/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt3Support 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 either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** 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 1.0, 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. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://qt.nokia.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #ifndef QT_NO_MIME #include "q3dragobject.h" #include "qpixmap.h" #include "qevent.h" #include "qfile.h" #include "qtextcodec.h" #include "qapplication.h" #include "qpoint.h" #include "qwidget.h" #include "qbuffer.h" #include "qimagereader.h" #include "qimagewriter.h" #include "qimage.h" #include "qregexp.h" #include "qdir.h" #include "qdrag.h" #include "q3strlist.h" #include "q3cstring.h" #include #include #if defined(Q_OS_WINCE) #include #include "qfunctions_wince.h" #endif QT_BEGIN_NAMESPACE static QWidget *last_target = 0; class QDragMime; class Q3DragObjectPrivate : public QObjectPrivate { Q_DECLARE_PUBLIC(Q3DragObject) public: Q3DragObjectPrivate(): hot(0,0),pm_cursor(0) {} QPixmap pixmap; QPoint hot; // store default cursors QPixmap *pm_cursor; }; class Q3TextDragPrivate : public Q3DragObjectPrivate { Q_DECLARE_PUBLIC(Q3TextDrag) public: Q3TextDragPrivate() { setSubType(QLatin1String("plain")); } void setSubType(const QString & st) { subtype = st; fmt = "text/" + subtype.toLatin1(); } QString txt; QString subtype; QByteArray fmt; }; class Q3StoredDragPrivate : public Q3DragObjectPrivate { Q_DECLARE_PUBLIC(Q3StoredDrag) public: Q3StoredDragPrivate() {} const char* fmt; QByteArray enc; }; class Q3ImageDragPrivate : public Q3DragObjectPrivate { Q_DECLARE_PUBLIC(Q3ImageDrag) public: QImage img; QList ofmts; }; class QDragMime : public QMimeData { public: QDragMime(Q3DragObject *parent) : QMimeData(), dragObject(parent) { } ~QDragMime(); QByteArray data(const QString &mimetype) const; bool hasFormat(const QString &mimetype) const; QStringList formats() const; QPointer dragObject; }; QDragMime::~QDragMime() { delete dragObject; } QByteArray QDragMime::data(const QString &mimetype) const { return dragObject->encodedData(mimetype.latin1()); } bool QDragMime::hasFormat(const QString &mimetype) const { return dragObject->provides(mimetype.latin1()); } QStringList QDragMime::formats() const { int i = 0; const char *format; QStringList f; while ((format = dragObject->format(i))) { f.append(QLatin1String(format)); ++i; } return f; } /*! Constructs a drag object called \a name with a parent \a dragSource. Note that the drag object will be deleted when the \a dragSource is deleted. */ Q3DragObject::Q3DragObject(QWidget * dragSource, const char * name) : QObject(*(new Q3DragObjectPrivate), dragSource) { setObjectName(QLatin1String(name)); } /*! \internal */ Q3DragObject::Q3DragObject(Q3DragObjectPrivate &dd, QWidget *dragSource) : QObject(dd, dragSource) { } /*! Destroys the drag object, canceling any drag and drop operation in which it is involved. */ Q3DragObject::~Q3DragObject() { } #ifndef QT_NO_DRAGANDDROP /*! Set the pixmap, \a pm, to display while dragging the object. The platform-specific implementation will use this where it can - so provide a small masked pixmap, and do not assume that the user will actually see it. The \a hotspot is the point on (or off) the pixmap that should be under the cursor as it is dragged. It is relative to the top-left pixel of the pixmap. \warning We have seen problems with drag cursors on different graphics hardware and driver software on Windows. Setting the graphics acceleration in the display settings down one tick solved the problems in all cases. */ void Q3DragObject::setPixmap(QPixmap pm, const QPoint& hotspot) { Q_D(Q3DragObject); d->pixmap = pm; d->hot = hotspot; } /*! \overload Uses a hotspot that positions the pixmap below and to the right of the mouse pointer. This allows the user to clearly see the point on the window where they are dragging the data. */ void Q3DragObject::setPixmap(QPixmap pm) { setPixmap(pm,QPoint(-10, -10)); } /*! Returns the currently set pixmap, or a null pixmap if none is set. \sa QPixmap::isNull() */ QPixmap Q3DragObject::pixmap() const { return d_func()->pixmap; } /*! Returns the currently set pixmap hotspot. \sa setPixmap() */ QPoint