/* This file is part of the KDE project Copyright (C) 1999 Simon Hausmann (C) 1999 David Faure This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef _KPART_H #define _KPART_H #include #include #include #include #include class TDEInstance; class TQWidget; class TDEAction; class TDEActionCollection; class TQEvent; struct QUnknownInterface; namespace TDEIO { class Job; } namespace KParts { class PartManager; class Plugin; class PartPrivate; class PartActivateEvent; class PartSelectEvent; class GUIActivateEvent; class PartBasePrivate; /** * Base class for all parts. * * @short Base class for all parts. */ class TDEPARTS_EXPORT PartBase : virtual public KXMLGUIClient { friend class PartBasePrivate; public: /** * Constructor. */ PartBase(); /** * Destructor. */ virtual ~PartBase(); /** * Internal method. Called by KParts::Part to specify the parent object for plugin objects. * * @internal */ void setPartObject( TQObject *object ); TQObject *partObject() const; protected: /** * Set the instance ( TDEInstance) for this part. * * Call this *first* in the inherited class constructor, * because it loads the i18n catalogues. */ virtual void setInstance( TDEInstance *instance ); /** * Set the instance ( TDEInstance) for this part. * * Call this *first* in the inherited class constructor, * because it loads the i18n catalogues. */ virtual void setInstance( TDEInstance *instance, bool loadPlugins ); /** * We have three different policies, whether to load new plugins or not. The * value in the TDEConfig object of the TDEInstance object always overrides * LoadPlugins and LoadPluginsIfEnabled. */ enum PluginLoadingMode { /** * Don't load any plugins at all. */ DoNotLoadPlugins = 0, /** * Load new plugins automatically. Can be * overridden by the plugin if it sets * EnabledByDefault=false in the corresponding * .desktop file. */ LoadPlugins = 1, /** * New plugins are disabled by default. Can be * overridden by the plugin if it sets * EnabledByDefault=true in the corresponding * .desktop file. */ LoadPluginsIfEnabled = 2 }; /** * Load the Plugins honoring the PluginLoadingMode. * * If you call this method in an already constructed GUI (like when the user * has changed which plugins are enabled) you need to add the new plugins to * the KXMLGUIFactory: * \code * if( factory() ) * { * TQPtrList plugins = KParts::Plugin::pluginObjects( this ); * TQPtrListIterator it( plugins ); * KParts::Plugin * plugin; * while( ( plugin = it.current() ) != 0 ) * { * ++it; * factory()->addClient( plugin ); * } * } * \endcode */ void loadPlugins( TQObject *parent, KXMLGUIClient *parentGUIClient, TDEInstance *instance ); /** * For a KParts::Part: call this before setInstance(). * For a KParts::MainWindow: call this before createGUI(). */ void setPluginLoadingMode( PluginLoadingMode loadingMode ); private: PartBasePrivate *d; TQObject *m_obj; }; /** * Base class for parts. * * A "part" is a GUI component, featuring: * @li A widget embeddedable in any application. * @li GUI elements that will be merged in the "host" user interface * (menubars, toolbars... ). * * About the widget:\n * * Note that KParts::Part does not inherit TQWidget. * This is due to the fact that the "visual representation" * will probably not be a mere TQWidget, but an elaborate one. * That's why when implementing your KParts::Part (or derived) * you should call KParts::Part::setWidget() in your constructor. * * About the GUI elements:\n * * Those elements trigger actions, defined by the part (action()). * The layout of the actions in the GUI is defined by an XML file (setXMLFile()). * * See also ReadOnlyPart and ReadWritePart, which define the * framework for a "viewer" part and for an "editor"-like part. * Use Part directly only if your part doesn't fit into those. */ class TDEPARTS_EXPORT Part : public TQObject, public PartBase { TQ_OBJECT public: /** * Constructor. * * @param parent Parent object of the part. * @param name QT-internal name of the part. */ Part( TQObject *parent = 0, const char* name = 0 ); /** * Destructor. */ virtual ~Part(); /** * Embed this part into a host widget. * * You don't need to do this if you created the widget with the * correct parent widget - this is just a TQWidget::reparent(). * Note that the Part is still the holder * of the TQWidget, meaning that if you delete the Part, * then the widget gets destroyed as well, and vice-versa. * This method is not recommended since creating the widget with the correct * parent is simpler anyway. */ virtual void embed( TQWidget * parentWidget ); /** * @return The widget defined by this part, set by setWidget(). */ virtual TQWidget *widget(); /** * @internal * Used by the part manager. */ virtual void setManager( PartManager * manager ); /** * Returns the part manager handling this part, if any (0L otherwise). */ PartManager * manager() const; /** * Returns the part (this, or a child part) at the given global position. * This is called by the part manager to ask whether a part should be activated * when clicking somewhere. In most cases the default implementation is enough. * Reimplement this if your part has child parts in some areas (like in tdehtml or koffice) * @param widget the part widget being clicked - usually the same as widget(), except in koffice. * @param globalPos the mouse coordinates in global coordinates */ virtual Part *hitTest( TQWidget *widget, const TQPoint &globalPos ); /** * @param selectable Indicates whether the part is selectable or not. */ virtual void setSelectable( bool selectable ); /** * Returns whether the part is selectable or not. */ bool isSelectable() const; signals: /** * Emitted by the part, to set the caption of the window(s) * hosting this part */ void setWindowCaption( const TQString & caption ); /** * Emited by the part, to set a text in the statusbar of the window(s) * hosting this part */ void setStatusBarText( const TQString & text ); protected: /** * Set the main widget. * * Call this in the Part-inherited class constructor. */ virtual void setWidget( TQWidget * widget ); /** * @internal */ virtual void customEvent( TQCustomEvent *event ); /** * Convenience method which is called when the Part received a PartActivateEvent . * Reimplement this if you don't want to reimplement event and test for the event yourself * or even install an event filter. */ virtual void partActivateEvent( PartActivateEvent *event ); /** * Convenience method which is called when the Part received a * PartSelectEvent . * Reimplement this if you don't want to reimplement event and * test for the event yourself or even install an event filter. */ virtual void partSelectEvent( PartSelectEvent *event ); /** * Convenience method which is called when the Part received a * GUIActivateEvent . * Reimplement this if you don't want to reimplement event and * test for the event yourself or even install an event filter. */ virtual void guiActivateEvent( GUIActivateEvent *event ); /** * Convenience method for KXMLGUIFactory::container. * @return a container widget owned by the Part's GUI. */ TQWidget *hostContainer( const TQString &containerName ); private slots: void slotWidgetDestroyed(); private: TQGuardedPtr m_widget; PartManager * m_manager; PartPrivate *d; }; class ReadWritePart; class ReadOnlyPartPrivate; /** * Base class for any "viewer" part. * * This class takes care of network transparency for you, * in the simplest way (downloading to a temporary file, then letting the part * load from the temporary file). * To use the built-in network transparency, you only need to implement * openFile(), not openURL(). * * To implement network transparency differently (e.g. for progressive loading, * like a web browser does for instance), or to prevent network transparency * (but why would you do that?), you can override openURL(). * * KParts Application can use the signals to show feedback while the URL is being loaded. * * ReadOnlyPart handles the window caption by setting it to the current URL * (set in openURL(), and each time the part is activated). * If you want another caption, set it in openFile() and * (if the part might ever be used with a part manager) in guiActivateEvent() */ class TDEPARTS_EXPORT ReadOnlyPart : public Part { TQ_OBJECT friend class ReadWritePart; public: /** * Constructor * See also Part for the setXXX methods to call. */ ReadOnlyPart( TQObject *parent = 0, const char *name = 0 ); /** * Destructor */ virtual ~ReadOnlyPart(); /** * Call this to turn off the progress info dialog used by * the internal TDEIO job. Use this if you provide another way * of displaying progress info (e.g. a statusbar), using the * signals emitted by this class, and/or those emitted by * the Job given by started. */ void setProgressInfoEnabled( bool show ); /** * Returns whether the part shows the progress info dialog used by internal * TDEIO job. */ bool isProgressInfoEnabled() const; #ifndef KDE_NO_COMPAT void showProgressInfo( bool show ); #endif public slots: /** * Only reimplement openURL if you don't want the network transparency support * to download from the url into a temporary file (when the url isn't local). * Otherwise, reimplement openFile() only . * * If you reimplement it, don't forget to set the caption, usually with * emit setWindowCaption( url.prettyURL() ); */ virtual bool openURL( const KURL &url ); public: /** * Returns the currently in part used URL. * * @return The current used URL. */ KURL url() const { return m_url; } /** * Called when closing the current url (e.g. document), for instance * when switching to another url (note that openURL() calls it * automatically in this case). * If the current URL is not fully loaded yet, aborts loading. * Deletes the temporary file used when the url is remote. * @return always true, but the return value exists for reimplementations */ virtual bool closeURL(); public: /** * Initiate sending data to this part. * This is an alternative to openURL, which allows the user of the part * to load the data itself, and send it progressively to the part. * * @param mimeType the type of data that is going to be sent to this part. * @param url the URL representing this data. Although not directly used, * every ReadOnlyPart has a URL (see url()), so this simply sets it. * @return true if the part supports progressive loading and accepts data, false otherwise. */ bool openStream( const TQString& mimeType, const KURL& url ); /** * Send some data to the part. openStream must have been called previously, * and must have returned true. * @return true if the data was accepted by the part. If false is returned, * the application should stop sending data, and doesn't have to call closeStream. */ bool writeStream( const TQByteArray& data ); /** * Terminate the sending of data to the part. * With some data types (text, html...) closeStream might never actually be called, * in the case of continuous streams, for instance plain text or HTML data. */ bool closeStream(); private: // Makes no sense for inherited classes to call those. But make it protected there. /** * Called by openStream to initiate sending of data. * Parts which implement progress loading should check the @p mimeType * parameter, and return true if they can accept a data stream of that type. */ virtual bool doOpenStream( const TQString& /*mimeType*/ ) { return false; } /** * Receive some data from the hosting application. * In this method the part should attempt to display the data progressively. * With some data types (text, html...) closeStream might never actually be called, * in the case of continuous streams. This can't happen with e.g. images. */ virtual bool doWriteStream( const TQByteArray& /*data*/ ) { return false; } /** * This is called by closeStream(), to indicate that all the data has been sent. * Parts should ensure that all of the data is displayed at this point. * @return whether the data could be displayed correctly. */ virtual bool doCloseStream() { return false; } signals: /** * The part emits this when starting data. * If using a TDEIO::Job, it sets the job in the signal, so that * progress information can be shown. Otherwise, job is 0. **/ void started( TDEIO::Job * ); /** * Emit this when you have completed loading data. * Hosting apps will want to know when the process of loading the data * is finished, so that they can access the data when everything is loaded. **/ void completed(); /** * Same as the above signal except it indicates whether there is * a pending action to be executed on a delay timer. An example of * this is the meta-refresh tags on web pages used to reload/redirect * after a certain period of time. This signal is useful if you want * to give the user the ability to cancel such pending actions. * * @param pendingAction true if a pending action exists, false otherwise. */ void completed( bool pendingAction ); /** * Emit this if loading is canceled by the user or by an error. * @param errMsg the error message, empty if the user canceled the loading voluntarily. */ void canceled( const TQString &errMsg ); protected slots: void slotJobFinished( TDEIO::Job * job ); protected: /** * If the part uses the standard implementation of openURL(), * it must reimplement this, to open @p m_file. * Otherwise simply define it to { return false; } */ virtual bool openFile() = 0; /** * @internal */ void abortLoad(); /** * Reimplemented from Part, so that the window caption is set to * the current url (decoded) when the part is activated. * This is the usual behavior in 99% of the apps. * Reimplement if you don't like it - test for event->activated() ! * * Technical note : this is done with GUIActivateEvent and not with * PartActivateEvent because it's handled by the mainwindow * (which gets the even after the PartActivateEvent events have been sent) */ virtual void guiActivateEvent( GUIActivateEvent *event ); /** * Remote (or local) url - the one displayed to the user. */ KURL m_url; /** * Local file - the only one the part implementation should deal