Merge pull request #9637 from JosJuice/jitarm64-fprf

JitArm64: Implement FPRF updates
2024-09-20 19:31:53 +02:00 · 2021-05-13 06:39:28 -04:00 · 2021-05-13 06:39:28 -04:00 · 725ea3d9c1
commit 725ea3d9c1
parent bf16f77402 25dc059f6f
10 changed files with 273 additions and 34 deletions
--- a/Source/Core/Common/Arm64Emitter.cpp
+++ b/Source/Core/Common/Arm64Emitter.cpp
@ -3039,28 +3039,31 @@ void ARM64FloatEmitter::FMOV(ARM64Reg Rd, ARM64Reg Rn, bool top)
  {
    EmitScalar1Source(0, 0, IsDouble(Rd), 0, Rd, Rn);
  }
  else if (IsGPR(Rd) != IsGPR(Rn))
  {
    const ARM64Reg gpr = IsGPR(Rn) ? Rn : Rd;
    const ARM64Reg fpr = IsGPR(Rn) ? Rd : Rn;
    const int sf = Is64Bit(gpr) ? 1 : 0;
    const int type = Is64Bit(gpr) ? (top ? 2 : 1) : 0;
    const int rmode = top ? 1 : 0;
    const int opcode = IsGPR(Rn) ? 7 : 6;
    ASSERT_MSG(DYNA_REC, !top || IsQuad(fpr), "FMOV: top can only be used with quads");
    // TODO: Should this check be more lenient? Sometimes you do want to do things like
    // read the lower 32 bits of a double
    ASSERT_MSG(DYNA_REC,
               (!Is64Bit(gpr) && IsSingle(fpr)) ||
                   (Is64Bit(gpr) && ((IsDouble(fpr) && !top) || (IsQuad(fpr) && top))),
               "FMOV: Mismatched sizes");
    Write32((sf << 31) | (0x1e << 24) | (type << 22) | (1 << 21) | (rmode << 19) | (opcode << 16) |
            (DecodeReg(Rn) << 5) | DecodeReg(Rd));
  }
  else
  {
-    ASSERT_MSG(DYNA_REC, !IsQuad(Rd) && !IsQuad(Rn), "FMOV can't move to/from quads");
+    ASSERT_MSG(DYNA_REC, 0, "FMOV: Unsupported case");
    int rmode = 0;
    int opcode = 6;
    int sf = 0;
    if (IsSingle(Rd) && !Is64Bit(Rn) && !top)
    {
      // GPR to scalar single
      opcode |= 1;
    }
    else if (!Is64Bit(Rd) && IsSingle(Rn) && !top)
    {
      // Scalar single to GPR - defaults are correct
    }
    else
    {
      // TODO
      ASSERT_MSG(DYNA_REC, 0, "FMOV: Unhandled case");
    }
    Write32((sf << 31) | (0x1e2 << 20) | (rmode << 19) | (opcode << 16) | (DecodeReg(Rn) << 5) |
            DecodeReg(Rd));
  }
 }
--- a/Source/Core/Core/PowerPC/Gekko.h
+++ b/Source/Core/Core/PowerPC/Gekko.h
@ -399,6 +399,7 @@ union UReg_MSR
 };
 #define FPRF_SHIFT 12
 #define FPRF_WIDTH 5
 #define FPRF_MASK (0x1F << FPRF_SHIFT)
 // FPSCR exception flags
--- a/Source/Core/Core/PowerPC/JitArm64/Jit.h
+++ b/Source/Core/Core/PowerPC/JitArm64/Jit.h
@ -234,6 +234,7 @@ protected:
  void GenerateCommonAsm();
  void GenerateConvertDoubleToSingle();
  void GenerateConvertSingleToDouble();
  void GenerateFPRF(bool single);
  void GenerateQuantizedLoadStores();
  // Profiling
@ -262,6 +263,8 @@ protected:
                                         Arm64Gen::ARM64Reg),
               bool Rc = false);
  void SetFPRFIfNeeded(bool single, Arm64Gen::ARM64Reg reg);
  // <Fastmem fault location, slowmem handler location>
  std::map<const u8*, FastmemArea> m_fault_to_handler;
  std::map<SlowmemHandler, const u8*> m_handler_to_loc;
