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Rewrite MusicBrainzClient

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Use Json instead of XML, make Disc ID requests respect rate limiting, handle sort names.
This commit is contained in:
Jonas Kvinge
2025-10-05 21:42:14 +02:00
parent 330284f03e
commit 1d0d03ed83
8 changed files with 542 additions and 508 deletions
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70
src/device/cddasongloader.cpp
View File

@@ -53,11 +53,17 @@ using namespace Qt::Literals::StringLiterals;
CDDASongLoader::CDDASongLoader(const QUrl &url, QObject *parent)
: QObject(parent),
url_(url),
network_(make_shared<NetworkAccessManager>()) {
network_(make_shared<NetworkAccessManager>()),
#ifdef HAVE_MUSICBRAINZ
musicbrainz_client_(new MusicBrainzClient(network_, this)),
#endif
whatever_(false) {
#ifdef HAVE_MUSICBRAINZ
QObject::connect(this, &CDDASongLoader::LoadTagsFromMusicBrainz, this, &CDDASongLoader::LoadTagsFromMusicBrainzSlot);
QObject::connect(musicbrainz_client_, &MusicBrainzClient::DiscIdFinished, this, &CDDASongLoader::LoadTagsFromMusicBrainzFinished);
#endif // HAVE_MUSICBRAINZ
}
CDDASongLoader::~CDDASongLoader() {
@@ -349,7 +355,7 @@ void CDDASongLoader::LoadSongsFromCDDA() {
}
else {
qLog(Info) << "MusicBrainz Disc ID:" << musicbrainz_discid;
Q_EMIT LoadTagsFromMusicBrainz(musicbrainz_discid);
Q_EMIT LoadTagsFromMusicBrainz(musicbrainz_discid, songs);
}
#else
Q_EMIT LoadingFinished();
@@ -360,18 +366,23 @@ void CDDASongLoader::LoadSongsFromCDDA() {
#ifdef HAVE_MUSICBRAINZ
void CDDASongLoader::LoadTagsFromMusicBrainzSlot(const QString &musicbrainz_discid) const {
void CDDASongLoader::LoadTagsFromMusicBrainzSlot(const QString &musicbrainz_discid, const QMap<int, Song> &songs) {
MusicBrainzClient *musicbrainz_client = new MusicBrainzClient(network_);
QObject::connect(musicbrainz_client, &MusicBrainzClient::DiscIdFinished, this, &CDDASongLoader::LoadTagsFromMusicBrainzFinished);
musicbrainz_client->StartDiscIdRequest(musicbrainz_discid);
musicbrainz_discid_ = musicbrainz_discid;
musicbrainz_songs_ = songs;
musicbrainz_client_->StartDiscIdRequest(musicbrainz_discid);
}
void CDDASongLoader::LoadTagsFromMusicBrainzFinished(const QString &artist, const QString &album, const MusicBrainzClient::ResultList &results, const QString &error) {
void CDDASongLoader::LoadTagsFromMusicBrainzFinished(const QString &musicbrainz_discid, const MusicBrainzClient::ResultList &results, const QString &error) {
MusicBrainzClient *musicbrainz_client = qobject_cast<MusicBrainzClient*>(sender());
musicbrainz_client->deleteLater();
if (musicbrainz_discid != musicbrainz_discid_) {
return;
}
QMap<int, Song> songs = musicbrainz_songs_;
musicbrainz_discid_.clear();
musicbrainz_songs_.clear();
if (!error.isEmpty()) {
Error(error);
@@ -383,27 +394,32 @@ void CDDASongLoader::LoadTagsFromMusicBrainzFinished(const QString &artist, cons
return;
}
SongList songs;
songs.reserve(results.count());
int track_number = 0;
for (const MusicBrainzClient::Result &result : results) {
++track_number;
Song song(Song::Source::CDDA);
song.set_artist(artist);
song.set_album(album);
song.set_title(result.title_);
song.set_length_nanosec(result.duration_msec_ * kNsecPerMsec);
song.set_track(track_number);
song.set_year(result.year_);
song.set_id(track_number);
song.set_filetype(Song::FileType::CDDA);
song.set_valid(true);
// We need to set URL, that's how playlist will find the correct item to update
song.set_url(GetUrlFromTrack(track_number));
songs << song;
if (songs.contains(result.track_)) {
Song &song = songs[result.track_];
song.set_valid(true);
song.set_id(result.track_);
song.set_track(result.track_);
song.set_artist(result.artist_);
song.set_artistsort(result.sort_artist_);
song.set_album(result.album_);
song.set_title(result.title_);
song.set_track(result.track_);
song.set_year(result.year_);
song.set_url(GetUrlFromTrack(song.track()));
if (song.length_nanosec() <= 0) {
song.set_length_nanosec(result.duration_msec_ * kNsecPerMsec);
}
if (!result.album_artist_.isEmpty() && result.album_artist_ != result.artist_) {
song.set_albumartist(result.album_artist_);
}
if (!result.sort_album_artist_.isEmpty() && result.sort_album_artist_ != result.sort_artist_) {
song.set_albumartistsort(result.sort_album_artist_);
}
}
}
Q_EMIT SongsUpdated(songs);
Q_EMIT SongsUpdated(songs.values());
Q_EMIT LoadingFinished();
}

17
src/device/cddasongloader.h
View File

@@ -29,9 +29,10 @@
#include <QObject>
#include <QMutex>
#include <QFuture>
#include <QMap>
#include <QString>
#include <QUrl>
#include <QFuture>
#include "includes/shared_ptr.h"
#include "core/song.h"
@@ -62,19 +63,27 @@ class CDDASongLoader : public QObject {
void SongsUpdated(const SongList &songs);
void LoadError(const QString &error);
void LoadingFinished();
void LoadTagsFromMusicBrainz(const QString &musicbrainz_discid);
void LoadTagsFromMusicBrainz(const QString &musicbrainz_discid, const QMap<int, Song> &songs);
private Q_SLOTS:
#ifdef HAVE_MUSICBRAINZ
void LoadTagsFromMusicBrainzSlot(const QString &musicbrainz_discid) const;
void LoadTagsFromMusicBrainzFinished(const QString &artist, const QString &album, const MusicBrainzClient::ResultList &results, const QString &error);
void LoadTagsFromMusicBrainzSlot(const QString &musicbrainz_discid, const QMap<int, Song> &songs);
void LoadTagsFromMusicBrainzFinished(const QString &musicbrainz_discid, const MusicBrainzClient::ResultList &results, const QString &error);
#endif
private:
const QUrl url_;
SharedPtr<NetworkAccessManager> network_;
#ifdef HAVE_MUSICBRAINZ
MusicBrainzClient *musicbrainz_client_;
#endif
QMutex mutex_load_;
QFuture<void> loading_future_;
#ifdef HAVE_MUSICBRAINZ
QString musicbrainz_discid_;
QMap<int, Song> musicbrainz_songs_;
#endif
bool whatever_;
};
#endif // CDDASONGLOADER_H

