x64Emitter: Make FloatOp and NormalOp enum classes

Reduces the amount of identifiers placed in the Gen namespace internally.
2018-03-18 17:20:46 -04:00 · 2018-03-18 17:20:46 -04:00 · 975ba4abf0
parent c22a6f4551
commit 975ba4abf0
2 changed files with 57 additions and 54 deletions
--- a/Source/Core/Common/x64Emitter.cpp
+++ b/Source/Core/Common/x64Emitter.cpp
@ -76,30 +76,30 @@ enum NormalSSEOps
  sseMOVNTP = 0x2B,
 };

-enum NormalOp : int
+enum class NormalOp
 {
-  nrmADD,
-  nrmADC,
-  nrmSUB,
-  nrmSBB,
-  nrmAND,
-  nrmOR,
-  nrmXOR,
-  nrmMOV,
-  nrmTEST,
-  nrmCMP,
-  nrmXCHG,
+  ADD,
+  ADC,
+  SUB,
+  SBB,
+  AND,
+  OR,
+  XOR,
+  MOV,
+  TEST,
+  CMP,
+  XCHG,
 };

-enum FloatOp : int
+enum class FloatOp
 {
-  floatLD = 0,
-  floatST = 2,
-  floatSTP = 3,
-  floatLD80 = 5,
-  floatSTP80 = 7,
+  LD = 0,
+  ST = 2,
+  STP = 3,
+  LD80 = 5,
+  STP80 = 7,

-  floatINVALID = -1,
+  Invalid = -1,
 };

 void XEmitter::SetCodePtr(u8* ptr)
@ -1379,6 +1379,7 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
    emit->Write8(0x66);

  int immToWrite = 0;
+  const NormalOpDef& op_def = normalops[static_cast<int>(op)];

