diff --git a/src/monitor/monitor.cpp b/src/monitor/monitor.cpp
index b7d917466..e352caab2 100644
--- a/src/monitor/monitor.cpp
+++ b/src/monitor/monitor.cpp
@@ -1,2129 +1,2148 @@
 /***************************************************************************
  *   Copyright (C) 2007 by Jean-Baptiste Mardelle (jb@kdenlive.org)        *
  *                                                                         *
  *   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.                                   *
  *                                                                         *
  *   This program is distributed in the hope that it will be useful,       *
  *   but WITHOUT ANY WARRANTY; without even the implied warranty of        *
  *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         *
  *   GNU General Public License for more details.                          *
  *                                                                         *
  *   You should have received a copy of the GNU General Public License     *
  *   along with this program; if not, write to the                         *
  *   Free Software Foundation, Inc.,                                       *
  *   51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA          *
  ***************************************************************************/
 
 #include "monitor.h"
 #include "bin/bin.h"
 #include "bin/projectclip.h"
 #include "core.h"
 #include "dialogs/profilesdialog.h"
 #include "doc/kdenlivedoc.h"
 #include "doc/kthumb.h"
 #include "glwidget.h"
 #include "kdenlivesettings.h"
 #include "lib/audio/audioStreamInfo.h"
 #include "mainwindow.h"
 #include "mltcontroller/clipcontroller.h"
 #include "monitorproxy.h"
 #include "profiles/profilemodel.hpp"
 #include "project/projectmanager.h"
 #include "qmlmanager.h"
 #include "recmanager.h"
 #include "scopes/monitoraudiolevel.h"
 #include "timeline2/model/snapmodel.hpp"
 #include "transitions/transitionsrepository.hpp"
 
 #include "klocalizedstring.h"
 #include <KDualAction>
 #include <KFileWidget>
 #include <KMessageBox>
 #include <KMessageWidget>
 #include <KRecentDirs>
 #include <KSelectAction>
 #include <KWindowConfig>
 #include <kio_version.h>
 
 #include "kdenlive_debug.h"
 #include <QDesktopWidget>
 #include <QDrag>
 #include <QFileDialog>
 #include <QMenu>
 #include <QMimeData>
 #include <QMouseEvent>
 #include <QQuickItem>
 #include <QScrollBar>
 #include <QSlider>
 #include <QToolBar>
 #include <QToolButton>
 #include <QVBoxLayout>
 #include <QWidgetAction>
 #include <utility>
 #define SEEK_INACTIVE (-1)
 
 QuickEventEater::QuickEventEater(QObject *parent)
     : QObject(parent)
 {
 }
 
 bool QuickEventEater::eventFilter(QObject *obj, QEvent *event)
 {
     switch (event->type()) {
     case QEvent::DragEnter: {
         auto *ev = reinterpret_cast<QDragEnterEvent *>(event);
         if (ev->mimeData()->hasFormat(QStringLiteral("kdenlive/effect"))) {
             ev->acceptProposedAction();
             return true;
         }
         break;
     }
     case QEvent::DragMove: {
         auto *ev = reinterpret_cast<QDragEnterEvent *>(event);
         if (ev->mimeData()->hasFormat(QStringLiteral("kdenlive/effect"))) {
             ev->acceptProposedAction();
             return true;
         }
         break;
     }
     case QEvent::Drop: {
         auto *ev = static_cast<QDropEvent *>(event);
         if (ev) {
             QStringList effectData;
             effectData << QString::fromUtf8(ev->mimeData()->data(QStringLiteral("kdenlive/effect")));
             QStringList source = QString::fromUtf8(ev->mimeData()->data(QStringLiteral("kdenlive/effectsource"))).split(QLatin1Char('-'));
             effectData << source;
             emit addEffect(effectData);
             ev->accept();
             return true;
         }
         break;
     }
     default:
         break;
     }
     return QObject::eventFilter(obj, event);
 }
 
 QuickMonitorEventEater::QuickMonitorEventEater(QWidget *parent)
     : QObject(parent)
 {
 }
 
 bool QuickMonitorEventEater::eventFilter(QObject *obj, QEvent *event)
 {
     if (event->type() == QEvent::KeyPress) {
         auto *ev = static_cast<QKeyEvent *>(event);
         if (ev) {
             emit doKeyPressEvent(ev);
             return true;
         }
     }
     return QObject::eventFilter(obj, event);
 }
 
 Monitor::Monitor(Kdenlive::MonitorId id, MonitorManager *manager, QWidget *parent)
     : AbstractMonitor(id, manager, parent)
     , m_controller(nullptr)
     , m_glMonitor(nullptr)
     , m_snaps(new SnapModel())
     , m_splitEffect(nullptr)
     , m_splitProducer(nullptr)
     , m_dragStarted(false)
     , m_recManager(nullptr)
     , m_loopClipAction(nullptr)
     , m_sceneVisibilityAction(nullptr)
     , m_multitrackView(nullptr)
     , m_contextMenu(nullptr)
+    , m_markerMenu(nullptr)
     , m_loopClipTransition(true)
     , m_editMarker(nullptr)
     , m_forceSizeFactor(0)
     , m_lastMonitorSceneType(MonitorSceneDefault)
 {
     auto *layout = new QVBoxLayout;
     layout->setContentsMargins(0, 0, 0, 0);
     layout->setSpacing(0);
     // Create container widget
     m_glWidget = new QWidget;
     auto *glayout = new QGridLayout(m_glWidget);
     glayout->setSpacing(0);
     glayout->setContentsMargins(0, 0, 0, 0);
     // Create QML OpenGL widget
     m_glMonitor = new GLWidget((int)id);
     connect(m_glMonitor, &GLWidget::passKeyEvent, this, &Monitor::doKeyPressEvent);
     connect(m_glMonitor, &GLWidget::panView, this, &Monitor::panView);
     connect(m_glMonitor, &GLWidget::seekPosition, this, &Monitor::seekPosition, Qt::DirectConnection);
     connect(m_glMonitor, &GLWidget::consumerPosition, this, &Monitor::slotSeekPosition, Qt::DirectConnection);
 
     connect(m_glMonitor, &GLWidget::activateMonitor, this, &AbstractMonitor::slotActivateMonitor, Qt::DirectConnection);
     m_videoWidget = QWidget::createWindowContainer(qobject_cast<QWindow *>(m_glMonitor));
     m_videoWidget->setAcceptDrops(true);
     auto *leventEater = new QuickEventEater(this);
     m_videoWidget->installEventFilter(leventEater);
     connect(leventEater, &QuickEventEater::addEffect, this, &Monitor::slotAddEffect);
 
     m_qmlManager = new QmlManager(m_glMonitor);
     connect(m_qmlManager, &QmlManager::effectChanged, this, &Monitor::effectChanged);
     connect(m_qmlManager, &QmlManager::effectPointsChanged, this, &Monitor::effectPointsChanged);
 
     auto *monitorEventEater = new QuickMonitorEventEater(this);
     m_glWidget->installEventFilter(monitorEventEater);
     connect(monitorEventEater, &QuickMonitorEventEater::doKeyPressEvent, this, &Monitor::doKeyPressEvent);
 
     glayout->addWidget(m_videoWidget, 0, 0);
     m_verticalScroll = new QScrollBar(Qt::Vertical);
     glayout->addWidget(m_verticalScroll, 0, 1);
     m_verticalScroll->hide();
     m_horizontalScroll = new QScrollBar(Qt::Horizontal);
     glayout->addWidget(m_horizontalScroll, 1, 0);
     m_horizontalScroll->hide();
     connect(m_horizontalScroll, &QAbstractSlider::valueChanged, this, &Monitor::setOffsetX);
     connect(m_verticalScroll, &QAbstractSlider::valueChanged, this, &Monitor::setOffsetY);
     connect(m_glMonitor, &GLWidget::frameDisplayed, this, &Monitor::onFrameDisplayed);
     connect(m_glMonitor, &GLWidget::mouseSeek, this, &Monitor::slotMouseSeek);
     connect(m_glMonitor, &GLWidget::monitorPlay, this, &Monitor::slotPlay);
     connect(m_glMonitor, &GLWidget::startDrag, this, &Monitor::slotStartDrag);
     connect(m_glMonitor, &GLWidget::switchFullScreen, this, &Monitor::slotSwitchFullScreen);
     connect(m_glMonitor, &GLWidget::zoomChanged, this, &Monitor::setZoom);
     connect(m_glMonitor, SIGNAL(lockMonitor(bool)), this, SLOT(slotLockMonitor(bool)), Qt::DirectConnection);
     connect(m_glMonitor, &GLWidget::showContextMenu, this, &Monitor::slotShowMenu);
     connect(m_glMonitor, &GLWidget::gpuNotSupported, this, &Monitor::gpuError);
 
     m_glWidget->setMinimumSize(QSize(320, 180));
     layout->addWidget(m_glWidget, 10);
     layout->addStretch();
 
     // Tool bar buttons
     m_toolbar = new QToolBar(this);
     QWidget *sp1 = new QWidget(this);
     sp1->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Preferred);
     m_toolbar->addWidget(sp1);
     if (id == Kdenlive::ClipMonitor) {
         // Add options for recording
         m_recManager = new RecManager(this);
         connect(m_recManager, &RecManager::warningMessage, this, &Monitor::warningMessage);
         connect(m_recManager, &RecManager::addClipToProject, this, &Monitor::addClipToProject);
 
         m_toolbar->addAction(manager->getAction(QStringLiteral("insert_project_tree")));
         m_toolbar->setToolTip(i18n("Insert Zone to Project Bin"));
         m_toolbar->addSeparator();
     }
 
     if (id != Kdenlive::DvdMonitor) {
         QAction *markIn = new QAction(QIcon::fromTheme(QStringLiteral("zone-in")), i18n("Set Zone In"), this);
         QAction *markOut = new QAction(QIcon::fromTheme(QStringLiteral("zone-out")), i18n("Set Zone Out"), this);
         m_toolbar->addAction(markIn);
         m_toolbar->addAction(markOut);
         connect(markIn, &QAction::triggered, [&, manager]() {
             m_monitorManager->activateMonitor(m_id);
             manager->getAction(QStringLiteral("mark_in"))->trigger();
         });
         connect(markOut, &QAction::triggered, [&, manager]() {
             m_monitorManager->activateMonitor(m_id);
             manager->getAction(QStringLiteral("mark_out"))->trigger();
         });
     }
     m_toolbar->addAction(manager->getAction(QStringLiteral("monitor_seek_backward")));
 
     auto *playButton = new QToolButton(m_toolbar);
     m_playMenu = new QMenu(i18n("Play..."), this);
     QAction *originalPlayAction = static_cast<KDualAction *>(manager->getAction(QStringLiteral("monitor_play")));
     m_playAction = new KDualAction(i18n("Play"), i18n("Pause"), this);
     m_playAction->setInactiveIcon(QIcon::fromTheme(QStringLiteral("media-playback-start")));
     m_playAction->setActiveIcon(QIcon::fromTheme(QStringLiteral("media-playback-pause")));
 
     QString strippedTooltip = m_playAction->toolTip().remove(QRegExp(QStringLiteral("\\s\\(.*\\)")));
     // append shortcut if it exists for action
     if (originalPlayAction->shortcut() == QKeySequence(0)) {
         m_playAction->setToolTip(strippedTooltip);
     } else {
         m_playAction->setToolTip(strippedTooltip + QStringLiteral(" (") + originalPlayAction->shortcut().toString() + QLatin1Char(')'));
     }
     m_playMenu->addAction(m_playAction);
     connect(m_playAction, &QAction::triggered, this, &Monitor::slotSwitchPlay);
 
     playButton->setMenu(m_playMenu);
     playButton->setPopupMode(QToolButton::MenuButtonPopup);
     m_toolbar->addWidget(playButton);
     m_toolbar->addAction(manager->getAction(QStringLiteral("monitor_seek_forward")));
 
     playButton->setDefaultAction(m_playAction);
     m_configMenu = new QMenu(i18n("Misc..."), this);
 
     if (id != Kdenlive::DvdMonitor) {
         if (id == Kdenlive::ClipMonitor) {
             m_markerMenu = new QMenu(i18n("Go to marker..."), this);
         } else {
             m_markerMenu = new QMenu(i18n("Go to guide..."), this);
         }
         m_markerMenu->setEnabled(false);
         m_configMenu->addMenu(m_markerMenu);
         connect(m_markerMenu, &QMenu::triggered, this, &Monitor::slotGoToMarker);
         m_forceSize = new KSelectAction(QIcon::fromTheme(QStringLiteral("transform-scale")), i18n("Force Monitor Size"), this);
         QAction *fullAction = m_forceSize->addAction(QIcon(), i18n("Force 100%"));
         fullAction->setData(100);
         QAction *halfAction = m_forceSize->addAction(QIcon(), i18n("Force 50%"));
         halfAction->setData(50);
         QAction *freeAction = m_forceSize->addAction(QIcon(), i18n("Free Resize"));
         freeAction->setData(0);
         m_configMenu->addAction(m_forceSize);
         m_forceSize->setCurrentAction(freeAction);
         connect(m_forceSize, static_cast<void (KSelectAction::*)(QAction *)>(&KSelectAction::triggered), this, &Monitor::slotForceSize);
     }
 
     // Create Volume slider popup
     m_audioSlider = new QSlider(Qt::Vertical);
     m_audioSlider->setRange(0, 100);
     m_audioSlider->setValue(KdenliveSettings::volume());
     connect(m_audioSlider, &QSlider::valueChanged, this, &Monitor::slotSetVolume);
     auto *widgetslider = new QWidgetAction(this);
     widgetslider->setText(i18n("Audio volume"));
     widgetslider->setDefaultWidget(m_audioSlider);
     auto *menu = new QMenu(i18n("Volume"), this);
     menu->setIcon(QIcon::fromTheme(QStringLiteral("audio-volume-medium")));
     menu->addAction(widgetslider);
     m_configMenu->addMenu(menu);
 
     /*QIcon icon;
     if (KdenliveSettings::volume() == 0) {
         icon = QIcon::fromTheme(QStringLiteral("audio-volume-muted"));
     } else {
         icon = QIcon::fromTheme(QStringLiteral("audio-volume-medium"));
     }
     m_audioButton->setIcon(icon);*/
 
     setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
     setLayout(layout);
     setMinimumHeight(200);
 
     connect(this, &Monitor::scopesClear, m_glMonitor, &GLWidget::releaseAnalyse, Qt::DirectConnection);
     connect(m_glMonitor, &GLWidget::analyseFrame, this, &Monitor::frameUpdated);
     connect(m_glMonitor, &GLWidget::audioSamplesSignal, this, &Monitor::audioSamplesSignal);
 
     if (id != Kdenlive::ClipMonitor) {
         // TODO: reimplement
         // connect(render, &Render::durationChanged, this, &Monitor::durationChanged);
         connect(m_glMonitor->getControllerProxy(), &MonitorProxy::saveZone, this, &Monitor::updateTimelineClipZone);
     } else {
         connect(m_glMonitor->getControllerProxy(), &MonitorProxy::saveZone, this, &Monitor::updateClipZone);
     }
     connect(m_glMonitor->getControllerProxy(), &MonitorProxy::triggerAction, pCore.get(), &Core::triggerAction);
     connect(m_glMonitor->getControllerProxy(), &MonitorProxy::seekNextKeyframe, this, &Monitor::seekToNextKeyframe);
     connect(m_glMonitor->getControllerProxy(), &MonitorProxy::seekPreviousKeyframe, this, &Monitor::seekToPreviousKeyframe);
     connect(m_glMonitor->getControllerProxy(), &MonitorProxy::addRemoveKeyframe, this, &Monitor::addRemoveKeyframe);
     connect(m_glMonitor->getControllerProxy(), &MonitorProxy::seekToKeyframe, this, &Monitor::slotSeekToKeyFrame);
 
     m_sceneVisibilityAction = new QAction(QIcon::fromTheme(QStringLiteral("transform-crop")), i18n("Show/Hide edit mode"), this);
     m_sceneVisibilityAction->setCheckable(true);
     m_sceneVisibilityAction->setChecked(KdenliveSettings::showOnMonitorScene());
     connect(m_sceneVisibilityAction, &QAction::triggered, this, &Monitor::slotEnableEffectScene);
     m_toolbar->addAction(m_sceneVisibilityAction);
 
     m_toolbar->addSeparator();
     m_timePos = new TimecodeDisplay(m_monitorManager->timecode(), this);
     m_toolbar->addWidget(m_timePos);
 
     auto *configButton = new QToolButton(m_toolbar);
     configButton->setIcon(QIcon::fromTheme(QStringLiteral("kdenlive-menu")));
     configButton->setToolTip(i18n("Options"));
     configButton->setMenu(m_configMenu);
     configButton->setPopupMode(QToolButton::InstantPopup);
     m_toolbar->addWidget(configButton);
     /*QWidget *spacer = new QWidget(this);
     spacer->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Preferred);
     m_toolbar->addWidget(spacer);*/
     m_toolbar->addSeparator();
     int tm = 0;
     int bm = 0;
     m_toolbar->getContentsMargins(nullptr, &tm, nullptr, &bm);
     m_audioMeterWidget = new MonitorAudioLevel(m_toolbar->height() - tm - bm, this);
     m_toolbar->addWidget(m_audioMeterWidget);
     if (!m_audioMeterWidget->isValid) {
         KdenliveSettings::setMonitoraudio(0x01);
         m_audioMeterWidget->setVisibility(false);
     } else {
         m_audioMeterWidget->setVisibility((KdenliveSettings::monitoraudio() & m_id) != 0);
     }
 
     connect(m_timePos, SIGNAL(timeCodeEditingFinished()), this, SLOT(slotSeek()));
     layout->addWidget(m_toolbar);
     if (m_recManager) {
         layout->addWidget(m_recManager->toolbar());
     }
 
     // Load monitor overlay qml
     loadQmlScene(MonitorSceneDefault);
 
     // Info message widget
     m_infoMessage = new KMessageWidget(this);
     layout->addWidget(m_infoMessage);
     m_infoMessage->hide();
 }
 
 Monitor::~Monitor()
 {
     delete m_splitEffect;
     delete m_audioMeterWidget;
     delete m_glMonitor;
     delete m_videoWidget;
     delete m_glWidget;
     delete m_timePos;
 }
 
 void Monitor::setOffsetX(int x)
 {
     m_glMonitor->setOffsetX(x, m_horizontalScroll->maximum());
 }
 
 void Monitor::setOffsetY(int y)
 {
     m_glMonitor->setOffsetY(y, m_verticalScroll->maximum());
 }
 
 void Monitor::slotGetCurrentImage(bool request)
 {
     m_glMonitor->sendFrameForAnalysis = request;
     m_monitorManager->activateMonitor(m_id);
     refreshMonitorIfActive();
     if (request) {
         // Update analysis state
         QTimer::singleShot(500, m_monitorManager, &MonitorManager::checkScopes);
     } else {
         m_glMonitor->releaseAnalyse();
     }
 }
 
 void Monitor::slotAddEffect(const QStringList &effect)
 {
     if (m_id == Kdenlive::ClipMonitor) {
         if (m_controller) {
             emit addMasterEffect(m_controller->AbstractProjectItem::clipId(), effect);
         }
     } else {
         emit addEffect(effect);
     }
 }
 
 void Monitor::refreshIcons()
 {
     QList<QAction *> allMenus = this->findChildren<QAction *>();
     for (int i = 0; i < allMenus.count(); i++) {
         QAction *m = allMenus.at(i);
         QIcon ic = m->icon();
         if (ic.isNull() || ic.name().isEmpty()) {
             continue;
         }
         QIcon newIcon = QIcon::fromTheme(ic.name());
         m->setIcon(newIcon);
     }
     QList<KDualAction *> allButtons = this->findChildren<KDualAction *>();
     for (int i = 0; i < allButtons.count(); i++) {
         KDualAction *m = allButtons.at(i);
         QIcon ic = m->activeIcon();
         if (ic.isNull() || ic.name().isEmpty()) {
             continue;
         }
         QIcon newIcon = QIcon::fromTheme(ic.name());
         m->setActiveIcon(newIcon);
         ic = m->inactiveIcon();
         if (ic.isNull() || ic.name().isEmpty()) {
             continue;
         }
         newIcon = QIcon::fromTheme(ic.name());
         m->setInactiveIcon(newIcon);
     }
 }
 
 QAction *Monitor::recAction()
 {
     if (m_recManager) {
         return m_recManager->recAction();
     }
     return nullptr;
 }
 
 void Monitor::slotLockMonitor(bool lock)
 {
     m_monitorManager->lockMonitor(m_id, lock);
 }
 
 void Monitor::setupMenu(QMenu *goMenu, QMenu *overlayMenu, QAction *playZone, QAction *loopZone, QMenu *markerMenu, QAction *loopClip)
 {
     delete m_contextMenu;
     m_contextMenu = new QMenu(this);
     m_contextMenu->addMenu(m_playMenu);
     if (goMenu) {
         m_contextMenu->addMenu(goMenu);
     }
 
     if (markerMenu) {
         m_contextMenu->addMenu(markerMenu);
         QList<QAction *> list = markerMenu->actions();
         for (int i = 0; i < list.count(); ++i) {
             if (list.at(i)->data().toString() == QLatin1String("edit_marker")) {
                 m_editMarker = list.at(i);
                 break;
             }
         }
     }
 
     m_playMenu->addAction(playZone);
     m_playMenu->addAction(loopZone);
     if (loopClip) {
         m_loopClipAction = loopClip;
         m_playMenu->addAction(loopClip);
     }
 
     // TODO: add save zone to timeline monitor when fixed
     m_contextMenu->addMenu(m_markerMenu);
     if (m_id == Kdenlive::ClipMonitor) {
         m_contextMenu->addAction(QIcon::fromTheme(QStringLiteral("document-save")), i18n("Save zone"), this, SLOT(slotSaveZone()));
         QAction *extractZone =
             m_configMenu->addAction(QIcon::fromTheme(QStringLiteral("document-new")), i18n("Extract Zone"), this, SLOT(slotExtractCurrentZone()));
         m_contextMenu->addAction(extractZone);
     }
     m_contextMenu->addAction(m_monitorManager->getAction(QStringLiteral("extract_frame")));
     m_contextMenu->addAction(m_monitorManager->getAction(QStringLiteral("extract_frame_to_project")));
 
     if (m_id == Kdenlive::ProjectMonitor) {
         m_multitrackView =
             m_contextMenu->addAction(QIcon::fromTheme(QStringLiteral("view-split-left-right")), i18n("Multitrack view"), this, SIGNAL(multitrackView(bool)));
         m_multitrackView->setCheckable(true);
         m_configMenu->addAction(m_multitrackView);
     } else if (m_id == Kdenlive::ClipMonitor) {
         QAction *setThumbFrame =
             m_contextMenu->addAction(QIcon::fromTheme(QStringLiteral("document-new")), i18n("Set current image as thumbnail"), this, SLOT(slotSetThumbFrame()));
         m_configMenu->addAction(setThumbFrame);
     }
 
     if (overlayMenu) {
         m_contextMenu->addMenu(overlayMenu);
     }
 
     QAction *overlayAudio = m_contextMenu->addAction(QIcon(), i18n("Overlay audio waveform"));
     overlayAudio->setCheckable(true);
     connect(overlayAudio, &QAction::toggled, m_glMonitor, &GLWidget::slotSwitchAudioOverlay);
     overlayAudio->setChecked(KdenliveSettings::displayAudioOverlay());
     m_configMenu->addAction(overlayAudio);
 
     QAction *switchAudioMonitor = m_configMenu->addAction(i18n("Show Audio Levels"), this, SLOT(slotSwitchAudioMonitor()));
     switchAudioMonitor->setCheckable(true);
     switchAudioMonitor->setChecked((KdenliveSettings::monitoraudio() & m_id) != 0);
 
     // For some reason, the frame in QAbstracSpinBox (base class of TimeCodeDisplay) needs to be displayed once, then hidden
     // or it will never appear (supposed to appear on hover).
     m_timePos->setFrame(false);
 }
 
 void Monitor::slotGoToMarker(QAction *action)
 {
     int pos = action->data().toInt();
     slotSeek(pos);
 }
 
 void Monitor::slotForceSize(QAction *a)
 {
     int resizeType = a->data().toInt();
     int profileWidth = 320;
     int profileHeight = 200;
     if (resizeType > 0) {
         // calculate size
         QRect r = QApplication::desktop()->screenGeometry();
         profileHeight = m_glMonitor->profileSize().height() * resizeType / 100;
         profileWidth = pCore->getCurrentProfile()->dar() * profileHeight;
         if (profileWidth > r.width() * 0.8 || profileHeight > r.height() * 0.7) {
             // reset action to free resize
             const QList<QAction *> list = m_forceSize->actions();
             for (QAction *ac : list) {
                 if (ac->data().toInt() == m_forceSizeFactor) {
                     m_forceSize->setCurrentAction(ac);
                     break;
                 }
             }
             warningMessage(i18n("Your screen resolution is not sufficient for this action"));
             return;
         }
     }
     switch (resizeType) {
     case 100:
     case 50:
         // resize full size
         setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding);
         m_videoWidget->setMinimumSize(profileWidth, profileHeight);
         m_videoWidget->setMaximumSize(profileWidth, profileHeight);
         setMinimumSize(QSize(profileWidth, profileHeight + m_toolbar->height() + m_glMonitor->getControllerProxy()->rulerHeight()));
         break;
     default:
         // Free resize
         m_videoWidget->setMinimumSize(profileWidth, profileHeight);
         m_videoWidget->setMaximumSize(QWIDGETSIZE_MAX, QWIDGETSIZE_MAX);
         setMinimumSize(QSize(profileWidth, profileHeight + m_toolbar->height() + m_glMonitor->getControllerProxy()->rulerHeight()));
         setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding);
         break;
     }
     m_forceSizeFactor = resizeType;
     updateGeometry();
 }
 
 QString Monitor::getTimecodeFromFrames(int pos)
 {
     return m_monitorManager->timecode().getTimecodeFromFrames(pos);
 }
 
 double Monitor::fps() const
 {
     return m_monitorManager->timecode().fps();
 }
 
