/* 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 .
*/
/*
* ix86 core v0.9.0
*
* Original Authors (v0.6.2 and prior):
* linuzappz
* alexey silinov
* goldfinger
* zerofrog(@gmail.com)
*
* Authors of v0.9.0:
* Jake.Stine(@gmail.com)
* cottonvibes(@gmail.com)
* sudonim(1@gmail.com)
*/
#pragma once
// This header module contains functions which, under most circumstances, inline
// nicely with constant propagation from the compiler, resulting in little or
// no actual codegen in the majority of emitter statements. (common forms include:
// RegToReg, PointerToReg, RegToPointer). These cannot be included in the class
// definitions in the .h file because of inter-dependencies with other classes.
// (score one for C++!!)
//
// In order for MSVC to work correctly with __forceinline on class members,
// however, we need to include these methods into all source files which might
// reference them. Without this MSVC generates linker errors. Or, in other words,
// global optimization fails to resolve the externals and junk.
// (score one for MSVC!)
namespace x86Emitter
{
extern const char *const x86_regnames_gpr8[8];
extern const char *const x86_regnames_gpr16[8];
extern const char *const x86_regnames_gpr32[8];
extern const char *const x86_regnames_sse[8];
extern const char *const x86_regnames_mmx[8];
//////////////////////////////////////////////////////////////////////////////////////////
// Diagnostic -- returns a string representation of this register.
//
template< typename T >
const char* xGetRegName( const xRegister& src )
{
if( src.IsEmpty() ) return "empty";
switch( sizeof(T) )
{
case 1: return x86_regnames_gpr8[ src.Id ];
case 2: return x86_regnames_gpr16[ src.Id ];
case 4: return x86_regnames_gpr32[ src.Id ];
jNO_DEFAULT
}
return "oops?";
}
template< typename T >
const char* xGetRegName( const xRegisterSIMD& src )
{
if( src.IsEmpty() ) return "empty";
switch( sizeof(T) )
{
case 8: return x86_regnames_mmx[ src.Id ];
case 16: return x86_regnames_sse[ src.Id ];
jNO_DEFAULT
}
return "oops?";
}
//////////////////////////////////////////////////////////////////////////////////////////
// x86Register Method Implementations
//
__forceinline xAddressInfo xAddressReg::operator+( const xAddressReg& right ) const
{
jASSUME( Id != -1 );
return xAddressInfo( *this, right );
}
__forceinline xAddressInfo xAddressReg::operator+( const xAddressInfo& right ) const
{
jASSUME( Id != -1 );
return right + *this;
}
__forceinline xAddressInfo xAddressReg::operator+( s32 right ) const
{
jASSUME( Id != -1 );
return xAddressInfo( *this, right );
}
__forceinline xAddressInfo xAddressReg::operator+( const void* right ) const
{
jASSUME( Id != -1 );
return xAddressInfo( *this, (s32)right );
}
// ------------------------------------------------------------------------
__forceinline xAddressInfo xAddressReg::operator-( s32 right ) const
{
jASSUME( Id != -1 );
return xAddressInfo( *this, -right );
}
__forceinline xAddressInfo xAddressReg::operator-( const void* right ) const
{
jASSUME( Id != -1 );
return xAddressInfo( *this, -(s32)right );
}
// ------------------------------------------------------------------------
__forceinline xAddressInfo xAddressReg::operator*( u32 right ) const
{
jASSUME( Id != -1 );
return xAddressInfo( Empty, *this, right );
}
__forceinline xAddressInfo xAddressReg::operator<<( u32 shift ) const
{
jASSUME( Id != -1 );
return xAddressInfo( Empty, *this, 1<
xForwardJump::xForwardJump( JccComparisonType cctype ) :
BasePtr( (s8*)xGetPtr() +
((OperandSize == 1) ? 2 : // j8's are always 2 bytes.
((cctype==Jcc_Unconditional) ? 5 : 6 )) // j32's are either 5 or 6 bytes
)
{
jASSUME( cctype != Jcc_Unknown );
jASSUME( OperandSize == 1 || OperandSize == 4 );
if( OperandSize == 1 )
xWrite8( (cctype == Jcc_Unconditional) ? 0xeb : (0x70 | cctype) );
else
{
if( cctype == Jcc_Unconditional )
xWrite8( 0xe9 );
else
{
xWrite8( 0x0f );
xWrite8( 0x80 | cctype );
}
}
xAdvancePtr( OperandSize );
}
// ------------------------------------------------------------------------
template< typename OperandType >
void xForwardJump::SetTarget() const
{
jASSUME( BasePtr != NULL );
sptr displacement = (sptr)xGetPtr() - (sptr)BasePtr;
if( OperandSize == 1 )
{
if( !is_s8( displacement ) )
{
wxASSERT( false );
// Don't ask. --arcum42
#if !defined(__LINUX__) || !defined(DEBUG)
Console::Error( "Emitter Error: Invalid short jump displacement = 0x%x", (int)displacement );
#endif
}
BasePtr[-1] = (s8)displacement;
}
else
{
// full displacement, no sanity checks needed :D
((s32*)BasePtr)[-1] = displacement;
}
}
// ------------------------------------------------------------------------
// returns the inverted conditional type for this Jcc condition. Ie, JNS will become JS.
//
static __forceinline JccComparisonType xInvertCond( JccComparisonType src )
{
jASSUME( src != Jcc_Unknown );
if( Jcc_Unconditional == src ) return Jcc_Unconditional;
// x86 conditionals are clever! To invert conditional types, just invert the lower bit:
return (JccComparisonType)((int)src ^ 1);
}
}