15
src/dialogs/trackselectiondialog.cpp
View File

@@ -2,7 +2,7 @@
* Strawberry Music Player
* This file was part of Clementine.
* Copyright 2010, David Sansome <me@davidsansome.com>
* Copyright 2019-2021, Jonas Kvinge <jonas@jkvinge.net>
* Copyright 2019-2025, Jonas Kvinge <jonas@jkvinge.net>
*
* Strawberry is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
@@ -89,6 +89,7 @@ TrackSelectionDialog::TrackSelectionDialog(const SharedPtr<TagReaderClient> tagr
ui_->results->setColumnWidth(2, 160); // Title column
ui_->results->setColumnWidth(3, 160); // Artist column
ui_->results->setColumnWidth(4, 160); // Album column
ui_->results->setColumnWidth(5, 160); // Album artist column
}
@@ -228,10 +229,15 @@ void TrackSelectionDialog::AddDivider(const QString &text, QTreeWidget *parent)
}
void TrackSelectionDialog::AddSong(const Song &song, int result_index, QTreeWidget *parent) {
void TrackSelectionDialog::AddSong(const Song &song, const int result_index, QTreeWidget *parent) {
QStringList values;
values << ((song.track() > 0) ? QString::number(song.track()) : QString()) << ((song.year() > 0) ? QString::number(song.year()) : QString()) << song.title() << song.artist() << song.album();
values << ((song.track() > 0) ? QString::number(song.track()) : QString())
<< ((song.year() > 0) ? QString::number(song.year()) : QString())
<< song.title()
<< song.artist()
<< song.album()
<< song.albumartist();
QTreeWidgetItem *item = new QTreeWidgetItem(parent, values);
item->setData(0, Qt::UserRole, result_index);
@@ -275,6 +281,9 @@ void TrackSelectionDialog::SaveData(const QList<Data> &_data) const {
Song copy(ref.original_song_);
copy.set_title(new_metadata.title());
copy.set_artist(new_metadata.artist());
copy.set_artistsort(new_metadata.artistsort());
copy.set_albumartist(new_metadata.albumartist());
copy.set_albumartistsort(new_metadata.albumartistsort());
copy.set_album(new_metadata.album());
copy.set_track(new_metadata.track());
copy.set_year(new_metadata.year());

4
src/dialogs/trackselectiondialog.h
View File

@@ -2,7 +2,7 @@
* Strawberry Music Player
* This file was part of Clementine.
* Copyright 2010, David Sansome <me@davidsansome.com>
* Copyright 2019-2021, Jonas Kvinge <jonas@jkvinge.net>
* Copyright 2019-2025, Jonas Kvinge <jonas@jkvinge.net>
*
* Strawberry is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
@@ -83,7 +83,7 @@ class TrackSelectionDialog : public QDialog {
};
void AddDivider(const QString &text, QTreeWidget *parent) const;
static void AddSong(const Song &song, int result_index, QTreeWidget *parent);
static void AddSong(const Song &song, const int result_index, QTreeWidget *parent);
void SetLoading(const QString &message);
void SaveData(const QList<Data> &data) const;

6
src/dialogs/trackselectiondialog.ui
View File

@@ -210,6 +210,11 @@
<string>Title</string>
</property>
</column>
<column>
<property name="text">
<string>Album artist</string>
</property>
</column>
<column>
<property name="text">
<string>Artist</string>
@@ -260,7 +265,6 @@
</customwidget>
</customwidgets>
<resources>
<include location="../../data/data.qrc"/>
<include location="../../data/icons.qrc"/>
</resources>
<connections>