 Timecode Monitor::timecode() const
 {
     return m_monitorManager->timecode();
 }
 
 void Monitor::updateMarkers()
 {
     if (m_controller) {
         m_markerMenu->clear();
         QList<CommentedTime> markers = m_controller->getMarkerModel()->getAllMarkers();
         if (!markers.isEmpty()) {
             for (int i = 0; i < markers.count(); ++i) {
                 int pos = (int)markers.at(i).time().frames(m_monitorManager->timecode().fps());
                 QString position = m_monitorManager->timecode().getTimecode(markers.at(i).time()) + QLatin1Char(' ') + markers.at(i).comment();
                 QAction *go = m_markerMenu->addAction(position);
                 go->setData(pos);
             }
         }
         m_markerMenu->setEnabled(!m_markerMenu->isEmpty());
     }
 }
 
 void Monitor::setGuides(const QMap<double, QString> &guides)
 {
     // TODO: load guides model
     m_markerMenu->clear();
     QMapIterator<double, QString> i(guides);
     QList<CommentedTime> guidesList;
     while (i.hasNext()) {
         i.next();
         CommentedTime timeGuide(GenTime(i.key()), i.value());
         guidesList << timeGuide;
         int pos = (int)timeGuide.time().frames(m_monitorManager->timecode().fps());
         QString position = m_monitorManager->timecode().getTimecode(timeGuide.time()) + QLatin1Char(' ') + timeGuide.comment();
         QAction *go = m_markerMenu->addAction(position);
         go->setData(pos);
     }
     // m_ruler->setMarkers(guidesList);
     m_markerMenu->setEnabled(!m_markerMenu->isEmpty());
     checkOverlay();
 }
 
 void Monitor::slotSeekToPreviousSnap()
 {
     if (m_controller) {
         m_glMonitor->seek(getSnapForPos(true).frames(m_monitorManager->timecode().fps()));
     }
 }
 
 void Monitor::slotSeekToNextSnap()
 {
     if (m_controller) {
         m_glMonitor->seek(getSnapForPos(false).frames(m_monitorManager->timecode().fps()));
     }
 }
 
 int Monitor::position()
 {
     return m_glMonitor->getCurrentPos();
 }
 
 GenTime Monitor::getSnapForPos(bool previous)
 {
     int frame = previous ? m_snaps->getPreviousPoint(m_glMonitor->getCurrentPos()) : m_snaps->getNextPoint(m_glMonitor->getCurrentPos());
     return {frame, pCore->getCurrentFps()};
 }
 
 void Monitor::slotLoadClipZone(const QPoint &zone)
 {
     m_glMonitor->getControllerProxy()->setZone(zone.x(), zone.y());
     checkOverlay();
 }
 
 void Monitor::slotSetZoneStart()
 {
     m_glMonitor->getControllerProxy()->setZoneIn(m_glMonitor->getCurrentPos());
     if (m_controller) {
         m_controller->setZone(m_glMonitor->getControllerProxy()->zone());
     } else {
         // timeline
         emit timelineZoneChanged();
     }
     checkOverlay();
 }
 
 void Monitor::slotSetZoneEnd(bool discardLastFrame)
 {
     Q_UNUSED(discardLastFrame);
     int pos = m_glMonitor->getCurrentPos();
     if (m_controller) {
         if (pos < (int)m_controller->frameDuration() - 1) {
             pos++;
         }
     } else
         pos++;
     m_glMonitor->getControllerProxy()->setZoneOut(pos);
     if (m_controller) {
         m_controller->setZone(m_glMonitor->getControllerProxy()->zone());
     }
     checkOverlay();
 }
 
 // virtual
 void Monitor::mousePressEvent(QMouseEvent *event)
 {
     m_monitorManager->activateMonitor(m_id);
     if ((event->button() & Qt::RightButton) == 0u) {
         if (m_glWidget->geometry().contains(event->pos())) {
             m_DragStartPosition = event->pos();
             event->accept();
         }
     } else if (m_contextMenu) {
         slotActivateMonitor();
         m_contextMenu->popup(event->globalPos());
         event->accept();
     }
     QWidget::mousePressEvent(event);
 }
 
 void Monitor::slotShowMenu(const QPoint pos)
 {
     slotActivateMonitor();
     if (m_contextMenu) {
+        if (m_markerMenu) {
+            // Fill guide menu
+            m_markerMenu->clear();
+            std::shared_ptr<MarkerListModel> model;
+            if (m_id == Kdenlive::ClipMonitor && m_controller) {
+                model = m_controller->getMarkerModel();
+            } else if (m_id == Kdenlive::ProjectMonitor && pCore->currentDoc()) {
+                model = pCore->currentDoc()->getGuideModel();
+            }
+            if (model) {
+                QList<CommentedTime> markersList = model->getAllMarkers();
+                for (CommentedTime mkr : markersList) {
+                    QAction *a = m_markerMenu->addAction(mkr.comment());
+                    a->setData(mkr.time().frames(pCore->getCurrentFps()));
+                }
+            }
+            m_markerMenu->setEnabled(!m_markerMenu->isEmpty());
+        }
         m_contextMenu->popup(pos);
     }
 }
 
 void Monitor::resizeEvent(QResizeEvent *event)
 {
     Q_UNUSED(event)
     if (m_glMonitor->zoom() > 0.0f) {
         float horizontal = float(m_horizontalScroll->value()) / float(m_horizontalScroll->maximum());
         float vertical = float(m_verticalScroll->value()) / float(m_verticalScroll->maximum());
         adjustScrollBars(horizontal, vertical);
     } else {
         m_horizontalScroll->hide();
         m_verticalScroll->hide();
     }
 }
 
 void Monitor::adjustScrollBars(float horizontal, float vertical)
 {
     if (m_glMonitor->zoom() > 1.0f) {
         m_horizontalScroll->setPageStep(m_glWidget->width());
         m_horizontalScroll->setMaximum((int)((float)m_glMonitor->profileSize().width() * m_glMonitor->zoom()) - m_horizontalScroll->pageStep());
         m_horizontalScroll->setValue(qRound(horizontal * float(m_horizontalScroll->maximum())));
         emit m_horizontalScroll->valueChanged(m_horizontalScroll->value());
         m_horizontalScroll->show();
     } else {
         int max = (int)((float)m_glMonitor->profileSize().width() * m_glMonitor->zoom()) - m_glWidget->width();
         emit m_horizontalScroll->valueChanged(qRound(0.5 * max));
         m_horizontalScroll->hide();
     }
 
     if (m_glMonitor->zoom() > 1.0f) {
         m_verticalScroll->setPageStep(m_glWidget->height());
         m_verticalScroll->setMaximum((int)((float)m_glMonitor->profileSize().height() * m_glMonitor->zoom()) - m_verticalScroll->pageStep());
         m_verticalScroll->setValue((int)((float)m_verticalScroll->maximum() * vertical));
         emit m_verticalScroll->valueChanged(m_verticalScroll->value());
         m_verticalScroll->show();
     } else {
         int max = (int)((float)m_glMonitor->profileSize().height() * m_glMonitor->zoom()) - m_glWidget->height();
         emit m_verticalScroll->valueChanged(qRound(0.5 * max));
         m_verticalScroll->hide();
     }
 }
 
 void Monitor::setZoom()
 {
     if (qFuzzyCompare(m_glMonitor->zoom(), 1.0f)) {
         m_horizontalScroll->hide();
         m_verticalScroll->hide();
         m_glMonitor->setOffsetX(m_horizontalScroll->value(), m_horizontalScroll->maximum());
         m_glMonitor->setOffsetY(m_verticalScroll->value(), m_verticalScroll->maximum());
     } else {
         adjustScrollBars(0.5f, 0.5f);
     }
 }
 
 void Monitor::slotSwitchFullScreen(bool minimizeOnly)
 {
     // TODO: disable screensaver?
     if (!m_glWidget->isFullScreen() && !minimizeOnly) {
         // Check if we have a multiple monitor setup
         int monitors = QApplication::desktop()->screenCount();
         int screen = -1;
         if (monitors > 1) {
             QRect screenres;
             // Move monitor widget to the second screen (one screen for Kdenlive, the other one for the Monitor widget
             // int currentScreen = QApplication::desktop()->screenNumber(this);
             for (int i = 0; screen == -1 && i < QApplication::desktop()->screenCount(); i++) {
                 if (i != QApplication::desktop()->screenNumber(this->parentWidget()->parentWidget())) {
                     screen = i;
                 }
             }
         }
         m_qmlManager->enableAudioThumbs(false);
         m_glWidget->setParent(QApplication::desktop()->screen(screen));
         m_glWidget->move(QApplication::desktop()->screenGeometry(screen).bottomLeft());
         m_glWidget->showFullScreen();
     } else {
         m_glWidget->showNormal();
         m_qmlManager->enableAudioThumbs(true);
         auto *lay = (QVBoxLayout *)layout();
         lay->insertWidget(0, m_glWidget, 10);
     }
 }
 
 void Monitor::reparent()
 {
     m_glWidget->setParent(nullptr);
     m_glWidget->showMinimized();
     m_glWidget->showNormal();
     auto *lay = (QVBoxLayout *)layout();
     lay->insertWidget(0, m_glWidget, 10);
 }
 
 // virtual
 void Monitor::mouseReleaseEvent(QMouseEvent *event)
 {
     if (m_dragStarted) {
         event->ignore();
         return;
     }
     if (event->button() != Qt::RightButton) {
         if (m_glMonitor->geometry().contains(event->pos())) {
             if (isActive()) {
                 slotPlay();
             } else {
                 slotActivateMonitor();
             }
         } // else event->ignore(); //QWidget::mouseReleaseEvent(event);
     }
     m_dragStarted = false;
     event->accept();
     QWidget::mouseReleaseEvent(event);
 }
 
 void Monitor::slotStartDrag()
 {
     if (m_id == Kdenlive::ProjectMonitor || m_controller == nullptr) {
         // dragging is only allowed for clip monitor
         return;
     }
     auto *drag = new QDrag(this);
     auto *mimeData = new QMimeData;
 
     // Get drag state
     QQuickItem *root = m_glMonitor->rootObject();
     int dragType = 0;
     if (root) {
         dragType = root->property("dragType").toInt();
         root->setProperty("dragType", 0);
     }
     QByteArray prodData;
     QPoint p = m_glMonitor->getControllerProxy()->zone();
     if (p.x() == -1 || p.y() == -1) {
         prodData = m_controller->AbstractProjectItem::clipId().toUtf8();
     } else {
         QStringList list;
         list.append(m_controller->AbstractProjectItem::clipId());
         list.append(QString::number(p.x()));
         list.append(QString::number(p.y() - 1));
         prodData.append(list.join(QLatin1Char('/')).toUtf8());
     }
     switch (dragType) {
     case 1:
         // Audio only drag
         prodData.prepend('A');
         break;
     case 2:
         // Audio only drag
         prodData.prepend('V');
         break;
     default:
         break;
     }
     mimeData->setData(QStringLiteral("kdenlive/producerslist"), prodData);
     drag->setMimeData(mimeData);
     /*QPixmap pix = m_currentClip->thumbnail();
     drag->setPixmap(pix);
     drag->setHotSpot(QPoint(0, 50));*/
     drag->start(Qt::MoveAction);
 }
 
 void Monitor::enterEvent(QEvent *event)
 {
     m_qmlManager->enableAudioThumbs(true);
     QWidget::enterEvent(event);
 }
 
 void Monitor::leaveEvent(QEvent *event)
 {
     m_qmlManager->enableAudioThumbs(false);
     QWidget::leaveEvent(event);
 }
 
 // virtual
 void Monitor::mouseMoveEvent(QMouseEvent *event)
 {
     if (m_dragStarted || m_controller == nullptr) {
         return;
     }
 
     if ((event->pos() - m_DragStartPosition).manhattanLength() < QApplication::startDragDistance()) {
         return;
     }
 
     {
         auto *drag = new QDrag(this);
         auto *mimeData = new QMimeData;
         m_dragStarted = true;
         QStringList list;
         list.append(m_controller->AbstractProjectItem::clipId());
         QPoint p = m_glMonitor->getControllerProxy()->zone();
         list.append(QString::number(p.x()));
         list.append(QString::number(p.y()));
         QByteArray clipData;
         clipData.append(list.join(QLatin1Char(';')).toUtf8());
         mimeData->setData(QStringLiteral("kdenlive/clip"), clipData);
         drag->setMimeData(mimeData);
         drag->start(Qt::MoveAction);
     }
     event->accept();
 }
 
 /*void Monitor::dragMoveEvent(QDragMoveEvent * event) {
     event->setDropAction(Qt::IgnoreAction);
     event->setDropAction(Qt::MoveAction);
     if (event->mimeData()->hasText()) {
         event->acceptProposedAction();
     }
 }
 
 Qt::DropActions Monitor::supportedDropActions() const {
     // returns what actions are supported when dropping
     return Qt::MoveAction;
 }*/
 
 QStringList Monitor::mimeTypes() const
 {
     QStringList qstrList;
     // list of accepted MIME types for drop
     qstrList.append(QStringLiteral("kdenlive/clip"));
     return qstrList;
 }
 
 // virtual
 void Monitor::wheelEvent(QWheelEvent *event)
 {
     slotMouseSeek(event->delta(), event->modifiers());
     event->accept();
 }
 
 void Monitor::mouseDoubleClickEvent(QMouseEvent *event)
 {
     slotSwitchFullScreen();
     event->accept();
 }
 
 void Monitor::keyPressEvent(QKeyEvent *event)
 {
     if (event->key() == Qt::Key_Escape) {
         slotSwitchFullScreen();
         event->accept();
         return;
     }
     if (m_glWidget->isFullScreen()) {
         event->ignore();
         emit passKeyPress(event);
         return;
     }
     QWidget::keyPressEvent(event);
 }
 
 void Monitor::slotMouseSeek(int eventDelta, uint modifiers)
 {
     if ((modifiers & Qt::ControlModifier) != 0u) {
         int delta = m_monitorManager->timecode().fps();
         if (eventDelta > 0) {
             delta = 0 - delta;
         }
         m_glMonitor->seek(m_glMonitor->getCurrentPos() - delta);
     } else if ((modifiers & Qt::AltModifier) != 0u) {
         if (eventDelta >= 0) {
             emit seekToPreviousSnap();
         } else {
             emit seekToNextSnap();
         }
     } else {
         if (eventDelta >= 0) {
             slotRewindOneFrame();
         } else {
             slotForwardOneFrame();
         }
     }
 }
 
 void Monitor::slotSetThumbFrame()
 {
     if (m_controller == nullptr) {
         return;
     }
     m_controller->setProducerProperty(QStringLiteral("kdenlive:thumbnailFrame"), m_glMonitor->getCurrentPos());
     emit refreshClipThumbnail(m_controller->AbstractProjectItem::clipId());
 }
 
 void Monitor::slotExtractCurrentZone()
 {
     if (m_controller == nullptr) {
         return;
     }
     emit extractZone(m_controller->AbstractProjectItem::clipId());
 }
 
 std::shared_ptr<ProjectClip> Monitor::currentController() const
 {
     return m_controller;
 }
 
 void Monitor::slotExtractCurrentFrame(QString frameName, bool addToProject)
 {
     if (QFileInfo(frameName).fileName().isEmpty()) {
         // convenience: when extracting an image to be added to the project,
         // suggest a suitable image file name. In the project monitor, this
         // suggestion bases on the project file name; in the clip monitor,
         // the suggestion bases on the clip file name currently shown.
         // Finally, the frame number is added to this suggestion, prefixed
         // with "-f", so we get something like clip-f#.png.
         QString suggestedImageName =
             QFileInfo(currentController() ? currentController()->clipName()
                                           : pCore->currentDoc()->url().isValid() ? pCore->currentDoc()->url().fileName() : i18n("untitled"))
                 .completeBaseName() +
             QStringLiteral("-f") + QString::number(m_glMonitor->getCurrentPos()).rightJustified(6, QLatin1Char('0')) + QStringLiteral(".png");
         frameName = QFileInfo(frameName, suggestedImageName).fileName();
     }
 
     QString framesFolder = KRecentDirs::dir(QStringLiteral(":KdenliveFramesFolder"));
     if (framesFolder.isEmpty()) {
         framesFolder = QDir::homePath();
     }
     QScopedPointer<QDialog> dlg(new QDialog(this));
     QScopedPointer<KFileWidget> fileWidget(new KFileWidget(QUrl::fromLocalFile(framesFolder), dlg.data()));
     dlg->setWindowTitle(addToProject ? i18n("Save Image") : i18n("Save Image to Project"));
     auto *layout = new QVBoxLayout;
     layout->addWidget(fileWidget.data());
     QCheckBox *b = nullptr;
     if (m_id == Kdenlive::ClipMonitor) {
         b = new QCheckBox(i18n("Export image using source resolution"), dlg.data());
         b->setChecked(KdenliveSettings::exportframe_usingsourceres());
         fileWidget->setCustomWidget(b);
     }
     fileWidget->setConfirmOverwrite(true);
     fileWidget->okButton()->show();
     fileWidget->cancelButton()->show();
     QObject::connect(fileWidget->okButton(), &QPushButton::clicked, fileWidget.data(), &KFileWidget::slotOk);
     QObject::connect(fileWidget.data(), &KFileWidget::accepted, fileWidget.data(), &KFileWidget::accept);
     QObject::connect(fileWidget.data(), &KFileWidget::accepted, dlg.data(), &QDialog::accept);
     QObject::connect(fileWidget->cancelButton(), &QPushButton::clicked, dlg.data(), &QDialog::reject);
     dlg->setLayout(layout);
     fileWidget->setMimeFilter(QStringList() << QStringLiteral("image/png"));
     fileWidget->setMode(KFile::File | KFile::LocalOnly);
     fileWidget->setOperationMode(KFileWidget::Saving);
     QUrl relativeUrl;
     relativeUrl.setPath(frameName);
 #if KIO_VERSION >= QT_VERSION_CHECK(5, 33, 0)
     fileWidget->setSelectedUrl(relativeUrl);
 #else
     fileWidget->setSelection(relativeUrl.toString());
 #endif
     KSharedConfig::Ptr conf = KSharedConfig::openConfig();
     QWindow *handle = dlg->windowHandle();
     if ((handle != nullptr) && conf->hasGroup("FileDialogSize")) {
         KWindowConfig::restoreWindowSize(handle, conf->group("FileDialogSize"));
         dlg->resize(handle->size());
     }
     if (dlg->exec() == QDialog::Accepted) {
         QString selectedFile = fileWidget->selectedFile();
         if (!selectedFile.isEmpty()) {
             // Create Qimage with frame
             QImage frame;
             // check if we are using a proxy
             if ((m_controller != nullptr) && !m_controller->getProducerProperty(QStringLiteral("kdenlive:proxy")).isEmpty() &&
                 m_controller->getProducerProperty(QStringLiteral("kdenlive:proxy")) != QLatin1String("-")) {
                 // using proxy, use original clip url to get frame
                 frame = m_glMonitor->getControllerProxy()->extractFrame(m_glMonitor->getCurrentPos(),
                                                                         m_controller->getProducerProperty(QStringLiteral("kdenlive:originalurl")), -1, -1,
                                                                         b != nullptr ? b->isChecked() : false);
             } else {
                 frame = m_glMonitor->getControllerProxy()->extractFrame(m_glMonitor->getCurrentPos(), QString(), -1, -1, b != nullptr ? b->isChecked() : false);
             }
             frame.save(selectedFile);
             if (b != nullptr) {
                 KdenliveSettings::setExportframe_usingsourceres(b->isChecked());
             }
             KRecentDirs::add(QStringLiteral(":KdenliveFramesFolder"), QUrl::fromLocalFile(selectedFile).adjusted(QUrl::RemoveFilename).toLocalFile());
 
             if (addToProject) {
                 QString folderInfo = pCore->bin()->getCurrentFolder();
                 pCore->bin()->droppedUrls(QList<QUrl>() << QUrl::fromLocalFile(selectedFile), folderInfo);
             }
         }
     }
 }
 
 void Monitor::setTimePos(const QString &pos)
 {
     m_timePos->setValue(pos);
     slotSeek();
 }
 
 void Monitor::slotSeek()
 {
     slotSeek(m_timePos->getValue());
 }
 
 void Monitor::slotSeek(int pos)
 {
     slotActivateMonitor();
     m_glMonitor->seek(pos);
 }
 
 void Monitor::checkOverlay(int pos)
 {
     if (m_qmlManager->sceneType() != MonitorSceneDefault) {
         // we are not in main view, ignore
         return;
     }
     QString overlayText;
     if (pos == -1) {
         pos = m_timePos->getValue();
     }
     QPoint zone = m_glMonitor->getControllerProxy()->zone();
     std::shared_ptr<MarkerListModel> model;
     if (m_id == Kdenlive::ClipMonitor && m_controller) {
         model = m_controller->getMarkerModel();
     } else if (m_id == Kdenlive::ProjectMonitor && pCore->currentDoc()) {
         model = pCore->currentDoc()->getGuideModel();
     }
 
     if (model) {
         bool found = false;
         CommentedTime marker = model->getMarker(GenTime(pos, m_monitorManager->timecode().fps()), &found);
         if (!found) {
             if (pos == zone.x()) {
                 overlayText = i18n("In Point");
             } else if (pos == zone.y() - 1) {
                 overlayText = i18n("Out Point");
             }
         } else {
             overlayText = marker.comment();
         }
     }
     m_glMonitor->getControllerProxy()->setMarkerComment(overlayText);
 }
 
 int Monitor::getZoneStart()
 {
     return m_glMonitor->getControllerProxy()->zoneIn();
 }
 
 int Monitor::getZoneEnd()
 {
     return m_glMonitor->getControllerProxy()->zoneOut();
 }
 
 void Monitor::slotZoneStart()
 {
     slotActivateMonitor();
     m_glMonitor->getControllerProxy()->pauseAndSeek(m_glMonitor->getControllerProxy()->zoneIn());
 }
 
 void Monitor::slotZoneEnd()
 {
     slotActivateMonitor();
     m_glMonitor->getControllerProxy()->pauseAndSeek(m_glMonitor->getControllerProxy()->zoneOut() - 1);
 }
 
 void Monitor::slotRewind(double speed)
 {
     slotActivateMonitor();
     if (qFuzzyIsNull(speed)) {
         double currentspeed = m_glMonitor->playSpeed();
         if (currentspeed > -1) {
             speed = -1;
         } else {
             speed = currentspeed * 1.5;
         }
     }
     m_glMonitor->switchPlay(true, speed);
     m_playAction->setActive(true);
 }
 
 void Monitor::slotForward(double speed)
 {
     slotActivateMonitor();
     if (qFuzzyIsNull(speed)) {
         double currentspeed = m_glMonitor->playSpeed();
         if (currentspeed < 1) {
             speed = 1;
         } else {
             speed = currentspeed * 1.2;
         }
     }
     m_glMonitor->switchPlay(true, speed);
     m_playAction->setActive(true);
 }
 
 void Monitor::slotRewindOneFrame(int diff)
 {
     slotActivateMonitor();
     m_glMonitor->seek(m_glMonitor->getCurrentPos() - diff);
 }
 
 void Monitor::slotForwardOneFrame(int diff)
 {
     slotActivateMonitor();
     m_glMonitor->seek(m_glMonitor->getCurrentPos() + diff);
 }
 
 void Monitor::seekCursor(int pos)
 {
     Q_UNUSED(pos)
     // Deprecated should not be used, instead requestSeek
     /*if (m_ruler->slotNewValue(pos)) {
         m_timePos->setValue(pos);
         checkOverlay(pos);
         if (m_id != Kdenlive::ClipMonitor) {
             emit renderPosition(pos);
         }
     }*/
 }
 
 void Monitor::adjustRulerSize(int length, const std::shared_ptr<MarkerListModel> &markerModel)
 {
     if (m_controller != nullptr) {
         m_glMonitor->setRulerInfo(length);
     } else {
         m_glMonitor->setRulerInfo(length, markerModel);
     }
     m_timePos->setRange(0, length);
     if (markerModel) {
         connect(markerModel.get(), SIGNAL(dataChanged(const QModelIndex &, const QModelIndex &, const QVector<int> &)), this, SLOT(checkOverlay()));
         connect(markerModel.get(), SIGNAL(rowsInserted(const QModelIndex &, int, int)), this, SLOT(checkOverlay()));
         connect(markerModel.get(), SIGNAL(rowsRemoved(const QModelIndex &, int, int)), this, SLOT(checkOverlay()));
     }
 }
 
 void Monitor::stop()
 {
     m_playAction->setActive(false);
     m_glMonitor->stop();
 }
 
 void Monitor::mute(bool mute, bool updateIconOnly)
 {
     // TODO: we should set the "audio_off" property to 1 to mute the consumer instead of changing volume
     QIcon icon;
     if (mute || KdenliveSettings::volume() == 0) {
         icon = QIcon::fromTheme(QStringLiteral("audio-volume-muted"));
     } else {
         icon = QIcon::fromTheme(QStringLiteral("audio-volume-medium"));
     }
     if (!updateIconOnly) {
         m_glMonitor->setVolume(mute ? 0 : (double)KdenliveSettings::volume() / 100.0);
     }
 }
 
 void Monitor::start()
 {
     if (!isVisible() || !isActive()) {
         return;
     }
     m_glMonitor->startConsumer();
 }
 
 void Monitor::slotRefreshMonitor(bool visible)
 {
     if (visible) {
         if (slotActivateMonitor()) {
             start();
         }
     }
 }
 
 void Monitor::refreshMonitorIfActive(bool directUpdate)
 {
     if (isActive()) {
         if (directUpdate) {
             m_glMonitor->refresh();
         } else {
             m_glMonitor->requestRefresh();
         }
     }
 }
 
 void Monitor::pause()
 {
     if (!m_playAction->isActive()) {
         return;
     }
     slotActivateMonitor();
     m_glMonitor->switchPlay(false);
     m_playAction->setActive(false);
 }
 
 void Monitor::switchPlay(bool play)
 {
     m_playAction->setActive(play);
     m_glMonitor->switchPlay(play);
 }
 
 void Monitor::slotSwitchPlay()
 {
     slotActivateMonitor();
     m_glMonitor->switchPlay(m_playAction->isActive());
 }
 
