Clementine-audio-player-Mac.../src/engines/gstengine.cpp

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/***************************************************************************
* Copyright (C) 2003-2005 by Mark Kretschmann <markey@web.de> *
* Copyright (C) 2005 by Jakub Stachowski <qbast@go2.pl> *
* Copyright (C) 2006 Paul Cifarelli <paul@cifarelli.net> *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) 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, write to the *
* Free Software Foundation, Inc., *
* 51 Franklin Steet, Fifth Floor, Boston, MA 02111-1307, USA. *
***************************************************************************/
#include "config.h"
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#include "gstengine.h"
#include "gstenginepipeline.h"
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#include "core/logging.h"
#include "core/taskmanager.h"
#include "core/utilities.h"
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#ifdef HAVE_MOODBAR
# include "gst/moodbar/spectrum.h"
#endif
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#include <math.h>
#include <unistd.h>
#include <vector>
#include <iostream>
#include <boost/bind.hpp>
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#include <QTimer>
#include <QRegExp>
#include <QFile>
#include <QSettings>
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#include <QtDebug>
#include <QCoreApplication>
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#include <QTimeLine>
#include <QDir>
#include <QtConcurrentRun>
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#include <gst/gst.h>
using std::vector;
using boost::shared_ptr;
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const char* GstEngine::kSettingsGroup = "GstEngine";
const char* GstEngine::kAutoSink = "autoaudiosink";
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const char* GstEngine::kHypnotoadPipeline =
"audiotestsrc wave=6 ! "
"audioecho intensity=1 delay=50000000 ! "
"audioecho intensity=1 delay=25000000 ! "
"equalizer-10bands "
"band0=-24 band1=-3 band2=7.5 band3=12 band4=8 "
"band5=6 band6=5 band7=6 band8=0 band9=-24";
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const char* GstEngine::kEnterprisePipeline =
"audiotestsrc wave=5 ! "
"audiocheblimit mode=0 cutoff=120";
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GstEngine::GstEngine(TaskManager* task_manager)
: Engine::Base(),
task_manager_(task_manager),
buffering_task_id_(-1),
latest_buffer_(NULL),
equalizer_enabled_(false),
stereo_balance_(0.0f),
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rg_enabled_(false),
rg_mode_(0),
rg_preamp_(0.0),
rg_compression_(true),
buffer_duration_nanosec_(1 * kNsecPerSec), // 1s
mono_playback_(false),
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seek_timer_(new QTimer(this)),
timer_id_(-1),
next_element_id_(0),
is_fading_out_to_pause_(false),
has_faded_out_(false)
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{
seek_timer_->setSingleShot(true);
seek_timer_->setInterval(kSeekDelayNanosec / kNsecPerMsec);
connect(seek_timer_, SIGNAL(timeout()), SLOT(SeekNow()));
ReloadSettings();
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}
GstEngine::~GstEngine() {
EnsureInitialised();
current_pipeline_.reset();
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// Save configuration
gst_deinit();
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}
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bool GstEngine::Init() {
initialising_ = QtConcurrent::run(&GstEngine::InitialiseGstreamer);
return true;
}
void GstEngine::InitialiseGstreamer() {
gst_init(NULL, NULL);
#ifdef HAVE_MOODBAR
gstmoodbar_register_static();
#endif
}
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void GstEngine::ReloadSettings() {
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Engine::Base::ReloadSettings();
QSettings s;
s.beginGroup(kSettingsGroup);
sink_ = s.value("sink", kAutoSink).toString();
device_ = s.value("device").toString();
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if (sink_.isEmpty())
sink_ = kAutoSink;
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rg_enabled_ = s.value("rgenabled", false).toBool();
rg_mode_ = s.value("rgmode", 0).toInt();
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rg_preamp_ = s.value("rgpreamp", 0.0).toDouble();
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rg_compression_ = s.value("rgcompression", true).toBool();
buffer_duration_nanosec_ = s.value("bufferduration", 4000).toLongLong() * kNsecPerMsec;
mono_playback_ = s.value("monoplayback", false).toBool();
}
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qint64 GstEngine::position_nanosec() const {
if (!current_pipeline_)
return 0;
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qint64 result = current_pipeline_->position() - beginning_nanosec_;
return qint64(qMax(0ll, result));
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}
qint64 GstEngine::length_nanosec() const {
if (!current_pipeline_)
return 0;
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qint64 result = end_nanosec_ - beginning_nanosec_;
return qint64(qMax(0ll, result));
}
Engine::State GstEngine::state() const {
if (!current_pipeline_)
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return url_.isEmpty() ? Engine::Empty : Engine::Idle;
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switch (current_pipeline_->state()) {
case GST_STATE_NULL: return Engine::Empty;
case GST_STATE_READY: return Engine::Idle;
case GST_STATE_PLAYING: return Engine::Playing;
case GST_STATE_PAUSED: return Engine::Paused;
default: return Engine::Empty;
}
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}
void GstEngine::ConsumeBuffer(GstBuffer* buffer, int pipeline_id) {
// Schedule this to run in the GUI thread. The buffer gets added to the
// queue and unreffed by UpdateScope.
