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amarok/amarok/src/engine/xine/xine-engine.cpp

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/***************************************************************************
* Copyright (C) 2005 Christophe Thommeret <hftom@free.fr> *
* (C) 2005 Ian Monroe <ian@monroe.nu> *
* (C) 2005,6 Mark Kretschmann <markey@web.de> *
* (C) 2004,5 Max Howell <max.howell@methylblue.com> *
* (C) 2003,4 J. Kofler <kaffeine@gmx.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. *
* *
***************************************************************************/
#define DEBUG_PREFIX "xine-engine"
#include "xine-config.h"
#include "xinecfg.h"
#include "xine-engine.h"
#include "amarok.h"
#include "amarokconfig.h"
//these files are from libamarok
#include "playlist.h"
#include "enginecontroller.h"
AMAROK_EXPORT_PLUGIN( XineEngine )
#include <climits>
#include <cstdlib>
#include <cmath>
#include "debug.h"
#include <klocale.h>
#include <kmessagebox.h>
#include <kstandarddirs.h>
#include <tqapplication.h>
#include <tqdir.h>
extern "C"
{
#include <unistd.h>
#include "xine-scope.h"
}
#ifndef LLONG_MAX
#define LLONG_MAX 9223372036854775807LL
#endif
//define this to use xine in a more standard way
//#define XINE_SAFE_MODE
///some logging static globals
namespace Log
{
static uint bufferCount = 0;
static uint scopeCallCount = 1; //prevent divideByZero
static uint noSuitableBuffer = 0;
}
///returns the configuration we will use. there is no KInstance, so using this hacked up method.
//static inline TQCString configPath() { return TQFile::encodeName(KStandardDirs().localkdedir() + KStandardDirs::kde_default("data") + "amarok/xine-config"); }
static inline TQCString configPath() { return TQFile::encodeName(locate( "data", "amarok/") + "xine-config" ); }
static Fader *s_fader = 0;
static OutFader *s_outfader = 0;
XineEngine::XineEngine()
: EngineBase()
, m_xine( 0 )
, m_stream( 0 )
, m_audioPort( 0 )
, m_eventQueue( 0 )
, m_post( 0 )
, m_preamp( 1.0 )
, m_stopFader( false )
, m_fadeOutRunning ( false )
, m_equalizerEnabled( false )
{
addPluginProperty( "HasConfigure", "true" );
addPluginProperty( "HasEqualizer", "true" );
#ifndef __NetBSD__ // NetBSD does not offer audio mixing
addPluginProperty( "HasCrossfade", "true" );
#endif
addPluginProperty("HasCDDA", "true"); // new property
debug() << "hello" << endl;
}
XineEngine::~XineEngine()
{
// Wait until the fader thread is done
if( s_fader ) {
m_stopFader = true;
s_fader->resume(); // safety call if the engine is in the pause state
s_fader->wait();
}
delete s_fader;
delete s_outfader;
if( AmarokConfig::fadeoutOnExit() ) {
bool terminateFader = false;
fadeOut( AmarokConfig::fadeoutLength(), &terminateFader, true ); // true == exiting
}
if( m_xine ) xine_config_save( m_xine, configPath() );
if( m_stream ) xine_close( m_stream );
if( m_eventQueue ) xine_event_dispose_queue( m_eventQueue );
if( m_stream ) xine_dispose( m_stream );
if( m_audioPort ) xine_close_audio_driver( m_xine, m_audioPort );
if( m_post ) xine_post_dispose( m_xine, m_post );
if( m_xine ) xine_exit( m_xine );
debug() << "xine closed\n";
debug() << "Scope statistics:\n"
<< " Average list size: " << Log::bufferCount / Log::scopeCallCount << endl
<< " Buffer failure: " << double(Log::noSuitableBuffer*100) / Log::scopeCallCount << "%\n";
}
bool
XineEngine::init()
{
DEBUG_BLOCK
debug() << "'Bringing joy to small mexican gerbils, a few weeks at a time.'\n";
m_xine = xine_new();
if( !m_xine ) {
KMessageBox::error( 0, i18n("Amarok could not initialize xine.") );
return false;
}
#ifdef XINE_SAFE_MODE
xine_engine_set_param( m_xine, XINE_ENGINE_PARAM_VERBOSITY, 99 );
#endif
xine_config_load( m_xine, configPath() );
debug() << "w00t" << configPath() << endl;
xine_init( m_xine );
makeNewStream();
#ifndef XINE_SAFE_MODE
startTimer( 200 ); //prunes the scope
#endif
return true;
}
bool
XineEngine::makeNewStream()
{
m_currentAudioPlugin = XineCfg::outputPlugin();
m_audioPort = xine_open_audio_driver( m_xine, XineCfg::outputPlugin().local8Bit(), NULL );
if( !m_audioPort ) {
//TODO make engine method that is the same but parents the dialog for us
KMessageBox::error( 0, i18n("xine was unable to initialize any audio drivers.") );
return false;
}
m_stream = xine_stream_new( m_xine, m_audioPort, NULL );
if( !m_stream ) {
xine_close_audio_driver( m_xine, m_audioPort );
m_audioPort = NULL;
KMessageBox::error( 0, i18n("Amarok could not create a new xine stream.") );
return false;
}
if( m_eventQueue )
xine_event_dispose_queue( m_eventQueue );
xine_event_create_listener_thread(
m_eventQueue = xine_event_new_queue( m_stream ),
&XineEngine::XineEventListener,
(void*)this );
#ifndef XINE_SAFE_MODE
//implemented in xine-scope.h
m_post = scope_plugin_new( m_xine, m_audioPort );
xine_set_param( m_stream, XINE_PARAM_METRONOM_PREBUFFER, 6000 );
xine_set_param( m_stream, XINE_PARAM_IGNORE_VIDEO, 1 );
#endif
#ifdef XINE_PARAM_EARLY_FINISHED_EVENT
if ( xine_check_version(1,1,1) && !(m_xfadeLength > 0) ) {
// enable gapless playback
debug() << "gapless playback enabled." << endl;
//xine_set_param(m_stream, XINE_PARAM_EARLY_FINISHED_EVENT, 1 );
}
#endif
return true;
}
// Makes sure an audio port and a stream exist.
