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Drag and drop operations are also supported by Qt's item views and by the graphics view framework; more information is available in the \l{Using Drag and Drop with Item Views} and \l{The Graphics View Framework} documents. \section1 Configuration The QApplication object provides some properties that are related to drag and drop operations: \list \i \l{QApplication::startDragTime} describes the amount of time in milliseconds that the user must hold down a mouse button over an object before a drag will begin. \i \l{QApplication::startDragDistance} indicates how far the user has to move the mouse while holding down a mouse button before the movement will be interpreted as dragging. Use of high values for this quantity prevents accidental dragging when the user only meant to click on an object. \endlist These quantities provide sensible default values for you to use if you provide drag and drop support in your widgets. \section1 Dragging To start a drag, create a QDrag object, and call its exec() function. In most applications, it is a good idea to begin a drag and drop operation only after a mouse button has been pressed and the cursor has been moved a certain distance. However, the simplest way to enable dragging from a widget is to reimplement the widget's \l{QWidget::mousePressEvent()}{mousePressEvent()} and start a drag and drop operation: \snippet doc/src/snippets/dragging/mainwindow.cpp 0 \dots 8 \snippet doc/src/snippets/dragging/mainwindow.cpp 2 Although the user may take some time to complete the dragging operation, as far as the application is concerned the exec() function is a blocking function that returns with \l{Qt::DropActions}{one of several values}. These indicate how the operation ended, and are described in more detail below. Note that the exec() function does not block the main event loop. For widgets that need to distinguish between mouse clicks and drags, it is useful to reimplement the widget's \l{QWidget::mousePressEvent()}{mousePressEvent()} function to record to start position of the drag: \snippet doc/src/snippets/draganddrop/dragwidget.cpp 6 Later, in \l{QWidget::mouseMoveEvent()}{mouseMoveEvent()}, we can determine whether a drag should begin, and construct a drag object to handle the operation: \snippet doc/src/snippets/draganddrop/dragwidget.cpp 7 \dots \snippet doc/src/snippets/draganddrop/dragwidget.cpp 8 This particular approach uses the \l QPoint::manhattanLength() function to get a rough estimate of the distance between where the mouse click occurred and the current cursor position. This function trades accuracy for speed, and is usually suitable for this purpose. \section1 Dropping To be able to receive media dropped on a widget, call \l{QWidget::setAcceptDrops()}{setAcceptDrops(true)} for the widget, and reimplement the \l{QWidget::dragEnterEvent()}{dragEnterEvent()} and \l{QWidget::dropEvent()}{dropEvent()} event handler functions. For example, the following code enables drop events in the constructor of a QWidget subclass, making it possible to usefully implement drop event handlers: \snippet doc/src/snippets/dropevents/window.cpp 0 \dots \snippet doc/src/snippets/dropevents/window.cpp 1 \snippet doc/src/snippets/dropevents/window.cpp 2 The dragEnterEvent() function is typically used to inform Qt about the types of data that the widget accepts. You must reimplement this function if you want to receive either QDragMoveEvent or QDropEvent in your reimplementations of \l{QWidget::dragMoveEvent()}{dragMoveEvent()} and \l{QWidget::dropEvent()}{dropEvent()}. The following code shows how \l{QWidget::dragEnterEvent()}{dragEnterEvent()} can be reimplemented to tell the drag and drop system that we can only handle plain text: \snippet doc/src/snippets/dropevents/window.cpp 3 The \l{QWidget::dropEvent()}{dropEvent()} is used to unpack dropped data and handle it in way that is suitable for your application. In the following code, the text supplied in the event is passed to a QTextBrowser and a QComboBox is filled with the list of MIME types that are used to describe the data: \snippet doc/src/snippets/dropevents/window.cpp 4 In this case, we accept the proposed action without checking what it is. In a real world application, it may be necessary to return from the \l{QWidget::dropEvent()}{dropEvent()} function without accepting the proposed action or handling the data if the action is not relevant. For example, we may choose to ignore Qt::LinkAction actions if we do not support links to external sources in our application. \section2 Overriding Proposed Actions We may also ignore the proposed action, and perform some other action on the data. To do this, we would call the event object's \l{QDropEvent::setDropAction()}{setDropAction()} with the preferred action from Qt::DropAction before calling \l{QEvent::}{accept()}. This ensures that the replacement drop action is used instead of the proposed action. For more sophisticated applications, reimplementing \l{QWidget::dragMoveEvent()}{dragMoveEvent()} and \l{QWidget::dragLeaveEvent()}{dragLeaveEvent()} will let you make certain parts of your widgets sensitive to drop events, and give you more control over drag and drop in your application. \section2 Subclassing Complex Widgets Certain standard Qt widgets provide their own