/* -*- 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 "AudioMixerWindow.h" #include #include #include "AudioPlugin.h" #include "AudioPluginManager.h" #include "MixerWindow.h" #include "StudioControl.h" #include "sound/Midi.h" #include "misc/Debug.h" #include "gui/application/RosegardenDCOP.h" #include "base/AudioLevel.h" #include "base/AudioPluginInstance.h" #include "base/Composition.h" #include "base/Device.h" #include "base/Instrument.h" #include "base/MidiProgram.h" #include "base/Studio.h" #include "document/RosegardenGUIDoc.h" #include "gui/editors/notation/NotePixmapFactory.h" #include "gui/general/GUIPalette.h" #include "gui/seqmanager/SequencerMapper.h" #include "gui/seqmanager/SequenceManager.h" #include "gui/widgets/AudioRouteMenu.h" #include "gui/widgets/AudioVUMeter.h" #include "gui/widgets/Fader.h" #include "gui/widgets/Rotary.h" #include "gui/widgets/VUMeter.h" #include "sound/MappedCommon.h" #include "sound/MappedEvent.h" #include "sound/MappedStudio.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Rosegarden { // We define these such that the default of no-bits-set for the // studio's mixer display options produces the most sensible result static const unsigned int MIXER_OMIT_FADERS = 1 << 0; static const unsigned int MIXER_OMIT_SUBMASTERS = 1 << 1; static const unsigned int MIXER_OMIT_PLUGINS = 1 << 2; static const unsigned int MIXER_SHOW_UNASSIGNED_FADERS = 1 << 3; static const unsigned int MIXER_OMIT_SYNTH_FADERS = 1 << 4; AudioMixerWindow::AudioMixerWindow(TQWidget *tqparent, RosegardenGUIDoc *document): MixerWindow(tqparent, document), m_mainBox (0) { populate(); KStdAction::close(TQT_TQOBJECT(this), TQT_SLOT(slotClose()), actionCollection()); TQIconSet icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-play"))); KAction *play = new KAction(i18n("&Play"), icon, Key_Enter, TQT_TQOBJECT(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::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-stop"))); new KAction(i18n("&Stop"), icon, Key_Insert, TQT_TQOBJECT(this), TQT_SIGNAL(stop()), actionCollection(), "stop"); icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-rewind"))); new KAction(i18n("Re&wind"), icon, Key_End, TQT_TQOBJECT(this), TQT_SIGNAL(rewindPlayback()), actionCollection(), "playback_pointer_back_bar"); icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-ffwd"))); new KAction(i18n("&Fast Forward"), icon, Key_PageDown, TQT_TQOBJECT(this), TQT_SIGNAL(fastForwardPlayback()), actionCollection(), "playback_pointer_forward_bar"); icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-rewind-end"))); new KAction(i18n("Rewind to &Beginning"), icon, 0, TQT_TQOBJECT(this), TQT_SIGNAL(rewindPlaybackToBeginning()), actionCollection(), "playback_pointer_start"); icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-ffwd-end"))); new KAction(i18n("Fast Forward to &End"), icon, 0, TQT_TQOBJECT(this), TQT_SIGNAL(fastForwardPlaybackToEnd()), actionCollection(), "playback_pointer_end"); icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-record"))); new KAction(i18n("&Record"), icon, 0, TQT_TQOBJECT(this), TQT_SIGNAL(record()), actionCollection(), "record"); icon = TQIconSet(NotePixmapFactory::toTQPixmap(NotePixmapFactory::makeToolbarPixmap ("transport-panic"))); new KAction(i18n("Panic"), icon, Key_P + CTRL + ALT, TQT_TQOBJECT(this), TQT_SIGNAL(panic()), actionCollection(), "panic"); unsigned int mixerOptions = m_studio->getMixerDisplayOptions(); (new KToggleAction(i18n("Show Audio &Faders"), 0, TQT_TQOBJECT(this), TQT_SLOT(slotToggleFaders()), actionCollection(), "show_audio_faders"))->setChecked (!(mixerOptions & MIXER_OMIT_FADERS)); (new KToggleAction(i18n("Show Synth &Faders"), 0, TQT_TQOBJECT(this), TQT_SLOT(slotToggleSynthFaders()), actionCollection(), "show_synth_faders"))->setChecked (!(mixerOptions & MIXER_OMIT_SYNTH_FADERS)); (new KToggleAction(i18n("Show &Submasters"), 0, TQT_TQOBJECT(this), TQT_SLOT(slotToggleSubmasters()), actionCollection(), "show_audio_submasters"))->setChecked (!(mixerOptions & MIXER_OMIT_SUBMASTERS)); (new KToggleAction(i18n("Show &Plugin Buttons"), 0, TQT_TQOBJECT(this), TQT_SLOT(slotTogglePluginButtons()), actionCollection(), "show_plugin_buttons"))->setChecked (!