AOO410/main/basic/source/comp/buffer.cxx - openoffice - Git at Google

 /**************************************************************
  *
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *
  *************************************************************/


 // MARKER(update_precomp.py): autogen include statement, do not remove
 #include "precompiled_basic.hxx"

 #include "sbcomp.hxx"
 #include "buffer.hxx"
 #include <string.h>

 const static sal_uInt32 UP_LIMIT=0xFFFFFF00L;

 // Der SbiBuffer wird in Inkrements von mindestens 16 Bytes erweitert.
 // Dies ist notwendig, da viele Klassen von einer Pufferlaenge
 // von x*16 Bytes ausgehen.

 SbiBuffer::SbiBuffer( SbiParser* p, short n )
 {
 	pParser = p;
 	n = ( (n + 15 ) / 16 ) * 16;
 	if( !n ) n = 16;
 	pBuf  = NULL;
 	pCur  = NULL;
 	nInc  = n;
 	nSize =
 	nOff  = 0;
 }

 SbiBuffer::~SbiBuffer()
 {
 	delete[] pBuf;
 }

 // Rausreichen des Puffers
 // Dies fuehrt zur Loeschung des Puffers!

 char* SbiBuffer::GetBuffer()
 {
 	char* p = pBuf;
 	pBuf = NULL;
 	pCur = NULL;
 	return p;
 }

 // Test, ob der Puffer n Bytes aufnehmen kann.
 // Im Zweifelsfall wird er vergroessert

 sal_Bool SbiBuffer::Check( sal_uInt16 n )
 {
 	if( !n ) return sal_True;
 	if( ( static_cast<sal_uInt32>( nOff )+ n ) >  static_cast<sal_uInt32>( nSize ) )
 	{
 		if( nInc == 0 )
 			return sal_False;
 		sal_uInt16 nn = 0;
 		while( nn < n ) nn = nn + nInc;
 		char* p;
 		if( ( static_cast<sal_uInt32>( nSize ) + nn ) > UP_LIMIT ) p = NULL;
 		else p = new char [nSize + nn];
 		if( !p )
 		{
 			pParser->Error( SbERR_PROG_TOO_LARGE );
 			nInc = 0;
 			delete[] pBuf; pBuf = NULL;
 			return sal_False;
 		}
 		else
 		{
 			if( nSize ) memcpy( p, pBuf, nSize );
 			delete[] pBuf;
 			pBuf = p;
 			pCur = pBuf + nOff;
 			nSize = nSize + nn;
 		}
 	}
 	return sal_True;
 }

 // Angleich des Puffers auf die uebergebene Byte-Grenze

 void SbiBuffer::Align( sal_Int32 n )
 {
 	if( nOff % n ) {
 		sal_uInt32 nn =( ( nOff + n ) / n ) * n;
 		if( nn <= UP_LIMIT )
 		{
 			nn = nn - nOff;
 			if( Check( static_cast<sal_uInt16>(nn) ) )
 			{
 				memset( pCur, 0, nn );
 				pCur += nn;
 				nOff = nOff + nn;
 			}
 		}
 	}
 }

 // Patch einer Location

 void SbiBuffer::Patch( sal_uInt32 off, sal_uInt32 val )
 {
 	if( ( off + sizeof( sal_uInt32 ) ) < nOff )
 	{
 		sal_uInt16 val1 = static_cast<sal_uInt16>( val & 0xFFFF );
 		sal_uInt16 val2 = static_cast<sal_uInt16>( val >> 16 );
 		sal_uInt8* p = (sal_uInt8*) pBuf + off;
 		*p++ = (char) ( val1 & 0xFF );
 		*p++ = (char) ( val1 >> 8 );
 		*p++ = (char) ( val2 & 0xFF );
 		*p   = (char) ( val2 >> 8 );
 	}
 }

 // Forward References auf Labels und Prozeduren
 // bauen eine Kette auf. Der Anfang der Kette ist beim uebergebenen
 // Parameter, das Ende der Kette ist 0.

 void SbiBuffer::Chain( sal_uInt32 off )
 {
 	if( off && pBuf )
 	{
 		sal_uInt8 *ip;
 		sal_uInt32 i = off;
 		sal_uInt32 val1 = (nOff & 0xFFFF);
 		sal_uInt32 val2 = (nOff >> 16);
 		do
 		{
 			ip = (sal_uInt8*) pBuf + i;
 			sal_uInt8* pTmp = ip;
              		i =  *pTmp++; i |= *pTmp++ << 8; i |= *pTmp++ << 16; i |= *pTmp++ << 24;

 			if( i >= nOff )
 			{
 				pParser->Error( SbERR_INTERNAL_ERROR, "BACKCHAIN" );
 				break;
 			}
 			*ip++ = (char) ( val1 & 0xFF );
 			*ip++ = (char) ( val1 >> 8 );
 			*ip++ = (char) ( val2 & 0xFF );
 			*ip   = (char) ( val2 >> 8 );
 		} while( i );
 	}
 }

