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source: buchla-68k/ram/lcdlbls.c@ c65a0e2

Last change on this file since c65a0e2 was c65a0e2, checked in by Thomas Lopatic <thomas@…>, 7 years ago
Added RAM files.
Property mode set to `100644`
File size: 41.0 KB

Line
1	/*
2	=============================================================================
3	lcdlbls.c -- MIDAS-VII front panel support functions
4	Version 48 -- 1989-12-19 -- D.N. Lynx Crowe
5	=============================================================================
6	*/
7
8	#define ROMPOK 1 /* non-zero enables the ROMP switch */
9
10	#include "stddefs.h"
11	#include "biosdefs.h"
12	#include "graphdef.h"
13	#include "glcfns.h"
14	#include "glcdefs.h"
15	#include "lcdline.h"
16	#include "vsdd.h"
17	#include "vsddvars.h"
18	#include "hwdefs.h"
19	#include "memory.h"
20	#include "cmeta.h"
21	#include "fields.h"
22	#include "fpu.h"
23	#include "macros.h"
24	#include "panel.h"
25	#include "patch.h"
26	#include "smdefs.h"
27	#include "sclock.h"
28
29	#include "midas.h"
30	#include "instdsp.h"
31	#include "libdsp.h"
32	#include "score.h"
33	#include "scdsp.h"
34	#include "scfns.h"
35
36	#define ARTIVAL(x) (x << 5)
37	#define SL2GAIN(x) (sl2gain[(x >> 11) + 16])
38
39	#if ROMPOK
40	#define ROMPFN trapper /* ROMP switch table entry */
41	#else
42	#define ROMPFN nokey /* ROMP switch table entry */
43	#endif
44
45	#define PCHMAX 21920L /* maximum pitch value */
46
47	/*
48
49	*/
50	extern char gain2eq();
51
52	extern short nokey();
53	extern short setsr();
54
55	extern short (*d_key)();
56	extern short (*e_key)();
57	extern short (*m_key)();
58	extern short (*x_key)();
59	extern short (*olddkey)();
60	extern short (*oldekey)();
61	extern short (*oldmkey)();
62	extern short (*oldxkey)();
63	extern short (*point)();
64
65	extern PFS (*oldsw)[];
66	extern PFS (*swpt)[];
67
68	extern PFS aswtbl[14];
69
70	extern short asig;
71	extern short asmode;
72	extern short astat;
73	extern short aval;
74	extern short clkrun;
75	extern short ctrsw;
76	extern short curasg;
77	extern short gomode;
78	extern short ismode;
79	extern short lampio;
80	extern short lampsw;
81	extern short loadrow;
82	extern short loadsw;
83	extern short ltagged;
84	extern short ndisp;
85	extern short oldpk;
86	extern short oldsl;
87	extern short pkctrl;
88	extern short recsw;
89	extern short sliders;
90	extern short tagslot;
91	extern short tmpomlt;
92	extern short tmpoval;
93	extern short tuneval;
94
95	extern unsigned short seqdupd;
96
97	extern short BGeq[];
98	extern short BGother[];
99	extern short BGprmtr[];
100
101	extern short articen[];
102	extern short grpmode[];
103	extern short grpsel[];
104	extern short grpstat[];
105	extern short ins2grp[];
106	extern short lastart[];
107	extern short s_trns[];
108	extern short vce2grp[];
109	extern short vce2trg[];
110
111	extern short anrs[][16];
112
113	extern long iotime;
114	extern long lcdontm;
115	extern long lcdtime;
116
117	extern struct gdsel *gdstbc[];
118
119	extern struct valent valents[];
120
121	/*
122
123	*/
124
125	/* forward references */
126
127	short l_prmtr(), l_other(), l_voice(), l_init(), l_clock(), l_eq();
128	short trapper(), setlamp(), rpctl(), quiet();
129	short l_group(), l_dflt(), l_inst(), l_goto(), l_asgn(), l_adfl(), l_load();
130
131	/* initialized stuff */
132
133	/* BarType -- LCD slider bar graph type table -- 0 = bottom, 1 = centered */
134
135	short BarType[14] = { 1, 0, 0, 0, 0, 1, 1, 1, 1, 0, 0, 0, 1, 0 };
136
137	short artitab[] = { /* articulation pot initialization values */
138
139	ARTIVAL(500), /* locn */
140	ARTIVAL(0), /* level */
141	ARTIVAL(0), /* ind 1 */
142	ARTIVAL(0), /* ind 2 */
143	ARTIVAL(0), /* ind 3 */
144	ARTIVAL(500), /* frq 1 */
145	ARTIVAL(500), /* frq 2 */
146	ARTIVAL(500), /* frq 3 */
147	ARTIVAL(500), /* frq 4 */
148	ARTIVAL(0), /* ind 4 */
149	ARTIVAL(0), /* ind 5 */
150	ARTIVAL(0), /* ind 6 */
151	ARTIVAL(500), /* filtr */
152	ARTIVAL(0) /* reson */
153	};
154
155	/* arpar[] -- articulation parameter map */
156	/* sigtab[ 25 26 27 28 29 30 31 32 33 34 35 36 37 38] */
157
158	short arpar[] = { 4, 2, 9, 11, 12, 1, 3, 5, 7, 13, 14, 15, 10, 6};
159
160	/*
161
162	*/
163
164	short sl2gain[32] = { /* slider value to EQ gain conversion table */
165
166	-12, -12, -12, -12, -12, -11, -10, -9 ,-8 ,-7, -6, -5, -4, -3, -2, -1,
167	0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 12, 12, 12
168	};
169
170	short vmasks[16] = { /* variable resolution masks */
171
172	0x8000, 0xC000, 0xE000, 0xF000,
173	0xF800, 0xFC00, 0xFE00, 0xFF00,
174	0xFF80, 0xFFC0, 0xFFE0, 0xFFF0,
175	0xFFF8, 0xFFFC, 0xFFFE, 0xFFFF
176	};
177
178	short src2var[14] = { /* source number to analog variable number map */
179
180	-1, -1, 3, -1, -1, -1, 5, -1, 4, -1, -1, 0, 1, 2 };
181
182	char potlbls[] = { / LCD pot labels */
183
184	/* Pot: 25 26 27 28 29 30 31 32 33 34 35 36 37 38 */
185
186	/* 0 */ "Locn Level Ind 1 Ind 2 Ind 3 Frq 1 Frq 2 Frq 3 Frq 4 Ind 4 Ind 5 Ind 6 Filtr Reson",
187	/* 1 */ "Locn Level Ind 1 Ind 2 Ind 3 Frq 1 Frq 2 Frq 3 Frq 4 Ind 4 Ind 5 Ind 6 Filtr Reson",
188	/* 2 */ " Aux Depth Rate Inten CV 1 CV 2 CV 3 CV 4 ",
189	/* 3 */ " 50 150 400 1k 2.5k 6k 15k 50 150 400 1k 2.5k 6k 15k ",
190	/* 4 */ "Locn Level Ind 1 Ind 2 Ind 3 Frq 1 Frq 2 Frq 3 Frq 4 Ind 4 Ind 5 Ind 6 Filtr Reson",
191	/* 5 */ "Locn Level Ind 1 Ind 2 Ind 3 Frq 1 Frq 2 Frq 3 Frq 4 Ind 4 Ind 5 Ind 6 Filtr Reson",
192	/* 6 */ "Locn Level Ind 1 Ind 2 Ind 3 Frq 1 Frq 2 Frq 3 Frq 4 Ind 4 Ind 5 Ind 6 Filtr Reson",
193	/* 7 */ "Locn Level Ind 1 Ind 2 Ind 3 Frq 1 Frq 2 Frq 3 Frq 4 Ind 4 Ind 5 Ind 6 Filtr Reson"
194	};
195
196	#if ROMPOK
197	char swtlbls[] = { / LCD switch labels -- ROMP ENABLED */
198
199	/* 0 */ "Quiet ROMP Lamp Clock P/R Go To Instr Asgmt Load Other Voice Init ",
