/* -*- 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 "MatrixView.h" #include "base/BaseProperties.h" #include "misc/Debug.h" #include "misc/Strings.h" #include "base/AudioLevel.h" #include "base/Clipboard.h" #include "base/Composition.h" #include "base/Event.h" #include "base/Instrument.h" #include "base/LayoutEngine.h" #include "base/MidiProgram.h" #include "base/NotationTypes.h" #include "base/Profiler.h" #include "base/PropertyName.h" #include "base/BasicQuantizer.h" #include "base/LegatoQuantizer.h" #include "base/RealTime.h" #include "base/RulerScale.h" #include "base/Segment.h" #include "base/Selection.h" #include "base/SnapGrid.h" #include "base/Staff.h" #include "base/Studio.h" #include "base/Track.h" #include "commands/edit/ChangeVelocityCommand.h" #include "commands/edit/ClearTriggersCommand.h" #include "commands/edit/CollapseNotesCommand.h" #include "commands/edit/CopyCommand.h" #include "commands/edit/CutCommand.h" #include "commands/edit/EraseCommand.h" #include "commands/edit/EventQuantizeCommand.h" #include "commands/edit/EventUnquantizeCommand.h" #include "commands/edit/PasteEventsCommand.h" #include "commands/edit/SelectionPropertyCommand.h" #include "commands/edit/SetTriggerCommand.h" #include "commands/matrix/MatrixInsertionCommand.h" #include "document/RosegardenGUIDoc.h" #include "document/ConfigGroups.h" #include "gui/application/RosegardenGUIApp.h" #include "gui/dialogs/EventFilterDialog.h" #include "gui/dialogs/EventParameterDialog.h" #include "gui/dialogs/QuantizeDialog.h" #include "gui/dialogs/TriggerSegmentDialog.h" #include "gui/editors/guitar/Chord.h" #include "gui/editors/notation/NotationElement.h" #include "gui/editors/notation/NotationStrings.h" #include "gui/editors/notation/NotePixmapFactory.h" #include "gui/editors/parameters/InstrumentParameterBox.h" #include "gui/rulers/StandardRuler.h" #include "gui/general/ActiveItem.h" #include "gui/general/EditViewBase.h" #include "gui/general/EditView.h" #include "gui/general/GUIPalette.h" #include "gui/general/MidiPitchLabel.h" #include "gui/kdeext/KTmpStatusMsg.h" #include "gui/rulers/ChordNameRuler.h" #include "gui/rulers/LoopRuler.h" #include "gui/rulers/PercussionPitchRuler.h" #include "gui/rulers/PitchRuler.h" #include "gui/rulers/PropertyBox.h" #include "gui/rulers/PropertyViewRuler.h" #include "gui/rulers/TempoRuler.h" #include "gui/studio/StudioControl.h" #include "gui/widgets/QDeferScrollView.h" #include "MatrixCanvasView.h" #include "MatrixElement.h" #include "MatrixEraser.h" #include "MatrixHLayout.h" #include "MatrixMover.h" #include "MatrixPainter.h" #include "MatrixResizer.h" #include "MatrixSelector.h" #include "MatrixStaff.h" #include "MatrixToolBox.h" #include "MatrixVLayout.h" #include "PianoKeyboard.h" #include "sound/MappedEvent.h" #include "sound/SequencerDataBlock.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Rosegarden { static double xorigin = 0.0; MatrixView::MatrixView(RosegardenGUIDoc *doc, std::vector segments, TQWidget *parent, bool drumMode) : EditView(doc, segments, 3, parent, "matrixview"), m_hlayout(&doc->getComposition()), m_referenceRuler(new ZoomableMatrixHLayoutRulerScale(m_hlayout)), m_vlayout(), m_snapGrid(new SnapGrid(&m_hlayout)), m_lastEndMarkerTime(0), m_hoveredOverAbsoluteTime(0), m_hoveredOverNoteName(0), m_selectionCounter(0), m_insertModeLabel(0), m_haveHoveredOverNote(false), m_previousEvPitch(0), m_dockLeft(0), m_canvasView(0), m_pianoView(0), m_localMapping(0), m_lastNote(0), m_quantizations(BasicQuantizer::getStandardQuantizations()), m_chordNameRuler(0), m_tempoRuler(0), m_playTracking(true), m_dockVisible(true), m_drumMode(drumMode), m_mouseInCanvasView(false) { RG_DEBUG << "MatrixView ctor: drumMode " << drumMode << "\n"; TQString pixmapDir = KGlobal::dirs()->findResource("appdata", "pixmaps/toolbar"); TQPixmap matrixPixmap(pixmapDir + "/matrix.xpm"); m_dockLeft = createDockWidget("params dock", matrixPixmap, 0L, i18n("Instrument Parameters")); m_dockLeft->manualDock(m_mainDockWidget, // dock target KDockWidget::DockLeft, // dock site 20); // relation target/this (in percent) connect(m_dockLeft, TQT_SIGNAL(iMBeingClosed()), this, TQT_SLOT(slotParametersClosed())); connect(m_dockLeft, TQT_SIGNAL(hasUndocked()), this, TQT_SLOT(slotParametersClosed())); // Apparently, hasUndocked() is emitted when the dock widget's // 'close' button on the dock handle is clicked. connect(m_mainDockWidget, TQT_SIGNAL(docking(KDockWidget*, KDockWidget::DockPosition)), this, TQT_SLOT(slotParametersDockedBack(KDockWidget*, KDockWidget::DockPosition))); Composition &comp = doc->getComposition(); m_toolBox = new MatrixToolBox(this); initStatusBar(); connect(m_toolBox, TQT_SIGNAL(showContextHelp(const TQString &)), this, TQT_SLOT(slotToolHelpChanged(const TQString &))); TQCanvas *tCanvas = new TQCanvas(this); m_config->setGroup(MatrixViewConfigGroup); if (m_config->readBoolEntry("backgroundtextures-1.6-plus", true)) { TQPixmap background; TQString pixmapDir = KGlobal::dirs()->findResource("appdata", "pixmaps/"); // We now use a lined background for the non-percussion matrix, // suggested and supplied by Alessandro Preziosi TQString backgroundPixmap = isDrumMode() ? "bg-paper-white.xpm" : "bg-matrix-lines.xpm"; if (background.load(TQString("%1/misc/%2"). arg(pixmapDir, backgroundPixmap))) { tCanvas->setBackgroundPixmap(background); } } MATRIX_DEBUG << "MatrixView : creating staff\n"; Track *track = comp.getTrackById(segments[0]->getTrack()); Instrument *instr = getDocument()->getStudio(). getInstrumentById(track->getInstrument()); int resolution = 8; if (isDrumMode() && instr && instr->getKeyMapping()) { resolution = 11; } for (unsigned int i = 0; i < segments.size(); ++i) { m_staffs.push_back(new MatrixStaff(tCanvas, segments[i], m_snapGrid, i, resolution, this)); // staff has one too many rows to avoid a half-row at the top: m_staffs[i]->setY( -resolution / 2); //!!! if (isDrumMode()) m_staffs[i]->setX(resolution); if (i == 0) m_staffs[i]->setCurrent(true); } MATRIX_DEBUG << "MatrixView : creating canvas view\n"; const MidiKeyMapping *mapping = 0; if (instr) { mapping = instr->getKeyMapping(); if (mapping) { RG_DEBUG << "MatrixView: Instrument has key mapping: " << mapping->getName() << endl; m_localMapping = new MidiKeyMapping(*mapping); extendKeyMapping(); } else { RG_DEBUG << "MatrixView: Instrument has no key mapping\n"; } } m_pianoView = new QDeferScrollView(getCentralWidget()); TQWidget* vport = m_pianoView->viewport(); if (isDrumMode() && mapping && !m_localMapping->getMap().empty()) { m_pitchRuler = new PercussionPitchRuler(vport, m_localMapping, resolution); // line spacing } else { m_pitchRuler = new PianoKeyboard(vport); } m_pianoView->setVScrollBarMode(TQScrollView::AlwaysOff); m_pianoView->setHScrollBarMode(TQScrollView::AlwaysOff); m_pianoView->addChild(m_pitchRuler); m_pianoView->setFixedWidth(m_pianoView->contentsWidth()); m_grid->addWidget(m_pianoView, CANVASVIEW_ROW, 1); m_parameterBox = new InstrumentParameterBox(getDocument(), m_dockLeft); m_dockLeft->setWidget(m_parameterBox); RosegardenGUIApp *app = RosegardenGUIApp::self(); connect(app, TQT_SIGNAL(pluginSelected(InstrumentId, int, int)), m_parameterBox, TQT_SLOT(slotPluginSelected(InstrumentId, int, int))); connect(app, TQT_SIGNAL(pluginBypassed(InstrumentId, int, bool)), m_parameterBox, TQT_SLOT(slotPluginBypassed(InstrumentId, int, bool))); connect(app, TQT_SIGNAL(instrumentParametersChanged(InstrumentId)), m_parameterBox, TQT_SLOT(slotInstrumentParametersChanged(InstrumentId))); connect(m_parameterBox, TQT_SIGNAL(instrumentParametersChanged(InstrumentId)), app, TQT_SIGNAL(instrumentParametersChanged(InstrumentId))); connect(m_parameterBox, TQT_SIGNAL(selectPlugin(TQWidget *, InstrumentId, int)), app, TQT_SLOT(slotShowPluginDialog(TQWidget *, InstrumentId, int))); connect(m_parameterBox, TQT_SIGNAL(showPluginGUI(InstrumentId, int)), app, TQT_SLOT(slotShowPluginGUI(InstrumentId, int))); connect(parent, // RosegardenGUIView TQT_SIGNAL(checkTrackAssignments()), this, TQT_SLOT(slotCheckTrackAssignments())); // Assign the instrument // m_parameterBox->useInstrument(instr); if (m_drumMode) { connect(m_parameterBox, TQT_SIGNAL(instrumentPercussionSetChanged(Instrument *)), this, TQT_SLOT(slotPercussionSetChanged(Instrument *))); } // Set the snap grid from the stored size in the segment // int snapGridSize = m_staffs[0]->getSegment().getSnapGridSize(); MATRIX_DEBUG << "MatrixView : Snap Grid Size = " << snapGridSize << endl; if (snapGridSize != -1) { m_snapGrid->setSnapTime(snapGridSize); } else { m_config->setGroup(MatrixViewConfigGroup); snapGridSize = m_config->readNumEntry ("Snap Grid Size", SnapGrid::SnapToBeat); m_snapGrid->setSnapTime(snapGridSize); m_staffs[0]->getSegment().setSnapGridSize(snapGridSize); } m_canvasView = new MatrixCanvasView(*m_staffs[0], m_snapGrid, m_drumMode, tCanvas, getCentralWidget()); setCanvasView(m_canvasView); // do this after we have a canvas setupActions(); setupAddControlRulerMenu(); stateChanged("parametersbox_closed", KXMLGUIClient::StateReverse); // tool bars initActionsToolbar(); initZoomToolbar(); // Connect vertical scrollbars between matrix and piano // connect(m_canvasView->verticalScrollBar(), TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotVerticalScrollPianoKeyboard(int))); connect(m_canvasView->verticalScrollBar(), TQT_SIGNAL(sliderMoved(int)), this, TQT_SLOT(slotVerticalScrollPianoKeyboard(int))); connect(m_canvasView, TQT_SIGNAL(zoomIn()), this, TQT_SLOT(slotZoomIn())); connect(m_canvasView, TQT_SIGNAL(zoomOut()), this, TQT_SLOT(slotZoomOut())); connect(m_pianoView, TQT_SIGNAL(gotWheelEvent(TQWheelEvent*)), m_canvasView, TQT_SLOT(slotExternalWheelEvent(TQWheelEvent*))); // ensure