cmd/objdump: updates from golang.org/x/arch/ppc64/ppc64asm

Update the ppc64x disassembly code for use by objdump
from golang.org/x/arch/ppc64/ppc64asm commit fcea5ea.
Enable the objdump testcase for external linking on ppc64le
make a minor fix to the expected output.

Fixes #17447

Change-Id: I769cc7f8bfade594690a476dfe77ab33677ac03b
Reviewed-on: https://go-review.googlesource.com/32015
Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>

src/cmd/objdump/objdump_test.go

@@ -54,7 +54,7 @@ var ppcNeed = []string{
 	"fmthello.go:6",
 	"TEXT main.main(SB)",
 	"BR main.main(SB)",
-	"BL fmt.Println(SB)",
+	"CALL fmt.Println(SB)",
 	"RET",
 }
 
@@ -143,7 +143,7 @@ func TestDisasmExtld(t *testing.T) {
 		t.Skipf("skipping on %s", runtime.GOOS)
 	}
 	switch runtime.GOARCH {
-	case "ppc64", "ppc64le":
+	case "ppc64":
 		t.Skipf("skipping on %s, no support for external linking, issue 9038", runtime.GOARCH)
 	case "arm64":
 		t.Skipf("skipping on %s, issue 10106", runtime.GOARCH)

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/decode.go

@@ -52,6 +52,8 @@ func (a argField) Parse(i uint32) Arg {
 		return F0 + Reg(a.BitFields.Parse(i))
 	case TypeVecReg:
 		return V0 + Reg(a.BitFields.Parse(i))
+	case TypeVecSReg:
+		return VS0 + Reg(a.BitFields.Parse(i))
 	case TypeSpReg:
 		return SpReg(a.BitFields.Parse(i))
 	case TypeImmSigned:
@@ -78,6 +80,7 @@ const (
 	TypeCondRegField         // conditional register field (0-7)
 	TypeFPReg                // floating point register
 	TypeVecReg               // vector register
+	TypeVecSReg              // VSX register
 	TypeSpReg                // special register (depends on Op)
 	TypeImmSigned            // signed immediate
 	TypeImmUnsigned          // unsigned immediate/flag/mask, this is the catch-all type
@@ -101,6 +104,8 @@ func (t ArgType) String() string {
 		return "FPReg"
 	case TypeVecReg:
 		return "VecReg"
+	case TypeVecSReg:
+		return "VecSReg"
 	case TypeSpReg:
 		return "SpReg"
 	case TypeImmSigned:

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/ext_test.go

@@ -176,7 +176,7 @@ func testExtDis(
 	t.Logf("%d test cases, %d expected mismatches, %d failures; %.0f cases/second", totalTests, totalSkips, totalErrors, float64(totalTests)/time.Since(start).Seconds())
 
 	if err := <-errc; err != nil {
-		t.Fatal("external disassembler: %v", err)
+		t.Fatalf("external disassembler: %v", err)
 	}
 
 }

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/inst.go

@@ -156,38 +156,70 @@ const (
 	V29
 	V30
 	V31
-	V32
-	V33
-	V34
-	V35
-	V36
-	V37
-	V38
-	V39
-	V40
-	V41
-	V42
-	V43
-	V44
-	V45
-	V46
-	V47
-	V48
-	V49
-	V50
-	V51
-	V52
-	V53
-	V54
-	V55
-	V56
-	V57
-	V58
-	V59
-	V60
-	V61
-	V62
-	V63
+	VS0
+	VS1
+	VS2
+	VS3
+	VS4
+	VS5
+	VS6
+	VS7
+	VS8
+	VS9
+	VS10
+	VS11
+	VS12
+	VS13
+	VS14
+	VS15
+	VS16
+	VS17
+	VS18
+	VS19
+	VS20
+	VS21
+	VS22
+	VS23
+	VS24
+	VS25
+	VS26
+	VS27
+	VS28
+	VS29
+	VS30
+	VS31
+	VS32
+	VS33
+	VS34
+	VS35
+	VS36
+	VS37
+	VS38
+	VS39
+	VS40
+	VS41
+	VS42
+	VS43
+	VS44
+	VS45
+	VS46
+	VS47
+	VS48
+	VS49
+	VS50
+	VS51
+	VS52
+	VS53
+	VS54
+	VS55
+	VS56
+	VS57
+	VS58
+	VS59
+	VS60
+	VS61
+	VS62
+	VS63
 )
 
 func (Reg) IsArg() {}
@@ -197,10 +229,12 @@ func (r Reg) String() string {
 		return fmt.Sprintf("r%d", int(r-R0))
 	case F0 <= r && r <= F31:
 		return fmt.Sprintf("f%d", int(r-F0))
-	case V0 <= r && r <= V63:
+	case V0 <= r && r <= V31:
 		return fmt.Sprintf("v%d", int(r-V0))
+	case VS0 <= r && r <= VS63:
+		return fmt.Sprintf("vs%d", int(r-VS0))
 	default:
-		return fmt.Sprint("Reg(%d)", int(r))
+		return fmt.Sprintf("Reg(%d)", int(r))
 	}
 }
 

