cmd/compile: move Node.Curfn into both Node.Func and Node.Name

$ sizeof -p cmd/compile/internal/gc Node
Node 168
$

Change-Id: If624a2d72ec04ef30a1bc7ce76c0d61a526d8a37
Reviewed-on: https://go-review.googlesource.com/10532
Reviewed-by: Ian Lance Taylor <iant@golang.org>

src/cmd/compile/internal/gc/closure.go

@@ -262,8 +262,8 @@ func capturevars(xfunc *Node) {
 
 		if Debug['m'] > 1 {
 			var name *Sym
-			if v.Curfn != nil && v.Curfn.Nname != nil {
-				name = v.Curfn.Nname.Sym
+			if v.Name.Curfn != nil && v.Name.Curfn.Nname != nil {
+				name = v.Name.Curfn.Nname.Sym
 			}
 			how := "ref"
 			if v.Name.Byval {
@@ -398,7 +398,7 @@ func transformclosure(xfunc *Node) {
 				addr.Name.Param.Ntype = Nod(OIND, typenod(v.Type), nil)
 				addr.Class = PAUTO
 				addr.Used = true
-				addr.Curfn = xfunc
+				addr.Name.Curfn = xfunc
 				xfunc.Func.Dcl = list(xfunc.Func.Dcl, addr)
 				v.Name.Heapaddr = addr
 				if v.Name.Byval {
@@ -602,7 +602,7 @@ func makepartialcall(fn *Node, t0 *Type, meth *Node) *Node {
 	ptr.Addable = true
 	ptr.Ullman = 1
 	ptr.Used = true
-	ptr.Curfn = xfunc
+	ptr.Name.Curfn = xfunc
 	xfunc.Func.Dcl = list(xfunc.Func.Dcl, ptr)
 	var body *NodeList
 	if Isptr[rcvrtype.Etype] || Isinter(rcvrtype) {

src/cmd/compile/internal/gc/dcl.go

@@ -211,7 +211,7 @@ func declare(n *Node, ctxt uint8) {
 			gen = vargen
 		}
 		pushdcl(s)
-		n.Curfn = Curfn
+		n.Name.Curfn = Curfn
 	}
 
 	if ctxt == PAUTO {
@@ -383,6 +383,7 @@ func newname(s *Sym) *Node {
 func newfuncname(s *Sym) *Node {
 	n := newname(s)
 	n.Func = new(Func)
+	n.Func.FCurfn = Curfn
 	return n
 }
 
@@ -555,6 +556,7 @@ func ifacedcl(n *Node) {
 	}
 
 	n.Func = new(Func)
+	n.Func.FCurfn = Curfn
 	dclcontext = PPARAM
 	markdcl()
 	Funcdepth++

src/cmd/compile/internal/gc/esc.go

@@ -58,7 +58,7 @@ func visitBottomUp(list *NodeList, analyze func(list *NodeList, recursive bool))
 	v.analyze = analyze
 	v.nodeID = make(map[*Node]uint32)
 	for l := list; l != nil; l = l.Next {
-		if l.N.Op == ODCLFUNC && l.N.Curfn == nil {
+		if l.N.Op == ODCLFUNC && l.N.Func.FCurfn == nil {
 			v.visit(l.N)
 		}
 	}
@@ -81,7 +81,7 @@ func (v *bottomUpVisitor) visit(n *Node) uint32 {
 	l.N = n
 	v.stack = l
 	min = v.visitcodelist(n.Nbody, min)
-	if (min == id || min == id+1) && n.Curfn == nil {
+	if (min == id || min == id+1) && n.Func.FCurfn == nil {
 		// This node is the root of a strongly connected component.
 
 		// The original min passed to visitcodelist was n->walkgen+1.
@@ -310,6 +310,7 @@ func (l Level) guaranteedDereference() int {
 }
 
 type NodeEscState struct {
+	Curfn        *Node
 	Escflowsrc   *NodeList // flow(this, src)
 	Escretval    *NodeList // on OCALLxxx, list of dummy return values
 	Escloopdepth int32     // -1: global, 0: return variables, 1:function top level, increased inside function for every loop or label to mark scopes
@@ -325,11 +326,22 @@ func (e *EscState) nodeEscState(n *Node) *NodeEscState {
 		Fatal("nodeEscState: opt in use (%T)", n.Opt)
 	}
 	nE := new(NodeEscState)
+	nE.Curfn = Curfn
 	n.Opt = nE
 	e.opts = append(e.opts, n)
 	return nE
 }
 
