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source: buchla-68k/ram/ptdkey.c@ f6afbab

0.1

Last change on this file since f6afbab was f6afbab, checked in by Thomas Lopatic <thomas@…>, 6 years ago
Fixed initializer list.
Property mode set to `100644`
File size: 20.9 KB

Line
1	/*
2	=============================================================================
3	ptdkey.c -- MIDAS-VII patch display data entry functions
4	Version 29 -- 1988-12-08 -- D.N. Lynx Crowe
5	=============================================================================
6	*/
7
8	#define DEBUGPD 0
9	#define DEBUGVP 0
10	#define DUMPDEF 0
11	#define DUMPSTM 0
12
13	#include "ram.h"
14
15	#if DEBUGPD
16	short debugpd = 1;
17	short snappb = 0;
18	#endif
19
20	#if DEBUGVP
21	short debugvp = 1;
22	#endif
23
24	#if DUMPDEF
25	short dumpdef = 0;
26	#endif
27
28	#if DUMPSTM
29	short dumpstm = 0;
30	#endif
31
32	int16_t dsdecol[5][2][2] = { /* destination data entry column table */
33
34	{{ 6, 8 }, { 19, 21 }}, /* 0 -- key, rel -- key number */
35	{{ 7, 8 }, { 20, 21 }}, /* 1 -- trg -- trigger number */
36	{{ 8, 8 }, { 21, 21 }}, /* 2 -- pls -- pulse number */
37	{{ 10, 10 }, { 23, 23 }}, /* 3 -- key, rel -- port number */
38	{{ 12, 13 }, { 25, 26 }} /* 4 -- key, rel -- channel number */
39	};
40
41	int16_t des2fmt[] = { /* destination type to data entry format */
42
43	-1, 0, 1, 2, 3, 4, 4, 5,
44	4, 4, 6, 9, 6, 6, 6, 10,
45	9, 9, 10, 10, 10, 10, 7, 7,
46	7, 7, 8
47	};
48
49	int16_t dtabl7[] = { 11, 1, 2, 3, 10 }; /* aux datum format table */
50
51	int16_t dtabl9[] = { 11, 1, 2, 3, 9 }; /* FPU datum format table */
52
53	/*
54	=============================================================================
55	SnapPTV() -- snap dump patch variables
56	=============================================================================
57	*/
58
59	void SnapPTV(int8_t *s)
60	{
61	register int16_t i;
62	int8_t dbuf[50];
63
64	printf("\n%s(): called SnapPTV()\n", s);
65
66	memcpy(dbuf, ptdebuf, 48);
67
68	for (i = 0; i < 48; i++)
69	if (dbuf[i] EQ '\0')
70	dbuf[i] = ' ';
71	else if (dbuf[i] & 0x0080)
72	dbuf[i] = '~';
73
74	dbuf[48] = '\0';
75
76	printf(" ptdebuf = \"%s\"\n", dbuf);
77
78	printf(" pte $%04.4X $%04.4X $%04.4X $%04.4X $%04.4X $%04.4X\n",
79	ptedef, ptestm, ptespec, ptesuba, ptedat1, ptedat2);
80
81	printf(" ptb $%04.4X $%04.4X $%04.4X $%04.4X $%04.4X $%04.4X\n",
82	ptebuf.defnum, ptebuf.stmnum, ptebuf.paspec,
83	ptebuf.pasuba, ptebuf.padat1, ptebuf.padat2);
84
85	printf(" pte dftp: %2d dfst: %2d dest: %2d data: %2d menu: %2d\n",
86	ptedftp, ptedfst, ptedest, ptedata, ptemenu);
87
88	printf(" pte good: %d dfok: %d stok: %d dsok: %d dtok: %d set: %d flag: %d\n",
89	ptegood, ptedfok, ptestok, ptedsok, ptedtok, pteset, ptbflag);
90
91	printf(" pte pred: %3d cpos: %3d succ: %3d\n",
92	ptepred, ptecpos, ptesucc);
93
94	#if DUMPDEF
95
96	if (dumpdef) {
97
98	printf(" dpe pred: %3d cpos: %3d succ: %3d\n",
99	dpepred, dpecpos, dpesucc);
100
101	for (stim = 0; stim < NDEFSTMS; stim++) {
102
103	if (defptr[stim]) {
104
105	printf(" defptr[$%04.4X] = %3d%s\n",
106	stim, defptr[stim],
107	((TRG_MASK & ptedef) EQ stim) ?
