/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Rosegarden A MIDI and audio sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral rights of Guillaume Laurent, Chris Cannam, and Richard Bown to claim authorship of this work have been asserted. Other copyrights also apply to some parts of this work. Please see the AUTHORS file and individual file headers for details. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "TrackEditor.h" #include #include #include #include #include #include "misc/Debug.h" #include "document/ConfigGroups.h" #include "gui/application/RosegardenDCOP.h" #include "gui/seqmanager/SequenceManager.h" #include "gui/rulers/StandardRuler.h" #include "base/Composition.h" #include "base/MidiProgram.h" #include "base/RealTime.h" #include "base/RulerScale.h" #include "base/Segment.h" #include "base/Selection.h" #include "commands/segment/AddTracksCommand.h" #include "commands/segment/DeleteTracksCommand.h" #include "commands/segment/SegmentEraseCommand.h" #include "commands/segment/SegmentInsertCommand.h" #include "commands/segment/SegmentRepeatToCopyCommand.h" #include "segmentcanvas/CompositionModel.h" #include "segmentcanvas/CompositionModelImpl.h" #include "segmentcanvas/CompositionView.h" #include "document/MultiViewCommandHistory.h" #include "document/RosegardenGUIDoc.h" #include "gui/application/RosegardenGUIApp.h" #include "gui/rulers/ChordNameRuler.h" #include "gui/rulers/TempoRuler.h" #include "gui/rulers/LoopRuler.h" #include "gui/widgets/ProgressDialog.h" #include "gui/widgets/QDeferScrollView.h" #include "sound/AudioFile.h" #include "TrackButtons.h" #include "TrackEditorIface.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Rosegarden { TrackEditor::TrackEditor(RosegardenGUIDoc* doc, TQWidget* rosegardenguiview, RulerScale *rulerScale, bool showTrackLabels, double initialUnitsPerPixel, TQWidget* parent, const char* name, WFlags) : DCOPObject("TrackEditorIface"), TQWidget(parent, name), m_doc(doc), m_rulerScale(rulerScale), m_topStandardRuler(0), m_bottomStandardRuler(0), m_trackButtons(0), m_segmentCanvas(0), m_trackButtonScroll(0), m_showTrackLabels(showTrackLabels), m_canvasWidth(0), m_compositionRefreshStatusId(doc->getComposition().getNewRefreshStatusId()), m_playTracking(true), m_initialUnitsPerPixel(initialUnitsPerPixel) { // accept dnd setAcceptDrops(true); init(rosegardenguiview); slotReadjustCanvasSize(); } TrackEditor::~TrackEditor() { delete m_chordNameRuler; delete m_compositionModel; } void TrackEditor::init(TQWidget* rosegardenguiview) { TQGridLayout *grid = new TQGridLayout(this, 4, 2); int trackLabelWidth = 230; int barButtonsHeight = 25; m_chordNameRuler = new ChordNameRuler(m_rulerScale, m_doc, 0.0, 20, this); grid->addWidget(m_chordNameRuler, 0, 1); m_tempoRuler = new TempoRuler(m_rulerScale, m_doc, RosegardenGUIApp::self(), 0.0, 24, true, this); grid->addWidget(m_tempoRuler, 1, 1); m_tempoRuler->connectSignals(); // // Top Bar Buttons // m_topStandardRuler = new StandardRuler(m_doc, m_rulerScale, 0, barButtonsHeight, false, this, "topbarbuttons"); m_topStandardRuler->connectRulerToDocPointer(m_doc); grid->addWidget(m_topStandardRuler, 2, 1); // // Segment Canvas // m_compositionModel = new CompositionModelImpl(m_doc->getComposition(), m_doc->getStudio(), m_rulerScale, getTrackCellHeight()); connect(rosegardenguiview, TQT_SIGNAL(instrumentParametersChanged(InstrumentId)), m_compositionModel, TQT_SLOT(slotInstrumentParametersChanged(InstrumentId))); connect(rosegardenguiview->parent(), TQT_SIGNAL(instrumentParametersChanged(InstrumentId)), m_compositionModel, TQT_SLOT(slotInstrumentParametersChanged(InstrumentId))); m_segmentCanvas = new CompositionView(m_doc, m_compositionModel, this); kapp->config()->setGroup(GeneralOptionsConfigGroup); if (kapp->config()->readBoolEntry("backgroundtextures", true)) { TQPixmap background; TQString pixmapDir = KGlobal::dirs()->findResource("appdata", "pixmaps/"); if (background.load(TQString("%1/misc/bg-segmentcanvas.xpm"). arg(pixmapDir))) { m_segmentCanvas->setBackgroundPixmap(background); m_segmentCanvas->viewport()->setBackgroundPixmap(background); } } // // Bottom Bar Buttons // m_bottomStandardRuler = new StandardRuler(m_doc, m_rulerScale, 0, barButtonsHeight, true, m_segmentCanvas, "bottombarbuttons"); m_bottomStandardRuler->connectRulerToDocPointer(m_doc); m_segmentCanvas->setBottomFixedWidget(m_bottomStandardRuler); grid->addWidget(m_segmentCanvas, 3, 1); grid->setColStretch(1, 10); // to make sure the seg canvas doesn't leave a "blank" grey space when // loading a file which has a low zoom factor // Track Buttons // // (must be put in a TQScrollView) // m_trackButtonScroll = new QDeferScrollView(this); grid->addWidget(m_trackButtonScroll, 3, 0); int canvasHeight = getTrackCellHeight() * std::max(40u, m_doc->getComposition().getNbTracks()); m_trackButtons = new TrackButtons(m_doc, getTrackCellHeight(), trackLabelWidth, m_showTrackLabels, canvasHeight, m_trackButtonScroll->viewport()); m_trackButtonScroll->addChild(m_trackButtons); m_trackButtonScroll->setHScrollBarMode(TQScrollView::AlwaysOff); m_trackButtonScroll->setVScrollBarMode(TQScrollView::AlwaysOff); m_trackButtonScroll->setResizePolicy(TQScrollView::AutoOneFit); m_trackButtonScroll->setBottomMargin(m_bottomStandardRuler->height() + m_segmentCanvas->horizontalScrollBar()->height()); connect(m_trackButtons, TQT_SIGNAL(widthChanged()), this, TQT_SLOT(slotTrackButtonsWidthChanged())); connect(m_trackButtons, TQT_SIGNAL(trackSelected(int)), rosegardenguiview, TQT_SLOT(slotSelectTrackSegments(int))); connect(m_trackButtons, TQT_SIGNAL(instrumentSelected(int)), rosegardenguiview, TQT_SLOT(slotUpdateInstrumentParameterBox(int))); connect(this, TQT_SIGNAL(stateChange(TQString, bool)), rosegardenguiview, TQT_SIGNAL(stateChange(TQString, bool))); connect(m_trackButtons, TQT_SIGNAL(modified()), m_doc, TQT_SLOT(slotDocumentModified())); connect(m_trackButtons, TQT_SIGNAL(muteButton(TrackId, bool)), rosegardenguiview, TQT_SLOT(slotSetMuteButton(TrackId, bool))); // connect loop rulers' follow-scroll signals connect(m_topStandardRuler->getLoopRuler(), TQT_SIGNAL(startMouseMove(int)), m_segmentCanvas, TQT_SLOT(startAutoScroll(int))); connect(m_topStandardRuler->getLoopRuler(), TQT_SIGNAL(stopMouseMove()), m_segmentCanvas, TQT_SLOT(stopAutoScroll())); connect(m_bottomStandardRuler->getLoopRuler(), TQT_SIGNAL(startMouseMove(int)), m_segmentCanvas, TQT_SLOT(startAutoScroll(int))); connect(m_bottomStandardRuler->getLoopRuler(), TQT_SIGNAL(stopMouseMove()), m_segmentCanvas, TQT_SLOT(stopAutoScroll())); connect(m_segmentCanvas, TQT_SIGNAL(contentsMoving(int, int)), this, TQT_SLOT(slotCanvasScrolled(int, int))); // Synchronize bar buttons' scrollview with segment canvas' scrollbar // connect(m_segmentCanvas->verticalScrollBar(), TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotVerticalScrollTrackButtons(int))); connect(m_segmentCanvas->verticalScrollBar(), TQT_SIGNAL(sliderMoved(int)), this, TQT_SLOT(slotVerticalScrollTrackButtons(int))); // scrolling