Q3DragObject::pixmapHotSpot() const { return d_func()->hot; } /*! Starts a drag operation using the contents of this object, using DragDefault mode. The function returns true if the caller should delete the original copy of the dragged data (but see target()); otherwise returns false. If the drag contains \e references to information (e.g. file names in a Q3UriDrag are references) then the return value should always be ignored, as the target is expected to directly manipulate the content referred to by the drag object. On X11 the return value should always be correct anyway, but on Windows this is not necessarily the case; e.g. the file manager starts a background process to move files, so the source \e{must not} delete the files! Note that on Windows the drag operation will start a blocking modal event loop that will not dispatch any QTimers. */ bool Q3DragObject::drag() { return drag(DragDefault); } /*! After the drag completes, this function will return the QWidget which received the drop, or 0 if the data was dropped on another application. This can be useful for detecting the case where drag and drop is to and from the same widget. */ QWidget *Q3DragObject::target() { return last_target; } /*! Starts a drag operation using the contents of this object, using \c DragMove mode. Be sure to read the constraints described in drag(). Returns true if the data was dragged as a \e move, indicating that the caller should remove the original source of the data (the drag object must continue to have a copy); otherwise returns false. \sa drag() dragCopy() dragLink() */ bool Q3DragObject::dragMove() { return drag(DragMove); } /*! Starts a drag operation using the contents of this object, using \c DragCopy mode. Be sure to read the constraints described in drag(). \sa drag() dragMove() dragLink() */ void Q3DragObject::dragCopy() { (void)drag(DragCopy); } /*! Starts a drag operation using the contents of this object, using \c DragLink mode. Be sure to read the constraints described in drag(). \sa drag() dragCopy() dragMove() */ void Q3DragObject::dragLink() { (void)drag(DragLink); } /*! \enum Q3DragObject::DragMode This enum describes the possible drag modes. \value DragDefault The mode is determined heuristically. \value DragCopy The data is copied. \value DragMove The data is moved. \value DragLink The data is linked. \value DragCopyOrMove The user chooses the mode by using the \key{Shift} key to switch from the default copy mode to move mode. */ /*! \overload Starts a drag operation using the contents of this object. At this point, the object becomes owned by Qt, not the application. You should not delete the drag object or anything it references. The actual transfer of data to the target application will be done during future event processing - after that time the drag object will be deleted. Returns true if the dragged data was dragged as a \e move, indicating that the caller should remove the original source of the data (the drag object must continue to have a copy); otherwise returns false. The \a mode specifies the drag mode (see \l{Q3DragObject::DragMode}.) Normally one of the simpler drag(), dragMove(), or dragCopy() functions would be used instead. */ bool Q3DragObject::drag(DragMode mode) { Q_D(Q3DragObject); QDragMime *data = new QDragMime(this); int i = 0; const char *fmt; while ((fmt = format(i))) { data->setData(QLatin1String(fmt), encodedData(fmt)); ++i; } QDrag *drag = new QDrag(qobject_cast(parent())); drag->setMimeData(data); drag->setPixmap(d->pixmap); drag->setHotSpot(d->hot); Qt::DropActions allowedOps; Qt::DropAction defaultOp = Qt::IgnoreAction; switch(mode) { default: case DragDefault: case DragCopyOrMove: allowedOps = Qt::CopyAction|Qt::MoveAction; defaultOp = Qt::IgnoreAction; break; case DragCopy: allowedOps = Qt::CopyAction; defaultOp = Qt::CopyAction; break; case DragMove: allowedOps = Qt::MoveAction; defaultOp = Qt::MoveAction; break; case DragLink: allowedOps = Qt::LinkAction; defaultOp = Qt::LinkAction; break; } bool retval = (drag->exec(allowedOps, defaultOp) == Qt::MoveAction); last_target = drag->target(); return retval; } #endif /*! Returns a pointer to the widget where this object originated (the drag source). */ QWidget * Q3DragObject::source() { if (parent() && parent()->isWidgetType()) return (QWidget *)parent(); else return 0; } /*! \class Q3DragObject \brief The Q3DragObject class encapsulates MIME-based data transfer. \compat Q3DragObject is the base class for all data that needs to be transferred between and within applications, both for drag and drop and for the clipboard. See the \link dnd.html Drag and drop documentation\endlink for an overview of how to provide drag and drop in your application. See the QClipboard documentation for an overview of how to provide cut and paste in your application. The drag() function is used to start a drag operation. You can specify the \l DragMode in the call or use one of the convenience functions dragCopy(), dragMove(), or dragLink(). The drag source where the data originated is retrieved with source(). If the data was dropped on a widget within the application, target() will return a pointer to that widget. Specify the pixmap to display during the drag with setPixmap(). */ static void stripws(QByteArray& s) { int f; while ((f = s.indexOf(' ')) >= 0) s.remove(f,1); } /*! \class Q3TextDrag \brief The Q3TextDrag class is a drag and drop object for transferring plain and Unicode text. \compat Plain text is passed in a QString which may contain multiple lines (i.e. may contain newline characters). The drag target will receive the newlines according to the runtime environment, e.g. LF on Unix, and CRLF on Windows. Qt provides no built-in mechanism for delivering only a single-line. For more information about drag and drop, see the Q3DragObject class and the \link dnd.html drag and drop documentation\endlink. */ /*! Constructs a text drag object with the given \a name, and sets its data to \a text. The \a dragSource is the widget that the drag operation started from. */ Q3TextDrag::Q3TextDrag(const QString &text, QWidget * dragSource, const char * name) : Q3DragObject(*new Q3TextDragPrivate, dragSource) { setObjectName(QLatin1String(name)); setText(text); } /*! Constructs a default text drag object with the given \a name. The \a dragSource is the widget that the drag operation started from. */ Q3TextDrag::Q3TextDrag(QWidget * dragSource, const char * name) : Q3DragObject(*(new Q3TextDragPrivate), dragSource) { setObjectName(QLatin1String(name)); } /*! \internal */ Q3TextDrag::Q3TextDrag(Q3TextDragPrivate &dd, QWidget *dragSource) : Q3DragObject(dd, dragSource) { } /*! Destroys the text drag object. */ Q3TextDrag::~Q3TextDrag() { } /*! \fn void Q3TextDrag::setSubtype(const QString &subtype) Sets the MIME \a subtype of the text being dragged. The default subtype is "plain", so the default MIME type of the text is "text/plain". You might use this to declare that the text is "text/html" by calling setSubtype("html"). */ void Q3TextDrag::setSubtype(const QString & st) { d_func()->setSubType(st); } /*! Sets the \a text to be dragged. You will need to call this if you did not pass the text during construction. */ void Q3TextDrag::setText(const QString &text) { d_func()->txt = text; } /*! \reimp */ const char * Q3TextDrag::format(int i) const { if (i > 0) return 0; return d_func()->fmt.constData(); } QTextCodec* qt_findcharset(const QByteArray& mimetype) { int i=mimetype.indexOf("charset="); if (i >= 0) { QByteArray cs = mimetype.mid(i+8); stripws(cs); i = cs.indexOf(';'); if (i >= 0) cs = cs.left(i); // May return 0 if unknown charset return QTextCodec::codecForName(cs); } // no charset=, use locale return QTextCodec::codecForName("utf-8"); } static QTextCodec *codecForHTML(const QByteArray &ba) { // determine charset int mib = 0; int pos; QTextCodec *c = 0; if (ba.size() > 1 && (((uchar)ba[0] == 0xfe && (uchar)ba[1] == 0xff) || ((uchar)ba[0] == 0xff && (uchar)ba[1] == 0xfe))) { mib = 1015; // utf16 } else if (ba.size() > 2 && (uchar)ba[0] == 0xef && (uchar)ba[1] == 0xbb && (uchar)ba[2] == 0xbf) { mib = 106; // utf-8 } else { pos = 0; while ((pos = ba.indexOf('<', pos)) != -1) { int end = ba.indexOf('>', pos+1); if (end == -1) break; const QString str(QString::fromLatin1(ba.mid(pos, end-pos))); if (str.contains(QLatin1String("meta http-equiv="), Qt::CaseInsensitive)) { pos = str.indexOf(QLatin1String("charset="), 0, Qt::CaseInsensitive) + int(strlen("charset=")); if (pos != -1) { int pos2 = ba.indexOf('\"', pos+1); QByteArray cs = ba.mid(pos, pos2-pos); c = QTextCodec::codecForName(cs); if (c) return c; } } pos = end; } } if (mib) c = QTextCodec::codecForMib(mib); return c; } static QTextCodec* findcodec(const QMimeSource* e) { QTextCodec* r = 0; const char* f; int i; for (i=0; (f=e->format(i)); i++) { bool html = !qstrnicmp(f, "text/html", 9); if (html) r = codecForHTML(e->encodedData(f)); if (!r) r = qt_findcharset(QByteArray(f).toLower()); if (r) return r; } return 0; } /*! \reimp */ QByteArray Q3TextDrag::encodedData(const char* mime) const { Q_D(const Q3TextDrag); if (mime != d->fmt) return QByteArray(); return d->txt.toUtf8(); } /*! \fn bool Q3TextDrag::canDecode(const QMimeSource *source) Returns true if the information in the MIME \a source can be decoded into a QString; otherwise returns false. \sa decode() */ bool Q3TextDrag::canDecode(const QMimeSource* e) { const char* f; for (int i=0; (f=e->format(i)); i++) { if (0==qstrnicmp(f,"text/",5)) { return findcodec(e) != 0; } } return false; } /*! \fn bool Q3TextDrag::decode(const QMimeSource *source, QString &string, QString &subtype) \overload Attempts to decode the dropped information in the MIME \a source into the \a string given. Returns true if successful; otherwise returns false. If \a subtype is null, any text subtype is accepted; otherwise only the specified \a subtype is accepted. \sa canDecode() */ bool Q3TextDrag::decode(const QMimeSource* e, QString& str, QString& subtype) { if(!e) return false; const char* mime; for (int i=0; (mime = e->format(i)); i++) { if (0==qstrnicmp(mime,"text/",5)) { QByteArray m(mime); m = m.toLower(); int semi = m.indexOf(';'); if (semi < 0) semi = m.length(); QString foundst(QString::fromLatin1(m.mid(5,semi-5))); if (subtype.isNull() || foundst == subtype) { bool html = !qstrnicmp(mime, "text/html", 9); QTextCodec* codec = 0; if (html) // search for the charset tag in the HTML codec = codecForHTML(e->encodedData(mime)); if (!codec) codec = qt_findcharset(m); if (codec) { QByteArray payload; payload = e->encodedData(mime); if (payload.size()) { int l; if (codec->mibEnum() != 1015) { // length is at NUL or payload.size() l = 0; while (l < (int)payload.size() && payload[l]) l++; } else { l = payload.size(); } str = codec->toUnicode(payload,l); if (subtype.isNull()) subtype = foundst; return true; } } } } } return false; } /*! \fn bool Q3TextDrag::decode(const QMimeSource *source, QString &string) Attempts to decode the dropped information in the MIME \a source into the \a string given. Returns true if successful; otherwise returns false. \sa canDecode() */ bool Q3TextDrag::decode(const QMimeSource* e, QString& str) { QString st; return decode(e, str, st); } /* Q3ImageDrag could use an internal MIME type for communicating QPixmaps and QImages rather than always converting to raw data. This is available for that purpose and others. It is not currently used. */ /*! \class Q3ImageDrag \brief The Q3ImageDrag class provides a drag and drop object for transferring images. \compat Images are offered to the receiving application in multiple formats, determined by Qt's output formats. */ /*! Constructs an image drag object with the given \a name, and sets its data to \a image. The \a dragSource is the widget that the drag operation started from. */ Q3ImageDrag::Q3ImageDrag(QImage image, QWidget * dragSource, const char * name) : Q3DragObject(*(new Q3ImageDragPrivate), dragSource) { setObjectName(QLatin1String(name)); setImage(image); } /*! Constructs a default image drag object with the given \a name. The \a dragSource is the widget that the drag operation started from. */ Q3ImageDrag::Q3ImageDrag(QWidget * dragSource, const char * name) : Q3DragObject(*(new Q3ImageDragPrivate), dragSource) { setObjectName(QLatin1String(name)); } /*! \internal */ Q3ImageDrag::Q3ImageDrag(Q3ImageDragPrivate &dd, QWidget *dragSource) : Q3DragObject(dd, dragSource) { } /*! Destroys the image drag object. */ Q3ImageDrag::~Q3ImageDrag() { // nothing } /*! Sets the \a image to be dragged. You will need to call this if you did not pass the image during construction. */ void Q3ImageDrag::setImage(QImage image) { Q_D(Q3ImageDrag); d->img = image; QList formats = QImageWriter::supportedImageFormats(); formats.removeAll("PBM"); // remove non-raw PPM if (image.depth()!