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These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qabstractfileengine.h" #include "private/qabstractfileengine_p.h" #ifdef QT_BUILD_CORE_LIB #include "private/qresource_p.h" #endif #include "qdatetime.h" #include "qreadwritelock.h" #include "qvariant.h" // built-in handlers #include "qfsfileengine.h" #include "qdiriterator.h" #include "qstringbuilder.h" #include #include #include QT_BEGIN_NAMESPACE /*! \class QAbstractFileEngineHandler \reentrant \brief The QAbstractFileEngineHandler class provides a way to register custom file engines with your application. \ingroup io \since 4.1 QAbstractFileEngineHandler is a factory for creating QAbstractFileEngine objects (file engines), which are used internally by QFile, QFileInfo, and QDir when working with files and directories. When you open a file, Qt chooses a suitable file engine by passing the file name from QFile or QDir through an internal list of registered file engine handlers. The first handler to recognize the file name is used to create the engine. Qt provides internal file engines for working with regular files and resources, but you can also register your own QAbstractFileEngine subclasses. To install an application-specific file engine, you subclass QAbstractFileEngineHandler and reimplement create(). When you instantiate the handler (e.g. by creating an instance on the stack or on the heap), it will automatically register with Qt. (The latest registered handler takes precedence over existing handlers.) For example: \snippet doc/src/snippets/code/src_corelib_io_qabstractfileengine.cpp 0 When the handler is destroyed, it is automatically removed from Qt. The most common approach to registering a handler is to create an instance as part of the start-up phase of your application. It is also possible to limit the scope of the file engine handler to a particular area of interest (e.g. a special file dialog that needs a custom file engine). By creating the handler inside a local scope, you can precisely control the area in which your engine will be applied without disturbing file operations in other parts of your application. \sa QAbstractFileEngine, QAbstractFileEngine::create() */ static bool qt_file_engine_handlers_in_use = false; /* All application-wide handlers are stored in this list. The mutex must be acquired to ensure thread safety. */ Q_GLOBAL_STATIC_WITH_ARGS(QReadWriteLock, fileEngineHandlerMutex, (QReadWriteLock::Recursive)) static bool qt_abstractfileenginehandlerlist_shutDown = false; class QAbstractFileEngineHandlerList : public QList { public: ~QAbstractFileEngineHandlerList() { QWriteLocker locker(fileEngineHandlerMutex()); qt_abstractfileenginehandlerlist_shutDown = true; } }; Q_GLOBAL_STATIC(QAbstractFileEngineHandlerList, fileEngineHandlers) /*! Constructs a file handler and registers it with Qt. Once created this handler's create() function will be called (along with all the other handlers) for any paths used. The most recently created handler that recognizes the given path (i.e. that returns a QAbstractFileEngine) is used for the new path. \sa create() */ QAbstractFileEngineHandler::QAbstractFileEngineHandler() { QWriteLocker locker(fileEngineHandlerMutex()); qt_file_engine_handlers_in_use = true; fileEngineHandlers()->prepend(this); } /*! Destroys the file handler. This will automatically unregister the handler from Qt. */ QAbstractFileEngineHandler::~QAbstractFileEngineHandler() { QWriteLocker locker(fileEngineHandlerMutex()); // Remove this handler from the handler list only if the list is valid. if (!qt_abstractfileenginehandlerlist_shutDown) { QAbstractFileEngineHandlerList *handlers = fileEngineHandlers(); handlers->removeOne(this); if (handlers->isEmpty()) qt_file_engine_handlers_in_use = false; } } /* \ìnternal Handles calls to custom file engine handlers. */ QAbstractFileEngine *qt_custom_file_engine_handler_create(const QString &path) { QAbstractFileEngine *engine = 0; if (qt_file_engine_handlers_in_use) { QReadLocker locker(fileEngineHandlerMutex()); // check for registered handlers that can load the file QAbstractFileEngineHandlerList *handlers = fileEngineHandlers(); for (int i = 0; i < handlers->size(); i++) { if ((engine = handlers->at(i)->create(path))) break; } } return engine; } /*! \fn QAbstractFileEngine *QAbstractFileEngineHandler::create(const QString &fileName) const Creates a file engine for file \a fileName. Returns 0 if this file handler cannot handle \a fileName. Example: \snippet doc/src/snippets/code/src_corelib_io_qabstractfileengine.cpp 1 \sa QAbstractFileEngine::create() */ /*! Creates and returns a QAbstractFileEngine suitable for processing \a fileName. You should not need to call this function; use QFile, QFileInfo or QDir directly instead. If you reimplemnt this function, it should only return file engines that knows how to handle \a fileName; otherwise, it should return 0. \sa QAbstractFileEngineHandler */ QAbstractFileEngine *QAbstractFileEngine::create(const QString &fileName) { QFileSystemEntry entry(fileName); QFileSystemMetaData metaData; QAbstractFileEngine *engine = QFileSystemEngine::resolveEntryAndCreateLegacyEngine(entry, metaData); #ifndef QT_NO_FSFILEENGINE if (!engine) // fall back to regular file engine return new QFSFileEngine(entry.filePath()); #endif return engine; } /*! \class QAbstractFileEngine \reentrant \brief The QAbstractFileEngine class provides an abstraction for accessing the filesystem. \ingroup io \since 4.1 The QDir, QFile, and QFileInfo classes all make use of a QAbstractFileEngine internally. If you create your own QAbstractFileEngine subclass (and register it with Qt by creating a QAbstractFileEngineHandler subclass), your file engine will be used when the path is one that your file engine handles. A QAbstractFileEngine refers to one file or one directory. If the referent is a file, the setFileName(), rename(), and remove() functions are applicable. If the referent is a directory the mkdir(), rmdir(), and entryList() functions are applicable. In all cases the caseSensitive(), isRelativePath(), fileFlags(), ownerId(), owner(), and fileTime() functions are applicable. A QAbstractFileEngine subclass can be created to do synchronous network I/O based file system operations, local file system operations, or to operate as a resource system to access file based resources. \sa QAbstractFileEngineHandler */ /*! \enum QAbstractFileEngine::FileName These values are used to request a file name in a particular format. \value DefaultName The same filename that was passed to the QAbstractFileEngine. \value BaseName The name of the file excluding the path. \value PathName The path to the file excluding the base name. \value AbsoluteName The absolute path to the file (including the base name). \value AbsolutePathName The absolute path to the file (excluding the base name). \value LinkName The full file name of the file that this file is a link to. (This will be empty if this file is not a link.) \value CanonicalName Often very similar to LinkName. Will return the true path to the file. \value CanonicalPathName Same as CanonicalName, excluding the base name. \value BundleName Returns the name of the bundle implies BundleType is set. \omitvalue NFileNames \sa fileName(), setFileName() */ /*! \enum QAbstractFileEngine::FileFlag The permissions and types of a file, suitable for OR'ing together. \value ReadOwnerPerm The owner of the file has permission to read it. \value WriteOwnerPerm The owner of the file has permission to write to it. \value ExeOwnerPerm The owner of the file has permission to execute it. \value ReadUserPerm The current user has permission to read the file. \value WriteUserPerm The current user has permission to write to the file. \value ExeUserPerm The current user has permission to execute the file. \value ReadGroupPerm Members of the current user's group have permission to read the file. \value WriteGroupPerm Members of the current user's group have permission to write to the file. \value ExeGroupPerm Members of the current user's group have permission to execute the file. \value ReadOtherPerm All users have permission to read the file. \value WriteOtherPerm All users have permission to write to the file. \value ExeOtherPerm All users have permission to execute the file. \value LinkType The file is a link to another file (or link) in the file system (i.e. not a file or directory). \value FileType The file is a regular file to the file system (i.e. not a link or directory) \value BundleType The file is a Mac OS X bundle implies DirectoryType \value DirectoryType The file is a directory in the file system (i.e. not a link or file). \value HiddenFlag The file is hidden. \value ExistsFlag The file actually exists in the file system. \value RootFlag The file or the file pointed to is the root of the filesystem. \value LocalDiskFlag The file resides on the local disk and can be passed to standard file functions. \value Refresh Passing this flag will force the file engine to refresh all flags. \omitvalue PermsMask \omitvalue TypesMask \omitvalue FlagsMask \omitvalue FileInfoAll \sa fileFlags(), setFileName() */ /*! \enum QAbstractFileEngine::FileTime These are used