200	/* 1 */ " Voice Init ",
201	/* 2 */ "Quiet ROMP Lamp Clock P/R Go To Instr Asgmt Load EQ Voice Init ",
202	/* 3 */ "Quiet ROMP Lamp Clock P/R Go To Instr Asgmt Load Prmtr Voice Init ",
203	/* 4 */ " +00 Deflt",
204	/* 5 */ "Quiet ROMP Lamp Clock P/R Go To Instr Asgmt Load Other Voice Deflt",
205	/* 6 */ "Quiet ROMP Lamp Clock P/R ",
206	/* 7 */ "Quiet ROMP Lamp Load "
207	};
208	#else
209	char swtlbls[] = { / LCD switch labels -- ROMP DISABLED */
210
211	/* 0 */ "Quiet Lamp Clock P/R Go To Instr Asgmt Load Other Voice Init ",
212	/* 1 */ " Voice Init ",
213	/* 2 */ "Quiet Lamp Clock P/R Go To Instr Asgmt Load EQ Voice Init ",
214	/* 3 */ "Quiet Lamp Clock P/R Go To Instr Asgmt Load Prmtr Voice Init ",
215	/* 4 */ " +00 Deflt",
216	/* 5 */ "Quiet Lamp Clock P/R Go To Instr Asgmt Load Other Voice Deflt",
217	/* 6 */ "Quiet Lamp Clock P/R ",
218	/* 7 */ "Quiet Lamp Load "
219	};
220	#endif
221
222	char aslbls[] = { / Assignment select key labels */
223
224	"Asgmt", /* 0 */
225	" +00 ", /* 1 */
226	" +20 ", /* 2 */
227	" +40 ", /* 3 */
228	" +60 ", /* 4 */
229	" +80 " /* 5 */
230	};
231
232	/*
233
234	*/
235
236	PFS t_prmtr[] = { /* switch assignments for LS_PRMTR */
237
238	quiet, /* 0: Quiet */
239	ROMPFN, /* 1: ROMP */
240
241	setlamp, /* 2: Lamp */
242	l_clock, /* 3: Clock */
243	rpctl, /* 4: R/P */
244
245	l_goto, /* 5: Go To */
246	l_inst, /* 6: Instr */
247	l_asgn, /* 7: Asgmt */
248	l_load, /* 8: Load */
249
250	nokey, /* 9: -unused- */
251	nokey, /* 10: -unused- */
252	l_other, /* 11: Other */
253
254	l_prmtr, /* 12: Prmtr */
255	l_init /* 13: Init */
256	};
257
258	PFS t_voice[] = { /* switch assignments for LS_VOICE */
259
260	l_voice, /* 0: toggle voice status */
261	l_voice, /* 1: toggle voice status */
262
263	l_voice, /* 2: toggle voice status */
264	l_voice, /* 3: toggle voice status */
265	l_voice, /* 4: toggle voice status */
266
267	l_voice, /* 5: toggle voice status */
268	l_voice, /* 6: toggle voice status */
269	l_voice, /* 7: toggle voice status */
270	l_voice, /* 8: toggle voice status */
271
272	l_voice, /* 9: toggle voice status */
273	l_voice, /* 10: toggle voice status */
274	l_voice, /* 11: toggle voice status */
275
276	l_prmtr, /* 12: Prmtr */
277	l_init /* 13: Init */
278	};
279
280	/*
281
282	*/
283
284	PFS t_other[] = { /* switch assignments for LS_OTHER */
285
286	quiet, /* 0: Quiet */
287	ROMPFN, /* 1: ROMP */
288
289	setlamp, /* 2: Lamp */
290	l_clock, /* 3: Clock */
291	rpctl, /* 4: R/P */
292
293	l_goto, /* 5: Go To */
294	l_inst, /* 6: Instr */
295	l_asgn, /* 7: Asgmt */
296	l_load, /* 8: Load */
297
298	nokey, /* 9: -unused- */
299	nokey, /* 10: -unused- */
300	l_eq, /* 11: EQ */
301
302	l_prmtr, /* 12: Prmtr */
303	l_init /* 13: Init */
304	};
305
306	PFS t_eq[] = { /* switch assignments for LS_EQ */
307
308	quiet, /* 0: Quiet */
309	ROMPFN, /* 1: ROMP */
310
311	setlamp, /* 2: Lamp */
312	l_clock, /* 3: Clock */
313	rpctl, /* 4: R/P */
314
315	l_goto, /* 5: Go To */
316	l_inst, /* 6: Instr */
317	l_asgn, /* 7: Asgmt */
318	l_load, /* 8: Load */
319
320	nokey, /* 9: -unused- */
321	nokey, /* 10: -unused- */
322	l_eq, /* 11: Prmtr */
323
324	l_prmtr, /* 12: Voice */
325	l_init /* 13: Init */
326	};
327
328	/*
329
330	*/
331
332	PFS t_inst[] = { /* switch assignments for LS_INST */
333
334	l_group, /* 0: toggle group status */
335	l_group, /* 1: toggle group status */
336
337	l_group, /* 2: toggle group status */
338	l_group, /* 3: toggle group status */
339	l_group, /* 4: toggle group status */
340
341	l_group, /* 5: toggle group status */
342	l_group, /* 6: toggle group status */
343	l_group, /* 7: toggle group status */
344	l_group, /* 8: toggle group status */
345
346	l_group, /* 9: toggle group status */
347	l_group, /* 10: toggle group status */
348	l_group, /* 11: toggle group status */
349
350	l_inst, /* 12: 01-20 / 21-40 */
351	l_dflt /* 13: Deflt */
352	};
353
354	PFS t_libr[] = { /* switch assignments for LS_LIBR */
355
356	quiet, /* 0: Quiet */
357	ROMPFN, /* 1: ROMP */
358
359	setlamp, /* 2: Lamp */
360	l_clock, /* 3: Clock */
361	rpctl, /* 4: R/P */
362
363	nokey, /* 5: -unused- */
364	nokey, /* 6: -unused- */
365	nokey, /* 7: -unused- */
366	nokey, /* 8: -unused- */
367
368	nokey, /* 9: -unused- */
369	nokey, /* 10: -unused- */
370	nokey, /* 11: -unused- */
371
372	nokey, /* 12: -unused- */
373	nokey /* 13: -unused- */
374	};
375
376	/*
377
378	*/
379
380	PFS t_ngrp[] = { /* switch assignments for LS_NGRP */
381
382	quiet, /* 0: Quiet */
383	ROMPFN, /* 1: ROMP */
384
385	setlamp, /* 2: Lamp */
386	l_clock, /* 3: Clock */
387	rpctl, /* 4: R/P */
388
389	nokey, /* 5: -unused- */
390	nokey, /* 6: -unused- */
391	nokey, /* 7: -unused- */
392	nokey, /* 8: -unused- */
393
394	nokey, /* 9: -unused- */
395	nokey, /* 10: -unused- */
396	nokey, /* 11: -unused- */
397
398	nokey, /* 12: -unused- */
399	nokey /* 13: -unused- */
400	};
401
402	PFS t_load[] = { /* switch assignments for LS_LOAD */
403
404	quiet, /* 0: Quiet */
405	ROMPFN, /* 1: ROMP */
406
407	setlamp, /* 2: Lamp */
408	nokey, /* 3: -unused- */
409	nokey, /* 4: -unused- */
410
411	nokey, /* 5: -unused- */
412	nokey, /* 6: -unused- */
413	nokey, /* 7: -unused- */
414	l_load, /* 8: Load */
415
416	nokey, /* 9: -unused- */
417	nokey, /* 10: -unused- */
418	nokey, /* 11: -unused- */
419
420	nokey, /* 12: -unused- */
421	nokey /* 13: -unused- */
422	};
423
424	/*
425
426	*/
427
428	/*
429	=============================================================================
430	quiet() -- quiet the instrument
431	=============================================================================
432	*/
433
434	quiet()
435	{
436	register short vce;
437
438	for (vce = 0; vce < 12; vce++) /* for each voice ... */