+func (e *EscState) track(n *Node) {
+	if Curfn == nil {
+		Fatal("EscState.track: Curfn nil")
+	}
+	n.Esc = EscNone // until proven otherwise
+	nE := e.nodeEscState(n)
+	nE.Escloopdepth = e.loopdepth
+	e.noesc = list(e.noesc, n)
+}
+
 // Escape constants are numbered in order of increasing "escapiness"
 // to help make inferences be monotonic.  With the exception of
 // EscNever which is sticky, eX < eY means that eY is more exposed
@@ -408,8 +420,9 @@ func funcSym(n *Node) *Sym {
 }
 
 // curfnSym returns n.Curfn.Nname.Sym if no nils are encountered along the way.
-func curfnSym(n *Node) *Sym {
-	return funcSym(n.Curfn)
+func (e *EscState) curfnSym(n *Node) *Sym {
+	nE := e.nodeEscState(n)
+	return funcSym(nE.Curfn)
 }
 
 func escAnalyze(all *NodeList, recursive bool) {
@@ -453,7 +466,7 @@ func escAnalyze(all *NodeList, recursive bool) {
 	if Debug['m'] != 0 {
 		for l := e.noesc; l != nil; l = l.Next {
 			if l.N.Esc == EscNone {
-				Warnl(int(l.N.Lineno), "%v %v does not escape", curfnSym(l.N), Nconv(l.N, obj.FmtShort))
+				Warnl(int(l.N.Lineno), "%v %v does not escape", e.curfnSym(l.N), Nconv(l.N, obj.FmtShort))
 			}
 		}
 	}
@@ -600,7 +613,6 @@ func esc(e *EscState, n *Node, up *Node) {
 
 	// Big stuff escapes unconditionally
 	// "Big" conditions that were scattered around in walk have been gathered here
-	nE := e.nodeEscState(n)
 	if n.Esc != EscHeap && n.Type != nil && (n.Type.Width > MaxStackVarSize ||
 		n.Op == ONEW && n.Type.Type.Width >= 1<<16 ||
 		n.Op == OMAKESLICE && !isSmallMakeSlice(n)) {
@@ -698,7 +710,7 @@ func esc(e *EscState, n *Node, up *Node) {
 			// b escapes as well. If we ignore such OSLICEARR, we will conclude
 			// that b does not escape when b contents do.
 			if Debug['m'] != 0 {
-				Warnl(int(n.Lineno), "%v ignoring self-assignment to %v", curfnSym(n), Nconv(n.Left, obj.FmtShort))
+				Warnl(int(n.Lineno), "%v ignoring self-assignment to %v", e.curfnSym(n), Nconv(n.Left, obj.FmtShort))
 			}
 
 			break
@@ -790,7 +802,7 @@ func esc(e *EscState, n *Node, up *Node) {
 			slice2 := n.List.Next.N
 			escassign(e, &e.theSink, e.addDereference(slice2)) // lose track of assign of dereference
 			if Debug['m'] > 2 {
-				Warnl(int(n.Lineno), "%v special treatment of append(slice1, slice2...) %v", curfnSym(n), Nconv(n, obj.FmtShort))
+				Warnl(int(n.Lineno), "%v special treatment of append(slice1, slice2...) %v", e.curfnSym(n), Nconv(n, obj.FmtShort))
 			}
 		}
 		escassign(e, &e.theSink, e.addDereference(n.List.N)) // The original elements are now leaked, too
@@ -799,17 +811,13 @@ func esc(e *EscState, n *Node, up *Node) {
 		escassign(e, n, n.Left)
 
 	case OCONVIFACE:
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
-		nE.Escloopdepth = e.loopdepth
+		e.track(n)
 		escassign(e, n, n.Left)
 
 	case OARRAYLIT:
 		if Isslice(n.Type) {
 			// Slice itself is not leaked until proven otherwise
-			n.Esc = EscNone
-			e.noesc = list(e.noesc, n)
-			nE.Escloopdepth = e.loopdepth
+			e.track(n)
 		}
 
 		// Link values to array/slice
@@ -824,25 +832,19 @@ func esc(e *EscState, n *Node, up *Node) {
 		}
 
 	case OPTRLIT:
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
-		nE.Escloopdepth = e.loopdepth
+		e.track(n)
 