108	" <-- ptedef" : "");
109	}
110	}
111	}
112	#endif
113
114	#if DUMPSTM
115	if (dumpstm) {
116
117	for (stim = 0; stim < NDEFSTMS; stim++)
118	if (stmptr[stim])
119	printf(" stmptr[$%04.4X] = %3d%s\n",
120	stim, stmptr[stim],
121	((TRG_MASK & ptestm) EQ stim) ?
122	" <-- ptestm" : "");
123	}
124	#endif
125
126	printf("\n");
127	}
128
129	/*
130	=============================================================================
131	buf2pte() -- pack the patch buffer
132	=============================================================================
133	*/
134
135	void buf2pte(void)
136	{
137	ptebuf.defnum = ptedef;
138	ptebuf.stmnum = ptestm;
139	ptebuf.paspec = ptespec;
140	ptebuf.pasuba = ptesuba;
141	ptebuf.padat1 = ptedat1;
142	ptebuf.padat2 = ptedat2;
143
144	pteset = TRUE;
145
146	#if DEBUGPD
147	if (debugsw AND debugpd) {
148
149	if (snappb)
150	SnapPTV("buf2pte");
151
152	printf("buf2pte(): ptebuf setup\n");
153	}
154	#endif
155
156	}
157
158	/*
159	=============================================================================
160	voidpb() -- void the patch buffer
161	=============================================================================
162	*/
163
164	void voidpb(void)
165	{
166	memset(ptdebuf, ' ', 50); /* clear data entry buffer */
167
168	ptebuf.defnum = ptedef = NULL_DEF; /* blank definer */
169	ptebuf.stmnum = ptestm = 0x0000;
170	ptebuf.paspec = ptespec = 0x0000;
171	ptebuf.pasuba = ptesuba = 0x0000;
172	ptebuf.padat1 = ptedat1 = 0x0000;
173	ptebuf.padat2 = ptedat2 = 0x0000;
174
175	ptbflag = FALSE;
176
177	pteset = FALSE;
178
179	ptegood = FALSE;
180
181	ptedfok = TRUE; /* definer is OK until it's screwed up */
182	ptestok = FALSE;
183	ptedsok = FALSE;
184	ptedtok = FALSE;
185
186	ptedfst = -1;
187	ptedest = -1;
188	ptedata = -1;
189
190	#if DEBUGVP
191	if (debugsw AND debugvp) {
192
193	if (snappb)
194	SnapPTV("voidpb");
195
196	printf("voidpb(): patch buffer VOIDED\n");
197	}
198	#endif
199
200	}
201
202	/*
203	=============================================================================
204
205	=============================================================================
206	*/
207
208	void setptcv(void)
209	{
210	register uint16_t spec;
211
212	ptedest = des2fmt[spec = ptespec & PE_SPEC];
213
214	switch (ptedest) { /* setup datum entry format */
215
216	case 0: /* key */
217	case 2: /* pulse */
218
219	ptedata = 8;
220	break;
221
222	case 1: /* trigger */
223
224	ptedata = 9;
225	break;
226
227	case 3: /* led */
228
229	ptedata = 14;
230	break;
231
232	case 4: /* seq, reg */
233
234	if (spec EQ PA_SLIN)
235	ptedata = 13;
236	else if (spec EQ PA_SCTL)
237	ptedata = 9;
238	else
239	ptedata = 12;
240
241	break;
242
243	case 5: /* tuning */
244
245	ptedata = 18;
246	break;
247
248	case 6: /* inst, wave, config */
249
250	if (spec EQ PA_INST)
251	ptedata = 15;
252	else if (spec EQ PA_CNFG)
253	ptedata = 17;
254	else
255	ptedata = 16;
256
257	break;
258
259	case 7: /* aux, rate, inten, dpth */
