/**************************************************************************** ** ** Copyright (C) 2011 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. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #include "qdebug.h" #include "qfile.h" #include "qfsfileengine.h" #include "qtemporaryfile.h" #include "qlist.h" #include "qfileinfo.h" #include "private/qiodevice_p.h" #include "private/qfile_p.h" #if defined(QT_BUILD_CORE_LIB) # include "qcoreapplication.h" #endif #ifdef QT_NO_QOBJECT #define tr(X) QString::fromLatin1(X) #endif QT_BEGIN_NAMESPACE static const int QFILE_WRITEBUFFER_SIZE = 16384; static QByteArray locale_encode(const QString &f) { #if defined(Q_OS_DARWIN) // Mac always expects UTF-8... and decomposed... return f.normalized(QString::NormalizationForm_D).toUtf8(); #elif defined(Q_OS_SYMBIAN) return f.toUtf8(); #else return f.toLocal8Bit(); #endif } static QString locale_decode(const QByteArray &f) { #if defined(Q_OS_DARWIN) // Mac always gives us UTF-8 and decomposed, we want that composed... return QString::fromUtf8(f).normalized(QString::NormalizationForm_C); #elif defined(Q_OS_SYMBIAN) return QString::fromUtf8(f); #else return QString::fromLocal8Bit(f); #endif } //************* QFilePrivate QFile::EncoderFn QFilePrivate::encoder = locale_encode; QFile::DecoderFn QFilePrivate::decoder = locale_decode; QFilePrivate::QFilePrivate() : fileEngine(0), lastWasWrite(false), writeBuffer(QFILE_WRITEBUFFER_SIZE), error(QFile::NoError), cachedSize(0) { } QFilePrivate::~QFilePrivate() { delete fileEngine; fileEngine = 0; } bool QFilePrivate::openExternalFile(int flags, int fd) { #ifdef QT_NO_FSFILEENGINE Q_UNUSED(flags); Q_UNUSED(fd); return false; #else delete fileEngine; fileEngine = 0; QFSFileEngine *fe = new QFSFileEngine; fe->setFileName(fileName); fileEngine = fe; return fe->open(QIODevice::OpenMode(flags), fd); #endif } bool QFilePrivate::openExternalFile(int flags, FILE *fh) { #ifdef QT_NO_FSFILEENGINE Q_UNUSED(flags); Q_UNUSED(fh); return false; #else delete fileEngine; fileEngine = 0; QFSFileEngine *fe = new QFSFileEngine; fe->setFileName(fileName); fileEngine = fe; return fe->open(QIODevice::OpenMode(flags), fh); #endif } inline bool QFilePrivate::ensureFlushed() const { // This function ensures that the write buffer has been flushed (const // because certain const functions need to call it. if (lastWasWrite) { const_cast(this)->lastWasWrite = false; if (!const_cast(q_func())->flush()) return false; } return true; } void QFilePrivate::setError(QFile::FileError err) { error = err; errorString.clear(); } void QFilePrivate::setError(QFile::FileError err, const QString &errStr) { error = err; errorString = errStr; } void QFilePrivate::setError(QFile::FileError err, int errNum) { error = err; errorString = qt_error_string(errNum); } //************* QFile /*! \class QFile \brief The QFile class provides an interface for reading from and writing to files. \ingroup io \reentrant QFile is an I/O device for reading and writing text and binary files and \l{The Qt Resource System}{resources}. A QFile may be used by itself or, more conveniently, with a QTextStream or QDataStream. The file name is usually passed in the constructor, but it can be set at any time using setFileName(). QFile expects the file separator to be '/' regardless of operating system. The use of other separators (e.g., '\\') is not supported. You can check for a file's existence using exists(), and remove a file using remove(). (More advanced file system related operations are provided by QFileInfo and QDir.) The file is opened with open(), closed with close(), and flushed with flush(). Data is usually read and written using QDataStream or QTextStream, but you can also call the QIODevice-inherited functions read(), readLine(), readAll(), write(). QFile also inherits getChar(), putChar(), and ungetChar(), which work one character at a time. The size of the file is returned by size(). You can get the current file position using pos(), or move to a new file position using seek(). If you've reached the end of the file, atEnd() returns true. \section1 Reading Files Directly The following example reads a text file line by line: \snippet doc/src/snippets/file/file.cpp 0 The QIODevice::Text flag passed to open() tells Qt to convert Windows-style line terminators ("\\r\\n") into C++-style terminators ("\\n"). By default, QFile assumes binary, i.e. it doesn't perform any conversion on the bytes stored in the file. \section1 Using Streams to Read Files The next example uses QTextStream to read a text file line by line: \snippet doc/src/snippets/file/file.cpp 1 QTextStream takes care of converting the 8-bit data stored on disk into a 16-bit Unicode QString. By default, it assumes that the user system's local 8-bit encoding is used (e.g., ISO 8859-1 for most of Europe; see