diff --git a/src/timeline2/model/timelinefunctions.cpp b/src/timeline2/model/timelinefunctions.cpp index 42b3ef869..8f5b825d3 100644 --- a/src/timeline2/model/timelinefunctions.cpp +++ b/src/timeline2/model/timelinefunctions.cpp @@ -1,1482 +1,1495 @@ /* Copyright (C) 2017 Jean-Baptiste Mardelle 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 . */ #include "timelinefunctions.hpp" #include "bin/bin.h" #include "bin/projectclip.h" #include "bin/projectfolder.h" #include "bin/projectitemmodel.h" #include "clipmodel.hpp" #include "compositionmodel.hpp" #include "core.h" #include "doc/kdenlivedoc.h" #include "effects/effectstack/model/effectstackmodel.hpp" #include "groupsmodel.hpp" #include "logger.hpp" #include "timelineitemmodel.hpp" #include "trackmodel.hpp" #include "transitions/transitionsrepository.hpp" #include #include #include #include #include #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 #pragma GCC diagnostic pop RTTR_REGISTRATION { using namespace rttr; registration::class_("TimelineFunctions") .method("requestClipCut", select_overload, int, int)>(&TimelineFunctions::requestClipCut))( parameter_names("timeline", "clipId", "position")); } bool TimelineFunctions::cloneClip(const std::shared_ptr &timeline, int clipId, int &newId, PlaylistState::ClipState state, Fun &undo, Fun &redo) { // Special case: slowmotion clips double clipSpeed = timeline->m_allClips[clipId]->getSpeed(); bool res = timeline->requestClipCreation(timeline->getClipBinId(clipId), newId, state, clipSpeed, undo, redo); timeline->m_allClips[newId]->m_endlessResize = timeline->m_allClips[clipId]->m_endlessResize; // copy useful timeline properties timeline->m_allClips[clipId]->passTimelineProperties(timeline->m_allClips[newId]); int duration = timeline->getClipPlaytime(clipId); int init_duration = timeline->getClipPlaytime(newId); if (duration != init_duration) { int in = timeline->m_allClips[clipId]->getIn(); res = res && timeline->requestItemResize(newId, init_duration - in, false, true, undo, redo); res = res && timeline->requestItemResize(newId, duration, true, true, undo, redo); } if (!res) { return false; } std::shared_ptr sourceStack = timeline->getClipEffectStackModel(clipId); std::shared_ptr destStack = timeline->getClipEffectStackModel(newId); destStack->importEffects(sourceStack, state); return res; } bool TimelineFunctions::requestMultipleClipsInsertion(const std::shared_ptr &timeline, const QStringList &binIds, int trackId, int position, QList &clipIds, bool logUndo, bool refreshView) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; for (const QString &binId : binIds) { int clipId; if (timeline->requestClipInsertion(binId, trackId, position, clipId, logUndo, refreshView, false, undo, redo)) { clipIds.append(clipId); position += timeline->getItemPlaytime(clipId); } else { undo(); clipIds.clear(); return false; } } if (logUndo) { pCore->pushUndo(undo, redo, i18n("Insert Clips")); } return true; } bool TimelineFunctions::processClipCut(const std::shared_ptr &timeline, int clipId, int position, int &newId, Fun &undo, Fun &redo) { int trackId = timeline->getClipTrackId(clipId); int trackDuration = timeline->getTrackById_const(trackId)->trackDuration(); int start = timeline->getClipPosition(clipId); int duration = timeline->getClipPlaytime(clipId); if (start > position || (start + duration) < position) { return false; } PlaylistState::ClipState state = timeline->m_allClips[clipId]->clipState(); bool res = cloneClip(timeline, clipId, newId, state, undo, redo); timeline->m_blockRefresh = true; res = res && timeline->requestItemResize(clipId, position - start, true, true, undo, redo); int newDuration = timeline->getClipPlaytime(clipId); // parse effects std::shared_ptr sourceStack = timeline->getClipEffectStackModel(clipId); sourceStack->cleanFadeEffects(true, undo, redo); std::shared_ptr destStack = timeline->getClipEffectStackModel(newId); destStack->cleanFadeEffects(false, undo, redo); res = res && timeline->requestItemResize(newId, duration - newDuration, false, true, undo, redo); // The next requestclipmove does not check for duration change since we don't invalidate timeline, so check duration change now bool durationChanged = trackDuration != timeline->getTrackById_const(trackId)->trackDuration(); res = res && timeline->requestClipMove(newId, trackId, position, true, true, false, true, undo, redo); if (durationChanged) { // Track length changed, check project duration Fun updateDuration = [timeline]() { timeline->updateDuration(); return true; }; updateDuration(); PUSH_LAMBDA(updateDuration, redo); } timeline->m_blockRefresh = false; return res; } bool TimelineFunctions::requestClipCut(std::shared_ptr timeline, int clipId, int position) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; TRACE_STATIC(timeline, clipId, position); bool result = TimelineFunctions::requestClipCut(timeline, clipId, position, undo, redo); if (result) { pCore->pushUndo(undo, redo, i18n("Cut clip")); } TRACE_RES(result); return result; } bool TimelineFunctions::requestClipCut(const std::shared_ptr &timeline, int clipId, int position, Fun &undo, Fun &redo) { const std::unordered_set clipselect = timeline->getGroupElements(clipId); // Remove locked items std::unordered_set clips; for (int cid : clipselect) { if (!timeline->isClip(cid)) { continue; } int tk = timeline->getClipTrackId(cid); if (tk != -1 && !timeline->getTrackById_const(tk)->isLocked()) { clips.insert(cid); } } // We need to call clearSelection before attempting the split or the group split will be corrupted by the selection group (no undo support) timeline->requestClearSelection(); std::unordered_set topElements; std::transform(clips.begin(), clips.end(), std::inserter(topElements, topElements.begin()), [&](int id) { return timeline->m_groups->getRootId(id); }); int count = 0; QList newIds; int mainId = -1; QList clipsToCut; for (int cid : clips) { if (!timeline->isClip(cid)) { continue; } int start = timeline->getClipPosition(cid); int duration = timeline->getClipPlaytime(cid); if (start < position && (start + duration) > position) { clipsToCut << cid; } } if (clipsToCut.isEmpty()) { return true; } for (int cid : clipsToCut) { count++; int newId; bool res = processClipCut(timeline, cid, position, newId, undo, redo); if (!res) { bool undone = undo(); Q_ASSERT(undone); return false; } if (cid == clipId) { mainId = newId; } // splitted elements go temporarily in the same group as original ones. timeline->m_groups->setInGroupOf(newId, cid, undo, redo); newIds << newId; } if (count > 0 && timeline->m_groups->isInGroup(clipId)) { // we now split the group hierarchy. // As a splitting criterion, we compare start point with split position auto criterion = [timeline, position](int cid) { return timeline->getClipPosition(cid) < position; }; bool res = true; for (const int topId : topElements) { qDebug()<<"// CHECKING REGROUP ELMENT: "<isClip(topId)<isGroup(topId); res = res && timeline->m_groups->split(topId, criterion, undo, redo); } if (!res) { bool undone = undo(); Q_ASSERT(undone); return false; } } return count > 0; } int TimelineFunctions::requestSpacerStartOperation(const std::shared_ptr &timeline, int trackId, int position) { std::unordered_set clips = timeline->getItemsInRange(trackId, position, -1); if (!clips.empty()) { timeline->requestSetSelection(clips); return (*clips.cbegin()); } return -1; } bool TimelineFunctions::requestSpacerEndOperation(const std::shared_ptr &timeline, int itemId, int startPosition, int endPosition) { // Move group back to original position int track = timeline->getItemTrackId(itemId); bool isClip = timeline->isClip(itemId); if (isClip) { timeline->requestClipMove(itemId, track, startPosition, true, false, false); } else { timeline->requestCompositionMove(itemId, track, startPosition, false, false); } std::unordered_set clips = timeline->getGroupElements(itemId); // Start undoable command std::function undo = []() { return true; }; std::function redo = []() { return true; }; //int res = timeline->requestClipsGroup(clips, undo, redo, GroupType::Selection); int res = timeline->m_groups->getRootId(itemId); bool final = false; if (res > -1 || clips.size() == 1) { if (clips.size() > 1) { final = timeline->requestGroupMove(itemId, res, 0, endPosition - startPosition, true, true, undo, redo); } else { // only 1 clip to be moved if (isClip) { final = timeline->requestClipMove(itemId, track, endPosition, true, true, true, true, undo, redo); } else { final = timeline->requestCompositionMove(itemId, track, -1, endPosition, true, true, undo, redo); } } } timeline->requestClearSelection(); if (final) { if (startPosition < endPosition) { pCore->pushUndo(undo, redo, i18n("Insert space")); } else { pCore->pushUndo(undo, redo, i18n("Remove space")); } return true; } return false; } bool TimelineFunctions::breakAffectedGroups(const std::shared_ptr &timeline, QVector tracks, QPoint zone, Fun &undo, Fun &redo) { // Check if we have grouped clips that are on unaffected tracks, and ungroup them bool result = true; std::unordered_set affectedItems; // First find all affected items for (int &trackId : tracks) { std::unordered_set items = timeline->getItemsInRange(trackId, zone.x(), zone.y()); affectedItems.insert(items.begin(), items.end()); } for (int item : affectedItems) { if (timeline->m_groups->isInGroup(item)) { int groupId = timeline->m_groups->getRootId(item); std::unordered_set all_children = timeline->m_groups->getLeaves(groupId); for (int child: all_children) { int childTrackId = timeline->getItemTrackId(child); if (!tracks.contains(childTrackId)) { // This item should not be affected by the operation, ungroup it result = result && timeline->requestClipUngroup(child, undo, redo); } } } } return result; } bool TimelineFunctions::extractZone(const std::shared_ptr &timeline, QVector tracks, QPoint zone, bool liftOnly) { // Start undoable command std::function undo = []() { return true; }; std::function redo = []() { return true; }; bool result = true; result = breakAffectedGroups(timeline, tracks, zone, undo, redo); for (int &trackId : tracks) { if (timeline->getTrackById_const(trackId)->isLocked()) { continue; } result = result && TimelineFunctions::liftZone(timeline, trackId, zone, undo, redo); } if (result && !liftOnly) { result = TimelineFunctions::removeSpace(timeline, -1, zone, undo, redo, tracks); } pCore->pushUndo(undo, redo, liftOnly ? i18n("Lift zone") : i18n("Extract zone")); return result; } bool TimelineFunctions::insertZone(const std::shared_ptr &timeline, QList trackIds, const QString &binId, int insertFrame, QPoint zone, bool overwrite, bool useTargets) { // Start undoable command std::function undo = []() { return true; }; std::function redo = []() { return true; }; bool result = true; QVector affectedTracks; auto it = timeline->m_allTracks.cbegin(); - while (it != timeline->m_allTracks.cend()) { - int target_track = (*it)->getId(); - if (!useTargets || timeline->getTrackById_const(target_track)->shouldReceiveTimelineOp()) { - affectedTracks << target_track; - } else if (trackIds.contains(target_track)) { - // Track is marked as target but not active, remove it - trackIds.removeAll(target_track); + if (!useTargets && overwrite) { + // Timeline drop in overwrite mode + for (int target_track : trackIds) { + if (!timeline->getTrackById_const(target_track)->isLocked()) { + affectedTracks << target_track; + } + } + } else { + while (it != timeline->m_allTracks.cend()) { + int target_track = (*it)->getId(); + if (!useTargets || timeline->getTrackById_const(target_track)->shouldReceiveTimelineOp()) { + affectedTracks << target_track; + } else if (trackIds.contains(target_track)) { + // Track is marked as target but not active, remove it + trackIds.removeAll(target_track); + } + ++it; } - ++it; } if (affectedTracks.isEmpty()) { return false; } result = breakAffectedGroups(timeline, affectedTracks, QPoint(insertFrame, insertFrame + (zone.y() - zone.x())), undo, redo); if (overwrite) { // Cut all tracks for (int target_track : affectedTracks) { result = result && TimelineFunctions::liftZone(timeline, target_track, QPoint(insertFrame, insertFrame + (zone.y() - zone.x())), undo, redo); if (!result) { qDebug() << "// LIFTING ZONE FAILED\n"; break; } } } else { // Cut all tracks for (int target_track : affectedTracks) { int startClipId = timeline->getClipByPosition(target_track, insertFrame); if (startClipId > -1) { // There is a clip, cut it result = result && TimelineFunctions::requestClipCut(timeline, startClipId, insertFrame, undo, redo); } } result = result && TimelineFunctions::requestInsertSpace(timeline, QPoint(insertFrame, insertFrame + (zone.y() - zone.x())), undo, redo, affectedTracks); } - bool clipInserted = false; if (result) { if (!trackIds.isEmpty()) { int newId = -1; - QString binClipId = QString("%1/%2/%3").arg(binId).arg(zone.x()).arg(zone.y() - 1); + QString binClipId; + if (binId.contains(QLatin1Char('/'))) { + binClipId = QString("%1/%2/%3").arg(binId.section(QLatin1Char('/'), 0, 0)).arg(zone.x()).arg(zone.y() - 1); + } else { + binClipId = QString("%1/%2/%3").arg(binId).arg(zone.x()).arg(zone.y() - 1); + } result = timeline->requestClipInsertion(binClipId, trackIds.first(), insertFrame, newId, true, true, useTargets, undo, redo, affectedTracks); if (result) { clipInserted = true; } } if (result) { pCore->pushUndo(undo, redo, overwrite ? i18n("Overwrite zone") : i18n("Insert zone")); } } if (!result) { qDebug() << "// REQUESTING SPACE FAILED"; undo(); } return clipInserted; } bool TimelineFunctions::liftZone(const std::shared_ptr &timeline, int trackId, QPoint zone, Fun &undo, Fun &redo) { // Check if there is a clip at start point int startClipId = timeline->getClipByPosition(trackId, zone.x()); if (startClipId > -1) { // There is a clip, cut it if (timeline->getClipPosition(startClipId) < zone.x()) { qDebug() << "/// CUTTING AT START: " << zone.x() << ", ID: " << startClipId; TimelineFunctions::requestClipCut(timeline, startClipId, zone.x(), undo, redo); qDebug() << "/// CUTTING AT START DONE"; } } int endClipId = timeline->getClipByPosition(trackId, zone.y()); if (endClipId > -1) { // There is a clip, cut it if (timeline->getClipPosition(endClipId) + timeline->getClipPlaytime(endClipId) > zone.y()) { qDebug() << "/// CUTTING AT END: " << zone.y() << ", ID: " << endClipId; TimelineFunctions::requestClipCut(timeline, endClipId, zone.y(), undo, redo); qDebug() << "/// CUTTING AT END DONE"; } } std::unordered_set clips = timeline->getItemsInRange(trackId, zone.x(), zone.y()); for (const auto &clipId : clips) { timeline->requestItemDeletion(clipId, undo, redo); } return true; } bool TimelineFunctions::removeSpace(const std::shared_ptr &timeline, int trackId, QPoint zone, Fun &undo, Fun &redo, QVector allowedTracks) { Q_UNUSED(trackId) std::unordered_set clips; auto it = timeline->m_allTracks.cbegin(); while (it != timeline->m_allTracks.cend()) { int target_track = (*it)->getId(); if (timeline->getTrackById_const(target_track)->shouldReceiveTimelineOp()) { std::unordered_set subs = timeline->getItemsInRange(target_track, zone.y() - 1, -1, true); clips.insert(subs.begin(), subs.end()); } ++it; } if (clips.size() == 0) { // TODO: inform user no change will be performed return true; } bool result = false; timeline->requestSetSelection(clips); int itemId = *clips.begin(); int targetTrackId = timeline->getItemTrackId(itemId); int targetPos = timeline->getItemPosition(itemId) + zone.x() - zone.y(); if (timeline->m_groups->isInGroup(itemId)) { result = timeline->requestGroupMove(itemId, timeline->m_groups->getRootId(itemId), 0, zone.x() - zone.y(), true, true, undo, redo, true, true, allowedTracks); } else if (timeline->isClip(itemId)) { result = timeline->requestClipMove(itemId, targetTrackId, targetPos, true, true, true, true, undo, redo); } else { result = timeline->requestCompositionMove(itemId, targetTrackId, timeline->m_allCompositions[itemId]->getForcedTrack(), targetPos, true, true, undo, redo); } timeline->requestClearSelection(); if (!result) { undo(); } return result; } bool TimelineFunctions::requestInsertSpace(const std::shared_ptr &timeline, QPoint zone, Fun &undo, Fun &redo, QVector allowedTracks) { timeline->requestClearSelection(); Fun local_undo = []() { return true; }; Fun local_redo = []() { return true; }; std::unordered_set items; if (allowedTracks.isEmpty()) { // Select clips in all tracks items = timeline->getItemsInRange(-1, zone.x(), -1, true); } else { // Select clips in target and active tracks only for (int target_track : allowedTracks) { std::unordered_set subs = timeline->getItemsInRange(target_track, zone.x(), -1, true); items.insert(subs.begin(), subs.end()); } } if (items.empty()) { return true; } timeline->requestSetSelection(items); bool