simd_shift_by_immediate: Merge signed/unsigned helper functions
Gets rid of a little more code duplication.
This commit is contained in:
Lioncash
MerryMage
parent
d5461be6b4
commit
2d269fdcc7
1 changed files with 116 additions and 139 deletions
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@ -15,15 +15,25 @@ enum class ShiftExtraBehavior {
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Round
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};
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static void SignedShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior) {
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enum class Signedness {
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Signed,
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Unsigned
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};
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static void ShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior, Signedness signedness) {
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = Q ? 128 : 64;
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const u8 shift_amount = static_cast<u8>(2 * esize) - concatenate(immh, immb).ZeroExtend<u8>();
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const IR::U128 operand = v.V(datasize, Vn);
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IR::U128 result = v.ir.VectorArithmeticShiftRight(esize, operand, shift_amount);
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IR::U128 result = [&] {
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if (signedness == Signedness::Signed) {
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return v.ir.VectorArithmeticShiftRight(esize, operand, shift_amount);
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}
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return v.ir.VectorLogicalShiftRight(esize, operand, shift_amount);
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}();
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if (behavior == ShiftExtraBehavior::Accumulate) {
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const IR::U128 accumulator = v.V(datasize, Vd);
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@ -33,20 +43,8 @@ static void SignedShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> i
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v.V(datasize, Vd, result);
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}
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bool TranslatorVisitor::SSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (immh.Bit<3>() && !Q) {
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return ReservedValue();
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}
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SignedShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None);
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return true;
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}
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static void SignedRoundingShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior) {
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static void RoundingShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior, Signedness signedness) {
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const size_t datasize = Q ? 128 : 64;
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const u8 shift_amount = static_cast<u8>((esize * 2) - concatenate(immh, immb).ZeroExtend());
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@ -56,7 +54,12 @@ static void SignedRoundingShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh,
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const IR::U128 round_const = v.ir.VectorBroadcast(esize, v.I(esize, round_value));
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const IR::U128 round_correction = v.ir.VectorEqual(esize, v.ir.VectorAnd(operand, round_const), round_const);
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const IR::U128 result = v.ir.VectorArithmeticShiftRight(esize, operand, shift_amount);
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const IR::U128 result = [&] {
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if (signedness == Signedness::Signed) {
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return v.ir.VectorArithmeticShiftRight(esize, operand, shift_amount);
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}
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return v.ir.VectorLogicalShiftRight(esize, operand, shift_amount);
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}();
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IR::U128 corrected_result = v.ir.VectorSub(esize, result, round_correction);
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if (behavior == ShiftExtraBehavior::Accumulate) {
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@ -67,63 +70,6 @@ static void SignedRoundingShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh,
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v.V(datasize, Vd, corrected_result);
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}
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bool TranslatorVisitor::SRSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (!Q && immh.Bit<3>()) {
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return ReservedValue();
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}
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SignedRoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None);
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return true;
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}
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bool TranslatorVisitor::SRSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (!Q && immh.Bit<3>()) {
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return ReservedValue();
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}
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SignedRoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate);
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return true;
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}
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bool TranslatorVisitor::SSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (immh.Bit<3>() && !Q) {
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return ReservedValue();
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}
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SignedShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate);
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return true;
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}
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bool TranslatorVisitor::SHL_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (immh.Bit<3>() && !Q) {
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return ReservedValue();
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}
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = Q ? 128 : 64;
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const u8 shift_amount = concatenate(immh, immb).ZeroExtend<u8>() - static_cast<u8>(esize);
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const IR::U128 operand = V(datasize, Vn);
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const IR::U128 result = ir.VectorLogicalShiftLeft(esize, operand, shift_amount);
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V(datasize, Vd, result);
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return true;
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}
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static void ShiftRightNarrowing(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior) {
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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@ -146,6 +92,95 @@ static void ShiftRightNarrowing(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3
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v.Vpart(64, Vd, part, result);
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}
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static void ShiftLeftLong(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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Signedness signedness) {
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = 64;
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const size_t part = Q ? 1 : 0;
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const u8 shift_amount = concatenate(immh, immb).ZeroExtend<u8>() - static_cast<u8>(esize);
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const IR::U128 operand = v.Vpart(datasize, Vn, part);
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const IR::U128 expanded_operand = [&] {
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if (signedness == Signedness::Signed) {
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return v.ir.VectorSignExtend(esize, operand);
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}
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return v.ir.VectorZeroExtend(esize, operand);
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}();
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const IR::U128 result = v.ir.VectorLogicalShiftLeft(2 * esize, expanded_operand, shift_amount);
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v.V(2 * datasize, Vd, result);
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}
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bool TranslatorVisitor::SSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (immh.Bit<3>() && !Q) {
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return ReservedValue();
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}
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ShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None, Signedness::Signed);
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return true;
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}
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bool TranslatorVisitor::SRSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (!Q && immh.Bit<3>()) {
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return ReservedValue();
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}
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RoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None, Signedness::Signed);
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return true;
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}
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bool TranslatorVisitor::SRSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (!Q && immh.Bit<3>()) {
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return ReservedValue();
