A32: Implement ASIMD VRSQRTS

This commit is contained in:
MerryMage 2020-06-20 14:45:29 +01:00
parent 8f506c80c3
commit d3dc50d718
8 changed files with 37 additions and 25 deletions

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@ -1335,6 +1335,7 @@ static void EmitRSqrtStepFused(BlockOfCode& code, EmitContext& ctx, IR::Inst* in
if constexpr (fsize != 16) {
if (code.HasFMA() && code.HasAVX()) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
const bool fpcr_controlled = args[2].GetImmediateU1();
const Xbyak::Xmm result = ctx.reg_alloc.ScratchXmm();
const Xbyak::Xmm operand1 = ctx.reg_alloc.UseXmm(args[0]);
@ -1344,6 +1345,7 @@ static void EmitRSqrtStepFused(BlockOfCode& code, EmitContext& ctx, IR::Inst* in
Xbyak::Label end, fallback;
MaybeStandardFPSCRValue(code, ctx, fpcr_controlled, [&]{
code.vmovaps(result, GetVectorOf<fsize, false, 0, 3>(code));
FCODE(vfnmadd231p)(result, operand1, operand2);
@ -1360,12 +1362,13 @@ static void EmitRSqrtStepFused(BlockOfCode& code, EmitContext& ctx, IR::Inst* in
FCODE(vmulp)(result, result, GetVectorOf<fsize, false, -1, 1>(code));
code.L(end);
});
code.SwitchToFarCode();
code.L(fallback);
code.sub(rsp, 8);
ABI_PushCallerSaveRegistersAndAdjustStackExcept(code, HostLocXmmIdx(result.getIdx()));
EmitThreeOpFallbackWithoutRegAlloc(code, ctx, result, operand1, operand2, fallback_fn);
EmitThreeOpFallbackWithoutRegAlloc(code, ctx, result, operand1, operand2, fallback_fn, fpcr_controlled);
ABI_PopCallerSaveRegistersAndAdjustStackExcept(code, HostLocXmmIdx(result.getIdx()));
code.add(rsp, 8);
code.jmp(end, code.T_NEAR);
@ -1376,7 +1379,7 @@ static void EmitRSqrtStepFused(BlockOfCode& code, EmitContext& ctx, IR::Inst* in
}
}
EmitThreeOpFallback(code, ctx, inst, fallback_fn);
EmitThreeOpFallback<FpcrControlledArgument::Present>(code, ctx, inst, fallback_fn);
}
void EmitX64::EmitFPVectorRSqrtStepFused16(EmitContext& ctx, IR::Inst* inst) {

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@ -47,7 +47,7 @@ INST(asimd_VMUL_float, "VMUL (floating-point)", "111100110D0znnnndddd110
INST(asimd_VMAX_float, "VMAX (floating-point)", "111100100D0znnnndddd1111NQM0mmmm") // ASIMD
INST(asimd_VMIN_float, "VMIN (floating-point)", "111100100D1znnnndddd1111NQM0mmmm") // ASIMD
INST(asimd_VRECPS, "VRECPS", "111100100D0znnnndddd1111NQM1mmmm") // ASIMD
//INST(asimd_VRSQRTS, "VRSQRTS", "111100100-1C--------1111---1----") // ASIMD
INST(asimd_VRSQRTS, "VRSQRTS", "111100100D1znnnndddd1111NQM1mmmm") // ASIMD
// Two registers and a scalar
//INST(asimd_VMLA_scalar, "VMLA (scalar)", "1111001U1-BB--------0x0x-1-0----") // ASIMD

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@ -419,4 +419,10 @@ bool ArmTranslatorVisitor::asimd_VRECPS(bool D, bool sz, size_t Vn, size_t Vd, b
});
}
bool ArmTranslatorVisitor::asimd_VRSQRTS(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm) {
return FloatingPointInstruction(*this, D, sz, Vn, Vd, N, Q, M, Vm, [this](const auto&, const auto& reg_n, const auto& reg_m) {
return ir.FPVectorRSqrtStepFused(32, reg_n, reg_m, false);
});
}
} // namespace Dynarmic::A32

