/**************************************************************************** ** ** Implementation of TQDir class ** ** Created : 950427 ** ** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the tools module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "qplatformdefs.h" #include "qdir.h" #ifndef QT_NO_DIR #include #include "qfileinfo.h" #include "qregexp.h" #include "qstringlist.h" #include "qdeepcopy.h" #include #if defined(Q_FS_FAT) && !defined(Q_OS_UNIX) const bool CaseSensitiveFS = FALSE; #else const bool CaseSensitiveFS = TRUE; #endif /*! \class TQDir \reentrant \brief The TQDir class provides access to directory structures and their contents in a platform-independent way. \ingroup io \mainclass A TQDir is used to manipulate path names, access information regarding paths and files, and manipulate the underlying file system. A TQDir can point to a file using either a relative or an absolute path. Absolute paths begin with the directory separator "/" (optionally preceded by a drive specification under Windows). If you always use "/" as a directory separator, TQt will translate your paths to conform to the underlying operating system. Relative file names begin with a directory name or a file name and specify a path relative to the current directory. The "current" path refers to the application's working directory. A TQDir's own path is set and retrieved with setPath() and path(). An example of an absolute path is the string "/tmp/quartz", a relative path might look like "src/fatlib". You can use the function isRelative() to check if a TQDir is using a relative or an absolute file path. Call convertToAbs() to convert a relative TQDir to an absolute one. For a simplified path use cleanDirPath(). To obtain a path which has no symbolic links or redundant ".." elements use canonicalPath(). The path can be set with setPath(), and changed with cd() and cdUp(). TQDir provides several static functions, for example, setCurrent() to set the application's working directory and currentDirPath() to retrieve the application's working directory. Access to some common paths is provided with the static functions, current(), home() and root() which return TQDir objects or currentDirPath(), homeDirPath() and rootDirPath() which return the path as a string. If you want to know about your application's path use \l{TQApplication::applicationDirPath()}. The number of entries in a directory is returned by count(). Obtain a string list of the names of all the files and directories in a directory with entryList(). If you prefer a list of TQFileInfo pointers use entryInfoList(). Both these functions can apply a name filter, an attributes filter (e.g. read-only, files not directories, etc.), and a sort order. The filters and sort may be set with calls to setNameFilter(), setFilter() and setSorting(). They may also be specified in the entryList() and entryInfoList()'s arguments. Create a new directory with mkdir(), rename a directory with rename() and remove an existing directory with rmdir(). Remove a file with remove(). You can interrogate a directory with exists(), isReadable() and isRoot(). To get a path with a filename use filePath(), and to get a directory name use dirName(); neither of these functions checks for the existence of the file or directory. The list of root directories is provided by drives(); on Unix systems this returns a list containing one root directory, "/"; on Windows the list will usually contain "C:/", and possibly "D:/", etc. It is easiest to work with "/" separators in TQt code. If you need to present a path to the user or need a path in a form suitable for a function in the underlying operating system use convertSeparators(). Examples: See if a directory exists. \code TQDir d( "example" ); // "./example" if ( !d.exists() ) qWarning( "Cannot find the example directory" ); \endcode Traversing directories and reading a file. \code TQDir d = TQDir::root(); // "/" if ( !d.cd("tmp") ) { // "/tmp" qWarning( "Cannot find the \"/tmp\" directory" ); } else { TQFile f( d.filePath("ex1.txt") ); // "/tmp/ex1.txt" if ( !f.open(IO_ReadWrite) ) qWarning( "Cannot create the file %s", f.name() ); } \endcode A program that lists all