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source: buchla-68k/ram/sqdisp.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: 14.1 KB

Line
1	/*
2	=============================================================================
3	sqdisp.c -- MIDAS-VII sequence editor display functions
4	Version 24 -- 1989-11-16 -- D.N. Lynx Crowe
5	=============================================================================
6	*/
7
8	#define DEBUGSQ 0
9
10	#include "stddefs.h"
11	#include "hwdefs.h"
12	#include "graphdef.h"
13	#include "vsdd.h"
14	#include "patch.h"
15
16	#include "midas.h"
17	#include "ptdisp.h"
18
19	#if DEBUGSQ
20	extern short debugsw;
21
22	short debugsq = 1;
23	#endif
24
25	extern short nokey();
26
27	extern char (BakLine)(), (FwdLine)();
28
29	extern unsigned short obj8, obj9, obj10, obj11;
30	extern unsigned short LineBuf, ScObAdr, *OldLine;
31	extern unsigned short LineAtr;
32
33	extern short CurLine, CurScan;
34	extern short ScrlObj, SmScNsl;
35	extern short PdScDnF, PdScUpF;
36	extern short ctcsw, submenu;
37	extern short stccol, stcrow;
38	extern short cxval;
39
40	extern unsigned short cg3[];
41
42	extern char TheBuf[]; /* display build buffer */
43
44	short curslin; /* current sequence line */
45
46	/*
47
48	*/
49
50	char sqhead[] =
51
52	"\260 Lin Time Action 1 Action 2 Action 3 \260 No Seq Rg T \260";
53
54	char *sqmcon[] = {
55
56	"\260 Key transient Trigger on Stop Set reg Value \260",
57	"\260 Key closure Trigger off Jump to lin Inc Reg Register \260",
58	"\260 Key release Trig toggle If reg = Voltage \260",
59	"\260 If key active If trig act If stim act If reg < Random \260",
60	"\260 If reg > \260"
61	};
62
63	short seqpal[16][3] = { /* sequence display palette */
64
65	{0, 0, 0}, /* 0 - black */
66	{2, 3, 3}, /* 1 - white */
67	{0, 0, 1}, /* 2 - dark blue #1 */
68	{2, 0, 2}, /* 3 - dark violet */
69	{0, 0, 3}, /* 4 - dark blue #2 */
70	{3, 0, 0}, /* 5 - red */
71	{3, 3, 0}, /* 6 - yellow */
72	{1, 2, 0}, /* 7 - dark green */
73	{0, 3, 3}, /* 8 - light blue */
74	{2, 2, 2}, /* 9 - gray */
75	{0, 3, 0}, /* 10 - light green */
76	{3, 1, 2}, /* 11 - light violet */
77	{0, 2, 3}, /* 12 - medium blue */
78	{2, 0, 0}, /* 13 - dark red */
79	{1, 1, 2}, /* 14 - electric purple */
80	{3, 3, 3} /* 15 - bright white */
81	};
82
83	/*
84
85	*/
86
87	short sqatype[] = { /* sequence action types by box number */
88
89	SQ_NULL, /* " " 0 */
90	SQ_TKEY, /* "Kt 001 1 01" 1 */
91	SQ_CKEY, /* "Kc 001 1 01" 2 */
92	SQ_RKEY, /* "Kr 001 1 01" 3 */
93	SQ_IKEY, /* "If 001 1 01" 4 */
94	SQ_STRG, /* "Trig on 01" 5 */
95	SQ_CTRG, /* "Trig off 01" 6 */
96	SQ_TTRG, /* "Trig tgl 01" 7 */
97	SQ_ITRG, /* "If trig act" 8 */
98	SQ_STOP, /* "Stop " 9 */
99	SQ_JUMP, /* "Jump to 000" 10 */
100	SQ_NULL, /* "???????????" 11 */
101	SQ_ISTM, /* "If stim act" 12 */
102	SQ_SREG, /* "Set R01=00 " 13 */
103	SQ_AREG, /* "Inc R01+00 " 14 */
104	SQ_IREQ, /* "If R01=00 " 15 */
105	SQ_IRLT, /* "If R01<00 " 16 */
106	SQ_IRGT /* "If R01>00 " 17 */
107	};
108
109	/*
110
111	*/
112
113	char sqdsptb[] = { / sequence action display strings by action */
114
