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Member "wv2-0.4.2/src/global.h" of archive wv2-0.4.2.tar.gz:
/* This file is part of the wvWare 2 project
Copyright (C) 2001-2003 Werner Trobin <trobin@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License version 2 as published by the Free Software Foundation.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
#ifndef GLOBAL_H
#define GLOBAL_H
#include "dllmagic.h"
#include "wv2version.h" // ###### WV2 0.3: Remove this #include
/** @file
* We use this typedefs to be compatible with the types from
* the MS HTML specifications.
*/
// A few defines used for "inline" debugging
#define WV2_DUMP_PIECE_TABLE 0 // has to be defined as we just #if it
//#define WV2_DUMP_FIB 1
#define WV2_DEBUG_STYLESHEET 1
#define WV2_DEBUG_SPRMS 1
//#define WV2_DEBUG_LIST_READING 1
//#define WV2_DEBUG_LIST_PROCESSING 1
//#define WV2_DEBUG_FIELDS 1
//#define WV2_DEBUG_FOOTNOTES 1
//#define WV2_DEBUG_HEADERS 1
//#define WV2_DEBUG_TABLES 1
//#define WV2_DEBUG_PICTURES 1
// This define should only be commented out for releases (if at all)
#define WV2_CHECKING 1
namespace wvWare
{
typedef signed char S8;
typedef unsigned char U8;
typedef signed short S16;
typedef unsigned short U16;
typedef signed int S32;
typedef unsigned int U32;
typedef U16 XCHAR;
typedef U32 FC;
/**
* This enum tells the apply* methods in the PAP/CHP/... structs what grpprls to
* expect. Unfortunately the size of the SPRMs changed for Word 8.
*/
enum WordVersion { Word67, Word8 };
const int Word8nFib = 193;
inline U8 readU8( const U8* in )
{
return *in;
}
inline S8 readS8( const U8* in )
{
return static_cast<S8>( *in );
}
// reads a U16/S16 or U32/S32 from a little-endian byte
// "array" in an endian-correct way
inline U16 readU16( const U8* in )
{
return static_cast<U16>( in[0] ) | ( static_cast<U16>( in[1] ) << 8 );
}
inline S16 readS16( const U8* in )
{
return static_cast<S16>( readU16( in ) );
}
// writes a U16 to a little-endian byte "array" in an endian-correct way
inline void write( U8* out, U16 data )
{
out[ 0 ] = data & 0x00ff;
out[ 1 ] = data >> 8;
}
inline U32 readU32( const U8* in )
{
return static_cast<U32>( in[0] ) | ( static_cast<U32>( in[1] ) << 8 ) |
( static_cast<U32>( in[2] ) << 16 ) | ( static_cast<U32>( in[3] ) << 24 );
}
inline S32 readS32(const U8* in)
{
return static_cast<S32>( readU32( in ) );
}
// Endianness fun
U16 toLittleEndian( U16 data );
inline S16 toLittleEndian( S16 data )
{
return static_cast<S16>( toLittleEndian( static_cast<U16>( data ) ) );
}
U16 toBigEndian( U16 data );
inline S16 toBigEndian( S16 data )
{
return static_cast<S16>( toBigEndian( static_cast<U16>( data ) ) );
}
inline U16 swapEndianness( U16 data )
{
return ( ( data & 0x00ffU ) << 8 ) | ( ( data & 0xff00U ) >> 8 );
}
inline S16 swapEndianness( S16 data )
{
return ( ( data & 0x00ffU ) << 8 ) | ( ( data & 0xff00U ) >> 8 );
}
U32 toLittleEndian( U32 data );
inline S32 toLittleEndian( S32 data )
{
return static_cast<S32>( toLittleEndian( static_cast<U32>( data ) ) );
}
U32 toBigEndian( U32 data );
inline S32 toBigEndian( S32 data )
{
return static_cast<S32>( toBigEndian( static_cast<U32>( data ) ) );
}
inline U32 swapEndianness( U32 data )
{
return ( ( data & 0x000000ffU ) << 24 ) | ( ( data & 0x0000ff00U ) << 8 ) |
( ( data & 0x00ff0000U ) >> 8 ) | ( ( data & 0xff000000U ) >> 24 );
}
inline S32 swapEndianness( S32 data )
{
return ( ( data & 0x000000ffU ) << 24 ) | ( ( data & 0x0000ff00U ) << 8 ) |
( ( data & 0x00ff0000U ) >> 8 ) | ( ( data & 0xff000000U ) >> 24 );
}
} // namespace wvWare
#endif // GLOBAL_H