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}
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RoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate, Signedness::Signed);
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return true;
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}
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bool TranslatorVisitor::SSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (immh.Bit<3>() && !Q) {
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return ReservedValue();
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}
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ShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate, Signedness::Signed);
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return true;
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}
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bool TranslatorVisitor::SHL_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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}
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if (immh.Bit<3>() && !Q) {
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return ReservedValue();
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}
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = Q ? 128 : 64;
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const u8 shift_amount = concatenate(immh, immb).ZeroExtend<u8>() - static_cast<u8>(esize);
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const IR::U128 operand = V(datasize, Vn);
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const IR::U128 result = ir.VectorLogicalShiftLeft(esize, operand, shift_amount);
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V(datasize, Vd, result);
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return true;
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}
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bool TranslatorVisitor::SHRN(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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@ -179,42 +214,11 @@ bool TranslatorVisitor::SSHLL(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd)
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if (immh.Bit<3>()) {
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return ReservedValue();
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}
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = 64;
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const size_t part = Q ? 1 : 0;
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const u8 shift_amount = concatenate(immh, immb).ZeroExtend<u8>() - static_cast<u8>(esize);
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const IR::U128 operand = Vpart(datasize, Vn, part);
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const IR::U128 expanded_operand = ir.VectorSignExtend(esize, operand);
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const IR::U128 result = ir.VectorLogicalShiftLeft(2 * esize, expanded_operand, shift_amount);
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V(2 * datasize, Vd, result);
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ShiftLeftLong(*this, Q, immh, immb, Vn, Vd, Signedness::Signed);
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return true;
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}
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static void UnsignedRoundingShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior) {
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const size_t datasize = Q ? 128 : 64;
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const u8 shift_amount = static_cast<u8>((esize * 2) - concatenate(immh, immb).ZeroExtend());
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const u64 round_value = 1ULL << (shift_amount - 1);
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const IR::U128 operand = v.V(datasize, Vn);
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const IR::U128 round_const = v.ir.VectorBroadcast(esize, v.I(esize, round_value));
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const IR::U128 round_correction = v.ir.VectorEqual(esize, v.ir.VectorAnd(operand, round_const), round_const);
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const IR::U128 result = v.ir.VectorLogicalShiftRight(esize, operand, shift_amount);
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IR::U128 corrected_result = v.ir.VectorSub(esize, result, round_correction);
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if (behavior == ShiftExtraBehavior::Accumulate) {
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const IR::U128 accumulator = v.V(datasize, Vd);
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corrected_result = v.ir.VectorAdd(esize, accumulator, corrected_result);
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}
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v.V(datasize, Vd, corrected_result);
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}
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bool TranslatorVisitor::URSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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@ -224,7 +228,7 @@ bool TranslatorVisitor::URSHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd
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return ReservedValue();
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}
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UnsignedRoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None);
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RoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None, Signedness::Unsigned);
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return true;
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}
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@ -237,28 +241,10 @@ bool TranslatorVisitor::URSRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd
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return ReservedValue();
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}
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UnsignedRoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate);
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RoundingShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate, Signedness::Unsigned);
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return true;
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}
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static void UnsignedShiftRight(TranslatorVisitor& v, bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd,
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ShiftExtraBehavior behavior) {
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = Q ? 128 : 64;
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const u8 shift_amount = static_cast<u8>(2 * esize) - concatenate(immh, immb).ZeroExtend<u8>();
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const IR::U128 operand = v.V(datasize, Vn);
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IR::U128 result = v.ir.VectorLogicalShiftRight(esize, operand, shift_amount);
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if (behavior == ShiftExtraBehavior::Accumulate) {
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const IR::U128 accumulator = v.V(datasize, Vd);
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result = v.ir.VectorAdd(esize, accumulator, result);
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}
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v.V(datasize, Vd, result);
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}
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bool TranslatorVisitor::USHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd) {
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if (immh == 0b0000) {
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return DecodeError();
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@ -267,7 +253,7 @@ bool TranslatorVisitor::USHR_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd)
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return ReservedValue();
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}
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UnsignedShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None);
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ShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::None, Signedness::Unsigned);
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return true;
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}
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@ -279,7 +265,7 @@ bool TranslatorVisitor::USRA_2(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd)
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return ReservedValue();
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}
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UnsignedShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate);
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ShiftRight(*this, Q, immh, immb, Vn, Vd, ShiftExtraBehavior::Accumulate, Signedness::Unsigned);
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return true;
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}
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@ -290,17 +276,8 @@ bool TranslatorVisitor::USHLL(bool Q, Imm<4> immh, Imm<3> immb, Vec Vn, Vec Vd)
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if (immh.Bit<3>()) {
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return ReservedValue();
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}
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const size_t esize = 8 << Common::HighestSetBit(immh.ZeroExtend());
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const size_t datasize = 64;
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const size_t part = Q ? 1 : 0;
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const u8 shift_amount = concatenate(immh, immb).ZeroExtend<u8>() - static_cast<u8>(esize);
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const IR::U128 operand = Vpart(datasize, Vn, part);
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const IR::U128 expanded_operand = ir.VectorZeroExtend(esize, operand);
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const IR::U128 result = ir.VectorLogicalShiftLeft(2 * esize, expanded_operand, shift_amount);
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V(2 * datasize, Vd, result);
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ShiftLeftLong(*this, Q, immh, immb, Vn, Vd, Signedness::Unsigned);
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return true;
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}
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