/*******************************************************************************/ /* Copyright (C) 2007-2008 Jonathan Moore Liles */ /* */ /* 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; see the file COPYING. If not,write to the Free Software */ /* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /*******************************************************************************/ #include #include #include #include /* jack */ #include #include #include #include #include "jack.H" #include "non.H" #include "transport.H" #include "pattern.H" #include "phrase.H" #include "event_list.H" #ifdef JACK_MIDI_PROTO_API /* correct for prototype version of API */ #define jack_midi_event_reserve( p, f, l ) jack_midi_event_reserve( p, f, l, nframes ) #define jack_midi_event_get( e, b, f ) jack_midi_event_get( e, b, f, nframes ) #define jack_midi_get_event_count( b ) jack_midi_get_event_count( b, nframes ) #define jack_midi_clear_buffer( b ) jack_midi_clear_buffer( b, nframes ) #define jack_midi_event_write( b, f, d, s ) jack_midi_event_write( b, f, d, s, nframes ) #endif /* MIDI channel to listen for pattern control changes on */ int pattern_control_channel = 0; /* which control change number to use for pattern control */ int pattern_control_cc = 20; jack_client_t *client; int sample_rate; const int MAX_PORT = 16; const int subticks_per_tick = 4096; /* timers for notes on all channels and ports. When a note is played, * the respective value in this array is set to the note duraction in * subticks (an arbitrary division of the tick used only for this * purpose). Decremented in each process cycle, when this value * reaches zero, a note off is generated--regardless of the state of * the transport */ int note_duration[MAX_PORT][16][128]; /* tracks the number of concurrent note ons for the same note so that * we can be sure to emit the correct number of note offs */ int notes_on[MAX_PORT][16][128]; typedef unsigned char byte_t; int num_output_ports = 1; event_list freelist; typedef struct { void *buf; jack_ringbuffer_t *ring_buf; /* for realtime output and recording */ event_list events; /* events to be output this cycle */ jack_port_t *port; } port_t; static port_t output[MAX_PORT]; static port_t input[2]; /* control, performance */ jack_nframes_t nframes; /* for compatibility with older jack */ /** get next recorded event, if any--runs in UI thread */ bool midi_input_event ( int port, midievent *me ) { if ( jack_ringbuffer_read_space( input[ port ].ring_buf ) >= sizeof( midievent ) ) { if ( jack_ringbuffer_read( input[ port ].ring_buf, (char *)me, sizeof( midievent ) ) ) return true; } return false; } /** * Queue an event for output. /tick/ is relative to the current cycle! */ void midi_output_event ( int port, const midievent *e ) { event *fe = freelist.first(); if ( ! fe ) WARNING( "output buffer underrun" ); else { freelist.unlink( fe ); *fe = *e; if ( e->is_note_on() ) { if ( notes_on[ port ][ e->channel() ][ e->note() ] == 0 ) { output[ port ].events.insert( fe ); ++notes_on[ port ][ e->channel() ][ e->note() ]; } else { DMESSAGE( "Dropping extra Note ON" ); } } else if ( e->is_note_off() ) { if ( notes_on[ port ][ e->channel() ][ e->note() ] == 0 ) { DMESSAGE( "Dropping extra Note OFF" ); WARNING( "Extra Note OFF" ); } else { output[ port ].events.insert( fe ); --notes_on[ port ][ e->channel() ][ e->note() ]; } } else output[ port ].events.insert( fe ); } } /** same as above, but only for note-on + duration */ void midi_output_event ( int port, const midievent *e, tick_t duration ) { if ( duration ) { note_duration[ port ][ e->channel() ][ e->note() ] = (duration + e->timestamp()) * subticks_per_tick; midi_output_event( port, e ); } else { /* We allow duplicate notes on and pass notes off through as * is in order to support poly synths. */ midi_output_event( port, e ); } } void midi_write_event ( int port, const midievent *e ) { byte_t *buffer; // what I want here is to translate a PPQN tick into the // current period. jack_nframes_t frame = transport.frames_per_tick * e->timestamp(); int l = e->size(); buffer = jack_midi_event_reserve( output[ port ].buf, frame, l ); if ( ! buffer ) { WARNING( "could not reserve buffer at frame %d, note event dropped!", frame ); return; } #ifdef DEBUG_EVENTS e->pretty_print(); #endif e->raw( buffer, l ); } /** Call this to send an event immediately from UI thread. Timestamp is meaningless */ void midi_output_immediate_event ( int port, const midievent *e ) { if ( jack_ringbuffer_write( output[ port ].ring_buf, (const char *)e, sizeof( midievent ) ) != sizeof( midievent ) ) WARNING( "output ringbuffer overrun" ); else if ( e->is_note_on() ) { /* use timestamp as duration */ note_duration[ port ][ e->channel() ][ e->note() ] = e->timestamp() * subticks_per_tick; } } /** stop all notes on all channels of all ports */ void midi_all_sound_off ( void ) { MESSAGE( "stopping all sound" ); midievent e; /* all notes off */ e.status( midievent::CONTROL_CHANGE ); e.data( 123, 0 ); e.timestamp( 0 ); for ( int p = MAX_PORT; p--; ) for ( int c = 16; c--; ) { e.channel( c ); midi_output_immediate_event( p, &e ); } } static void stop_all_patterns ( void ) { for ( uint i = pattern::patterns(); i--; ) { pattern *p = pattern::pattern_by_number( i + 1 ); p->stop(); } } static int sync ( jack_transport_state_t state, jack_position_t *pos, void * ) { static bool seeking = false; switch ( state ) { case JackTransportStopped: /* new position requested */ /* JACK docs lie. This is only called when the transport is *really* stopped, not when starting a slow-sync cycle */ stop_all_patterns(); return 1; case JackTransportStarting: /* this means JACK is polling slow-sync clients */ { stop_all_patterns(); return 1; } case JackTransportRolling: /* JACK's timeout has expired */ /* FIXME: what's the right thing to do here? */ // request_locate( pos->frame ); return 1; break; default: WARNING( "unknown transport state" ); } return 0; } static int process ( jack_nframes_t nframes, void *arg ) { static tick_t oph = 0; static tick_t onph = 0; static int old_play_mode = PATTERN; static int not_dropped = 0; ::nframes = nframes; transport.nframes = nframes; transport.poll(); /* ph-nph is exclusive. It is important that in normal continuous playback each tick is covered exactly once! */ const tick_t ph = transport.ticks; const tick_t nph = trunc( transport.ticks + transport.ticks_per_period ); if ( ! transport.valid ) goto schedule; if ( ( ! transport.rolling ) || ph == oph ) goto schedule; if ( ph != onph ) { if ( onph > ph ) DWARNING( "duplicated %lu ticks (out of %d)", onph - ph, (int)(not_dropped * transport.ticks_per_period) ); else DWARNING( "dropped %lu ticks (out of %d)", ph - onph, (int)(not_dropped * transport.ticks_per_period) ); not_dropped = 0; } ++not_dropped; onph = nph; if ( old_play_mode != song.play_mode ) { switch ( old_play_mode ) { case PATTERN: case TRIGGER: case QUEUE: DMESSAGE( "Stopping all patterns" ); stop_all_patterns(); break; } old_play_mode = song.play_mode; } // DMESSAGE( "tpp %f %lu-%lu", transport.ticks_per_period, ph, nph ); /* now handle control input */ { int j = CONTROL; static midievent e; input[j].buf = jack_port_get_buffer( input[j].port, nframes ); jack_midi_event_t ev; jack_nframes_t count = jack_midi_get_event_count( input[j].buf ); for ( uint i = 0; i < count; ++i ) { // MESSAGE( "Got midi input!" ); jack_midi_event_get( &ev, input[j].buf, i ); /* time is frame within cycle, convert to absolute tick */ e.timestamp( ph + (ev.time / transport.frames_per_tick) ); e.status( ev.buffer[0] ); e.lsb( ev.buffer[1] ); if ( ev.size == 3 ) e.msb( ev.buffer[2] ); /* no need to pass it to the GUI, we can trigger patterns here */ if ( e.channel() == pattern_control_channel && e.opcode() == midievent::CONTROL_CHANGE && e.lsb() == pattern_control_cc ) { if ( e.msb() < pattern::patterns() ) { pattern *p = pattern::pattern_by_number( e.msb() + 1 ); if ( TRIGGER == song.play_mode ) { if ( p->playing() ) { DMESSAGE( "Untriggering pattern %i ph=%lu, ts=%lu", e.msb(), ph, e.timestamp() ); p->trigger( ph, e.timestamp() ); } else { DMESSAGE( "Triggering pattern %i ph=%lu, ts=%lu", e.msb(), ph, e.timestamp() ); p->trigger( e.timestamp(), -1 ); } } else { if ( p->mode() == PLAY ) { DMESSAGE( "Dequeuing pattern %i ph=%lu, ts=%lu", e.msb(), ph, e.timestamp() ); p->mode( MUTE ); } else { DMESSAGE( "Queuing pattern %i ph=%lu, ts=%lu", e.msb(), ph, e.timestamp() ); p->mode( PLAY ); } } } } } } switch ( song.play_mode ) { case SEQUENCE: playlist->play( ph, nph ); break; case QUEUE: case PATTERN: { for ( uint i = pattern::patterns(); i--; ) { pattern *p = pattern::pattern_by_number( i + 1 ); p->trigger( 0, -1 ); p->play( ph, nph ); } break; } case TRIGGER: { for ( uint i = pattern::patterns(); i--; ) { pattern *p = pattern::pattern_by_number( i + 1 ); p->play( ph, nph ); } break; } } oph = ph; /* handle midi input */ // for ( int j = transport.recording ? 