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/objdump_test.go

@@ -12,7 +12,10 @@ import (
 
 func TestObjdumpPowerTestdata(t *testing.T) { testObjdump(t, testdataCases(t)) }
 func TestObjdumpPowerManual(t *testing.T)   { testObjdump(t, hexCases(t, objdumpManualTests)) }
-func TestObjdumpPowerRandom(t *testing.T)   { testObjdump(t, randomCases(t)) }
+
+// Disable this for now since generating all possible bit combinations within a word
+// generates lots of ppc64x instructions not possible with golang so not worth supporting..
+//func TestObjdumpPowerRandom(t *testing.T)   { testObjdump(t, randomCases(t)) }
 
 // objdumpManualTests holds test cases that will be run by TestObjdumpARMManual.
 // If you are debugging a few cases that turned up in a longer run, it can be useful

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/objdumpext_test.go

@@ -19,7 +19,7 @@ import (
 	"testing"
 )
 
-const objdumpPath = "/usr/local/bin/powerpc64-unknown-linux-gnu-objdump"
+const objdumpPath = "/usr/bin/objdump"
 
 func testObjdump(t *testing.T, generate func(func([]byte))) {
 	if testing.Short() {

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/plan9.go

@@ -148,16 +148,25 @@ var revCondMap = map[string]string{
 
 // plan9OpMap maps an Op to its Plan 9 mnemonics, if different than its GNU mnemonics.
 var plan9OpMap = map[Op]string{
-	LBZ: "MOVBZ", STB: "MOVB",
+	LWARX: "LWAR", STWCX_: "STWCCC",
+	LDARX: "LDAR", STDCX_: "STDCCC",
+	LHARX: "LHAR", STHCX_: "STHCCC",
+	LBARX: "LBAR", STBCX_: "STBCCC",
+	ADDI: "ADD",
+	ADD_: "ADDCC",
+	LBZ:  "MOVBZ", STB: "MOVB",
 	LBZU: "MOVBZU", STBU: "MOVBU", // TODO(minux): indexed forms are not handled
 	LHZ: "MOVHZ", LHA: "MOVH", STH: "MOVH",
 	LHZU: "MOVHZU", STHU: "MOVHU",
+	LI:  "MOVD",
+	LIS: "ADDIS",
 	LWZ: "MOVWZ", LWA: "MOVW", STW: "MOVW",
 	LWZU: "MOVWZU", STWU: "MOVWU",
 	LD: "MOVD", STD: "MOVD",
 	LDU: "MOVDU", STDU: "MOVDU",
-	MTSPR: "MOV", MFSPR: "MOV", // the width is ambiguous for SPRs
+	MTSPR: "MOVD", MFSPR: "MOVD", // the width is ambiguous for SPRs
 	B:     "BR",
+	BL:    "CALL",
 	CMPLD: "CMPU", CMPLW: "CMPWU",
 	CMPD: "CMP", CMPW: "CMPW",
 }

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/tables.go

+// DO NOT EDIT
+// generated by: ppc64map -fmt=decoder ../pp64.csv
+
 package ppc64asm
 
