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cmd/compile: implement too-big-to-SSA struct passing in registers
Added a test that exercises named results Change-Id: Ie228b68f4f846266595a95e0f65a6e4b8bf79635 Reviewed-on: https://go-review.googlesource.com/c/go/+/297029 Trust: David Chase <drchase@google.com> Run-TryBot: David Chase <drchase@google.com> Reviewed-by: Cherry Zhang <cherryyz@google.com>
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@ -118,12 +118,22 @@ func RegisterTypes(apa []ABIParamAssignment) []*types.Type {
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if len(pa.Registers) == 0 {
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continue
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}
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rts = appendParamRegs(rts, pa.Type)
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rts = appendParamTypes(rts, pa.Type)
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}
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return rts
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}
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func appendParamRegs(rts []*types.Type, t *types.Type) []*types.Type {
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func (pa *ABIParamAssignment) RegisterTypesAndOffsets() ([]*types.Type, []int64) {
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l := len(pa.Registers)
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if l == 0 {
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return nil, nil
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}
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typs := make([]*types.Type, 0, l)
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offs := make([]int64, 0, l)
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return appendParamTypes(typs, pa.Type), appendParamOffsets(offs, 0, pa.Type)
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}
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func appendParamTypes(rts []*types.Type, t *types.Type) []*types.Type {
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if t.IsScalar() || t.IsPtrShaped() {
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if t.IsComplex() {
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c := types.FloatForComplex(t)
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@ -146,25 +156,60 @@ func appendParamRegs(rts []*types.Type, t *types.Type) []*types.Type {
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switch typ {
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case types.TARRAY:
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for i := int64(0); i < t.Size(); i++ { // 0 gets no registers, plus future-proofing.
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rts = appendParamRegs(rts, t.Elem())
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rts = appendParamTypes(rts, t.Elem())
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}
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case types.TSTRUCT:
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for _, f := range t.FieldSlice() {
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if f.Type.Size() > 0 { // embedded zero-width types receive no registers
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rts = appendParamRegs(rts, f.Type)
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rts = appendParamTypes(rts, f.Type)
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}
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}
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case types.TSLICE:
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return appendParamRegs(rts, synthSlice)
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return appendParamTypes(rts, synthSlice)
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case types.TSTRING:
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return appendParamRegs(rts, synthString)
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return appendParamTypes(rts, synthString)
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case types.TINTER:
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return appendParamRegs(rts, synthIface)
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return appendParamTypes(rts, synthIface)
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}
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}
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return rts
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}
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// appendParamOffsets appends the offset(s) of type t, starting from "at",
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// to input offsets, and returns the longer slice.
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func appendParamOffsets(offsets []int64, at int64, t *types.Type) []int64 {
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at = align(at, t)
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if t.IsScalar() || t.IsPtrShaped() {
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if t.IsComplex() || int(t.Width) > types.RegSize { // complex and *int64 on 32-bit
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s := t.Width / 2
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return append(offsets, at, at+s)
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} else {
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return append(offsets, at)
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}
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} else {
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typ := t.Kind()
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switch typ {
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case types.TARRAY:
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for i := int64(0); i < t.NumElem(); i++ {
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offsets = appendParamOffsets(offsets, at, t.Elem())
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}
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return offsets
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case types.TSTRUCT:
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for _, f := range t.FieldSlice() {
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offsets = appendParamOffsets(offsets, at, f.Type)
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at += f.Type.Width
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}
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case types.TSLICE:
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return appendParamOffsets(offsets, at, synthSlice)
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case types.TSTRING:
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return appendParamOffsets(offsets, at, synthString)
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case types.TINTER:
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return appendParamOffsets(offsets, at, synthIface)
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}
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}
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return offsets
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}
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// SpillOffset returns the offset *within the spill area* for the parameter that "a" describes.
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// Registers will be spilled here; if a memory home is needed (for a pointer method e.g.)
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// then that will be the address.
