Emitter code cleanups, and re-added GCC 4.4.x code I accidentally removed in a prev rev.

git-svn-id: http://pcsx2.googlecode.com/svn/trunk@2148 96395faa-99c1-11dd-bbfe-3dabce05a288
This commit is contained in:
Jake.Stine 2009-11-07 15:46:09 +00:00
parent 7f610e46f6
commit ae64b98e6a
4 changed files with 133 additions and 78 deletions

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@ -281,10 +281,42 @@ static const int __pagesize = PCSX2_PAGESIZE;
# define unlikely(x) __builtin_expect(!!(x), 0)
#endif
// --------------------------------------------------------------------------------------
// GNU C/C++ Specific Defines
// --------------------------------------------------------------------------------------
#ifdef __GNUC__
// GCC 4.4.0 is a bit nutty, as compilers go. it gets a define to itself.
# define GCC_VERSION ( __GNUC__ * 10000 \
+ __GNUC_MINOR__ * 100 \
+ __GNUC_PATCHLEVEL__)
// Test for GCC > 4.4.0; Should be adjusted when new versions come out
# if GCC_VERSION >= 40400
# define THE_UNBEARABLE_LIGHTNESS_OF_BEING_GCC_4_4_0
# define __nooptimization __attribute__((optimize("O0")))
# endif
// This theoretically unoptimizes. Not having much luck so far.
/*
# ifdef THE_UNBEARABLE_LIGHTNESS_OF_BEING_GCC_4_4_0
# pragma GCC optimize ("O0")
# endif
# ifdef THE_UNBEARABLE_LIGHTNESS_OF_BEING_GCC_4_4_0
# pragma GCC reset_options
# endif
*/
#endif // end GCC-specific section.
#ifndef THE_UNBEARABLE_LIGHTNESS_OF_BEING_GCC_4_4_0
# define __nooptimization
#endif
///////////////////////////////////////////////////////////////////////////////////////
typedef struct {
int size;
s8 *data;

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@ -109,24 +109,6 @@ struct xImpl_Set
//void operator()( const xDirectOrIndirect8& dest ) const;
};
class xRegister16or32
{
protected:
const xRegisterInt& m_convtype;
public:
xRegister16or32( const xRegister32& src ) : m_convtype( src ) {}
xRegister16or32( const xRegister16& src ) : m_convtype( src ) {}
//operator const xRegisterInt&() const { return m_convtype; }
operator const xRegisterBase&() const { return m_convtype; }
const xRegisterInt* operator->() const
{
return &m_convtype;
}
};
// --------------------------------------------------------------------------------------
// xImpl_MovExtend