bool
XineEngine::ensureStream()
{
if( !m_stream )
return makeNewStream();
return true;
}
bool
XineEngine::load( const KURL &url, bool isStream )
{
DEBUG_BLOCK
if( !ensureStream() )
return false;
Engine::Base::load( url, isStream );
if( s_outfader ) {
s_outfader->finish();
delete s_outfader;
}
if( m_xfadeLength > 0 && xine_get_status( m_stream ) == XINE_STATUS_PLAY &&
url.isLocalFile() &&
xine_get_param( m_stream, XINE_PARAM_SPEED ) != XINE_SPEED_PAUSE &&
( m_xfadeNextTrack || //set by engine controller when switching tracks automatically
(uint) AmarokConfig::crossfadeType() == 0 || //crossfade always
(uint) AmarokConfig::crossfadeType() == 2 ) ) //crossfade when switching tracks manually
{
m_xfadeNextTrack = false;
// Stop a probably running fader
if( s_fader ) {
m_stopFader = true;
s_fader->finish(); // makes the fader stop abruptly
delete s_fader;
}
s_fader = new Fader( this, m_xfadeLength );
setEqualizerParameters( m_intPreamp, m_equalizerGains );
}
// for users who stubbonly refuse to use DMIX or buy a good soundcard
// why doesn't xine do this? I cannot say.
xine_close( m_stream );
debug() << "Before xine_open() *****" << endl;
if( xine_open( m_stream, TQFile::encodeName( url.url() ) ) )
{
debug() << "After xine_open() *****" << endl;
#ifndef XINE_SAFE_MODE
//we must ensure the scope is pruned of old buffers
timerEvent( 0 );
xine_post_out_t *source = xine_get_audio_source( m_stream );
xine_post_in_t *target = (xine_post_in_t*)xine_post_input( m_post, const_cast<char*>("audio in") );
xine_post_wire( source, target );
#endif
playlistChanged();
return true;
}
else
{
#ifdef XINE_PARAM_GAPLESS_SWITCH
if ( xine_check_version(1,1,1) && !(m_xfadeLength > 0) )
xine_set_param( m_stream, XINE_PARAM_GAPLESS_SWITCH, 0);
#endif
}
// FAILURE to load!
//s_fader will delete itself
determineAndShowErrorMessage();
return false;
}
bool
XineEngine::play( uint offset )
{
DEBUG_BLOCK
if( !ensureStream() )
return false;
const bool has_audio = xine_get_stream_info( m_stream, XINE_STREAM_INFO_HAS_AUDIO );
const bool audio_handled = xine_get_stream_info( m_stream, XINE_STREAM_INFO_AUDIO_HANDLED );
if (has_audio && audio_handled && xine_play( m_stream, 0, offset ))
{
if( s_fader )
s_fader->start( TQThread::LowestPriority );
emit stateChanged( Engine::Playing );
return true;
}
//we need to stop the track that is prepped for crossfade
delete s_fader;
emit stateChanged( Engine::Empty );
determineAndShowErrorMessage();
xine_close( m_stream );
return false;
}
#include "statusbar/statusbar.h"
void
XineEngine::determineAndShowErrorMessage()
{
DEBUG_BLOCK
TQString body;
debug() << "xine_get_error()\n";
switch (xine_get_error( m_stream )) {
case XINE_ERROR_NO_INPUT_PLUGIN:
body = i18n("No suitable input plugin. This often means that the url's protocol is not supported. Network failures are other possible causes.");
break;
case XINE_ERROR_NO_DEMUX_PLUGIN:
body = i18n("No suitable demux plugin. This often means that the file format is not supported.");
break;
case XINE_ERROR_DEMUX_FAILED:
body = i18n("Demuxing failed.");
break;
case XINE_ERROR_INPUT_FAILED:
body = i18n("Could not open file.");
break;
case XINE_ERROR_MALFORMED_MRL:
body = i18n("The location is malformed.");
break;
case XINE_ERROR_NONE:
// xine is thick. xine doesn't think there is an error
// but there may be! We check for other errors below.