260	case 8: /* vout */
261
262	ptedata = dtabl7[ptedat1];
263	break;
264
265	case 9: /* osc, ind, frq */
266	case 10: /* level, filtr, fil q, loctn, dynmc */
267
268	if (spec EQ PA_OSC)
269	ptedata = (int16_t)ptedat1 + 4;
270	else
271	ptedata = dtabl9[ptedat1];
272
273	break;
274
275	default: /* something weird got in here somehow ... */
276
277	#if DEBUGPD
278	if (debugsw AND debugpd)
279	printf("setptcv(): BAD ptedest ($%04.4X), spec = $%04.4X\n",
280	ptedest, spec);
281	#endif
282
283	ptedata = -1;
284	break;
285	}
286	}
287
288	/*
289	=============================================================================
290	pte2buf() -- convert ptebuf to ptdebuf format and load edit variables
291	=============================================================================
292	*/
293
294	void pte2buf(void)
295	{
296	memset(ptdebuf, ' ', 50);
297
298	ptbflag = TRUE;
299
300	if (pteset) { /* if ptebuf is valid ... */
301
302	ptedef = ptebuf.defnum; /* ... setup the edit variables */
303	ptestm = ptebuf.stmnum;
304	ptespec = ptebuf.paspec;
305	ptesuba = ptebuf.pasuba;
306	ptedat1 = ptebuf.padat1;
307	ptedat2 = ptebuf.padat2;
308
309	setptcv(); /* setup control variables */
310
311	dspdfst(&ptdebuf[ 2], ptedef); /* setup the patch buffer */
312	dspdfst(&ptdebuf[15], ptestm);
313	dspdest(&ptdebuf[28], &ptebuf);
314	ptdebuf[ 0] = ' ';
315	ptdebuf[ 1] = ' ';
316	ptdebuf[14] = ' ';
317	ptdebuf[27] = ' ';
318
319
320	ptegood = TRUE; /* validate the patch buffer */
321	ptedfok = TRUE;
322	ptestok = TRUE;
323	ptedsok = TRUE;
324	ptedtok = TRUE;
325
326	#if DEBUGPD
327	if (debugsw AND debugpd) {
328
329	if (snappb)
330	SnapPTV("pte2buf");
331
332	printf("pte2buf(): patch buffer LOADED\n");
333	}
334	#endif
335
336	} else {
337
338	voidpb(); /* void the patch buffer */
339
340	#if DEBUGPD
341	if (debugsw AND debugpd)
342	printf("pte2buf(): patch buffer VOIDED\n");
343	#endif
344
345	}
346	}
347
348	/*
349	=============================================================================
350	ptde_ds() -- digit data entry for definer / stimulus fields
351	=============================================================================
352	*/
353
354	void ptde_ds(int16_t n, int16_t key)
355	{
356	register int16_t chan, port, stim;
357	int8_t buf[8], buf2[8];
358
359	if (n ? ptestok : ptedfok) {
360
361	if ((n EQ 0) AND (ptedef EQ 0xFFFF))
362	return;
363
364	port = ((n ? ptestm : ptedef) >> 11) & 0x0003;
365	chan = ((n ? ptestm : ptedef) >> 7) & 0x000F;
366	stim = (n ? ptestm : ptedef) & 0x007F;
367
368	(void)stim;
369
370	if ((port EQ 0) OR (port EQ 1) OR ((port EQ 2) AND (chan < 2))) {
371
372	/* Key / Rel */
373
374	if (inrange(stccol, dsdecol[0][n][0], dsdecol[0][n][1]) OR
375	inrange(stccol, dsdecol[3][n][0], dsdecol[3][n][1]) OR
376	inrange(stccol, dsdecol[4][n][0], dsdecol[4][n][1])) {
377
378	if (stccol EQ dsdecol[3][n][1]) {
379
380	if ((key < 1) OR (key > 3))
381	return;
382
383	if (key EQ 3) {
384