--- a/Source/Core/Core/PowerPC/JitArm64/JitArm64_FloatingPoint.cpp
+++ b/Source/Core/Core/PowerPC/JitArm64/JitArm64_FloatingPoint.cpp
@ -9,6 +9,7 @@
 #include "Core/ConfigManager.h"
 #include "Core/Core.h"
 #include "Core/CoreTiming.h"
 #include "Core/PowerPC/Gekko.h"
 #include "Core/PowerPC/JitArm64/Jit.h"
 #include "Core/PowerPC/JitArm64/JitArm64_RegCache.h"
 #include "Core/PowerPC/PPCTables.h"
@ -16,12 +17,25 @@
 using namespace Arm64Gen;
 void JitArm64::SetFPRFIfNeeded(bool single, ARM64Reg reg)
 {
  if (!SConfig::GetInstance().bFPRF || !js.op->wantsFPRF)
    return;
  gpr.Lock(ARM64Reg::W0, ARM64Reg::W1, ARM64Reg::W2, ARM64Reg::W3, ARM64Reg::W4, ARM64Reg::W30);
  reg = single ? EncodeRegToSingle(reg) : EncodeRegToDouble(reg);
  m_float_emit.FMOV(single ? ARM64Reg::W0 : ARM64Reg::X0, reg);
  BL(single ? GetAsmRoutines()->fprf_single : GetAsmRoutines()->fprf_double);
  gpr.Unlock(ARM64Reg::W0, ARM64Reg::W1, ARM64Reg::W2, ARM64Reg::W3, ARM64Reg::W4, ARM64Reg::W30);
 }
 void JitArm64::fp_arith(UGeckoInstruction inst)
 {
  INSTRUCTION_START
  JITDISABLE(bJITFloatingPointOff);
  FALLBACK_IF(inst.Rc);
  FALLBACK_IF(SConfig::GetInstance().bFPRF && js.op->wantsFPRF);
  u32 a = inst.FA, b = inst.FB, c = inst.FC, d = inst.FD;
  u32 op5 = inst.SUBOP5;
@ -120,13 +134,17 @@ void JitArm64::fp_arith(UGeckoInstruction inst)
    }
  }
-  if (single || packed)
+  const bool outputs_are_singles = single || packed;
  if (outputs_are_singles)
  {
    ASSERT_MSG(DYNA_REC, inputs_are_singles == inputs_are_singles_func(),
               "Register allocation turned singles into doubles in the middle of fp_arith");
    fpr.FixSinglePrecision(d);
  }
  SetFPRFIfNeeded(outputs_are_singles, VD);
 }
 void JitArm64::fp_logic(UGeckoInstruction inst)
@ -252,7 +270,6 @@ void JitArm64::frspx(UGeckoInstruction inst)
  INSTRUCTION_START
  JITDISABLE(bJITFloatingPointOff);
  FALLBACK_IF(inst.Rc);
  FALLBACK_IF(SConfig::GetInstance().bFPRF && js.op->wantsFPRF);
  const u32 b = inst.FB;
  const u32 d = inst.FD;
@ -269,6 +286,8 @@ void JitArm64::frspx(UGeckoInstruction inst)
    ASSERT_MSG(DYNA_REC, fpr.IsSingle(b, true),
               "Register allocation turned singles into doubles in the middle of frspx");
    SetFPRFIfNeeded(true, VD);
  }
  else
  {
@ -276,6 +295,8 @@ void JitArm64::frspx(UGeckoInstruction inst)
    const ARM64Reg VD = fpr.RW(d, RegType::DuplicatedSingle);
    m_float_emit.FCVT(32, 64, EncodeRegToDouble(VD), EncodeRegToDouble(VB));
    SetFPRFIfNeeded(true, VD);
  }
 }
@ -283,7 +304,8 @@ void JitArm64::fcmpX(UGeckoInstruction inst)
 {
  INSTRUCTION_START
  JITDISABLE(bJITFloatingPointOff);
-  FALLBACK_IF(SConfig::GetInstance().bFPRF && js.op->wantsFPRF);
+
  const bool fprf = SConfig::GetInstance().bFPRF && js.op->wantsFPRF;
  const u32 a = inst.FA;
  const u32 b = inst.FB;
@ -299,6 +321,14 @@ void JitArm64::fcmpX(UGeckoInstruction inst)
  gpr.BindCRToRegister(crf, false);
  const ARM64Reg XA = gpr.CR(crf);
  ARM64Reg fpscr_reg;