the files in the current directory (excluding symbolic links), sorted by size, smallest first: \code #include #include int main( int argc, char **argv ) { TQDir d; d.setFilter( TQDir::Files | TQDir::Hidden | TQDir::NoSymLinks ); d.setSorting( TQDir::Size | TQDir::Reversed ); const TQFileInfoList *list = d.entryInfoList(); TQFileInfoListIterator it( *list ); TQFileInfo *fi; printf( " Bytes Filename\n" ); while ( (fi = it.current()) != 0 ) { printf( "%10li %s\n", fi->size(), fi->fileName().latin1() ); ++it; } return 0; } \endcode \sa TQApplication::applicationDirPath() */ /*! Constructs a TQDir pointing to the current directory ("."). \sa currentDirPath() */ TQDir::TQDir() { dPath = TQString::fromLatin1("."); init(); } /*! Constructs a TQDir with path \a path, that filters its entries by name using \a nameFilter and by attributes using \a filterSpec. It also sorts the names using \a sortSpec. The default \a nameFilter is an empty string, which excludes nothing; the default \a filterSpec is \c All, which also means exclude nothing. The default \a sortSpec is \c Name|IgnoreCase, i.e. sort by name case-insensitively. Example that lists all the files in "/tmp": \code TQDir d( "/tmp" ); for ( int i = 0; i < d.count(); i++ ) printf( "%s\n", d[i] ); \endcode If \a path is "" or TQString::null, TQDir uses "." (the current directory). If \a nameFilter is "" or TQString::null, TQDir uses the name filter "*" (all files). Note that \a path need not exist. \sa exists(), setPath(), setNameFilter(), setFilter(), setSorting() */ TQDir::TQDir( const TQString &path, const TQString &nameFilter, int sortSpec, int filterSpec ) { init(); dPath = cleanDirPath( path ); if ( dPath.isEmpty() ) dPath = TQString::fromLatin1("."); nameFilt = nameFilter; if ( nameFilt.isEmpty() ) nameFilt = TQString::fromLatin1("*"); filtS = (FilterSpec)filterSpec; sortS = (SortSpec)sortSpec; } /*! Constructs a TQDir that is a copy of the directory \a d. \sa operator=() */ TQDir::TQDir( const TQDir &d ) { dPath = d.dPath; fList = 0; fiList = 0; nameFilt = d.nameFilt; dirty = TRUE; allDirs = d.allDirs; filtS = d.filtS; sortS = d.sortS; } /*! Refreshes the directory information. */ void TQDir::refresh() const { TQDir* that = (TQDir*) this; that->dirty = TRUE; } void TQDir::init() { fList = 0; fiList = 0; nameFilt = TQString::fromLatin1("*"); dirty = TRUE; allDirs = FALSE; filtS = All; sortS = SortSpec(Name | IgnoreCase); } /*! Destroys the TQDir frees up its resources. */ TQDir::~TQDir() { delete fList; delete fiList; } /*! Sets the path of the directory to \a path. The path is cleaned of redundant ".", ".." and of multiple separators. No check is made to ensure that a directory with this path exists. The path can be either absolute or relative. Absolute paths begin with the directory separator "/" (optionally preceded by a drive specification under Windows). Relative file names begin with a directory name or a file name and specify a path relative to the current directory. An example of an absolute path is the string "/tmp/quartz", a relative path might look like "src/fatlib". \sa path(), absPath(), exists(), cleanDirPath(), dirName(), absFilePath(), isRelative(), convertToAbs() */ void TQDir::setPath( const TQString &path ) { dPath = cleanDirPath( path ); if ( dPath.isEmpty() ) dPath = TQString::fromLatin1("."); dirty = TRUE; } /*! \fn TQString TQDir::path() const Returns the path, this may contain symbolic links, but never contains redundant ".", ".." or multiple separators. The returned path can be either absolute or relative (see setPath()). \sa setPath(), absPath(), exists(), cleanDirPath(), dirName(), absFilePath(), convertSeparators() */ /*! Returns the absolute path (a path that starts with "/" or with a drive specification), which may contain symbolic links, but never contains redundant ".", ".." or multiple separators. \sa setPath(), canonicalPath(), exists(), cleanDirPath(), dirName(), absFilePath() */ TQString TQDir::absPath() const { if ( TQDir::isRelativePath(dPath) ) { TQString tmp = currentDirPath(); if ( tmp.right(1) != TQString::fromLatin1("/") ) tmp += '/'; tmp += dPath; return cleanDirPath( tmp ); } else { return cleanDirPath( dPath ); } } /*! Returns the