 const (
@@ -2686,7 +2689,7 @@ var (
 	ap_SpReg_16_20_11_15       = &argField{Type: TypeSpReg, Shift: 0, BitFields: BitFields{{16, 5}, {11, 5}}}
 	ap_ImmUnsigned_12_19       = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{12, 8}}}
 	ap_ImmUnsigned_10_10       = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{10, 1}}}
-	ap_VecReg_31_31_6_10       = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{31, 1}, {6, 5}}}
+	ap_VecSReg_31_31_6_10      = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{31, 1}, {6, 5}}}
 	ap_FPReg_6_10              = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{6, 5}}}
 	ap_FPReg_16_20             = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{16, 5}}}
 	ap_FPReg_11_15             = &argField{Type: TypeFPReg, Shift: 0, BitFields: BitFields{{11, 5}}}
@@ -2712,10 +2715,10 @@ var (
 	ap_ImmUnsigned_21_22       = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{21, 2}}}
 	ap_ImmUnsigned_11_12       = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{11, 2}}}
 	ap_ImmUnsigned_11_11       = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{11, 1}}}
-	ap_VecReg_30_30_16_20      = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{30, 1}, {16, 5}}}
-	ap_VecReg_29_29_11_15      = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{29, 1}, {11, 5}}}
+	ap_VecSReg_30_30_16_20     = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{30, 1}, {16, 5}}}
+	ap_VecSReg_29_29_11_15     = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{29, 1}, {11, 5}}}
 	ap_ImmUnsigned_22_23       = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{22, 2}}}
-	ap_VecReg_28_28_21_25      = &argField{Type: TypeVecReg, Shift: 0, BitFields: BitFields{{28, 1}, {21, 5}}}
+	ap_VecSReg_28_28_21_25     = &argField{Type: TypeVecSReg, Shift: 0, BitFields: BitFields{{28, 1}, {21, 5}}}
 	ap_CondRegField_29_31      = &argField{Type: TypeCondRegField, Shift: 0, BitFields: BitFields{{29, 3}}}
 	ap_ImmUnsigned_7_10        = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{7, 4}}}
 	ap_ImmUnsigned_9_10        = &argField{Type: TypeImmUnsigned, Shift: 0, BitFields: BitFields{{9, 2}}}
@@ -3276,15 +3279,15 @@ var instFormats = [...]instFormat{
 	{MTSLE, 0xfc0007fe, 0x7c000126, 0x3dff801, // Move To Split Little Endian X-form (mtsle L)
 		[5]*argField{ap_ImmUnsigned_10_10}},
 	{MFVSRD, 0xfc0007fe, 0x7c000066, 0xf800, // Move From VSR Doubleword XX1-form (mfvsrd RA,XS)
-		[5]*argField{ap_Reg_11_15, ap_VecReg_31_31_6_10}},
+		[5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}},
 	{MFVSRWZ, 0xfc0007fe, 0x7c0000e6, 0xf800, // Move From VSR Word and Zero XX1-form (mfvsrwz RA,XS)
-		[5]*argField{ap_Reg_11_15, ap_VecReg_31_31_6_10}},
+		[5]*argField{ap_Reg_11_15, ap_VecSReg_31_31_6_10}},
 	{MTVSRD, 0xfc0007fe, 0x7c000166, 0xf800, // Move To VSR Doubleword XX1-form (mtvsrd XT,RA)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}},
 	{MTVSRWA, 0xfc0007fe, 0x7c0001a6, 0xf800, // Move To VSR Word Algebraic XX1-form (mtvsrwa XT,RA)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}},
 	{MTVSRWZ, 0xfc0007fe, 0x7c0001e6, 0xf800, // Move To VSR Word and Zero XX1-form (mtvsrwz XT,RA)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15}},
 	{MTOCRF, 0xfc1007fe, 0x7c100120, 0x801, // Move To One Condition Register Field XFX-form (mtocrf FXM,RS)
 		[5]*argField{ap_ImmUnsigned_12_19, ap_Reg_6_10}},
 	{MFOCRF, 0xfc1007fe, 0x7c100026, 0x801, // Move From One Condition Register Field XFX-form (mfocrf RT,FXM)
@@ -4122,313 +4125,313 @@ var instFormats = [...]instFormat{
 	{DSCRI_, 0xfc0003ff, 0xec0000c5, 0x0, // DFP Shift Significand Right Immediate [Quad] Z22-form (dscri. FRT,FRA,SH)
 		[5]*argField{ap_FPReg_6_10, ap_FPReg_11_15, ap_ImmUnsigned_16_21}},
 	{LXSDX, 0xfc0007fe, 0x7c000498, 0x0, // Load VSX Scalar Doubleword Indexed XX1-form (lxsdx XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{LXSIWAX, 0xfc0007fe, 0x7c000098, 0x0, // Load VSX Scalar as Integer Word Algebraic Indexed XX1-form (lxsiwax XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{LXSIWZX, 0xfc0007fe, 0x7c000018, 0x0, // Load VSX Scalar as Integer Word and Zero Indexed XX1-form (lxsiwzx XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{LXSSPX, 0xfc0007fe, 0x7c000418, 0x0, // Load VSX Scalar Single-Precision Indexed XX1-form (lxsspx XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{LXVD2X, 0xfc0007fe, 0x7c000698, 0x0, // Load VSX Vector Doubleword*2 Indexed XX1-form (lxvd2x XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{LXVDSX, 0xfc0007fe, 0x7c000298, 0x0, // Load VSX Vector Doubleword & Splat Indexed XX1-form (lxvdsx XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{LXVW4X, 0xfc0007fe, 0x7c000618, 0x0, // Load VSX Vector Word*4 Indexed XX1-form (lxvw4x XT,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{STXSDX, 0xfc0007fe, 0x7c000598, 0x0, // Store VSX Scalar Doubleword Indexed XX1-form (stxsdx XS,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{STXSIWX, 0xfc0007fe, 0x7c000118, 0x0, // Store VSX Scalar as Integer Word Indexed XX1-form (stxsiwx XS,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{STXSSPX, 0xfc0007fe, 0x7c000518, 0x0, // Store VSX Scalar