/* This file is part of the KDE project.
Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
This library is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 2.1 or 3 of the License.
This library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
#include "audiooutput.h"
#include "audioplayer.h"
#include "defs.h"
#include "dummyplayer.h"
#include "utils.h"
#include "utils.h"
#ifdef PHONON_MMF_VIDEO_SURFACES
#include "videoplayer_surface.h"
#else
#include "videoplayer_dsa.h"
#endif
#include "videowidget.h"
#include "mediaobject.h"
#include <QDir>
#include <QUrl>
QT_BEGIN_NAMESPACE
using namespace Phonon;
using namespace Phonon::MMF;
/*! \class MMF::MediaObject
\internal
*/
//-----------------------------------------------------------------------------
// Constructor / destructor
//-----------------------------------------------------------------------------
MMF::MediaObject::MediaObject(QObject *parent) : MMF::MediaNode::MediaNode(parent)
, m_recognizerOpened(false)
, m_nextSourceSet(false)
{
m_player.reset(new DummyPlayer());
TRACE_CONTEXT(MediaObject::MediaObject, EAudioApi);
TRACE_ENTRY_0();
Q_UNUSED(parent);
TRACE_EXIT_0();
}
MMF::MediaObject::~MediaObject()
{
TRACE_CONTEXT(MediaObject::~MediaObject, EAudioApi);
TRACE_ENTRY_0();
m_file.Close();
m_fileServer.Close();
m_recognizer.Close();
TRACE_EXIT_0();
}
//-----------------------------------------------------------------------------
// Recognizer
//-----------------------------------------------------------------------------
bool MMF::MediaObject::openRecognizer()
{
TRACE_CONTEXT(MediaObject::openRecognizer, EAudioInternal);
if (!m_recognizerOpened) {
TInt err = m_recognizer.Connect();
if (KErrNone != err) {
TRACE("RApaLsSession::Connect error %d", err);
return false;
}
err = m_fileServer.Connect();
if (KErrNone != err) {
TRACE("RFs::Connect error %d", err);
return false;
}
// This must be called in order to be able to share file handles with
// the recognizer server (see fileMediaType function).
err = m_fileServer.ShareProtected();
if (KErrNone != err) {
TRACE("RFs::ShareProtected error %d", err);
return false;
}
m_recognizerOpened = true;
}
return true;
}
MMF::MediaType MMF::MediaObject::fileMediaType
(const QString& fileName)
{
TRACE_CONTEXT(MediaObject::fileMediaType, EAudioInternal);
MediaType result = MediaTypeUnknown;
if (openRecognizer()) {
const QHBufC fileNameSymbian(QDir::toNativeSeparators(fileName));
m_file.Close();
TInt err = m_file.Open(m_fileServer, *fileNameSymbian, EFileRead | EFileShareReadersOnly);
if (KErrNone == err) {
TDataRecognitionResult recognizerResult;
err = m_recognizer.RecognizeData(m_file, recognizerResult);
if (KErrNone == err) {
const TPtrC mimeType = recognizerResult.iDataType.Des();
result = Utils::mimeTypeToMediaType(mimeType);
} else {
TRACE("RApaLsSession::RecognizeData filename %S error %d", fileNameSymbian.data(), err);
}
} else {
TRACE("RFile::Open filename %S error %d", fileNameSymbian.data(), err);
}
}
return result;
}
//-----------------------------------------------------------------------------
// MediaObjectInterface
//-----------------------------------------------------------------------------
void MMF::MediaObject::play()
{
m_player->play();
}
void MMF::MediaObject::pause()
{
m_player->pause();
}
void MMF::MediaObject::stop()
{
m_player->stop();
}
void MMF::MediaObject::seek(qint64 ms)
{
m_player->seek(ms);
if (state() == PausedState or state() == PlayingState) {
emit tick(currentTime());
}
}
qint32 MMF::MediaObject::tickInterval() const
{
return m_player->tickInterval();
}
void MMF::MediaObject::setTickInterval(qint32 interval)
{
m_player->setTickInterval(interval);
}
bool MMF::MediaObject::hasVideo() const
{
return m_player->hasVideo();
}
bool MMF::MediaObject::isSeekable() const
{
return m_player->isSeekable();
}
Phonon::State MMF::MediaObject::state() const
{
return m_player->state();
}
qint64 MMF::MediaObject::currentTime() const
{
return m_player->currentTime();
}
QString MMF::MediaObject::errorString() const
{
return m_player->errorString();
}
Phonon::ErrorType MMF::MediaObject::errorType() const
{
return m_player->errorType();
}
qint64 MMF::MediaObject::totalTime() const
{
return m_player->totalTime();
}
MediaSource MMF::MediaObject::source() const
{
return m_source;
}
void MMF::MediaObject::setSource(const MediaSource &source)
{
switchToSource(source);
}
void MMF::MediaObject::switchToSource(const MediaSource &source)
{
createPlayer(source);
m_source = source;
m_player->open(m_source, m_file);
emit currentSourceChanged(m_source);
}
void MMF::MediaObject::createPlayer(const MediaSource &source)
{
TRACE_CONTEXT(MediaObject::createPlayer, EAudioApi);
TRACE_ENTRY("state %d source.type %d", state(), source.type());
TRACE_ENTRY("source.type %d", source.type());
MediaType mediaType = MediaTypeUnknown;
AbstractPlayer* oldPlayer = m_player.data();
const bool oldPlayerHasVideo = oldPlayer->hasVideo();
const bool oldPlayerSeekable = oldPlayer->isSeekable();
QString errorMessage;
// Determine media type
switch (source.type()) {
case MediaSource::LocalFile:
mediaType = fileMediaType(source.fileName());
break;
case MediaSource::Url:
{
const QUrl url(source.url());
if (url.scheme() == QLatin1String("file")) {
mediaType = fileMediaType(url.toLocalFile());
}
else {
// Streaming playback is generally not supported by the implementation
// of the audio player API, so we use CVideoPlayerUtility for both
// audio and video streaming.