(mixerOptions & MIXER_OMIT_PLUGINS)); (new KToggleAction(i18n("Show &Unassigned Faders"), 0, TQT_TQOBJECT(this), TQT_SLOT(slotToggleUnassignedFaders()), actionCollection(), "show_unassigned_faders"))->setChecked (mixerOptions & MIXER_SHOW_UNASSIGNED_FADERS); KRadioAction *action = 0; for (int i = 1; i <= 16; i *= 2) { action = new KRadioAction(i18n("1 Input", "%n Inputs", i), 0, TQT_TQOBJECT(this), TQT_SLOT(slotSetInputCountFromAction()), actionCollection(), TQString("inputs_%1").tqarg(i)); action->setExclusiveGroup("inputs"); if (i == int(m_studio->getRecordIns().size())) action->setChecked(true); } action = new KRadioAction (i18n("No Submasters"), 0, TQT_TQOBJECT(this), TQT_SLOT(slotSetSubmasterCountFromAction()), actionCollection(), TQString("submasters_0")); action->setExclusiveGroup("submasters"); action->setChecked(true); for (int i = 2; i <= 8; i *= 2) { action = new KRadioAction (i18n("1 Submaster", "%n Submasters", i), 0, TQT_TQOBJECT(this), TQT_SLOT(slotSetSubmasterCountFromAction()), actionCollection(), TQString("submasters_%1").tqarg(i)); action->setExclusiveGroup("submasters"); if (i == int(m_studio->getBusses().size()) - 1) action->setChecked(true); } createGUI("mixer.rc"); } AudioMixerWindow::~AudioMixerWindow() { RG_DEBUG << "AudioMixerWindow::~AudioMixerWindow\n"; depopulate(); } void AudioMixerWindow::depopulate() { if (!m_mainBox) return ; // All the widgets will be deleted when the main box goes, // except that we need to delete the AudioRouteMenus first // because they aren't actually widgets but do contain them for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { delete i->second.m_input; delete i->second.m_output; } m_faders.clear(); m_submasters.clear(); delete m_mainBox; m_mainBox = 0; } void AudioMixerWindow::populate() { if (m_mainBox) { depopulate(); } else { m_surroundBox = new TQHBox(this); setCentralWidget(m_surroundBox); } TQFont font; font.setPointSize(font.pointSize() * 8 / 10); font.setBold(false); setFont(font); TQFont boldFont(font); boldFont.setBold(true); m_mainBox = new TQFrame(m_surroundBox); InstrumentList instruments = m_studio->getPresentationInstruments(); BussList busses = m_studio->getBusses(); TQString pixmapDir = KGlobal::dirs()->findResource("appdata", "pixmaps/"); m_monoPixmap.load(TQString("%1/misc/mono.xpm").tqarg(pixmapDir)); m_stereoPixmap.load(TQString("%1/misc/stereo.xpm").tqarg(pixmapDir)); // Total cols: is 2 for each fader, submaster or master, plus 1 // for each spacer. TQGridLayout *mainLayout = new TQGridLayout (m_mainBox, (instruments.size() + busses.size()) * 3, 7); setCaption(i18n("Audio Mixer")); int count = 1; int col = 0; unsigned int mixerOptions = m_studio->getMixerDisplayOptions(); bool showUnassigned = (mixerOptions & MIXER_SHOW_UNASSIGNED_FADERS); for (InstrumentList::iterator i = instruments.begin(); i != instruments.end(); ++i) { if ((*i)->getType() != Instrument::Audio && (*i)->getType() != Instrument::SoftSynth) continue; FaderRec rec; if (!showUnassigned) { // Do any tracks use this instrument? if (!isInstrumentAssigned((*i)->getId())) { continue; } } rec.m_populated = true; if ((*i)->getType() == Instrument::Audio) { rec.m_input = new AudioRouteMenu(m_mainBox, AudioRouteMenu::In, AudioRouteMenu::Compact, m_studio, *i); TQToolTip::add (rec.m_input->getWidget(), i18n("Record input source")); rec.m_input->getWidget()->setMaximumWidth(45); } else { rec.m_input = 0; } rec.m_output = new AudioRouteMenu(m_mainBox, AudioRouteMenu::Out, AudioRouteMenu::Compact, m_studio, *i); TQToolTip::add (rec.m_output->getWidget(), i18n("Output destination")); rec.m_output->getWidget()->setMaximumWidth(45); rec.m_pan = new Rotary (m_mainBox, -100.0, 100.0, 1.0, 5.0, 0.0, 20, Rotary::NoTicks, false, true); if ((*i)->getType() == Instrument::Audio) { rec.m_pan->setKnobColour(GUIPalette::getColour(GUIPalette::RotaryPastelGreen)); } else { rec.m_pan->setKnobColour(GUIPalette::getColour(GUIPalette::RotaryPastelYellow)); } TQToolTip::add (rec.m_pan, i18n("Pan")); rec.m_fader = new Fader (AudioLevel::LongFader, 20, 240, m_mainBox); rec.m_meter = new AudioVUMeter (m_mainBox, VUMeter::AudioPeakHoldIECLong, true, rec.m_input != 0, 20, 240); TQToolTip::add (rec.m_fader, i18n("Audio level")); TQToolTip::add (rec.m_meter, i18n("Audio level")); rec.m_stereoButton = new TQPushButton(m_mainBox); rec.m_stereoButton->setPixmap(m_monoPixmap); rec.m_stereoButton->setFixedSize(20, 20); rec.m_stereoButton->setFlat(true); rec.m_stereoness = false; TQToolTip::add (rec.m_stereoButton, i18n("Mono or stereo")); rec.m_muteButton = new TQPushButton(m_mainBox); rec.m_muteButton->setText("M"); rec.m_muteButton->setToggleButton(true); rec.m_muteButton->setFixedWidth(rec.m_stereoButton->width()); rec.m_muteButton->setFixedHeight(rec.m_stereoButton->height()); rec.m_muteButton->setFlat(true); TQToolTip::add (rec.m_muteButton, i18n("Mute")); rec.m_soloButton = new TQPushButton(m_mainBox); rec.m_soloButton->setText("S"); rec.m_soloButton->setToggleButton(true); rec.m_soloButton->setFixedWidth(rec.m_stereoButton->width()); rec.m_soloButton->setFixedHeight(rec.m_stereoButton->height()); rec.m_soloButton->setFlat(true); TQToolTip::add (rec.m_soloButton, i18n("Solo")); rec.m_recordButton = new TQPushButton(m_mainBox); rec.m_recordButton->setText("R"); rec.m_recordButton->setToggleButton(true); rec.m_recordButton->setFixedWidth(rec.m_stereoButton->width()); rec.m_recordButton->setFixedHeight(rec.m_stereoButton->height()); rec.m_recordButton->setFlat(true); TQToolTip::add (rec.m_recordButton, i18n("Arm recording")); rec.m_pluginBox = new TQVBox(m_mainBox); for (int p = 0; p < 5; ++p) { TQPushButton *plugin = new TQPushButton(rec.m_pluginBox, "pluginButton"); plugin->setText(i18n("")); plugin->setMaximumWidth(45); TQToolTip::add (plugin, i18n("Audio plugin button")); rec.m_plugins.push_back(plugin); connect(plugin, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotSelectPlugin())); } TQLabel *idLabel; TQString idString; if ((*i)->getType() == Instrument::Audio) { idString = i18n("Audio %1").tqarg((*i)->getId() - AudioInstrumentBase + 1); idLabel = new TQLabel(idString, m_mainBox, "audioIdLabel"); } else { idString = i18n("Synth %1").tqarg((*i)->getId() - SoftSynthInstrumentBase + 1); idLabel = new TQLabel(idString, m_mainBox, "synthIdLabel"); } idLabel->setFont(boldFont); if (rec.m_input) { mainLayout->addMultiCellWidget(rec.m_input->getWidget(), 1, 1, col, col + 1); } mainLayout->addMultiCellWidget(rec.m_output->getWidget(), 2, 2, col, col + 1); // mainLayout->addWidget(idLabel, 2, col, TQt::AlignCenter); // mainLayout->addWidget(rec.m_pan, 2, col+1, TQt::AlignLeft); mainLayout->addMultiCellWidget(idLabel, 0, 0, col, col + 1, TQt::AlignCenter); mainLayout->addWidget(rec.m_pan, 5, col, TQt::AlignCenter); mainLayout->addWidget(rec.m_fader, 3, col, TQt::AlignCenter); mainLayout->addWidget(rec.m_meter, 3, col + 1, TQt::AlignCenter); // commented out until implemented // mainLayout->addWidget(rec.m_muteButton, 4, col); // mainLayout->addWidget(rec.m_soloButton, 4, col+1); rec.m_muteButton->hide(); rec.m_soloButton->hide(); // mainLayout->addWidget(rec.m_recordButton, 5, col); // mainLayout->addWidget(rec.m_stereoButton, 5, col+1); rec.m_recordButton->hide(); mainLayout->addWidget(rec.m_stereoButton, 5, col + 1); if (rec.m_pluginBox) { mainLayout->addMultiCellWidget(rec.m_pluginBox, 6, 6, col, col + 1); } m_faders[(*i)->getId()] = rec; updateFader((*i)->getId()); updateRouteButtons((*i)->getId()); updateStereoButton((*i)->getId()); updatePluginButtons((*i)->getId()); if (rec.m_input) { connect(rec.m_input, TQT_SIGNAL(changed()), this, TQT_SLOT(slotInputChanged())); } connect(rec.m_output, TQT_SIGNAL(changed()), this, TQT_SLOT(slotOutputChanged())); connect(rec.m_fader, TQT_SIGNAL(faderChanged(float)), this, TQT_SLOT(slotFaderLevelChanged(float))); connect(rec.m_pan, TQT_SIGNAL(valueChanged(float)), this, TQT_SLOT(slotPanChanged(float))); connect(rec.m_soloButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotSoloChanged())); connect(rec.m_muteButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotMuteChanged())); connect(rec.m_stereoButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotChannelsChanged())); connect(rec.m_recordButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotRecordChanged())); ++count; mainLayout->addMultiCell(new TQSpacerItem(2, 0), 0, 6, col + 2, col + 2); col += 3; } count = 1; for (BussList::iterator i = busses.begin(); i != busses.end(); ++i) { if (i == busses.begin()) continue; // that one's the master FaderRec rec; rec.m_populated = true; rec.m_pan = new Rotary (m_mainBox, -100.0, 100.0, 1.0, 5.0, 0.0, 20, Rotary::NoTicks, false, true); rec.m_pan->setKnobColour(GUIPalette::getColour(GUIPalette::RotaryPastelBlue)); TQToolTip::add (rec.m_pan, i18n("Pan")); rec.m_fader = new Fader (AudioLevel::LongFader, 20, 240, m_mainBox); rec.m_meter = new AudioVUMeter (m_mainBox, VUMeter::AudioPeakHoldIECLong, true, false, 20, 240); TQToolTip::add (rec.m_fader, i18n("Audio level")); TQToolTip::add (rec.m_meter, i18n("Audio level")); rec.m_muteButton = new TQPushButton(m_mainBox); rec.m_muteButton->setText("M"); rec.m_muteButton->setToggleButton(true); rec.m_muteButton->setFlat(true); TQToolTip::add (rec.m_muteButton, i18n("Mute")); rec.m_pluginBox = new TQVBox(m_mainBox); for (int p = 0; p < 5; ++p) { TQPushButton *plugin = new TQPushButton(rec.m_pluginBox, "pluginButton"); plugin->setText(i18n("")); plugin->setMaximumWidth(45); TQToolTip::add (plugin, i18n("Audio plugin button")); rec.m_plugins.push_back(plugin); connect(plugin, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotSelectPlugin())); } TQLabel *idLabel = new TQLabel(i18n("Sub %1").tqarg(count), m_mainBox, "subMaster"); idLabel->setFont(boldFont); // mainLayout->addWidget(idLabel, 2, col, TQt::AlignCenter); mainLayout->addMultiCellWidget(idLabel, 0, 0, col, col + 1, TQt::AlignCenter); // mainLayout->addWidget(rec.m_pan, 2, col+1, TQt::AlignLeft); mainLayout->addMultiCellWidget(rec.m_pan, 5, 5, col, col + 1, TQt::AlignCenter); mainLayout->addWidget(rec.m_fader, 3, col, TQt::AlignCenter); mainLayout->addWidget(rec.m_meter, 3, col + 1, TQt::AlignCenter); // mainLayout->addMultiCellWidget(rec.m_muteButton, 4, 4, col, col+1); rec.m_muteButton->hide(); if (rec.m_pluginBox) { mainLayout->addMultiCellWidget(rec.m_pluginBox, 6, 6, col, col + 