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source: buchla-68k/ram/ptfield.c@ f40a309

Last change on this file since f40a309 was f40a309, checked in by Thomas Lopatic <thomas@…>, 7 years ago
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1	/*
2	=============================================================================
3	ptfield.c -- MIDAS-VII patch display field functions
4	Version 35 -- 1989-11-16 -- D.N. Lynx Crowe
5	=============================================================================
6	*/
7
8	#define DEBUGXP 0
9
10	#define USEVECTR 0 /* to force vector cursor control */
11
12	#include "stddefs.h"
13	#include "hwdefs.h"
14	#include "graphdef.h"
15	#include "vsdd.h"
16	#include "fields.h"
17	#include "curpak.h"
18	#include "patch.h"
19	#include "macros.h"
20
21	#include "midas.h"
22	#include "ptdisp.h"
23
24	#if DEBUGXP
25	extern short debugsw;
26
27	short debugxp = 1;
28	#endif
29
30	#if USEVECTR
31	short usevect = TRUE;
32
33	extern short (cx_key)(), (cy_key)();
34	#endif
35
36	extern short (xy_up)(), (xy_dn)();
37	extern short (premove)(), (pstmove)();
38	extern short (*curtype)();
39
40	extern unsigned short fromfpu();
41
42	extern short select(), nokey(), stdctp5();
43	extern short cxkstd(), cykstd(), stdmkey(), stddkey();
44	extern short stopcm(), smxupd(), smyupd();
45	extern short aftercm();
46	extern short ptdkey();
47
48	extern short astat;
49	extern short chtime;
50	extern short chwait;
51	extern short cmfirst;
52	extern short cmtype;
53	extern short curhold;
54	extern short cvtime;
55	extern short cvwait;
56	extern short ncvwait;
57	extern short ptbflag;
58	extern short ptecpos;
59	extern short ptedef;
60	extern short ptedfok;
61	extern short pteset;
62	extern short ptestm;
63	extern short ptestok;
64	extern short ss_ptsw;
65	extern short ss_sqsw;
66	extern short stccol;
67	extern short stcrow;
68	extern short syrate;
69	extern short tvcwval;
70	extern short vcwval;
71
72	extern short crate1[];
73
74	extern char ptdebuf[];
75
76	extern struct selbox *csbp;
77	extern struct selbox ptboxes[];
78
79	extern struct patch ptebuf;
80
81	short ptxkey(); /* forward reference */
82	short ptmkey(); /* forward reference */
83	short ptekey(); /* forward reference */
84
85	/*
86
87	*/
88
89	char *trdata[] = { "Trans", "Stop ", "Start" };
90	char *ssdata[] = { "Stop ", "Start" };
91
92	char *stdata[] = { "Srce" , "Mult", "Time", "Valu", "Func" };
93
94	char *smdata[] = {
95
96	" ", /* SM_NONE 0 No source - always 0 */
97	"Randm", /* SM_RAND 1 Random source */
98	"GPC/V", /* SM_CTL1 2 Control Voltage 1 / MIDI GPC 1 */
99	"??3??", /* ------- 3 -unused- */
100	"??4??", /* ------- 4 -unused- */
101	"Pitch", /* SM_PTCH 5 Key Pitch */
102	"KeyPr", /* SM_KPRS 6 Key Pressure */
103	"KeyVL", /* SM_KVEL 7 Key Velocity */
104	"Pedal", /* SM_PED1 8 Pedal 1 */
105	"??9??", /* ------- 9 -unused- */
106	"Freq ", /* SM_FREQ 10 Key Frequency */
107	"PchWh", /* SM_HTPW 11 Tablet X / MIDI Pitch Wheel */
108	"ModWh", /* SM_VTMW 12 Tablet Y / MIDI Mod Wheel */
109	"Breth", /* SM_LPBR 13 LongPot / MIDI Breath Controller */
110	};
111
112	struct curpak pt_flds = {
113
114	stdctp5, /* curtype */
115	nokey, /* premove */