Single-Precision Indexed XX1-form (stxsspx XS,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{STXVD2X, 0xfc0007fe, 0x7c000798, 0x0, // Store VSX Vector Doubleword*2 Indexed XX1-form (stxvd2x XS,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{STXVW4X, 0xfc0007fe, 0x7c000718, 0x0, // Store VSX Vector Word*4 Indexed XX1-form (stxvw4x XS,RA,RB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{XSABSDP, 0xfc0007fc, 0xf0000564, 0x1f0000, // VSX Scalar Absolute Value Double-Precision XX2-form (xsabsdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSADDDP, 0xfc0007f8, 0xf0000100, 0x0, // VSX Scalar Add Double-Precision XX3-form (xsadddp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSADDSP, 0xfc0007f8, 0xf0000000, 0x0, // VSX Scalar Add Single-Precision XX3-form (xsaddsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSCMPODP, 0xfc0007f8, 0xf0000158, 0x600001, // VSX Scalar Compare Ordered Double-Precision XX3-form (xscmpodp BF,XA,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSCMPUDP, 0xfc0007f8, 0xf0000118, 0x600001, // VSX Scalar Compare Unordered Double-Precision XX3-form (xscmpudp BF,XA,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSCPSGNDP, 0xfc0007f8, 0xf0000580, 0x0, // VSX Scalar Copy Sign Double-Precision XX3-form (xscpsgndp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSCVDPSP, 0xfc0007fc, 0xf0000424, 0x1f0000, // VSX Scalar round Double-Precision to single-precision and Convert to Single-Precision format XX2-form (xscvdpsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVDPSPN, 0xfc0007fc, 0xf000042c, 0x1f0000, // VSX Scalar Convert Scalar Single-Precision to Vector Single-Precision format Non-signalling XX2-form (xscvdpspn XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVDPSXDS, 0xfc0007fc, 0xf0000560, 0x1f0000, // VSX Scalar truncate Double-Precision to integer and Convert to Signed Integer Doubleword format with Saturate XX2-form (xscvdpsxds XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVDPSXWS, 0xfc0007fc, 0xf0000160, 0x1f0000, // VSX Scalar truncate Double-Precision to integer and Convert to Signed Integer Word format with Saturate XX2-form (xscvdpsxws XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVDPUXDS, 0xfc0007fc, 0xf0000520, 0x1f0000, // VSX Scalar truncate Double-Precision integer and Convert to Unsigned Integer Doubleword format with Saturate XX2-form (xscvdpuxds XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVDPUXWS, 0xfc0007fc, 0xf0000120, 0x1f0000, // VSX Scalar truncate Double-Precision to integer and Convert to Unsigned Integer Word format with Saturate XX2-form (xscvdpuxws XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVSPDP, 0xfc0007fc, 0xf0000524, 0x1f0000, // VSX Scalar Convert Single-Precision to Double-Precision format XX2-form (xscvspdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVSPDPN, 0xfc0007fc, 0xf000052c, 0x1f0000, // VSX Scalar Convert Single-Precision to Double-Precision format Non-signalling XX2-form (xscvspdpn XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVSXDDP, 0xfc0007fc, 0xf00005e0, 0x1f0000, // VSX Scalar Convert Signed Integer Doubleword to floating-point format and round to Double-Precision format XX2-form (xscvsxddp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVSXDSP, 0xfc0007fc, 0xf00004e0, 0x1f0000, // VSX Scalar Convert Signed Integer Doubleword to floating-point format and round to Single-Precision XX2-form (xscvsxdsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVUXDDP, 0xfc0007fc, 0xf00005a0, 0x1f0000, // VSX Scalar Convert Unsigned Integer Doubleword to floating-point format and round to Double-Precision format XX2-form (xscvuxddp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSCVUXDSP, 0xfc0007fc, 0xf00004a0, 0x1f0000, // VSX Scalar Convert Unsigned Integer Doubleword to floating-point format and round to Single-Precision XX2-form (xscvuxdsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSDIVDP, 0xfc0007f8, 0xf00001c0, 0x0, // VSX Scalar Divide Double-Precision XX3-form (xsdivdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSDIVSP, 0xfc0007f8, 0xf00000c0, 0x0, // VSX Scalar Divide Single-Precision XX3-form (xsdivsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMADDADP, 0xfc0007f8, 0xf0000108, 0x0, // VSX Scalar Multiply-Add Double-Precision XX3-form (xsmaddadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMADDASP, 0xfc0007f8, 0xf0000008, 0x0, // VSX Scalar Multiply-Add Single-Precision XX3-form (xsmaddasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMAXDP, 0xfc0007f8, 0xf0000500, 0x0, // VSX Scalar Maximum Double-Precision XX3-form (xsmaxdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMINDP, 0xfc0007f8, 0xf0000540, 0x0, // VSX Scalar Minimum Double-Precision XX3-form (xsmindp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMSUBADP, 0xfc0007f8, 0xf0000188, 0x0, // VSX Scalar Multiply-Subtract Double-Precision XX3-form (xsmsubadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMSUBASP, 0xfc0007f8, 0xf0000088, 0x0, // VSX Scalar Multiply-Subtract Single-Precision XX3-form (xsmsubasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMULDP, 0xfc0007f8, 0xf0000180, 0x0, // VSX