if (!QMetaObject::invokeMethod(this, "AddBufferToScope",
Q_ARG(GstBuffer*, buffer),
Q_ARG(int, pipeline_id))) {
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qLog(Warning) << "Failed to invoke AddBufferToScope on GstEngine";
}
}
void GstEngine::AddBufferToScope(GstBuffer* buf, int pipeline_id) {
if (!current_pipeline_ || current_pipeline_->id() != pipeline_id) {
gst_buffer_unref(buf);
return;
}
if (latest_buffer_ != NULL) {
gst_buffer_unref(latest_buffer_);
}
latest_buffer_ = buf;
}
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const Engine::Scope& GstEngine::scope() {
if (latest_buffer_ != NULL) {
UpdateScope();
}
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return scope_;
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}
void GstEngine::UpdateScope() {
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typedef Engine::Scope::value_type sample_type;
// determine the number of channels
GstStructure* structure = gst_caps_get_structure(
GST_BUFFER_CAPS(latest_buffer_), 0);
int channels = 2;
gst_structure_get_int(structure, "channels", &channels);
// scope does not support >2 channels
if (channels > 2)
return;
const sample_type* source = reinterpret_cast<sample_type*>(
GST_BUFFER_DATA(latest_buffer_));
sample_type* dest = scope_.data();
const int bytes = qMin(
static_cast<Engine::Scope::size_type>(GST_BUFFER_SIZE(latest_buffer_)),
scope_.size() * sizeof(sample_type));
memcpy(dest, source, bytes);
gst_buffer_unref(latest_buffer_);
latest_buffer_ = NULL;
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}
void GstEngine::StartPreloading(const QUrl& url, bool force_stop_at_end,
qint64 beginning_nanosec, qint64 end_nanosec) {
EnsureInitialised();
QUrl gst_url = FixupUrl(url);
// No crossfading, so we can just queue the new URL in the existing
// pipeline and get gapless playback (hopefully)
if (current_pipeline_)
current_pipeline_->SetNextUrl(gst_url, beginning_nanosec,
force_stop_at_end ? end_nanosec : 0);
}
QUrl GstEngine::FixupUrl(const QUrl& url) {
QUrl copy = url;
// It's a file:// url with a hostname set. QUrl::fromLocalFile does this
// when given a \\host\share\file path on Windows. Munge it back into a
// path that gstreamer will recognise.
if (url.scheme() == "file" && !url.host().isEmpty()) {
copy.setPath("//" + copy.host() + copy.path());
copy.setHost(QString());
}
return copy;
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}
bool GstEngine::Load(const QUrl& url, Engine::TrackChangeFlags change,
bool force_stop_at_end,
quint64 beginning_nanosec, qint64 end_nanosec) {
EnsureInitialised();
Engine::Base::Load(url, change, force_stop_at_end, beginning_nanosec, end_nanosec);
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QUrl gst_url = FixupUrl(url);
bool crossfade = current_pipeline_ &&
((crossfade_enabled_ && change & Engine::Manual) ||
(autocrossfade_enabled_ && change & Engine::Auto));
if (change & Engine::Auto && change & Engine::SameAlbum && !crossfade_same_album_)
crossfade = false;
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if (!crossfade && current_pipeline_ && current_pipeline_->url() == gst_url &&
change & Engine::Auto) {
// We're not crossfading, and the pipeline is already playing the URI we
// want, so just do nothing.