  if (operand.IsImm())
  {
@ -1392,21 +1393,21 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
    if (operand.scale == SCALE_IMM8 && bits == 8)
    {
      // op al, imm8
-      if (!scale && offsetOrBaseReg == AL && normalops[op].eaximm8 != 0xCC)
+      if (!scale && offsetOrBaseReg == AL && op_def.eaximm8 != 0xCC)
      {
-        emit->Write8(normalops[op].eaximm8);
+        emit->Write8(op_def.eaximm8);
        emit->Write8((u8)operand.offset);
        return;
      }
      // mov reg, imm8
-      if (!scale && op == nrmMOV)
+      if (!scale && op == NormalOp::MOV)
      {
        emit->Write8(0xB0 + (offsetOrBaseReg & 7));
        emit->Write8((u8)operand.offset);
        return;
      }
      // op r/m8, imm8
-      emit->Write8(normalops[op].imm8);
+      emit->Write8(op_def.imm8);
      immToWrite = 8;
    }
    else if ((operand.scale == SCALE_IMM16 && bits == 16) ||
@ -1416,17 +1417,17 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
      // Try to save immediate size if we can, but first check to see
      // if the instruction supports simm8.
      // op r/m, imm8
-      if (normalops[op].simm8 != 0xCC &&
+      if (op_def.simm8 != 0xCC &&
          ((operand.scale == SCALE_IMM16 && (s16)operand.offset == (s8)operand.offset) ||
           (operand.scale == SCALE_IMM32 && (s32)operand.offset == (s8)operand.offset)))
      {
-        emit->Write8(normalops[op].simm8);
+        emit->Write8(op_def.simm8);
        immToWrite = 8;
      }
      else
      {
        // mov reg, imm
-        if (!scale && op == nrmMOV && bits != 64)
+        if (!scale && op == NormalOp::MOV && bits != 64)
        {
          emit->Write8(0xB8 + (offsetOrBaseReg & 7));
          if (bits == 16)
@ -1436,9 +1437,9 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
          return;
        }
        // op eax, imm
-        if (!scale && offsetOrBaseReg == EAX && normalops[op].eaximm32 != 0xCC)
+        if (!scale && offsetOrBaseReg == EAX && op_def.eaximm32 != 0xCC)
        {
-          emit->Write8(normalops[op].eaximm32);
+          emit->Write8(op_def.eaximm32);
          if (bits == 16)
            emit->Write16((u16)operand.offset);
          else
@ -1446,7 +1447,7 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
          return;
        }
        // op r/m, imm
-        emit->Write8(normalops[op].imm32);
+        emit->Write8(op_def.imm32);
        immToWrite = bits == 16 ? 16 : 32;
      }
    }
@ -1455,7 +1456,7 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
             (operand.scale == SCALE_IMM8 && bits == 64))
    {
      // op r/m, imm8
-      emit->Write8(normalops[op].simm8);
+      emit->Write8(op_def.simm8);
      immToWrite = 8;
    }
    else if (operand.scale == SCALE_IMM64 && bits == 64)
@ -1466,7 +1467,7 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
                   "WriteNormalOp - MOV with 64-bit imm requires register destination");
      }
      // mov reg64, imm64
-      else if (op == nrmMOV)
+      else if (op == NormalOp::MOV)
      {
        emit->Write8(0xB8 + (offsetOrBaseReg & 7));
        emit->Write64((u64)operand.offset);
@ -1478,7 +1479,9 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
    {
      ASSERT_MSG(DYNA_REC, 0, "WriteNormalOp - Unhandled case %d %d", operand.scale, bits);
    }
-    _operandReg = (X64Reg)normalops[op].ext;  // pass extension in REG of ModRM
+
+    // pass extension in REG of ModRM
+    _operandReg = static_cast<X64Reg>(op_def.ext);
  }
  else
  {
@ -1487,12 +1490,12 @@ void OpArg::WriteNormalOp(XEmitter* emit, bool toRM, NormalOp op, const OpArg& o
    // op r/m, reg
    if (toRM)
    {
-      emit->Write8(bits == 8 ? normalops[op].toRm8 : normalops[op].toRm32);
+      emit->Write8(bits == 8 ? op_def.toRm8 : op_def.toRm32);
    }
    // op reg, r/m
    else
    {
-      emit->Write8(bits == 8 ? normalops[op].fromRm8 : normalops[op].fromRm32);
+      emit->Write8(bits == 8 ? op_def.fromRm8 : op_def.fromRm32);
    }
  }
  WriteRest(emit, immToWrite >> 3, _operandReg);
@ -1544,57 +1547,57 @@ void XEmitter::WriteNormalOp(int bits, NormalOp op, const OpArg& a1, const OpArg
 void XEmitter::ADD(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmADD, a1, a2);
+  WriteNormalOp(bits, NormalOp::ADD, a1, a2);
 }
 void XEmitter::ADC(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmADC, a1, a2);
+  WriteNormalOp(bits, NormalOp::ADC, a1, a2);
 }
 void XEmitter::SUB(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmSUB, a1, a2);
+  WriteNormalOp(bits, NormalOp::SUB, a1, a2);
 }
 void XEmitter::SBB(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmSBB, a1, a2);
+  WriteNormalOp(bits, NormalOp::SBB, a1, a2);
 }
 void XEmitter::AND(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmAND, a1, a2);
+  WriteNormalOp(bits, NormalOp::AND, a1, a2);
 }
 void XEmitter::OR(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmOR, a1, a2);
+  WriteNormalOp(bits, NormalOp::OR, a1, a2);
 }
 void XEmitter::XOR(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmXOR, a1, a2);
+  WriteNormalOp(bits, NormalOp::XOR, a1, a2);
 }
 void XEmitter::MOV(int bits, const OpArg& a1, const OpArg& a2)
 {
  if (a1.IsSimpleReg() && a2.IsSimpleReg() && a1.GetSimpleReg() == a2.GetSimpleReg())
    ERROR_LOG(DYNA_REC, "Redundant MOV @ %p - bug in JIT?", code);
-  WriteNormalOp(bits, nrmMOV, a1, a2);
+  WriteNormalOp(bits, NormalOp::MOV, a1, a2);
 }
 void XEmitter::TEST(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmTEST, a1, a2);
+  WriteNormalOp(bits, NormalOp::TEST, a1, a2);
 }
 void XEmitter::CMP(int bits, const OpArg& a1, const OpArg& a2)
 {
  CheckFlags();
-  WriteNormalOp(bits, nrmCMP, a1, a2);
+  WriteNormalOp(bits, NormalOp::CMP, a1, a2);
 }
 void XEmitter::XCHG(int bits, const OpArg& a1, const OpArg& a2)
 {
-  WriteNormalOp(bits, nrmXCHG, a1, a2);
+  WriteNormalOp(bits, NormalOp::XCHG, a1, a2);
 }
 void XEmitter::CMP_or_TEST(int bits, const OpArg& a1, const OpArg& a2)
 {
@ -1602,11 +1605,11 @@ void XEmitter::CMP_or_TEST(int bits, const OpArg& a1, const OpArg& a2)
  if (a1.IsSimpleReg() && a2.IsImm() &&
      a2.offset == 0)  // turn 'CMP reg, 0' into shorter 'TEST reg, reg'
  {
-    WriteNormalOp(bits, nrmTEST, a1, a1);
+    WriteNormalOp(bits, NormalOp::TEST, a1, a1);
  }
  else
  {
-    WriteNormalOp(bits, nrmCMP, a1, a2);
+    WriteNormalOp(bits, NormalOp::CMP, a1, a2);
  }
 }