1); } m_submasters.push_back(rec); updateFader(count); updatePluginButtons(count); connect(rec.m_fader, TQT_SIGNAL(faderChanged(float)), this, TQT_SLOT(slotFaderLevelChanged(float))); connect(rec.m_pan, TQT_SIGNAL(valueChanged(float)), this, TQT_SLOT(slotPanChanged(float))); connect(rec.m_muteButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotMuteChanged())); ++count; mainLayout->addMultiCell(new TQSpacerItem(2, 0), 0, 6, col + 2, col + 2); col += 3; } if (busses.size() > 0) { FaderRec rec; rec.m_populated = true; rec.m_fader = new Fader (AudioLevel::LongFader, 20, 240, m_mainBox); rec.m_meter = new AudioVUMeter (m_mainBox, VUMeter::AudioPeakHoldIEC, true, false, 20, 240); TQToolTip::add (rec.m_fader, i18n("Audio master output level")); TQToolTip::add (rec.m_meter, i18n("Audio master output level")); rec.m_muteButton = new TQPushButton(m_mainBox); rec.m_muteButton->setText("M"); rec.m_muteButton->setToggleButton(true); rec.m_muteButton->setFlat(true); TQLabel *idLabel = new TQLabel(i18n("Master"), m_mainBox); idLabel->setFont(boldFont); mainLayout->addMultiCellWidget(idLabel, 0, 0, col, col + 1, TQt::AlignCenter); mainLayout->addWidget(rec.m_fader, 3, col, TQt::AlignCenter); mainLayout->addWidget(rec.m_meter, 3, col + 1, TQt::AlignCenter); // mainLayout->addMultiCellWidget(rec.m_muteButton, 4, 4, col, col+1); rec.m_muteButton->hide(); mainLayout->addMultiCell(new TQSpacerItem(2, 0), 0, 6, col + 2, col + 2); m_master = rec; updateFader(0); connect(rec.m_fader, TQT_SIGNAL(faderChanged(float)), this, TQT_SLOT(slotFaderLevelChanged(float))); connect(rec.m_muteButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotMuteChanged())); } m_mainBox->show(); slotUpdateFaderVisibility(); slotUpdateSynthFaderVisibility(); slotUpdateSubmasterVisibility(); slotUpdatePluginButtonVisibility(); adjustSize(); } bool AudioMixerWindow::isInstrumentAssigned(InstrumentId id) { Composition::trackcontainer &tracks = m_document->getComposition().getTracks(); for (Composition::trackcontainer::iterator ti = tracks.begin(); ti != tracks.end(); ++ti) { if (ti->second->getInstrument() == id) { return true; } } return false; } void AudioMixerWindow::slotTrackAssignmentsChanged() { for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { InstrumentId id = i->first; bool assigned = isInstrumentAssigned(id); if (assigned != i->second.m_populated) { // found an inconsistency populate(); return ; } } } void AudioMixerWindow::slotUpdateInstrument(InstrumentId id) { RG_DEBUG << "AudioMixerWindow::slotUpdateInstrument(" << id << ")" << endl; blockSignals(true); updateFader(id); updateStereoButton(id); updateRouteButtons(id); updatePluginButtons(id); updateMiscButtons(id); blockSignals(false); } void AudioMixerWindow::slotPluginSelected(InstrumentId id, int index, int plugin) { if (id >= (int)AudioInstrumentBase) { FaderRec &rec = m_faders[id]; if (!rec.m_populated || !rec.m_pluginBox) return ; // nowhere to display synth plugin info yet if (index >= rec.m_plugins.size()) return ; if (plugin == -1) { rec.m_plugins[index]->setText(i18n("")); TQToolTip::add (rec.m_plugins[index], i18n("")); rec.m_plugins[index]->setPaletteBackgroundColor (kapp->palette(). color(TQPalette::Active, TQColorGroup::Button)); } else { AudioPlugin *pluginClass = m_document->getPluginManager()->getPlugin(plugin); TQColor pluginBgColour = kapp->palette().color(TQPalette::Active, TQColorGroup::Light); if (pluginClass) { rec.m_plugins[index]-> setText(pluginClass->getLabel()); TQToolTip::add (rec.m_plugins[index], pluginClass->getLabel()); pluginBgColour = pluginClass->getColour(); } rec.m_plugins[index]->setPaletteForegroundColor(TQt::white); rec.m_plugins[index]->setPaletteBackgroundColor(pluginBgColour); } } else if (id > 0 && id <= m_submasters.size()) { FaderRec &rec = m_submasters[id - 1]; if (!rec.m_populated || !rec.m_pluginBox) return ; if (index >= rec.m_plugins.size()) return ; if (plugin == -1) { rec.m_plugins[index]->setText(i18n("")); TQToolTip::add (rec.m_plugins[index], i18n("")); rec.m_plugins[index]->setPaletteBackgroundColor (kapp->palette(). color(TQPalette::Active, TQColorGroup::Button)); } else { AudioPlugin *pluginClass = m_document->getPluginManager()->getPlugin(plugin); TQColor pluginBgColour = kapp->palette().color(TQPalette::Active, TQColorGroup::Light); if (pluginClass) { rec.m_plugins[index]-> setText(pluginClass->getLabel()); TQToolTip::add (rec.m_plugins[index], pluginClass->getLabel()); pluginBgColour = pluginClass->getColour(); } rec.m_plugins[index]->setPaletteForegroundColor(TQt::white); rec.m_plugins[index]->setPaletteBackgroundColor(pluginBgColour); } } } void AudioMixerWindow::slotPluginBypassed(InstrumentId instrumentId, int , bool ) { RG_DEBUG << "AudioMixerWindow::slotPluginBypassed(" << instrumentId << ")" << endl; updatePluginButtons(instrumentId); } void AudioMixerWindow::updateFader(int id) { if (id == -1) { // This used to be the special code for updating the monitor fader. return ; } else if (id >= (int)AudioInstrumentBase) { FaderRec &rec = m_faders[id]; if (!rec.m_populated) return ; Instrument *instrument = m_studio->getInstrumentById(id); rec.m_fader->blockSignals(true); rec.m_fader->setFader(instrument->getLevel()); rec.m_fader->blockSignals(false); rec.m_pan->blockSignals(true); rec.m_pan->setPosition(instrument->getPan() - 100); rec.m_pan->blockSignals(false); } else { FaderRec &rec = (id == 0 ? m_master : m_submasters[id - 1]); BussList busses = m_studio->getBusses(); Buss *buss = busses[id]; rec.m_fader->blockSignals(true); rec.m_fader->setFader(buss->getLevel()); rec.m_fader->blockSignals(false); if (rec.m_pan) { rec.m_pan->blockSignals(true); rec.m_pan->setPosition(buss->getPan() - 100); rec.m_pan->blockSignals(false); } } } void AudioMixerWindow::updateRouteButtons(int id) { if (id >= (int)AudioInstrumentBase) { FaderRec &rec = m_faders[id]; if (!rec.m_populated) return ; if (rec.m_input) rec.m_input->slotRepopulate(); rec.m_output->slotRepopulate(); } } void AudioMixerWindow::updateStereoButton(int id) { if (id >= (int)AudioInstrumentBase) { FaderRec &rec = m_faders[id]; if (!rec.m_populated) return ; Instrument *i = m_studio->getInstrumentById(id); bool stereo = (i->getAudioChannels() > 1); if (stereo == rec.m_stereoness) return ; rec.m_stereoness = stereo; if (stereo) rec.m_stereoButton->setPixmap(m_stereoPixmap); else rec.m_stereoButton->setPixmap(m_monoPixmap); } } void AudioMixerWindow::updateMiscButtons(int ) { //... complications here, because the mute/solo status is actually // per-track rather than per-instrument... doh. } void AudioMixerWindow::updatePluginButtons(int id) { FaderRec *rec = 0; PluginContainer *container = 0; if (id >= (int)AudioInstrumentBase) { container = m_studio->getInstrumentById(id); rec = &m_faders[id]; if (!rec->m_populated || !rec->m_pluginBox) return ; } else { BussList busses = m_studio->getBusses(); if (busses.size() > id) { container = busses[id]; } rec = &m_submasters[id - 1]; if (!rec->m_populated || !rec->m_pluginBox) return ; } if (rec && container) { for (unsigned int i = 0; i < rec->m_plugins.size(); i++) { bool used = false; bool bypass = false; TQColor pluginBgColour = kapp->palette().color(TQPalette::Active, TQColorGroup::Light); rec->m_plugins[i]->show(); AudioPluginInstance *inst = container->getPlugin(i); if (inst && inst->isAssigned()) { AudioPlugin *pluginClass = m_document->getPluginManager()->getPlugin( m_document->getPluginManager()-> getPositionByIdentifier(inst->getIdentifier().c_str())); if (pluginClass) { rec->m_plugins[i]->setText(pluginClass->getLabel()); TQToolTip::add (rec->m_plugins[i], pluginClass->getLabel()); pluginBgColour = pluginClass->getColour(); } used = true; bypass = inst->isBypassed(); } else { rec->m_plugins[i]->setText(i18n("")); TQToolTip::add (rec->m_plugins[i], i18n("")); if (inst) bypass = inst->isBypassed(); } if (bypass) { rec->m_plugins[i]->setPaletteForegroundColor (kapp->palette(). color(TQPalette::Active, TQColorGroup::Button)); rec->m_plugins[i]->setPaletteBackgroundColor (kapp->palette(). color(TQPalette::Active, TQColorGroup::ButtonText)); } else if (used) { rec->m_plugins[i]->setPaletteForegroundColor(TQt::white); rec->m_plugins[i]->setPaletteBackgroundColor(pluginBgColour); } else { rec->m_plugins[i]->setPaletteForegroundColor (kapp->palette(). color(TQPalette::Active, TQColorGroup::ButtonText)); rec->m_plugins[i]->setPaletteBackgroundColor (kapp->palette(). color(TQPalette::Active, TQColorGroup::Button)); } } } } void AudioMixerWindow::slotSelectPlugin() { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { int index = 0; if (!i->second.m_populated || !i->second.m_pluginBox) continue; for (std::vector::iterator pli = i->second.m_plugins.begin(); pli != i->second.m_plugins.end(); ++pli) { if (TQT_BASE_OBJECT(*pli) == TQT_BASE_OBJECT_CONST(s)) { emit selectPlugin(this, i->first, index); return ; } ++index; } } int b = 1; for (FaderVector::iterator i = m_submasters.begin(); i != m_submasters.end(); ++i) { int index = 0; if (!i->m_populated || !i->m_pluginBox) continue; for (std::vector::iterator pli = i->m_plugins.begin(); pli != i->m_plugins.end(); ++pli) { if (TQT_BASE_OBJECT(*pli) == TQT_BASE_OBJECT_CONST(s)) { emit selectPlugin(this, b, index); return ; } ++index; } ++b; } } void AudioMixerWindow::slotInputChanged() { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (i->second.m_input == s) emit instrumentParametersChanged(i->first); } } void AudioMixerWindow::slotOutputChanged() { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (i->second.m_output == s) emit instrumentParametersChanged(i->first); } } void AudioMixerWindow::sendControllerRefresh() { //!!! really want some notification of whether we have an external controller! int controllerChannel = 