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harbour-core/contrib/hbzebra/core.c
Viktor Szakats 5a2a287752 2017-09-08 16:00 UTC Viktor Szakats (vszakats users.noreply.github.com) 
* *
    * partial sync with the 3.4 fork codebase. These are the things
      synces for the most part:
      - copyright headers
      - grammar/typos in comments and some readmes
      - comment/whitespace/decorations
      - variable scoping in C files
      - DO CASE/SWITCH and some other alternate syntax usage
      - minimal amount of human readable text in strings
      - minor code updates
      - HB_TRACE() void * casts for pointers and few other changes to
        avoid C compiler warnings
      - various other, minor code cleanups
      - only Harbour/C code/headers were touched in src, utils, contrib,
        include. No 3rd party code, no make files, and with just a few
        exceptions, no 'tests' code was touched.
      - certain components were not touched were 3.4 diverged too much
        already, like f.e. hbmk2, hbssl, hbcurl, hbexpat
      - the goal was that no actual program logic should be altered by
        these changes. Except some possible minor exceptions, any such
        change is probably a bug in this patch.
      It's a massive patch, if you find anything broken after it, please
      open an Issue with the details. Build test was done on macOS.
      The goal is make it easier to see what actual code/logic was changed
      in 3.4 compared to 3.2 and to make patches easier to apply in both
      ways.
2017-09-08 16:25:13 +00:00

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/*
* Zebra barcode library
*
* Copyright 2010 Mindaugas Kavaliauskas <dbtopas at dbtopas.lt>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program 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 this program; see the file LICENSE.txt. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA (or visit https://www.gnu.org/licenses/).
*
* As a special exception, the Harbour Project gives permission for
* additional uses of the text contained in its release of Harbour.
*
* The exception is that, if you link the Harbour libraries with other
* files to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the Harbour library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by the Harbour
* Project under the name Harbour. If you copy code from other
* Harbour Project or Free Software Foundation releases into a copy of
* Harbour, as the General Public License permits, the exception does
* not apply to the code that you add in this way. To avoid misleading
* anyone as to the status of such modified files, you must delete
* this exception notice from them.
*
* If you write modifications of your own for Harbour, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
*
*/
#include "hbzebra.h"
#include "hbstack.h"
/* --- Bit buffer --- */
PHB_BITBUFFER hb_bitbuffer_create( void )
{
PHB_BITBUFFER pBitBuffer = ( PHB_BITBUFFER ) hb_xgrab( sizeof( HB_BITBUFFER ) );
hb_xmemset( pBitBuffer, 0, sizeof( HB_BITBUFFER ) );
return pBitBuffer;
}
void hb_bitbuffer_destroy( PHB_BITBUFFER pBitBuffer )
{
if( pBitBuffer->pBuffer )
hb_xfree( pBitBuffer->pBuffer );
hb_xfree( pBitBuffer );
}
HB_SIZE hb_bitbuffer_len( PHB_BITBUFFER pBitBuffer )
{
return pBitBuffer->nLen;
}
unsigned char * hb_bitbuffer_buffer( PHB_BITBUFFER pBitBuffer )
{
return pBitBuffer->pBuffer;
}
HB_BOOL hb_bitbuffer_get( PHB_BITBUFFER pBitBuffer, HB_SIZE nPos )
{
return nPos > pBitBuffer->nLen ? HB_FALSE :
( ( pBitBuffer->pBuffer[ nPos >> 3 ] >> ( nPos & 7 ) ) & 1 );
}
void hb_bitbuffer_set( PHB_BITBUFFER pBitBuffer, HB_SIZE nPos, HB_BOOL fValue )
{
if( pBitBuffer->nAlloc * 8 <= nPos )
{
HB_SIZE nNewAlloc = ( ( pBitBuffer->nAlloc >> 1 ) + nPos + 8 ) / 8;
pBitBuffer->pBuffer = ( unsigned char * ) hb_xrealloc( pBitBuffer->pBuffer, nNewAlloc );
hb_xmemset( pBitBuffer->pBuffer + pBitBuffer->nAlloc, 0, nNewAlloc - pBitBuffer->nAlloc );