QTextCodec::codecForLocale() for details). This can be changed using setCodec(). To write text, we can use operator<<(), which is overloaded to take a QTextStream on the left and various data types (including QString) on the right: \snippet doc/src/snippets/file/file.cpp 2 QDataStream is similar, in that you can use operator<<() to write data and operator>>() to read it back. See the class documentation for details. When you use QFile, QFileInfo, and QDir to access the file system with Qt, you can use Unicode file names. On Unix, these file names are converted to an 8-bit encoding. If you want to use standard C++ APIs (\c or \c ) or platform-specific APIs to access files instead of QFile, you can use the encodeName() and decodeName() functions to convert between Unicode file names and 8-bit file names. On Unix, there are some special system files (e.g. in \c /proc) for which size() will always return 0, yet you may still be able to read more data from such a file; the data is generated in direct response to you calling read(). In this case, however, you cannot use atEnd() to determine if there is more data to read (since atEnd() will return true for a file that claims to have size 0). Instead, you should either call readAll(), or call read() or readLine() repeatedly until no more data can be read. The next example uses QTextStream to read \c /proc/modules line by line: \snippet doc/src/snippets/file/file.cpp 3 \section1 Signals Unlike other QIODevice implementations, such as QTcpSocket, QFile does not emit the aboutToClose(), bytesWritten(), or readyRead() signals. This implementation detail means that QFile is not suitable for reading and writing certain types of files, such as device files on Unix platforms. \section1 Platform Specific Issues File permissions are handled differently on Linux/Mac OS X and Windows. In a non \l{QIODevice::isWritable()}{writable} directory on Linux, files cannot be created. This is not always the case on Windows, where, for instance, the 'My Documents' directory usually is not writable, but it is still possible to create files in it. \sa QTextStream, QDataStream, QFileInfo, QDir, {The Qt Resource System} */ /*! \enum QFile::FileError This enum describes the errors that may be returned by the error() function. \value NoError No error occurred. \value ReadError An error occurred when reading from the file. \value WriteError An error occurred when writing to the file. \value FatalError A fatal error occurred. \value ResourceError \value OpenError The file could not be opened. \value AbortError The operation was aborted. \value TimeOutError A timeout occurred. \value UnspecifiedError An unspecified error occurred. \value RemoveError The file could not be removed. \value RenameError The file could not be renamed. \value PositionError The position in the file could not be changed. \value ResizeError The file could not be resized. \value PermissionsError The file could not be accessed. \value CopyError The file could not be copied. \omitvalue ConnectError */ /*! \enum QFile::Permission This enum is used by the permission() function to report the permissions and ownership of a file. The values may be OR-ed together to test multiple permissions and ownership values. \value ReadOwner The file is readable by the owner of the file. \value WriteOwner The file is writable by the owner of the file. \value ExeOwner The file is executable by the owner of the file. \value ReadUser The file is readable by the user. \value WriteUser The file is writable by the user. \value ExeUser The file is executable by the user. \value ReadGroup The file is readable by the group. \value WriteGroup The file is writable by the group. \value ExeGroup The file is executable by the group. \value ReadOther The file is readable by anyone. \value WriteOther The file is writable by anyone. \value ExeOther The file is executable by anyone. \warning Because of differences in the platforms supported by Qt, the semantics of ReadUser, WriteUser and ExeUser are platform-dependent: On Unix, the rights of the owner of the file are returned and on Windows the rights of the current user are returned. This behavior might change in a future Qt version. Note that Qt does not by default check for permissions on NTFS file systems, as this may decrease the performance of file handling considerably. It is possible to force permission checking on NTFS by including the following code in your source: \snippet doc/src/snippets/ntfsp.cpp 0 Permission checking is then turned on and off by incrementing and decrementing \c qt_ntfs_permission_lookup by 1. \snippet doc/src/snippets/ntfsp.cpp 1 */ #ifdef QT3_SUPPORT /*! \typedef QFile::PermissionSpec Use QFile::Permission instead. */ #endif #ifdef QT_NO_QOBJECT QFile::QFile() : QIODevice(*new QFilePrivate) { } QFile::QFile(const