default:
if (!xine_get_stream_info( m_stream, XINE_STREAM_INFO_AUDIO_HANDLED ))
{
// xine can read the plugin but it didn't find any codec
// THUS xine=daft for telling us it could handle the format in canDecode!
body = i18n("There is no available decoder.");
TQString const ext = Amarok::extension( m_url.url() ).lower();
if (ext == "mp3" && EngineController::installDistroCodec( "xine-engine" ))
return;
}
else if (!xine_get_stream_info( m_stream, XINE_STREAM_INFO_HAS_AUDIO ))
body = i18n("There is no audio channel!");
break;
}
Amarok::StatusBar::instance()->longMessage(
"<b>" + i18n("Error Loading Media") + "</b><p>" + body + "<p>" + m_url.prettyURL(),
KDE::StatusBar::Error );
}
void
XineEngine::stop()
{
if( s_fader && s_fader->running() )
s_fader->resume(); // safety call if the engine is in the pause state
if ( !m_stream )
return;
if( AmarokConfig::fadeout() && !m_fadeOutRunning || state() == Engine::Paused )
{
s_outfader = new OutFader( this, AmarokConfig::fadeoutLength() );
s_outfader->start();
::usleep( 100 ); //to be sure engine state won't be changed before it is checked in fadeOut()
m_url = KURL(); //to ensure we return Empty from state()
std::fill( m_scope.begin(), m_scope.end(), 0 );
}
else if( !m_fadeOutRunning )
{
xine_stop( m_stream );
xine_close( m_stream );
xine_set_param( m_stream, XINE_PARAM_AUDIO_CLOSE_DEVICE, 1);
}
emit stateChanged( Engine::Empty );
}
void
XineEngine::pause()
{
if ( !m_stream )
return;
if( xine_get_param( m_stream, XINE_PARAM_SPEED ) != XINE_SPEED_PAUSE )
{
if( s_fader && s_fader->running() )
s_fader->pause();
xine_set_param( m_stream, XINE_PARAM_SPEED, XINE_SPEED_PAUSE );
xine_set_param( m_stream, XINE_PARAM_AUDIO_CLOSE_DEVICE, 1);
emit stateChanged( Engine::Paused );
}
}
void
XineEngine::unpause()
{
if ( !m_stream )
return;
if( xine_get_param( m_stream, XINE_PARAM_SPEED ) == XINE_SPEED_PAUSE )
{
if( s_fader && s_fader->running() )
s_fader->resume();
xine_set_param( m_stream, XINE_PARAM_SPEED, XINE_SPEED_NORMAL );
emit stateChanged( Engine::Playing );
}
}
Engine::State
XineEngine::state() const
{
if ( !m_stream || m_fadeOutRunning )
return Engine::Empty;
switch( xine_get_status( m_stream ) )
{
case XINE_STATUS_PLAY: return xine_get_param( m_stream, XINE_PARAM_SPEED ) != XINE_SPEED_PAUSE ? Engine::Playing : Engine::Paused;
case XINE_STATUS_IDLE: return Engine::Empty;
case XINE_STATUS_STOP:
default: return m_url.isEmpty() ? Engine::Empty : Engine::Idle;
}
}
uint
XineEngine::position() const
{
if ( state() == Engine::Empty )
return 0;
int pos;
int time = 0;
int length;
// Workaround for problems when you seek too quickly, see BUG 99808
int tmp = 0, i = 0;
while( ++i < 4 )
{
xine_get_pos_length( m_stream, &pos, &time, &length );
if( time > tmp ) break;
usleep( 100000 );
}
// Here we check for new metadata periodically, because xine does not emit an event
// in all cases (e.g. with ogg streams). See BUG 122505
if ( state() != Engine::Idle && state() != Engine::Empty )
{
const Engine::SimpleMetaBundle bundle = fetchMetaData();
if( bundle.title != m_currentBundle.title || bundle.artist != m_currentBundle.artist ) {
debug() << "Metadata received." << endl;
m_currentBundle = bundle;
XineEngine* p = const_cast<XineEngine*>( this );
p->emit metaData( bundle );
}
}
return time;
}
uint
XineEngine::length() const
{
if ( !m_stream )
return 0;
// xine often delivers nonsense values for VBR files and such, so we only
// use the length for remote files
if( m_url.isLocalFile() )
return 0;
else {
int pos;
int time;
int length = 0;
xine_get_pos_length( m_stream, &pos, &time, &length );
if( length < 0 )
length=0;
return length;
}
}
void
XineEngine::seek( uint ms )
{
if( !ensureStream() )
return;
if( xine_get_param( m_stream, XINE_PARAM_SPEED ) == XINE_SPEED_PAUSE ) {
// FIXME this is a xine API issue really, they need to add a seek function
xine_play( m_stream, 0, (int)ms );
xine_set_param( m_stream, XINE_PARAM_SPEED, XINE_SPEED_PAUSE );
}
else
xine_play( m_stream, 0, (int)ms );
}
void
XineEngine::setVolumeSW( uint vol )
{
if ( !m_stream )
return;
if( !s_fader )
xine_set_param( m_stream, XINE_PARAM_AUDIO_AMP_LEVEL, static_cast<uint>( vol * m_preamp ) );
}
void
XineEngine::fadeOut( uint fadeLength, bool* terminate, bool exiting )
{
if( m_fadeOutRunning ) //Let us not start another fadeout...