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@ -657,7 +657,7 @@ func (x *expandState) storeArgOrLoad(pos src.XPos, b *Block, source, mem *Value,
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case OpCopy:
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return x.storeArgOrLoad(pos, b, source.Args[0], mem, t, offset, loadRegOffset, storeRc)
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case OpLoad:
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case OpLoad, OpDereference:
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ret := x.decomposeArgOrLoad(pos, b, source, mem, t, offset, loadRegOffset, storeRc, storeOneLoad, storeTwoLoad)
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if ret != nil {
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return ret
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@ -820,6 +820,9 @@ func (x *expandState) storeArgOrLoad(pos src.XPos, b *Block, source, mem *Value,
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}
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s := mem
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if source.Op == OpDereference {
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source.Op = OpLoad // For purposes of parameter passing expansion, a Dereference is a Load.
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}
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if storeRc.hasRegs() {
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storeRc.addArg(source)
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} else {
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@ -846,14 +849,11 @@ func (x *expandState) rewriteArgs(v *Value, firstArg int) (*Value, []*Value) {
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auxI := int64(i)
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aRegs := aux.RegsOfArg(auxI)
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aType := aux.TypeOfArg(auxI)
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if a.Op == OpDereference {
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if len(aRegs) == 0 && a.Op == OpDereference {
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aOffset := aux.OffsetOfArg(auxI)
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if a.MemoryArg() != m0 {
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x.f.Fatalf("Op...LECall and OpDereference have mismatched mem, %s and %s", v.LongString(), a.LongString())
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}
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if len(aRegs) > 0 {
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x.f.Fatalf("Not implemented yet, not-SSA-type %v passed in registers", aType)
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}
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// "Dereference" of addressed (probably not-SSA-eligible) value becomes Move
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// TODO(register args) this will be more complicated with registers in the picture.
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mem = x.rewriteDereference(v.Block, x.sp, a, mem, aOffset, aux.SizeOfArg(auxI), aType, pos)
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@ -969,10 +969,7 @@ func expandCalls(f *Func) {
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auxOffset := int64(0)
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auxSize := aux.SizeOfResult(i)
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aRegs := aux.RegsOfResult(int64(j))
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if a.Op == OpDereference {
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if len(aRegs) > 0 {
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x.f.Fatalf("Not implemented yet, not-SSA-type %v returned in register", auxType)
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}
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if len(aRegs) == 0 && a.Op == OpDereference {
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// Avoid a self-move, and if one is detected try to remove the already-inserted VarDef for the assignment that won't happen.
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if dAddr, dMem := a.Args[0], a.Args[1]; dAddr.Op == OpLocalAddr && dAddr.Args[0].Op == OpSP &&
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dAddr.Args[1] == dMem && dAddr.Aux == aux.results[i].Name {
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@ -1392,3 +1389,14 @@ func (x *expandState) newArgToMemOrRegs(baseArg, toReplace *Value, offset int64,
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}
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}
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}
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// argOpAndRegisterFor converts an abi register index into an ssa Op and corresponding
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// arg register index.
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// TODO could call this in at least two places earlier in this file.
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func ArgOpAndRegisterFor(r abi.RegIndex, abiConfig *abi.ABIConfig) (Op, int64) {
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i := abiConfig.FloatIndexFor(r)
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if i >= 0 { // float PR
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return OpArgFloatReg, i
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}
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return OpArgIntReg, int64(r)
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}
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@ -555,19 +555,26 @@ func buildssa(fn *ir.Func, worker int) *ssa.Func {
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}
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s.vars[n] = v
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s.addNamedValue(n, v) // This helps with debugging information, not needed for compilation itself.
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} else if !s.canSSAName(n) { // I.e., the address was taken. The type may or may not be okay.
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// If the value will arrive in registers,
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// AND if it can be SSA'd (if it cannot, panic for now),
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// THEN
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// (1) receive it as an OpArg (but do not store its name in the var table)
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// (2) store it to its spill location, which is its address as well.
