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/*
* This file is part of the KDE libraries
* Copyright (C) 2001 Thiago Macieira <thiago.macieira@kdemail.net>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* 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., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include <string.h>
#include <tqptrlist.h>
#include <tqcstring.h>
#include "kbufferedio.h"
/**
* @section impldetails Implementation Details
*
* The KBufferedIO class has two purposes: first, it defines an API on how
* that classes providing buffered I/O should provide. Next, it implements on
* top of that API a generic buffering, that should suffice for most cases.
*
* The buffering implemented consists of two separate buffer areas, one for
* the input (or read) buffer, and one for the output (or write) buffer. Each
* of those buffers is implemented through a QList of QByteArrays instead of
* simply QByteArrays. The idea is that, instead of having one large, contiguous
* buffer area, we have several small ones. Even though this could be seen as
* a waste of memory, it makes our life easier, because we can just append a new
* TQByteArray to the list and not have to worry with copying the rest of the
* buffer, should we need to expand.
*
* This way, we have the capability of unlimited buffering, which can grow to
* the extent of available memory.
*
* For each buffer, we provide three kinds of functions, available as protected
* members: consume, feed and size. The size functions calculate the current
* size of the buffer, by adding each individual TQByteArray size. The feed
* functions are used by the I/O functions that receive data from somewhere,
* i.e., from the system, in the case of the input buffer, and from the user,
* in the case of the output buffer. These two functions are used to give
* the buffers more data. And the consume functions are used by the functions
* that send out data (to the system, for the write buffer, and to the user,
* for the read buffer).
*
* Note that for your own implementation, you can have your readBlock function
* merely call consumeReadBuffer, similarly to peekBlock. As for
* the writeBlock function, you'd call feedWriteBuffer.
*
* Now, the function receiving data from the system will need to simply call
* feedReadBuffer, much in the same way of unreadBlock. The tricky part is
* for the output function. We do not provide a member function that copies
* data from the output buffer into another buffer for sending. We believe that
* would be a waste of resources and CPU time, since you'd have to allocate
* that buffer, copy data into it and then call the OS, which will likely just
* copy data out of it.
*
* Instead, we found it better to leave it to you to access outBuf member
* variable directly and use the buffers there. Should you want to copy that
* into a larger buffer before sending, that's up to you.
*
* Both buffers work in the same way: they're an "array" of buffers, each
* concatenated to the other. All data in all buffers is valid data, except
* for the first TQByteArray, whose valid data starts at inBufIndex/outBufIndex
* bytes from the start. That is, the data starts in the first TQByteArray buffer
* that many bytes from the start and goes on contiguously until the last
* TQByteArray. This has been decided like that because we didn't want to
* create a new TQByteArray of the remaining bytes in the first buffer, after
* a consume operation, because that could take some time. It is faster
* this way, although not really easy.
*
* If you want to take a look at an implementation of a buffered I/O class,
* refer to KExtendedSocket's source code.