 void Monitor::slotPlay()
 {
     m_playAction->trigger();
 }
 
 void Monitor::resetPlayOrLoopZone(const QString &binId)
 {
     if (activeClipId() == binId) {
         m_glMonitor->resetZoneMode();
     }
 }
 
 void Monitor::slotPlayZone()
 {
     slotActivateMonitor();
     bool ok = m_glMonitor->playZone();
     if (ok) {
         m_playAction->setActive(true);
     }
 }
 
 void Monitor::slotLoopZone()
 {
     slotActivateMonitor();
     bool ok = m_glMonitor->playZone(true);
     if (ok) {
         m_playAction->setActive(true);
     }
 }
 
 void Monitor::slotLoopClip()
 {
     slotActivateMonitor();
     bool ok = m_glMonitor->loopClip();
     if (ok) {
         m_playAction->setActive(true);
     }
 }
 
 void Monitor::updateClipProducer(const std::shared_ptr<Mlt::Producer> &prod)
 {
     if (m_glMonitor->setProducer(prod, isActive(), -1)) {
         prod->set_speed(1.0);
     }
 }
 
 void Monitor::updateClipProducer(const QString &playlist)
 {
     Q_UNUSED(playlist)
     // TODO
     // Mlt::Producer *prod = new Mlt::Producer(*m_glMonitor->profile(), playlist.toUtf8().constData());
     // m_glMonitor->setProducer(prod, isActive(), render->seekFramePosition());
     m_glMonitor->switchPlay(true);
 }
 
 void Monitor::slotOpenClip(const std::shared_ptr<ProjectClip> &controller, int in, int out)
 {
     if (m_controller) {
         m_glMonitor->resetZoneMode();
         disconnect(m_controller->getMarkerModel().get(), SIGNAL(dataChanged(const QModelIndex &, const QModelIndex &, const QVector<int> &)), this,
                    SLOT(checkOverlay()));
         disconnect(m_controller->getMarkerModel().get(), SIGNAL(rowsInserted(const QModelIndex &, int, int)), this, SLOT(checkOverlay()));
         disconnect(m_controller->getMarkerModel().get(), SIGNAL(rowsRemoved(const QModelIndex &, int, int)), this, SLOT(checkOverlay()));
     }
     m_controller = controller;
     m_snaps.reset(new SnapModel());
     m_glMonitor->getControllerProxy()->resetZone();
     if (controller) {
         connect(m_controller->getMarkerModel().get(), SIGNAL(dataChanged(const QModelIndex &, const QModelIndex &, const QVector<int> &)), this,
                 SLOT(checkOverlay()));
         connect(m_controller->getMarkerModel().get(), SIGNAL(rowsInserted(const QModelIndex &, int, int)), this, SLOT(checkOverlay()));
         connect(m_controller->getMarkerModel().get(), SIGNAL(rowsRemoved(const QModelIndex &, int, int)), this, SLOT(checkOverlay()));
 
         if (m_recManager->toolbar()->isVisible()) {
             // we are in record mode, don't display clip
             return;
         }
         m_glMonitor->setRulerInfo((int)m_controller->frameDuration(), controller->getMarkerModel());
         loadQmlScene(MonitorSceneDefault);
         m_timePos->setRange(0, (int)m_controller->frameDuration());
         updateMarkers();
         connect(m_glMonitor->getControllerProxy(), &MonitorProxy::addSnap, this, &Monitor::addSnapPoint, Qt::DirectConnection);
         connect(m_glMonitor->getControllerProxy(), &MonitorProxy::removeSnap, this, &Monitor::removeSnapPoint, Qt::DirectConnection);
         if (out == -1) {
             m_glMonitor->getControllerProxy()->setZone(m_controller->zone(), false);
             qDebug() << m_controller->zone();
         } else {
             m_glMonitor->getControllerProxy()->setZone(in, out, false);
         }
         m_snaps->addPoint((int)m_controller->frameDuration());
         // Loading new clip / zone, stop if playing
         if (m_playAction->isActive()) {
             m_playAction->setActive(false);
         }
         m_glMonitor->setProducer(m_controller->originalProducer(), isActive(), in);
         m_audioMeterWidget->audioChannels = controller->audioInfo() ? controller->audioInfo()->channels() : 0;
         m_glMonitor->setAudioThumb(controller->audioChannels(), controller->audioFrameCache);
         m_controller->getMarkerModel()->registerSnapModel(m_snaps);
         m_glMonitor->getControllerProxy()->setClipHasAV(controller->hasAudioAndVideo());
         // hasEffects =  controller->hasEffects();
     } else {
         loadQmlScene(MonitorSceneDefault);
         m_glMonitor->setProducer(nullptr, isActive());
         m_glMonitor->setAudioThumb();
         m_audioMeterWidget->audioChannels = 0;
         m_glMonitor->getControllerProxy()->setClipHasAV(false);
     }
     if (slotActivateMonitor()) {
         start();
     }
     checkOverlay();
 }
 
 const QString Monitor::activeClipId()
 {
     if (m_controller) {
         return m_controller->clipId();
     }
     return QString();
 }
 
 void Monitor::slotOpenDvdFile(const QString &file)
 {
     // TODO
     Q_UNUSED(file)
     m_glMonitor->initializeGL();
     // render->loadUrl(file);
 }
 
 void Monitor::slotSaveZone()
 {
     // TODO? or deprecate
     // render->saveZone(pCore->currentDoc()->projectDataFolder(), m_ruler->zone());
 }
 
 void Monitor::setCustomProfile(const QString &profile, const Timecode &tc)
 {
     // TODO or deprecate
     Q_UNUSED(profile)
     m_timePos->updateTimeCode(tc);
     if (/* DISABLES CODE */ (true)) {
         return;
     }
     slotActivateMonitor();
     // render->prepareProfileReset(tc.fps());
     if (m_multitrackView) {
         m_multitrackView->setChecked(false);
     }
     // TODO: this is a temporary profile for DVD preview, it should not alter project profile
     // pCore->setCurrentProfile(profile);
     m_glMonitor->reloadProfile();
 }
 
 void Monitor::resetProfile()
 {
     m_timePos->updateTimeCode(m_monitorManager->timecode());
     m_glMonitor->reloadProfile();
     m_glMonitor->rootObject()->setProperty("framesize", QRect(0, 0, m_glMonitor->profileSize().width(), m_glMonitor->profileSize().height()));
     double fps = m_monitorManager->timecode().fps();
     // Update drop frame info
     m_qmlManager->setProperty(QStringLiteral("dropped"), false);
     m_qmlManager->setProperty(QStringLiteral("fps"), QString::number(fps, 'g', 2));
 }
 
 void Monitor::resetConsumer(bool fullReset)
 {
     m_glMonitor->resetConsumer(fullReset);
 }
 
 const QString Monitor::sceneList(const QString &root, const QString &fullPath)
 {
     return m_glMonitor->sceneList(root, fullPath);
 }
 
 void Monitor::updateClipZone()
 {
     if (m_controller == nullptr) {
         return;
     }
     m_controller->setZone(m_glMonitor->getControllerProxy()->zone());
 }
 
 void Monitor::updateTimelineClipZone()
 {
     emit zoneUpdated(m_glMonitor->getControllerProxy()->zone());
 }
 
 void Monitor::switchDropFrames(bool drop)
 {
     m_glMonitor->setDropFrames(drop);
 }
 
 void Monitor::switchMonitorInfo(int code)
 {
     int currentOverlay;
     if (m_id == Kdenlive::ClipMonitor) {
         currentOverlay = KdenliveSettings::displayClipMonitorInfo();
         currentOverlay ^= code;
         KdenliveSettings::setDisplayClipMonitorInfo(currentOverlay);
     } else {
         currentOverlay = KdenliveSettings::displayProjectMonitorInfo();
         currentOverlay ^= code;
         KdenliveSettings::setDisplayProjectMonitorInfo(currentOverlay);
     }
     updateQmlDisplay(currentOverlay);
 }
 
 void Monitor::updateMonitorGamma()
 {
     if (isActive()) {
         stop();
         m_glMonitor->updateGamma();
         start();
     } else {
         m_glMonitor->updateGamma();
     }
 }
 
 void Monitor::slotEditMarker()
 {
     if (m_editMarker) {
         m_editMarker->trigger();
     }
 }
 
 void Monitor::updateTimecodeFormat()
 {
     m_timePos->slotUpdateTimeCodeFormat();
     m_glMonitor->rootObject()->setProperty("timecode", m_timePos->displayText());
 }
 
 QPoint Monitor::getZoneInfo() const
 {
     if (m_controller == nullptr) {
         return {};
     }
     return m_controller->zone();
 }
 
 void Monitor::slotEnableEffectScene(bool enable)
 {
     KdenliveSettings::setShowOnMonitorScene(enable);
     MonitorSceneType sceneType = enable ? m_lastMonitorSceneType : MonitorSceneDefault;
     slotShowEffectScene(sceneType, true);
     if (enable) {
         emit updateScene();
     }
 }
 
 void Monitor::slotShowEffectScene(MonitorSceneType sceneType, bool temporary)
 {
     if (sceneType == MonitorSceneNone) {
         // We just want to revert to normal scene
         if (m_qmlManager->sceneType() == MonitorSceneSplit || m_qmlManager->sceneType() == MonitorSceneDefault) {
             // Ok, nothing to do
             return;
         }
         sceneType = MonitorSceneDefault;
     }
     if (!temporary) {
         m_lastMonitorSceneType = sceneType;
     }
     loadQmlScene(sceneType);
 }
 
 void Monitor::slotSeekToKeyFrame()
 {
     if (m_qmlManager->sceneType() == MonitorSceneGeometry) {
         // Adjust splitter pos
         int kfr = m_glMonitor->rootObject()->property("requestedKeyFrame").toInt();
         emit seekToKeyframe(kfr);
     }
 }
 
 void Monitor::setUpEffectGeometry(const QRect &r, const QVariantList &list, const QVariantList &types)
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (!root) {
         return;
     }
     if (!list.isEmpty()) {
         root->setProperty("centerPointsTypes", types);
         root->setProperty("centerPoints", list);
     }
     if (!r.isEmpty()) {
         root->setProperty("framesize", r);
     }
 }
 
 void Monitor::setEffectSceneProperty(const QString &name, const QVariant &value)
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (!root) {
         return;
     }
     root->setProperty(name.toUtf8().constData(), value);
 }
 
 QRect Monitor::effectRect() const
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (!root) {
         return {};
     }
     return root->property("framesize").toRect();
 }
 
 QVariantList Monitor::effectPolygon() const
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (!root) {
         return QVariantList();
     }
     return root->property("centerPoints").toList();
 }
 
 QVariantList Monitor::effectRoto() const
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (!root) {
         return QVariantList();
     }
     QVariantList points = root->property("centerPoints").toList();
     QVariantList controlPoints = root->property("centerPointsTypes").toList();
     // rotoscoping effect needs a list of
     QVariantList mix;
     mix.reserve(points.count() * 3);
     for (int i = 0; i < points.count(); i++) {
         mix << controlPoints.at(2 * i);
         mix << points.at(i);
         mix << controlPoints.at(2 * i + 1);
     }
     return mix;
 }
 
 void Monitor::setEffectKeyframe(bool enable)
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (root) {
         root->setProperty("iskeyframe", enable);
     }
 }
 
 bool Monitor::effectSceneDisplayed(MonitorSceneType effectType)
 {
     return m_qmlManager->sceneType() == effectType;
 }
 
 void Monitor::slotSetVolume(int volume)
 {
     KdenliveSettings::setVolume(volume);
     QIcon icon;
     double renderVolume = m_glMonitor->volume();
     m_glMonitor->setVolume((double)volume / 100.0);
     if (renderVolume > 0 && volume > 0) {
         return;
     }
     /*if (volume == 0) {
         icon = QIcon::fromTheme(QStringLiteral("audio-volume-muted"));
     } else {
         icon = QIcon::fromTheme(QStringLiteral("audio-volume-medium"));
     }*/
 }
 
 void Monitor::sendFrameForAnalysis(bool analyse)
 {
     m_glMonitor->sendFrameForAnalysis = analyse;
 }
 
 void Monitor::updateAudioForAnalysis()
 {
     m_glMonitor->updateAudioForAnalysis();
 }
 
 void Monitor::onFrameDisplayed(const SharedFrame &frame)
 {
     m_monitorManager->frameDisplayed(frame);
     if (!m_glMonitor->checkFrameNumber(frame.get_position(), m_id == Kdenlive::ClipMonitor ? 0 : TimelineModel::seekDuration + 1)) {
         m_playAction->setActive(false);
     }
     checkDrops(m_glMonitor->droppedFrames());
 }
 
 void Monitor::checkDrops(int dropped)
 {
     if (m_droppedTimer.isValid()) {
         if (m_droppedTimer.hasExpired(1000)) {
             m_droppedTimer.invalidate();
             double fps = m_monitorManager->timecode().fps();
             if (dropped == 0) {
                 // No dropped frames since last check
                 m_qmlManager->setProperty(QStringLiteral("dropped"), false);
                 m_qmlManager->setProperty(QStringLiteral("fps"), QString::number(fps, 'g', 2));
             } else {
                 m_glMonitor->resetDrops();
                 fps -= dropped;
                 m_qmlManager->setProperty(QStringLiteral("dropped"), true);
                 m_qmlManager->setProperty(QStringLiteral("fps"), QString::number(fps, 'g', 2));
                 m_droppedTimer.start();
             }
         }
     } else if (dropped > 0) {
         // Start m_dropTimer
         m_glMonitor->resetDrops();
         m_droppedTimer.start();
     }
 }
 
 void Monitor::reloadProducer(const QString &id)
 {
     if (!m_controller) {
         return;
     }
     if (m_controller->AbstractProjectItem::clipId() == id) {
         slotOpenClip(m_controller);
     }
 }
 
 QString Monitor::getMarkerThumb(GenTime pos)
 {
     if (!m_controller) {
         return QString();
     }
     if (!m_controller->getClipHash().isEmpty()) {
         QString url = m_monitorManager->getCacheFolder(CacheThumbs)
                           .absoluteFilePath(m_controller->getClipHash() + QLatin1Char('#') +
                                             QString::number((int)pos.frames(m_monitorManager->timecode().fps())) + QStringLiteral(".png"));
         if (QFile::exists(url)) {
             return url;
         }
     }
     return QString();
 }
 
 const QString Monitor::projectFolder() const
 {
     return m_monitorManager->getProjectFolder();
 }
 
 void Monitor::setPalette(const QPalette &p)
 {
     QWidget::setPalette(p);
     QList<QToolButton *> allButtons = this->findChildren<QToolButton *>();
     for (int i = 0; i < allButtons.count(); i++) {
         QToolButton *m = allButtons.at(i);
         QIcon ic = m->icon();
         if (ic.isNull() || ic.name().isEmpty()) {
             continue;
         }
         QIcon newIcon = QIcon::fromTheme(ic.name());
         m->setIcon(newIcon);
     }
     QQuickItem *root = m_glMonitor->rootObject();
     if (root) {
         QMetaObject::invokeMethod(root, "updatePalette");
     }
     m_audioMeterWidget->refreshPixmap();
 }
 
 void Monitor::gpuError()
 {
     qCWarning(KDENLIVE_LOG) << " + + + + Error initializing Movit GLSL manager";
     warningMessage(i18n("Cannot initialize Movit's GLSL manager, please disable Movit"), -1);
 }
 
 void Monitor::warningMessage(const QString &text, int timeout, const QList<QAction *> &actions)
 {
     m_infoMessage->setMessageType(KMessageWidget::Warning);
     m_infoMessage->setText(text);
     for (QAction *action : actions) {
         m_infoMessage->addAction(action);
     }
     m_infoMessage->setCloseButtonVisible(true);
     m_infoMessage->animatedShow();
     if (timeout > 0) {
         QTimer::singleShot(timeout, m_infoMessage, &KMessageWidget::animatedHide);
     }
 }
 
 void Monitor::activateSplit()
 {
     loadQmlScene(MonitorSceneSplit);
     if (isActive()) {
         m_glMonitor->requestRefresh();
     } else if (slotActivateMonitor()) {
         start();
     }
 }
 
 void Monitor::slotSwitchCompare(bool enable)
 {
     if (m_id == Kdenlive::ProjectMonitor) {
         if (enable) {
             if (m_qmlManager->sceneType() == MonitorSceneSplit) {
                 // Split scene is already active
                 return;
             }
             m_splitEffect = new Mlt::Filter(pCore->getCurrentProfile()->profile(), "frei0r.alphagrad");
             if ((m_splitEffect != nullptr) && m_splitEffect->is_valid()) {
                 m_splitEffect->set("0", 0.5);    // 0 is the Clip left parameter
                 m_splitEffect->set("1", 0);      // 1 is gradient width
                 m_splitEffect->set("2", -0.747); // 2 is tilt
             } else {
                 // frei0r.scal0tilt is not available
                 warningMessage(i18n("The alphagrad filter is required for that feature, please install frei0r and restart Kdenlive"));
                 return;
             }
             emit createSplitOverlay(m_splitEffect);
             return;
         }
         // Delete temp track
         emit removeSplitOverlay();
         delete m_splitEffect;
         m_splitEffect = nullptr;
         loadQmlScene(MonitorSceneDefault);
         if (isActive()) {
             m_glMonitor->requestRefresh();
         } else if (slotActivateMonitor()) {
             start();
         }
 
         return;
     }
     if (m_controller == nullptr || !m_controller->hasEffects()) {
         // disable split effect
         if (m_controller) {
             pCore->displayMessage(i18n("Clip has no effects"), InformationMessage);
         } else {
             pCore->displayMessage(i18n("Select a clip in project bin to compare effect"), InformationMessage);
         }
         return;
     }
     if (enable) {
         if (m_qmlManager->sceneType() == MonitorSceneSplit) {
             // Split scene is already active
             qDebug() << " . . . .. ALREADY ACTIVE";
             return;
         }
         buildSplitEffect(m_controller->masterProducer());
     } else if (m_splitEffect) {
         // TODO
         m_glMonitor->setProducer(m_controller->originalProducer(), isActive(), position());
         delete m_splitEffect;
         m_splitProducer.reset();
         m_splitEffect = nullptr;
         loadQmlScene(MonitorSceneDefault);
     }
     slotActivateMonitor();
 }
 
 void Monitor::buildSplitEffect(Mlt::Producer *original)
 {
     m_splitEffect = new Mlt::Filter(pCore->getCurrentProfile()->profile(), "frei0r.alphagrad");
     if ((m_splitEffect != nullptr) && m_splitEffect->is_valid()) {
         m_splitEffect->set("0", 0.5);    // 0 is the Clip left parameter
         m_splitEffect->set("1", 0);      // 1 is gradient width
         m_splitEffect->set("2", -0.747); // 2 is tilt
     } else {
         // frei0r.scal0tilt is not available
         pCore->displayMessage(i18n("The alphagrad filter is required for that feature, please install frei0r and restart Kdenlive"), ErrorMessage);
         return;
     }
     QString splitTransition = TransitionsRepository::get()->getCompositingTransition();
     Mlt::Transition t(pCore->getCurrentProfile()->profile(), splitTransition.toUtf8().constData());
     if (!t.is_valid()) {
         delete m_splitEffect;
         pCore->displayMessage(i18n("The cairoblend transition is required for that feature, please install frei0r and restart Kdenlive"), ErrorMessage);
         return;
     }
     Mlt::Tractor trac(pCore->getCurrentProfile()->profile());
     std::shared_ptr<Mlt::Producer> clone = ProjectClip::cloneProducer(std::make_shared<Mlt::Producer>(original));
     // Delete all effects
     int ct = 0;
     Mlt::Filter *filter = clone->filter(ct);
     while (filter != nullptr) {
         QString ix = QString::fromLatin1(filter->get("kdenlive_id"));
         if (!ix.isEmpty()) {
             if (clone->detach(*filter) == 0) {
             } else {
                 ct++;
             }
         } else {
             ct++;
         }
         delete filter;
         filter = clone->filter(ct);
     }
     trac.set_track(*original, 0);
     trac.set_track(*clone.get(), 1);
     clone.get()->attach(*m_splitEffect);
     t.set("always_active", 1);
     trac.plant_transition(t, 0, 1);
     delete original;
     m_splitProducer = std::make_shared<Mlt::Producer>(trac.get_producer());
     m_glMonitor->setProducer(m_splitProducer, isActive(), position());
     m_glMonitor->setRulerInfo((int)m_controller->frameDuration(), m_controller->getMarkerModel());
     loadQmlScene(MonitorSceneSplit);
 }
 
 QSize Monitor::profileSize() const
 {
     return m_glMonitor->profileSize();
 }
 
 void Monitor::loadQmlScene(MonitorSceneType type)
 {
     if (m_id == Kdenlive::DvdMonitor || type == m_qmlManager->sceneType()) {
         return;
     }
     bool sceneWithEdit = type == MonitorSceneGeometry || type == MonitorSceneCorners || type == MonitorSceneRoto;
     if ((m_sceneVisibilityAction != nullptr) && !m_sceneVisibilityAction->isChecked() && sceneWithEdit) {
         // User doesn't want effect scenes
         pCore->displayMessage(i18n("Enable edit mode in monitor to edit effect"), InformationMessage, 500);
         type = MonitorSceneDefault;
     }
     double ratio = (double)m_glMonitor->profileSize().width() / (int)(m_glMonitor->profileSize().height() * pCore->getCurrentProfile()->dar() + 0.5);
     m_qmlManager->setScene(m_id, type, m_glMonitor->profileSize(), ratio, m_glMonitor->displayRect(), m_glMonitor->zoom(), m_timePos->maximum());
     QQuickItem *root = m_glMonitor->rootObject();
     switch (type) {
     case MonitorSceneSplit:
         QObject::connect(root, SIGNAL(qmlMoveSplit()), this, SLOT(slotAdjustEffectCompare()), Qt::UniqueConnection);
         break;
     case MonitorSceneGeometry:
     case MonitorSceneCorners:
     case MonitorSceneRoto:
         break;
     case MonitorSceneRipple:
         QObject::connect(root, SIGNAL(doAcceptRipple(bool)), this, SIGNAL(acceptRipple(bool)), Qt::UniqueConnection);
         QObject::connect(root, SIGNAL(switchTrimMode(int)), this, SIGNAL(switchTrimMode(int)), Qt::UniqueConnection);
         break;
     case MonitorSceneDefault:
         QObject::connect(root, SIGNAL(editCurrentMarker()), this, SLOT(slotEditInlineMarker()), Qt::UniqueConnection);
         m_qmlManager->setProperty(QStringLiteral("timecode"), m_timePos->displayText());
         if (m_id == Kdenlive::ClipMonitor) {
             updateQmlDisplay(KdenliveSettings::displayClipMonitorInfo());
         } else if (m_id == Kdenlive::ProjectMonitor) {
             updateQmlDisplay(KdenliveSettings::displayProjectMonitorInfo());
         }
         break;
     default:
         break;
     }
     m_qmlManager->setProperty(QStringLiteral("fps"), QString::number(m_monitorManager->timecode().fps(), 'g', 2));
 }
 
 void Monitor::setQmlProperty(const QString &name, const QVariant &value)
 {
     m_qmlManager->setProperty(name, value);
 }
 
 void Monitor::slotAdjustEffectCompare()
 {
     QRect r = m_glMonitor->rect();
     double percent = 0.5;
     if (m_qmlManager->sceneType() == MonitorSceneSplit) {
         // Adjust splitter pos
         QQuickItem *root = m_glMonitor->rootObject();
         percent = 0.5 - ((root->property("splitterPos").toInt() - r.left() - r.width() / 2.0) / (double)r.width() / 2.0) / 0.75;
         // Store real frame percentage for resize events
         root->setProperty("realpercent", percent);
     }
     if (m_splitEffect) {
         m_splitEffect->set("0", percent);
     }
     m_glMonitor->refresh();
 }
 
 void Monitor::slotSwitchRec(bool enable)
 {
     if (!m_recManager) {
         return;
     }
     if (enable) {
         m_toolbar->setVisible(false);
         m_recManager->toolbar()->setVisible(true);
     } else if (m_recManager->toolbar()->isVisible()) {
         m_recManager->stop();
         m_toolbar->setVisible(true);
         emit refreshCurrentClip();
     }
 }
 
 void Monitor::doKeyPressEvent(QKeyEvent *ev)
 {
     keyPressEvent(ev);
 }
 
 void Monitor::slotEditInlineMarker()
 {
     QQuickItem *root = m_glMonitor->rootObject();
     if (root) {
         std::shared_ptr<MarkerListModel> model;
         if (m_controller) {
             // We are editing a clip marker
             model = m_controller->getMarkerModel();
         } else {
             model = pCore->currentDoc()->getGuideModel();
         }
         QString newComment = root->property("markerText").toString();
         bool found = false;
         CommentedTime oldMarker = model->getMarker(m_timePos->gentime(), &found);
         if (!found || newComment == oldMarker.comment()) {
             // No change
             return;
         }
         oldMarker.setComment(newComment);
         model->addMarker(oldMarker.time(), oldMarker.comment(), oldMarker.markerType());
     }
 }
 
 void Monitor::prepareAudioThumb(int channels, const QList <double>&audioCache)
 {
     m_glMonitor->setAudioThumb(channels, audioCache);
 }
 
 void Monitor::slotSwitchAudioMonitor()
 {
     if (!m_audioMeterWidget->isValid) {
         KdenliveSettings::setMonitoraudio(0x01);
         m_audioMeterWidget->setVisibility(false);
         return;
     }
     int currentOverlay = KdenliveSettings::monitoraudio();
     currentOverlay ^= m_id;
     KdenliveSettings::setMonitoraudio(currentOverlay);
     if ((KdenliveSettings::monitoraudio() & m_id) != 0) {
         // We want to enable this audio monitor, so make monitor active
         slotActivateMonitor();
     }
     displayAudioMonitor(isActive());
 }
 
 void Monitor::displayAudioMonitor(bool isActive)
 {
     bool enable = isActive && ((KdenliveSettings::monitoraudio() & m_id) != 0);
     if (enable) {
         connect(m_monitorManager, &MonitorManager::frameDisplayed, m_audioMeterWidget, &ScopeWidget::onNewFrame, Qt::UniqueConnection);
     } else {
         disconnect(m_monitorManager, &MonitorManager::frameDisplayed, m_audioMeterWidget, &ScopeWidget::onNewFrame);
     }
     m_audioMeterWidget->setVisibility((KdenliveSettings::monitoraudio() & m_id) != 0);
 }
 
 void Monitor::updateQmlDisplay(int currentOverlay)
 {
     m_glMonitor->rootObject()->setVisible((currentOverlay & 0x01) != 0);
     m_glMonitor->rootObject()->setProperty("showMarkers", currentOverlay & 0x04);
     m_glMonitor->rootObject()->setProperty("showFps", currentOverlay & 0x20);
     m_glMonitor->rootObject()->setProperty("showTimecode", currentOverlay & 0x02);
     m_glMonitor->rootObject()->setProperty("showAudiothumb", currentOverlay & 0x10);
 }
 
 void Monitor::clearDisplay()
 {
     m_glMonitor->clear();
 }
 
 void Monitor::panView(QPoint diff)
 {
     // Only pan if scrollbars are visible
     if (m_horizontalScroll->isVisible()) {
         m_horizontalScroll->setValue(m_horizontalScroll->value() + diff.x());
     }
     if (m_verticalScroll->isVisible()) {
         m_verticalScroll->setValue(m_verticalScroll->value() + diff.y());
     }
 }
 
 void Monitor::requestSeek(int pos)
 {
     m_glMonitor->seek(pos);
 }
 
 void Monitor::setProducer(std::shared_ptr<Mlt::Producer> producer, int pos)
 {
     m_glMonitor->setProducer(std::move(producer), isActive(), pos);
 }
 
 void Monitor::reconfigure()
 {
     m_glMonitor->reconfigure();
 }
 
 void Monitor::slotSeekPosition(int pos)
 {
     m_timePos->setValue(pos);
     checkOverlay();
 }
 
 void Monitor::slotStart()
 {
     slotActivateMonitor();
     m_glMonitor->switchPlay(false);
     m_glMonitor->seek(0);
 }
 
 void Monitor::slotEnd()
 {
     slotActivateMonitor();
     m_glMonitor->switchPlay(false);
     if (m_id == Kdenlive::ClipMonitor) {
         m_glMonitor->seek(m_glMonitor->duration());
     } else {
         m_glMonitor->seek(pCore->projectDuration());
     }
 }
 
 void Monitor::addSnapPoint(int pos)
 {
     m_snaps->addPoint(pos);
 }
 
 void Monitor::removeSnapPoint(int pos)
 {
     m_snaps->removePoint(pos);
 }
 
 void Monitor::slotZoomIn()
 {
     m_glMonitor->slotZoom(true);
 }
 
 void Monitor::slotZoomOut()
 {
     m_glMonitor->slotZoom(false);
 }
 
 void Monitor::setConsumerProperty(const QString &name, const QString &value)
 {
     m_glMonitor->setConsumerProperty(name, value);
 }
diff --git a/src/timeline2/model/timelinemodel.cpp b/src/timeline2/model/timelinemodel.cpp
index 5a4615f8d..872bcb05d 100644
--- a/src/timeline2/model/timelinemodel.cpp
+++ b/src/timeline2/model/timelinemodel.cpp
@@ -1,3229 +1,3229 @@
 /***************************************************************************
  *   Copyright (C) 2017 by Nicolas Carion                                  *
  *   This file is part of Kdenlive. See www.kdenlive.org.                  *
  *                                                                         *
  *   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) version 3 or any later version accepted by the       *
  *   membership of KDE e.V. (or its successor approved  by the membership  *
  *   of KDE e.V.), which shall act as a proxy defined in Section 14 of     *
  *   version 3 of the license.                                             *
  *                                                                         *
  *   This program is distributed in the hope that it will be useful,       *
  *   but WITHOUT ANY WARRANTY; without even the implied warranty of        *
  *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         *
  *   GNU General Public License for more details.                          *
  *                                                                         *
  *   You should have received a copy of the GNU General Public License     *
  *   along with this program.  If not, see <http://www.gnu.org/licenses/>. *
  ***************************************************************************/
 
