Commit 188e3d25 authored by Ian Lance Taylor's avatar Ian Lance Taylor

cmd/compile: change Func.{Enter,Exit} from NodeList to slice

Introduces a new types Nodes that can be used to replace NodeList.

Update #14473.

Change-Id: Id77c5dcae0cbeb898ba12dd46bd400aad408871c
Reviewed-on: https://go-review.googlesource.com/19969Reviewed-by: default avatarDavid Crawshaw <crawshaw@golang.org>
Run-TryBot: Ian Lance Taylor <iant@golang.org>
Reviewed-by: default avatarBrad Fitzpatrick <bradfitz@golang.org>
parent 6520da6e
......@@ -2621,7 +2621,7 @@ func cgen_ret(n *Node) {
if hasdefer {
Ginscall(Deferreturn, 0)
}
Genlist(Curfn.Func.Exit)
Genslice(Curfn.Func.Exit.Slice())
p := Thearch.Gins(obj.ARET, nil, nil)
if n != nil && n.Op == ORETJMP {
p.To.Type = obj.TYPE_MEM
......
......@@ -223,7 +223,7 @@ func capturevars(xfunc *Node) {
lineno = xfunc.Lineno
func_ := xfunc.Func.Closure
func_.Func.Enter = nil
func_.Func.Enter.Set(nil)
for _, v := range func_.Func.Cvars() {
if v.Type == nil {
// if v->type is nil, it means v looked like it was
......@@ -265,7 +265,7 @@ func capturevars(xfunc *Node) {
}
typecheck(&outer, Erv)
func_.Func.Enter = list(func_.Func.Enter, outer)
func_.Func.Enter.Append(outer)
}
lineno = int32(lno)
......@@ -350,9 +350,7 @@ func transformclosure(xfunc *Node) {
xfunc.Type = f.Type // update type of ODCLFUNC
} else {
// The closure is not called, so it is going to stay as closure.
nvar := 0
var body *NodeList
var body []*Node
offset := int64(Widthptr)
var addr *Node
var cv *Node
......@@ -360,7 +358,6 @@ func transformclosure(xfunc *Node) {
if v.Op == OXXX {
continue
}
nvar++
// cv refers to the field inside of closure OSTRUCTLIT.
cv = Nod(OCLOSUREVAR, nil, nil)
......@@ -378,7 +375,7 @@ func transformclosure(xfunc *Node) {
v.Class = PAUTO
v.Ullman = 1
xfunc.Func.Dcl = append(xfunc.Func.Dcl, v)
body = list(body, Nod(OAS, v, cv))
body = append(body, Nod(OAS, v, cv))
} else {
// Declare variable holding addresses taken from closure
// and initialize in entry prologue.
......@@ -392,14 +389,16 @@ func transformclosure(xfunc *Node) {
if v.Name.Byval {
cv = Nod(OADDR, cv, nil)
}
body = list(body, Nod(OAS, addr, cv))
body = append(body, Nod(OAS, addr, cv))
}
}
typechecklist(body, Etop)
walkstmtlist(body)
xfunc.Func.Enter = body
xfunc.Func.Needctxt = nvar > 0
if len(body) > 0 {
typecheckslice(body, Etop)
walkstmtslice(body)
xfunc.Func.Enter.Set(body)
xfunc.Func.Needctxt = true
}
}
lineno = int32(lno)
......@@ -443,7 +442,7 @@ func walkclosure(func_ *Node, init **NodeList) *Node {
clos := Nod(OCOMPLIT, nil, Nod(OIND, typ, nil))
clos.Esc = func_.Esc
clos.Right.Implicit = true
clos.List = concat(list1(Nod(OCFUNC, func_.Func.Closure.Func.Nname, nil)), func_.Func.Enter)
clos.List = concat(list1(Nod(OCFUNC, func_.Func.Closure.Func.Nname, nil)), func_.Func.Enter.NodeList())
// Force type conversion from *struct to the func type.
clos = Nod(OCONVNOP, clos, nil)
......