by the fileTime() function. \value CreationTime When the file was created. \value ModificationTime When the file was most recently modified. \value AccessTime When the file was most recently accessed (e.g. read or written to). \sa setFileName() */ /*! \enum QAbstractFileEngine::FileOwner \value OwnerUser The user who owns the file. \value OwnerGroup The group who owns the file. \sa owner(), ownerId(), setFileName() */ /*! Constructs a new QAbstractFileEngine that does not refer to any file or directory. \sa setFileName() */ QAbstractFileEngine::QAbstractFileEngine() : d_ptr(new QAbstractFileEnginePrivate) { d_ptr->q_ptr = this; } /*! \internal Constructs a QAbstractFileEngine. */ QAbstractFileEngine::QAbstractFileEngine(QAbstractFileEnginePrivate &dd) : d_ptr(&dd) { d_ptr->q_ptr = this; } /*! Destroys the QAbstractFileEngine. */ QAbstractFileEngine::~QAbstractFileEngine() { } /*! \fn bool QAbstractFileEngine::open(QIODevice::OpenMode mode) Opens the file in the specified \a mode. Returns true if the file was successfully opened; otherwise returns false. The \a mode is an OR combination of QIODevice::OpenMode and QIODevice::HandlingMode values. */ bool QAbstractFileEngine::open(QIODevice::OpenMode openMode) { Q_UNUSED(openMode); return false; } /*! Closes the file, returning true if successful; otherwise returns false. The default implementation always returns false. */ bool QAbstractFileEngine::close() { return false; } /*! Flushes the open file, returning true if successful; otherwise returns false. The default implementation always returns false. */ bool QAbstractFileEngine::flush() { return false; } /*! Returns the size of the file. */ qint64 QAbstractFileEngine::size() const { return 0; } /*! Returns the current file position. This is the position of the data read/write head of the file. */ qint64 QAbstractFileEngine::pos() const { return 0; } /*! \fn bool QAbstractFileEngine::seek(qint64 offset) Sets the file position to the given \a offset. Returns true if the position was successfully set; otherwise returns false. The offset is from the beginning of the file, unless the file is sequential. \sa isSequential() */ bool QAbstractFileEngine::seek(qint64 pos) { Q_UNUSED(pos); return false; } /*! Returns true if the file is a sequential access device; returns false if the file is a direct access device. Operations involving size() and seek(int) are not valid on sequential devices. */ bool QAbstractFileEngine::isSequential() const { return false; } /*! Requests that the file is deleted from the file system. If the operation succeeds return true; otherwise return false. This virtual function must be reimplemented by all subclasses. \sa setFileName() rmdir() */ bool QAbstractFileEngine::remove() { return false; } /*! Copies the contents of this file to a file with the name \a newName. Returns true on success; otherwise, false is returned. */ bool QAbstractFileEngine::copy(const QString &newName) { Q_UNUSED(newName); return false; } /*! Requests that the file be renamed to \a newName in the file system. If the operation succeeds return true; otherwise return false. This virtual function must be reimplemented by all subclasses. \sa setFileName() */ bool QAbstractFileEngine::rename(const QString &newName) { Q_UNUSED(newName); return false; } /*! Creates a link from the file currently specified by fileName() to \a newName. 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. */ bool QAbstractFileEngine::link(const QString &newName) { Q_UNUSED(newName); return false; } /*! Requests that the directory \a dirName be created. If \a createParentDirectories is true, then any sub-directories in \a dirName that don't exist must be created. If \a createParentDirectories is false then any sub-directories in \a dirName must already exist for the function to succeed. If the operation succeeds return true; otherwise return false. This virtual function must be reimplemented by all subclasses. \sa setFileName() rmdir() isRelativePath() */ bool QAbstractFileEngine::mkdir(const QString &dirName, bool createParentDirectories) const { Q_UNUSED(dirName); Q_UNUSED(createParentDirectories); return false; } /*! Requests that the directory \a dirName is deleted from the file system. When \a recurseParentDirectories is true, then any empty parent-directories in \a dirName must also be deleted. If \a recurseParentDirectories is false, only the \a dirName leaf-node should be deleted. In most file systems a directory cannot be deleted using this function if it is non-empty. If the operation succeeds return true; otherwise return false. This virtual function must