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Merge pull request #1476 from lioncash/emit 

emitter: constexpr/misc changes
master
bunnei 2016-03-10 01:06:25 +07:00
parent 305e63d9ea e3f9d09b28
commit 3789de6bd9
1 changed files with 54 additions and 59 deletions
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113
src/common/x64/emitter.h
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@ -157,45 +157,37 @@ class XEmitter;
// RIP addressing does not benefit from micro op fusion on Core arch
struct OpArg
{
OpArg() {} // dummy op arg, used for storage
OpArg(u64 _offset, int _scale, X64Reg rmReg = RAX, X64Reg scaledReg = RAX)
friend class XEmitter;
constexpr OpArg() = default; // dummy op arg, used for storage
constexpr OpArg(u64 offset_, int scale_, X64Reg rmReg = RAX, X64Reg scaledReg = RAX)
: scale(static_cast<u8>(scale_))
, offsetOrBaseReg(static_cast<u16>(rmReg))
, indexReg(static_cast<u16>(scaledReg))
, offset(offset_)
{
operandReg = 0;
scale = (u8)_scale;
offsetOrBaseReg = (u16)rmReg;
indexReg = (u16)scaledReg;
//if scale == 0 never mind offsetting
offset = _offset;
}
bool operator==(const OpArg &b) const
constexpr bool operator==(const OpArg &b) const
{
return operandReg == b.operandReg && scale == b.scale && offsetOrBaseReg == b.offsetOrBaseReg &&
indexReg == b.indexReg && offset == b.offset;
return operandReg == b.operandReg &&
scale == b.scale &&
offsetOrBaseReg == b.offsetOrBaseReg &&
indexReg == b.indexReg &&
offset == b.offset;
}
void WriteRex(XEmitter *emit, int opBits, int bits, int customOp = -1) const;
void WriteVex(XEmitter* emit, X64Reg regOp1, X64Reg regOp2, int L, int pp, int mmmmm, int W = 0) const;
void WriteRest(XEmitter *emit, int extraBytes=0, X64Reg operandReg=INVALID_REG, bool warn_64bit_offset = true) const;
void WriteFloatModRM(XEmitter *emit, FloatOp op);
void WriteSingleByteOp(XEmitter *emit, u8 op, X64Reg operandReg, int bits);
// This one is public - must be written to
u64 offset; // use RIP-relative as much as possible - 64-bit immediates are not available.
u16 operandReg;
void WriteNormalOp(XEmitter *emit, bool toRM, NormalOp op, const OpArg &operand, int bits) const;
bool IsImm() const {return scale == SCALE_IMM8 || scale == SCALE_IMM16 || scale == SCALE_IMM32 || scale == SCALE_IMM64;}
bool IsSimpleReg() const {return scale == SCALE_NONE;}
bool IsSimpleReg(X64Reg reg) const
{
if (!IsSimpleReg())
return false;
return GetSimpleReg() == reg;
}
bool CanDoOpWith(const OpArg &other) const
constexpr bool IsImm() const { return scale == SCALE_IMM8 || scale == SCALE_IMM16 || scale == SCALE_IMM32 || scale == SCALE_IMM64; }
constexpr bool IsSimpleReg() const { return scale == SCALE_NONE; }
constexpr bool IsSimpleReg(X64Reg reg) const
{
if (IsSimpleReg()) return true;
if (!IsSimpleReg() && !other.IsSimpleReg() && !other.IsImm()) return false;
return true;
return IsSimpleReg() && GetSimpleReg() == reg;
}
int GetImmBits() const
@ -220,16 +212,15 @@ struct OpArg
}
}
X64Reg GetSimpleReg() const
constexpr X64Reg GetSimpleReg() const
{
if (scale == SCALE_NONE)
return (X64Reg)offsetOrBaseReg;
else
return INVALID_REG;
return scale == SCALE_NONE
? static_cast<X64Reg>(offsetOrBaseReg)
: INVALID_REG;
}
u32 GetImmValue() const {
return (u32)offset;
constexpr u32 GetImmValue() const {
return static_cast<u32>(offset);
}
// For loops.