......@@ -1729,10 +1729,42 @@ func Hconv(l *NodeList, flag int) string {
return buf.String()
}
func Hconvslice(l []*Node, flag int) string {
if len(l) == 0 && fmtmode == FDbg {
return "<nil>"
}
sf := flag
sm, sb := setfmode(&flag)
sep := "; "
if fmtmode == FDbg {
sep = "\n"
} else if flag&obj.FmtComma != 0 {
sep = ", "
}
var buf bytes.Buffer
for i, n := range l {
buf.WriteString(Nconv(n, 0))
if i+1 < len(l) {
buf.WriteString(sep)
}
}
flag = sf
fmtbody = sb
fmtmode = sm
return buf.String()
}
func dumplist(s string, l *NodeList) {
fmt.Printf("%s%v\n", s, Hconv(l, obj.FmtSign))
}
func dumpslice(s string, l []*Node) {
fmt.Printf("%s%v\n", s, Hconvslice(l, obj.FmtSign))
}
func Dump(s string, n *Node) {
fmt.Printf("%s [%p]%v\n", s, n, Nconv(n, obj.FmtSign))
}
......@@ -219,6 +219,12 @@ func Genlist(l *NodeList) {
}
}
func Genslice(l []*Node) {
for _, n := range l {
gen(n)
}
}
// generate code to start new proc running call n.
func cgen_proc(n *Node, proc int) {
switch n.Left.Op {
......
......@@ -471,7 +471,7 @@ func compile(fn *Node) {
}
}
Genlist(Curfn.Func.Enter)
Genslice(Curfn.Func.Enter.Slice())
Genlist(Curfn.Nbody)
gclean()
checklabels()
......
......@@ -58,7 +58,7 @@ func instrument(fn *Node) {
instrumentlist(fn.Nbody, nil)
// nothing interesting for race detector in fn->enter
instrumentlist(fn.Func.Exit, nil)
instrumentslice(fn.Func.Exit.Slice(), nil)
}
if flag_race != 0 {
......@@ -71,18 +71,18 @@ func instrument(fn *Node) {
nodpc.Type = Types[TUINTPTR]
nodpc.Xoffset = int64(-Widthptr)
nd := mkcall("racefuncenter", nil, nil, nodpc)
fn.Func.Enter = concat(list1(nd), fn.Func.Enter)
fn.Func.Enter.Set(append([]*Node{nd}, fn.Func.Enter.Slice()...))
nd = mkcall("racefuncexit", nil, nil)
fn.Func.Exit = list(fn.Func.Exit, nd)
fn.Func.Exit.Append(nd)
}
if Debug['W'] != 0 {
s := fmt.Sprintf("after instrument %v", fn.Func.Nname.Sym)
dumplist(s, fn.Nbody)
s = fmt.Sprintf("enter %v", fn.Func.Nname.Sym)
dumplist(s, fn.Func.Enter)
dumpslice(s, fn.Func.Enter.Slice())
s = fmt.Sprintf("exit %v", fn.Func.Nname.Sym)
dumplist(s, fn.Func.Exit)
dumpslice(s, fn.Func.Exit.Slice())
}
}
......@@ -100,6 +100,18 @@ func instrumentlist(l *NodeList, init **NodeList) {
}
}
func instrumentslice(l []*Node, init **NodeList) {
for i := range l {
var instr *NodeList
instrumentnode(&l[i], &instr, 0, 0)
if init == nil {
l[i].Ninit = concat(l[i].Ninit, instr)
} else {
*init = concat(*init, instr)
}
}
}
// walkexpr and walkstmt combined
// walks the tree and adds calls to the
// instrumentation code to top-level (statement) nodes' init
......
......@@ -149,8 +149,8 @@ type Param struct {
// Func holds Node fields used only with function-like nodes.
type Func struct {
Shortname *Node
Enter *NodeList
Exit *NodeList
Enter Nodes
Exit Nodes
cvars *[]*Node // closure params
Dcl []*Node // autodcl for this func/closure
Inldcl *[]*Node // copy of dcl for use in inlining
......@@ -506,3 +506,55 @@ func count(l *NodeList) int {
}
return int(n)
}
// Nodes is a pointer to a slice of *Node.
