(base.Pos, pcs, ir.NewInt(int64(i)))))
 			init = append(init, r)
 		}
 	}
 	if nsends+nrecvs != ncas {
 		base.Fatalf("walkSelectCases: miscount: %v + %v != %v", nsends, nrecvs, ncas)
 	}

 	// run the select
 	base.Pos = sellineno
 	chosen := typecheck.Temp(types.Types[types.TINT])
 	recvOK := typecheck.Temp(types.Types[types.TBOOL])
 	r := ir.NewAssignListStmt(base.Pos, ir.OAS2, nil, nil)
 	r.Lhs = []ir.Node{chosen, recvOK}
 	fn := typecheck.LookupRuntime("selectgo")
 	var fnInit ir.Nodes
 	r.Rhs = []ir.Node{mkcall1(fn, fn.Type().Results(), &fnInit, bytePtrToIndex(selv, 0), bytePtrToIndex(order, 0), pc0, ir.NewInt(int64(nsends)), ir.NewInt(int64(nrecvs)), ir.NewBool(dflt == nil))}
 	init = append(init, fnInit...)
 	init = append(init, typecheck.Stmt(r))

 	// selv and order are no longer alive after selectgo.
 	init = append(init, ir.NewUnaryExpr(base.Pos, ir.OVARKILL, selv))
 	init = append(init, ir.NewUnaryExpr(base.Pos, ir.OVARKILL, order))
 	if base.Flag.Race {
 		init = append(init, ir.NewUnaryExpr(base.Pos, ir.OVARKILL, pcs))
 	}

 	// dispatch cases
 	dispatch := func(cond ir.Node, cas *ir.CommClause) {
 		cond = typecheck.Expr(cond)
 		cond = typecheck.DefaultLit(cond, nil)

 		r := ir.NewIfStmt(base.Pos, cond, nil, nil)

 		if n := cas.Comm; n != nil && n.Op() == ir.OSELRECV2 {
 			n := n.(*ir.AssignListStmt)
 			if !ir.IsBlank(n.Lhs[1]) {
 				x := ir.NewAssignStmt(base.Pos, n.Lhs[1], recvOK)
 				r.Body.Append(typecheck.Stmt(x))
 			}
 		}

 		r.Body.Append(cas.Body.Take()...)
 		r.Body.Append(ir.NewBranchStmt(base.Pos, ir.OBREAK, nil))
 		init = append(init, r)
 	}

 	if dflt != nil {
 		ir.SetPos(dflt)
 		dispatch(ir.NewBinaryExpr(base.Pos, ir.OLT, chosen, ir.NewInt(0)), dflt)
 	}
 	for i, cas := range casorder {
 		ir.SetPos(cas)
 		dispatch(ir.NewBinaryExpr(base.Pos, ir.OEQ, chosen, ir.NewInt(int64(i))), cas)
 	}

 	return init
 }

 // bytePtrToIndex returns a Node representing "(*byte)(&n[i])".
 func bytePtrToIndex(n ir.Node, i int64) ir.Node {
 	s := typecheck.NodAddr(ir.NewIndexExpr(base.Pos, n, ir.NewInt(i)))
 	t := types.NewPtr(types.Types[types.TUINT8])
 	return typecheck.ConvNop(s, t)
 }

 var scase *types.Type

 // Keep in sync with src/runtime/select.go.
 func scasetype() *types.Type {
 	if scase == nil {
 		scase = types.NewStruct(types.NoPkg, []*types.Field{
 			types.NewField(base.Pos, typecheck.Lookup("c"), types.Types[types.TUNSAFEPTR]),
 			types.NewField(base.Pos, typecheck.Lookup("elem"), types.Types[types.TUNSAFEPTR]),
 		})
 		scase.SetNoalg(true)
 	}
 	return scase
 }
	// Copyright 2009 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 walk

	import (
	"cmd/compile/internal/base"
	"cmd/compile/internal/ir"
	"cmd/compile/internal/typecheck"
	"cmd/compile/internal/types"
	)

	func walkSelect(sel *ir.SelectStmt) {
	lno := ir.SetPos(sel)
	if sel.Walked() {
	base.Fatalf("double walkSelect")
	}
	sel.SetWalked(true)

	init := ir.TakeInit(sel)

	init = append(init, walkSelectCases(sel.Cases)...)
	sel.Cases = nil

	sel.Compiled = init
	walkStmtList(sel.Compiled)

	base.Pos = lno
	}

	func walkSelectCases(cases []*ir.CommClause) []ir.Node {
	ncas := len(cases)
	sellineno := base.Pos

	// optimization: zero-case select
	if ncas == 0 {
	return []ir.Node{mkcallstmt("block")}
	}