*/
// constructor
KBufferedIO::KBufferedIO() :
inBufIndex(0), outBufIndex(0)
{
inBuf.setAutoDelete(true);
outBuf.setAutoDelete(true);
}
// destructor
KBufferedIO::~KBufferedIO()
{
}
// sets the buffer sizes
// this implementation doesn't support setting the buffer sizes
// if any parameter is different than -1 or -2, fail
bool KBufferedIO::setBufferSize(int rsize, int wsize /* = -2 */)
{
if (wsize != -2 && wsize != -1)
return false;
if (rsize != -2 && rsize != -1)
return false;
return true;
}
#ifdef USE_QT3
int KBufferedIO::bytesAvailable() const
#endif // USE_QT3
#ifdef USE_QT4
qint64 KBufferedIO::bytesAvailable() const
#endif // USE_QT4
{
return readBufferSize();
}
#ifdef USE_QT3
int KBufferedIO::bytesToWrite() const
#endif // USE_QT3
#ifdef USE_QT4
qint64 KBufferedIO::bytesToWrite() const
#endif // USE_QT4
{
return writeBufferSize();
}
// This function will scan the read buffer for a '\n'
bool KBufferedIO::canReadLine() const
{
if (bytesAvailable() == 0)
return false; // no new line in here
TQByteArray* buf;
// scan each TQByteArray for the occurrence of '\n'
TQPtrList<TQByteArray> &buflist = ((KBufferedIO*)this)->inBuf;
buf = buflist.first();
char *p = buf->data() + inBufIndex;
int n = buf->size() - inBufIndex;
while (buf != NULL)
{
while (n--)
if (*p++ == '\n')
return true;
buf = buflist.next();
if (buf != NULL)
{
p = buf->data();
n = buf->size();
}
}
return false; // no new line found
}
// unreads the current data
// that is, writes into the read buffer, at the beginning
int KBufferedIO::unreadBlock(const char *data, uint len)
{
return feedReadBuffer(len, data, true);
}
//
// protected member functions
//
unsigned KBufferedIO::consumeReadBuffer(unsigned nbytes, char *destbuffer, bool discard)
{
{
unsigned u = readBufferSize();
if (nbytes > u)
nbytes = u; // we can't consume more than there is
}
TQByteArray *buf;
unsigned copied = 0;
unsigned index = inBufIndex;
buf = inBuf.first();
while (nbytes && buf)
{
// should we copy it all?
unsigned to_copy = buf->size() - index;
if (to_copy > nbytes)
to_copy = nbytes;
if (destbuffer)
memcpy(destbuffer + copied, buf->data() + index, to_copy);
nbytes -= to_copy;
copied += to_copy;
if (buf->size() - index > to_copy)
{
index += to_copy;
break; // we aren't copying everything, that means that's
// all the user wants
}
else
{
index = 0;
if (discard)
{
inBuf.remove();
buf = inBuf.first();
}
else
buf = inBuf.next();
}
}
if (discard)
inBufIndex = index;
return copied;
}
void KBufferedIO::consumeWriteBuffer(unsigned nbytes)
{
TQByteArray *buf = outBuf.first();
if (buf == NULL)
return; // nothing to consume
if (nbytes < buf->size() - outBufIndex)
// we want to consume less than there is in the first buffer
outBufIndex += nbytes;
else
{
nbytes -= buf->size() - outBufIndex;
outBufIndex = 0;
outBuf.remove();
while ((buf = outBuf.current()) != NULL)
if (buf->size() <= nbytes)
{
nbytes -= buf->size();
outBuf.remove();
}
else
{
outBufIndex = nbytes;
break;
}
}
}
unsigned KBufferedIO::feedReadBuffer(unsigned nbytes, const char *buffer, bool atBeginning)
{
if (nbytes == 0)
return 0;
TQByteArray *a = new TQByteArray(nbytes);
a->duplicate(buffer, nbytes);
if (atBeginning)
inBuf.prepend(a);
else
inBuf.append(a);
return nbytes;
}
unsigned KBufferedIO::feedWriteBuffer(unsigned nbytes, const char *buffer)
{
if (nbytes == 0)
return 0;
TQByteArray *a = new TQByteArray(nbytes);
a->duplicate(buffer, nbytes);
outBuf.append(a);
return nbytes;
}
unsigned KBufferedIO::readBufferSize() const
{
unsigned count = 0;
TQByteArray *buf = ((KBufferedIO*)this)->inBuf.first();
while (buf != NULL)
{
count += buf->size();
buf = ((KBufferedIO*)this)->inBuf.next();
}
return count - inBufIndex;
}
unsigned KBufferedIO::writeBufferSize() const
{
unsigned count = 0;
TQByteArray *buf = ((KBufferedIO*)this)->outBuf.first();
while (buf != NULL)
{
count += buf->size();
buf = (const_cast<KBufferedIO*>(this))->outBuf.next();
}
return count - outBufIndex;
}
void KBufferedIO::virtual_hook( int id, void* data )
{ KAsyncIO::virtual_hook( id, data ); }
#include "kbufferedio.moc"
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