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@ -472,6 +472,7 @@ struct ArmTranslatorVisitor final {
bool asimd_VMAX_float(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
bool asimd_VMIN_float(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
bool asimd_VRECPS(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
bool asimd_VRSQRTS(bool D, bool sz, size_t Vn, size_t Vd, bool N, bool Q, bool M, size_t Vm);
// Two registers and a shift amount
bool asimd_SHR(bool U, bool D, size_t imm6, size_t Vd, bool L, bool Q, bool M, size_t Vm);

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@ -2491,14 +2491,14 @@ U128 IREmitter::FPVectorRSqrtEstimate(size_t esize, const U128& a) {
UNREACHABLE();
}
U128 IREmitter::FPVectorRSqrtStepFused(size_t esize, const U128& a, const U128& b) {
U128 IREmitter::FPVectorRSqrtStepFused(size_t esize, const U128& a, const U128& b, bool fpcr_controlled) {
switch (esize) {
case 16:
return Inst<U128>(Opcode::FPVectorRSqrtStepFused16, a, b);
return Inst<U128>(Opcode::FPVectorRSqrtStepFused16, a, b, Imm1(fpcr_controlled));
case 32:
return Inst<U128>(Opcode::FPVectorRSqrtStepFused32, a, b);
return Inst<U128>(Opcode::FPVectorRSqrtStepFused32, a, b, Imm1(fpcr_controlled));
case 64:
return Inst<U128>(Opcode::FPVectorRSqrtStepFused64, a, b);
return Inst<U128>(Opcode::FPVectorRSqrtStepFused64, a, b, Imm1(fpcr_controlled));
}
UNREACHABLE();
}

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@ -364,7 +364,7 @@ public:
U128 FPVectorRecipStepFused(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
U128 FPVectorRoundInt(size_t esize, const U128& operand, FP::RoundingMode rounding, bool exact);
U128 FPVectorRSqrtEstimate(size_t esize, const U128& a);
U128 FPVectorRSqrtStepFused(size_t esize, const U128& a, const U128& b);
U128 FPVectorRSqrtStepFused(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
U128 FPVectorSqrt(size_t esize, const U128& a);
U128 FPVectorSub(size_t esize, const U128& a, const U128& b, bool fpcr_controlled = true);
U128 FPVectorToSignedFixed(size_t esize, const U128& a, size_t fbits, FP::RoundingMode rounding);

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@ -625,9 +625,9 @@ OPCODE(FPVectorRoundInt64, U128, U128
OPCODE(FPVectorRSqrtEstimate16, U128, U128 )
OPCODE(FPVectorRSqrtEstimate32, U128, U128 )
OPCODE(FPVectorRSqrtEstimate64, U128, U128 )
OPCODE(FPVectorRSqrtStepFused16, U128, U128, U128 )
OPCODE(FPVectorRSqrtStepFused32, U128, U128, U128 )
OPCODE(FPVectorRSqrtStepFused64, U128, U128, U128 )
OPCODE(FPVectorRSqrtStepFused16, U128, U128, U128, U1 )
OPCODE(FPVectorRSqrtStepFused32, U128, U128, U128, U1 )
OPCODE(FPVectorRSqrtStepFused64, U128, U128, U128, U1 )
OPCODE(FPVectorSqrt32, U128, U128 )
OPCODE(FPVectorSqrt64, U128, U128 )
OPCODE(FPVectorSub32, U128, U128, U128, U1 )

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@ -112,6 +112,8 @@ u32 GenRandomInst(u32 pc, bool is_last_inst) {
"vfp_VMRS",
// Unimplemented in Unicorn
"asimd_VPADD_float",
// Incorrect Unicorn implementations
"asimd_VRECPS", // Unicorn does not fuse the multiply and subtraction, resulting in being off by 1ULP.
};
for (const auto& [fn, bitstring] : list) {