be reimplemented by all subclasses. \sa setFileName() remove() mkdir() isRelativePath() */ bool QAbstractFileEngine::rmdir(const QString &dirName, bool recurseParentDirectories) const { Q_UNUSED(dirName); Q_UNUSED(recurseParentDirectories); return false; } /*! Requests that the file be set to size \a size. If \a size is larger than the current file then it is filled with 0's, if smaller it is simply truncated. If the operations succceeds return true; otherwise return false; This virtual function must be reimplemented by all subclasses. \sa size() */ bool QAbstractFileEngine::setSize(qint64 size) { Q_UNUSED(size); return false; } /*! Should return true if the underlying file system is case-sensitive; otherwise return false. This virtual function must be reimplemented by all subclasses. */ bool QAbstractFileEngine::caseSensitive() const { return false; } /*! Return true if the file referred to by this file engine has a relative path; otherwise return false. This virtual function must be reimplemented by all subclasses. \sa setFileName() */ bool QAbstractFileEngine::isRelativePath() const { return false; } /*! Requests that a list of all the files matching the \a filters list based on the \a filterNames in the file engine's directory are returned. Should return an empty list if the file engine refers to a file rather than a directory, or if the directory is unreadable or does not exist or if nothing matches the specifications. This virtual function must be reimplemented by all subclasses. \sa setFileName() */ QStringList QAbstractFileEngine::entryList(QDir::Filters filters, const QStringList &filterNames) const { QStringList ret; QDirIterator it(fileName(), filterNames, filters); while (it.hasNext()) { it.next(); ret << it.fileName(); } return ret; } /*! This function should return the set of OR'd flags that are true for the file engine's file, and that are in the \a type's OR'd members. In your reimplementation you can use the \a type argument as an optimization hint and only return the OR'd set of members that are true and that match those in \a type; in other words you can ignore any members not mentioned in \a type, thus avoiding some potentially expensive lookups or system calls. This virtual function must be reimplemented by all subclasses. \sa setFileName() */ QAbstractFileEngine::FileFlags QAbstractFileEngine::fileFlags(FileFlags type) const { Q_UNUSED(type); return 0; } /*! Requests that the file's permissions be set to \a perms. The argument perms will be set to the OR-ed together combination of QAbstractFileEngine::FileInfo, with only the QAbstractFileEngine::PermsMask being honored. If the operations succceeds return true; otherwise return false; This virtual function must be reimplemented by all subclasses. \sa size() */ bool QAbstractFileEngine::setPermissions(uint perms) { Q_UNUSED(perms); return false; } /*! Return the file engine's current file name in the format specified by \a file. If you don't handle some \c FileName possibilities, return the file name set in setFileName() when an unhandled format is requested. This virtual function must be reimplemented by all subclasses. \sa setFileName(), FileName */ QString QAbstractFileEngine::fileName(FileName file) const { Q_UNUSED(file); return QString(); } /*! If \a owner is \c OwnerUser return the ID of the user who owns the file. If \a owner is \c OwnerGroup return the ID of the group that own the file. If you can't determine the owner return -2. This virtual function must be reimplemented by all subclasses. \sa owner() setFileName(), FileOwner */ uint QAbstractFileEngine::ownerId(FileOwner owner) const { Q_UNUSED(owner); return 0; } /*! If \a owner is \c OwnerUser return the name of the user who owns the file. If \a owner is \c OwnerGroup return the name of the group that own the file. If you can't determine the owner return QString(). This virtual function must be reimplemented by all subclasses. \sa ownerId() setFileName(), FileOwner */ QString QAbstractFileEngine::owner(FileOwner owner) const { Q_UNUSED(owner); return QString(); } /*! If \a time is \c CreationTime, return when the file was created. If \a time is \c ModificationTime, return when the file was most recently modified. If \a time is \c AccessTime, return when the file was most recently accessed (e.g. read or written). If the time cannot be determined return QDateTime() (an invalid date time). This virtual function must be reimplemented by all subclasses. \sa setFileName(), QDateTime, QDateTime::isValid(), FileTime */ QDateTime QAbstractFileEngine::fileTime(FileTime time) const { Q_UNUSED(time); return