name of the directory; this is \e not the same as the path, e.g. a directory with the name "mail", might have the path "/var/spool/mail". If the directory has no name (e.g. it is the root directory) TQString::null is returned. No check is made to ensure that a directory with this name actually exists. \sa path(), absPath(), absFilePath(), exists(), TQString::isNull() */ TQString TQDir::dirName() const { int pos = dPath.findRev( '/' ); if ( pos == -1 ) return dPath; return dPath.right( dPath.length() - pos - 1 ); } /*! Returns the path name of a file in the directory. Does \e not check if the file actually exists in the directory. If the TQDir is relative the returned path name will also be relative. Redundant multiple separators or "." and ".." directories in \a fileName will not be removed (see cleanDirPath()). If \a acceptAbsPath is TRUE a \a fileName starting with a separator "/" will be returned without change. If \a acceptAbsPath is FALSE an absolute path will be prepended to the fileName and the resultant string returned. \sa absFilePath(), isRelative(), canonicalPath() */ TQString TQDir::filePath( const TQString &fileName, bool acceptAbsPath ) const { if ( acceptAbsPath && !isRelativePath(fileName) ) return TQString(fileName); TQString tmp = dPath; if ( tmp.isEmpty() || (tmp[(int)tmp.length()-1] != '/' && !!fileName && fileName[0] != '/') ) tmp += '/'; tmp += fileName; return tmp; } /*! Returns the absolute path name of a file in the directory. Does \e not check if the file actually exists in the directory. Redundant multiple separators or "." and ".." directories in \a fileName will not be removed (see cleanDirPath()). If \a acceptAbsPath is TRUE a \a fileName starting with a separator "/" will be returned without change. If \a acceptAbsPath is FALSE an absolute path will be prepended to the fileName and the resultant string returned. \sa filePath() */ TQString TQDir::absFilePath( const TQString &fileName, bool acceptAbsPath ) const { if ( acceptAbsPath && !isRelativePath( fileName ) ) return fileName; TQString tmp = absPath(); #ifdef Q_OS_WIN32 if ( fileName[0].isLetter() && fileName[1] == ':' ) { int drv = fileName.upper()[0].latin1() - 'A' + 1; if ( _getdrive() != drv ) { QT_WA( { TCHAR buf[PATH_MAX]; ::_wgetdcwd( drv, buf, PATH_MAX ); tmp.setUnicodeCodes( (ushort*)buf, (uint)::wcslen(buf) ); }, { char buf[PATH_MAX]; ::_getdcwd( drv, buf, PATH_MAX ); tmp = buf; } ); if ( !tmp.endsWith("\\") ) tmp += "\\"; tmp += fileName.right( fileName.length() - 2 ); int x; for ( x = 0; x < (int) tmp.length(); x++ ) { if ( tmp[x] == '\\' ) tmp[x] = '/'; } } } else #endif { if ( tmp.isEmpty() || (tmp[(int)tmp.length()-1] != '/' && !!fileName && fileName[0] != '/') ) tmp += '/'; tmp += fileName; } return tmp; } /*! Returns \a pathName with the '/' separators converted to separators that are appropriate for the underlying operating system. On Windows, convertSeparators("c:/winnt/system32") returns "c:\winnt\system32". The returned string may be the same as the argument on some operating systems, for example on Unix. */ TQString TQDir::convertSeparators( const TQString &pathName ) { TQString n( pathName ); #if defined(Q_FS_FAT) || defined(Q_OS_OS2EMX) for ( int i=0; i<(int)n.length(); i++ ) { if ( n[i] == '/' ) n[i] = '\\'; } #elif defined(Q_OS_MAC9) while(n.length() && n[0] == '/' ) n = n.right(n.length()-1); for ( int i=0; i<(int)n.length(); i++ ) { if ( n[i] == '/' ) n[i] = ':'; } if(n.contains(':') && n.left(1) != ':') n.prepend(':'); #endif return n; } /*! Changes the TQDir's directory to \a dirName. If \a acceptAbsPath is TRUE a path starting with separator "/" will cause the function to change to the absolute directory. If \a acceptAbsPath is FALSE any number of separators at the beginning of \a dirName will be removed and the function will descend into \a dirName. Returns TRUE if the new directory exists and is readable; otherwise returns FALSE. Note that the logical cd() operation is not performed if the new directory does not exist. Calling cd( ".." ) is equivalent to calling cdUp(). \sa cdUp(), isReadable(), exists(), path() */ bool TQDir::cd( const TQString &dirName, bool acceptAbsPath ) { if ( dirName.isEmpty() || dirName == TQString::fromLatin1(".") ) return TRUE; TQString old = dPath; if ( acceptAbsPath && !isRelativePath(dirName) ) { dPath = cleanDirPath( dirName ); } else { if ( isRoot() ) { if ( dirName == ".." ) { dPath = old; return FALSE; } } else { dPath += '/'; } dPath += dirName; if ( dirName.find('/') >= 0 || old == TQString::fromLatin1(".") || dirName == TQString::fromLatin1("..") ) { dPath = cleanDirPath( dPath ); /* If dPath starts with .., we convert it to absolute to avoid infinite looping on TQDir dir( "." ); while ( dir.cdUp() ) ; */ if ( dPath[0] == TQChar('.') && dPath[1] == TQChar('.') && (dPath.length() == 2 || dPath[2] == TQChar('/')) ) convertToAbs(); } } if ( !exists() ) { dPath = old; // regret return FALSE; } dirty = TRUE; return TRUE; } /*! Changes directory by moving one directory up from the TQDir's current directory. Returns TRUE if the new directory exists and is readable; otherwise returns FALSE. Note that the logical cdUp() operation is not performed if the new directory does not exist. \sa cd(), isReadable(), exists(), path() */ bool TQDir::cdUp() { return cd( TQString::fromLatin1("..") ); } /*! \fn TQString TQDir::nameFilter() const Returns the string set by setNameFilter() */ /*! Sets the name filter used by entryList() and entryInfoList() to \a nameFilter. The \a nameFilter is a wildcard (globbing) filter that understands "*" and "?" wildcards. (See \link qregexp.html#wildcard-matching TQRegExp wildcard matching\endlink.) You may specify several filter entries all separated by a single space " " or by a semi-colon ";". For example, if you want entryList() and entryInfoList() to list all files ending with either ".cpp" or ".h", you would use either dir.setNameFilter("*.cpp *.h") or dir.setNameFilter("*.cpp;*.h"). \sa nameFilter(), setFilter() */ void TQDir::setNameFilter( const TQString &nameFilter ) { nameFilt = nameFilter; if ( nameFilt.isEmpty() ) nameFilt = TQString::fromLatin1("*"); dirty = TRUE; } /*! \fn TQDir::FilterSpec TQDir::filter() const Returns the value set by setFilter() */ /*! \enum TQDir::FilterSpec This enum describes the filtering options available to TQDir, e.g. for entryList() and entryInfoList(). The filter value is specified by OR-ing together values from the following list: \value Dirs List directories only. \value Files List files only. \value Drives List disk drives (ignored under Unix). \value NoSymLinks Do not list symbolic links (ignored by operating systems that don't support symbolic links). \value All List directories, files, drives and symlinks (this does not list broken symlinks unless you specify System). \value TypeMask A mask for the the Dirs, Files, Drives and NoSymLinks flags. \value Readable List files for which the application has read access. \value Writable List files for which the application has write access. \value Executable List files for which the application has execute access. Executables needs to be combined with Dirs or Files. \value RWEMask A mask for the Readable, Writable and Executable flags. \value Modified Only list files that have been modified (ignored under Unix). \value Hidden List hidden files (on Unix, files starting with a .). \value System List system files (on Unix, FIFOs, sockets and device files) \value AccessMask A mask for the Readable, Writable, Executable Modified, Hidden and System flags \value DefaultFilter Internal flag. If you do not set any of \c Readable, \c Writable or \c Executable, TQDir will set all three of them. This makes the default easy to write and at the same time useful. Examples: \c Readable|Writable means list all files for which the application has read access, write access or both. \c Dirs|Drives means list drives, directories, all files that the application can read, write or execute, and also symlinks to such files/directories. */ /*! Sets the filter used by entryList() and entryInfoList() to \a filterSpec. The filter is used to specify the kind of files that should be returned by entryList() and entryInfoList(). See \l{TQDir::FilterSpec}. \sa filter(), setNameFilter() */ void TQDir::setFilter( int filterSpec ) { if ( filtS == (FilterSpec) filterSpec ) return; filtS = (FilterSpec) filterSpec; dirty = TRUE; } /*! \fn