return true;
}
shared_ptr<GstEnginePipeline> pipeline = CreatePipeline(gst_url,
force_stop_at_end ? end_nanosec : 0);
if (!pipeline)
return false;
if (crossfade)
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StartFadeout();
BufferingFinished();
current_pipeline_ = pipeline;
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SetVolume(volume_);
SetEqualizerEnabled(equalizer_enabled_);
SetEqualizerParameters(equalizer_preamp_, equalizer_gains_);
SetStereoBalance(stereo_balance_);
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// Maybe fade in this track
if (crossfade)
current_pipeline_->StartFader(fadeout_duration_nanosec_, QTimeLine::Forward);
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return true;
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}
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void GstEngine::StartFadeout() {
if (is_fading_out_to_pause_)
return;
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fadeout_pipeline_ = current_pipeline_;
disconnect(fadeout_pipeline_.get(), 0, 0, 0);
fadeout_pipeline_->RemoveAllBufferConsumers();
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fadeout_pipeline_->StartFader(fadeout_duration_nanosec_, QTimeLine::Backward);
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connect(fadeout_pipeline_.get(), SIGNAL(FaderFinished()), SLOT(FadeoutFinished()));
}
void GstEngine::StartFadeoutPause() {
fadeout_pause_pipeline_ = current_pipeline_;
disconnect(fadeout_pause_pipeline_.get(), SIGNAL(FaderFinished()), 0, 0);
fadeout_pause_pipeline_->StartFader(fadeout_pause_duration_nanosec_,
QTimeLine::Backward,
QTimeLine::EaseInOutCurve,
false);
if (fadeout_pipeline_ && fadeout_pipeline_->state() == GST_STATE_PLAYING) {
fadeout_pipeline_->StartFader(fadeout_pause_duration_nanosec_,
QTimeLine::Backward,
QTimeLine::LinearCurve,
false);
}
connect(fadeout_pause_pipeline_.get(), SIGNAL(FaderFinished()), SLOT(FadeoutPauseFinished()));
is_fading_out_to_pause_ = true;
}
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bool GstEngine::Play(quint64 offset_nanosec) {
EnsureInitialised();
if (!current_pipeline_ || current_pipeline_->is_buffering())
return false;
QFuture<GstStateChangeReturn> future = current_pipeline_->SetState(GST_STATE_PLAYING);
PlayFutureWatcher* watcher = new PlayFutureWatcher(
PlayFutureWatcherArg(offset_nanosec, current_pipeline_->id()), this);
watcher->setFuture(future);
connect(watcher, SIGNAL(finished()), SLOT(PlayDone()));
if (is_fading_out_to_pause_) {
current_pipeline_->SetState(GST_STATE_PAUSED);
}
return true;
}
void GstEngine::PlayDone() {
PlayFutureWatcher* watcher = static_cast<PlayFutureWatcher*>(sender());
watcher->deleteLater();
GstStateChangeReturn ret = watcher->result();
quint64 offset_nanosec = watcher->data().first;
if (!current_pipeline_ || watcher->data().second != current_pipeline_->id()) {
return;
}
if (ret == GST_STATE_CHANGE_FAILURE) {
// Failure, but we got a redirection URL - try loading that instead
QUrl redirect_url = current_pipeline_->redirect_url();
if (!redirect_url.isEmpty() && redirect_url != current_pipeline_->url()) {
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qLog(Info) << "Redirecting to" << redirect_url;
current_pipeline_ = CreatePipeline(redirect_url, end_nanosec_);
Play(offset_nanosec);
return;
}
// Failure - give up
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qLog(Warning) << "Could not set thread to PLAYING.";
current_pipeline_.reset();
BufferingFinished();
return;
}
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StartTimers();
// initial offset
if(offset_nanosec != 0 || beginning_nanosec_ != 0) {
Seek(offset_nanosec);
}
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emit StateChanged(Engine::Playing);
// we've successfully started playing a media stream with this url
emit ValidSongRequested(url_);
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}
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void GstEngine::Stop() {
StopTimers();
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url_ = QUrl(); // To ensure we return Empty from state()
beginning_nanosec_ = end_nanosec_ = 0;
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if (fadeout_enabled_ && current_pipeline_)
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StartFadeout();
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current_pipeline_.reset();
BufferingFinished();
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emit StateChanged(Engine::Empty);
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}
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void GstEngine::FadeoutFinished() {
fadeout_pipeline_.reset();
emit FadeoutFinishedSignal();
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}
void GstEngine::FadeoutPauseFinished() {
fadeout_pause_pipeline_->SetState(GST_STATE_PAUSED);
current_pipeline_->SetState(GST_STATE_PAUSED);
emit StateChanged(Engine::Paused);
StopTimers();
is_fading_out_to_pause_ = false;
has_faded_out_ = true;
fadeout_pause_pipeline_.reset();
fadeout_pipeline_.reset();
emit FadeoutFinishedSignal();
}
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void GstEngine::Pause() {
if (!current_pipeline_ || current_pipeline_->is_buffering())
return;
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// Check if we started a fade out. If it isn't finished yet and the user
// pressed play, we inverse the fader and resume the playback.