115	" ", /* SQ_NULL 0x0000 null action */
116	"Kc 001 1 01", /* SQ_CKEY 0x0001 Key closure */
117	"Kr 001 1 01", /* SQ_RKEY 0x0002 Key release */
118	"Kt 001 1 01", /* SQ_TKEY 0x0003 Key transient */
119	"If 001 1 01", /* SQ_IKEY 0x0004 If key active */
120	"Trig on 01", /* SQ_STRG 0x0005 Trigger on */
121	"Trig off 01", /* SQ_CTRG 0x0006 Trigger off */
122	"Trig tgl 01", /* SQ_TTRG 0x0007 Trigger toggle */
123	"If trig 01", /* SQ_ITRG 0x0008 If trigger active */
124	"Set R01=00 ", /* SQ_SREG 0x0009 Set register */
125	"If R01=00 ", /* SQ_IREQ 0x000A If register = */
126	"If R01<00 ", /* SQ_IRLT 0x000B If register < */
127	"If R01>00 ", /* SQ_IRGT 0x000C If register > */
128	"If stim act", /* SQ_ISTM 0x000D If stimulus active */
129	"Jump to 000", /* SQ_JUMP 0x000E Jump to sequence line */
130	"Stop ", /* SQ_STOP 0x000F Stop sequence */
131	"Inc R01+00 " /* SQ_AREG 0x0010 Increment register */
132	};
133
134	/*
135
136	*/
137
138	/*
139	=============================================================================
140	initsq() -- initialize the sequence data structures
141	=============================================================================
142	*/
143
144	initsq()
145	{
146	register short i;
147
148	for (i = 0; i < 16; i++) {
149
150	seqflag[i] = 0;
151	seqline[i] = 0;
152	sregval[i] = 0;
153	trstate[i] = 0;
154	seqstim[i] = 0;
155	seqtime[i] = 0;
156	}
157
158	memsetw(&seqtab, 0, (NSEQW * NSLINES));
159	}
160
161	/*
162
163	*/
164
165	/*
166	=============================================================================
167	dsact() -- convert sequence action code and data to display format
168	=============================================================================
169	*/
170
171	dsact(buf, act, dat)
172	char *buf;
173	unsigned short act, dat;
174	{
175	unsigned short sqa, sqd, sqf, sqr, sqt, t1, t2, val;
176	unsigned short chan, i, key, port;
177
178	sqa = SQ_MACT & act;
179
180	strcpy(buf, sqdsptb[sqa]);
181
182	switch (sqa) {
183
184	case SQ_CKEY: /* Key closure */
185	case SQ_RKEY: /* Key release */
186	case SQ_TKEY: /* Key transient */
187	case SQ_IKEY: /* If key active */
188
189	port = 0x0003 & (dat >> 11);
190	chan = 0x000F & (dat >> 7);
191	key = 0x007F & dat;
192
193	if (port EQ 2)
194	sprintf(&buf[3], "%03u L ", 1 + key);
195	else
196	sprintf(&buf[3], "%03u %u %02u", 1 + key, 1 + port, 1 + chan);
197
198	break;
199
200	case SQ_STRG: /* Trigger on */
201	case SQ_CTRG: /* Trigger off */
202	case SQ_TTRG: /* Trigger toggle */
203	case SQ_ITRG: /* If trigger active */
204
205	sprintf(&buf[9], "%02u", 1 + dat);
206	break;
207	/*
208
209	*/
210	case SQ_AREG: /* Increment register */
211
212	sqf = (dat & SQ_MFLG) ? '-' : '+';
213	goto doval;
214
215	case SQ_SREG: /* Set register */
216	case SQ_IREQ: /* If register = */
217
218	sqf = '=';
219	goto doval;
220
221	case SQ_IRLT: /* If register < */
222
223	sqf = '<';
224	goto doval;
225
226	case SQ_IRGT: /* If register > */
227
228	sqf = '>';
229
230	doval:
231
232	sqr = 1 + ((SQ_MOBJ & act) >> 8);
233	sqd = SQ_MVAL & dat;
234	sqt = SQ_MTYP & dat;
235
236	switch (sqt) {