QDateTime(); } /*! Sets the file engine's file name to \a file. This file name is the file that the rest of the virtual functions will operate on. This virtual function must be reimplemented by all subclasses. \sa rename() */ void QAbstractFileEngine::setFileName(const QString &file) { Q_UNUSED(file); } /*! Returns the native file handle for this file engine. This handle must be used with care; its value and type are platform specific, and using it will most likely lead to non-portable code. */ int QAbstractFileEngine::handle() const { return -1; } /*! \since 4.3 Returns true if the current position is at the end of the file; otherwise, returns false. This function bases its behavior on calling extension() with AtEndExtension. If the engine does not support this extension, false is returned. \sa extension(), supportsExtension(), QFile::atEnd() */ bool QAbstractFileEngine::atEnd() const { return const_cast(this)->extension(AtEndExtension); } /*! \since 4.4 Maps \a size bytes of the file into memory starting at \a offset. Returns a pointer to the memory if successful; otherwise returns false if, for example, an error occurs. This function bases its behavior on calling extension() with MapExtensionOption. If the engine does not support this extension, 0 is returned. \a flags is currently not used, but could be used in the future. \sa unmap(), supportsExtension() */ uchar *QAbstractFileEngine::map(qint64 offset, qint64 size, QFile::MemoryMapFlags flags) { MapExtensionOption option; option.offset = offset; option.size = size; option.flags = flags; MapExtensionReturn r; if (!extension(MapExtension, &option, &r)) return 0; return r.address; } /*! \since 4.4 Unmaps the memory \a address. Returns true if the unmap succeeds; otherwise returns false. This function bases its behavior on calling extension() with UnMapExtensionOption. If the engine does not support this extension, false is returned. \sa map(), supportsExtension() */ bool QAbstractFileEngine::unmap(uchar *address) { UnMapExtensionOption options; options.address = address; return extension(UnMapExtension, &options); } /*! \since 4.3 \class QAbstractFileEngineIterator \brief The QAbstractFileEngineIterator class provides an iterator interface for custom file engines. If all you want is to iterate over entries in a directory, see QDirIterator instead. This class is only for custom file engine authors. QAbstractFileEngineIterator is a unidirectional single-use virtual iterator that plugs into QDirIterator, providing transparent proxy iteration for custom file engines. You can subclass QAbstractFileEngineIterator to provide an iterator when writing your own file engine. To plug the iterator into your file system, you simply return an instance of this subclass from a reimplementation of QAbstractFileEngine::beginEntryList(). Example: \snippet doc/src/snippets/code/src_corelib_io_qabstractfileengine.cpp 2 QAbstractFileEngineIterator is associated with a path, name filters, and entry filters. The path is the directory that the iterator lists entries in. The name filters and entry filters are provided for file engines that can optimize directory listing at the iterator level (e.g., network file systems that need to minimize network traffic), but they can also be ignored by the iterator subclass; QAbstractFileEngineIterator already provides the required filtering logics in the matchesFilters() function. You can call dirName() to get the directory name, nameFilters() to get a stringlist of name filters, and filters() to get the entry filters. The pure virtual function hasNext() returns true if the current directory has at least one more entry (i.e., the directory name is valid and accessible, and we have not reached the end of the entry list), and false otherwise. Reimplement next() to seek to the next entry. The pure virtual function currentFileName() returns the name of the current entry without advancing the iterator. The currentFilePath() function is provided for convenience; it returns the full path of the current entry. Here is an example of how to implement an iterator that returns each of three fixed entries in sequence. \snippet doc/src/snippets/code/src_corelib_io_qabstractfileengine.cpp 3 Note: QAbstractFileEngineIterator does not deal with QDir::IteratorFlags; it simply returns entries for a single directory. \sa QDirIterator */ /*! \enum QAbstractFileEngineIterator::EntryInfoType \internal This enum describes the different types of information that can be requested through the QAbstractFileEngineIterator::entryInfo() function. */ /*! \typedef QAbstractFileEngine::Iterator \since 