 		// Link OSTRUCTLIT to OPTRLIT; if OPTRLIT escapes, OSTRUCTLIT elements do too.
 		escassign(e, n, n.Left)
 
 	case OCALLPART:
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
-		nE.Escloopdepth = e.loopdepth
+		e.track(n)
 
 		// Contents make it to memory, lose track.
 		escassign(e, &e.theSink, n.Left)
 
 	case OMAPLIT:
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
-		nE.Escloopdepth = e.loopdepth
+		e.track(n)
 
 		// Keys and values make it to memory, lose track.
 		for ll := n.List; ll != nil; ll = ll.Next {
@@ -880,25 +882,16 @@ func esc(e *EscState, n *Node, up *Node) {
 		OSTRARRAYRUNE,
 		OSTRARRAYBYTE,
 		ORUNESTR:
-		nE.Escloopdepth = e.loopdepth
-
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
+		e.track(n)
 
 	case OADDSTR:
-		nE.Escloopdepth = e.loopdepth
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
-
-	// Arguments of OADDSTR do not escape.
+		e.track(n)
+		// Arguments of OADDSTR do not escape.
 
 	case OADDR:
-		n.Esc = EscNone // until proven otherwise
-		e.noesc = list(e.noesc, n)
-
 		// current loop depth is an upper bound on actual loop depth
 		// of addressed value.
-		nE.Escloopdepth = e.loopdepth
+		e.track(n)
 
 		// for &x, use loop depth of x if known.
 		// it should always be known, but if not, be conservative
@@ -906,6 +899,7 @@ func esc(e *EscState, n *Node, up *Node) {
 		if n.Left.Op == ONAME {
 			switch n.Left.Class {
 			case PAUTO:
+				nE := e.nodeEscState(n)
 				leftE := e.nodeEscState(n.Left)
 				if leftE.Escloopdepth != 0 {
 					nE.Escloopdepth = leftE.Escloopdepth
@@ -918,6 +912,7 @@ func esc(e *EscState, n *Node, up *Node) {
 			// to another (or the same) result makes the
 			// first result move to the heap.
 			case PPARAM, PPARAMOUT:
+				nE := e.nodeEscState(n)
 				nE.Escloopdepth = 1
 			}
 		}
@@ -1304,7 +1299,7 @@ func initEscretval(e *EscState, n *Node, fntype *Type) {
 		src.Sym = Lookup(buf)
 		src.Type = t.Type
 		src.Class = PAUTO
-		src.Curfn = Curfn
+		src.Name.Curfn = Curfn
 		e.nodeEscState(src).Escloopdepth = e.loopdepth
 		src.Used = true
 		src.Lineno = n.Lineno
@@ -1403,16 +1398,12 @@ func esccall(e *EscState, n *Node, up *Node) {
 			if lr.N.Isddd && !n.Isddd {
 				// Introduce ODDDARG node to represent ... allocation.
 				src = Nod(ODDDARG, nil, nil)
-
 				src.Type = typ(TARRAY)
 				src.Type.Type = lr.N.Type.Type
 				src.Type.Bound = int64(count(ll))
 				src.Type = Ptrto(src.Type) // make pointer so it will be tracked
-				srcE := e.nodeEscState(src)
-				srcE.Escloopdepth = e.loopdepth
 				src.Lineno = n.Lineno
-				src.Esc = EscNone // until we find otherwise
-				e.noesc = list(e.noesc, src)
+				e.track(src)
 				n.Right = src
 			}
 
@@ -1463,15 +1454,12 @@ func esccall(e *EscState, n *Node, up *Node) {
 		if t.Isddd && !n.Isddd {
 			// Introduce ODDDARG node to represent ... allocation.
 			src = Nod(ODDDARG, nil, nil)
-			srcE := e.nodeEscState(src)
-			srcE.Escloopdepth = e.loopdepth
 			src.Lineno = n.Lineno
 			src.Type = typ(TARRAY)
 			src.Type.Type = t.Type.Type
 			src.Type.Bound = int64(count(ll))
 			src.Type = Ptrto(src.Type) // make pointer so it will be tracked
-			src.Esc = EscNone          // until we find otherwise
-			e.noesc = list(e.noesc, src)
+			e.track(src)
 			n.Right = src
 		}
 