the piano keyb keeps the right margins when the user toggles // the canvas view rulers // connect(m_canvasView, TQT_SIGNAL(bottomWidgetHeightChanged(int)), this, TQT_SLOT(slotCanvasBottomWidgetHeightChanged(int))); connect(m_canvasView, TQT_SIGNAL(mouseEntered()), this, TQT_SLOT(slotMouseEnteredCanvasView())); connect(m_canvasView, TQT_SIGNAL(mouseLeft()), this, TQT_SLOT(slotMouseLeftCanvasView())); /* TQObject::connect (getCanvasView(), TQT_SIGNAL(activeItemPressed(TQMouseEvent*, TQCanvasItem*)), this, TQT_SLOT (activeItemPressed(TQMouseEvent*, TQCanvasItem*))); */ TQObject::connect (getCanvasView(), TQT_SIGNAL(mousePressed(timeT, int, TQMouseEvent*, MatrixElement*)), this, TQT_SLOT(slotMousePressed(timeT, int, TQMouseEvent*, MatrixElement*))); TQObject::connect (getCanvasView(), TQT_SIGNAL(mouseMoved(timeT, int, TQMouseEvent*)), this, TQT_SLOT(slotMouseMoved(timeT, int, TQMouseEvent*))); TQObject::connect (getCanvasView(), TQT_SIGNAL(mouseReleased(timeT, int, TQMouseEvent*)), this, TQT_SLOT(slotMouseReleased(timeT, int, TQMouseEvent*))); TQObject::connect (getCanvasView(), TQT_SIGNAL(hoveredOverNoteChanged(int, bool, timeT)), this, TQT_SLOT(slotHoveredOverNoteChanged(int, bool, timeT))); TQObject::connect (m_pitchRuler, TQT_SIGNAL(hoveredOverKeyChanged(unsigned int)), this, TQT_SLOT (slotHoveredOverKeyChanged(unsigned int))); TQObject::connect (m_pitchRuler, TQT_SIGNAL(keyPressed(unsigned int, bool)), this, TQT_SLOT (slotKeyPressed(unsigned int, bool))); TQObject::connect (m_pitchRuler, TQT_SIGNAL(keySelected(unsigned int, bool)), this, TQT_SLOT (slotKeySelected(unsigned int, bool))); TQObject::connect (m_pitchRuler, TQT_SIGNAL(keyReleased(unsigned int, bool)), this, TQT_SLOT (slotKeyReleased(unsigned int, bool))); TQObject::connect (getCanvasView(), TQT_SIGNAL(hoveredOverAbsoluteTimeChanged(unsigned int)), this, TQT_SLOT (slotHoveredOverAbsoluteTimeChanged(unsigned int))); TQObject::connect (doc, TQT_SIGNAL(pointerPositionChanged(timeT)), this, TQT_SLOT(slotSetPointerPosition(timeT))); MATRIX_DEBUG << "MatrixView : applying layout\n"; bool layoutApplied = applyLayout(); if (!layoutApplied) KMessageBox::sorry(0, i18n("Couldn't apply piano roll layout")); else { MATRIX_DEBUG << "MatrixView : rendering elements\n"; for (unsigned int i = 0; i < m_staffs.size(); ++i) { m_staffs[i]->positionAllElements(); m_staffs[i]->getSegment().getRefreshStatus (m_segmentsRefreshStatusIds[i]).setNeedsRefresh(false); } } StandardRuler *topStandardRuler = new StandardRuler(getDocument(), &m_hlayout, int(xorigin), 25, false, getCentralWidget()); topStandardRuler->setSnapGrid(m_snapGrid); setTopStandardRuler(topStandardRuler); StandardRuler *bottomStandardRuler = new StandardRuler(getDocument(), &m_hlayout, 0, 25, true, getBottomWidget()); bottomStandardRuler->setSnapGrid(m_snapGrid); setBottomStandardRuler(bottomStandardRuler); topStandardRuler->connectRulerToDocPointer(doc); bottomStandardRuler->connectRulerToDocPointer(doc); // Disconnect the default connections for this signal from the // top ruler, and connect our own instead TQObject::disconnect (topStandardRuler->getLoopRuler(), TQT_SIGNAL(setPointerPosition(timeT)), 0, 0); TQObject::connect (topStandardRuler->getLoopRuler(), TQT_SIGNAL(setPointerPosition(timeT)), this, TQT_SLOT(slotSetInsertCursorPosition(timeT))); TQObject::connect (topStandardRuler, TQT_SIGNAL(dragPointerToPosition(timeT)), this, TQT_SLOT(slotSetInsertCursorPosition(timeT))); topStandardRuler->getLoopRuler()->setBackgroundColor (GUIPalette::getColour(GUIPalette::InsertCursorRuler)); connect(topStandardRuler->getLoopRuler(), TQT_SIGNAL(startMouseMove(int)), m_canvasView, TQT_SLOT(startAutoScroll(int))); connect(topStandardRuler->getLoopRuler(), TQT_SIGNAL(stopMouseMove()), m_canvasView, TQT_SLOT(stopAutoScroll())); connect(bottomStandardRuler->getLoopRuler(), TQT_SIGNAL(startMouseMove(int)), m_canvasView, TQT_SLOT(startAutoScroll(int))); connect(bottomStandardRuler->getLoopRuler(), TQT_SIGNAL(stopMouseMove()), m_canvasView, TQT_SLOT(stopAutoScroll())); connect(m_bottomStandardRuler, TQT_SIGNAL(dragPointerToPosition(timeT)), this, TQT_SLOT(slotSetPointerPosition(timeT))); // Force height for the moment // m_pitchRuler->setFixedHeight(canvas()->height()); updateViewCaption(); // Add a velocity ruler // //!!! addPropertyViewRuler(BaseProperties::VELOCITY); m_chordNameRuler = new ChordNameRuler (m_referenceRuler, doc, segments, 0, 20, getCentralWidget()); m_chordNameRuler->setStudio(&getDocument()->getStudio()); addRuler(m_chordNameRuler); m_tempoRuler = new TempoRuler (m_referenceRuler, doc, this, 0, 24, false, getCentralWidget()); static_cast(m_tempoRuler)->connectSignals(); addRuler(m_tempoRuler); stateChanged("have_selection", KXMLGUIClient::StateReverse); slotTestClipboard(); timeT start = doc->getComposition().getLoopStart(); timeT end = doc->getComposition().getLoopEnd(); m_topStandardRuler->getLoopRuler()->slotSetLoopMarker(start, end); m_bottomStandardRuler->getLoopRuler()->slotSetLoopMarker(start, end); setCurrentSelection(0, false); // Change this if the matrix view ever has its own page // in the config dialog. setConfigDialogPageIndex(0); // default zoom m_config->setGroup(MatrixViewConfigGroup); double zoom = m_config->readDoubleNumEntry("Zoom Level", m_hZoomSlider->getCurrentSize()); m_hZoomSlider->setSize(zoom); m_referenceRuler->setHScaleFactor(zoom); // Scroll view to centre middle-C and warp to pointer position // m_canvasView->scrollBy(0, m_staffs[0]->getCanvasYForHeight(60) / 2); slotSetPointerPosition(comp.getPosition()); // All toolbars should be created before this is called setAutoSaveSettings("MatrixView", true); readOptions(); setOutOfCtor(); // Property and Control Rulers // if (getCurrentSegment()->getViewFeatures()) slotShowVelocityControlRuler(); setupControllerTabs(); setRewFFwdToAutoRepeat(); slotCompositionStateUpdate(); } MatrixView::~MatrixView() { slotSaveOptions(); delete m_chordNameRuler; for (unsigned int i = 0; i < m_staffs.size(); ++i) { delete m_staffs[i]; // this will erase all "notes" canvas items } // This looks silly but the reason is that on destruction of the // MatrixCanvasView, setCanvas() is called (this is in // ~TQCanvasView so we can't do anything about it). This calls // TQCanvasView::updateContentsSize(), which in turn updates the // view's scrollbars, hence calling TQScrollBar::setValue(), and // sending the QSCrollbar::valueChanged() signal. But we have a // slot connected to that signal // (MatrixView::slotVerticalScrollPianoKeyboard), which scrolls // the pianoView. However at this stage the pianoView has already // been deleted, so a likely outcome is a crash. // // A solution is to zero out m_pianoView here, and to check if // it's non null in slotVerticalScrollPianoKeyboard. // m_pianoView = 0; delete m_snapGrid; if (m_localMapping) delete m_localMapping; } void MatrixView::slotSaveOptions() { m_config->setGroup(MatrixViewConfigGroup); m_config->writeEntry("Show Chord Name Ruler", getToggleAction("show_chords_ruler")->isChecked()); m_config->writeEntry("Show Tempo Ruler", getToggleAction("show_tempo_ruler")->isChecked()); m_config->writeEntry("Show Parameters", m_dockVisible); //getToggleAction("m_dockLeft->isVisible()); m_config->sync(); } void MatrixView::readOptions() { EditView::readOptions(); m_config->setGroup(MatrixViewConfigGroup); bool opt = false; opt = m_config->readBoolEntry("Show Chord Name Ruler", false); getToggleAction("show_chords_ruler")->setChecked(opt); slotToggleChordsRuler(); opt = m_config->readBoolEntry("Show Tempo Ruler", true); getToggleAction("show_tempo_ruler")->setChecked(opt); slotToggleTempoRuler(); opt = m_config->readBoolEntry("Show Parameters", true); if (!opt) { m_dockLeft->undock(); m_dockLeft->hide(); stateChanged("parametersbox_closed", KXMLGUIClient::StateNoReverse); m_dockVisible = false; } } void MatrixView::setupActions() { EditViewBase::setupActions("matrix.rc"); EditView::setupActions(); // // Edition tools (eraser, selector...) // KRadioAction* toolAction = 0; TQString pixmapDir = KGlobal::dirs()->findResource("appdata", "pixmaps/"); TQIconSet icon(TQPixmap(pixmapDir + "/toolbar/select.xpm")); toolAction = new KRadioAction(i18n("&Select and Edit"), icon, Key_F2, this, TQT_SLOT(slotSelectSelected()), actionCollection(), "select"); toolAction->setExclusiveGroup("tools"); toolAction = new KRadioAction(i18n("&Draw"), "pencil", Key_F3, this, TQT_SLOT(slotPaintSelected()), actionCollection(), "draw"); toolAction->setExclusiveGroup("tools"); toolAction = new KRadioAction(i18n("&Erase"), "eraser", Key_F4, this, TQT_SLOT(slotEraseSelected()), actionCollection(), "erase"); toolAction->setExclusiveGroup("tools"); toolAction = new KRadioAction(i18n("&Move"), "move", Key_F5, this, TQT_SLOT(slotMoveSelected()), actionCollection(), "move"); toolAction->setExclusiveGroup("tools"); TQCanvasPixmap pixmap(pixmapDir + "/toolbar/resize.xpm"); icon = TQIconSet(pixmap); toolAction = new KRadioAction(i18n("Resi&ze"), icon, Key_F6, this, TQT_SLOT(slotResizeSelected()), actionCollection(), "resize"); toolAction->setExclusiveGroup("tools"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap("chord"))); (new KToggleAction(i18n("C&hord Insert Mode"), icon, Key_H, this, TQT_SLOT(slotUpdateInsertModeStatus()), actionCollection(), "chord_mode"))-> setChecked(false); pixmap.load(pixmapDir + "/toolbar/step_by_step.xpm"); icon = TQIconSet(pixmap); new KToggleAction(i18n("Ste&p Recording"), icon, 0, this, TQT_SLOT(slotToggleStepByStep()), actionCollection(), "toggle_step_by_step"); pixmap.load(pixmapDir + "/toolbar/quantize.png"); icon = TQIconSet(pixmap); new KAction(EventQuantizeCommand::getGlobalName(), icon, Key_Equal, this, TQT_SLOT(slotTransformsQuantize()), actionCollection(), "quantize"); new