726
src/musicbrainz/musicbrainzclient.cpp
View File

@@ -1,7 +1,5 @@
/*
* Strawberry Music Player
* This file was part of Clementine.
* Copyright 2010, David Sansome <me@davidsansome.com>
* Copyright 2019-2025, Jonas Kvinge <jonas@jkvinge.net>
*
* Strawberry is free software: you can redistribute it and/or modify
@@ -32,21 +30,20 @@
#include <QUrl>
#include <QUrlQuery>
#include <QRegularExpression>
#include <QtAlgorithms>
#include <QNetworkAccessManager>
#include <QNetworkRequest>
#include <QNetworkReply>
#include <QJsonParseError>
#include <QJsonDocument>
#include <QJsonObject>
#include <QXmlStreamReader>
#include <QJsonArray>
#include <QTimer>
#include "includes/shared_ptr.h"
#include "core/logging.h"
#include "core/networkaccessmanager.h"
#include "core/networktimeouts.h"
#include "utilities/xmlutils.h"
#include "core/jsonbaserequest.h"
#include "musicbrainzclient.h"
using namespace Qt::Literals::StringLiterals;
@@ -61,7 +58,7 @@ constexpr int kMaxRequestPerTrack = 3;
} // namespace
MusicBrainzClient::MusicBrainzClient(SharedPtr<NetworkAccessManager> network, QObject *parent)
: QObject(parent),
: JsonBaseRequest(network, parent),
network_(network),
timeouts_(new NetworkTimeouts(kDefaultTimeout, this)),
timer_flush_requests_(new QTimer(this)) {
@@ -78,73 +75,83 @@ MusicBrainzClient::~MusicBrainzClient() {
}
QByteArray MusicBrainzClient::GetReplyData(QNetworkReply *reply, QString &error) {
void MusicBrainzClient::FlushRequests() {
QByteArray data;
FlushMbIdRequests();
FlushDiscIdRequests();
if (reply->error() == QNetworkReply::NoError && reply->attribute(QNetworkRequest::HttpStatusCodeAttribute).toInt() == 200) {
data = reply->readAll();
}
else {
if (reply->error() != QNetworkReply::NoError && reply->error() < 200) {
// This is a network error, there is nothing more to do.
Error(QStringLiteral("%1 (%2)").arg(reply->errorString()).arg(reply->error()));
}
else {
// See if there is Json data containing "error" - then use that instead.
data = reply->readAll();
QJsonParseError json_error;
QJsonDocument json_doc = QJsonDocument::fromJson(data, &json_error);
if (json_error.error == QJsonParseError::NoError && json_doc.isObject()) {
QJsonObject json_obj = json_doc.object();
if (!json_obj.isEmpty() && json_obj.contains("error"_L1)) {
error = json_obj["error"_L1].toString();
}
}
if (error.isEmpty()) {
if (reply->error() != QNetworkReply::NoError) {
error = QStringLiteral("%1 (%2)").arg(reply->errorString()).arg(reply->error());
}
else {
error = QStringLiteral("Received HTTP code %1").arg(reply->attribute(QNetworkRequest::HttpStatusCodeAttribute).toInt());
}
Error(error, data);
}
else Error(error);
}
return QByteArray();
}
return data;
}
void MusicBrainzClient::Cancel(int id) {
while (!requests_.isEmpty() && requests_.contains(id)) {
QNetworkReply *reply = requests_.take(id);
QObject::disconnect(reply, nullptr, this, nullptr);
if (reply->isRunning()) reply->abort();
reply->deleteLater();
if (pending_mbid_requests_.isEmpty() && pending_discid_requests_.isEmpty() && timer_flush_requests_->isActive()) {
timer_flush_requests_->stop();
}
}
void MusicBrainzClient::CancelAll() {
qDeleteAll(requests_);
requests_.clear();
qDeleteAll(mbid_requests_);
mbid_requests_.clear();
qDeleteAll(discid_requests_);
discid_requests_.clear();
}
void MusicBrainzClient::Start(const int id, const QStringList &mbid_list) {
JsonBaseRequest::JsonObjectResult MusicBrainzClient::ParseJsonObject(QNetworkReply *reply) {
if (reply->error() != QNetworkReply::NoError && reply->error() < 200) {
return ReplyDataResult(ErrorCode::NetworkError, QStringLiteral("%1 (%2)").arg(reply->errorString()).arg(reply->error()));
}
JsonObjectResult result(ErrorCode::Success);
result.network_error = reply->error();
if (reply->attribute(QNetworkRequest::HttpStatusCodeAttribute).isValid()) {
result.http_status_code = reply->attribute(QNetworkRequest::HttpStatusCodeAttribute).toInt();
}
const QByteArray data = reply->readAll();
if (!data.isEmpty()) {
QJsonParseError json_parse_error;
const QJsonDocument json_document = QJsonDocument::fromJson(data, &json_parse_error);
if (json_parse_error.error == QJsonParseError::NoError) {
const QJsonObject json_object = json_document.object();
if (json_object.contains("error"_L1)) {
result.error_code = ErrorCode::APIError;
result.error_message = json_object["error"_L1].toString();
}
else {
result.json_object = json_document.object();
}
}
else {
result.error_code = ErrorCode::ParseError;
result.error_message = json_parse_error.errorString();
}
}
if (result.error_code != ErrorCode::APIError) {
if (reply->error() != QNetworkReply::NoError) {
result.error_code = ErrorCode::NetworkError;
result.error_message = QStringLiteral("%1 (%2)").arg(reply->errorString()).arg(reply->error());
}
else if (result.http_status_code != 200) {
result.error_code = ErrorCode::HttpError;
result.error_message = QStringLiteral("Received HTTP code %1").arg(result.http_status_code);
}
}
return result;
}
void MusicBrainzClient::StartMbIdRequest(const int id, const QStringList &mbid_list) {
qLog(Debug) << "Starting MusicBrainz MBID request for" << mbid_list;
int request_number = 0;
for (const QString &mbid : mbid_list) {
++request_number;
if (request_number > kMaxRequestPerTrack) break;
Request request(id, mbid, request_number);
requests_pending_.insert(id, request);
pending_mbid_requests_.insert(id, MbIdRequest(id, mbid, request_number));
}
if (!timer_flush_requests_->isActive()) {
@@ -153,373 +160,366 @@ void MusicBrainzClient::Start(const int id, const QStringList &mbid_list) {
}
void MusicBrainzClient::StartDiscIdRequest(const QString &discid) {
void MusicBrainzClient::CancelMbIdRequest(const int id) {
const ParamList params = ParamList() << Param(u"inc"_s, u"artists+recordings"_s);
while (!mbid_requests_.isEmpty() && mbid_requests_.contains(id)) {
QNetworkReply *reply = mbid_requests_.take(id);
replies_.removeAll(reply);
QObject::disconnect(reply, nullptr, this, nullptr);
if (reply->isRunning()) reply->abort();
reply->deleteLater();
}
}
void MusicBrainzClient::FlushMbIdRequests() {
if (!mbid_requests_.isEmpty() || pending_mbid_requests_.isEmpty()) return;
SendMbIdRequest(pending_mbid_requests_.take(pending_mbid_requests_.firstKey()));
}
void MusicBrainzClient::SendMbIdRequest(const MbIdRequest &request) {
QUrlQuery url_query;
url_query.setQueryItems(params);
QUrl url(QString::fromLatin1(kDiscUrl) + discid);
url.setQuery(url_query);
url_query.addQueryItem(u"inc"_s, u"releases+media+artists"_s);
url_query.addQueryItem(u"status"_s, u"official"_s);
url_query.addQueryItem(u"fmt"_s, u"json"_s);
