diff -r 000000000000 -r 1918ee327afb src/corelib/io/qiodevice.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/corelib/io/qiodevice.cpp Mon Jan 11 14:00:40 2010 +0000 @@ -0,0 +1,1773 @@ +/**************************************************************************** +** +** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). +** All rights reserved. +** Contact: Nokia Corporation (qt-info@nokia.com) +** +** This file is part of the QtCore module of the Qt Toolkit. +** +** $QT_BEGIN_LICENSE:LGPL$ +** No Commercial Usage +** This file contains pre-release code and may not be distributed. +** You may use this file in accordance with the terms and conditions +** contained in the Technology Preview License Agreement accompanying +** this package. +** +** GNU Lesser General Public License Usage +** Alternatively, this file may be used under the terms of the GNU Lesser +** General Public License version 2.1 as published by the Free Software +** Foundation and appearing in the file LICENSE.LGPL included in the +** packaging of this file. Please review the following information to +** ensure the GNU Lesser General Public License version 2.1 requirements +** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. +** +** In addition, as a special exception, Nokia gives you certain additional +** rights. These rights are described in the Nokia Qt LGPL Exception +** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. +** +** If you have questions regarding the use of this file, please contact +** Nokia at qt-info@nokia.com. +** +** +** +** +** +** +** +** +** $QT_END_LICENSE$ +** +****************************************************************************/ + +//#define QIODEVICE_DEBUG + +#include "qbytearray.h" +#include "qdebug.h" +#include "qiodevice_p.h" +#include "qfile.h" +#include "qstringlist.h" +#include + +#ifdef QIODEVICE_DEBUG +# include +#endif + +QT_BEGIN_NAMESPACE + +#ifdef QIODEVICE_DEBUG +void debugBinaryString(const QByteArray &input) +{ + QByteArray tmp; + int startOffset = 0; + for (int i = 0; i < input.size(); ++i) { + tmp += input[i]; + + if ((i % 16) == 15 || i == (input.size() - 1)) { + printf("\n%15d:", startOffset); + startOffset += tmp.size(); + + for (int j = 0; j < tmp.size(); ++j) + printf(" %02x", int(uchar(tmp[j]))); + for (int j = tmp.size(); j < 16 + 1; ++j) + printf(" "); + for (int j = 0; j < tmp.size(); ++j) + printf("%c", isprint(int(uchar(tmp[j]))) ? tmp[j] : '.'); + tmp.clear(); + } + } + printf("\n\n"); +} + +void debugBinaryString(const char *data, qint64 maxlen) +{ + debugBinaryString(QByteArray(data, maxlen)); +} +#endif + +#ifndef QIODEVICE_BUFFERSIZE +#define QIODEVICE_BUFFERSIZE Q_INT64_C(16384) +#endif + +#define Q_VOID + +#define CHECK_MAXLEN(function, returnType) \ + do { \ + if (maxSize < 0) { \ + qWarning("QIODevice::"#function": Called with maxSize < 0"); \ + return returnType; \ + } \ + } while (0) + +#define CHECK_WRITABLE(function, returnType) \ + do { \ + if ((d->openMode & WriteOnly) == 0) { \ + if (d->openMode == NotOpen) \ + return returnType; \ + qWarning("QIODevice::"#function": ReadOnly device"); \ + return returnType; \ + } \ + } while (0) + +#define CHECK_READABLE(function, returnType) \ + do { \ + if ((d->openMode & ReadOnly) == 0) { \ + if (d->openMode == NotOpen) \ + return returnType; \ + qWarning("QIODevice::"#function": WriteOnly device"); \ + return returnType; \ + } \ + } while (0) + +/*! \internal + */ +QIODevicePrivate::QIODevicePrivate() + : openMode(QIODevice::NotOpen), buffer(QIODEVICE_BUFFERSIZE), + pos(0), devicePos(0) + , baseReadLineDataCalled(false) + , accessMode(Unset) +#ifdef QT_NO_QOBJECT + , q_ptr(0) +#endif +{ +} + +/*! \internal + */ +QIODevicePrivate::~QIODevicePrivate() +{ +} + +/*! + \class QIODevice + \reentrant + + \brief The QIODevice class is the base interface class of all I/O + devices in Qt. + + \ingroup io + + QIODevice provides both a common implementation and an abstract + interface for devices that support reading and writing of blocks + of data, such as QFile, QBuffer and QTcpSocket. QIODevice is + abstract and can not be instantiated, but it is common to use the + interface it defines to provide device-independent I/O features. + For example, Qt's XML classes operate on a QIODevice pointer, + allowing them to be used with various devices (such as files and + buffers). + + Before accessing the device, open() must be called to set the + correct OpenMode (such as ReadOnly or ReadWrite). You can then + write to the device with write() or putChar(), and read by calling + either read(), readLine(), or readAll(). Call close() when you are + done with the device. + + QIODevice distinguishes between two types of devices: + random-access devices and sequential devices. + + \list + \o Random-access devices support seeking to arbitrary + positions using seek(). The current position in the file is + available by calling pos(). QFile and QBuffer are examples of + random-access devices. + + \o Sequential devices don't support seeking to arbitrary + positions. The data must be read in one pass. The functions + pos() and size() don't work for sequential devices. + QTcpSocket and QProcess are examples of sequential devices. + \endlist + + You can use isSequential() to determine the type of device. + + QIODevice emits readyRead() when new data is available for + reading; for example, if new data has arrived on the network or if + additional data is appended to a file that you are reading + from. You can call bytesAvailable() to determine the number of + bytes that are currently available for reading. It's common to use + bytesAvailable() together with the readyRead() signal when + programming with asynchronous devices such as QTcpSocket, where + fragments of data can arrive at arbitrary points in + time. QIODevice emits the bytesWritten() signal every time a + payload of data has been written to the device. Use bytesToWrite() + to determine the current amount of data waiting to be written. + + Certain subclasses of QIODevice, such as QTcpSocket and QProcess, + are asynchronous. This means that I/O functions such as write() + or read() always return immediately, while communication with the + device itself may happen when control goes back to the event loop. + QIODevice provides functions that allow you to force these + operations to be performed immediately, while blocking the + calling thread and without entering the event loop. This allows + QIODevice subclasses to be used without an event loop, or in + a separate thread: + + \list + \o waitForReadyRead() - This function suspends operation in the + calling thread until new data is available for reading. + + \o waitForBytesWritten() - This function suspends operation in the + calling thread until one payload of data has been written to the + device. + + \o waitFor....