KAction(i18n("Repeat Last Quantize"), Key_Plus, this, TQT_SLOT(slotTransformsRepeatQuantize()), actionCollection(), "repeat_quantize"); new KAction(CollapseNotesCommand::getGlobalName(), Key_Equal + CTRL, this, TQT_SLOT(slotTransformsCollapseNotes()), actionCollection(), "collapse_notes"); new KAction(i18n("&Legato"), Key_Minus, this, TQT_SLOT(slotTransformsLegato()), actionCollection(), "legatoize"); new KAction(ChangeVelocityCommand::getGlobalName(10), 0, Key_Up + SHIFT, this, TQT_SLOT(slotVelocityUp()), actionCollection(), "velocity_up"); new KAction(ChangeVelocityCommand::getGlobalName( -10), 0, Key_Down + SHIFT, this, TQT_SLOT(slotVelocityDown()), actionCollection(), "velocity_down"); new KAction(i18n("Set to Current Velocity"), 0, this, TQT_SLOT(slotSetVelocitiesToCurrent()), actionCollection(), "set_to_current_velocity"); new KAction(i18n("Set Event &Velocities..."), 0, this, TQT_SLOT(slotSetVelocities()), actionCollection(), "set_velocities"); new KAction(i18n("Trigger Se&gment..."), 0, this, TQT_SLOT(slotTriggerSegment()), actionCollection(), "trigger_segment"); new KAction(i18n("Remove Triggers..."), 0, this, TQT_SLOT(slotRemoveTriggers()), actionCollection(), "remove_trigger"); new KAction(i18n("Select &All"), Key_A + CTRL, this, TQT_SLOT(slotSelectAll()), actionCollection(), "select_all"); new KAction(i18n("&Delete"), Key_Delete, this, TQT_SLOT(slotEditDelete()), actionCollection(), "delete"); new KAction(i18n("Cursor &Back"), 0, Key_Left, this, TQT_SLOT(slotStepBackward()), actionCollection(), "cursor_back"); new KAction(i18n("Cursor &Forward"), 0, Key_Right, this, TQT_SLOT(slotStepForward()), actionCollection(), "cursor_forward"); new KAction(i18n("Cursor Ba&ck Bar"), 0, Key_Left + CTRL, this, TQT_SLOT(slotJumpBackward()), actionCollection(), "cursor_back_bar"); new KAction(i18n("Cursor For&ward Bar"), 0, Key_Right + CTRL, this, TQT_SLOT(slotJumpForward()), actionCollection(), "cursor_forward_bar"); new KAction(i18n("Cursor Back and Se&lect"), SHIFT + Key_Left, this, TQT_SLOT(slotExtendSelectionBackward()), actionCollection(), "extend_selection_backward"); new KAction(i18n("Cursor Forward and &Select"), SHIFT + Key_Right, this, TQT_SLOT(slotExtendSelectionForward()), actionCollection(), "extend_selection_forward"); new KAction(i18n("Cursor Back Bar and Select"), SHIFT + CTRL + Key_Left, this, TQT_SLOT(slotExtendSelectionBackwardBar()), actionCollection(), "extend_selection_backward_bar"); new KAction(i18n("Cursor Forward Bar and Select"), SHIFT + CTRL + Key_Right, this, TQT_SLOT(slotExtendSelectionForwardBar()), actionCollection(), "extend_selection_forward_bar"); new KAction(i18n("Cursor to St&art"), 0, /* #1025717: conflicting meanings for ctrl+a - dupe with Select All Key_A + CTRL, */ this, TQT_SLOT(slotJumpToStart()), actionCollection(), "cursor_start"); new KAction(i18n("Cursor to &End"), 0, Key_E + CTRL, this, TQT_SLOT(slotJumpToEnd()), actionCollection(), "cursor_end"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-cursor-to-pointer"))); new KAction(i18n("Cursor to &Playback Pointer"), icon, 0, this, TQT_SLOT(slotJumpCursorToPlayback()), actionCollection(), "cursor_to_playback_pointer"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-play"))); KAction *play = new KAction(i18n("&Play"), icon, Key_Enter, this, TQT_SIGNAL(play()), actionCollection(), "play"); // Alternative shortcut for Play KShortcut playShortcut = play->shortcut(); playShortcut.append( KKey(Key_Return + CTRL) ); play->setShortcut(playShortcut); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-stop"))); new KAction(i18n("&Stop"), icon, Key_Insert, this, TQT_SIGNAL(stop()), actionCollection(), "stop"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-rewind"))); new KAction(i18n("Re&wind"), icon, Key_End, this, TQT_SIGNAL(rewindPlayback()), actionCollection(), "playback_pointer_back_bar"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-ffwd"))); new KAction(i18n("&Fast Forward"), icon, Key_PageDown, this, TQT_SIGNAL(fastForwardPlayback()), actionCollection(), "playback_pointer_forward_bar"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-rewind-end"))); new KAction(i18n("Rewind to &Beginning"), icon, 0, this, TQT_SIGNAL(rewindPlaybackToBeginning()), actionCollection(), "playback_pointer_start"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-ffwd-end"))); new KAction(i18n("Fast Forward to &End"), icon, 0, this, TQT_SIGNAL(fastForwardPlaybackToEnd()), actionCollection(), "playback_pointer_end"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-pointer-to-cursor"))); new KAction(i18n("Playback Pointer to &Cursor"), icon, 0, this, TQT_SLOT(slotJumpPlaybackToCursor()), actionCollection(), "playback_pointer_to_cursor"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-solo"))); new KToggleAction(i18n("&Solo"), icon, 0, this, TQT_SLOT(slotToggleSolo()), actionCollection(), "toggle_solo"); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-tracking"))); (new KToggleAction(i18n("Scro&ll to Follow Playback"), icon, Key_Pause, this, TQT_SLOT(slotToggleTracking()), actionCollection(), "toggle_tracking"))->setChecked(m_playTracking); icon = TQIconSet(NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-panic"))); new KAction(i18n("Panic"), icon, Key_P + CTRL + ALT, this, TQT_SIGNAL(panic()), actionCollection(), "panic"); new KAction(i18n("Set Loop to Selection"), Key_Semicolon + CTRL, this, TQT_SLOT(slotPreviewSelection()), actionCollection(), "preview_selection"); new KAction(i18n("Clear L&oop"), Key_Colon + CTRL, this, TQT_SLOT(slotClearLoop()), actionCollection(), "clear_loop"); new KAction(i18n("Clear Selection"), Key_Escape, this, TQT_SLOT(slotClearSelection()), actionCollection(), "clear_selection"); // icon = TQIconSet(TQCanvasPixmap(pixmapDir + "/toolbar/eventfilter.xpm")); new KAction(i18n("&Filter Selection"), "filter", Key_F + CTRL, this, TQT_SLOT(slotFilterSelection()), actionCollection(), "filter_selection"); timeT crotchetDuration = Note(Note::Crotchet).getDuration(); m_snapValues.push_back(SnapGrid::NoSnap); m_snapValues.push_back(SnapGrid::SnapToUnit); m_snapValues.push_back(crotchetDuration / 16); m_snapValues.push_back(crotchetDuration / 12); m_snapValues.push_back(crotchetDuration / 8); m_snapValues.push_back(crotchetDuration / 6); m_snapValues.push_back(crotchetDuration / 4); m_snapValues.push_back(crotchetDuration / 3); m_snapValues.push_back(crotchetDuration / 2); m_snapValues.push_back(crotchetDuration); m_snapValues.push_back((crotchetDuration * 3) / 2); m_snapValues.push_back(crotchetDuration * 2); m_snapValues.push_back(SnapGrid::SnapToBeat); m_snapValues.push_back(SnapGrid::SnapToBar); for (unsigned int i = 0; i < m_snapValues.size(); i++) { timeT d = m_snapValues[i]; if (d == SnapGrid::NoSnap) { new KAction(i18n("&No Snap"), 0, this, TQT_SLOT(slotSetSnapFromAction()), actionCollection(), "snap_none"); } else if (d == SnapGrid::SnapToUnit) { } else if (d == SnapGrid::SnapToBeat) { new KAction(i18n("Snap to Bea&t"), Key_1, this, TQT_SLOT(slotSetSnapFromAction()), actionCollection(), "snap_beat"); } else if (d == SnapGrid::SnapToBar) { new KAction(i18n("Snap to &Bar"), Key_5, this, TQT_SLOT(slotSetSnapFromAction()), actionCollection(), "snap_bar"); } else { timeT err = 0; TQString label = NotationStrings::makeNoteMenuLabel(d, true, err); TQPixmap pixmap = NotePixmapFactory::toQPixmap (NotePixmapFactory::makeNoteMenuPixmap(d, err)); KShortcut cut = 0; if (d == crotchetDuration / 16) cut = Key_0; else if (d == crotchetDuration / 8) cut = Key_3; else if (d == crotchetDuration / 4) cut = Key_6; else if (d == crotchetDuration / 2) cut = Key_8; else if (d == crotchetDuration) cut = Key_4; else if (d == crotchetDuration * 2) cut = Key_2; TQString actionName = TQString("snap_%1").arg(int((crotchetDuration * 4) / d)); if (d == (crotchetDuration * 3) / 2) actionName = "snap_3"; new KAction(i18n("Snap to %1").arg(label), pixmap, cut, this, TQT_SLOT(slotSetSnapFromAction()), actionCollection(), actionName); } } // // Settings menu // new KAction(i18n("Show Instrument Parameters"), 0, this, TQT_SLOT(slotDockParametersBack()), actionCollection(), "show_inst_parameters"); new KToggleAction(i18n("Show Ch&ord Name Ruler"), 0, this, TQT_SLOT(slotToggleChordsRuler()), actionCollection(), "show_chords_ruler"); new KToggleAction(i18n("Show &Tempo Ruler"), 0, this, TQT_SLOT(slotToggleTempoRuler()), actionCollection(), "show_tempo_ruler"); createGUI(getRCFileName(), false); if (getSegmentsOnlyRestsAndClefs()) actionCollection()->action("draw")->activate(); else actionCollection()->action("select")->activate(); } bool MatrixView::isInChordMode() { return ((KToggleAction *)actionCollection()->action("chord_mode"))-> isChecked(); } void MatrixView::slotDockParametersBack() { m_dockLeft->dockBack(); } void MatrixView::slotParametersClosed() { stateChanged("parametersbox_closed"); m_dockVisible = false; } void MatrixView::slotParametersDockedBack(KDockWidget* dw, KDockWidget::DockPosition) { if (dw == m_dockLeft) { stateChanged("parametersbox_closed", KXMLGUIClient::StateReverse); m_dockVisible = true; } } void MatrixView::slotCheckTrackAssignments() { Track *track = m_staffs[0]->getSegment().getComposition()-> getTrackById(m_staffs[0]->getSegment().getTrack()); Instrument *instr = getDocument()->getStudio(). getInstrumentById(track->getInstrument()); m_parameterBox->useInstrument(instr); } void MatrixView::initStatusBar() { KStatusBar* sb = statusBar(); m_hoveredOverAbsoluteTime = new TQLabel(sb); m_hoveredOverNoteName = new TQLabel(sb); m_hoveredOverAbsoluteTime->setMinimumWidth(175); m_hoveredOverNoteName->setMinimumWidth(65); sb->addWidget(m_hoveredOverAbsoluteTime); sb->addWidget(m_hoveredOverNoteName); m_insertModeLabel = new TQLabel(sb); m_insertModeLabel->setMinimumWidth(20); sb->addWidget(m_insertModeLabel); sb->insertItem(KTmpStatusMsg::getDefaultMsg(), KTmpStatusMsg::getDefaultId(), 1); sb->setItemAlignment(KTmpStatusMsg::getDefaultId(), AlignLeft | AlignVCenter); m_selectionCounter = new TQLabel(sb); sb->addWidget(m_selectionCounter); } void MatrixView::slotToolHelpChanged(const TQString &s) { TQString msg = " " + s; if (m_toolContextHelp == msg) return; m_toolContextHelp = msg; m_config->setGroup(GeneralOptionsConfigGroup); if (!m_config->readBoolEntry("toolcontexthelp", true)) return; if (m_mouseInCanvasView) statusBar()->changeItem(m_toolContextHelp, 1); } void MatrixView::slotMouseEnteredCanvasView() { m_config->setGroup(GeneralOptionsConfigGroup); if (!m_config->readBoolEntry("toolcontexthelp", true)) return; m_mouseInCanvasView = true; statusBar()->changeItem(m_toolContextHelp, 1); } void MatrixView::slotMouseLeftCanvasView() { m_mouseInCanvasView = false; statusBar()->changeItem(KTmpStatusMsg::getDefaultMsg(), 1); } bool MatrixView::applyLayout(int staffNo, timeT startTime, timeT endTime) { Profiler profiler("MatrixView::applyLayout", true); m_hlayout.reset(); m_vlayout.reset(); for (unsigned int i = 0; i < m_staffs.size(); ++i) { if (staffNo >= 0 && (int)i != staffNo) continue; m_hlayout.scanStaff(*m_staffs[i], startTime, endTime); m_vlayout.scanStaff(*m_staffs[i], startTime, endTime); } m_hlayout.finishLayout(); m_vlayout.finishLayout(); if (m_staffs[0]->getSegment().getEndMarkerTime() != m_lastEndMarkerTime || m_lastEndMarkerTime == 0 || isCompositionModified()) { readjustCanvasSize(); m_lastEndMarkerTime = m_staffs[0]->getSegment().getEndMarkerTime(); } return true; } void MatrixView::refreshSegment(Segment *segment, timeT startTime, timeT endTime) { Profiler profiler("MatrixView::refreshSegment", true); MATRIX_DEBUG << "MatrixView::refreshSegment(" << startTime << ", " << endTime << ")\n"; applyLayout( -1, startTime, endTime); if (!segment) segment = m_segments[0]; if (endTime == 0) endTime = segment->getEndTime(); else if (startTime == endTime) { startTime = segment->getStartTime(); endTime = segment->getEndTime(); } m_staffs[0]->positionElements(startTime, endTime); repaintRulers(); } TQSize MatrixView::getViewSize() { return canvas()->size(); } void MatrixView::setViewSize(TQSize s) { MATRIX_DEBUG << "MatrixView::setViewSize() w = " << s.width() << endl; canvas()->resize(getXbyInverseWorldMatrix(s.width()), s.height()); getCanvasView()->resizeContents(s.width(), s.height()); MATRIX_DEBUG << "MatrixView::setViewSize() contentsWidth = " << getCanvasView()->contentsWidth() << endl; } void MatrixView::repaintRulers() { for (unsigned int i = 0; i != m_propertyViewRulers.size(); i++) m_propertyViewRulers[i].first->repaint(); } void MatrixView::updateView() { canvas()->update(); } void MatrixView::setCurrentSelection(EventSelection* s, bool preview, bool redrawNow) { //!!! rather too much here shared with notationview -- could much of // this be in editview? if (m_currentEventSelection == s) { updateQuantizeCombo(); return ; } if (m_currentEventSelection) { getStaff(0)->positionElements(m_currentEventSelection->getStartTime(), m_currentEventSelection->getEndTime()); } EventSelection *oldSelection = m_currentEventSelection; m_currentEventSelection = s; timeT startA, endA, startB, endB; if (oldSelection) { startA = oldSelection->getStartTime(); endA = oldSelection->getEndTime(); startB = s ? s->getStartTime() : startA; endB = s ? s->getEndTime() : endA; } else { // we know they can't both be null -- first thing we tested above startA = startB = s->getStartTime(); endA = endB = s->getEndTime(); } // refreshSegment takes start==end to mean refresh everything if (startA == endA) ++endA; if (startB == endB) ++endB; bool updateRequired = true; if (s) { bool foundNewEvent = false; for (EventSelection::eventcontainer::iterator i = s->getSegmentEvents().begin(); i != s->getSegmentEvents().end(); ++i) { if (oldSelection && oldSelection->getSegment() == s->getSegment() && oldSelection->contains(*i)) continue; foundNewEvent = true; if (preview) { long pitch; if ((*i)->get(BaseProperties::PITCH, pitch)) { long velocity = -1; (void)((*i)->get(BaseProperties::VELOCITY, velocity)); if (!((*i)->has(BaseProperties::TIED_BACKWARD) && (*i)->get(BaseProperties::TIED_BACKWARD))) playNote(s->getSegment(), pitch, velocity); } } } if (!foundNewEvent) { if (oldSelection && oldSelection->getSegment() == s->getSegment() && oldSelection->getSegmentEvents().size() == s->getSegmentEvents().size()) updateRequired = false; } } if (updateRequired) { if ((endA >= startB && endB >= startA) && (!s || !oldSelection || oldSelection->getSegment() == s->getSegment())) { Segment &segment(s ? s->getSegment() : oldSelection->getSegment()); if (redrawNow) { // recolour the events now getStaff(segment)->positionElements(std::min(startA, startB), std::max(endA, endB)); } else { // mark refresh status and then request a repaint segment.getRefreshStatus (m_segmentsRefreshStatusIds [getStaff(segment)->getId()]). push(std::min(startA, startB), std::max(endA, endB)); } } else { // do two refreshes, one for each -- here we know neither is null if (redrawNow) { // recolour the events now getStaff(oldSelection->getSegment())->positionElements(startA, endA); getStaff(s->getSegment())->positionElements(startB, endB); } else { // mark refresh status and then request a repaint oldSelection->getSegment().getRefreshStatus (m_segmentsRefreshStatusIds [getStaff(oldSelection->getSegment())->getId()]). push(startA, endA); s->getSegment().getRefreshStatus (m_segmentsRefreshStatusIds [getStaff(s->getSegment())->getId()]). push(startB, endB); } } } delete oldSelection; if (s) { int eventsSelected = s->getSegmentEvents().size(); m_selectionCounter->setText (i18n(" 1 event selected ", " %n events selected ", eventsSelected)); } else { m_selectionCounter->setText(i18n(" No selection ")); } m_selectionCounter->update(); slotSetCurrentVelocityFromSelection(); // Clear states first, then enter only those ones that apply // (so as to avoid ever clearing one after entering another, in // case the two overlap at all) stateChanged("have_selection", KXMLGUIClient::StateReverse); stateChanged("have_notes_in_selection", KXMLGUIClient::StateReverse); stateChanged("have_rests_in_selection", KXMLGUIClient::StateReverse); if (s) { stateChanged("have_selection", KXMLGUIClient::StateNoReverse); if (s->contains(Note::EventType)) { stateChanged("have_notes_in_selection", KXMLGUIClient::StateNoReverse); } if (s->contains(Note::EventRestType)) { stateChanged("have_rests_in_selection", KXMLGUIClient::StateNoReverse); } } updateQuantizeCombo(); if (redrawNow) updateView(); else update(); } void MatrixView::updateQuantizeCombo() { timeT unit = 0; if (m_currentEventSelection) { unit = BasicQuantizer::getStandardQuantization (m_currentEventSelection); } else { unit = BasicQuantizer::getStandardQuantization (&(m_staffs[0]->getSegment())); } for (unsigned int i = 0; i < m_quantizations.size(); ++i) { if (unit == m_quantizations[i]) { m_quantizeCombo->setCurrentItem(i); return ; } } m_quantizeCombo->setCurrentItem(m_quantizeCombo->count() - 1); // "Off" } void MatrixView::slotPaintSelected() { EditTool* painter = m_toolBox->getTool(MatrixPainter::ToolName); setTool(painter); } void MatrixView::slotEraseSelected() { EditTool* eraser = m_toolBox->getTool(MatrixEraser::ToolName); setTool(eraser); } void MatrixView::slotSelectSelected() { EditTool* selector = m_toolBox->getTool(MatrixSelector::ToolName); connect(selector, TQT_SIGNAL(gotSelection()), this, TQT_SLOT(slotNewSelection())); connect(selector, TQT_SIGNAL(editTriggerSegment(int)), this, TQT_SIGNAL(editTriggerSegment(int))); setTool(selector); } void MatrixView::slotMoveSelected() { EditTool* mover = m_toolBox->getTool(MatrixMover::ToolName); setTool(mover); } void MatrixView::slotResizeSelected() { EditTool* resizer = m_toolBox->getTool(MatrixResizer::ToolName); setTool(resizer); } void MatrixView::slotTransformsQuantize() { if (!m_currentEventSelection) return ; QuantizeDialog dialog(this); if (dialog.exec() == TQDialog::Accepted) { KTmpStatusMsg msg(i18n("Quantizing..."), this); addCommandToHistory(new EventQuantizeCommand (*m_currentEventSelection, dialog.getQuantizer())); } } void MatrixView::slotTransformsRepeatQuantize() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Quantizing..."), this); addCommandToHistory(new EventQuantizeCommand (*m_currentEventSelection, "Quantize Dialog Grid", false)); // no i18n (config group name) } void MatrixView::slotTransformsCollapseNotes() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Collapsing notes..."), this); addCommandToHistory(new CollapseNotesCommand (*m_currentEventSelection)); } void MatrixView::slotTransformsLegato() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Making legato..."), this); addCommandToHistory(new EventQuantizeCommand (*m_currentEventSelection, new LegatoQuantizer(0))); // no quantization } void MatrixView::slotMousePressed(timeT time, int pitch, TQMouseEvent* e, MatrixElement* el) { MATRIX_DEBUG << "MatrixView::mousePressed at pitch " << pitch << ", time " << time << endl; // Don't allow moving/insertion before the beginning of the // segment timeT curSegmentStartTime = getCurrentSegment()->getStartTime(); if (curSegmentStartTime > time) time = curSegmentStartTime; m_tool->handleMousePress(time, pitch, 0, e, el); if (e->button() != RightButton) { getCanvasView()->startAutoScroll(); } // play a preview //playPreview(pitch); } void MatrixView::slotMouseMoved(timeT time, int pitch, TQMouseEvent* e) { // Don't allow