385	buf[0] = 'L';
386	UpdVid(7, n ? 25 : 12, " ", PTDATR);
387
388	if (n)
389	ptestm &= 0xF87F;
390	else
391	ptedef &= 0xF87F;
392
393	} else {
394
395	sprintf(buf2, "%02d", 1 + chan);
396	buf[0] = (int8_t)(key + '0');
397	UpdVid(7, n ? 25 : 12, buf2, PTDATR);
398	}
399
400	port = key - 1;
401
402	if (n)
403	ptestm = (ptestm & 0xE7FF) \| ((uint16_t)port << 11);
404	else
405	ptedef = (ptestm & 0xE7FF) \| ((uint16_t)port << 11);
406
407	} else {
408
409	buf[0] = (int8_t)(key + '0');
410	}
411
412	ptdebuf[stccol] = buf[0];
413	buf[1] = '\0';
414
415	UpdVid(7, stccol, buf, PTDATR);
416
417	if (stccol EQ dsdecol[4][n][1]) {
418
419	ctcon();
420	return;
421	}
422
423	if ((stccol EQ dsdecol[0][n][1]) OR
424	(stccol EQ dsdecol[3][n][1]))
425	++stccol;
426
427	movectc(stcrow, ++stccol);
428	}
429
430	return;
431
432	} else if ((port EQ 2) AND (chan EQ 2)) {
433
434	/* Trig */
435
436	if (inrange(stccol, dsdecol[1][n][0], dsdecol[1][n][1])) {
437
438	ptdebuf[stccol] = (int8_t)(key + '0');
439	buf[0] = (int8_t)(key + '0');
440	buf[1] = '\0';
441
442	UpdVid(7, stccol, buf, PTDATR);
443
444	if (stccol EQ dsdecol[1][n][1]) {
445
446	ctcon();
447	return;
448	}
449
450	movectc(stcrow, ++stccol);
451	}
452
453	return;
454
455	} else if ((port EQ 2) AND (chan EQ 3)) {
456
457	/* Pulse */
458
459	if (stccol EQ dsdecol[2][n][1]) {
460
461	if ((key < 1) OR (key > 2))
462	return;
463
464	ptdebuf[stccol] = (int8_t)(key + '0');
465	buf[0] = (int8_t)(key + '0');
466	buf[1] = '\0';
467
468	UpdVid(7, stccol, buf, PTDATR);
469	ctcon();
470	}
471
472	return;
473	}
474	}
475	}
476
477	/*
478	=============================================================================
479	ptdkey() -- patch digit data entry function
480	=============================================================================
481	*/
482
483	void ptdkey(int16_t k)
484	{
485	register int16_t key, val, vg;
486	int8_t buf[8];
487
488	(void)k;
489
490	if (NOT astat) /* only do this on key closures */
491	return;
492
493	if (NOT ptbflag) /* load up the edit buffer */
494	pte2buf();
495
496	key = asig - 60;
497
498	if (inrange(stccol, 2, 13)) { /* DEFINER */
499
500	ptde_ds(0, key);
501	return;
502
503	} else if (inrange(stccol, 15, 26)) { /* STIMULUS */
504
505	ptde_ds(1, key);
506	return;
507
508	} else if (inrange(stccol, 28, 40)) { /* DESTINATION */
509
510	if (ptedsok) {
511
512	switch (ptedest) {
513
514	case 0: /* key */
515
516	if (inrange(stccol, 30, 32) OR
517	(stccol EQ 34) OR
518	inrange(stccol, 36, 37)) {
519
520	if (stccol EQ 34) {
521
522	if ((key < 1) OR (key > 3))
523	return;
524
525	if (key EQ 3)
526	buf[0] = 'L';
527	else
528	buf[0] = (int8_t)(key + '0');
529
530	} else {
531
532	buf[0] = (int8_t)(key + '0');
533	}
534
535	ptdebuf[stccol] = buf[0];
536	buf[1] = '\0';
537
538	UpdVid(7, stccol, buf, PTDATR);
539
540	if ((stccol EQ 32) OR (stccol EQ 34))
541	++stccol;
542
543	if (stccol EQ 37)
544	ctcon();
545	else
546	movectc(stcrow, ++stccol);