return;
m_fadeOutRunning = !m_fadeOutRunning;
const bool isPlaying = m_stream && ( xine_get_status( m_stream ) == XINE_STATUS_PLAY );
const float originalVol = Engine::Base::makeVolumeLogarithmic( m_volume ) * m_preamp;
// On shutdown, limit fadeout to 3 secs max, so that we don't risk getting killed
const int length = exiting ? TQMIN( fadeLength, 3000 ) : fadeLength;
if( length > 0 && isPlaying )
{
// fader-class doesn't work in this spot as is, so some parts need to be copied here... (ugly)
uint stepsCount = length < 1000 ? length / 10 : 100;
uint stepSizeUs = (int)( 1000.0 * (float)length / (float)stepsCount );
::usleep( stepSizeUs );
TQTime t;
t.start();
float mix = 0.0;
while ( mix < 1.0 )
{
if( *terminate ) break;
::usleep( stepSizeUs );
float vol = Engine::Base::makeVolumeLogarithmic( m_volume ) * m_preamp;
float mix = (float)t.elapsed() / (float)length;
if ( mix > 1.0 )
{
break;
}
if ( m_stream )
{
float v = 4.0 * (1.0 - mix) / 3.0;
xine_set_param( m_stream, XINE_PARAM_AUDIO_AMP_LEVEL, (uint)( v < 1.0 ? vol * v : vol ) );
}
}
}
if( m_fadeOutRunning && m_stream )
xine_set_param( m_stream, XINE_PARAM_AUDIO_AMP_LEVEL, (uint) originalVol );
m_fadeOutRunning = !m_fadeOutRunning;
}
void
XineEngine::setEqualizerEnabled( bool enable )
{
if ( !m_stream )
return;
m_equalizerEnabled = enable;
if( !enable ) {
TQValueList<int> gains;
for( uint x = 0; x < 10; x++ )
gains << -101; // sets eq gains to zero.
setEqualizerParameters( 0, gains );
}
}
/*
sets the eq params for xine engine - have to rescale eq params to fitting range (adapted from kaffeine and xfmedia)
preamp
pre: (-100..100)
post: (0.1..1.9) - this is not really a preamp but we use the xine preamp parameter for our normal volume. so we make a postamp.
gains
pre: (-100..100)
post: (1..200) - (1 = down, 100 = middle, 200 = up, 0 = off)
*/
void
XineEngine::setEqualizerParameters( int preamp, const TQValueList<int> &gains )
{
if ( !m_stream )
return;
m_equalizerGains = gains;
m_intPreamp = preamp;
TQValueList<int>::ConstIterator it = gains.begin();
xine_set_param( m_stream, XINE_PARAM_EQ_30HZ, int( (*it )*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_60HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_125HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_250HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_500HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_1000HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_2000HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_4000HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_8000HZ, int( (*++it)*0.995 + 100 ) );
xine_set_param( m_stream, XINE_PARAM_EQ_16000HZ, int( (*++it)*0.995 + 100 ) );
m_preamp = ( preamp - 0.1 * preamp + 100 ) / 100.0;
setVolume( m_volume );
}
bool
XineEngine::canDecode( const KURL &url ) const
{
static TQStringList list;
if(list.isEmpty())
{
char* exts = xine_get_file_extensions( m_xine );
list = TQStringList::split( ' ', exts );
free( exts ); exts = NULL;
//images
list.remove("png");
list.remove("jpg");
list.remove("jpeg");
list.remove("gif");
list.remove("ilbm");
list.remove("iff");
//subtitles
list.remove("asc");
list.remove("txt");
list.remove("sub");
list.remove("srt");
list.remove("smi");
list.remove("ssa");
//HACK we also check for m4a because xine plays them but
//for some reason doesn't return the extension
if(!list.contains("m4a"))
list << "m4a";
}
if (url.protocol() == "cdda")
// play audio CDs pls
return true;
TQString path = url.path();
// partial downloads from Konqi and other browsers
// tend to have a .part extension
if (path.endsWith( ".part" ))
path = path.left( path.length() - 5 );
const TQString ext = path.mid( path.findRev( '.' ) + 1 ).lower();
return list.contains( ext );
}
const Engine::Scope&
XineEngine::scope()
{
if( !m_post || !m_stream || xine_get_status( m_stream ) != XINE_STATUS_PLAY )
return m_scope;
MyNode* const myList = scope_plugin_list( m_post );
metronom_t* const myMetronom = scope_plugin_metronom( m_post );
const int myChannels = scope_plugin_channels( m_post );
int scopeidx = 0;
if (myChannels > 2)
return m_scope;
//prune the buffer list and update m_currentVpts
timerEvent( 0 );