result = true; int itemId = *(items.begin()); int targetTrackId = timeline->getItemTrackId(itemId); int targetPos = timeline->getItemPosition(itemId) + zone.y() - zone.x(); // TODO the three move functions should be unified in a "requestItemMove" function if (timeline->m_groups->isInGroup(itemId)) { result = result && timeline->requestGroupMove(itemId, timeline->m_groups->getRootId(itemId), 0, zone.y() - zone.x(), true, true, local_undo, local_redo, true, true, allowedTracks); } else if (timeline->isClip(itemId)) { result = result && timeline->requestClipMove(itemId, targetTrackId, targetPos, true, true, true, true, local_undo, local_redo); } else { result = result && timeline->requestCompositionMove(itemId, targetTrackId, timeline->m_allCompositions[itemId]->getForcedTrack(), targetPos, true, true, local_undo, local_redo); } timeline->requestClearSelection(); if (!result) { bool undone = local_undo(); Q_ASSERT(undone); pCore->displayMessage(i18n("Cannot move selected group"), ErrorMessage); } UPDATE_UNDO_REDO_NOLOCK(local_redo, local_undo, undo, redo); return result; } bool TimelineFunctions::requestItemCopy(const std::shared_ptr &timeline, int clipId, int trackId, int position) { Q_ASSERT(timeline->isClip(clipId) || timeline->isComposition(clipId)); Fun undo = []() { return true; }; Fun redo = []() { return true; }; int deltaTrack = timeline->getTrackPosition(trackId) - timeline->getTrackPosition(timeline->getItemTrackId(clipId)); int deltaPos = position - timeline->getItemPosition(clipId); std::unordered_set allIds = timeline->getGroupElements(clipId); std::unordered_map mapping; // keys are ids of the source clips, values are ids of the copied clips bool res = true; for (int id : allIds) { int newId = -1; if (timeline->isClip(id)) { PlaylistState::ClipState state = timeline->m_allClips[id]->clipState(); res = cloneClip(timeline, id, newId, state, undo, redo); res = res && (newId != -1); } int target_position = timeline->getItemPosition(id) + deltaPos; int target_track_position = timeline->getTrackPosition(timeline->getItemTrackId(id)) + deltaTrack; if (target_track_position >= 0 && target_track_position < timeline->getTracksCount()) { auto it = timeline->m_allTracks.cbegin(); std::advance(it, target_track_position); int target_track = (*it)->getId(); if (timeline->isClip(id)) { res = res && timeline->requestClipMove(newId, target_track, target_position, true, true, true, true, undo, redo); } else { const QString &transitionId = timeline->m_allCompositions[id]->getAssetId(); std::unique_ptr transProps(timeline->m_allCompositions[id]->properties()); res = res && timeline->requestCompositionInsertion(transitionId, target_track, -1, target_position, timeline->m_allCompositions[id]->getPlaytime(), std::move(transProps), newId, undo, redo); } } else { res = false; } if (!res) { bool undone = undo(); Q_ASSERT(undone); return false; } mapping[id] = newId; } qDebug() << "Successful copy, coping groups..."; res = timeline->m_groups->copyGroups(mapping, undo, redo); if (!res) { bool undone = undo(); Q_ASSERT(undone); return false; } return true; } void TimelineFunctions::showClipKeyframes(const std::shared_ptr &timeline, int clipId, bool value) { timeline->m_allClips[clipId]->setShowKeyframes(value); QModelIndex modelIndex = timeline->makeClipIndexFromID(clipId); timeline->dataChanged(modelIndex, modelIndex, {TimelineModel::ShowKeyframesRole}); } void TimelineFunctions::showCompositionKeyframes(const std::shared_ptr &timeline, int compoId, bool value) { timeline->m_allCompositions[compoId]->setShowKeyframes(value); QModelIndex modelIndex = timeline->makeCompositionIndexFromID(compoId); timeline->dataChanged(modelIndex, modelIndex, {TimelineModel::ShowKeyframesRole}); } bool TimelineFunctions::switchEnableState(const std::shared_ptr &timeline, int clipId) { PlaylistState::ClipState oldState = timeline->getClipPtr(clipId)->clipState(); PlaylistState::ClipState state = PlaylistState::Disabled; bool disable = true; if (oldState == PlaylistState::Disabled) { state = timeline->getTrackById_const(timeline->getClipTrackId(clipId))->trackType(); disable = false; } Fun undo = []() { return true; }; Fun redo = []() { return true; }; bool result = changeClipState(timeline, clipId, state, undo, redo); if (result) { pCore->pushUndo(undo, redo, disable ? i18n("Disable clip") : i18n("Enable clip")); } return result; } bool TimelineFunctions::changeClipState(const std::shared_ptr &timeline, int clipId, PlaylistState::ClipState status, Fun &undo, Fun &redo) { int track = timeline->getClipTrackId(clipId); int start = -1; int end = -1; bool invalidate = false; if (track > -1) { if (!timeline->getTrackById_const(track)->isAudioTrack()) { invalidate = true; } start = timeline->getItemPosition(clipId); end = start + timeline->getItemPlaytime(clipId); } Fun local_undo = []() { return true; }; Fun local_redo = []() { return true; }; // For the state change to work, we need to unplant/replant the clip bool result = true; if (track > -1) { result = timeline->getTrackById(track)->requestClipDeletion(clipId, true, invalidate, local_undo, local_redo, false, false); } result = timeline->m_allClips[clipId]->setClipState(status, local_undo, local_redo); if (result && track > -1) { result = timeline->getTrackById(track)->requestClipInsertion(clipId, start, true, true, local_undo, local_redo); } UPDATE_UNDO_REDO_NOLOCK(local_redo, local_undo, undo, redo); return result; } bool TimelineFunctions::requestSplitAudio(const std::shared_ptr &timeline, int clipId, int audioTarget) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; const std::unordered_set clips = timeline->getGroupElements(clipId); bool done = false; // Now clear selection so we don't mess with groups timeline->requestClearSelection(false, undo, redo); for (int cid : clips) { if (!timeline->getClipPtr(cid)->canBeAudio() || timeline->getClipPtr(cid)->clipState() == PlaylistState::AudioOnly) { // clip without audio or audio only, skip pCore->displayMessage(i18n("One or more clips do not have audio, or are already audio"), ErrorMessage); return false; } int position = timeline->getClipPosition(cid); int track = timeline->getClipTrackId(cid); QList possibleTracks = audioTarget >= 0 ? QList() << audioTarget : timeline->getLowerTracksId(track, TrackType::AudioTrack); if (possibleTracks.isEmpty()) { // No available audio track for splitting, abort undo(); pCore->displayMessage(i18n("No available audio track for split operation"), ErrorMessage); return false; } int newId; bool res = cloneClip(timeline, cid, newId, PlaylistState::AudioOnly, undo, redo); if (!res) { bool undone = undo(); Q_ASSERT(undone); pCore->displayMessage(i18n("Audio split failed"), ErrorMessage); return false; } bool success = false; while (!success && !possibleTracks.isEmpty()) { int newTrack = possibleTracks.takeFirst(); success = timeline->requestClipMove(newId, newTrack, position, true, true, false, true, undo, redo); } TimelineFunctions::changeClipState(timeline, cid, PlaylistState::VideoOnly, undo, redo); success = success && timeline->m_groups->createGroupAtSameLevel(cid, std::unordered_set{newId}, GroupType::AVSplit, undo, redo); if (!success) { bool undone = undo(); Q_ASSERT(undone); pCore->displayMessage(i18n("Audio split failed"), ErrorMessage); return false; } done = true; } if (done) { timeline->requestSetSelection(clips, undo, redo); pCore->pushUndo(undo, redo, i18n("Split Audio")); } return done; } bool TimelineFunctions::requestSplitVideo(const std::shared_ptr &timeline, int clipId, int videoTarget) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; const std::unordered_set clips = timeline->getGroupElements(clipId); bool done = false; // Now clear selection so we don't mess with groups timeline->requestClearSelection(); for (int cid : clips) { if (!timeline->getClipPtr(cid)->canBeVideo() || timeline->getClipPtr(cid)->clipState() == PlaylistState::VideoOnly) { // clip without audio or audio only, skip continue; } int position = timeline->getClipPosition(cid); QList possibleTracks = QList() << videoTarget; if (possibleTracks.isEmpty()) { // No available audio track for splitting, abort undo(); pCore->displayMessage(i18n("No available video track for split operation"), ErrorMessage); return false; } int newId; bool res = cloneClip(timeline, cid, newId, PlaylistState::VideoOnly, undo, redo); if (!res) { bool undone = undo(); Q_ASSERT(undone); pCore->displayMessage(i18n("Video split failed"), ErrorMessage); return false; } bool success = false; while (!success && !possibleTracks.isEmpty()) { int newTrack = possibleTracks.takeFirst(); success = timeline->requestClipMove(newId, newTrack, position, true, true, true, true, undo, redo); } TimelineFunctions::changeClipState(timeline, cid, PlaylistState::AudioOnly, undo, redo); success = success && timeline->m_groups->createGroupAtSameLevel(cid, std::unordered_set{newId}, GroupType::AVSplit, undo, redo); if (!success) { bool undone = undo(); Q_ASSERT(undone); pCore->displayMessage(i18n("Video split failed"), ErrorMessage); return false; } done = true; } if (done) { pCore->pushUndo(undo, redo, i18n("Split Video")); } return done; } void TimelineFunctions::setCompositionATrack(const std::shared_ptr &timeline, int cid, int aTrack) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; std::shared_ptr compo = timeline->getCompositionPtr(cid); int previousATrack = compo->getATrack(); int previousAutoTrack = static_cast(compo->getForcedTrack() == -1); bool autoTrack = aTrack < 0; if (autoTrack) { // Automatic track compositing, find lower video track aTrack = timeline->getPreviousVideoTrackPos(compo->getCurrentTrackId()); } int start = timeline->getItemPosition(cid); int end = start + timeline->getItemPlaytime(cid); Fun local_redo = [timeline, cid, aTrack, autoTrack, start, end]() { timeline->unplantComposition(cid); QScopedPointer field(timeline->m_tractor->field()); field->lock(); timeline->getCompositionPtr(cid)->setForceTrack(!autoTrack); timeline->getCompositionPtr(cid)->setATrack(aTrack, aTrack <= 0 ? -1 : timeline->getTrackIndexFromPosition(aTrack - 1)); field->unlock(); timeline->replantCompositions(cid, true); timeline->invalidateZone(start, end); timeline->checkRefresh(start, end); return true; }; Fun local_undo = [timeline, cid, previousATrack, previousAutoTrack, start, end]() { timeline->unplantComposition(cid); QScopedPointer field(timeline->m_tractor->field()); field->lock(); timeline->getCompositionPtr(cid)->setForceTrack(previousAutoTrack == 0); timeline->getCompositionPtr(cid)->setATrack(previousATrack, previousATrack <= 0 ? -1 : timeline->getTrackIndexFromPosition(previousATrack - 1)); field->unlock(); timeline->replantCompositions(cid, true); timeline->invalidateZone(start, end); timeline->checkRefresh(start, end); return true; }; if (local_redo()) { PUSH_LAMBDA(local_undo, undo); PUSH_LAMBDA(local_redo, redo); } pCore->pushUndo(undo, redo, i18n("Change Composition Track")); } void TimelineFunctions::enableMultitrackView(const std::shared_ptr &timeline, bool enable) { QList videoTracks; for (const auto &track : timeline->m_iteratorTable) { if (timeline->getTrackById_const(track.first)->isAudioTrack() || timeline->getTrackById_const(track.first)->isHidden()) { continue; } videoTracks << track.first; } if (videoTracks.size() < 2) { pCore->displayMessage(i18n("Cannot enable multitrack view on a single track"), InformationMessage); } // First, dis/enable track compositing QScopedPointer service(timeline->m_tractor->field()); Mlt::Field *field = timeline->m_tractor->field(); field->lock(); while ((service != nullptr) && service->is_valid()) { if (service->type() == transition_type) { Mlt::Transition t((mlt_transition)service->get_service()); QString serviceName = t.get("mlt_service"); int added = t.get_int("internal_added"); if (added == 237 && serviceName != QLatin1String("mix")) { // remove all compositing transitions t.set("disable", enable ? "1" : nullptr); } else if (!enable && added == 200) { field->disconnect_service(t); } } service.reset(service->producer()); } if (enable) { for (int i = 0; i < videoTracks.size(); ++i) { Mlt::Transition transition(*timeline->m_tractor->profile(), "composite"); transition.set("mlt_service", "composite"); transition.set("a_track", 0); transition.set("b_track", timeline->getTrackMltIndex(videoTracks.at(i))); transition.set("distort", 0); transition.set("aligned", 0); // 200 is an arbitrary number so we can easily remove these transition later transition.set("internal_added", 200); QString geometry; switch (i) { case 0: switch (videoTracks.size()) { case 2: geometry = QStringLiteral("0 0 50% 100%"); break; case 3: geometry = QStringLiteral("0 0 33% 100%"); break; case 4: geometry = QStringLiteral("0 0 50% 50%"); break; case 5: case 6: geometry = QStringLiteral("0 0 33% 50%"); break; default: geometry = QStringLiteral("0 0 33% 33%"); break; } break; case 1: switch (videoTracks.size()) { case 2: geometry = QStringLiteral("50% 0 50% 100%"); break; case 3: geometry = QStringLiteral("33% 0 33% 100%"); break; case 4: geometry = QStringLiteral("50% 0 50% 50%"); break; case 5: case 6: geometry = QStringLiteral("33% 0 33% 50%"); break; default: geometry = QStringLiteral("33% 0 33% 33%"); break; } break; case 2: switch (videoTracks.size()) { case 3: geometry = QStringLiteral("66% 0 33% 100%"); break; case 4: geometry = QStringLiteral("0 50% 50% 50%"); break; case 5: case 6: geometry = QStringLiteral("66% 0 33% 50%"); break; default: geometry = QStringLiteral("66% 0 33% 33%"); break; } break; case 3: switch (videoTracks.size()) { case 4: geometry = QStringLiteral("50% 50% 50% 50%"); break; case 5: case 6: geometry = QStringLiteral("0 50% 33% 50%"); break; default: geometry = QStringLiteral("0 33% 33% 33%"); break; } break; case 4: switch (videoTracks.size()) { case 5: case 6: geometry = QStringLiteral("33% 50% 33% 50%"); break; default: geometry = QStringLiteral("33% 33% 33% 33%"); break; } break; case 5: switch (videoTracks.size()) { case 6: geometry = QStringLiteral("66% 50% 33% 50%"); break; default: geometry = QStringLiteral("66% 33% 33% 33%"); break; } break; case 6: geometry = QStringLiteral("0 66% 33% 33%"); break; case 7: geometry = QStringLiteral("33% 66% 33% 33%"); break; default: geometry = QStringLiteral("66% 66% 33% 33%"); break; } // Add transition to track: transition.set("geometry", geometry.toUtf8().constData()); transition.set("always_active", 1); field->plant_transition(transition, 0, timeline->getTrackMltIndex(videoTracks.at(i))); } } field->unlock(); timeline->requestMonitorRefresh(); } void TimelineFunctions::saveTimelineSelection(const std::shared_ptr &timeline, const std::unordered_set &selection, const QDir &targetDir) { bool ok; QString name = QInputDialog::getText(qApp->activeWindow(), i18n("Add Clip to Library"), i18n("Enter a name for the clip in Library"), QLineEdit::Normal, QString(), &ok); if (name.isEmpty() || !ok) { return; } if (targetDir.exists(name + QStringLiteral(".mlt"))) { // TODO: warn and ask for overwrite / rename } int offset = -1; int lowerAudioTrack = -1; int lowerVideoTrack = -1; QString fullPath = targetDir.absoluteFilePath(name + QStringLiteral(".mlt")); // Build a copy of selected tracks. QMap sourceTracks; for (int i : selection) { int sourceTrack = timeline->getItemTrackId(i); int clipPos = timeline->getItemPosition(i); if (offset < 0 || clipPos < offset) { offset = clipPos; } int trackPos = timeline->getTrackMltIndex(sourceTrack); if (!sourceTracks.contains(trackPos)) { sourceTracks.insert(trackPos, sourceTrack); } } // Build target timeline Mlt::Tractor newTractor(*timeline->m_tractor->profile()); QScopedPointer field(newTractor.field()); int ix = 0; QString composite = TransitionsRepository::get()->getCompositingTransition(); QMapIterator i(sourceTracks); QList compositions; while (i.hasNext()) { i.next(); QScopedPointer newTrackPlaylist(new Mlt::Playlist(*newTractor.profile())); newTractor.set_track(*newTrackPlaylist, ix); // QScopedPointer trackProducer(newTractor.track(ix)); int trackId = i.value(); sourceTracks.insert(timeline->getTrackMltIndex(trackId), ix); std::shared_ptr track = timeline->getTrackById_const(trackId); bool isAudio = track->isAudioTrack(); if (isAudio) { newTrackPlaylist->set("hide", 1); if (lowerAudioTrack < 0) { lowerAudioTrack = ix; } } else { newTrackPlaylist->set("hide", 2); if (lowerVideoTrack < 0) { lowerVideoTrack = ix; } } for (int itemId : selection) { if (timeline->getItemTrackId(itemId) == trackId) { // Copy clip on the destination track if (timeline->isClip(itemId)) { int clip_position = timeline->m_allClips[itemId]->getPosition(); auto clip_loc = track->getClipIndexAt(clip_position); int target_clip = clip_loc.second; QSharedPointer clip = track->getClipProducer(target_clip); newTrackPlaylist->insert_at(clip_position - offset, clip.data(), 1); } else if (timeline->isComposition(itemId)) { // Composition auto *t = new Mlt::Transition(*timeline->m_allCompositions[itemId].get()); QString id(t->get("kdenlive_id")); QString internal(t->get("internal_added")); if (internal.isEmpty()) { compositions << t; if (id.isEmpty()) { qDebug() << "// Warning, this should not happen, transition without id: " << t->get("id") << " = " << t->get("mlt_service"); t->set("kdenlive_id", t->get("mlt_service")); } } } } } ix++; } // Sort compositions and insert if (!compositions.isEmpty()) { std::sort(compositions.begin(), compositions.end(), [](Mlt::Transition *a, Mlt::Transition *b) { return a->get_b_track() < b->get_b_track(); }); while (!compositions.isEmpty()) { QScopedPointer t(compositions.takeFirst()); if (sourceTracks.contains(t->get_a_track()) && sourceTracks.contains(t->get_b_track())) { Mlt::Transition newComposition(*newTractor.profile(), t->get("mlt_service")); Mlt::Properties sourceProps(t->get_properties()); newComposition.inherit(sourceProps); QString id(t->get("kdenlive_id")); int in = qMax(0, t->get_in() - offset); int out = t->get_out() - offset; newComposition.set_in_and_out(in, out); int a_track = sourceTracks.value(t->get_a_track()); int b_track = sourceTracks.value(t->get_b_track()); field->plant_transition(newComposition, a_track, b_track); } } } // Track compositing i.toFront(); ix = 0; while (i.hasNext()) { i.next(); int trackId = i.value(); std::shared_ptr track = timeline->getTrackById_const(trackId); bool isAudio = track->isAudioTrack(); if ((isAudio && ix > lowerAudioTrack) || (!isAudio && ix > lowerVideoTrack)) { // add track compositing / mix Mlt::Transition t(*newTractor.profile(), isAudio ? "mix" : composite.toUtf8().constData()); if (isAudio) { t.set("sum", 1); } t.set("always_active", 1); t.set("internal_added", 237); field->plant_transition(t, isAudio ? lowerAudioTrack : lowerVideoTrack, ix); } ix++; } Mlt::Consumer xmlConsumer(*newTractor.profile(), ("xml:" + fullPath).toUtf8().constData()); xmlConsumer.set("terminate_on_pause", 1); xmlConsumer.connect(newTractor); xmlConsumer.run(); } int TimelineFunctions::getTrackOffset(const std::shared_ptr &timeline, int startTrack, int destTrack) { qDebug() << "+++++++\nGET TRACK OFFSET: " << startTrack << " - " << destTrack; int masterTrackMltIndex = timeline->getTrackMltIndex(startTrack); int destTrackMltIndex = timeline->getTrackMltIndex(destTrack); int offset = 0; qDebug() << "+++++++\nGET TRACK MLT: " << masterTrackMltIndex << " - " << destTrackMltIndex; if (masterTrackMltIndex == destTrackMltIndex) { return offset; } int step = masterTrackMltIndex > destTrackMltIndex ? -1 : 1; bool isAudio = timeline->isAudioTrack(startTrack); int track = masterTrackMltIndex; while (track != destTrackMltIndex) { track += step; qDebug() << "+ + +TESTING TRACK: " << track; int trackId = timeline->getTrackIndexFromPosition(track - 1); if (isAudio == timeline->isAudioTrack(trackId)) { offset += step; } } return offset; } int TimelineFunctions::getOffsetTrackId(const std::shared_ptr &timeline, int startTrack, int offset, bool audioOffset) { int masterTrackMltIndex = timeline->getTrackMltIndex(startTrack); bool isAudio = timeline->isAudioTrack(startTrack); if (isAudio != audioOffset) { offset = -offset; } qDebug() << "* ** * MASTER INDEX: " << masterTrackMltIndex << ", OFFSET: " << offset; while (offset != 0) { masterTrackMltIndex += offset > 0 ? 1 : -1; qDebug() << "#### TESTING TRACK: " << masterTrackMltIndex; if (masterTrackMltIndex < 0) { masterTrackMltIndex = 0; break; } if (masterTrackMltIndex > (int)timeline->m_allTracks.size()) { masterTrackMltIndex = (int)timeline->m_allTracks.size(); break; } int trackId = timeline->getTrackIndexFromPosition(masterTrackMltIndex - 1); if (timeline->isAudioTrack(trackId) == isAudio) { offset += offset > 0 ? -1 : 1; } } return timeline->getTrackIndexFromPosition(masterTrackMltIndex - 1); } QPair, QList> TimelineFunctions::getAVTracksIds(const std::shared_ptr &timeline) { QList audioTracks; QList videoTracks; for (const auto &track : timeline->m_allTracks) { if (track->isAudioTrack()) { audioTracks << track->getId(); } else { videoTracks << track->getId(); } } return {audioTracks, videoTracks}; } QString TimelineFunctions::copyClips(const std::shared_ptr &timeline, const std::unordered_set &itemIds) { int clipId = *(itemIds.begin()); // We need to retrieve ALL the involved clips, ie those who are also grouped with the given clips std::unordered_set allIds; for (const auto &itemId : itemIds) { std::unordered_set siblings = timeline->getGroupElements(itemId); allIds.insert(siblings.begin(), siblings.end()); } timeline->requestClearSelection(); // TODO better guess for master track int masterTid = timeline->getItemTrackId(clipId); bool audioCopy = timeline->isAudioTrack(masterTid); int masterTrack = timeline->getTrackPosition(masterTid); QDomDocument copiedItems; int offset = -1; QDomElement container = copiedItems.createElement(QStringLiteral("kdenlive-scene")); copiedItems.appendChild(container); QStringList binIds; for (int id : allIds) { if (offset == -1 || timeline->getItemPosition(id) < offset) { offset = timeline->getItemPosition(id); } if (timeline->isClip(id)) { container.appendChild(timeline->m_allClips[id]->toXml(copiedItems)); const QString bid = timeline->m_allClips[id]->binId(); if (!binIds.contains(bid)) { binIds << bid; } } else if (timeline->isComposition(id)) { container.appendChild(timeline->m_allCompositions[id]->toXml(copiedItems)); } else { Q_ASSERT(false); } } QDomElement container2 = copiedItems.createElement(QStringLiteral("bin")); container.appendChild(container2); for (const QString &id : binIds) { std::shared_ptr clip = pCore->projectItemModel()->getClipByBinID(id); QDomDocument tmp; container2.appendChild(clip->toXml(tmp)); } container.setAttribute(QStringLiteral("offset"), offset); if (audioCopy) { container.setAttribute(QStringLiteral("masterAudioTrack"), masterTrack); int masterMirror = timeline->getMirrorVideoTrackId(masterTid); if (masterMirror == -1) { QPair, QList> projectTracks = TimelineFunctions::getAVTracksIds(timeline); if (!projectTracks.second.isEmpty()) { masterTrack = timeline->getTrackPosition(projectTracks.second.first()); } } else { masterTrack = timeline->getTrackPosition(masterMirror); } } /* masterTrack contains the reference track over which we want to paste. this is a video track, unless audioCopy is defined */ container.setAttribute(QStringLiteral("masterTrack"), masterTrack); container.setAttribute(QStringLiteral("documentid"), pCore->currentDoc()->getDocumentProperty(QStringLiteral("documentid"))); QDomElement grp = copiedItems.createElement(QStringLiteral("groups")); container.appendChild(grp); std::unordered_set groupRoots; std::transform(allIds.begin(), allIds.end(), std::inserter(groupRoots, groupRoots.begin()), [&](int id) { return timeline->m_groups->getRootId(id); }); qDebug() << "==============\n GROUP ROOTS: "; for (int gp : groupRoots) { qDebug() << "GROUP: " << gp; } qDebug() << "\n======="; grp.appendChild(copiedItems.createTextNode(timeline->m_groups->toJson(groupRoots))); qDebug() << " / // / PASTED DOC: \n\n" << copiedItems.toString() << "\n\n------------"; return copiedItems.toString(); } bool TimelineFunctions::pasteClips(const std::shared_ptr &timeline, const QString &pasteString, int trackId, int position) { timeline->requestClearSelection(); QDomDocument copiedItems; copiedItems.setContent(pasteString); if (copiedItems.documentElement().tagName() == QLatin1String("kdenlive-scene")) { qDebug() << " / / READING CLIPS FROM CLIPBOARD"; } else { return false; } std::function undo = []() { return true; }; std::function redo = []() { return true; }; const QString docId = copiedItems.documentElement().attribute(QStringLiteral("documentid")); QMap mappedIds; // Check available tracks QPair, QList> projectTracks = TimelineFunctions::getAVTracksIds(timeline); int masterSourceTrack = copiedItems.documentElement().attribute(QStringLiteral("masterTrack")).toInt(); QDomNodeList clips = copiedItems.documentElement().elementsByTagName(QStringLiteral("clip")); QDomNodeList compositions = copiedItems.documentElement().elementsByTagName(QStringLiteral("composition")); // find paste tracks // List of all source audio tracks QList audioTracks; // List of all source video tracks QList videoTracks; // List of all audio tracks with their corresponding video mirror std::unordered_map audioMirrors; // List of all source audio tracks that don't have video mirror QList singleAudioTracks; for (int i = 0; i < clips.count(); i++) { QDomElement prod = clips.at(i).toElement(); int trackPos = prod.attribute(QStringLiteral("track")).toInt(); bool audioTrack = prod.hasAttribute(QStringLiteral("audioTrack")); if (audioTrack) { if (!audioTracks.contains(trackPos)) { audioTracks << trackPos; } int videoMirror = prod.attribute(QStringLiteral("mirrorTrack")).toInt(); if (videoMirror == -1) { if (singleAudioTracks.contains(trackPos)) { continue; } singleAudioTracks << trackPos; continue; } audioMirrors[trackPos] = videoMirror; if (videoTracks.contains(videoMirror)) { continue; } videoTracks << videoMirror; } else { if (videoTracks.contains(trackPos)) { continue; } videoTracks << trackPos; } } for (int i = 0; i < compositions.count(); i++) { QDomElement prod = compositions.at(i).toElement(); int trackPos = prod.attribute(QStringLiteral("track")).toInt(); if (!videoTracks.contains(trackPos)) { videoTracks << trackPos; } int atrackPos = prod.attribute(QStringLiteral("a_track")).toInt(); if (atrackPos == 0 || videoTracks.contains(atrackPos)) { continue; } videoTracks << atrackPos; } // Now we have a list of all source tracks, check that we have enough target tracks std::sort(videoTracks.begin(), videoTracks.end()); std::sort(audioTracks.begin(), audioTracks.end()); std::sort(singleAudioTracks.begin(), singleAudioTracks.end()); //qDebug()<<"== GOT WANTED TKS\n VIDEO: "< projectTracks.second.size() || requestedAudioTracks > projectTracks.first.size()) { pCore->displayMessage(i18n("Not enough tracks to paste clipboard"), InformationMessage, 500); return false; } // Find destination master track // Check we have enough tracks above/below if (requestedVideoTracks > 0) { qDebug() << "MASTERSTK: " << masterSourceTrack << ", VTKS: " << videoTracks; int tracksBelow = masterSourceTrack - videoTracks.first(); int tracksAbove = videoTracks.last() - masterSourceTrack; qDebug() << "// RQST TKS BELOW: " << tracksBelow << " / ABOVE: " << tracksAbove; qDebug() << "// EXISTING TKS BELOW: " << projectTracks.second.indexOf(trackId) << ", IX: " << trackId; qDebug() << "// EXISTING TKS ABOVE: " << projectTracks.second.size() << " - " << projectTracks.second.indexOf(trackId); if (projectTracks.second.indexOf(trackId) < tracksBelow) { qDebug() << "// UPDATING BELOW TID IX TO: " << tracksBelow; // not enough tracks below, try to paste on upper track trackId = projectTracks.second.at(tracksBelow); } else if ((projectTracks.second.size() - (projectTracks.second.indexOf(trackId) + 1)) < tracksAbove) { // not enough tracks above, try to paste on lower track qDebug() << "// UPDATING ABOVE TID IX TO: " << (projectTracks.second.size() - tracksAbove); trackId = projectTracks.second.at(projectTracks.second.size() - tracksAbove - 1); } } else { // Audio only masterSourceTrack = copiedItems.documentElement().attribute(QStringLiteral("masterAudioTrack")).toInt(); int tracksBelow = masterSourceTrack - audioTracks.first(); int tracksAbove = audioTracks.last() - masterSourceTrack; if (projectTracks.first.indexOf(trackId) < tracksBelow) { qDebug() << "// UPDATING BELOW TID IX TO: " << tracksBelow; // not enough tracks below, try to paste on upper track trackId = projectTracks.first.at(tracksBelow); } else if ((projectTracks.first.size() - (projectTracks.first.indexOf(trackId) + 1)) < tracksAbove) { // not enough tracks above, try to paste on lower track qDebug() << "// UPDATING ABOVE TID IX TO: " << (projectTracks.first.size() - tracksAbove); trackId = projectTracks.first.at(projectTracks.first.size() - tracksAbove - 1); } } QMap tracksMap; bool audioMaster = false; int masterIx = projectTracks.second.indexOf(trackId); if (masterIx == -1) { masterIx = projectTracks.first.indexOf(trackId); audioMaster = true; } qDebug() << "/// PROJECT VIDEO TKS: " << projectTracks.second << ", MASTER: " << trackId; qDebug() << "/// PASTE VIDEO TKS: " << videoTracks << " / MASTER: " << masterSourceTrack; qDebug() << "/// MASTER PASTE: " << masterIx; for (int tk : videoTracks) { int newPos = masterIx + tk - masterSourceTrack; if (newPos < 0 || newPos >= projectTracks.second.size()) { pCore->displayMessage(i18n("Not enough tracks to paste clipboard"), InformationMessage, 500); } tracksMap.insert(tk, projectTracks.second.at(newPos)); } bool audioOffsetCalculated = false; int audioOffset = 0; for (const auto &mirror : audioMirrors) { int videoIx = tracksMap.value(mirror.second); tracksMap.insert(mirror.first, timeline->getMirrorAudioTrackId(videoIx)); if (!audioOffsetCalculated) { int oldPosition = mirror.first; int currentPosition = timeline->getTrackPosition(tracksMap.value(oldPosition)); audioOffset = currentPosition - oldPosition; audioOffsetCalculated = true; } } if (!audioOffsetCalculated && audioMaster) { audioOffset = masterIx - masterSourceTrack; audioOffsetCalculated = true; } for (int i = 0; i < singleAudioTracks.size(); i++) { int oldPos = singleAudioTracks.at(i); if (tracksMap.contains(oldPos)) { continue; } int offsetId = oldPos + audioOffset; if (offsetId < 0 || offsetId >= projectTracks.first.size()) { pCore->displayMessage(i18n("Not enough tracks to paste clipboard"), InformationMessage, 500); return false; } tracksMap.insert(oldPos, projectTracks.first.at(offsetId)); } if (!docId.isEmpty() && docId != pCore->currentDoc()->getDocumentProperty(QStringLiteral("documentid"))) { // paste from another document, import bin clips QString folderId = pCore->projectItemModel()->getFolderIdByName(i18n("Pasted clips")); if (folderId.isEmpty()) { // Folder doe not exist const QString rootId = pCore->projectItemModel()->getRootFolder()->clipId(); folderId = QString::number(pCore->projectItemModel()->getFreeFolderId()); pCore->projectItemModel()->requestAddFolder(folderId, i18n("Pasted clips"), rootId, undo, redo); } QDomNodeList binClips = copiedItems.documentElement().elementsByTagName(QStringLiteral("producer")); for (int i = 0; i < binClips.count(); ++i) { QDomElement currentProd = binClips.item(i).toElement(); QString clipId = Xml::getXmlProperty(currentProd, QStringLiteral("kdenlive:id")); if (!pCore->projectItemModel()->isIdFree(clipId)) { QString updatedId = QString::number(pCore->projectItemModel()->getFreeClipId()); Xml::setXmlProperty(currentProd, QStringLiteral("kdenlive:id"), updatedId); mappedIds.insert(clipId, updatedId); clipId = updatedId; } pCore->projectItemModel()->requestAddBinClip(clipId, currentProd, folderId, undo, redo); } } int offset = copiedItems.documentElement().attribute(QStringLiteral("offset")).toInt(); bool res = true; QLocale locale; std::unordered_map correspondingIds; QList waitingIds; for (int i = 0; i < clips.count(); i++) { waitingIds << i; } for (int i = 0; res && !waitingIds.isEmpty();) { if (i >= waitingIds.size()) { i = 0; } QDomElement prod = clips.at(waitingIds.at(i)).toElement(); QString originalId = prod.attribute(QStringLiteral("binid")); if (mappedIds.contains(originalId)) { // Map id originalId = mappedIds.value(originalId); } int in = prod.attribute(QStringLiteral("in")).toInt(); int out = prod.attribute(QStringLiteral("out")).toInt(); int curTrackId = tracksMap.value(prod.attribute(QStringLiteral("track")).toInt()); int pos = prod.attribute(QStringLiteral("position")).toInt() - offset; double speed = locale.toDouble(prod.attribute(QStringLiteral("speed"))); int newId; bool created = timeline->requestClipCreation(originalId, newId, timeline->getTrackById_const(curTrackId)->trackType(), speed, undo, redo); if (created) { // Master producer is ready // ids.removeAll(originalId); waitingIds.removeAt(i); } else { i++; qApp->processEvents(); continue; } if (timeline->m_allClips[newId]->m_endlessResize) { out = out - in; in = 0; timeline->m_allClips[newId]->m_producer->set("length", out + 1); } if (speed < 0) { // on negative speed clips, in/out are inverted int length = out - in; in = timeline->m_allClips[newId]->getMaxDuration() - out; out = in + length; } timeline->m_allClips[newId]->setInOut(in, out); int targetId = prod.attribute(QStringLiteral("id")).toInt(); correspondingIds[targetId] = newId; res = res && timeline->getTrackById(curTrackId)->requestClipInsertion(newId, position + pos, true, true, undo, redo); // paste effects if (res) { std::shared_ptr destStack = timeline->getClipEffectStackModel(newId); destStack->fromXml(prod.firstChildElement(QStringLiteral("effects")), undo, redo); } } // Compositions for (int i = 0; res && i < compositions.count(); i++) { QDomElement prod = compositions.at(i).toElement(); QString originalId = prod.attribute(QStringLiteral("composition")); int in = prod.attribute(QStringLiteral("in")).toInt(); int out = prod.attribute(QStringLiteral("out")).toInt(); int curTrackId = tracksMap.value(prod.attribute(QStringLiteral("track")).toInt()); int aTrackId = prod.attribute(QStringLiteral("a_track")).toInt(); if (aTrackId > 0) { aTrackId = timeline->getTrackPosition(tracksMap.value(aTrackId)); } int pos = prod.attribute(QStringLiteral("position")).toInt() - offset; int newId; auto transProps = std::make_unique(); QDomNodeList props = prod.elementsByTagName(QStringLiteral("property")); for (int j = 0; j < props.count(); j++) { transProps->set(props.at(j).toElement().attribute(QStringLiteral("name")).toUtf8().constData(), props.at(j).toElement().text().toUtf8().constData()); } res = timeline->requestCompositionInsertion(originalId, curTrackId, aTrackId, position + pos, out - in + 1, std::move(transProps), newId, undo, redo); } if (!res) { undo(); return false; } // Rebuild groups const QString groupsData = copiedItems.documentElement().firstChildElement(QStringLiteral("groups")).text(); if (!groupsData.isEmpty()) { timeline->m_groups->fromJsonWithOffset(groupsData, tracksMap, position - offset, undo, redo); } // unsure to clear selection in undo/redo too. Fun unselect = [&]() { qDebug() << "starting undo or redo. Selection " << timeline->m_currentSelection; timeline->requestClearSelection(); qDebug() << "after Selection " << timeline->m_currentSelection; return true; }; PUSH_FRONT_LAMBDA(unselect, undo); PUSH_FRONT_LAMBDA(unselect, redo); pCore->pushUndo(undo, redo, i18n("Paste clips")); return true; } bool TimelineFunctions::requestDeleteBlankAt(const std::shared_ptr &timeline, int trackId, int position, bool affectAllTracks) { // find blank duration int spaceDuration = timeline->getTrackById_const(trackId)->getBlankSizeAtPos(position); int cid = requestSpacerStartOperation(timeline, affectAllTracks ? -1 : trackId, position); if (cid == -1) { return false; } int start = timeline->getItemPosition(cid); requestSpacerEndOperation(timeline, cid, start, start - spaceDuration); return true; } diff --git a/src/timeline2/view/timelinecontroller.cpp b/src/timeline2/view/timelinecontroller.cpp index 98a479e5a..bee99ea59 100644 --- a/src/timeline2/view/timelinecontroller.cpp +++ b/src/timeline2/view/timelinecontroller.cpp @@ -1,2619 +1,2619 @@ /*************************************************************************** * Copyright (C) 2017 by Jean-Baptiste Mardelle * * 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 . * ***************************************************************************/ #include "timelinecontroller.h" #include "../model/timelinefunctions.hpp" #include "assets/keyframes/model/keyframemodellist.hpp" #include "bin/bin.h" #include "bin/clipcreator.hpp" #include "bin/model/markerlistmodel.hpp" #include "bin/projectclip.h" #include "bin/projectfolder.h" #include "bin/projectitemmodel.h" #include "core.h" #include "dialogs/spacerdialog.h" #include "dialogs/speeddialog.h" #include "doc/kdenlivedoc.h" #include "effects/effectsrepository.hpp" #include "effects/effectstack/model/effectstackmodel.hpp" #include "kdenlivesettings.h" #include "lib/audio/audioEnvelope.h" #include "mainwindow.h" #include "monitor/monitormanager.h" #include "previewmanager.h" #include "project/projectmanager.h" #include "timeline2/model/clipmodel.hpp" #include "timeline2/model/compositionmodel.hpp" #include "timeline2/model/groupsmodel.hpp" #include "timeline2/model/timelineitemmodel.hpp" #include "timeline2/model/trackmodel.hpp" #include "timeline2/view/dialogs/clipdurationdialog.h" #include "timeline2/view/dialogs/trackdialog.h" #include "transitions/transitionsrepository.hpp" #include #include #include #include #include #include #include #include #include int TimelineController::m_duration = 0; TimelineController::TimelineController(QObject *parent) : QObject(parent) , m_root(nullptr) , m_usePreview(false) , m_position(0) , m_seekPosition(-1) , m_activeTrack(0) , m_audioRef(-1) , m_zone(-1, -1) , m_scale(QFontMetrics(QApplication::font()).maxWidth() / 250) , m_timelinePreview(nullptr) { m_disablePreview = pCore->currentDoc()->getAction(QStringLiteral("disable_preview")); connect(m_disablePreview, &QAction::triggered, this, &TimelineController::disablePreview); connect(this, &TimelineController::selectionChanged, this, &TimelineController::updateClipActions); connect(this, &TimelineController::videoTargetChanged, this, &TimelineController::updateVideoTarget); connect(this, &TimelineController::audioTargetChanged, this, &TimelineController::updateAudioTarget); m_disablePreview->setEnabled(false); connect(pCore.get(), &Core::finalizeRecording, this, &TimelineController::finishRecording); } TimelineController::~TimelineController() { prepareClose(); } void TimelineController::prepareClose() { // Delete timeline preview before resetting model so that removing clips from timeline doesn't invalidate delete m_timelinePreview; m_timelinePreview = nullptr; } void TimelineController::setModel(std::shared_ptr model) { delete m_timelinePreview; m_zone = QPoint(-1, -1); m_timelinePreview = nullptr; m_model = std::move(model); connect(m_model.get(), &TimelineItemModel::requestClearAssetView, [&](int id) { pCore->clearAssetPanel(id); }); connect(m_model.get(), &TimelineItemModel::requestMonitorRefresh, [&]() { pCore->requestMonitorRefresh(); }); connect(m_model.get(), &TimelineModel::invalidateZone, this, &TimelineController::invalidateZone, Qt::DirectConnection); connect(m_model.get(), &TimelineModel::durationUpdated, this, &TimelineController::checkDuration); connect(m_model.get(), &TimelineModel::selectionChanged, this, &TimelineController::selectionChanged); } void TimelineController::setTargetTracks(QPair targets) { m_hasVideoTarget = targets.first >= 0; m_hasAudioTarget = targets.second >= 0; emit hasAudioTargetChanged(); emit hasVideoTargetChanged(); if (m_videoTargetActive) { setVideoTarget(m_hasVideoTarget && (m_lastVideoTarget > -1) ? m_lastVideoTarget : targets.first); } if (m_audioTargetActive) { setAudioTarget(m_hasAudioTarget && (m_lastAudioTarget > -1) ? m_lastAudioTarget : targets.second); } } std::shared_ptr TimelineController::getModel() const { return m_model; } void TimelineController::setRoot(QQuickItem *root) { m_root = root; } Mlt::Tractor *TimelineController::tractor() { return m_model->tractor(); } int TimelineController::getCurrentItem() { // TODO: if selection is empty, return topmost clip under timeline cursor auto selection = m_model->getCurrentSelection(); if (selection.empty()) { return -1; } // TODO: if selection contains more than 1 clip, return topmost clip under timeline cursor in selection return *(selection.begin()); } double TimelineController::scaleFactor() const { return m_scale; } const QString TimelineController::getTrackNameFromMltIndex(int trackPos) { if (trackPos == -1) { return i18n("unknown"); } if (trackPos == 0) { return i18n("Black"); } return m_model->getTrackTagById(m_model->getTrackIndexFromPosition(trackPos - 1)); } const QString TimelineController::getTrackNameFromIndex(int trackIndex) { QString trackName = m_model->getTrackFullName(trackIndex); return trackName.isEmpty() ? m_model->getTrackTagById(trackIndex) : trackName; } QMap TimelineController::getTrackNames(bool videoOnly) { QMap names; for (const auto &track : m_model->m_iteratorTable) { if (videoOnly && m_model->getTrackById_const(track.first)->isAudioTrack()) { continue; } QString trackName = m_model->getTrackFullName(track.first); names[m_model->getTrackMltIndex(track.first)] = trackName; } return names; } void TimelineController::setScaleFactorOnMouse(double scale, bool zoomOnMouse) { if (m_root) { m_root->setProperty("zoomOnMouse", zoomOnMouse ? qMin(getMousePos(), duration()) : -1); m_scale = scale; emit scaleFactorChanged(); } else { qWarning("Timeline root not created, impossible to zoom in"); } } void TimelineController::setScaleFactor(double scale) { m_scale = scale; // Update mainwindow's zoom slider emit updateZoom(scale); // inform qml emit scaleFactorChanged(); } int TimelineController::duration() const { return m_duration; } int TimelineController::fullDuration() const { return m_duration + TimelineModel::seekDuration; } void TimelineController::checkDuration() { int currentLength = m_model->duration(); if (currentLength != m_duration) { m_duration = currentLength; emit durationChanged(); } } int TimelineController::selectedTrack() const { std::unordered_set sel = m_model->getCurrentSelection(); if (sel.empty()) return -1; std::vector> selected_tracks; // contains pairs of (track position, track id) for each selected item for (int s : sel) { int tid = m_model->getItemTrackId(s); selected_tracks.push_back({m_model->getTrackPosition(tid), tid}); } // sort by track position std::sort(selected_tracks.begin(), selected_tracks.begin(), [](const auto &a, const auto &b) { return a.first < b.first; }); return selected_tracks.front().second; } void TimelineController::selectCurrentItem(ObjectType type, bool select, bool addToCurrent) { QList toSelect; int currentClip = type == ObjectType::TimelineClip ? m_model->getClipByPosition(m_activeTrack, timelinePosition()) : m_model->getCompositionByPosition(m_activeTrack, timelinePosition()); if (currentClip == -1) { pCore->displayMessage(i18n("No item under timeline cursor in active track"), InformationMessage, 500); return; } if (!select) { m_model->requestRemoveFromSelection(currentClip); } else { m_model->requestAddToSelection(currentClip, !addToCurrent); } } QList TimelineController::selection() const { if (!m_root) return QList(); std::unordered_set sel = m_model->getCurrentSelection(); QList items; for (int id : sel) { items << id; } return items; } void TimelineController::selectItems(const QList &ids) { std::unordered_set ids_s(ids.begin(), ids.end()); m_model->requestSetSelection(ids_s); } void TimelineController::setScrollPos(int pos) { if (pos > 0 && m_root) { QMetaObject::invokeMethod(m_root, "setScrollPos", Qt::QueuedConnection, Q_ARG(QVariant, pos)); } } void TimelineController::resetView() { m_model->_resetView(); if (m_root) { QMetaObject::invokeMethod(m_root, "updatePalette"); } emit colorsChanged(); } bool TimelineController::snap() { return KdenliveSettings::snaptopoints(); } bool TimelineController::ripple() { return false; } bool TimelineController::scrub() { return false; } int TimelineController::insertClip(int tid, int position, const QString &data_str, bool logUndo, bool refreshView, bool useTargets) { int id; if (tid == -1) { tid = m_activeTrack; } if (position == -1) { position = timelinePosition(); } if (!m_model->requestClipInsertion(data_str, tid, position, id, logUndo, refreshView, useTargets)) { id = -1; } return id; } QList TimelineController::insertClips(int tid, int position, const QStringList &binIds, bool logUndo, bool refreshView) { QList clipIds; if (tid == -1) { tid = m_activeTrack; } if (position == -1) { position = timelinePosition(); } TimelineFunctions::requestMultipleClipsInsertion(m_model, binIds, tid, position, clipIds, logUndo, refreshView); // we don't need to check the return value of the above function, in case of failure it will return an empty list of ids. return clipIds; } int TimelineController::insertNewComposition(int tid, int position, const QString &transitionId, bool logUndo) { int clipId = m_model->getTrackById_const(tid)->getClipByPosition(position); if (clipId > 0) { int minimum = m_model->getClipPosition(clipId); return insertNewComposition(tid, clipId, position - minimum, transitionId, logUndo); } return insertComposition(tid, position, transitionId, logUndo); } int TimelineController::insertNewComposition(int tid, int clipId, int offset, const QString &transitionId, bool logUndo) { int id; int minimum = m_model->getClipPosition(clipId); int clip_duration = m_model->getClipPlaytime(clipId); int position = minimum; if (offset > clip_duration / 2) { position += offset; } else { // Check if we have a composition at beginning std::unordered_set existing = m_model->getTrackById_const(tid)->getCompositionsInRange(minimum, minimum + offset); if (existing.size() > 0) { position += offset; } } position = qMin(minimum + clip_duration - 1, position); int duration = qMin(pCore->currentDoc()->getFramePos(KdenliveSettings::transition_duration()), m_model->getTrackById_const(tid)->suggestCompositionLength(position)); int lowerVideoTrackId = m_model->getPreviousVideoTrackIndex(tid); bool revert = offset > clip_duration / 2; if (lowerVideoTrackId > 0) { int bottomId = m_model->getTrackById_const(lowerVideoTrackId)->getClipByPosition(position); if (bottomId > 0) { QPair bottom(m_model->m_allClips[bottomId]->getPosition(), m_model->m_allClips[bottomId]->getPlaytime()); if (bottom.first > minimum && position > bottom.first) { int test_duration = m_model->getTrackById_const(tid)->suggestCompositionLength(bottom.first); if (test_duration > 0) { position = bottom.first; duration = test_duration; revert = position > minimum; } } } int duration2 = m_model->getTrackById_const(lowerVideoTrackId)->suggestCompositionLength(position); if (duration2 > 0) { duration = (duration > 0) ? qMin(duration, duration2) : duration2; } } if (duration < 0) { duration = pCore->currentDoc()->getFramePos(KdenliveSettings::transition_duration()); } else if (duration <= 1) { // if suggested composition duration is lower than 4 frames, use default duration = pCore->currentDoc()->getFramePos(KdenliveSettings::transition_duration()); if (minimum + clip_duration - position < 3) { position = minimum + clip_duration - duration; } } std::unique_ptr props(nullptr); if (revert) { props = std::make_unique(); if (transitionId == QLatin1String("dissolve")) { props->set("reverse", 1); } else if (transitionId == QLatin1String("composite") || transitionId == QLatin1String("slide")) { props->set("invert", 1); } else if (transitionId == QLatin1String("wipe")) { props->set("geometry", "0%/0%:100%x100%:100;-1=0%/0%:100%x100%:0"); } } if (!m_model->requestCompositionInsertion(transitionId, tid, position, duration, std::move(props), id, logUndo)) { id = -1; pCore->displayMessage(i18n("Could not add composition at selected position"), InformationMessage, 500); } return id; } int TimelineController::insertComposition(int tid, int position, const QString &transitionId, bool logUndo) { int id; int duration = pCore->currentDoc()->getFramePos(KdenliveSettings::transition_duration()); if (!m_model->requestCompositionInsertion(transitionId, tid, position, duration, nullptr, id, logUndo)) { id = -1; } return id; } void TimelineController::deleteSelectedClips() { auto sel = m_model->getCurrentSelection(); if (sel.empty()) { return; } // only need to delete the first item, the others will be deleted in cascade m_model->requestItemDeletion(*sel.begin()); } int TimelineController::getMainSelectedItem(bool restrictToCurrentPos, bool allowComposition) { auto sel = m_model->getCurrentSelection(); if (sel.empty() || sel.size() > 2) { return -1; } int itemId = *(sel.begin()); if (sel.size() == 2) { int parentGroup = m_model->m_groups->getRootId(itemId); if (parentGroup == -1 || m_model->m_groups->getType(parentGroup) != GroupType::AVSplit) { return -1; } } if (!restrictToCurrentPos) { if (m_model->isClip(itemId) || (allowComposition && m_model->isComposition(itemId))) { return itemId; } } if (m_model->isClip(itemId)) { int position = timelinePosition(); int start = m_model->getClipPosition(itemId); int end = start + m_model->getClipPlaytime(itemId); if (position >= start && position <= end) { return itemId; } } return -1; } void TimelineController::copyItem() { std::unordered_set selectedIds = m_model->getCurrentSelection(); if (selectedIds.empty()) { return; } int clipId = *(selectedIds.begin()); QString copyString = TimelineFunctions::copyClips(m_model, selectedIds); QClipboard *clipboard = QApplication::clipboard(); clipboard->setText(copyString); m_root->setProperty("copiedClip", clipId); m_model->requestSetSelection(selectedIds); } bool TimelineController::pasteItem(int position, int tid) { QClipboard *clipboard = QApplication::clipboard(); QString txt = clipboard->text(); if (tid == -1) { tid = getMouseTrack(); } if (position == -1) { position = getMousePos(); } if (tid == -1) { tid = m_activeTrack; } if (position == -1) { position = timelinePosition(); } return