QString &name) : QIODevice(*new QFilePrivate) { d_func()->fileName = name; } QFile::QFile(QFilePrivate &dd) : QIODevice(dd) { } #else /*! \internal */ QFile::QFile() : QIODevice(*new QFilePrivate, 0) { } /*! Constructs a new file object with the given \a parent. */ QFile::QFile(QObject *parent) : QIODevice(*new QFilePrivate, parent) { } /*! Constructs a new file object to represent the file with the given \a name. */ QFile::QFile(const QString &name) : QIODevice(*new QFilePrivate, 0) { Q_D(QFile); d->fileName = name; } /*! Constructs a new file object with the given \a parent to represent the file with the specified \a name. */ QFile::QFile(const QString &name, QObject *parent) : QIODevice(*new QFilePrivate, parent) { Q_D(QFile); d->fileName = name; } /*! \internal */ QFile::QFile(QFilePrivate &dd, QObject *parent) : QIODevice(dd, parent) { } #endif /*! Destroys the file object, closing it if necessary. */ QFile::~QFile() { close(); } /*! Returns the name set by setFileName() or to the QFile constructors. \sa setFileName(), QFileInfo::fileName() */ QString QFile::fileName() const { return fileEngine()->fileName(QAbstractFileEngine::DefaultName); } /*! Sets the \a name of the file. The name can have no path, a relative path, or an absolute path. Do not call this function if the file has already been opened. If the file name has no path or a relative path, the path used will be the application's current directory path \e{at the time of the open()} call. Example: \snippet doc/src/snippets/code/src_corelib_io_qfile.cpp 0 Note that the directory separator "/" works for all operating systems supported by Qt. \sa fileName(), QFileInfo, QDir */ void QFile::setFileName(const QString &name) { Q_D(QFile); if (isOpen()) { qWarning("QFile::setFileName: File (%s) is already opened", qPrintable(fileName())); close(); } if(d->fileEngine) { //get a new file engine later delete d->fileEngine; d->fileEngine = 0; } d->fileName = name; } /*! \fn QString QFile::decodeName(const char *localFileName) \overload Returns the Unicode version of the given \a localFileName. See encodeName() for details. */ /*! By default, this function converts \a fileName to the local 8-bit encoding determined by the user's locale. This is sufficient for file names that the user chooses. File names hard-coded into the application should only use 7-bit ASCII filename characters. \sa decodeName() setEncodingFunction() */ QByteArray QFile::encodeName(const QString &fileName) { return (*QFilePrivate::encoder)(fileName); } /*! \typedef QFile::EncoderFn This is a typedef for a pointer to a function with the following signature: \snippet doc/src/snippets/code/src_corelib_io_qfile.cpp 1 \sa setEncodingFunction(), encodeName() */ /*! This does the reverse of QFile::encodeName() using \a localFileName. \sa setDecodingFunction(), encodeName() */ QString QFile::decodeName(const QByteArray &localFileName) { return (*QFilePrivate::decoder)(localFileName); } /*! \fn void QFile::setEncodingFunction(EncoderFn function) \nonreentrant Sets the \a function for encoding Unicode file names. The default encodes in the locale-specific 8-bit encoding. \sa encodeName(), setDecodingFunction() */ void QFile::setEncodingFunction(EncoderFn f) { if (!f) f = locale_encode; QFilePrivate::encoder = f; } /*! \typedef QFile::DecoderFn This is a typedef for a pointer to a function with the following signature: \snippet doc/src/snippets/code/src_corelib_io_qfile.cpp 2 \sa setDecodingFunction() */ /*! \fn void QFile::setDecodingFunction(DecoderFn function) \nonreentrant Sets the \a function for decoding 8-bit file names. The default uses the locale-specific 8-bit encoding. \sa setEncodingFunction(), decodeName() */ void QFile::setDecodingFunction(DecoderFn f) { if (!f) f = locale_decode; QFilePrivate::decoder = f; } /*! \overload Returns true if the file specified by fileName() exists; otherwise returns false. \sa fileName(), setFileName() */ bool QFile::exists() const { // 0x1000000 = QAbstractFileEngine::Refresh, forcing an update return (fileEngine()->fileFlags(QAbstractFileEngine::FlagsMask | QAbstractFileEngine::FileFlag(0x1000000)) & QAbstractFileEngine::ExistsFlag); } /*! Returns true if the file specified by \a fileName exists; otherwise returns false. */ bool QFile::exists(const QString &fileName) { return QFileInfo(fileName).exists(); } /*! \fn QString QFile::symLinkTarget() const \since 4.2 \overload Returns the absolute path of the file or directory a symlink (or shortcut on Windows) points to, or a an empty string if the object isn't a symbolic link. This name may not represent an existing file; it is only a string. QFile::exists() returns true if the symlink points to an existing file. \sa fileName() setFileName() */ /*! \obsolete Use symLinkTarget() instead. */ QString QFile::readLink() const { return