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cmd/compile: provide types for all order-allocated temporaries
Ensure that we correctly type the stack temps for regular closures, method function closures, and slice literals. Then we don't need to override the dummy types later. Furthermore, this allows order to reuse temporaries of these types. OARRAYLIT doesn't need a temporary as far as I can tell, so I removed that case from order. Change-Id: Ic58520fa50c90639393ff78f33d3c831d5c4acb9 Reviewed-on: https://go-review.googlesource.com/c/140306 Reviewed-by: Cherry Zhang <cherryyz@google.com>
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@ -337,18 +337,10 @@ func closuredebugruntimecheck(clo *Node) {
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}
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}
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func walkclosure(clo *Node, init *Nodes) *Node {
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xfunc := clo.Func.Closure
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// If no closure vars, don't bother wrapping.
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if hasemptycvars(clo) {
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if Debug_closure > 0 {
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Warnl(clo.Pos, "closure converted to global")
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}
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return xfunc.Func.Nname
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}
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closuredebugruntimecheck(clo)
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// closureType returns the struct type used to hold all the information
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// needed in the closure for clo (clo must be a OCLOSURE node).
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// The address of a variable of the returned type can be cast to a func.
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func closureType(clo *Node) *types.Type {
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// Create closure in the form of a composite literal.
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// supposing the closure captures an int i and a string s
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// and has one float64 argument and no results,
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@ -362,11 +354,10 @@ func walkclosure(clo *Node, init *Nodes) *Node {
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// The information appears in the binary in the form of type descriptors;
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// the struct is unnamed so that closures in multiple packages with the
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// same struct type can share the descriptor.
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fields := []*Node{
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namedfield(".F", types.Types[TUINTPTR]),
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}
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for _, v := range xfunc.Func.Cvars.Slice() {
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for _, v := range clo.Func.Closure.Func.Cvars.Slice() {
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typ := v.Type
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if !v.Name.Byval() {
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typ = types.NewPtr(typ)
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@ -375,6 +366,22 @@ func walkclosure(clo *Node, init *Nodes) *Node {
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}
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typ := tostruct(fields)
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typ.SetNoalg(true)
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return typ
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}
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func walkclosure(clo *Node, init *Nodes) *Node {
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xfunc := clo.Func.Closure
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// If no closure vars, don't bother wrapping.
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if hasemptycvars(clo) {
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if Debug_closure > 0 {
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Warnl(clo.Pos, "closure converted to global")
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}
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return xfunc.Func.Nname
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}
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closuredebugruntimecheck(clo)
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typ := closureType(clo)
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clos := nod(OCOMPLIT, nil, nod(OIND, typenod(typ), nil))
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clos.Esc = clo.Esc
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@ -389,10 +396,10 @@ func walkclosure(clo *Node, init *Nodes) *Node {
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clos.Left.Esc = clo.Esc
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// non-escaping temp to use, if any.
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// orderexpr did not compute the type; fill it in now.
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if x := prealloc[clo]; x != nil {
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x.Type = clos.Left.Left.Type
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x.Orig.Type = x.Type
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if !eqtype(typ, x.Type) {
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panic("closure type does not match order's assigned type")
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}
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clos.Left.Right = x
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delete(prealloc, clo)
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}
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@ -479,6 +486,18 @@ func makepartialcall(fn *Node, t0 *types.Type, meth *types.Sym) *Node {
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return xfunc
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}
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// partialCallType returns the struct type used to hold all the information
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// needed in the closure for n (n must be a OCALLPART node).
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// The address of a variable of the returned type can be cast to a func.
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func partialCallType(n *Node) *types.Type {
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t := tostruct([]*Node{
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namedfield("F", types.Types[TUINTPTR]),
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namedfield("R", n.Left.Type),
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})
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t.SetNoalg(true)
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return t
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}
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func walkpartialcall(n *Node, init *Nodes) *Node {
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// Create closure in the form of a composite literal.