for( int n, frame = 0; frame < 512; )
{
MyNode *best_node = 0;
for( MyNode *node = myList->next; node != myList; node = node->next, Log::bufferCount++ )
if( node->vpts <= m_currentVpts && (!best_node || node->vpts > best_node->vpts) )
best_node = node;
if( !best_node || best_node->vpts_end < m_currentVpts ) {
Log::noSuitableBuffer++; break; }
int64_t
diff = m_currentVpts;
diff -= best_node->vpts;
diff *= 1<<16;
diff /= myMetronom->pts_per_smpls;
const int16_t*
data16 = best_node->mem;
data16 += diff;
diff += diff % myChannels; //important correction to ensure we don't overflow the buffer
diff /= myChannels; //use units of frames, not samples
//calculate the number of available samples in this buffer
n = best_node->num_frames;
n -= diff;
n += frame; //clipping for # of frames we need
if( n > 512 )
n = 512; //we don't want more than 512 frames
for( int a, c; frame < n; ++frame, data16 += myChannels ) {
for( a = c = 0; c < myChannels; ++c )
{
// we now give interleaved pcm to the scope
m_scope[scopeidx++] = data16[c];
if (myChannels == 1) // duplicate mono samples
m_scope[scopeidx++] = data16[c];
}
}
m_currentVpts = best_node->vpts_end;
m_currentVpts++; //FIXME needs to be done for some reason, or you get situations where it uses same buffer again and again
}
Log::scopeCallCount++;
return m_scope;
}
void
XineEngine::timerEvent( TQTimerEvent* )
{
if ( !m_stream )
return;
//here we prune the buffer list regularly
MyNode *myList = scope_plugin_list( m_post );
if ( ! myList ) return;
//we operate on a subset of the list for thread-safety
MyNode * const first_node = myList->next;
MyNode const * const list_end = myList;
m_currentVpts = (xine_get_status( m_stream ) == XINE_STATUS_PLAY)
? xine_get_current_vpts( m_stream )
: LLONG_MAX; //if state is not playing OR paused, empty the list
//: std::numeric_limits<int64_t>::max(); //TODO don't support crappy gcc 2.95
for( MyNode *prev = first_node, *node = first_node->next; node != list_end; node = node->next )
{
//we never delete first_node
//this maintains thread-safety
if( node->vpts_end < m_currentVpts ) {
prev->next = node->next;
free( node->mem );
free( node );
node = prev;
}
prev = node;
}
}
Amarok::PluginConfig*
XineEngine::configure() const
{
XineConfigDialog* xcf = new XineConfigDialog( m_xine );
connect(xcf, TQT_SIGNAL( settingsSaved() ), this, TQT_SLOT( configChanged() ));
connect(this, TQT_SIGNAL( resetConfig(xine_t*) ), xcf, TQT_SLOT( reset(xine_t*) ));
return xcf;
}
void
XineEngine::customEvent( TQCustomEvent *e )
{
#define message static_cast<TQString*>(e->data())
switch( e->type() )
{
case 3000: //XINE_EVENT_UI_PLAYBACK_FINISHED
emit trackEnded();
break;
case 3001:
emit infoMessage( (*message).arg( m_url.prettyURL() ) );
delete message;
break;
case 3002:
emit statusText( *message );
delete message;
break;
case 3003: { //meta info has changed
debug() << "Metadata received." << endl;
const Engine::SimpleMetaBundle bundle = fetchMetaData();
m_currentBundle = bundle;
emit metaData( bundle );
} break;
case 3004:
emit statusText( i18n("Redirecting to: ").arg( *message ) );
load( KURL( *message ), false );
play();
delete message;
break;
case 3005:
emit lastFmTrackChange();
break;
default:
;
}
#undef message
}
//SLOT
void XineEngine::configChanged()
{
//reset xine to load new audio plugin
if( m_currentAudioPlugin != XineCfg::outputPlugin() )
{
stop();
xine_config_save( m_xine, configPath() );
if( m_stream ) xine_close( m_stream );
if( m_eventQueue ) xine_event_dispose_queue( m_eventQueue );
m_eventQueue = NULL;
if( m_stream ) xine_dispose( m_stream );
m_stream = NULL;
if( m_audioPort ) xine_close_audio_driver( m_xine, m_audioPort );
m_audioPort = NULL;
if( m_post ) xine_post_dispose( m_xine, m_post );
m_post = NULL;
if( m_xine ) xine_exit( m_xine );
m_xine = NULL;
init();
setEqualizerEnabled( m_equalizerEnabled );
if( m_equalizerEnabled )
setEqualizerParameters( m_intPreamp, m_equalizerGains );
emit resetConfig(m_xine);
}
}
//SLOT
void
XineEngine::playlistChanged()
{
#ifdef XINE_PARAM_EARLY_FINISHED_EVENT
#ifdef XINE_PARAM_GAPLESS_SWITCH
if ( xine_check_version(1,1,1) && !(m_xfadeLength > 0)
&& m_url.isLocalFile() && Playlist::instance()->isTrackAfter() )
