Golang程序
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349行
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8.64 KB
// 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 gc
import "cmd/compile/internal/types"
// select
func typecheckselect(sel *Node) {
var def *Node
lno := setlineno(sel)
typecheckslice(sel.Ninit.Slice(), Etop)
for _, ncase := range sel.List.Slice() {
if ncase.Op != OXCASE {
setlineno(ncase)
Fatalf("typecheckselect %v", ncase.Op)
}
if ncase.List.Len() == 0 {
// default
if def != nil {
yyerrorl(ncase.Pos, "multiple defaults in select (first at %v)", def.Line())
} else {
def = ncase
}
} else if ncase.List.Len() > 1 {
yyerrorl(ncase.Pos, "select cases cannot be lists")
} else {
ncase.List.SetFirst(typecheck(ncase.List.First(), Etop))
n := ncase.List.First()
ncase.Left = n
ncase.List.Set(nil)
switch n.Op {
default:
yyerrorl(n.Pos, "select case must be receive, send or assign recv")
// convert x = <-c into OSELRECV(x, <-c).
// remove implicit conversions; the eventual assignment
// will reintroduce them.
case OAS:
if (n.Right.Op == OCONVNOP || n.Right.Op == OCONVIFACE) && n.Right.Implicit() {
n.Right = n.Right.Left
}
if n.Right.Op != ORECV {
yyerrorl(n.Pos, "select assignment must have receive on right hand side")
break
}
n.Op = OSELRECV
// convert x, ok = <-c into OSELRECV2(x, <-c) with ntest=ok
case OAS2RECV:
if n.Rlist.First().Op != ORECV {
yyerrorl(n.Pos, "select assignment must have receive on right hand side")
break
}
n.Op = OSELRECV2
n.Left = n.List.First()
n.List.Set1(n.List.Second())
n.Right = n.Rlist.First()
n.Rlist.Set(nil)
// convert <-c into OSELRECV(N, <-c)
case ORECV:
n = nodl(n.Pos, OSELRECV, nil, n)
n.SetTypecheck(1)
ncase.Left = n
case OSEND:
break
}
}
typecheckslice(ncase.Nbody.Slice(), Etop)
}
lineno = lno
}
func walkselect(sel *Node) {
lno := setlineno(sel)
if sel.Nbody.Len() != 0 {
Fatalf("double walkselect")
}
init := sel.Ninit.Slice()
sel.Ninit.Set(nil)
init = append(init, walkselectcases(&sel.List)...)
sel.List.Set(nil)
sel.Nbody.Set(init)
walkstmtlist(sel.Nbody.Slice())
lineno = lno
}
func walkselectcases(cases *Nodes) []*Node {
n := cases.Len()
sellineno := lineno
// optimization: zero-case select
if n == 0 {
return []*Node{mkcall("block", nil, nil)}
}
// optimization: one-case select: single op.
// TODO(rsc): Reenable optimization once order.go can handle it.
// golang.org/issue/7672.
if n == 1 {
cas := cases.First()
setlineno(cas)
l := cas.Ninit.Slice()
if cas.Left != nil { // not default:
n := cas.Left
l = append(l, n.Ninit.Slice()...)
n.Ninit.Set(nil)
var ch *Node
switch n.Op {
default:
Fatalf("select %v", n.Op)
// ok already
case OSEND:
ch = n.Left
case OSELRECV, OSELRECV2:
ch = n.Right.Left
if n.Op == OSELRECV || n.List.Len() == 0 {
if n.Left == nil {
n = n.Right
} else {
n.Op = OAS
}
break
}
if n.Left == nil {
nblank = typecheck(nblank, Erv|Easgn)
n.Left = nblank
}
n.Op = OAS2
n.List.Prepend(n.Left)
n.Rlist.Set1(n.Right)
n.Right = nil
n.Left = nil
n.SetTypecheck(0)
n = typecheck(n, Etop)
}
// if ch == nil { block() }; n;
a := nod(OIF, nil, nil)
a.Left = nod(OEQ, ch, nodnil())
var ln Nodes
ln.Set(l)
a.Nbody.Set1(mkcall("block", nil, &ln))
l = ln.Slice()
a = typecheck(a, Etop)
l = append(l, a, n)
}
l = append(l, cas.Nbody.Slice()...)
l = append(l, nod(OBREAK, nil, nil))
return l
}
// convert case value arguments to addresses.
// this rewrite is used by both the general code and the next optimization.
for _, cas := range cases.Slice() {
setlineno(cas)
n := cas.Left
if n == nil {
continue
}
switch n.Op {
case OSEND:
n.Right = nod(OADDR, n.Right, nil)
n.Right = typecheck(n.Right, Erv)
case OSELRECV, OSELRECV2:
if n.Op == OSELRECV2 && n.List.Len() == 0 {
n.Op = OSELRECV
}
if n.Op == OSELRECV2 {
n.List.SetFirst(nod(OADDR, n.List.First(), nil))
n.List.SetFirst(typecheck(n.List.First(), Erv))
}
if n.Left == nil {
n.Left = nodnil()
} else {
n.Left = nod(OADDR, n.Left, nil)
n.Left = typecheck(n.Left, Erv)
}
}
}
// optimization: two-case select but one is default: single non-blocking op.