@ -238,56 +229,60 @@ struct OpArg
}
private:
u8 scale;
u16 offsetOrBaseReg;
u16 indexReg;
u8 scale = 0;
u16 offsetOrBaseReg = 0;
u16 indexReg = 0;
u64 offset = 0; // use RIP-relative as much as possible - 64-bit immediates are not available.
u16 operandReg = 0;
};
inline OpArg M(const void *ptr) {return OpArg((u64)ptr, (int)SCALE_RIP);}
template <typename T>
inline OpArg M(const T *ptr) {return OpArg((u64)(const void *)ptr, (int)SCALE_RIP);}
inline OpArg R(X64Reg value) {return OpArg(0, SCALE_NONE, value);}
inline OpArg MatR(X64Reg value) {return OpArg(0, SCALE_ATREG, value);}
inline OpArg M(const T *ptr) { return OpArg(reinterpret_cast<u64>(ptr), static_cast<int>(SCALE_RIP)); }
constexpr OpArg R(X64Reg value) { return OpArg(0, SCALE_NONE, value); }
constexpr OpArg MatR(X64Reg value) { return OpArg(0, SCALE_ATREG, value); }
inline OpArg MDisp(X64Reg value, int offset)
constexpr OpArg MDisp(X64Reg value, int offset)
{
return OpArg((u32)offset, SCALE_ATREG, value);
return OpArg(static_cast<u32>(offset), SCALE_ATREG, value);
}
inline OpArg MComplex(X64Reg base, X64Reg scaled, int scale, int offset)
constexpr OpArg MComplex(X64Reg base, X64Reg scaled, int scale, int offset)
{
return OpArg(offset, scale, base, scaled);
}
inline OpArg MScaled(X64Reg scaled, int scale, int offset)
constexpr OpArg MScaled(X64Reg scaled, int scale, int offset)
{
if (scale == SCALE_1)
return OpArg(offset, SCALE_ATREG, scaled);
else
return OpArg(offset, scale | 0x20, RAX, scaled);
return scale == SCALE_1
? OpArg(offset, SCALE_ATREG, scaled)
: OpArg(offset, scale | 0x20, RAX, scaled);
}
inline OpArg MRegSum(X64Reg base, X64Reg offset)
constexpr OpArg MRegSum(X64Reg base, X64Reg offset)
{
return MComplex(base, offset, 1, 0);
}
inline OpArg Imm8 (u8 imm) {return OpArg(imm, SCALE_IMM8);}
inline OpArg Imm16(u16 imm) {return OpArg(imm, SCALE_IMM16);} //rarely used
inline OpArg Imm32(u32 imm) {return OpArg(imm, SCALE_IMM32);}
inline OpArg Imm64(u64 imm) {return OpArg(imm, SCALE_IMM64);}
inline OpArg UImmAuto(u32 imm) {
constexpr OpArg Imm8 (u8 imm) { return OpArg(imm, SCALE_IMM8); }
constexpr OpArg Imm16(u16 imm) { return OpArg(imm, SCALE_IMM16); } //rarely used
constexpr OpArg Imm32(u32 imm) { return OpArg(imm, SCALE_IMM32); }
constexpr OpArg Imm64(u64 imm) { return OpArg(imm, SCALE_IMM64); }
constexpr OpArg UImmAuto(u32 imm) {
return OpArg(imm, imm >= 128 ? SCALE_IMM32 : SCALE_IMM8);
}
inline OpArg SImmAuto(s32 imm) {
constexpr OpArg SImmAuto(s32 imm) {
return OpArg(imm, (imm >= 128 || imm < -128) ? SCALE_IMM32 : SCALE_IMM8);
}
template <typename T>
OpArg ImmPtr(const T* imm)
{
#ifdef _ARCH_64
inline OpArg ImmPtr(const void* imm) {return Imm64((u64)imm);}
return Imm64(reinterpret_cast<u64>(imm));
#else
inline OpArg ImmPtr(const void* imm) {return Imm32((u32)imm);}
return Imm32(reinterpret_cast<u32>(imm));
#endif
}
inline u32 PtrOffset(const void* ptr, const void* base)
{