@@ -1564,7 +1552,7 @@ func escflood(e *EscState, dst *Node) {
 
 	dstE := e.nodeEscState(dst)
 	if Debug['m'] > 1 {
-		fmt.Printf("\nescflood:%d: dst %v scope:%v[%d]\n", e.walkgen, Nconv(dst, obj.FmtShort), curfnSym(dst), dstE.Escloopdepth)
+		fmt.Printf("\nescflood:%d: dst %v scope:%v[%d]\n", e.walkgen, Nconv(dst, obj.FmtShort), e.curfnSym(dst), dstE.Escloopdepth)
 	}
 
 	for l := dstE.Escflowsrc; l != nil; l = l.Next {
@@ -1577,7 +1565,7 @@ func escflood(e *EscState, dst *Node) {
 func funcOutputAndInput(dst, src *Node) bool {
 	// Note if dst is marked as escaping, then "returned" is too weak.
 	return dst.Op == ONAME && dst.Class == PPARAMOUT &&
-		src.Op == ONAME && src.Class == PPARAM && src.Curfn == dst.Curfn
+		src.Op == ONAME && src.Class == PPARAM && src.Name.Curfn == dst.Name.Curfn
 }
 
 func escwalk(e *EscState, level Level, dst *Node, src *Node) {
@@ -1597,7 +1585,7 @@ func escwalk(e *EscState, level Level, dst *Node, src *Node) {
 
 	if Debug['m'] > 1 {
 		fmt.Printf("escwalk: level:%d depth:%d %.*s op=%v %v(%v) scope:%v[%d]\n",
-			level, e.pdepth, e.pdepth, "\t\t\t\t\t\t\t\t\t\t", Oconv(int(src.Op), 0), Nconv(src, obj.FmtShort), Jconv(src, obj.FmtShort), curfnSym(src), srcE.Escloopdepth)
+			level, e.pdepth, e.pdepth, "\t\t\t\t\t\t\t\t\t\t", Oconv(int(src.Op), 0), Nconv(src, obj.FmtShort), Jconv(src, obj.FmtShort), e.curfnSym(src), srcE.Escloopdepth)
 	}
 
 	e.pdepth++

src/cmd/compile/internal/gc/gen.go

@@ -77,7 +77,7 @@ func addrescapes(n *Node) {
 			// create stack variable to hold pointer to heap
 			oldfn := Curfn
 
-			Curfn = n.Curfn
+			Curfn = n.Name.Curfn
 			n.Name.Heapaddr = temp(Ptrto(n.Type))
 			buf := fmt.Sprintf("&%v", n.Sym)
 			n.Name.Heapaddr.Sym = Lookup(buf)
@@ -627,7 +627,7 @@ func Tempname(nn *Node, t *Type) {
 	n.Addable = true
 	n.Ullman = 1
 	n.Esc = EscNever
-	n.Curfn = Curfn
+	n.Name.Curfn = Curfn
 	Curfn.Func.Dcl = list(Curfn.Func.Dcl, n)
 
 	dowidth(t)

src/cmd/compile/internal/gc/inl.go

@@ -828,7 +828,7 @@ func inlvar(var_ *Node) *Node {
 	n.Type = var_.Type
 	n.Class = PAUTO
 	n.Used = true
-	n.Curfn = Curfn // the calling function, not the called one
+	n.Name.Curfn = Curfn // the calling function, not the called one
 	n.Addrtaken = var_.Addrtaken
 
 	// Esc pass wont run if we're inlining into a iface wrapper.
@@ -850,7 +850,7 @@ func retvar(t *Type, i int) *Node {
 	n.Type = t.Type
 	n.Class = PAUTO
 	n.Used = true
-	n.Curfn = Curfn // the calling function, not the called one
+	n.Name.Curfn = Curfn // the calling function, not the called one
 	Curfn.Func.Dcl = list(Curfn.Func.Dcl, n)
 	return n
 }
@@ -862,7 +862,7 @@ func argvar(t *Type, i int) *Node {
 	n.Type = t.Type
 	n.Class = PAUTO
 	n.Used = true
-	n.Curfn = Curfn // the calling function, not the called one
+	n.Name.Curfn = Curfn // the calling function, not the called one
 	Curfn.Func.Dcl = list(Curfn.Func.Dcl, n)
 	return n
 }