	// optimization: one-case select: single op.
	if ncas == 1 {
	cas := cases[0]
	ir.SetPos(cas)
	l := cas.Init()
	if cas.Comm != nil { // not default:
	n := cas.Comm
	l = append(l, ir.TakeInit(n)...)
	switch n.Op() {
	default:
	base.Fatalf("select %v", n.Op())

	case ir.OSEND:
	// already ok

	case ir.OSELRECV2:
	r := n.(*ir.AssignListStmt)
	if ir.IsBlank(r.Lhs[0]) && ir.IsBlank(r.Lhs[1]) {
	n = r.Rhs[0]
	break
	}
	r.SetOp(ir.OAS2RECV)
	}

	l = append(l, n)
	}

	l = append(l, cas.Body...)
	l = append(l, ir.NewBranchStmt(base.Pos, ir.OBREAK, nil))
	return l
	}

	// convert case value arguments to addresses.
	// this rewrite is used by both the general code and the next optimization.
	var dflt *ir.CommClause
	for _, cas := range cases {
	ir.SetPos(cas)
	n := cas.Comm
	if n == nil {
	dflt = cas
	continue
	}
	switch n.Op() {
	case ir.OSEND:
	n := n.(*ir.SendStmt)
	n.Value = typecheck.NodAddr(n.Value)
	n.Value = typecheck.Expr(n.Value)

	case ir.OSELRECV2:
	n := n.(*ir.AssignListStmt)
	if !ir.IsBlank(n.Lhs[0]) {
	n.Lhs[0] = typecheck.NodAddr(n.Lhs[0])
	n.Lhs[0] = typecheck.Expr(n.Lhs[0])
	}
	}
	}

	// optimization: two-case select but one is default: single non-blocking op.
	if ncas == 2 && dflt != nil {
	cas := cases[0]
	if cas == dflt {
	cas = cases[1]
	}

	n := cas.Comm
	ir.SetPos(n)
	r := ir.NewIfStmt(base.Pos, nil, nil, nil)
	*r.PtrInit() = cas.Init()
	var cond ir.Node
	switch n.Op() {
	default:
	base.Fatalf("select %v", n.Op())

	case ir.OSEND:
	// if selectnbsend(c, v) { body } else { default body }
	n := n.(*ir.SendStmt)
	ch := n.Chan
	cond = mkcall1(chanfn("selectnbsend", 2, ch.Type()), types.Types[types.TBOOL], r.PtrInit(), ch, n.Value)

	case ir.OSELRECV2:
	n := n.(*ir.AssignListStmt)
	recv := n.Rhs[0].(*ir.UnaryExpr)
	ch := recv.X
	elem := n.Lhs[0]
	if ir.IsBlank(elem) {
	elem = typecheck.NodNil()
	}
	cond = typecheck.Temp(types.Types[types.TBOOL])
	fn := chanfn("selectnbrecv", 2, ch.Type())
	call := mkcall1(fn, fn.Type().Results(), r.PtrInit(), elem, ch)
	as := ir.NewAssignListStmt(r.Pos(), ir.OAS2, []ir.Node{cond, n.Lhs[1]}, []ir.Node{call})
	r.PtrInit().Append(typecheck.Stmt(as))
	}

	r.Cond = typecheck.Expr(cond)
	r.Body = cas.Body
	r.Else = append(dflt.Init(), dflt.Body...)
	return []ir.Node{r, ir.NewBranchStmt(base.Pos, ir.OBREAK, nil)}
	}

	if dflt != nil {
	ncas--
	}
	casorder := make([]*ir.CommClause, ncas)
	nsends, nrecvs := 0, 0

	var init []ir.Node

	// generate sel-struct
	base.Pos = sellineno
	selv := typecheck.Temp(types.NewArray(scasetype(), int64(ncas)))
	init = append(init, typecheck.Stmt(ir.NewAssignStmt(base.Pos, selv, nil)))

	// No initialization for order; runtime.selectgo is responsible for that.
	order := typecheck.Temp(types.NewArray(types.Types[types.TUINT16], 2*int64(ncas)))

	var pc0, pcs ir.Node
	if base.Flag.Race {
	pcs = typecheck.Temp(types.NewArray(types.Types[types.TUINTPTR], int64(ncas)))
	pc0 = typecheck.Expr(typecheck.NodAddr(ir.NewIndexExpr(base.Pos, pcs, ir.NewInt(0))))
	} else {
	pc0 = typecheck.NodNil()
	}

	// register cases
	for _, cas := range cases {
	ir.SetPos(cas)

	init = append(init, ir.TakeInit(cas)...)