439	sendval(vce, 2, 0); /* ... set level = 0 */
440
441	memsetw(seqflag, 0, 16); /* stop the sequences */
442	memsetw(seqtime, 0, 16); /* ... */
443
444	memsetw(trstate, 0, 16); /* reset the triggers */
445
446	seqdupd = 0xFFFF; /* request display update */
447
448	stmproc(NULL_DEF); /* trigger the blank definer */
449	}
450
451	/*
452	=============================================================================
453	rpctl() -- toggle record/play switch
454	=============================================================================
455	*/
456
457	rpctl(stat)
458	short stat;
459	{
460	if (NOT stat)
461	return;
462
463	recsw = NOT recsw;
464	dsrpmod();
465	}
466
467	/*
468
469	*/
470
471	/*
472	=============================================================================
473	trapper() -- trap to ROMP
474	=============================================================================
475	*/
476
477	trapper(stat)
478	short stat;
479	{
480	if (stat)
481	xtrap15();
482	}
483
484	/*
485	=============================================================================
486	l_clock() -- process 'Clock' switch
487	=============================================================================
488	*/
489
490	l_clock(stat)
491	short stat;
492	{
493	if (NOT stat)
494	return;
495
496	clkset(NOT clkrun);
497	dclkmd();
498	}
499
500	/*
501	=============================================================================
502	ulamp() -- underline lamp if forced on
503	=============================================================================
504	*/
505
506	ulamp()
507	{
508	if ((sliders EQ LS_VOICE) OR (sliders EQ LS_INST))
509	return;
510
511	point = GLCplot; /* setup to draw line */
512	GLCcurs(G_ON);
513
514	if (lampsw)
515	lseg (LAMP_XL, LAMP_Y, LAMP_XR, LAMP_Y, 1);
516	else
517	lseg (LAMP_XL, LAMP_Y, LAMP_XR, LAMP_Y, 0);
518
519	GLCcurs(G_OFF);
520	}
521
522	/*
523
524	*/
525
526	/*
527	=============================================================================
528	preio() -- turn off LCD backlight before disk I/O
529	=============================================================================
530	*/
531
532	preio()
533	{
534	short oldipl;
535
536	oldipl = setipl(TIM_DI);
537
538	lampio = lampsw;
539	iotime = lcdtime;
540	lampsw = FALSE;
541	io_leds = 0x1F;
542
543	setipl(oldipl);
544	}
545
546	/*
547	=============================================================================
548	postio() -- restore LCD backlight state after disk I/O
549	=============================================================================
550	*/
551
552	postio()
553	{
554	short oldipl;
555
556	oldipl = setipl(TIM_DI);
557
558	lampsw = lampio;
559
560	if (iotime OR lampsw) {
561
562	lcdtime = lcdontm;
563	io_leds = 0x9F;
564	}
565
566	setipl(oldipl);
567	}
568
569	/*
570
571	*/
572
573	/*
574	=============================================================================
575	setlamp() -- toggle LCD backlight mode
576	=============================================================================
577	*/
578
579	setlamp(stat)
580	{
581	register short oldi;
582
583	if (NOT stat) /* only act on key closures */
584	return;
585
586	oldi = setipl(TIM_DI); /* disable interrupts to keep out the timer */
587
588	lcdtime = lcdontm; /* set the LCD backlight timer */
589
590	if (lampsw) {
591
592	lampsw = FALSE; /* enable LCD timeouts */
593	io_leds = 0x1F; /* turn off the LCD backlight */
594
595	} else {
596
597	lampsw = TRUE; /* disable LCD timeouts */
598	io_leds = 0x9F; /* turn on the LCD backlight */
599	}
600
601	setipl(oldi); /* turn interrupts back on */
602
603	ulamp(); /* update underline on lamp key label */
604	}
605
606	/*
607	=============================================================================
608	lcd_on() -- turn on the LCD backlight
609	=============================================================================
610	*/
611
612	lcd_on()
613	{
614	register short oldi;
615
616	oldi = setipl(TIM_DI); /* disable interrupts to keep out the timer */
617
618	lcdtime = lcdontm; /* set the LCD backlight timer */
619	io_leds = 0x9F; /* turn on the LCD backlight */
620
621	setipl(oldi); /* turn interrupts back on */
622	}
623
624	/*
625
626	*/
627
628	/*
629	=============================================================================
630	loadkey() -- process data keys in load mode
631	=============================================================================
632	*/
633
634	loadkey(key)
635	short key;
636	{
637	if (NOT astat)
638	return;
639
640	if (loadsw) { /* if it's load time */
641
642	if (key < 7) { /* ... and the key is valid */
643
644	loadem(key + 'A'); /* ... load the files */
645
646	loadsw = FALSE;
647	ltagged = FALSE;
648	d_key = olddkey;
649	x_key = oldxkey;
650	e_key = oldekey;
651	m_key = oldmkey;
652	pkctrl = oldpk;
653	sliders = oldsl;
654	swpt = oldsw;
655	lcdlbls();
656	}
657
658	return;
659	}
660	}
661
662	/*
663
664	*/
665
666	/*
667	=============================================================================
668	pcancel() -- cancel panel modes
669	=============================================================================
670	*/
671
672	pcancel(pm)
673	short pm;
674	{
675	point = GLCplot; /* setup to plot on LCD */
676	GLCcurs(G_ON);
677
678	if ((pm NE 0) AND asmode) {
679
680	/* cancel assignment mode */
681
682	asmode = 0;
683	pkctrl = oldpk;
684	swpt = oldsw;
685	lseg(ASGN_XL, ASGN_Y, ASGN_XR, ASGN_Y, 0);
686	}
687
688	if ((pm NE 1) AND (gomode NE GO_NULL)) {
689
690	/* cancel Go To mode */
691
692	gomode = GO_NULL;
693	pkctrl = oldpk;
694	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 0);
695	}
696
697	if ((pm NE 2) AND (ismode NE IS_NULL)) {
698
699	/* cancel instrument select mode */
700
701	ismode = IS_NULL;
702	pkctrl = oldpk;
703	sliders = oldsl;