src/cmd/compile/internal/gc/plive.go

@@ -240,7 +240,7 @@ func getvariables(fn *Node) []*Node {
 				continue
 			}
 
-			ll.N.Curfn = Curfn
+			ll.N.Name.Curfn = Curfn
 			switch ll.N.Class {
 			case PAUTO:
 				if haspointers(ll.N.Type) {
@@ -618,7 +618,7 @@ func progeffects(prog *obj.Prog, vars []*Node, uevar Bvec, varkill Bvec, avarini
 
 	if prog.Info.Flags&(LeftRead|LeftWrite|LeftAddr) != 0 {
 		from := &prog.From
-		if from.Node != nil && from.Sym != nil && ((from.Node).(*Node)).Curfn == Curfn {
+		if from.Node != nil && from.Sym != nil && ((from.Node).(*Node)).Name.Curfn == Curfn {
 			switch ((from.Node).(*Node)).Class &^ PHEAP {
 			case PAUTO, PPARAM, PPARAMOUT:
 				pos, ok := from.Node.(*Node).Opt.(int32) // index in vars
@@ -647,7 +647,7 @@ func progeffects(prog *obj.Prog, vars []*Node, uevar Bvec, varkill Bvec, avarini
 Next:
 	if prog.Info.Flags&(RightRead|RightWrite|RightAddr) != 0 {
 		to := &prog.To
-		if to.Node != nil && to.Sym != nil && ((to.Node).(*Node)).Curfn == Curfn {
+		if to.Node != nil && to.Sym != nil && ((to.Node).(*Node)).Name.Curfn == Curfn {
 			switch ((to.Node).(*Node)).Class &^ PHEAP {
 			case PAUTO, PPARAM, PPARAMOUT:
 				pos, ok := to.Node.(*Node).Opt.(int32) // index in vars

src/cmd/compile/internal/gc/sinit.go

@@ -47,7 +47,7 @@ func init1(n *Node, out **NodeList) {
 		break
 
 	default:
-		if isblank(n) && n.Curfn == nil && n.Name.Defn != nil && n.Name.Defn.Initorder == InitNotStarted {
+		if isblank(n) && n.Name.Curfn == nil && n.Name.Defn != nil && n.Name.Defn.Initorder == InitNotStarted {
 			// blank names initialization is part of init() but not
 			// when they are inside a function.
 			break

src/cmd/compile/internal/gc/subr.go

@@ -370,10 +370,10 @@ func Nod(op int, nleft *Node, nright *Node) *Node {
 	n.Lineno = int32(parserline())
 	n.Xoffset = BADWIDTH
 	n.Orig = n
-	n.Curfn = Curfn
 	switch op {
 	case OCLOSURE, ODCLFUNC:
 		n.Func = new(Func)
+		n.Func.FCurfn = Curfn
 	case ONAME:
 		n.Name = new(Name)
 		n.Name.Param = new(Param)
@@ -387,6 +387,9 @@ func Nod(op int, nleft *Node, nright *Node) *Node {
 			n.Name.Param = new(Param)
 		}
 	}
+	if n.Name != nil {
+		n.Name.Curfn = Curfn
+	}
 	return n
 }
 

src/cmd/compile/internal/gc/syntax.go

@@ -29,8 +29,7 @@ type Node struct {
 	Func *Func
 
 	// ONAME
-	Name  *Name
-	Curfn *Node // function for local variables
+	Name *Name
 
 	Sym *Sym // various
 
@@ -80,6 +79,7 @@ type Name struct {
 	Heapaddr *Node // temp holding heap address of param
 	Inlvar   *Node // ONAME substitute while inlining
 	Defn     *Node // initializing assignment
+	Curfn    *Node // function for local variables
 	*Param
 	Decldepth int32 // declaration loop depth, increased for every loop or label
 	Vargen    int32 // unique name for OTYPE/ONAME within a function.  Function outputs are numbered starting at one.
@@ -122,6 +122,7 @@ type Func struct {
 	Ntype      *Node // signature
 	Top        int   // top context (Ecall, Eproc, etc)
 	Closure    *Node // OCLOSURE <-> ODCLFUNC
+	FCurfn     *Node
 
