/* Copyright (C) 2013 Lucio Carreras
*
* This file is part of sayonara player
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <iostream>
#include <fstream>
#include <string>
#include <functional>
using namespace std;
#include <QApplication>
#include <QMap>
#include <QSharedMemory>
#include <QMessageBox>
#include "application.h"
#include "GUI/player/GUI_Player.h"
#include "GUI/playlist/GUI_Playlist.h"
#include "GUI/renderchoose/renderchoose.h"
#include "playlist/PlaylistAVT.h"
#include "playlist/PlaylistOH.h"
#include "HelperStructs/Helper.h"
#include "HelperStructs/CSettingsStorage.h"
#include "HelperStructs/Style.h"
#include "HelperStructs/globals.h"
#include "libupnpp/upnpplib.hxx"
#include "libupnpp/control/mediarenderer.hxx"
#include "libupnpp/control/renderingcontrol.hxx"
#include "libupnpp/control/discovery.hxx"
using namespace UPnPClient;
#ifndef deleteZ
#define deleteZ(X) {delete X; X = 0;}
#endif
#define CONNECT(a,b,c,d) m_app->connect(a, SIGNAL(b), c, SLOT(d), \
Qt::UniqueConnection)
UPnPDeviceDirectory *superdir;
static MRDH getRenderer(const string& name, bool isfriendlyname)
{
if (superdir == 0) {
superdir = UPnPDeviceDirectory::getTheDir();
if (superdir == 0) {
cerr << "Can't create UPnP discovery object" << endl;
exit(1);
}
}
UPnPDeviceDesc ddesc;
if (isfriendlyname) {
if (superdir->getDevByFName(name, ddesc)) {
return MRDH(new MediaRenderer(ddesc));
}
cerr << "getDevByFname failed" << endl;
} else {
if (superdir->getDevByUDN(name, ddesc)) {
return MRDH(new MediaRenderer(ddesc));
}
cerr << "getDevByFname failed" << endl;
}
return MRDH();
}
bool Application::is_initialized()
{
return m_initialized;
}
bool Application::setupRenderer(const string& uid)
{
deleteZ(m_playlist);
deleteZ(m_rdco);
deleteZ(m_avto);
deleteZ(m_ohplo);
deleteZ(m_ohtmo);
deleteZ(m_ohvlo);
// Create media renderer object. We don't use it directly but it
// gives handles to the services. Note that the lib will return
// anything implementing either renderingcontrol or ohproduct
MRDH rdr = getRenderer(uid, false);
if (!rdr) {
cerr << "Renderer " << uid << " not found" << endl;
return false;
}
if (rdr->rdc()) {
m_rdco = new RenderingControlQO(rdr->rdc());
} else {
if (!rdr->ohvl()) {
cerr << "Device implements neither RenderingControl nor OHVolume" <<
endl;
return false;
}
m_ohvlo = new OHVolumeQO(rdr->ohvl());
}
bool needavt = true;
OHPLH ohpl = rdr->ohpl();
if (ohpl) {
m_ohplo = new OHPlayer(ohpl);
OHTMH ohtm = rdr->ohtm();
if (ohtm) {
m_ohtmo = new OHTimeQO(ohtm);
// no need for AVT then
needavt = false;
}
m_playlist = new PlaylistOH();
} else {
m_ohplo = 0;
m_playlist = new PlaylistAVT(rdr->desc()->UDN);
}
if (needavt) {
if (!rdr->avt()) {
cerr << "Renderer: AVTransport missing but we need it" << endl;
return false;
}
m_avto = new AVTPlayer(rdr->avt());
}
m_cdb->setPlaylist(m_playlist);
QString fn = QString::fromUtf8(rdr->desc()->friendlyName.c_str());
if (m_player) {
m_player->setRendererName(fn);
}
renderer_connections();
return true;
}
void Application::chooseRenderer()
{
vector<UPnPDeviceDesc> devices;
if (!MediaRenderer::getDeviceDescs(devices) || devices.empty()) {
QMessageBox::warning(0, "Upplay",
tr("No Media Renderers found."));
return;
}
RenderChooseDLG dlg(m_player);
for (auto it = devices.begin(); it != devices.end(); it++) {
dlg.rndsLW->addItem(QString::fromUtf8(it->friendlyName.c_str()));
}
if (!dlg.exec()) {
return;
}
int row = dlg.rndsLW->currentRow();
if (row < 0 || row >= int(devices.size())) {
cerr << "Internal error: bad row after renderer choose dlg" << endl;
return;
}
MetaDataList curmeta;
if (m_playlist) {
m_playlist->get_metadata(curmeta);
}
QString friendlyname = QString::fromUtf8(devices[row].friendlyName.c_str());