704	swpt = oldsw;
705	lcdlbls();
706	}
707
708	GLCcurs(G_OFF);
709	setleds();
710	}
711
712	/*
713
714	*/
715
716	/*
717	=============================================================================
718	l_load() -- process "Load" key
719	=============================================================================
720	*/
721
722	l_load(stat)
723	short stat;
724	{
725	if (NOT stat)
726	return;
727
728	pcancel(3); /* cancel panel selections */
729	lcancel(3); /* cancel librarian selections */
730
731	point = GLCplot; /* setup to plot on LCD */
732	GLCcurs(G_ON);
733
734	if (loadsw) { /* if load is selected, deselect */
735
736	d_key = olddkey;
737	e_key = oldekey;
738	m_key = oldmkey;
739	x_key = oldxkey;
740
741	pkctrl = oldpk;
742	sliders = oldsl;
743	swpt = oldsw;
744
745	loadsw = FALSE;
746
747	lcdlbls();
748	/*
749
750	*/
751	} else { /* setup for load mode */
752
753	clkset(0); /* stop the clock */
754
755	if (ltagged) { /* cancel tag mode */
756
757	dslslot(tagslot, exp_c(LCFBX01), loadrow);
758	ltagged = FALSE;
759	}
760
761	if ((pkctrl EQ PK_PFRM) OR (pkctrl EQ PK_NOTE))
762	oldpk = pkctrl;
763
764	if (sliders NE LS_LOAD)
765	oldsl = sliders;
766
767	pkctrl = PK_LOAD;
768	sliders = LS_LOAD;
769	oldsw = swpt;
770	swpt = t_load;
771
772	olddkey = d_key;
773	oldxkey = x_key;
774	oldekey = e_key;
775	oldmkey = m_key;
776	d_key = loadkey;
777	x_key = l_load;
778	e_key = l_load;
779	m_key = l_load;
780
781	loadsw = TRUE;
782
783	lcdlbls();
784	lseg(LOAD_XL, LOAD_Y, LOAD_XR, LOAD_Y, 1);
785	}
786
787	GLCcurs(G_OFF);
788	setleds();
789	}
790
791	/*
792
793	*/
794
795	/*
796	=============================================================================
797	lcdlbls() -- put up the labels on the LCD display
798	=============================================================================
799	*/
800
801	lcdlbls()
802	{
803	register short i, barval;
804	char buf[8];
805	char dsp[86];
806
807	point = GLCplot; /* set up to plot on the LCD */
808
809	GLCinit(); /* clear the LCD display */
810	GLCcurs(G_ON);
811
812	/* label the switches */
813
814	switch (sliders) {
815
816	case LS_PRMTR: /* parameter articulation */
817	case LS_OTHER: /* other stuff */
818	case LS_EQ: /* equalization */
819
820	GLCtext(0, 1, swtlbls[sliders]);
821
822	switch (gomode) {
823
824	case GO_SECT:
825
826	GLCtext(0, 31, "Sectn");
827	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 1);
828	break;
829
830	case GO_SCOR:
831
832	GLCtext(0, 31, "Score");
833	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 1);
834	break;
835
836	default:
837
838	GLCtext(0, 31, "Go To");
839	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 0);
840	break;
841	}
842
843	break;
844	/*
845
846	*/
847	case LS_VOICE: /* voice selection */
848
849	dsp[0] = '\0';
850
851	for (i = 0; i < 12; i++) {
852
853	sprintf(buf, "%c%2d %c ",
854	(articen[i] ? '\176' : ' '), i + 1,
855	(articen[i] ? '\177' : ' '));
856
857	strcat(dsp, buf);
858	}
859
860	strcat(dsp, "Voice Init ");
861
862	GLCtext(0, 1, dsp);
863	break;
864
865	case LS_INST: /* instrument selection */
866
867	dsp[0] = '\0';
868
869	for (i = 0; i < 12; i++) {
870
871	sprintf(buf, "%c%2d %c ",
872	(grpsel[i] ? '\176' : ' '), i + 1,
873	(grpsel[i] ? '\177' : ' '));
874
875	strcat(dsp, buf);
876	}
877
878	if (ismode EQ IS_HORC)
879	strcat(dsp, " +20 "); /* hi orc */
880	else
881	strcat(dsp, " +00 "); /* lo orc */
882
883	strcat(dsp, " Deflt");
884
885	GLCtext(0, 1, dsp);
886	break;
887
888	case LS_LIBR:
889	case LS_NGRP:
890	case LS_LOAD:
891
892	GLCtext(0, 1, swtlbls[sliders]);
893	break;
894	}
895
896	/*
897
898	*/
899	GLCtext(7, 1, potlbls[sliders]); /* label the pots */
900
901	for (i = 0; i < 13; i++)
902	lseg(39 + (i * 36), 0, 39 + (i * 36), 63, 1);
903
904	switch (sliders) { /* draw the slider bars */
905
906	case LS_PRMTR: /* parameter articulation */
907	case LS_VOICE: /* voice articulation enable */
908	case LS_INST: /* instrument select */
909	case LS_LIBR: /* library select */
910	case LS_NGRP: /* group select */
911	case LS_LOAD: /* load select */
912
913	for (i = 0; i < 14; i++) {
914
915	if (BarType[i]) {
916
917	barval = (((BGprmtr[i] >> 5) - 500) << 6) / 252;
918	BarCset(i, barval);
919
920	} else {
921
922	barval = BGprmtr[i] / 252;
923	BarBset(i, barval);
924	}
925	}
926
927	break;
928
929	case LS_OTHER:
930
931	for (i = 0; i < 14; i++)
932	BarBset(i, (BGother[i] / 252));
933
934	break;
935
936	case LS_EQ:
937
938	for (i = 0; i < 14; i++)
939	BarCset(i, BGeq[i]);
940
941	break;
942
943	default:
944
945	break;
946	}
947
948	GLCcurs(G_OFF);
949	dsrpmod();
950	dclkmd();
951	ulamp();
952	}
953
954	/*
955
956	*/
957
958	/*
959	=============================================================================
960	selasg() -- select assignment table
961	=============================================================================
962	*/
963
964	selasg(n)
965	short n;
966	{
967	register struct s_entry *ep;
968
969	getasg(curasg = n); /* set the assignment */
970
971	if (recsw) { /* if we're recording ... */
972
973	if (E_NULL NE (ep = findev(p_cur, t_cur, EV_ASGN, -1, -1))) {
974
975	ep->e_data1 = n; /* update old event */
976
977	} else if (E_NULL NE (ep = e_alc(E_SIZE2))) {
978
979	ep->e_type = EV_ASGN; /* create new event */
980	ep->e_data1 = n;
981	ep->e_time = t_cur;
982	p_cur = e_ins(ep, ep_adj(p_cur, 0, t_cur))->e_fwd;
983	eh_ins(ep, EH_ASGN);
984
985	if (ndisp EQ 2) { /* if the score is up ... */
986
987	ctrsw = TRUE;
988	se_disp(ep, D_FWD, gdstbc, 1);
989	scupd();
990	}
991	}
992	}
993
994	asmode = 0; /* drop out of assignment mode */
995	pkctrl = oldpk; /* restore previous mode */
996	swpt = oldsw;
997
998	point = GLCplot; /* update the LCD */
999	GLCcurs(G_ON);
1000	lseg(ASGN_XL, ASGN_Y, ASGN_XR, ASGN_Y, 0);