if (is_fading_out_to_pause_) {
disconnect(current_pipeline_.get(), SIGNAL(FaderFinished()), 0, 0);
current_pipeline_->StartFader(fadeout_pause_duration_nanosec_,
QTimeLine::Forward,
QTimeLine::EaseInOutCurve,
false);
is_fading_out_to_pause_ = false;
has_faded_out_ = false;
emit StateChanged(Engine::Playing);
return;
}
if ( current_pipeline_->state() == GST_STATE_PLAYING ) {
if (fadeout_pause_enabled_) {
StartFadeoutPause();
} else {
current_pipeline_->SetState(GST_STATE_PAUSED);
emit StateChanged(Engine::Paused);
StopTimers();
}
}
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}
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void GstEngine::Unpause() {
if (!current_pipeline_ || current_pipeline_->is_buffering())
return;
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if ( current_pipeline_->state() == GST_STATE_PAUSED ) {
current_pipeline_->SetState(GST_STATE_PLAYING);
// Check if we faded out last time. If yes, fade in no matter what the
// settings say. If we pause with fadeout, deactivate fadeout and resume
// playback, the player would be muted if not faded in.
if (has_faded_out_) {
disconnect(current_pipeline_.get(), SIGNAL(FaderFinished()), 0, 0);
current_pipeline_->StartFader(fadeout_pause_duration_nanosec_,
QTimeLine::Forward,
QTimeLine::EaseInOutCurve,
false);
has_faded_out_ = false;
}
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emit StateChanged(Engine::Playing);
StartTimers();
}
}
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void GstEngine::Seek(quint64 offset_nanosec) {
if (!current_pipeline_)
return;
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seek_pos_ = beginning_nanosec_ + offset_nanosec;
waiting_to_seek_ = true;
if (!seek_timer_->isActive()) {
SeekNow();
seek_timer_->start(); // Stop us from seeking again for a little while
}
}
void GstEngine::SeekNow() {
if (!waiting_to_seek_) return;
waiting_to_seek_ = false;
if (!current_pipeline_)
return;
if (!current_pipeline_->Seek(seek_pos_)) {
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qLog(Warning) << "Seek failed";
}
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}
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void GstEngine::SetEqualizerEnabled(bool enabled) {
equalizer_enabled_= enabled;
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if (current_pipeline_)
current_pipeline_->SetEqualizerEnabled(enabled);
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}
void GstEngine::SetEqualizerParameters(int preamp, const QList<int>& band_gains) {
equalizer_preamp_ = preamp;
equalizer_gains_ = band_gains;
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if (current_pipeline_)
current_pipeline_->SetEqualizerParams(preamp, band_gains);
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}
void GstEngine::SetStereoBalance(float value) {
stereo_balance_ = value;
if (current_pipeline_)
current_pipeline_->SetStereoBalance(value);
}
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void GstEngine::SetVolumeSW( uint percent ) {
if (current_pipeline_)
current_pipeline_->SetVolume(percent);
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}
void GstEngine::StartTimers() {
StopTimers();
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timer_id_ = startTimer(kTimerIntervalNanosec / kNsecPerMsec);
}
void GstEngine::StopTimers() {
if (timer_id_ != -1) {
killTimer(timer_id_);
timer_id_ = -1;
}
}
void GstEngine::timerEvent(QTimerEvent* e) {
if (e->timerId() != timer_id_)
return;
if (current_pipeline_) {
const qint64 current_position = position_nanosec();
const qint64 current_length = length_nanosec();
const qint64 remaining = current_length - current_position;
const qint64 fudge = kTimerIntervalNanosec + 100 * kNsecPerMsec; // Mmm fudge
const qint64 gap = buffer_duration_nanosec_ + (
autocrossfade_enabled_ ?
fadeout_duration_nanosec_ :
kPreloadGapNanosec);
// only if we know the length of the current stream...
