VFP: Implement VNMUL, VDIV

This commit is contained in:
MerryMage 2016-08-07 10:56:12 +01:00
parent 12e7f2c359
commit 3f1345a1a5
8 changed files with 101 additions and 2 deletions

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@ -1148,6 +1148,22 @@ void EmitX64::EmitFPAbs64(IR::Block&, IR::Inst* inst) {
code->PAND(result, routines->MFloatNonSignMask64()); code->PAND(result, routines->MFloatNonSignMask64());
} }
void EmitX64::EmitFPNeg32(IR::Block&, IR::Inst* inst) {
IR::Value a = inst->GetArg(0);
X64Reg result = reg_alloc.UseDefRegister(a, inst, any_xmm);
code->PXOR(result, routines->MFloatNegativeZero32());
}
void EmitX64::EmitFPNeg64(IR::Block&, IR::Inst* inst) {
IR::Value a = inst->GetArg(0);
X64Reg result = reg_alloc.UseDefRegister(a, inst, any_xmm);
code->PXOR(result, routines->MFloatNegativeZero64());
}
void EmitX64::EmitFPAdd32(IR::Block& block, IR::Inst* inst) { void EmitX64::EmitFPAdd32(IR::Block& block, IR::Inst* inst) {
FPOp32(code, routines, reg_alloc, block, inst, &XEmitter::ADDSS); FPOp32(code, routines, reg_alloc, block, inst, &XEmitter::ADDSS);
} }
@ -1156,6 +1172,14 @@ void EmitX64::EmitFPAdd64(IR::Block& block, IR::Inst* inst) {
FPOp64(code, routines, reg_alloc, block, inst, &XEmitter::ADDSD); FPOp64(code, routines, reg_alloc, block, inst, &XEmitter::ADDSD);
} }
void EmitX64::EmitFPDiv32(IR::Block& block, IR::Inst* inst) {
FPOp32(code, routines, reg_alloc, block, inst, &XEmitter::DIVSS);
}
void EmitX64::EmitFPDiv64(IR::Block& block, IR::Inst* inst) {
FPOp64(code, routines, reg_alloc, block, inst, &XEmitter::DIVSD);
}
void EmitX64::EmitFPMul32(IR::Block& block, IR::Inst* inst) { void EmitX64::EmitFPMul32(IR::Block& block, IR::Inst* inst) {
FPOp32(code, routines, reg_alloc, block, inst, &XEmitter::MULSS); FPOp32(code, routines, reg_alloc, block, inst, &XEmitter::MULSS);
} }

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@ -68,11 +68,11 @@ boost::optional<const VFP2Matcher<V>&> DecodeVFP2(u32 instruction) {
// VMLS // VMLS
// VNMLA // VNMLA
// VNMLS // VNMLS
// VNMUL
INST(&V::vfp2_VMUL, "VMUL", "cccc11100D10nnnndddd101zN0M0mmmm"), INST(&V::vfp2_VMUL, "VMUL", "cccc11100D10nnnndddd101zN0M0mmmm"),
INST(&V::vfp2_VNMUL, "VNMUL", "cccc11100D10nnnndddd101zN1M0mmmm"),
INST(&V::vfp2_VADD, "VADD", "cccc11100D11nnnndddd101zN0M0mmmm"), INST(&V::vfp2_VADD, "VADD", "cccc11100D11nnnndddd101zN0M0mmmm"),
INST(&V::vfp2_VSUB, "VSUB", "cccc11100D11nnnndddd101zN1M0mmmm"), INST(&V::vfp2_VSUB, "VSUB", "cccc11100D11nnnndddd101zN1M0mmmm"),
// VDIV INST(&V::vfp2_VDIV, "VDIV", "cccc11101D00nnnndddd101zN0M0mmmm"),
// Floating-point other instructions // Floating-point other instructions
// VMOV_imm // VMOV_imm