TQDir::SortSpec TQDir::sorting() const Returns the value set by setSorting() \sa setSorting() SortSpec */ /*! \enum TQDir::SortSpec This enum describes the sort options available to TQDir, e.g. for entryList() and entryInfoList(). The sort value is specified by OR-ing together values from the following list: \value Name Sort by name. \value Time Sort by time (modification time). \value Size Sort by file size. \value Unsorted Do not sort. \value SortByMask A mask for Name, Time and Size. \value DirsFirst Put the directories first, then the files. \value Reversed Reverse the sort order. \value IgnoreCase Sort case-insensitively. \value LocaleAware Sort names using locale aware compares \value DefaultSort Internal flag. You can only specify one of the first four. If you specify both \c DirsFirst and \c Reversed, directories are still put first, but in reverse order; the files will be listed after the directories, again in reverse order. */ // ### Unsorted+DirsFirst ? Unsorted+Reversed? /*! Sets the sort order used by entryList() and entryInfoList(). The \a sortSpec is specified by OR-ing values from the enum \l{TQDir::SortSpec}. \sa sorting() SortSpec */ void TQDir::setSorting( int sortSpec ) { if ( sortS == (SortSpec) sortSpec ) return; sortS = (SortSpec) sortSpec; dirty = TRUE; } /*! \fn bool TQDir::matchAllDirs() const Returns the value set by setMatchAllDirs() \sa setMatchAllDirs() */ /*! If \a enable is TRUE then all directories are included (e.g. in entryList()), and the nameFilter() is only applied to the files. If \a enable is FALSE then the nameFilter() is applied to both directories and files. \sa matchAllDirs() */ void TQDir::setMatchAllDirs( bool enable ) { if ( (bool)allDirs == enable ) return; allDirs = enable; dirty = TRUE; } /*! Returns the total number of directories and files that were found. Equivalent to entryList().count(). \sa operator[](), entryList() */ uint TQDir::count() const { return (uint)entryList().count(); } /*! Returns the file name at position \a index in the list of file names. Equivalent to entryList().at(index). Returns a TQString::null if the \a index is out of range or if the entryList() function failed. \sa count(), entryList() */ TQString TQDir::operator[]( int index ) const { entryList(); return fList && index >= 0 && index < (int)fList->count() ? (*fList)[index] : TQString::null; } /*! \obsolete This function is included to easy porting from TQt 1.x to TQt 2.0, it is the same as entryList(), but encodes the filenames as 8-bit strings using TQFile::encodedName(). It is more efficient to use entryList(). */ TQStrList TQDir::encodedEntryList( int filterSpec, int sortSpec ) const { TQStrList r; TQStringList l = entryList(filterSpec,sortSpec); for ( TQStringList::Iterator it = l.begin(); it != l.end(); ++it ) { r.append( TQFile::encodeName(*it) ); } return r; } /*! \obsolete \overload This function is included to easy porting from TQt 1.x to TQt 2.0, it is the same as entryList(), but encodes the filenames as 8-bit strings using TQFile::encodedName(). It is more efficient to use entryList(). */ TQStrList TQDir::encodedEntryList( const TQString &nameFilter, int filterSpec, int sortSpec ) const { TQStrList r; TQStringList l = entryList(nameFilter,filterSpec,sortSpec); for ( TQStringList::Iterator it = l.begin(); it != l.end(); ++it ) { r.append( TQFile::encodeName(*it) ); } return r; } /*! \overload Returns a list of the names of all the files and directories in the directory, ordered in accordance with setSorting() and filtered in accordance with setFilter() and setNameFilter(). The filter and sorting specifications can be overridden using the \a filterSpec and \a sortSpec arguments. Returns an empty list if the directory is unreadable or does not exist. \sa entryInfoList(), setNameFilter(), setSorting(), setFilter() */ TQStringList TQDir::entryList( int filterSpec, int sortSpec ) const { if ( !dirty && filterSpec == (int)DefaultFilter && sortSpec == (int)DefaultSort ) return *fList; return entryList( nameFilt, filterSpec, sortSpec ); } /*! Returns a list of the names of all the files and directories in the directory, ordered in accordance with setSorting() and filtered in accordance with