237
238	case SQ_REG: /* register */
239
240	sprintf(&buf[4], "R%02u%cR%02u", sqr, sqf, 1 + sqd);
241	break;
242
243	case SQ_VAL: /* value */
244
245	sprintf(&buf[4], "R%02u%c%02u ", sqr, sqf, sqd);
246	break;
247
248	case SQ_VLT: /* voltage */
249
250	sprintf(&buf[4], "R%02u%cV%u ", sqr, sqf, 1 + sqd);
251	break;
252
253	case SQ_RND: /* random */
254
255	sprintf(&buf[4], "R%02u%c?%u ", sqr, sqf, sqd);
256	break;
257	}
258
259	break;
260	/*
261
262	*/
263	case SQ_JUMP: /* Jump to sequence line */
264
265	sprintf(&buf[8], "%03u", dat);
266	break;
267
268	case SQ_NULL: /* null action */
269	case SQ_ISTM: /* If stimulus active */
270	case SQ_STOP: /* Stop sequence */
271
272	break;
273	}
274
275	for (i = 0; i < 12; i++)
276	if (buf[i] EQ '\0')
277	buf[i] = ' ';
278	}
279
280	/*
281
282	*/
283
284	/*
285	=============================================================================
286	dsqlin() -- convert a sequence line to display format
287	=============================================================================
288	*/
289
290	dsqlin(buf, slin)
291	char *buf;
292	short slin;
293	{
294	register struct seqent *sp;
295	register short i, t1, t2;
296
297	sp = &seqtab[slin];
298
299	t1 = sp->seqtime / 100;
300	t2 = sp->seqtime - (t1 * 100);
301
302	sprintf(buf, " %03u %02u.%02u", slin, t1, t2);
303
304	dsact(&buf[12], sp->seqact1, sp->seqdat1);
305	dsact(&buf[24], sp->seqact2, sp->seqdat2);
306	dsact(&buf[36], sp->seqact3, sp->seqdat3);
307
308	buf[0] = '\260';
309
310	for (i = 0; i < 48; i++)
311	if (buf[i] EQ '\0')
312	buf[i] = ' ';
313
314	buf[48] = '\0';
315	}
316
317	/*
318
319	*/
320
321	/*
322	=============================================================================
323	dcursq() -- display current sequence line
324	=============================================================================
325	*/
326
327	dcursq()
328	{
329	dsqlin(TheBuf, curslin);
330	UpdVid(7, 0, TheBuf, PTEATR);
331	ctcon();
332	}
333
334	/*
335	=============================================================================
336	dstw() -- display sequence table window around current sequence line
337	=============================================================================
338	*/
339
340	dstw()
341	{
342	register short slin, srow;
343
344	slin = curslin - 7;
345
346	if (slin < 0)
347	slin += NSLINES;
348
349	for (srow = 0; srow < 16; srow++) {
350
351	dsqlin(TheBuf, slin);
352	UpdVid(srow, 0, TheBuf, (srow EQ 7) ? PTEATR : PTPATR);
353
354	if (++slin GE NSLINES)
355	slin -= NSLINES;
356	}
357
358	seq2buf();
359	ctcon();
360	}
361
362	/*
363
364	*/
365
366	/*
367	=============================================================================
368	sqwin() -- fill in a sequence display window
369	=============================================================================
370	*/
371
372	sqwin(n)
373	short n;
374	{
375	register short i, j;
376	short atrbuf[64];
377	char linbuf[66];
378
379	if (v_regs[5] & 0x0180)
380	vbank(0);
381
382	switch (n) {
383
384	case 0: /* headings and box outline */
385
386	/* row 0 */
387
388	memset(linbuf, '\261', 63);