moving/insertion before the beginning of the // segment timeT curSegmentStartTime = getCurrentSegment()->getStartTime(); if (curSegmentStartTime > time) time = curSegmentStartTime; if (activeItem()) { activeItem()->handleMouseMove(e); updateView(); } else { int follow = m_tool->handleMouseMove(time, pitch, e); getCanvasView()->setScrollDirectionConstraint(follow); // if (follow != RosegardenCanvasView::NoFollow) { // getCanvasView()->doAutoScroll(); // } // play a preview if (pitch != m_previousEvPitch) { //playPreview(pitch); m_previousEvPitch = pitch; } } } void MatrixView::slotMouseReleased(timeT time, int pitch, TQMouseEvent* e) { // Don't allow moving/insertion before the beginning of the // segment timeT curSegmentStartTime = getCurrentSegment()->getStartTime(); if (curSegmentStartTime > time) time = curSegmentStartTime; if (activeItem()) { activeItem()->handleMouseRelease(e); setActiveItem(0); updateView(); } // send the real event time now (not adjusted for beginning of bar) m_tool->handleMouseRelease(time, pitch, e); m_previousEvPitch = 0; getCanvasView()->stopAutoScroll(); } void MatrixView::slotHoveredOverNoteChanged(int evPitch, bool haveEvent, timeT evTime) { MidiPitchLabel label(evPitch); if (haveEvent) { m_haveHoveredOverNote = true; int bar, beat, fraction, remainder; getDocument()->getComposition().getMusicalTimeForAbsoluteTime (evTime, bar, beat, fraction, remainder); RealTime rt = getDocument()->getComposition().getElapsedRealTime(evTime); long ms = rt.msec(); TQString msg = i18n("Note: %1 (%2.%3s)") .arg(TQString("%1-%2-%3-%4") .arg(TQString("%1").arg(bar + 1).rightJustify(3, '0')) .arg(TQString("%1").arg(beat).rightJustify(2, '0')) .arg(TQString("%1").arg(fraction).rightJustify(2, '0')) .arg(TQString("%1").arg(remainder).rightJustify(2, '0'))) .arg(rt.sec) .arg(TQString("%1").arg(ms).rightJustify(3, '0')); m_hoveredOverAbsoluteTime->setText(msg); } m_haveHoveredOverNote = false; m_hoveredOverNoteName->setText(i18n("%1 (%2)") .arg(label.getQString()) .arg(evPitch)); m_pitchRuler->drawHoverNote(evPitch); } void MatrixView::slotHoveredOverKeyChanged(unsigned int y) { MatrixStaff& staff = *(m_staffs[0]); int evPitch = staff.getHeightAtCanvasCoords( -1, y); if (evPitch != m_previousEvPitch) { MidiPitchLabel label(evPitch); m_hoveredOverNoteName->setText(TQString("%1 (%2)"). arg(label.getQString()).arg(evPitch)); m_previousEvPitch = evPitch; } } void MatrixView::slotHoveredOverAbsoluteTimeChanged(unsigned int time) { if (m_haveHoveredOverNote) return; timeT t = time; int bar, beat, fraction, remainder; getDocument()->getComposition().getMusicalTimeForAbsoluteTime (t, bar, beat, fraction, remainder); RealTime rt = getDocument()->getComposition().getElapsedRealTime(t); long ms = rt.msec(); // At the advice of doc.trolltech.com/3.0/tqstring.html#sprintf // we replaced this TQString format("%ld (%ld.%03lds)"); // to support Unicode TQString message = i18n("Time: %1 (%2.%3s)") .arg(TQString("%1-%2-%3-%4") .arg(TQString("%1").arg(bar + 1).rightJustify(3, '0')) .arg(TQString("%1").arg(beat).rightJustify(2, '0')) .arg(TQString("%1").arg(fraction).rightJustify(2, '0')) .arg(TQString("%1").arg(remainder).rightJustify(2, '0'))) .arg(rt.sec) .arg(TQString("%1").arg(ms).rightJustify(3, '0')); m_hoveredOverAbsoluteTime->setText(message); } void MatrixView::slotSetPointerPosition(timeT time) { slotSetPointerPosition(time, m_playTracking); } void MatrixView::slotSetPointerPosition(timeT time, bool scroll) { Composition &comp = getDocument()->getComposition(); int barNo = comp.getBarNumber(time); if (barNo >= m_hlayout.getLastVisibleBarOnStaff(*m_staffs[0])) { Segment &seg = m_staffs[0]->getSegment(); if (seg.isRepeating() && time < seg.getRepeatEndTime()) { time = seg.getStartTime() + ((time - seg.getStartTime()) % (seg.getEndMarkerTime() - seg.getStartTime())); m_staffs[0]->setPointerPosition(m_hlayout, time); } else { m_staffs[0]->hidePointer(); scroll = false; } } else if (barNo < m_hlayout.getFirstVisibleBarOnStaff(*m_staffs[0])) { m_staffs[0]->hidePointer(); scroll = false; } else { m_staffs[0]->setPointerPosition(m_hlayout, time); } if (scroll && !getCanvasView()->isAutoScrolling()) getCanvasView()->slotScrollHoriz(static_cast(getXbyWorldMatrix(m_hlayout.getXForTime(time)))); updateView(); } void MatrixView::slotSetInsertCursorPosition(timeT time, bool scroll) { //!!! For now. Probably unlike slotSetPointerPosition this one // should snap to the nearest event or grid line. m_staffs[0]->setInsertCursorPosition(m_hlayout, time); if (scroll && !getCanvasView()->isAutoScrolling()) { getCanvasView()->slotScrollHoriz (static_cast(getXbyWorldMatrix(m_hlayout.getXForTime(time)))); } updateView(); } void MatrixView::slotEditCut() { MATRIX_DEBUG << "MatrixView::slotEditCut()\n"; if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Cutting selection to clipboard..."), this); addCommandToHistory(new CutCommand(*m_currentEventSelection, getDocument()->getClipboard())); } void MatrixView::slotEditCopy() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Copying selection to clipboard..."), this); addCommandToHistory(new CopyCommand(*m_currentEventSelection, getDocument()->getClipboard())); emit usedSelection(); } void MatrixView::slotEditPaste() { if (getDocument()->getClipboard()->isEmpty()) { slotStatusHelpMsg(i18n("Clipboard is empty")); return ; } KTmpStatusMsg msg(i18n("Inserting clipboard contents..."), this); PasteEventsCommand *command = new PasteEventsCommand (m_staffs[0]->getSegment(), getDocument()->getClipboard(), getInsertionTime(), PasteEventsCommand::MatrixOverlay); if (!command->isPossible()) { slotStatusHelpMsg(i18n("Couldn't paste at this point")); } else { addCommandToHistory(command); setCurrentSelection(new EventSelection(command->getPastedEvents())); } } void MatrixView::slotEditDelete() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Deleting selection..."), this); addCommandToHistory(new EraseCommand(*m_currentEventSelection)); // clear and clear setCurrentSelection(0, false); } void MatrixView::slotKeyPressed(unsigned int y, bool repeating) { slotHoveredOverKeyChanged(y); getCanvasView()->slotScrollVertSmallSteps(y); Composition &comp = getDocument()->getComposition(); Studio &studio = getDocument()->getStudio(); MatrixStaff& staff = *(m_staffs[0]); MidiByte evPitch = staff.getHeightAtCanvasCoords( -1, y); // Don't do anything if we're part of a run up the keyboard // and the pitch hasn't changed // if (m_lastNote == evPitch && repeating) return ; // Save value m_lastNote = evPitch; if (!repeating) m_firstNote = evPitch; Track *track = comp.getTrackById( staff.getSegment().getTrack()); Instrument *ins = studio.getInstrumentById(track->getInstrument()); // check for null instrument // if (ins == 0) return ; MappedEvent mE(ins->getId(), MappedEvent::MidiNote, evPitch + staff.getSegment().getTranspose(), MidiMaxValue, RealTime::zeroTime, RealTime::zeroTime, RealTime::zeroTime); StudioControl::sendMappedEvent(mE); } void MatrixView::slotKeySelected(unsigned int y, bool repeating) { slotHoveredOverKeyChanged(y); getCanvasView()->slotScrollVertSmallSteps(y); MatrixStaff& staff = *(m_staffs[0]); Segment &segment(staff.getSegment()); MidiByte evPitch = staff.getHeightAtCanvasCoords( -1, y); // Don't do anything if we're part of a run up the keyboard // and the pitch hasn't changed // if (m_lastNote == evPitch && repeating) return ; // Save value m_lastNote = evPitch; if (!repeating) m_firstNote = evPitch; EventSelection *s = new EventSelection(segment); for (Segment::iterator i = segment.begin(); segment.isBeforeEndMarker(i); ++i) { if ((*i)->isa(Note::EventType) && (*i)->has(BaseProperties::PITCH)) { MidiByte p = (*i)->get (BaseProperties::PITCH); if (p >= std::min(m_firstNote, evPitch) && p <= std::max(m_firstNote, evPitch)) { s->addEvent(*i); } } } if (m_currentEventSelection) { // allow addFromSelection to deal with eliminating duplicates s->addFromSelection(m_currentEventSelection); } setCurrentSelection(s, false); // now play the note as well Composition &comp = getDocument()->getComposition(); Studio &studio = getDocument()->getStudio(); Track *track = comp.getTrackById(segment.getTrack()); Instrument *ins = studio.getInstrumentById(track->getInstrument()); // check for null instrument // if (ins == 0) return ; MappedEvent mE(ins->getId(), MappedEvent::MidiNoteOneShot, evPitch + segment.getTranspose(), MidiMaxValue, RealTime::zeroTime, RealTime(0, 250000000), RealTime::zeroTime); StudioControl::sendMappedEvent(mE); } void MatrixView::slotKeyReleased(unsigned int y, bool repeating) { MatrixStaff& staff = *(m_staffs[0]); int evPitch = staff.getHeightAtCanvasCoords(-1, y); if (m_lastNote == evPitch && repeating) return; Rosegarden::Segment &segment(staff.getSegment()); // send note off (note on at zero velocity) Rosegarden::Composition &comp = getDocument()->getComposition(); Rosegarden::Studio &studio = getDocument()->getStudio(); Rosegarden::Track *track = comp.getTrackById(segment.getTrack()); Rosegarden::Instrument *ins = studio.getInstrumentById(track->getInstrument()); // check for null instrument // if (ins == 0) return; evPitch = evPitch + segment.getTranspose(); if (evPitch < 0 || evPitch > 127) return; Rosegarden::MappedEvent mE(ins->getId(), Rosegarden::MappedEvent::MidiNote, evPitch, 0, Rosegarden::RealTime::zeroTime, Rosegarden::RealTime::zeroTime, Rosegarden::RealTime::zeroTime); Rosegarden::StudioControl::sendMappedEvent(mE); } void MatrixView::slotVerticalScrollPianoKeyboard(int y) { if (m_pianoView) // check that the piano view still exists (see dtor) m_pianoView->setContentsPos(0, y); } void MatrixView::slotInsertNoteFromAction() { const TQObject *s = sender(); TQString name = s->name(); Segment &segment = *getCurrentSegment(); int pitch = 0; Accidental accidental = Accidentals::NoAccidental; timeT time(getInsertionTime()); ::Rosegarden::Key key = segment.getKeyAtTime(time); Clef clef = segment.getClefAtTime(time); try { pitch = getPitchFromNoteInsertAction(name, accidental, clef, key); } catch (...) { KMessageBox::sorry (this, i18n("Unknown note insert action %1").arg(name)); return ; } KTmpStatusMsg msg(i18n("Inserting note"), this); MATRIX_DEBUG << "Inserting note at pitch " << pitch << endl; Event modelEvent(Note::EventType, 0, 1); modelEvent.set(BaseProperties::PITCH, pitch); modelEvent.set(BaseProperties::ACCIDENTAL, accidental); timeT endTime(time + m_snapGrid->getSnapTime(time)); MatrixInsertionCommand* command = new MatrixInsertionCommand(segment, time, endTime, &modelEvent); addCommandToHistory(command); if (!isInChordMode()) { slotSetInsertCursorPosition(endTime); } } void MatrixView::closeWindow() { delete this; } bool MatrixView::canPreviewAnotherNote() { static time_t lastCutOff = 0; static int sinceLastCutOff = 0; time_t now = time(0); ++sinceLastCutOff; if ((now - lastCutOff) > 0) { sinceLastCutOff = 0; lastCutOff = now; } else { if (sinceLastCutOff >= 20) { // don't permit more than 20 notes per second, to avoid // gungeing up the sound drivers MATRIX_DEBUG << "Rejecting preview (too busy)" << endl; return false; } } return true; } void MatrixView::playNote(Event *event) { // Only play note events // if (!event->isa(Note::EventType)) return ; Composition &comp = getDocument()->getComposition(); Studio &studio = getDocument()->getStudio(); // Get the Instrument // Track *track = comp.getTrackById( m_staffs[0]->getSegment().getTrack()); Instrument *ins = studio.getInstrumentById(track->getInstrument()); if (ins == 0) return ; if (!canPreviewAnotherNote()) return ; // Get a velocity // MidiByte velocity = MidiMaxValue / 4; // be easy on the user's ears long eventVelocity = 0; if (event->get (BaseProperties::VELOCITY, eventVelocity)) velocity = eventVelocity; RealTime duration = comp.getElapsedRealTime(event->getDuration()); // create MappedEvent mE(ins->getId(), MappedEvent::MidiNoteOneShot, (MidiByte) event->get (BaseProperties::PITCH) + m_staffs[0]->getSegment().getTranspose(), velocity, RealTime::zeroTime, duration, RealTime::zeroTime); StudioControl::sendMappedEvent(mE); } void MatrixView::playNote(const Segment &segment, int pitch, int velocity) { Composition &comp = getDocument()->getComposition(); Studio &studio = getDocument()->getStudio(); Track *track = comp.getTrackById(segment.getTrack()); Instrument *ins = studio.getInstrumentById(track->getInstrument()); // check for null instrument // if (ins == 0) return ; if (velocity < 0) velocity = getCurrentVelocity(); MappedEvent mE(ins->getId(), MappedEvent::MidiNoteOneShot, pitch + segment.getTranspose(), velocity, RealTime::zeroTime, RealTime(0, 250000000), RealTime::zeroTime); StudioControl::sendMappedEvent(mE); } MatrixStaff* MatrixView::getStaff(const Segment &segment) { for (unsigned int i = 0; i < m_staffs.size(); ++i) { if (&(m_staffs[i]->getSegment()) == &segment) return m_staffs[i]; } return 0; } void MatrixView::setSingleSelectedEvent(int staffNo, Event *event, bool preview, bool redrawNow) { setSingleSelectedEvent(getStaff(staffNo)->getSegment(), event, preview, redrawNow); } void MatrixView::setSingleSelectedEvent(Segment &segment, Event *event, bool preview, bool redrawNow) { setCurrentSelection(0, false); EventSelection *selection = new EventSelection(segment); selection->addEvent(event); //!!! // this used to say // setCurrentSelection(selection, true) // since the default arg for preview is false, this changes the // default semantics -- test what circumstance this matters in // and choose an acceptable solution for both matrix & notation setCurrentSelection(selection, preview, redrawNow); } void MatrixView::slotNewSelection() { MATRIX_DEBUG << "MatrixView::slotNewSelection\n"; // m_parameterBox->setSelection(m_currentEventSelection); } void MatrixView::slotSetSnapFromIndex(int s) { slotSetSnap(m_snapValues[s]); } void MatrixView::slotSetSnapFromAction() { const TQObject *s = sender(); TQString name = s->name(); if (name.left(5) == "snap_") { int snap = name.right(name.length() - 5).toInt(); if (snap > 0) { slotSetSnap(Note(Note::Semibreve).getDuration() / snap); } else if (name == "snap_none") { slotSetSnap(SnapGrid::NoSnap); } else if (name == "snap_beat") { slotSetSnap(SnapGrid::SnapToBeat); } else if (name == "snap_bar") { slotSetSnap(SnapGrid::SnapToBar); } else if (name == "snap_unit") { slotSetSnap(SnapGrid::SnapToUnit); } else { MATRIX_DEBUG << "Warning: MatrixView::slotSetSnapFromAction: unrecognised action " << name << endl; } } } void MatrixView::slotSetSnap(timeT t) { MATRIX_DEBUG << "MatrixView::slotSetSnap: time is " << t << endl; m_snapGrid->setSnapTime(t); for (unsigned int i = 0; i < m_snapValues.size(); ++i) { if (m_snapValues[i] == t) { m_snapGridCombo->setCurrentItem(i); break; } } for (unsigned int i = 0; i < m_staffs.size(); ++i) m_staffs[i]->sizeStaff(m_hlayout); m_segments[0]->setSnapGridSize(t); m_config->setGroup(MatrixViewConfigGroup); m_config->writeEntry("Snap Grid Size", t); updateView(); } void MatrixView::slotQuantizeSelection(int q) { MATRIX_DEBUG << "MatrixView::slotQuantizeSelection\n"; timeT unit = ((unsigned int)q < m_quantizations.size() ? m_quantizations[q] : 0); Quantizer *quant = new BasicQuantizer (unit ? unit : Note(Note::Shortest).getDuration(), false); if (unit) { KTmpStatusMsg msg(i18n("Quantizing..."), this); if (m_currentEventSelection && m_currentEventSelection->getAddedEvents()) { addCommandToHistory(new EventQuantizeCommand (*m_currentEventSelection, quant)); } else { Segment &s = m_staffs[0]->getSegment(); addCommandToHistory(new EventQuantizeCommand (s, s.getStartTime(), s.getEndMarkerTime(), quant)); } } else { KTmpStatusMsg msg(i18n("Unquantizing..."), this); if (m_currentEventSelection && m_currentEventSelection->getAddedEvents()) { addCommandToHistory(new EventUnquantizeCommand (*m_currentEventSelection, quant)); } else { Segment &s = m_staffs[0]->getSegment(); addCommandToHistory(new EventUnquantizeCommand (s, s.getStartTime(), s.getEndMarkerTime(), quant)); } } } void MatrixView::initActionsToolbar() { MATRIX_DEBUG << "MatrixView::initActionsToolbar" << endl; KToolBar *actionsToolbar = toolBar("Actions Toolbar"); if (!actionsToolbar) { MATRIX_DEBUG << "MatrixView::initActionsToolbar - " << "tool bar not found" << endl; return ; } // The SnapGrid combo and Snap To... menu items // TQLabel *sLabel = new TQLabel(i18n(" Grid: "), actionsToolbar, "kde toolbar widget"); sLabel->setIndent(10); TQPixmap noMap = NotePixmapFactory::toQPixmap(NotePixmapFactory::makeToolbarPixmap("menu-no-note")); m_snapGridCombo = new KComboBox(actionsToolbar); for (unsigned int i = 0; i < m_snapValues.size(); i++) { timeT d = m_snapValues[i]; if (d == SnapGrid::NoSnap) { m_snapGridCombo->insertItem(i18n("None")); } else if (d == SnapGrid::SnapToUnit) { m_snapGridCombo->insertItem(i18n("Unit")); } else if (d == SnapGrid::SnapToBeat) { m_snapGridCombo->insertItem(i18n("Beat")); } else if (d == SnapGrid::SnapToBar) { m_snapGridCombo->insertItem(i18n("Bar")); } else { timeT err = 0; TQString label = NotationStrings::makeNoteMenuLabel(d, true, err); TQPixmap pixmap = NotePixmapFactory::toQPixmap (NotePixmapFactory::makeNoteMenuPixmap(d, err)); m_snapGridCombo->insertItem((err ? noMap : pixmap), label); } if (d == m_snapGrid->getSnapSetting()) { m_snapGridCombo->setCurrentItem(m_snapGridCombo->count() - 1); } } connect(m_snapGridCombo, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotSetSnapFromIndex(int))); // Velocity combo. Not a spin box, because the spin box is too // slow to use unless we make it typeable into, and then it takes // focus away from our more important widgets TQLabel *vlabel = new TQLabel(i18n(" Velocity: "), actionsToolbar, "kde toolbar widget"); vlabel->setIndent(10); m_velocityCombo = new KComboBox(actionsToolbar); for (int i = 0; i <= 127; ++i) { m_velocityCombo->insertItem(TQString("%1").arg(i)); } m_velocityCombo->setCurrentItem(100); //!!! associate with segment // Quantize combo // TQLabel *qLabel = new TQLabel(i18n(" Quantize: "), actionsToolbar, "kde toolbar widget"); qLabel->setIndent(10); m_quantizeCombo = new KComboBox(actionsToolbar); for (unsigned int i = 0; i < m_quantizations.size(); ++i) { timeT time = m_quantizations[i]; timeT error = 0; TQString label = NotationStrings::makeNoteMenuLabel(time, true, error); TQPixmap pmap = NotePixmapFactory::toQPixmap(NotePixmapFactory::makeNoteMenuPixmap(time, error)); m_quantizeCombo->insertItem(error ? noMap : pmap, label); } m_quantizeCombo->insertItem(noMap, i18n("Off")); connect(m_quantizeCombo, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotQuantizeSelection(int))); } void MatrixView::initZoomToolbar() { MATRIX_DEBUG << "MatrixView::initZoomToolbar" << endl; KToolBar *zoomToolbar = toolBar("Zoom Toolbar"); if (!zoomToolbar) { MATRIX_DEBUG << "MatrixView::initZoomToolbar - " << "tool bar not found" << endl; return ; } std::vector zoomSizes; // in units-per-pixel //double defaultBarWidth44 = 100.0; //double duration44 = TimeSignature(4,4).getBarDuration(); static double factors[] = { 0.025, 0.05, 0.1, 0.2, 0.5, 1.0, 1.5, 2.5, 5.0, 10.0, 20.0 }; // Zoom labels // for (unsigned int i = 0; i < sizeof(factors) / sizeof(factors[0]); ++i) { // zoomSizes.push_back(duration44 / (defaultBarWidth44 * factors[i])); // zoomSizes.push_back(factors[i] / 2); // GROSS HACK - see in matrixstaff.h - BREAKS MATRIX VIEW, see bug 1000595 zoomSizes.push_back(factors[i]); } m_hZoomSlider = new ZoomSlider (zoomSizes, -1, TQSlider::Horizontal, zoomToolbar, "kde toolbar widget"); m_hZoomSlider->setTracking(true); m_hZoomSlider->setFocusPolicy(TQWidget::NoFocus); m_zoomLabel = new TQLabel(zoomToolbar, "kde toolbar widget"); m_zoomLabel->setIndent(10); m_zoomLabel->setFixedWidth(80); connect(m_hZoomSlider, TQT_SIGNAL(valueChanged(int)), TQT_SLOT(slotChangeHorizontalZoom(int))); } void MatrixView::slotChangeHorizontalZoom(int) { double zoomValue = m_hZoomSlider->getCurrentSize(); // m_zoomLabel->setText(i18n("%1%").arg(zoomValue*100.0 * 2)); // GROSS HACK - see in matrixstaff.h - BREAKS MATRIX VIEW, see bug 1000595 m_zoomLabel->setText(i18n("%1%").arg(zoomValue*100.0)); MATRIX_DEBUG << "MatrixView::slotChangeHorizontalZoom() : zoom factor = " << zoomValue << endl; m_referenceRuler->setHScaleFactor(zoomValue); if (m_tempoRuler) m_tempoRuler->repaint(); if (m_chordNameRuler) m_chordNameRuler->repaint(); // Set zoom matrix // TQWMatrix zoomMatrix; zoomMatrix.scale(zoomValue, 1.0); m_canvasView->setWorldMatrix(zoomMatrix); // make control rulers zoom too // setControlRulersZoom(zoomMatrix); if (m_topStandardRuler) m_topStandardRuler->setHScaleFactor(zoomValue); if (m_bottomStandardRuler) m_bottomStandardRuler->setHScaleFactor(zoomValue); for (unsigned int i = 0; i < m_propertyViewRulers.size(); ++i) { m_propertyViewRulers[i].first->setHScaleFactor(zoomValue); m_propertyViewRulers[i].first->repaint(); } if (m_topStandardRuler) m_topStandardRuler->update(); if (m_bottomStandardRuler) m_bottomStandardRuler->update(); m_config->setGroup(MatrixViewConfigGroup); m_config->writeEntry("Zoom Level", zoomValue); // If you do adjust the viewsize then please remember to // either re-center() or remember old scrollbar position // and restore. // int newWidth = computePostLayoutWidth(); // int newWidth = int(getXbyWorldMatrix(getCanvasView()->canvas()->width())); // We DO NOT resize the canvas(), only the area it's displaying on // getCanvasView()->resizeContents(newWidth, getViewSize().height()); // This forces a refresh of the h. scrollbar, even if the canvas width // hasn't changed // getCanvasView()->polish(); getCanvasView()->slotScrollHoriz (getXbyWorldMatrix(m_staffs[0]->getLayoutXOfInsertCursor())); } void MatrixView::slotZoomIn() { m_hZoomSlider->increment(); } void MatrixView::slotZoomOut() { m_hZoomSlider->decrement(); } void MatrixView::scrollToTime(timeT t) { double layoutCoord = m_hlayout.getXForTime(t); getCanvasView()->slotScrollHoriz(int(layoutCoord)); } int MatrixView::getCurrentVelocity() const { return m_velocityCombo->currentItem(); } void MatrixView::slotSetCurrentVelocity(int value) { m_velocityCombo->setCurrentItem(value); } void MatrixView::slotSetCurrentVelocityFromSelection() { if (!m_currentEventSelection) return; float totalVelocity = 0; int count = 0; for (EventSelection::eventcontainer::iterator i = m_currentEventSelection->getSegmentEvents().begin(); i != m_currentEventSelection->getSegmentEvents().end(); ++i) { if ((*i)->has(BaseProperties::VELOCITY)) { totalVelocity += (*i)->get(BaseProperties::VELOCITY); ++count; } } if (count > 0) { slotSetCurrentVelocity((totalVelocity / count) + 0.5); } } unsigned int MatrixView::addPropertyViewRuler(const PropertyName &property) { // Try and find this controller if it exists // for (unsigned int i = 0; i != m_propertyViewRulers.size(); i++) { if (m_propertyViewRulers[i].first->getPropertyName() == property) return i; } int height = 20; PropertyViewRuler *newRuler = new PropertyViewRuler(&m_hlayout, m_segments[0], property, xorigin, height, getCentralWidget()); addRuler(newRuler); PropertyBox *newControl = new PropertyBox(strtoqstr(property), m_parameterBox->width() + m_pitchRuler->width(), height, getCentralWidget()); addPropertyBox(newControl); m_propertyViewRulers.push_back( std::pair(newRuler, newControl)); return m_propertyViewRulers.size() - 1; } bool MatrixView::removePropertyViewRuler(unsigned int number) { if (number > m_propertyViewRulers.size() - 1) return false; std::vector >::iterator it = m_propertyViewRulers.begin(); while (number--) it++; delete it->first; delete it->second; m_propertyViewRulers.erase(it); return true; } RulerScale* MatrixView::getHLayout() { return &m_hlayout; } Staff* MatrixView::getCurrentStaff() { return getStaff(0); } Segment * MatrixView::getCurrentSegment() { MatrixStaff *staff = getStaff(0); return (staff ? &staff->getSegment() : 0); } timeT MatrixView::getInsertionTime() { MatrixStaff *staff = m_staffs[0]; return staff->getInsertCursorTime(m_hlayout); } void MatrixView::slotStepBackward() { timeT time(getInsertionTime()); slotSetInsertCursorPosition(SnapGrid(&m_hlayout).snapTime (time - 1, SnapGrid::SnapLeft)); } void MatrixView::slotStepForward() { timeT time(getInsertionTime()); slotSetInsertCursorPosition(SnapGrid(&m_hlayout).snapTime (time + 1, SnapGrid::SnapRight)); } void MatrixView::slotJumpCursorToPlayback() { slotSetInsertCursorPosition(getDocument()->getComposition().getPosition()); } void MatrixView::slotJumpPlaybackToCursor() { emit jumpPlaybackTo(getInsertionTime()); } void MatrixView::slotToggleTracking() { m_playTracking = !m_playTracking; } void MatrixView::slotSelectAll() { Segment *segment = m_segments[0]; Segment::iterator it = segment->begin(); EventSelection *selection = new EventSelection(*segment); for (; segment->isBeforeEndMarker(it); it++) if ((*it)->isa(Note::EventType)) selection->addEvent(*it); setCurrentSelection(selection, false); } void MatrixView::slotPreviewSelection() { if (!m_currentEventSelection) return ; getDocument()->slotSetLoop(m_currentEventSelection->getStartTime(), m_currentEventSelection->getEndTime()); } void MatrixView::slotClearLoop() { getDocument()->slotSetLoop(0, 0); } void MatrixView::slotClearSelection() { // Actually we don't clear the selection immediately: if we're // using some tool other than the select tool, then the first // press switches us back to the select tool. MatrixSelector *selector = dynamic_cast(m_tool); if (!selector) { slotSelectSelected(); } else { setCurrentSelection(0); } } void MatrixView::slotFilterSelection() { RG_DEBUG << "MatrixView::slotFilterSelection" << endl; Segment *segment = getCurrentSegment(); EventSelection *existingSelection = m_currentEventSelection; if (!segment || !existingSelection) return ; EventFilterDialog dialog(this); if (dialog.exec() == TQDialog::Accepted) { RG_DEBUG << "slotFilterSelection- accepted" << endl; bool haveEvent = false; EventSelection *newSelection = new EventSelection(*segment); EventSelection::eventcontainer &ec = existingSelection->getSegmentEvents(); for (EventSelection::eventcontainer::iterator i = ec.begin(); i != ec.end(); ++i) { if (dialog.keepEvent(*i)) { haveEvent = true; newSelection->addEvent(*i); } } if (haveEvent) setCurrentSelection(newSelection); else setCurrentSelection(0); } } void MatrixView::readjustCanvasSize() { int maxHeight = 0; for (unsigned int i = 0; i < m_staffs.size(); ++i) { MatrixStaff &staff = *m_staffs[i]; staff.sizeStaff(m_hlayout); // if (staff.getTotalWidth() + staff.getX() > maxWidth) { // maxWidth = staff.getTotalWidth() + staff.getX() + 1; // } if (staff.getTotalHeight() + staff.getY() > maxHeight) { if (isDrumMode()) { maxHeight = staff.getTotalHeight() + staff.getY() + 5; } else { maxHeight = staff.getTotalHeight() + staff.getY() + 1; } } } int newWidth = computePostLayoutWidth(); // now get the EditView to do the biz readjustViewSize(TQSize(newWidth, maxHeight), true); repaintRulers(); } void MatrixView::slotVelocityUp() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Raising velocities..."), this); addCommandToHistory (new ChangeVelocityCommand(10, *m_currentEventSelection)); slotSetCurrentVelocityFromSelection(); } void MatrixView::slotVelocityDown() { if (!m_currentEventSelection) return ; KTmpStatusMsg msg(i18n("Lowering velocities..."), this); addCommandToHistory (new ChangeVelocityCommand( -10, *m_currentEventSelection)); slotSetCurrentVelocityFromSelection(); } void MatrixView::slotSetVelocities() { if (!m_currentEventSelection) return ; EventParameterDialog dialog(this, i18n("Set Event Velocities"), BaseProperties::VELOCITY, getCurrentVelocity()); if (dialog.exec() == TQDialog::Accepted) { KTmpStatusMsg msg(i18n("Setting Velocities..."), this); addCommandToHistory(new SelectionPropertyCommand (m_currentEventSelection, BaseProperties::VELOCITY, dialog.getPattern(), dialog.getValue1(), dialog.getValue2())); } } void MatrixView::slotSetVelocitiesToCurrent() { if (!m_currentEventSelection) return; addCommandToHistory(new SelectionPropertyCommand (m_currentEventSelection, BaseProperties::VELOCITY, FlatPattern, getCurrentVelocity(), getCurrentVelocity())); } void MatrixView::slotTriggerSegment() { if (!m_currentEventSelection) return ; TriggerSegmentDialog dialog(this, &getDocument()->getComposition()); if (dialog.exec() != TQDialog::Accepted) return ; addCommandToHistory(new SetTriggerCommand(*m_currentEventSelection, dialog.getId(), true, dialog.getRetune(), dialog.getTimeAdjust(), Marks::NoMark, i18n("Trigger Segment"))); } void MatrixView::slotRemoveTriggers() { if (!m_currentEventSelection) return ; addCommandToHistory(new ClearTriggersCommand(*m_currentEventSelection, i18n("Remove Triggers"))); } void MatrixView::slotToggleChordsRuler() { toggleWidget(m_chordNameRuler, "show_chords_ruler"); } void MatrixView::slotToggleTempoRuler() { toggleWidget(m_tempoRuler, "show_tempo_ruler"); } void MatrixView::paintEvent(TQPaintEvent* e) { //!!! There's a lot of code shared between matrix and notation for // dealing with step recording (the insertable note event stuff). // It should probably be factored out into a base class, but I'm // not sure I wouldn't rather wait until the functionality is