116	aftercm, /* pstmove */
117	cxkstd, /* cx_key */
118	cykstd, /* cy_key */
119	smxupd, /* cx_upd */
120	smyupd, /* cy_upd */
121	stopcm, /* xy_up */
122	nokey, /* xy_dn */
123	ptxkey, /* x_key */
124	ptekey, /* e_key */
125	ptmkey, /* m_key */
126	ptdkey, /* d_key */
127	nokey, /* not_fld */
128	(struct fet )NULL, / curfet */
129	ptboxes, /* csbp */
130	crate1, /* cratex */
131	crate1, /* cratey */
132	CT_SMTH, /* cmtype */
133	CTOX(2), /* cxval */
134	RTOY(DATAROW) /* cyval */
135	};
136
137	/*
138
139	*/
140
141	/*
142	=============================================================================
143	ptmkey() -- M key processing for the patch display
144	=============================================================================
145	*/
146
147	ptmkey()
148	{
149	register short nc;
150
151	if (astat) {
152
153	if (stccol EQ 48) {
154
155	if (ss_sqsw EQ 0) {
156
157	(xy_dn)(); / handle KEY_DOWN functions */
158
159	(premove)(); / handle PRE-MOVE functions */
160
161	nc = (curtype)(); / get new CURSOR TYPE wanted */
162
163	cvtime = syrate;
164	ncvwait = curhold;
165
166	ss_ptsw = -1;
167	cmtype = nc;
168	cvwait = 1;
169	}
170
171	} else
172	stdmkey();
173
174	} else {
175
176	if (stccol EQ 48) {
177
178	ss_ptsw = 0;
179	cvwait = 1;
180	ncvwait = cvtime;
181	cmfirst = TRUE;
182
183	if (ss_sqsw EQ 0)
184	(*xy_up)();
185
186	(pstmove)(); / handle POST-MOVE functions */
187
188	} else
189	stdmkey();
190	}
191	}
192
193	/*
194
195	*/
196
197	/*
198	=============================================================================
199	ptekey() -- E key processing for the patch display
200	=============================================================================
201	*/
202
203	ptekey()
204	{
205	register short nc;
206
207	if (astat) {
208
209	if (stccol EQ 48) {
210
211	if (ss_sqsw EQ 0) {
212
213	(xy_dn)(); / handle KEY_DOWN functions */
214
215	(premove)(); / handle PRE-MOVE functions */
216
217	nc = (curtype)(); / get new CURSOR TYPE wanted */
218
219	cvtime = syrate;
220	ncvwait = curhold;
221
222	ss_ptsw = 1;
223	cmtype = nc;
224	cvwait = 1;
225	}
226
227	} else
228	select();
229
230	} else {
231
232	if (stccol EQ 48) {
233
234	ss_ptsw = 0;
235	cvwait = 1;
236	ncvwait = cvtime;
237	cmfirst = TRUE;
238
239	if (ss_sqsw EQ 0)
240	(*xy_up)();
241
242	(pstmove)(); / handle POST-MOVE functions */
243
244	} else
245	select();
246	}
247	}
248
249	/*
250
251	*/
252
253	/*
254	=============================================================================
255	ptxkey() -- X key processing for the patch display
256	=============================================================================
257	*/
258
259	ptxkey()
260	{
261	register short i, cp, pp, sp, stm;
262
263	if (NOT astat) /* only on key closures ... */
264	return;
265
266	if (inrange(stccol, 2, 13)) { /* definer -- clear definer */
267
268	if (ptecpos AND NOT ptbflag) { /* refresh data entry stuff */
269
270	memcpyw(&ptebuf.defnum, &patches[ptecpos].defnum, 6);
271	pteset = TRUE;
272	pte2buf();
273	}
274
275	ptedef = NULL_DEF;
276	ptedfok = TRUE;
277
278	memset(&ptdebuf[2], ' ', 12);
279
280	for (i = 0; i < 48; i++)
281	if (ptdebuf[i] EQ '\0')
282	ptdebuf[i] = ' ';
283