547	}
548
549	return;
550
551	case 1: /* trg */
552
553	if (inrange(stccol, 36, 37)) {
554
555	ptdebuf[stccol] = (int8_t)(key + '0');
556	buf[0] = (int8_t)(key + '0');
557	buf[1] = '\0';
558
559	UpdVid(7, stccol, buf, PTDATR);
560
561	if (stccol EQ 37)
562	ctcon();
563	else
564	movectc(stcrow, ++stccol);
565	}
566
567	return;
568
569	case 2: /* pls */
570
571	if (stccol EQ 34) {
572
573	if ((key < 1) OR (key > 2))
574	return;
575
576	ptdebuf[stccol] = (int8_t)(key + '0');
577	buf[0] = (int8_t)(key + '0');
578	buf[1] = '\0';
579
580	UpdVid(7, stccol, buf, PTDATR);
581	ctcon();
582	}
583
584	return;
585
586	case 3: /* led */
587
588	if (stccol EQ 32) {
589
590	if (key > 6)
591	return;
592
593	ptdebuf[stccol] = (int8_t)(key + 'A');
594	buf[0] = (int8_t)(key + 'A');
595	buf[1] = '\0';
596
597	UpdVid(7, stccol, buf, PTDATR);
598	ctcon();
599	}
600
601	return;
602
603	case 4: /* seqlin, seqctl, regset, regadd */
604
605	if (inrange(stccol, 32, 33)) {
606
607	ptdebuf[stccol] = (int8_t)(key + '0');
608	buf[0] = (int8_t)(key + '0');
609	buf[1] = '\0';
610
611	UpdVid(7, stccol, buf, PTDATR);
612
613	if (stccol EQ 33)
614	ctcon();
615	else
616	movectc(stcrow, ++stccol);
617	}
618
619	return;
620
621	case 5: /* tune */
622	case 7: /* aux, rate, inten, depth */
623
624	return;
625
626	case 8: /* v out */
627
628	if (stccol EQ 32) {
629
630	if ((key < 1) OR (key > 5))
631	return;
632
633	ptdebuf[stccol] = (int8_t)(key + '0');
634	buf[0] = (int8_t)(key + '0');
635	buf[1] = '\0';
636
637	UpdVid(7, stccol, buf, PTDATR);
638	movectc(DATAROW, 34);
639	}
640
641	return;
642
643	case 9: /* osc, index, freq */
644
645	if (stccol EQ 32) {
646
647	if ((key < 1) OR (key > 4))
648	return;
649
650	ptdebuf[stccol] = (int8_t)(key + '0');
651	buf[0] = (int8_t)(key + '0');
652	buf[1] = '\0';
653
654	UpdVid(7, stccol, buf, PTDATR);
655	movectc(DATAROW, 34);
656	return;
657	}
658
659	/* FALL-THROUGH to handle v/g in columns 39..40 */
660
661	case 6: /* inst, wava, wavb, conf */
662	case 10: /* level, filtr, fil q, loctn, dynmc */
663
664	if (inrange(stccol, 39, 40)) {
665
666	vg = (int16_t)(ptesuba >> 8) & 0x00FF;
667
668	if (stccol EQ 39) {
669
670	if ((key EQ 8) OR (key EQ 9)) {
671
672	if (vg > 11) {
673
674	vg -= 12;
675	val = 'V';
676
677	} else {
678
679	vg += 12;
680	val = 'G';
681	}
682
683	ptesuba = (ptesuba & 0x00FF) \|
684	((uint16_t)vg << 8);
685
686	} else {
687
688	return;
689	}
690
691	} else { /* column 40 */
692
693	if ( ((vg EQ 0) OR (vg EQ 12)) AND
694	((key EQ 0) OR (key EQ 1) OR (key EQ 2)) )
695	key += 10;
696	else if (key EQ 0)
697	return;
698
699	val = key + ((key > 9) ? '\242' :'0') ;
700
701	--key;
702
703	if (vg > 11)
704	vg = key + 12;
705	else
706	vg = key;
707
708	ptesuba = (ptesuba & 0x00FF) \|
709	((uint16_t)vg << 8);
710	}
711
712	ptdebuf[stccol] = (int8_t)val;
713	buf[0] = (int8_t)val;
714	buf[1] = '\0';
715
716	UpdVid(7, stccol, buf, PTDATR);
717
718	if (stccol EQ 40)
719	ctcon();
720	else