4.3 \relates QAbstractFileEngine Synonym for QAbstractFileEngineIterator. */ class QAbstractFileEngineIteratorPrivate { public: QString path; QDir::Filters filters; QStringList nameFilters; QFileInfo fileInfo; }; /*! Constructs a QAbstractFileEngineIterator, using the entry filters \a filters, and wildcard name filters \a nameFilters. */ QAbstractFileEngineIterator::QAbstractFileEngineIterator(QDir::Filters filters, const QStringList &nameFilters) : d(new QAbstractFileEngineIteratorPrivate) { d->nameFilters = nameFilters; d->filters = filters; } /*! Destroys the QAbstractFileEngineIterator. \sa QDirIterator */ QAbstractFileEngineIterator::~QAbstractFileEngineIterator() { } /*! Returns the path for this iterator. QDirIterator is responsible for assigning this path; it cannot change during the iterator's lifetime. \sa nameFilters(), filters() */ QString QAbstractFileEngineIterator::path() const { return d->path; } /*! \internal Sets the iterator path to \a path. This function is called from within QDirIterator. */ void QAbstractFileEngineIterator::setPath(const QString &path) { d->path = path; } /*! Returns the name filters for this iterator. \sa QDir::nameFilters(), filters(), path() */ QStringList QAbstractFileEngineIterator::nameFilters() const { return d->nameFilters; } /*! Returns the entry filters for this iterator. \sa QDir::filter(), nameFilters(), path() */ QDir::Filters QAbstractFileEngineIterator::filters() const { return d->filters; } /*! \fn QString QAbstractFileEngineIterator::currentFileName() const = 0 This pure virtual function returns the name of the current directory entry, excluding the path. \sa currentFilePath() */ /*! Returns the path to the current directory entry. It's the same as prepending path() to the return value of currentFileName(). \sa currentFileName() */ QString QAbstractFileEngineIterator::currentFilePath() const { QString name = currentFileName(); if (!name.isNull()) { QString tmp = path(); if (!tmp.isEmpty()) { if (!tmp.endsWith(QLatin1Char('/'))) tmp.append(QLatin1Char('/')); name.prepend(tmp); } } return name; } /*! The virtual function returns a QFileInfo for the current directory entry. This function is provided for convenience. It can also be slightly faster than creating a QFileInfo object yourself, as the object returned by this function might contain cached information that QFileInfo otherwise would have to access through the file engine. \sa currentFileName() */ QFileInfo QAbstractFileEngineIterator::currentFileInfo() const { QString path = currentFilePath(); if (d->fileInfo.filePath() != path) d->fileInfo.setFile(path); // return a shallow copy return d->fileInfo; } /*! \internal Returns the entry info \a type for this iterator's current directory entry as a QVariant. If \a type is undefined for this entry, a null QVariant is returned. \sa QAbstractFileEngine::beginEntryList(), QDir::beginEntryList() */ QVariant QAbstractFileEngineIterator::entryInfo(EntryInfoType type) const { Q_UNUSED(type) return QVariant(); } /*! \fn virtual QString QAbstractFileEngineIterator::next() = 0 This pure virtual function advances the iterator to the next directory entry, and returns the file path to the current entry. This function can optionally make use of nameFilters() and filters() to optimize its performance. Reimplement this function in a subclass to advance the iterator. \sa QDirIterator::next() */ /*! \fn virtual bool QAbstractFileEngineIterator::hasNext() const = 0 This pure virtual function returns true if there is at least one more entry in the current directory (i.e., the iterator path is valid and accessible, and the iterator has not reached the end of the entry list). \sa QDirIterator::hasNext() */ /*! Returns an instance of a QAbstractFileEngineIterator using \a filters for entry filtering and \a filterNames for name filtering. This function is called by QDirIterator to initiate directory iteration. QDirIterator takes ownership of the returned instance, and deletes it when it's done. \sa QDirIterator */ QAbstractFileEngine::Iterator *QAbstractFileEngine::beginEntryList(QDir::Filters filters, const QStringList &filterNames) { Q_UNUSED(filters); Q_UNUSED(filterNames); return 0; } /*! \internal */ QAbstractFileEngine::Iterator *QAbstractFileEngine::endEntryList() { return 0; } /*! Reads a number of characters from the file into \a data. At most \a maxlen characters will be read. Returns -1 if a fatal error occurs, or 0 if there are no bytes to read. */ qint64 QAbstractFileEngine::read(char *data, qint64 maxlen) { Q_UNUSED(data); Q_UNUSED(maxlen); return -1; } /*! Writes \a len bytes from \a data