284	ptdebuf[0] = '\260';
285	ptdebuf[48] = '\0';
286
287	UpdVid(7, 0, ptdebuf, PTEATR);
288	movectc(stcrow, stccol);
289
290	/*
291
292	*/
293	} else if (inrange(stccol, 15, 26)) { /* stimulus -- clear stimulus */
294
295	if (ptecpos AND NOT ptbflag) { /* refresh data entry stuff */
296
297	memcpyw(&ptebuf.defnum, &patches[ptecpos].defnum, 6);
298	pteset = TRUE;
299	pte2buf();
300	}
301
302	ptestm = NULL_DEF;
303	ptestok = FALSE;
304
305	memset(&ptdebuf[15], ' ', 12);
306
307	for (i = 0; i < 48; i++)
308	if (ptdebuf[i] EQ '\0')
309	ptdebuf[i] = ' ';
310
311	ptdebuf[0] = '\260';
312	ptdebuf[48] = '\0';
313
314	UpdVid(7, 0, ptdebuf, PTEATR);
315	movectc(stcrow, stccol);
316
317	} else if (inrange(stccol, 28, 40)) { /* destination -- clear line */
318
319	voidpb(); /* void the patch buffer */
320
321	ptdebuf[0] = '\260';
322	ptdebuf[48] = '\0';
323
324	UpdVid(7, 0, ptdebuf, PTEATR);
325	movectc(stcrow, stccol);
326	/*
327
328	*/
329	} else if (inrange(stccol, 42, 46)) { /* datum -- delete the patch */
330
331	if (ptecpos) {
332
333	cp = ptecpos; /* setup indices */
334	pp = patches[cp].prevstm;
335	sp = patches[cp].nextstm;
336
337	stm = patches[cp].stmnum; /* get stimulus used */
338	#if DEBUGXP
339	if (debugsw AND debugxp)
340	printf("ptxkey(): DELETING PATCH pp = %d cp = %d sp = %d\n",
341	pp, cp, sp);
342	#endif
343
344	if (pp) /* adjust predecessor */
345	patches[pp].nextstm = sp;
346	else /* adjust stmptr */
347	stmptr[TRG_MASK & stm] = sp;
348
349	if (sp) /* adjust successor */
350	patches[sp].prevstm = pp;
351
352	if (sp = findnxt(cp)) /* adjust ptecpos */
353	ptecpos = sp;
354	else if (pp = findprv(cp))
355	ptecpos = pp;
356	else
357	ptecpos = 0;
358
359	pt_del(cp); /* delete the patch entry */
360	/*
361
362	*/
363	for (i = 0; i < NDEFSTMS; ++i) { /* adjust defptr list */
364
365	if (cp = defptr[i]) { /* in use ? */
366
367	pp = 0; /* initial predecessor */
368
369	while (cp) { /* check the chain */
370
371	sp = defents[cp].nextdef; /* successor */
372
373	if (defents[cp].stm EQ stm) {
374
375	#if DEBUGXP
376	if (debugsw AND debugxp) {
377
378	printf("ptxkey(): DELETING DEF trg=$%04.4X stm=$%04.4X\n",
379	i, stm);
380
381	printf("ptxkey(): DELETING DEF pp=%d cp=%d sp=%d\n",
382	pp, cp, sp);
383	}
384	#endif
385
386	if (pp) /* adjust predecessor */
387	defents[pp].nextdef = sp;
388	else /* adjust defptr */
389	defptr[i] = sp;
390
391	dt_del(cp); /* delete def entry */
392
393	} else {
394
395	pp = cp; /* update predecessor index */
396	}
397
398	cp = sp; /* next defent */
399	}
400	}
401	}
402
403	dptw(); /* update the display */
404	}
405	}
406	}
407
408	/*
409
410	*/
411
412	/*
413	=============================================================================
414	dspdfst() -- convert a patch DEF or STM value for display
415	=============================================================================
416	*/
417
418	dspdfst(buf, val)
419	char *buf;
420	register unsigned short val;
421	{
422	register unsigned short chan, port, stim;
423
424	if (val EQ NULL_DEF) { /* handle possible blank definer */
425
426	strcpy(buf, " ");
427	return;
428	}
429
430	port = (val >> 11) & 0x0003;
431	chan = (val >> 7) & 0x000F;