QNetworkRequest network_request(url);
network_request.setAttribute(QNetworkRequest::RedirectPolicyAttribute, QNetworkRequest::NoLessSafeRedirectPolicy);
QNetworkReply *reply = network_->get(network_request);
QObject::connect(reply, &QNetworkReply::finished, this, [this, discid, reply]() { DiscIdRequestFinished(discid, reply); });
QNetworkReply *reply = CreateGetRequest(QUrl(QString::fromLatin1(kTrackUrl) + request.mbid), url_query);
QObject::connect(reply, &QNetworkReply::finished, this, [this, reply, request]() { MbIdRequestFinished(reply, request.id, request.number); });
mbid_requests_.insert(request.id, reply);
timeouts_->AddReply(reply);
}
void MusicBrainzClient::FlushRequests() {
if (!requests_.isEmpty() || requests_pending_.isEmpty()) return;
const Request request = requests_pending_.take(requests_pending_.firstKey());
const ParamList params = ParamList() << Param(u"inc"_s, u"artists+releases+media"_s);
QUrlQuery url_query;
url_query.setQueryItems(params);
QUrl url(QString::fromLatin1(kTrackUrl) + request.mbid);
url.setQuery(url_query);
QNetworkRequest network_request(url);
network_request.setAttribute(QNetworkRequest::RedirectPolicyAttribute, QNetworkRequest::NoLessSafeRedirectPolicy);
QNetworkReply *reply = network_->get(network_request);
QObject::connect(reply, &QNetworkReply::finished, this, [this, reply, request]() { RequestFinished(reply, request.id, request.number); });
requests_.insert(request.id, reply);
timeouts_->AddReply(reply);
}
void MusicBrainzClient::RequestFinished(QNetworkReply *reply, const int id, const int request_number) {
void MusicBrainzClient::MbIdRequestFinished(QNetworkReply *reply, const int id, const int request_number) {
if (replies_.contains(reply)) {
replies_.removeAll(reply);
}
QObject::disconnect(reply, nullptr, this, nullptr);
reply->deleteLater();
const qint64 nb_removed = requests_.remove(id, reply);
if (nb_removed != 1) {
qLog(Debug) << "MusicBrainz: Unknown reply received:" << nb_removed << "requests removed, while only one was supposed to be removed";
if (mbid_requests_.contains(id, reply)) {
mbid_requests_.remove(id, reply);
}
if (!timer_flush_requests_->isActive() && requests_.isEmpty() && !requests_pending_.isEmpty()) {
if (!timer_flush_requests_->isActive() && mbid_requests_.isEmpty() && !pending_mbid_requests_.isEmpty()) {
timer_flush_requests_->start();
}
QString error;
QByteArray data = GetReplyData(reply, error);
if (!data.isEmpty()) {
QXmlStreamReader reader(data);
ResultList res;
while (!reader.atEnd()) {
if (reader.readNext() == QXmlStreamReader::StartElement && reader.name().toString() == "recording"_L1) {
const ResultList tracks = ParseTrack(&reader);
for (const Result &track : tracks) {
if (!track.title_.isEmpty()) {
res << track;
}
}
}
const JsonObjectResult json_object_result = ParseJsonObject(reply);
if (!json_object_result.success()) {
Q_EMIT MbIdFinished(id, ResultList(), json_object_result.error_message);
return;
}
const QJsonObject object_root = json_object_result.json_object;
if (object_root.contains("releases"_L1) && object_root.value("releases"_L1).isArray()) {
const ReleaseList releases = ParseReleases(object_root.value("releases"_L1).toArray());
if (!releases.isEmpty()) {
pending_results_[id] << PendingResults(request_number, ResultListFromReleases(releases));
}
pending_results_[id] << PendingResults(request_number, res);
}
// No more pending requests for this id: emit the results we have.
if (!requests_.contains(id) && !requests_pending_.contains(id)) {
// Merge the results we have
ResultList ret;
QList<PendingResults> result_list_list = pending_results_.take(id);
std::sort(result_list_list.begin(), result_list_list.end());
for (const PendingResults &result_list : std::as_const(result_list_list)) {
ret << result_list.results_;
if (!mbid_requests_.contains(id) && !pending_mbid_requests_.contains(id)) {
QList<PendingResults> pending_results_list = pending_results_.take(id);
std::sort(pending_results_list.begin(), pending_results_list.end());
ResultList results;
for (const PendingResults &pending_results : std::as_const(pending_results_list)) {
results << pending_results.results_;
}
Q_EMIT Finished(id, UniqueResults(ret, UniqueResultsSortOption::KeepOriginalOrder), error);
Q_EMIT MbIdFinished(id, UniqueResults(results, UniqueResultsSortOption::KeepOriginalOrder));
}
}
void MusicBrainzClient::DiscIdRequestFinished(const QString &discid, QNetworkReply *reply) {
void MusicBrainzClient::StartDiscIdRequest(const QString &disc_id) {
qLog(Debug) << "Starting MusicBrainz Disc ID request for" << disc_id;
pending_discid_requests_ << disc_id;
if (!timer_flush_requests_->isActive()) {
timer_flush_requests_->start();
}
}
void MusicBrainzClient::CancelDiscIdRequest(const QString &disc_id) {
while (!discid_requests_.isEmpty() && discid_requests_.contains(disc_id)) {
QNetworkReply *reply = discid_requests_.take(disc_id);
replies_.removeAll(reply);
QObject::disconnect(reply, nullptr, this, nullptr);
if (reply->isRunning()) reply->abort();
reply->deleteLater();
}
}
void MusicBrainzClient::FlushDiscIdRequests() {
if (!discid_requests_.isEmpty() || pending_discid_requests_.isEmpty()) return;
SendDiscIdRequest(pending_discid_requests_.takeFirst());
}
void MusicBrainzClient::SendDiscIdRequest(const QString &disc_id) {
QUrlQuery url_query;
url_query.addQueryItem(u"inc"_s, u"recordings+artists"_s);
url_query.addQueryItem(u"fmt"_s, u"json"_s);
QNetworkReply *reply = CreateGetRequest(QUrl(QString::fromLatin1(kDiscUrl) + disc_id), url_query);
QObject::connect(reply, &QNetworkReply::finished, this, [this, disc_id, reply]() { DiscIdRequestFinished(disc_id, reply); });
timeouts_->AddReply(reply);
}
void MusicBrainzClient::DiscIdRequestFinished(const QString &disc_id, QNetworkReply *reply) {
if (replies_.contains(reply)) {
replies_.removeAll(reply);
}
QObject::disconnect(reply, nullptr, this, nullptr);
reply->deleteLater();
ResultList ret;
QString artist;
QString album;
int year = 0;
if (discid_requests_.contains(disc_id)) {
discid_requests_.remove(disc_id);
}
QString error;
QByteArray data = GetReplyData(reply, error);
if (data.isEmpty()) {
Q_EMIT DiscIdFinished(artist, album, ret, error);
if (!timer_flush_requests_->isActive() && discid_requests_.isEmpty() && !pending_discid_requests_.isEmpty()) {
timer_flush_requests_->start();
}
const JsonObjectResult json_object_result = ParseJsonObject(reply);
if (!json_object_result.success()) {
Q_EMIT DiscIdFinished(disc_id, ResultList(), json_object_result.error_message);
return;
}
const QJsonObject object_root = json_object_result.json_object;
// Parse xml result:
// -get title
// -get artist
// -get year
// -get all the tracks' tags
// Note: If there are multiple releases for the discid, the first
// release is chosen.
QXmlStreamReader reader(data);
while (!reader.atEnd()) {
QXmlStreamReader::TokenType type = reader.readNext();
if (type == QXmlStreamReader::StartElement) {
QString name = reader.name().toString();
if (name == "title"_L1) {
album = reader.readElementText();
}
else if (name == "date"_L1) {
QRegularExpression regex(QString::fromLatin1(kDateRegex));
QRegularExpressionMatch re_match = regex.match(reader.readElementText());
if (re_match.capturedStart() == 0) {
year = re_match.captured(0).toInt();
}
}
else if (name == "artist-credit"_L1) {
ParseArtist(&reader, &artist);
}
else if (name == "medium-list"_L1) {
break;
}
ResultList results;
if (object_root.contains("releases"_L1) && object_root.value("releases"_L1).isArray()) {
const ReleaseList releases = ParseReleases(object_root.value("releases"_L1).toArray());
if (!releases.isEmpty()) {
results = ResultListFromReleases(ReleaseList() << releases.first(), disc_id);
}
}
while (!reader.atEnd()) {
QXmlStreamReader::TokenType token = reader.readNext();
QString name = reader.name().toString();
if (token == QXmlStreamReader::StartElement && name == "medium"_L1) {
// Get the medium with a matching discid.
if (MediumHasDiscid(discid, &reader)) {
const ResultList tracks = ParseMedium(&reader);
for (const Result &track : tracks) {
if (!track.title_.isEmpty()) {
ret << track;
}
}
}
else {
Utilities::ConsumeCurrentElement(&reader);
}
}
else if (token == QXmlStreamReader::EndElement && name == "medium-list"_L1) {
break;
}
}
// If we parsed a year, copy it to the tracks.
if (year > 0) {
for (ResultList::iterator it = ret.begin(); it != ret.end(); ++it) {
it->year_ = year;
}
}
Q_EMIT DiscIdFinished(artist, album, UniqueResults(ret, UniqueResultsSortOption::SortResults));
Q_EMIT DiscIdFinished(disc_id, UniqueResults(results, UniqueResultsSortOption::SortResults));
}
bool MusicBrainzClient::MediumHasDiscid(const QString &discid, QXmlStreamReader *reader) {
MusicBrainzClient::ReleaseList MusicBrainzClient::ParseReleases(const QJsonArray &array_releases) {
while (!reader->atEnd()) {
QXmlStreamReader::TokenType type = reader->readNext();
QString name = reader->name().toString();
if (type == QXmlStreamReader::StartElement && name == "disc"_L1 && reader->attributes().value("id"_L1).toString() == discid) {
return true;
}
if (type == QXmlStreamReader::EndElement && name == "disc-list"_L1) {
return false;
}
ReleaseList releases;
for (const QJsonValue &value_release : array_releases) {
if (!value_release.isObject()) continue;
releases << ParseRelease(value_release.toObject());
}
qLog(Debug) << "Reached end of xml stream without encountering </disc-list>";
return false;
return releases;
}
MusicBrainzClient::ResultList MusicBrainzClient::ParseMedium(QXmlStreamReader *reader) {
MusicBrainzClient::Release MusicBrainzClient::ParseRelease(const QJsonObject &object_release) {
ResultList ret;
while (!reader->atEnd()) {
QXmlStreamReader::TokenType type = reader->readNext();
QString name = reader->name().toString();
Release release;
if (type == QXmlStreamReader::StartElement) {
if (name == "track"_L1) {
if (object_release.contains("artist-credit"_L1) && object_release.value("artist-credit"_L1).isArray()) {
release.artist_ = ParseArtistCredit(object_release.value("artist-credit"_L1).toArray());
}
if (object_release.contains("title"_L1) && object_release.value("title"_L1).isString()) {
release.album_ = object_release.value("title"_L1).toString();
}
if (object_release.contains("date"_L1) && object_release.value("date"_L1).isString()) {
const QString year_str = ParseDate(object_release.value("date"_L1).toString());
if (!year_str.isEmpty()) {
release.year_ = year_str.toInt();
}
}
if (object_release.contains("media"_L1) && object_release.value("media"_L1).isArray()) {
release.media_ = ParseMediaList(object_release.value("media"_L1).toArray());
}
return release;
}
MusicBrainzClient::MediaList MusicBrainzClient::ParseMediaList(const QJsonArray &array_media_list) {
MediaList media_list;
for (const QJsonValue &value_media : array_media_list) {
if (!value_media.isObject()) continue;
media_list << ParseMedia(value_media.toObject());
}
return media_list;
}
MusicBrainzClient::Media MusicBrainzClient::ParseMedia(const QJsonObject &object_media) {
Media media;
if (object_media.contains("discs"_L1) && object_media.value("discs"_L1).isArray()) {
media.disc_ids_ = ParseDiscIds(object_media.value("discs"_L1).toArray());
}
if (object_media.contains("tracks"_L1) && object_media.value("tracks"_L1).isArray()) {
media.tracks_ = ParseTracks(object_media.value("tracks"_L1).toArray());
}
return media;
}
MusicBrainzClient::Artist MusicBrainzClient::ParseArtistCredit(const QJsonArray &array_artist_credits) {
Artist artist;
for (const QJsonValue &value_artist_credit : array_artist_credits) {
if (!value_artist_credit.isObject()) continue;
const QJsonObject object_artist_credit = value_artist_credit.toObject();
QString name;
QString sort_name;
QString join_phrase;
if (object_artist_credit.contains("name"_L1) && object_artist_credit.value("name"_L1).isString()) {
name = object_artist_credit.value("name"_L1).toString();
}
if (object_artist_credit.contains("artist"_L1) && object_artist_credit.value("artist"_L1).isObject()) {
const QJsonObject object_artist = object_artist_credit.value("artist"_L1).toObject();
if (object_artist.contains("name"_L1) && object_artist.value("name"_L1).isString()) {
name = object_artist.value("name"_L1).toString();
}
if (object_artist.contains("sort-name"_L1) && object_artist.value("sort-name"_L1).isString()) {
sort_name = object_artist.value("sort-name"_L1).toString();
}
}
if (object_artist_credit.contains("joinphrase"_L1) && object_artist_credit.value("joinphrase"_L1).isString()) {
join_phrase = object_artist_credit.value("joinphrase"_L1).toString();
}
if (!name.isEmpty()) {
artist.name_ += name + join_phrase;
}
if (!sort_name.isEmpty()) {
artist.sort_name_ += sort_name + join_phrase;
}
}
return artist;
}
QString MusicBrainzClient::ParseDate(const QString &date_str) {
static QRegularExpression regex(QString::fromLatin1(kDateRegex));
const QRegularExpressionMatch match = regex.match(date_str);
if (match.capturedStart() == 0) {
return match.captured(0);
}
return QString();
}
QStringList MusicBrainzClient::ParseDiscIds(const QJsonArray &array_discs) {
QStringList disc_ids;
for (const QJsonValue &value_disc : array_discs) {
if (!value_disc.isObject()) continue;