  if (fprf)
  {
    fpscr_reg = gpr.GetReg();
    LDR(IndexType::Unsigned, fpscr_reg, PPC_REG, PPCSTATE_OFF(fpscr));
    ANDI2R(fpscr_reg, fpscr_reg, ~FPRF_MASK);
  }
  FixupBranch pNaN, pLesser, pGreater;
  FixupBranch continue1, continue2, continue3;
  ORR(XA, ARM64Reg::ZR, 32, 0, true);
@ -317,11 +347,16 @@ void JitArm64::fcmpX(UGeckoInstruction inst)
  // A == B
  ORR(XA, XA, 64 - 63, 0, true);
  if (fprf)
    ORRI2R(fpscr_reg, fpscr_reg, PowerPC::CR_EQ << FPRF_SHIFT);
  continue1 = B();
  SetJumpTarget(pNaN);
  MOVI2R(XA, PowerPC::ConditionRegister::PPCToInternal(PowerPC::CR_SO));
  if (fprf)
    ORRI2R(fpscr_reg, fpscr_reg, PowerPC::CR_SO << FPRF_SHIFT);
  if (a != b)
  {
@ -329,12 +364,16 @@ void JitArm64::fcmpX(UGeckoInstruction inst)
    SetJumpTarget(pGreater);
    ORR(XA, XA, 0, 0, true);
    if (fprf)
      ORRI2R(fpscr_reg, fpscr_reg, PowerPC::CR_GT << FPRF_SHIFT);
    continue3 = B();
    SetJumpTarget(pLesser);
    ORR(XA, XA, 64 - 62, 1, true);
    ORR(XA, XA, 0, 0, true);
    if (fprf)
      ORRI2R(fpscr_reg, fpscr_reg, PowerPC::CR_LT << FPRF_SHIFT);
    SetJumpTarget(continue2);
    SetJumpTarget(continue3);
@ -343,6 +382,12 @@ void JitArm64::fcmpX(UGeckoInstruction inst)
  ASSERT_MSG(DYNA_REC, singles == (fpr.IsSingle(a, true) && fpr.IsSingle(b, true)),
             "Register allocation turned singles into doubles in the middle of fcmpX");
  if (fprf)
  {
    STR(IndexType::Unsigned, fpscr_reg, PPC_REG, PPCSTATE_OFF(fpscr));
    gpr.Unlock(fpscr_reg);
  }
 }
 void JitArm64::fctiwzx(UGeckoInstruction inst)
@ -371,12 +416,12 @@ void JitArm64::fctiwzx(UGeckoInstruction inst)
  }
  else
  {
-    const ARM64Reg V1 = gpr.GetReg();
+    const ARM64Reg WA = gpr.GetReg();
-    m_float_emit.FCVTS(V1, EncodeRegToDouble(VB), RoundingMode::Z);
+    m_float_emit.FCVTS(WA, EncodeRegToDouble(VB), RoundingMode::Z);
-    m_float_emit.FMOV(EncodeRegToSingle(VD), V1);
+    m_float_emit.FMOV(EncodeRegToSingle(VD), WA);
-    gpr.Unlock(V1);
+    gpr.Unlock(WA);
  }
  m_float_emit.ORR(EncodeRegToDouble(VD), EncodeRegToDouble(VD), EncodeRegToDouble(V0));
  fpr.Unlock(V0);
--- a/Source/Core/Core/PowerPC/JitArm64/JitArm64_Paired.cpp
+++ b/Source/Core/Core/PowerPC/JitArm64/JitArm64_Paired.cpp
@ -76,7 +76,6 @@ void JitArm64::ps_mulsX(UGeckoInstruction inst)
  INSTRUCTION_START
  JITDISABLE(bJITPairedOff);
  FALLBACK_IF(inst.Rc);
  FALLBACK_IF(SConfig::GetInstance().bFPRF && js.op->wantsFPRF);
  const u32 a = inst.FA;
  const u32 c = inst.FC;
@ -99,6 +98,8 @@ void JitArm64::ps_mulsX(UGeckoInstruction inst)
             "Register allocation turned singles into doubles in the middle of ps_mulsX");
  fpr.FixSinglePrecision(d);
  SetFPRFIfNeeded(true, VD);
 }
 void JitArm64::ps_maddXX(UGeckoInstruction inst)
@ -106,7 +107,6 @@ void JitArm64::ps_maddXX(UGeckoInstruction inst)
  INSTRUCTION_START
  JITDISABLE(bJITPairedOff);
  FALLBACK_IF(inst.Rc);
  FALLBACK_IF(SConfig::GetInstance().bFPRF && js.op->wantsFPRF);