 	Inl     *NodeList // copy of the body for use in inlining
 	InlCost int32

test/escape2.go

@@ -606,7 +606,7 @@ func foo74c() {
 		vv := v // ERROR "moved to heap: vv$"
 		// actually just escapes its scope
 		array[i] = func() { // ERROR "func literal escapes to heap$"
-			println(&vv) // ERROR "&vv escapes to heap$" "<S> &vv does not escape$"
+			println(&vv) // ERROR "&vv escapes to heap$" "foo74c.func1 &vv does not escape$"
 		}
 	}
 }
@@ -1235,7 +1235,7 @@ func foo129() {
 	p := &i   // ERROR "&i escapes to heap$"
 	func() {  // ERROR "foo129 func literal does not escape$"
 		q := p   // ERROR "leaking closure reference p$"
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo129.func1 func literal does not escape$"
 			r := q // ERROR "leaking closure reference q$"
 			px = r
 		}()
@@ -1277,7 +1277,7 @@ func foo134() {
 	p := &i  // ERROR "foo134 &i does not escape$"
 	func() { // ERROR "foo134 func literal does not escape$"
 		q := p
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo134.func1 func literal does not escape$"
 			r := q
 			_ = r
 		}()
@@ -1289,7 +1289,7 @@ func foo135() {
 	p := &i     // ERROR "&i escapes to heap$"
 	go func() { // ERROR "func literal escapes to heap$"
 		q := p
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo135.func1 func literal does not escape$"
 			r := q
 			_ = r
 		}()
@@ -1301,7 +1301,7 @@ func foo136() {
 	p := &i     // ERROR "&i escapes to heap$"
 	go func() { // ERROR "func literal escapes to heap$"
 		q := p   // ERROR "leaking closure reference p$"
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo136.func1 func literal does not escape$"
 			r := q // ERROR "leaking closure reference q$"
 			px = r
 		}()
@@ -1408,7 +1408,7 @@ func foo143() {
 		func() { // ERROR "foo143 func literal does not escape$"
 			for i := 0; i < 1; i++ {
 				var t Tm
-				t.M() // ERROR "<S> t does not escape$"
+				t.M() // ERROR "foo143.func1 t does not escape$"
 			}
 		}()
 	}

test/escape2n.go

@@ -606,7 +606,7 @@ func foo74c() {
 		vv := v // ERROR "moved to heap: vv$"
 		// actually just escapes its scope
 		array[i] = func() { // ERROR "func literal escapes to heap$"
-			println(&vv) // ERROR "&vv escapes to heap$" "<S> &vv does not escape$"
+			println(&vv) // ERROR "&vv escapes to heap$" "foo74c.func1 &vv does not escape$"
 		}
 	}
 }
@@ -1235,7 +1235,7 @@ func foo129() {
 	p := &i   // ERROR "&i escapes to heap$"
 	func() {  // ERROR "foo129 func literal does not escape$"
 		q := p   // ERROR "leaking closure reference p$"
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo129.func1 func literal does not escape$"
 			r := q // ERROR "leaking closure reference q$"
 			px = r
 		}()
@@ -1277,7 +1277,7 @@ func foo134() {
 	p := &i  // ERROR "foo134 &i does not escape$"
 	func() { // ERROR "foo134 func literal does not escape$"
 		q := p
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo134.func1 func literal does not escape$"
 			r := q
 			_ = r
 		}()
@@ -1289,7 +1289,7 @@ func foo135() {
 	p := &i     // ERROR "&i escapes to heap$"
 	go func() { // ERROR "func literal escapes to heap$"
 		q := p
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo135.func1 func literal does not escape$"
 			r := q
 			_ = r
 		}()
@@ -1301,7 +1301,7 @@ func foo136() {
 	p := &i     // ERROR "&i escapes to heap$"
 	go func() { // ERROR "func literal escapes to heap$"
 		q := p   // ERROR "leaking closure reference p$"
-		func() { // ERROR "<S> func literal does not escape$"
+		func() { // ERROR "foo136.func1 func literal does not escape$"
 			r := q // ERROR "leaking closure reference q$"
 			px = r
 		}()
@@ -1408,7 +1408,7 @@ func foo143() {
 		func() { // ERROR "foo143 func literal does not escape$"
 			for i := 0; i < 1; i++ {
 				var t Tm
-				t.M() // ERROR "<S> t does not escape$"
+				t.M() // ERROR "foo143.func1 t does not escape$"
 			}
 		}()
 	}