389	linbuf[0] = '\272';
390	linbuf[48] = '\267';
391	linbuf[62] = '\273';
392	linbuf[63] = '\0';
393
394	memsetw(atrbuf, PTBATR, 63);
395	atrbuf[63] = 0x0000;
396
397	vputsa(obj8, 0, 0, linbuf, atrbuf);
398
399	/* row 1 */
400
401	memsetw(atrbuf, PTHATR+0x0100, 64);
402	atrbuf[ 0] = PTBATR;
403	atrbuf[ 1] = PTHATR;
404	atrbuf[ 5] = PTHATR;
405	atrbuf[11] = PTHATR;
406	atrbuf[23] = PTHATR;
407	atrbuf[35] = PTHATR;
408	atrbuf[47] = PTHATR;
409	atrbuf[48] = PTBATR;
410	atrbuf[49] = PTHATR;
411	atrbuf[52] = PTHATR;
412	atrbuf[56] = PTHATR;
413	atrbuf[59] = PTHATR;
414	atrbuf[61] = PTHATR;
415	atrbuf[62] = PTBATR;
416	atrbuf[63] = 0x0000;
417
418	vputsa(obj8, 1, 0, sqhead, atrbuf);
419	/*
420
421	*/
422	/* row 18 */
423
424	memset(linbuf, '\261', 63);
425	linbuf[ 0] = '\266';
426	linbuf[48] = '\265';
427	linbuf[62] = '\264';
428	linbuf[63] = '\0';
429
430	memsetw(atrbuf, PTBATR, 63);
431	atrbuf[63] = 0x0000;
432
433	vputsa(obj11, 0, 0, linbuf, atrbuf);
434
435	/* row 24 */
436
437	memset(linbuf, '\261', 63);
438	linbuf[ 0] = '\271';
439	linbuf[62] = '\270';
440	linbuf[63] = '\0';
441
442	memsetw(atrbuf, PTBATR, 63);
443	atrbuf[63] = 0x0000;
444
445	vputsa(obj11, 6, 0, linbuf, atrbuf);
446
447	break;
448	/*
449
450	*/
451	case 1: /* sequences */
452
453	SetDTop(0, 13);
454	dstw();
455	break;
456
457	case 2: /* sequence status */
458
459	for (i = 0; i < 16; i++) {
460
461	sprintf(linbuf, " %03d %02d %d ",
462	seqline[i], sregval[i], trstate[i]);
463
464	vvputsv(obj10, 16, PDBORFG, PDSEQBG,
465	i, 0, "\260", 14, 14, cg3);
466
467	vvputsv(obj10, 16, PDSEQFG, PDSEQBG,
468	i, 1, linbuf, 14, 14, cg3);
469
470	vvputsv(obj10, 16, PDBORFG, PDSEQBG,
471	i, 14, "\260", 14, 14, cg3);
472
473	if (i EQ 7) {
474
475	if (48 EQ XTOC(cxval)) {
476
477	vsplot4(obj10, 16, PDPTRFG,
478	i, 0, "\277", 14, 14, cg3);
479
480	} else {
481
482	vsplot4(obj10, 16, PDPTRFG,
483	i, 0, "\274", 14, 14, cg3);
484	}
485	}
486
487	sprintf(linbuf, "%02d", i + 1);
488
489	vvputsv(obj10, 16,
490	(seqflag[i] & SQF_RUN) ? PDSEQRN : PDSEQFG, PDSEQBG,
491	i, 2, linbuf, 14, 14, cg3);
492	}
493
494	break;
495
496	case 3: /* menu */
497
498	memsetw(atrbuf, PTMATR, 64);
499	atrbuf[0] = PTBATR;
500	atrbuf[62] = PTBATR;
501	atrbuf[63] = 0x0000;
502
503	for (i = 0; i < 5; i++)
504	vputsa(obj11, (i + 1), 0, sqmcon[i], atrbuf);
505
506	break;
507	}
508	}
509
510	/*
511
512	*/
513
514	/*
515	=============================================================================
516	SqBakLn() -- return the next sequence line in the backward direction
517	=============================================================================
518	*/
519
520	char *
521	SqBakLn()
522	{
523	register short slin;
524
525	if (--curslin < 0)
526	curslin += NSLINES;
527
528	slin = curslin - 7;
529
530	if (slin < 0)
531	slin += NSLINES;
532
533	dsqlin(TheBuf, slin);
534	return(TheBuf);
535	}
536
537	/*
538
539	*/
540
541	/*
542	=============================================================================
543	SqFwdLn() -- return the next sequence line in the forward direction
544	=============================================================================