  const u32 a = inst.FA;
  const u32 b = inst.FB;
@ -257,13 +257,15 @@ void JitArm64::ps_maddXX(UGeckoInstruction inst)
    break;
  }
  if (V0Q != ARM64Reg::INVALID_REG)
    fpr.Unlock(V0Q);
  ASSERT_MSG(DYNA_REC, singles == (fpr.IsSingle(a) && fpr.IsSingle(b) && fpr.IsSingle(c)),
             "Register allocation turned singles into doubles in the middle of ps_maddXX");
  fpr.FixSinglePrecision(d);
-  if (V0Q != ARM64Reg::INVALID_REG)
+  SetFPRFIfNeeded(true, VD);
    fpr.Unlock(V0Q);
 }
 void JitArm64::ps_sel(UGeckoInstruction inst)
@ -311,7 +313,6 @@ void JitArm64::ps_sumX(UGeckoInstruction inst)
  INSTRUCTION_START
  JITDISABLE(bJITPairedOff);
  FALLBACK_IF(inst.Rc);
  FALLBACK_IF(SConfig::GetInstance().bFPRF && js.op->wantsFPRF);
  const u32 a = inst.FA;
  const u32 b = inst.FB;
@ -343,10 +344,12 @@ void JitArm64::ps_sumX(UGeckoInstruction inst)
    m_float_emit.INS(size, VD, upper ? 1 : 0, V0, upper ? 1 : 0);
  }
  fpr.Unlock(V0);
  ASSERT_MSG(DYNA_REC, singles == (fpr.IsSingle(a) && fpr.IsSingle(b) && fpr.IsSingle(c)),
             "Register allocation turned singles into doubles in the middle of ps_sumX");
  fpr.FixSinglePrecision(d);
-  fpr.Unlock(V0);
+  SetFPRFIfNeeded(true, VD);
 }
--- a/Source/Core/Core/PowerPC/JitArm64/JitAsm.cpp
+++ b/Source/Core/Core/PowerPC/JitArm64/JitAsm.cpp
@ -4,11 +4,14 @@
 #include "Common/Arm64Emitter.h"
 #include "Common/CommonTypes.h"
 #include "Common/FloatUtils.h"
 #include "Common/JitRegister.h"
 #include "Common/MathUtil.h"
 #include "Core/CoreTiming.h"
 #include "Core/HW/CPU.h"
 #include "Core/HW/Memmap.h"
 #include "Core/PowerPC/Gekko.h"
 #include "Core/PowerPC/JitArm64/Jit.h"
 #include "Core/PowerPC/JitCommon/JitAsmCommon.h"
 #include "Core/PowerPC/JitCommon/JitCache.h"
@ -203,6 +206,12 @@ void JitArm64::GenerateCommonAsm()
  GenerateConvertSingleToDouble();
  JitRegister::Register(GetAsmRoutines()->cstd, GetCodePtr(), "JIT_cstd");
  GetAsmRoutines()->fprf_single = GetCodePtr();
  GenerateFPRF(true);
  GetAsmRoutines()->fprf_double = GetCodePtr();
  GenerateFPRF(false);
  JitRegister::Register(GetAsmRoutines()->fprf_single, GetCodePtr(), "JIT_FPRF");
  GenerateQuantizedLoadStores();
 }
@ -272,6 +281,91 @@ void JitArm64::GenerateConvertSingleToDouble()
  RET();
 }
 // Input in X0. Outputs to memory (PPCState). Clobbers X0-X4 and flags.
 void JitArm64::GenerateFPRF(bool single)
 {
  const auto reg_encoder = single ? EncodeRegTo32 : EncodeRegTo64;
  const ARM64Reg input_reg = reg_encoder(ARM64Reg::W0);
  const ARM64Reg temp_reg = reg_encoder(ARM64Reg::W1);
  const ARM64Reg exp_reg = reg_encoder(ARM64Reg::W2);
  constexpr ARM64Reg fprf_reg = ARM64Reg::W3;
  constexpr ARM64Reg fpscr_reg = ARM64Reg::W4;
  const auto INPUT_EXP_MASK = single ? Common::FLOAT_EXP : Common::DOUBLE_EXP;
  const auto INPUT_FRAC_MASK = single ? Common::FLOAT_FRAC : Common::DOUBLE_FRAC;
  constexpr u32 OUTPUT_SIGN_MASK = 0xC;
  // This code is duplicated for the most common cases for performance.