support for drag and drop. When subclassing these widgets, it may be necessary to reimplement \l{QWidget::dragMoveEvent()}{dragMoveEvent()} in addition to \l{QWidget::dragEnterEvent()}{dragEnterEvent()} and \l{QWidget::dropEvent()}{dropEvent()} to prevent the base class from providing default drag and drop handling, and to handle any special cases you are interested in. \section1 Drag and Drop Actions In the simplest case, the target of a drag and drop action receives a copy of the data being dragged, and the source decides whether to delete the original. This is described by the \c CopyAction action. The target may also choose to handle other actions, specifically the \c MoveAction and \c LinkAction actions. If the source calls QDrag::exec(), and it returns \c MoveAction, the source is responsible for deleting any original data if it chooses to do so. The QMimeData and QDrag objects created by the source widget \e{should not be deleted} - they will be destroyed by Qt. The target is responsible for taking ownership of the data sent in the drag and drop operation; this is usually done by keeping references to the data. If the target understands the \c LinkAction action, it should store its own reference to the original information; the source does not need to perform any further processing on the data. The most common use of drag and drop actions is when performing a Move within the same widget; see the section on \l{Drop Actions} for more information about this feature. The other major use of drag actions is when using a reference type such as text/uri-list, where the dragged data are actually references to files or objects. \section1 Adding New Drag and Drop Types Drag and drop is not limited to text and images. Any type of information can be transferred in a drag and drop operation. To drag information between applications, the applications must be able to indicate to each other which data formats they can accept and which they can produce. This is achieved using \l{http://www.rfc-editor.org/rfc/rfc1341.txt}{MIME types}. The QDrag object constructed by the source contains a list of MIME types that it uses to represent the data (ordered from most appropriate to least appropriate), and the drop target uses one of these to access the data. For common data types, the convenience functions handle the MIME types used transparently but, for custom data types, it is necessary to state them explicitly. To implement drag and drop actions for a type of information that is not covered by the QDrag convenience functions, the first and most important step is to look for existing formats that are appropriate: The Internet Assigned Numbers Authority (\l{http://www.iana.org}{IANA}) provides a \l{http://www.iana.org/assignments/media-types/}{hierarchical list of MIME media types} at the Information Sciences Institute (\l{http://www.isi.edu}{ISI}). Using standard MIME types maximizes the interoperability of your application with other software now and in the future. To support an additional media type, simply set the data in the QMimeData object with the \l{QMimeData::setData()}{setData()} function, supplying the full MIME type and a QByteArray containing the data in the appropriate format. The following code takes a pixmap from a label and stores it as a Portable Network Graphics (PNG) file in a QMimeData object: \snippet doc/src/snippets/separations/finalwidget.cpp 0 Of course, for this case we could have simply used \l{QMimeData::setImageData()}{setImageData()} instead to supply image data in a variety of formats: \snippet doc/src/snippets/separations/finalwidget.cpp 1 The QByteArray approach is still useful in this case because it provides greater control over the amount of data stored in the QMimeData object. Note that custom datatypes used in item views must be declared as \l{QMetaObject}{meta objects} and that stream operators for them must be implemented. \section1 Drop Actions In the clipboard model, the user can \e cut or \e copy the source information, then later paste it. Similarly in the drag and drop model, the user can drag a \e copy of the information or they can drag the information itself to a new place (\e moving it). The drag and drop model has an additional complication for the programmer: The program doesn't know whether the user wants to cut or copy the information until the operation is complete. This often makes no difference when dragging information between applications, but within an application it is important to check which drop action was used. We can reimplement the mouseMoveEvent() for a widget, and start a drag and drop operation with a combination of possible drop actions. For example, we may want to ensure that dragging always moves objects in the widget: \snippet doc/src/snippets/draganddrop/dragwidget.cpp 7 \dots \snippet doc/src/snippets/draganddrop/dragwidget.cpp 8 The action returned by the exec() function may default to a \c CopyAction if the information is dropped into another application but, if it is dropped in another widget in the same application, we may obtain a different drop action. The proposed drop actions can be filtered in a widget's dragMoveEvent() function. However, it is possible to accept all proposed actions in the dragEnterEvent() and let the user decide which they want to accept later: \snippet