 #include "timelinemodel.hpp"
 #include "assets/model/assetparametermodel.hpp"
 #include "bin/projectclip.h"
 #include "bin/projectitemmodel.h"
 #include "clipmodel.hpp"
 #include "compositionmodel.hpp"
 #include "core.h"
 #include "doc/docundostack.hpp"
 #include "effects/effectsrepository.hpp"
 #include "effects/effectstack/model/effectstackmodel.hpp"
 #include "groupsmodel.hpp"
 #include "kdenlivesettings.h"
 #include "logger.hpp"
 #include "snapmodel.hpp"
 #include "timelinefunctions.hpp"
 #include "trackmodel.hpp"
 
 #include <QDebug>
 #include <QModelIndex>
 #include <klocalizedstring.h>
 #include <mlt++/MltConsumer.h>
 #include <mlt++/MltField.h>
 #include <mlt++/MltProfile.h>
 #include <mlt++/MltTractor.h>
 #include <mlt++/MltTransition.h>
 #include <queue>
 
 #include "macros.hpp"
 
 #pragma GCC diagnostic push
 #pragma GCC diagnostic ignored "-Wunused-parameter"
 #pragma GCC diagnostic ignored "-Wsign-conversion"
 #pragma GCC diagnostic ignored "-Wfloat-equal"
 #pragma GCC diagnostic ignored "-Wshadow"
 #pragma GCC diagnostic ignored "-Wpedantic"
 #include <rttr/registration>
 #pragma GCC diagnostic pop
 RTTR_REGISTRATION
 {
     using namespace rttr;
     registration::class_<TimelineModel>("TimelineModel")
         .method("requestClipMove", select_overload<bool(int, int, int, bool, bool, bool)>(&TimelineModel::requestClipMove))(
             parameter_names("clipId", "trackId", "position", "updateView", "logUndo", "invalidateTimeline"))
         .method("requestCompositionMove", select_overload<bool(int, int, int, bool, bool)>(&TimelineModel::requestCompositionMove))(
             parameter_names("compoId", "trackId", "position", "updateView", "logUndo"))
         .method("requestClipInsertion", select_overload<bool(const QString &, int, int, int &, bool, bool, bool)>(&TimelineModel::requestClipInsertion))(
             parameter_names("binClipId", "trackId", "position", "id", "logUndo", "refreshView", "useTargets"))
         .method("requestItemDeletion", select_overload<bool(int, bool)>(&TimelineModel::requestItemDeletion))(parameter_names("clipId", "logUndo"))
         .method("requestGroupMove", select_overload<bool(int, int, int, int, bool, bool)>(&TimelineModel::requestGroupMove))(
             parameter_names("itemId", "groupId", "delta_track", "delta_pos", "updateView", "logUndo"))
         .method("requestGroupDeletion", select_overload<bool(int, bool)>(&TimelineModel::requestGroupDeletion))(parameter_names("clipId", "logUndo"))
         .method("requestItemResize", select_overload<int(int, int, bool, bool, int, bool)>(&TimelineModel::requestItemResize))(
             parameter_names("itemId", "size", "right", "logUndo", "snapDistance", "allowSingleResize"))
         .method("requestClipsGroup", select_overload<int(const std::unordered_set<int> &, bool, GroupType)>(&TimelineModel::requestClipsGroup))(
             parameter_names("itemIds", "logUndo", "type"))
         .method("requestClipUngroup", select_overload<bool(int, bool)>(&TimelineModel::requestClipUngroup))(parameter_names("itemId", "logUndo"))
         .method("requestClipsUngroup", &TimelineModel::requestClipsUngroup)(parameter_names("itemIds", "logUndo"))
         .method("requestTrackInsertion", select_overload<bool(int, int &, const QString &, bool)>(&TimelineModel::requestTrackInsertion))(
             parameter_names("pos", "id", "trackName", "audioTrack"))
         .method("requestTrackDeletion", select_overload<bool(int)>(&TimelineModel::requestTrackDeletion))(parameter_names("trackId"))
         .method("requestClearSelection", select_overload<bool(bool)>(&TimelineModel::requestClearSelection))(parameter_names("onDeletion"))
         .method("requestAddToSelection", &TimelineModel::requestAddToSelection)(parameter_names("itemId", "clear"))
         .method("requestRemoveFromSelection", &TimelineModel::requestRemoveFromSelection)(parameter_names("itemId"))
         .method("requestSetSelection", select_overload<bool(const std::unordered_set<int> &)>(&TimelineModel::requestSetSelection))(parameter_names("itemIds"))
         .method("requestFakeClipMove", select_overload<bool(int, int, int, bool, bool, bool)>(&TimelineModel::requestFakeClipMove))(
             parameter_names("clipId", "trackId", "position", "updateView", "logUndo", "invalidateTimeline"))
         .method("requestFakeGroupMove", select_overload<bool(int, int, int, int, bool, bool)>(&TimelineModel::requestFakeGroupMove))(
             parameter_names("clipId", "groupId", "delta_track", "delta_pos", "updateView", "logUndo"))
         // (parameter_names("clipId", "groupId", "delta_track", "delta_pos", "updateView" "logUndo"))
         .method("suggestClipMove", &TimelineModel::suggestClipMove)(parameter_names("clipId", "trackId", "position", "cursorPosition", "snapDistance"))
         .method("suggestCompositionMove",
                 &TimelineModel::suggestCompositionMove)(parameter_names("compoId", "trackId", "position", "cursorPosition", "snapDistance"))
         // .method("addSnap", &TimelineModel::addSnap)(parameter_names("pos"))
         // .method("removeSnap", &TimelineModel::addSnap)(parameter_names("pos"))
         // .method("requestCompositionInsertion", select_overload<bool(const QString &, int, int, int, std::unique_ptr<Mlt::Properties>, int &, bool)>(
         //                                            &TimelineModel::requestCompositionInsertion))(
         //     parameter_names("transitionId", "trackId", "position", "length", "transProps", "id", "logUndo"))
         .method("requestClipTimeWarp", select_overload<bool(int, double)>(&TimelineModel::requestClipTimeWarp))(parameter_names("clipId", "speed"));
 }
 
 int TimelineModel::next_id = 0;
 int TimelineModel::seekDuration = 30000;
 
 TimelineModel::TimelineModel(Mlt::Profile *profile, std::weak_ptr<DocUndoStack> undo_stack)
     : QAbstractItemModel_shared_from_this()
     , m_tractor(new Mlt::Tractor(*profile))
     , m_snaps(new SnapModel())
     , m_undoStack(std::move(undo_stack))
     , m_profile(profile)
     , m_blackClip(new Mlt::Producer(*profile, "color:black"))
     , m_lock(QReadWriteLock::Recursive)
     , m_timelineEffectsEnabled(true)
     , m_id(getNextId())
     , m_overlayTrackCount(-1)
     , m_audioTarget(-1)
     , m_videoTarget(-1)
     , m_editMode(TimelineMode::NormalEdit)
     , m_blockRefresh(false)
     , m_closing(false)
 {
     // Create black background track
     m_blackClip->set("id", "black_track");
     m_blackClip->set("mlt_type", "producer");
     m_blackClip->set("aspect_ratio", 1);
     m_blackClip->set("length", INT_MAX);
     m_blackClip->set("set.test_audio", 0);
     m_blackClip->set_in_and_out(0, TimelineModel::seekDuration);
     m_tractor->insert_track(*m_blackClip, 0);
 
     TRACE_CONSTR(this);
 }
 
 void TimelineModel::prepareClose()
 {
     QWriteLocker locker(&m_lock);
     // Unlock all tracks to allow delting clip from tracks
     m_closing = true;
     auto it = m_allTracks.begin();
     while (it != m_allTracks.end()) {
         (*it)->setProperty(QStringLiteral("kdenlive:locked_track"), (char*) nullptr);
         ++it;
     }
 }
 
 TimelineModel::~TimelineModel()
 {
     std::vector<int> all_ids;
     for (auto tracks : m_iteratorTable) {
         all_ids.push_back(tracks.first);
     }
     for (auto tracks : all_ids) {
         deregisterTrack_lambda(tracks, false)();
     }
     for (const auto &clip : m_allClips) {
         clip.second->deregisterClipToBin();
     }
 }
 
 int TimelineModel::getTracksCount() const
 {
     READ_LOCK();
     int count = m_tractor->count();
     if (m_overlayTrackCount > -1) {
         count -= m_overlayTrackCount;
     }
     Q_ASSERT(count >= 0);
     // don't count the black background track
     Q_ASSERT(count - 1 == static_cast<int>(m_allTracks.size()));
     return count - 1;
 }
 
 int TimelineModel::getTrackIndexFromPosition(int pos) const
 {
     Q_ASSERT(pos >= 0 && pos < (int)m_allTracks.size());
     READ_LOCK();
     auto it = m_allTracks.begin();
     while (pos > 0) {
         it++;
         pos--;
     }
     return (*it)->getId();
 }
 
 int TimelineModel::getClipsCount() const
 {
     READ_LOCK();
     int size = int(m_allClips.size());
     return size;
 }
 
 int TimelineModel::getCompositionsCount() const
 {
     READ_LOCK();
     int size = int(m_allCompositions.size());
     return size;
 }
 
 int TimelineModel::getClipTrackId(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     const auto clip = m_allClips.at(clipId);
     return clip->getCurrentTrackId();
 }
 
 int TimelineModel::getCompositionTrackId(int compoId) const
 {
     Q_ASSERT(m_allCompositions.count(compoId) > 0);
     const auto trans = m_allCompositions.at(compoId);
     return trans->getCurrentTrackId();
 }
 
 int TimelineModel::getItemTrackId(int itemId) const
 {
     READ_LOCK();
     Q_ASSERT(isItem(itemId));
     if (isComposition(itemId)) {
         return getCompositionTrackId(itemId);
     }
     return getClipTrackId(itemId);
 }
 
 int TimelineModel::getClipPosition(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     const auto clip = m_allClips.at(clipId);
     int pos = clip->getPosition();
     return pos;
 }
 
 double TimelineModel::getClipSpeed(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     return m_allClips.at(clipId)->getSpeed();
 }
 
 int TimelineModel::getClipSplitPartner(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     return m_groups->getSplitPartner(clipId);
 }
 
 int TimelineModel::getClipIn(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     const auto clip = m_allClips.at(clipId);
     return clip->getIn();
 }
 
 PlaylistState::ClipState TimelineModel::getClipState(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     const auto clip = m_allClips.at(clipId);
     return clip->clipState();
 }
 
 const QString TimelineModel::getClipBinId(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     const auto clip = m_allClips.at(clipId);
     QString id = clip->binId();
     return id;
 }
 
 int TimelineModel::getClipPlaytime(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(isClip(clipId));
     const auto clip = m_allClips.at(clipId);
     int playtime = clip->getPlaytime();
     return playtime;
 }
 
 QSize TimelineModel::getClipFrameSize(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(isClip(clipId));
     const auto clip = m_allClips.at(clipId);
     return clip->getFrameSize();
 }
 
 int TimelineModel::getTrackClipsCount(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     int count = getTrackById_const(trackId)->getClipsCount();
     return count;
 }
 
 int TimelineModel::getClipByPosition(int trackId, int position) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     return getTrackById_const(trackId)->getClipByPosition(position);
 }
 
 int TimelineModel::getCompositionByPosition(int trackId, int position) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     return getTrackById_const(trackId)->getCompositionByPosition(position);
 }
 
 int TimelineModel::getTrackPosition(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_allTracks.begin();
     int pos = (int)std::distance(it, (decltype(it))m_iteratorTable.at(trackId));
     return pos;
 }
 
 int TimelineModel::getTrackMltIndex(int trackId) const
 {
     READ_LOCK();
     // Because of the black track that we insert in first position, the mlt index is the position + 1
     return getTrackPosition(trackId) + 1;
 }
 
 int TimelineModel::getTrackSortValue(int trackId, bool separated) const
 {
     if (separated) {
         return getTrackPosition(trackId) + 1;
     }
     auto it = m_allTracks.end();
     int aCount = 0;
     int vCount = 0;
     bool isAudio = false;
     int trackPos = 0;
     while (it != m_allTracks.begin()) {
         --it;
         bool audioTrack = (*it)->isAudioTrack();
         if (audioTrack) {
             aCount++;
         } else {
             vCount++;
         }
         if (trackId == (*it)->getId()) {
             isAudio = audioTrack;
             trackPos = audioTrack ? aCount : vCount;
         }
     }
     int trackDiff = aCount - vCount;
     if (trackDiff > 0) {
         // more audio tracks
         if (!isAudio) {
             trackPos -= trackDiff;
         } else if (trackPos > vCount) {
             return -trackPos;
         }
     }
     return isAudio ? ((aCount * trackPos) - 1) : (vCount + 1 - trackPos) * 2;
 }
 
 QList<int> TimelineModel::getLowerTracksId(int trackId, TrackType type) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     QList<int> results;
     auto it = m_iteratorTable.at(trackId);
     while (it != m_allTracks.begin()) {
         --it;
         if (type == TrackType::AnyTrack) {
             results << (*it)->getId();
             continue;
         }
         bool audioTrack = (*it)->isAudioTrack();
         if (type == TrackType::AudioTrack && audioTrack) {
             results << (*it)->getId();
         } else if (type == TrackType::VideoTrack && !audioTrack) {
             results << (*it)->getId();
         }
     }
     return results;
 }
 
 int TimelineModel::getPreviousVideoTrackIndex(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     while (it != m_allTracks.begin()) {
         --it;
         if (it != m_allTracks.begin() && !(*it)->isAudioTrack()) {
             break;
         }
     }
     return it == m_allTracks.begin() ? 0 : (*it)->getId();
 }
 
 int TimelineModel::getPreviousVideoTrackPos(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     while (it != m_allTracks.begin()) {
         --it;
         if (it != m_allTracks.begin() && !(*it)->isAudioTrack()) {
             break;
         }
     }
     return it == m_allTracks.begin() ? 0 : getTrackMltIndex((*it)->getId());
 }
 
 int TimelineModel::getMirrorVideoTrackId(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     if (!(*it)->isAudioTrack()) {
         // we expected an audio track...
         return -1;
     }
     int count = 0;
     if (it != m_allTracks.end()) {
         ++it;
     }
     while (it != m_allTracks.end()) {
         if ((*it)->isAudioTrack()) {
             count++;
         } else {
             if (count == 0) {
                 return (*it)->getId();
             }
             count--;
         }
         ++it;
     }
     if (it != m_allTracks.end() && !(*it)->isAudioTrack() && count == 0) {
         return (*it)->getId();
     }
     return -1;
 }
 
 int TimelineModel::getMirrorTrackId(int trackId) const
 {
     if (isAudioTrack(trackId)) {
         return getMirrorVideoTrackId(trackId);
     }
     return getMirrorAudioTrackId(trackId);
 }
 
 int TimelineModel::getMirrorAudioTrackId(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     if ((*it)->isAudioTrack()) {
         // we expected a video track...
         return -1;
     }
     int count = 0;
     if (it != m_allTracks.begin()) {
         --it;
     }
     while (it != m_allTracks.begin()) {
         if (!(*it)->isAudioTrack()) {
             count++;
         } else {
             if (count == 0) {
                 return (*it)->getId();
             }
             count--;
         }
         --it;
     }
     if ((*it)->isAudioTrack() && count == 0) {
         return (*it)->getId();
     }
     return -1;
 }
 
 void TimelineModel::setEditMode(TimelineMode::EditMode mode)
 {
     m_editMode = mode;
 }
 
 bool TimelineModel::normalEdit() const
 {
     return m_editMode == TimelineMode::NormalEdit;
 }
 
 bool TimelineModel::requestFakeClipMove(int clipId, int trackId, int position, bool updateView, bool invalidateTimeline, Fun &undo, Fun &redo)
 {
     Q_UNUSED(updateView);
     Q_UNUSED(invalidateTimeline);
     Q_UNUSED(undo);
     Q_UNUSED(redo);
     Q_ASSERT(isClip(clipId));
     m_allClips[clipId]->setFakePosition(position);
     bool trackChanged = false;
     if (trackId > -1) {
         if (trackId != m_allClips[clipId]->getFakeTrackId()) {
             if (getTrackById_const(trackId)->trackType() == m_allClips[clipId]->clipState()) {
                 m_allClips[clipId]->setFakeTrackId(trackId);
                 trackChanged = true;
             }
         }
     }
     QModelIndex modelIndex = makeClipIndexFromID(clipId);
     if (modelIndex.isValid()) {
         QVector<int> roles{FakePositionRole};
         if (trackChanged) {
             roles << FakeTrackIdRole;
         }
         notifyChange(modelIndex, modelIndex, roles);
         return true;
     }
     return false;
 }
 
 bool TimelineModel::requestClipMove(int clipId, int trackId, int position, bool updateView, bool invalidateTimeline, bool finalMove, Fun &undo, Fun &redo)
 {
     // qDebug() << "// FINAL MOVE: " << invalidateTimeline << ", UPDATE VIEW: " << updateView<<", FINAL: "<<finalMove;
     if (trackId == -1) {
         return false;
     }
     Q_ASSERT(isClip(clipId));
     if (m_allClips[clipId]->clipState() == PlaylistState::Disabled) {
         if (getTrackById_const(trackId)->trackType() == PlaylistState::AudioOnly && !m_allClips[clipId]->canBeAudio()) {
             return false;
         }
         if (getTrackById_const(trackId)->trackType() == PlaylistState::VideoOnly && !m_allClips[clipId]->canBeVideo()) {
             return false;
         }
     } else if (getTrackById_const(trackId)->trackType() != m_allClips[clipId]->clipState()) {
         // Move not allowed (audio / video mismatch)
         qDebug() << "// CLIP MISMATCH: " << getTrackById_const(trackId)->trackType() << " == " << m_allClips[clipId]->clipState();
         return false;
     }
     std::function<bool(void)> local_undo = []() { return true; };
     std::function<bool(void)> local_redo = []() { return true; };
     bool ok = true;
     int old_trackId = getClipTrackId(clipId);
     bool notifyViewOnly = false;
     // qDebug()<<"MOVING CLIP FROM: "<<old_trackId<<" == "<<trackId;
     Fun update_model = []() { return true; };
     if (old_trackId == trackId) {
         // Move on same track, simply inform the view
         updateView = false;
         notifyViewOnly = true;
         update_model = [clipId, this, trackId, invalidateTimeline]() {
             QModelIndex modelIndex = makeClipIndexFromID(clipId);
             notifyChange(modelIndex, modelIndex, StartRole);
             if (invalidateTimeline && !getTrackById_const(trackId)->isAudioTrack()) {
                 int in = getClipPosition(clipId);
                 emit invalidateZone(in, in + getClipPlaytime(clipId));
             }
             return true;
         };
     }
     if (old_trackId != -1) {
         if (notifyViewOnly) {
             PUSH_LAMBDA(update_model, local_undo);
         }
         ok = getTrackById(old_trackId)->requestClipDeletion(clipId, updateView, finalMove, local_undo, local_redo);
         if (!ok) {
             bool undone = local_undo();
             Q_ASSERT(undone);
             return false;
         }
     }
     ok = ok & getTrackById(trackId)->requestClipInsertion(clipId, position, updateView, finalMove, local_undo, local_redo);
     if (!ok) {
         qDebug() << "-------------\n\nINSERTION FAILED, REVERTING\n\n-------------------";
         bool undone = local_undo();
         Q_ASSERT(undone);
         return false;
     }
     update_model();
     if (notifyViewOnly) {
         PUSH_LAMBDA(update_model, local_redo);
     }
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 bool TimelineModel::requestFakeClipMove(int clipId, int trackId, int position, bool updateView, bool logUndo, bool invalidateTimeline)
 {
     QWriteLocker locker(&m_lock);
     TRACE(clipId, trackId, position, updateView, logUndo, invalidateTimeline)
     Q_ASSERT(m_allClips.count(clipId) > 0);
     if (m_allClips[clipId]->getPosition() == position && getClipTrackId(clipId) == trackId) {
         TRACE_RES(true);
         return true;
     }
     if (m_groups->isInGroup(clipId)) {
         // element is in a group.
         int groupId = m_groups->getRootId(clipId);
         int current_trackId = getClipTrackId(clipId);
         int track_pos1 = getTrackPosition(trackId);
         int track_pos2 = getTrackPosition(current_trackId);
         int delta_track = track_pos1 - track_pos2;
         int delta_pos = position - m_allClips[clipId]->getPosition();
         bool res = requestFakeGroupMove(clipId, groupId, delta_track, delta_pos, updateView, logUndo);
         TRACE_RES(res);
         return res;
     }
     std::function<bool(void)> undo = []() { return true; };
     std::function<bool(void)> redo = []() { return true; };
     bool res = requestFakeClipMove(clipId, trackId, position, updateView, invalidateTimeline, undo, redo);
     if (res && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Move clip"));
     }
     TRACE_RES(res);
     return res;
 }
 
 bool TimelineModel::requestClipMove(int clipId, int trackId, int position, bool updateView, bool logUndo, bool invalidateTimeline)
 {
     QWriteLocker locker(&m_lock);
     TRACE(clipId, trackId, position, updateView, logUndo, invalidateTimeline);
     Q_ASSERT(m_allClips.count(clipId) > 0);
     if (m_allClips[clipId]->getPosition() == position && getClipTrackId(clipId) == trackId) {
         TRACE_RES(true);
         return true;
     }
     if (m_groups->isInGroup(clipId)) {
         // element is in a group.
         int groupId = m_groups->getRootId(clipId);
         int current_trackId = getClipTrackId(clipId);
         int track_pos1 = getTrackPosition(trackId);
         int track_pos2 = getTrackPosition(current_trackId);
         int delta_track = track_pos1 - track_pos2;
         int delta_pos = position - m_allClips[clipId]->getPosition();
         return requestGroupMove(clipId, groupId, delta_track, delta_pos, updateView, logUndo);
     }
     std::function<bool(void)> undo = []() { return true; };
     std::function<bool(void)> redo = []() { return true; };
     bool res = requestClipMove(clipId, trackId, position, updateView, invalidateTimeline, logUndo, undo, redo);
     if (res && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Move clip"));
     }
     TRACE_RES(res);
     return res;
 }
 