  // For the less common cases, we branch to an existing copy of this code.
  auto emit_write_fprf_and_ret = [&] {
    BFI(fpscr_reg, fprf_reg, FPRF_SHIFT, FPRF_WIDTH);
    STR(IndexType::Unsigned, fpscr_reg, PPC_REG, PPCSTATE_OFF(fpscr));
    RET();
  };
  // First of all, start the load of the old FPSCR value, in case it takes a while
  LDR(IndexType::Unsigned, fpscr_reg, PPC_REG, PPCSTATE_OFF(fpscr));
  CMP(input_reg, 0);  // Grab sign bit (conveniently the same bit for floats as for integers)
  ANDI2R(exp_reg, input_reg, INPUT_EXP_MASK);  // Grab exponent
  // Most branches handle the sign in the same way. Perform that handling before branching
  MOVI2R(ARM64Reg::W3, Common::PPC_FPCLASS_PN);
  MOVI2R(ARM64Reg::W1, Common::PPC_FPCLASS_NN);
  CSEL(fprf_reg, ARM64Reg::W1, ARM64Reg::W3, CCFlags::CC_LT);
  FixupBranch zero_or_denormal = CBZ(exp_reg);
  // exp != 0
  MOVI2R(temp_reg, INPUT_EXP_MASK);
  CMP(exp_reg, temp_reg);
  FixupBranch nan_or_inf = B(CCFlags::CC_EQ);
  // exp != 0 && exp != EXP_MASK
  const u8* normal = GetCodePtr();
  emit_write_fprf_and_ret();
  // exp == 0
  SetJumpTarget(zero_or_denormal);
  TSTI2R(input_reg, INPUT_FRAC_MASK);
  FixupBranch denormal;
  if (single)
  {
    // To match the interpreter, what we output should be based on how the input would be classified
    // after conversion to double. Converting a denormal single to a double always results in a
    // normal double, so for denormal singles we need to output PPC_FPCLASS_PN/PPC_FPCLASS_NN.
    // TODO: Hardware test that the interpreter actually is correct.
    B(CCFlags::CC_NEQ, normal);
  }
  else
  {
    denormal = B(CCFlags::CC_NEQ);
  }
  // exp == 0 && frac == 0
  LSR(ARM64Reg::W1, fprf_reg, 3);
  MOVI2R(fprf_reg, Common::PPC_FPCLASS_PZ & ~OUTPUT_SIGN_MASK);
  BFI(fprf_reg, ARM64Reg::W1, 4, 1);
  const u8* write_fprf_and_ret = GetCodePtr();
  emit_write_fprf_and_ret();
  // exp == 0 && frac != 0
  if (!single)
    SetJumpTarget(denormal);
  ORRI2R(fprf_reg, fprf_reg, Common::PPC_FPCLASS_PD & ~OUTPUT_SIGN_MASK);
  B(write_fprf_and_ret);
  // exp == EXP_MASK
  SetJumpTarget(nan_or_inf);
  TSTI2R(input_reg, INPUT_FRAC_MASK);
  ORRI2R(ARM64Reg::W1, fprf_reg, Common::PPC_FPCLASS_PINF & ~OUTPUT_SIGN_MASK);
  MOVI2R(ARM64Reg::W2, Common::PPC_FPCLASS_QNAN);
  CSEL(fprf_reg, ARM64Reg::W1, ARM64Reg::W2, CCFlags::CC_EQ);
  B(write_fprf_and_ret);
 }
 void JitArm64::GenerateQuantizedLoadStores()
 {
  // X0 is the scale
--- a/Source/Core/Core/PowerPC/JitCommon/JitAsmCommon.h
+++ b/Source/Core/Core/PowerPC/JitCommon/JitAsmCommon.h
@ -27,6 +27,8 @@ struct CommonAsmRoutinesBase
  const u8* mfcr;
  const u8* cdts;
  const u8* cstd;
  const u8* fprf_single;
  const u8* fprf_double;
  // In: array index: GQR to use.
  // In: ECX: Address to read from.