432	stim = val & 0x007F;
433
434	switch (port) { /* use port to decode possible types */
435
436	case 0: /* MIDI-1 - Keys */
437	case 1: /* MIDI-2 - Keys */
438
439	sprintf(buf, "%s %03u %u %02u",
440	(val & 0x8000) ? "Rel" : "Key",
441	1 + stim, 1 + port, 1 + chan);
442
443	break;
444	/*
445
446	*/
447
448	case 2: /* Local Keys */
449
450	switch (chan) { /* use channel to further decode */
451
452	case 0: /* Keys - Local Keyboard */
453
454	sprintf(buf, "%s %03u L ",
455	(val & 0x8000) ? "Rel" : "Key",
456	1 + stim);
457
458	break;
459
460	case 2: /* Triggers */
461
462	sprintf(buf, "Trig %02u ", 1 + stim);
463	break;
464
465	case 3: /* Pulses */
466
467	sprintf(buf, "Pulse %u ", 1 + stim);
468	break;
469
470	default: /* spurious type -- shouldn't happen */
471
472	sprintf(buf, "%s?? %03u L %02u",
473	(val & 0x8000) ? "r" : "c",
474	1 + stim, 1 + chan);
475	break;
476
477	}
478
479	break;
480
481	default: /* spurious port -- should never happen */
482
483	sprintf(buf, "??? %03u %u %02u", 1 + stim, 1 + port, 1 + chan);
484	break;
485	}
486	}
487
488	/*
489
490	*/
491
492	/*
493	=============================================================================
494	dfpdat() -- convert FPU datum for display
495	=============================================================================
496	*/
497
498	char *
499	dfpdat(pp)
500	register struct patch *pp;
501	{
502	static char buf[32];
503	unsigned short sgn, vp1, vp2;
504	short val;
505
506	val = pp->padat2;
507
508	switch (pp->padat1) {
509
510	case PSA_SRC: /* source */
511
512	strcpy(buf, smdata[val]);
513	break;
514
515	case PSA_MLT: /* multiplier */
516
517	fr2dec(val, ebuf);
518
519	buf[0] = ebuf[3];
520	buf[1] = ebuf[0];
521	buf[2] = '.';
522	buf[3] = ebuf[1];
523	buf[4] = ebuf[2];
524	buf[5] = '\0';
525	break;
526	/*
527
528	*/
529	case PSA_VAL: /* value */
530
531	val >>= 5;
532
533	if (val < 0) {
534
535	val = -val;
536	sgn = '-';
537
538	} else {
539
540	sgn = '+';
541	}
542
543	vp1 = val / 100;
544	vp2 = val - (vp1 * 100);
545
546	if (vp1 > 9) {
547
548	vp1 = 0;
549
550	if (sgn EQ '+')
551	sgn = '\240';
552	else
553	sgn = '\241';
554	}
555
556	sprintf(buf, "%c%u.%02u", sgn, vp1, vp2);
557	break;
558	/*
559
560	*/
561	case PSA_TIM: /* time */
562
563	vp1 = fromfpu(val);
564
565	sprintf(buf, "%5u", vp1);
566	break;
567
568	case PSA_FNC: /* function / control */
569
570	if ((PE_SPEC & pp->paspec) EQ PA_AUX)
571	sprintf(buf, "%s", (val & 0x0001) ? "On " : "Off ");
572	else
573	sprintf(buf, "%s", (val & 0x0001) ? "Start" : "Stop ");
574
575	break;
576
577	default:
578
579	sprintf(buf, "$%04.4X", val);
580	break;
581	}
582
583	return(buf);
584	}
585
586	/*
587
588	*/
589
590	/*
591	=============================================================================
592	pafpu1() -- convert patch for display -- aaaaa ssss tn ddddd
593
594	Level, Filtr, Fil Q, Loctn, Dynmc
595	=============================================================================
596	*/
597
598	pafpu1(bf, ad, gt, gn, pp)
599	char *bf;
600	char *ad;
601	unsigned short gt, gn;
602	register struct patch *pp;
603	{
604	sprintf(bf, "%s %s %c%c %s", ad, stdata[pp->padat1], gt, gn, dfpdat(pp));
605	}
606
607	/*