2 : 1; j--; ) if ( transport.recording ) { int j = PERFORMANCE; static midievent e; input[j].buf = jack_port_get_buffer( input[j].port, nframes ); jack_midi_event_t ev; jack_nframes_t count = jack_midi_get_event_count( input[j].buf ); for ( uint i = 0; i < count; ++i ) { // MESSAGE( "Got midi input!" ); jack_midi_event_get( &ev, input[j].buf, i ); /* time is frame within cycle, convert to absolute tick */ e.timestamp( ph + (ev.time / transport.frames_per_tick) ); e.status( ev.buffer[0] ); e.lsb( ev.buffer[1] ); if ( ev.size == 3 ) e.msb( ev.buffer[2] ); if ( jack_ringbuffer_write( input[j].ring_buf, (char*)&e, sizeof( midievent ) ) != sizeof( midievent ) ) WARNING( "input buffer overrun" ); } } schedule: const int subticks_per_period = transport.ticks_per_period * subticks_per_tick; for ( uint i = MAX_PORT; i-- ; ) { /* reserve and clear buffers */ output[ i ].buf = jack_port_get_buffer( output[ i ].port, nframes ); jack_midi_clear_buffer( output[ i ].buf ); /* handle scheduled note offs */ for ( uint j = 16; j-- ; ) { register int *note = ¬e_duration[ i ][ j ][ 0 ]; for ( register uint k = 0; k < 128; ++note, ++k ) if ( *note > 0 ) if ( ( *note -= subticks_per_period ) <= 0 ) { while ( notes_on[ i ][ j ][ k] > 0 ) { static midievent e; e.status( midievent::NOTE_OFF ); e.channel( j ); e.note( k ); e.note_velocity( 64 ); e.timestamp( (subticks_per_period + *note) / subticks_per_tick ); midi_output_event( i, &e ); } *note = 0; } } static midievent e; /* first, write any immediate events from the UI thread */ while ( jack_ringbuffer_read( output[ i ].ring_buf, (char *)&e, sizeof( midievent ) ) ) { // MESSAGE( "sending immediate event" ); // FIXME: could we do better? e.timestamp( 0 ); midi_output_event( i, &e ); } /* Write queued events */ event *n; for ( event *e = output[ i ].events.first(); e; e = n ) { n = e->next(); midi_write_event( i, e ); output[ i ].events.unlink( e ); freelist.append( e ); } } return 0; } const char * midi_init ( void ) { MESSAGE( "Initializing Jack MIDI" ); /* if (( client = jack_client_new ( APP_NAME )) == 0 ) */ /* return 0; */ if (( client = jack_client_open ( APP_NAME, (jack_options_t)0, NULL )) == 0 ) return NULL; /* create output ports */ for ( int i = 0; i < MAX_PORT; i++ ) { char pat[40]; sprintf( pat, "midi_out-%d", i + 1 ); output[i].port = jack_port_register( client, pat, JACK_DEFAULT_MIDI_TYPE, JackPortIsOutput, 0 ); output[i].ring_buf = jack_ringbuffer_create( 16 * 16 * sizeof( midievent ) ); // why this value? jack_ringbuffer_reset( output[i].ring_buf ); } /* create input ports */ input[0].port = jack_port_register( client, "control_in", JACK_DEFAULT_MIDI_TYPE, JackPortIsInput, 0 ); input[0].ring_buf = jack_ringbuffer_create( 128 * sizeof( midievent ) ); // why this value? jack_ringbuffer_reset( input[0].ring_buf ); input[1].port = jack_port_register( client, "midi_in", JACK_DEFAULT_MIDI_TYPE, JackPortIsInput, 0 ); input[1].ring_buf = jack_ringbuffer_create( 128 * sizeof( midievent ) ); // why this value? jack_ringbuffer_reset( input[1].ring_buf ); /* preallocate events */ for ( int i = 32 * 16 * MAX_PORT; i-- ; ) freelist.append( new event ); DMESSAGE( "allocated output buffer space for %lu events", freelist.size() ); /* clear notes */ for ( int p = MAX_PORT; p--; ) { for ( int c = 16; c-- ; ) for ( int n = 128; n-- ; ) { note_duration[ p ][ c ][ n ] = 0; notes_on[ p ][ c ][ n ] = 0; } } //1 jack_set_buffer_size_callback( client, bufsize, 0 ); jack_set_process_callback( client, process, 0 ); jack_set_sync_callback( client, sync, 0 ); /* /\* initialize buffer size *\/ */ /* transport_poll(); */ /* bufsize( jack_get_buffer_size( client ), 0 ); */ if ( jack_set_timebase_callback( client, 1, Transport::timebase, NULL ) == 0 ) { MESSAGE( "running as timebase master" ); transport.master = true; } else WARNING( "could not take over as timebase master" ); jack_activate( client ); sample_rate = jack_get_sample_rate( client ); /* FIXME: hack! we need to wait until jack finally calls our * timebase and process callbacks in order to be able to test for * valid transport info. */ MESSAGE( "Waiting for JACK..." ); usleep( 500000 ); return (const char *) jack_get_client_name(client); } void midi_shutdown ( void ) { // TODO: wait for all queued events to play. jack_deactivate( client ); }