setFilter() and setNameFilter(). The filter and sorting specifications can be overridden using the \a nameFilter, \a filterSpec and \a sortSpec arguments. Returns an empty list if the directory is unreadable or does not exist. \sa entryInfoList(), setNameFilter(), setSorting(), setFilter() */ TQStringList TQDir::entryList( const TQString &nameFilter, int filterSpec, int sortSpec ) const { if ( filterSpec == (int)DefaultFilter ) filterSpec = filtS; if ( sortSpec == (int)DefaultSort ) sortSpec = sortS; TQDir *that = (TQDir*)this; // mutable function if ( that->readDirEntries(nameFilter, filterSpec, sortSpec) ) { if ( that->fList ) return *that->fList; } return TQStringList(); } /*! \overload Returns a list of TQFileInfo objects for all the files and directories in the directory, ordered in accordance with setSorting() and filtered in accordance with setFilter() and setNameFilter(). The filter and sorting specifications can be overridden using the \a filterSpec and \a sortSpec arguments. Returns 0 if the directory is unreadable or does not exist. The returned pointer is a const pointer to a TQFileInfoList. The list is owned by the TQDir object and will be reused on the next call to entryInfoList() for the same TQDir instance. If you want to keep the entries of the list after a subsequent call to this function you must copy them. Note: TQFileInfoList is really a TQPtrList. \sa entryList(), setNameFilter(), setSorting(), setFilter() */ const TQFileInfoList *TQDir::entryInfoList( int filterSpec, int sortSpec ) const { if ( !dirty && filterSpec == (int)DefaultFilter && sortSpec == (int)DefaultSort ) return fiList; return entryInfoList( nameFilt, filterSpec, sortSpec ); } /*! Returns a list of TQFileInfo objects for all the files and directories in the directory, ordered in accordance with setSorting() and filtered in accordance with setFilter() and setNameFilter(). The filter and sorting specifications can be overridden using the \a nameFilter, \a filterSpec and \a sortSpec arguments. Returns 0 if the directory is unreadable or does not exist. The returned pointer is a const pointer to a TQFileInfoList. The list is owned by the TQDir object and will be reused on the next call to entryInfoList() for the same TQDir instance. If you want to keep the entries of the list after a subsequent call to this function you must copy them. Note: TQFileInfoList is really a TQPtrList. \sa entryList(), setNameFilter(), setSorting(), setFilter() */ const TQFileInfoList *TQDir::entryInfoList( const TQString &nameFilter, int filterSpec, int sortSpec ) const { if ( filterSpec == (int)DefaultFilter ) filterSpec = filtS; if ( sortSpec == (int)DefaultSort ) sortSpec = sortS; TQDir *that = (TQDir*)this; // mutable function if ( that->readDirEntries(nameFilter, filterSpec, sortSpec) ) return that->fiList; else return 0; } /*! \overload Returns TRUE if the \e directory exists; otherwise returns FALSE. (If a file with the same name is found this function will return FALSE). \sa TQFileInfo::exists(), TQFile::exists() */ bool TQDir::exists() const { TQFileInfo fi( dPath ); return fi.exists() && fi.isDir(); } /*! Returns TRUE if the directory path is relative to the current directory and returns FALSE if the path is absolute (e.g. under UNIX a path is relative if it does not start with a "/"). \sa convertToAbs() */ bool TQDir::isRelative() const { return isRelativePath( dPath ); } /*! Converts the directory path to an absolute path. If it is already absolute nothing is done. \sa isRelative() */ void TQDir::convertToAbs() { dPath = absPath(); } /*! Makes a copy of TQDir \a d and assigns it to this TQDir. */ TQDir &TQDir::operator=( const TQDir &d ) { dPath = d.dPath; delete fList; fList = 0; delete fiList; fiList = 0; nameFilt = d.nameFilt; dirty = TRUE; allDirs = d.allDirs; filtS = d.filtS; sortS = d.sortS; return *this; } /*! \overload Sets the directory path to be the given \a path. */ TQDir &TQDir::operator=( const TQString &path ) { dPath = cleanDirPath( path ); dirty = TRUE; return *this; } /*! \fn bool TQDir::operator!