=32) { // BMP better than PPM for paletted images if (formats.removeAll("BMP")) // move to front formats.insert(0,"BMP"); } // PNG is best of all if (formats.removeAll("PNG")) // move to front formats.insert(0,"PNG"); for(int i = 0; i < formats.count(); i++) { QByteArray format("image/"); format += formats.at(i); format = format.toLower(); if (format == "image/pbmraw") format = "image/ppm"; d->ofmts.append(format); } d->ofmts.append("application/x-qt-image"); } /*! \reimp */ const char * Q3ImageDrag::format(int i) const { Q_D(const Q3ImageDrag); return i < d->ofmts.count() ? d->ofmts.at(i).data() : 0; } /*! \reimp */ QByteArray Q3ImageDrag::encodedData(const char* fmt) const { Q_D(const Q3ImageDrag); QString imgFormat(fmt); if (imgFormat == QLatin1String("application/x-qt-image")) imgFormat = QLatin1String("image/PNG"); if (imgFormat.startsWith("image/")){ QByteArray f(imgFormat.mid(6).toAscii()); QByteArray dat; QBuffer w(&dat); w.open(QIODevice::WriteOnly); QImageWriter writer(&w, f.toUpper()); if (!writer.write(d->img)) return QByteArray(); w.close(); return dat; } else { return QByteArray(); } } /*! \fn bool Q3ImageDrag::canDecode(const QMimeSource *source) Returns true if the information in the MIME \a source can be decoded into an image; otherwise returns false. \sa decode() */ bool Q3ImageDrag::canDecode(const QMimeSource* e) { return e->provides("application/x-qt-image"); } /*! \fn bool Q3ImageDrag::decode(const QMimeSource *source, QImage &image) Decode the dropped information in the MIME \a source into the \a image. Returns true if successful; otherwise returns false. \sa canDecode() */ bool Q3ImageDrag::decode(const QMimeSource* e, QImage& img) { if (!e) return false; QByteArray payload = e->encodedData("application/x-qt-image"); if (payload.isEmpty()) return false; img.loadFromData(payload); if (img.isNull()) return false; return true; } /*! \fn bool Q3ImageDrag::decode(const QMimeSource *source, QPixmap &pixmap) \overload Decodes the dropped information in the MIME \a source into the \a pixmap. Returns true if successful; otherwise returns false. This is a convenience function that converts the information to a QPixmap via a QImage. \sa canDecode() */ bool Q3ImageDrag::decode(const QMimeSource* e, QPixmap& pm) { if (!e) return false; QImage img; // We avoid dither, since the image probably came from this display if (decode(e, img)) { pm = QPixmap::fromImage(img, Qt::AvoidDither); if (pm.isNull()) return false; return true; } return false; } /*! \class Q3StoredDrag \brief The Q3StoredDrag class provides a simple stored-value drag object for arbitrary MIME data. \compat When a block of data has only one representation, you can use a Q3StoredDrag to hold it. For more information about drag and drop, see the Q3DragObject class and the \link dnd.html drag and drop documentation\endlink. */ /*! Constructs a Q3StoredDrag. The \a dragSource and \a name are passed to the Q3DragObject constructor, and the format is set to \a mimeType. The data will be unset. Use setEncodedData() to set it. */ Q3StoredDrag::Q3StoredDrag(const char* mimeType, QWidget * dragSource, const char * name) : Q3DragObject(*new Q3StoredDragPrivate, dragSource) { Q_D(Q3StoredDrag); setObjectName(QLatin1String(name)); d->fmt = qstrdup(mimeType); } /*! \internal */ Q3StoredDrag::Q3StoredDrag(Q3StoredDragPrivate &dd, const char* mimeType, QWidget * dragSource) : Q3DragObject(dd, dragSource) { d_func()->fmt = qstrdup(mimeType); } /*! Destroys the drag object. */ Q3StoredDrag::~Q3StoredDrag() { delete [] (char*)d_func()->fmt; } /*! \reimp */ const char * Q3StoredDrag::format(int i) const { if (i==0) return d_func()->fmt; else return 0; } /*! \fn void Q3StoredDrag::setEncodedData(const QByteArray &data) Sets the encoded \a data of this drag object. The encoded data is delivered to drop sites; it must be in a strictly defined and portable format. The drag object can't be dropped (by the user) until this function has been called. */ void Q3StoredDrag::setEncodedData(const QByteArray & encodedData) { d_func()->enc = encodedData; } /*! \fn QByteArray Q3StoredDrag::encodedData(const char *format) const Returns the stored data in the \a format given. \sa setEncodedData() */ QByteArray Q3StoredDrag::encodedData(const char* m) const { if (!qstricmp(m, d_func()->fmt)) return d_func()->enc; else return