	n := cas.Comm
	if n == nil { // default:
	continue
	}

	var i int
	var c, elem ir.Node
	switch n.Op() {
	default:
	base.Fatalf("select %v", n.Op())
	case ir.OSEND:
	n := n.(*ir.SendStmt)
	i = nsends
	nsends++
	c = n.Chan
	elem = n.Value
	case ir.OSELRECV2:
	n := n.(*ir.AssignListStmt)
	nrecvs++
	i = ncas - nrecvs
	recv := n.Rhs[0].(*ir.UnaryExpr)
	c = recv.X
	elem = n.Lhs[0]
	}

	casorder[i] = cas

	setField := func(f string, val ir.Node) {
	r := ir.NewAssignStmt(base.Pos, ir.NewSelectorExpr(base.Pos, ir.ODOT, ir.NewIndexExpr(base.Pos, selv, ir.NewInt(int64(i))), typecheck.Lookup(f)), val)
	init = append(init, typecheck.Stmt(r))
	}

	c = typecheck.ConvNop(c, types.Types[types.TUNSAFEPTR])
	setField("c", c)
	if !ir.IsBlank(elem) {
	elem = typecheck.ConvNop(elem, types.Types[types.TUNSAFEPTR])
	setField("elem", elem)
	}

	// TODO(mdempsky): There should be a cleaner way to
	// handle this.
	if base.Flag.Race {
	r := mkcallstmt("selectsetpc", typecheck.NodAddr(ir.NewIndexExpr(base.Pos, pcs, ir.NewInt(int64(i)))))
	init = append(init, r)
	}
	}
	if nsends+nrecvs != ncas {
	base.Fatalf("walkSelectCases: miscount: %v + %v != %v", nsends, nrecvs, ncas)
	}

	// run the select
	base.Pos = sellineno
	chosen := typecheck.Temp(types.Types[types.TINT])
	recvOK := typecheck.Temp(types.Types[types.TBOOL])
	r := ir.NewAssignListStmt(base.Pos, ir.OAS2, nil, nil)
	r.Lhs = []ir.Node{chosen, recvOK}
	fn := typecheck.LookupRuntime("selectgo")
	var fnInit ir.Nodes
	r.Rhs = []ir.Node{mkcall1(fn, fn.Type().Results(), &fnInit, bytePtrToIndex(selv, 0), bytePtrToIndex(order, 0), pc0, ir.NewInt(int64(nsends)), ir.NewInt(int64(nrecvs)), ir.NewBool(dflt == nil))}
	init = append(init, fnInit...)
	init = append(init, typecheck.Stmt(r))

	// selv and order are no longer alive after selectgo.
	init = append(init, ir.NewUnaryExpr(base.Pos, ir.OVARKILL, selv))
	init = append(init, ir.NewUnaryExpr(base.Pos, ir.OVARKILL, order))
	if base.Flag.Race {
	init = append(init, ir.NewUnaryExpr(base.Pos, ir.OVARKILL, pcs))
	}

	// dispatch cases
	dispatch := func(cond ir.Node, cas *ir.CommClause) {
	cond = typecheck.Expr(cond)
	cond = typecheck.DefaultLit(cond, nil)

	r := ir.NewIfStmt(base.Pos, cond, nil, nil)

	if n := cas.Comm; n != nil && n.Op() == ir.OSELRECV2 {
	n := n.(*ir.AssignListStmt)
	if !ir.IsBlank(n.Lhs[1]) {
	x := ir.NewAssignStmt(base.Pos, n.Lhs[1], recvOK)
	r.Body.Append(typecheck.Stmt(x))
	}
	}

	r.Body.Append(cas.Body.Take()...)
	r.Body.Append(ir.NewBranchStmt(base.Pos, ir.OBREAK, nil))
	init = append(init, r)
	}

	if dflt != nil {
	ir.SetPos(dflt)
	dispatch(ir.NewBinaryExpr(base.Pos, ir.OLT, chosen, ir.NewInt(0)), dflt)
	}
	for i, cas := range casorder {
	ir.SetPos(cas)
	dispatch(ir.NewBinaryExpr(base.Pos, ir.OEQ, chosen, ir.NewInt(int64(i))), cas)
	}

	return init
	}

	// bytePtrToIndex returns a Node representing "(*byte)(&n[i])".
	func bytePtrToIndex(n ir.Node, i int64) ir.Node {
	s := typecheck.NodAddr(ir.NewIndexExpr(base.Pos, n, ir.NewInt(i)))
	t := types.NewPtr(types.Types[types.TUINT8])
	return typecheck.ConvNop(s, t)
	}

	var scase *types.Type

	// Keep in sync with src/runtime/select.go.
	func scasetype() *types.Type {
	if scase == nil {
	scase = types.NewStruct(types.NoPkg, []*types.Field{
	types.NewField(base.Pos, typecheck.Lookup("c"), types.Types[types.TUNSAFEPTR]),
	types.NewField(base.Pos, typecheck.Lookup("elem"), types.Types[types.TUNSAFEPTR]),
	})
	scase.SetNoalg(true)
	}
	return scase
	}