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[ahxm.git] / midi_song.c
blob0de07304f3d5c7774402dc2ede70c087922ceab0
1 /*
2
3 Ann Hell Ex Machina - Music Software
4 Copyright (C) 2003/2006 Angel Ortega <angel@triptico.com>
5
6 midi_song.c - MIDI song event stream management
7
8 This program is free software; you can redistribute it and/or
9 modify it under the terms of the GNU General Public License
10 as published by the Free Software Foundation; either version 2
11 of the License, or (at your option) any later version.
12
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
21
22 http://www.triptico.com
23
24 */
25
26 #include "config.h"
27
28 #include <stdio.h>
29 #include <stdlib.h>
30 #include <string.h>
31 #include <math.h>
32 #include <time.h>
33 #include <unistd.h>
34 #include <sys/types.h>
35 #include <sys/stat.h>
36 #include <fcntl.h>
37
38 #include "annhell.h"
39
40 /*******************
41 Data
42 ********************/
43
44 struct midi_ev_generic
45 {
46 song_ev_type type; /* event type */
47 int msecs; /* time in milliseconds */
48 int trk_id; /* track id */
49 int channel; /* MIDI channel */
50 };
51
52 struct midi_ev_program
53 {
54 song_ev_type type; /* SONG_EV_MIDI_PROGRAM */
55 int msecs;
56 int trk_id;
57 int channel;
58 int program; /* MIDI program number */
59 };
60
61 struct midi_ev_note_off
62 {
63 song_ev_type type; /* SONG_EV_NOTE_OFF */
64 int msecs;
65 int trk_id;
66 int channel;
67 int note; /* MIDI note */
68 };
69
70 struct midi_ev_note_on
71 {
72 song_ev_type type; /* SONG_EV_NOTE_ON */
73 int msecs;
74 int trk_id;
75 int channel;
76 int note; /* MIDI note */
77 int vel; /* velocity (volume) */
78 };
79
80 union midi_ev
81 {
82 struct midi_ev_generic generic;
83 struct midi_ev_program midi_program;
84 struct midi_ev_note_on note_on;
85 struct midi_ev_note_off note_off;
86 };
87
88
89 /* the MIDI song stream */
90
91 static union midi_ev * midi_song = NULL;
92 static int n_midi_ev = 0;
93
94 /* the MIDI tracks: just a track/channel table */
95
96 #define MIDI_TRACK_NUM 256
97 static int track_channel[MIDI_TRACK_NUM];
98
99 /* MIDI message types */
100
101 #define MIDI_MSG_NOTE_ON 0x90
102 #define MIDI_MSG_NOTE_OFF 0x80
103 #define MIDI_MSG_CONTROLLER 0xB0
104 #define MIDI_MSG_PROGRAM 0xC0
105
106 /* MIDI device fd */
107 int midi_fd = -1;
108
109
110 /*******************
111 Code
112 ********************/
113
114 static void add_midi_ev(union midi_ev * e)
115 /* adds a MIDI song event */
116 {
117 if(e->generic.channel < 0)
118 return;
119
120 /* reallocs */
121 midi_song = (union midi_ev *)realloc(midi_song,
122 (n_midi_ev + 1) * sizeof(union midi_ev));
123
124 /* store */
125 memcpy(&midi_song[n_midi_ev], e, sizeof(union midi_ev));
126
127 n_midi_ev++;
128 }
129
130
131 static int midi_ev_cmp_by_time(const void * v1, const void * v2)
132 /* MIDI song event compare function for qsort(), by time (for playing) */
133 {
134 struct midi_ev_generic * e1;
135 struct midi_ev_generic * e2;
136
137 e1 = (struct midi_ev_generic *)v1; e2=(struct midi_ev_generic *)v2;
138
139 if(e1->msecs == e2->msecs)
140 return(e1->type - e2->type);
141
142 return(e1->msecs - e2->msecs);
143 }
144
145
