asimd_three_same: Use {Get,Set}Vector
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MerryMage
parent
7d0b16de32
commit
11cec1e3b6
1 changed files with 22 additions and 25 deletions
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@ -15,24 +15,21 @@ bool BitwiseInstruction(ArmTranslatorVisitor& v, bool D, size_t Vn, size_t Vd, b
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return v.UndefinedInstruction();
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}
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const auto d = ToExtRegD(Vd, D);
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const auto m = ToExtRegD(Vm, M);
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const auto n = ToExtRegD(Vn, N);
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const size_t regs = Q ? 2 : 1;
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const auto d = ToVector(Q, Vd, D);
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const auto m = ToVector(Q, Vm, M);
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const auto n = ToVector(Q, Vn, N);
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for (size_t i = 0; i < regs; i++) {
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if constexpr (WithDst) {
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const IR::U32U64 reg_d = v.ir.GetExtendedRegister(d + i);
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const IR::U32U64 reg_m = v.ir.GetExtendedRegister(m + i);
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const IR::U32U64 reg_n = v.ir.GetExtendedRegister(n + i);
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const IR::U32U64 result = fn(reg_d, reg_n, reg_m);
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v.ir.SetExtendedRegister(d + i, result);
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const IR::U128 reg_d = v.ir.GetVector(d);
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const IR::U128 reg_m = v.ir.GetVector(m);
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const IR::U128 reg_n = v.ir.GetVector(n);
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const IR::U128 result = fn(reg_d, reg_n, reg_m);
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v.ir.SetVector(d, result);
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} else {
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const IR::U32U64 reg_m = v.ir.GetExtendedRegister(m + i);
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const IR::U32U64 reg_n = v.ir.GetExtendedRegister(n + i);
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const IR::U32U64 result = fn(reg_n, reg_m);
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v.ir.SetExtendedRegister(d + i, result);
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}
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const IR::U128 reg_m = v.ir.GetVector(m);
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const IR::U128 reg_n = v.ir.GetVector(n);
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const IR::U128 result = fn(reg_n, reg_m);
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v.ir.SetVector(d, result);
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}
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return true;
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@ -41,49 +38,49 @@ bool BitwiseInstruction(ArmTranslatorVisitor& v, bool D, size_t Vn, size_t Vd, b
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bool ArmTranslatorVisitor::asimd_VAND_reg(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<false>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_n, const auto& reg_m) {
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return ir.And(reg_n, reg_m);
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return ir.VectorAnd(reg_n, reg_m);
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});
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}
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bool ArmTranslatorVisitor::asimd_VBIC_reg(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<false>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_n, const auto& reg_m) {
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return ir.And(reg_n, ir.Not(reg_m));
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return ir.VectorAnd(reg_n, ir.VectorNot(reg_m));
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});
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}
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bool ArmTranslatorVisitor::asimd_VORR_reg(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<false>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_n, const auto& reg_m) {
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return ir.Or(reg_n, reg_m);
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return ir.VectorOr(reg_n, reg_m);
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});
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}
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bool ArmTranslatorVisitor::asimd_VORN_reg(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<false>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_n, const auto& reg_m) {
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return ir.Or(reg_n, ir.Not(reg_m));
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return ir.VectorOr(reg_n, ir.VectorNot(reg_m));
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});
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}
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bool ArmTranslatorVisitor::asimd_VEOR_reg(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<false>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_n, const auto& reg_m) {
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return ir.Eor(reg_n, reg_m);
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return ir.VectorEor(reg_n, reg_m);
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});
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}
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bool ArmTranslatorVisitor::asimd_VBSL(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<true>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_d, const auto& reg_n, const auto& reg_m) {
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return ir.Or(ir.And(reg_n, reg_d), ir.And(reg_m, ir.Not(reg_d)));
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return ir.VectorOr(ir.VectorAnd(reg_n, reg_d), ir.VectorAnd(reg_m, ir.VectorNot(reg_d)));
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});
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}
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bool ArmTranslatorVisitor::asimd_VBIT(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<true>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_d, const auto& reg_n, const auto& reg_m) {
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return ir.Or(ir.And(reg_n, reg_m), ir.And(reg_d, ir.Not(reg_m)));
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return ir.VectorOr(ir.VectorAnd(reg_n, reg_m), ir.VectorAnd(reg_d, ir.VectorNot(reg_m)));
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});
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}
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bool ArmTranslatorVisitor::asimd_VBIF(bool D, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
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return BitwiseInstruction<true>(*this, D, Vn, Vd, N, Q, M, Vm, [this](const auto& reg_d, const auto& reg_n, const auto& reg_m) {
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return ir.Or(ir.And(reg_d, reg_m), ir.And(reg_n, ir.Not(reg_m)));
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return ir.VectorOr(ir.VectorAnd(reg_d, reg_m), ir.VectorAnd(reg_n, ir.VectorNot(reg_m)));
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});
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}
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} // namespace Dynarmic::A32
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