fileEngine()->fileName(QAbstractFileEngine::LinkName); } /*! \fn static QString QFile::symLinkTarget(const QString &fileName) \since 4.2 Returns the absolute path of the file or directory referred to by the symlink (or shortcut on Windows) specified by \a fileName, or returns an empty string if the \a fileName does not correspond to a symbolic link. This name may not represent an existing file; it is only a string. QFile::exists() returns true if the symlink points to an existing file. */ /*! \obsolete Use symLinkTarget() instead. */ QString QFile::readLink(const QString &fileName) { return QFileInfo(fileName).readLink(); } /*! Removes the file specified by fileName(). Returns true if successful; otherwise returns false. The file is closed before it is removed. \sa setFileName() */ bool QFile::remove() { Q_D(QFile); if (d->fileName.isEmpty()) { qWarning("QFile::remove: Empty or null file name"); return false; } unsetError(); close(); if(error() == QFile::NoError) { if(fileEngine()->remove()) { unsetError(); return true; } d->setError(QFile::RemoveError, d->fileEngine->errorString()); } return false; } /*! \overload Removes the file specified by the \a fileName given. Returns true if successful; otherwise returns false. \sa remove() */ bool QFile::remove(const QString &fileName) { return QFile(fileName).remove(); } /*! Renames the file currently specified by fileName() to \a newName. Returns true if successful; otherwise returns false. If a file with the name \a newName already exists, rename() returns false (i.e., QFile will not overwrite it). The file is closed before it is renamed. \sa setFileName() */ bool QFile::rename(const QString &newName) { Q_D(QFile); if (d->fileName.isEmpty()) { qWarning("QFile::rename: Empty or null file name"); return false; } if (QFile(newName).exists()) { // ### Race condition. If a file is moved in after this, it /will/ be // overwritten. On Unix, the proper solution is to use hardlinks: // return ::link(old, new) && ::remove(old); d->setError(QFile::RenameError, tr("Destination file exists")); return false; } unsetError(); close(); if(error() == QFile::NoError) { if (fileEngine()->rename(newName)) { unsetError(); // engine was able to handle the new name so we just reset it d->fileEngine->setFileName(newName); d->fileName = newName; return true; } if (isSequential()) { d->setError(QFile::RenameError, tr("Will not rename sequential file using block copy")); return false; } QFile out(newName); if (open(QIODevice::ReadOnly)) { if (out.open(QIODevice::WriteOnly | QIODevice::Truncate)) { bool error = false; char block[4096]; qint64 bytes; while ((bytes = read(block, sizeof(block))) > 0) { if (bytes != out.write(block, bytes)) { d->setError(QFile::RenameError, out.errorString()); error = true; break; } } if (bytes == -1) { d->setError(QFile::RenameError, errorString()); error = true; } if(!error) { if (!remove()) { d->setError(QFile::RenameError, tr("Cannot remove source file")); error = true; } } if (error) { out.remove(); } else { d->fileEngine->setFileName(newName); setPermissions(permissions()); unsetError(); setFileName(newName); } close(); return !error; } close(); } d->setError(QFile::RenameError, out.isOpen() ? errorString() : out.errorString()); } return false; } /*! \overload Renames the file \a oldName to \a newName. Returns true if successful; otherwise returns false. If a file with the name \a newName already exists, rename() returns false (i.e., QFile will not overwrite it). \sa rename() */ bool QFile::rename(const QString &oldName, const QString &newName) { return QFile(oldName).rename(newName); } /*! Creates a link named \a linkName that points to the file currently specified by fileName(). What a link is depends on the underlying filesystem (be it a shortcut on Windows or a symbolic link on Unix). Returns true if successful; otherwise returns false. This function will not overwrite an already existing entity in the file system; in this case, \c link() will return false and set \l{QFile::}{error()} to return \l{QFile::}{RenameError}. \note To create a valid link on Windows, \a linkName must have a \c{.lnk} file extension. \note On Symbian, no link is created and false is returned if fileName() currently specifies a directory. \sa setFileName() */ bool QFile::link(const QString &linkName) { Q_D(QFile); if (d->fileName.isEmpty()) { qWarning("QFile::link: Empty or null file name"); return false; } QFileInfo fi(linkName); if(fileEngine()->link(fi.absoluteFilePath())) { unsetError(); return true; } d->setError(QFile::RenameError, d->fileEngine->errorString()); return false; } /*! \overload Creates a link named \a linkName that points to the file \a fileName. What a link is depends on the underlying filesystem (be it a shortcut on Windows or a symbolic link on Unix). Returns true if successful; otherwise returns