0; for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (controllerChannel >= 16) break; Instrument *instrument = m_studio->getInstrumentById(i->first); int value = AudioLevel::dB_to_fader (instrument->getLevel(), 127, AudioLevel::LongFader); MappedEvent mE(instrument->getId(), MappedEvent::MidiController, MIDI_CONTROLLER_VOLUME, MidiByte(value)); mE.setRecordedChannel(controllerChannel); mE.setRecordedDevice(Device::CONTROL_DEVICE); StudioControl::sendMappedEvent(mE); int ipan = (int(instrument->getPan()) * 64) / 100; if (ipan < 0) ipan = 0; if (ipan > 127) ipan = 127; MappedEvent mEp(instrument->getId(), MappedEvent::MidiController, MIDI_CONTROLLER_PAN, MidiByte(ipan)); mEp.setRecordedChannel(controllerChannel); mEp.setRecordedDevice(Device::CONTROL_DEVICE); StudioControl::sendMappedEvent(mEp); ++controllerChannel; } } void AudioMixerWindow::slotFaderLevelChanged(float dB) { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); BussList busses = m_studio->getBusses(); if (TQT_BASE_OBJECT(m_master.m_fader) == TQT_BASE_OBJECT_CONST(s)) { if (busses.size() > 0) { StudioControl::setStudioObjectProperty (MappedObjectId(busses[0]->getMappedId()), MappedAudioBuss::Level, MappedObjectValue(dB)); busses[0]->setLevel(dB); } return ; } int index = 1; for (FaderVector::iterator i = m_submasters.begin(); i != m_submasters.end(); ++i) { if (TQT_BASE_OBJECT(i->m_fader) == TQT_BASE_OBJECT_CONST(s)) { if ((int)busses.size() > index) { StudioControl::setStudioObjectProperty (MappedObjectId(busses[index]->getMappedId()), MappedAudioBuss::Level, MappedObjectValue(dB)); busses[index]->setLevel(dB); } return ; } ++index; } int controllerChannel = 0; for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (TQT_BASE_OBJECT(i->second.m_fader) == TQT_BASE_OBJECT_CONST(s)) { Instrument *instrument = m_studio->getInstrumentById(i->first); if (instrument) { StudioControl::setStudioObjectProperty (MappedObjectId (instrument->getMappedId()), MappedAudioFader::FaderLevel, MappedObjectValue(dB)); instrument->setLevel(dB); } // send out to external controllers as well. //!!! really want some notification of whether we have any! if (controllerChannel < 16) { int value = AudioLevel::dB_to_fader (dB, 127, AudioLevel::LongFader); MappedEvent mE(instrument->getId(), MappedEvent::MidiController, MIDI_CONTROLLER_VOLUME, MidiByte(value)); mE.setRecordedChannel(controllerChannel); mE.setRecordedDevice(Device::CONTROL_DEVICE); StudioControl::sendMappedEvent(mE); } emit instrumentParametersChanged(i->first); } ++controllerChannel; } } void AudioMixerWindow::slotPanChanged(float pan) { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); BussList busses = m_studio->getBusses(); int index = 1; for (FaderVector::iterator i = m_submasters.begin(); i != m_submasters.end(); ++i) { if (TQT_BASE_OBJECT(i->m_pan) == TQT_BASE_OBJECT_CONST(s)) { if ((int)busses.size() > index) { StudioControl::setStudioObjectProperty (MappedObjectId(busses[index]->getMappedId()), MappedAudioBuss::Pan, MappedObjectValue(pan)); busses[index]->setPan(MidiByte(pan + 100.0)); } return ; } ++index; } int controllerChannel = 0; for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (TQT_BASE_OBJECT(i->second.m_pan) == TQT_BASE_OBJECT_CONST(s)) { Instrument *instrument = m_studio->getInstrumentById(i->first); if (instrument) { StudioControl::setStudioObjectProperty (instrument->getMappedId(), MappedAudioFader::Pan, MappedObjectValue(pan)); instrument->setPan(MidiByte(pan + 100.0)); } // send out to external controllers as well. //!!! really want some notification of whether we have any! if (controllerChannel < 16) { int ipan = (int(instrument->getPan()) * 64) / 100; if (ipan < 0) ipan = 0; if (ipan > 127) ipan = 127; MappedEvent mE(instrument->getId(), MappedEvent::MidiController, MIDI_CONTROLLER_PAN, MidiByte(ipan)); mE.setRecordedChannel(controllerChannel); mE.setRecordedDevice(Device::CONTROL_DEVICE); StudioControl::sendMappedEvent(mE); } emit instrumentParametersChanged(i->first); } ++controllerChannel; } } void AudioMixerWindow::slotChannelsChanged() { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); // channels are only switchable on instruments //!!! need to reconnect input, or change input channel number anyway for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (TQT_BASE_OBJECT_CONST(s) == TQT_BASE_OBJECT(i->second.m_stereoButton)) { Instrument *instrument = m_studio->getInstrumentById(i->first); if (instrument) { instrument->setAudioChannels ((instrument->getAudioChannels() > 1) ? 