// For fields that are not used in most nodes, this is used instead of
// a slice to save space.
type Nodes struct{ slice *[]*Node }
// Slice returns the entries in Nodes as a slice.
// Changes to the slice entries (as in s[i] = n) will be reflected in
// the Nodes.
func (n *Nodes) Slice() []*Node {
if n.slice == nil {
return nil
}
return *n.slice
}
// NodeList returns the entries in Nodes as a NodeList.
// Changes to the NodeList entries (as in l.N = n) will *not* be
// reflect in the Nodes.
// This wastes memory and should be used as little as possible.
func (n *Nodes) NodeList() *NodeList {
if n.slice == nil {
return nil
}
var ret *NodeList
for _, n := range *n.slice {
ret = list(ret, n)
}
return ret
}
// Set sets Nodes to a slice.
// This takes ownership of the slice.
func (n *Nodes) Set(s []*Node) {
if len(s) == 0 {
n.slice = nil
} else {
n.slice = &s
}
}
// Append appends entries to Nodes.
// If a slice is passed in, this will take ownership of it.
func (n *Nodes) Append(a ...*Node) {
if n.slice == nil {
if len(a) > 0 {
n.slice = &a
}
} else {
*n.slice = append(*n.slice, a...)
}
}
......@@ -40,6 +40,12 @@ func typechecklist(l *NodeList, top int) {
}
}
func typecheckslice(l []*Node, top int) {
for i := range l {
typecheck(&l[i], top)
}
}
var _typekind = []string{
TINT: "int",
TUINT: "uint",
......
......@@ -71,9 +71,9 @@ func walk(fn *Node) {
}
heapmoves()
if Debug['W'] != 0 && Curfn.Func.Enter != nil {
if Debug['W'] != 0 && len(Curfn.Func.Enter.Slice()) > 0 {
s := fmt.Sprintf("enter %v", Curfn.Func.Nname.Sym)
dumplist(s, Curfn.Func.Enter)
dumpslice(s, Curfn.Func.Enter.Slice())
}
}
......@@ -83,6 +83,12 @@ func walkstmtlist(l *NodeList) {
}
}
func walkstmtslice(l []*Node) {
for i := range l {
walkstmt(&l[i])
}
}
func samelist(a *NodeList, b *NodeList) bool {
for ; a != nil && b != nil; a, b = a.Next, b.Next {
if a.N != b.N {
......@@ -320,7 +326,7 @@ func walkstmt(np **Node) {
ll := ascompatee(n.Op, rl, n.List, &n.Ninit)
n.List = reorder3(ll)
for lr := n.List; lr != nil; lr = lr.Next {
lr.N = applywritebarrier(lr.N, &n.Ninit)
lr.N = applywritebarrier(lr.N)
}
break
}
......@@ -588,9 +594,9 @@ opswitch:
// transformclosure already did all preparation work.
// Prepend captured variables to argument list.
n.List = concat(n.Left.Func.Enter, n.List)
n.List = concat(n.Left.Func.Enter.NodeList(), n.List)
n.Left.Func.Enter = nil
n.Left.Func.Enter.Set(nil)
// Replace OCLOSURE with ONAME/PFUNC.
n.Left = n.Left.Func.Closure.Func.Nname
......@@ -724,7 +730,7 @@ opswitch:
r := convas(Nod(OAS, n.Left, n.Right), init)
r.Dodata = n.Dodata
n = r
n = applywritebarrier(n, init)
n = applywritebarrier(n)
}
case OAS2:
......@@ -735,7 +741,7 @@ opswitch:
ll := ascompatee(OAS, n.List, n.Rlist, init)
ll = reorder3(ll)
for lr := ll; lr != nil; lr = lr.Next {
lr.N = applywritebarrier(lr.N, init)
lr.N = applywritebarrier(lr.N)
}
n = liststmt(ll)
......@@ -750,7 +756,7 @@ opswitch:
ll := ascompatet(n.Op, n.List, &r.Type, 0, init)
for lr := ll; lr != nil; lr = lr.Next {
lr.N = applywritebarrier(lr.N, init)
lr.N = applywritebarrier(lr.N)
}
n = liststmt(concat(list1(r), ll))
......@@ -2133,7 +2139,7 @@ func needwritebarrier(l *Node, r *Node) bool {
// TODO(rsc): Perhaps componentgen should run before this.