false. \sa link() */ bool QFile::link(const QString &fileName, const QString &linkName) { return QFile(fileName).link(linkName); } /*! Copies the file currently specified by fileName() to a file called \a newName. Returns true if successful; otherwise returns false. Note that if a file with the name \a newName already exists, copy() returns false (i.e. QFile will not overwrite it). The source file is closed before it is copied. \sa setFileName() */ bool QFile::copy(const QString &newName) { Q_D(QFile); if (d->fileName.isEmpty()) { qWarning("QFile::copy: Empty or null file name"); return false; } if (QFile(newName).exists()) { // ### Race condition. If a file is moved in after this, it /will/ be // overwritten. On Unix, the proper solution is to use hardlinks: // return ::link(old, new) && ::remove(old); See also rename(). d->setError(QFile::CopyError, tr("Destination file exists")); return false; } unsetError(); close(); if(error() == QFile::NoError) { if(fileEngine()->copy(newName)) { unsetError(); return true; } else { bool error = false; if(!open(QFile::ReadOnly)) { error = true; d->setError(QFile::CopyError, tr("Cannot open %1 for input").arg(d->fileName)); } else { QString fileTemplate = QLatin1String("%1/qt_temp.XXXXXX"); #ifdef QT_NO_TEMPORARYFILE QFile out(fileTemplate.arg(QFileInfo(newName).path())); if (!out.open(QIODevice::ReadWrite)) error = true; #else QTemporaryFile out(fileTemplate.arg(QFileInfo(newName).path())); if (!out.open()) { out.setFileTemplate(fileTemplate.arg(QDir::tempPath())); if (!out.open()) error = true; } #endif if (error) { out.close(); d->setError(QFile::CopyError, tr("Cannot open for output")); } else { char block[4096]; qint64 totalRead = 0; while(!atEnd()) { qint64 in = read(block, sizeof(block)); if (in <= 0) break; totalRead += in; if(in != out.write(block, in)) { d->setError(QFile::CopyError, tr("Failure to write block")); error = true; break; } } if (totalRead != size()) { // Unable to read from the source. The error string is // already set from read(). error = true; } if (!error && !out.rename(newName)) { error = true; d->setError(QFile::CopyError, tr("Cannot create %1 for output").arg(newName)); } #ifdef QT_NO_TEMPORARYFILE if (error) out.remove(); #else if (!error) out.setAutoRemove(false); #endif } close(); } if(!error) { QFile::setPermissions(newName, permissions()); unsetError(); return true; } } } return false; } /*! \overload Copies the file \a fileName to \a newName. Returns true if successful; otherwise returns false. If a file with the name \a newName already exists, copy() returns false (i.e., QFile will not overwrite it). \sa rename() */ bool QFile::copy(const QString &fileName, const QString &newName) { return QFile(fileName).copy(newName); } /*! Returns true if the file can only be manipulated sequentially; otherwise returns false. Most files support random-access, but some special files may not. \sa QIODevice::isSequential() */ bool QFile::isSequential() const { Q_D(const QFile); return d->fileEngine && d->fileEngine->isSequential(); } /*! Opens the file using OpenMode \a mode, returning true if successful; otherwise false. The \a mode must be QIODevice::ReadOnly, QIODevice::WriteOnly, or QIODevice::ReadWrite. It may also have additional flags, such as QIODevice::Text and QIODevice::Unbuffered. \note In \l{QIODevice::}{WriteOnly} or \l{QIODevice::}{ReadWrite} mode, if the relevant file does not already exist, this function will try to create a new file before opening it. \sa QIODevice::OpenMode, setFileName() */ bool QFile::open(OpenMode mode) { Q_D(QFile); if (isOpen()) { qWarning("QFile::open: File (%s) already open", qPrintable(fileName())); return false; } if (mode & Append) mode |= WriteOnly; unsetError(); if ((mode & (ReadOnly | WriteOnly)) == 0) { qWarning("QIODevice::open: File access not specified"); return false; } // QIODevice provides the buffering, so there's no need to request it from the file engine. if (fileEngine()->open(mode | QIODevice::Unbuffered)) { QIODevice::open(mode); if (mode & Append) seek(size()); return true; } QFile::FileError err = d->fileEngine->error(); if(err == QFile::UnspecifiedError) err = QFile::OpenError; d->setError(err, d->fileEngine->errorString()); return false; } /*! \fn QFile::open(OpenMode, FILE*) Use open(FILE *, OpenMode) instead. */ /*! \overload Opens the existing file handle \a fh in the given \a mode. Returns true if successful; otherwise returns false. Example: \snippet doc/src/snippets/code/src_corelib_io_qfile.cpp 3 When a QFile is opened using this function, close() does not actually close the file, but only flushes it. \bold{Warning:} \list 1 \o If \a fh does not refer to a regular file, e.g., it is \c stdin, \c stdout, or \c stderr, you may not be able to seek(). size() returns \c 0 in those cases. See QIODevice::isSequential() for