721	movectc(stcrow, ++stccol);
722	}
723
724	return;
725
726	default: /* Eh ? */
727
728	return;
729	}
730	}
731
732	} else if (inrange(stccol, 42, 46)) { /* DATUM */
733
734	switch (ptedata) {
735
736	case 1: /* multiplier -- +1.00 */
737
738	switch (stccol) {
739
740	case 42: /* + \| - */
741
742	if (key EQ 8)
743	buf[0] = '-';
744	else if (key EQ 9)
745	buf[0] = '+';
746	else
747	return;
748
749	break;
750
751	case 43: /* 0 \| 1 */
752
753	if ((key EQ 0) OR (key EQ 1))
754	buf[0] = (int8_t)(key + '0');
755	else
756	return;
757
758	break;
759
760	case 45: /* 0..9 */
761	case 46: /* 0..9 */
762
763	buf[0] = (int8_t)(key + '0');
764	break;
765
766	case 44: /* . */
767	default:
768
769	return;
770	}
771
772	buf[1] = '\0';
773	ptdebuf[stccol] = buf[0];
774
775	UpdVid(7, stccol, buf, PTDATR);
776
777	if (stccol EQ 43)
778	++stccol;
779
780	if (stccol EQ 46)
781	ctcon();
782	else
783	movectc(stcrow, ++stccol);
784
785	return;
786
787	case 2: /* time -- 32767 */
788
789	if ((stccol EQ 42) AND (key > 3))
790	return;
791
792	buf[0] = (int8_t)(key + '0');
793	buf[1] = '\0';
794	ptdebuf[stccol] = buf[0];
795
796	UpdVid(7, stccol, buf, PTDATR);
797
798	if (stccol EQ 46)
799	ctcon();
800	else
801	movectc(stcrow, ++stccol);
802
803	return;
804
805
806	case 3: /* value -- +10.00 */
807
808	switch (stccol) {
809
810	case 42:
811
812	if (key EQ 8) {
813
814	if (ptdebuf[42] EQ '\240')
815	buf[0] = '\241';
816	else if (ptdebuf[42] EQ '\241')
817	buf[0] = '\241';
818	else
819	buf[0] = '-';
820
821	} else if (key EQ 9) {
822
823	if (ptdebuf[42] EQ '\240')
824	buf[0] = '\240';
825	else if (ptdebuf[42] EQ '\241')
826	buf[0] = '\240';
827	else
828	buf[0] = '+';
829
830	} else if (key EQ 0) {
831
832	if (ptdebuf[42] EQ '\240')
833	buf[0] = '+';
834	else if (ptdebuf[42] EQ '\241')
835	buf[0] = '-';
836	else
837	return;
838
839	} else if (key EQ 1) {
840
841	if (ptdebuf[42] EQ '\240')
842	buf[0] = '\240';
843	else if (ptdebuf[42] EQ '\241')
844	buf[0] = '\241';
845	else if (ptdebuf[42] EQ '+')
846	buf[0] = '\240';
847	else if (ptdebuf[42] EQ '-')
848	buf[0] = '\241';
849	else
850	return;
851
852	} else
853	return;
854
855	break;
856
857	case 43:
858	case 45:
859	case 46:
860
861	buf[0] = (int8_t)(key + '0');
862	break;
863
864	case 44:
865	default:
866	return;
867	}
868
869	buf[1] = '\0';
870	ptdebuf[stccol] = buf[0];
871
872	UpdVid(7, stccol, buf, PTDATR);
873
874	if (stccol EQ 43)
875	++stccol;
876
877	if (stccol EQ 46)
878	ctcon();
879	else
880	movectc(stcrow, ++stccol);
881
882	return;
883
884	case 4: /* interval -- +1200 */
885
886	if (stccol EQ 42) {
887
888	if (key EQ 8)
889	buf[0] = '-';
890	else if (key EQ 9)
891	buf[0] = '+';
892	else
893	return;
894
895	} else if (stccol EQ 43) {
896
897	if (key > 1)
898	return;
899	else
900	buf[0] = (int8_t)(key + '0');
901
902	} else {
903
904	buf[0] = (int8_t)(key + '0');
905	}
906
907	ptdebuf[stccol] = buf[0];
908	buf[1] = '\0';
909
910	UpdVid(7, stccol, buf, PTDATR);