Scalar Multiply Double-Precision XX3-form (xsmuldp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSMULSP, 0xfc0007f8, 0xf0000080, 0x0, // VSX Scalar Multiply Single-Precision XX3-form (xsmulsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSNABSDP, 0xfc0007fc, 0xf00005a4, 0x1f0000, // VSX Scalar Negative Absolute Value Double-Precision XX2-form (xsnabsdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSNEGDP, 0xfc0007fc, 0xf00005e4, 0x1f0000, // VSX Scalar Negate Double-Precision XX2-form (xsnegdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSNMADDADP, 0xfc0007f8, 0xf0000508, 0x0, // VSX Scalar Negative Multiply-Add Double-Precision XX3-form (xsnmaddadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSNMADDASP, 0xfc0007f8, 0xf0000408, 0x0, // VSX Scalar Negative Multiply-Add Single-Precision XX3-form (xsnmaddasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSNMSUBADP, 0xfc0007f8, 0xf0000588, 0x0, // VSX Scalar Negative Multiply-Subtract Double-Precision XX3-form (xsnmsubadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSNMSUBASP, 0xfc0007f8, 0xf0000488, 0x0, // VSX Scalar Negative Multiply-Subtract Single-Precision XX3-form (xsnmsubasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSRDPI, 0xfc0007fc, 0xf0000124, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round to Nearest Away XX2-form (xsrdpi XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRDPIC, 0xfc0007fc, 0xf00001ac, 0x1f0000, // VSX Scalar Round to Double-Precision Integer exact using Current rounding mode XX2-form (xsrdpic XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRDPIM, 0xfc0007fc, 0xf00001e4, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round toward -Infinity XX2-form (xsrdpim XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRDPIP, 0xfc0007fc, 0xf00001a4, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round toward +Infinity XX2-form (xsrdpip XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRDPIZ, 0xfc0007fc, 0xf0000164, 0x1f0000, // VSX Scalar Round to Double-Precision Integer using round toward Zero XX2-form (xsrdpiz XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSREDP, 0xfc0007fc, 0xf0000168, 0x1f0000, // VSX Scalar Reciprocal Estimate Double-Precision XX2-form (xsredp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRESP, 0xfc0007fc, 0xf0000068, 0x1f0000, // VSX Scalar Reciprocal Estimate Single-Precision XX2-form (xsresp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRSP, 0xfc0007fc, 0xf0000464, 0x1f0000, // VSX Scalar Round to Single-Precision XX2-form (xsrsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRSQRTEDP, 0xfc0007fc, 0xf0000128, 0x1f0000, // VSX Scalar Reciprocal Square Root Estimate Double-Precision XX2-form (xsrsqrtedp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSRSQRTESP, 0xfc0007fc, 0xf0000028, 0x1f0000, // VSX Scalar Reciprocal Square Root Estimate Single-Precision XX2-form (xsrsqrtesp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSSQRTDP, 0xfc0007fc, 0xf000012c, 0x1f0000, // VSX Scalar Square Root Double-Precision XX2-form (xssqrtdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSSQRTSP, 0xfc0007fc, 0xf000002c, 0x1f0000, // VSX Scalar Square Root Single-Precision XX-form (xssqrtsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XSSUBDP, 0xfc0007f8, 0xf0000140, 0x0, // VSX Scalar Subtract Double-Precision XX3-form (xssubdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSSUBSP, 0xfc0007f8, 0xf0000040, 0x0, // VSX Scalar Subtract Single-Precision XX3-form (xssubsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSTDIVDP, 0xfc0007f8, 0xf00001e8, 0x600001, // VSX Scalar Test for software Divide Double-Precision XX3-form (xstdivdp BF,XA,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XSTSQRTDP, 0xfc0007fc, 0xf00001a8, 0x7f0001, // VSX Scalar Test for software Square Root Double-Precision XX2-form (xstsqrtdp BF,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_30_30_16_20}},
 	{XVABSDP, 0xfc0007fc, 0xf0000764, 0x1f0000, // VSX Vector Absolute Value Double-Precision XX2-form (xvabsdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVABSSP, 0xfc0007fc, 0xf0000664, 0x1f0000, // VSX Vector Absolute Value Single-Precision XX2-form (xvabssp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVADDDP, 0xfc0007f8, 0xf0000300, 0x0, // VSX Vector Add Double-Precision XX3-form (xvadddp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVADDSP, 0xfc0007f8, 0xf0000200, 0x0, // VSX Vector Add Single-Precision XX3-form (xvaddsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPEQDP, 0xfc0007f8, 0xf0000318, 0x0, // VSX Vector Compare Equal To Double-Precision [ & Record ] XX3-form (xvcmpeqdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPEQDP_, 0xfc0007f8, 0xf0000718, 0x0, // VSX Vector Compare Equal To Double-Precision [ & Record ] XX3-form (xvcmpeqdp. XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPEQSP, 0xfc0007f8, 0xf0000218, 0x0, // VSX Vector Compare Equal To Single-Precision [ & Record ] XX3-form (xvcmpeqsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPEQSP_, 0xfc0007f8, 0xf0000618, 0x0, // VSX Vector Compare Equal To Single-Precision [ & Record ] XX3-form (xvcmpeqsp. XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGEDP, 0xfc0007f8, 0xf0000398, 0x0, // VSX Vector Compare Greater Than or Equal To Double-Precision [ & Record ] XX3-form (xvcmpgedp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGEDP_, 0xfc0007f8, 0xf0000798, 0x0, // VSX Vector Compare Greater Than or Equal To Double-Precision [ & Record ] XX3-form (xvcmpgedp. XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGESP, 0xfc0007f8, 0xf0000298, 0x0, // VSX Vector Compare Greater Than or Equal To Single-Precision [ & record CR6 ] XX3-form (xvcmpgesp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGESP_, 0xfc0007f8, 0xf0000698, 0x0, // VSX Vector Compare Greater Than or Equal To Single-Precision [ & record CR6 ] XX3-form (xvcmpgesp. XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGTDP, 0xfc0007f8, 0xf0000358, 0x0, // VSX Vector Compare Greater Than Double-Precision [ & record CR6 ] XX3-form (xvcmpgtdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGTDP_, 0xfc0007f8, 0xf0000758, 0x0, // VSX Vector Compare Greater Than Double-Precision [ & record CR6 ] XX3-form (xvcmpgtdp. XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGTSP, 0xfc0007f8, 0xf0000258, 0x0, // VSX Vector Compare Greater Than Single-Precision [ & record CR6 ] XX3-form (xvcmpgtsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCMPGTSP_, 0xfc0007f8, 0xf0000658, 0x0, // VSX Vector Compare Greater Than Single-Precision [ & record CR6 ] XX3-form (xvcmpgtsp. XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCPSGNDP, 0xfc0007f8, 0xf0000780, 0x0, // VSX Vector Copy Sign Double-Precision XX3-form (xvcpsgndp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCPSGNSP, 0xfc0007f8, 0xf0000680, 0x0, // VSX Vector Copy Sign Single-Precision XX3-form (xvcpsgnsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVCVDPSP, 0xfc0007fc, 0xf0000624, 0x1f0000, // VSX Vector round Double-Precision to single-precision and Convert to Single-Precision format XX2-form (xvcvdpsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVDPSXDS, 0xfc0007fc, 0xf0000760, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Signed Integer Doubleword format with Saturate XX2-form (xvcvdpsxds XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVDPSXWS, 0xfc0007fc, 0xf0000360, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Signed Integer Word format with Saturate XX2-form (xvcvdpsxws XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVDPUXDS, 0xfc0007fc, 0xf0000720, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Unsigned Integer Doubleword format with Saturate XX2-form (xvcvdpuxds XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVDPUXWS, 0xfc0007fc, 0xf0000320, 0x1f0000, // VSX Vector truncate Double-Precision to integer and Convert to Unsigned Integer Word format with Saturate XX2-form (xvcvdpuxws XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSPDP, 0xfc0007fc, 0xf0000724, 0x1f0000, // VSX Vector Convert Single-Precision to Double-Precision format XX2-form (xvcvspdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSPSXDS, 0xfc0007fc, 0xf0000660, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Signed Integer Doubleword format with Saturate XX2-form (xvcvspsxds XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSPSXWS, 0xfc0007fc, 0xf0000260, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Signed Integer Word format with Saturate XX2-form (xvcvspsxws XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSPUXDS, 0xfc0007fc, 0xf0000620, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Unsigned Integer Doubleword format with Saturate XX2-form (xvcvspuxds XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSPUXWS, 0xfc0007fc, 0xf0000220, 0x1f0000, // VSX Vector truncate Single-Precision to integer and Convert to Unsigned Integer Word format with Saturate XX2-form (xvcvspuxws XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSXDDP, 0xfc0007fc, 0xf00007e0, 0x1f0000, // VSX Vector Convert and round Signed Integer Doubleword to Double-Precision format XX2-form (xvcvsxddp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSXDSP, 0xfc0007fc, 0xf00006e0, 0x1f0000, // VSX Vector Convert and round Signed Integer Doubleword to Single-Precision format XX2-form (xvcvsxdsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSXWDP, 0xfc0007fc, 0xf00003e0, 0x1f0000, // VSX Vector Convert Signed Integer Word to Double-Precision format XX2-form (xvcvsxwdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVSXWSP, 0xfc0007fc, 0xf00002e0, 0x1f0000, // VSX Vector Convert and round Signed Integer Word to Single-Precision format XX2-form (xvcvsxwsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVUXDDP, 0xfc0007fc, 0xf00007a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Doubleword to Double-Precision format XX2-form (xvcvuxddp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVUXDSP, 0xfc0007fc, 0xf00006a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Doubleword to Single-Precision format XX2-form (xvcvuxdsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVUXWDP, 0xfc0007fc, 0xf00003a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Word to Double-Precision format XX2-form (xvcvuxwdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVCVUXWSP, 0xfc0007fc, 0xf00002a0, 0x1f0000, // VSX Vector Convert and round Unsigned Integer Word to Single-Precision format XX2-form (xvcvuxwsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVDIVDP, 0xfc0007f8, 0xf00003c0, 0x0, // VSX Vector Divide Double-Precision XX3-form (xvdivdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVDIVSP, 0xfc0007f8, 0xf00002c0, 0x0, // VSX Vector Divide Single-Precision XX3-form (xvdivsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMADDADP, 0xfc0007f8, 0xf0000308, 0x0, // VSX Vector Multiply-Add Double-Precision XX3-form (xvmaddadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMADDASP, 0xfc0007f8, 0xf0000208, 0x0, // VSX Vector Multiply-Add Single-Precision XX3-form (xvmaddasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMAXDP, 0xfc0007f8, 0xf0000700, 0x0, // VSX Vector Maximum Double-Precision XX3-form (xvmaxdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMAXSP, 0xfc0007f8, 0xf0000600, 0x0, // VSX Vector Maximum Single-Precision XX3-form (xvmaxsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMINDP, 0xfc0007f8, 0xf0000740, 0x0, // VSX Vector Minimum Double-Precision XX3-form (xvmindp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMINSP, 0xfc0007f8, 0xf0000640, 0x0, // VSX Vector Minimum Single-Precision XX3-form (xvminsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMSUBADP, 0xfc0007f8, 0xf0000388, 0x0, // VSX Vector Multiply-Subtract Double-Precision XX3-form (xvmsubadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMSUBASP, 0xfc0007f8, 0xf0000288, 0x0, // VSX Vector Multiply-Subtract Single-Precision XX3-form (xvmsubasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMULDP, 0xfc0007f8, 0xf0000380, 0x0, // VSX Vector Multiply Double-Precision XX3-form (xvmuldp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVMULSP, 0xfc0007f8, 0xf0000280, 0x0, // VSX Vector Multiply Single-Precision XX3-form (xvmulsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVNABSDP, 0xfc0007fc, 0xf00007a4, 0x1f0000, // VSX Vector Negative Absolute Value Double-Precision XX2-form (xvnabsdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVNABSSP, 0xfc0007fc, 0xf00006a4, 0x1f0000, // VSX Vector Negative Absolute Value Single-Precision XX2-form (xvnabssp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVNEGDP, 0xfc0007fc, 0xf00007e4, 0x1f0000, // VSX Vector Negate Double-Precision XX2-form (xvnegdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVNEGSP, 0xfc0007fc, 0xf00006e4, 0x1f0000, // VSX Vector Negate Single-Precision XX2-form (xvnegsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVNMADDADP, 0xfc0007f8, 0xf0000708, 0x0, // VSX Vector Negative Multiply-Add Double-Precision XX3-form (xvnmaddadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVNMADDASP, 0xfc0007f8, 0xf0000608, 0x0, // VSX Vector Negative Multiply-Add Single-Precision XX3-form (xvnmaddasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVNMSUBADP, 0xfc0007f8, 0xf0000788, 0x0, // VSX Vector Negative Multiply-Subtract Double-Precision XX3-form (xvnmsubadp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVNMSUBASP, 0xfc0007f8, 0xf0000688, 0x0, // VSX Vector Negative Multiply-Subtract Single-Precision XX3-form (xvnmsubasp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVRDPI, 0xfc0007fc, 0xf0000324, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round to Nearest Away XX2-form (xvrdpi XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRDPIC, 0xfc0007fc, 0xf00003ac, 0x1f0000, // VSX Vector Round to Double-Precision Integer Exact using Current rounding mode XX2-form (xvrdpic XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRDPIM, 0xfc0007fc, 0xf00003e4, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round toward -Infinity XX2-form (xvrdpim XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRDPIP, 0xfc0007fc, 0xf00003a4, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round toward +Infinity XX2-form (xvrdpip XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRDPIZ, 0xfc0007fc, 0xf0000364, 0x1f0000, // VSX Vector Round to Double-Precision Integer using round toward Zero XX2-form (xvrdpiz XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVREDP, 0xfc0007fc, 0xf0000368, 0x1f0000, // VSX Vector Reciprocal Estimate Double-Precision XX2-form (xvredp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRESP, 0xfc0007fc, 0xf0000268, 0x1f0000, // VSX Vector Reciprocal Estimate Single-Precision XX2-form (xvresp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSPI, 0xfc0007fc, 0xf0000224, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round to Nearest Away XX2-form (xvrspi XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSPIC, 0xfc0007fc, 0xf00002ac, 0x1f0000, // VSX Vector Round to Single-Precision Integer Exact using Current rounding mode XX2-form (xvrspic XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSPIM, 0xfc0007fc, 0xf00002e4, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round toward -Infinity XX2-form (xvrspim XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSPIP, 0xfc0007fc, 0xf00002a4, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round