func applywritebarrier(n *Node, init **NodeList) *Node {
func applywritebarrier(n *Node) *Node {
if n.Left != nil && n.Right != nil && needwritebarrier(n.Left, n.Right) {
if Debug_wb > 1 {
Warnl(int(n.Lineno), "marking %v for barrier", Nconv(n.Left, 0))
......@@ -2542,12 +2548,12 @@ func vmatch1(l *Node, r *Node) bool {
// walk through argin parameters.
// generate and return code to allocate
// copies of escaped parameters to the heap.
func paramstoheap(argin **Type, out int) *NodeList {
func paramstoheap(argin **Type, out int) []*Node {
var savet Iter
var v *Node
var as *Node
var nn *NodeList
var nn []*Node
for t := Structfirst(&savet, argin); t != nil; t = structnext(&savet) {
v = t.Nname
if v != nil && v.Sym != nil && v.Sym.Name[0] == '~' && v.Sym.Name[1] == 'r' { // unnamed result
......@@ -2560,7 +2566,7 @@ func paramstoheap(argin **Type, out int) *NodeList {
// Defer might stop a panic and show the
// return values as they exist at the time of panic.
// Make sure to zero them on entry to the function.
nn = list(nn, Nod(OAS, nodarg(t, 1), nil))
nn = append(nn, Nod(OAS, nodarg(t, 1), nil))
}
if v == nil || v.Class&PHEAP == 0 {
......@@ -2574,13 +2580,13 @@ func paramstoheap(argin **Type, out int) *NodeList {
if prealloc[v] == nil {
prealloc[v] = callnew(v.Type)
}
nn = list(nn, Nod(OAS, v.Name.Heapaddr, prealloc[v]))
nn = append(nn, Nod(OAS, v.Name.Heapaddr, prealloc[v]))
if v.Class&^PHEAP != PPARAMOUT {
as = Nod(OAS, v, v.Name.Param.Stackparam)
v.Name.Param.Stackparam.Typecheck = 1
typecheck(&as, Etop)
as = applywritebarrier(as, &nn)
nn = list(nn, as)
as = applywritebarrier(as)
nn = append(nn, as)
}
}
......@@ -2588,17 +2594,17 @@ func paramstoheap(argin **Type, out int) *NodeList {
}
// walk through argout parameters copying back to stack
func returnsfromheap(argin **Type) *NodeList {
func returnsfromheap(argin **Type) []*Node {
var savet Iter
var v *Node
var nn *NodeList
var nn []*Node
for t := Structfirst(&savet, argin); t != nil; t = structnext(&savet) {
v = t.Nname
if v == nil || v.Class != PHEAP|PPARAMOUT {
continue
}
nn = list(nn, Nod(OAS, v.Name.Param.Stackparam, v))
nn = append(nn, Nod(OAS, v.Name.Param.Stackparam, v))
}
return nn
......@@ -2611,11 +2617,11 @@ func heapmoves() {
lno := lineno
lineno = Curfn.Lineno
nn := paramstoheap(getthis(Curfn.Type), 0)
nn = concat(nn, paramstoheap(getinarg(Curfn.Type), 0))
nn = concat(nn, paramstoheap(Getoutarg(Curfn.Type), 1))
Curfn.Func.Enter = concat(Curfn.Func.Enter, nn)
nn = append(nn, paramstoheap(getinarg(Curfn.Type), 0)...)
nn = append(nn, paramstoheap(Getoutarg(Curfn.Type), 1)...)
Curfn.Func.Enter.Append(nn...)
lineno = Curfn.Func.Endlineno
Curfn.Func.Exit = returnsfromheap(Getoutarg(Curfn.Type))
Curfn.Func.Exit.Append(returnsfromheap(Getoutarg(Curfn.Type))...)
lineno = lno
}
......
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