() - Subclasses of QIODevice implement blocking + functions for device-specific operations. For example, QProcess + has a function called waitForStarted() which suspends operation in + the calling thread until the process has started. + \endlist + + Calling these functions from the main, GUI thread, may cause your + user interface to freeze. Example: + + \snippet doc/src/snippets/code/src_corelib_io_qiodevice.cpp 0 + + By subclassing QIODevice, you can provide the same interface to + your own I/O devices. Subclasses of QIODevice are only required to + implement the protected readData() and writeData() functions. + QIODevice uses these functions to implement all its convenience + functions, such as getChar(), readLine() and write(). QIODevice + also handles access control for you, so you can safely assume that + the device is opened in write mode if writeData() is called. + + Some subclasses, such as QFile and QTcpSocket, are implemented + using a memory buffer for intermediate storing of data. This + reduces the number of required device accessing calls, which are + often very slow. Buffering makes functions like getChar() and + putChar() fast, as they can operate on the memory buffer instead + of directly on the device itself. Certain I/O operations, however, + don't work well with a buffer. For example, if several users open + the same device and read it character by character, they may end + up reading the same data when they meant to read a separate chunk + each. For this reason, QIODevice allows you to bypass any + buffering by passing the Unbuffered flag to open(). When + subclassing QIODevice, remember to bypass any buffer you may use + when the device is open in Unbuffered mode. + + \sa QBuffer QFile QTcpSocket +*/ + +/*! + \typedef QIODevice::Offset + \compat + + Use \c qint64 instead. +*/ + +/*! + \typedef QIODevice::Status + \compat + + Use QIODevice::OpenMode instead, or see the documentation for + specific devices. +*/ + +/*! + \enum QIODevice::OpenModeFlag + + This enum is used with open() to describe the mode in which a device + is opened. It is also returned by openMode(). + + \value NotOpen The device is not open. + \value ReadOnly The device is open for reading. + \value WriteOnly The device is open for writing. + \value ReadWrite The device is open for reading and writing. + \value Append The device is opened in append mode, so that all data is + written to the end of the file. + \value Truncate If possible, the device is truncated before it is opened. + All earlier contents of the device are lost. + \value Text When reading, the end-of-line terminators are + translated to '\n'. When writing, the end-of-line + terminators are translated to the local encoding, for + example '\r\n' for Win32. + \value Unbuffered Any buffer in the device is bypassed. + + Certain flags, such as \c Unbuffered and \c Truncate, are + meaningless when used with some subclasses. Some of these + restrictions are implied by the type of device that is represented + by a subclass; for example, access to a QBuffer is always + unbuffered. In other cases, the restriction may be due to the + implementation, or may be imposed by the underlying platform; for + example, QTcpSocket does not support \c Unbuffered mode, and + limitations in the native API prevent QFile from supporting \c + Unbuffered on Windows. +*/ + +/*! \fn QIODevice::bytesWritten(qint64 bytes) + + This signal is emitted every time a payload of data has been + written to the device. The \a bytes argument is set to the number + of bytes that were written in this payload. + + bytesWritten() is not emitted recursively; if you reenter the event loop + or call waitForBytesWritten() inside a slot connected to the + bytesWritten() signal, the signal will not be reemitted (although + waitForBytesWritten() may still return true). + + \sa readyRead() +*/ + +/*! + \fn QIODevice::readyRead() + + This signal is emitted once every time new data is available for + reading from the device. It will only be emitted again once new + data is available, such as when a new payload of network data has + arrived on your network socket, or when a new block of data has + been appended to your device. + + readyRead() is not emitted recursively; if you reenter the event loop or + call waitForReadyRead() inside a slot connected to the readyRead() signal, + the signal will not be reemitted (although waitForReadyRead() may still + return true). + + Note for developers implementing classes derived from QIODevice: + you should always emit readyRead() when new data has arrived (do not + emit it only because there's data still to be read in your + buffers). Do not emit readyRead() in other conditions. + + \sa bytesWritten() +*/ + +/*! \fn QIODevice::aboutToClose() + + This signal is emitted when the device is about to close. Connect + this signal if you have operations that need to be performed + before the device closes (e.g., if you have data in a separate + buffer that needs to be written to the device). +*/ + +/*! + \fn QIODevice::readChannelFinished() + \since 4.4 + + This signal is emitted when the input (reading) stream is closed + in this device. It is emitted as soon as the closing is detected, + which means that there might still be data available for reading + with read(). + + \sa atEnd(), read() +*/ + +#ifdef QT_NO_QOBJECT +QIODevice::QIODevice() + : d_ptr(new QIODevicePrivate) +{ + d_ptr->q_ptr = this; +} + +/*! \internal +*/ +QIODevice::QIODevice(QIODevicePrivate &dd) + : d_ptr(&dd) +{ + d_ptr->q_ptr = this; +} +#else + +/*! + Constructs a QIODevice object. +*/ + +QIODevice::QIODevice() + : QObject(*new QIODevicePrivate, 0) +{ +#if defined QIODEVICE_DEBUG + QFile *file = qobject_cast(this); + printf("%p QIODevice::QIODevice(\"%s\") %s\n", this, metaObject()->className(), + qPrintable(file ? file->fileName() : QString())); +#endif +} + +/*! + Constructs a QIODevice object with the given \a parent. +*/ + +QIODevice::QIODevice(QObject *parent) + : QObject(*new QIODevicePrivate, parent) +{ +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::QIODevice(%p \"%s\")\n", this, parent, metaObject()->className()); +#endif +} + +/*! \internal +*/ +QIODevice::QIODevice(QIODevicePrivate &dd, QObject *parent) + : QObject(dd, parent) +{ +} +#endif + + +/*! + Destructs the QIODevice object. +*/ +QIODevice::~QIODevice() +{ +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::~QIODevice()\n", this); +#endif +} + +/*! + Returns true if this device is sequential; otherwise returns + false. + + Sequential devices, as opposed to a random-access devices, have no + concept of a start, an end, a size, or a current position, and they + do not support seeking. You can only read from the device when it + reports that data is available. The most common example of a + sequential device is a network socket. On Unix, special files such + as /dev/zero and fifo pipes are sequential. + + Regular files, on the other hand, do support random access. They + have both a size and a current position, and they also support + seeking backwards and forwards in the data stream. Regular files + are non-sequential. + + \sa bytesAvailable() +*/ +bool QIODevice::isSequential() const +{ + return false; +} + +/*! + Returns the mode in which the device has been opened; + i.e. ReadOnly or WriteOnly. + + \sa OpenMode +*/ +QIODevice::OpenMode QIODevice::openMode() const +{ + return d_func()->openMode; +} + +/*! + Sets the OpenMode of the device to \a openMode. Call this + function to set the open mode if the flags change after the device + has been opened. + + \sa openMode() OpenMode +*/ +void QIODevice::setOpenMode(OpenMode openMode) +{ +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::setOpenMode(0x%x)\n", this, int(openMode)); +#endif + d_func()->openMode = openMode; + d_func()->accessMode = QIODevicePrivate::Unset; +} + +/*! + If \a enabled is true, this function sets the \l Text flag on the device; + otherwise the \l Text flag is removed. This feature is useful for classes + that provide custom end-of-line handling on a QIODevice. + + \sa open(), setOpenMode() + */ +void QIODevice::setTextModeEnabled(bool enabled) +{ + Q_D(QIODevice); + if (enabled) + d->openMode |= Text; + else + d->openMode &= ~Text; +} + +/*! + Returns true if the \l Text flag is enabled; otherwise returns false. + + \sa setTextModeEnabled() +*/ +bool QIODevice::isTextModeEnabled() const +{ + return d_func()->openMode & Text; +} + +/*! + Returns true if the device is open; otherwise returns false. A + device is open if it can be read from and/or written to. By + default, this function returns false if openMode() returns + \c NotOpen. + + \sa openMode() OpenMode +*/ +bool QIODevice::isOpen() const +{ + return d_func()->openMode != NotOpen; +} + +/*! + Returns true if data can be read from the device; otherwise returns + false. Use bytesAvailable() to determine how many bytes can be read. + + This is a convenience function which checks if the OpenMode of the + device contains the ReadOnly flag. + + \sa openMode() OpenMode +*/ +bool QIODevice::isReadable() const +{ + return (openMode() & ReadOnly) != 0; +} + +/*! + Returns true if data can be written to the device; otherwise returns + false. + + This is a convenience function which checks if the OpenMode of the + device contains the WriteOnly flag. + + \sa openMode() OpenMode +*/ +bool QIODevice::isWritable() const +{ + return (openMode() & WriteOnly) != 0; +} + +/*! + Opens the device and sets its OpenMode to \a mode. Returns true if successful; + otherwise returns false. This function should be called from any + reimplementations of open() or other functions that open the device. + + \sa openMode() OpenMode +*/ +bool QIODevice::open(OpenMode mode) +{ + Q_D(QIODevice); + d->openMode = mode; + d->pos = (mode & Append) ? size() : qint64(0); + d->buffer.clear(); + d->accessMode = QIODevicePrivate::Unset; +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::open(0x%x)\n", this, quint32(mode)); +#endif + return true; +} + +/*! + First emits aboutToClose(), then closes the device and sets its + OpenMode to NotOpen. The error string is also reset. + + \sa setOpenMode() OpenMode +*/ +void QIODevice::close() +{ + Q_D(QIODevice); + if (d->openMode == NotOpen) + return; + +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::close()\n", this); +#endif + +#ifndef QT_NO_QOBJECT + emit aboutToClose(); +#endif + d->openMode = NotOpen; + d->errorString.clear(); + d->pos = 0; + d->buffer.clear(); +} + +/*! + For random-access devices, this function returns the position that + data is written to or read from. For sequential devices or closed + devices, where there is no concept of a "current position", 0 is + returned. + + The current read/write position of the device is maintained internally by + QIODevice, so reimplementing this function is not necessary. When + subclassing QIODevice, use QIODevice::seek() to notify QIODevice about + changes in the device position. + + \sa isSequential(), seek() +*/ +qint64 QIODevice::pos() const +{ + Q_D(const QIODevice); +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::pos() == %d\n", this, int(d->pos)); +#endif + return d->pos; +} + +/*! + For open random-access devices, this function returns the size of the + device. For open sequential devices, bytesAvailable() is returned. + + If the device is closed, the size returned will not reflect the actual + size of the device. + + \sa isSequential(), pos() +*/ +qint64 QIODevice::size() const +{ + return d_func()->isSequential() ? bytesAvailable() : qint64(0); +} + +/*! + For random-access devices, this function sets the current position + to \a pos, returning true on success, or false if an error occurred. + For sequential devices, the default behavior is to do nothing and + return false. + + When subclassing