pBitBuffer->nAlloc = nNewAlloc;
}
if( fValue )
*( pBitBuffer->pBuffer + ( nPos >> 3 ) ) |= 1 << ( nPos & 0x7 );
else
*( pBitBuffer->pBuffer + ( nPos >> 3 ) ) &= ~( 1 << ( nPos & 0x7 ) );
if( pBitBuffer->nLen <= nPos )
pBitBuffer->nLen = nPos + 1;
}
void hb_bitbuffer_not( PHB_BITBUFFER pBitBuffer, HB_SIZE nPos )
{
if( pBitBuffer->nAlloc * 8 <= nPos )
{
HB_SIZE nNewAlloc = ( ( pBitBuffer->nAlloc >> 1 ) + nPos + 8 ) / 8;
pBitBuffer->pBuffer = ( unsigned char * ) hb_xrealloc( pBitBuffer->pBuffer, nNewAlloc );
hb_xmemset( pBitBuffer->pBuffer + pBitBuffer->nAlloc, 0, nNewAlloc - pBitBuffer->nAlloc );
pBitBuffer->nAlloc = nNewAlloc;
}
*( pBitBuffer->pBuffer + ( nPos >> 3 ) ) ^= 1 << ( nPos & 0x7 );
}
void hb_bitbuffer_cat_int( PHB_BITBUFFER pBitBuffer, int iValue, int iLen )
{
int i;
if( ( pBitBuffer->nLen + iLen ) >= pBitBuffer->nAlloc * 8 )
{
HB_SIZE nNewAlloc = pBitBuffer->nAlloc + ( ( pBitBuffer->nAlloc >> 1 ) + iLen + 7 ) / 8;
pBitBuffer->pBuffer = ( unsigned char * ) hb_xrealloc( pBitBuffer->pBuffer, nNewAlloc );
hb_xmemset( pBitBuffer->pBuffer + pBitBuffer->nAlloc, 0, nNewAlloc - pBitBuffer->nAlloc );
pBitBuffer->nAlloc = nNewAlloc;
}
if( ( unsigned int ) iLen > sizeof( int ) * 8 )
iLen = sizeof( int ) * 8;
/* TODO: optimize */
for( i = 0; i < iLen; i++ )
hb_bitbuffer_set( pBitBuffer, pBitBuffer->nLen, iValue & ( 1 << i ) );
}
void hb_bitbuffer_cat_int_rev( PHB_BITBUFFER pBitBuffer, int iValue, int iLen )
{
int i;
if( ( pBitBuffer->nLen + iLen ) >= pBitBuffer->nAlloc * 8 )
{
HB_SIZE nNewAlloc = pBitBuffer->nAlloc + ( ( pBitBuffer->nAlloc >> 1 ) + iLen + 7 ) / 8;
pBitBuffer->pBuffer = ( unsigned char * ) hb_xrealloc( pBitBuffer->pBuffer, nNewAlloc );
hb_xmemset( pBitBuffer->pBuffer + pBitBuffer->nAlloc, 0, nNewAlloc - pBitBuffer->nAlloc );
pBitBuffer->nAlloc = nNewAlloc;
}
if( ( unsigned int ) iLen > sizeof( int ) * 8 )
iLen = sizeof( int ) * 8;
/* TODO: optimize */
for( i = iLen - 1; i >= 0; i-- )
hb_bitbuffer_set( pBitBuffer, pBitBuffer->nLen, iValue & ( 1 << i ) );
}
/* --- GC pointer --- */
static HB_GARBAGE_FUNC( hb_zebra_destructor )
{
PHB_ZEBRA * ppZebra = ( PHB_ZEBRA * ) Cargo;
if( *ppZebra )
{
hb_zebra_destroy( *ppZebra );
*ppZebra = NULL;
}
}
static const HB_GC_FUNCS s_gcZebraFuncs =
{
hb_zebra_destructor,
hb_gcDummyMark
};
PHB_ZEBRA hb_zebraItemGet( PHB_ITEM pItem )
{
PHB_ZEBRA * ppZebra = ( PHB_ZEBRA * ) hb_itemGetPtrGC( pItem, &s_gcZebraFuncs );
return ppZebra ? *ppZebra : NULL;
}
PHB_ITEM hb_zebraItemPut( PHB_ITEM pItem, PHB_ZEBRA pZebra )
{
PHB_ZEBRA * ppZebra = ( PHB_ZEBRA * ) hb_gcAllocate( sizeof( PHB_ZEBRA ), &s_gcZebraFuncs );
*ppZebra = pZebra;
return hb_itemPutPtrGC( pItem, ppZebra );
}
void hb_zebraItemClear( PHB_ITEM pItem )
{
PHB_ZEBRA * ppZebra = ( PHB_ZEBRA * ) hb_itemGetPtrGC( pItem, &s_gcZebraFuncs );
if( ppZebra )
*ppZebra = NULL;
}
PHB_ZEBRA hb_zebra_param( int iParam )
{
PHB_ZEBRA * ppZebra = ( PHB_ZEBRA * ) hb_parptrGC( &s_gcZebraFuncs, iParam );
if( ppZebra && *ppZebra )
return *ppZebra;
hb_errRT_BASE( EG_ARG, 3012, NULL, HB_ERR_FUNCNAME, HB_ERR_ARGS_BASEPARAMS );
return NULL;
}
void hb_zebra_ret( PHB_ZEBRA pZebra )
{
hb_zebraItemPut( hb_stackReturnItem(), pZebra );
}
/* --- Zebra --- */
PHB_ZEBRA hb_zebra_create( void )
{
PHB_ZEBRA pZebra = ( PHB_ZEBRA ) hb_xgrab( sizeof( HB_ZEBRA ) );
hb_xmemset( pZebra, 0, sizeof( HB_ZEBRA ) );
return pZebra;
}
void hb_zebra_destroy( PHB_ZEBRA pZebra )
{
if( pZebra->szCode )
hb_xfree( pZebra->szCode );
if( pZebra->pBits )
hb_bitbuffer_destroy( pZebra->pBits );
hb_xfree( pZebra );
}
HB_FUNC( HB_ZEBRA_DESTROY )
{
PHB_ZEBRA pZebra = hb_zebra_param( 1 );
if( pZebra )
{
hb_zebraItemClear( hb_param( 1, HB_IT_POINTER ) );
hb_zebra_destroy( pZebra );
}
}
HB_FUNC( HB_ZEBRA_GETERROR )
{
PHB_ZEBRA pZebra = hb_zebra_param( 1 );
if( pZebra )
hb_retni( pZebra->iError );
}
HB_FUNC( HB_ZEBRA_GETCODE )
{
PHB_ZEBRA pZebra = hb_zebra_param( 1 );
if( pZebra )
hb_retc( pZebra->szCode );
}
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