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@ -572,6 +572,14 @@ public:
return Common::StringFromFormat("vsub%s.%s %s, %s, %s", CondToString(cond), sz ? "f64" : "f32", FPRegStr(sz, Vd, D).c_str(), FPRegStr(sz, Vn, N).c_str(), FPRegStr(sz, Vm, M).c_str()); return Common::StringFromFormat("vsub%s.%s %s, %s, %s", CondToString(cond), sz ? "f64" : "f32", FPRegStr(sz, Vd, D).c_str(), FPRegStr(sz, Vn, N).c_str(), FPRegStr(sz, Vm, M).c_str());
} }
std::string vfp2_VNMUL(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm) {
return Common::StringFromFormat("vnmul%s.%s %s, %s, %s", CondToString(cond), sz ? "f64" : "f32", FPRegStr(sz, Vd, D).c_str(), FPRegStr(sz, Vn, N).c_str(), FPRegStr(sz, Vm, M).c_str());
}
std::string vfp2_VDIV(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm) {
return Common::StringFromFormat("vdiv%s.%s %s, %s, %s", CondToString(cond), sz ? "f64" : "f32", FPRegStr(sz, Vd, D).c_str(), FPRegStr(sz, Vn, N).c_str(), FPRegStr(sz, Vm, M).c_str());
}
std::string vfp2_VABS(Cond cond, bool D, size_t Vd, bool sz, bool M, size_t Vm) { std::string vfp2_VABS(Cond cond, bool D, size_t Vd, bool sz, bool M, size_t Vm) {
return Common::StringFromFormat("vadd%s.%s %s, %s", CondToString(cond), sz ? "f64" : "f32", FPRegStr(sz, Vd, D).c_str(), FPRegStr(sz, Vm, M).c_str()); return Common::StringFromFormat("vadd%s.%s %s, %s", CondToString(cond), sz ? "f64" : "f32", FPRegStr(sz, Vd, D).c_str(), FPRegStr(sz, Vm, M).c_str());
} }

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@ -292,6 +292,16 @@ IR::Value IREmitter::FPAdd64(const IR::Value& a, const IR::Value& b, bool fpscr_
return Inst(IR::Opcode::FPAdd64, {a, b}); return Inst(IR::Opcode::FPAdd64, {a, b});
} }
IR::Value IREmitter::FPDiv32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled) {
ASSERT(fpscr_controlled);
return Inst(IR::Opcode::FPDiv32, {a, b});
}
IR::Value IREmitter::FPDiv64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled) {
ASSERT(fpscr_controlled);
return Inst(IR::Opcode::FPDiv64, {a, b});
}
IR::Value IREmitter::FPMul32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled) { IR::Value IREmitter::FPMul32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled) {
ASSERT(fpscr_controlled); ASSERT(fpscr_controlled);
return Inst(IR::Opcode::FPMul32, {a, b}); return Inst(IR::Opcode::FPMul32, {a, b});
@ -302,6 +312,15 @@ IR::Value IREmitter::FPMul64(const IR::Value& a, const IR::Value& b, bool fpscr_
return Inst(IR::Opcode::FPMul64, {a, b}); return Inst(IR::Opcode::FPMul64, {a, b});
} }
IR::Value IREmitter::FPNeg32(const IR::Value& a) {
return Inst(IR::Opcode::FPNeg32, {a});
}
IR::Value IREmitter::FPNeg64(const IR::Value& a) {
return Inst(IR::Opcode::FPNeg64, {a});
}
IR::Value IREmitter::FPSub32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled) { IR::Value IREmitter::FPSub32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled) {
ASSERT(fpscr_controlled); ASSERT(fpscr_controlled);
return Inst(IR::Opcode::FPSub32, {a, b}); return Inst(IR::Opcode::FPSub32, {a, b});

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@ -96,8 +96,12 @@ public:
IR::Value FPAbs64(const IR::Value& a); IR::Value FPAbs64(const IR::Value& a);
IR::Value FPAdd32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled); IR::Value FPAdd32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPAdd64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled); IR::Value FPAdd64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPDiv32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPDiv64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPMul32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled); IR::Value FPMul32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPMul64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled); IR::Value FPMul64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPNeg32(const IR::Value& a);
IR::Value FPNeg64(const IR::Value& a);
IR::Value FPSub32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled); IR::Value FPSub32(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);
IR::Value FPSub64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled); IR::Value FPSub64(const IR::Value& a, const IR::Value& b, bool fpscr_controlled);

