+// sample_group.cxx -- Manage a group of samples relative to a base position
+//
+// Written for the new SoundSystem by Erik Hofman, October 2009
+//
+// Copyright (C) 2009 Erik Hofman <erik@ehofman.com>
+//
+// 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 Street, Fifth Floor, Boston, MA 02110-1301, USA.
+//
+// $Id$
+
#ifdef HAVE_CONFIG_H
# include <simgear_config.h>
#endif
SGSampleGroup::SGSampleGroup () :
_smgr(NULL),
+ _refname(""),
_active(false),
- _changed(true),
- _position_changed(true),
- _position(SGVec3d::zeros().data()),
- _orientation(SGVec3f::zeros().data())
+ _pause(false),
+ _tied_to_listener(false),
+ _velocity(SGVec3d::zeros()),
+ _orientation(SGQuatd::zeros()),
+ _position(SGGeod())
{
_samples.clear();
}
SGSampleGroup::SGSampleGroup ( SGSoundMgr *smgr, const string &refname ) :
_smgr(smgr),
+ _refname(refname),
_active(false),
- _changed(true),
- _position_changed(true),
- _position(SGVec3d::zeros().data()),
- _orientation(SGVec3f::zeros().data())
+ _pause(false),
+ _tied_to_listener(false),
+ _velocity(SGVec3d::zeros()),
+ _orientation(SGQuatd::zeros()),
+ _position(SGGeod())
{
_smgr->add(this, refname);
- _active = _smgr->is_working();
_samples.clear();
}
if ( sample->is_valid_source() && sample->is_playing() ) {
sample->no_valid_source();
_smgr->release_source( sample->get_source() );
+ _smgr->release_buffer( sample );
}
}
void SGSampleGroup::update( double dt ) {
- if ( !_active ) return;
+ if ( !_active || _pause ) return;
+
+ testForALError("start of update!!\n");
- // testForALError("start of update!!\n");
+ // Delete any OpenAL buffers that might still be in use.
+ unsigned int size = _removed_samples.size();
+ for (unsigned int i=0; i<size; ) {
+ SGSoundSample *sample = _removed_samples[i];
+ ALint result;
+
+ alGetSourcei( sample->get_source(), AL_SOURCE_STATE, &result );
+ if ( result == AL_STOPPED ) {
+ ALuint buffer = sample->get_buffer();
+ alDeleteBuffers( 1, &buffer );
+ testForALError("buffer remove");
+ _removed_samples.erase( _removed_samples.begin()+i );
+ size--;
+ continue;
+ }
+ i++;
+ }
sample_map_iterator sample_current = _samples.begin();
sample_map_iterator sample_end = _samples.end();
//
// a request to start playing a sound has been filed.
//
- ALboolean looping = sample->get_looping() ? AL_TRUE : AL_FALSE;
-
- if ( !sample->is_valid_buffer() ) {
- // sample was not yet loaded or removed again
-
-// TODO: Create a buffer cache that checks whether a file is already present
-// as an OpenAL buffer since buffers can be shared among sources.
- load_file(sample);
- if ( testForALError("load sample") ) {
- throw sg_exception("Failed to load sound sample.");
- continue;
- }
-
- // create an OpenAL buffer handle
- ALuint buffer;
- alGenBuffers(1, &buffer);
- if ( testForALError("generate buffer") ) {
- throw sg_exception("Failed to generate OpenAL buffer.");
- continue;
- }
-
- // Copy data to the internal OpenAL buffer
- const ALvoid *data = sample->get_data();
- ALenum format = sample->get_format();
- ALsizei size = sample->get_size();
- ALsizei freq = sample->get_frequency();
- alBufferData( buffer, format, data, size, freq );
- sample->free_data();
- if ( testForALError("buffer add data") ) {
- continue;
- }
-
- sample->set_buffer(buffer);
- }
+ if ( _smgr->request_buffer(sample) == SGSoundMgr::NO_BUFFER )
+ continue;
// start playing the sample
ALuint buffer = sample->get_buffer();
sample->set_source( source );
update_sample_config( sample );
- alSourcei( source, AL_SOURCE_RELATIVE, AL_FALSE );
+ ALboolean looping = sample->get_looping() ? AL_TRUE : AL_FALSE;
alSourcei( source, AL_LOOPING, looping );
+ alSourcef( source, AL_ROLLOFF_FACTOR, 1.0 );
+ alSourcei( source, AL_SOURCE_RELATIVE, AL_FALSE );
alSourcePlay( source );
testForALError("sample play");
} else {
if ( !sample->is_playing() ) {
// a request to stop playing the sound has been filed.