146 static int midi_song_convert_events(void)
147 /* converts generic song_ev events to MIDI events */
148 {
149 union song_ev * e;
150 union midi_ev me;
151 int msecs, msecs_ac, f_msecs;
152 double time_ac, time_ac_m;
153 int num, den;
154 double mspw;
155 int n;
156 int b_track = -1;
157
158 /* resets the MIDI stream */
159 if(midi_song != NULL)
160 {
161 free(midi_song);
162 midi_song = NULL;
163 }
164
165 n_midi_ev = 0;
166
167 /* sorts the song */
168 song_sort();
169
170 mspw = 0;
171 msecs = msecs_ac = f_msecs = 0;
172 time_ac = time_ac_m = 0;
173 num = den = 4;
174
175 /* by default, all channels are 'mute' until
176 a channel is explicitly set */
177 for(n = 0;n < MIDI_TRACK_NUM;n++)
178 track_channel[n] = -1;
179
180 /* travels the song events generating MIDI song events */
181 for(n = 0;n < n_song_ev;n++)
182 {
183 /* gets the song event */
184 e = &song[n];
185
186 /* calculates the msecs */
187 msecs = ((e->generic.time - time_ac) * mspw) + msecs_ac;
188
189 /* generic event data */
190 me.generic.type = e->generic.type;
191 me.generic.msecs = msecs;
192 me.generic.trk_id = e->generic.trk_id;
193
194 /* if it's not a generic message, set MIDI channel */
195 if(e->generic.trk_id >= 0)
196 me.generic.channel = track_channel[e->generic.trk_id];
197
198 /* account the biggest track number seen */
199 if(b_track < e->generic.trk_id) b_track = e->generic.trk_id;
200
201 switch(e->generic.type)
202 {
203 case SONG_EV_TEMPO:
204
205 /* updates accumulations */
206 msecs_ac = msecs;
207 time_ac = e->generic.time;
208
209 /* calculates milliseconds-per-whole based on new tempo */
210 mspw = 1000.0 * 60.0;
211 mspw /= (e->tempo.tempo / 4.0);
212
213 break;
214
215 case SONG_EV_METER:
216
217 /* just store the values */
218 num = e->meter.num;
219 den = e->meter.den;
220 time_ac_m = e->meter.time;
221
222 break;
223
224 case SONG_EV_MEASURE:
225
226 song_test_measure_boundary(e->measure.time - time_ac_m,
227 num, den, e->measure.line);
228 break;
229
230 case SONG_EV_MIDI_CHANNEL:
231
232 /* stores the channel for this track */
233 track_channel[e->midi_channel.trk_id] =
234 e->midi_channel.channel;
235 break;
236
237 case SONG_EV_NOTE:
238
239 /* convert to note on / off pairs */
240
241 me.note_on.type = SONG_EV_NOTE_ON;
242 me.note_on.note = e->note.note;
243 me.note_on.vel = (int)(e->note.vol * 127.0);
244
245 add_midi_ev(&me);
246
247 msecs += (int)(e->note.len * mspw);
248
249 me.note_off.type = SONG_EV_NOTE_OFF;
250 me.note_off.msecs = msecs;
251
252 add_midi_ev(&me);
253 break;
254
255 case SONG_EV_BACK:
256
257 /* move the cursor back */
258 msecs_ac -= (int)(e->back.len * mspw);
259 break;
260
261 case SONG_EV_MIDI_PROGRAM:
262
263 /* set MIDI program (instrument) */
264 me.midi_program.program = e->midi_program.program;
265
266 add_midi_ev(&me);
267 break;
268
269 case SONG_EV_SS_PITCH_STRETCH:
270 case SONG_EV_SS_PRINT_WAVE_TEMPO:
271 case SONG_EV_SS_WAV:
272 case SONG_EV_SS_PAT:
273 case SONG_EV_SS_SUSTAIN:
274 case SONG_EV_SS_VIBRATO:
275 case SONG_EV_SS_CHANNEL:
276 case SONG_EV_SS_EFF_DELAY:
277 case SONG_EV_SS_EFF_ECHO:
278 case SONG_EV_SS_EFF_COMB:
279 case SONG_EV_SS_EFF_ALLPASS:
280 case SONG_EV_SS_EFF_FLANGER:
281 case SONG_EV_SS_EFF_WOBBLE:
282 case SONG_EV_SS_EFF_SQWOBBLE:
283 case SONG_EV_SS_EFF_FADER:
284 case SONG_EV_SS_EFF_REVERB:
285 case SONG_EV_SS_EFF_OFF:
286
287 /* softsynth events are ignored */
288 break;
289
290 case SONG_EV_TRACK_INFO:
291
292 /* track info should be used */
293 break;
294
295 case SONG_EV_NOTE_ON:
296 case SONG_EV_NOTE_OFF:
297 case SONG_EV_END:
298
299 /* never found in generic song streams */
300 break;
301 }
302
303 /* store the further time seen */
304 if(f_msecs < msecs) f_msecs = msecs;
305 }
306
307 /* generates an end of event mark, a time after the last one */
308 me.generic.type = SONG_EV_END;
309 me.generic.msecs = f_msecs + 1000;
310 add_midi_ev(&me);
311
312 /* return the number of tracks */
313 return(b_track + 1);
314 }
315
316
317 int midi_song_play(int skip_secs)
318 {
319 union midi_ev * e;
320 int msecs, msecs_p, msecs_d;
321 int go;
322 int n_tracks;
323 struct timespec ts;
324 unsigned char midimsg[1024];
325 int mi;
326 int skip_msecs;
327
328 /* convert the song to MIDI events */
329 n_tracks = midi_song_convert_events();
330
331 /* sort by time */
332 qsort(midi_song, n_midi_ev, sizeof(union midi_ev), midi_ev_cmp_by_time);
333
334 msecs = msecs_p = 0;
335 go = 1;
336 e = midi_song;
337
338 /* calculate the millisecond to start playing */
339 skip_msecs = skip_secs * 1000;
340
341 /* loop the events */
342 while(go)
343 {
344 /* clear buffer */
345 mi = 0;
346
347 if(verbose >= 1)
348 {
349 if(msecs % 1000 == 0)
350 {
351 int m = msecs / 1000;
352 printf("[%02d:%02d]\r", m / 60, m % 60);
353 fflush(stdout);
354 }
355 }
356
357 /* process all events for this exact time */
358 while(e->generic.msecs == msecs)
359 {
360 switch(e->generic.type)
361 {
362 case SONG_EV_NOTE_ON:
363
364 midimsg[mi++] = MIDI_MSG_NOTE_ON|e->note_on.channel;
365 midimsg[mi++] = e->note_on.note;
366 midimsg[mi++] = e->note_on.vel;
367
368 break;
369
370 case SONG_EV_NOTE_OFF:
371
372 midimsg[mi++] = MIDI_MSG_NOTE_OFF|e->note_off.channel;
373 midimsg[mi++] = e->note_off.note;
374 midimsg[mi++] = 0;
375
376 break;
377
378 case SONG_EV_MIDI_PROGRAM:
379
380 midimsg[mi++] = MIDI_MSG_PROGRAM|e->midi_program.channel;
381 midimsg[mi++] = e->midi_program.program;
382
383 break;
384
385 case SONG_EV_END:
386
387 go = 0;
388 break;
389
390 default:
391 /* ignore the rest */
392 break;
393 }
394
395 /* next event */
396 e++;
397 }
398
399 if(!go)
400 break;
401
402 /* get time of next event */
403 msecs_p = msecs;
404 msecs = e->generic.msecs;
405 msecs_d = msecs - msecs_p;
406
407 if(msecs >= skip_msecs)
408 {
409 /* if there are pending messages, write them */
410 if(mi)
411 write(midi_fd, midimsg, mi);
412
413 /* calculate the time to sleep */
414 ts.tv_sec = (time_t) msecs_d / 1000;
415 ts.tv_nsec = (long) ((msecs_d * 1000000) % 1000000000);
416
417 nanosleep(&ts, NULL);
418 }
419 }
420
421 if(verbose >= 1) printf("\n");
422
423 return(0);
424 }
425
426
427 int midi_device_open(char * devfile)
428 {
429 if(devfile == NULL)
430 devfile = "/dev/midi";
431
432 return((midi_fd = open(devfile, O_WRONLY)));
433 }
434
435
436 void midi_device_close(void)
437 {
438 close(midi_fd);
439 }
Ann Hell Ex Machina (music writing software)