608	=============================================================================
609	pafpu2() -- convert patch for display -- aaa n ssss tn ddddd
610
611	Index, Freq
612	=============================================================================
613	*/
614
615	pafpu2(bf, ad, os, gt, gn, pp)
616	char *bf;
617	char *ad;
618	unsigned short os, gt, gn;
619	register struct patch *pp;
620	{
621	sprintf(bf, "%s %d %s %c%c %s", ad, os, stdata[pp->padat1], gt, gn, dfpdat(pp));
622	}
623
624	/*
625	=============================================================================
626	pafpu3() -- convert patch for display -- aaaaa ssss ddddd
627
628	Aux, Rate, Inten, Depth, Vlt
629	=============================================================================
630	*/
631
632	pafpu3(bf, ad, pp)
633	char *bf;
634	char *ad;
635	register struct patch *pp;
636	{
637	sprintf(bf, "%s %s %s", ad, stdata[pp->padat1], dfpdat(pp));
638	}
639
640	/*
641
642	*/
643
644	/*
645	=============================================================================
646	dspdest() -- convert patch destination and datum for display
647	=============================================================================
648	*/
649
650	dspdest(buf, pp)
651	char *buf;
652	register struct patch *pp;
653	{
654	unsigned short chan, osc, port, stim, vg, vgt, vgn, vp1, vp2, sgn;
655	short val;
656	char buf2[16], *rtype;
657
658	port = (pp->pasuba >> 11) & 0x0003; /* for trg types */
659	chan = (pp->pasuba >> 7) & 0x000F;
660	stim = pp->pasuba & 0x007F;
661
662	vg = (pp->pasuba >> 8) & 0x00FF; /* for vg types */
663	osc = (pp->pasuba & 0x00FF) + 1;
664
665	if (vg > 11) {
666
667	vgt = 'G';
668	vgn = vg - 11;
669
670	} else {
671
672	vgt = 'V';
673	vgn = vg + 1;
674	}
675
676	vgn = vgn + ((vgn > 9) ? '\242' : '0');
677
678	/*
679
680	*/
681	switch (PE_SPEC & pp->paspec) {
682
683	case PA_KEY: /* key action */
684
685	sprintf(buf, "K %03u %u %02u %s",
686	1 + stim, 1 + port, 1 + chan,
687	trdata[pp->padat2 & 0x0003]);
688
689	break;
690
691	case PA_TRG:
692
693	sprintf(buf, "Trigger %02u %s",
694	1 + stim,
695	ssdata[pp->padat2 & 0x0001]);
696
697	break;
698
699	case PA_PLS:
700
701	sprintf(buf, "Pulse %u %s",
702	1 + stim,
703	trdata[pp->padat2 & 0x0003]);
704
705	break;
706	/*
707
708	*/
709	case PA_LED:
710
711	if (pp->pasuba & 0x0001) {
712
713	sprintf(buf, "LED %c %c%c%c%c",
714	'A' + pp->pasuba,
715	'0' + ((pp->padat1 >> 14) & 0x0003),
716	'0' + ((pp->padat1 >> 12) & 0x0003),
717	'0' + ((pp->padat1 >> 10) & 0x0003),
718	'0' + ((pp->padat1 >> 8) & 0x0003));
719
720	} else {
721
722	sprintf(buf, "LED %c %c%c%c",
723	'A' + pp->pasuba,
724	'0' + ((pp->padat1 >> 14) & 0x0003),
725	'0' + ((pp->padat1 >> 12) & 0x0003),
726	'0' + ((pp->padat1 >> 10) & 0x0003));
727	}
728
729	break;
730
731	case PA_SLIN:
732
733	sprintf(buf, "Seq %02u Lin %03u",
734	1 + pp->pasuba,
735	pp->padat1);
736
737	break;
738
739	case PA_SCTL:
740
741	sprintf(buf, "Seq %02u Ctl %s",
742	1 + pp->pasuba,
743	ssdata[pp->padat2 & 0x0001]);
744
745	break;
746
747	case PA_TUNE:
748
749	sprintf(buf, "Tune Table %u",
750	pp->padat1);
751
752	break;
753	/*
754
755	*/
756	case PA_RSET:
757
758	rtype = "Set";
759	goto doregs;
760