QIODevice, you must call QIODevice::seek() at the + start of your function to ensure integrity with QIODevice's + built-in buffer. The base implementation always returns true. + + \sa pos(), isSequential() +*/ +bool QIODevice::seek(qint64 pos) +{ + if (d_func()->openMode == NotOpen) { + qWarning("QIODevice::seek: The device is not open"); + return false; + } + if (pos < 0) { + qWarning("QIODevice::seek: Invalid pos: %d", int(pos)); + return false; + } + + Q_D(QIODevice); +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::seek(%d), before: d->pos = %d, d->buffer.size() = %d\n", + this, int(pos), int(d->pos), d->buffer.size()); +#endif + + qint64 offset = pos - d->pos; + if (!d->isSequential()) { + d->pos = pos; + d->devicePos = pos; + } + + if (offset > 0 && !d->buffer.isEmpty()) { + // When seeking forwards, we need to pop bytes off the front of the + // buffer. + do { + int bytesToSkip = int(qMin(offset, INT_MAX)); + d->buffer.skip(bytesToSkip); + offset -= bytesToSkip; + } while (offset > 0); + } else if (offset < 0) { + // When seeking backwards, an operation that is only allowed for + // random-access devices, the buffer is cleared. The next read + // operation will then refill the buffer. We can optimize this, if we + // find that seeking backwards becomes a significant performance hit. + d->buffer.clear(); + } +#if defined QIODEVICE_DEBUG + printf("%p \tafter: d->pos == %d, d->buffer.size() == %d\n", this, int(d->pos), + d->buffer.size()); +#endif + return true; +} + +/*! + Returns true if the current read and write position is at the end + of the device (i.e. there is no more data available for reading on + the device); otherwise returns false. + + For some devices, atEnd() can return true even though there is more data + to read. This special case only applies to devices that generate data in + direct response to you calling read() (e.g., \c /dev or \c /proc files on + Unix and Mac OS X, or console input / \c stdin on all platforms). + + \sa bytesAvailable(), read(), isSequential() +*/ +bool QIODevice::atEnd() const +{ + Q_D(const QIODevice); +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::atEnd() returns %s, d->openMode == %d, d->pos == %d\n", this, (d->openMode == NotOpen || d->pos == size()) ? "true" : "false", + int(d->openMode), int(d->pos)); +#endif + return d->openMode == NotOpen || (d->buffer.isEmpty() && bytesAvailable() == 0); +} + +/*! + Seeks to the start of input for random-access devices. Returns + true on success; otherwise returns false (for example, if the + device is not open). + + Note that when using a QTextStream on a QFile, calling reset() on + the QFile will not have the expected result because QTextStream + buffers the file. Use the QTextStream::seek() function instead. + + \sa seek() +*/ +bool QIODevice::reset() +{ +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::reset()\n", this); +#endif + return seek(0); +} + +/*! + Returns the number of bytes that are available for reading. This + function is commonly used with sequential devices to determine the + number of bytes to allocate in a buffer before reading. + + Subclasses that reimplement this function must call the base + implementation in order to include the size of QIODevices' buffer. Example: + + \snippet doc/src/snippets/code/src_corelib_io_qiodevice.cpp 1 + + \sa bytesToWrite(), readyRead(), isSequential() +*/ +qint64 QIODevice::bytesAvailable() const +{ + Q_D(const QIODevice); + if (!d->isSequential()) + return qMax(size() - d->pos, qint64(0)); + return d->buffer.size(); +} + +/*! + For buffered devices, this function returns the number of bytes + waiting to be written. For devices with no buffer, this function + returns 0. + + \sa bytesAvailable(), bytesWritten(), isSequential() +*/ +qint64 QIODevice::bytesToWrite() const +{ + return qint64(0); +} + +/*! + Reads at most \a maxSize bytes from the device into \a data, and + returns the number of bytes read. If an error occurs, such as when + attempting to read from a device opened in WriteOnly mode, this + function returns -1. + + 0 is returned when no more data is available for reading. However, + reading past the end of the stream is considered an error, so this + function returns -1 in those cases (that is, reading on a closed + socket or after a process has died). + + \sa readData() readLine() write() +*/ +qint64 QIODevice::read(char *data, qint64 maxSize) +{ + Q_D(QIODevice); + CHECK_READABLE(read, qint64(-1)); + CHECK_MAXLEN(read, qint64(-1)); + +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::read(%p, %d), d->pos = %d, d->buffer.size() = %d\n", + this, data, int(maxSize), int(d->pos), int(d->buffer.size())); +#endif + const bool sequential = d->isSequential(); + + // Short circuit for getChar() + if (maxSize == 1) { + int chint = d->buffer.getChar(); + if (chint != -1) { + char c = char(uchar(chint)); + if (c == '\r' && (d->openMode & Text)) { + d->buffer.ungetChar(c); + } else { + if (data) + *data = c; + if (!sequential) + ++d->pos; +#if defined QIODEVICE_DEBUG + printf("%p \tread 0x%hhx (%c) returning 1 (shortcut)\n", this, + int(c), isprint(c) ? c : '?'); +#endif + return qint64(1); + } + } + } + + qint64 readSoFar = 0; + bool moreToRead = true; + do { + int lastReadChunkSize = 0; + + // Try reading from the buffer. + if (!d->buffer.isEmpty()) { + lastReadChunkSize = d->buffer.read(data + readSoFar, maxSize - readSoFar); + readSoFar += lastReadChunkSize; + if (!sequential) + d->pos += lastReadChunkSize; +#if defined QIODEVICE_DEBUG + printf("%p \treading %d bytes from buffer into position %d\n", this, lastReadChunkSize, + int(readSoFar) - lastReadChunkSize); +#endif + } else if ((d->openMode & Unbuffered) == 0 && maxSize < QIODEVICE_BUFFERSIZE) { + // In buffered mode, we try to fill up the QIODevice buffer before + // we do anything else. + int bytesToBuffer = qMax(maxSize - readSoFar, QIODEVICE_BUFFERSIZE); + char *writePointer = d->buffer.reserve(bytesToBuffer); + + // Make sure the device is positioned correctly. + if (d->pos != d->devicePos && !sequential && !seek(d->pos)) + return qint64(-1); + qint64 readFromDevice = readData(writePointer, bytesToBuffer); + d->buffer.chop(bytesToBuffer - (readFromDevice < 0 ? 