--- a/Source/UnitTests/Core/CMakeLists.txt
+++ b/Source/UnitTests/Core/CMakeLists.txt
@ -24,6 +24,7 @@ elseif(_M_ARM_64)
  add_dolphin_test(PowerPCTest
    PowerPC/DivUtilsTest.cpp
    PowerPC/JitArm64/ConvertSingleDouble.cpp
    PowerPC/JitArm64/FPRF.cpp
    PowerPC/JitArm64/MovI2R.cpp
  )
 else()
--- a/Source/UnitTests/Core/PowerPC/JitArm64/FPRF.cpp
+++ b/Source/UnitTests/Core/PowerPC/JitArm64/FPRF.cpp
@ -0,0 +1,86 @@
 // Copyright 2021 Dolphin Emulator Project
 // Licensed under GPLv2+
 // Refer to the license.txt file included.
 #include <cinttypes>
 #include <functional>
 #include <vector>
 #include "Common/Arm64Emitter.h"
 #include "Common/BitUtils.h"
 #include "Common/CommonTypes.h"
 #include "Core/PowerPC/Interpreter/Interpreter_FPUtils.h"
 #include "Core/PowerPC/JitArm64/Jit.h"
 #include "Core/PowerPC/PowerPC.h"
 #include "../TestValues.h"
 #include <gtest/gtest.h>
 namespace
 {
 using namespace Arm64Gen;
 class TestFPRF : public JitArm64
 {
 public:
  TestFPRF()
  {
    AllocCodeSpace(4096);
    const u8* raw_fprf_single = GetCodePtr();
    GenerateFPRF(true);
    const u8* raw_fprf_double = GetCodePtr();
    GenerateFPRF(false);
    fprf_single = Common::BitCast<void (*)(u32)>(GetCodePtr());
    MOV(ARM64Reg::X15, ARM64Reg::X30);
    MOV(ARM64Reg::X14, PPC_REG);
    MOVP2R(PPC_REG, &PowerPC::ppcState);
    BL(raw_fprf_single);
    MOV(ARM64Reg::X30, ARM64Reg::X15);
    MOV(PPC_REG, ARM64Reg::X14);
    RET();
    fprf_double = Common::BitCast<void (*)(u64)>(GetCodePtr());
    MOV(ARM64Reg::X15, ARM64Reg::X30);
    MOV(ARM64Reg::X14, PPC_REG);
    MOVP2R(PPC_REG, &PowerPC::ppcState);
    BL(raw_fprf_double);
    MOV(ARM64Reg::X30, ARM64Reg::X15);
    MOV(PPC_REG, ARM64Reg::X14);
    RET();
  }
  std::function<void(u32)> fprf_single;
  std::function<void(u64)> fprf_double;
 };
 }  // namespace
 static u32 RunUpdateFPRF(const std::function<void()>& f)
 {
  PowerPC::ppcState.fpscr.Hex = 0x12345678;
  f();
  return PowerPC::ppcState.fpscr.Hex;
 }
 TEST(JitArm64, FPRF)
 {
  TestFPRF test;
  for (const u64 double_input : double_test_values)
  {
    const u32 expected_double =
        RunUpdateFPRF([&] { PowerPC::UpdateFPRF(Common::BitCast<double>(double_input)); });
    const u32 actual_double = RunUpdateFPRF([&] { test.fprf_double(double_input); });
    EXPECT_EQ(expected_double, actual_double);
    const u32 single_input = ConvertToSingle(double_input);
    const u32 expected_single = RunUpdateFPRF(
        [&] { PowerPC::UpdateFPRF(Common::BitCast<double>(ConvertToDouble(single_input))); });
    const u32 actual_single = RunUpdateFPRF([&] { test.fprf_single(single_input); });
    EXPECT_EQ(expected_single, actual_single);
  }
 }
--- a/Source/UnitTests/UnitTests.vcxproj
+++ b/Source/UnitTests/UnitTests.vcxproj
@ -83,6 +83,7 @@
  </ItemGroup>
  <ItemGroup Condition="'$(Platform)'=='ARM64'">
    <ClCompile Include="Core\PowerPC\JitArm64\ConvertSingleDouble.cpp" />
    <ClCompile Include="Core\PowerPC\JitArm64\FPRF.cpp" />
    <ClCompile Include="Core\PowerPC\JitArm64\MovI2R.cpp" />
  </ItemGroup>
  <ItemGroup>