pcsx2/common/include/x86emitter/implement/movs.h

237 lines
9.9 KiB
C++

/* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2009 PCSX2 Dev Team
*
* PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found-
* ation, either version 3 of the License, or (at your option) any later version.
*
* PCSX2 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with PCSX2.
* If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
// Header: ix86_impl_movs.h -- covers mov, cmov, movsx/movzx, and SETcc (which shares
// with cmov many similarities).
// Note: This header is meant to be included from within the x86Emitter::Internal namespace.
//////////////////////////////////////////////////////////////////////////////////////////
// MOV instruction Implementation
class MovImplAll
{
public:
// ------------------------------------------------------------------------
template< typename T > __forceinline void operator()( const xRegister<T>& to, const xRegister<T>& from ) const
{
if( to == from ) return; // ignore redundant MOVs.
prefix16<T>();
xWrite8( Is8BitOp<T>() ? 0x88 : 0x89 );
EmitSibMagic( from, to );
}
// ------------------------------------------------------------------------
template< typename T > __noinline void operator()( const ModSibBase& dest, const xRegister<T>& from ) const
{
prefix16<T>();
// mov eax has a special from when writing directly to a DISP32 address
// (sans any register index/base registers).
if( from.IsAccumulator() && dest.Index.IsEmpty() && dest.Base.IsEmpty() )
{
xWrite8( Is8BitOp<T>() ? 0xa2 : 0xa3 );
xWrite32( dest.Displacement );
}
else
{
xWrite8( Is8BitOp<T>() ? 0x88 : 0x89 );
EmitSibMagic( from.Id, dest );
}
}
// ------------------------------------------------------------------------
template< typename T > __noinline void operator()( const xRegister<T>& to, const ModSibBase& src ) const
{
prefix16<T>();
// mov eax has a special from when reading directly from a DISP32 address
// (sans any register index/base registers).
if( to.IsAccumulator() && src.Index.IsEmpty() && src.Base.IsEmpty() )
{
xWrite8( Is8BitOp<T>() ? 0xa0 : 0xa1 );
xWrite32( src.Displacement );
}
else
{
xWrite8( Is8BitOp<T>() ? 0x8a : 0x8b );
EmitSibMagic( to, src );
}
}
// ------------------------------------------------------------------------
template< typename T > __noinline void operator()( const ModSibStrict<T>& dest, int imm ) const
{
prefix16<T>();
xWrite8( Is8BitOp<T>() ? 0xc6 : 0xc7 );
EmitSibMagic( 0, dest );
xWrite<T>( imm );
}
// ------------------------------------------------------------------------
// preserve_flags - set to true to disable optimizations which could alter the state of
// the flags (namely replacing mov reg,0 with xor).
template< typename T > __emitinline void operator()( const xRegister<T>& to, int imm, bool preserve_flags=false ) const
{
if( !preserve_flags && (imm == 0) )
xXOR( to, to );
else
{
// Note: MOV does not have (reg16/32,imm8) forms.
prefix16<T>();
xWrite8( (Is8BitOp<T>() ? 0xb0 : 0xb8) | to.Id );
xWrite<T>( imm );
}
}
// ------------------------------------------------------------------------
template< typename T > __noinline void operator()( const ModSibBase& to, const xImmReg<T>& immOrReg ) const
{
_DoI_helpermess( *this, to, immOrReg );
}
template< typename T > __noinline void operator()( const xDirectOrIndirect<T>& to, const xImmReg<T>& immOrReg ) const
{
_DoI_helpermess( *this, to, immOrReg );
}
template< typename T > __noinline void operator()( const xDirectOrIndirect<T>& to, int imm ) const
{
_DoI_helpermess( *this, to, imm );
}
template< typename T > __noinline void operator()( const xDirectOrIndirect<T>& to, const xDirectOrIndirect<T>& from ) const
{
if( to == from ) return;
_DoI_helpermess( *this, to, from );
}
template< typename T > __noinline void operator()( const xRegister<T>& to, const xDirectOrIndirect<T>& from ) const
{
_DoI_helpermess( *this, xDirectOrIndirect<T>( to ), from );
}
template< typename T > __noinline void operator()( const xDirectOrIndirect<T>& to, const xRegister<T>& from ) const
{
_DoI_helpermess( *this, to, xDirectOrIndirect<T>( from ) );
}
MovImplAll() {} // Satisfy GCC's whims.
};
#define ccSane() pxAssertDev( ccType >= 0 && ccType <= 0x0f, "Invalid comparison type specifier." )
//////////////////////////////////////////////////////////////////////////////////////////
// CMOV !! [in all of it's disappointing lack-of glory] .. and ..
// SETcc!! [more glory, less lack!]
//
// CMOV Disclaimer: Caution! This instruction can look exciting and cool, until you
// realize that it cannot load immediate values into registers. -_-
//
// I use explicit method declarations here instead of templates, in order to provide
// *only* 32 and 16 bit register operand forms (8 bit registers are not valid in CMOV).