0 : int(readFromDevice))); + + if (readFromDevice > 0) { + if (!sequential) + d->devicePos += readFromDevice; +#if defined QIODEVICE_DEBUG + printf("%p \treading %d from device into buffer\n", this, int(readFromDevice)); +#endif + + if (readFromDevice < bytesToBuffer) + d->buffer.truncate(int(readFromDevice)); + if (!d->buffer.isEmpty()) { + lastReadChunkSize = d->buffer.read(data + readSoFar, maxSize - readSoFar); + readSoFar += lastReadChunkSize; + if (!sequential) + d->pos += lastReadChunkSize; +#if defined QIODEVICE_DEBUG + printf("%p \treading %d bytes from buffer at position %d\n", this, + lastReadChunkSize, int(readSoFar)); +#endif + } + } + } + + // If we need more, try reading from the device. + if (readSoFar < maxSize) { + // Make sure the device is positioned correctly. + if (d->pos != d->devicePos && !sequential && !seek(d->pos)) + return qint64(-1); + qint64 readFromDevice = readData(data + readSoFar, maxSize - readSoFar); +#if defined QIODEVICE_DEBUG + printf("%p \treading %d bytes from device (total %d)\n", this, int(readFromDevice), int(readSoFar)); +#endif + if (readFromDevice == -1 && readSoFar == 0) { + // error and we haven't read anything: return immediately + return -1; + } + if (readFromDevice <= 0) { + moreToRead = false; + } else { + // see if we read as much data as we asked for + if (readFromDevice < maxSize - readSoFar) + moreToRead = false; + + lastReadChunkSize += int(readFromDevice); + readSoFar += readFromDevice; + if (!sequential) { + d->pos += readFromDevice; + d->devicePos += readFromDevice; + } + } + } else { + moreToRead = false; + } + + if (readSoFar && d->openMode & Text) { + char *readPtr = data + readSoFar - lastReadChunkSize; + const char *endPtr = data + readSoFar; + + if (readPtr < endPtr) { + // optimization to avoid initial self-assignment + while (*readPtr != '\r') { + if (++readPtr == endPtr) + return readSoFar; + } + + char *writePtr = readPtr; + + while (readPtr < endPtr) { + char ch = *readPtr++; + if (ch != '\r') + *writePtr++ = ch; + else + --readSoFar; + } + + // Make sure we get more data if there is room for more. This + // is very important for when someone seeks to the start of a + // '\r\n' and reads one character - they should get the '\n'. + moreToRead = (readPtr != writePtr); + } + } + } while (moreToRead); + +#if defined QIODEVICE_DEBUG + printf("%p \treturning %d, d->pos == %d, d->buffer.size() == %d\n", this, + int(readSoFar), int(d->pos), d->buffer.size()); + debugBinaryString(data, readSoFar); +#endif + return readSoFar; +} + +/*! + \overload + + Reads at most \a maxSize bytes from the device, and returns the + data read as a QByteArray. + + This function has no way of reporting errors; returning an empty + QByteArray() can mean either that no data was currently available + for reading, or that an error occurred. +*/ +QByteArray QIODevice::read(qint64 maxSize) +{ + Q_D(QIODevice); + CHECK_MAXLEN(read, QByteArray()); + QByteArray tmp; + qint64 readSoFar = 0; + char buffer[4096]; +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::read(%d), d->pos = %d, d->buffer.size() = %d\n", + this, int(maxSize), int(d->pos), int(d->buffer.size())); +#else + Q_UNUSED(d); +#endif + + do { + qint64 bytesToRead = qMin(int(maxSize - readSoFar), int(sizeof(buffer))); + qint64 readBytes = read(buffer, bytesToRead); + if (readBytes <= 0) + break; + tmp.append(buffer, (int) readBytes); + readSoFar += readBytes; + } while (readSoFar < maxSize && bytesAvailable() > 0); + + return tmp; +} + +/*! + \overload + + Reads all available data from the device, and returns it as a + QByteArray. + + This function has no way of reporting errors; returning an empty + QByteArray() can mean either that no data was currently available + for reading, or that an error occurred. +*/ +QByteArray QIODevice::readAll() +{ + Q_D(QIODevice); +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::readAll(), d->pos = %d, d->buffer.size() = %d\n", + this, int(d->pos), int(d->buffer.size())); +#endif + + QByteArray tmp; + if (d->isSequential() || size() == 0) { + // Read it in chunks. Use bytesAvailable() as an unreliable hint for + // sequential devices, but try to read 4K as a minimum. + int chunkSize = qMax(qint64(4096), bytesAvailable()); + qint64 totalRead = 0; + forever { + tmp.resize(tmp.size() + chunkSize); + qint64 readBytes = read(tmp.data() + totalRead, chunkSize); + tmp.chop(chunkSize - (readBytes < 0 ? 0 : readBytes)); + if (readBytes <= 0) + return tmp; + totalRead += readBytes; + chunkSize = qMax(qint64(4096), bytesAvailable()); + } + } else { + // Read it all in one go. + tmp.resize(int(bytesAvailable())); + qint64 readBytes = read(tmp.data(), tmp.size()); + tmp.resize(readBytes < 0 ? 0 : int(readBytes)); + } + return tmp; +} + +/*! + This function reads a line of ASCII characters from the device, up + to a maximum of \a maxSize - 1 bytes, stores the characters in \a + data, and returns the number of bytes read. If a line could not be + read but no error ocurred, this function returns 0. If an error + occurs, this function returns what it could the length of what + could be read, or -1 if nothing was read. + + A terminating '\0' byte is always appended to \a data, so \a + maxSize must be larger than 1. + + Data is read until either of the following conditions are met: + + \list + \o The first '\n' character is read. + \o \a maxSize - 1 bytes are read. + \o The end of the device data is detected. + \endlist + + For example, the following code reads a line of characters from a + file: + + \snippet doc/src/snippets/code/src_corelib_io_qiodevice.cpp 2 + + The newline character ('\n') is included in the buffer. If a + newline is not encountered before maxSize - 1 bytes are read, a + newline will not be inserted into the buffer. On windows newline + characters are replaced with '\n'. + + This function calls readLineData(), which is implemented using + repeated calls to getChar(). You can provide a more efficient + implementation by reimplementing readLineData() in your own + subclass. + + \sa getChar(), read(), write() +*/ +qint64 QIODevice::readLine(char *data, qint64 maxSize) +{ + Q_D(QIODevice); + if (maxSize < 2) { + qWarning("QIODevice::readLine: Called with maxSize < 