with. */ TQString m_file; /** * If @p true, @p m_file is a temporary file that needs to be deleted later. */ bool m_bTemp; private: ReadOnlyPartPrivate *d; }; /** * Base class for an "editor" part. * * This class handles network transparency for you. * Anything that can open a URL, allow modifications, and save * (to the same URL or a different one). * * A read-write part can be set to read-only mode, using setReadWrite(). * * Part writers : * Any part inheriting ReadWritePart should check isReadWrite() * before allowing any action that modifies the part. * The part probably wants to reimplement setReadWrite, disable those * actions. Don't forget to call the parent setReadWrite(). */ class TDEPARTS_EXPORT ReadWritePart : public ReadOnlyPart { TQ_OBJECT public: /** * Constructor. * See parent constructor for instructions. */ ReadWritePart( TQObject *parent = 0, const char *name = 0 ); /** * Destructor. * Applications using a ReadWritePart should make sure, before * destroying it, to call closeURL(). * In TDEMainWindow::queryClose(), for instance, they should allow * closing only if the return value of closeURL() was true. * This allows to cancel. */ virtual ~ReadWritePart(); /** * @return true if the part is in read-write mode */ bool isReadWrite() const { return m_bReadWrite; } /** * Changes the behavior of this part to readonly or readwrite. * @param readwrite set to true to enable readwrite mode */ virtual void setReadWrite ( bool readwrite = true ); /** * @return true if the document has been modified. */ bool isModified() const { return m_bModified; } /** * If the document has been modified, ask the user to save changes. * This method is meant to be called from TDEMainWindow::queryClose(). * It will also be called from closeURL(). * * @return true if closeURL() can be called without the user losing * important data, false if the user chooses to cancel. * * @since 3.2 */ // TODO: Make virtual for KDE 4 bool queryClose(); /** * Called when closing the current url (e.g. document), for instance * when switching to another url (note that openURL() calls it * automatically in this case). * * If the current URL is not fully loaded yet, aborts loading. * * If isModified(), queryClose() will be called. * * @return false on cancel */ virtual bool closeURL(); /** * Call this method instead of the above if you need control if * the save prompt is shown. For example, if you call queryClose() * from TDEMainWindow::queryClose(), you would not want to prompt * again when closing the url. * * Equivalent to promptToSave ? closeURL() : ReadOnlyPart::closeURL() * * @since 3.2 */ // TODO: Make virtual for KDE 4 bool closeURL( bool promptToSave ); /** * Save the file to a new location. * * Calls save(), no need to reimplement */ virtual bool saveAs( const KURL &url ); /** * Sets the modified flag of the part. */ virtual void setModified( bool modified ); signals: /** * @since 3.2, remove in KDE 4, when queryClose is made virtual * * set handled to true, if you don't want the default handling * set abortClosing to true, if you handled the request, * but for any reason don't want to allow closing the document */ void sigQueryClose(bool *handled, bool* abortClosing); public slots: /** * Call setModified() whenever the contents get modified. * This is a slot for convenience, so that you can connect it * to a signal, like textChanged(). */ virtual void setModified(); /** * Save the file in the location from which it was opened. * You can connect this to the "save" action. * Calls saveFile() and saveToURL(), no need to reimplement. */ virtual bool save(); /** * Waits for any pending upload job to finish and returns whether the * last save() action was successful. */ bool waitSaveComplete(); protected: /** * Save to a local file. * You need to implement it, to save to @p m_file. * The framework takes care of re-uploading afterwards. * * @return true on success, false on failure. * On failure the function should inform the user about the * problem with an appropriate message box. Standard error * messages can be constructed using TDEIO::buildErrorString() * in combination with the error codes defined in tdeio/global.h */ virtual bool saveFile() = 0; /** * Save the file. * * Uploads the file, if @p m_url is remote. * This will emit started(), and either completed() or canceled(), * in case you want to provide feedback. * @return true on success, false on failure. */ virtual bool saveToURL(); protected slots: /** * @internal */ void slotUploadFinished( TDEIO::Job * job ); private: void prepareSaving(); private: bool m_bModified; bool m_bReadWrite; bool m_bClosing; }; } // namespace #endif