if(current_length > 0) {
// emit TrackAboutToEnd when we're a few seconds away from finishing
if (remaining < gap + fudge) {
EmitAboutToEnd();
}
}
}
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}
void GstEngine::HandlePipelineError(int pipeline_id, const QString& message,
int domain, int error_code) {
if (!current_pipeline_.get() || current_pipeline_->id() != pipeline_id)
return;
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qLog(Warning) << "Gstreamer error:" << message;
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current_pipeline_.reset();
BufferingFinished();
emit StateChanged(Engine::Empty);
// unable to play media stream with this url
emit InvalidSongRequested(url_);
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// TODO: the types of errors listed below won't be shown to user - they will
// get logged and the current song will be skipped; instead of maintaining
// the list we should probably:
// - don't report any engine's errors to user (always just log and skip)
// - come up with a less intrusive error box (not a dialog but a notification
// popup of some kind) and then report all errors
if(!(domain == GST_RESOURCE_ERROR && error_code == GST_RESOURCE_ERROR_NOT_FOUND) &&
!(domain == GST_STREAM_ERROR && error_code == GST_STREAM_ERROR_TYPE_NOT_FOUND) &&
!(domain == GST_RESOURCE_ERROR && error_code == GST_RESOURCE_ERROR_OPEN_READ)) {
emit Error(message);
}
}
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void GstEngine::EndOfStreamReached(int pipeline_id, bool has_next_track) {
if (!current_pipeline_.get() || current_pipeline_->id() != pipeline_id)
return;
if (!has_next_track) {
current_pipeline_.reset();
BufferingFinished();
}
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emit TrackEnded();
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}
void GstEngine::NewMetaData(int pipeline_id, const Engine::SimpleMetaBundle& bundle) {
if (!current_pipeline_.get() || current_pipeline_->id() != pipeline_id)
return;
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emit MetaData(bundle);
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}
GstElement* GstEngine::CreateElement(const QString& factoryName, GstElement* bin) {
// Make a unique name
QString name = factoryName + "-" + QString::number(next_element_id_ ++);
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GstElement* element = gst_element_factory_make(
factoryName.toAscii().constData(), name.toAscii().constData());
if (!element) {
emit Error(QString("GStreamer could not create the element: %1. "
"Please make sure that you have installed all necessary GStreamer plugins (e.g. OGG and MP3)").arg( factoryName ) );
gst_object_unref(GST_OBJECT(bin));
return NULL;
}
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if (bin)
gst_bin_add(GST_BIN(bin), element);
return element;
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}
GstEngine::PluginDetailsList
GstEngine::GetPluginList(const QString& classname) const {
const_cast<GstEngine*>(this)->EnsureInitialised();
PluginDetailsList ret;
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GstRegistry* registry = gst_registry_get_default();
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GList* const features =
gst_registry_get_feature_list(registry, GST_TYPE_ELEMENT_FACTORY);
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GList* p = features;
while (p) {
GstElementFactory* factory = GST_ELEMENT_FACTORY(p->data);
if (QString(factory->details.klass).contains(classname)) {
PluginDetails details;
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details.name = QString::fromUtf8(GST_PLUGIN_FEATURE_NAME(p->data));
details.long_name = QString::fromUtf8(factory->details.longname);
details.description = QString::fromUtf8(factory->details.description);
details.author = QString::fromUtf8(factory->details.author);
ret << details;
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}
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p = g_list_next(p);
}
gst_plugin_feature_list_free(features);
return ret;
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}
shared_ptr<GstEnginePipeline> GstEngine::CreatePipeline() {
EnsureInitialised();
shared_ptr<GstEnginePipeline> ret(new GstEnginePipeline(this));
ret->set_output_device(sink_, device_);
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ret->set_replaygain(rg_enabled_, rg_mode_, rg_preamp_, rg_compression_);
ret->set_buffer_duration_nanosec(buffer_duration_nanosec_);
ret->set_mono_playback(mono_playback_);
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ret->AddBufferConsumer(this);
foreach (BufferConsumer* consumer, buffer_consumers_) {
ret->AddBufferConsumer(consumer);