if (!setupRenderer(devices[row].UDN)) {
QMessageBox::warning(0, "Upplay", tr("Can't connect to ") +
friendlyname);
return;
}
m_settings->setPlayerUID(QString::fromUtf8(devices[row].UDN.c_str()));
if (m_playlist && !dlg.keepRB->isChecked()) {
if (dlg.replRB->isChecked()) {
m_playlist->psl_clear_playlist();
}
m_playlist->psl_add_tracks(curmeta);
}
}
Application::Application(QApplication* qapp, int,
QTranslator* translator, QObject *parent)
: QObject(parent), m_player(0), m_playlist(0), m_cdb(0), m_rdco(0),
m_avto(0), m_ohplo(0), m_ohtmo(0), m_ohvlo(0), m_ui_playlist(0),
m_settings(0), m_app(qapp), m_initialized(false)
{
m_settings = CSettingsStorage::getInstance();
QString version = getVersion();
m_settings->setVersion(version);
m_player = new GUI_Player(translator);
m_ui_playlist = new GUI_Playlist(m_player->getParentOfPlaylist(), 0);
m_player->setPlaylistWidget(m_ui_playlist);
m_cdb = new DirBrowser(m_player->getParentOfLibrary(), 0);
m_player->setLibraryWidget(m_cdb);
init_connections();
string uid = qs2utf8s(m_settings->getPlayerUID());
if (uid.empty()) {
QTimer::singleShot(0, this, SLOT(chooseRenderer()));
} else {
if (!setupRenderer(uid)) {
cerr << "Can't connect to previous media renderer" << endl;
QTimer::singleShot(0, this, SLOT(chooseRenderer()));
}
}
m_player->setWindowTitle("Upplay " + version);
m_player->setWindowIcon(QIcon(Helper::getIconPath() + "logo.png"));
m_player->setPlaylist(m_ui_playlist);
m_player->setStyle(m_settings->getPlayerStyle());
m_player->show();
m_ui_playlist->resize(m_player->getParentOfPlaylist()->size());
m_player->ui_loaded();
m_initialized = true;
}
Application::~Application()
{
}
void Application::renderer_connections()
{
if (m_ohplo) {
qDebug() << "Connecting ohplo::metadataArrayChanged(MetaDataList& mdv)";
PlaylistOH *ploh = dynamic_cast<PlaylistOH*>(m_playlist);
if (ploh == 0) {
cerr << "OpenHome player but Playlist not openhome!";
abort();
}
// Connections from OpenHome renderer to local playlist
CONNECT(m_ohplo, metadataArrayChanged(const MetaDataList&),
m_playlist, psl_new_ohpl(const MetaDataList&));
CONNECT(m_ohplo, trackIdChanged(int), ploh, psl_trackIdChanged(int));
CONNECT(m_ohplo, audioStateChanged(int, const char *),
m_playlist, psl_new_transport_state(int, const char *));
CONNECT(m_ohplo, playlistModeChanged(Playlist_Mode),
m_ui_playlist, setPlayerMode(Playlist_Mode));
// Connections from local playlist to openhome
CONNECT(ploh, sig_clear_playlist(),
m_ohplo, clear());
CONNECT(ploh, sig_insert_tracks(const MetaDataList&, int),
m_ohplo, insertTracks(const MetaDataList&, int));
CONNECT(ploh, sig_tracks_removed(const QList<int>&),
m_ohplo, removeTracks(const QList<int>&));
CONNECT(ploh, sig_row_activated(int), m_ohplo, seekIndex(int));
CONNECT(m_playlist, sig_mode_changed(Playlist_Mode),
m_ohplo, changeMode(Playlist_Mode));
CONNECT(m_playlist, sig_sync(), m_ohplo, sync());
CONNECT(m_playlist, sig_pause(), m_ohplo, pause());
CONNECT(m_playlist, sig_stop(), m_ohplo, stop());
CONNECT(m_playlist, sig_resume_play(), m_ohplo, play());
CONNECT(m_playlist, sig_forward(), m_ohplo, next());
CONNECT(m_playlist, sig_backward(), m_ohplo, previous());
CONNECT(m_player, search(int), m_ohplo, seekPC(int));
} else {
if (m_avto == 0) {
cerr << "No OpenHome Playlist and no AVTRansport ??";
return;
}
PlaylistAVT *plavt = dynamic_cast<PlaylistAVT*>(m_playlist);
if (plavt == 0) {
cerr << "!OpenHome player but Playlist not AVT !";
abort();
}
CONNECT(plavt, sig_play_now(const MetaData&, int, bool),
m_avto, changeTrack(const MetaData&, int, bool));
CONNECT(plavt, sig_next_track_to_play(const MetaData&),
m_avto, infoNextTrack(const MetaData&));
CONNECT(m_avto, endOfTrackIsNear(),