=( const TQDir &d ) const Returns TRUE if directory \a d and this directory have different paths or different sort or filter settings; otherwise returns FALSE. Example: \code // The current directory is "/usr/local" TQDir d1( "/usr/local/bin" ); TQDir d2( "bin" ); if ( d1 != d2 ) qDebug( "They differ" ); \endcode */ /*! Returns TRUE if directory \a d and this directory have the same path and their sort and filter settings are the same; otherwise returns FALSE. Example: \code // The current directory is "/usr/local" TQDir d1( "/usr/local/bin" ); TQDir d2( "bin" ); d2.convertToAbs(); if ( d1 == d2 ) qDebug( "They're the same" ); \endcode */ bool TQDir::operator==( const TQDir &d ) const { return dPath == d.dPath && nameFilt == d.nameFilt && allDirs == d.allDirs && filtS == d.filtS && sortS == d.sortS; } /*! Removes the file, \a fileName. If \a acceptAbsPath is TRUE a path starting with separator "/" will remove the file with the absolute path. If \a acceptAbsPath is FALSE any number of separators at the beginning of \a fileName will be removed and the resultant file name will be removed. Returns TRUE if the file is removed successfully; otherwise returns FALSE. */ bool TQDir::remove( const TQString &fileName, bool acceptAbsPath ) { if ( fileName.isEmpty() ) { #if defined(QT_CHECK_NULL) qWarning( "TQDir::remove: Empty or null file name" ); #endif return FALSE; } TQString p = filePath( fileName, acceptAbsPath ); return TQFile::remove( p ); } /*! Checks for the existence of the file \a name. If \a acceptAbsPath is TRUE a path starting with separator "/" will check the file with the absolute path. If \a acceptAbsPath is FALSE any number of separators at the beginning of \a name will be removed and the resultant file name will be checked. Returns TRUE if the file exists; otherwise returns FALSE. \sa TQFileInfo::exists(), TQFile::exists() */ bool TQDir::exists( const TQString &name, bool acceptAbsPath ) //### const in 4.0 { if ( name.isEmpty() ) { #if defined(QT_CHECK_NULL) qWarning( "TQDir::exists: Empty or null file name" ); #endif return FALSE; } TQString tmp = filePath( name, acceptAbsPath ); return TQFile::exists( tmp ); } /*! Returns the native directory separator; "/" under UNIX (including Mac OS X) and "\" under Windows. You do not need to use this function to build file paths. If you always use "/", TQt will translate your paths to conform to the underlying operating system. */ char TQDir::separator() { #if defined(Q_OS_UNIX) return '/'; #elif defined (Q_FS_FAT) || defined(Q_WS_WIN) return '\\'; #elif defined (Q_OS_MAC) return ':'; #else return '/'; #endif } /*! Returns the application's current directory. Use path() to access a TQDir object's path. \sa currentDirPath(), TQDir::TQDir() */ TQDir TQDir::current() { return TQDir( currentDirPath() ); } /*! Returns the home directory. Under Windows the \c HOME environment variable is used. If this does not exist the \c USERPROFILE environment variable is used. If that does not exist the path is formed by concatenating the \c HOMEDRIVE and \c HOMEPATH environment variables. If they don't exist the rootDirPath() is used (this uses the \c SystemDrive environment variable). If none of these exist "C:\" is used. Under non-Windows operating systems the \c HOME environment variable is used if it exists, otherwise rootDirPath() is used. \sa homeDirPath() */ TQDir TQDir::home() { return TQDir( homeDirPath() ); } /*! Returns the root directory. \sa rootDirPath() drives() */ TQDir TQDir::root() { return TQDir( rootDirPath() ); } /*! \fn TQString TQDir::homeDirPath() Returns the absolute path of the user's home directory. \sa home() */ TQValueList qt_makeFilterList( const TQString &filter ) { TQValueList regExps; if ( filter.isEmpty() ) return regExps; TQChar sep( ';' ); int i = filter.find( sep, 0 ); if ( i == -1 && filter.find( ' ', 0 ) != -1 ) sep = TQChar( ' ' ); TQStringList list = TQStringList::split( sep, filter ); TQStringList::Iterator it = list.begin(); while ( it != list.end() ) { regExps << TQRegExp( (*it).stripWhiteSpace(), CaseSensitiveFS, TRUE ); ++it; } return regExps; } bool qt_matchFilterList( const TQValueList& filters, const TQString &fileName ) { TQValueList::ConstIterator rit = filters.begin(); while ( rit != filters.end() ) { if ( (*rit).exactMatch(fileName) ) return TRUE; ++rit; } return FALSE; } /*! \overload Returns TRUE if the \a fileName matches any of the wildcard (glob) patterns in the list of \a filters; otherwise returns FALSE. (See \link qregexp.html#wildcard-matching TQRegExp wildcard matching.