Merge pull request #7488 from MerryMage/fp_tri_op

Jit_FloatingPoint: Make fp_tri_op a local lambda
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Tilka 2018-10-12 20:57:57 +01:00 committed by GitHub
commit 22c63433a2
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2 changed files with 39 additions and 47 deletions

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@ -119,10 +119,6 @@ public:
void regimmop(int d, int a, bool binary, u32 value, Operation doop,
void (Gen::XEmitter::*op)(int, const Gen::OpArg&, const Gen::OpArg&),
bool Rc = false, bool carry = false);
Gen::X64Reg fp_tri_op(int d, int a, int b, bool reversible, bool single,
void (Gen::XEmitter::*avxOp)(Gen::X64Reg, Gen::X64Reg, const Gen::OpArg&),
void (Gen::XEmitter::*sseOp)(Gen::X64Reg, const Gen::OpArg&), bool packed,
bool preserve_inputs, bool roundRHS = false);
void FloatCompare(UGeckoInstruction inst, bool upper = false);
void UpdateMXCSR();

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@ -26,34 +26,6 @@ alignas(16) static const u64 psAbsMask2[2] = {0x7FFFFFFFFFFFFFFFULL, 0x7FFFFFFFF
alignas(16) static const u64 psGeneratedQNaN[2] = {0x7FF8000000000000ULL, 0x7FF8000000000000ULL};
alignas(16) static const double half_qnan_and_s32_max[2] = {0x7FFFFFFF, -0x80000};
X64Reg Jit64::fp_tri_op(int d, int a, int b, bool reversible, bool single,
void (XEmitter::*avxOp)(X64Reg, X64Reg, const OpArg&),
void (XEmitter::*sseOp)(X64Reg, const OpArg&), bool packed,
bool preserve_inputs, bool roundRHS)
{
fpr.Lock(d, a, b);
fpr.BindToRegister(d, d == a || d == b || !single);
X64Reg dest = preserve_inputs ? XMM1 : fpr.RX(d);
if (roundRHS)
{
if (d == a && !preserve_inputs)
{
Force25BitPrecision(XMM0, fpr.R(b), XMM1);
(this->*sseOp)(fpr.RX(d), R(XMM0));
}
else
{
Force25BitPrecision(dest, fpr.R(b), XMM0);
(this->*sseOp)(dest, fpr.R(a));
}
}
else
{
avx_op(avxOp, sseOp, dest, fpr.R(a), fpr.R(b), packed, reversible);
}
return dest;
}
// We can avoid calculating FPRF if it's not needed; every float operation resets it, so
// if it's going to be clobbered in a future instruction before being read, we can just
// not calculate it.
@ -200,34 +172,58 @@ void Jit64::fp_arith(UGeckoInstruction inst)
bool round_input = single && !js.op->fprIsSingle[inst.FC];
bool preserve_inputs = SConfig::GetInstance().bAccurateNaNs;
X64Reg dest = INVALID_REG;
const auto fp_tri_op = [&](int d, int a, int b, bool reversible,
void (XEmitter::*avxOp)(X64Reg, X64Reg, const OpArg&),
void (XEmitter::*sseOp)(X64Reg, const OpArg&), bool roundRHS = false) {
fpr.Lock(d, a, b);
fpr.BindToRegister(d, d == a || d == b || !single);
X64Reg dest = preserve_inputs ? XMM1 : fpr.RX(d);
if (roundRHS)
{
if (d == a && !preserve_inputs)
{
Force25BitPrecision(XMM0, fpr.R(b), XMM1);
(this->*sseOp)(fpr.RX(d), R(XMM0));
}
else
{
Force25BitPrecision(dest, fpr.R(b), XMM0);
(this->*sseOp)(dest, fpr.R(a));
}
}
else
{
avx_op(avxOp, sseOp, dest, fpr.R(a), fpr.R(b), packed, reversible);
}
HandleNaNs(inst, fpr.RX(d), dest);
if (single)
ForceSinglePrecision(fpr.RX(d), fpr.R(d), packed, true);
SetFPRFIfNeeded(fpr.RX(d));
fpr.UnlockAll();
};
switch (inst.SUBOP5)
{
case 18:
dest = fp_tri_op(d, a, b, false, single, packed ? &XEmitter::VDIVPD : &XEmitter::VDIVSD,
packed ? &XEmitter::DIVPD : &XEmitter::DIVSD, packed, preserve_inputs);
fp_tri_op(d, a, b, false, packed ? &XEmitter::VDIVPD : &XEmitter::VDIVSD,
packed ? &XEmitter::DIVPD : &XEmitter::DIVSD);
break;
case 20:
dest = fp_tri_op(d, a, b, false, single, packed ? &XEmitter::VSUBPD : &XEmitter::VSUBSD,
packed ? &XEmitter::SUBPD : &XEmitter::SUBSD, packed, preserve_inputs);
fp_tri_op(d, a, b, false, packed ? &XEmitter::VSUBPD : &XEmitter::VSUBSD,
packed ? &XEmitter::SUBPD : &XEmitter::SUBSD);
break;
case 21:
dest = fp_tri_op(d, a, b, true, single, packed ? &XEmitter::VADDPD : &XEmitter::VADDSD,
packed ? &XEmitter::ADDPD : &XEmitter::ADDSD, packed, preserve_inputs);
fp_tri_op(d, a, b, true, packed ? &XEmitter::VADDPD : &XEmitter::VADDSD,
packed ? &XEmitter::ADDPD : &XEmitter::ADDSD);
break;
case 25:
dest = fp_tri_op(d, a, c, true, single, packed ? &XEmitter::VMULPD : &XEmitter::VMULSD,
packed ? &XEmitter::MULPD : &XEmitter::MULSD, packed, preserve_inputs,
round_input);
fp_tri_op(d, a, c, true, packed ? &XEmitter::VMULPD : &XEmitter::VMULSD,
packed ? &XEmitter::MULPD : &XEmitter::MULSD, round_input);
break;
default:
ASSERT_MSG(DYNA_REC, 0, "fp_arith WTF!!!");
}
HandleNaNs(inst, fpr.RX(d), dest);
if (single)
ForceSinglePrecision(fpr.RX(d), fpr.R(d), packed, true);
SetFPRFIfNeeded(fpr.RX(d));
fpr.UnlockAll();
}
void Jit64::fmaddXX(UGeckoInstruction inst)