911
912	if (stccol EQ 46)
913	ctcon();
914	else
915	movectc(stcrow, ++stccol);
916
917	return;
918
919	case 5: /* ratio -- 9/9 */
920
921	switch (stccol) {
922
923	case 42:
924	case 44:
925
926	buf[0] = (int8_t)(key +'0');
927	break;
928
929	case 43:
930	case 45:
931	case 46:
932
933	return;
934	}
935
936	ptdebuf[stccol] = buf[0];
937	buf[1] = '\0';
938
939	UpdVid(7, stccol, buf, PTDATR);
940
941	if (stccol EQ 42)
942	++stccol;
943
944	if (stccol EQ 44)
945	ctcon();
946	else
947	movectc(stcrow, ++stccol);
948
949	return;
950
951	case 6: /* frequency -- 15.9 */
952
953	switch (stccol) {
954
955	case 42:
956
957	if (key > 1)
958	return;
959
960	/* FALL-THROUGH */
961
962	case 43:
963	case 45:
964
965	buf[0] = (int8_t)(key + '0');
966	break;
967
968	case 44:
969	case 46:
970
971	return;
972	}
973
974	ptdebuf[stccol] = buf[0];
975	buf[1] = '\0';
976
977	UpdVid(7, stccol, buf, PTDATR);
978
979	if (stccol EQ 43)
980	++stccol;
981
982	if (stccol EQ 45)
983	ctcon();
984	else
985	movectc(stcrow, ++stccol);
986
987	return;
988
989	case 7: /* pitch -- 9C#99 */
990
991	switch (stccol) {
992
993	case 43:
994
995	if (key > 6)
996	return;
997
998	buf[0] = (int8_t)(key + 'A');
999	break;
1000
1001	case 44:
1002
1003	if (key EQ 7)
1004	buf[0] = ' ';
1005	else if (key EQ 8)
1006	buf[0] = '\251';
1007	else if (key EQ 9)
1008	buf[0] = '\250';
1009	else
1010	return;
1011
1012	break;
1013
1014	case 42:
1015	case 45:
1016	case 46:
1017
1018	buf[0] = (int8_t)(key + '0');
1019	break;
1020	}
1021
1022	ptdebuf[stccol] = buf[0];
1023	buf[1] = '\0';
1024
1025	UpdVid(7, stccol, buf, PTDATR);
1026
1027	if (stccol EQ 46)
1028	ctcon();
1029	else
1030	movectc(stcrow, ++stccol);
1031
1032	return;
1033
1034	case 8: /* trans \| stop \| start */
1035
1036	switch (key) {
1037
1038	case 7: /* trans */
1039
1040	strcpy(buf, "Trans");
1041	ptedat2 = 0;
1042	break;
1043
1044	case 8: /* stop */
1045
1046	strcpy(buf, "Stop ");
1047	ptedat2 = 1;
1048	break;
1049
1050	case 9: /* start */
1051
1052	strcpy(buf, "Start");
1053	ptedat2 = 2;
1054	break;
1055
1056	default:
1057
1058	return;
1059	}
1060
1061	strcpy(&ptdebuf[42], buf);
1062	UpdVid(7, 42, buf, PTDATR);
1063	movectc(stcrow, 46);
1064	return;
1065
1066	case 9: /* stop \| start */
1067
1068	if (key EQ 8) { /* stop */
1069
1070	strcpy(buf, "Stop ");
1071	ptedat2 = 0;
1072
1073	} else if (key EQ 9) { /* start */
1074
1075	strcpy(buf, "Start");
1076	ptedat2 = 1;
1077
1078	} else {
1079
1080	return;
1081	}
1082
1083	strcpy(&ptdebuf[42], buf);
1084	UpdVid(7, 42, buf, PTDATR);
1085	movectc(stcrow, 46);
1086	return;
1087
1088	case 10: /* off \| on */
1089
1090	if (key EQ 8) { /* off */
1091
1092	strcpy(buf, "Off ");
1093	ptedat2 = 0;
1094
1095	} else if (key EQ 9) { /* on */
1096
1097	strcpy(buf, "On ");
1098	ptedat2 = 1;
1099
1100	} else {
1101
1102	return;
1103	}
1104
1105	strcpy(&ptdebuf[42], buf);
1106	UpdVid(7, 42, buf, PTDATR);
1107	movectc(stcrow, 46);
1108	return;
1109
1110	case 11: /* source */