{
xine_set_param(m_stream, XINE_PARAM_EARLY_FINISHED_EVENT, 1 );
debug() << "XINE_PARAM_EARLY_FINISHED_EVENT enabled" << endl;
}
else
{
//we don't want an early finish event if there is no track after the current one
xine_set_param(m_stream, XINE_PARAM_EARLY_FINISHED_EVENT, 0 );
debug() << "XINE_PARAM_EARLY_FINISHED_EVENT disabled" << endl;
}
#endif
#endif
}
static time_t last_error_time = 0; // hysteresis on xine errors
static int last_error = XINE_MSG_NO_ERROR;
void
XineEngine::XineEventListener( void *p, const xine_event_t* xineEvent )
{
time_t current;
if( !p ) return;
#define xe static_cast<XineEngine*>(p)
switch( xineEvent->type )
{
case XINE_EVENT_UI_SET_TITLE:
debug() << "XINE_EVENT_UI_SET_TITLE\n";
TQApplication::postEvent( xe, new TQCustomEvent( 3003 ) );
break;
case XINE_EVENT_UI_PLAYBACK_FINISHED:
debug() << "XINE_EVENT_UI_PLAYBACK_FINISHED\n";
#ifdef XINE_PARAM_GAPLESS_SWITCH
if ( xine_check_version(1,1,1) && xe->m_url.isLocalFile() //Remote media break with gapless
//don't prepare for a track that isn't coming
&& Playlist::instance()
&& Playlist::instance()->isTrackAfter()
&& !AmarokConfig::crossfade() )
xine_set_param( xe->m_stream, XINE_PARAM_GAPLESS_SWITCH, 1);
#endif
//emit signal from GUI thread
TQApplication::postEvent( xe, new TQCustomEvent(3000) );
break;
case XINE_EVENT_PROGRESS: {
xine_progress_data_t* pd = (xine_progress_data_t*)xineEvent->data;
TQString
msg = "%1 %2%";
msg = msg.arg( TQString::fromUtf8( pd->description ) )
.arg( KGlobal::locale()->formatNumber( pd->percent, 0 ) );
TQCustomEvent *e = new TQCustomEvent( 3002 );
e->setData( new TQString( msg ) );
TQApplication::postEvent( xe, e );
} break;
case XINE_EVENT_MRL_REFERENCE: {
/// xine has read the stream and found it actually links to something else
/// so we need to play that instead
TQString message = TQString::fromUtf8( static_cast<xine_mrl_reference_data_t*>(xineEvent->data)->mrl );
TQCustomEvent *e = new TQCustomEvent( 3004 );
e->setData( new TQString( message ) );
TQApplication::postEvent( xe, e );
} break;
case XINE_EVENT_UI_MESSAGE:
{
debug() << "message received from xine\n";
xine_ui_message_data_t *data = (xine_ui_message_data_t *)xineEvent->data;
TQString message;
switch( data->type )
{
case XINE_MSG_NO_ERROR:
{
//series of \0 separated strings, terminated with a \0\0
char str[2000];
char *p = str;
for( char *msg = data->messages; !(*msg == '\0' && *(msg+1) == '\0'); ++msg, ++p )
*p = *msg == '\0' ? '\n' : *msg;
*p = '\0';
debug() << str << endl;
break;
}
case XINE_MSG_ENCRYPTED_SOURCE:
break;
case XINE_MSG_UNKNOWN_HOST:
message = i18n("The host is unknown for the URL: <i>%1</i>"); goto param;
case XINE_MSG_UNKNOWN_DEVICE:
message = i18n("The device name you specified seems invalid.<br>%1"); goto param;
case XINE_MSG_NETWORK_UNREACHABLE:
message = i18n("The network appears unreachable.<br>%1"); goto param;
case XINE_MSG_AUDIO_OUT_UNAVAILABLE:
message = i18n("Audio output unavailable; the device is busy.<br>%1"); goto param;
case XINE_MSG_CONNECTION_REFUSED:
message = i18n("The connection was refused for the URL: <i>%1</i>"); goto param;
case XINE_MSG_FILE_NOT_FOUND:
message = i18n("xine could not find the URL: <i>%1</i>"); goto param;
case XINE_MSG_PERMISSION_ERROR:
message = i18n("Access was denied for the URL: <i>%1</i>"); goto param;
case XINE_MSG_READ_ERROR:
message = i18n("The source cannot be read for the URL: <i>%1</i>"); goto param;
case XINE_MSG_LIBRARY_LOAD_ERROR:
message = i18n("A problem occurred while loading a library or decoder.<br>%1"); goto param;
case XINE_MSG_GENERAL_WARNING:
message = i18n("General Warning"); goto explain;
case XINE_MSG_SECURITY:
message = i18n("Security Warning"); goto explain;
default:
message = i18n("Unknown Error"); goto explain;
explain:
// Don't flood the user with error messages
if( (last_error_time + 10) > time( &current ) &&
data->type == last_error )
{
last_error_time = current;
return;
}
last_error_time = current;
last_error = data->type;
if( data->explanation )
{
message.prepend( "<b>" );
message += "</b>:<p>";
message += TQString::fromUtf8( (char*)data + data->explanation );
}
else break; //if no explanation then why bother!