to the file. Returns the number of characters written on success; otherwise returns -1. */ qint64 QAbstractFileEngine::write(const char *data, qint64 len) { Q_UNUSED(data); Q_UNUSED(len); return -1; } /*! This function reads one line, terminated by a '\n' character, from the file info \a data. At most \a maxlen characters will be read. The end-of-line character is included. */ qint64 QAbstractFileEngine::readLine(char *data, qint64 maxlen) { qint64 readSoFar = 0; while (readSoFar < maxlen) { char c; qint64 readResult = read(&c, 1); if (readResult <= 0) return (readSoFar > 0) ? readSoFar : -1; ++readSoFar; *data++ = c; if (c == '\n') return readSoFar; } return readSoFar; } /*! \enum QAbstractFileEngine::Extension \since 4.3 This enum describes the types of extensions that the file engine can support. Before using these extensions, you must verify that the extension is supported (i.e., call supportsExtension()). \value AtEndExtension Whether the current file position is at the end of the file or not. This extension allows file engines that implement local buffering to report end-of-file status without having to check the size of the file. It is also useful for sequential files, where the size of the file cannot be used to determine whether or not you have reached the end. This extension returns true if the file is at the end; otherwise it returns false. The input and output arguments to extension() are ignored. \value FastReadLineExtension Whether the file engine provides a fast implementation for readLine() or not. If readLine() remains unimplemented in the file engine, QAbstractFileEngine will provide an implementation based on calling read() repeatedly. If supportsExtension() returns false for this extension, however, QIODevice can provide a faster implementation by making use of its internal buffer. For engines that already provide a fast readLine() implementation, returning false for this extension can avoid unnnecessary double-buffering in QIODevice. \value MapExtension Whether the file engine provides the ability to map a file to memory. \value UnMapExtension Whether the file engine provides the ability to unmap memory that was previously mapped. */ /*! \class QAbstractFileEngine::ExtensionOption \since 4.3 \brief provides an extended input argument to QAbstractFileEngine's extension support. \sa QAbstractFileEngine::extension() */ /*! \class QAbstractFileEngine::ExtensionReturn \since 4.3 \brief provides an extended output argument to QAbstractFileEngine's extension support. \sa QAbstractFileEngine::extension() */ /*! \since 4.3 This virtual function can be reimplemented in a QAbstractFileEngine subclass to provide support for extensions. The \a option argument is provided as input to the extension, and this function can store output results in \a output. The behavior of this function is determined by \a extension; see the Extension documentation for details. You can call supportsExtension() to check if an extension is supported by the file engine. By default, no extensions are supported, and this function returns false. \sa supportsExtension(), Extension */ bool QAbstractFileEngine::extension(Extension extension, const ExtensionOption *option, ExtensionReturn *output) { Q_UNUSED(extension); Q_UNUSED(option); Q_UNUSED(output); return false; } /*! \since 4.3 This virtual function returns true if the file engine supports \a extension; otherwise, false is returned. By default, no extensions are supported. \sa extension() */ bool QAbstractFileEngine::supportsExtension(Extension extension) const { Q_UNUSED(extension); return false; } /*! Returns the QFile::FileError that resulted from the last failed operation. If QFile::UnspecifiedError is returned, QFile will use its own idea of the error status. \sa QFile::FileError, errorString() */ QFile::FileError QAbstractFileEngine::error() const { Q_D(const QAbstractFileEngine); return d->fileError; } /*! Returns the human-readable message appropriate to the current error reported by error(). If no suitable string is available, an empty string is returned. \sa error() */ QString QAbstractFileEngine::errorString() const { Q_D(const QAbstractFileEngine); return d->errorString; } /*! Sets the error type to \a error, and the error string to \a errorString. Call this function to set the error values returned by the higher-level classes. \sa QFile::error(), QIODevice::errorString(), QIODevice::setErrorString() */ void QAbstractFileEngine::setError(QFile::FileError error, const QString &errorString) { Q_D(QAbstractFileEngine); d->fileError = error; d->errorString = errorString; } QT_END_NAMESPACE