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// For x.M with receiver (x) type T, the generated code looks like:
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@ -495,30 +514,25 @@ func walkpartialcall(n *Node, init *Nodes) *Node {
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checknil(n.Left, init)
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}
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typ := tostruct([]*Node{
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namedfield("F", types.Types[TUINTPTR]),
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namedfield("R", n.Left.Type),
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})
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typ.SetNoalg(true)
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typ := partialCallType(n)
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clos := nod(OCOMPLIT, nil, nod(OIND, typenod(typ), nil))
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clos.Esc = n.Esc
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clos.Right.SetImplicit(true)
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clos.List.Set1(nod(OCFUNC, n.Func.Nname, nil))
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clos.List.Append(n.Left)
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clos.List.Set2(nod(OCFUNC, n.Func.Nname, nil), n.Left)
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// Force type conversion from *struct to the func type.
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clos = convnop(clos, n.Type)
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// typecheck will insert a PTRLIT node under CONVNOP,
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// tag it with escape analysis result.
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// The typecheck inside convnop will insert a PTRLIT node under CONVNOP.
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// Tag it with escape analysis result.
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clos.Left.Esc = n.Esc
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// non-escaping temp to use, if any.
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// orderexpr did not compute the type; fill it in now.
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if x := prealloc[n]; x != nil {
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x.Type = clos.Left.Left.Type
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x.Orig.Type = x.Type
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if !eqtype(typ, x.Type) {
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panic("partial call type does not match order's assigned type")
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}
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clos.Left.Right = x
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delete(prealloc, n)
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}
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@ -244,12 +244,6 @@ func (o *Order) markTemp() ordermarker {
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// which must have been returned by marktemp.
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func (o *Order) popTemp(mark ordermarker) {
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for _, n := range o.temp[mark:] {
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if n.Type.Etype == types.TUINT8 {
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// Don't recycle temps of this type. TUINT8 is used
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// as a placeholder for a type to be determined later.
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// TODO: fix
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continue
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}
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key := n.Type.LongString()
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o.free[key] = append(o.free[key], n)
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}
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@ -1170,16 +1164,23 @@ func (o *Order) expr(n, lhs *Node) *Node {
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case OCLOSURE:
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if n.Noescape() && n.Func.Closure.Func.Cvars.Len() > 0 {
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prealloc[n] = o.newTemp(types.Types[TUINT8], false) // walk will fill in correct type
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prealloc[n] = o.newTemp(closureType(n), false)
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}
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case OARRAYLIT, OSLICELIT, OCALLPART:
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case OSLICELIT, OCALLPART:
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n.Left = o.expr(n.Left, nil)
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n.Right = o.expr(n.Right, nil)
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o.exprList(n.List)
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o.exprList(n.Rlist)
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if n.Noescape() {
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prealloc[n] = o.newTemp(types.Types[TUINT8], false) // walk will fill in correct type
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var t *types.Type
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switch n.Op {
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case OSLICELIT:
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t = types.NewArray(n.Type.Elem(), n.Right.Int64())
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case OCALLPART:
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t = partialCallType(n)
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}
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prealloc[n] = o.newTemp(t, false)
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}
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case ODDDARG:
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17
test/live.go
17
test/live.go
@ -404,8 +404,8 @@ func f27(b bool) {
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if b {
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call27(func() { x++ }) // ERROR "stack object .autotmp_[0-9]+ struct \{"
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}
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call27(func() { x++ }) // ERROR "stack object .autotmp_[0-9]+ struct \{"
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call27(func() { x++ }) // ERROR "stack object .autotmp_[0-9]+ struct \{"
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call27(func() { x++ })
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call27(func() { x++ })
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printnl()
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}
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@ -521,8 +521,8 @@ func f32(b bool) {
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if b {
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call32(t32.Inc) // ERROR "stack object .autotmp_[0-9]+ struct \{"
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}
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call32(t32.Inc) // ERROR "stack object .autotmp_[0-9]+ struct \{"
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call32(t32.Inc) // ERROR "stack object .autotmp_[0-9]+ struct \{"
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call32(t32.Inc)
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call32(t32.Inc)
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}
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//go:noescape
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@ -694,3 +694,12 @@ func f41(p, q *int) (r *int) { // ERROR "live at entry to f41: p q$"
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r = q
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return // ERROR "live at call to deferreturn: r$"
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}
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func f42() {
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var p, q, r int
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f43([]*int{&p,&q,&r}) // ERROR "stack object .autotmp_[0-9]+ \[3\]\*int$"
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f43([]*int{&p,&r,&q})
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f43([]*int{&q,&p,&r})
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}
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//go:noescape
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func f43(a []*int)
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