//
class CMovImplGeneric
{
public:
__forceinline void operator()( JccComparisonType ccType, const xRegister32& to, const xRegister32& from ) const { ccSane(); xOpWrite0F( 0x40 | ccType, to, from ); }
__noinline void operator()( JccComparisonType ccType, const xRegister32& to, const ModSibBase& sibsrc ) const { ccSane(); xOpWrite0F( 0x40 | ccType, to, sibsrc ); }
//__noinline void operator()( JccComparisonType ccType, const xDirectOrIndirect32& to, const xDirectOrIndirect32& from ) const { ccSane(); _DoI_helpermess( *this, to, from ); } // too.. lazy.. to fix.
__forceinline void operator()( JccComparisonType ccType, const xRegister16& to, const xRegister16& from ) const { ccSane(); xOpWrite0F( 0x66, 0x40 | ccType, to, from ); }
__noinline void operator()( JccComparisonType ccType, const xRegister16& to, const ModSibBase& sibsrc ) const { ccSane(); xOpWrite0F( 0x66, 0x40 | ccType, to, sibsrc ); }
//__noinline void operator()( JccComparisonType ccType, const xDirectOrIndirect16& to, const xDirectOrIndirect16& from ) const { ccSane(); _DoI_helpermess( *this, to, from ); }
CMovImplGeneric() {} // don't ask.
};
// ------------------------------------------------------------------------
template< JccComparisonType ccType >
class CMovImplAll
{
static const u16 Opcode = 0x40 | ccType;
public:
__forceinline void operator()( const xRegister32& to, const xRegister32& from ) const { ccSane(); xOpWrite0F( Opcode, to, from ); }
__noinline void operator()( const xRegister32& to, const ModSibBase& sibsrc ) const { ccSane(); xOpWrite0F( Opcode, to, sibsrc ); }
__noinline void operator()( const xDirectOrIndirect32& to, const xDirectOrIndirect32& from ) const { ccSane(); _DoI_helpermess( *this, to, from ); }
__forceinline void operator()( const xRegister16& to, const xRegister16& from ) const { ccSane(); xOpWrite0F( 0x66, Opcode, to, from ); }
__noinline void operator()( const xRegister16& to, const ModSibBase& sibsrc ) const { ccSane(); xOpWrite0F( 0x66, Opcode, to, sibsrc ); }
__noinline void operator()( const xDirectOrIndirect16& to, const xDirectOrIndirect16& from ) const { ccSane(); _DoI_helpermess( *this, to, from ); }
CMovImplAll() {} // don't ask.
};
// ------------------------------------------------------------------------
class SetImplGeneric
{
// note: SETcc are 0x90, with 0 in the Reg field of ModRM.
public:
__forceinline void operator()( JccComparisonType ccType, const xRegister8& to ) const { ccSane(); xOpWrite0F( 0x90 | ccType, 0, to ); }
__noinline void operator()( JccComparisonType ccType, const ModSibStrict<u8>& dest ) const { ccSane(); xOpWrite0F( 0x90 | ccType, 0, dest ); }
SetImplGeneric() {} // if you do, ask GCC.
};
// ------------------------------------------------------------------------
template< JccComparisonType ccType >
class SetImplAll
{
static const u16 Opcode = 0x90 | ccType; // SETcc are 0x90 base opcode, with 0 in the Reg field of ModRM.
public:
__forceinline void operator()( const xRegister8& to ) const { ccSane(); xOpWrite0F( Opcode, 0, to ); }
__noinline void operator()( const ModSibStrict<u8>& dest ) const { ccSane(); xOpWrite0F( Opcode, 0, dest ); }
__noinline void operator()( const xDirectOrIndirect8& dest ) const { ccSane(); _DoI_helpermess( *this, dest ); }
SetImplAll() {} // if you do, ask GCC.
};
//////////////////////////////////////////////////////////////////////////////////////////
// Mov with sign/zero extension implementations (movsx / movzx)
//
// ------------------------------------------------------------------------
template< bool SignExtend >
class MovExtendImplAll
{
protected:
static const u16 Opcode = 0xb6 | (SignExtend ? 8 : 0 );
public:
__forceinline void operator()( const xRegister32& to, const xRegister16& from ) const { xOpWrite0F( Opcode+1, to, from ); }
__noinline void operator()( const xRegister32& to, const ModSibStrict<u16>& sibsrc ) const { xOpWrite0F( Opcode+1, to, sibsrc ); }
__noinline void operator()( const xRegister32& to, const xDirectOrIndirect16& src ) const { _DoI_helpermess( *this, to, src ); }
__forceinline void operator()( const xRegister32& to, const xRegister8& from ) const { xOpWrite0F( Opcode, to, from ); }
__noinline void operator()( const xRegister32& to, const ModSibStrict<u8>& sibsrc ) const { xOpWrite0F( Opcode, to, sibsrc ); }
__noinline void operator()( const xRegister32& to, const xDirectOrIndirect8& src ) const { _DoI_helpermess( *this, to, src ); }
__forceinline void operator()( const xRegister16& to, const xRegister8& from ) const { xOpWrite0F( 0x66, Opcode, to, from ); }
__noinline void operator()( const xRegister16& to, const ModSibStrict<u8>& sibsrc ) const { xOpWrite0F( 0x66, Opcode, to, sibsrc ); }
__noinline void operator()( const xRegister16& to, const xDirectOrIndirect8& src ) const { _DoI_helpermess( *this, to, src ); }
MovExtendImplAll() {} // don't ask.
};