QByteArray(); } /*! \class Q3UriDrag \brief The Q3UriDrag class provides a drag object for a list of URI references. \compat URIs are a useful way to refer to files that may be distributed across multiple machines. A URI will often refer to a file on a machine local to both the drag source and the drop target, so the URI can be equivalent to passing a file name but is more extensible. Use URIs in Unicode form so that the user can comfortably edit and view them. For use in HTTP or other protocols, use the correctly escaped ASCII form. You can convert a list of file names to file URIs using setFileNames(), or into human-readable form with setUnicodeUris(). Static functions are provided to convert between filenames and URIs; e.g. uriToLocalFile() and localFileToUri(). Static functions are also provided to convert URIs to and from human-readable form; e.g. uriToUnicodeUri() and unicodeUriToUri(). You can also decode URIs from a MIME source into a list with decodeLocalFiles() and decodeToUnicodeUris(). */ /*! Constructs an object to drag the list of \a uris. The \a dragSource and \a name are passed to the Q3StoredDrag constructor. Note that URIs are always in escaped UTF8 encoding. */ Q3UriDrag::Q3UriDrag(const Q3StrList &uris, QWidget * dragSource, const char * name) : Q3StoredDrag("text/uri-list", dragSource) { setObjectName(QLatin1String(name)); setUris(uris); } /*! Constructs an object to drag with the given \a name. You must call setUris() before you start the drag(). Both the \a dragSource and the \a name are passed to the Q3StoredDrag constructor. */ Q3UriDrag::Q3UriDrag(QWidget * dragSource, const char * name) : Q3StoredDrag("text/uri-list", dragSource) { setObjectName(QLatin1String(name)); } #endif /*! Destroys the URI drag object. */ Q3UriDrag::~Q3UriDrag() { } /*! \fn void Q3UriDrag::setUris(const QList &list) Changes the \a list of URIs to be dragged. Note that URIs are always in escaped UTF8 encoding. */ void Q3UriDrag::setUris(const QList &uris) { QByteArray a; int c = 0; int i; int count = uris.count(); for (i = 0; i < count; ++i) c += uris.at(i).size() + 2; //length + \r\n a.reserve(c+1); for (i = 0; i < count; ++i) { a.append(uris.at(i)); a.append("\r\n"); } a[c] = 0; setEncodedData(a); } /*! \fn bool Q3UriDrag::canDecode(const QMimeSource *source) Returns true if decode() can decode the MIME \a source; otherwise returns false. */ bool Q3UriDrag::canDecode(const QMimeSource* e) { return e->provides("text/uri-list"); } /*! \fn bool Q3UriDrag::decode(const QMimeSource* source, Q3StrList& list) Decodes URIs from the MIME \a source, placing the result in the \a list. The list is cleared before any items are inserted. Returns true if the MIME \a source contained a valid list of URIs; otherwise returns false. */ bool Q3UriDrag::decode(const QMimeSource* e, Q3StrList& l) { QByteArray payload = e->encodedData("text/uri-list"); if (payload.size()) { l.clear(); l.setAutoDelete(true); uint c=0; const char* data = payload.data(); while ((int)c < payload.size() && data[c]) { uint f = c; // Find line end while ((int)c < payload.size() && data[c] && data[c]!='\r' && data[c] != '\n') c++; Q3CString s(data+f,c-f+1); if (s[0] != '#') // non-comment? l.append(s); // Skip junk while ((int)c < payload.size() && data[c] && (data[c]=='\n' || data[c]=='\r')) c++; } return true; } return false; } static uint htod(int h) { if (isdigit(h)) return h - '0'; return tolower(h) - 'a' + 10; } /*! \fn Q3UriDrag::setFilenames(const QStringList &list) \obsolete Sets the filename's in the drag object to those in the given \a list. Use setFileNames() instead. */ /*! \fn void Q3UriDrag::setFileNames(const QStringList &filenames) Sets the URIs to be local file URIs equivalent to the \a filenames. \sa localFileToUri(), setUris() */ void Q3UriDrag::setFileNames(const QStringList & fnames) { QList uris; for (QStringList::ConstIterator i = fnames.begin(); i != fnames.end(); ++i) { QByteArray fileUri = localFileToUri(*i); if (!fileUri.isEmpty()) uris.append(fileUri); } setUris(uris); } /*! \fn void Q3UriDrag::setFileNames(const QString &name) \fn void Q3UriDrag::setFilenames(const QString &name) Same as setFileNames(QStringList(\a name)). */ /*! \fn void Q3UriDrag::setUnicodeUris(const QStringList &list) Sets the URIs in the \a list to be