const QJsonObject object_disc = value_disc.toObject();
if (object_disc.contains("id"_L1)) {
disc_ids << object_disc.value("id"_L1).toString();
}
}
return disc_ids;
}
MusicBrainzClient::TrackList MusicBrainzClient::ParseTracks(const QJsonArray &array_tracks) {
TrackList tracks;
for (const QJsonValue &value_track : array_tracks) {
if (!value_track.isObject()) continue;
tracks << ParseTrack(value_track.toObject());
}
return tracks;
}
MusicBrainzClient::Track MusicBrainzClient::ParseTrack(const QJsonObject &object_track) {
Track track;
if (object_track.contains("position"_L1) && object_track.value("position"_L1).isDouble()) {
track.number_ = object_track.value("position"_L1).toInt();
}
if (object_track.contains("title"_L1) && object_track.value("title"_L1).isString()) {
track.title_ = object_track.value("title"_L1).toString();
}
if (object_track.contains("length"_L1) && object_track.value("length"_L1).isDouble()) {
track.duration_msec_ = object_track.value("length"_L1).toInt();
}
if (object_track.contains("artist-credit"_L1) && object_track.value("artist-credit"_L1).isArray()) {
track.artist_ = ParseArtistCredit(object_track.value("artist-credit"_L1).toArray());
}
return track;
}
MusicBrainzClient::ResultList MusicBrainzClient::ResultListFromReleases(const ReleaseList &releases, const QString &disc_id) {
ResultList results;
for (const Release &release : releases) {
for (const Media &media : release.media_) {
if (!disc_id.isEmpty() && !media.disc_ids_.contains(disc_id)) {
continue;
}
for (const Track &track : media.tracks_) {
Result result;
result = ParseTrackFromDisc(reader);
ret << result;
result.year_ = release.year_;
result.album_artist_ = release.artist_.name_;
result.sort_album_artist_ = release.artist_.sort_name_;
result.album_ = release.album_;
result.title_ = track.title_;
result.artist_ = track.artist_.name_;
result.sort_artist_ = track.artist_.sort_name_;
result.track_ = track.number_;
result.duration_msec_ = track.duration_msec_;
results << result;
}
}
if (type == QXmlStreamReader::EndElement && name == "track-list"_L1) {
break;
}
}
return ret;
return results;
}
MusicBrainzClient::Result MusicBrainzClient::ParseTrackFromDisc(QXmlStreamReader *reader) {
MusicBrainzClient::ResultList MusicBrainzClient::UniqueResults(const ResultList &results, const UniqueResultsSortOption opt) {
Result result;
while (!reader->atEnd()) {
QXmlStreamReader::TokenType type = reader->readNext();
QString name = reader->name().toString();
if (type == QXmlStreamReader::StartElement) {
if (name == "position"_L1) {
result.track_ = reader->readElementText().toInt();
}
else if (name == "length"_L1) {
result.duration_msec_ = reader->readElementText().toInt();
}
else if (name == "title"_L1) {
result.title_ = reader->readElementText();
}
}
if (type == QXmlStreamReader::EndElement && name == "track"_L1) {
break;
}
}
return result;
}
MusicBrainzClient::ResultList MusicBrainzClient::ParseTrack(QXmlStreamReader *reader) {
Result result;
QList<Release> releases;
while (!reader->atEnd()) {
QXmlStreamReader::TokenType type = reader->readNext();
QString name = reader->name().toString();
if (type == QXmlStreamReader::StartElement) {
if (name == "title"_L1) {
result.title_ = reader->readElementText();
}
else if (name == "length"_L1) {
result.duration_msec_ = reader->readElementText().toInt();
}
else if (name == "artist-credit"_L1) {
ParseArtist(reader, &result.artist_);
}
else if (name == "release"_L1) {
releases << ParseRelease(reader);
}
}
if (type == QXmlStreamReader::EndElement && name == "recording"_L1) {
break;
}
}
ResultList ret;
if (releases.isEmpty()) {
ret << result;
ResultList unique_results;
if (opt == UniqueResultsSortOption::SortResults) {
unique_results = QSet<Result>(results.begin(), results.end()).values();
std::sort(unique_results.begin(), unique_results.end());
}
else {
std::stable_sort(releases.begin(), releases.end());
ret.reserve(releases.count());
for (const Release &release : std::as_const(releases)) {
ret << release.CopyAndMergeInto(result);
}
}
return ret;
}
// Parse the artist. Multiple artists are joined together with the joinphrase from musicbrainz.
void MusicBrainzClient::ParseArtist(QXmlStreamReader *reader, QString *artist) {
QString join_phrase;
while (!reader->atEnd()) {
QXmlStreamReader::TokenType type = reader->readNext();
QString name = reader->name().toString();
if (type == QXmlStreamReader::StartElement && name == "name-credit"_L1) {
join_phrase = reader->attributes().value("joinphrase"_L1).toString();
}
if (type == QXmlStreamReader::StartElement && name == "name"_L1) {
*artist += reader->readElementText() + join_phrase;
}
if (type == QXmlStreamReader::EndElement && name == "artist-credit"_L1) {
return;
}
}
}
MusicBrainzClient::Release MusicBrainzClient::ParseRelease(QXmlStreamReader *reader) {
Release ret;
while (!reader->atEnd()) {
QXmlStreamReader::TokenType type = reader->readNext();
QString name = reader->name().toString();
if (type == QXmlStreamReader::StartElement) {
if (name == "title"_L1) {
ret.album_ = reader->readElementText();
}
else if (name == "status"_L1) {
ret.SetStatusFromString(reader->readElementText());
}
else if (name == "date"_L1) {
QRegularExpression regex(QString::fromLatin1(kDateRegex));
QRegularExpressionMatch re_match = regex.match(reader->readElementText());
if (re_match.capturedStart() == 0) {
ret.year_ = re_match.captured(0).toInt();
}
}
else if (name == "track-list"_L1) {
ret.track_ = reader->attributes().value("offset"_L1).toString().toInt() + 1;
Utilities::ConsumeCurrentElement(reader);
}
}
if (type == QXmlStreamReader::EndElement && name == "release"_L1) {
break;
}
}
return ret;
}
MusicBrainzClient::ResultList MusicBrainzClient::UniqueResults(const ResultList &results, UniqueResultsSortOption opt) {
ResultList ret;
if (opt == UniqueResultsSortOption::SortResults) {
ret = QSet<Result>(results.begin(), results.end()).values();
std::sort(ret.begin(), ret.end());
}
else { // KeepOriginalOrder
// Qt doesn't provide an ordered set (QSet "stores values in an unspecified order" according to Qt documentation).
// We might use std::set instead, but it's probably faster to use ResultList directly to avoid converting from one structure to another.
for (const Result &res : results) {
if (!ret.contains(res)) {
ret << res;
for (const Result &result : results) {
if (!unique_results.contains(result)) {
unique_results << result;
}
}
}
return ret;
return unique_results;
}
void MusicBrainzClient::Error(const QString &error, const QVariant &debug) {
qLog(Error) << "MusicBrainz:" << error;
if (debug.isValid()) qLog(Debug) << debug;
}