1111
1112	return;
1113
1114	case 12: /* register \| value */
1115
1116	switch (stccol) {
1117
1118	case 42:
1119
1120	if (key EQ 7)
1121	buf[0] = 'R';
1122	else if (key EQ 8 AND ((PE_SPEC & ptespec) NE PA_RSET))
1123	buf[0] = '-';
1124	else if (key EQ 9)
1125	buf[0] = '+';
1126	else
1127	return;
1128
1129	break;
1130
1131	case 43:
1132	case 44:
1133
1134	buf[0] = (int8_t)(key + '0');
1135	break;
1136
1137	default:
1138
1139	return;
1140	}
1141
1142	ptdebuf[stccol] = buf[0];
1143	buf[1] = '\0';
1144
1145	UpdVid(7, stccol, buf, PTDATR);
1146
1147	if (stccol EQ 44)
1148	ctcon();
1149	else
1150	movectc(stcrow, ++stccol);
1151
1152	return;
1153
1154	case 13: /* sequence line */
1155
1156	if (stccol > 44)
1157	return;
1158
1159	buf[0] = (int8_t)(key + '0');
1160	ptdebuf[stccol] = buf[0];
1161	buf[1] = '\0';
1162
1163	UpdVid(7, stccol, buf, PTDATR);
1164
1165	if (stccol EQ 44)
1166	ctcon();
1167	else
1168	movectc(stcrow, ++stccol);
1169
1170	return;
1171
1172	case 14: /* LED controls */
1173
1174	if ((key > 3) OR (stccol EQ 46))
1175	return;
1176
1177	if ((stccol EQ 45) AND (0 EQ (ptesuba & 0x0001)))
1178	return;
1179
1180	buf[0] = (int8_t)(key + '0');
1181	buf[1] = '\0';
1182	ptdebuf[stccol] = buf[0];
1183
1184	UpdVid(7, stccol, buf, PTDATR);
1185
1186	if (((ptesuba & 0x0001) AND (stccol EQ 45)) OR
1187	((0 EQ (ptesuba & 0x0001)) AND (stccol EQ 44)))
1188	ctcon();
1189	else
1190	movectc(stcrow, ++stccol);
1191
1192	return;
1193
1194	case 15: /* instrument number */
1195
1196	if (stccol > 43)
1197	return;
1198
1199	if ((stccol EQ 42) AND (key > 4))
1200	return;
1201
1202	buf[0] = (int8_t)(key + '0');
1203	buf[1] = '\0';
1204	ptdebuf[stccol] = buf[0];
1205
1206	UpdVid(7, stccol, buf, PTDATR);
1207
1208	if (stccol EQ 43)
1209	ctcon();
1210	else
1211	movectc(stcrow, ++stccol);
1212
1213	return;
1214
1215	case 16: /* waveshape number */
1216
1217	if (stccol > 43)
1218	return;
1219
1220	if ((stccol EQ 42) AND (key > 2))
1221	return;
1222
1223	buf[0] = (int8_t)(key + '0');
1224	buf[1] = '\0';
1225	ptdebuf[stccol] = buf[0];
1226
1227	UpdVid(7, stccol, buf, PTDATR);
1228
1229	if (stccol EQ 43)
1230	ctcon();
1231	else
1232	movectc(stcrow, ++stccol);
1233
1234	return;
1235
1236	case 17: /* configuration number */
1237
1238	if (stccol > 43)
1239	return;
1240
1241	if ((stccol EQ 42) AND (key > 1))
1242	return;
1243
1244	buf[0] = (int8_t)(key + '0');
1245	buf[1] = '\0';
1246	ptdebuf[stccol] = buf[0];
1247
1248	UpdVid(7, stccol, buf, PTDATR);
1249
1250	if (stccol EQ 43)
1251	ctcon();
1252	else
1253	movectc(stcrow, ++stccol);
1254
1255	return;
1256
1257	case 18: /* tuning table number */
1258
1259	if (stccol > 42)
1260	return;
1261
1262	buf[0] = (int8_t)(key + '0');
1263	buf[1] = '\0';
1264	ptdebuf[stccol] = buf[0];
1265
1266	UpdVid(7, stccol, buf, PTDATR);
1267
1268	ctcon();
1269	return;
1270
1271	default:
1272
1273	return;
1274	}
1275	}
1276	}
1277

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