more information. \o Since this function opens the file without specifying the file name, you cannot use this QFile with a QFileInfo. \endlist \note For Windows CE you may not be able to call resize(). \sa close(), {qmake Variable Reference#CONFIG}{qmake Variable Reference} \bold{Note for the Windows Platform} \a fh must be opened in binary mode (i.e., the mode string must contain 'b', as in "rb" or "wb") when accessing files and other random-access devices. Qt will translate the end-of-line characters if you pass QIODevice::Text to \a mode. Sequential devices, such as stdin and stdout, are unaffected by this limitation. You need to enable support for console applications in order to use the stdin, stdout and stderr streams at the console. To do this, add the following declaration to your application's project file: \snippet doc/src/snippets/code/src_corelib_io_qfile.cpp 4 */ bool QFile::open(FILE *fh, OpenMode mode) { Q_D(QFile); if (isOpen()) { qWarning("QFile::open: File (%s) already open", qPrintable(fileName())); return false; } if (mode & Append) mode |= WriteOnly; unsetError(); if ((mode & (ReadOnly | WriteOnly)) == 0) { qWarning("QFile::open: File access not specified"); return false; } if(d->openExternalFile(mode, fh)) { QIODevice::open(mode); if (mode & Append) { seek(size()); } else { qint64 pos = (qint64)QT_FTELL(fh); if (pos != -1) seek(pos); } return true; } return false; } /*! \fn QFile::open(OpenMode, int) Use open(int, OpenMode) instead. */ /*! \overload Opens the existing file descriptor \a fd in the given \a mode. Returns true if successful; otherwise returns false. When a QFile is opened using this function, close() does not actually close the file. The QFile that is opened using this function is automatically set to be in raw mode; this means that the file input/output functions are slow. If you run into performance issues, you should try to use one of the other open functions. \warning If \a fd is not a regular file, e.g, it is 0 (\c stdin), 1 (\c stdout), or 2 (\c stderr), you may not be able to seek(). In those cases, size() returns \c 0. See QIODevice::isSequential() for more information. \warning For Windows CE you may not be able to call seek(), setSize(), fileTime(). size() returns \c 0. \warning Since this function opens the file without specifying the file name, you cannot use this QFile with a QFileInfo. \sa close() */ bool QFile::open(int fd, OpenMode mode) { Q_D(QFile); if (isOpen()) { qWarning("QFile::open: File (%s) already open", qPrintable(fileName())); return false; } if (mode & Append) mode |= WriteOnly; unsetError(); if ((mode & (ReadOnly | WriteOnly)) == 0) { qWarning("QFile::open: File access not specified"); return false; } if(d->openExternalFile(mode, fd)) { QIODevice::open(mode); if (mode & Append) { seek(size()); } else { qint64 pos = (qint64)QT_LSEEK(fd, QT_OFF_T(0), SEEK_CUR); if (pos != -1) seek(pos); } return true; } return false; } /*! Returns the file handle of the file. This is a small positive integer, suitable for use with C library functions such as fdopen() and fcntl(). On systems that use file descriptors for sockets (i.e. Unix systems, but not Windows) the handle can be used with QSocketNotifier as well. If the file is not open, or there is an error, handle() returns -1. This function is not supported on Windows CE. \sa QSocketNotifier */ int QFile::handle() const { Q_D(const QFile); if (!isOpen() || !d->fileEngine) return -1; return d->fileEngine->handle(); } /*! \enum QFile::MemoryMapFlags \since 4.4 This enum describes special options that may be used by the map() function. \value NoOptions No options. */ /*! \since 4.4 Maps \a size bytes of the file into memory starting at \a offset. A file should be open for a map to succeed but the file does not need to stay open after the memory has been mapped. When the QFile is destroyed or a new file is opened with this object, any maps that have not been unmapped will automatically be unmapped. Any mapping options can be passed through \a flags. Returns a pointer to the memory or 0 if there is an error. \note On Windows CE 5.0 the file will be closed before mapping occurs. \sa unmap(), QAbstractFileEngine::supportsExtension() */ uchar *QFile::map(qint64 offset, qint64 size, MemoryMapFlags flags) { Q_D(QFile); if (fileEngine() && d->fileEngine->supportsExtension(QAbstractFileEngine::MapExtension)) { unsetError(); uchar *address = d->fileEngine->map(offset, size, flags); if (address == 0) d->setError(d->fileEngine->error(), d->fileEngine->errorString()); return address; } return 0; } /*! \since 4.4 Unmaps the memory \a address. Returns true if the unmap succeeds; false otherwise. \sa map(), QAbstractFileEngine::supportsExtension() */ bool QFile::unmap(uchar *address) { Q_D(QFile); if (fileEngine() && d->fileEngine->supportsExtension(QAbstractFileEngine::UnMapExtension)) { unsetError(); bool success = d->fileEngine->unmap(address); if (!success) d->setError(d->fileEngine->error(), d->fileEngine->errorString()); return success; } return false; } /*! \fn QString QFile::name() const Use fileName() instead. */ /*! \fn void QFile::setName(const QString &name) Use setFileName() instead. */ /*! Sets the file size (in bytes) \a sz. Returns true if the file if the resize succeeds; false otherwise. If \a sz is larger than the file currently is the new bytes will be set to 0, if \a sz is smaller the file is simply truncated. \sa size(), setFileName() */ bool QFile::resize(qint64 sz) { Q_D(QFile); if (!d->ensureFlushed()) return false; fileEngine(); if (isOpen() && d->fileEngine->pos() > sz) seek(sz); if(d->fileEngine->setSize(sz)) { unsetError(); d->cachedSize = sz; return true; } d->cachedSize = 0; d->setError(QFile::ResizeError, d->fileEngine->errorString()); return false; } /*! \overload Sets \a fileName to size (in bytes) \a sz. Returns true if the file if the resize succeeds; false otherwise. If \a sz is larger than \a fileName currently is the new bytes will be set to 0, if \a sz is smaller the file is simply truncated. \sa resize() */ bool QFile::resize(const QString &fileName, qint64 sz) { return QFile(fileName).resize(sz); } /*! Returns the complete OR-ed together combination of QFile::Permission for the file. \sa setPermissions(), setFileName() */ QFile::Permissions QFile::permissions() const { QAbstractFileEngine::FileFlags perms = fileEngine()->fileFlags(QAbstractFileEngine::PermsMask) & QAbstractFileEngine::PermsMask; return QFile::Permissions((int)perms); //ewww } /*! \overload Returns the complete OR-ed together combination of QFile::Permission for \a fileName. */ QFile::Permissions QFile::permissions(const QString &fileName) { return QFile(fileName).permissions(); } /*! Sets the permissions for the file to the \a permissions specified. Returns true if successful, or false if the permissions cannot be modified. \sa permissions(), setFileName() */ bool QFile::setPermissions(Permissions permissions) { Q_D(QFile); if(fileEngine()->setPermissions(permissions)) { unsetError(); return true; } d->setError(QFile::PermissionsError, d->fileEngine->errorString()); return false; } /*! \overload Sets the permissions for \a fileName file to \a permissions. */ bool QFile::setPermissions(const QString &fileName, Permissions permissions) { return QFile(fileName).setPermissions(permissions); } static inline qint64 _qfile_writeData(QAbstractFileEngine *engine, QRingBuffer *buffer) { qint64 ret = engine->write(buffer->readPointer(), buffer->nextDataBlockSize()); if (ret > 0) buffer->free(ret); return ret; } /*! Flushes any buffered data to the file. Returns true if successful; otherwise returns false. */ bool QFile::flush() { Q_D(QFile); if (!d->fileEngine) { qWarning("QFile::flush: No file engine. Is IODevice open?"); return false; } if (!d->writeBuffer.isEmpty()) { qint64 size = d->writeBuffer.size(); if (_qfile_writeData(d->fileEngine, &d->writeBuffer) != size) { QFile::FileError err = d->fileEngine->error(); if(err == QFile::UnspecifiedError) err = QFile::WriteError; d->setError(err, d->fileEngine->errorString()); return false; } } if (!d->fileEngine->flush()) { QFile::FileError err = d->fileEngine->error(); if(err == QFile::UnspecifiedError) err = QFile::WriteError; d->setError(err, d->fileEngine->errorString()); return false; } return true; } /*! Calls QFile::flush() and closes the file. Errors from flush are ignored. \sa QIODevice::close() */ void QFile::close() { Q_D(QFile); if(!isOpen()) return; bool flushed = flush(); QIODevice::close(); // reset write buffer d->lastWasWrite = false; d->writeBuffer.clear(); // keep earlier error from flush if (d->fileEngine->close() && flushed) unsetError(); else if (flushed) d->setError(d->fileEngine->error(), d->fileEngine->errorString()); } /*! Returns the size of the file. For regular empty files on Unix (e.g. those in \c /proc), this function returns 0; the contents of such a file are generated on demand in response to you calling read(). */ qint64 QFile::size() const { Q_D(const QFile); if (!d->ensureFlushed()) return 0; d->cachedSize = fileEngine()->size(); return d->cachedSize; } /*! \reimp */ qint64 QFile::pos() const { return QIODevice::pos(); } /*! Returns true if the end of the file has been reached; otherwise returns false. For regular empty files on Unix (e.g. those in \c /proc), this function returns true, since the file system reports that the size of such a file is 0. Therefore, you should not depend on atEnd() when reading data from such a file, but rather call read() until no more data can be read. */ bool QFile::atEnd() const { Q_D(const QFile); // If there's buffered data left, we're not at the end. if (!d->buffer.isEmpty()) return