 bool TimelineModel::requestClipMoveAttempt(int clipId, int trackId, int position)
 {
     QWriteLocker locker(&m_lock);
     Q_ASSERT(m_allClips.count(clipId) > 0);
     if (m_allClips[clipId]->getPosition() == position && getClipTrackId(clipId) == trackId) {
         return true;
     }
     std::function<bool(void)> undo = []() { return true; };
     std::function<bool(void)> redo = []() { return true; };
     bool res = true;
     if (m_groups->isInGroup(clipId)) {
         // element is in a group.
         int groupId = m_groups->getRootId(clipId);
         int current_trackId = getClipTrackId(clipId);
         int track_pos1 = getTrackPosition(trackId);
         int track_pos2 = getTrackPosition(current_trackId);
         int delta_track = track_pos1 - track_pos2;
         int delta_pos = position - m_allClips[clipId]->getPosition();
         res = requestGroupMove(clipId, groupId, delta_track, delta_pos, false, false, undo, redo, false);
     } else {
         res = requestClipMove(clipId, trackId, position, false, false, false, undo, redo);
     }
     if (res) {
         undo();
     }
     return res;
 }
 
 int TimelineModel::suggestItemMove(int itemId, int trackId, int position, int cursorPosition, int snapDistance)
 {
     if (isClip(itemId)) {
         return suggestClipMove(itemId, trackId, position, cursorPosition, snapDistance);
     }
     return suggestCompositionMove(itemId, trackId, position, cursorPosition, snapDistance);
 }
 
 int TimelineModel::suggestClipMove(int clipId, int trackId, int position, int cursorPosition, int snapDistance)
 {
     QWriteLocker locker(&m_lock);
     TRACE(clipId, trackId, position, cursorPosition, snapDistance);
     Q_ASSERT(isClip(clipId));
     Q_ASSERT(isTrack(trackId));
     int currentPos = getClipPosition(clipId);
     int sourceTrackId = getClipTrackId(clipId);
     if (sourceTrackId > -1 && getTrackById_const(trackId)->isAudioTrack() != getTrackById_const(sourceTrackId)->isAudioTrack()) {
         // Trying move on incompatible track type, stay on same track
         trackId = sourceTrackId;
     }
     if (currentPos == position && sourceTrackId == trackId) {
         TRACE_RES(position);
         return position;
     }
     bool after = position > currentPos;
     if (snapDistance > 0) {
         // For snapping, we must ignore all in/outs of the clips of the group being moved
         std::vector<int> ignored_pts;
         std::unordered_set<int> all_items = {clipId};
         if (m_groups->isInGroup(clipId)) {
             int groupId = m_groups->getRootId(clipId);
             all_items = m_groups->getLeaves(groupId);
         }
         for (int current_clipId : all_items) {
             if (getItemTrackId(current_clipId) != -1) {
                 int in = getItemPosition(current_clipId);
                 int out = in + getItemPlaytime(current_clipId);
                 ignored_pts.push_back(in);
                 ignored_pts.push_back(out);
             }
         }
 
         int snapped = getBestSnapPos(position, m_allClips[clipId]->getPlaytime(), m_editMode == TimelineMode::NormalEdit ? ignored_pts : std::vector<int>(),
                                      cursorPosition, snapDistance);
         // qDebug() << "Starting suggestion " << clipId << position << currentPos << "snapped to " << snapped;
         if (snapped >= 0) {
             position = snapped;
         }
     }
     // we check if move is possible
     bool possible = m_editMode == TimelineMode::NormalEdit ? requestClipMove(clipId, trackId, position, true, false, false)
                                                            : requestFakeClipMove(clipId, trackId, position, true, false, false);
     /*} else {
         possible = requestClipMoveAttempt(clipId, trackId, position);
     }*/
     if (possible) {
         TRACE_RES(position);
         return position;
     }
     if (sourceTrackId == -1) {
         // not clear what to do hear, if the current move doesn't work. We could try to find empty space, but it might end up being far away...
         TRACE_RES(currentPos);
         return currentPos;
     }
     // Find best possible move
     if (!m_groups->isInGroup(clipId)) {
         // Try same track move
         if (trackId != sourceTrackId && sourceTrackId != -1) {
             qDebug() << "// TESTING SAME TRACVK MOVE: " << trackId << " = " << sourceTrackId;
             trackId = sourceTrackId;
             possible = requestClipMove(clipId, trackId, position, true, false, false);
             if (!possible) {
                 qDebug() << "CANNOT MOVE CLIP : " << clipId << " ON TK: " << trackId << ", AT POS: " << position;
             } else {
                 TRACE_RES(position);
                 return position;
             }
         }
 
         int blank_length = getTrackById(trackId)->getBlankSizeNearClip(clipId, after);
         qDebug() << "Found blank" << blank_length;
         if (blank_length < INT_MAX) {
             if (after) {
                 position = currentPos + blank_length;
             } else {
                 position = currentPos - blank_length;
             }
         } else {
             TRACE_RES(currentPos);
             return currentPos;
         }
         possible = requestClipMove(clipId, trackId, position, true, false, false);
         TRACE_RES(possible ? position : currentPos);
         return possible ? position : currentPos;
     }
     // find best pos for groups
     int groupId = m_groups->getRootId(clipId);
     std::unordered_set<int> all_items = m_groups->getLeaves(groupId);
     QMap<int, int> trackPosition;
 
     // First pass, sort clips by track and keep only the first / last depending on move direction
     for (int current_clipId : all_items) {
         int clipTrack = getItemTrackId(current_clipId);
         if (clipTrack == -1) {
             continue;
         }
         int in = getItemPosition(current_clipId);
         if (trackPosition.contains(clipTrack)) {
             if (after) {
                 // keep only last clip position for track
                 int out = in + getItemPlaytime(current_clipId);
                 if (trackPosition.value(clipTrack) < out) {
                     trackPosition.insert(clipTrack, out);
                 }
             } else {
                 // keep only first clip position for track
                 if (trackPosition.value(clipTrack) > in) {
                     trackPosition.insert(clipTrack, in);
                 }
             }
         } else {
             trackPosition.insert(clipTrack, after ? in + getItemPlaytime(current_clipId) - 1 : in);
         }
     }
     // Now check space on each track
     QMapIterator<int, int> i(trackPosition);
     int blank_length = -1;
     while (i.hasNext()) {
         i.next();
         int track_space;
         if (!after) {
             // Check space before the position
             track_space = i.value() - getTrackById(i.key())->getBlankStart(i.value() - 1);
             if (blank_length == -1 || blank_length > track_space) {
                 blank_length = track_space;
             }
         } else {
             // Check space after the position
             track_space = getTrackById(i.key())->getBlankEnd(i.value() + 1) - i.value() - 1;
             if (blank_length == -1 || blank_length > track_space) {
                 blank_length = track_space;
             }
         }
     }
     if (blank_length != 0) {
         int updatedPos = currentPos + (after ? blank_length : -blank_length);
         possible = requestClipMove(clipId, trackId, updatedPos, true, false, false);
         if (possible) {
             TRACE_RES(updatedPos);
             return updatedPos;
         }
     }
     TRACE_RES(currentPos);
     return currentPos;
 }
 
 int TimelineModel::suggestCompositionMove(int compoId, int trackId, int position, int cursorPosition, int snapDistance)
 {
     QWriteLocker locker(&m_lock);
     TRACE(compoId, trackId, position, cursorPosition, snapDistance);
     Q_ASSERT(isComposition(compoId));
     Q_ASSERT(isTrack(trackId));
     int currentPos = getCompositionPosition(compoId);
     int currentTrack = getCompositionTrackId(compoId);
     if (getTrackById_const(trackId)->isAudioTrack()) {
         // Trying move on incompatible track type, stay on same track
         trackId = currentTrack;
     }
     if (currentPos == position && currentTrack == trackId) {
         TRACE_RES(position);
         return position;
     }
 
     if (snapDistance > 0) {
         // For snapping, we must ignore all in/outs of the clips of the group being moved
         std::vector<int> ignored_pts;
         if (m_groups->isInGroup(compoId)) {
             int groupId = m_groups->getRootId(compoId);
             auto all_items = m_groups->getLeaves(groupId);
             for (int current_compoId : all_items) {
                 // TODO: fix for composition
                 int in = getItemPosition(current_compoId);
                 int out = in + getItemPlaytime(current_compoId);
                 ignored_pts.push_back(in);
                 ignored_pts.push_back(out);
             }
         } else {
             int in = currentPos;
             int out = in + getCompositionPlaytime(compoId);
             qDebug() << " * ** IGNORING SNAP PTS: " << in << "-" << out;
             ignored_pts.push_back(in);
             ignored_pts.push_back(out);
         }
 
         int snapped = getBestSnapPos(position, m_allCompositions[compoId]->getPlaytime(), ignored_pts, cursorPosition, snapDistance);
         qDebug() << "Starting suggestion " << compoId << position << currentPos << "snapped to " << snapped;
         if (snapped >= 0) {
             position = snapped;
         }
     }
     // we check if move is possible
     bool possible = requestCompositionMove(compoId, trackId, position, true, false);
     qDebug() << "Original move success" << possible;
     if (possible) {
         TRACE_RES(position);
         return position;
     }
     /*bool after = position > currentPos;
     int blank_length = getTrackById(trackId)->getBlankSizeNearComposition(compoId, after);
     qDebug() << "Found blank" << blank_length;
     if (blank_length < INT_MAX) {
         if (after) {
             return currentPos + blank_length;
         }
         return currentPos - blank_length;
     }
     return position;*/
     TRACE_RES(currentPos);
     return currentPos;
 }
 
 bool TimelineModel::requestClipCreation(const QString &binClipId, int &id, PlaylistState::ClipState state, double speed, Fun &undo, Fun &redo)
 {
     qDebug() << "requestClipCreation " << binClipId;
     QString bid = binClipId;
     if (binClipId.contains(QLatin1Char('/'))) {
         bid = binClipId.section(QLatin1Char('/'), 0, 0);
     }
     if (!pCore->projectItemModel()->hasClip(bid)) {
         qDebug() << " / / / /MASTER CLIP NOT FOUND";
         return false;
     }
     std::shared_ptr<ProjectClip> master = pCore->projectItemModel()->getClipByBinID(bid);
     if (!master->isReady() || !master->isCompatible(state)) {
         qDebug() << "// CLIP NOT READY OR NOT COMPATIBLE: " << state;
         return false;
     }
     int clipId = TimelineModel::getNextId();
     id = clipId;
     Fun local_undo = deregisterClip_lambda(clipId);
     ClipModel::construct(shared_from_this(), bid, clipId, state, speed);
     auto clip = m_allClips[clipId];
     Fun local_redo = [clip, this, state]() {
         // We capture a shared_ptr to the clip, which means that as long as this undo object lives, the clip object is not deleted. To insert it back it is
         // sufficient to register it.
         registerClip(clip, true);
         clip->refreshProducerFromBin(state);
         return true;
     };
 
     if (binClipId.contains(QLatin1Char('/'))) {
         int in = binClipId.section(QLatin1Char('/'), 1, 1).toInt();
         int out = binClipId.section(QLatin1Char('/'), 2, 2).toInt();
         int initLength = m_allClips[clipId]->getPlaytime();
         bool res = true;
         if (in != 0) {
             res = requestItemResize(clipId, initLength - in, false, true, local_undo, local_redo);
         }
         res = res && requestItemResize(clipId, out - in + 1, true, true, local_undo, local_redo);
         if (!res) {
             bool undone = local_undo();
             Q_ASSERT(undone);
             return false;
         }
     }
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 bool TimelineModel::requestClipInsertion(const QString &binClipId, int trackId, int position, int &id, bool logUndo, bool refreshView, bool useTargets)
 {
     QWriteLocker locker(&m_lock);
     TRACE(binClipId, trackId, position, id, logUndo, refreshView, useTargets);
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = requestClipInsertion(binClipId, trackId, position, id, logUndo, refreshView, useTargets, undo, redo);
     if (result && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Insert Clip"));
     }
     TRACE_RES(result);
     return result;
 }
 
 bool TimelineModel::requestClipInsertion(const QString &binClipId, int trackId, int position, int &id, bool logUndo, bool refreshView, bool useTargets,
                                          Fun &undo, Fun &redo)
 {
     Fun local_undo = []() { return true; };
     Fun local_redo = []() { return true; };
     qDebug() << "requestClipInsertion " << binClipId << " "
              << " " << trackId << " " << position;
     bool res = false;
     ClipType::ProducerType type = ClipType::Unknown;
     QString bid = binClipId.section(QLatin1Char('/'), 0, 0);
     // dropType indicates if we want a normal drop (disabled), audio only or video only drop
     PlaylistState::ClipState dropType = PlaylistState::Disabled;
     if (bid.startsWith(QLatin1Char('A'))) {
         dropType = PlaylistState::AudioOnly;
         bid = bid.remove(0, 1);
     } else if (bid.startsWith(QLatin1Char('V'))) {
         dropType = PlaylistState::VideoOnly;
         bid = bid.remove(0, 1);
     }
     if (!pCore->projectItemModel()->hasClip(bid)) {
         return false;
     }
     std::shared_ptr<ProjectClip> master = pCore->projectItemModel()->getClipByBinID(bid);
     type = master->clipType();
     if (useTargets && m_audioTarget == -1 && m_videoTarget == -1) {
         useTargets = false;
     }
     if (dropType == PlaylistState::Disabled && (type == ClipType::AV || type == ClipType::Playlist)) {
         if (m_audioTarget >= 0 && m_videoTarget == -1 && useTargets) {
             // If audio target is set but no video target, only insert audio
             trackId = m_audioTarget;
             if (trackId > -1 && getTrackById_const(trackId)->isLocked()) {
                 trackId = -1;
             }
         } else if (useTargets && getTrackById_const(trackId)->isLocked()) {
             // Video target set but locked
             trackId = m_audioTarget;
             if (trackId > -1 && getTrackById_const(trackId)->isLocked()) {
                 trackId = -1;
             }
         }
         if (trackId == -1) {
             pCore->displayMessage(i18n("No available track for insert operation"), ErrorMessage);
             return false;
         }
         bool audioDrop = getTrackById_const(trackId)->isAudioTrack();
         res = requestClipCreation(binClipId, id, getTrackById_const(trackId)->trackType(), 1.0, local_undo, local_redo);
         res = res && requestClipMove(id, trackId, position, refreshView, logUndo, logUndo, local_undo, local_redo);
         int target_track;
         if (audioDrop) {
             target_track = m_videoTarget == -1 ? -1 : getTrackById_const(m_videoTarget)->isLocked() ? -1 : m_videoTarget;
         } else {
             target_track = m_audioTarget == -1 ? -1 : getTrackById_const(m_audioTarget)->isLocked() ? -1 : m_audioTarget;
         }
         qDebug() << "CLIP HAS A+V: " << master->hasAudioAndVideo();
         int mirror = getMirrorTrackId(trackId);
         if (mirror > -1 && getTrackById_const(mirror)->isLocked()) {
             mirror = -1;
         }
         bool canMirrorDrop = !useTargets && mirror > -1;
         if (res && (canMirrorDrop || target_track > -1) && master->hasAudioAndVideo()) {
             if (!useTargets) {
                 target_track = mirror;
             }
             // QList<int> possibleTracks = m_audioTarget >= 0 ? QList<int>() << m_audioTarget : getLowerTracksId(trackId, TrackType::AudioTrack);
             QList<int> possibleTracks;
             qDebug() << "CREATING SPLIT " << target_track << " usetargets" << useTargets;
             if (target_track >= 0 && !getTrackById_const(target_track)->isLocked()) {
                 possibleTracks << target_track;
             }
             if (possibleTracks.isEmpty()) {
                 // No available audio track for splitting, abort
                 pCore->displayMessage(i18n("No available track for split operation"), ErrorMessage);
                 res = false;
             } else {
                 std::function<bool(void)> audio_undo = []() { return true; };
                 std::function<bool(void)> audio_redo = []() { return true; };
                 int newId;
                 res = requestClipCreation(binClipId, newId, audioDrop ? PlaylistState::VideoOnly : PlaylistState::AudioOnly, 1.0, audio_undo, audio_redo);
                 if (res) {
                     bool move = false;
                     while (!move && !possibleTracks.isEmpty()) {
                         int newTrack = possibleTracks.takeFirst();
                         move = requestClipMove(newId, newTrack, position, true, true, true, audio_undo, audio_redo);
                     }
                     // use lazy evaluation to group only if move was successful
                     res = res && move && requestClipsGroup({id, newId}, audio_undo, audio_redo, GroupType::AVSplit);
                     if (!res || !move) {
                         pCore->displayMessage(i18n("Audio split failed: no viable track"), ErrorMessage);
                         bool undone = audio_undo();
                         Q_ASSERT(undone);
                     } else {
                         UPDATE_UNDO_REDO(audio_redo, audio_undo, local_undo, local_redo);
                     }
                 } else {
                     pCore->displayMessage(i18n("Audio split failed: impossible to create audio clip"), ErrorMessage);
                     bool undone = audio_undo();
                     Q_ASSERT(undone);
                 }
             }
         }
     } else {
         std::shared_ptr<ProjectClip> binClip = pCore->projectItemModel()->getClipByBinID(bid);
         if (dropType == PlaylistState::Disabled) {
             dropType = getTrackById_const(trackId)->trackType();
         } else if (dropType != getTrackById_const(trackId)->trackType()) {
             qDebug() << "// INCORRECT DRAG, ABORTING";
             return false;
         }
         QString normalisedBinId = binClipId;
         if (normalisedBinId.startsWith(QLatin1Char('A')) || normalisedBinId.startsWith(QLatin1Char('V'))) {
             normalisedBinId.remove(0, 1);
         }
         res = requestClipCreation(normalisedBinId, id, dropType, 1.0, local_undo, local_redo);
         res = res && requestClipMove(id, trackId, position, refreshView, logUndo, logUndo, local_undo, local_redo);
     }
     if (!res) {
         bool undone = local_undo();
         Q_ASSERT(undone);
         id = -1;
         return false;
     }
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 bool TimelineModel::requestItemDeletion(int itemId, Fun &undo, Fun &redo)
 {
     QWriteLocker locker(&m_lock);
     if (m_groups->isInGroup(itemId)) {
         return requestGroupDeletion(itemId, undo, redo);
     }
     if (isClip(itemId)) {
         return requestClipDeletion(itemId, undo, redo);
     }
     if (isComposition(itemId)) {
         return requestCompositionDeletion(itemId, undo, redo);
     }
     Q_ASSERT(false);
     return false;
 }
 
 bool TimelineModel::requestItemDeletion(int itemId, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     TRACE(itemId, logUndo);
     Q_ASSERT(isItem(itemId));
     QString actionLabel;
     if (m_groups->isInGroup(itemId)) {
         actionLabel = i18n("Remove group");
     } else {
         if (isClip(itemId)) {
             actionLabel = i18n("Delete Clip");
         } else {
             actionLabel = i18n("Delete Composition");
         }
     }
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool res = requestItemDeletion(itemId, undo, redo);
     if (res && logUndo) {
         PUSH_UNDO(undo, redo, actionLabel);
     }
     TRACE_RES(res);
     requestClearSelection(true);
     return res;
 }
 
 bool TimelineModel::requestClipDeletion(int clipId, Fun &undo, Fun &redo)
 {
     int trackId = getClipTrackId(clipId);
     if (trackId != -1) {
         bool res = getTrackById(trackId)->requestClipDeletion(clipId, true, true, undo, redo);
         if (!res) {
             undo();
             return false;
         }
     }
     auto operation = deregisterClip_lambda(clipId);
     auto clip = m_allClips[clipId];
     Fun reverse = [this, clip]() {
         // We capture a shared_ptr to the clip, which means that as long as this undo object lives, the clip object is not deleted. To insert it back it is
         // sufficient to register it.
         registerClip(clip, true);
         return true;
     };
     if (operation()) {
         UPDATE_UNDO_REDO(operation, reverse, undo, redo);
         return true;
     }
     undo();
     return false;
 }
 
 bool TimelineModel::requestCompositionDeletion(int compositionId, Fun &undo, Fun &redo)
 {
     int trackId = getCompositionTrackId(compositionId);
     if (trackId != -1) {
         bool res = getTrackById(trackId)->requestCompositionDeletion(compositionId, true, true, undo, redo);
         if (!res) {
             undo();
             return false;
         } else {
             unplantComposition(compositionId);
         }
     }
     Fun operation = deregisterComposition_lambda(compositionId);
     auto composition = m_allCompositions[compositionId];
     Fun reverse = [this, composition]() {
         // We capture a shared_ptr to the composition, which means that as long as this undo object lives, the composition object is not deleted. To insert it
         // back it is sufficient to register it.
         registerComposition(composition);
         return true;
     };
     if (operation()) {
         UPDATE_UNDO_REDO(operation, reverse, undo, redo);
         return true;
     }
     undo();
     return false;
 }
 
 std::unordered_set<int> TimelineModel::getItemsInRange(int trackId, int start, int end, bool listCompositions)
 {
     Q_UNUSED(listCompositions)
 
     std::unordered_set<int> allClips;
     if (trackId == -1) {
         for (const auto &track : m_allTracks) {
             if (track->isLocked()) {
                 continue;
             }
             std::unordered_set<int> clipTracks = getItemsInRange(track->getId(), start, end, listCompositions);
             allClips.insert(clipTracks.begin(), clipTracks.end());
         }
     } else {
         std::unordered_set<int> clipTracks = getTrackById(trackId)->getClipsInRange(start, end);
         allClips.insert(clipTracks.begin(), clipTracks.end());
         if (listCompositions) {
             std::unordered_set<int> compoTracks = getTrackById(trackId)->getCompositionsInRange(start, end);
             allClips.insert(compoTracks.begin(), compoTracks.end());
         }
     }
     return allClips;
 }
 
 bool TimelineModel::requestFakeGroupMove(int clipId, int groupId, int delta_track, int delta_pos, bool updateView, bool logUndo)
 {
     TRACE(clipId, groupId, delta_track, delta_pos, updateView, logUndo);
     std::function<bool(void)> undo = []() { return true; };
     std::function<bool(void)> redo = []() { return true; };
     bool res = requestFakeGroupMove(clipId, groupId, delta_track, delta_pos, updateView, logUndo, undo, redo);
     if (res && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Move group"));
     }
     TRACE_RES(res);
     return res;
 }
 
 bool TimelineModel::requestFakeGroupMove(int clipId, int groupId, int delta_track, int delta_pos, bool updateView, bool finalMove, Fun &undo, Fun &redo,
                                          bool allowViewRefresh)
 {
     Q_UNUSED(updateView);
     Q_UNUSED(finalMove);
     Q_UNUSED(undo);
     Q_UNUSED(redo);
     Q_UNUSED(allowViewRefresh);
     QWriteLocker locker(&m_lock);
     Q_ASSERT(m_allGroups.count(groupId) > 0);
     bool ok = true;
     auto all_items = m_groups->getLeaves(groupId);
     Q_ASSERT(all_items.size() > 1);
     Fun local_undo = []() { return true; };
     Fun local_redo = []() { return true; };
 
     // Moving groups is a two stage process: first we remove the clips from the tracks, and then try to insert them back at their calculated new positions.
     // This way, we ensure that no conflict will arise with clips inside the group being moved
 
     Fun update_model = []() { return true; };
 
     // Check if there is a track move
 
     // First, remove clips
     std::unordered_map<int, int> old_track_ids, old_position, old_forced_track;
     for (int item : all_items) {
         int old_trackId = getItemTrackId(item);
         old_track_ids[item] = old_trackId;
         if (old_trackId != -1) {
             if (isClip(item)) {
                 old_position[item] = m_allClips[item]->getPosition();
             } else {
                 old_position[item] = m_allCompositions[item]->getPosition();
                 old_forced_track[item] = m_allCompositions[item]->getForcedTrack();
             }
         }
     }
 
     // Second step, calculate delta
     int audio_delta, video_delta;
     audio_delta = video_delta = delta_track;
 
     if (getTrackById(old_track_ids[clipId])->isAudioTrack()) {
         // Master clip is audio, so reverse delta for video clips
         video_delta = -delta_track;
     } else {
         audio_delta = -delta_track;
     }
     bool trackChanged = false;
 
     // Reverse sort. We need to insert from left to right to avoid confusing the view
     for (int item : all_items) {
         int current_track_id = old_track_ids[item];
         int current_track_position = getTrackPosition(current_track_id);
         int d = getTrackById(current_track_id)->isAudioTrack() ? audio_delta : video_delta;
         int target_track_position = current_track_position + d;
         if (target_track_position >= 0 && target_track_position < getTracksCount()) {
             auto it = m_allTracks.cbegin();
             std::advance(it, target_track_position);
             int target_track = (*it)->getId();
             int target_position = old_position[item] + delta_pos;
             if (isClip(item)) {
                 qDebug() << "/// SETTING FAKE CLIP: " << target_track << ", POSITION: " << target_position;
                 m_allClips[item]->setFakePosition(target_position);
                 if (m_allClips[item]->getFakeTrackId() != target_track) {
                     trackChanged = true;
                 }
                 m_allClips[item]->setFakeTrackId(target_track);
             } else {
             }
         } else {
             qDebug() << "// ABORTING; MOVE TRIED ON TRACK: " << target_track_position << "..\n..\n..";
             ok = false;
         }
         if (!ok) {
             bool undone = local_undo();
             Q_ASSERT(undone);
             return false;
         }
     }
     QModelIndex modelIndex;
     QVector<int> roles{FakePositionRole};
     if (trackChanged) {
         roles << FakeTrackIdRole;
     }
     for (int item : all_items) {
         if (isClip(item)) {
             modelIndex = makeClipIndexFromID(item);
         } else {
             modelIndex = makeCompositionIndexFromID(item);
         }
         notifyChange(modelIndex, modelIndex, roles);
     }
     return true;
 }
 
 bool TimelineModel::requestGroupMove(int itemId, int groupId, int delta_track, int delta_pos, bool updateView, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     TRACE(itemId, groupId, delta_track, delta_pos, updateView, logUndo);
     std::function<bool(void)> undo = []() { return true; };
     std::function<bool(void)> redo = []() { return true; };
     bool res = requestGroupMove(itemId, groupId, delta_track, delta_pos, updateView, logUndo, undo, redo);
     if (res && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Move group"));
     }
     TRACE_RES(res);
     return res;
 }
 
 bool TimelineModel::requestGroupMove(int itemId, int groupId, int delta_track, int delta_pos, bool updateView, bool finalMove, Fun &undo, Fun &redo,
                                      bool allowViewRefresh)
 {
     QWriteLocker locker(&m_lock);
     Q_ASSERT(m_allGroups.count(groupId) > 0);
     Q_ASSERT(isItem(itemId));
     if (getGroupElements(groupId).count(itemId) == 0) {
         // this group doesn't contain the clip, abort
         return false;
     }
     bool ok = true;
     auto all_items = m_groups->getLeaves(groupId);
     Q_ASSERT(all_items.size() > 1);
     Fun local_undo = []() { return true; };
     Fun local_redo = []() { return true; };
     std::unordered_set<int> all_clips;
     std::unordered_set<int> all_compositions;
     // Separate clips from compositions to sort
     for (int affectedItemId : all_items) {
         if (isClip(affectedItemId)) {
             all_clips.insert(affectedItemId);
         } else {
             all_compositions.insert(affectedItemId);
         }
     }
 