1001	GLCtext(0, 1, swtlbls[sliders]);
1002	GLCcurs(G_OFF);
1003
1004	mpcupd(); /* update the video display ... */
1005	setleds(); /* ... and the LEDs */
1006	}
1007
1008	/*
1009
1010	*/
1011
1012	/*
1013	=============================================================================
1014	l_adfl() -- select default assignment table
1015	=============================================================================
1016	*/
1017
1018	l_adfl(stat)
1019	short stat;
1020	{
1021	if (NOT stat)
1022	return;
1023
1024	selasg(0);
1025	}
1026
1027	/*
1028
1029	*/
1030
1031	/*
1032	=============================================================================
1033	l_asgn() -- select assignment
1034	=============================================================================
1035	*/
1036
1037	l_asgn(stat)
1038	short stat;
1039	{
1040	if (NOT stat) /* only do this on key closure */
1041	return;
1042
1043	point = GLCplot; /* set up to plot on the LCD */
1044	GLCcurs(G_ON);
1045
1046	if (ismode NE IS_NULL) { /* cancel instrument select mode */
1047
1048	ismode = IS_NULL;
1049	pkctrl = oldpk;
1050	sliders = oldsl;
1051	swpt = oldsw;
1052	lcdlbls();
1053	}
1054
1055	if (gomode NE GO_NULL) { /* cancel Go To mode */
1056
1057	gomode = GO_NULL;
1058	pkctrl = oldpk;
1059	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 0);
1060	}
1061	/*
1062
1063	*/
1064	switch (asmode) {
1065
1066	case 0: /* initial actuation */
1067
1068	if ((pkctrl EQ PK_PFRM) OR (pkctrl EQ PK_NOTE))
1069	oldpk = pkctrl;
1070
1071	asmode = (curasg ? ((curasg - 1) / 20) : 0) + 1;
1072	pkctrl = PK_ASGN;
1073	memcpy(aswtbl, swpt, sizeof t_prmtr);
1074	oldsw = swpt;
1075	swpt = aswtbl;
1076	aswtbl[13] = l_adfl;
1077	lseg(ASGN_XL, ASGN_Y, ASGN_XR, ASGN_Y, 1);
1078	GLCtext(0, 79, "Deflt");
1079	break;
1080
1081	case 1: /* +00 -- 01..20 to +20 */
1082	case 2: /* +20 -- 21..40 to +40 */
1083	case 3: /* +40 -- 41..60 to +60 */
1084	case 4: /* +60 -- 61..80 to +80 */
1085
1086	++asmode;
1087	break;
1088
1089	case 5: /* +80 -- 81..99 to +00 */
1090
1091	asmode = 1;
1092	break;
1093
1094	}
1095
1096	GLCtext(0, 43, aslbls[asmode]);
1097	GLCcurs(G_OFF);
1098	setleds();
1099	}
1100
1101	/*
1102
1103	*/
1104
1105	/*
1106	=============================================================================
1107	l_inst() -- set select instrument mode
1108	=============================================================================
1109	*/
1110
1111	l_inst(stat)
1112	short stat;
1113	{
1114	if (NOT stat)
1115	return;
1116
1117	point = GLCplot; /* set up to plot on the LCD */
1118	GLCcurs(G_ON);
1119
1120	if (asmode) { /* cancel assignment mode */
1121
1122	asmode = 0;
1123	pkctrl = oldpk;
1124	swpt = oldsw;
1125	lseg(ASGN_XL, ASGN_Y, ASGN_XR, ASGN_Y, 0);
1126	}
1127
1128	if (gomode NE GO_NULL) { /* cancel Go To mode */
1129
1130	gomode = GO_NULL;
1131	pkctrl = oldpk;
1132	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 0);
1133	}
1134
1135	GLCcurs(G_OFF);
1136	/*
1137
1138	*/
1139	switch (ismode) {
1140
1141	case IS_NULL: /* select +00 -- low orchestra */
1142
1143	if ((pkctrl EQ PK_PFRM) OR (pkctrl EQ PK_NOTE))
1144	oldpk = pkctrl;
1145
1146	if (sliders NE LS_INST)
1147	oldsl = sliders;
1148
1149	oldsw = swpt;
1150	swpt = t_inst;
1151	pkctrl = PK_INST;
1152	ismode = IS_LORC;
1153	sliders = LS_INST;
1154	lcdlbls();
1155	break;
1156
1157	case IS_LORC: /* select +20 -- high orchestra */
1158
1159	ismode = IS_HORC;
1160	GLCcurs(G_ON);
1161	GLCtext(0, 73, " +20 ");
1162	GLCcurs(G_OFF);
1163	break;
1164
1165	case IS_HORC: /* deselect */
1166	default:
1167
1168	ismode = IS_NULL;
1169	pkctrl = oldpk;
1170	sliders = oldsl;
1171	swpt = oldsw;
1172	lcdlbls();
1173	break;
1174	}
1175
1176	setleds();
1177	}
1178
1179	/*
1180
1181	*/
1182
1183	/*
1184	=============================================================================
1185	selins() -- select an instrument
1186	=============================================================================
1187	*/
1188
1189	selins(ival)
1190	register short ival;
1191	{
1192	register short n;
1193	register struct s_entry *ep;
1194
1195	for (n = 0; n < 12; n++) {
1196
1197	if (FALSE EQ grpsel[n])
1198	continue;
1199
1200	ins2grp[n] = ival \| (ins2grp[n] & 0xFF00);
1201	setv2gi(n);
1202
1203	if (recsw AND grpstat[n] AND (2 EQ grpmode[n])) {
1204
1205	if (E_NULL NE (ep = findev(p_cur, t_cur, EV_INST, n, -1))) {
1206
1207	ep->e_data2 = ival;
1208
1209	} else if (E_NULL NE (ep = e_alc(E_SIZE2))) {
1210
1211	ep->e_type = EV_INST;
1212	ep->e_data1 = n;
1213	ep->e_data2 = ival;
1214	ep->e_time = t_cur;
1215	p_cur = e_ins(ep, ep_adj(p_cur, 0, t_cur))->e_fwd;
1216	eh_ins(ep, EH_INST);
1217
1218	if (ndisp EQ 2) {
1219
1220	ctrsw = TRUE;
1221	se_disp(ep, D_FWD, gdstbc, 1);
1222	scupd();
1223	}
1224	}
1225	}
1226	}
1227
1228	setinst();
1229
1230	/*
1231
1232	*/
1233	ismode = IS_NULL;
1234	pkctrl = oldpk;
1235	sliders = oldsl;
1236	swpt = oldsw;
1237	lcdlbls();
1238	setleds();
1239	mpcupd();
1240	}
1241
1242	/*
1243
1244	*/
1245
1246	/*
1247	=============================================================================
1248	l_dflt() -- select default isntrument
1249	=============================================================================
1250	*/
1251
1252	l_dflt(stat)
1253	short stat;
1254	{
1255	if (NOT stat)
1256	return;
1257
1258	selins(0);
1259	}
1260
1261	/*
1262
1263	*/
1264
1265	/*
1266	=============================================================================
1267	l_goto() -- go to (section / score)
1268	=============================================================================
1269	*/
1270
1271	l_goto(stat)
1272	short stat;
1273	{
1274	if (NOT stat) /* only do this on key closure */
1275	return;
1276
1277	point = GLCplot; /* set up to plot on the LCD */
1278	GLCcurs(G_ON);
1279