false; if (!isOpen()) return true; if (!d->ensureFlushed()) return false; // If the file engine knows best, say what it says. if (d->fileEngine->supportsExtension(QAbstractFileEngine::AtEndExtension)) { // Check if the file engine supports AtEndExtension, and if it does, // check if the file engine claims to be at the end. return d->fileEngine->atEnd(); } // if it looks like we are at the end, or if size is not cached, // fall through to bytesAvailable() to make sure. if (pos() < d->cachedSize) return false; // Fall back to checking how much is available (will stat files). return bytesAvailable() == 0; } /*! \reimp */ bool QFile::seek(qint64 off) { Q_D(QFile); if (!isOpen()) { qWarning("QFile::seek: IODevice is not open"); return false; } if (!d->ensureFlushed()) return false; if (!d->fileEngine->seek(off) || !QIODevice::seek(off)) { QFile::FileError err = d->fileEngine->error(); if(err == QFile::UnspecifiedError) err = QFile::PositionError; d->setError(err, d->fileEngine->errorString()); return false; } unsetError(); return true; } /*! \reimp */ qint64 QFile::readLineData(char *data, qint64 maxlen) { Q_D(QFile); if (!d->ensureFlushed()) return -1; qint64 read; if (d->fileEngine->supportsExtension(QAbstractFileEngine::FastReadLineExtension)) { read = d->fileEngine->readLine(data, maxlen); } else { // Fall back to QIODevice's readLine implementation if the engine // cannot do it faster. read = QIODevice::readLineData(data, maxlen); } if (read < maxlen) { // failed to read all requested, may be at the end of file, stop caching size so that it's rechecked d->cachedSize = 0; } return read; } /*! \reimp */ qint64 QFile::readData(char *data, qint64 len) { Q_D(QFile); unsetError(); if (!d->ensureFlushed()) return -1; qint64 read = d->fileEngine->read(data, len); if(read < 0) { QFile::FileError err = d->fileEngine->error(); if(err == QFile::UnspecifiedError) err = QFile::ReadError; d->setError(err, d->fileEngine->errorString()); } if (read < len) { // failed to read all requested, may be at the end of file, stop caching size so that it's rechecked d->cachedSize = 0; } return read; } /*! \internal */ bool QFilePrivate::putCharHelper(char c) { #ifdef QT_NO_QOBJECT return QIODevicePrivate::putCharHelper(c); #else // Cutoff for code that doesn't only touch the buffer. int writeBufferSize = writeBuffer.size(); if ((openMode & QIODevice::Unbuffered) || writeBufferSize + 1 >= QFILE_WRITEBUFFER_SIZE #ifdef Q_OS_WIN || ((openMode & QIODevice::Text) && c == '\n' && writeBufferSize + 2 >= QFILE_WRITEBUFFER_SIZE) #endif ) { return QIODevicePrivate::putCharHelper(c); } if (!(openMode & QIODevice::WriteOnly)) { if (openMode == QIODevice::NotOpen) qWarning("QIODevice::putChar: Closed device"); else qWarning("QIODevice::putChar: ReadOnly device"); return false; } // Make sure the device is positioned correctly. const bool sequential = isSequential(); if (pos != devicePos && !sequential && !q_func()->seek(pos)) return false; lastWasWrite = true; int len = 1; #ifdef Q_OS_WIN if ((openMode & QIODevice::Text) && c == '\n') { ++len; *writeBuffer.reserve(1) = '\r'; } #endif // Write to buffer. *writeBuffer.reserve(1) = c; if (!sequential) { pos += len; devicePos += len; if (!buffer.isEmpty()) buffer.skip(len); } return true; #endif } /*! \reimp */ qint64 QFile::writeData(const char *data, qint64 len) { Q_D(QFile); unsetError(); d->lastWasWrite = true; bool buffered = !(d->openMode & Unbuffered); // Flush buffered data if this read will overflow. if (buffered && (d->writeBuffer.size() + len) > QFILE_WRITEBUFFER_SIZE) { if (!flush()) return -1; } // Write directly to the engine if the block size is larger than // the write buffer size. if (!buffered || len > QFILE_WRITEBUFFER_SIZE) { qint64 ret = d->fileEngine->write(data, len); if(ret < 0) { QFile::FileError err = d->fileEngine->error(); if(err == QFile::UnspecifiedError) err = QFile::WriteError; d->setError(err, d->fileEngine->errorString()); } return ret; } // Write to the buffer. char *writePointer = d->writeBuffer.reserve(len); if (len == 1) *writePointer = *data; else ::memcpy(writePointer, data, len); return len; } /*! \internal Returns the QIOEngine for this QFile object. */ QAbstractFileEngine *QFile::fileEngine() const { Q_D(const QFile); if(!d->fileEngine) d->fileEngine = QAbstractFileEngine::create(d->fileName); return d->fileEngine; } /*! Returns the file error status. The I/O device status returns an error code. For example, if open() returns false, or a read/write operation returns -1, this function can be called to find out the reason why the operation failed. \sa unsetError() */ QFile::FileError QFile::error() const { Q_D(const QFile); return d->error; } /*! Sets the file's error to QFile::NoError. \sa error() */ void QFile::unsetError() { Q_D(QFile); d->setError(QFile::NoError); } QT_END_NAMESPACE