2"); + return qint64(-1); + } + +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::readLine(%p, %d), d->pos = %d, d->buffer.size() = %d\n", + this, data, int(maxSize), int(d->pos), int(d->buffer.size())); +#endif + + // Leave room for a '\0' + --maxSize; + + const bool sequential = d->isSequential(); + + qint64 readSoFar = 0; + if (!d->buffer.isEmpty()) { + readSoFar = d->buffer.readLine(data, maxSize); + if (!sequential) + d->pos += readSoFar; +#if defined QIODEVICE_DEBUG + printf("%p \tread from buffer: %d bytes, last character read: %hhx\n", this, + int(readSoFar), data[int(readSoFar) - 1]); + if (readSoFar) + debugBinaryString(data, int(readSoFar)); +#endif +#if defined(Q_OS_SYMBIAN) + // Open C fgets strips '\r' but readSoFar gets returned as if it was still there + if ((d->openMode & Text) && + readSoFar > 1 && + data[readSoFar - 1] == '\0' && + data[readSoFar - 2] == '\n') { + --readSoFar; + } +#endif + if (readSoFar && data[readSoFar - 1] == '\n') { + if (d->openMode & Text) { + // QRingBuffer::readLine() isn't Text aware. + if (readSoFar > 1 && data[readSoFar - 2] == '\r') { + --readSoFar; + data[readSoFar - 1] = '\n'; + } + } + data[readSoFar] = '\0'; + return readSoFar; + } + } + + if (d->pos != d->devicePos && !sequential && !seek(d->pos)) + return qint64(-1); + d->baseReadLineDataCalled = false; + qint64 readBytes = readLineData(data + readSoFar, maxSize - readSoFar); +#if defined QIODEVICE_DEBUG + printf("%p \tread from readLineData: %d bytes, readSoFar = %d bytes\n", this, + int(readBytes), int(readSoFar)); + if (readBytes > 0) { + debugBinaryString(data, int(readSoFar + readBytes)); + } +#endif + if (readBytes < 0) { + data[readSoFar] = '\0'; + return readSoFar ? readSoFar : -1; + } + readSoFar += readBytes; + if (!d->baseReadLineDataCalled && !sequential) { + d->pos += readBytes; + // If the base implementation was not called, then we must + // assume the device position is invalid and force a seek. + d->devicePos = qint64(-1); + } + data[readSoFar] = '\0'; + + if (d->openMode & Text) { +#if defined(Q_OS_SYMBIAN) + // Open C fgets strips '\r' but readSoFar gets returned as if it was still there + if (readSoFar > 1 && data[readSoFar - 1] == '\0' && data[readSoFar - 2] == '\n') { + --readSoFar; + } +#endif + if (readSoFar > 1 && data[readSoFar - 1] == '\n' && data[readSoFar - 2] == '\r') { + data[readSoFar - 2] = '\n'; + data[readSoFar - 1] = '\0'; + --readSoFar; + } + } + +#if defined QIODEVICE_DEBUG + printf("%p \treturning %d, d->pos = %d, d->buffer.size() = %d, size() = %d\n", + this, int(readSoFar), int(d->pos), d->buffer.size(), int(size())); + debugBinaryString(data, int(readSoFar)); +#endif + return readSoFar; +} + +/*! + \overload + + Reads a line from the device, but no more than \a maxSize characters, + and returns the result as a QByteArray. + + This function has no way of reporting errors; returning an empty + QByteArray() can mean either that no data was currently available + for reading, or that an error occurred. +*/ +QByteArray QIODevice::readLine(qint64 maxSize) +{ + Q_D(QIODevice); + CHECK_MAXLEN(readLine, QByteArray()); + QByteArray tmp; + const int BufferGrowth = 4096; + qint64 readSoFar = 0; + qint64 readBytes = 0; + +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::readLine(%d), d->pos = %d, d->buffer.size() = %d\n", + this, int(maxSize), int(d->pos), int(d->buffer.size())); +#else + Q_UNUSED(d); +#endif + + do { + if (maxSize != 0) + tmp.resize(int(readSoFar + qMin(int(maxSize), BufferGrowth))); + else + tmp.resize(int(readSoFar + BufferGrowth)); + readBytes = readLine(tmp.data() + readSoFar, tmp.size() - readSoFar); + if (readBytes <= 0) + break; + + readSoFar += readBytes; + } while ((!maxSize || readSoFar < maxSize) && + readSoFar + 1 == tmp.size() && // +1 due to the ending null + tmp.at(readSoFar - 1) != '\n'); + + if (readSoFar == 0 && readBytes == -1) + tmp.clear(); // return Null if we found an error + else + tmp.resize(int(readSoFar)); + return tmp; +} + +/*! + Reads up to \a maxSize characters into \a data and returns the + number of characters read. + + This function is called by readLine(), and provides its base + implementation, using getChar(). Buffered devices can improve the + performance of readLine() by reimplementing this function. + + readLine() appends a '\0' byte to \a data; readLineData() does not + need to do this. + + If you reimplement this function, be careful to return the correct + value: it should return the number of bytes read in this line, + including the terminating newline, or 0 if there is no line to be + read at this point. If an error occurs, it should return -1 if and + only if no bytes were read. Reading past EOF is considered an error. +*/ +qint64 QIODevice::readLineData(char *data, qint64 maxSize) +{ + Q_D(QIODevice); + qint64 readSoFar = 0; + char c; + int lastReadReturn = 0; + d->baseReadLineDataCalled = true; + + while (readSoFar < maxSize && (lastReadReturn = read(&c, 1)) == 1) { + *data++ = c; + ++readSoFar; + if (c == '\n') + break; + } + +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::readLineData(%p, %d), d->pos = %d, d->buffer.size() = %d, returns %d\n", + this, data, int(maxSize), int(d->pos), int(d->buffer.size()), int(readSoFar)); +#endif + if (lastReadReturn != 1 && readSoFar == 0) + return isSequential() ? lastReadReturn : -1; + return readSoFar; +} + +/*! + Returns true if a complete line of data can be read from the device; + otherwise returns false. + + Note that unbuffered devices, which have no way of determining what + can be read, always return false. + + This function is often called in conjunction with the readyRead() + signal. + + Subclasses that reimplement this function must call the base + implementation in order to include the contents of the QIODevice's buffer. Example: + + \snippet doc/src/snippets/code/src_corelib_io_qiodevice.cpp 3 + + \sa readyRead(), readLine() +*/ +bool QIODevice::canReadLine() const +{ + return d_func()->buffer.canReadLine(); +} + +/*! + Writes at most \a maxSize bytes of data from \a data to the + device. Returns the number of bytes that were actually written, or + -1 if an error occurred. + + \sa read() writeData() +*/ +qint64 QIODevice::write(const