1280	if (asmode) { /* cancel assignment mode */
1281
1282	asmode = 0;
1283	pkctrl = oldpk;
1284	swpt = oldsw;
1285	lseg(ASGN_XL, ASGN_Y, ASGN_XR, ASGN_Y, 0);
1286	}
1287
1288	if (ismode NE IS_NULL) { /* cancel instrument select mode */
1289
1290	ismode = IS_NULL;
1291	sliders = oldsl;
1292	pkctrl = oldpk;
1293	swpt = oldsw;
1294	lcdlbls();
1295	}
1296
1297	recsw = FALSE; /* force play mode */
1298	dsrpmod();
1299	/*
1300
1301	*/
1302	switch (gomode) { /* select Go To mode */
1303
1304	case GO_NULL:
1305
1306	if ((pkctrl EQ PK_PFRM) OR (pkctrl EQ PK_NOTE))
1307	oldpk = pkctrl;
1308
1309	pkctrl = PK_GOTO;
1310	gomode = GO_SECT;
1311	GLCtext(0, 31, "Sectn");
1312	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 1);
1313	break;
1314
1315	case GO_SECT:
1316
1317	gomode = GO_SCOR;
1318	GLCtext(0, 31, "Score");
1319	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 1);
1320	break;
1321
1322	case GO_SCOR:
1323	default:
1324
1325	pkctrl = oldpk;
1326	gomode = GO_NULL;
1327	GLCtext(0, 31, "Go To");
1328	lseg(GOTO_XL, GOTO_Y, GOTO_XR, GOTO_Y, 0);
1329	break;
1330	}
1331
1332	GLCcurs(G_OFF);
1333	setleds();
1334	}
1335
1336	/*
1337
1338	*/
1339
1340	/*
1341	=============================================================================
1342	newpps() -- send out new polyphonic pressure source value
1343	=============================================================================
1344	*/
1345
1346	newpps(trg, grp, src, ival)
1347	register short trg;
1348	short grp, src;
1349	register short ival;
1350	{
1351	register struct sment smf, smp;
1352	register unsigned *fpu;
1353	register long ltmp;
1354	register short val;
1355	register short vce;
1356	short gs, oldi;
1357
1358	gs = (grp << 4) \| src; /* calculate group/source index */
1359	fpu = io_fpu + FPU_OFNC; /* point at FPU base */
1360	valents[gs].val = ival; /* update value in table */
1361	smp = smf = (struct sment *)&valents[gs];
1362
1363	/*
1364
1365	*/
1366	while (smf NE (smp = smp->nxt)) { /* for each function ... */
1367
1368	vce = (smp->vp >> 4) & 0x0F; /* extract voice number */
1369
1370	if (vce2trg[vce] EQ trg) { /* for each key that matches ... */
1371
1372	switch (smp->vp & 0x000F) {
1373
1374	case 1: /* frq 1 */
1375	case 3: /* frq 2 */
1376	case 5: /* frq 3 */
1377	case 7: /* frq 4 */
1378
1379	val = ival >> 3;
1380	break;
1381
1382	case 10: /* filtr */
1383
1384	ltmp = ((long)ival >> 1) + ((long)ival >> 2);
1385
1386	if (ltmp > (long)VALMAX)
1387	ltmp = (long)VALMAX;
1388	else if (ltmp < (long)VALMIN)
1389	ltmp = (long)VALMIN;
1390
1391	val = (short)ltmp;
1392	break;
1393
1394	default:
1395
1396	val = ival;
1397	}
1398
1399	oldi = setipl(FPU_DI);
1400
1401	/* ++++++++++++++++++++++++++++ FPU interrupts disabled +++++++++++++++++++++ */
1402
1403	*(fpu + (smp->vp << 4) + FPU_TCV1) = val;
1404
1405	setipl(oldi);
1406
1407	/* ++++++++++++++++++++++++++++ Interrupts restored +++++++++++++++++++++++++ */
1408
1409	}
1410	}
1411	}
1412
1413	/*
1414
1415	*/
1416
1417	/*
1418	=============================================================================
1419	newsv() -- send out new source value if it's changed
1420	=============================================================================
1421	*/
1422
1423	short
1424	newsv(grp, src, ival)
1425	short grp, src;
1426	register short ival;
1427	{
1428	register struct sment smf, smp;
1429	register unsigned *fpu;
1430	register long ltmp;
1431	register short val;
1432	register short gs;
1433	register short oldi;
1434	short vmask, var;
1435
1436	gs = (grp << 4) \| src; /* calculate grp/src index */
1437
1438	if (-1 NE (var = src2var[src])) { /* see if its a variable */
1439
1440	vmask = vmasks[anrs[var][grp]]; /* setup resolution mask */
1441
1442	/* see if we have a change in the selected significant bits */
1443
1444	if (((val = valents[gs].val) & vmask) EQ (ival & vmask)) {
1445
1446	/* make sure we always see a change to zero */
1447
1448	if (NOT ((ival EQ 0) AND val)) /* if not becoming zero */
1449	return(FALSE); /* ... it didn't change enough */
1450	}
1451	}
1452
1453	fpu = io_fpu + FPU_OFNC; /* point to FPU */
1454
1455	valents[gs].val = ival; /* update value in table */
1456
1457	smf = (struct sment )&valents[gs]; / point at value table */
1458	smp = smf;
1459
1460	/*
1461
1462	*/
1463	while (smf NE (smp = smp->nxt)) { /* update functions */
1464
1465	switch (smp->vp & 0x000F) {
1466
1467	case 1: /* frq 1 */
1468	case 3: /* frq 2 */
1469	case 5: /* frq 3 */
1470	case 7: /* frq 4 */
1471
1472	val = ival >> 3;
1473	break;
1474
1475	case 10: /* filtr */
1476
1477	ltmp = ((long)ival >> 1) + ((long)ival >> 2);
1478
1479	if (ltmp > (long)VALMAX)
1480	ltmp = (long)VALMAX;
1481	else if (ltmp < (long)VALMIN)
1482	ltmp = (long)VALMIN;
1483
1484	val = (short)ltmp;
1485	break;
1486
1487	default:
1488
1489	val = ival;
1490	}
1491
1492	oldi = setipl(FPU_DI);
1493
1494	/* ++++++++++++++++++++++++++++ FPU interrupts disabled +++++++++++++++++++++ */
1495
1496	*(fpu + (smp->vp << 4) + FPU_TCV1) = val;
1497
1498	setipl(oldi);
1499
1500	/* ++++++++++++++++++++++++++++ Interrupts restored +++++++++++++++++++++++++ */
1501
1502	}
1503
1504	return(TRUE);
1505	}
1506
1507	/*
1508
1509	*/
1510
1511	/*
1512	=============================================================================
1513	setsv() -- unconditionally send out new source value
1514	=============================================================================
1515	*/
1516
1517	setsv(grp, src, ival)
1518	short grp, src;
1519	register short ival;
1520	{
1521	register struct sment smf, smp;
1522	register unsigned *fpu;
1523	register long ltmp;
1524	register short val;
1525	register short gs;
1526	register short oldi;
1527
1528	gs = (grp << 4) \| src; /* calculate grp/src index */