TimelineFunctions::pasteClips(m_model, txt, tid, position); } void TimelineController::triggerAction(const QString &name) { pCore->triggerAction(name); } QString TimelineController::timecode(int frames) const { return KdenliveSettings::frametimecode() ? QString::number(frames) : m_model->tractor()->frames_to_time(frames, mlt_time_smpte_df); } QString TimelineController::framesToClock(int frames) const { return m_model->tractor()->frames_to_time(frames, mlt_time_clock); } QString TimelineController::simplifiedTC(int frames) const { if (KdenliveSettings::frametimecode()) { return QString::number(frames); } QString s = m_model->tractor()->frames_to_time(frames, mlt_time_smpte_df); return s.startsWith(QLatin1String("00:")) ? s.remove(0, 3) : s; } bool TimelineController::showThumbnails() const { return KdenliveSettings::videothumbnails(); } bool TimelineController::showAudioThumbnails() const { return KdenliveSettings::audiothumbnails(); } bool TimelineController::showMarkers() const { return KdenliveSettings::showmarkers(); } bool TimelineController::audioThumbFormat() const { return KdenliveSettings::displayallchannels(); } bool TimelineController::showWaveforms() const { return KdenliveSettings::audiothumbnails(); } void TimelineController::addTrack(int tid) { if (tid == -1) { tid = m_activeTrack; } QPointer d = new TrackDialog(m_model, tid, qApp->activeWindow()); if (d->exec() == QDialog::Accepted) { int newTid; bool audioRecTrack = d->addRecTrack(); bool addAVTrack = d->addAVTrack(); m_model->requestTrackInsertion(d->selectedTrackPosition(), newTid, d->trackName(), d->addAudioTrack()); if (addAVTrack) { int newTid2; int mirrorPos = 0; int mirrorId = m_model->getMirrorAudioTrackId(newTid); if (mirrorId > -1) { mirrorPos = m_model->getTrackMltIndex(mirrorId); } m_model->requestTrackInsertion(mirrorPos, newTid2, d->trackName(), true); } m_model->buildTrackCompositing(true); if (audioRecTrack) { m_model->setTrackProperty(newTid, "kdenlive:audio_rec", QStringLiteral("1")); } } } void TimelineController::deleteTrack(int tid) { if (tid == -1) { tid = m_activeTrack; } QPointer d = new TrackDialog(m_model, tid, qApp->activeWindow(), true); if (d->exec() == QDialog::Accepted) { int selectedTrackIx = d->selectedTrackId(); if (m_activeTrack == selectedTrackIx) { // Make sure we don't keep an index on a deleted track m_activeTrack = -1; } if (m_model->m_audioTarget == selectedTrackIx) { setAudioTarget(-1); } if (m_model->m_videoTarget == selectedTrackIx) { setVideoTarget(-1); } if (m_lastAudioTarget == selectedTrackIx) { m_lastAudioTarget = -1; emit lastAudioTargetChanged(); } if (m_lastVideoTarget == selectedTrackIx) { m_lastVideoTarget = -1; emit lastVideoTargetChanged(); } m_model->requestTrackDeletion(selectedTrackIx); m_model->buildTrackCompositing(true); if (m_activeTrack == -1) { setActiveTrack(m_model->getTrackIndexFromPosition(m_model->getTracksCount() - 1)); } } } void TimelineController::showConfig(int page, int tab) { pCore->showConfigDialog(page, tab); } void TimelineController::gotoNextSnap() { int nextSnap = m_model->getNextSnapPos(timelinePosition()); if (nextSnap > timelinePosition()) { setPosition(nextSnap); } } void TimelineController::gotoPreviousSnap() { if (timelinePosition() > 0) { setPosition(m_model->getPreviousSnapPos(timelinePosition())); } } void TimelineController::groupSelection() { const auto selection = m_model->getCurrentSelection(); if (selection.size() < 2) { pCore->displayMessage(i18n("Select at least 2 items to group"), InformationMessage, 500); return; } m_model->requestClearSelection(); m_model->requestClipsGroup(selection); m_model->requestSetSelection(selection); } void TimelineController::unGroupSelection(int cid) { auto ids = m_model->getCurrentSelection(); // ask to unselect if needed m_model->requestClearSelection(); if (cid > -1) { ids.insert(cid); } if (!ids.empty()) { m_model->requestClipsUngroup(ids); } } bool TimelineController::dragOperationRunning() { QVariant returnedValue; QMetaObject::invokeMethod(m_root, "isDragging", Q_RETURN_ARG(QVariant, returnedValue)); return returnedValue.toBool(); } void TimelineController::setInPoint() { if (dragOperationRunning()) { // Don't allow timeline operation while drag in progress qDebug() << "Cannot operate while dragging"; return; } int cursorPos = timelinePosition(); const auto selection = m_model->getCurrentSelection(); bool selectionFound = false; if (!selection.empty()) { for (int id : selection) { int start = m_model->getItemPosition(id); if (start == cursorPos) { continue; } int size = start + m_model->getItemPlaytime(id) - cursorPos; m_model->requestItemResize(id, size, false, true, 0, false); selectionFound = true; } } if (!selectionFound) { if (m_activeTrack >= 0) { int cid = m_model->getClipByPosition(m_activeTrack, cursorPos); if (cid < 0) { // Check first item after timeline position int maximumSpace = m_model->getTrackById_const(m_activeTrack)->getBlankEnd(cursorPos); if (maximumSpace < INT_MAX) { cid = m_model->getClipByPosition(m_activeTrack, maximumSpace + 1); } } if (cid >= 0) { int start = m_model->getItemPosition(cid); if (start != cursorPos) { int size = start + m_model->getItemPlaytime(cid) - cursorPos; m_model->requestItemResize(cid, size, false, true, 0, false); } } } } } int TimelineController::timelinePosition() const { return m_seekPosition >= 0 ? m_seekPosition : m_position; } void TimelineController::setOutPoint() { if (dragOperationRunning()) { // Don't allow timeline operation while drag in progress qDebug() << "Cannot operate while dragging"; return; } int cursorPos = timelinePosition(); const auto selection = m_model->getCurrentSelection(); bool selectionFound = false; if (!selection.empty()) { for (int id : selection) { int start = m_model->getItemPosition(id); if (start + m_model->getItemPlaytime(id) == cursorPos) { continue; } int size = cursorPos - start; m_model->requestItemResize(id, size, true, true, 0, false); selectionFound = true; } } if (!selectionFound) { if (m_activeTrack >= 0) { int cid = m_model->getClipByPosition(m_activeTrack, cursorPos); if (cid < 0) { // Check first item after timeline position int minimumSpace = m_model->getTrackById_const(m_activeTrack)->getBlankStart(cursorPos); cid = m_model->getClipByPosition(m_activeTrack, qMax(0, minimumSpace - 1)); } if (cid >= 0) { int start = m_model->getItemPosition(cid); if (start + m_model->getItemPlaytime(cid) != cursorPos) { int size = cursorPos - start; m_model->requestItemResize(cid, size, true, true, 0, false); } } } } } void TimelineController::editMarker(int cid, int position) { Q_ASSERT(m_model->isClip(cid)); double speed = m_model->getClipSpeed(cid); if (position == -1) { // Calculate marker position relative to timeline cursor position = timelinePosition() - m_model->getClipPosition(cid) + m_model->getClipIn(cid); position = position * speed; } if (position < (m_model->getClipIn(cid) * speed) || position > (m_model->getClipIn(cid) * speed + m_model->getClipPlaytime(cid))) { pCore->displayMessage(i18n("Cannot find clip to edit marker"), InformationMessage, 500); return; } std::shared_ptr clip = pCore->bin()->getBinClip(getClipBinId(cid)); if (clip->getMarkerModel()->hasMarker(position)) { GenTime pos(position, pCore->getCurrentFps()); clip->getMarkerModel()->editMarkerGui(pos, qApp->activeWindow(), false, clip.get()); } else { pCore->displayMessage(i18n("Cannot find clip to edit marker"), InformationMessage, 500); } } void TimelineController::addMarker(int cid, int position) { Q_ASSERT(m_model->isClip(cid)); double speed = m_model->getClipSpeed(cid); if (position == -1) { // Calculate marker position relative to timeline cursor position = timelinePosition() - m_model->getClipPosition(cid) + m_model->getClipIn(cid); position = position * speed; } if (position < (m_model->getClipIn(cid) * speed) || position > (m_model->getClipIn(cid) * speed + m_model->getClipPlaytime(cid))) { pCore->displayMessage(i18n("Cannot find clip to edit marker"), InformationMessage, 500); return; } std::shared_ptr clip = pCore->bin()->getBinClip(getClipBinId(cid)); GenTime pos(position, pCore->getCurrentFps()); clip->getMarkerModel()->editMarkerGui(pos, qApp->activeWindow(), true, clip.get()); } void TimelineController::addQuickMarker(int cid, int position) { Q_ASSERT(m_model->isClip(cid)); double speed = m_model->getClipSpeed(cid); if (position == -1) { // Calculate marker position relative to timeline cursor position = timelinePosition() - m_model->getClipPosition(cid) + m_model->getClipIn(cid); position = position * speed; } if (position < (m_model->getClipIn(cid) * speed) || position > (m_model->getClipIn(cid) * speed + m_model->getClipPlaytime(cid))) { pCore->displayMessage(i18n("Cannot find clip to edit marker"), InformationMessage, 500); return; } std::shared_ptr clip = pCore->bin()->getBinClip(getClipBinId(cid)); GenTime pos(position, pCore->getCurrentFps()); CommentedTime marker(pos, pCore->currentDoc()->timecode().getDisplayTimecode(pos, false), KdenliveSettings::default_marker_type()); clip->getMarkerModel()->addMarker(marker.time(), marker.comment(), marker.markerType()); } void TimelineController::deleteMarker(int cid, int position) { Q_ASSERT(m_model->isClip(cid)); double speed = m_model->getClipSpeed(cid); if (position == -1) { // Calculate marker position relative to timeline cursor position = timelinePosition() - m_model->getClipPosition(cid) + m_model->getClipIn(cid); position = position * speed; } if (position < (m_model->getClipIn(cid) * speed) || position > (m_model->getClipIn(cid) * speed + m_model->getClipPlaytime(cid))) { pCore->displayMessage(i18n("Cannot find clip to edit marker"), InformationMessage, 500); return; } std::shared_ptr clip = pCore->bin()->getBinClip(getClipBinId(cid)); GenTime pos(position, pCore->getCurrentFps()); clip->getMarkerModel()->removeMarker(pos); } void TimelineController::deleteAllMarkers(int cid) { Q_ASSERT(m_model->isClip(cid)); std::shared_ptr clip = pCore->bin()->getBinClip(getClipBinId(cid)); clip->getMarkerModel()->removeAllMarkers(); } void TimelineController::editGuide(int frame) { if (frame == -1) { frame = timelinePosition(); } auto guideModel = pCore->projectManager()->current()->getGuideModel(); GenTime pos(frame, pCore->getCurrentFps()); guideModel->editMarkerGui(pos, qApp->activeWindow(), false); } void TimelineController::moveGuide(int frame, int newFrame) { auto guideModel = pCore->projectManager()->current()->getGuideModel(); GenTime pos(frame, pCore->getCurrentFps()); GenTime newPos(newFrame, pCore->getCurrentFps()); guideModel->editMarker(pos, newPos); } void TimelineController::switchGuide(int frame, bool deleteOnly) { bool markerFound = false; if (frame == -1) { frame = timelinePosition(); } CommentedTime marker = pCore->projectManager()->current()->getGuideModel()->getMarker(GenTime(frame, pCore->getCurrentFps()), &markerFound); if (!markerFound) { if (deleteOnly) { pCore->displayMessage(i18n("No guide found at current position"), InformationMessage, 500); return; } GenTime pos(frame, pCore->getCurrentFps()); pCore->projectManager()->current()->getGuideModel()->addMarker(pos, i18n("guide")); } else { pCore->projectManager()->current()->getGuideModel()->removeMarker(marker.time()); } } void TimelineController::addAsset(const QVariantMap &data) { QString effect = data.value(QStringLiteral("kdenlive/effect")).toString(); const auto selection = m_model->getCurrentSelection(); if (!selection.empty()) { QList effectSelection; for (int id : selection) { if (m_model->isClip(id)) { effectSelection << id; } } bool foundMatch = false; for (int id : effectSelection) { if (m_model->addClipEffect(id, effect, false)) { foundMatch = true; } } if (!foundMatch) { QString effectName = EffectsRepository::get()->getName(effect); pCore->displayMessage(i18n("Cannot add effect %1 to selected clip", effectName), InformationMessage, 500); } } else { pCore->displayMessage(i18n("Select a clip to apply an effect"), InformationMessage, 500); } } void TimelineController::requestRefresh() { pCore->requestMonitorRefresh(); } void TimelineController::showAsset(int id) { if (m_model->isComposition(id)) { emit showTransitionModel(id, m_model->getCompositionParameterModel(id)); } else if (m_model->isClip(id)) { QModelIndex clipIx = m_model->makeClipIndexFromID(id); QString clipName = m_model->data(clipIx, Qt::DisplayRole).toString(); bool showKeyframes = m_model->data(clipIx, TimelineModel::ShowKeyframesRole).toInt(); qDebug() << "-----\n// SHOW KEYFRAMES: " << showKeyframes; emit showItemEffectStack(clipName, m_model->getClipEffectStackModel(id), m_model->getClipFrameSize(id), showKeyframes); } } void TimelineController::showTrackAsset(int trackId) { emit showItemEffectStack(getTrackNameFromIndex(trackId), m_model->getTrackEffectStackModel(trackId), pCore->getCurrentFrameSize(), false); } void TimelineController::adjustAllTrackHeight(int trackId, int height) { bool isAudio = m_model->getTrackById_const(trackId)->isAudioTrack(); auto it = m_model->m_allTracks.cbegin(); while (it != m_model->m_allTracks.cend()) { int target_track = (*it)->getId(); if (target_track != trackId && m_model->getTrackById_const(target_track)->isAudioTrack() == isAudio) { m_model->getTrackById(target_track)->setProperty(QStringLiteral("kdenlive:trackheight"), QString::number(height)); } ++it; } int tracksCount = m_model->getTracksCount(); QModelIndex modelStart = m_model->makeTrackIndexFromID(m_model->getTrackIndexFromPosition(0)); QModelIndex modelEnd = m_model->makeTrackIndexFromID(m_model->getTrackIndexFromPosition(tracksCount - 1)); m_model->dataChanged(modelStart, modelEnd, {TimelineModel::HeightRole}); } void TimelineController::setPosition(int position) { setSeekPosition(position); emit seeked(position); } void TimelineController::setAudioTarget(int track) { if (track > -1 && !m_model->isTrack(track) || !m_hasAudioTarget) { return; } m_model->m_audioTarget = track; emit audioTargetChanged(); } void TimelineController::setVideoTarget(int track) { if (track > -1 && !m_model->isTrack(track) || !m_hasVideoTarget) { return; } m_model->m_videoTarget = track; emit videoTargetChanged(); } void TimelineController::setActiveTrack(int track) { if (track > -1 && !m_model->isTrack(track)) { return; } m_activeTrack = track; emit activeTrackChanged(); } void TimelineController::setSeekPosition(int position) { m_seekPosition = position; emit seekPositionChanged(); } void TimelineController::onSeeked(int position) { m_position = position; emit positionChanged(); if (m_seekPosition > -1 && position == m_seekPosition) { m_seekPosition = -1; emit seekPositionChanged(); } } void TimelineController::setZone(const QPoint &zone) { if (m_zone.x() > 0) { m_model->removeSnap(m_zone.x()); } if (m_zone.y() > 0) { m_model->removeSnap(m_zone.y() - 1); } if (zone.x() > 0) { m_model->addSnap(zone.x()); } if (zone.y() > 0) { m_model->addSnap(zone.y() - 1); } m_zone = zone; emit zoneChanged(); } void TimelineController::setZoneIn(int inPoint) { if (m_zone.x() > 0) { m_model->removeSnap(m_zone.x()); } if (inPoint > 0) { m_model->addSnap(inPoint); } m_zone.setX(inPoint); emit zoneMoved(m_zone); } void TimelineController::setZoneOut(int outPoint) { if (m_zone.y() > 0) { m_model->removeSnap(m_zone.y() - 1); } if (outPoint > 0) { m_model->addSnap(outPoint - 1); } m_zone.setY(outPoint); emit zoneMoved(m_zone); } void TimelineController::selectItems(const QVariantList &tracks, int startFrame, int endFrame, bool addToSelect) { std::unordered_set itemsToSelect; if (addToSelect) { itemsToSelect = m_model->getCurrentSelection(); } for (int i = 0; i < tracks.count(); i++) { if (m_model->getTrackById_const(tracks.at(i).toInt())->isLocked()) { continue; } auto currentClips = m_model->getItemsInRange(tracks.at(i).toInt(), startFrame, endFrame, true); itemsToSelect.insert(currentClips.begin(), currentClips.end()); } m_model->requestSetSelection(itemsToSelect); } void TimelineController::requestClipCut(int clipId, int position) { if (position == -1) { position = timelinePosition(); } TimelineFunctions::requestClipCut(m_model, clipId, position); } void TimelineController::cutClipUnderCursor(int position, int track) { if (position == -1) { position = timelinePosition(); } QMutexLocker lk(&m_metaMutex); bool foundClip = false; const auto selection = m_model->getCurrentSelection(); for (int cid : selection) { if (m_model->isClip(cid)) { if (TimelineFunctions::requestClipCut(m_model, cid, position)) { foundClip = true; // Cutting clips in the selection group is handled in TimelineFunctions break; } } else { qDebug() << "//// TODO: COMPOSITION CUT!!!"; } } if (!foundClip) { if (track == -1) { track = m_activeTrack; } if (track >= 0) { int cid = m_model->getClipByPosition(track, position); if (cid >= 0 && TimelineFunctions::requestClipCut(m_model, cid, position)) { foundClip = true; } } } if (!foundClip) { pCore->displayMessage(i18n("No clip to cut"), InformationMessage, 500); } } int TimelineController::requestSpacerStartOperation(int trackId, int position) { return TimelineFunctions::requestSpacerStartOperation(m_model, trackId, position); } bool TimelineController::requestSpacerEndOperation(int clipId, int startPosition, int endPosition) { return TimelineFunctions::requestSpacerEndOperation(m_model, clipId, startPosition, endPosition); } void TimelineController::seekCurrentClip(bool seekToEnd) { const auto selection = m_model->getCurrentSelection(); for (int cid : selection) { int start = m_model->getItemPosition(cid); if (seekToEnd) { start += m_model->getItemPlaytime(cid); } setPosition(start); break; } } void TimelineController::seekToClip(int cid, bool seekToEnd) { int start = m_model->getItemPosition(cid); if (seekToEnd) { start += m_model->getItemPlaytime(cid); } setPosition(start); } void TimelineController::seekToMouse() { QVariant returnedValue; QMetaObject::invokeMethod(m_root, "getMousePos", Q_RETURN_ARG(QVariant, returnedValue)); int mousePos = returnedValue.toInt(); setPosition(mousePos); } int TimelineController::getMousePos() { QVariant returnedValue; QMetaObject::invokeMethod(m_root, "getMousePos", Q_RETURN_ARG(QVariant, returnedValue)); return returnedValue.toInt(); } int TimelineController::getMouseTrack() { QVariant returnedValue; QMetaObject::invokeMethod(m_root, "getMouseTrack", Q_RETURN_ARG(QVariant, returnedValue)); return returnedValue.toInt(); } void TimelineController::refreshItem(int id) { int in = m_model->getItemPosition(id); if (in > m_position || (m_model->isClip(id) && m_model->m_allClips[id]->isAudioOnly())) { return; } if (m_position <= in + m_model->getItemPlaytime(id)) { pCore->requestMonitorRefresh(); } } QPoint TimelineController::getTracksCount() const { QVariant returnedValue; QMetaObject::invokeMethod(m_root, "getTracksCount", Q_RETURN_ARG(QVariant, returnedValue)); QVariantList tracks = returnedValue.toList(); QPoint p(tracks.at(0).toInt(), tracks.at(1).toInt()); return p; } QStringList TimelineController::extractCompositionLumas() const { return m_model->extractCompositionLumas(); } void TimelineController::addEffectToCurrentClip(const QStringList &effectData) { QList activeClips; for (int track = m_model->getTracksCount() - 1; track >= 0; track--) { int trackIx = m_model->getTrackIndexFromPosition(track); int cid = m_model->getClipByPosition(trackIx, timelinePosition()); if (cid > -1) { activeClips << cid; } } if (!activeClips.isEmpty()) { if (effectData.count() == 4) { QString effectString = effectData.at(1) + QStringLiteral("-") + effectData.at(2) + QStringLiteral("-") + effectData.at(3); m_model->copyClipEffect(activeClips.first(), effectString); } else { m_model->addClipEffect(activeClips.first(), effectData.constFirst()); } } } void TimelineController::adjustFade(int cid, const QString &effectId, int duration, int initialDuration) { if (duration <= 0) { // remove fade m_model->removeFade(cid, effectId == QLatin1String("fadein")); } else { m_model->adjustEffectLength(cid, effectId, duration, initialDuration); } } QPair TimelineController::getCompositionATrack(int cid) const { QPair result; std::shared_ptr compo = m_model->getCompositionPtr(cid); if (compo) { result = QPair(compo->getATrack(), m_model->getTrackMltIndex(compo->getCurrentTrackId())); } return result; } void TimelineController::setCompositionATrack(int cid, int aTrack) { TimelineFunctions::setCompositionATrack(m_model, cid, aTrack); } bool TimelineController::compositionAutoTrack(int cid) const { std::shared_ptr compo = m_model->getCompositionPtr(cid); return compo && compo->getForcedTrack() == -1; } const QString TimelineController::getClipBinId(int clipId) const { return m_model->getClipBinId(clipId); } void TimelineController::focusItem(int itemId) { int start = m_model->getItemPosition(itemId); setPosition(start); } int TimelineController::headerWidth() const { return qMax(10, KdenliveSettings::headerwidth()); } void TimelineController::setHeaderWidth(int width) { KdenliveSettings::setHeaderwidth(width); } bool TimelineController::createSplitOverlay(Mlt::Filter *filter) { if (m_timelinePreview && m_timelinePreview->hasOverlayTrack()) { return true; } int clipId = getCurrentItem(); if (clipId == -1) { pCore->displayMessage(i18n("Select a clip to compare effect"), InformationMessage, 500); return false; } std::shared_ptr clip = m_model->getClipPtr(clipId); const QString binId = clip->binId(); // Get clean bin copy of the clip std::shared_ptr binClip = pCore->projectItemModel()->getClipByBinID(binId); std::shared_ptr binProd(binClip->masterProducer()->cut(clip->getIn(), clip->getOut())); // Get copy of timeline producer std::shared_ptr clipProducer(new Mlt::Producer(*clip)); // Built tractor and compositing Mlt::Tractor trac(*m_model->m_tractor->profile()); Mlt::Playlist play(*m_model->m_tractor->profile()); Mlt::Playlist play2(*m_model->m_tractor->profile()); play.append(*clipProducer.get()); play2.append(*binProd); trac.set_track(play, 0); trac.set_track(play2, 1); play2.attach(*filter); QString splitTransition = TransitionsRepository::get()->getCompositingTransition(); Mlt::Transition t(*m_model->m_tractor->profile(), splitTransition.toUtf8().constData()); t.set("always_active", 1); trac.plant_transition(t, 0, 1); int startPos = m_model->getClipPosition(clipId); // plug in overlay playlist auto *overlay = new Mlt::Playlist(*m_model->m_tractor->profile()); overlay->insert_blank(0, startPos); Mlt::Producer split(trac.get_producer()); overlay->insert_at(startPos, &split, 1); // insert in tractor if (!m_timelinePreview) { initializePreview(); } m_timelinePreview->setOverlayTrack(overlay); m_model->m_overlayTrackCount = m_timelinePreview->addedTracks(); return true; } void TimelineController::removeSplitOverlay() { if (m_timelinePreview && !m_timelinePreview->hasOverlayTrack()) { return; } // disconnect m_timelinePreview->removeOverlayTrack(); m_model->m_overlayTrackCount = m_timelinePreview->addedTracks(); } void TimelineController::addPreviewRange(bool add) { if (m_zone.isNull()) { return; } if (!m_timelinePreview) { initializePreview(); } if (m_timelinePreview) { m_timelinePreview->addPreviewRange(m_zone, add); } } void TimelineController::clearPreviewRange(bool resetZones) { if (m_timelinePreview) { m_timelinePreview->clearPreviewRange(resetZones); } } void TimelineController::startPreviewRender() { // Timeline preview stuff if (!m_timelinePreview) { initializePreview(); } else if (m_disablePreview->isChecked()) { m_disablePreview->setChecked(false); disablePreview(false); } if (m_timelinePreview) { if (!m_usePreview) { m_timelinePreview->buildPreviewTrack(); m_usePreview = true; m_model->m_overlayTrackCount = m_timelinePreview->addedTracks(); } m_timelinePreview->startPreviewRender(); } } void TimelineController::stopPreviewRender() { if (m_timelinePreview) { m_timelinePreview->abortRendering(); } } void TimelineController::initializePreview() { if (m_timelinePreview) { // Update parameters if (!m_timelinePreview->loadParams()) { if (m_usePreview) { // Disconnect preview track m_timelinePreview->disconnectTrack(); m_usePreview = false; } delete m_timelinePreview; m_timelinePreview = nullptr; } } else { m_timelinePreview = new PreviewManager(this, m_model->m_tractor.get()); if (!m_timelinePreview->initialize()) { // TODO warn user delete m_timelinePreview; m_timelinePreview = nullptr; } else { } } QAction *previewRender = pCore->currentDoc()->getAction(QStringLiteral("prerender_timeline_zone")); if (previewRender) { previewRender->setEnabled(m_timelinePreview != nullptr); } m_disablePreview->setEnabled(m_timelinePreview != nullptr); m_disablePreview->blockSignals(true); m_disablePreview->setChecked(false); m_disablePreview->blockSignals(false); } void TimelineController::disablePreview(bool disable) { if (disable) { m_timelinePreview->deletePreviewTrack(); m_usePreview = false; m_model->m_overlayTrackCount = m_timelinePreview->addedTracks(); } else { if (!m_usePreview) { if (!m_timelinePreview->buildPreviewTrack()) { // preview track already exists, reconnect m_model->m_tractor->lock(); m_timelinePreview->reconnectTrack(); m_model->m_tractor->unlock(); } m_timelinePreview->loadChunks(QVariantList(), QVariantList(), QDateTime()); m_usePreview = true; } } m_model->m_overlayTrackCount = m_timelinePreview->addedTracks(); } QVariantList TimelineController::dirtyChunks() const { return m_timelinePreview ? m_timelinePreview->m_dirtyChunks : QVariantList(); } QVariantList TimelineController::renderedChunks() const { return m_timelinePreview ? m_timelinePreview->m_renderedChunks : QVariantList(); } int TimelineController::workingPreview() const { return m_timelinePreview ? m_timelinePreview->workingPreview : -1; } bool TimelineController::useRuler() const { return pCore->currentDoc()->getDocumentProperty(QStringLiteral("enableTimelineZone")).toInt() == 1; } void TimelineController::resetPreview() { if (m_timelinePreview) { m_timelinePreview->clearPreviewRange(true); initializePreview(); } } void TimelineController::loadPreview(const QString &chunks, const QString &dirty, const QDateTime &documentDate, int enable) { if (chunks.isEmpty() && dirty.isEmpty()) { return; } if (!m_timelinePreview) { initializePreview(); } QVariantList renderedChunks; QVariantList dirtyChunks; QStringList chunksList = chunks.split(QLatin1Char(','), QString::SkipEmptyParts); QStringList dirtyList = dirty.split(QLatin1Char(','), QString::SkipEmptyParts); for (const QString &frame : chunksList) { renderedChunks << frame.toInt(); } for (const QString &frame : dirtyList) { dirtyChunks << frame.toInt(); } m_disablePreview->blockSignals(true); m_disablePreview->setChecked(enable); m_disablePreview->blockSignals(false); if (!enable) { m_timelinePreview->buildPreviewTrack(); m_usePreview = true; m_model->m_overlayTrackCount = m_timelinePreview->addedTracks(); } m_timelinePreview->loadChunks(renderedChunks, dirtyChunks, documentDate); } QMap TimelineController::documentProperties() { QMap props = pCore->currentDoc()->documentProperties(); int audioTarget = m_model->m_audioTarget == -1 ? -1 : m_model->getTrackPosition(m_model->m_audioTarget); int videoTarget = m_model->m_videoTarget == -1 ? -1 : m_model->getTrackPosition(m_model->m_videoTarget); int activeTrack = m_activeTrack == -1 ? -1 : m_model->getTrackPosition(m_activeTrack); props.insert(QStringLiteral("audioTarget"), QString::number(audioTarget)); props.insert(QStringLiteral("videoTarget"), QString::number(videoTarget)); props.insert(QStringLiteral("activeTrack"), QString::number(activeTrack)); props.insert(QStringLiteral("position"), QString::number(timelinePosition())); QVariant returnedValue; QMetaObject::invokeMethod(m_root, "getScrollPos", Q_RETURN_ARG(QVariant, returnedValue)); int scrollPos = returnedValue.toInt(); props.insert(QStringLiteral("scrollPos"), QString::number(scrollPos)); props.insert(QStringLiteral("zonein"), QString::number(m_zone.x())); props.insert(QStringLiteral("zoneout"), QString::number(m_zone.y())); if (m_timelinePreview) { QPair chunks = m_timelinePreview->previewChunks(); props.insert(QStringLiteral("previewchunks"), chunks.first.join(QLatin1Char(','))); props.insert(QStringLiteral("dirtypreviewchunks"), chunks.second.join(QLatin1Char(','))); } props.insert(QStringLiteral("disablepreview"), QString::number((int)m_disablePreview->isChecked())); return props; } void TimelineController::insertSpace(int trackId, int frame) { if (frame == -1) { frame = timelinePosition(); } if (trackId == -1) { trackId = m_activeTrack; } QPointer d = new SpacerDialog(GenTime(65, pCore->getCurrentFps()), pCore->currentDoc()->timecode(), qApp->activeWindow()); if (d->exec() != QDialog::Accepted) { delete d; return; } int cid = requestSpacerStartOperation(d->affectAllTracks() ? -1 : trackId, frame); int spaceDuration = d->selectedDuration().frames(pCore->getCurrentFps()); delete d; if (cid == -1) { pCore->displayMessage(i18n("No clips found to insert space"), InformationMessage, 500); return; } int start = m_model->getItemPosition(cid); requestSpacerEndOperation(cid, start, start + spaceDuration); } void TimelineController::removeSpace(int trackId, int frame, bool affectAllTracks) { if (frame == -1) { frame = timelinePosition(); } if (trackId == -1) { trackId = m_activeTrack; } bool res = TimelineFunctions::requestDeleteBlankAt(m_model, trackId, frame, affectAllTracks); if (!res) { pCore->displayMessage(i18n("Cannot remove space at given position"), InformationMessage, 500); } } void TimelineController::invalidateItem(int cid) { if (!m_timelinePreview || !m_model->isItem(cid) || m_model->getItemTrackId(cid) == -1) { return; } int start = m_model->getItemPosition(cid); int end = start + m_model->getItemPlaytime(cid); m_timelinePreview->invalidatePreview(start, end); } void TimelineController::invalidateTrack(int tid) { if (!m_timelinePreview || !m_model->isTrack(tid)) { return; } for (auto clp : m_model->getTrackById_const(tid)->m_allClips) { invalidateItem(clp.first); } } void TimelineController::invalidateZone(int in, int out) { if (!m_timelinePreview) { return; } m_timelinePreview->invalidatePreview(in, out); } void TimelineController::changeItemSpeed(int clipId, double speed) { if (clipId == -1) { clipId = getMainSelectedItem(false, true); } if (clipId == -1) { pCore->displayMessage(i18n("No item to edit"), InformationMessage, 500); return; } if (qFuzzyCompare(speed, -1)) { speed = 100 * m_model->getClipSpeed(clipId); double duration = m_model->getItemPlaytime(clipId); // this is the max speed so that the clip is at least one frame long double maxSpeed = 100. * duration * qAbs(m_model->getClipSpeed(clipId)); // this is the min speed so that the clip doesn't bump into the next one on track double minSpeed = 100. * duration * qAbs(m_model->getClipSpeed(clipId)) / (duration + double(m_model->getBlankSizeNearClip(clipId, true))); // if there is a split partner, we must also take it into account int partner = m_model->getClipSplitPartner(clipId); if (partner != -1) { double duration2 = m_model->getItemPlaytime(partner); double maxSpeed2 = 100. * duration2 * qAbs(m_model->getClipSpeed(partner)); double minSpeed2 = 100. * duration2 * qAbs(m_model->getClipSpeed(partner)) / (duration2 + double(m_model->getBlankSizeNearClip(partner, true))); minSpeed = std::max(minSpeed, minSpeed2); maxSpeed = std::min(maxSpeed, maxSpeed2); } QScopedPointer d(new SpeedDialog(QApplication::activeWindow(), std::abs(speed), minSpeed, maxSpeed, speed < 0)); if (d->exec() != QDialog::Accepted) { return; } speed = d->getValue(); qDebug() << "requesting speed " << speed; } m_model->requestClipTimeWarp(clipId, speed, true); } void TimelineController::switchCompositing(int mode) { // m_model->m_tractor->lock(); pCore->currentDoc()->setDocumentProperty(QStringLiteral("compositing"), QString::number(mode)); QScopedPointer service(m_model->m_tractor->field()); Mlt::Field *field = m_model->m_tractor->field(); field->lock(); while ((service != nullptr) && service->is_valid()) { if (service->type() == transition_type) { Mlt::Transition t((mlt_transition)service->get_service()); QString serviceName = t.get("mlt_service"); if (t.get_int("internal_added") == 237 && serviceName != QLatin1String("mix")) { // remove all compositing transitions field->disconnect_service(t); } } service.reset(service->producer()); } if (mode > 0) { const QString compositeGeometry = QStringLiteral("0=0/0:%1x%2").arg(m_model->m_tractor->profile()->width()).arg(m_model->m_tractor->profile()->height()); // Loop through tracks for (int track = 0; track < m_model->getTracksCount(); track++) { if (m_model->getTrackById(m_model->getTrackIndexFromPosition(track))->getProperty("kdenlive:audio_track").toInt() == 0) { // This is a video track Mlt::Transition t(*m_model->m_tractor->profile(), mode == 1 ? "composite" : TransitionsRepository::get()->getCompositingTransition().toUtf8().constData()); t.set("always_active", 1); t.set("a_track", 0); t.set("b_track", track + 1); if (mode == 1) { t.set("valign", "middle"); t.set("halign", "centre"); t.set("fill", 1); t.set("aligned", 0); t.set("geometry", compositeGeometry.toUtf8().constData()); } t.set("internal_added", 237); field->plant_transition(t, 0, track + 1); } } } field->unlock(); delete field; pCore->requestMonitorRefresh(); } void TimelineController::extractZone(QPoint zone, bool liftOnly) { QVector tracks; auto it = m_model->m_allTracks.cbegin(); while (it != m_model->m_allTracks.cend()) { int target_track = (*it)->getId(); if (m_model->getTrackById_const(target_track)->shouldReceiveTimelineOp()) { tracks << target_track; } ++it; } if (m_zone == QPoint()) { // Use current timeline position and clip zone length zone.setY(timelinePosition() + zone.y() - zone.x()); zone.setX(timelinePosition()); } TimelineFunctions::extractZone(m_model, tracks, m_zone == QPoint() ? zone : m_zone, liftOnly); } void TimelineController::extract(int clipId) { // TODO: grouped clips? int in = m_model->getClipPosition(clipId); QPoint zone(in, in + m_model->getClipPlaytime(clipId)); int track = m_model->getClipTrackId(clipId); TimelineFunctions::extractZone(m_model, {track}, zone, false); } bool TimelineController::insertClipZone(const QString &binId, int tid, int position) { QStringList binIdData = binId.split(QLatin1Char('/')); int in = 0; int out = -1; if (binIdData.size() >= 3) { in = binIdData.at(1).toInt(); out = binIdData.at(2).toInt(); } QString bid = binIdData.first(); // 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); } int aTrack = -1; int vTrack = -1; std::shared_ptr clip = pCore->bin()->getBinClip(bid); if (out <= in) { out = clip->frameDuration() - 1; } if (dropType == PlaylistState::VideoOnly) { vTrack = tid; } else if (dropType == PlaylistState::AudioOnly) { aTrack = tid; } else { if (m_model->getTrackById_const(tid)->isAudioTrack()) { aTrack = tid; vTrack = clip->hasAudioAndVideo() ? m_model->getMirrorVideoTrackId(aTrack) : -1; } else { vTrack = tid; aTrack = clip->hasAudioAndVideo() ? m_model->getMirrorAudioTrackId(vTrack) : -1; } } QList target_tracks; if (vTrack > -1) { target_tracks << vTrack; } if (aTrack > -1) { target_tracks << aTrack; } - return TimelineFunctions::insertZone(m_model, target_tracks, binId, position, QPoint(in, out), m_model->m_editMode == TimelineMode::OverwriteEdit, false); + return TimelineFunctions::insertZone(m_model, target_tracks, binId, position, QPoint(in, out + 1), m_model->m_editMode == TimelineMode::OverwriteEdit, false); } int TimelineController::insertZone(const QString &binId, QPoint zone, bool overwrite) { std::shared_ptr clip = pCore->bin()->getBinClip(binId); int aTrack = -1; int vTrack = -1; if (clip->hasAudio()) { aTrack = audioTarget(); } if (clip->hasVideo()) { vTrack = videoTarget(); } /*if (aTrack == -1 && vTrack == -1) { // No target tracks defined, use active track if (m_model->getTrackById_const(m_activeTrack)->isAudioTrack()) { aTrack = m_activeTrack; vTrack = m_model->getMirrorVideoTrackId(aTrack); } else { vTrack = m_activeTrack; aTrack = m_model->getMirrorAudioTrackId(vTrack); } }*/ int insertPoint; QPoint sourceZone; if (useRuler() && m_zone != QPoint()) { // We want to use timeline zone for in/out insert points insertPoint = m_zone.x(); sourceZone = QPoint(zone.x(), zone.x() + m_zone.y() - m_zone.x()); } else { // Use current timeline pos and clip zone for in/out insertPoint = timelinePosition(); sourceZone = zone; } QList target_tracks; if (vTrack > -1) { target_tracks << vTrack; } if (aTrack > -1) { target_tracks << aTrack; } return TimelineFunctions::insertZone(m_model, target_tracks, binId, insertPoint, sourceZone, overwrite) ? insertPoint + (sourceZone.y() - sourceZone.x()) : -1; } void TimelineController::updateClip(int clipId, const QVector &roles) { QModelIndex ix = m_model->makeClipIndexFromID(clipId); if (ix.isValid()) { m_model->dataChanged(ix, ix, roles); } } void TimelineController::showClipKeyframes(int clipId, bool value) { TimelineFunctions::showClipKeyframes(m_model, clipId, value); } void TimelineController::showCompositionKeyframes(int clipId, bool value) { TimelineFunctions::showCompositionKeyframes(m_model, clipId, value); } void TimelineController::switchEnableState(int clipId) { if (clipId == -1) { clipId = getMainSelectedItem(false, false); } TimelineFunctions::switchEnableState(m_model, clipId); } void TimelineController::addCompositionToClip(const QString &assetId, int clipId, int offset) { int track = m_model->getClipTrackId(clipId); int compoId = -1; if (assetId.isEmpty()) { QStringList compositions = KdenliveSettings::favorite_transitions(); if (compositions.isEmpty()) { pCore->displayMessage(i18n("Select a favorite composition"), InformationMessage, 500); return; } compoId = insertNewComposition(track, clipId, offset, compositions.first(), true); } else { compoId = insertNewComposition(track, clipId, offset, assetId, true); } if (compoId > 0) { m_model->requestSetSelection({compoId}); } } void TimelineController::addEffectToClip(const QString &assetId, int clipId) { qDebug() << "/// ADDING ASSET: " << assetId; m_model->addClipEffect(clipId, assetId); } bool TimelineController::splitAV() { int cid = *m_model->getCurrentSelection().begin(); if (m_model->isClip(cid)) { std::shared_ptr clip = m_model->getClipPtr(cid); if (clip->clipState() == PlaylistState::AudioOnly) { return TimelineFunctions::requestSplitVideo(m_model, cid, videoTarget()); } else { return TimelineFunctions::requestSplitAudio(m_model, cid, audioTarget()); } } pCore->displayMessage(i18n("No clip found to perform AV split operation"), InformationMessage, 500); return false; } void TimelineController::splitAudio(int clipId) { TimelineFunctions::requestSplitAudio(m_model, clipId, audioTarget()); } void TimelineController::splitVideo(int clipId) { TimelineFunctions::requestSplitVideo(m_model, clipId, videoTarget()); } void TimelineController::setAudioRef(int clipId) { m_audioRef = clipId; std::unique_ptr envelope(new AudioEnvelope(getClipBinId(clipId), clipId)); m_audioCorrelator.reset(new AudioCorrelation(std::move(envelope))); connect(m_audioCorrelator.get(), &AudioCorrelation::gotAudioAlignData, [&](int cid, int shift) { int pos = m_model->getClipPosition(m_audioRef) + shift - m_model->getClipIn(m_audioRef); bool result = m_model->requestClipMove(cid, m_model->getClipTrackId(cid), pos, true, true, true); if (!result) { pCore->displayMessage(i18n("Cannot move clip to frame %1.", (pos + shift)), InformationMessage, 500); } }); connect(m_audioCorrelator.get(), &AudioCorrelation::displayMessage, pCore.get(), &Core::displayMessage); } void TimelineController::alignAudio(int clipId) { // find other clip if (m_audioRef == -1 || m_audioRef == clipId) { pCore->displayMessage(i18n("Set audio reference before attempting to align"), InformationMessage, 500); return; } const QString masterBinClipId = getClipBinId(m_audioRef); if (m_model->m_groups->isInGroup(clipId)) { std::unordered_set groupIds = m_model->getGroupElements(clipId); // Check that no item is grouped with our audioRef item // TODO m_model->requestClearSelection(); } const QString otherBinId = getClipBinId(clipId); if (otherBinId == masterBinClipId) { // easy, same clip. int newPos = m_model->getClipPosition(m_audioRef) - m_model->getClipIn(m_audioRef) + m_model->getClipIn(clipId); if (newPos) { bool result = m_model->requestClipMove(clipId, m_model->getClipTrackId(clipId), newPos, true, true, true); if (!result) { pCore->displayMessage(i18n("Cannot move clip to frame %1.", newPos), InformationMessage, 500); } return; } } // Perform audio calculation AudioEnvelope *envelope = new AudioEnvelope(otherBinId, clipId, (size_t)m_model->getClipIn(clipId), (size_t)m_model->getClipPlaytime(clipId), (size_t)m_model->getClipPosition(clipId)); m_audioCorrelator->addChild(envelope); } void TimelineController::switchTrackActive(int trackId) { if (trackId == -1) { trackId = m_activeTrack; } bool active = m_model->getTrackById_const(trackId)->isTimelineActive(); m_model->setTrackProperty(trackId, QStringLiteral("kdenlive:timeline_active"), active ? QStringLiteral("0") : QStringLiteral("1")); } void TimelineController::switchTrackLock(bool applyToAll) { if (!applyToAll) { // apply to active track only bool locked = m_model->getTrackById_const(m_activeTrack)->isLocked(); m_model->setTrackLockedState(m_activeTrack, !locked); } else { // Invert track lock const auto ids = m_model->getAllTracksIds(); // count the number of tracks to be locked int toBeLockedCount = std::accumulate(ids.begin(), ids.end(), 0, [this](int s, int id) { return s + (m_model->getTrackById_const(id)->isLocked() ? 0 : 1); }); bool leaveOneUnlocked = toBeLockedCount == m_model->getTracksCount(); for (const int id : ids) { // leave active track unlocked if (leaveOneUnlocked && id == m_activeTrack) { continue; } bool isLocked = m_model->getTrackById_const(id)->isLocked(); m_model->setTrackLockedState(id, !isLocked); } } } void TimelineController::switchTargetTrack() { bool isAudio = m_model->getTrackById_const(m_activeTrack)->getProperty("kdenlive:audio_track").toInt() == 1; if (isAudio) { setAudioTarget(audioTarget() == m_activeTrack ? -1 : m_activeTrack); } else { setVideoTarget(videoTarget() == m_activeTrack ? -1 : m_activeTrack); } } int TimelineController::audioTarget() const { return m_model->m_audioTarget; } int TimelineController::videoTarget() const { return m_model->m_videoTarget; } bool TimelineController::hasAudioTarget() const { return m_hasAudioTarget; } bool TimelineController::hasVideoTarget() const { return m_hasVideoTarget; } void TimelineController::resetTrackHeight() { int tracksCount = m_model->getTracksCount(); for (int track = tracksCount - 1; track >= 0; track--) { int trackIx = m_model->getTrackIndexFromPosition(track); m_model->getTrackById(trackIx)->setProperty(QStringLiteral("kdenlive:trackheight"), QString::number(KdenliveSettings::trackheight())); } QModelIndex modelStart = m_model->makeTrackIndexFromID(m_model->getTrackIndexFromPosition(0)); QModelIndex modelEnd = m_model->makeTrackIndexFromID(m_model->getTrackIndexFromPosition(tracksCount - 1)); m_model->dataChanged(modelStart, modelEnd, {TimelineModel::HeightRole}); } void TimelineController::selectAll() { std::unordered_set ids; for (auto clp : m_model->m_allClips) { ids.insert(clp.first); } for (auto clp : m_model->m_allCompositions) { ids.insert(clp.first); } m_model->requestSetSelection(ids); } void TimelineController::selectCurrentTrack() { std::unordered_set ids; for (auto clp : m_model->getTrackById_const(m_activeTrack)->m_allClips) { ids.insert(clp.first); } for (auto clp : m_model->getTrackById_const(m_activeTrack)->m_allCompositions) { ids.insert(clp.first); } m_model->requestSetSelection(ids); } void TimelineController::pasteEffects(int targetId) { std::unordered_set targetIds; if (targetId == -1) { std::unordered_set sel = m_model->getCurrentSelection(); if (sel.empty()) { pCore->displayMessage(i18n("No clip selected"), InformationMessage, 500); } for (int s : sel) { if (m_model->isGroup(s)) { std::unordered_set sub = m_model->m_groups->getLeaves(s); for (int current_id : sub) { if (m_model->isClip(current_id)) { targetIds.insert(current_id); } } } else if (m_model->isClip(s)) { targetIds.insert(s); } } } else { if (m_model->m_groups->isInGroup(targetId)) { targetId = m_model->m_groups->getRootId(targetId); } if (m_model->isGroup(targetId)) { std::unordered_set sub = m_model->m_groups->getLeaves(targetId); for (int current_id : sub) { if (m_model->isClip(current_id)) { targetIds.insert(current_id); } } } else if (m_model->isClip(targetId)) { targetIds.insert(targetId); } } if (targetIds.empty()) { pCore->displayMessage(i18n("No clip selected"), InformationMessage, 500); } QClipboard *clipboard = QApplication::clipboard(); QString txt = clipboard->text(); if (txt.isEmpty()) { pCore->displayMessage(i18n("No information in clipboard"), InformationMessage, 500); return; } QDomDocument copiedItems; copiedItems.setContent(txt); if (copiedItems.documentElement().tagName() != QLatin1String("kdenlive-scene")) { pCore->displayMessage(i18n("No information in clipboard"), InformationMessage, 500); return; } QDomNodeList clips = copiedItems.documentElement().elementsByTagName(QStringLiteral("clip")); if (clips.isEmpty()) { pCore->displayMessage(i18n("No information in clipboard"), InformationMessage, 500); return; } std::function undo = []() { return true; }; std::function redo = []() { return true; }; QDomElement effects = clips.at(0).firstChildElement(QStringLiteral("effects")); effects.setAttribute(QStringLiteral("parentIn"), clips.at(0).toElement().attribute(QStringLiteral("in"))); for (int i = 1; i < clips.size(); i++) { QDomElement subeffects = clips.at(i).firstChildElement(QStringLiteral("effects")); QDomNodeList subs = subeffects.childNodes(); while (!subs.isEmpty()) { subs.at(0).toElement().setAttribute(QStringLiteral("parentIn"), clips.at(i).toElement().attribute(QStringLiteral("in"))); effects.appendChild(subs.at(0)); } } bool result = true; for (int target : targetIds) { std::shared_ptr destStack = m_model->getClipEffectStackModel(target); result = result && destStack->fromXml(effects, undo, redo); if (!result) { break; } } if (result) { pCore->pushUndo(undo, redo, i18n("Paste effects")); } else { pCore->displayMessage(i18n("Cannot paste effect on selected clip"), InformationMessage, 500); undo(); } } double TimelineController::fps() const { return pCore->getCurrentFps(); } void TimelineController::editItemDuration(int id) { if (id == -1) { id = getMainSelectedItem(false, true); } if (id == -1) { pCore->displayMessage(i18n("No item to edit"), InformationMessage, 500); return; } int start = m_model->getItemPosition(id); int in = 0; int duration = m_model->getItemPlaytime(id); int maxLength = -1; bool isComposition = false; if (m_model->isClip(id)) { in = m_model->getClipIn(id); std::shared_ptr clip = pCore->bin()->getBinClip(getClipBinId(id)); if (clip && clip->hasLimitedDuration()) { maxLength = clip->getProducerDuration(); } } else if (m_model->isComposition(id)) { // nothing to do isComposition = true; } else { pCore->displayMessage(i18n("No item to edit"), InformationMessage, 500); return; } int trackId = m_model->getItemTrackId(id); int maxFrame = qMax(0, start + duration + (isComposition ? m_model->getTrackById(trackId)->getBlankSizeNearComposition(id, true) : m_model->getTrackById(trackId)->getBlankSizeNearClip(id, true))); int minFrame = qMax(0, in - (isComposition ? m_model->getTrackById(trackId)->getBlankSizeNearComposition(id, false) : m_model->getTrackById(trackId)->getBlankSizeNearClip(id, false))); int partner = isComposition ? -1 : m_model->getClipSplitPartner(id); QPointer dialog = new ClipDurationDialog(id, pCore->currentDoc()->timecode(), start, minFrame, in, in + duration, maxLength, maxFrame, qApp->activeWindow()); if (dialog->exec() == QDialog::Accepted) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; int newPos = dialog->startPos().frames(pCore->getCurrentFps()); int newIn = dialog->cropStart().frames(pCore->getCurrentFps()); int newDuration = dialog->duration().frames(pCore->getCurrentFps()); bool result = true; if (newPos < start) { if (!isComposition) { result = m_model->requestClipMove(id, trackId, newPos, true, true, true, true, undo, redo); if (result && partner > -1) { result = m_model->requestClipMove(partner, m_model->getItemTrackId(partner), newPos, true, true, true, true, undo, redo); } } else { result = m_model->requestCompositionMove(id, trackId, newPos, m_model->m_allCompositions[id]->getForcedTrack(), true, true, undo, redo); } if (result && newIn != in) { m_model->requestItemResize(id, duration + (in - newIn), false, true, undo, redo); if (result && partner > -1) { result = m_model->requestItemResize(partner, duration + (in - newIn), false, true, undo, redo); } } if (newDuration != duration + (in - newIn)) { result = result && m_model->requestItemResize(id, newDuration, true, true, undo, redo); if (result && partner > -1) { result = m_model->requestItemResize(partner, newDuration, false, true, undo, redo); } } } else { // perform resize first if (newIn != in) { result = m_model->requestItemResize(id, duration + (in - newIn), false, true, undo, redo); if (result && partner > -1) { result = m_model->requestItemResize(partner, duration + (in - newIn), false, true, undo, redo); } } if (newDuration != duration + (in - newIn)) { result = result && m_model->requestItemResize(id, newDuration, start == newPos, true, undo, redo); if (result && partner > -1) { result = m_model->requestItemResize(partner, newDuration, start == newPos, true, undo, redo); } } if (start != newPos || newIn != in) { if (!isComposition) { result = result && m_model->requestClipMove(id, trackId, newPos, true, true, true, true, undo, redo); if (result && partner > -1) { result = m_model->requestClipMove(partner, m_model->getItemTrackId(partner), newPos, true, true, true, true, undo, redo); } } else { result = result && m_model->requestCompositionMove(id, trackId, newPos, m_model->m_allCompositions[id]->getForcedTrack(), true, true, undo, redo); } } } if (result) { pCore->pushUndo(undo, redo, i18n("Edit item")); } else { undo(); } } } void TimelineController::updateClipActions() { if (m_model->getCurrentSelection().empty()) { for (QAction *act : clipActions) { act->setEnabled(false); } emit