Fixing broken VX128_5 decoding.
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894f22cd0b
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3dff790ce6
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@ -33,6 +33,28 @@ namespace ppc {
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#define VX128_P(op, xop) (OP(op) | (((uint32_t)(xop)) & 0x630))
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#define VX128_VD128 (i.VX128.VD128l | (i.VX128.VD128h << 5))
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#define VX128_VA128 (i.VX128.VA128l | (i.VX128.VA128h << 5) | (i.VX128.VA128H << 6))
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#define VX128_VB128 (i.VX128.VB128l | (i.VX128.VB128h << 5))
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#define VX128_1_VD128 (i.VX128_1.VD128l | (i.VX128_1.VD128h << 5))
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#define VX128_2_VD128 (i.VX128_2.VD128l | (i.VX128_2.VD128h << 5))
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#define VX128_2_VA128 (i.VX128_2.VA128l | (i.VX128_2.VA128h << 5) | (i.VX128_2.VA128H << 6))
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#define VX128_2_VB128 (i.VX128_2.VB128l | (i.VX128_2.VD128h << 5))
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#define VX128_2_VC (i.VX128_2.VC)
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#define VX128_3_VD128 (i.VX128_3.VD128l | (i.VX128_3.VD128h << 5))
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#define VX128_3_VB128 (i.VX128_3.VB128l | (i.VX128_3.VB128h << 5))
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#define VX128_3_IMM (i.VX128_3.IMM)
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#define VX128_4_VD128 (i.VX128_4.VD128l | (i.VX128_4.VD128h << 5))
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#define VX128_4_VB128 (i.VX128_4.VB128l | (i.VX128_4.VB128h << 5))
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#define VX128_5_VD128 (i.VX128_5.VD128l | (i.VX128_5.VD128h << 5))
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#define VX128_5_VA128 (i.VX128_5.VA128l | (i.VX128_5.VA128h << 5)) | (i.VX128_5.VA128H << 6)
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#define VX128_5_VB128 (i.VX128_5.VB128l | (i.VX128_5.VB128h << 5))
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#define VX128_5_SH (i.VX128_5.SH)
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#define VX128_R_VD128 (i.VX128_R.VD128l | (i.VX128_R.VD128h << 5))
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#define VX128_R_VA128 (i.VX128_R.VA128l | (i.VX128_R.VA128h << 5) | (i.VX128_R.VA128H << 6))
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#define VX128_R_VB128 (i.VX128_R.VB128l | (i.VX128_R.VB128h << 5))
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namespace {
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int GeneralVXA(InstrData& i, InstrDisasm& d) {
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@ -44,10 +66,9 @@ int GeneralVXA(InstrData& i, InstrDisasm& d) {
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}
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int GeneralVX128(InstrData& i, InstrDisasm& d) {
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const uint32_t vd = i.VX128.VD128l | (i.VX128.VD128h << 5);
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const uint32_t va = i.VX128.VA128l | (i.VX128.VA128h << 5) |
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(i.VX128.VA128H << 6);
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const uint32_t vb = i.VX128.VB128l | (i.VX128.VB128h << 5);
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const uint32_t vd = VX128_VD128;
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const uint32_t va = VX128_VA128;
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const uint32_t vb = VX128_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, va, InstrRegister::kRead);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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@ -67,7 +88,7 @@ int GeneralX(InstrData& i, InstrDisasm& d, bool store) {
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}
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int GeneralVX128_1(InstrData& i, InstrDisasm& d, bool store) {
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const uint32_t vd = i.VX128_1.VD128l | (i.VX128_1.VD128h << 5);
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const uint32_t vd = VX128_1_VD128;
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d.AddRegOperand(InstrRegister::kVMX, vd,
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store ? InstrRegister::kRead : InstrRegister::kWrite);
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if (i.VX128_1.RA) {
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@ -80,8 +101,8 @@ int GeneralVX128_1(InstrData& i, InstrDisasm& d, bool store) {
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}
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int GeneralVX128_3(InstrData& i, InstrDisasm& d) {