@ -3274,7 +3277,7 @@ void XEmitter::FWAIT()
 void XEmitter::WriteFloatLoadStore(int bits, FloatOp op, FloatOp op_80b, const OpArg& arg)
 {
  int mf = 0;
-  ASSERT_MSG(DYNA_REC, !(bits == 80 && op_80b == floatINVALID),
+  ASSERT_MSG(DYNA_REC, !(bits == 80 && op_80b == FloatOp::Invalid),
             "WriteFloatLoadStore: 80 bits not supported for this instruction");
  switch (bits)
  {
@ -3294,20 +3297,20 @@ void XEmitter::WriteFloatLoadStore(int bits, FloatOp op, FloatOp op_80b, const O
  // x87 instructions use the reg field of the ModR/M byte as opcode:
  if (bits == 80)
    op = op_80b;
-  arg.WriteRest(this, 0, (X64Reg)op);
+  arg.WriteRest(this, 0, static_cast<X64Reg>(op));
 }

 void XEmitter::FLD(int bits, const OpArg& src)
 {
-  WriteFloatLoadStore(bits, floatLD, floatLD80, src);
+  WriteFloatLoadStore(bits, FloatOp::LD, FloatOp::LD80, src);
 }
 void XEmitter::FST(int bits, const OpArg& dest)
 {
-  WriteFloatLoadStore(bits, floatST, floatINVALID, dest);
+  WriteFloatLoadStore(bits, FloatOp::ST, FloatOp::Invalid, dest);
 }
 void XEmitter::FSTP(int bits, const OpArg& dest)
 {
-  WriteFloatLoadStore(bits, floatSTP, floatSTP80, dest);
+  WriteFloatLoadStore(bits, FloatOp::STP, FloatOp::STP80, dest);
 }
 void XEmitter::FNSTSW_AX()
 {
--- a/Source/Core/Common/x64Emitter.h
+++ b/Source/Core/Common/x64Emitter.h
@ -91,8 +91,8 @@ enum SSECompare
 };

 class XEmitter;
-enum FloatOp : int;
-enum NormalOp : int;
+enum class FloatOp;
+enum class NormalOp;

 // Information about a generated MOV op
 struct MovInfo final