201
src/musicbrainz/musicbrainzclient.h
View File

@@ -1,7 +1,5 @@
/*
* Strawberry Music Player
* This file was part of Clementine.
* Copyright 2010, David Sansome <me@davidsansome.com>
* Copyright 2019-2025, Jonas Kvinge <jonas@jkvinge.net>
*
* Strawberry is free software: you can redistribute it and/or modify
@@ -24,6 +22,8 @@
#include "config.h"
#include <tuple>
#include <QtGlobal>
#include <QObject>
#include <QList>
@@ -34,48 +34,44 @@
#include <QStringList>
#include "includes/shared_ptr.h"
#include "core/jsonbaserequest.h"
class QNetworkReply;
class QTimer;
class QXmlStreamReader;
class QJsonValue;
class QJsonObject;
class QJsonArray;
class NetworkAccessManager;
class NetworkTimeouts;
class MusicBrainzClient : public QObject {
class MusicBrainzClient : public JsonBaseRequest {
Q_OBJECT
// Gets metadata for a particular MBID.
// An MBID is created from a fingerprint using MusicDnsClient.
// You can create one MusicBrainzClient and make multiple requests using it.
// IDs are provided by the caller when a request is started and included in the Finished signal - they have no meaning to MusicBrainzClient.
public:
// The second argument allows for specifying a custom network access manager.
// It is used in tests. The ownership of network is not transferred.
explicit MusicBrainzClient(SharedPtr<NetworkAccessManager> network, QObject *parent = nullptr);
~MusicBrainzClient() override;
virtual QString service_name() const override { return QLatin1String("MusicBrainz"); }
virtual bool authentication_required() const override { return false; }
virtual bool authenticated() const override { return true; }
virtual bool use_authorization_header() const override { return false; }
virtual QByteArray authorization_header() const override { return QByteArray(); }
struct Result {
public:
Result() : duration_msec_(0), track_(0), year_(-1) {}
bool operator<(const Result &other) const {
#define cmp(field) \
if ((field) < other.field) return true; \
if ((field) > other.field) return false;
cmp(track_);
cmp(year_);
cmp(title_);
cmp(artist_);
return false;
#undef cmp
return std::tie(title_, artist_, sort_artist_, album_artist_, sort_album_artist_, album_, duration_msec_, track_, year_)
< std::tie(other.title_, other.artist_, other.sort_artist_, other.album_artist_, other.sort_album_artist_, other.album_, other.duration_msec_, other.track_, other.year_);
}
bool operator==(const Result &other) const {
return
title_ == other.title_ &&
return title_ == other.title_ &&
artist_ == other.artist_ &&
sort_artist_ == other.sort_artist_ &&
album_artist_ == other.album_artist_ &&
sort_album_artist_ == other.sort_album_artist_ &&
album_ == other.album_ &&
duration_msec_ == other.duration_msec_ &&
track_ == other.track_ &&
@@ -84,6 +80,9 @@ class MusicBrainzClient : public QObject {
QString title_;
QString artist_;
QString sort_artist_;
QString album_artist_;
QString sort_album_artist_;
QString album_;
int duration_msec_;
int track_;
@@ -91,97 +90,76 @@ class MusicBrainzClient : public QObject {
};
using ResultList = QList<Result>;
// Starts a request and returns immediately. Finished() will be emitted later with the same ID.
void Start(const int id, const QStringList &mbid);
void StartMbIdRequest(const int id, const QStringList &mbid);
void CancelMbIdRequest(const int id);
void StartDiscIdRequest(const QString &discid);
void CancelDiscIdRequest(const QString &disc_id);
// Cancels the request with the given ID. Finished() will never be emitted for that ID. Does nothing if there is no request with the given ID.
void Cancel(int id);
// Cancels all requests. Finished() will never be emitted for any pending requests.
void CancelAll();
Q_SIGNALS:
// Finished signal emitted when feching songs tags
void Finished(const int id, const MusicBrainzClient::ResultList &result, const QString &error = QString());
// Finished signal emitted when fechting album's songs tags using DiscId
void DiscIdFinished(const QString &artist, const QString &album, const MusicBrainzClient::ResultList &result, const QString &error = QString());
void MbIdFinished(const int id, const MusicBrainzClient::ResultList &result, const QString &error = QString());
void DiscIdFinished(const QString &disc_id, const MusicBrainzClient::ResultList &result, const QString &error = QString());
private Q_SLOTS:
void FlushRequests();
// id identifies the track, and request_number means it's the 'request_number'th request for this track
void RequestFinished(QNetworkReply *reply, const int id, const int request_number);
// ID identifies the track, and request_number means it's the 'request_number'th request for this track
void MbIdRequestFinished(QNetworkReply *reply, const int id, const int request_number);
void DiscIdRequestFinished(const QString &discid, QNetworkReply *reply);
private:
using Param = QPair<QString, QString>;
using ParamList = QList<Param>;
struct Request {
Request() : id(0), number(0) {}
Request(const int _id, const QString &_mbid, const int _number) : id(_id), mbid(_mbid), number(_number) {}
class MbIdRequest {
public:
MbIdRequest() : id(0), number(0) {}
MbIdRequest(const int _id, const QString &_mbid, const int _number) : id(_id), mbid(_mbid), number(_number) {}
int id;
QString mbid;
int number;
};
// Used as parameter for UniqueResults
enum class UniqueResultsSortOption {
SortResults = 0,
KeepOriginalOrder
};
struct Release {
enum class Status {
Unknown = 0,
PseudoRelease,
Bootleg,
Promotional,
Official
};
Release() : track_(0), year_(0), status_(Status::Unknown) {}
Result CopyAndMergeInto(const Result &orig) const {
Result ret(orig);
ret.album_ = album_;
ret.track_ = track_;
ret.year_ = year_;
return ret;
}
void SetStatusFromString(const QString &s) {
if (s.compare(QLatin1String("Official"), Qt::CaseInsensitive) == 0) {
status_ = Status::Official;
}
else if (s.compare(QLatin1String("Promotion"), Qt::CaseInsensitive) == 0) {
status_ = Status::Promotional;
}
else if (s.compare(QLatin1String("Bootleg"), Qt::CaseInsensitive) == 0) {
status_ = Status::Bootleg;
}
else if (s.compare(QLatin1String("Pseudo-release"), Qt::CaseInsensitive) == 0) {
status_ = Status::PseudoRelease;
}
else {
status_ = Status::Unknown;
}
}
bool operator<(const Release &other) const {
// Compare status so that "best" status (e.g. Official) will be first when sorting a list of releases.
return status_ > other.status_;
}
QString album_;
int track_;
int year_;
Status status_;
class Artist {
public:
QString name_;
QString sort_name_;
};
struct PendingResults {
PendingResults(int sort_id, const ResultList &results) : sort_id_(sort_id), results_(results) {}
class Track {
public:
Track() : number_(0), duration_msec_(0) {}
int number_;
QString title_;
Artist artist_;
int duration_msec_;
};
using TrackList = QList<Track>;
class Media {
public:
QList<Track> tracks_;
QStringList disc_ids_;
};
using MediaList = QList<Media>;
class Release {
public:
Release() : year_(0) {}
Artist artist_;
QString album_;
int year_;
QList<Media> media_;
};
using ReleaseList = QList<Release>;
class PendingResults {
public:
PendingResults(const int sort_id, const ResultList &results) : sort_id_(sort_id), results_(results) {}
bool operator<(const PendingResults &other) const {
return sort_id_ < other.sort_id_;
@@ -191,29 +169,40 @@ class MusicBrainzClient : public QObject {
ResultList results_;
};
static QByteArray GetReplyData(QNetworkReply *reply, QString &error);
static bool MediumHasDiscid(const QString &discid, QXmlStreamReader *reader);
static ResultList ParseMedium(QXmlStreamReader *reader);
static Result ParseTrackFromDisc(QXmlStreamReader *reader);
static ResultList ParseTrack(QXmlStreamReader *reader);
static void ParseArtist(QXmlStreamReader *reader, QString *artist);
static Release ParseRelease(QXmlStreamReader *reader);
static ResultList UniqueResults(const ResultList &results, UniqueResultsSortOption opt = UniqueResultsSortOption::SortResults);
static void Error(const QString &error, const QVariant &debug = QVariant());
JsonObjectResult ParseJsonObject(QNetworkReply *reply);
void FlushMbIdRequests();
void FlushDiscIdRequests();
void SendMbIdRequest(const MbIdRequest &request);
void SendDiscIdRequest(const QString &disc_id);
static ReleaseList ParseReleases(const QJsonArray &array_releases);
static Release ParseRelease(const QJsonObject &object_release);
static MediaList ParseMediaList(const QJsonArray &array_media_list);
static Media ParseMedia(const QJsonObject &object_media);
static Artist ParseArtistCredit(const QJsonArray &array_artist_credits);
static QStringList ParseDiscIds(const QJsonArray &array_discs);
static TrackList ParseTracks(const QJsonArray &array_tracks);
static Track ParseTrack(const QJsonObject &object_track);
static QString ParseDate(const QString &date_str);
static ResultList ResultListFromReleases(const ReleaseList &releases, const QString &disc_id = QString());
static ResultList UniqueResults(const ResultList &results, const UniqueResultsSortOption opt = UniqueResultsSortOption::SortResults);
private:
SharedPtr<NetworkAccessManager> network_;
NetworkTimeouts *timeouts_;
QMultiMap<int, Request> requests_pending_;
QMultiMap<int, QNetworkReply*> requests_;
// Results we received so far, kept here until all the replies are finished
QMultiMap<int, MbIdRequest> pending_mbid_requests_;
QList<QString> pending_discid_requests_;
QMultiMap<int, QNetworkReply*> mbid_requests_;
QMultiMap<QString, QNetworkReply*> discid_requests_;
QMap<int, QList<PendingResults>> pending_results_;
QTimer *timer_flush_requests_;
};
inline size_t qHash(const MusicBrainzClient::Result &result) {
return qHash(result.album_) ^ qHash(result.artist_) ^ result.duration_msec_ ^ qHash(result.title_) ^ result.track_ ^ result.year_;
return qHash(result.album_) ^ qHash(result.artist_) ^ qHash(result.sort_artist_) ^ qHash(result.album_artist_) ^ qHash(result.sort_album_artist_) ^ result.duration_msec_ ^ qHash(result.title_) ^ result.track_ ^ result.year_;
}
#endif // MUSICBRAINZCLIENT_H