1529	fpu = io_fpu + FPU_OFNC; /* point to FPU */
1530
1531	valents[gs].val = ival; /* update value in table */
1532
1533	smf = (struct sment )&valents[gs]; / point at value table */
1534	smp = smf;
1535
1536	/*
1537
1538	*/
1539	while (smf NE (smp = smp->nxt)) { /* update functions */
1540
1541	switch (smp->vp & 0x000F) {
1542
1543	case 1: /* frq 1 */
1544	case 3: /* frq 2 */
1545	case 5: /* frq 3 */
1546	case 7: /* frq 4 */
1547
1548	val = ival >> 3;
1549	break;
1550
1551	case 10: /* filtr */
1552
1553	ltmp = ((long)ival >> 1) + ((long)ival >> 2);
1554
1555	if (ltmp > (long)VALMAX)
1556	ltmp = (long)VALMAX;
1557	else if (ltmp < (long)VALMIN)
1558	ltmp = (long)VALMIN;
1559
1560	val = (short)ltmp;
1561	break;
1562
1563	default:
1564
1565	val = ival;
1566	}
1567
1568	oldi = setipl(FPU_DI);
1569
1570	/* ++++++++++++++++++++++++++++ FPU interrupts disabled +++++++++++++++++++++ */
1571
1572	*(fpu + (smp->vp << 4) + FPU_TCV1) = val;
1573
1574	setipl(oldi);
1575
1576	/* ++++++++++++++++++++++++++++ Interrupts restored +++++++++++++++++++++++++ */
1577
1578	}
1579	}
1580
1581	/*
1582
1583	*/
1584
1585	/*
1586	=============================================================================
1587	l_prmtr() -- set parameter articulation status
1588	=============================================================================
1589	*/
1590
1591	l_prmtr(stat, sig)
1592	short stat, sig;
1593	{
1594	if (NOT stat)
1595	return;
1596
1597	switch (sliders) {
1598
1599	case LS_PRMTR:
1600	case LS_OTHER:
1601	case LS_EQ:
1602
1603	sliders = LS_VOICE;
1604	swpt = t_voice;
1605	break;
1606
1607	case LS_VOICE:
1608	default:
1609
1610	sliders = LS_PRMTR;
1611	swpt = t_prmtr;
1612	break;
1613	}
1614
1615	lcdlbls();
1616	setleds();
1617	}
1618
1619	/*
1620
1621	*/
1622
1623	/*
1624	=============================================================================
1625	l_voice() -- set voice selection status
1626	=============================================================================
1627	*/
1628
1629	l_voice(stat, vce)
1630	short stat, vce;
1631	{
1632	register short ap, j, par;
1633	register unsigned *fpu;
1634
1635	char buf[8];
1636
1637	if (NOT stat)
1638	return;
1639
1640	articen[vce] = NOT articen[vce]; /* toggle voice enable */
1641
1642	sprintf(buf, "%c%2d %c", (articen[vce] ? '\176' : ' '), vce + 1,
1643	(articen[vce] ? '\177' : ' '));
1644
1645	GLCcurs(G_ON);
1646	GLCtext(0, (1 + (6 * vce)), buf);
1647	GLCcurs(G_OFF);
1648
1649	if (articen[vce]) { /* turn articulation on if voice is enabled */
1650
1651	for (ap = 0; ap < 14; ap++) {
1652
1653	par = arpar[ap];
1654	sendart(vce, par, lastart[par]);
1655	}
1656
1657	} else { /* ... or turn it off if voice is disabled */
1658
1659	fpu = io_fpu + FPU_OFNC + (vce << 8);
1660
1661	for (j = 1; j < 16; j++)
1662	*(fpu + (j << 4) + FPU_TSF2) = 0;
1663	}
1664	}
1665
1666	/*
1667
1668	*/
1669
1670	/*
1671	=============================================================================
1672	l_group() -- set group selection status
1673	=============================================================================
1674	*/
1675
1676	l_group(stat, grp)
1677	short stat, grp;
1678	{
1679	char buf[8];
1680
1681	if (NOT stat)
1682	return;
1683
1684	grpsel[grp] = NOT grpsel[grp]; /* toggle voice enable */
1685
1686	sprintf(buf, "%c%2d %c", (grpsel[grp] ? '\176' : ' '), grp + 1,
1687	(grpsel[grp] ? '\177' : ' '));
1688
1689	GLCcurs(G_ON);
1690	GLCtext(0, (1 + (6 * grp)), buf);
1691	GLCcurs(G_OFF);
1692	}
1693
1694	/*
1695	=============================================================================
1696	l_other -- set aux function status
1697	=============================================================================
1698	*/
1699
1700	l_other(stat, sig)
1701	short stat, sig;
1702	{
1703	if (NOT stat)
1704	return;
1705
1706	sliders = LS_OTHER;
1707	swpt = t_other;
1708
1709	lcdlbls();
1710	}
1711
1712	/*
1713
1714	*/
1715
1716	/*
1717	=============================================================================
1718	l_eq -- set eq mode
1719	=============================================================================
1720	*/
1721
1722	l_eq(stat, sig)
1723	short stat, sig;
1724	{
1725	if (NOT stat)
1726	return;
1727
1728	if (sliders EQ LS_EQ) {
1729
1730	sliders = LS_PRMTR;
1731	swpt = t_prmtr;
1732
1733	} else {
1734
1735	sliders = LS_EQ;
1736	swpt = t_eq;
1737	}
1738
1739	lcdlbls();
1740	}
1741
1742	/*
1743	=============================================================================
1744	artclr() -- clear the articulation pot values
1745	=============================================================================
1746	*/
1747
1748	artclr()
1749	{
1750	register short i;
1751
1752	for (i = 0; i < 14; i++)
1753	lastart[arpar[i]] = artitab[i];
1754	}
1755
1756	/*
1757
1758	*/
1759
1760	/*
1761	=============================================================================
1762	l_init() -- initialize articulation values (reset the sliders)
1763	=============================================================================
1764	*/
1765
1766	l_init(stat, sig)
1767	short stat, sig;
1768	{
1769	register unsigned *fpu;
1770	register short barval, i, j;
1771	char buf[16];
1772
1773	if (NOT stat)
1774	return;
1775
1776	fpu = io_fpu + FPU_OFNC;
1777
1778	switch (sliders) {
1779
1780	case LS_PRMTR:
1781	case LS_VOICE:
1782	case LS_INST:
1783	case LS_LIBR:
1784	case LS_NGRP:
1785	case LS_LOAD:
1786
1787	/* clear all but spares in voices 1..12 */
1788
1789	for (i = 0; i < 12; i++)
1790	for (j = 1; j < 16; j++)
1791	*(fpu + (i << 8) + (j << 4) + FPU_TSF2) = 0;
1792
1793	artclr();
1794
1795	for (i = 0; i < 14; i++) {
1796
1797	BGprmtr[i] = artitab[i];
1798
1799	if (BarType[i]) {
1800
1801	barval = (((artitab[i] >> 5) - 500) << 6) / 252;
1802	BarCset(i, barval);
1803