1 : 2); updateStereoButton(instrument->getId()); updateRouteButtons(instrument->getId()); emit instrumentParametersChanged(i->first); return ; } } } } void AudioMixerWindow::slotSoloChanged() { //... } void AudioMixerWindow::slotMuteChanged() { //... } void AudioMixerWindow::slotRecordChanged() { //... } void AudioMixerWindow::updateMeters(SequencerMapper *mapper) { for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { InstrumentId id = i->first; FaderRec &rec = i->second; if (!rec.m_populated) continue; LevelInfo info; if (mapper->getInstrumentLevelForMixer(id, info)) { // The values passed through are long-fader values float dBleft = AudioLevel::fader_to_dB (info.level, 127, AudioLevel::LongFader); if (rec.m_stereoness) { float dBright = AudioLevel::fader_to_dB (info.levelRight, 127, AudioLevel::LongFader); rec.m_meter->setLevel(dBleft, dBright); } else { rec.m_meter->setLevel(dBleft); } } } for (unsigned int i = 0; i < m_submasters.size(); ++i) { FaderRec &rec = m_submasters[i]; LevelInfo info; if (!mapper->getSubmasterLevel(i, info)) continue; // The values passed through are long-fader values float dBleft = AudioLevel::fader_to_dB (info.level, 127, AudioLevel::LongFader); float dBright = AudioLevel::fader_to_dB (info.levelRight, 127, AudioLevel::LongFader); rec.m_meter->setLevel(dBleft, dBright); } updateMonitorMeters(mapper); LevelInfo masterInfo; if (mapper->getMasterLevel(masterInfo)) { float dBleft = AudioLevel::fader_to_dB (masterInfo.level, 127, AudioLevel::LongFader); float dBright = AudioLevel::fader_to_dB (masterInfo.levelRight, 127, AudioLevel::LongFader); m_master.m_meter->setLevel(dBleft, dBright); } } void AudioMixerWindow::updateMonitorMeters(SequencerMapper *mapper) { // only show monitor levels when quiescent or when recording (as // record levels) if (m_document->getSequenceManager() && m_document->getSequenceManager()->getTransporttqStatus() == PLAYING) { return ; } Composition &comp = m_document->getComposition(); Composition::trackcontainer &tracks = comp.getTracks(); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { InstrumentId id = i->first; FaderRec &rec = i->second; if (!rec.m_populated) continue; LevelInfo info; if (mapper->getInstrumentRecordLevelForMixer(id, info)) { bool armed = false; for (Composition::trackcontainer::iterator ti = tracks.begin(); ti != tracks.end(); ++ti) { if (ti->second->getInstrument() == id) { if (comp.isTrackRecording(ti->second->getId())) { armed = true; break; } } } if (!armed) continue; // The values passed through are long-fader values float dBleft = AudioLevel::fader_to_dB (info.level, 127, AudioLevel::LongFader); if (rec.m_stereoness) { float dBright = AudioLevel::fader_to_dB (info.levelRight, 127, AudioLevel::LongFader); rec.m_meter->setRecordLevel(dBleft, dBright); } else { rec.m_meter->setRecordLevel(dBleft); } } } } void AudioMixerWindow::slotControllerDeviceEventReceived(MappedEvent *e, const void *preferredCustomer) { if (preferredCustomer != this) return ; RG_DEBUG << "AudioMixerWindow::slotControllerDeviceEventReceived: this one's for me" << endl; raise(); // get channel number n from event // update instrument for nth fader in m_faders if (e->getType() != MappedEvent::MidiController) return ; unsigned int channel = e->getRecordedChannel(); MidiByte controller = e->getData1(); MidiByte value = e->getData2(); int count = 0; for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (count < channel) { ++count; continue; } Instrument *instrument = m_studio->getInstrumentById(i->first); if (!instrument) continue; switch (controller) { case MIDI_CONTROLLER_VOLUME: { float level = AudioLevel::fader_to_dB (value, 127, AudioLevel::LongFader); StudioControl::setStudioObjectProperty (instrument->getMappedId(), MappedAudioFader::FaderLevel, MappedObjectValue(level)); instrument->setLevel(level); break; } case MIDI_CONTROLLER_PAN: { MidiByte ipan = MidiByte((value / 64.0) * 100.0 + 0.01); StudioControl::setStudioObjectProperty (instrument->getMappedId(), MappedAudioFader::Pan, MappedObjectValue(float(ipan) - 100.0)); instrument->setPan(ipan); break; } default: break; } slotUpdateInstrument(i->first); emit instrumentParametersChanged(i->first); break; } } void AudioMixerWindow::slotSetInputCountFromAction() { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); TQString name = s->name(); if (name.left(7) == "inputs_") { int count = name.right(name.length() - 7).toInt(); RecordInList ins = m_studio->getRecordIns(); int current = ins.size(); if (count == current) return ; m_studio->clearRecordIns(); // leaves the default 1 for (int i = 1; i < count; ++i) { m_studio->addRecordIn(new RecordIn()); } } m_document->initialiseStudio(); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { updateRouteButtons(i->first); } } void AudioMixerWindow::slotSetSubmasterCountFromAction() { const TQObject *s = TQT_TQOBJECT_CONST(const_cast(sender())); TQString name = s->name(); if (name.left(11) == "submasters_") { int count = name.right(name.length() - 11).toInt(); BussList busses = m_studio->getBusses(); int current = busses.size(); // offset by 1 generally to take into account the fact that // the first buss in the studio is the master, not a submaster if (count + 