/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * 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 . */ #include #include #include #include #include using namespace ::com::sun::star::uno; #include "streamhelper.hxx" namespace io_stm { void MemFIFO::write( const Sequence< sal_Int8 > &seq ) throw ( I_FIFO_OutOfMemoryException, I_FIFO_OutOfBoundsException ) { try { writeAt(getSize(), seq ); } catch( IRingBuffer_OutOfMemoryException & ) { throw I_FIFO_OutOfMemoryException(); } catch( IRingBuffer_OutOfBoundsException & ) { throw I_FIFO_OutOfBoundsException(); } } void MemFIFO::read( Sequence &seq , sal_Int32 nBufferLen ) throw (I_FIFO_OutOfBoundsException) { try { readAt(0, seq , nBufferLen); forgetFromStart( nBufferLen ); } catch ( IRingBuffer_OutOfBoundsException & ) { throw I_FIFO_OutOfBoundsException(); } } void MemFIFO::skip( sal_Int32 nBytesToSkip ) throw ( I_FIFO_OutOfBoundsException ) { try { forgetFromStart( nBytesToSkip ); } catch( IRingBuffer_OutOfBoundsException & ) { throw I_FIFO_OutOfBoundsException(); } } MemRingBuffer::MemRingBuffer() { m_nBufferLen = 0; m_p = 0; m_nStart = 0; m_nOccupiedBuffer = 0; } MemRingBuffer::~MemRingBuffer() { if( m_p ) { rtl_freeMemory( m_p ); } } void MemRingBuffer::resizeBuffer( sal_Int32 nMinSize ) throw( IRingBuffer_OutOfMemoryException) { sal_Int32 nNewLen = 1; while( nMinSize > nNewLen ) { nNewLen = nNewLen << 1; } // buffer never shrinks ! if( nNewLen < m_nBufferLen ) { nNewLen = m_nBufferLen; } if( nNewLen != m_nBufferLen ) { m_p = ( sal_Int8 * ) rtl_reallocateMemory( m_p , nNewLen ); if( !m_p ) { throw IRingBuffer_OutOfMemoryException(); } if( m_nStart + m_nOccupiedBuffer > m_nBufferLen ) { memmove( &( m_p[m_nStart+(nNewLen-m_nBufferLen)]) , &(m_p[m_nStart]) , m_nBufferLen - m_nStart ); m_nStart += nNewLen - m_nBufferLen; } m_nBufferLen = nNewLen; } } void MemRingBuffer::readAt( sal_Int32 nPos, Sequence &seq , sal_Int32 nBytesToRead ) const throw(IRingBuffer_OutOfBoundsException) { if( nPos + nBytesToRead > m_nOccupiedBuffer ) { throw IRingBuffer_OutOfBoundsException(); } sal_Int32 nStartReadingPos = nPos + m_nStart; if( nStartReadingPos >= m_nBufferLen ) { nStartReadingPos -= m_nBufferLen; } seq.realloc( nBytesToRead ); if( nStartReadingPos + nBytesToRead > m_nBufferLen ) { sal_Int32 nDeltaLen = m_nBufferLen - nStartReadingPos; memcpy( seq.getArray() , &(m_p[nStartReadingPos]) , nDeltaLen ); memcpy( &(seq.getArray()[nDeltaLen]), m_p , nBytesToRead - nDeltaLen ); } else { memcpy( seq.getArray() , &(m_p[nStartReadingPos]) , nBytesToRead ); } } void MemRingBuffer::writeAt( sal_Int32 nPos, const Sequence &seq ) throw (IRingBuffer_OutOfBoundsException, IRingBuffer_OutOfMemoryException ) { checkInvariants(); sal_Int32 nLen = seq.getLength(); if( nPos < 0 || nPos > std::numeric_limits< sal_Int32 >::max() - nLen ) { throw IRingBuffer_OutOfBoundsException(); } if( nPos + nLen - m_nOccupiedBuffer > 0 ) { resizeBuffer( nPos + seq.getLength() ); } sal_Int32 nStartWritingIndex = m_nStart + nPos; if( nStartWritingIndex >= m_nBufferLen ) { nStartWritingIndex -= m_nBufferLen; } if( nLen + nStartWritingIndex > m_nBufferLen ) { // two area copy memcpy( &(m_p[nStartWritingIndex]) , seq.getConstArray(), m_nBufferLen-nStartWritingIndex ); memcpy( m_p , &( seq.getConstArray()[m_nBufferLen-nStartWritingIndex] ), nLen - (m_nBufferLen-nStartWritingIndex) ); } else { // one area copy memcpy( &( m_p[nStartWritingIndex]), seq.getConstArray() , nLen ); } m_nOccupiedBuffer = Max( nPos + seq.getLength() , m_nOccupiedBuffer ); checkInvariants(); } sal_Int32 MemRingBuffer::getSize() const throw() { return m_nOccupiedBuffer; } void MemRingBuffer::forgetFromStart( sal_Int32 nBytesToForget ) throw (IRingBuffer_OutOfBoundsException) { checkInvariants(); if( nBytesToForget > m_nOccupiedBuffer ) { throw IRingBuffer_OutOfBoundsException(); } m_nStart += nBytesToForget; if( m_nStart >= m_nBufferLen ) { m_nStart = m_nStart - m_nBufferLen; } m_nOccupiedBuffer -= nBytesToForget; checkInvariants(); } void MemRingBuffer::forgetFromEnd( sal_Int32 nBytesToForget ) throw (IRingBuffer_OutOfBoundsException) { checkInvariants(); if( nBytesToForget > m_nOccupiedBuffer ) { throw IRingBuffer_OutOfBoundsException(); } m_nOccupiedBuffer -= nBytesToForget; checkInvariants(); } void MemRingBuffer::shrink() throw () { checkInvariants(); // Up to now, only shrinking of while buffer works. // No other shrinking supported up to now. if( ! m_nOccupiedBuffer ) { if( m_p ) { free( m_p ); } m_p = 0; m_nBufferLen = 0; m_nStart = 0; } checkInvariants(); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */