/* * Strawberry Music Player * This file was part of Clementine. * Copyright 2010, David Sansome * Copyright 2018-2019, Jonas Kvinge * * Strawberry is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Strawberry 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 Strawberry. If not, see . * */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core/application.h" #include "core/closure.h" #include "core/database.h" #include "core/iconloader.h" #include "core/logging.h" #include "core/taskmanager.h" #include "collectionquery.h" #include "collectionbackend.h" #include "collectiondirectorymodel.h" #include "collectionitem.h" #include "collectionmodel.h" #include "sqlrow.h" #include "playlist/playlistmanager.h" #include "playlist/songmimedata.h" #include "covermanager/albumcoverloader.h" #include "covermanager/albumcoverloaderresult.h" #include "settings/collectionsettingspage.h" using std::placeholders::_1; using std::placeholders::_2; const char *CollectionModel::kSavedGroupingsSettingsGroup = "SavedGroupings"; const int CollectionModel::kPrettyCoverSize = 32; const char *CollectionModel::kPixmapDiskCacheDir = "pixmapcache"; QNetworkDiskCache *CollectionModel::sIconCache = nullptr; static bool IsArtistGroupBy(const CollectionModel::GroupBy by) { return by == CollectionModel::GroupBy_Artist || by == CollectionModel::GroupBy_AlbumArtist; } static bool IsCompilationArtistNode(const CollectionItem *node) { return node == node->parent->compilation_artist_node_; } CollectionModel::CollectionModel(CollectionBackend *backend, Application *app, QObject *parent) : SimpleTreeModel(new CollectionItem(this), parent), backend_(backend), app_(app), dir_model_(new CollectionDirectoryModel(backend, this)), show_various_artists_(true), total_song_count_(0), total_artist_count_(0), total_album_count_(0), artist_icon_(IconLoader::Load("folder-sound")), album_icon_(IconLoader::Load("cdcase")), init_task_id_(-1), use_pretty_covers_(false), show_dividers_(true), use_disk_cache_(false) { root_->lazy_loaded = true; group_by_[0] = GroupBy_AlbumArtist; group_by_[1] = GroupBy_AlbumDisc; group_by_[2] = GroupBy_None; cover_loader_options_.desired_height_ = kPrettyCoverSize; cover_loader_options_.pad_output_image_ = true; cover_loader_options_.scale_output_image_ = true; if (app_) { connect(app_->album_cover_loader(), SIGNAL(AlbumCoverLoaded(quint64, AlbumCoverLoaderResult)), SLOT(AlbumCoverLoaded(quint64, AlbumCoverLoaderResult))); } QIcon nocover = IconLoader::Load("cdcase"); if (!nocover.isNull()) { no_cover_icon_ = nocover.pixmap(nocover.availableSizes().last()).scaled(kPrettyCoverSize, kPrettyCoverSize, Qt::KeepAspectRatio, Qt::SmoothTransformation); } if (app_ && !sIconCache) { sIconCache = new QNetworkDiskCache(this); sIconCache->setCacheDirectory(QStandardPaths::writableLocation(QStandardPaths::CacheLocation) + "/" + kPixmapDiskCacheDir); connect(app_, SIGNAL(ClearPixmapDiskCache()), SLOT(ClearDiskCache())); } connect(backend_, SIGNAL(SongsDiscovered(SongList)), SLOT(SongsDiscovered(SongList))); connect(backend_, SIGNAL(SongsDeleted(SongList)), SLOT(SongsDeleted(SongList))); connect(backend_, SIGNAL(DatabaseReset()), SLOT(Reset())); connect(backend_, SIGNAL(TotalSongCountUpdated(int)), SLOT(TotalSongCountUpdatedSlot(int))); connect(backend_, SIGNAL(TotalArtistCountUpdated(int)), SLOT(TotalArtistCountUpdatedSlot(int))); connect(backend_, SIGNAL(TotalAlbumCountUpdated(int)), SLOT(TotalAlbumCountUpdatedSlot(int))); connect(backend_, SIGNAL(SongsStatisticsChanged(SongList)), SLOT(SongsSlightlyChanged(SongList))); backend_->UpdateTotalSongCountAsync(); backend_->UpdateTotalArtistCountAsync(); backend_->UpdateTotalAlbumCountAsync(); ReloadSettings(); } CollectionModel::~CollectionModel() { delete root_; } void CollectionModel::set_pretty_covers(const bool use_pretty_covers) { if (use_pretty_covers != use_pretty_covers_) { use_pretty_covers_ = use_pretty_covers; Reset(); } } void CollectionModel::set_show_dividers(const bool show_dividers) { if (show_dividers != show_dividers_) { show_dividers_ = show_dividers; Reset(); } } void CollectionModel::SaveGrouping(QString name) { qLog(Debug) << "Model, save to: " << name; QByteArray buffer; QDataStream ds(&buffer, QIODevice::WriteOnly); ds << group_by_; QSettings s; s.beginGroup(kSavedGroupingsSettingsGroup); s.setValue(name, buffer); } void CollectionModel::ReloadSettings() { QSettings s; s.beginGroup(CollectionSettingsPage::kSettingsGroup); use_disk_cache_ = s.value(CollectionSettingsPage::kSettingsDiskCacheEnable, false).toBool(); QPixmapCache::setCacheLimit(MaximumCacheSize(&s, CollectionSettingsPage::kSettingsCacheSize, CollectionSettingsPage::kSettingsCacheSizeUnit, CollectionSettingsPage::kSettingsCacheSizeDefault) / 1024); if (sIconCache) { sIconCache->setMaximumCacheSize(MaximumCacheSize(&s, CollectionSettingsPage::kSettingsDiskCacheSize, CollectionSettingsPage::kSettingsDiskCacheSizeUnit, CollectionSettingsPage::kSettingsDiskCacheSizeDefault)); } s.endGroup(); if (!use_disk_cache_) { ClearDiskCache(); } } void CollectionModel::Init(const bool async) { if (async) { // Show a loading indicator in the model. CollectionItem *loading = new CollectionItem(CollectionItem::Type_LoadingIndicator, root_); loading->display_text = tr("Loading..."); loading->lazy_loaded = true; beginResetModel(); endResetModel(); // Show a loading indicator in the status bar too. if (app_) init_task_id_ = app_->task_manager()->StartTask(tr("Loading songs")); ResetAsync(); } else { Reset(); } } void CollectionModel::SongsDiscovered(const SongList &songs) { for (const Song &song : songs) { // Sanity check to make sure we don't add songs that are outside the user's filter if (!query_options_.Matches(song)) continue; // Hey, we've already got that one! if (song_nodes_.contains(song.id())) continue; // Before we can add each song we need to make sure the required container items already exist in the tree. // These depend on which "group by" settings the user has on the collection. // Eg. if the user grouped by artist and album, we would need to make sure nodes for the song's artist and album were already in the tree. // Find parent containers in the tree CollectionItem *container = root_; for (int i = 0; i < 3; ++i) { GroupBy type = group_by_[i]; if (type == GroupBy_None) break; // Special case: if the song is a compilation and the current GroupBy level is Artists, then we want the Various Artists node :( if (IsArtistGroupBy(type) && song.is_compilation()) { if (container->compilation_artist_node_ == nullptr) CreateCompilationArtistNode(true, container); container = container->compilation_artist_node_; } else { // Otherwise find the proper container at this level based on the item's key QString key; switch (type) { case GroupBy_AlbumArtist: key = song.effective_albumartist(); break; case GroupBy_Artist: key = song.artist(); break; case GroupBy_Album: key = song.album(); break; case GroupBy_Composer: key = song.composer(); break; case GroupBy_Performer: key = song.performer(); break; case GroupBy_Grouping: key = song.grouping(); break; case GroupBy_Disc: key = QString::number(song.disc()); break; case GroupBy_Genre: key = song.genre(); break; case GroupBy_Year: key = QString::number(qMax(0, song.year())); break; case GroupBy_OriginalYear: key = QString::number(qMax(0, song.effective_originalyear())); break; case GroupBy_YearAlbum: key = PrettyYearAlbum(qMax(0, song.year()), song.album()); break; case GroupBy_OriginalYearAlbum: key = PrettyYearAlbum(qMax(0, song.effective_originalyear()), song.album()); break; case GroupBy_FileType: key = QString::number(song.filetype()); break; case GroupBy_Samplerate: key = QString::number(song.samplerate()); break; case GroupBy_Bitdepth: key = QString::number(song.bitdepth()); break; case GroupBy_Bitrate: key = QString::number(song.bitrate()); break; case GroupBy_Format: if (song.samplerate() <= 0) { key = QString::number(song.filetype()); } else { if (song.bitdepth() <= 0) { key = QString("%1 (%2)").arg(song.filetype()).arg(QString::number(song.samplerate() / 1000.0, 'G', 5)); } else { key = QString("%1 (%2/%3)").arg(song.filetype()).arg(QString::number(song.samplerate() / 1000.0, 'G', 5)).arg(song.bitdepth()); } } break; case GroupBy_AlbumDisc: key = PrettyAlbumDisc(song.album(), qMax(0, song.disc())); break; case GroupBy_YearAlbumDisc: key = PrettyYearAlbumDisc(qMax(0, song.year()), song.album(), qMax(0, song.disc())); break; case GroupBy_None: qLog(Error) << "GroupBy_None"; break; } // Does it exist already? if (!container_nodes_[i].contains(key)) { // Create the container container_nodes_[i][key] = ItemFromSong(type, true, i == 0, container, song, i); } container = container_nodes_[i][key]; } // If we just created the damn thing then we don't need to continue into it any further because it'll get lazy-loaded properly later. if (!container->lazy_loaded) break; } if (!container->lazy_loaded) continue; // We've gone all the way down to the deepest level and everything was already lazy loaded, so now we have to create the song in the container. song_nodes_[song.id()] = ItemFromSong(GroupBy_None, true, false, container, song, -1); } } void CollectionModel::SongsSlightlyChanged(const SongList &songs) { // This is called if there was a minor change to the songs that will not normally require the collection to be restructured. // We can just update our internal cache of Song objects without worrying about resetting the model. for (const Song &song : songs) { if (song_nodes_.contains(song.id())) { song_nodes_[song.id()]->metadata = song; } } } CollectionItem *CollectionModel::CreateCompilationArtistNode(const bool signal, CollectionItem *parent) { if (signal) beginInsertRows(ItemToIndex(parent), parent->children.count(), parent->children.count()); parent->compilation_artist_node_ = new CollectionItem(CollectionItem::Type_Container, parent); parent->compilation_artist_node_->compilation_artist_node_ = nullptr; parent->compilation_artist_node_->key = tr("Various artists"); parent->compilation_artist_node_->sort_text = " various"; parent->compilation_artist_node_->container_level = parent->container_level + 1; if (signal) endInsertRows(); return parent->compilation_artist_node_; } QString CollectionModel::DividerKey(const GroupBy type, CollectionItem *item) const { // Items which are to be grouped under the same divider must produce the same divider key. This will only get called for top-level items. if (item->sort_text.isEmpty()) return QString(); switch (type) { case GroupBy_AlbumArtist: case GroupBy_Artist: case GroupBy_Album: case GroupBy_AlbumDisc: case GroupBy_Composer: case GroupBy_Performer: case GroupBy_Grouping: case GroupBy_Disc: case GroupBy_Genre: case GroupBy_Format: case GroupBy_FileType: { QChar c = item->sort_text[0]; if (c.isDigit()) return "0"; if (c == ' ') return QString(); if (c.decompositionTag() != QChar::NoDecomposition) return QChar(c.decomposition()[0]); return c; } case GroupBy_Year: case GroupBy_OriginalYear: return SortTextForNumber(item->sort_text.toInt() / 10 * 10); case GroupBy_YearAlbum: case GroupBy_YearAlbumDisc: return SortTextForNumber(item->metadata.year()); case GroupBy_OriginalYearAlbum: return SortTextForNumber(item->metadata.effective_originalyear()); case GroupBy_Samplerate: return SortTextForNumber(item->metadata.samplerate()); case GroupBy_Bitdepth: return SortTextForNumber(item->metadata.bitdepth()); case GroupBy_Bitrate: return SortTextForNumber(item->metadata.bitrate()); case GroupBy_None: return QString(); } qLog(Error) << "Unknown GroupBy type" << type << "for item" << item->display_text; return QString(); } QString CollectionModel::DividerDisplayText(const GroupBy type, const QString &key) const { // Pretty display text for the dividers. switch (type) { case GroupBy_AlbumArtist: case GroupBy_Artist: case GroupBy_Album: case GroupBy_AlbumDisc: case GroupBy_Composer: case GroupBy_Performer: case GroupBy_Disc: case GroupBy_Grouping: case GroupBy_Genre: case GroupBy_FileType: case GroupBy_Format: if (key == "0") return "0-9"; return key.toUpper(); case GroupBy_YearAlbum: case GroupBy_OriginalYearAlbum: case GroupBy_YearAlbumDisc: if (key == "0000") return tr("Unknown"); return key.toUpper(); case GroupBy_Year: case GroupBy_OriginalYear: if (key == "0000") return tr("Unknown"); return QString::number(key.toInt()); // To remove leading 0s case GroupBy_Samplerate: if (key == "000") return tr("Unknown"); return QString::number(key.toInt()); // To remove leading 0s case GroupBy_Bitdepth: if (key == "000") return tr("Unknown"); return QString::number(key.toInt()); // To remove leading 0s case GroupBy_Bitrate: if (key == "000") return tr("Unknown"); return QString::number(key.toInt()); // To remove leading 0s case GroupBy_None: // fallthrough ; } qLog(Error) << "Unknown GroupBy type" << type << "for divider key" << key; return QString(); } void CollectionModel::SongsDeleted(const SongList &songs) { // Delete the actual song nodes first, keeping track of each parent so we might check to see if they're empty later. QSet parents; for (const Song &song : songs) { if (song_nodes_.contains(song.id())) { CollectionItem *node = song_nodes_[song.id()]; if (node->parent != root_) parents << node->parent; beginRemoveRows(ItemToIndex(node->parent), node->row, node->row); node->parent->Delete(node->row); song_nodes_.remove(song.id()); endRemoveRows(); } else { // If we get here it means some of the songs we want to delete haven't been lazy-loaded yet. // This is bad, because it would mean that to clean up empty parents we would need to lazy-load them all individually to see if they're empty. // This can take a very long time, so better to just reset the model and be done with it. Reset(); return; } } // Now delete empty parents QSet divider_keys; while (!parents.isEmpty()) { // Since we are going to remove elements from the container, we need a copy to iterate over. // If we iterate over the original, the behavior will be undefined. QSet parents_copy = parents; for (CollectionItem *node : parents_copy) { parents.remove(node); if (node->children.count() != 0) continue; // Consider its parent for the next round if (node->parent != root_) parents << node->parent; // Maybe consider its divider node if (node->container_level == 0) divider_keys << DividerKey(group_by_[0], node); // Special case the Various Artists node if (IsCompilationArtistNode(node)) node->parent->compilation_artist_node_ = nullptr; else container_nodes_[node->container_level].remove(node->key); // Remove from pixmap cache const QString cache_key = AlbumIconPixmapCacheKey(ItemToIndex(node)); QPixmapCache::remove(cache_key); if (use_disk_cache_ && sIconCache) sIconCache->remove(QUrl(cache_key)); if (pending_cache_keys_.contains(cache_key)) { pending_cache_keys_.remove(cache_key); } // Remove from pending art loading QMap::iterator i = pending_art_.begin(); while (i != pending_art_.end()) { if (i.value().first == node) { i = pending_art_.erase(i); } else { ++i; } } // It was empty - delete it beginRemoveRows(ItemToIndex(node->parent), node->row, node->row); node->parent->Delete(node->row); endRemoveRows(); } } // Delete empty dividers for (const QString ÷r_key : divider_keys) { if (!divider_nodes_.contains(divider_key)) continue; // Look to see if there are any other items still under this divider bool found = false; for (CollectionItem *node : container_nodes_[0].values()) { if (DividerKey(group_by_[0], node) == divider_key) { found = true; break; } } if (found) continue; // Remove the divider int row = divider_nodes_[divider_key]->row; beginRemoveRows(ItemToIndex(root_), row, row); root_->Delete(row); endRemoveRows(); divider_nodes_.remove(divider_key); } } QString CollectionModel::AlbumIconPixmapCacheKey(const QModelIndex &idx) const { QStringList path; QModelIndex idx_copy(idx); while (idx_copy.isValid()) { path.prepend(idx_copy.data().toString()); idx_copy = idx_copy.parent(); } return Song::TextForSource(backend_->Source()) + path.join("/"); } QVariant CollectionModel::AlbumIcon(const QModelIndex &idx) { CollectionItem *item = IndexToItem(idx); if (!item) return no_cover_icon_; // Check the cache for a pixmap we already loaded. const QString cache_key = AlbumIconPixmapCacheKey(idx); QPixmap cached_pixmap; if (QPixmapCache::find(cache_key, &cached_pixmap)) { return cached_pixmap; } // Try to load it from the disk cache if (use_disk_cache_ && sIconCache) { std::unique_ptr cache(sIconCache->data(QUrl(cache_key))); if (cache) { QImage cached_image; if (cached_image.load(cache.get(), "XPM")) { QPixmapCache::insert(cache_key, QPixmap::fromImage(cached_image)); return QPixmap::fromImage(cached_image); } } } // Maybe we're loading a pixmap already? if (pending_cache_keys_.contains(cache_key)) { return no_cover_icon_; } // No art is cached and we're not loading it already. Load art for the first song in the album. SongList songs = GetChildSongs(idx); if (!songs.isEmpty()) { const quint64 id = app_->album_cover_loader()->LoadImageAsync(cover_loader_options_, songs.first()); pending_art_[id] = ItemAndCacheKey(item, cache_key); pending_cache_keys_.insert(cache_key); } return no_cover_icon_; } void CollectionModel::AlbumCoverLoaded(const quint64 id, const AlbumCoverLoaderResult &result) { if (!pending_art_.contains(id)) return; ItemAndCacheKey item_and_cache_key = pending_art_.take(id); CollectionItem *item = item_and_cache_key.first; if (!item) return; const QString &cache_key = item_and_cache_key.second; pending_cache_keys_.remove(cache_key); // Insert this image in the cache. if (result.image_scaled.isNull()) { // Set the no_cover image so we don't continually try to load art. QPixmapCache::insert(cache_key, no_cover_icon_); } else { QPixmap image_pixmap; image_pixmap = QPixmap::fromImage(result.image_scaled); QPixmapCache::insert(cache_key, image_pixmap); } // If we have a valid cover not already in the disk cache if (use_disk_cache_ && sIconCache) { std::unique_ptr cached_img(sIconCache->data(QUrl(cache_key))); if (!cached_img && !result.image_scaled.isNull()) { QNetworkCacheMetaData item_metadata; item_metadata.setSaveToDisk(true); item_metadata.setUrl(QUrl(cache_key)); QIODevice *cache = sIconCache->prepare(item_metadata); if (cache) { result.image_scaled.save(cache, "XPM"); sIconCache->insert(cache); } } } const QModelIndex idx = ItemToIndex(item); if (!idx.isValid()) return; emit dataChanged(idx, idx); } QVariant CollectionModel::data(const QModelIndex &idx, const int role) const { const CollectionItem *item = IndexToItem(idx); // Handle a special case for returning album artwork instead of a generic CD icon. // this is here instead of in the other data() function to let us use the // QModelIndex& version of GetChildSongs, which satisfies const-ness, instead // of the CollectionItem *version, which doesn't. if (use_pretty_covers_) { bool is_album_node = false; if (role == Qt::DecorationRole && item->type == CollectionItem::Type_Container) { GroupBy container_type = group_by_[item->container_level]; is_album_node = IsAlbumGrouping(container_type); } if (is_album_node) { // It has const behaviour some of the time - that's ok right? return const_cast(this)->AlbumIcon(idx); } } return data(item, role); } QVariant CollectionModel::data(const CollectionItem *item, const int role) const { GroupBy container_type = item->type == CollectionItem::Type_Container ? group_by_[item->container_level] : GroupBy_None; switch (role) { case Qt::DisplayRole: case Qt::ToolTipRole: return item->DisplayText(); case Qt::DecorationRole: switch (item->type) { case CollectionItem::Type_Container: switch (container_type) { case GroupBy_Album: case GroupBy_AlbumDisc: case GroupBy_YearAlbum: case GroupBy_OriginalYearAlbum: case GroupBy_YearAlbumDisc: return album_icon_; case GroupBy_Artist: case GroupBy_AlbumArtist: return artist_icon_; default: break; } break; default: break; } break; case Role_Type: return item->type; case Role_IsDivider: return item->type == CollectionItem::Type_Divider; case Role_ContainerType: return container_type; case Role_Key: return item->key; case Role_Artist: return item->metadata.artist(); case Role_Editable: if (!item->lazy_loaded) { const_cast(this)->LazyPopulate(const_cast(item), true); } if (item->type == CollectionItem::Type_Container) { // if we have even one non editable item as a child, we ourselves are not available for edit if (!item->children.isEmpty()) { for (CollectionItem *child : item->children) { if (!data(child, role).toBool()) { return false; } } return true; } else { return false; } } else if (item->type == CollectionItem::Type_Song) { return item->metadata.IsEditable(); } else { return false; } case Role_SortText: return item->SortText(); } return QVariant(); } bool CollectionModel::HasCompilations(const CollectionQuery &query) { CollectionQuery q = query; q.AddCompilationRequirement(true); q.SetLimit(1); QMutexLocker l(backend_->db()->Mutex()); if (!backend_->ExecQuery(&q)) return false; return q.Next(); } CollectionModel::QueryResult CollectionModel::RunQuery(CollectionItem *parent) { QueryResult result; // Information about what we want the children to be int child_level = parent == root_ ? 0 : parent->container_level + 1; GroupBy child_type = child_level >= 3 ? GroupBy_None : group_by_[child_level]; // Initialise the query. child_type says what type of thing we want (artists, songs, etc.) CollectionQuery q(query_options_); InitQuery(child_type, &q); // Walk up through the item's parents adding filters as necessary CollectionItem *p = parent; while (p && p->type == CollectionItem::Type_Container) { FilterQuery(group_by_[p->container_level], p, &q); p = p->parent; } // Artists GroupBy is special - we don't want compilation albums appearing if (IsArtistGroupBy(child_type)) { // Add the special Various artists node if (show_various_artists_ && HasCompilations(q)) { result.create_va = true; } // Don't show compilations again outside the Various artists node q.AddCompilationRequirement(false); } // Execute the query QMutexLocker l(backend_->db()->Mutex()); if (backend_->ExecQuery(&q)) { while (q.Next()) { result.rows << SqlRow(q); } } if (QThread::currentThread() != thread() && QThread::currentThread() != backend_->thread()) { backend_->Close(); } return result; } void CollectionModel::PostQuery(CollectionItem *parent, const CollectionModel::QueryResult &result, const bool signal) { // Information about what we want the children to be int child_level = parent == root_ ? 0 : parent->container_level + 1; GroupBy child_type = child_level >= 3 ? GroupBy_None : group_by_[child_level]; if (result.create_va) { CreateCompilationArtistNode(signal, parent); } // Step through the results for (const SqlRow &row : result.rows) { // Create the item - it will get inserted into the model here CollectionItem *item = ItemFromQuery(child_type, signal, child_level == 0, parent, row, child_level); // Save a pointer to it for later if (child_type == GroupBy_None) song_nodes_[item->metadata.id()] = item; else container_nodes_[child_level][item->key] = item; } } void CollectionModel::LazyPopulate(CollectionItem *parent, const bool signal) { if (parent->lazy_loaded) return; parent->lazy_loaded = true; QueryResult result = RunQuery(parent); PostQuery(parent, result, signal); } void CollectionModel::ResetAsync() { QFuture future = QtConcurrent::run(std::bind(&CollectionModel::RunQuery, this, root_)); NewClosure(future, this, SLOT(ResetAsyncQueryFinished(QFuture)), future); } void CollectionModel::ResetAsyncQueryFinished(QFuture future) { if (QThread::currentThread() != thread() && QThread::currentThread() != backend_->thread()) { backend_->Close(); } const struct QueryResult result = future.result(); BeginReset(); root_->lazy_loaded = true; PostQuery(root_, result, false); if (init_task_id_ != -1) { if (app_) app_->task_manager()->SetTaskFinished(init_task_id_); init_task_id_ = -1; } endResetModel(); } void CollectionModel::BeginReset() { beginResetModel(); delete root_; song_nodes_.clear(); container_nodes_[0].clear(); container_nodes_[1].clear(); container_nodes_[2].clear(); divider_nodes_.clear(); pending_art_.clear(); pending_cache_keys_.clear(); root_ = new CollectionItem(this); root_->compilation_artist_node_ = nullptr; root_->lazy_loaded = false; } void CollectionModel::Reset() { BeginReset(); // Populate top level LazyPopulate(root_, false); endResetModel(); } void CollectionModel::InitQuery(const GroupBy type, CollectionQuery *q) { // Say what type of thing we want to get back from the database. switch (type) { case GroupBy_AlbumArtist: q->SetColumnSpec("DISTINCT effective_albumartist"); break; case GroupBy_Artist: q->SetColumnSpec("DISTINCT artist"); break; case GroupBy_Album: q->SetColumnSpec("DISTINCT album, album_id"); break; case GroupBy_Composer: q->SetColumnSpec("DISTINCT composer"); break; case GroupBy_Performer: q->SetColumnSpec("DISTINCT performer"); break; case GroupBy_Disc: q->SetColumnSpec("DISTINCT disc"); break; case GroupBy_Grouping: q->SetColumnSpec("DISTINCT grouping"); break; case GroupBy_YearAlbum: q->SetColumnSpec("DISTINCT year, album, grouping"); break; case GroupBy_OriginalYearAlbum: q->SetColumnSpec("DISTINCT year, originalyear, album, grouping"); break; case GroupBy_Year: q->SetColumnSpec("DISTINCT year"); break; case GroupBy_OriginalYear: q->SetColumnSpec("DISTINCT effective_originalyear"); break; case GroupBy_Genre: q->SetColumnSpec("DISTINCT genre"); break; case GroupBy_FileType: q->SetColumnSpec("DISTINCT filetype"); break; case GroupBy_Samplerate: q->SetColumnSpec("DISTINCT samplerate"); break; case GroupBy_Bitdepth: q->SetColumnSpec("DISTINCT bitdepth"); break; case GroupBy_Bitrate: q->SetColumnSpec("DISTINCT bitrate"); break; case GroupBy_Format: q->SetColumnSpec("DISTINCT filetype, samplerate, bitdepth"); break; case GroupBy_AlbumDisc: q->SetColumnSpec("DISTINCT album, disc"); break; case GroupBy_YearAlbumDisc: q->SetColumnSpec("DISTINCT year, album, disc"); break; case GroupBy_None: q->SetColumnSpec("%songs_table.ROWID, " + Song::kColumnSpec); break; } } void CollectionModel::FilterQuery(const GroupBy type, CollectionItem *item, CollectionQuery *q) { // Say how we want the query to be filtered. This is done once for each parent going up the tree. switch (type) { case GroupBy_AlbumArtist: if (IsCompilationArtistNode(item)) q->AddCompilationRequirement(true); else { // Don't duplicate compilations outside the Various artists node q->AddCompilationRequirement(false); q->AddWhere("effective_albumartist", item->key); } break; case GroupBy_Artist: if (IsCompilationArtistNode(item)) q->AddCompilationRequirement(true); else { // Don't duplicate compilations outside the Various artists node q->AddCompilationRequirement(false); q->AddWhere("artist", item->key); } break; case GroupBy_Album: q->AddWhere("album", item->key); q->AddWhere("album_id", item->metadata.album_id()); break; case GroupBy_YearAlbum: q->AddWhere("year", item->metadata.year()); q->AddWhere("album", item->metadata.album()); q->AddWhere("grouping", item->metadata.grouping()); break; case GroupBy_OriginalYearAlbum: q->AddWhere("year", item->metadata.year()); q->AddWhere("originalyear", item->metadata.originalyear()); q->AddWhere("album", item->metadata.album()); q->AddWhere("grouping", item->metadata.grouping()); break; case GroupBy_Year: q->AddWhere("year", item->key); break; case GroupBy_OriginalYear: q->AddWhere("effective_originalyear", item->key); break; case GroupBy_Composer: q->AddWhere("composer", item->key); break; case GroupBy_Performer: q->AddWhere("performer", item->key); break; case GroupBy_Disc: q->AddWhere("disc", item->key); break; case GroupBy_Grouping: q->AddWhere("grouping", item->key); break; case GroupBy_Genre: q->AddWhere("genre", item->key); break; case GroupBy_FileType: q->AddWhere("filetype", item->metadata.filetype()); break; case GroupBy_Samplerate: q->AddWhere("samplerate", item->key); break; case GroupBy_Bitdepth: q->AddWhere("bitdepth", item->key); break; case GroupBy_Bitrate: q->AddWhere("bitrate", item->key); break; case GroupBy_Format: q->AddWhere("filetype", item->metadata.filetype()); q->AddWhere("samplerate", item->metadata.samplerate()); q->AddWhere("bitdepth", item->metadata.bitdepth()); break; case GroupBy_AlbumDisc: q->AddWhere("album", item->metadata.album()); q->AddWhere("disc", item->metadata.disc()); break; case GroupBy_YearAlbumDisc: q->AddWhere("year", item->metadata.year()); q->AddWhere("album", item->metadata.album()); q->AddWhere("disc", item->metadata.disc()); break; case GroupBy_None: qLog(Error) << "Unknown GroupBy type" << type << "used in filter"; break; } } CollectionItem *CollectionModel::InitItem(const GroupBy type, const bool signal, CollectionItem *parent, const int container_level) { CollectionItem::Type item_type = type == GroupBy_None ? CollectionItem::Type_Song : CollectionItem::Type_Container; if (signal) beginInsertRows(ItemToIndex(parent), parent->children.count(), parent->children.count()); // Initialise the item depending on what type it's meant to be CollectionItem *item = new CollectionItem(item_type, parent); item->compilation_artist_node_ = nullptr; item->container_level = container_level; return item; } CollectionItem *CollectionModel::ItemFromQuery(const GroupBy type, const bool signal, const bool create_divider, CollectionItem *parent, const SqlRow &row, const int container_level) { CollectionItem *item = InitItem(type, signal, parent, container_level); switch (type) { case GroupBy_AlbumArtist: case GroupBy_Artist: case GroupBy_Composer: case GroupBy_Performer: case GroupBy_Grouping: case GroupBy_Genre: item->key = row.value(0).toString(); item->display_text = TextOrUnknown(item->key); item->sort_text = SortTextForArtist(item->key); break; case GroupBy_Album: item->key = row.value(0).toString(); item->display_text = TextOrUnknown(item->key); item->sort_text = SortTextForArtist(item->key); item->metadata.set_album_id(row.value(1).toString()); break; case GroupBy_OriginalYear:{ int year = qMax(0, row.value(0).toInt()); item->key = QString::number(year); item->sort_text = SortTextForNumber(year) + " "; break; } case GroupBy_Year:{ int year = qMax(0, row.value(0).toInt()); item->key = QString::number(year); item->sort_text = SortTextForNumber(year) + " "; break; } case GroupBy_OriginalYearAlbum:{ item->metadata.set_year(row.value(0).toInt()); item->metadata.set_originalyear(row.value(1).toInt()); item->metadata.set_album(row.value(2).toString()); item->metadata.set_grouping(row.value(3).toString()); int effective_originalyear = qMax(0, item->metadata.effective_originalyear()); item->key = PrettyYearAlbum(effective_originalyear, item->metadata.album()); item->sort_text = SortTextForNumber(effective_originalyear) + item->metadata.grouping() + item->metadata.album(); break; } case GroupBy_YearAlbum:{ int year = qMax(0, row.value(0).toInt()); item->metadata.set_year(row.value(0).toInt()); item->metadata.set_album(row.value(1).toString()); item->metadata.set_grouping(row.value(2).toString()); item->key = PrettyYearAlbum(year, item->metadata.album()); item->sort_text = SortTextForNumber(year) + item->metadata.grouping() + item->metadata.album(); break; } case GroupBy_Format:{ item->metadata.set_filetype(Song::FileType(row.value(0).toInt())); item->metadata.set_samplerate(row.value(1).toInt()); item->metadata.set_bitdepth(row.value(2).toInt()); if (item->metadata.samplerate() <= 0) { item->key = item->metadata.TextForFiletype(); } else { if (item->metadata.bitdepth() <= 0) { item->key = QString("%1 (%2)").arg(item->metadata.TextForFiletype()).arg(QString::number(item->metadata.samplerate() / 1000.0, 'G', 5)); } else { item->key = QString("%1 (%2/%3)").arg(item->metadata.TextForFiletype()).arg(QString::number(item->metadata.samplerate() / 1000.0, 'G', 5)).arg(QString::number(item->metadata.bitdepth())); } } break; } case GroupBy_Disc:{ int disc = row.value(0).toInt(); item->key = QString::number(disc); item->sort_text = SortTextForNumber(disc); break; } case GroupBy_FileType: item->metadata.set_filetype(Song::FileType(row.value(0).toInt())); item->key = item->metadata.TextForFiletype(); break; case GroupBy_Samplerate:{ int samplerate = qMax(0, row.value(0).toInt()); item->key = QString::number(samplerate); item->sort_text = SortTextForNumber(samplerate) + " "; break; } case GroupBy_Bitdepth:{ int bitdepth = qMax(0, row.value(0).toInt()); item->key = QString::number(bitdepth); item->sort_text = SortTextForNumber(bitdepth) + " "; break; } case GroupBy_Bitrate:{ int bitrate = qMax(0, row.value(0).toInt()); item->key = QString::number(bitrate); item->sort_text = SortTextForNumber(bitrate) + " "; break; } case GroupBy_AlbumDisc:{ item->metadata.set_album(row.value(0).toString()); item->metadata.set_disc(row.value(1).toInt()); item->key = PrettyAlbumDisc(item->metadata.album(), item->metadata.disc()); int disc = qMax(0, row.value(1).toInt()); item->sort_text = item->metadata.album() + SortTextForNumber(disc); break; } case GroupBy_YearAlbumDisc:{ item->metadata.set_year(row.value(0).toInt()); item->metadata.set_album(row.value(1).toString()); item->metadata.set_disc(row.value(2).toInt()); item->key = PrettyYearAlbumDisc(item->metadata.year(), item->metadata.album(), item->metadata.disc()); int year = qMax(0, row.value(0).toInt()); int disc = qMax(0, row.value(2).toInt()); item->sort_text = SortTextForNumber(year) + item->metadata.album() + SortTextForNumber(disc); break; } case GroupBy_None: item->metadata.InitFromQuery(row, true); item->key = item->metadata.title(); item->display_text = item->metadata.TitleWithCompilationArtist(); if (item->container_level == 1 && !IsAlbumGrouping(group_by_[0])) { item->sort_text = SortText(item->metadata.title()); } else { item->sort_text = SortTextForSong(item->metadata); } break; } FinishItem(type, signal, create_divider, parent, item); return item; } CollectionItem *CollectionModel::ItemFromSong(const GroupBy type, const bool signal, const bool create_divider, CollectionItem *parent, const Song &s, const int container_level) { CollectionItem *item = InitItem(type, signal, parent, container_level); switch (type) { case GroupBy_AlbumArtist: item->key = s.effective_albumartist(); item->display_text = TextOrUnknown(item->key); item->sort_text = SortTextForArtist(item->key); break; case GroupBy_Artist: item->key = s.artist(); item->display_text = TextOrUnknown(item->key); item->sort_text = SortTextForArtist(item->key); break; case GroupBy_Album: item->key = s.album(); item->display_text = TextOrUnknown(item->key); item->sort_text = SortTextForArtist(item->key); item->metadata.set_album_id(s.album_id()); break; case GroupBy_YearAlbum:{ int year = qMax(0, s.year()); item->metadata.set_year(year); item->metadata.set_album(s.album()); item->key = PrettyYearAlbum(year, s.album()); item->sort_text = SortTextForNumber(year) + s.grouping() + s.album(); break; } case GroupBy_OriginalYearAlbum:{ int year = qMax(0, s.year()); int originalyear = qMax(0, s.originalyear()); int effective_originalyear = qMax(0, s.effective_originalyear()); item->metadata.set_year(year); item->metadata.set_originalyear(originalyear); item->metadata.set_album(s.album()); item->key = PrettyYearAlbum(effective_originalyear, s.album()); item->sort_text = SortTextForNumber(effective_originalyear) + s.grouping() + s.album(); break; } case GroupBy_Year:{ int year = qMax(0, s.year()); item->key = QString::number(year); item->sort_text = SortTextForNumber(year) + " "; break; } case GroupBy_OriginalYear:{ int year = qMax(0, s.effective_originalyear()); item->key = QString::number(year); item->sort_text = SortTextForNumber(year) + " "; break; } case GroupBy_Composer: if (item->key.isNull()) item->key = s.composer(); // fallthrough case GroupBy_Performer: if (item->key.isNull()) item->key = s.performer(); // fallthrough case GroupBy_Grouping: if (item->key.isNull()) item->key = s.grouping(); // fallthrough case GroupBy_Genre: if (item->key.isNull()) item->key = s.genre(); item->display_text = TextOrUnknown(item->key); item->sort_text = SortTextForArtist(item->key); break; case GroupBy_Disc: item->key = QString::number(s.disc()); item->sort_text = SortTextForNumber(s.disc()); break; case GroupBy_FileType: item->metadata.set_filetype(s.filetype()); item->key = s.TextForFiletype(); break; case GroupBy_Bitrate:{ int bitrate = qMax(0, s.bitrate()); item->key = QString::number(bitrate); item->sort_text = SortTextForNumber(bitrate) + " "; break; } case GroupBy_Samplerate:{ int samplerate = qMax(0, s.samplerate()); item->key = QString::number(samplerate); item->sort_text = SortTextForNumber(samplerate) + " "; break; } case GroupBy_Bitdepth:{ int bitdepth = qMax(0, s.bitdepth()); item->key = QString::number(bitdepth); item->sort_text = SortTextForNumber(bitdepth) + " "; break; } case GroupBy_Format:{ item->metadata.set_filetype(s.filetype()); item->metadata.set_samplerate(s.samplerate()); item->metadata.set_bitdepth(s.bitdepth()); if (s.samplerate() <= 0) { item->key = s.TextForFiletype(); } else { if (s.bitdepth() <= 0) { item->key = QString("%1 (%2)").arg(s.TextForFiletype()).arg(QString::number(s.samplerate() / 1000.0, 'G', 5)); } else { item->key = QString("%1 (%2/%3)").arg(s.TextForFiletype()).arg(QString::number(s.samplerate() / 1000.0, 'G', 5)).arg(QString::number(s.bitdepth())); } } break; } case GroupBy_AlbumDisc:{ item->metadata.set_album(s.album()); item->metadata.set_disc(s.disc()); item->key = PrettyAlbumDisc(s.album(), s.disc()); int disc = qMax(0, s.disc()); item->sort_text = s.album() + SortTextForNumber(disc); break; } case GroupBy_YearAlbumDisc:{ item->metadata.set_year(s.year()); item->metadata.set_album(s.album()); item->metadata.set_disc(s.disc()); item->key = PrettyYearAlbumDisc(s.year(), s.album(), s.disc()); int year = qMax(0, s.year()); int disc = qMax(0, s.disc()); item->sort_text = SortTextForNumber(year) + s.album() + SortTextForNumber(disc); break; } case GroupBy_None: item->metadata = s; item->key = s.title(); item->display_text = s.TitleWithCompilationArtist(); if (item->container_level == 1 && !IsAlbumGrouping(group_by_[0])) { item->sort_text = SortText(s.title()); } else { item->sort_text = SortTextForSong(s); } break; } FinishItem(type, signal, create_divider, parent, item); if (s.url().scheme() == "cdda") item->lazy_loaded = true; return item; } void CollectionModel::FinishItem(const GroupBy type, const bool signal, const bool create_divider, CollectionItem *parent, CollectionItem *item) { if (type == GroupBy_None) item->lazy_loaded = true; if (signal) endInsertRows(); // Create the divider entry if we're supposed to if (create_divider && show_dividers_) { QString divider_key = DividerKey(type, item); item->sort_text.prepend(divider_key); if (!divider_key.isEmpty() && !divider_nodes_.contains(divider_key)) { if (signal) beginInsertRows(ItemToIndex(parent), parent->children.count(), parent->children.count()); CollectionItem *divider = new CollectionItem(CollectionItem::Type_Divider, root_); divider->key = divider_key; divider->display_text = DividerDisplayText(type, divider_key); divider->lazy_loaded = true; divider_nodes_[divider_key] = divider; if (signal) endInsertRows(); } } } QString CollectionModel::TextOrUnknown(const QString &text) { if (text.isEmpty()) return tr("Unknown"); return text; } QString CollectionModel::PrettyYearAlbum(const int year, const QString &album) { if (year <= 0) return TextOrUnknown(album); return QString::number(year) + " - " + TextOrUnknown(album); } QString CollectionModel::PrettyAlbumDisc(const QString &album, const int disc) { if (disc <= 0 || album.contains(QRegularExpression(Song::kAlbumRemoveDisc))) return TextOrUnknown(album); else return TextOrUnknown(album) + " - (Disc " + QString::number(disc) + ")"; } QString CollectionModel::PrettyYearAlbumDisc(const int year, const QString &album, const int disc) { QString str; if (year <= 0) str = TextOrUnknown(album); else str = QString::number(year) + " - " + TextOrUnknown(album); if (!album.contains(QRegularExpression(Song::kAlbumRemoveDisc)) && disc > 0) str += " - (Disc " + QString::number(disc) + ")"; return str; } QString CollectionModel::SortText(QString text) { if (text.isEmpty()) { text = " unknown"; } else { text = text.toLower(); } text = text.remove(QRegularExpression("[^\\w ]")); return text; } QString CollectionModel::SortTextForArtist(QString artist) { artist = SortText(artist); for (const auto &i : Song::kArticles) { if (artist.startsWith(i)) { int ilen = i.length(); artist = artist.right(artist.length() - ilen) + ", " + i.left(ilen - 1); break; } } return artist; } QString CollectionModel::SortTextForNumber(const int number) { return QString("%1").arg(number, 4, 10, QChar('0')); } QString CollectionModel::SortTextForYear(const int year) { QString str = QString::number(year); return QString("0").repeated(qMax(0, 4 - str.length())) + str; } QString CollectionModel::SortTextForBitrate(const int bitrate) { QString str = QString::number(bitrate); return QString("0").repeated(qMax(0, 3 - str.length())) + str; } QString CollectionModel::SortTextForSong(const Song &song) { QString ret = QString::number(qMax(0, song.disc()) * 1000 + qMax(0, song.track())); ret.prepend(QString("0").repeated(6 - ret.length())); ret.append(song.url().toString()); return ret; } Qt::ItemFlags CollectionModel::flags(const QModelIndex &idx) const { switch (IndexToItem(idx)->type) { case CollectionItem::Type_Song: case CollectionItem::Type_Container: return Qt::ItemIsSelectable | Qt::ItemIsEnabled | Qt::ItemIsDragEnabled; case CollectionItem::Type_Divider: case CollectionItem::Type_Root: case CollectionItem::Type_LoadingIndicator: default: return Qt::ItemIsEnabled; } } QStringList CollectionModel::mimeTypes() const { return QStringList() << "text/uri-list"; } QMimeData *CollectionModel::mimeData(const QModelIndexList &indexes) const { if (indexes.isEmpty()) return nullptr; SongMimeData *data = new SongMimeData; QList urls; QSet song_ids; data->backend = backend_; for (const QModelIndex &idx : indexes) { GetChildSongs(IndexToItem(idx), &urls, &data->songs, &song_ids); } data->setUrls(urls); data->name_for_new_playlist_ = PlaylistManager::GetNameForNewPlaylist(data->songs); return data; } bool CollectionModel::CompareItems(const CollectionItem *a, const CollectionItem *b) const { QVariant left(data(a, CollectionModel::Role_SortText)); QVariant right(data(b, CollectionModel::Role_SortText)); if (left.type() == QVariant::Int) return left.toInt() < right.toInt(); return left.toString() < right.toString(); } int CollectionModel::MaximumCacheSize(QSettings *s, const char *size_id, const char *size_unit_id, const int cache_size_default) const { int size = s->value(size_id, cache_size_default).toInt(); int unit = s->value(size_unit_id, CollectionSettingsPage::CacheSizeUnit::CacheSizeUnit_MB).toInt() + 1; do { size *= 1024; unit -= 1; } while (unit > 0); return size; } void CollectionModel::GetChildSongs(CollectionItem *item, QList *urls, SongList *songs, QSet *song_ids) const { switch (item->type) { case CollectionItem::Type_Container: { const_cast(this)->LazyPopulate(item); QList children = item->children; std::sort(children.begin(), children.end(), std::bind(&CollectionModel::CompareItems, this, _1, _2)); for (CollectionItem *child : children) GetChildSongs(child, urls, songs, song_ids); break; } case CollectionItem::Type_Song: urls->append(item->metadata.url()); if (!song_ids->contains(item->metadata.id())) { songs->append(item->metadata); song_ids->insert(item->metadata.id()); } break; default: break; } } SongList CollectionModel::GetChildSongs(const QModelIndexList &indexes) const { QList dontcare; SongList ret; QSet song_ids; for (const QModelIndex &idx : indexes) { GetChildSongs(IndexToItem(idx), &dontcare, &ret, &song_ids); } return ret; } SongList CollectionModel::GetChildSongs(const QModelIndex &idx) const { return GetChildSongs(QModelIndexList() << idx); } void CollectionModel::SetFilterAge(const int age) { query_options_.set_max_age(age); ResetAsync(); } void CollectionModel::SetFilterText(const QString &text) { query_options_.set_filter(text); ResetAsync(); } void CollectionModel::SetFilterQueryMode(QueryOptions::QueryMode query_mode) { query_options_.set_query_mode(query_mode); ResetAsync(); } bool CollectionModel::canFetchMore(const QModelIndex &parent) const { if (!parent.isValid()) return false; CollectionItem *item = IndexToItem(parent); return !item->lazy_loaded; } void CollectionModel::SetGroupBy(const Grouping &g) { group_by_ = g; ResetAsync(); emit GroupingChanged(g); } const CollectionModel::GroupBy &CollectionModel::Grouping::operator[](const int i) const { switch (i) { case 0: return first; case 1: return second; case 2: return third; } qLog(Error) << "CollectionModel::Grouping[] index out of range" << i; return first; } CollectionModel::GroupBy &CollectionModel::Grouping::operator[](const int i) { switch (i) { case 0: return first; case 1: return second; case 2: return third; } qLog(Error) << "CollectionModel::Grouping[] index out of range" << i; return first; } void CollectionModel::TotalSongCountUpdatedSlot(const int count) { total_song_count_ = count; emit TotalSongCountUpdated(count); } void CollectionModel::TotalArtistCountUpdatedSlot(const int count) { total_artist_count_ = count; emit TotalArtistCountUpdated(count); } void CollectionModel::TotalAlbumCountUpdatedSlot(const int count) { total_album_count_ = count; emit TotalAlbumCountUpdated(count); } void CollectionModel::ClearDiskCache() { if (sIconCache) sIconCache->clear(); } QDataStream &operator<<(QDataStream &s, const CollectionModel::Grouping &g) { s << quint32(g.first) << quint32(g.second) << quint32(g.third); return s; } QDataStream &operator>>(QDataStream &s, CollectionModel::Grouping &g) { quint32 buf; s >> buf; g.first = CollectionModel::GroupBy(buf); s >> buf; g.second = CollectionModel::GroupBy(buf); s >> buf; g.third = CollectionModel::GroupBy(buf); return s; }