11
src/musicbrainz/tagfetcher.cpp
View File

@@ -45,7 +45,7 @@ TagFetcher::TagFetcher(SharedPtr<NetworkAccessManager> network, QObject *parent)
musicbrainz_client_(new MusicBrainzClient(network, this)) {
QObject::connect(acoustid_client_, &AcoustidClient::Finished, this, &TagFetcher::PuidsFound);
QObject::connect(musicbrainz_client_, &MusicBrainzClient::Finished, this, &TagFetcher::TagsFetched);
QObject::connect(musicbrainz_client_, &MusicBrainzClient::MbIdFinished, this, &TagFetcher::TagsFetched);
}
@@ -130,7 +130,7 @@ void TagFetcher::PuidsFound(const int index, const QStringList &puid_list, const
}
Q_EMIT Progress(song, tr("Downloading metadata"));
musicbrainz_client_->Start(index, puid_list);
musicbrainz_client_->StartMbIdRequest(index, puid_list);
}
@@ -146,8 +146,15 @@ void TagFetcher::TagsFetched(const int index, const MusicBrainzClient::ResultLis
for (const MusicBrainzClient::Result &result : results) {
Song song;
song.Init(result.title_, result.artist_, result.album_, result.duration_msec_ * kNsecPerMsec);
song.set_artistsort(result.sort_artist_);
song.set_track(result.track_);
song.set_year(result.year_);
if (!result.album_artist_.isEmpty() && result.album_artist_ != result.artist_) {
song.set_albumartist(result.album_artist_);
}
if (!result.sort_album_artist_.isEmpty() && result.sort_album_artist_ != result.sort_artist_) {
song.set_albumartistsort(result.sort_album_artist_);
}
songs_guessed << song;
}