- sample->no_valid_source();
sample->stop();
+ sample->no_valid_source();
_smgr->release_source( sample->get_source() );
} else {
update_sample_config( sample );
alGetSourcei( source, AL_SOURCE_STATE, &result );
if ( result == AL_STOPPED ) {
// sample is stoped because it wasn't looping
- sample->no_valid_source();
sample->stop();
+ sample->no_valid_source();
_smgr->release_source( source );
-
+ _smgr->release_buffer( sample );
}
}
testForALError("update");
return false;
}
+ if ( sample_it->second->is_valid_buffer() )
+ _removed_samples.push_back( sample_it->second );
_samples.erase( sample_it );
+
return true;
}
void
SGSampleGroup::suspend ()
{
- _active = false;
+ _pause = true;
sample_map_iterator sample_current = _samples.begin();
sample_map_iterator sample_end = _samples.end();
for ( ; sample_current != sample_end; ++sample_current ) {
SGSoundSample *sample = sample_current->second;
if ( sample->is_valid_source() && sample->is_playing() ) {
- unsigned int source = sample->get_source();
- alSourcePause( source );
+ alSourcePause( sample->get_source() );
}
}
testForALError("suspend");
SGSoundSample *sample = sample_current->second;
if ( sample->is_valid_source() && sample->is_playing() ) {
- unsigned int source = sample->get_source();
- alSourcePlay( source );
+ alSourcePlay( sample->get_source() );
}
}
testForALError("resume");
- _active = true;
+ _pause = false;
}
return true;
}
-
-// set source position of all managed sounds
-void SGSampleGroup::set_position( SGVec3d pos ) {
- if ( isnan(pos.data()[0]) || isnan(pos.data()[1]) || isnan(pos.data()[2]) )
+// set source velocity of all managed sounds
+void SGSampleGroup::set_velocity( const SGVec3d &vel ) {
+ if ( isnan(vel[0]) || isnan(vel[1]) || isnan(vel[2]) )
{
- SG_LOG( SG_GENERAL, SG_ALERT, "NAN's found in SampleGroup postion");
+ SG_LOG( SG_GENERAL, SG_ALERT, "NAN's found in SampleGroup velocity");
return;
}
- sample_map_iterator sample_current = _samples.begin();
- sample_map_iterator sample_end = _samples.end();
- for ( ; sample_current != sample_end; ++sample_current ) {
- SGSoundSample *sample = sample_current->second;
- sample->set_base_position( pos );
+ if (_velocity != vel) {
+ sample_map_iterator sample_current = _samples.begin();
+ sample_map_iterator sample_end = _samples.end();
+ for ( ; sample_current != sample_end; ++sample_current ) {
+ SGSoundSample *sample = sample_current->second;
+ sample->set_velocity( vel );
+ }
+ _velocity = vel;
}
}
-// set source velocity of all managed sounds
-void SGSampleGroup::set_velocity( SGVec3f vel ) {
- if ( isnan(vel.data()[0]) || isnan(vel.data()[1]) || isnan(vel.data()[2]) )
- {
- SG_LOG( SG_GENERAL, SG_ALERT, "NAN's found in SampleGroup velocity");
- return;
- }
+// set the source position of all managed sounds
+void SGSampleGroup::set_position( const SGGeod& pos ) {
sample_map_iterator sample_current = _samples.begin();
sample_map_iterator sample_end = _samples.end();
for ( ; sample_current != sample_end; ++sample_current ) {
SGSoundSample *sample = sample_current->second;
- sample->set_velocity( vel );
+ sample->set_position( pos );
}
+ _position = pos;
}
-// ste the source orientation of all managed sounds
-void SGSampleGroup::set_orientation( SGVec3f ori ) {
- if ( isnan(ori.data()[0]) || isnan(ori.data()[1]) || isnan(ori.data()[2]) )
- {
- SG_LOG( SG_GENERAL, SG_ALERT, "NAN's found in SampleGroup orientation");
- return;
+
+// set the source orientation of all managed sounds