}
connect(ret.get(), SIGNAL(EndOfStreamReached(int, bool)), SLOT(EndOfStreamReached(int, bool)));
connect(ret.get(), SIGNAL(Error(int, QString,int,int)), SLOT(HandlePipelineError(int, QString,int,int)));
connect(ret.get(), SIGNAL(MetadataFound(int, Engine::SimpleMetaBundle)),
SLOT(NewMetaData(int, Engine::SimpleMetaBundle)));
connect(ret.get(), SIGNAL(BufferingStarted()), SLOT(BufferingStarted()));
connect(ret.get(), SIGNAL(BufferingProgress(int)), SLOT(BufferingProgress(int)));
connect(ret.get(), SIGNAL(BufferingFinished()), SLOT(BufferingFinished()));
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return ret;
}
shared_ptr<GstEnginePipeline> GstEngine::CreatePipeline(const QUrl& url,
qint64 end_nanosec) {
shared_ptr<GstEnginePipeline> ret = CreatePipeline();
if (url.scheme() == "hypnotoad") {
ret->InitFromString(kHypnotoadPipeline);
return ret;
}
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if (url.scheme() == "enterprise") {
ret->InitFromString(kEnterprisePipeline);
return ret;
}
if (!ret->InitFromUrl(url, end_nanosec))
ret.reset();
return ret;
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}
bool GstEngine::DoesThisSinkSupportChangingTheOutputDeviceToAUserEditableString(const QString &name) {
return (name == "alsasink" || name == "osssink" || name == "pulsesink");
}
void GstEngine::AddBufferConsumer(BufferConsumer *consumer) {
buffer_consumers_ << consumer;
if (current_pipeline_)
current_pipeline_->AddBufferConsumer(consumer);
}
void GstEngine::RemoveBufferConsumer(BufferConsumer *consumer) {
buffer_consumers_.removeAll(consumer);
if (current_pipeline_)
current_pipeline_->RemoveBufferConsumer(consumer);
}
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int GstEngine::AddBackgroundStream(shared_ptr<GstEnginePipeline> pipeline) {
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// We don't want to get metadata messages or end notifications.
disconnect(pipeline.get(), SIGNAL(MetadataFound(int,Engine::SimpleMetaBundle)), this, 0);
disconnect(pipeline.get(), SIGNAL(EndOfStreamReached(int,bool)), this, 0);
connect(pipeline.get(), SIGNAL(EndOfStreamReached(int,bool)), SLOT(BackgroundStreamFinished()));
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const int stream_id = next_background_stream_id_++;
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background_streams_[stream_id] = pipeline;
QFuture<GstStateChangeReturn> future = pipeline->SetState(GST_STATE_PLAYING);
BoundFutureWatcher<GstStateChangeReturn, int>* watcher =
new BoundFutureWatcher<GstStateChangeReturn, int>(stream_id, this);
watcher->setFuture(future);
connect(watcher, SIGNAL(finished()), SLOT(BackgroundStreamPlayDone()));
return stream_id;
}
void GstEngine::BackgroundStreamPlayDone() {
BoundFutureWatcher<GstStateChangeReturn, int>* watcher =
static_cast<BoundFutureWatcher<GstStateChangeReturn, int>*>(sender());
watcher->deleteLater();
const int stream_id = watcher->data();
GstStateChangeReturn ret = watcher->result();
if (ret == GST_STATE_CHANGE_FAILURE) {
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qLog(Warning) << "Could not set thread to PLAYING.";
background_streams_.remove(stream_id);
}
}
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int GstEngine::AddBackgroundStream(const QUrl& url) {
shared_ptr<GstEnginePipeline> pipeline = CreatePipeline(url, 0);
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if (!pipeline) {
return -1;
}
pipeline->SetVolume(30);
pipeline->SetNextUrl(url, 0, 0);
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return AddBackgroundStream(pipeline);
}
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void GstEngine::StopBackgroundStream(int id) {
background_streams_.remove(id); // Removes last shared_ptr reference.
}
void GstEngine::BackgroundStreamFinished() {
GstEnginePipeline* pipeline = qobject_cast<GstEnginePipeline*>(sender());
pipeline->SetNextUrl(pipeline->url(), 0, 0);
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}
void GstEngine::SetBackgroundStreamVolume(int id, int volume) {
shared_ptr<GstEnginePipeline> pipeline = background_streams_[id];
Q_ASSERT(pipeline);
pipeline->SetVolume(volume);
}
void GstEngine::BufferingStarted() {
if (buffering_task_id_ != -1) {
task_manager_->SetTaskFinished(buffering_task_id_);
}
buffering_task_id_ = task_manager_->StartTask(tr("Buffering"));
task_manager_->SetTaskProgress(buffering_task_id_, 0, 100);
}
void GstEngine::BufferingProgress(int percent) {
task_manager_->SetTaskProgress(buffering_task_id_, percent, 100);
}
void GstEngine::BufferingFinished() {
if (buffering_task_id_ != -1) {
task_manager_->SetTaskFinished(buffering_task_id_);
buffering_task_id_ = -1;
}
}