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} else { // address was taken AND/OR too large for SSA
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paramAssignment := ssa.ParamAssignmentForArgName(s.f, n)
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if len(paramAssignment.Registers) > 0 {
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if !TypeOK(n.Type()) { // TODO register args -- if v is not an SSA-able type, must decompose, here.
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panic(fmt.Errorf("Arg in registers is too big to be SSA'd, need to implement decomposition, type=%v, n=%v", n.Type(), n))
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if TypeOK(n.Type()) { // SSA-able type, so address was taken -- receive value in OpArg, DO NOT bind to var, store immediately to memory.
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v := s.newValue0A(ssa.OpArg, n.Type(), n)
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s.store(n.Type(), s.decladdrs[n], v)
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} else { // Too big for SSA.
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// Brute force, and early, do a bunch of stores from registers
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// TODO fix the nasty storeArgOrLoad recursion in ssa/expand_calls.go so this Just Works with store of a big Arg.
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typs, offs := paramAssignment.RegisterTypesAndOffsets()
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for i, t := range typs {
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o := offs[i]
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r := paramAssignment.Registers[i]
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op, reg := ssa.ArgOpAndRegisterFor(r, s.f.ABISelf)
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v := s.newValue0I(op, t, reg)
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v.Aux = &ssa.AuxNameOffset{Name: n, Offset: o}
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p := s.newValue1I(ssa.OpOffPtr, types.NewPtr(n.Type()), o, s.decladdrs[n])
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s.store(t, p, v)
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}
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}
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v := s.newValue0A(ssa.OpArg, n.Type(), n)
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s.store(n.Type(), s.decladdrs[n], v)
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}
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}
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}
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91
test/abi/named_results.go
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91
test/abi/named_results.go
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@ -0,0 +1,91 @@
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// run
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//go:build !wasm
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// +build !wasm
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// Copyright 2021 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package main
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import (
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"fmt"
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)
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var sink *string
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var y int
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//go:registerparams
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//go:noinline
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func F(a, b, c *int) (x int) {
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x = *a
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G(&x)
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x += *b
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G(&x)
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x += *c
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G(&x)
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return
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}
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//go:registerparams
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//go:noinline
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func G(x *int) {
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y += *x
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fmt.Println("y = ", y)
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}
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//go:registerparams
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//go:noinline
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func X() {
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*sink += " !!!!!!!!!!!!!!!"
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}
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//go:registerparams
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//go:noinline
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func H(s, t string) (result string) { // result leaks to heap
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result = "Aloha! " + s + " " + t
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sink = &result
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r := ""
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if len(s) <= len(t) {
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r = "OKAY! "
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X()
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}
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return r + result
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}
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//go:registerparams
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//go:noinline
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func K(s, t string) (result string) { // result spills
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result = "Aloha! " + s + " " + t
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r := ""
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if len(s) <= len(t) {
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r = "OKAY! "
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X()
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}
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return r + result
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}
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func main() {
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a, b, c := 1, 4, 16
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x := F(&a, &b, &c)
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fmt.Printf("x = %d\n", x)
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y := H("Hello", "World!")
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fmt.Println("len(y) =", len(y))
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fmt.Println("y =", y)
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z := H("Hello", "Pal!")
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fmt.Println("len(z) =", len(z))
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fmt.Println("z =", z)
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fmt.Println()
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y = K("Hello", "World!")
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fmt.Println("len(y) =", len(y))
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fmt.Println("y =", y)
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z = K("Hello", "Pal!")
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fmt.Println("len(z) =", len(z))
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fmt.Println("z =", z)
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}
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13
test/abi/named_results.out
Normal file
13
test/abi/named_results.out
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@ -0,0 +1,13 @@
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y = 1
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y = 6
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y = 27
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x = 21
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len(y) = 41
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y = OKAY! Aloha! Hello World! !!!!!!!!!!!!!!!
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len(z) = 17
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z = Aloha! Hello Pal!
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len(y) = 25
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y = OKAY! Aloha! Hello World!
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len(z) = 17
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z = Aloha! Hello Pal!
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