+void SGSampleGroup::set_orientation( const SGQuatd& ori ) {
+
+ if (_orientation != ori) {
+ sample_map_iterator sample_current = _samples.begin();
+ sample_map_iterator sample_end = _samples.end();
+ for ( ; sample_current != sample_end; ++sample_current ) {
+ SGSoundSample *sample = sample_current->second;
+ sample->set_orientation( ori );
+ }
+ _orientation = ori;
}
+}
+
+void SGSampleGroup::set_volume( float vol )
+{
+ _volume = vol;
+ if (_volume < 0.0) _volume = 0.0;
+ if (_volume > 1.0) _volume = 1.0;
sample_map_iterator sample_current = _samples.begin();
sample_map_iterator sample_end = _samples.end();
for ( ; sample_current != sample_end; ++sample_current ) {
SGSoundSample *sample = sample_current->second;
- sample->set_orientation( ori );
+ sample->set_master_volume( _volume );
}
}
if ( sample->is_valid_source() ) {
unsigned int source = sample->get_source();
- alSourcefv( source, AL_POSITION, sample->get_position());
- alSourcefv( source, AL_DIRECTION, sample->get_direction() );
- alSourcefv( source, AL_VELOCITY, sample->get_velocity() );
+#if 0
+ if ( _tied_to_listener && _smgr->has_changed() ) {
+ alSourcefv( source, AL_POSITION, _smgr->get_position().data() );
+ alSourcefv( source, AL_DIRECTION, _smgr->get_direction().data() );
+ alSourcefv( source, AL_VELOCITY, _smgr->get_velocity().data() );
+ } else {
+ alSourcefv( source, AL_POSITION, sample->get_position() );
+ alSourcefv( source, AL_DIRECTION, sample->get_orientation() );
+ alSourcefv( source, AL_VELOCITY, sample->get_velocity() );
+ }
+#else
+ alSourcefv( source, AL_POSITION, SGVec3f::zeros().data() );
+ alSourcefv( source, AL_DIRECTION, SGVec3f::zeros().data() );
+ alSourcefv( source, AL_VELOCITY, SGVec3f::zeros().data() );
+#endif
testForALError("position and orientation");
alSourcef( source, AL_PITCH, sample->get_pitch() );
testForALError("pitch and gain");
if ( sample->has_static_data_changed() ) {
+#if 0
alSourcef( source, AL_CONE_INNER_ANGLE, sample->get_innerangle() );
alSourcef( source, AL_CONE_OUTER_ANGLE, sample->get_outerangle() );
alSourcef( source, AL_CONE_OUTER_GAIN, sample->get_outergain() );
+#endif
testForALError("audio cone");
- alSourcef( source, AL_ROLLOFF_FACTOR, 1.0 );
alSourcef( source, AL_MAX_DISTANCE, sample->get_max_dist() );
alSourcef( source, AL_REFERENCE_DISTANCE,
sample->get_reference_dist() );
}
}
-ALvoid
-SGSampleGroup::load_file(SGSoundSample *sample) {
- if (sample->is_file()) {
- unsigned int size;
- int freq, format;
- void *data;
-
- string sample_name = sample->get_sample_name();
- _smgr->load(sample_name, &data, &format, &size, &freq);
-
- sample->set_data( (unsigned char *)data );
- sample->set_frequency( freq );
- sample->set_format( format );
- sample->set_size( size );
- }
-}
-
-void SGSampleGroup::set_volume( float vol )
-{
- _volume = vol;
- if (_volume < 0.0) _volume = 0.0;
- if (_volume > 1.0) _volume = 1.0;
-
- sample_map_iterator sample_current = _samples.begin();
- sample_map_iterator sample_end = _samples.end();
- for ( ; sample_current != sample_end; ++sample_current ) {
- SGSoundSample *sample = sample_current->second;
- sample->set_master_volume( _volume );
- }
-}
-
bool SGSampleGroup::testForError(void *p, string s)
{
if (p == NULL) {
{
ALenum error = alGetError();
if (error != AL_NO_ERROR) {
- SG_LOG( SG_GENERAL, SG_ALERT, "AL Error (sample group): "
+ SG_LOG( SG_GENERAL, SG_ALERT, "AL Error (" << _refname << "): "
<< alGetString(error) << " at " << s);
return true;
}