\endlink) \sa TQRegExp::match() */ bool TQDir::match( const TQStringList &filters, const TQString &fileName ) { TQStringList::ConstIterator sit = filters.begin(); while ( sit != filters.end() ) { TQRegExp rx( *sit, CaseSensitiveFS, TRUE ); if ( rx.exactMatch(fileName) ) return TRUE; ++sit; } return FALSE; } /*! Returns TRUE if the \a fileName matches the wildcard (glob) pattern \a filter; otherwise returns FALSE. The \a filter may contain multiple patterns separated by spaces or semicolons. (See \link qregexp.html#wildcard-matching TQRegExp wildcard matching.\endlink) \sa TQRegExp::match() */ bool TQDir::match( const TQString &filter, const TQString &fileName ) { return qt_matchFilterList( qt_makeFilterList(filter), fileName ); } /*! Removes all multiple directory separators "/" and resolves any "."s or ".."s found in the path, \a filePath. Symbolic links are kept. This function does not return the canonical path, but rather the simplest version of the input. For example, "./local" becomes "local", "local/../bin" becomes "bin" and "/local/usr/../bin" becomes "/local/bin". \sa absPath() canonicalPath() */ TQString TQDir::cleanDirPath( const TQString &filePath ) { TQString name = filePath; TQString newPath; if ( name.isEmpty() ) return name; slashify( name ); bool addedSeparator = isRelativePath( name ); if ( addedSeparator ) name.insert( 0, '/' ); int ePos, pos, upLevel; pos = ePos = name.length(); upLevel = 0; int len; while ( pos && (pos = name.findRev('/', pos - 1)) != -1 ) { len = ePos - pos - 1; if ( len == 2 && name.at(pos + 1) == '.' && name.at(pos + 2) == '.' ) { upLevel++; } else { if ( len != 0 && (len != 1 || name.at(pos + 1) != '.') ) { if ( !upLevel ) newPath = TQString::fromLatin1("/") + name.mid(pos + 1, len) + newPath; else upLevel--; } } ePos = pos; } if ( addedSeparator ) { while ( upLevel-- ) newPath.insert( 0, TQString::fromLatin1("/..") ); if ( !newPath.isEmpty() ) newPath.remove( (uint)0, (uint)1 ); else newPath = TQString::fromLatin1("."); } else { if ( newPath.isEmpty() ) newPath = TQString::fromLatin1("/"); #if defined(Q_FS_FAT) || defined(Q_OS_OS2EMX) if ( name[0] == '/' ) { if ( name[1] == '/' ) // "\\machine\x\ ..." newPath.insert( 0, '/' ); } else { newPath = name.left(2) + newPath; } #endif } return newPath; } int qt_cmp_si_sortSpec; #if defined(Q_C_CALLBACKS) extern "C" { #endif #ifdef Q_OS_TEMP int __cdecl qt_cmp_si( const void *n1, const void *n2 ) #else int qt_cmp_si( const void *n1, const void *n2 ) #endif { if ( !n1 || !n2 ) return 0; TQDirSortItem* f1 = (TQDirSortItem*)n1; TQDirSortItem* f2 = (TQDirSortItem*)n2; if ( qt_cmp_si_sortSpec & TQDir::DirsFirst ) if ( f1->item->isDir() != f2->item->isDir() ) return f1->item->isDir() ? -1 : 1; int r = 0; int sortBy = qt_cmp_si_sortSpec & TQDir::SortByMask; switch ( sortBy ) { case TQDir::Time: r = f1->item->lastModified().secsTo(f2->item->lastModified()); break; case TQDir::Size: r = f2->item->size() - f1->item->size(); break; default: ; } if ( r == 0 && sortBy != TQDir::Unsorted ) { // Still not sorted - sort by name bool ic = qt_cmp_si_sortSpec & TQDir::IgnoreCase; if ( f1->filename_cache.isNull() ) f1->filename_cache = ic ? f1->item->fileName().lower() : f1->item->fileName(); if ( f2->filename_cache.isNull() ) f2->filename_cache = ic ? f2->item->fileName().lower() : f2->item->fileName(); r = qt_cmp_si_sortSpec & TQDir::LocaleAware ? f1->filename_cache.localeAwareCompare(f2->filename_cache) : f1->filename_cache.compare(f2->filename_cache); } if ( r == 0 ) { // Enforce an order - the order the items appear in the array r = (char*)n1 - (char*)n2; } if ( qt_cmp_si_sortSpec & TQDir::Reversed ) return -r; else return r; } #if defined(Q_C_CALLBACKS) } #endif /*! \internal Detaches all internal data. */ void TQDir::detach() { // deepcopy dPath = TQDeepCopy(dPath); nameFilt = TQDeepCopy(nameFilt); if ( fList ) *fList = TQDeepCopy( *fList ); if ( fiList ) { TQFileInfoList *newlist = new TQFileInfoList( *fiList ); delete fiList; fiList = newlist; } } #endif // QT_NO_DIR