545	*/
546
547	char *
548	SqFwdLn()
549	{
550	register short slin;
551
552	if (++curslin GE NSLINES)
553	curslin -= NSLINES;
554
555	slin = curslin + 8;
556
557	if (slin GE NSLINES)
558	slin -= NSLINES;
559
560	dsqlin(TheBuf, slin);
561	return(TheBuf);
562	}
563
564	/*
565	=============================================================================
566	sqwins() -- draw the sequence display
567	=============================================================================
568	*/
569
570	sqwins()
571	{
572	register short i;
573
574	for (i = 0; i < 4; i++)
575	sqwin(i);
576	}
577
578	/*
579
580	*/
581
582	/*
583	=============================================================================
584	sqdisp() -- setup the sequence display
585	=============================================================================
586	*/
587
588	sqdisp()
589	{
590	#if DEBUGSQ
591	if (debugsw AND debugsq)
592	printf("sqdisp(): ENTRY\n");
593	#endif
594
595	dswap(); /* clear the video display */
596
597	BakLine = SqBakLn;
598	FwdLine = SqFwdLn;
599
600	/* setup object pointers */
601
602	obj8 = &v_score[OB08LOC]; /* 8 - headings */
603	obj9 = &v_score[OB09LOC]; /* 9 - sequences */
604	obj10 = &v_score[OB10LOC]; /* 10 - status */
605	obj11 = &v_score[OB11LOC]; /* 11 - menu */
606
607	ScrlObj = 9;
608	ScObAdr = obj9;
609	LineBuf = obj9;
610	OldLine = (unsigned short *)NULL;
611	LineAtr = PTPATR;
612
613	CurLine = 0;
614	CurScan = 13;
615
616	PdScDnF = FALSE;
617	PdScUpF = FALSE;
618
619	/* ---------------- initialize object table -------------------- */
620	/* obj, typ, bnk, base, xpix, ypix, x0, y0, flags, pri */
621
622	SetObj( 8, 1, 0, obj8, 512, 28, 0, 0, PDFL_08, -1);
623	SetObj( 9, 1, 0, obj9, 384, 224, 0, 28, PDFL_09, -1);
624	SetObj( 10, 0, 0, obj10, 128, 224, 384, 28, PDFL_10, -1);
625	SetObj( 11, 1, 0, obj11, 512, 98, 0, 252, PDFL_11, -1);
626
627	if (v_regs[5] & 0x0180)
628	vbank(0);
629
630	memsetw(v_score, 0, 32767); /* clear display objects */
631	memsetw(v_score+32767L, 0, 24577);
632
633	sqwins(); /* fill up the windows */
634
635	/*
636
637	*/
638	/* display some objects */
639
640	SetPri( 8, 8); /* headings */
641	SetPri( 9, 9); /* sequences */
642	SetPri(10, 10); /* sequence status */
643	SetPri(11, 11); /* menu */
644
645	if (v_regs[5] & 0x0180) /* select bank 0 */
646	vbank(0);
647
648	memcpyw(v_cgtab, cg3, 3584); /* setup character generator */
649	v_regs[1] = (v_regs[1] & 0x0FFF) \| 0xE000;
650
651	/* fix the initial scan line specs in the object descriptor table */
652
653	v_odtab[ 8][0] = (v_odtab[ 8][0] & 0x0FFF) \| 0xD000;
654	v_odtab[ 9][0] = (v_odtab[ 9][0] & 0x0FFF) \| 0xD000;
655
656	v_odtab[11][0] = (v_odtab[11][0] & 0x0FFF) \| 0xD000;
657
658	submenu = FALSE;
659
660	ctcsw = TRUE; /* enable cursor */
661	ctcpos(DATAROW, 2); /* set initial cursor */
662	postcm(); /* set initial submenu */
663
664	vsndpal(seqpal); /* set the palette */
665
666	#if DEBUGSQ
667	if (debugsw AND debugsq)
668	printf("sqdisp(): EXIT\n");
669	#endif
670
671	}

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