761	case PA_RADD:
762
763	rtype = "Add";
764
765	doregs:
766
767	if (pp->padat1 & 0x0001) {
768
769	sprintf(buf, "Reg %02u %s R%02u",
770	1 + pp->pasuba, rtype,
771	1 + pp->padat2);
772
773	} else {
774
775	if ((val = pp->padat2) < 0) {
776
777	sgn = '-';
778	val = - val;
779
780	} else {
781
782	sgn = '+';
783	}
784
785	sprintf(buf, "Reg %02u %s %c%02u",
786	1 + pp->pasuba, rtype,
787	sgn, val);
788	}
789
790	break;
791
792	case PA_INST:
793
794	sprintf(buf, "Instrument %c%c %02u",
795	vgt, vgn, pp->padat1);
796
797	break;
798	/*
799
800	*/
801	case PA_OSC:
802
803	val = pp->padat2 >> 1;
804
805	switch (pp->padat1) {
806
807	case PSO_INT: /* interval */
808
809	if (val < 0) {
810
811	sgn = '-';
812	val = -val;
813
814	} else {
815
816	sgn = '+';
817	}
818
819	sprintf(buf, "Osc %u Int %c%c %c%04u",
820	osc, vgt, vgn, sgn, val);
821
822	break;
823
824	case PSO_RAT: /* ratio */
825
826	int2rat(val);
827
828	sprintf(buf, "Osc %u Rat %c%c %s",
829	osc, vgt, vgn, ebuf);
830
831	break;
832
833	case PSO_FRQ: /* frequency */
834
835	vp1 = val / 10;
836	vp2 = val - (vp1 * 10);
837
838	sprintf(buf, "Osc %u Frq %c%c %02u.%u",
839	osc, vgt, vgn, vp1, vp2);
840
841	break;
842	/*
843
844	*/
845	case PSO_PCH: /* pitch */
846
847	cnvc2p(ebuf, val);
848
849	sprintf(buf, "Osc %u Pch %c%c %s",
850	osc, vgt, vgn, ebuf);
851
852	break;
853
854	default:
855
856	break;
857	}
858
859	break;
860	/*
861
862	*/
863	case PA_WAVA:
864
865	sgn = 'A';
866	goto dowaves;
867
868	case PA_WAVB:
869
870	sgn = 'B';
871
872	dowaves:
873
874	sprintf(buf, "Waveshape%c %c%c %02u",
875	sgn, vgt, vgn, pp->padat1);
876
877	break;
878
879	case PA_CNFG:
880
881	sprintf(buf, "Configure %c%c %02u",
882	vgt, vgn, pp->padat1);
883
884	break;
885	/*
886
887	*/
888	case PA_LEVL:
889
890	pafpu1(buf, "Level", vgt, vgn, pp);
891	break;
892
893	case PA_INDX:
894
895	pafpu2(buf, "Ind", osc, vgt, vgn, pp);
896	break;
897
898	case PA_FREQ:
899
900	pafpu2(buf, "Frq", osc, vgt, vgn, pp);
901	break;
902
903	case PA_FILT:
904
905	pafpu1(buf, "Filtr", vgt, vgn, pp);
906	break;
907
908	case PA_FILQ:
909
910	pafpu1(buf, "Fil Q", vgt, vgn, pp);
911	break;
912
913	case PA_LOCN:
914
915	pafpu1(buf, "Loctn", vgt, vgn, pp);
916	break;
917
918	case PA_DYNM:
919
920	pafpu1(buf, "Dynmc", vgt, vgn, pp);
921	break;
922	/*
923
924	*/
925	case PA_AUX:
926
927	pafpu3(buf, "Aux ", pp);
928	break;
929
930	case PA_RATE:
931
932	pafpu3(buf, "Rate ", pp);
933	break;
934
935	case PA_INTN:
936
937	pafpu3(buf, "Inten", pp);
938	break;
939
940	case PA_DPTH:
941
942	pafpu3(buf, "Depth", pp);
943	break;
944
945	case PA_VOUT:
946
947	sprintf(buf2, "Vlt %u", pp->pasuba);
948	pafpu3(buf, buf2, pp);
949	break;
950
951	default:
952
953	break;
954	}
955	}
956
957	/*
958
959	*/
960
961	/*
962	=============================================================================
963	ptfield() -- setup field routines for the patch editor
964	=============================================================================
965	*/
966
967	ptfield()
968	{
969	curset(&pt_flds);
970
971	#if USEVECTR
972	if (usevect) {
973
974	cx_key = cxkstd;
975	cy_key = cykstd;
976	}
977	#endif
978
979	}

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