if n == 2 && (cases.First().Left == nil || cases.Second().Left == nil) {
var cas *Node
var dflt *Node
if cases.First().Left == nil {
cas = cases.Second()
dflt = cases.First()
} else {
dflt = cases.Second()
cas = cases.First()
}
n := cas.Left
setlineno(n)
r := nod(OIF, nil, nil)
r.Ninit.Set(cas.Ninit.Slice())
switch n.Op {
default:
Fatalf("select %v", n.Op)
case OSEND:
// if selectnbsend(c, v) { body } else { default body }
ch := n.Left
r.Left = mkcall1(chanfn("selectnbsend", 2, ch.Type), types.Types[TBOOL], &r.Ninit, ch, n.Right)
case OSELRECV:
// if c != nil && selectnbrecv(&v, c) { body } else { default body }
r = nod(OIF, nil, nil)
r.Ninit.Set(cas.Ninit.Slice())
ch := n.Right.Left
r.Left = mkcall1(chanfn("selectnbrecv", 2, ch.Type), types.Types[TBOOL], &r.Ninit, n.Left, ch)
case OSELRECV2:
// if c != nil && selectnbrecv2(&v, c) { body } else { default body }
r = nod(OIF, nil, nil)
r.Ninit.Set(cas.Ninit.Slice())
ch := n.Right.Left
r.Left = mkcall1(chanfn("selectnbrecv2", 2, ch.Type), types.Types[TBOOL], &r.Ninit, n.Left, n.List.First(), ch)
}
r.Left = typecheck(r.Left, Erv)
r.Nbody.Set(cas.Nbody.Slice())
r.Rlist.Set(append(dflt.Ninit.Slice(), dflt.Nbody.Slice()...))
return []*Node{r, nod(OBREAK, nil, nil)}
}
var init []*Node
// generate sel-struct
lineno = sellineno
selv := temp(selecttype(int64(n)))
r := nod(OAS, selv, nil)
r = typecheck(r, Etop)
init = append(init, r)
var_ := conv(conv(nod(OADDR, selv, nil), types.Types[TUNSAFEPTR]), types.NewPtr(types.Types[TUINT8]))
r = mkcall("newselect", nil, nil, var_, nodintconst(selv.Type.Width), nodintconst(int64(n)))
r = typecheck(r, Etop)
init = append(init, r)
// register cases
for _, cas := range cases.Slice() {
setlineno(cas)
init = append(init, cas.Ninit.Slice()...)
cas.Ninit.Set(nil)
var x *Node
if n := cas.Left; n != nil {
init = append(init, n.Ninit.Slice()...)
switch n.Op {
default:
Fatalf("select %v", n.Op)
case OSEND:
// selectsend(sel *byte, hchan *chan any, elem *any)
x = mkcall1(chanfn("selectsend", 2, n.Left.Type), nil, nil, var_, n.Left, n.Right)
case OSELRECV:
// selectrecv(sel *byte, hchan *chan any, elem *any, received *bool)
x = mkcall1(chanfn("selectrecv", 2, n.Right.Left.Type), nil, nil, var_, n.Right.Left, n.Left, nodnil())
case OSELRECV2:
// selectrecv(sel *byte, hchan *chan any, elem *any, received *bool)
x = mkcall1(chanfn("selectrecv", 2, n.Right.Left.Type), nil, nil, var_, n.Right.Left, n.Left, n.List.First())
}
} else {
// selectdefault(sel *byte)
x = mkcall("selectdefault", nil, nil, var_)
}
init = append(init, x)
}
// run the select
lineno = sellineno
chosen := temp(types.Types[TINT])
r = nod(OAS, chosen, mkcall("selectgo", types.Types[TINT], nil, var_))
r = typecheck(r, Etop)
init = append(init, r)
// selv is no longer alive after selectgo.
init = append(init, nod(OVARKILL, selv, nil))
// dispatch cases
for i, cas := range cases.Slice() {
setlineno(cas)
cond := nod(OEQ, chosen, nodintconst(int64(i)))
cond = typecheck(cond, Erv)
r = nod(OIF, cond, nil)
r.Nbody.AppendNodes(&cas.Nbody)
r.Nbody.Append(nod(OBREAK, nil, nil))
init = append(init, r)
}
return init
}
// Keep in sync with src/runtime/select.go.
func selecttype(size int64) *types.Type {
// TODO(dvyukov): it's possible to generate Scase only once
// and then cache; and also cache Select per size.
scase := tostruct([]*Node{
namedfield("elem", types.NewPtr(types.Types[TUINT8])),
namedfield("chan", types.NewPtr(types.Types[TUINT8])),
namedfield("pc", types.Types[TUINTPTR]),
namedfield("kind", types.Types[TUINT16]),
namedfield("receivedp", types.NewPtr(types.Types[TUINT8])),
namedfield("releasetime", types.Types[TUINT64]),
})
scase.SetNoalg(true)
sel := tostruct([]*Node{
namedfield("tcase", types.Types[TUINT16]),
namedfield("ncase", types.Types[TUINT16]),
namedfield("pollorder", types.NewPtr(types.Types[TUINT8])),
namedfield("lockorder", types.NewPtr(types.Types[TUINT8])),
namedfield("scase", types.NewArray(scase, size)),
namedfield("lockorderarr", types.NewArray(types.Types[TUINT16], size)),
namedfield("pollorderarr", types.NewArray(types.Types[TUINT16], size)),
})
sel.SetNoalg(true)
return sel
}