all // sorted in both matrix and notation so we can be sure how much // of it is actually common. EditView::paintEvent(e); // now deal with any backlog of insertable notes that appeared // during paint (because it's not safe to modify a segment from // within a sub-event-loop in a processEvents call from a paint) if (!m_pendingInsertableNotes.empty()) { std::vector > notes = m_pendingInsertableNotes; m_pendingInsertableNotes.clear(); for (unsigned int i = 0; i < notes.size(); ++i) { slotInsertableNoteEventReceived(notes[i].first, notes[i].second, true); } } } void MatrixView::updateViewCaption() { // Set client label // TQString view = i18n("Matrix"); if (isDrumMode()) view = i18n("Percussion"); if (m_segments.size() == 1) { TrackId trackId = m_segments[0]->getTrack(); Track *track = m_segments[0]->getComposition()->getTrackById(trackId); int trackPosition = -1; if (track) trackPosition = track->getPosition(); setCaption(i18n("%1 - Segment Track #%2 - %3") .arg(getDocument()->getTitle()) .arg(trackPosition + 1) .arg(view)); } else if (m_segments.size() == getDocument()->getComposition().getNbSegments()) { setCaption(i18n("%1 - All Segments - %2") .arg(getDocument()->getTitle()) .arg(view)); } else { setCaption(i18n("%1 - 1 Segment - %2", "%1 - %n Segments - %2", m_segments.size()) .arg(getDocument()->getTitle()) .arg(view)); } } int MatrixView::computePostLayoutWidth() { Segment *segment = m_segments[0]; Composition *composition = segment->getComposition(); int endX = int(m_hlayout.getXForTime (composition->getBarEndForTime (segment->getEndMarkerTime()))); int startX = int(m_hlayout.getXForTime (composition->getBarStartForTime (segment->getStartTime()))); int newWidth = int(getXbyWorldMatrix(endX - startX)); MATRIX_DEBUG << "MatrixView::readjustCanvasSize() : startX = " << startX << " endX = " << endX << " newWidth = " << newWidth << " endmarkertime : " << segment->getEndMarkerTime() << " barEnd for time : " << composition->getBarEndForTime(segment->getEndMarkerTime()) << endl; newWidth += 12; if (isDrumMode()) newWidth += 12; return newWidth; } bool MatrixView::getMinMaxPitches(int& minPitch, int& maxPitch) { minPitch = MatrixVLayout::maxMIDIPitch + 1; maxPitch = MatrixVLayout::minMIDIPitch - 1; std::vector::iterator sit; for (sit = m_staffs.begin(); sit != m_staffs.end(); ++sit) { MatrixElementList *mel = (*sit)->getViewElementList(); MatrixElementList::iterator eit; for (eit = mel->begin(); eit != mel->end(); ++eit) { NotationElement *el = static_cast(*eit); if (el->isNote()) { Event* ev = el->event(); int pitch = ev->get (BaseProperties::PITCH); if (minPitch > pitch) minPitch = pitch; if (maxPitch < pitch) maxPitch = pitch; } } } return maxPitch >= minPitch; } void MatrixView::extendKeyMapping() { int minStaffPitch, maxStaffPitch; if (getMinMaxPitches(minStaffPitch, maxStaffPitch)) { int minKMPitch = m_localMapping->getPitchForOffset(0); int maxKMPitch = m_localMapping->getPitchForOffset(0) + m_localMapping->getPitchExtent() - 1; if (minStaffPitch < minKMPitch) m_localMapping->getMap()[minStaffPitch] = std::string(""); if (maxStaffPitch > maxKMPitch) m_localMapping->getMap()[maxStaffPitch] = std::string(""); } } void MatrixView::slotInsertableNoteEventReceived(int pitch, int velocity, bool noteOn) { // hjj: // The default insertion mode is implemented equivalently in // notationviewslots.cpp: // - proceed if notes do not overlap // - make the chord if notes do overlap, and do not proceed static int numberOfNotesOn = 0; static time_t lastInsertionTime = 0; if (!noteOn) { numberOfNotesOn--; return ; } KToggleAction *action = dynamic_cast (actionCollection()->action("toggle_step_by_step")); if (!action) { MATRIX_DEBUG << "WARNING: No toggle_step_by_step action" << endl; return ; } if (!action->isChecked()) return ; if (m_inPaintEvent) { m_pendingInsertableNotes.push_back(std::pair(pitch, velocity)); return ; } Segment &segment = *getCurrentSegment(); // If the segment is transposed, we want to take that into // account. But the note has already been played back to the user // at its untransposed pitch, because that's done by the MIDI THRU // code in the sequencer which has no way to know whether a note // was intended for step recording. So rather than adjust the // pitch for playback according to the transpose setting, we have // to adjust the stored pitch in the opposite direction. pitch -= segment.getTranspose(); KTmpStatusMsg msg(i18n("Inserting note"), this); MATRIX_DEBUG << "Inserting note at pitch " << pitch << endl; Event modelEvent(Note::EventType, 0, 1); modelEvent.set(BaseProperties::PITCH, pitch); static timeT insertionTime(getInsertionTime()); if (insertionTime >= segment.getEndMarkerTime()) { MATRIX_DEBUG << "WARNING: off end of segment" << endl; return ; } time_t now; time (&now); double elapsed = difftime(now, lastInsertionTime); time (&lastInsertionTime); if (numberOfNotesOn <= 0 || elapsed > 10.0 ) { numberOfNotesOn = 0; insertionTime = getInsertionTime(); } numberOfNotesOn++; timeT endTime(insertionTime + m_snapGrid->getSnapTime(insertionTime)); if (endTime <= insertionTime) { static bool showingError = false; if (showingError) return ; showingError = true; KMessageBox::sorry(this, i18n("Can't insert note: No grid duration selected")); showingError = false; return ; } MatrixInsertionCommand* command = new MatrixInsertionCommand(segment, insertionTime, endTime, &modelEvent); addCommandToHistory(command); if (!isInChordMode()) { slotSetInsertCursorPosition(endTime); } } void MatrixView::slotInsertableNoteOnReceived(int pitch, int velocity) { MATRIX_DEBUG << "MatrixView::slotInsertableNoteOnReceived: " << pitch << endl; slotInsertableNoteEventReceived(pitch, velocity, true); } void MatrixView::slotInsertableNoteOffReceived(int pitch, int velocity) { MATRIX_DEBUG << "MatrixView::slotInsertableNoteOffReceived: " << pitch << endl; slotInsertableNoteEventReceived(pitch, velocity, false); } void MatrixView::slotToggleStepByStep() { KToggleAction *action = dynamic_cast (actionCollection()->action("toggle_step_by_step")); if (!action) { MATRIX_DEBUG << "WARNING: No toggle_step_by_step action" << endl; return ; } if (action->isChecked()) { // after toggling, that is emit stepByStepTargetRequested(this); } else { emit stepByStepTargetRequested(0); } } void MatrixView::slotUpdateInsertModeStatus() { TQString message; if (isInChordMode()) { message = i18n(" Chord "); } else { message = ""; } m_insertModeLabel->setText(message); } void MatrixView::slotStepByStepTargetRequested(TQObject *obj) { KToggleAction *action = dynamic_cast (actionCollection()->action("toggle_step_by_step")); if (!action) { MATRIX_DEBUG << "WARNING: No toggle_step_by_step action" << endl; return ; } action->setChecked(obj == this); } void MatrixView::slotInstrumentLevelsChanged(InstrumentId id, const LevelInfo &info) { if (!m_parameterBox) return ; Composition &comp = getDocument()->getComposition(); Track *track = comp.getTrackById(m_staffs[0]->getSegment().getTrack()); if (!track || track->getInstrument() != id) return ; Instrument *instr = getDocument()->getStudio(). getInstrumentById(track->getInstrument()); if (!instr || instr->getType() != Instrument::SoftSynth) return ; float dBleft = AudioLevel::fader_to_dB (info.level, 127, AudioLevel::LongFader); float dBright = AudioLevel::fader_to_dB (info.levelRight, 127, AudioLevel::LongFader); m_parameterBox->setAudioMeter(dBleft, dBright, AudioLevel::DB_FLOOR, AudioLevel::DB_FLOOR); } void MatrixView::slotPercussionSetChanged(Instrument * newInstr) { // Must be called only when in drum mode assert(m_drumMode); int resolution = 8; if (newInstr && newInstr->getKeyMapping()) { resolution = 11; } const MidiKeyMapping *mapping = 0; if (newInstr) { mapping = newInstr->getKeyMapping(); } // Construct a local new keymapping : if (m_localMapping) delete m_localMapping; if (mapping) { m_localMapping = new MidiKeyMapping(*mapping); extendKeyMapping(); } else { m_localMapping = 0; } m_staffs[0]->setResolution(resolution); delete m_pitchRuler; TQWidget *vport = m_pianoView->viewport(); // Create a new pitchruler widget PitchRuler *pitchRuler; if (newInstr && newInstr->getKeyMapping() && !newInstr->getKeyMapping()->getMap().empty()) { pitchRuler = new PercussionPitchRuler(vport, m_localMapping, resolution); // line spacing } else { pitchRuler = new PianoKeyboard(vport); } TQObject::connect (pitchRuler, TQT_SIGNAL(hoveredOverKeyChanged(unsigned int)), this, TQT_SLOT (slotHoveredOverKeyChanged(unsigned int))); TQObject::connect (pitchRuler, TQT_SIGNAL(keyPressed(unsigned int, bool)), this, TQT_SLOT (slotKeyPressed(unsigned int, bool))); TQObject::connect (pitchRuler, TQT_SIGNAL(keySelected(unsigned int, bool)), this, TQT_SLOT (slotKeySelected(unsigned int, bool))); TQObject::connect (pitchRuler, TQT_SIGNAL(keyReleased(unsigned int, bool)), this, TQT_SLOT (slotKeyReleased(unsigned int, bool))); // Replace the old pitchruler widget m_pitchRuler = pitchRuler; m_pianoView->addChild(m_pitchRuler); m_pitchRuler->show(); m_pianoView->setFixedWidth(pitchRuler->sizeHint().width()); // Update matrix canvas readjustCanvasSize(); bool layoutApplied = applyLayout(); if (!layoutApplied) KMessageBox::sorry(0, i18n("Couldn't apply piano roll layout")); else { MATRIX_DEBUG << "MatrixView : rendering elements\n"; m_staffs[0]->positionAllElements(); m_staffs[0]->getSegment().getRefreshStatus (m_segmentsRefreshStatusIds[0]).setNeedsRefresh(false); update(); } } void MatrixView::slotCanvasBottomWidgetHeightChanged(int newHeight) { m_pianoView->setBottomMargin(newHeight + m_canvasView->horizontalScrollBar()->height()); } MatrixCanvasView* MatrixView::getCanvasView() { return dynamic_cast(m_canvasView); } } #include "MatrixView.moc"