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const uint32_t vd = i.VX128_3.VD128l | (i.VX128_3.VD128h << 5);
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const uint32_t vb = i.VX128_3.VB128l | (i.VX128_3.VB128h << 5);
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const uint32_t vd = VX128_3_VD128;
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const uint32_t vb = VX128_3_VB128;
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const uint32_t uimm = i.VX128_3.IMM;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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@ -668,10 +689,9 @@ XEDISASMR(vmaddfp, 0x1000002E, VXA )(InstrData& i, InstrDisasm& d) {
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XEDISASMR(vmaddfp128, VX128(5, 208), VX128 )(InstrData& i, InstrDisasm& d) {
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d.Init("vmaddfp128", "Vector128 Multiply Add Floating Point",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128.VD128l | (i.VX128.VD128h << 5);
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const uint32_t va = i.VX128.VA128l | (i.VX128.VA128h << 5) |
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(i.VX128.VA128H << 6);
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const uint32_t vb = i.VX128.VB128l | (i.VX128.VB128h << 5);
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const uint32_t vd = VX128_VD128;
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const uint32_t va = VX128_VA128;
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const uint32_t vb = VX128_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, va, InstrRegister::kRead);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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@ -682,10 +702,9 @@ XEDISASMR(vmaddfp128, VX128(5, 208), VX128 )(InstrData& i, InstrDisasm&
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XEDISASMR(vmaddcfp128, VX128(5, 272), VX128 )(InstrData& i, InstrDisasm& d) {
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d.Init("vmaddcfp128", "Vector128 Multiply Add Floating Point",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128.VD128l | (i.VX128.VD128h << 5);
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const uint32_t va = i.VX128.VA128l | (i.VX128.VA128h << 5) |
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(i.VX128.VA128H << 6);
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const uint32_t vb = i.VX128.VB128l | (i.VX128.VB128h << 5);
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const uint32_t vd = VX128_VD128;
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const uint32_t va = VX128_VA128;
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const uint32_t vb = VX128_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, va, InstrRegister::kRead);
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kRead);
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@ -1008,10 +1027,9 @@ XEDISASMR(vperm, 0x1000002B, VXA )(InstrData& i, InstrDisasm& d) {
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XEDISASMR(vperm128, VX128_2(5, 0), VX128_2)(InstrData& i, InstrDisasm& d) {
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d.Init("vperm128", "Vector128 Permute",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128_2.VD128l | (i.VX128_2.VD128h << 5);
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const uint32_t va = i.VX128_2.VA128l | (i.VX128_2.VA128h << 5) |
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(i.VX128_2.VA128H << 6);
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const uint32_t vb = i.VX128_2.VB128l | (i.VX128_2.VB128h << 5);
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const uint32_t vd = VX128_2_VD128;
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const uint32_t va = VX128_2_VA128;
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const uint32_t vb = VX128_2_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, va, InstrRegister::kRead);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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@ -1171,8 +1189,8 @@ XEDISASMR(vrfin, 0x1000020A, VX )(InstrData& i, InstrDisasm& d) {
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XEDISASMR(vrfin128, VX128_3(6, 880), VX128_3)(InstrData& i, InstrDisasm& d) {
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d.Init("vrfin128", "Vector128 Round to Floating-Point Integer Nearest",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128_3.VD128l | (i.VX128_3.VD128h << 5);
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const uint32_t vb = i.VX128_3.VB128l | (i.VX128_3.VB128h << 5);
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const uint32_t vd = VX128_3_VD128;
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const uint32_t vb = VX128_3_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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return d.Finish();
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@ -1229,8 +1247,8 @@ XEDISASMR(vrlw128, VX128(6, 80), VX128 )(InstrData& i, InstrDisasm&