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@ -64,8 +64,12 @@ OPCODE(FPAbs32, T::F32, T::F32
OPCODE(FPAbs64, T::F64, T::F64 ) OPCODE(FPAbs64, T::F64, T::F64 )
OPCODE(FPAdd32, T::F32, T::F32, T::F32 ) OPCODE(FPAdd32, T::F32, T::F32, T::F32 )
OPCODE(FPAdd64, T::F64, T::F64, T::F64 ) OPCODE(FPAdd64, T::F64, T::F64, T::F64 )
OPCODE(FPDiv32, T::F32, T::F32, T::F32 )
OPCODE(FPDiv64, T::F64, T::F64, T::F64 )
OPCODE(FPMul32, T::F32, T::F32, T::F32 ) OPCODE(FPMul32, T::F32, T::F32, T::F32 )
OPCODE(FPMul64, T::F64, T::F64, T::F64 ) OPCODE(FPMul64, T::F64, T::F64, T::F64 )
OPCODE(FPNeg32, T::F32, T::F32 )
OPCODE(FPNeg64, T::F64, T::F64 )
OPCODE(FPSub32, T::F32, T::F32, T::F32 ) OPCODE(FPSub32, T::F32, T::F32, T::F32 )
OPCODE(FPSub64, T::F64, T::F64, T::F64 ) OPCODE(FPSub64, T::F64, T::F64, T::F64 )

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@ -321,7 +321,9 @@ struct ArmTranslatorVisitor final {
// Floating-point three-register data processing instructions // Floating-point three-register data processing instructions
bool vfp2_VADD(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm); bool vfp2_VADD(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm);
bool vfp2_VSUB(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm); bool vfp2_VSUB(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm);
bool vfp2_VNMUL(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm);
bool vfp2_VMUL(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm); bool vfp2_VMUL(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm);
bool vfp2_VDIV(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm);
// Floating-point misc instructions // Floating-point misc instructions
bool vfp2_VABS(Cond cond, bool D, size_t Vd, bool sz, bool M, size_t Vm); bool vfp2_VABS(Cond cond, bool D, size_t Vd, bool sz, bool M, size_t Vm);

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@ -74,6 +74,44 @@ bool ArmTranslatorVisitor::vfp2_VMUL(Cond cond, bool D, size_t Vn, size_t Vd, bo
return true; return true;
} }
bool ArmTranslatorVisitor::vfp2_VNMUL(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm) {
if (ir.current_location.FPSCR_Len() != 1 || ir.current_location.FPSCR_Stride() != 1)
return InterpretThisInstruction(); // TODO: Vectorised floating point instructions
ExtReg d = ToExtReg(sz, Vd, D);
ExtReg n = ToExtReg(sz, Vn, N);
ExtReg m = ToExtReg(sz, Vm, M);
// VNMUL.{F32,F64} <{S,D}d>, <{S,D}n>, <{S,D}m>
if (ConditionPassed(cond)) {
auto a = ir.GetExtendedRegister(n);
auto b = ir.GetExtendedRegister(m);
auto result = sz
? ir.FPNeg64(ir.FPMul64(a, b, true))
: ir.FPNeg32(ir.FPMul32(a, b, true));
ir.SetExtendedRegister(d, result);
}
return true;
}
bool ArmTranslatorVisitor::vfp2_VDIV(Cond cond, bool D, size_t Vn, size_t Vd, bool sz, bool N, bool M, size_t Vm) {
if (ir.current_location.FPSCR_Len() != 1 || ir.current_location.FPSCR_Stride() != 1)
return InterpretThisInstruction(); // TODO: Vectorised floating point instructions
ExtReg d = ToExtReg(sz, Vd, D);
ExtReg n = ToExtReg(sz, Vn, N);
ExtReg m = ToExtReg(sz, Vm, M);
// VDIV.{F32,F64} <{S,D}d>, <{S,D}n>, <{S,D}m>
if (ConditionPassed(cond)) {
auto a = ir.GetExtendedRegister(n);
auto b = ir.GetExtendedRegister(m);
auto result = sz
? ir.FPDiv64(a, b, true)
: ir.FPDiv32(a, b, true);
ir.SetExtendedRegister(d, result);
}
return true;
}
bool ArmTranslatorVisitor::vfp2_VABS(Cond cond, bool D, size_t Vd, bool sz, bool M, size_t Vm) { bool ArmTranslatorVisitor::vfp2_VABS(Cond cond, bool D, size_t Vd, bool sz, bool M, size_t Vm) {
if (ir.current_location.FPSCR_Len() != 1 || ir.current_location.FPSCR_Stride() != 1) if (ir.current_location.FPSCR_Len() != 1 || ir.current_location.FPSCR_Stride() != 1)
return InterpretThisInstruction(); // TODO: Vectorised floating point instructions return InterpretThisInstruction(); // TODO: Vectorised floating point instructions