char *data, qint64 maxSize) +{ + Q_D(QIODevice); + CHECK_WRITABLE(write, qint64(-1)); + CHECK_MAXLEN(write, qint64(-1)); + + const bool sequential = d->isSequential(); + // Make sure the device is positioned correctly. + if (d->pos != d->devicePos && !sequential && !seek(d->pos)) + return qint64(-1); + +#ifdef Q_OS_WIN + if (d->openMode & Text) { + const char *endOfData = data + maxSize; + const char *startOfBlock = data; + + qint64 writtenSoFar = 0; + + forever { + const char *endOfBlock = startOfBlock; + while (endOfBlock < endOfData && *endOfBlock != '\n') + ++endOfBlock; + + qint64 blockSize = endOfBlock - startOfBlock; + if (blockSize > 0) { + qint64 ret = writeData(startOfBlock, blockSize); + if (ret <= 0) { + if (writtenSoFar && !sequential) + d->buffer.skip(writtenSoFar); + return writtenSoFar ? writtenSoFar : ret; + } + if (!sequential) { + d->pos += ret; + d->devicePos += ret; + } + writtenSoFar += ret; + } + + if (endOfBlock == endOfData) + break; + + qint64 ret = writeData("\r\n", 2); + if (ret <= 0) { + if (writtenSoFar && !sequential) + d->buffer.skip(writtenSoFar); + return writtenSoFar ? writtenSoFar : ret; + } + if (!sequential) { + d->pos += ret; + d->devicePos += ret; + } + ++writtenSoFar; + + startOfBlock = endOfBlock + 1; + } + + if (writtenSoFar && !sequential) + d->buffer.skip(writtenSoFar); + return writtenSoFar; + } +#endif + + qint64 written = writeData(data, maxSize); + if (written > 0) { + if (!sequential) { + d->pos += written; + d->devicePos += written; + } + if (!d->buffer.isEmpty() && !sequential) + d->buffer.skip(written); + } + return written; +} + +/*! + \since 4.5 + + \overload + + Writes data from a zero-terminated string of 8-bit characters to the + device. Returns the number of bytes that were actually written, or + -1 if an error occurred. This is equivalent to + \code + ... + QIODevice::write(data, qstrlen(data)); + ... + \endcode + + \sa read() writeData() +*/ +qint64 QIODevice::write(const char *data) +{ + return write(data, qstrlen(data)); +} + +/*! \fn qint64 QIODevice::write(const QByteArray &byteArray) + + \overload + + Writes the content of \a byteArray to the device. Returns the number of + bytes that were actually written, or -1 if an error occurred. + + \sa read() writeData() +*/ + +/*! + Puts the character \a c back into the device, and decrements the + current position unless the position is 0. This function is + usually called to "undo" a getChar() operation, such as when + writing a backtracking parser. + + If \a c was not previously read from the device, the behavior is + undefined. +*/ +void QIODevice::ungetChar(char c) +{ + Q_D(QIODevice); + CHECK_READABLE(read, Q_VOID); + +#if defined QIODEVICE_DEBUG + printf("%p QIODevice::ungetChar(0x%hhx '%c')\n", this, c, isprint(c) ? c : '?'); +#endif + + d->buffer.ungetChar(c); + if (!d->isSequential()) + --d->pos; +} + +/*! \fn bool QIODevice::putChar(char c) + + Writes the character \a c to the device. Returns true on success; + otherwise returns false. + + \sa write() getChar() ungetChar() +*/ +bool QIODevice::putChar(char c) +{ + return d_func()->putCharHelper(c); +} + +/*! + \internal +*/ +bool QIODevicePrivate::putCharHelper(char c) +{ + return q_func()->write(&c, 1) == 1; +} + +/*! \fn bool QIODevice::getChar(char *c) + + Reads one character from the device and stores it in \a c. If \a c + is 0, the character is discarded. Returns true on success; + otherwise returns false. + + \sa read() putChar() ungetChar() +*/ +bool QIODevice::getChar(char *c) +{ + Q_D(QIODevice); + const OpenMode openMode = d->openMode; + if (!(openMode & ReadOnly)) { + if (openMode == NotOpen) + qWarning("QIODevice::getChar: Closed device"); + else + qWarning("QIODevice::getChar: WriteOnly device"); + return false; + } + + // Shortcut for QIODevice::read(c, 1) + QRingBuffer *buffer = &d->buffer; + const int chint = buffer->getChar(); + if (chint != -1) { + char ch = char(uchar(chint)); + if ((openMode & Text) && ch == '\r') { + buffer->ungetChar(ch); + } else { + if (c) + *c = ch; + if (!d->isSequential()) + ++d->pos; + return true; + } + } + + // Fall back to read(). + char ch; + if (read(&ch, 1) == 1) { + if (c) + *c = ch; + return true; + } + return false; +} + +/*! + \since 4.1 + + Reads at most \a maxSize bytes from the device into \a data, without side + effects (i.e., if you call read() after peek(), you will get the same + data). Returns the number of bytes read. If an error occurs, such as + when attempting to peek a device opened in WriteOnly mode, this function + returns -1. + + 0 is returned when no more data is available for reading. + + Example: + + \snippet doc/src/snippets/code/src_corelib_io_qiodevice.cpp 4 + + \sa read() +*/ +qint64 QIODevice::peek(char *data, qint64 maxSize) +{ + qint64 readBytes = read(data, maxSize); + int i = readBytes; + while (i > 0) + ungetChar(data[i-- - 1]); + return readBytes; +} + +/*! + \since 4.1 + \overload + + Peeks at most \a maxSize bytes from the device, returning the data peeked + as a QByteArray. + + Example: + + \snippet doc/src/snippets/code/src_corelib_io_qiodevice.cpp 5 + + This function has no way of reporting errors; returning an empty + QByteArray() can mean either that no data was currently available + for peeking, or that an error occurred. + + \sa read() +*/ +QByteArray QIODevice::peek(qint64 maxSize) +{ + QByteArray result = read(maxSize); + int i = result.size(); + const char *data = result.constData(); + while (i > 0) + ungetChar(data[i-- - 1]); + return result; +} + +/*! + Blocks until new data is available for reading and the readyRead() + signal has been emitted, or until \a msecs milliseconds have + passed. If msecs is -1, this function will not time out. + + Returns true if new data is available for reading; otherwise returns + false (if the operation timed out or if an error occurred). + + This function can operate without an event loop. It is + useful when writing non-GUI applications and when performing + I/O operations in a non-GUI thread. + + If called from within a slot connected to the readyRead() signal, + readyRead() will not be reemitted. + + Reimplement this function to provide a blocking API for a custom + device. The default implementation