timelineClipSelected(false); // nothing selected emit showItemEffectStack(QString(), nullptr, QSize(), false); return; } std::shared_ptr clip(nullptr); int item = *m_model->getCurrentSelection().begin(); if (m_model->getCurrentSelection().size() == 1 && (m_model->isClip(item) || m_model->isComposition(item))) { showAsset(item); } if (m_model->isClip(item)) { clip = m_model->getClipPtr(item); } for (QAction *act : clipActions) { bool enableAction = true; const QChar actionData = act->data().toChar(); if (actionData == QLatin1Char('G')) { enableAction = isInSelection(item); } else if (actionData == QLatin1Char('U')) { enableAction = isInSelection(item) || (m_model->m_groups->isInGroup(item) && !isInSelection(item)); } else if (actionData == QLatin1Char('A')) { enableAction = clip && clip->clipState() == PlaylistState::AudioOnly; } else if (actionData == QLatin1Char('V')) { enableAction = clip && clip->clipState() == PlaylistState::VideoOnly; } else if (actionData == QLatin1Char('D')) { enableAction = clip && clip->clipState() == PlaylistState::Disabled; } else if (actionData == QLatin1Char('E')) { enableAction = clip && clip->clipState() != PlaylistState::Disabled; } else if (actionData == QLatin1Char('X') || actionData == QLatin1Char('S')) { enableAction = clip && clip->canBeVideo() && clip->canBeAudio(); if (enableAction && actionData == QLatin1Char('S')) { act->setText(clip->clipState() == PlaylistState::AudioOnly ? i18n("Split video") : i18n("Split audio")); } } else if (actionData == QLatin1Char('W')) { enableAction = clip != nullptr; if (enableAction) { act->setText(clip->clipState() == PlaylistState::Disabled ? i18n("Enable clip") : i18n("Disable clip")); } } else if (actionData == QLatin1Char('C') && clip == nullptr) { enableAction = false; } act->setEnabled(enableAction); } emit timelineClipSelected(clip != nullptr); } const QString TimelineController::getAssetName(const QString &assetId, bool isTransition) { return isTransition ? TransitionsRepository::get()->getName(assetId) : EffectsRepository::get()->getName(assetId); } void TimelineController::grabCurrent() { std::unordered_set ids = m_model->getCurrentSelection(); std::unordered_set items_list; int mainId = -1; for (int i : ids) { if (m_model->isGroup(i)) { std::unordered_set children = m_model->m_groups->getLeaves(i); items_list.insert(children.begin(), children.end()); } else { items_list.insert(i); } } for (int id : items_list) { if (mainId == -1 && m_model->getItemTrackId(id) == m_activeTrack) { mainId = id; continue; } if (m_model->isClip(id)) { std::shared_ptr clip = m_model->getClipPtr(id); clip->setGrab(!clip->isGrabbed()); } else if (m_model->isComposition(id)) { std::shared_ptr clip = m_model->getCompositionPtr(id); clip->setGrab(!clip->isGrabbed()); } } if (mainId > -1) { if (m_model->isClip(mainId)) { std::shared_ptr clip = m_model->getClipPtr(mainId); clip->setGrab(!clip->isGrabbed()); } else if (m_model->isComposition(mainId)) { std::shared_ptr clip = m_model->getCompositionPtr(mainId); clip->setGrab(!clip->isGrabbed()); } } } int TimelineController::getItemMovingTrack(int itemId) const { if (m_model->isClip(itemId)) { int trackId = -1; if (m_model->m_editMode != TimelineMode::NormalEdit) { trackId = m_model->m_allClips[itemId]->getFakeTrackId(); } return trackId < 0 ? m_model->m_allClips[itemId]->getCurrentTrackId() : trackId; } return m_model->m_allCompositions[itemId]->getCurrentTrackId(); } bool TimelineController::endFakeMove(int clipId, int position, bool updateView, bool logUndo, bool invalidateTimeline) { Q_ASSERT(m_model->m_allClips.count(clipId) > 0); int trackId = m_model->m_allClips[clipId]->getFakeTrackId(); if (m_model->getClipPosition(clipId) == position && m_model->getClipTrackId(clipId) == trackId) { qDebug() << "* * ** END FAKE; NO MOVE RQSTED"; return true; } if (m_model->m_groups->isInGroup(clipId)) { // element is in a group. int groupId = m_model->m_groups->getRootId(clipId); int current_trackId = m_model->getClipTrackId(clipId); int track_pos1 = m_model->getTrackPosition(trackId); int track_pos2 = m_model->getTrackPosition(current_trackId); int delta_track = track_pos1 - track_pos2; int delta_pos = position - m_model->m_allClips[clipId]->getPosition(); return endFakeGroupMove(clipId, groupId, delta_track, delta_pos, updateView, logUndo); } qDebug() << "//////\n//////\nENDING FAKE MNOVE: " << trackId << ", POS: " << position; std::function undo = []() { return true; }; std::function redo = []() { return true; }; int duration = m_model->getClipPlaytime(clipId); int currentTrack = m_model->m_allClips[clipId]->getCurrentTrackId(); bool res = true; if (currentTrack > -1) { res = res && m_model->getTrackById(currentTrack)->requestClipDeletion(clipId, updateView, invalidateTimeline, undo, redo, false, false); } if (m_model->m_editMode == TimelineMode::OverwriteEdit) { res = res && TimelineFunctions::liftZone(m_model, trackId, QPoint(position, position + duration), undo, redo); } else if (m_model->m_editMode == TimelineMode::InsertEdit) { int startClipId = m_model->getClipByPosition(trackId, position); if (startClipId > -1) { // There is a clip, cut res = res && TimelineFunctions::requestClipCut(m_model, startClipId, position, undo, redo); } res = res && TimelineFunctions::requestInsertSpace(m_model, QPoint(position, position + duration), undo, redo); } res = res && m_model->getTrackById(trackId)->requestClipInsertion(clipId, position, updateView, invalidateTimeline, undo, redo); if (res) { // Terminate fake move if (m_model->isClip(clipId)) { m_model->m_allClips[clipId]->setFakeTrackId(-1); } if (logUndo) { pCore->pushUndo(undo, redo, i18n("Move item")); } } else { qDebug() << "//// FAKE FAILED"; undo(); } return res; } bool TimelineController::endFakeGroupMove(int clipId, int groupId, int delta_track, int delta_pos, bool updateView, bool logUndo) { std::function undo = []() { return true; }; std::function redo = []() { return true; }; bool res = endFakeGroupMove(clipId, groupId, delta_track, delta_pos, updateView, logUndo, undo, redo); if (res && logUndo) { // Terminate fake move if (m_model->isClip(clipId)) { m_model->m_allClips[clipId]->setFakeTrackId(-1); } pCore->pushUndo(undo, redo, i18n("Move group")); } return res; } bool TimelineController::endFakeGroupMove(int clipId, int groupId, int delta_track, int delta_pos, bool updateView, bool finalMove, Fun &undo, Fun &redo) { Q_ASSERT(m_model->m_allGroups.count(groupId) > 0); bool ok = true; auto all_items = m_model->m_groups->getLeaves(groupId); Q_ASSERT(all_items.size() > 1); Fun local_undo = []() { return true; }; Fun local_redo = []() { return true; }; // Sort clips. We need to delete from right to left to avoid confusing the view std::vector sorted_clips(all_items.begin(), all_items.end()); std::sort(sorted_clips.begin(), sorted_clips.end(), [this](int clipId1, int clipId2) { int p1 = m_model->isClip(clipId1) ? m_model->m_allClips[clipId1]->getPosition() : m_model->m_allCompositions[clipId1]->getPosition(); int p2 = m_model->isClip(clipId2) ? m_model->m_allClips[clipId2]->getPosition() : m_model->m_allCompositions[clipId2]->getPosition(); return p2 <= p1; }); // 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 // First, remove clips int audio_delta, video_delta; audio_delta = video_delta = delta_track; int master_trackId = m_model->getItemTrackId(clipId); if (m_model->getTrackById_const(master_trackId)->isAudioTrack()) { // Master clip is audio, so reverse delta for video clips video_delta = -delta_track; } else { audio_delta = -delta_track; } int min = -1; int max = -1; std::unordered_map old_track_ids, old_position, old_forced_track, new_track_ids; for (int item : sorted_clips) { int old_trackId = m_model->getItemTrackId(item); old_track_ids[item] = old_trackId; if (old_trackId != -1) { bool updateThisView = true; if (m_model->isClip(item)) { int current_track_position = m_model->getTrackPosition(old_trackId); int d = m_model->getTrackById_const(old_trackId)->isAudioTrack() ? audio_delta : video_delta; int target_track_position = current_track_position + d; auto it = m_model->m_allTracks.cbegin(); std::advance(it, target_track_position); int target_track = (*it)->getId(); new_track_ids[item] = target_track; old_position[item] = m_model->m_allClips[item]->getPosition(); int duration = m_model->m_allClips[item]->getPlaytime(); min = min < 0 ? old_position[item] + delta_pos : qMin(min, old_position[item] + delta_pos); max = max < 0 ? old_position[item] + delta_pos + duration : qMax(max, old_position[item] + delta_pos + duration); ok = ok && m_model->getTrackById(old_trackId)->requestClipDeletion(item, updateThisView, finalMove, undo, redo, false, false); } else { // ok = ok && getTrackById(old_trackId)->requestCompositionDeletion(item, updateThisView, local_undo, local_redo); old_position[item] = m_model->m_allCompositions[item]->getPosition(); old_forced_track[item] = m_model->m_allCompositions[item]->getForcedTrack(); } if (!ok) { bool undone = undo(); Q_ASSERT(undone); return false; } } } bool res = true; if (m_model->m_editMode == TimelineMode::OverwriteEdit) { for (int item : sorted_clips) { if (m_model->isClip(item) && new_track_ids.count(item) > 0) { int target_track = new_track_ids[item]; int target_position = old_position[item] + delta_pos; int duration = m_model->m_allClips[item]->getPlaytime(); res = res && TimelineFunctions::liftZone(m_model, target_track, QPoint(target_position, target_position + duration), undo, redo); } } } else if (m_model->m_editMode == TimelineMode::InsertEdit) { QList processedTracks; for (int item : sorted_clips) { int target_track = new_track_ids[item]; if (processedTracks.contains(target_track)) { // already processed continue; } processedTracks << target_track; int target_position = min; int startClipId = m_model->getClipByPosition(target_track, target_position); if (startClipId > -1) { // There is a clip, cut res = res && TimelineFunctions::requestClipCut(m_model, startClipId, target_position, undo, redo); } } res = res && TimelineFunctions::requestInsertSpace(m_model, QPoint(min, max), undo, redo); } for (int item : sorted_clips) { if (m_model->isClip(item)) { int target_track = new_track_ids[item]; int target_position = old_position[item] + delta_pos; ok = ok && m_model->requestClipMove(item, target_track, target_position, true, updateView, finalMove, finalMove, undo, redo); } else { // ok = ok && requestCompositionMove(item, target_track, old_forced_track[item], target_position, updateThisView, local_undo, local_redo); } if (!ok) { bool undone = undo(); Q_ASSERT(undone); return false; } } return true; } QStringList TimelineController::getThumbKeys() { QStringList result; for (const auto &clp : m_model->m_allClips) { const QString binId = getClipBinId(clp.first); std::shared_ptr binClip = pCore->bin()->getBinClip(binId); result << binClip->hash() + QLatin1Char('#') + QString::number(clp.second->getIn()) + QStringLiteral(".png"); result << binClip->hash() + QLatin1Char('#') + QString::number(clp.second->getOut()) + QStringLiteral(".png"); } result.removeDuplicates(); return result; } bool TimelineController::isInSelection(int itemId) { return m_model->getCurrentSelection().count(itemId) > 0; } bool TimelineController::exists(int itemId) { return m_model->isClip(itemId) || m_model->isComposition(itemId); } void TimelineController::slotMultitrackView(bool enable) { TimelineFunctions::enableMultitrackView(m_model, enable); } void TimelineController::saveTimelineSelection(const QDir &targetDir) { TimelineFunctions::saveTimelineSelection(m_model, m_model->getCurrentSelection(), targetDir); } void TimelineController::addEffectKeyframe(int cid, int frame, double val) { if (m_model->isClip(cid)) { std::shared_ptr destStack = m_model->getClipEffectStackModel(cid); destStack->addEffectKeyFrame(frame, val); } else if (m_model->isComposition(cid)) { std::shared_ptr listModel = m_model->m_allCompositions[cid]->getKeyframeModel(); listModel->addKeyframe(frame, val); } } void TimelineController::removeEffectKeyframe(int cid, int frame) { if (m_model->isClip(cid)) { std::shared_ptr destStack = m_model->getClipEffectStackModel(cid); destStack->removeKeyFrame(frame); } else if (m_model->isComposition(cid)) { std::shared_ptr listModel = m_model->m_allCompositions[cid]->getKeyframeModel(); listModel->removeKeyframe(GenTime(frame, pCore->getCurrentFps())); } } void TimelineController::updateEffectKeyframe(int cid, int oldFrame, int newFrame, const QVariant &normalizedValue) { if (m_model->isClip(cid)) { std::shared_ptr destStack = m_model->getClipEffectStackModel(cid); destStack->updateKeyFrame(oldFrame, newFrame, normalizedValue); } else if (m_model->isComposition(cid)) { std::shared_ptr listModel = m_model->m_allCompositions[cid]->getKeyframeModel(); listModel->updateKeyframe(GenTime(oldFrame, pCore->getCurrentFps()), GenTime(newFrame, pCore->getCurrentFps()), normalizedValue); } } bool TimelineController::darkBackground() const { KColorScheme scheme(QApplication::palette().currentColorGroup()); return scheme.background(KColorScheme::NormalBackground).color().value() < 0.5; } QColor TimelineController::videoColor() const { KColorScheme scheme(QApplication::palette().currentColorGroup()); return scheme.foreground(KColorScheme::LinkText).color(); } QColor TimelineController::audioColor() const { KColorScheme scheme(QApplication::palette().currentColorGroup(), KColorScheme::Complementary); return scheme.foreground(KColorScheme::ActiveText).color(); } QColor TimelineController::lockedColor() const { KColorScheme scheme(QApplication::palette().currentColorGroup()); return scheme.foreground(KColorScheme::NegativeText).color(); } QColor TimelineController::groupColor() const { KColorScheme scheme(QApplication::palette().currentColorGroup()); return scheme.foreground(KColorScheme::ActiveText).color(); } QColor TimelineController::selectionColor() const { KColorScheme scheme(QApplication::palette().currentColorGroup(), KColorScheme::Complementary); return scheme.foreground(KColorScheme::NeutralText).color(); } void TimelineController::switchRecording(int trackId) { if (!pCore->isMediaCapturing()) { qDebug() << "start recording" << trackId; if (!m_model->isTrack(trackId)) { qDebug() << "ERROR: Starting to capture on invalid track " << trackId; } if (m_model->getTrackById_const(trackId)->isLocked()) { pCore->displayMessage(i18n("Impossible to capture on a locked track"), ErrorMessage, 500); return; } m_recordStart.first = timelinePosition(); m_recordTrack = trackId; int maximumSpace = m_model->getTrackById_const(trackId)->getBlankEnd(m_recordStart.first); if (maximumSpace == INT_MAX) { m_recordStart.second = 0; } else { m_recordStart.second = maximumSpace - m_recordStart.first; if (m_recordStart.second < 8) { pCore->displayMessage(i18n("Impossible to capture here: the capture could override clips. Please remove clips after the current position or " "choose a different track"), ErrorMessage, 500); return; } } pCore->monitorManager()->slotSwitchMonitors(false); pCore->startMediaCapture(true, false); pCore->monitorManager()->slotPlay(); } else { pCore->stopMediaCapture(true, false); pCore->monitorManager()->slotPause(); } } void TimelineController::finishRecording(const QString &recordedFile) { if (recordedFile.isEmpty()) { return; } Fun undo = []() { return true; }; Fun redo = []() { return true; }; std::function callBack = [this](const QString &binId) { int id = -1; if (m_recordTrack == -1) { return; } qDebug() << "callback " << binId << " " << m_recordTrack << ", MAXIMUM SPACE: " << m_recordStart.second; bool res = false; if (m_recordStart.second > 0) { // Limited space on track std::shared_ptr clip = pCore->bin()->getBinClip(binId); if (!clip) { return; } int out = qMin((int)clip->frameDuration() - 1, m_recordStart.second - 1); QString binClipId = QString("%1/%2/%3").arg(binId).arg(0).arg(out); res = m_model->requestClipInsertion(binClipId, m_recordTrack, m_recordStart.first, id, true, true, false); } else { res = m_model->requestClipInsertion(binId, m_recordTrack, m_recordStart.first, id, true, true, false); } }; QString binId = ClipCreator::createClipFromFile(recordedFile, pCore->projectItemModel()->getRootFolder()->clipId(), pCore->projectItemModel(), undo, redo, callBack); if (binId != QStringLiteral("-1")) { pCore->pushUndo(undo, redo, i18n("Record audio")); } } void TimelineController::updateVideoTarget() { if (videoTarget() > -1) { m_lastVideoTarget = videoTarget(); m_videoTargetActive = true; emit lastVideoTargetChanged(); } else { m_videoTargetActive = false; } } void TimelineController::updateAudioTarget() { if (audioTarget() > -1) { m_lastAudioTarget = audioTarget(); m_audioTargetActive = true; emit lastAudioTargetChanged(); } else { m_audioTargetActive = false; } }