with mouse wheel connect(m_trackButtonScroll, TQT_SIGNAL(gotWheelEvent(TQWheelEvent*)), m_segmentCanvas, TQT_SLOT(slotExternalWheelEvent(TQWheelEvent*))); // Connect horizontal scrollbar // connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(valueChanged(int)), m_topStandardRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(sliderMoved(int)), m_topStandardRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(valueChanged(int)), m_bottomStandardRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(sliderMoved(int)), m_bottomStandardRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(valueChanged(int)), m_tempoRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(sliderMoved(int)), m_tempoRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(valueChanged(int)), m_chordNameRuler, TQT_SLOT(slotScrollHoriz(int))); connect(m_segmentCanvas->horizontalScrollBar(), TQT_SIGNAL(sliderMoved(int)), m_chordNameRuler, TQT_SLOT(slotScrollHoriz(int))); connect(this, TQT_SIGNAL(needUpdate()), m_segmentCanvas, TQT_SLOT(slotUpdateSegmentsDrawBuffer())); connect(m_segmentCanvas->getModel(), TQT_SIGNAL(selectedSegments(const SegmentSelection &)), rosegardenguiview, TQT_SLOT(slotSelectedSegments(const SegmentSelection &))); connect(m_segmentCanvas, TQT_SIGNAL(zoomIn()), RosegardenGUIApp::self(), TQT_SLOT(slotZoomIn())); connect(m_segmentCanvas, TQT_SIGNAL(zoomOut()), RosegardenGUIApp::self(), TQT_SLOT(slotZoomOut())); connect(getCommandHistory(), TQT_SIGNAL(commandExecuted()), this, TQT_SLOT(update())); connect(m_doc, TQT_SIGNAL(pointerPositionChanged(timeT)), this, TQT_SLOT(slotSetPointerPosition(timeT))); // // pointer and loop drag signals from top and bottom bar buttons (loop rulers actually) // connect(m_topStandardRuler, TQT_SIGNAL(dragPointerToPosition(timeT)), this, TQT_SLOT(slotPointerDraggedToPosition(timeT))); connect(m_bottomStandardRuler, TQT_SIGNAL(dragPointerToPosition(timeT)), this, TQT_SLOT(slotPointerDraggedToPosition(timeT))); connect(m_topStandardRuler, TQT_SIGNAL(dragLoopToPosition(timeT)), this, TQT_SLOT(slotLoopDraggedToPosition(timeT))); connect(m_bottomStandardRuler, TQT_SIGNAL(dragLoopToPosition(timeT)), this, TQT_SLOT(slotLoopDraggedToPosition(timeT))); connect(m_doc, TQT_SIGNAL(loopChanged(timeT, timeT)), this, TQT_SLOT(slotSetLoop(timeT, timeT))); } void TrackEditor::slotReadjustCanvasSize() { m_segmentCanvas->slotUpdateSize(); } void TrackEditor::slotTrackButtonsWidthChanged() { // We need to make sure the trackButtons geometry is fully updated // ProgressDialog::processEvents(); m_trackButtonScroll->setMinimumWidth(m_trackButtons->width()); m_doc->slotDocumentModified(); } int TrackEditor::getTrackCellHeight() const { int size; static TQFont defaultFont; // do some scrabbling around for a reasonable size // size = defaultFont.pixelSize(); if (size < 8) { if (TQApplication::font(this).pixelSize() < 8) size = 12; else size = TQApplication::font(this).pixelSize(); } return size + 12; } bool TrackEditor::isCompositionModified() { return m_doc->getComposition().getRefreshStatus (m_compositionRefreshStatusId).needsRefresh(); } void TrackEditor::setCompositionModified(bool c) { m_doc->getComposition().getRefreshStatus (m_compositionRefreshStatusId).setNeedsRefresh(c); } void TrackEditor::updateRulers() { if (getTempoRuler() != 0) getTempoRuler()->update(); if (getChordNameRuler() != 