//FALL THROUGH
param:
// Don't flood the user with error messages
if((last_error_time + 10) > time(&current) &&
data->type == last_error)
{
last_error_time = current;
return;
}
last_error_time = current;
last_error = data->type;
message.prepend( "<p>" );
message += "<p>";
if(data->explanation)
{
message += "xine parameters: <i>";
message += TQString::fromUtf8( (char*)data + data->parameters );
message += "</i>";
}
else message += i18n("Sorry, no additional information is available.");
TQApplication::postEvent( xe, new TQCustomEvent(TQEvent::Type(3001), new TQString(message)) );
}
} //case
case XINE_EVENT_UI_CHANNELS_CHANGED: //Flameeyes used this for last.fm track changes
TQApplication::postEvent( xe, new TQCustomEvent(TQEvent::Type(3005) ) );
break;
} //switch
#undef xe
}
Engine::SimpleMetaBundle
XineEngine::fetchMetaData() const
{
Engine::SimpleMetaBundle bundle;
bundle.title = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_TITLE ) );
bundle.artist = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_ARTIST ) );
bundle.album = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_ALBUM ) );
bundle.comment = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_COMMENT ) );
bundle.genre = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_GENRE ) );
bundle.bitrate = TQString::number( xine_get_stream_info( m_stream, XINE_STREAM_INFO_AUDIO_BITRATE ) / 1000 );
bundle.samplerate = TQString::number( xine_get_stream_info( m_stream, XINE_STREAM_INFO_AUDIO_SAMPLERATE ) );
bundle.year = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_YEAR ) );
bundle.tracknr = TQString::fromUtf8( xine_get_meta_info( m_stream, XINE_META_INFO_TRACK_NUMBER ) );
return bundle;
}
bool XineEngine::metaDataForUrl(const KURL &url, Engine::SimpleMetaBundle &b)
{
bool result = false;
xine_stream_t* tmpstream = xine_stream_new(m_xine, NULL, NULL);
if (xine_open(tmpstream, TQFile::encodeName(url.url()))) {
TQString audioCodec = TQString::fromUtf8(xine_get_meta_info(tmpstream, XINE_META_INFO_SYSTEMLAYER));
if (audioCodec == "CDDA") {
TQString title = TQString::fromUtf8(
xine_get_meta_info(tmpstream, XINE_META_INFO_TITLE));
if ((!title.isNull()) && (!title.isEmpty())) { //no meta info
b.title = title;
b.artist =
TQString::fromUtf8(
xine_get_meta_info(tmpstream, XINE_META_INFO_ARTIST));
b.album =
TQString::fromUtf8(
xine_get_meta_info(tmpstream, XINE_META_INFO_ALBUM));
b.genre =
TQString::fromUtf8(
xine_get_meta_info(tmpstream, XINE_META_INFO_GENRE));
b.year =
TQString::fromUtf8(
xine_get_meta_info(tmpstream, XINE_META_INFO_YEAR));
b.tracknr =
TQString::fromUtf8(
xine_get_meta_info(tmpstream, XINE_META_INFO_TRACK_NUMBER));
if( b.tracknr.isEmpty() )
b.tracknr = url.filename();
} else {
b.title = TQString(i18n("Track %1")).arg(url.filename());
b.album = i18n("AudioCD");
}
}
if (audioCodec == "CDDA" || audioCodec == "WAV") {
result = true;
int samplerate = xine_get_stream_info( tmpstream, XINE_STREAM_INFO_AUDIO_SAMPLERATE );
// xine would provide a XINE_STREAM_INFO_AUDIO_BITRATE, but unfortunately not for CDDA or WAV
// so we calculate the bitrate by our own
int bitsPerSample = xine_get_stream_info( tmpstream, XINE_STREAM_INFO_AUDIO_BITS );
int nbrChannels = xine_get_stream_info( tmpstream, XINE_STREAM_INFO_AUDIO_CHANNELS );
int bitrate = (samplerate * bitsPerSample * nbrChannels) / 1000;
b.bitrate = TQString::number(bitrate);
b.samplerate = TQString::number(samplerate);
int pos, time, length = 0;
xine_get_pos_length(tmpstream, &pos, &time, &length);
b.length = TQString::number(length / 1000);
}
xine_close(tmpstream);
}
xine_dispose(tmpstream);
return result;
}
bool XineEngine::getAudioCDContents(const TQString &device, KURL::List &urls)
{
char **xine_urls = NULL;
int num;
int i = 0;
if (!device.isNull()) {
debug() << "xine-engine setting CD Device to: " << device << endl;
xine_cfg_entry_t config;
if (!xine_config_lookup_entry(m_xine, "input.cdda_device", &config)) {