plavt, psl_prepare_for_end_of_track());
CONNECT(m_avto, newTrackPlaying(const QString&),
plavt, psl_ext_track_change(const QString&));
CONNECT(m_avto, sig_currentMetadata(const MetaData&),
plavt, psl_onCurrentMetadata(const MetaData&));
// the search (actually seek) param is in percent
CONNECT(m_player, search(int), m_avto, seekPC(int));
CONNECT(m_avto, audioStateChanged(int, const char*), m_playlist,
psl_new_transport_state(int, const char *));
CONNECT(m_avto, stoppedAtEOT(), m_playlist, psl_forward());
CONNECT(m_playlist, sig_stop(), m_avto, stop());
CONNECT(m_playlist, sig_resume_play(), m_avto, play());
CONNECT(m_playlist, sig_pause(), m_avto, pause());
}
// Use either ohtime or avt for time updates
if (m_ohtmo) {
CONNECT(m_ohtmo, secondsChanged(quint32),
m_player, setCurrentPosition(quint32));
} else if (m_avto) {
CONNECT(m_avto, secsInSongChanged(quint32),
m_player, setCurrentPosition(quint32));
}
if (m_ohvlo) {
CONNECT(m_player, sig_volume_changed(int), m_ohvlo, setVolume(int));
CONNECT(m_player, sig_mute(bool), m_ohvlo, setMute(bool));
CONNECT(m_ohvlo, volumeChanged(int), m_player, setVolumeUi(int));
CONNECT(m_ohvlo, muteChanged(bool), m_player, setMuteUi(bool));
// Set up the initial volume from the renderer value
m_player->setVolumeUi(m_ohvlo->volume());
} else if (m_rdco) {
CONNECT(m_player, sig_volume_changed(int), m_rdco, setVolume(int));
CONNECT(m_player, sig_mute(bool), m_rdco, setMute(bool));
CONNECT(m_rdco, volumeChanged(int), m_player, setVolumeUi(int));
CONNECT(m_rdco, muteChanged(bool), m_player, setMuteUi(bool));
// Set up the initial volume from the renderer value
m_player->setVolumeUi(m_rdco->volume());
}
CONNECT(m_player, play(), m_playlist, psl_play());
CONNECT(m_player, pause(), m_playlist, psl_pause());
CONNECT(m_player, stop(), m_playlist, psl_stop());
CONNECT(m_player, forward(), m_playlist, psl_forward());
CONNECT(m_player, backward(), m_playlist, psl_backward());
CONNECT(m_player, sig_load_playlist(), m_playlist, psl_load_playlist());
CONNECT(m_player, sig_save_playlist(), m_playlist, psl_save_playlist());
CONNECT(m_playlist, sig_track_metadata(const MetaData&),
m_player, update_track(const MetaData&));
CONNECT(m_playlist, sig_stopped(), m_player, stopped());
CONNECT(m_playlist, sig_paused(), m_player, paused());
CONNECT(m_playlist, sig_playing(), m_player, playing());
CONNECT(m_playlist, sig_playing_track_changed(int),
m_ui_playlist, track_changed(int));
CONNECT(m_playlist, sig_playlist_updated(MetaDataList&, int, int),
m_ui_playlist, fillPlaylist(MetaDataList&, int, int));
CONNECT(m_ui_playlist, selection_min_row(int),
m_playlist, psl_selection_min_row(int));
CONNECT(m_ui_playlist, playlist_mode_changed(const Playlist_Mode&),
m_playlist, psl_change_mode(const Playlist_Mode&));
CONNECT(m_ui_playlist, dropped_tracks(const MetaDataList&, int),
m_playlist, psl_insert_tracks(const MetaDataList&, int));
CONNECT(m_ui_playlist, sig_rows_removed(const QList<int>&, bool),
m_playlist, psl_remove_rows(const QList<int>&, bool));
CONNECT(m_ui_playlist, row_activated(int),
m_playlist, psl_change_track(int));
CONNECT(m_ui_playlist, clear_playlist(), m_playlist, psl_clear_playlist());
}
// Connections which make sense without a renderer.
void Application::init_connections()
{
CONNECT(m_player, show_small_playlist_items(bool),
m_ui_playlist, psl_show_small_playlist_items(bool));
CONNECT(m_player, sig_choose_renderer(), this, chooseRenderer());
CONNECT(m_player, sig_skin_changed(bool), m_cdb, setStyleSheet(bool));
CONNECT(m_player, showSearchPanel(bool), m_cdb, showSearchPanel(bool));
}
QString Application::getVersion()
{
return UPPLAY_VERSION;
}
QMainWindow* Application::getMainWindow()
{
return this->m_player;
}