void JackAudioDriver::makeTrackOutputs( Song* pSong )
{
// Only execute the body of this function if a per-track
// creation of the output ports is desired.
if( Preferences::get_instance()->m_bJackTrackOuts == false )
return;
InstrumentList * pInstruments = pSong->get_instrument_list();
Instrument * pInstr;
int nInstruments = ( int ) pInstruments->size();
// create dedicated channel output ports
WARNINGLOG( QString( "Creating / renaming %1 ports" ).arg( nInstruments ) );
int nTrackCount = 0;
// Resets the `track_map' matrix.
for( int i = 0 ; i < MAX_INSTRUMENTS ; i++ ){
for ( int j = 0 ; j < MAX_COMPONENTS ; j++ ){
track_map[i][j] = 0;
}
}
// Creates a new output track or reassigns an existing one for
// each component of each instrument and stores the result in
// the `track_map'.
for ( int n = 0; n <= nInstruments - 1; n++ ) {
pInstr = pInstruments->get( n );
for (std::vector<InstrumentComponent*>::iterator it = pInstr->get_components()->begin() ; it != pInstr->get_components()->end(); ++it) {
InstrumentComponent* pCompo = *it;
setTrackOutput( nTrackCount, pInstr, pCompo, pSong);
track_map[pInstr->get_id()][pCompo->get_drumkit_componentID()] = nTrackCount;
nTrackCount++;
}
}
// clean up unused ports
jack_port_t *p_L, *p_R;
for ( int n = nTrackCount; n < track_port_count; n++ ) {
p_L = track_output_ports_L[n];
p_R = track_output_ports_R[n];
track_output_ports_L[n] = 0;
jack_port_unregister( m_pClient, p_L );
track_output_ports_R[n] = 0;
jack_port_unregister( m_pClient, p_R );
}
track_port_count = nTrackCount;
}
/**
* Make sure the number of track outputs match the instruments in @a song , and name the ports.
*/
void JackOutput::makeTrackOutputs( Song * song )
{
/// Disable Track Outputs
if( Preferences::get_instance()->m_bJackTrackOuts == false )
return;
///
InstrumentList * instruments = song->get_instrument_list();
Instrument * instr;
int nInstruments = ( int )instruments->size();
// create dedicated channel output ports
WARNINGLOG( QString( "Creating / renaming %1 ports" ).arg( nInstruments ) );
int p_trackCount = 0;
for( int i = 0 ; i < MAX_INSTRUMENTS ; i++ ){
for ( int j = 0 ; j < MAX_COMPONENTS ; j++ ){
track_map[i][j] = 0;
}
}
for ( int n = nInstruments - 1; n >= 0; n-- ) {
instr = instruments->get( n );
for (std::vector<InstrumentComponent*>::iterator it = instr->get_components()->begin() ; it != instr->get_components()->end(); ++it) {
InstrumentComponent* pCompo = *it;
setTrackOutput( p_trackCount, instr , pCompo, song);
track_map[instr->get_id()][pCompo->get_drumkit_componentID()] = p_trackCount;
p_trackCount++;
}
}
// clean up unused ports
jack_port_t *p_L, *p_R;
for ( int n = p_trackCount; n < track_port_count; n++ ) {
p_L = track_output_ports_L[n];
p_R = track_output_ports_R[n];
track_output_ports_L[n] = 0;
jack_port_unregister( client, p_L );
track_output_ports_R[n] = 0;
jack_port_unregister( client, p_R );
}
track_port_count = p_trackCount;
}