doc/src/snippets/draganddrop/dragwidget.cpp 0 When a drop occurs in the widget, the dropEvent() handler function is called, and we can deal with each possible action in turn. First, we deal with drag and drop operations within the same widget: \snippet doc/src/snippets/draganddrop/dragwidget.cpp 1 In this case, we refuse to deal with move operations. Each type of drop action that we accept is checked and dealt with accordingly: \snippet doc/src/snippets/draganddrop/dragwidget.cpp 2 \snippet doc/src/snippets/draganddrop/dragwidget.cpp 3 \snippet doc/src/snippets/draganddrop/dragwidget.cpp 4 \dots \snippet doc/src/snippets/draganddrop/dragwidget.cpp 5 Note that we checked for individual drop actions in the above code. As mentioned above in the section on \l{#Overriding Proposed Actions}{Overriding Proposed Actions}, it is sometimes necessary to override the proposed drop action and choose a different one from the selection of possible drop actions. To do this, you need to check for the presence of each action in the value supplied by the event's \l{QDropEvent::}{possibleActions()}, set the drop action with \l{QDropEvent::}{setDropAction()}, and call \l{QEvent::}{accept()}. \section1 Drop Rectangles The widget's dragMoveEvent() can be used to restrict drops to certain parts of the widget by only accepting the proposed drop actions when the cursor is within those areas. For example, the following code accepts any proposed drop actions when the cursor is over a child widget (\c dropFrame): \snippet doc/src/snippets/droprectangle/window.cpp 0 The dragMoveEvent() can also be used if you need to give visual feedback during a drag and drop operation, to scroll the window, or whatever is appropriate. \section1 The Clipboard Applications can also communicate with each other by putting data on the clipboard. To access this, you need to obtain a QClipboard object from the QApplication object: \snippet examples/widgets/charactermap/mainwindow.cpp 3 The QMimeData class is used to represent data that is transferred to and from the clipboard. To put data on the clipboard, you can use the setText(), setImage(), and setPixmap() convenience functions for common data types. These functions are similar to those found in the QMimeData class, except that they also take an additional argument that controls where the data is stored: If \l{QClipboard::Mode}{Clipboard} is specified, the data is placed on the clipboard; if \l{QClipboard::Mode}{Selection} is specified, the data is placed in the mouse selection (on X11 only). By default, data is put on the clipboard. For example, we can copy the contents of a QLineEdit to the clipboard with the following code: \snippet examples/widgets/charactermap/mainwindow.cpp 11 Data with different MIME types can also be put on the clipboard. Construct a QMimeData object and set data with setData() function in the way described in the previous section; this object can then be put on the clipboard with the \l{QClipboard::setMimeData()}{setMimeData()} function. The QClipboard class can notify the application about changes to the data it contains via its \l{QClipboard::dataChanged()}{dataChanged()} signal. For example, we can monitor the clipboard by connecting this signal to a slot in a widget: \snippet doc/src/snippets/clipboard/clipwindow.cpp 0 The slot connected to this signal can read the data on the clipboard using one of the MIME types that can be used to represent it: \snippet doc/src/snippets/clipboard/clipwindow.cpp 1 \dots \snippet doc/src/snippets/clipboard/clipwindow.cpp 2 The \l{QClipboard::selectionChanged()}{selectionChanged()} signal can be used on X11 to monitor the mouse selection. \section1 Examples \list \o \l{draganddrop/draggableicons}{Draggable Icons} \o \l{draganddrop/draggabletext}{Draggable Text} \o \l{draganddrop/dropsite}{Drop Site} \o \l{draganddrop/fridgemagnets}{Fridge Magnets} \o \l{draganddrop/puzzle}{Drag and Drop Puzzle} \endlist \section1 Interoperating with Other Applications On X11, the public \l{http://www.newplanetsoftware.com/xdnd/}{XDND protocol} is used, while on Windows Qt uses the OLE standard, and Qt for Mac OS X uses the Carbon Drag Manager. On X11, XDND uses MIME, so no translation is necessary. The Qt API is the same regardless of the platform. On Windows, MIME-aware applications can communicate by using clipboard format names that are MIME types. Already some Windows applications use MIME naming conventions for their clipboard formats. Internally, Qt uses QWindowsMime and QMacPasteboardMime for translating proprietary clipboard formats to and from MIME types. On X11, Qt also supports drops via the Motif Drag & Drop Protocol. The implementation incorporates some code that was originally written by Daniel Dardailler, and adapted for Qt by Matt Koss and Trolltech. Here is the original copyright notice: \legalese Copyright 1996 Daniel Dardailler. Permission to use, copy, modify, distribute, and sell this software for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Daniel Dardailler not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. Daniel Dardailler makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. Modifications Copyright 1999 Matt Koss, under the same license as above. \endlegalese \omit NOTE: The copyright notice is from qmotifdnd_x11.cpp. \endomit Note: The Motif Drag \& Drop