Windows-Server-2003/inetcore/published/inc/lendian.hpp

235 lines
9.5 KiB
C++

//+---------------------------------------------------------------------------
//
// Copyright (C) Microsoft Corporation, 1997.
//
// File: lendian.hpp
//
// Contents: Templatized data types for access to unaligned scalar values.
//
//----------------------------------------------------------------------------
// Implementation of LENDIAN data values. This works for simple scalar values.
// This file is heavily macro-based. The intent is to do this work with arithmetic.
// The functionality may be expressed much more consisely with memcpy, but I need an
// implementation faster than that.
// To create an LENDIAN type, use the MAKE_LENDIAN_TYPE macro. For example, if
// you need an int_LENDIAN, say
//
// MAKE_LENDIAN_TYPE( int, 4 );
//
// Note that you need to specifiy the size of the base type. This is because the
// amount of work to be done needs to be known by the preprocessor, where sizeof()
// doesn't work.
// To use: The intent is that replace occurances of "type LENDIAN" in your code
// with "type_LENDIAN". It's simply a lexical change. You could automate this
// change in order to easily convert code. More importantly, the reverse
// transformation may also be easily automated, making it easier to merge with code
// that doesn't use these types.
// LENDIAN64: The unaligned 64 types are an optimization. They should only be used
// for values over four bytes in size (e.g. __int64, double). They assume that the
// pointers are aligned to 4-bytes, so that access may be done with two 32-bit
// references, instead of 8 8-bit references.
#ifndef __lendian_h__
#define __lendian_h__
#if defined(_MSC_VER) && !defined(BIG_ENDIAN)
#define MAKE_LENDIAN_UNALIGNED_TYPE(base,size) typedef base UNALIGNED base##_LENDIAN_UNALIGNED
#define MAKE_LENDIAN_TYPE(base,size) typedef base base##_LENDIAN_UNALIGNED; \
typedef base base##_LENDIAN \
//
// Use MAKE_UNALIGNED64_TYPE for QWORD data that may only be DWORD aligned on 64-bit
// machines. Only 64-bit architectures pay the penalty for accessing such data.
//
#if defined(ALPHA)
# define MAKE_LENDIAN64_UNALIGNED_TYPE(base,size) typedef base UNALIGNED base##_LENDIAN64_UNALIGNED
#else
# define MAKE_LENDIAN64_UNALIGNED_TYPE(base,size) typedef base base##_LENDIAN64_UNALIGNED
#endif
#define MAKE_LENDIAN64_TYPE(base,size) typedef base base##_LENDIAN64
#define MAKE_LENDIANPTR_UNALIGNED_TYPE(base) typedef base UNALIGNED *base##_LENDIANPTR_UNALIGNED
#define MAKE_LENDIANPTR_TYPE(base) typedef base *base##_LENDIANPTR
#else // _MSC_VER
#define SET2(val,data) \
data[1] = (val) >> 8, \
data[0] = (val)
#define GET2(data) \
( ( data[1] << 8 ) | \
( data[0] ) )
#define SET4(val,data) \
data[3] = (val) >> 24, \
data[2] = (val) >> 16, \
data[1] = (val) >> 8, \
data[0] = (val)
#define GET4(data) \
( ( data[3] << 24 ) | \
( data[2] << 16 ) | \
( data[1] << 8 ) | \
( data[0] ) )
#define SET8(val,data) \
data[7] = (val) >> 56, \
data[6] = (val) >> 48, \
data[5] = (val) >> 40, \
data[4] = (val) >> 32, \
data[3] = (val) >> 24, \
data[2] = (val) >> 16, \
data[1] = (val) >> 8, \
data[0] = (val)
#define GET8(data) \
( ( data[7] << 56 ) | \
( data[6] << 48 ) | \
( data[5] << 40 ) | \
( data[4] << 32 ) | \
( data[3] << 24 ) | \
( data[2] << 16 ) | \
( data[1] << 8 ) | \
( data[0] ) )
#if defined( ux10 )
#define SET02(x,y) SET2(x,y)
#define GET02(x) GET2(x)
#define SET04(x,y) SET4(x,y)
#define GET04(x) GET4(x)
#define SET08(x,y) SET8(x,y)
#define GET08(x) GET8(x)
#endif
#define SET648(val,data) \
data[1] = (val) >> 32, \
data[0] = (val)
#define GET648(data) \
( ( data[1] << 32 ) | \
( data[0] ) )
#define GROUP(type,size,get,set,sfx) \
LEndian##sfx##size( type v ) { set##size( v, data ); } \
type operator = ( type v ) { set##size( v, data ); return v; } \
