int AdvancedSequencer::FindFirstChannelOnTrack ( int trk )
{
    if ( !file_loaded )
    {
        return -1;
    }

    int first_channel = -1;
    MIDITrack *t = tracks.GetTrack ( trk );

    if ( t )
    {
        // go through all events
        // until we find a channel message
        // and then return the channel number plus 1
        for ( int i = 0; i < t->GetNumEvents(); ++i )
        {
            MIDITimedBigMessage *m = t->GetEventAddress ( i );

            if ( m )
            {
                if ( m->IsChannelMsg() )
                {
                    first_channel = m->GetChannel() + 1;
                    break;
                }
            }
        }
    }

    return first_channel;
}
Esempio n. 2
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 MIDITrack::MIDITrack( const MIDITrack &t )	
 {
   buf_size=0;
   num_events=0;
   
   
   for( int i=0; i<t.GetNumEvents(); ++i )
   {
     const MIDITimedBigMessage *src;
     src = t.GetEventAddress( i );
     PutEvent(*src);
   }
 } 
 bool MIDIMultiTrackIterator::GoToNextEventOnTrack ( int track_num )
 {
   // Get the track that we are dealing with
   MIDITrack *track = multitrack->GetTrack ( track_num );
   
   // Get ptr to the current event number for this track
   int *event_num = &state.next_event_number[ track_num ];
   
   // skip this track if this event number is <0 - This track has hit end already.
   
   if ( *event_num <0 )
   {
     return false; // at end of track
   }
   
   // increment *event_num to next event on track
   
   ( *event_num ) += 1;
   
   // are we at end of track?
   if ( *event_num >= track->GetNumEvents() )
   {
     // yes, set *event_num to -1
     *event_num=-1;
     return false; // at end of track
   }
   else
   {
     // not at end of track yet - get the time of the event
     MIDITimedBigMessage *msg;
     
     msg = track->GetEventAddress ( *event_num );
     
     state.next_event_time[ track_num ] = msg->GetTime();
   }
   
   
   
   return true;
 }
void AdvancedSequencer::ExtractMarkers ( std::vector< std::string > *list )
{
    if ( !file_loaded )
    {
        list->clear();
        num_markers = 0;
        return;
    }

    MIDITrack *t = tracks.GetTrack ( 0 );
    list->clear();
    int cnt = 0;
    int measure = 0;
    int beat = 0;
    int timesig_numerator = 4;
    int timesig_denominator = 4;
    MIDIClockTime last_beat_time = 0;
    MIDIClockTime last_event_time = 0;
    int clks_per_beat = tracks.GetClksPerBeat();

    for ( int i = 0; i < t->GetNumEvents(); ++i )
    {
        MIDITimedBigMessage *m = t->GetEventAddress ( i );

        if ( m )
        {
            // how many beats have gone by since the last event?
            long beats_gone_by = ( m->GetTime() - last_beat_time ) / clks_per_beat;

            if ( beats_gone_by > 0 )
            {
                // calculate what our new measure/beat is
                beat += beats_gone_by;
                // carry over beat overflow to measure
                measure += beat / timesig_numerator;
                beat = beat % timesig_numerator;
                last_beat_time += ( clks_per_beat * beats_gone_by );
            }

            if ( m->IsMetaEvent() && m->IsTimeSig() )
            {
                timesig_numerator = m->GetTimeSigNumerator();
                timesig_denominator = m->GetTimeSigDenominator();
                clks_per_beat = tracks.GetClksPerBeat() * 4 / timesig_denominator;
            }

            if ( m->IsTextEvent() && m->GetSysEx() )
            {
                if ( ( m->GetMetaType() == META_GENERIC_TEXT )
                        || m->GetMetaType() == META_MARKER_TEXT
                        || m->GetMetaType() == META_CUE_TEXT )
                {
                    char buf[256];
                    char line[256];
                    memcpy ( buf, m->GetSysEx()->GetBuf(), m->GetSysEx()->GetLength() );
                    buf[ m->GetSysEx()->GetLength() ] = '\0';
                    FixQuotes ( buf );
                    sprintf ( line, "%03d:%d        %s", measure + 1, beat + 1, buf );
                    list->push_back ( std::string ( line ) );
                    marker_times[ cnt++ ] = m->GetTime();
                }
            }

            last_event_time = m->GetTime();
        }
    }

    num_markers = cnt;
}
 void MIDIMultiTrackIterator::GoToTime ( MIDIClockTime time )
 {
   // start at time 0
   
   state.Reset();
   
   // transfer info from the first events in each track in the
   // multitrack object to our current state.
   
   for ( int i=0; i<multitrack->GetNumTracks(); ++i )
   {
     MIDITrack *track = multitrack->GetTrack ( i );
     
     // default: set the next_event_number for this track to -1
     // to signify end of track
     
     state.next_event_number[ i ] = -1;
     
     // are there any events in this track?
     if ( track && track->GetNumEvents() >0 )
     {
       // yes, extract the time of the first event
       
       MIDITimedBigMessage *msg = track->GetEventAddress ( 0 );
       
       if ( msg )
       {
         // found the first message of the track. Keep track
         // of the event number and the event time.
         
         state.next_event_number[i]=0;
         state.next_event_time[i]=msg->GetTime();
       }
     }
   }
   
   
   // are there any events at all? find the track with the
   // earliest event
   
   if ( state.FindTrackOfFirstEvent() !=-1 )
   {
     // yes
     // iterate through all the events until we find a time >= the requested time
     
     while ( state.GetCurrentTime() <time )
     {
       // did not get to the requested time yet.
       // go to the next chronological event on all tracks
       
       if ( !GoToNextEvent() )
       {
         // there is no more events to go to
         
         break;
       }
       
     }
   }
   
 }