     // Sort clips first
     std::vector<int> sorted_clips(all_clips.begin(), all_clips.end());
     std::sort(sorted_clips.begin(), sorted_clips.end(), [this, delta_track, delta_pos](int clipId1, int clipId2) {
         int p1 = m_allClips[clipId1]->getPosition();
         int p2 = m_allClips[clipId2]->getPosition();
         return delta_pos > 0 ? p2 <= p1 : p1 <= p2;
     });
 
     // Sort compositions. We need to delete in the move direction from top to bottom
     std::vector<int> sorted_compositions(all_compositions.begin(), all_compositions.end());
     std::sort(sorted_compositions.begin(), sorted_compositions.end(), [this, delta_track, delta_pos](int clipId1, int clipId2) {
         int p1 = delta_track < 0 ? getTrackMltIndex(m_allCompositions[clipId1]->getCurrentTrackId())
                                                    : delta_track > 0 ? -getTrackMltIndex(m_allCompositions[clipId1]->getCurrentTrackId())
                                                                      : m_allCompositions[clipId1]->getPosition();
         int p2 = delta_track < 0 ? getTrackMltIndex(m_allCompositions[clipId2]->getCurrentTrackId())
                                                    : delta_track > 0 ? -getTrackMltIndex(m_allCompositions[clipId2]->getCurrentTrackId())
                                                                      : m_allCompositions[clipId2]->getPosition();
         return delta_track == 0 ? (delta_pos > 0 ? p2 <= p1 : p1 <= p2) : p1 <= p2;
     });
     sorted_clips.insert(sorted_clips.end(), sorted_compositions.begin(), sorted_compositions.end());
 
     // Moving groups is a two stage process: first we remove the clips from the tracks, and then try to insert them back at their calculated new positions.
     // This way, we ensure that no conflict will arise with clips inside the group being moved
 
     Fun update_model = []() { return true; };
 
     // Check if there is a track move
     bool updatePositionOnly = false;
     if (delta_track == 0 && updateView) {
         updateView = false;
         allowViewRefresh = false;
         updatePositionOnly = true;
         update_model = [sorted_clips, this]() {
             QModelIndex modelIndex;
             QVector<int> roles{StartRole};
             for (int item : sorted_clips) {
                 if (isClip(item)) {
                     modelIndex = makeClipIndexFromID(item);
                 } else {
                     modelIndex = makeCompositionIndexFromID(item);
                 }
                 notifyChange(modelIndex, modelIndex, roles);
             }
             return true;
         };
     }
 
     // First, remove clips
     std::unordered_map<int, int> old_track_ids, old_position, old_forced_track;
     for (int item : sorted_clips) {
         int old_trackId = getItemTrackId(item);
         old_track_ids[item] = old_trackId;
         if (old_trackId != -1) {
             bool updateThisView = allowViewRefresh;
             if (isClip(item)) {
                 ok = ok && getTrackById(old_trackId)->requestClipDeletion(item, updateThisView, finalMove, local_undo, local_redo);
                 old_position[item] = m_allClips[item]->getPosition();
             } else {
                 // ok = ok && getTrackById(old_trackId)->requestCompositionDeletion(item, updateThisView, finalMove, local_undo, local_redo);
                 old_position[item] = m_allCompositions[item]->getPosition();
                 old_forced_track[item] = m_allCompositions[item]->getForcedTrack();
             }
             if (!ok) {
                 bool undone = local_undo();
                 Q_ASSERT(undone);
                 return false;
             }
         }
     }
 
     // Second step, reinsert clips at correct positions
     int audio_delta, video_delta;
     audio_delta = video_delta = delta_track;
 
     if (getTrackById(old_track_ids[itemId])->isAudioTrack()) {
         // Master clip is audio, so reverse delta for video clips
         video_delta = -delta_track;
     } else {
         audio_delta = -delta_track;
     }
 
     // We need to insert depending on the move direction to avoid confusing the view
     // std::reverse(std::begin(sorted_clips), std::end(sorted_clips));
     for (int item : sorted_clips) {
         int current_track_id = old_track_ids[item];
         int current_track_position = getTrackPosition(current_track_id);
         int d = getTrackById(current_track_id)->isAudioTrack() ? audio_delta : video_delta;
         int target_track_position = current_track_position + d;
         bool updateThisView = allowViewRefresh;
 
         if (target_track_position >= 0 && target_track_position < getTracksCount()) {
             auto it = m_allTracks.cbegin();
             std::advance(it, target_track_position);
             int target_track = (*it)->getId();
             int target_position = old_position[item] + delta_pos;
             if (isClip(item)) {
                 ok = ok && requestClipMove(item, target_track, target_position, updateThisView, finalMove, finalMove, local_undo, local_redo);
             } else {
                 ok = ok &&
                      requestCompositionMove(item, target_track, old_forced_track[item], target_position, updateThisView, finalMove, local_undo, local_redo);
             }
         } else {
             qDebug() << "// ABORTING; MOVE TRIED ON TRACK: " << target_track_position << "..\n..\n..";
             ok = false;
         }
         if (!ok) {
             bool undone = local_undo();
             Q_ASSERT(undone);
             return false;
         }
     }
     if (updatePositionOnly) {
         update_model();
         PUSH_LAMBDA(update_model, local_redo);
         PUSH_LAMBDA(update_model, local_undo);
     }
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 bool TimelineModel::requestGroupDeletion(int clipId, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     TRACE(clipId, logUndo);
     if (!m_groups->isInGroup(clipId)) {
         TRACE_RES(false);
         return false;
     }
     bool res = requestItemDeletion(clipId, logUndo);
     TRACE_RES(res);
     return res;
 }
 
 bool TimelineModel::requestGroupDeletion(int clipId, Fun &undo, Fun &redo)
 {
     // we do a breadth first exploration of the group tree, ungroup (delete) every inner node, and then delete all the leaves.
     std::queue<int> group_queue;
     group_queue.push(m_groups->getRootId(clipId));
     std::unordered_set<int> all_items;
     std::unordered_set<int> all_compositions;
     while (!group_queue.empty()) {
         int current_group = group_queue.front();
         bool isSelection = m_currentSelection == current_group;
         if (isSelection) {
             m_currentSelection = -1;
         }
         group_queue.pop();
         Q_ASSERT(isGroup(current_group));
         auto children = m_groups->getDirectChildren(current_group);
         int one_child = -1; // we need the id on any of the indices of the elements of the group
         for (int c : children) {
             if (isClip(c)) {
                 all_items.insert(c);
                 one_child = c;
             } else if (isComposition(c)) {
                 all_compositions.insert(c);
                 one_child = c;
             } else {
                 Q_ASSERT(isGroup(c));
                 one_child = c;
                 group_queue.push(c);
             }
         }
         if (one_child != -1) {
             if (m_groups->getType(current_group) == GroupType::Selection) {
                 Q_ASSERT(isSelection);
                 // in the case of a selection group, we delete the group but don't log it in the undo object
                 Fun tmp_undo = []() { return true; };
                 Fun tmp_redo = []() { return true; };
                 m_groups->ungroupItem(one_child, tmp_undo, tmp_redo);
             } else {
                 bool res = m_groups->ungroupItem(one_child, undo, redo);
                 if (!res) {
                     undo();
                     return false;
                 }
             }
         }
     }
     for (int clip : all_items) {
         bool res = requestClipDeletion(clip, undo, redo);
         if (!res) {
             undo();
             return false;
         }
     }
     for (int compo : all_compositions) {
         bool res = requestCompositionDeletion(compo, undo, redo);
         if (!res) {
             undo();
             return false;
         }
     }
     return true;
 }
 
 const QVariantList TimelineModel::getGroupData(int itemId)
 {
     QWriteLocker locker(&m_lock);
     if (!m_groups->isInGroup(itemId)) {
         return {itemId,getItemPosition(itemId),getItemPlaytime(itemId)};
     }
     int groupId = m_groups->getRootId(itemId);
     QVariantList result;
     std::unordered_set<int> items = m_groups->getLeaves(groupId);
     for (int id : items) {
         result << id << getItemPosition(id) << getItemPlaytime(id);
     }
     return result;
 }
 
 void TimelineModel::processGroupResize(QVariantList startPos, QVariantList endPos, bool right)
 {
     Q_ASSERT(startPos.size() == endPos.size());
     QMap <int, QPair<int,int> >startData;
     QMap <int, QPair<int,int> >endData;
     while( !startPos.isEmpty()) {
         int id = startPos.takeFirst().toInt();
         int in = startPos.takeFirst().toInt();
         int duration = startPos.takeFirst().toInt();
         startData.insert(id, {in, duration});
         id = endPos.takeFirst().toInt();
         in = endPos.takeFirst().toInt();
         duration = endPos.takeFirst().toInt();
         endData.insert(id, {in, duration});
     }
     QMapIterator<int, QPair<int,int> > i(startData);
     QList <int> changedItems;
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = true;
     while (i.hasNext()) {
         i.next();
-        QPair<int,int> startPos = i.value();
-        QPair<int,int> endPos = endData.value(i.key());
-        if (startPos.first != endPos.first || startPos.second != endPos.second) {
+        QPair<int,int> startItemPos = i.value();
+        QPair<int,int> endItemPos = endData.value(i.key());
+        if (startItemPos.first != endItemPos.first || startItemPos.second != endItemPos.second) {
             // Revert individual items to original position
-            requestItemResize(i.key(), startPos.second, right, false, 0, true);
+            requestItemResize(i.key(), startItemPos.second, right, false, 0, true);
             changedItems << i.key();
         }
     }
     for (int id : changedItems) {
-        QPair<int,int> endPos = endData.value(id);
-        result = result & requestItemResize(id, endPos.second, right, true, undo, redo, false);
+        QPair<int,int> endItemPos = endData.value(id);
+        result = result & requestItemResize(id, endItemPos.second, right, true, undo, redo, false);
         if (!result) {
             break;
         }
     }
     if (result) {
         PUSH_UNDO(undo, redo, i18n("Resize group"));
     } else {
         undo();
     }
 }
 
 int TimelineModel::requestItemResize(int itemId, int size, bool right, bool logUndo, int snapDistance, bool allowSingleResize)
 {
     if (logUndo) {
         qDebug() << "---------------------\n---------------------\nRESIZE W/UNDO CALLED\n++++++++++++++++\n++++";
     }
     QWriteLocker locker(&m_lock);
     TRACE(itemId, size, right, logUndo, snapDistance, allowSingleResize);
     Q_ASSERT(isItem(itemId));
     if (size <= 0) {
         TRACE_RES(-1);
         return -1;
     }
     int in = getItemPosition(itemId);
     int out = in + getItemPlaytime(itemId);
     if (snapDistance > 0 && getItemTrackId(itemId) != -1) {
         Fun temp_undo = []() { return true; };
         Fun temp_redo = []() { return true; };
         if (right && size > out - in && isClip(itemId)) {
             int targetPos = in + size - 1;
             int trackId = getItemTrackId(itemId);
             if (!getTrackById_const(trackId)->isBlankAt(targetPos)) {
                 size = getTrackById_const(trackId)->getBlankEnd(out + 1) - in;
             }
         } else if (!right && size > (out - in) && isClip(itemId)) {
             int targetPos = out - size;
             int trackId = getItemTrackId(itemId);
             if (!getTrackById_const(trackId)->isBlankAt(targetPos)) {
                 size = out - getTrackById_const(trackId)->getBlankStart(in - 1);
             }
         }
         int timelinePos = pCore->getTimelinePosition();
         m_snaps->addPoint(timelinePos);
         int proposed_size = m_snaps->proposeSize(in, out, size, right, snapDistance);
         m_snaps->removePoint(timelinePos);
         if (proposed_size > 0) {
             // only test move if proposed_size is valid
             bool success = false;
             if (isClip(itemId)) {
                 success = m_allClips[itemId]->requestResize(proposed_size, right, temp_undo, temp_redo, false);
             } else {
                 success = m_allCompositions[itemId]->requestResize(proposed_size, right, temp_undo, temp_redo, false);
             }
             if (success) {
                 temp_undo(); // undo temp move
                 size = proposed_size;
             }
         }
     }
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     std::unordered_set<int> all_items;
     if (!allowSingleResize && m_groups->isInGroup(itemId)) {
         int groupId = m_groups->getRootId(itemId);
         std::unordered_set<int> items;
         if (m_groups->getType(groupId) == GroupType::AVSplit) {
             // Only resize group elements if it is an avsplit
             items = m_groups->getLeaves(groupId);
         }
         all_items.insert(itemId);
         for (int id : items) {
             if (id == itemId) {
                 continue;
             }
             int start = getItemPosition(id);
             int end = start + getItemPlaytime(id);
             if (right) {
                 if (out == end) {
                     all_items.insert(id);
                 }
             } else if (start == in) {
                 all_items.insert(id);
             }
         }
     } else {
         all_items.insert(itemId);
     }
     bool result = true;
     int finalPos = right ? in + size : out - size;
     int finalSize;
     for (int id : all_items) {
         int tid = getItemTrackId(id);
         if (tid > -1 && getTrackById_const(tid)->isLocked()) {
             continue;
         }
         if (right) {
             finalSize = finalPos - getItemPosition(id);
         } else {
             finalSize = getItemPosition(id) + getItemPlaytime(id) - finalPos;
         }
         result = result && requestItemResize(id, finalSize, right, logUndo, undo, redo);
     }
     if (!result) {
         bool undone = undo();
         Q_ASSERT(undone);
         TRACE_RES(-1);
         return -1;
     }
     if (result && logUndo) {
         if (isClip(itemId)) {
             PUSH_UNDO(undo, redo, i18n("Resize clip"));
         } else {
             PUSH_UNDO(undo, redo, i18n("Resize composition"));
         }
     }
     int res = result ? size : -1;
     TRACE_RES(res);
     return res;
 }
 
 bool TimelineModel::requestItemResize(int itemId, int size, bool right, bool logUndo, Fun &undo, Fun &redo, bool blockUndo)
 {
     Fun local_undo = []() { return true; };
     Fun local_redo = []() { return true; };
     Fun update_model = [itemId, right, logUndo, this]() {
         Q_ASSERT(isItem(itemId));
         if (getItemTrackId(itemId) != -1) {
             qDebug() << "++++++++++\nRESIZING ITEM: " << itemId << "\n+++++++";
             QModelIndex modelIndex = isClip(itemId) ? makeClipIndexFromID(itemId) : makeCompositionIndexFromID(itemId);
             notifyChange(modelIndex, modelIndex, !right, true, logUndo);
         }
         return true;
     };
     bool result = false;
     if (isClip(itemId)) {
         result = m_allClips[itemId]->requestResize(size, right, local_undo, local_redo, logUndo);
     } else {
         Q_ASSERT(isComposition(itemId));
         result = m_allCompositions[itemId]->requestResize(size, right, local_undo, local_redo, logUndo);
     }
     if (result) {
         if (!blockUndo) {
             PUSH_LAMBDA(update_model, local_undo);
         }
         PUSH_LAMBDA(update_model, local_redo);
         update_model();
         UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     }
     return result;
 }
 
 int TimelineModel::requestClipsGroup(const std::unordered_set<int> &ids, bool logUndo, GroupType type)
 {
     QWriteLocker locker(&m_lock);
     TRACE(ids, logUndo, type);
     if (type == GroupType::Selection || type == GroupType::Leaf) {
         // Selections shouldn't be done here. Call requestSetSelection instead
         TRACE_RES(-1);
         return -1;
     }
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     int result = requestClipsGroup(ids, undo, redo, type);
     if (result > -1 && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Group clips"));
     }
     TRACE_RES(result);
     return result;
 }
 
 int TimelineModel::requestClipsGroup(const std::unordered_set<int> &ids, Fun &undo, Fun &redo, GroupType type)
 {
     QWriteLocker locker(&m_lock);
     if (type != GroupType::Selection) {
         requestClearSelection();
     }
     int clipsCount = 0;
     QList <int> tracks;
     for (int id : ids) {
         if (isClip(id)) {
             int trackId = getClipTrackId(id);
             if (trackId == -1) {
                 return -1;
             }
             tracks << trackId;
             clipsCount++;
         } else if (isComposition(id)) {
             if (getCompositionTrackId(id) == -1) {
                 return -1;
             }
         } else if (!isGroup(id)) {
             return -1;
         }
     }
     if (type == GroupType::Selection && ids.size() == 1) {
         // only one element selected, no group created
         return -1;
     }
     if (ids.size() == 2 && clipsCount == 2 && type == GroupType::Normal) {
         // Check if we are grouping an AVSplit
         std::unordered_set<int>::const_iterator it = ids.begin();
         int firstId = *it;
         std::advance(it, 1);
         int secondId = *it;
         bool isAVGroup = false;
         if (getClipBinId(firstId) == getClipBinId(secondId)) {
             if (getClipState(firstId) == PlaylistState::AudioOnly) {
                 if (getClipState(secondId) == PlaylistState::VideoOnly) {
                     isAVGroup = true;
                 }
             } else if (getClipState(secondId) == PlaylistState::AudioOnly) {
                 isAVGroup = true;
             }
         }
         if (isAVGroup) {
             type = GroupType::AVSplit;
         }
     }
     int groupId = m_groups->groupItems(ids, undo, redo, type);
     if (type != GroupType::Selection) {
         // we make sure that the undo and the redo are going to unselect before doing anything else
         Fun unselect = [this]() { return requestClearSelection(); };
         PUSH_FRONT_LAMBDA(unselect, undo);
         PUSH_FRONT_LAMBDA(unselect, redo);
     }
     return groupId;
 }
 
 bool TimelineModel::requestClipsUngroup(const std::unordered_set<int> &itemIds, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     TRACE(itemIds, logUndo);
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = true;
     requestClearSelection();
     std::unordered_set<int> roots;
     std::transform(itemIds.begin(), itemIds.end(), std::inserter(roots, roots.begin()), [&](int id) { return m_groups->getRootId(id); });
     for (int root : roots) {
         result = result && requestClipUngroup(root, undo, redo);
     }
     if (!result) {
         bool undone = undo();
         Q_ASSERT(undone);
     }
     if (result && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Ungroup clips"));
     }
     TRACE_RES(result);
     return result;
 }
 
 bool TimelineModel::requestClipUngroup(int itemId, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     TRACE(itemId, logUndo);
     requestClearSelection();
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = true;
     result = requestClipUngroup(itemId, undo, redo);
     if (result && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Ungroup clips"));
     }
     TRACE_RES(result);
     return result;
 }
 
 bool TimelineModel::requestClipUngroup(int itemId, Fun &undo, Fun &redo)
 {
     QWriteLocker locker(&m_lock);
     bool isSelection = m_groups->getType(m_groups->getRootId(itemId)) == GroupType::Selection;
     if (!isSelection) {
         requestClearSelection();
     }
     bool res = m_groups->ungroupItem(itemId, undo, redo);
     if (res && !isSelection) {
         // we make sure that the undo and the redo are going to unselect before doing anything else
         Fun unselect = [this]() { return requestClearSelection(); };
         PUSH_FRONT_LAMBDA(unselect, undo);
         PUSH_FRONT_LAMBDA(unselect, redo);
     }
     return res;
 }
 
 bool TimelineModel::requestTrackInsertion(int position, int &id, const QString &trackName, bool audioTrack)
 {
     QWriteLocker locker(&m_lock);
     TRACE(position, id, trackName, audioTrack);
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = requestTrackInsertion(position, id, trackName, audioTrack, undo, redo, true);
     if (result) {
         PUSH_UNDO(undo, redo, i18n("Insert Track"));
     }
     TRACE_RES(result);
     return result;
 }
 
 bool TimelineModel::requestTrackInsertion(int position, int &id, const QString &trackName, bool audioTrack, Fun &undo, Fun &redo, bool updateView)
 {
     // TODO: make sure we disable overlayTrack before inserting a track
     if (position == -1) {
         position = (int)(m_allTracks.size());
     }
     if (position < 0 || position > (int)m_allTracks.size()) {
         return false;
     }
     int trackId = TimelineModel::getNextId();
     id = trackId;
     Fun local_undo = deregisterTrack_lambda(trackId, true);
     TrackModel::construct(shared_from_this(), trackId, position, trackName, audioTrack);
     if (updateView) {
         _resetView();
     }
     auto track = getTrackById(trackId);
     Fun local_redo = [track, position, updateView, this]() {
         // We capture a shared_ptr to the track, which means that as long as this undo object lives, the track object is not deleted. To insert it back it is
         // sufficient to register it.
         registerTrack(track, position, true);
         if (updateView) {
             _resetView();
         }
         return true;
     };
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 bool TimelineModel::requestTrackDeletion(int trackId)
 {
     // TODO: make sure we disable overlayTrack before deleting a track
     QWriteLocker locker(&m_lock);
     TRACE(trackId);
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = requestTrackDeletion(trackId, undo, redo);
     if (result) {
         if (m_videoTarget == trackId) {
             m_videoTarget = -1;
         }
         if (m_audioTarget == trackId) {
             m_audioTarget = -1;
         }
         PUSH_UNDO(undo, redo, i18n("Delete Track"));
     }
     TRACE_RES(result);
     return result;
 }
 
 bool TimelineModel::requestTrackDeletion(int trackId, Fun &undo, Fun &redo)
 {
     Q_ASSERT(isTrack(trackId));
     std::vector<int> clips_to_delete;
     for (const auto &it : getTrackById(trackId)->m_allClips) {
         clips_to_delete.push_back(it.first);
     }
     Fun local_undo = []() { return true; };
     Fun local_redo = []() { return true; };
     for (int clip : clips_to_delete) {
         bool res = true;
         while (res && m_groups->isInGroup(clip)) {
             res = requestClipUngroup(clip, local_undo, local_redo);
         }
         if (res) {
             res = requestClipDeletion(clip, local_undo, local_redo);
         }
         if (!res) {
             bool u = local_undo();
             Q_ASSERT(u);
             return false;
         }
     }
     int old_position = getTrackPosition(trackId);
     auto operation = deregisterTrack_lambda(trackId, true);
     std::shared_ptr<TrackModel> track = getTrackById(trackId);
     Fun reverse = [this, track, old_position]() {
         // We capture a shared_ptr to the track, which means that as long as this undo object lives, the track object is not deleted. To insert it back it is
         // sufficient to register it.
         registerTrack(track, old_position);
         _resetView();
         return true;
     };
     if (operation()) {
         UPDATE_UNDO_REDO(operation, reverse, local_undo, local_redo);
         UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
         return true;
     }
     local_undo();
     return false;
 }
 
 void TimelineModel::registerTrack(std::shared_ptr<TrackModel> track, int pos, bool doInsert)
 {
     // qDebug() << "REGISTER TRACK" << track->getId() << pos;
     int id = track->getId();
     if (pos == -1) {
         pos = static_cast<int>(m_allTracks.size());
     }
     Q_ASSERT(pos >= 0);
     Q_ASSERT(pos <= static_cast<int>(m_allTracks.size()));
 
     // effective insertion (MLT operation), add 1 to account for black background track
     if (doInsert) {
         int error = m_tractor->insert_track(*track, pos + 1);
         Q_ASSERT(error == 0); // we might need better error handling...
     }
 
     // we now insert in the list
     auto posIt = m_allTracks.begin();
     std::advance(posIt, pos);
     auto it = m_allTracks.insert(posIt, std::move(track));
     // it now contains the iterator to the inserted element, we store it
     Q_ASSERT(m_iteratorTable.count(id) == 0); // check that id is not used (shouldn't happen)
     m_iteratorTable[id] = it;
 }
 
 void TimelineModel::registerClip(const std::shared_ptr<ClipModel> &clip, bool registerProducer)
 {
     int id = clip->getId();
     qDebug() << " // /REQUEST TL CLP REGSTR: " << id << "\n--------\nCLIPS COUNT: " << m_allClips.size();
     Q_ASSERT(m_allClips.count(id) == 0);
     m_allClips[id] = clip;
     clip->registerClipToBin(clip->getProducer(), registerProducer);
     m_groups->createGroupItem(id);
     clip->setTimelineEffectsEnabled(m_timelineEffectsEnabled);
 }
 
 void TimelineModel::registerGroup(int groupId)
 {
     Q_ASSERT(m_allGroups.count(groupId) == 0);
     m_allGroups.insert(groupId);
 }
 
 Fun TimelineModel::deregisterTrack_lambda(int id, bool updateView)
 {
     return [this, id, updateView]() {
         // qDebug() << "DEREGISTER TRACK" << id;
         auto it = m_iteratorTable[id];                        // iterator to the element
         int index = getTrackPosition(id);                     // compute index in list
         m_tractor->remove_track(static_cast<int>(index + 1)); // melt operation, add 1 to account for black background track
         // send update to the model
         m_allTracks.erase(it);     // actual deletion of object
         m_iteratorTable.erase(id); // clean table
         if (updateView) {
             _resetView();
         }
         return true;
     };
 }
 