1 == current) return ; BussList dups; for (int i = 0; i < count; ++i) { if (i + 1 < int(busses.size())) { dups.push_back(new Buss(*busses[i + 1])); } else { dups.push_back(new Buss(i + 1)); } } m_studio->clearBusses(); for (BussList::iterator i = dups.begin(); i != dups.end(); ++i) { m_studio->addBuss(*i); } } m_document->initialiseStudio(); populate(); } void AudioMixerWindow::FaderRec::setVisible(bool visible) { if (visible) { if (m_input) m_input->getWidget()->show(); if (m_output) m_output->getWidget()->show(); if (m_pan) m_pan->show(); if (m_fader) m_fader->show(); if (m_meter) m_meter->show(); // commented out until implemented // if (m_muteButton) m_muteButton->show(); // if (m_soloButton) m_soloButton->show(); // if (m_recordButton) m_recordButton->show(); if (m_stereoButton) m_stereoButton->show(); } else { if (m_input) m_input->getWidget()->hide(); if (m_output) m_output->getWidget()->hide(); if (m_pan) m_pan->hide(); if (m_fader) m_fader->hide(); if (m_meter) m_meter->hide(); // commented out until implemented // if (m_muteButton) m_muteButton->hide(); // if (m_soloButton) m_soloButton->hide(); // if (m_recordButton) m_recordButton->hide(); if (m_stereoButton) m_stereoButton->hide(); } setPluginButtonsVisible(visible); } void AudioMixerWindow::FaderRec::setPluginButtonsVisible(bool visible) { if (!m_pluginBox) return ; if (visible) { m_pluginBox->show(); } else { m_pluginBox->hide(); } } void AudioMixerWindow::slotToggleFaders() { m_studio->setMixerDisplayOptions(m_studio->getMixerDisplayOptions() ^ MIXER_OMIT_FADERS); slotUpdateFaderVisibility(); } void AudioMixerWindow::slotUpdateFaderVisibility() { bool d = !(m_studio->getMixerDisplayOptions() & MIXER_OMIT_FADERS); KToggleAction *action = dynamic_cast (actionCollection()->action("show_audio_faders")); if (action) { action->setChecked(d); } RG_DEBUG << "AudioMixerWindow::slotUpdateFaderVisibility: visiblility is " << d << " (options " << m_studio->getMixerDisplayOptions() << ")" << endl; for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (i->first < SoftSynthInstrumentBase) { FaderRec rec = i->second; rec.setVisible(d); } } toggleNamedWidgets(d, "audioIdLabel"); adjustSize(); } void AudioMixerWindow::slotToggleSynthFaders() { m_studio->setMixerDisplayOptions(m_studio->getMixerDisplayOptions() ^ MIXER_OMIT_SYNTH_FADERS); slotUpdateSynthFaderVisibility(); } void AudioMixerWindow::slotUpdateSynthFaderVisibility() { KToggleAction *action = dynamic_cast (actionCollection()->action("show_synth_faders")); if (!action) return ; action->setChecked(!(m_studio->getMixerDisplayOptions() & MIXER_OMIT_SYNTH_FADERS)); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { if (i->first >= SoftSynthInstrumentBase) { FaderRec rec = i->second; rec.setVisible(action->isChecked()); } } toggleNamedWidgets(action->isChecked(), "synthIdLabel"); adjustSize(); } void AudioMixerWindow::slotToggleSubmasters() { m_studio->setMixerDisplayOptions(m_studio->getMixerDisplayOptions() ^ MIXER_OMIT_SUBMASTERS); slotUpdateSubmasterVisibility(); } void AudioMixerWindow::slotUpdateSubmasterVisibility() { KToggleAction *action = dynamic_cast (actionCollection()->action("show_audio_submasters")); if (!action) return ; action->setChecked(!(m_studio->getMixerDisplayOptions() & MIXER_OMIT_SUBMASTERS)); for (FaderVector::iterator i = m_submasters.begin(); i != m_submasters.end(); ++i) { FaderRec rec = *i; rec.setVisible(action->isChecked()); } toggleNamedWidgets(action->isChecked(), "subMaster"); adjustSize(); } void AudioMixerWindow::slotTogglePluginButtons() { m_studio->setMixerDisplayOptions(m_studio->getMixerDisplayOptions() ^ MIXER_OMIT_PLUGINS); slotUpdatePluginButtonVisibility(); } void AudioMixerWindow::slotUpdatePluginButtonVisibility() { KToggleAction *action = dynamic_cast (actionCollection()->action("show_plugin_buttons")); if (!action) return ; action->setChecked(!(m_studio->getMixerDisplayOptions() & MIXER_OMIT_PLUGINS)); for (FaderMap::iterator i = m_faders.begin(); i != m_faders.end(); ++i) { FaderRec rec = i->second; rec.setPluginButtonsVisible(action->isChecked()); } adjustSize(); } void AudioMixerWindow::slotToggleUnassignedFaders() { KToggleAction *action = dynamic_cast (actionCollection()->action("show_unassigned_faders")); if (!action) return ; m_studio->setMixerDisplayOptions(m_studio->getMixerDisplayOptions() ^ MIXER_SHOW_UNASSIGNED_FADERS); action->setChecked(m_studio->getMixerDisplayOptions() & MIXER_SHOW_UNASSIGNED_FADERS); populate(); } void AudioMixerWindow::toggleNamedWidgets(bool show, const char* const name) { TQLayoutIterator it = m_mainBox->tqlayout()->iterator(); TQLayoutItem *child; while ( (child = it.current()) != 0 ) { TQWidget * widget = child->widget(); if (widget && widget->name() && !strcmp(widget->name(), name)) { if (show) widget->show(); else widget->hide(); } ++it; } } } #include "AudioMixerWindow.moc"