1804	} else {
1805
1806	barval = artitab[i] / 252;
1807	BarBset(i, barval);
1808	}
1809	}
1810
1811	break;
1812
1813	case LS_OTHER:
1814
1815	/* clear spares in voices 2..12 */
1816
1817	for (i = 1; i < 12; i++)
1818	*(fpu + (i << 8) + FPU_TSF2) = 0;
1819
1820	for (i = 0; i < 14; i++)
1821	BarBset(i, BGother[i] = 0);
1822
1823	break;
1824
1825	case LS_EQ:
1826
1827	for (i = 0; i < 14; i++) {
1828
1829	sendeq(i, gain2eq(0));
1830	BarCset(i, BGeq[i] = 0);
1831	}
1832
1833	break;
1834	}
1835	}
1836
1837	/*
1838
1839	*/
1840
1841	/*
1842	=============================================================================
1843	sendart() -- send out an articulation value
1844	=============================================================================
1845	*/
1846
1847	sendart(vce, par, ival)
1848	short vce, par, ival;
1849	{
1850	register unsigned *fpu;
1851	register short val, oldi, mult;
1852	short nop;
1853
1854	lastart[par] = ival;
1855
1856	fpu = io_fpu + FPU_OFNC + (vce << 8) + (par << 4);
1857	mult = 0x7FFF;
1858
1859	switch (par) {
1860
1861	case 1: /* freq 1 */
1862	case 3: /* freq 2 */
1863	case 5: /* freq 3 */
1864	case 7: /* freq 4 */
1865
1866	val = addpch(ival, 0);
1867	break;
1868
1869	case 10: /* filter */
1870
1871	val = ((ival >> 5) - 500) << 5;
1872	break;
1873
1874	/*
1875
1876	*/
1877
1878	case 2: /* level */
1879
1880	val = ival;
1881	mult = 0xFFFF;
1882	break;
1883
1884	case 4: /* location */
1885
1886	val = ((ival >> 5) - 500) << 5;
1887	mult = 0xFFFF;
1888	break;
1889
1890	default:
1891
1892	val = ival;
1893	}
1894
1895	oldi = setipl(FPU_DI);
1896
1897	/* ++++++++++++++++++++++++++++ FPU interrupts disabled +++++++++++++++++++++ */
1898
1899	*(fpu + FPU_TCV2) = val;
1900	++nop; ++nop; ++nop;
1901	*(fpu + FPU_TSF2) = mult;
1902
1903	setipl(oldi);
1904
1905	/* ++++++++++++++++++++++++++++ Interrupts restored +++++++++++++++++++++++++ */
1906
1907	}
1908
1909	/*
1910
1911	*/
1912
1913	/*
1914	=============================================================================
1915	doslide() -- update a changed slider value
1916	=============================================================================
1917	*/
1918
1919	doslide()
1920	{
1921	register short arp, bar, barval, i, slval;
1922
1923	slval = ART_VAL(aval); /* scaled articulation value */
1924	bar = asig - 25; /* bar number */
1925
1926	switch (sliders) {
1927
1928	case LS_PRMTR: /* parameter articulation */
1929	case LS_VOICE:
1930	case LS_INST:
1931	case LS_LIBR:
1932	case LS_NGRP:
1933	case LS_LOAD:
1934
1935	BGprmtr[bar] = slval;
1936	arp = arpar[bar];
1937
1938	for (i = 0; i < 12; i++)
1939	if (articen[i])
1940	sendart(i, arp, slval);
1941
1942	if (BarType[bar]) { /* center-zero bar */
1943
1944	barval = (((slval >> 5) - 500) << 6) / 252;
1945	BarCadj(bar, barval);
1946
1947	} else { /* bottom-zero bar */
1948
1949	barval = slval / 252;
1950	BarBadj(bar, barval);
1951	}
1952
1953	return;
1954	/*
1955
1956	*/
1957	case LS_OTHER: /* aux, dome, cv control */
1958
1959	switch (asig) {
1960
1961	case 26: /* aux mod */
1962	sendart(9, 0, slval);
1963	break;
1964
1965	case 27: /* depth */
1966	sendart(3, 0, slval);
1967	break;
1968
1969	case 28: /* rate */
1970	sendart(2, 0, slval);
1971	break;
1972
1973	case 29: /* intensity */
1974	sendart(1, 0, slval);
1975	break;
1976
1977	case 30: /* cv1 */
1978	sendart(11, 0, slval);
1979	break;
1980
1981	case 31: /* cv2 */
1982	sendart(10, 0, slval);
1983	break;
1984
1985	case 32: /* cv3 */
1986	sendart(6, 0, slval);
1987	break;
1988
1989	case 33: /* cv4 */
1990	sendart(8, 0, slval);
1991	break;
1992
1993	default:
1994	slval = 0; /* force unused pots to stay zero */
1995	break;
1996	}
1997
1998	BGother[bar] = slval;
1999	barval = slval / 252;
2000	BarBadj(bar, barval);
2001
2002	return;
2003
2004	/*
2005
2006	*/
2007	case LS_EQ: /* eq control */
2008
2009	barval = (((slval >> 5) - 500) << 6) / 252;
2010	BGeq[bar] = barval;
2011	sendeq(bar, gain2eq(SL2GAIN(slval)));
2012	BarCadj(bar, barval);
2013
2014	return;
2015
2016	default:
2017	return;
2018	}
2019	}
2020
2021	/*
2022
2023	*/
2024
2025	/*
2026	=============================================================================
2027	settmpo() -- set the tempo
2028	=============================================================================
2029	*/
2030
2031	settmpo(val)
2032	short val;
2033	{
2034	register short timeval;
2035
2036	tmpoval = val;
2037	timeval = ( ( (tmpomlt + 50) * tmpoval) / 100);
2038	timeval = (short)( (192000L / timeval) - 1);
2039	TIME_T2H = timeval >> 8;
2040	TIME_T2L = timeval & 0x00FF;
2041	}
2042
2043	/*
2044
2045	*/
2046
2047	/*
2048	=============================================================================
2049	settune() -- send the fine tuning from tuneval to the FPU
2050	=============================================================================
2051	*/
2052
2053	settune()
2054	{
2055	register short oldi, i, grp;
2056	register unsigned *fpu;
2057	register long trval, trmax;
2058	short nop;
2059
2060	trmax = PCHMAX;
2061
2062	oldi = setsr(0x2200);
2063
2064	/* +++++++++++++++++++++++ FPU interrupts disabled ++++++++++++++++++++++++++ */
2065
2066	for (i = 0; i < 12; i++) {
2067
2068	if (-1 NE (grp = vce2grp[i])) {
2069
2070	trval = (long)tuneval + ((long)s_trns[grp - 1] << 1);
2071
2072	if (trval > trmax)
2073	trval = trmax;
2074
2075	} else {
2076
2077	trval = (long)tuneval;
2078	}
2079
2080	fpu = io_fpu + FPU_OFNC + (i << 8) + 0x0010; /* freq 1 */
2081
2082	*(fpu + FPU_TCV3) = (unsigned)(0x0000FFFFL & trval);
2083	++nop; ++nop; ++nop;
2084	*(fpu + FPU_TSF3) = 0x7FFF;
2085	}
2086
2087	setsr(oldi);
2088
2089	/* ++++++++++++++++++++++++++++ Interrupts restored +++++++++++++++++++++++++ */
2090
2091	}

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