 Fun TimelineModel::deregisterClip_lambda(int clipId)
 {
     return [this, clipId]() {
         // qDebug() << " // /REQUEST TL CLP DELETION: " << clipId << "\n--------\nCLIPS COUNT: " << m_allClips.size();
         requestClearSelection(true);
         clearAssetView(clipId);
         Q_ASSERT(m_allClips.count(clipId) > 0);
         Q_ASSERT(getClipTrackId(clipId) == -1); // clip must be deleted from its track at this point
         Q_ASSERT(!m_groups->isInGroup(clipId)); // clip must be ungrouped at this point
         auto clip = m_allClips[clipId];
         m_allClips.erase(clipId);
         clip->deregisterClipToBin();
         m_groups->destructGroupItem(clipId);
         return true;
     };
 }
 
 void TimelineModel::deregisterGroup(int id)
 {
     Q_ASSERT(m_allGroups.count(id) > 0);
     m_allGroups.erase(id);
 }
 
 std::shared_ptr<TrackModel> TimelineModel::getTrackById(int trackId)
 {
     Q_ASSERT(m_iteratorTable.count(trackId) > 0);
     return *m_iteratorTable[trackId];
 }
 
 const std::shared_ptr<TrackModel> TimelineModel::getTrackById_const(int trackId) const
 {
     Q_ASSERT(m_iteratorTable.count(trackId) > 0);
     return *m_iteratorTable.at(trackId);
 }
 
 bool TimelineModel::addTrackEffect(int trackId, const QString &effectId)
 {
     Q_ASSERT(m_iteratorTable.count(trackId) > 0);
     if ((*m_iteratorTable.at(trackId))->addEffect(effectId) == false) {
         QString effectName = EffectsRepository::get()->getName(effectId);
         pCore->displayMessage(i18n("Cannot add effect %1 to selected track", effectName), InformationMessage, 500);
         return false;
     }
     return true;
 }
 
 bool TimelineModel::copyTrackEffect(int trackId, const QString &sourceId)
 {
     QStringList source = sourceId.split(QLatin1Char('-'));
     Q_ASSERT(m_iteratorTable.count(trackId) > 0 && source.count() == 3);
     int itemType = source.at(0).toInt();
     int itemId = source.at(1).toInt();
     int itemRow = source.at(2).toInt();
     std::shared_ptr<EffectStackModel> effectStack = pCore->getItemEffectStack(itemType, itemId);
     if ((*m_iteratorTable.at(trackId))->copyEffect(effectStack, itemRow) == false) {
         pCore->displayMessage(i18n("Cannot paste effect to selected track"), InformationMessage, 500);
         return false;
     }
     return true;
 }
 
 std::shared_ptr<ClipModel> TimelineModel::getClipPtr(int clipId) const
 {
     Q_ASSERT(m_allClips.count(clipId) > 0);
     return m_allClips.at(clipId);
 }
 
 bool TimelineModel::addClipEffect(int clipId, const QString &effectId, bool notify)
 {
     Q_ASSERT(m_allClips.count(clipId) > 0);
     bool result = m_allClips.at(clipId)->addEffect(effectId);
     if (!result && notify) {
         QString effectName = EffectsRepository::get()->getName(effectId);
         pCore->displayMessage(i18n("Cannot add effect %1 to selected clip", effectName), InformationMessage, 500);
     }
     return result;
 }
 
 bool TimelineModel::removeFade(int clipId, bool fromStart)
 {
     Q_ASSERT(m_allClips.count(clipId) > 0);
     return m_allClips.at(clipId)->removeFade(fromStart);
 }
 
 std::shared_ptr<EffectStackModel> TimelineModel::getClipEffectStack(int itemId)
 {
     Q_ASSERT(m_allClips.count(itemId));
     return m_allClips.at(itemId)->m_effectStack;
 }
 
 bool TimelineModel::copyClipEffect(int clipId, const QString &sourceId)
 {
     QStringList source = sourceId.split(QLatin1Char('-'));
     Q_ASSERT(m_allClips.count(clipId) && source.count() == 3);
     int itemType = source.at(0).toInt();
     int itemId = source.at(1).toInt();
     int itemRow = source.at(2).toInt();
     std::shared_ptr<EffectStackModel> effectStack = pCore->getItemEffectStack(itemType, itemId);
     return m_allClips.at(clipId)->copyEffect(effectStack, itemRow);
 }
 
 bool TimelineModel::adjustEffectLength(int clipId, const QString &effectId, int duration, int initialDuration)
 {
     Q_ASSERT(m_allClips.count(clipId));
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool res = m_allClips.at(clipId)->adjustEffectLength(effectId, duration, initialDuration, undo, redo);
     if (res && initialDuration > 0) {
         PUSH_UNDO(undo, redo, i18n("Adjust Fade"));
     }
     return res;
 }
 
 std::shared_ptr<CompositionModel> TimelineModel::getCompositionPtr(int compoId) const
 {
     Q_ASSERT(m_allCompositions.count(compoId) > 0);
     return m_allCompositions.at(compoId);
 }
 
 int TimelineModel::getNextId()
 {
     return TimelineModel::next_id++;
 }
 
 bool TimelineModel::isClip(int id) const
 {
     return m_allClips.count(id) > 0;
 }
 
 bool TimelineModel::isComposition(int id) const
 {
     return m_allCompositions.count(id) > 0;
 }
 
 bool TimelineModel::isItem(int id) const
 {
     return isClip(id) || isComposition(id);
 }
 
 bool TimelineModel::isTrack(int id) const
 {
     return m_iteratorTable.count(id) > 0;
 }
 
 bool TimelineModel::isGroup(int id) const
 {
     return m_allGroups.count(id) > 0;
 }
 
 void TimelineModel::updateDuration()
 {
     if (m_closing) {
         return;
     }
     int current = m_blackClip->get_playtime() - TimelineModel::seekDuration;
     int duration = 0;
     for (const auto &tck : m_iteratorTable) {
         auto track = (*tck.second);
         duration = qMax(duration, track->trackDuration());
     }
     if (duration != current) {
         // update black track length
         m_blackClip->set_in_and_out(0, duration + TimelineModel::seekDuration);
         emit durationUpdated();
     }
 }
 
 int TimelineModel::duration() const
 {
     return m_tractor->get_playtime() - TimelineModel::seekDuration;
 }
 
 std::unordered_set<int> TimelineModel::getGroupElements(int clipId)
 {
     int groupId = m_groups->getRootId(clipId);
     return m_groups->getLeaves(groupId);
 }
 
 Mlt::Profile *TimelineModel::getProfile()
 {
     return m_profile;
 }
 
 bool TimelineModel::requestReset(Fun &undo, Fun &redo)
 {
     std::vector<int> all_ids;
     for (const auto &track : m_iteratorTable) {
         all_ids.push_back(track.first);
     }
     bool ok = true;
     for (int trackId : all_ids) {
         ok = ok && requestTrackDeletion(trackId, undo, redo);
     }
     return ok;
 }
 
 void TimelineModel::setUndoStack(std::weak_ptr<DocUndoStack> undo_stack)
 {
     m_undoStack = std::move(undo_stack);
 }
 
 int TimelineModel::suggestSnapPoint(int pos, int snapDistance)
 {
     int snapped = m_snaps->getClosestPoint(pos);
     return (qAbs(snapped - pos) < snapDistance ? snapped : pos);
 }
 
 int TimelineModel::getBestSnapPos(int pos, int length, const std::vector<int> &pts, int cursorPosition, int snapDistance)
 {
     if (!pts.empty()) {
         m_snaps->ignore(pts);
     }
     m_snaps->addPoint(cursorPosition);
     int snapped_start = m_snaps->getClosestPoint(pos);
     int snapped_end = m_snaps->getClosestPoint(pos + length);
     m_snaps->unIgnore();
     m_snaps->removePoint(cursorPosition);
 
     int startDiff = qAbs(pos - snapped_start);
     int endDiff = qAbs(pos + length - snapped_end);
     if (startDiff < endDiff && startDiff <= snapDistance) {
         // snap to start
         return snapped_start;
     }
     if (endDiff <= snapDistance) {
         // snap to end
         return snapped_end - length;
     }
     return -1;
 }
 
 int TimelineModel::getNextSnapPos(int pos)
 {
     return m_snaps->getNextPoint(pos);
 }
 
 int TimelineModel::getPreviousSnapPos(int pos)
 {
     return m_snaps->getPreviousPoint(pos);
 }
 
 void TimelineModel::addSnap(int pos)
 {
     TRACE(pos);
     return m_snaps->addPoint(pos);
 }
 
 void TimelineModel::removeSnap(int pos)
 {
     TRACE(pos);
     return m_snaps->removePoint(pos);
 }
 
 void TimelineModel::registerComposition(const std::shared_ptr<CompositionModel> &composition)
 {
     int id = composition->getId();
     Q_ASSERT(m_allCompositions.count(id) == 0);
     m_allCompositions[id] = composition;
     m_groups->createGroupItem(id);
 }
 
 bool TimelineModel::requestCompositionInsertion(const QString &transitionId, int trackId, int position, int length, std::unique_ptr<Mlt::Properties> transProps,
                                                 int &id, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     // TRACE(transitionId, trackId, position, length, transProps.get(), id, logUndo);
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     bool result = requestCompositionInsertion(transitionId, trackId, -1, position, length, std::move(transProps), id, undo, redo, logUndo);
     if (result && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Insert Composition"));
     }
     // TRACE_RES(result);
     return result;
 }
 
 bool TimelineModel::requestCompositionInsertion(const QString &transitionId, int trackId, int compositionTrack, int position, int length,
                                                 std::unique_ptr<Mlt::Properties> transProps, int &id, Fun &undo, Fun &redo, bool finalMove)
 {
     qDebug() << "Inserting compo track" << trackId << "pos" << position << "length" << length;
     int compositionId = TimelineModel::getNextId();
     id = compositionId;
     Fun local_undo = deregisterComposition_lambda(compositionId);
     CompositionModel::construct(shared_from_this(), transitionId, compositionId, std::move(transProps));
     auto composition = m_allCompositions[compositionId];
     Fun local_redo = [composition, this]() {
         // We capture a shared_ptr to the composition, which means that as long as this undo object lives, the composition object is not deleted. To insert it
         // back it is sufficient to register it.
         registerComposition(composition);
         return true;
     };
     bool res = requestCompositionMove(compositionId, trackId, compositionTrack, position, true, finalMove, local_undo, local_redo);
     qDebug() << "trying to move" << trackId << "pos" << position << "success " << res;
     if (res) {
         res = requestItemResize(compositionId, length, true, true, local_undo, local_redo, true);
         qDebug() << "trying to resize" << compositionId << "length" << length << "success " << res;
     }
     if (!res) {
         bool undone = local_undo();
         Q_ASSERT(undone);
         id = -1;
         return false;
     }
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 Fun TimelineModel::deregisterComposition_lambda(int compoId)
 {
     return [this, compoId]() {
         Q_ASSERT(m_allCompositions.count(compoId) > 0);
         Q_ASSERT(!m_groups->isInGroup(compoId)); // composition must be ungrouped at this point
         requestClearSelection(true);
         clearAssetView(compoId);
         m_allCompositions.erase(compoId);
         m_groups->destructGroupItem(compoId);
         return true;
     };
 }
 
 int TimelineModel::getCompositionPosition(int compoId) const
 {
     Q_ASSERT(m_allCompositions.count(compoId) > 0);
     const auto trans = m_allCompositions.at(compoId);
     return trans->getPosition();
 }
 
 int TimelineModel::getCompositionPlaytime(int compoId) const
 {
     READ_LOCK();
     Q_ASSERT(m_allCompositions.count(compoId) > 0);
     const auto trans = m_allCompositions.at(compoId);
     int playtime = trans->getPlaytime();
     return playtime;
 }
 
 int TimelineModel::getItemPosition(int itemId) const
 {
     if (isClip(itemId)) {
         return getClipPosition(itemId);
     }
     return getCompositionPosition(itemId);
 }
 
 int TimelineModel::getItemPlaytime(int itemId) const
 {
     if (isClip(itemId)) {
         return getClipPlaytime(itemId);
     }
     return getCompositionPlaytime(itemId);
 }
 
 int TimelineModel::getTrackCompositionsCount(int trackId) const
 {
     Q_ASSERT(isTrack(trackId));
     return getTrackById_const(trackId)->getCompositionsCount();
 }
 
 bool TimelineModel::requestCompositionMove(int compoId, int trackId, int position, bool updateView, bool logUndo)
 {
     QWriteLocker locker(&m_lock);
     Q_ASSERT(isComposition(compoId));
     if (m_allCompositions[compoId]->getPosition() == position && getCompositionTrackId(compoId) == trackId) {
         return true;
     }
     if (m_groups->isInGroup(compoId)) {
         // element is in a group.
         int groupId = m_groups->getRootId(compoId);
         int current_trackId = getCompositionTrackId(compoId);
         int track_pos1 = getTrackPosition(trackId);
         int track_pos2 = getTrackPosition(current_trackId);
         int delta_track = track_pos1 - track_pos2;
         int delta_pos = position - m_allCompositions[compoId]->getPosition();
         return requestGroupMove(compoId, groupId, delta_track, delta_pos, updateView, logUndo);
     }
     std::function<bool(void)> undo = []() { return true; };
     std::function<bool(void)> redo = []() { return true; };
     int min = getCompositionPosition(compoId);
     int max = min + getCompositionPlaytime(compoId);
     int tk = getCompositionTrackId(compoId);
     bool res = requestCompositionMove(compoId, trackId, m_allCompositions[compoId]->getForcedTrack(), position, updateView, logUndo, undo, redo);
     if (tk > -1) {
         min = qMin(min, getCompositionPosition(compoId));
         max = qMax(max, getCompositionPosition(compoId));
     } else {
         min = getCompositionPosition(compoId);
         max = min + getCompositionPlaytime(compoId);
     }
 
     if (res && logUndo) {
         PUSH_UNDO(undo, redo, i18n("Move composition"));
         checkRefresh(min, max);
     }
     return res;
 }
 
 bool TimelineModel::isAudioTrack(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     return (*it)->isAudioTrack();
 }
 
 bool TimelineModel::requestCompositionMove(int compoId, int trackId, int compositionTrack, int position, bool updateView, bool finalMove, Fun &undo, Fun &redo)
 {
     QWriteLocker locker(&m_lock);
     Q_ASSERT(isComposition(compoId));
     Q_ASSERT(isTrack(trackId));
     if (compositionTrack == -1 || (compositionTrack > 0 && trackId == getTrackIndexFromPosition(compositionTrack - 1))) {
         // qDebug() << "// compo track: " << trackId << ", PREVIOUS TK: " << getPreviousVideoTrackPos(trackId);
         compositionTrack = getPreviousVideoTrackPos(trackId);
     }
     if (compositionTrack == -1) {
         // it doesn't make sense to insert a composition on the last track
         qDebug() << "Move failed because of last track";
         return false;
     }
     qDebug() << "Requesting composition move" << trackId << "," << position << " ( " << compositionTrack << " / "
              << (compositionTrack > 0 ? getTrackIndexFromPosition(compositionTrack - 1) : 0);
 
     Fun local_undo = []() { return true; };
     Fun local_redo = []() { return true; };
     bool ok = true;
     int old_trackId = getCompositionTrackId(compoId);
     bool notifyViewOnly = false;
     Fun update_model = []() { return true; };
     if (updateView && old_trackId == trackId) {
         // Move on same track, only send view update
         updateView = false;
         notifyViewOnly = true;
         update_model = [compoId, this]() {
             QModelIndex modelIndex = makeCompositionIndexFromID(compoId);
             notifyChange(modelIndex, modelIndex, StartRole);
             return true;
         };
     }
     if (old_trackId != -1) {
         Fun delete_operation = []() { return true; };
         Fun delete_reverse = []() { return true; };
         if (old_trackId != trackId) {
             delete_operation = [this, compoId]() {
                 bool res = unplantComposition(compoId);
                 if (res) m_allCompositions[compoId]->setATrack(-1, -1);
                 return res;
             };
             int oldAtrack = m_allCompositions[compoId]->getATrack();
             delete_reverse = [this, compoId, oldAtrack, updateView]() {
                 m_allCompositions[compoId]->setATrack(oldAtrack, oldAtrack <= 0 ? -1 : getTrackIndexFromPosition(oldAtrack - 1));
                 return replantCompositions(compoId, updateView);
             };
         }
         ok = delete_operation();
         if (!ok) qDebug() << "Move failed because of first delete operation";
 
         if (ok) {
             if (notifyViewOnly) {
                 PUSH_LAMBDA(update_model, local_undo);
             }
             UPDATE_UNDO_REDO(delete_operation, delete_reverse, local_undo, local_redo);
             ok = getTrackById(old_trackId)->requestCompositionDeletion(compoId, updateView, finalMove, local_undo, local_redo);
         }
         if (!ok) {
             qDebug() << "Move failed because of first deletion request";
             bool undone = local_undo();
             Q_ASSERT(undone);
             return false;
         }
     }
     ok = getTrackById(trackId)->requestCompositionInsertion(compoId, position, updateView, finalMove, local_undo, local_redo);
     if (!ok) qDebug() << "Move failed because of second insertion request";
     if (ok) {
         Fun insert_operation = []() { return true; };
         Fun insert_reverse = []() { return true; };
         if (old_trackId != trackId) {
             insert_operation = [this, compoId, compositionTrack, updateView]() {
                 qDebug() << "-------------- ATRACK ----------------\n" << compositionTrack << " = " << getTrackIndexFromPosition(compositionTrack);
                 m_allCompositions[compoId]->setATrack(compositionTrack, compositionTrack <= 0 ? -1 : getTrackIndexFromPosition(compositionTrack - 1));
                 return replantCompositions(compoId, updateView);
             };
             insert_reverse = [this, compoId]() {
                 bool res = unplantComposition(compoId);
                 if (res) m_allCompositions[compoId]->setATrack(-1, -1);
                 return res;
             };
         }
         ok = insert_operation();
         if (!ok) qDebug() << "Move failed because of second insert operation";
         if (ok) {
             if (notifyViewOnly) {
                 PUSH_LAMBDA(update_model, local_redo);
             }
             UPDATE_UNDO_REDO(insert_operation, insert_reverse, local_undo, local_redo);
         }
     }
     if (!ok) {
         bool undone = local_undo();
         Q_ASSERT(undone);
         return false;
     }
     update_model();
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return true;
 }
 
 bool TimelineModel::replantCompositions(int currentCompo, bool updateView)
 {
     // We ensure that the compositions are planted in a decreasing order of b_track.
     // For that, there is no better option than to disconnect every composition and then reinsert everything in the correct order.
     std::vector<std::pair<int, int>> compos;
     for (const auto &compo : m_allCompositions) {
         int trackId = compo.second->getCurrentTrackId();
         if (trackId == -1 || compo.second->getATrack() == -1) {
             continue;
         }
         // Note: we need to retrieve the position of the track, that is its melt index.
         int trackPos = getTrackMltIndex(trackId);
         compos.emplace_back(trackPos, compo.first);
         if (compo.first != currentCompo) {
             unplantComposition(compo.first);
         }
     }
     // sort by decreasing b_track
     std::sort(compos.begin(), compos.end(), [](const std::pair<int, int> &a, const std::pair<int, int> &b) { return a.first > b.first; });
     // replant
     QScopedPointer<Mlt::Field> field(m_tractor->field());
     field->lock();
 
     // Unplant track compositing
     mlt_service nextservice = mlt_service_get_producer(field->get_service());
     mlt_properties properties = MLT_SERVICE_PROPERTIES(nextservice);
     QString resource = mlt_properties_get(properties, "mlt_service");
 
     mlt_service_type mlt_type = mlt_service_identify(nextservice);
     QList<Mlt::Transition *> trackCompositions;
     while (mlt_type == transition_type) {
         Mlt::Transition transition((mlt_transition)nextservice);
         nextservice = mlt_service_producer(nextservice);
         int internal = transition.get_int("internal_added");
         if (internal > 0 && resource != QLatin1String("mix")) {
             trackCompositions << new Mlt::Transition(transition);
             field->disconnect_service(transition);
             transition.disconnect_all_producers();
         }
         if (nextservice == nullptr) {
             break;
         }
         mlt_type = mlt_service_identify(nextservice);
         properties = MLT_SERVICE_PROPERTIES(nextservice);
         resource = mlt_properties_get(properties, "mlt_service");
     }
     // Sort track compositing
     std::sort(trackCompositions.begin(), trackCompositions.end(), [](Mlt::Transition *a, Mlt::Transition *b) { return a->get_b_track() < b->get_b_track(); });
 
     for (const auto &compo : compos) {
         int aTrack = m_allCompositions[compo.second]->getATrack();
         Q_ASSERT(aTrack != -1 && aTrack < m_tractor->count());
 
         int ret = field->plant_transition(*m_allCompositions[compo.second].get(), aTrack, compo.first);
         qDebug() << "Planting composition " << compo.second << "in " << aTrack << "/" << compo.first << "IN = " << m_allCompositions[compo.second]->getIn()
                  << "OUT = " << m_allCompositions[compo.second]->getOut() << "ret=" << ret;
 
         Mlt::Transition &transition = *m_allCompositions[compo.second].get();
         transition.set_tracks(aTrack, compo.first);
         mlt_service consumer = mlt_service_consumer(transition.get_service());
         Q_ASSERT(consumer != nullptr);
         if (ret != 0) {
             field->unlock();
             return false;
         }
     }
     // Replant last tracks compositing
     while (!trackCompositions.isEmpty()) {
         Mlt::Transition *firstTr = trackCompositions.takeFirst();
         field->plant_transition(*firstTr, firstTr->get_a_track(), firstTr->get_b_track());
     }
     field->unlock();
     if (updateView) {
         QModelIndex modelIndex = makeCompositionIndexFromID(currentCompo);
         notifyChange(modelIndex, modelIndex, ItemATrack);
     }
     return true;
 }
 
 bool TimelineModel::unplantComposition(int compoId)
 {
     qDebug() << "Unplanting" << compoId;
     Mlt::Transition &transition = *m_allCompositions[compoId].get();
     mlt_service consumer = mlt_service_consumer(transition.get_service());
     Q_ASSERT(consumer != nullptr);
     QScopedPointer<Mlt::Field> field(m_tractor->field());
     field->lock();
     field->disconnect_service(transition);
     int ret = transition.disconnect_all_producers();
 
     mlt_service nextservice = mlt_service_get_producer(transition.get_service());
     // mlt_service consumer = mlt_service_consumer(transition.get_service());
     Q_ASSERT(nextservice == nullptr);
     // Q_ASSERT(consumer == nullptr);
     field->unlock();
     return ret != 0;
 }
 
 bool TimelineModel::checkConsistency()
 {
     for (const auto &tck : m_iteratorTable) {
         auto track = (*tck.second);
         // Check parent/children link for tracks
         if (auto ptr = track->m_parent.lock()) {
             if (ptr.get() != this) {
                 qDebug() << "Wrong parent for track" << tck.first;
                 return false;
             }
         } else {
             qDebug() << "NULL parent for track" << tck.first;
             return false;
         }
         // check consistency of track
         if (!track->checkConsistency()) {
             qDebug() << "Consistency check failed for track" << tck.first;
             return false;
         }
     }
 
     // We store all in/outs of clips to check snap points
     std::map<int, int> snaps;
     // Check parent/children link for clips
     for (const auto &cp : m_allClips) {
         auto clip = (cp.second);
         // Check parent/children link for tracks
         if (auto ptr = clip->m_parent.lock()) {
             if (ptr.get() != this) {
                 qDebug() << "Wrong parent for clip" << cp.first;
                 return false;
             }
         } else {
             qDebug() << "NULL parent for clip" << cp.first;
             return false;
         }
         if (getClipTrackId(cp.first) != -1) {
             snaps[clip->getPosition()] += 1;
             snaps[clip->getPosition() + clip->getPlaytime()] += 1;
         }
         if (!clip->checkConsistency()) {
             qDebug() << "Consistency check failed for clip" << cp.first;
             return false;
         }
     }
     for (const auto &cp : m_allCompositions) {
         auto clip = (cp.second);
         // Check parent/children link for tracks
         if (auto ptr = clip->m_parent.lock()) {
             if (ptr.get() != this) {
                 qDebug() << "Wrong parent for compo" << cp.first;
                 return false;
             }
         } else {
             qDebug() << "NULL parent for compo" << cp.first;
             return false;
         }
         if (getCompositionTrackId(cp.first) != -1) {
             snaps[clip->getPosition()] += 1;
             snaps[clip->getPosition() + clip->getPlaytime()] += 1;
         }
     }
     // Check snaps
     auto stored_snaps = m_snaps->_snaps();
     if (snaps.size() != stored_snaps.size()) {
         qDebug() << "Wrong number of snaps: " << snaps.size() << " == " << stored_snaps.size();
         return false;
     }
     for (auto i = snaps.begin(), j = stored_snaps.begin(); i != snaps.end(); ++i, ++j) {
         if (*i != *j) {
             qDebug() << "Wrong snap info at point" << (*i).first;
             return false;
         }
     }
 
     // We check consistency with bin model
     auto binClips = pCore->projectItemModel()->getAllClipIds();
     // First step: all clips referenced by the bin model exist and are inserted
     for (const auto &binClip : binClips) {
         auto projClip = pCore->projectItemModel()->getClipByBinID(binClip);
         for (const auto &insertedClip : projClip->m_registeredClips) {
             if (auto ptr = insertedClip.second.lock()) {
                 if (ptr.get() == this) { // check we are talking of this timeline
                     if (!isClip(insertedClip.first)) {
                         qDebug() << "Bin model registers a bad clip ID" << insertedClip.first;
                         return false;
                     }
                 }
             } else {
                 qDebug() << "Bin model registers a clip in a NULL timeline" << insertedClip.first;
                 return false;
             }
         }
     }
 
     // Second step: all clips are referenced
     for (const auto &clip : m_allClips) {
         auto binId = clip.second->m_binClipId;
         auto projClip = pCore->projectItemModel()->getClipByBinID(binId);
         if (projClip->m_registeredClips.count(clip.first) == 0) {
             qDebug() << "Clip " << clip.first << "not registered in bin";
             return false;
         }
     }
 
     // We now check consistency of the compositions. For that, we list all compositions of the tractor, and see if we have a matching one in our
     // m_allCompositions
     std::unordered_set<int> remaining_compo;
     for (const auto &compo : m_allCompositions) {
         if (getCompositionTrackId(compo.first) != -1 && m_allCompositions[compo.first]->getATrack() != -1) {
             remaining_compo.insert(compo.first);
 