Unicode URIs (only useful for displaying to humans). \sa localFileToUri(), setUris() */ void Q3UriDrag::setUnicodeUris(const QStringList & uuris) { QList uris; for (int i = 0; i < uuris.count(); ++i) uris.append(unicodeUriToUri(uuris.at(i))); setUris(uris); } /*! \fn QByteArray Q3UriDrag::unicodeUriToUri(const QString &string) Returns the URI equivalent of the Unicode URI given in the \a string (only useful for displaying to humans). \sa uriToLocalFile() */ QByteArray Q3UriDrag::unicodeUriToUri(const QString& uuri) { QByteArray utf8 = uuri.toUtf8(); QByteArray escutf8; int n = utf8.length(); bool isFile = uuri.startsWith(QLatin1String("file://")); for (int i=0; i= 'a' && utf8[i] <= 'z') || utf8[i] == '/' || (utf8[i] >= '0' && utf8[i] <= '9') || (utf8[i] >= 'A' && utf8[i] <= 'Z') || utf8[i] == '-' || utf8[i] == '_' || utf8[i] == '.' || utf8[i] == '!' || utf8[i] == '~' || utf8[i] == '*' || utf8[i] == '(' || utf8[i] == ')' || utf8[i] == '\'' // Allow this through, so that all URI-references work. || (!isFile && utf8[i] == '#') || utf8[i] == ';' || utf8[i] == '?' || utf8[i] == ':' || utf8[i] == '@' || utf8[i] == '&' || utf8[i] == '=' || utf8[i] == '+' || utf8[i] == '$' || utf8[i] == ',') { escutf8 += utf8[i]; } else { // Everything else is escaped as %HH QString s; s.sprintf("%%%02x",(uchar)utf8[i]); escutf8 += s.latin1(); } } return escutf8; } /*! Returns the URI equivalent to the absolute local \a filename. \sa uriToLocalFile() */ QByteArray Q3UriDrag::localFileToUri(const QString& filename) { QString r = filename; //check that it is an absolute file if (QDir::isRelativePath(r)) return QByteArray(); #ifdef Q_WS_WIN bool hasHost = false; // convert form network path if (r.left(2) == QLatin1String("\\\\") || r.left(2) == QLatin1String("//")) { r.remove(0, 2); hasHost = true; } // Slosh -> Slash int slosh; while ((slosh=r.indexOf(QLatin1Char('\\'))) >= 0) { r[slosh] = QLatin1Char('/'); } // Drive if (r[0] != QLatin1Char('/') && !hasHost) r.insert(0,QLatin1Char('/')); #endif #if defined (Q_WS_X11) && 0 // URL without the hostname is considered to be errorneous by XDnD. // See: http://www.newplanetsoftware.com/xdnd/dragging_files.html // This feature is not active because this would break dnd between old and new qt apps. char hostname[257]; if (gethostname(hostname, 255) == 0) { hostname[256] = '\0'; r.prepend(QString::fromLatin1(hostname)); } #endif return unicodeUriToUri(QLatin1String("file://") + r); } /*! \fn QString Q3UriDrag::uriToUnicodeUri(const char *string) Returns the Unicode URI (only useful for displaying to humans) equivalent of the URI given in the \a string. Note that URIs are always in escaped UTF8 encoding. \sa localFileToUri() */ QString Q3UriDrag::uriToUnicodeUri(const char* uri) { QByteArray utf8; while (*uri) { switch (*uri) { case '%': { uint ch = (uchar) uri[1]; if (ch && uri[2]) { ch = htod(ch) * 16 + htod((uchar) uri[2]); utf8 += (char) ch; uri += 2; } } break; default: utf8 += *uri; } ++uri; } return QString::fromUtf8(utf8); } /*! \fn QString Q3UriDrag::uriToLocalFile(const char *string) Returns the name of a local file equivalent to the URI given in the \a string, or an empty string if it does not refer to a local file. Note that URIs are always in escaped UTF8 encoding. \sa localFileToUri() */ QString Q3UriDrag::uriToLocalFile(const char* uri) { QString file; if (!uri) return file; if (0==qstrnicmp(uri,"file:/",6)) // It is a local file uri uri += 6; else if (QString::fromLatin1(uri).indexOf(QLatin1String(":/")) != -1) // It is a different scheme uri return file; bool local = uri[0] != '/' || (uri[0] != '\0' && uri[1] == '/'); #ifdef Q_WS_X11 // do we have a hostname? if (!local && uri[0] == '/' && uri[2] != '/') { // then move the pointer to after the 'hostname/' part of the uri const char* hostname_end = strchr(uri+1, '/'); if (hostname_end != NULL) { char hostname[257]; if (gethostname(hostname, 255) == 0) { hostname[256] = '\0'; if (qstrncmp(uri+1, hostname, hostname_end - (uri+1)) == 0) { uri = hostname_end + 1; // point after the slash local = true; } } } } #endif if (local) { file = uriToUnicodeUri(uri); if (uri[1] == '/') { file.remove((uint)0,1); } else { file.insert(0, QLatin1Char('/')); } #ifdef Q_WS_WIN if (file.length() > 2 && file[0] == QLatin1Char('/') && file[2] == QLatin1Char('|')) { file[2] = QLatin1Char(':'); file.remove(0,1); } else if (file.length() > 2 && file[0] == QLatin1Char('/') && file[1].isLetter() && file[2] == QLatin1Char(':')) { file.remove(0, 1); } // Leave slash as slashes. #endif } #ifdef Q_WS_WIN else { file = uriToUnicodeUri(uri); // convert to network path file.insert(1, QLatin1Char('/')); // leave as forward slashes } #endif return file; } /*! \fn bool Q3UriDrag::decodeLocalFiles(const QMimeSource *source, QStringList &list) Decodes URIs from the MIME \a source, converting them to local filenames where possible, and places them in the \a list (which is first cleared). Returns true if the MIME \a source contained a valid list of URIs; otherwise returns false. The list will be empty if no URIs referred to local files. */ bool Q3UriDrag::decodeLocalFiles(const QMimeSource* e, QStringList& l) { Q3StrList u; if (!decode(e, u)) return false; l.clear(); for (uint i = 0; i < u.count(); ++i) { QString lf = uriToLocalFile(u.at(i)); if (!lf.isEmpty()) l.append(lf); } return true; } /*! \fn bool Q3UriDrag::decodeToUnicodeUris(const QMimeSource *source, QStringList &list) Decodes URIs from the MIME \a source, converting them to Unicode URIs (only useful for displaying to humans), and places them in the \a list (which is first cleared). Returns true if the MIME \a source contained a valid list of URIs; otherwise returns false. */ bool Q3UriDrag::decodeToUnicodeUris(const QMimeSource* e, QStringList& l) { Q3StrList u; if (!decode(e, u)) return false; l.clear(); for (uint i = 0; i < u.count(); ++i) l.append(uriToUnicodeUri(u.at(i))); return true; } /*! \class Q3ColorDrag \brief The Q3ColorDrag class provides a drag and drop object for transferring colors between widgets. \compat This class provides a drag object which can be used to transfer data about colors for drag and drop and in the clipboard. For example, it is used in QColorDialog. The color is set in the constructor but can be changed with setColor(). For more information about drag and drop, see the Q3DragObject class and the \link dnd.html drag and drop documentation\endlink. */ /*! Constructs a color drag object with the given \a col. Passes \a dragsource and \a name to the Q3StoredDrag constructor. */ Q3ColorDrag::Q3ColorDrag(const QColor &col, QWidget *dragsource, const char *name) : Q3StoredDrag("application/x-color", dragsource) { setObjectName(QLatin1String(name)); setColor(col); } /*! Constructs a color drag object with a white color. Passes \a dragsource and \a name to the Q3StoredDrag constructor. */ Q3ColorDrag::Q3ColorDrag(QWidget *dragsource, const char *name) : Q3StoredDrag("application/x-color", dragsource) { setObjectName(QLatin1String(name)); setColor(Qt::white); } /*! \fn void Q3ColorDrag::setColor(const QColor &color) Sets the \a color of the color drag. */ void Q3ColorDrag::setColor(const QColor &col) { short r = (col.red() << 8) | col.red(); short g = (col.green() << 8) | col.green(); short b = (col.blue() << 8) | col.blue(); // make sure we transmit data in network order r = htons(r); g = htons(g); b = htons(b); ushort rgba[4] = { r, g, b, 0xffff // Alpha not supported yet. }; QByteArray data; data.resize(sizeof(rgba)); memcpy(data.data(), rgba, sizeof(rgba)); setEncodedData(data); } /*! \fn bool Q3ColorDrag::canDecode(QMimeSource *source) Returns true if the color drag object can decode the MIME \a source; otherwise returns false. */ bool Q3ColorDrag::canDecode(QMimeSource *e) { return e->provides("application/x-color"); } /*! \fn bool Q3ColorDrag::decode(QMimeSource *source, QColor &color) Decodes the MIME \a source, and sets the decoded values to the given \a color. Returns true if the decoding is successful. Returns false if the size of the encoded data is not the expected size. */ bool Q3ColorDrag::decode(QMimeSource *e, QColor &col) { QByteArray data = e->encodedData("application/x-color"); ushort rgba[4]; if (data.size() != sizeof(rgba)) return false; memcpy(rgba, data.constData(), sizeof(rgba)); short r = rgba[0]; short g = rgba[1]; short b = rgba[2]; short a = rgba[3]; // data is in network order r = ntohs(r); g = ntohs(g); b = ntohs(b); a = ntohs(a); r = (r >> 8) & 0xff; g = (g >> 8) & 0xff; b = (b >> 8) & 0xff; a = (a >> 8) & 0xff; col.setRgb(r, g, b, a); return true; } QT_END_NAMESPACE