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@ -52,7 +52,7 @@ extern const char* xGetRegName( int regid, int operandSize );
template< typename T >
static __forceinline bool is_s8( T imm ) { return (s8)imm == (s32)imm; }
template< typename T > __forceinline void xWrite( T val );
template< typename T > void xWrite( T val );
// --------------------------------------------------------------------------------------
// ALWAYS_USE_MOVAPS [define] / AlwaysUseMovaps [const]
@ -208,8 +208,16 @@ template< typename T > __forceinline void xWrite( T val );
public:
int Id;
xRegisterBase(): Id( xRegId_Invalid ) {}
explicit xRegisterBase( int regId ) : Id( regId ) { pxAssert( (Id >= xRegId_Empty) && (Id < 8) ); }
xRegisterBase()
{
Id = xRegId_Invalid;
}
explicit xRegisterBase( int regId )
{
Id = regId;
pxAssert( (Id >= xRegId_Empty) && (Id < 8) );
}
bool IsEmpty() const { return Id < 0 ; }
bool IsInvalid() const { return Id == xRegId_Invalid; }
@ -252,7 +260,6 @@ template< typename T > __forceinline void xWrite( T val );
public:
xRegister8(): _parent() {}
//explicit xRegister8( const xRegisterBase& src ) : _parent( src ) {}
explicit xRegister8( int regId ) : _parent( regId ) {}
virtual uint GetOperandSize() const { return 1; }
@ -267,7 +274,6 @@ template< typename T > __forceinline void xWrite( T val );
public:
xRegister16(): _parent() {}
//explicit xRegister16( const xRegisterBase& src ) : _parent( src ) {}
explicit xRegister16( int regId ) : _parent( regId ) {}
virtual uint GetOperandSize() const { return 2; }
@ -282,7 +288,6 @@ template< typename T > __forceinline void xWrite( T val );
public:
xRegister32(): _parent() {}
//explicit xRegister32( const xRegisterBase& src ) : _parent( src ) {}
explicit xRegister32( int regId ) : _parent( regId ) {}
virtual uint GetOperandSize() const { return 4; }
@ -303,7 +308,7 @@ template< typename T > __forceinline void xWrite( T val );
public:
xRegisterMMX(): _parent() {}
xRegisterMMX( const xRegisterBase& src ) : _parent( src ) {}
//xRegisterMMX( const xRegisterBase& src ) : _parent( src ) {}
explicit xRegisterMMX( int regId ) : _parent( regId ) {}
virtual uint GetOperandSize() const { return 8; }
@ -318,7 +323,7 @@ template< typename T > __forceinline void xWrite( T val );
public:
xRegisterSSE(): _parent() {}
xRegisterSSE( const xRegisterBase& src ) : _parent( src ) {}
//xRegisterSSE( const xRegisterBase& src ) : _parent( src ) {}
explicit xRegisterSSE( int regId ) : _parent( regId ) {}
virtual uint GetOperandSize() const { return 16; }
@ -372,11 +377,11 @@ template< typename T > __forceinline void xWrite( T val );
}*/
};
class xRegisterEmpty
// --------------------------------------------------------------------------------------
// xRegisterEmpty
// --------------------------------------------------------------------------------------
struct xRegisterEmpty
{
public:
xRegisterEmpty() {}
operator xRegister8() const
{
return xRegister8( xRegId_Empty );
@ -403,6 +408,23 @@ template< typename T > __forceinline void xWrite( T val );
}
};
class xRegister16or32
{
protected:
const xRegisterInt& m_convtype;
public:
xRegister16or32( const xRegister32& src ) : m_convtype( src ) {}
xRegister16or32( const xRegister16& src ) : m_convtype( src ) {}
operator const xRegisterBase&() const { return m_convtype; }
const xRegisterInt* operator->() const
{
return &m_convtype;
}
};
extern const xRegisterEmpty xEmptyReg;
// --------------------------------------------------------------------------------------
@ -417,31 +439,33 @@ template< typename T > __forceinline void xWrite( T val );
s32 Displacement; // address displacement
public:
__forceinline xAddressInfo( const xAddressReg& base, const xAddressReg& index, int factor=1, s32 displacement=0 ) :
Base( base ),
Index( index ),
Factor( factor ),
Displacement( displacement )
__forceinline xAddressInfo( const xAddressReg& base, const xAddressReg& index, int factor=1, s32 displacement=0 )
{
Base = base;
Index = index;
Factor = factor;
Displacement= displacement;
pxAssertMsg( base.Id != xRegId_Invalid, "Uninitialized x86 register." );
pxAssertMsg( index.Id != xRegId_Invalid, "Uninitialized x86 register." );
}
__forceinline explicit xAddressInfo( const xAddressReg& index, int displacement=0 ) :
Base( xEmptyReg ),
Index( index ),
Factor(0),
Displacement( displacement )
__forceinline explicit xAddressInfo( const xAddressReg& index, int displacement=0 )
{
Base = xEmptyReg;
Index = index;
Factor = 0;
Displacement= displacement;
pxAssertMsg( index.Id != xRegId_Invalid, "Uninitialized x86 register." );
}
__forceinline explicit xAddressInfo( s32 displacement=0 ) :
Base( xEmptyReg ),
Index( xEmptyReg ),
Factor(0),
Displacement( displacement )
__forceinline explicit xAddressInfo( s32 displacement=0 )
{
Base = xEmptyReg;
Index = xEmptyReg;
Factor = 0;
Displacement= displacement;
}
static xAddressInfo FromIndexReg( const xAddressReg& index, int scale=0, s32 displacement=0 );
@ -505,11 +529,16 @@ template< typename T > __forceinline void xWrite( T val );
int m_imm;
public:
xImmReg() :
m_reg(), m_imm( 0 ) { }
xImmReg() : m_reg()
{
m_imm = 0;
}
xImmReg( int imm, const xRegType& reg = xEmptyReg ) :
m_reg( reg ), m_imm( imm ) { }
xImmReg( int imm, const xRegType& reg = xEmptyReg )
{
m_reg = reg;
m_imm = imm;
}
const xRegType& GetReg() const { return m_reg; }
const int GetImm() const { return m_imm; }
@ -537,31 +566,43 @@ template< typename T > __forceinline void xWrite( T val );
s32 Displacement; // offset applied to the Base/Index registers.
public:
explicit ModSibBase( const xAddressInfo& src ) :
Base( src.Base ), Index( src.Index ), Scale( src.Factor ),
Displacement( src.Displacement )
explicit ModSibBase( const xAddressInfo& src )
{
Base = src.Base;
Index = src.Index;
Scale = src.Factor;
Displacement= src.Displacement;
Reduce();
}
ModSibBase( xAddressReg base, xAddressReg index, int scale=0, s32 displacement=0 ) :
Base( base ), Index( index ), Scale( scale ),
Displacement( displacement )
ModSibBase( xAddressReg base, xAddressReg index, int scale=0, s32 displacement=0 )
{
Base = base;
Index = index;
Scale = scale;
Displacement= displacement;
Reduce();
}
explicit ModSibBase( s32 disp ) :
Base(), Index(), Scale(0),
Displacement( disp )
explicit ModSibBase( s32 disp )
{
Base = xEmptyReg;
Index = xEmptyReg;
Scale = 0;
Displacement= disp;
// no reduction necessary :D
}
ModSibBase( const void* target ) :
Base(), Index(), Scale(0),
Displacement( (s32)target )
ModSibBase( const void* target )
{
Base = xEmptyReg;
Index = xEmptyReg;
Scale = 0;
Displacement= (s32)target;
// no reduction necessary :D
}
@ -589,7 +630,6 @@ template< typename T > __forceinline void xWrite( T val );
typedef ModSibBase _parent;
protected:
//explicit ModSib32orLess( const ModSibBase& src ) : _parent( src ) {}
explicit ModSib32orLess( const xAddressInfo& src ) : _parent( src ) {}
explicit ModSib32orLess( s32 disp ) : _parent( disp ) {}
ModSib32orLess( const void* target ) : _parent( target ) {}
@ -677,8 +717,6 @@ template< typename T > __forceinline void xWrite( T val );
{
return xModSibType( (uptr)src );
}
xAddressIndexer() {} // GCC initialization dummy
};
// ptr[] - use this form for instructions which can resolve the address operand size from