toward +Infinity XX2-form (xvrspip XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSPIZ, 0xfc0007fc, 0xf0000264, 0x1f0000, // VSX Vector Round to Single-Precision Integer using round toward Zero XX2-form (xvrspiz XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSQRTEDP, 0xfc0007fc, 0xf0000328, 0x1f0000, // VSX Vector Reciprocal Square Root Estimate Double-Precision XX2-form (xvrsqrtedp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVRSQRTESP, 0xfc0007fc, 0xf0000228, 0x1f0000, // VSX Vector Reciprocal Square Root Estimate Single-Precision XX2-form (xvrsqrtesp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVSQRTDP, 0xfc0007fc, 0xf000032c, 0x1f0000, // VSX Vector Square Root Double-Precision XX2-form (xvsqrtdp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVSQRTSP, 0xfc0007fc, 0xf000022c, 0x1f0000, // VSX Vector Square Root Single-Precision XX2-form (xvsqrtsp XT,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20}},
 	{XVSUBDP, 0xfc0007f8, 0xf0000340, 0x0, // VSX Vector Subtract Double-Precision XX3-form (xvsubdp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVSUBSP, 0xfc0007f8, 0xf0000240, 0x0, // VSX Vector Subtract Single-Precision XX3-form (xvsubsp XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVTDIVDP, 0xfc0007f8, 0xf00003e8, 0x600001, // VSX Vector Test for software Divide Double-Precision XX3-form (xvtdivdp BF,XA,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVTDIVSP, 0xfc0007f8, 0xf00002e8, 0x600001, // VSX Vector Test for software Divide Single-Precision XX3-form (xvtdivsp BF,XA,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XVTSQRTDP, 0xfc0007fc, 0xf00003a8, 0x7f0001, // VSX Vector Test for software Square Root Double-Precision XX2-form (xvtsqrtdp BF,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_30_30_16_20}},
 	{XVTSQRTSP, 0xfc0007fc, 0xf00002a8, 0x7f0001, // VSX Vector Test for software Square Root Single-Precision XX2-form (xvtsqrtsp BF,XB)
-		[5]*argField{ap_CondRegField_6_8, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_CondRegField_6_8, ap_VecSReg_30_30_16_20}},
 	{XXLAND, 0xfc0007f8, 0xf0000410, 0x0, // VSX Logical AND XX3-form (xxland XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLANDC, 0xfc0007f8, 0xf0000450, 0x0, // VSX Logical AND with Complement XX3-form (xxlandc XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLEQV, 0xfc0007f8, 0xf00005d0, 0x0, // VSX Logical Equivalence XX3-form (xxleqv XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLNAND, 0xfc0007f8, 0xf0000590, 0x0, // VSX Logical NAND XX3-form (xxlnand XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLORC, 0xfc0007f8, 0xf0000550, 0x0, // VSX Logical OR with Complement XX3-form (xxlorc XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLNOR, 0xfc0007f8, 0xf0000510, 0x0, // VSX Logical NOR XX3-form (xxlnor XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLOR, 0xfc0007f8, 0xf0000490, 0x0, // VSX Logical OR XX3-form (xxlor XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXLXOR, 0xfc0007f8, 0xf00004d0, 0x0, // VSX Logical XOR XX3-form (xxlxor XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXMRGHW, 0xfc0007f8, 0xf0000090, 0x0, // VSX Merge High Word XX3-form (xxmrghw XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXMRGLW, 0xfc0007f8, 0xf0000190, 0x0, // VSX Merge Low Word XX3-form (xxmrglw XT,XA,XB)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20}},
 	{XXPERMDI, 0xfc0004f8, 0xf0000050, 0x0, // VSX Permute Doubleword Immediate XX3-form (xxpermdi XT,XA,XB,DM)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20, ap_ImmUnsigned_22_23}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20, ap_ImmUnsigned_22_23}},
 	{XXSEL, 0xfc000030, 0xf0000030, 0x0, // VSX Select XX4-form (xxsel XT,XA,XB,XC)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20, ap_VecReg_28_28_21_25}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20, ap_VecSReg_28_28_21_25}},
 	{XXSLDWI, 0xfc0004f8, 0xf0000010, 0x0, // VSX Shift Left Double by Word Immediate XX3-form (xxsldwi XT,XA,XB,SHW)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_29_29_11_15, ap_VecReg_30_30_16_20, ap_ImmUnsigned_22_23}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_29_29_11_15, ap_VecSReg_30_30_16_20, ap_ImmUnsigned_22_23}},
 	{XXSPLTW, 0xfc0007fc, 0xf0000290, 0x1c0000, // VSX Splat Word XX2-form (xxspltw XT,XB,UIM)
-		[5]*argField{ap_VecReg_31_31_6_10, ap_VecReg_30_30_16_20, ap_ImmUnsigned_14_15}},
+		[5]*argField{ap_VecSReg_31_31_6_10, ap_VecSReg_30_30_16_20, ap_ImmUnsigned_14_15}},
 	{BRINC, 0xfc0007ff, 0x1000020f, 0x0, // Bit Reversed Increment EVX-form (brinc RT,RA,RB)
 		[5]*argField{ap_Reg_6_10, ap_Reg_11_15, ap_Reg_16_20}},
 	{EVABS, 0xfc0007ff, 0x10000208, 0xf800, // Vector Absolute Value EVX-form (evabs RT,RA)

src/cmd/vendor/golang.org/x/arch/ppc64/ppc64asm/testdata/decode.txt

@@ -13,7 +13,7 @@ c61bb730|	gnu	lfsu f16,-18640(r27)
 a9a912c1|	gnu	lha r13,4801(r9)
 ebb24fd1|	gnu	ldu r29,20432(r18)
 b1ce0612|	gnu	sth r14,1554(r14)
-f3d74322|	gnu	xvcvdpuxws v30,v40
+f3c04322|	gnu	xvcvdpuxws vs30,vs40
 945c62a2|	gnu	stwu r2,25250(r28)
 9c8156e3|	gnu	stbu r4,22243(r1)
 f91b9c7a|	gnu	stq r8,-25480(r27)