 sal_Bool SbiBuffer::operator +=( sal_Int8 n )
 {
 	if( Check( 1 ) )
 	{
 		*pCur++ = (char) n; nOff++; return sal_True;
 	} else return sal_False;
 }

 sal_Bool SbiBuffer::operator +=( sal_uInt8 n )
 {
 	if( Check( 1 ) )
 	{
 		*pCur++ = (char) n; nOff++; return sal_True;
 	} else return sal_False;
 }

 sal_Bool SbiBuffer::operator +=( sal_Int16 n )
 {
 	if( Check( 2 ) )
 	{
 		*pCur++ = (char) ( n & 0xFF );
 		*pCur++ = (char) ( n >> 8 );
 		nOff += 2; return sal_True;
 	} else return sal_False;
 }

 sal_Bool SbiBuffer::operator +=( sal_uInt16 n )
 {
 	if( Check( 2 ) )
 	{
 		*pCur++ = (char) ( n & 0xFF );
 		*pCur++ = (char) ( n >> 8 );
 		nOff += 2; return sal_True;
 	} else return sal_False;
 }

 sal_Bool SbiBuffer::operator +=( sal_uInt32 n )
 {
 	if( Check( 4 ) )
 	{
 		sal_uInt16 n1 = static_cast<sal_uInt16>( n & 0xFFFF );
 		sal_uInt16 n2 = static_cast<sal_uInt16>( n >> 16 );
 		if ( operator +=( n1 ) && operator +=( n2 ) )
 			return sal_True;
 		return sal_True;
 	}
 	return sal_False;
 }

 sal_Bool SbiBuffer::operator +=( sal_Int32 n )
 {
 	return operator +=( (sal_uInt32) n );
 }


 sal_Bool SbiBuffer::operator +=( const String& n )
 {
 	sal_uInt16 l = n.Len() + 1;
 	if( Check( l ) )
 	{
 		ByteString aByteStr( n, gsl_getSystemTextEncoding() );
 		memcpy( pCur, aByteStr.GetBuffer(), l );
 		pCur += l;
 		nOff = nOff + l;
 		return sal_True;
 	}
 	else return sal_False;
 }

 sal_Bool SbiBuffer::Add( const void* p, sal_uInt16 len )
 {
 	if( Check( len ) )
 	{
 		memcpy( pCur, p, len );
 		pCur += len;
 		nOff = nOff + len;
 		return sal_True;
 	} else return sal_False;
 }
	/**************************************************************
	*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	*************************************************************/



	// MARKER(update_precomp.py): autogen include statement, do not remove
	#include "precompiled_basic.hxx"

	#include "sbcomp.hxx"
	#include "buffer.hxx"
	#include <string.h>

	const static sal_uInt32 UP_LIMIT=0xFFFFFF00L;

	// Der SbiBuffer wird in Inkrements von mindestens 16 Bytes erweitert.
	// Dies ist notwendig, da viele Klassen von einer Pufferlaenge
	// von x*16 Bytes ausgehen.

	SbiBuffer::SbiBuffer( SbiParser* p, short n )
	{
	pParser = p;
	n = ( (n + 15 ) / 16 ) * 16;
	if( !n ) n = 16;
	pBuf = NULL;
	pCur = NULL;
	nInc = n;
	nSize =
	nOff = 0;
	}

	SbiBuffer::~SbiBuffer()
	{
	delete[] pBuf;
	}

	// Rausreichen des Puffers
	// Dies fuehrt zur Loeschung des Puffers!

	char* SbiBuffer::GetBuffer()
	{
	char* p = pBuf;
	pBuf = NULL;
	pCur = NULL;
	return p;
	}

	// Test, ob der Puffer n Bytes aufnehmen kann.
	// Im Zweifelsfall wird er vergroessert

	sal_Bool SbiBuffer::Check( sal_uInt16 n )
	{
	if( !n ) return sal_True;
	if( ( static_cast<sal_uInt32>( nOff )+ n ) > static_cast<sal_uInt32>( nSize ) )
	{
	if( nInc == 0 )
	return sal_False;
	sal_uInt16 nn = 0;
	while( nn < n ) nn = nn + nInc;
	char* p;
	if( ( static_cast<sal_uInt32>( nSize ) + nn ) > UP_LIMIT ) p = NULL;
	else p = new char [nSize + nn];
	if( !p )
	{
	pParser->Error( SbERR_PROG_TOO_LARGE );
	nInc = 0;
	delete[] pBuf; pBuf = NULL;
	return sal_False;
	}
	else
	{
	if( nSize ) memcpy( p, pBuf, nSize );
	delete[] pBuf;
	pBuf = p;
	pCur = pBuf + nOff;
	nSize = nSize + nn;
	}
	}
	return sal_True;
	}