emit statusText(i18n("Failed CD device lookup in xine engine"));
return false;
}
config.str_value = (char *)device.latin1();
xine_config_update_entry(m_xine, &config);
}
emit statusText(i18n("Getting AudioCD contents..."));
xine_urls = xine_get_autoplay_mrls(m_xine, "CD", &num);
if (xine_urls) {
while (xine_urls[i]) {
urls << KURL(xine_urls[i]);
++i;
}
}
else emit statusText(i18n("Could not read AudioCD"));
return true;
}
bool XineEngine::flushBuffer()
{
return false;
}
bool XineEngine::lastFmProxyRequired()
{
return !( xine_check_version(1,1,9) );
}
//////////////////////////////////////////////////////////////////////////////
/// class Fader
//////////////////////////////////////////////////////////////////////////////
Fader::Fader( XineEngine *engine, uint fadeMs )
: TQObject( engine )
, TQThread()
, m_engine( engine )
, m_xine( engine->m_xine )
, m_decrease( engine->m_stream )
, m_increase( 0 )
, m_port( engine->m_audioPort )
, m_post( engine->m_post )
, m_fadeLength( fadeMs )
, m_paused( false )
, m_terminated( false )
{
DEBUG_BLOCK
if( engine->makeNewStream() )
{
m_increase = engine->m_stream;
xine_set_param( m_increase, XINE_PARAM_AUDIO_AMP_LEVEL, 0 );
}
else {
s_fader = 0;
deleteLater();
}
}
Fader::~Fader()
{
DEBUG_BLOCK
wait();
xine_close( m_decrease );
xine_dispose( m_decrease );
xine_close_audio_driver( m_xine, m_port );
if( m_post ) xine_post_dispose( m_xine, m_post );
if( !m_engine->m_stopFader )
m_engine->setVolume( m_engine->volume() );
m_engine->m_stopFader = false;
s_fader = 0;
}
void
Fader::run()
{
DEBUG_BLOCK
// do a volume change in 100 steps (or every 10ms)
uint stepsCount = m_fadeLength < 1000 ? m_fadeLength / 10 : 100;
uint stepSizeUs = (int)( 1000.0 * (float)m_fadeLength / (float)stepsCount );
float mix = 0.0;
float elapsedUs = 0.0;
while ( mix < 1.0 )
{
if ( m_terminated )
break;
// sleep a constant amount of time
TQThread::usleep( stepSizeUs );
if ( m_paused )
continue;
elapsedUs += stepSizeUs;
// get volume (amarok main * equalizer preamp)
float vol = Engine::Base::makeVolumeLogarithmic( m_engine->m_volume ) * m_engine->m_preamp;
// compute the mix factor as the percentage of time spent since fade begun
float mix = (elapsedUs / 1000.0) / (float)m_fadeLength;
if ( mix > 1.0 )
{
if ( m_increase )
xine_set_param( m_increase, XINE_PARAM_AUDIO_AMP_LEVEL, (uint)vol );
break;
}
// change volume of streams (using dj-like cross-fade profile)
if ( m_decrease )
{
//xine_set_param( m_decrease, XINE_PARAM_AUDIO_AMP_LEVEL, (uint)(vol * (1.0 - mix)) ); // linear
float v = 4.0 * (1.0 - mix) / 3.0;
xine_set_param( m_decrease, XINE_PARAM_AUDIO_AMP_LEVEL, (uint)( v < 1.0 ? vol * v : vol ) );
}
if ( m_increase )
{
//xine_set_param( m_increase, XINE_PARAM_AUDIO_AMP_LEVEL, (uint)(vol * mix) ); //linear
float v = 4.0 * mix / 3.0;
xine_set_param( m_increase, XINE_PARAM_AUDIO_AMP_LEVEL, (uint)( v < 1.0 ? vol * v : vol ) );
}
}
//stop using cpu!
xine_stop( m_decrease );
deleteLater();
}
void
Fader::pause()
{
m_paused = true;
}
void
Fader::resume()
{
m_paused = false;
}
void
Fader::finish()
{
DEBUG_BLOCK
m_terminated = true;
}
//////////////////////////////////////////////////////////////////////////////
/// class OutFader
//////////////////////////////////////////////////////////////////////////////
OutFader::OutFader( XineEngine *engine, uint fadeLength )
: TQObject( engine )
, TQThread()
, m_engine( engine )
, m_terminated( false )
, m_fadeLength( fadeLength )
{
DEBUG_BLOCK
}
OutFader::~OutFader()
{
DEBUG_BLOCK
wait();
s_outfader = 0;
}
void
OutFader::run()
{
DEBUG_BLOCK
m_engine->fadeOut( m_fadeLength, &m_terminated );
xine_stop( m_engine->m_stream );
xine_close( m_engine->m_stream );
xine_set_param( m_engine->m_stream, XINE_PARAM_AUDIO_CLOSE_DEVICE, 1);
deleteLater();
}
void
OutFader::finish()
{
DEBUG_BLOCK
m_terminated = true;
}
#include "xine-engine.moc"
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