operator type() { return get##size( data ); } \
type operator += (const type v) { set##size( get##size(data) + v, data); return *this; } \
type operator -= (const type v) { set##size( get##size(data) - v, data); return *this; } \
type operator <<= (const type v) { set##size( get##size(data) << v, data); return *this; } \
type operator <= (const type v) { set##size( get##size(data) < v, data); return *this; } \
type operator >= (const type v) { set##size( get##size(data) > v, data); return *this; } \
type operator *= (const type v) { set##size( get##size(data) * v, data); return *this; } \
type operator /= (const type v) { set##size( get##size(data) / v, data); return *this; } \
type operator %= (const type v) { set##size( get##size(data) % v, data); return *this; } \
type operator >>= (const type v) { set##size( get##size(data) >> v, data); return *this; } \
type operator ^= (const type v) { set##size( get##size(data) ^ v, data); return *this; } \
type operator &= (const type v) { set##size( get##size(data) & v, data); return *this; } \
type operator |= (const type v) { set##size( get##size(data) | v, data); return *this; }
#define MAKE_TEMPLATE(size,type,sfx) \
template<class BASE> \
class LEndian##sfx##size \
{ \
protected: \
type data[ size / sizeof(type) ]; \
\
public: \
\
GROUP( signed char, size, GET##sfx, SET##sfx, sfx ) \
GROUP( short, size, GET##sfx, SET##sfx, sfx ) \
GROUP( int, size, GET##sfx, SET##sfx, sfx ) \
GROUP( wchar_t, size, GET##sfx, SET##sfx, sfx ) \
GROUP( long, size, GET##sfx, SET##sfx, sfx ) \
GROUP( __int64, size, GET##sfx, SET##sfx, sfx ) \
GROUP( unsigned char, size, GET##sfx, SET##sfx, sfx ) \
GROUP( unsigned short, size, GET##sfx, SET##sfx, sfx ) \
GROUP( unsigned int, size, GET##sfx, SET##sfx, sfx ) \
GROUP( unsigned long, size, GET##sfx, SET##sfx, sfx ) \
GROUP( unsigned __int64, size, GET##sfx, SET##sfx, sfx ) \
}
#if defined( ux10 )
MAKE_TEMPLATE( 2, unsigned char, 0);
MAKE_TEMPLATE( 4, unsigned char, 0);
MAKE_TEMPLATE( 8, unsigned char, 0);
#else
MAKE_TEMPLATE( 2, unsigned char, );
MAKE_TEMPLATE( 4, unsigned char, );
MAKE_TEMPLATE( 8, unsigned char, );
#endif
MAKE_TEMPLATE( 8, unsigned int, 64 );
#if defined( ux10 )
template<class BASE>
class LEndianPtr : LEndian04<BASE> {
public:
LEndianPtr(const void * v) : LEndian04<BASE>((int)v) { }
void *operator = (void * v) { SET4((int)v,data); return v; }
const void *operator = (const void * v) { SET4((int)v,data); return v; }
operator BASE() { return (BASE)GET4(data); }
};
#else
template<class BASE>
class LEndianPtr : LEndian4<BASE> {
public:
LEndianPtr(const void * v) : LEndian4<BASE>((int)v) { }
void *operator = (void * v) { SET4((int)v,data); return v; }
const void *operator = (const void * v) { SET4((int)v,data); return v; }
operator BASE() { return (BASE)GET4(data); }
};
#endif
#undef SET2
#undef SET4
#undef SET8
#undef SET648
#undef GROUP
#undef MAKE_TEMPLATE
#if defined( ux10 )
#define MAKE_LENDIAN_TYPE(base,size) \
typedef LEndian0##size<base> base##_LENDIAN; \
typedef LEndian0##size<base> base##_LENDIAN_UNALIGNED
#else
#define MAKE_LENDIAN_TYPE(base,size) \
typedef LEndian##size<base> base##_LENDIAN; \
typedef LEndian##size<base> base##_LENDIAN_UNALIGNED
#endif
#define MAKE_LENDIAN64_TYPE(base,size) \
typedef LEndian64##size<base> base##_LENDIAN64; \
typedef LEndian64##size<base> base##_LENDIAN64_UNALIGNED
#define MAKE_LENDIANPTR_TYPE(base) \
typedef LEndianPtr<base> base##_LENDIANPTR; \
typedef LEndianPtr<base> base##_LENDIANPTR_UNALIGNED
#endif // _MSC_VER
// Predefine some of the basic types.
MAKE_LENDIAN_TYPE( short, 2 );
MAKE_LENDIAN_TYPE( int, 4 );
MAKE_LENDIAN_TYPE( long, 4 );
MAKE_LENDIAN_TYPE( WORD, 2 );
MAKE_LENDIAN_TYPE( DWORD, 4 );
MAKE_LENDIAN_TYPE( USHORT, 4 );
MAKE_LENDIAN_TYPE( SHORT, 4 );
MAKE_LENDIAN_TYPE( __int64, 8 );
MAKE_LENDIAN64_TYPE( __int64, 8 );
#endif // __lendian_h__