	// Angleich des Puffers auf die uebergebene Byte-Grenze

	void SbiBuffer::Align( sal_Int32 n )
	{
	if( nOff % n ) {
	sal_uInt32 nn =( ( nOff + n ) / n ) * n;
	if( nn <= UP_LIMIT )
	{
	nn = nn - nOff;
	if( Check( static_cast<sal_uInt16>(nn) ) )
	{
	memset( pCur, 0, nn );
	pCur += nn;
	nOff = nOff + nn;
	}
	}
	}
	}

	// Patch einer Location

	void SbiBuffer::Patch( sal_uInt32 off, sal_uInt32 val )
	{
	if( ( off + sizeof( sal_uInt32 ) ) < nOff )
	{
	sal_uInt16 val1 = static_cast<sal_uInt16>( val & 0xFFFF );
	sal_uInt16 val2 = static_cast<sal_uInt16>( val >> 16 );
	sal_uInt8* p = (sal_uInt8*) pBuf + off;
	*p++ = (char) ( val1 & 0xFF );
	*p++ = (char) ( val1 >> 8 );
	*p++ = (char) ( val2 & 0xFF );
	*p = (char) ( val2 >> 8 );
	}
	}

	// Forward References auf Labels und Prozeduren
	// bauen eine Kette auf. Der Anfang der Kette ist beim uebergebenen
	// Parameter, das Ende der Kette ist 0.

	void SbiBuffer::Chain( sal_uInt32 off )
	{
	if( off && pBuf )
	{
	sal_uInt8 *ip;
	sal_uInt32 i = off;
	sal_uInt32 val1 = (nOff & 0xFFFF);
	sal_uInt32 val2 = (nOff >> 16);
	do
	{
	ip = (sal_uInt8*) pBuf + i;
	sal_uInt8* pTmp = ip;
	i = pTmp++; i \|= pTmp++ << 8; i \|= pTmp++ << 16; i \|= pTmp++ << 24;

	if( i >= nOff )
	{
	pParser->Error( SbERR_INTERNAL_ERROR, "BACKCHAIN" );
	break;
	}
	*ip++ = (char) ( val1 & 0xFF );
	*ip++ = (char) ( val1 >> 8 );
	*ip++ = (char) ( val2 & 0xFF );
	*ip = (char) ( val2 >> 8 );
	} while( i );
	}
	}

	sal_Bool SbiBuffer::operator +=( sal_Int8 n )
	{
	if( Check( 1 ) )
	{
	*pCur++ = (char) n; nOff++; return sal_True;
	} else return sal_False;
	}

	sal_Bool SbiBuffer::operator +=( sal_uInt8 n )
	{
	if( Check( 1 ) )
	{
	*pCur++ = (char) n; nOff++; return sal_True;
	} else return sal_False;
	}

	sal_Bool SbiBuffer::operator +=( sal_Int16 n )
	{
	if( Check( 2 ) )
	{
	*pCur++ = (char) ( n & 0xFF );
	*pCur++ = (char) ( n >> 8 );
	nOff += 2; return sal_True;
	} else return sal_False;
	}

	sal_Bool SbiBuffer::operator +=( sal_uInt16 n )
	{
	if( Check( 2 ) )
	{
	*pCur++ = (char) ( n & 0xFF );
	*pCur++ = (char) ( n >> 8 );
	nOff += 2; return sal_True;
	} else return sal_False;
	}

	sal_Bool SbiBuffer::operator +=( sal_uInt32 n )
	{
	if( Check( 4 ) )
	{
	sal_uInt16 n1 = static_cast<sal_uInt16>( n & 0xFFFF );
	sal_uInt16 n2 = static_cast<sal_uInt16>( n >> 16 );
	if ( operator +=( n1 ) && operator +=( n2 ) )
	return sal_True;
	return sal_True;
	}
	return sal_False;
	}

	sal_Bool SbiBuffer::operator +=( sal_Int32 n )
	{
	return operator +=( (sal_uInt32) n );
	}


	sal_Bool SbiBuffer::operator +=( const String& n )
	{
	sal_uInt16 l = n.Len() + 1;
	if( Check( l ) )
	{
	ByteString aByteStr( n, gsl_getSystemTextEncoding() );
	memcpy( pCur, aByteStr.GetBuffer(), l );
	pCur += l;
	nOff = nOff + l;
	return sal_True;
	}
	else return sal_False;
	}

	sal_Bool SbiBuffer::Add( const void* p, sal_uInt16 len )
	{
	if( Check( len ) )
	{
	memcpy( pCur, p, len );
	pCur += len;
	nOff = nOff + len;
	return sal_True;
	} else return sal_False;
	}