mediaType = MediaTypeVideo;
}
}
break;
case MediaSource::Invalid:
case MediaSource::Disc:
case MediaSource::Stream:
errorMessage = tr("Error opening source: type not supported");
break;
case MediaSource::Empty:
TRACE_0("Empty media source");
break;
}
AbstractPlayer* newPlayer = 0;
// Construct newPlayer using oldPlayer (if not 0) in order to copy
// parameters (volume, prefinishMark, transitionTime) which may have
// been set on oldPlayer.
switch (mediaType) {
case MediaTypeUnknown:
TRACE_0("Media type could not be determined");
newPlayer = new DummyPlayer(oldPlayer);
errorMessage = tr("Error opening source: media type could not be determined");
break;
case MediaTypeAudio:
newPlayer = new AudioPlayer(this, oldPlayer);
break;
case MediaTypeVideo:
#ifdef PHONON_MMF_VIDEO_SURFACES
newPlayer = SurfaceVideoPlayer::create(this, oldPlayer);
#else
newPlayer = DsaVideoPlayer::create(this, oldPlayer);
#endif
break;
}
if (oldPlayer)
emit abstractPlayerChanged(0);
m_player.reset(newPlayer);
emit abstractPlayerChanged(newPlayer);
if (oldPlayerHasVideo != hasVideo()) {
emit hasVideoChanged(hasVideo());
}
if (oldPlayerSeekable != isSeekable()) {
emit seekableChanged(isSeekable());
}
connect(m_player.data(), SIGNAL(totalTimeChanged(qint64)), SIGNAL(totalTimeChanged(qint64)));
connect(m_player.data(), SIGNAL(stateChanged(Phonon::State,Phonon::State)), SIGNAL(stateChanged(Phonon::State,Phonon::State)));
connect(m_player.data(), SIGNAL(finished()), SIGNAL(finished()));
connect(m_player.data(), SIGNAL(tick(qint64)), SIGNAL(tick(qint64)));
connect(m_player.data(), SIGNAL(bufferStatus(int)), SIGNAL(bufferStatus(int)));
connect(m_player.data(), SIGNAL(metaDataChanged(QMultiMap<QString,QString>)), SIGNAL(metaDataChanged(QMultiMap<QString,QString>)));
connect(m_player.data(), SIGNAL(aboutToFinish()), SIGNAL(aboutToFinish()));
connect(m_player.data(), SIGNAL(prefinishMarkReached(qint32)), SIGNAL(tick(qint32)));
// We need to call setError() after doing the connects, otherwise the
// error won't be received.
if (!errorMessage.isEmpty()) {
Q_ASSERT(m_player);
m_player->setError(errorMessage);
}
TRACE_EXIT_0();
}
void MMF::MediaObject::setNextSource(const MediaSource &source)
{
m_nextSource = source;
m_nextSourceSet = true;
}
qint32 MMF::MediaObject::prefinishMark() const
{
return m_player->prefinishMark();
}
void MMF::MediaObject::setPrefinishMark(qint32 mark)
{
m_player->setPrefinishMark(mark);
}
qint32 MMF::MediaObject::transitionTime() const
{
return m_player->transitionTime();
}
void MMF::MediaObject::setTransitionTime(qint32 time)
{
m_player->setTransitionTime(time);
}
void MMF::MediaObject::volumeChanged(qreal volume)
{
m_player->volumeChanged(volume);
}
//-----------------------------------------------------------------------------
// MediaNode
//-----------------------------------------------------------------------------
void MMF::MediaObject::connectMediaObject(MediaObject * /*mediaObject*/)
{
// This function should never be called - see MediaNode::setMediaObject()
Q_ASSERT_X(false, Q_FUNC_INFO,
"Connection of MediaObject to MediaObject");
}
void MMF::MediaObject::disconnectMediaObject(MediaObject * /*mediaObject*/)
{
// This function should never be called - see MediaNode::setMediaObject()
Q_ASSERT_X(false, Q_FUNC_INFO,
"Disconnection of MediaObject from MediaObject");
}
//-----------------------------------------------------------------------------
// Video output
//-----------------------------------------------------------------------------
void MMF::MediaObject::setVideoOutput(AbstractVideoOutput* videoOutput)
{
m_player->setVideoOutput(videoOutput);
}
AbstractPlayer *MMF::MediaObject::abstractPlayer() const
{
return m_player.data();
}
//-----------------------------------------------------------------------------
// Playlist support
//-----------------------------------------------------------------------------
void MMF::MediaObject::switchToNextSource()
{
if (m_nextSourceSet) {
m_nextSourceSet = false;
switchToSource(m_nextSource);
play();
}
}
QT_END_NAMESPACE