             // check validity of the consumer
             Mlt::Transition &transition = *m_allCompositions[compo.first].get();
             mlt_service consumer = mlt_service_consumer(transition.get_service());
             Q_ASSERT(consumer != nullptr);
         }
     }
     QScopedPointer<Mlt::Field> field(m_tractor->field());
     field->lock();
 
     mlt_service nextservice = mlt_service_get_producer(field->get_service());
     mlt_service_type mlt_type = mlt_service_identify(nextservice);
     while (nextservice != nullptr) {
         if (mlt_type == transition_type) {
             auto tr = (mlt_transition)nextservice;
             int currentTrack = mlt_transition_get_b_track(tr);
             int currentATrack = mlt_transition_get_a_track(tr);
 
             int currentIn = (int)mlt_transition_get_in(tr);
             int currentOut = (int)mlt_transition_get_out(tr);
 
             qDebug() << "looking composition IN: " << currentIn << ", OUT: " << currentOut << ", TRACK: " << currentTrack << " / " << currentATrack;
             int foundId = -1;
             // we iterate to try to find a matching compo
             for (int compoId : remaining_compo) {
                 if (getTrackMltIndex(getCompositionTrackId(compoId)) == currentTrack && m_allCompositions[compoId]->getATrack() == currentATrack &&
                     m_allCompositions[compoId]->getIn() == currentIn && m_allCompositions[compoId]->getOut() == currentOut) {
                     foundId = compoId;
                     break;
                 }
             }
             if (foundId == -1) {
                 qDebug() << "Error, we didn't find matching composition IN: " << currentIn << ", OUT: " << currentOut << ", TRACK: " << currentTrack << " / "
                          << currentATrack;
                 field->unlock();
                 return false;
             }
             qDebug() << "Found";
 
             remaining_compo.erase(foundId);
         }
         nextservice = mlt_service_producer(nextservice);
         if (nextservice == nullptr) {
             break;
         }
         mlt_type = mlt_service_identify(nextservice);
     }
     field->unlock();
 
     if (!remaining_compo.empty()) {
         qDebug() << "Error: We found less compositions than expected. Compositions that have not been found:";
         for (int compoId : remaining_compo) {
             qDebug() << compoId;
         }
         return false;
     }
 
     // We check consistency of groups
     if (!m_groups->checkConsistency(true, true)) {
         qDebug() << "== ERROR IN GROUP CONSISTENCY";
         return false;
     }
 
     // Check that the selection is in a valid state:
     if (m_currentSelection != -1 && !isClip(m_currentSelection) && !isComposition(m_currentSelection) && !isGroup(m_currentSelection)) {
         qDebug() << "Selection is in inconsistent state";
         return false;
     }
     return true;
 }
 
 void TimelineModel::setTimelineEffectsEnabled(bool enabled)
 {
     m_timelineEffectsEnabled = enabled;
     // propagate info to clips
     for (const auto &clip : m_allClips) {
         clip.second->setTimelineEffectsEnabled(enabled);
     }
 
     // TODO if we support track effects, they should be disabled here too
 }
 
 std::shared_ptr<Mlt::Producer> TimelineModel::producer()
 {
     return std::make_shared<Mlt::Producer>(tractor());
 }
 
 void TimelineModel::checkRefresh(int start, int end)
 {
     if (m_blockRefresh) {
         return;
     }
     int currentPos = tractor()->position();
     if (currentPos >= start && currentPos < end) {
         emit requestMonitorRefresh();
     }
 }
 
 void TimelineModel::clearAssetView(int itemId)
 {
     emit requestClearAssetView(itemId);
 }
 
 std::shared_ptr<AssetParameterModel> TimelineModel::getCompositionParameterModel(int compoId) const
 {
     READ_LOCK();
     Q_ASSERT(isComposition(compoId));
     return std::static_pointer_cast<AssetParameterModel>(m_allCompositions.at(compoId));
 }
 
 std::shared_ptr<EffectStackModel> TimelineModel::getClipEffectStackModel(int clipId) const
 {
     READ_LOCK();
     Q_ASSERT(isClip(clipId));
     return std::static_pointer_cast<EffectStackModel>(m_allClips.at(clipId)->m_effectStack);
 }
 
 std::shared_ptr<EffectStackModel> TimelineModel::getTrackEffectStackModel(int trackId)
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     return getTrackById(trackId)->m_effectStack;
 }
 
 QStringList TimelineModel::extractCompositionLumas() const
 {
     QStringList urls;
     for (const auto &compo : m_allCompositions) {
         QString luma = compo.second->getProperty(QStringLiteral("resource"));
         if (!luma.isEmpty()) {
             urls << QUrl::fromLocalFile(luma).toLocalFile();
         }
     }
     urls.removeDuplicates();
     return urls;
 }
 
 void TimelineModel::adjustAssetRange(int clipId, int in, int out)
 {
     Q_UNUSED(clipId)
     Q_UNUSED(in)
     Q_UNUSED(out)
     // pCore->adjustAssetRange(clipId, in, out);
 }
 
 void TimelineModel::requestClipReload(int clipId)
 {
     std::function<bool(void)> local_undo = []() { return true; };
     std::function<bool(void)> local_redo = []() { return true; };
 
     // in order to make the producer change effective, we need to unplant / replant the clip in int track
     int old_trackId = getClipTrackId(clipId);
     int oldPos = getClipPosition(clipId);
     int oldOut = getClipIn(clipId) + getClipPlaytime(clipId);
 
     // Check if clip out is longer than actual producer duration (if user forced duration)
     std::shared_ptr<ProjectClip> binClip = pCore->projectItemModel()->getClipByBinID(getClipBinId(clipId));
     bool refreshView = oldOut > (int)binClip->frameDuration();
     if (old_trackId != -1) {
         getTrackById(old_trackId)->requestClipDeletion(clipId, refreshView, true, local_undo, local_redo);
     }
     if (old_trackId != -1) {
         m_allClips[clipId]->refreshProducerFromBin();
         getTrackById(old_trackId)->requestClipInsertion(clipId, oldPos, refreshView, true, local_undo, local_redo);
     }
 }
 
 void TimelineModel::replugClip(int clipId)
 {
     int old_trackId = getClipTrackId(clipId);
     if (old_trackId != -1) {
         getTrackById(old_trackId)->replugClip(clipId);
     }
 }
 
 void TimelineModel::requestClipUpdate(int clipId, const QVector<int> &roles)
 {
     QModelIndex modelIndex = makeClipIndexFromID(clipId);
     if (roles.contains(TimelineModel::ReloadThumbRole)) {
         m_allClips[clipId]->forceThumbReload = !m_allClips[clipId]->forceThumbReload;
     }
     notifyChange(modelIndex, modelIndex, roles);
 }
 
 bool TimelineModel::requestClipTimeWarp(int clipId, double speed, Fun &undo, Fun &redo)
 {
     QWriteLocker locker(&m_lock);
     if (qFuzzyCompare(speed, m_allClips[clipId]->getSpeed())) {
         return true;
     }
     std::function<bool(void)> local_undo = []() { return true; };
     std::function<bool(void)> local_redo = []() { return true; };
     int oldPos = getClipPosition(clipId);
     // in order to make the producer change effective, we need to unplant / replant the clip in int track
     bool success = true;
     int trackId = getClipTrackId(clipId);
     if (trackId != -1) {
         success = success && getTrackById(trackId)->requestClipDeletion(clipId, true, true, local_undo, local_redo);
     }
     if (success) {
         success = m_allClips[clipId]->useTimewarpProducer(speed, local_undo, local_redo);
     }
     if (trackId != -1) {
         success = success && getTrackById(trackId)->requestClipInsertion(clipId, oldPos, true, true, local_undo, local_redo);
     }
     if (!success) {
         local_undo();
         return false;
     }
     UPDATE_UNDO_REDO(local_redo, local_undo, undo, redo);
     return success;
 }
 
 bool TimelineModel::requestClipTimeWarp(int clipId, double speed)
 {
     QWriteLocker locker(&m_lock);
     TRACE(clipId, speed);
     Fun undo = []() { return true; };
     Fun redo = []() { return true; };
     // Get main clip info
     int trackId = getClipTrackId(clipId);
     bool result = true;
     if (trackId != -1) {
         // Check if clip has a split partner
         int splitId = m_groups->getSplitPartner(clipId);
         if (splitId > -1) {
             result = requestClipTimeWarp(splitId, speed / 100.0, undo, redo);
         }
         if (result) {
             result = requestClipTimeWarp(clipId, speed / 100.0, undo, redo);
         } else {
             pCore->displayMessage(i18n("Change speed failed"), ErrorMessage);
             undo();
             TRACE_RES(false);
             return false;
         }
     } else {
         // If clip is not inserted on a track, we just change the producer
         result = m_allClips[clipId]->useTimewarpProducer(speed, undo, redo);
     }
     if (result) {
         PUSH_UNDO(undo, redo, i18n("Change clip speed"));
     }
     TRACE_RES(result);
     return result;
 }
 
 const QString TimelineModel::getTrackTagById(int trackId) const
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     bool isAudio = getTrackById_const(trackId)->isAudioTrack();
     int count = 1;
     int totalAudio = 2;
     auto it = m_allTracks.begin();
     bool found = false;
     while ((isAudio || !found) && it != m_allTracks.end()) {
         if ((*it)->isAudioTrack()) {
             totalAudio++;
             if (isAudio && !found) {
                 count++;
             }
         } else if (!isAudio) {
             count++;
         }
         if ((*it)->getId() == trackId) {
             found = true;
         }
         it++;
     }
     return isAudio ? QStringLiteral("A%1").arg(totalAudio - count) : QStringLiteral("V%1").arg(count - 1);
 }
 
 void TimelineModel::updateProfile(Mlt::Profile *profile)
 {
     m_profile = profile;
     m_tractor->set_profile(*m_profile);
 }
 
 int TimelineModel::getBlankSizeNearClip(int clipId, bool after) const
 {
     READ_LOCK();
     Q_ASSERT(m_allClips.count(clipId) > 0);
     int trackId = getClipTrackId(clipId);
     if (trackId != -1) {
         return getTrackById_const(trackId)->getBlankSizeNearClip(clipId, after);
     }
     return 0;
 }
 
 int TimelineModel::getPreviousTrackId(int trackId)
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     bool audioWanted = (*it)->isAudioTrack();
     while (it != m_allTracks.begin()) {
         --it;
         if (it != m_allTracks.begin() && (*it)->isAudioTrack() == audioWanted) {
             break;
         }
     }
     return it == m_allTracks.begin() ? trackId : (*it)->getId();
 }
 
 int TimelineModel::getNextTrackId(int trackId)
 {
     READ_LOCK();
     Q_ASSERT(isTrack(trackId));
     auto it = m_iteratorTable.at(trackId);
     bool audioWanted = (*it)->isAudioTrack();
     while (it != m_allTracks.end()) {
         ++it;
         if (it != m_allTracks.end() && (*it)->isAudioTrack() == audioWanted) {
             break;
         }
     }
     return it == m_allTracks.end() ? trackId : (*it)->getId();
 }
 
 bool TimelineModel::requestClearSelection(bool onDeletion)
 {
     QWriteLocker locker(&m_lock);
     TRACE();
     if (m_currentSelection == -1) {
         TRACE_RES(true);
         return true;
     }
     if (isGroup(m_currentSelection)) {
         if (m_groups->getType(m_currentSelection) == GroupType::Selection) {
             // Reset offset display on clips
             std::unordered_set<int> items = getCurrentSelection();
             for (auto &id : items) {
                 if (isClip(id)) {
                     m_allClips[id]->clearOffset();
                 }
             }
             m_groups->destructGroupItem(m_currentSelection);
         }
     } else {
         Q_ASSERT(onDeletion || isClip(m_currentSelection) || isComposition(m_currentSelection));
     }
     m_currentSelection = -1;
     emit selectionChanged();
     TRACE_RES(true);
     return true;
 }
 void TimelineModel::requestClearSelection(bool onDeletion, Fun &undo, Fun &redo)
 {
     Fun operation = [this, onDeletion]() {
         requestClearSelection(onDeletion);
         return true;
     };
     Fun reverse = [this, clips = getCurrentSelection()]() { return requestSetSelection(clips); };
     if (operation()) {
         UPDATE_UNDO_REDO(operation, reverse, undo, redo);
     }
 }
 
 std::unordered_set<int> TimelineModel::getCurrentSelection() const
 {
     READ_LOCK();
     if (m_currentSelection == -1) {
         return {};
     }
     if (isGroup(m_currentSelection)) {
         return m_groups->getLeaves(m_currentSelection);
     } else {
         Q_ASSERT(isClip(m_currentSelection) || isComposition(m_currentSelection));
         return {m_currentSelection};
     }
 }
 void TimelineModel::requestAddToSelection(int itemId, bool clear)
 {
     QWriteLocker locker(&m_lock);
     TRACE(itemId, clear);
     if (clear) {
         requestClearSelection();
     }
     std::unordered_set<int> selection = getCurrentSelection();
     if (selection.count(itemId) == 0) {
         selection.insert(itemId);
         requestSetSelection(selection);
     }
 }
 
 void TimelineModel::requestRemoveFromSelection(int itemId)
 {
     QWriteLocker locker(&m_lock);
     TRACE(itemId);
     std::unordered_set<int> all_items = {itemId};
     int parentGroup = m_groups->getDirectAncestor(itemId);
     if (parentGroup > -1 && m_groups->getType(parentGroup) != GroupType::Selection) {
         all_items = m_groups->getLeaves(parentGroup);
     }
     std::unordered_set<int> selection = getCurrentSelection();
     for (int current_itemId : all_items) {
         if (selection.count(current_itemId) > 0) {
             selection.erase(current_itemId);
         }
     }
     requestSetSelection(selection);
 }
 
 bool TimelineModel::requestSetSelection(const std::unordered_set<int> &ids)
 {
     QWriteLocker locker(&m_lock);
     TRACE(ids);
 
     requestClearSelection();
     // if the items are in groups, we must retrieve their topmost containing groups
     std::unordered_set<int> roots;
     std::transform(ids.begin(), ids.end(), std::inserter(roots, roots.begin()), [&](int id) { return m_groups->getRootId(id); });
 
     bool result = true;
     if (roots.size() == 0) {
         m_currentSelection = -1;
     } else if (roots.size() == 1) {
         m_currentSelection = *(roots.begin());
     } else {
         Fun undo = []() { return true; };
         Fun redo = []() { return true; };
         if (ids.size() == 2) {
             // Check if we selected 2 clips from the same master
             QList<int> pairIds;
             for(auto &id : roots) {
                 if (isClip(id)) {
                     pairIds << id;
                 }
             }
             if (pairIds.size() == 2 && getClipBinId(pairIds.at(0)) == getClipBinId(pairIds.at(1))) {
                 // Check if they have same bin id
                 // Both clips have same bin ID, display offset
                 int pos1 = getClipPosition(pairIds.at(0));
                 int pos2 = getClipPosition(pairIds.at(1));
                 if (pos2 > pos1) {
                     int offset = pos2 - getClipIn(pairIds.at(1)) - (pos1 - getClipIn(pairIds.at(0)));
                     if (offset != 0) {
                         m_allClips[pairIds.at(1)]->setOffset(offset);
                         m_allClips[pairIds.at(0)]->setOffset(-offset);
                     }
                 } else {
                     int offset = pos1 - getClipIn(pairIds.at(0)) - (pos2 - getClipIn(pairIds.at(1)));
                     if (offset != 0) {
                         m_allClips[pairIds.at(0)]->setOffset(offset);
                         m_allClips[pairIds.at(1)]->setOffset(-offset);
                     }
                 }
             }
         }
         result = (m_currentSelection = m_groups->groupItems(ids, undo, redo, GroupType::Selection)) >= 0;
         Q_ASSERT(m_currentSelection >= 0);
     }
     emit selectionChanged();
     return result;
 }
 
 bool TimelineModel::requestSetSelection(const std::unordered_set<int> &ids, Fun &undo, Fun &redo)
 {
     Fun reverse = [this]() {
         requestClearSelection(false);
         return true;
     };
     Fun operation = [this, ids]() { return requestSetSelection(ids); };
     if (operation()) {
         UPDATE_UNDO_REDO(operation, reverse, undo, redo);
         return true;
     }
     return false;
 }
diff --git a/src/timeline2/view/qml/Track.qml b/src/timeline2/view/qml/Track.qml
index 4f319b3a1..5674a914d 100644
--- a/src/timeline2/view/qml/Track.qml
+++ b/src/timeline2/view/qml/Track.qml
@@ -1,363 +1,363 @@
 /*
  * Copyright (c) 2013-2016 Meltytech, LLC
  * Author: Dan Dennedy <dan@dennedy.org>
  *
  * 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 3 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program.  If not, see <http://www.gnu.org/licenses/>.
  */
 
 import QtQuick 2.6
 import QtQml.Models 2.2
 import com.enums 1.0
 
 Column{
     id: trackRoot
     property alias trackModel: trackModel.model
     property alias rootIndex : trackModel.rootIndex
     property bool isAudio
     property bool isMute
     property bool isHidden
     property real timeScale: 1.0
     property bool isCurrentTrack: false
     property bool isLocked: false
     property int trackInternalId : -42
     property int trackThumbsFormat
     property int itemType: 0
 
     /*function redrawWaveforms() {
         for (var i = 0; i < repeater.count; i++)
             repeater.itemAt(i).generateWaveform()
     }*/
 
     function clipAt(index) {
         return repeater.itemAt(index)
     }
 
     function isClip(type) {
         return type != ProducerType.Composition && type != ProducerType.Track;
     }
 
     width: clipRow.width
 
     DelegateModel {
         id: trackModel
         delegate: Item {
             property var itemModel : model
             z: model.clipType == ProducerType.Composition ? 5 : 0
             Loader {
                 id: loader
                 Binding {
                     target: loader.item
                     property: "timeScale"
                     value: trackRoot.timeScale
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "fakeTid"
                     value: model.fakeTrackId
                     when: loader.status == Loader.Ready && loader.item && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "fakePosition"
                     value: model.fakePosition
                     when: loader.status == Loader.Ready && loader.item && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "selected"
                     value: loader.item ? root.timelineSelection.indexOf(loader.item.clipId) !== -1 : false
                     when: loader.status == Loader.Ready && model.clipType != ProducerType.Track
                 }
                 Binding {
                     target: loader.item
                     property: "mltService"
                     value: model.mlt_service
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "modelStart"
                     value: model.start
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "scrollX"
                     value: scrollView.flickableItem.contentX
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "fadeIn"
                     value: model.fadeIn
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "positionOffset"
                     value: model.positionOffset
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "effectNames"
                     value: model.effectNames
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "clipStatus"
                     value: model.clipStatus
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "fadeOut"
                     value: model.fadeOut
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "showKeyframes"
                     value: model.showKeyframes
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "isGrabbed"
                     value: model.isGrabbed
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "keyframeModel"
                     value: model.keyframeModel
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "aTrack"
                     value: model.a_track
                     when: loader.status == Loader.Ready && loader.item.clipType == ProducerType.Composition
                 }
                 Binding {
                     target: loader.item
                     property: "trackHeight"
                     value: root.trackHeight
                     when: loader.status == Loader.Ready && loader.item.clipType == ProducerType.Composition
                 }
                 Binding {
                     target: loader.item
                     property: "clipDuration"
                     value: model.duration
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "inPoint"
                     value: model.in
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "outPoint"
                     value: model.out
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "grouped"
                     value: model.grouped
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "clipName"
                     value: model.name
                     when: loader.status == Loader.Ready && loader.item
                 }
                 Binding {
                     target: loader.item
                     property: "clipResource"
                     value: model.resource
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "speed"
                     value: model.speed
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "forceReloadThumb"
                     value: model.reloadThumb
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 Binding {
                     target: loader.item
                     property: "binId"
                     value: model.binId
                     when: loader.status == Loader.Ready && isClip(model.clipType)
                 }
                 sourceComponent: {
                     if (isClip(model.clipType)) {
                         return clipDelegate
                     } else if (model.clipType == ProducerType.Composition) {
                         return compositionDelegate
                     } else {
                         // Track
                         return undefined
                     }
                 }
                 onLoaded: {
                     item.clipId= model.item
                     item.parentTrack = trackRoot
                     if (isClip(model.clipType)) {
                         console.log('loaded clip: ', model.start, ', ID: ', model.item, ', index: ', trackRoot.DelegateModel.itemsIndex,', TYPE:', model.clipType)
                         item.isAudio= model.audio
                         item.markers= model.markers
                         item.hasAudio = model.hasAudio
                         item.canBeAudio = model.canBeAudio
                         item.canBeVideo = model.canBeVideo
                         item.itemType = model.clipType
                         item.audioChannels = model.audioChannels
                         //item.binId= model.binId
                     } else if (model.clipType == ProducerType.Composition) {
                         console.log('loaded composition: ', model.start, ', ID: ', model.item, ', index: ', trackRoot.DelegateModel.itemsIndex)
                         //item.aTrack = model.a_track
                     } else {
                         console.log('loaded unwanted element: ', model.item, ', index: ', trackRoot.DelegateModel.itemsIndex)
                     }
                     item.trackId = model.trackId
                     //item.selected= trackRoot.selection.indexOf(item.clipId) !== -1
                     //console.log(width, height);
                 }
             }
         }
     }
 
     Item {
         id: clipRow
         height: trackRoot.height
         Repeater { id: repeater; model: trackModel }
     }
 
     Component {
         id: clipDelegate
         Clip {
             height: trackRoot.height
             onInitGroupTrim: {
                 // We are resizing a group, remember coordinates of all elements
                 clip.groupTrimData = controller.getGroupData(clip.clipId)
             }
             onTrimmingIn: {
                 var new_duration = controller.requestItemResize(clip.clipId, newDuration, false, false, root.snapping, shiftTrim)
                 if (new_duration > 0) {
                     clip.lastValidDuration = new_duration
                     clip.originalX = clip.draggedX
                     // Show amount trimmed as a time in a "bubble" help.
                     var delta = new_duration - clip.originalDuration
                     var s = timeline.timecode(Math.abs(delta))
                     s = '%1%2 = %3'.arg((delta < 0)? '+' : (delta > 0)? '-' : '')
                         .arg(s)
                         .arg(timeline.timecode(clipDuration))
                     bubbleHelp.show(clip.x - 20, trackRoot.y + trackRoot.height, s)
                 }
             }
             onTrimmedIn: {
                 bubbleHelp.hide()
-                if (shiftTrim) {
+                if (shiftTrim || clip.groupTrimData == undefined) {
                     // We only resize one element
                     controller.requestItemResize(clip.clipId, clip.originalDuration, false, false, root.snapping, shiftTrim)
                     controller.requestItemResize(clip.clipId, clip.lastValidDuration, false, true, root.snapping, shiftTrim)
                 } else {
                     var updatedGroupData = controller.getGroupData(clip.clipId)
                     controller.processGroupResize(clip.groupTrimData, updatedGroupData, false)
                 }
-                
                 clip.groupTrimData = undefined
             }
             onTrimmingOut: {
                 var new_duration = controller.requestItemResize(clip.clipId, newDuration, true, false, root.snapping, shiftTrim)
                 if (new_duration > 0) {
                     clip.lastValidDuration = new_duration
                     // Show amount trimmed as a time in a "bubble" help.
                     var delta = clip.originalDuration - new_duration
                     var s = timeline.timecode(Math.abs(delta))
                     s = '%1%2 = %3'.arg((delta < 0)? '+' : (delta > 0)? '-' : '')
                         .arg(s)
                         .arg(timeline.timecode(new_duration))
                     bubbleHelp.show(clip.x + clip.width - 20, trackRoot.y + trackRoot.height, s)
                 }
             }
             onTrimmedOut: {
                 bubbleHelp.hide()
-                if (shiftTrim) {
+                if (shiftTrim || clip.groupTrimData == undefined) {
                     controller.requestItemResize(clip.clipId, clip.originalDuration, true, false, root.snapping, shiftTrim)
                     controller.requestItemResize(clip.clipId, clip.lastValidDuration, true, true, root.snapping, shiftTrim)
                 } else {
                     var updatedGroupData = controller.getGroupData(clip.clipId)
                     controller.processGroupResize(clip.groupTrimData, updatedGroupData, true)
                 }
+                clip.groupTrimData = undefined
             }
         }
     }
     Component {
         id: compositionDelegate
         Composition {
             displayHeight: trackRoot.height / 2
             opacity: 0.8
             selected: root.timelineSelection.indexOf(clipId) !== -1
             onTrimmingIn: {
                 var new_duration = controller.requestItemResize(clip.clipId, newDuration, false, false, root.snapping)
                 if (new_duration > 0) {
                     clip.lastValidDuration = newDuration
                     clip.originalX = clip.draggedX
                     // Show amount trimmed as a time in a "bubble" help.
                     var delta = newDuration - clip.originalDuration
                     var s = timeline.timecode(Math.abs(delta))
                     s = '%1%2 = %3'.arg((delta < 0)? '+' : (delta > 0)? '-' : '')
                         .arg(s)
                         .arg(timeline.timecode(clipDuration))
                     bubbleHelp.show(clip.x + clip.width, trackRoot.y + trackRoot.height, s)
                 }
             }
             onTrimmedIn: {
                 bubbleHelp.hide()
                 controller.requestItemResize(clip.clipId, clip.originalDuration, false, false, root.snapping)
                 controller.requestItemResize(clip.clipId, clip.lastValidDuration, false, true, root.snapping)
             }
             onTrimmingOut: {
                 var new_duration = controller.requestItemResize(clip.clipId, newDuration, true, false, root.snapping)
                 if (new_duration > 0) {
                     clip.lastValidDuration = newDuration
                     // Show amount trimmed as a time in a "bubble" help.
                     var delta = newDuration - clip.originalDuration
                     var s = timeline.timecode(Math.abs(delta))
                     s = '%1%2 = %3'.arg((delta < 0)? '+' : (delta > 0)? '-' : '')
                         .arg(s)
                         .arg(timeline.timecode(clipDuration))
                     bubbleHelp.show(clip.x + clip.width, trackRoot.y + trackRoot.height, s)
                 }
             }
             onTrimmedOut: {
                 bubbleHelp.hide()
                 controller.requestItemResize(clip.clipId, clip.originalDuration, true, false, root.snapping)
                 controller.requestItemResize(clip.clipId, clip.lastValidDuration, true, true, root.snapping)
             }
         }
     }
 }