0) getChordNameRuler()->update(); getTopStandardRuler()->update(); getBottomStandardRuler()->update(); } void TrackEditor::paintEvent(TQPaintEvent* e) { if (isCompositionModified()) { slotReadjustCanvasSize(); m_trackButtons->slotUpdateTracks(); m_segmentCanvas->clearSegmentRectsCache(true); m_segmentCanvas->updateContents(); Composition &composition = m_doc->getComposition(); if (composition.getNbSegments() == 0) { emit stateChange("have_segments", false); // no segments : reverse state emit stateChange("have_selection", false); // no segments : reverse state } else { emit stateChange("have_segments", true); if (m_segmentCanvas->haveSelection()) emit stateChange("have_selection", true); else emit stateChange("have_selection", false); // no selection : reverse state } setCompositionModified(false); } TQWidget::paintEvent(e); } void TrackEditor::slotAddTracks(unsigned int nbNewTracks, InstrumentId id, int position) { Composition &comp = m_doc->getComposition(); AddTracksCommand* command = new AddTracksCommand(&comp, nbNewTracks, id, position); addCommandToHistory(command); slotReadjustCanvasSize(); } void TrackEditor::slotDeleteTracks(std::vector tracks) { Composition &comp = m_doc->getComposition(); DeleteTracksCommand* command = new DeleteTracksCommand(&comp, tracks); addCommandToHistory(command); } void TrackEditor::addSegment(int track, int time, unsigned int duration) { if (!m_doc) return ; // sanity check SegmentInsertCommand *command = new SegmentInsertCommand(m_doc, track, time, duration); addCommandToHistory(command); } void TrackEditor::slotSegmentOrderChanged(int section, int fromIdx, int toIdx) { RG_DEBUG << TQString("TrackEditor::segmentOrderChanged(section : %1, from %2, to %3)") .arg(section).arg(fromIdx).arg(toIdx) << endl; //!!! how do we get here? need to involve a command emit needUpdate(); } void TrackEditor::slotCanvasScrolled(int x, int y) { // update the pointer position if the user is dragging it from the loop ruler if ((m_topStandardRuler && m_topStandardRuler->getLoopRuler() && m_topStandardRuler->getLoopRuler()->hasActiveMousePress() && !m_topStandardRuler->getLoopRuler()->getLoopingMode()) || (m_bottomStandardRuler && m_bottomStandardRuler->getLoopRuler() && m_bottomStandardRuler->getLoopRuler()->hasActiveMousePress() && !m_bottomStandardRuler->getLoopRuler()->getLoopingMode())) { int mx = m_segmentCanvas->viewport()->mapFromGlobal(TQCursor::pos()).x(); m_segmentCanvas->setPointerPos(x + mx); // bad idea, creates a feedback loop // timeT t = m_segmentCanvas->grid().getRulerScale()->getTimeForX(x + mx); // slotSetPointerPosition(t); } } void TrackEditor::slotSetPointerPosition(timeT position) { SimpleRulerScale *ruler = dynamic_cast(m_rulerScale); if (!ruler) return ; double pos = m_segmentCanvas->grid().getRulerScale()->getXForTime(position); int currentPointerPos = m_segmentCanvas->getPointerPos(); double distance = pos - currentPointerPos; if (distance < 0.0) distance = -distance; if (distance >= 1.0) { if (m_doc && m_doc->getSequenceManager() && (m_doc->getSequenceManager()->getTransportStatus() != STOPPED)) { if (m_playTracking) { getSegmentCanvas()->slotScrollHoriz(int(double(position) / ruler->getUnitsPerPixel())); } } else if (!getSegmentCanvas()->isAutoScrolling()) { int newpos = int(double(position) / ruler->getUnitsPerPixel()); // RG_DEBUG << "TrackEditor::slotSetPointerPosition(" // << position // << ") : calling canvas->slotScrollHoriz() " // << newpos << endl; getSegmentCanvas()->slotScrollHoriz(newpos); } m_segmentCanvas->setPointerPos(pos); } } void