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@ -70,7 +70,7 @@ __threadlocal XMMSSEType g_xmmtypes[iREGCNT_XMM] = { XMMT_INT };
namespace x86Emitter {
template< typename T > __forceinline void xWrite( T val )
template< typename T > void xWrite( T val )
{
*(T*)x86Ptr = val;
x86Ptr += sizeof(T);
@ -102,16 +102,19 @@ __forceinline void xWrite64( u64 val )
xWrite( val );
}
const xAddressIndexer<ModSibBase> ptr;
const xAddressIndexer<ModSib128> ptr128;
const xAddressIndexer<ModSib64> ptr64;
const xAddressIndexer<ModSib32> ptr32;
const xAddressIndexer<ModSib16> ptr16;
const xAddressIndexer<ModSib8> ptr8;
// Empty initializers are due to frivolously pointless GCC errors (it demands the
// objects be initialized even though they have no actual variable members).
const xAddressIndexer<ModSibBase> ptr = { };
const xAddressIndexer<ModSib128> ptr128 = { };
const xAddressIndexer<ModSib64> ptr64 = { };
const xAddressIndexer<ModSib32> ptr32 = { };
const xAddressIndexer<ModSib16> ptr16 = { };
const xAddressIndexer<ModSib8> ptr8 = { };
// ------------------------------------------------------------------------
const xRegisterEmpty xEmptyReg;
const xRegisterEmpty xEmptyReg = { };
const xRegisterSSE
xmm0( 0 ), xmm1( 1 ),