Protocol only allows receivers to request data in response to a QDropEvent. If you attempt to request data in response to e.g. a QDragMoveEvent, an empty QByteArray is returned. */ /*! \page porting4-dnd.html \title Porting to Qt 4 - Drag and Drop \contentspage {Porting Guides}{Contents} \previouspage Porting to Qt 4 - Virtual Functions \nextpage Porting UI Files to Qt 4 \ingroup porting \brief An overview of the porting process for applications that use drag and drop. Qt 4 introduces a new set of classes to handle drag and drop operations that aim to be easier to use than their counterparts in Qt 3. As a result, the way that drag and drop is performed is quite different to the way developers of Qt 3 applications have come to expect. In this guide, we show the differences between the old and new APIs and indicate where applications need to be changed when they are ported to Qt 4. \tableofcontents \section1 Dragging In Qt 3, drag operations are encapsulated by \c QDragObject (see Q3DragObject) and its subclasses. These objects are typically constructed on the heap in response to mouse click or mouse move events, and ownership of them is transferred to Qt so that they can be deleted when the corresponding drag and drop operations have been completed. The drag source has no control over how the drag and drop operation is performed once the object's \l{Q3DragObject::}{drag()} function is called, and it receives no information about how the operation ended. \snippet doc/src/snippets/code/doc_src_dnd.qdoc 0 Similarly, in Qt 4, drag operations are also initiated when a QDrag object is constructed and its \l{QDrag::}{exec()} function is called. In contrast, these objects are typically constructed on the stack rather than the heap since each drag and drop operation is performed synchronously as far as the drag source is concerned. One key benefit of this is that the drag source can receive information about how the operation ended from the value returned by \l{QDrag::}{exec()}. \snippet doc/src/snippets/porting4-dropevents/window.cpp 2 \snippet doc/src/snippets/porting4-dropevents/window.cpp 3 \dots 8 \snippet doc/src/snippets/porting4-dropevents/window.cpp 4 \snippet doc/src/snippets/porting4-dropevents/window.cpp 5 A key difference in the above code is the use of the QMimeData class to hold information about the data that is transferred. Qt 3 relies on subclasses of \c QDragObject to provide support for specific MIME types; in Qt 4, the use of QMimeData as a generic container for data makes the relationship between MIME type and data more tranparent. QMimeData is described in more detail later in this document. \section1 Dropping In both Qt 3 and Qt 4, it is possible to prepare a custom widget to accept dropped data by enabling the \l{QWidget::}{acceptDrops} property of a widget, usually in the widget's constructor. As a result, the widget will receive drag enter events that can be handled by its \l{QWidget::}{dragEnterEvent()} function. As in Qt 3, custom widgets in Qt 4 handle these events by determining whether the data supplied by the drag and drop operation can be dropped onto the widget. Since the classes used to encapsulate MIME data are different in Qt 3 and Qt 4, the exact implementations differ. In Qt 3, the drag enter event is handled by checking whether each of the standard \c QDragObject subclasses can decode the data supplied, and indicating success or failure of these checks via the event's \l{QDragEnterEvent::}{accept()} function, as shown in this simple example: \snippet doc/src/snippets/code/doc_src_dnd.qdoc 1 In Qt 4, you can examine the MIME type describing the data to determine whether the widget should accept the event or, for common data types, you can use convenience functions: \snippet doc/src/snippets/porting4-dropevents/window.cpp 0 The widget has some control over the type of drag and drop operation to be performed. In the above code, the action proposed by the drag source is accepted, but \l{Drag and Drop#Overriding Proposed Actions}{this can be overridden} if required. In both Qt 3 and Qt 4, it is necessary to accept a given drag event in order to receive the corresponding drop event. A custom widget in Qt 3 that can accept dropped data in the form of text or images might provide an implementation of \l{QWidget::}{dropEvent()} that looks like the following: \snippet doc/src/snippets/code/doc_src_dnd.qdoc 2 In Qt 4, the event is handled in a similar way: \snippet doc/src/snippets/porting4-dropevents/window.cpp 1 It is also possible to extract data stored for a particular MIME type if it was specified by the drag source. \section1 MIME Types and Data In Qt 3, data to be transferred in drag and drop operations is encapsulated in instances of \c QDragObject and its subclasses, representing specific data formats related to common MIME type and subtypes. In Qt 4, only the QMimeData class is used to represent data, providing a container for data stored in multiple formats, each associated with a relevant MIME type. Since arbitrary MIME types can be specified, there is no need for an extensive class hierarchy to represent different kinds of information. Additionally, QMimeData it provides some convenience functions to allow the most common data formats to be stored and retrieved with less effort than for arbitrary MIME types. */