TrackEditor::slotPointerDraggedToPosition(timeT position) { int currentPointerPos = m_segmentCanvas->getPointerPos(); double newPosition; if (handleAutoScroll(currentPointerPos, position, newPosition)) m_segmentCanvas->setPointerPos(int(newPosition)); } void TrackEditor::slotLoopDraggedToPosition(timeT position) { if (m_doc) { int currentEndLoopPos = m_doc->getComposition().getLoopEnd(); double dummy; handleAutoScroll(currentEndLoopPos, position, dummy); } } bool TrackEditor::handleAutoScroll(int currentPosition, timeT newTimePosition, double &newPosition) { SimpleRulerScale *ruler = dynamic_cast(m_rulerScale); if (!ruler) return false; newPosition = m_segmentCanvas->grid().getRulerScale()->getXForTime(newTimePosition); double distance = fabs(newPosition - currentPosition); bool moveDetected = distance >= 1.0; if (moveDetected) { if (m_doc && m_doc->getSequenceManager() && (m_doc->getSequenceManager()->getTransportStatus() != STOPPED)) { if (m_playTracking) { getSegmentCanvas()->slotScrollHoriz(int(double(newTimePosition) / ruler->getUnitsPerPixel())); } } else { int newpos = int(double(newTimePosition) / ruler->getUnitsPerPixel()); getSegmentCanvas()->slotScrollHorizSmallSteps(newpos); getSegmentCanvas()->doAutoScroll(); } } return moveDetected; } void TrackEditor::slotToggleTracking() { m_playTracking = !m_playTracking; } void TrackEditor::slotSetLoop(timeT start, timeT end) { getTopStandardRuler()->getLoopRuler()->slotSetLoopMarker(start, end); getBottomStandardRuler()->getLoopRuler()->slotSetLoopMarker(start, end); } MultiViewCommandHistory* TrackEditor::getCommandHistory() { return m_doc->getCommandHistory(); } void TrackEditor::addCommandToHistory(KCommand *command) { getCommandHistory()->addCommand(command); } void TrackEditor::slotScrollToTrack(int track) { // Find the vertical track pos int newY = track * getTrackCellHeight(); RG_DEBUG << "TrackEditor::scrollToTrack(" << track << ") scrolling to Y " << newY << endl; // Scroll the segment view; it will scroll tracks by connected signals // slotVerticalScrollTrackButtons(newY); m_segmentCanvas->slotScrollVertSmallSteps(newY); } void TrackEditor::slotDeleteSelectedSegments() { KMacroCommand *macro = new KMacroCommand("Delete Segments"); SegmentSelection segments = m_segmentCanvas->getSelectedSegments(); if (segments.size() == 0) return ; SegmentSelection::iterator it; // Clear the selection before erasing the Segments // the selection points to // m_segmentCanvas->getModel()->clearSelected(); // Create the compound command // for (it = segments.begin(); it != segments.end(); it++) { macro->addCommand(new SegmentEraseCommand(*it, &m_doc->getAudioFileManager())); } addCommandToHistory(macro); } void TrackEditor::slotTurnRepeatingSegmentToRealCopies() { RG_DEBUG << "TrackEditor::slotTurnRepeatingSegmentToRealCopies" << endl; SegmentSelection segments = m_segmentCanvas->getSelectedSegments(); if (segments.size() == 0) return ; TQString text; if (segments.size() == 1) text = i18n("Turn Repeating Segment into Real Copies"); else text = i18n("Turn Repeating Segments into Real Copies"); KMacroCommand *macro = new KMacroCommand(text); SegmentSelection::iterator it = segments.begin(); for (; it != segments.end(); it++) { if ((*it)->isRepeating()) { macro->addCommand(new SegmentRepeatToCopyCommand(*it)); } } addCommandToHistory(macro); } void TrackEditor::slotVerticalScrollTrackButtons(int y) { m_trackButtonScroll->setContentsPos(0, y); } void