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XEDISASMR(vrlimi128, VX128_4(6, 1808), VX128_4)(InstrData& i, InstrDisasm& d) {
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d.Init("vrlimi128", "Vector128 Rotate Left Immediate and Mask Insert",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128_4.VD128l | (i.VX128_4.VD128h << 5);
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const uint32_t vb = i.VX128_4.VB128l | (i.VX128_4.VB128h << 5);
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const uint32_t vd = VX128_4_VD128;
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const uint32_t vb = VX128_4_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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d.AddUImmOperand(i.VX128_4.IMM, 1);
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@ -1247,8 +1265,8 @@ XEDISASMR(vrsqrtefp, 0x1000014A, VX )(InstrData& i, InstrDisasm& d) {
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XEDISASMR(vrsqrtefp128, VX128_3(6, 1648), VX128_3)(InstrData& i, InstrDisasm& d) {
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d.Init("vrsqrtefp128", "Vector128 Reciprocal Square Root Estimate Floating Point",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128_3.VD128l | (i.VX128_3.VD128h << 5);
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const uint32_t vb = i.VX128_3.VB128l | (i.VX128_3.VB128h << 5);
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const uint32_t vd = VX128_3_VD128;
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const uint32_t vb = VX128_3_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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return d.Finish();
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@ -1290,9 +1308,9 @@ XEDISASMR(vsldoi, 0x1000002C, VXA )(InstrData& i, InstrDisasm& d) {
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XEDISASMR(vsldoi128, VX128_5(4, 16), VX128_5)(InstrData& i, InstrDisasm& d) {
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d.Init("vsldoi128", "Vector128 Shift Left Double by Octet Immediate",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128_5.VD128l | (i.VX128_5.VD128h << 5);
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const uint32_t va = i.VX128_5.VA128l | (i.VX128_5.VA128h << 5);
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const uint32_t vb = i.VX128_5.VB128l | (i.VX128_5.VB128h << 5);
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const uint32_t vd = VX128_5_VD128;
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const uint32_t va = VX128_5_VA128;
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const uint32_t vb = VX128_5_VB128;
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const uint32_t sh = i.VX128_5.SH;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, va, InstrRegister::kRead);
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@ -1619,8 +1637,8 @@ XEDISASMR(vupklsh, 0x100002CE, VX )(InstrData& i, InstrDisasm& d) {
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XEDISASMR(vupkd3d128, VX128_3(6, 2032), VX128_3)(InstrData& i, InstrDisasm& d) {
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d.Init("vupkd3d128", "Vector128 Unpack D3Dtype",
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InstrDisasm::kVMX);
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const uint32_t vd = i.VX128_3.VD128l | (i.VX128_3.VD128h << 5);
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const uint32_t vb = i.VX128_3.VB128l | (i.VX128_3.VB128h << 5);
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const uint32_t vd = VX128_3_VD128;
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const uint32_t vb = VX128_3_VB128;
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d.AddRegOperand(InstrRegister::kVMX, vd, InstrRegister::kWrite);
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d.AddRegOperand(InstrRegister::kVMX, vb, InstrRegister::kRead);
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d.AddUImmOperand(i.VX128_3.IMM, 1);
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@ -58,7 +58,7 @@ Value* CalculateEA_0_i(PPCHIRBuilder& f, uint32_t ra, uint64_t imm);
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#define VX128_3_VB128 (i.VX128_3.VB128l | (i.VX128_3.VB128h << 5))
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#define VX128_3_IMM (i.VX128_3.IMM)
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#define VX128_5_VD128 (i.VX128_5.VD128l | (i.VX128_5.VD128h << 5))
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#define VX128_5_VA128 (i.VX128_5.VA128l | (i.VX128_5.VA128h << 5))
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#define VX128_5_VA128 (i.VX128_5.VA128l | (i.VX128_5.VA128h << 5)) | (i.VX128_5.VA128H << 6)
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#define VX128_5_VB128 (i.VX128_5.VB128l | (i.VX128_5.VB128h << 5))
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#define VX128_5_SH (i.VX128_5.SH)
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#define VX128_R_VD128 (i.VX128_R.VD128l | (i.VX128_R.VD128h << 5))
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