does nothing, and returns false. + + \warning Calling this function from the main (GUI) thread + might cause your user interface to freeze. + + \sa waitForBytesWritten() +*/ +bool QIODevice::waitForReadyRead(int msecs) +{ + Q_UNUSED(msecs); + return false; +} + +/*! + For buffered devices, this function waits until a payload of + buffered written data has been written to the device and the + bytesWritten() signal has been emitted, or until \a msecs + milliseconds have passed. If msecs is -1, this function will + not time out. For unbuffered devices, it returns immediately. + + Returns true if a payload of data was written to the device; + otherwise returns false (i.e. if the operation timed out, or if an + error occurred). + + This function can operate without an event loop. It is + useful when writing non-GUI applications and when performing + I/O operations in a non-GUI thread. + + If called from within a slot connected to the bytesWritten() signal, + bytesWritten() will not be reemitted. + + Reimplement this function to provide a blocking API for a custom + device. The default implementation does nothing, and returns false. + + \warning Calling this function from the main (GUI) thread + might cause your user interface to freeze. + + \sa waitForReadyRead() +*/ +bool QIODevice::waitForBytesWritten(int msecs) +{ + Q_UNUSED(msecs); + return false; +} + +/*! + Sets the human readable description of the last device error that + occurred to \a str. + + \sa errorString() +*/ +void QIODevice::setErrorString(const QString &str) +{ + d_func()->errorString = str; +} + +/*! + Returns a human-readable description of the last device error that + occurred. + + \sa setErrorString() +*/ +QString QIODevice::errorString() const +{ + Q_D(const QIODevice); + if (d->errorString.isEmpty()) { +#ifdef QT_NO_QOBJECT + return QLatin1String(QT_TRANSLATE_NOOP(QIODevice, "Unknown error")); +#else + return tr("Unknown error"); +#endif + } + return d->errorString; +} + +/*! + \fn qint64 QIODevice::readData(char *data, qint64 maxSize) + + Reads up to \a maxSize bytes from the device into \a data, and + returns the number of bytes read or -1 if an error occurred. If + there are no bytes to be read, this function should return -1 if + there can never be more bytes available (for example: socket + closed, pipe closed, sub-process finished). + + This function is called by QIODevice. Reimplement this function + when creating a subclass of QIODevice. + + \sa read() readLine() writeData() +*/ + +/*! + \fn qint64 QIODevice::writeData(const char *data, qint64 maxSize) + + Writes up to \a maxSize bytes from \a data to the device. Returns + the number of bytes written, or -1 if an error occurred. + + This function is called by QIODevice. Reimplement this function + when creating a subclass of QIODevice. + + \sa read() write() +*/ + +/*! + \fn QIODevice::Offset QIODevice::status() const + + For device specific error handling, please refer to the + individual device documentation. + + \sa qobject_cast() +*/ + +/*! + \fn QIODevice::Offset QIODevice::at() const + + Use pos() instead. +*/ + +/*! + \fn bool QIODevice::at(Offset offset) + + Use seek(\a offset) instead. +*/ + +/*! \fn int QIODevice::flags() const + + Use openMode() instead. +*/ + +/*! \fn int QIODevice::getch() + + Use getChar() instead. +*/ + +/*! + \fn bool QIODevice::isAsynchronous() const + + This functionality is no longer available. This function always + returns true. +*/ + +/*! + \fn bool QIODevice::isBuffered() const + + Use !(openMode() & QIODevice::Unbuffered) instead. +*/ + +/*! + \fn bool QIODevice::isCombinedAccess() const + + Use openMode() instead. +*/ + +/*! + \fn bool QIODevice::isDirectAccess() const + + Use !isSequential() instead. +*/ + +/*! + \fn bool QIODevice::isInactive() const + + Use isOpen(), isReadable(), or isWritable() instead. +*/ + +/*! + \fn bool QIODevice::isRaw() const + + Use openMode() instead. +*/ + +/*! + \fn bool QIODevice::isSequentialAccess() const + + Use isSequential() instead. +*/ + +/*! + \fn bool QIODevice::isSynchronous() const + + This functionality is no longer available. This function always + returns false. +*/ + +/*! + \fn bool QIODevice::isTranslated() const + + Use openMode() instead. +*/ + +/*! + \fn bool QIODevice::mode() const + + Use openMode() instead. +*/ + +/*! \fn int QIODevice::putch(int ch) + + Use putChar(\a ch) instead. +*/ + +/*! \fn int QIODevice::ungetch(int ch) + + Use ungetChar(\a ch) instead. +*/ + +/*! + \fn quint64 QIODevice::readBlock(char *data, quint64 size) + + Use read(\a data, \a size) instead. +*/ + +/*! \fn int QIODevice::state() const + + Use isOpen() instead. +*/ + +/*! + \fn qint64 QIODevice::writeBlock(const char *data, quint64 size) + + Use write(\a data, \a size) instead. +*/ + +/*! + \fn qint64 QIODevice::writeBlock(const QByteArray &data) + + Use write(\a data) instead. +*/ + +#if defined QT3_SUPPORT +QIODevice::Status QIODevice::status() const +{ +#if !defined(QT_NO_QOBJECT) + const QFile *f = qobject_cast(this); + if (f) return (int) f->error(); +#endif + return isOpen() ? 0 /* IO_Ok */ : 8 /* IO_UnspecifiedError */; +} + +/*! + For device specific error handling, please refer to the + individual device documentation. + + \sa qobject_cast() +*/ +void QIODevice::resetStatus() +{ +#if !defined(QT_NO_QOBJECT) + QFile *f = qobject_cast(this); + if (f) f->unsetError(); +#endif +} +#endif + +#if !defined(QT_NO_DEBUG_STREAM) +QDebug operator<<(QDebug debug, QIODevice::OpenMode modes) +{ + debug << "OpenMode("; + QStringList modeList; + if (modes == QIODevice::NotOpen) { + modeList << QLatin1String("NotOpen"); + } else { + if (modes & QIODevice::ReadOnly) + modeList << QLatin1String("ReadOnly"); + if (modes & QIODevice::WriteOnly) + modeList << QLatin1String("WriteOnly"); + if (modes & QIODevice::Append) + modeList << QLatin1String("Append"); + if (modes & QIODevice::Truncate) + modeList << QLatin1String("Truncate"); + if (modes & QIODevice::Text) + modeList << QLatin1String("Text"); + if (modes & QIODevice::Unbuffered) + modeList << QLatin1String("Unbuffered"); + } + qSort(modeList); + debug << modeList.join(QLatin1String("|")); + debug << ')'; + return debug; +} +#endif + +QT_END_NAMESPACE