TrackEditor::dragEnterEvent(TQDragEnterEvent *event) { event->accept(TQUriDrag::canDecode(event) || TQTextDrag::canDecode(event)); } void TrackEditor::dropEvent(TQDropEvent* event) { TQStrList uri; TQString text; int heightAdjust = 0; //int widthAdjust = 0; // Adjust any drop event height position by visible rulers // if (m_topStandardRuler && m_topStandardRuler->isVisible()) heightAdjust += m_topStandardRuler->height(); if (m_tempoRuler && m_tempoRuler->isVisible()) heightAdjust += m_tempoRuler->height(); if (m_chordNameRuler && m_chordNameRuler->isVisible()) heightAdjust += m_chordNameRuler->height(); TQPoint posInSegmentCanvas = m_segmentCanvas->viewportToContents (m_segmentCanvas-> viewport()->mapFrom(this, event->pos())); int trackPos = m_segmentCanvas->grid().getYBin(posInSegmentCanvas.y()); timeT time = // m_segmentCanvas->grid().getRulerScale()-> // getTimeForX(posInSegmentCanvas.x()); m_segmentCanvas->grid().snapX(posInSegmentCanvas.x()); if (TQUriDrag::decode(event, uri)) { RG_DEBUG << "TrackEditor::dropEvent() : got URI :" << uri.first() << endl; TQString uriPath = uri.first(); if (uriPath.endsWith(".rg")) { emit droppedDocument(uriPath); } else { TQStrList uris; TQString uri; if (TQUriDrag::decode(event, uris)) uri = uris.first(); // TQUriDrag::decodeLocalFiles(event, files); // TQString filePath = files.first(); RG_DEBUG << "TrackEditor::dropEvent() : got URI: " << uri << endl; RG_DEBUG << "TrackEditor::dropEvent() : dropping at track pos = " << trackPos << ", time = " << time << ", x = " << event->pos().x() << ", mapped x = " << posInSegmentCanvas.x() << endl; Track* track = m_doc->getComposition().getTrackByPosition(trackPos); if (track) { TQString audioText; TQTextOStream t(&audioText); t << uri << "\n"; t << track->getId() << "\n"; t << time << "\n"; emit droppedNewAudio(audioText); } } } else if (TQTextDrag::decode(event, text)) { RG_DEBUG << "TrackEditor::dropEvent() : got text info " << endl; //<< text << endl; if (text.endsWith(".rg")) { emit droppedDocument(text); // // WARNING // // DO NOT PERFORM ANY OPERATIONS AFTER THAT // EMITTING THIS TQT_SIGNAL TRIGGERS THE LOADING OF A NEW DOCUMENT // AND AS A CONSEQUENCE THE DELETION OF THIS TrackEditor OBJECT // } else { TQTextIStream s(&text); TQString id; AudioFileId audioFileId; RealTime startTime, endTime; // read the audio info checking for end of stream s >> id; s >> audioFileId; s >> startTime.sec; s >> startTime.nsec; s >> endTime.sec; s >> endTime.nsec; if (id == "AudioFileManager") { // only create something if this is data from the right client // Drop this audio segment if we have a valid track number // (could also check for time limits too) // Track* track = m_doc->getComposition().getTrackByPosition(trackPos); if (track) { RG_DEBUG << "TrackEditor::dropEvent() : dropping at track pos = " << trackPos << ", time = " << time << ", x = " << event->pos().x() << ", map = " << posInSegmentCanvas.x() << endl; TQString audioText; TQTextOStream t(&audioText); t << audioFileId << "\n"; t << track->getId() << "\n"; t << time << "\n"; // time on canvas t << startTime.sec << "\n"; t << startTime.nsec << "\n"; t << endTime.sec << "\n"; t << endTime.nsec << "\n"; emit droppedAudio(audioText); } } else { KMessageBox::sorry(this, i18n("You can't drop files into Rosegarden from this client. Try using Konqueror instead.")); } } // SEE WARNING ABOVE - DON'T DO ANYTHING, THIS OBJECT MAY NOT // EXIST AT THIS POINT. } } } #include "TrackEditor.moc"