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source: buchla-68k/ram/uslice.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: 17.4 KB

Line
1	/*
2	=============================================================================
3	uslice.c -- update score display slice
4	Version 32 -- 1988-09-28 -- D.N. Lynx Crowe
5	=============================================================================
6	*/
7
8	#undef DEBUGGER
9
10	#define DEBUGIT 0
11
12	#include "debug.h"
13
14	#include "stddefs.h"
15	#include "slice.h"
16	#include "hwdefs.h"
17	#include "score.h"
18	#include "vsdd.h"
19	#include "graphdef.h"
20
21	#include "midas.h"
22	#include "scdsp.h"
23	#include "scfns.h"
24
25	#define BARCOLOR 0x3333
26
27	/* variables defined elsewhere */
28
29	#if DEBUGIT
30	extern short debugsw;
31	#endif
32
33	extern unsigned scrl;
34
35	extern short sbase;
36	extern short sd;
37	extern short soffset;
38
39	extern unsigned *consl;
40	extern unsigned *cursl;
41	extern unsigned *nxtsl;
42	extern unsigned *prvsl;
43	extern unsigned *saddr;
44
45	extern unsigned slices[];
46
47	extern short gtctab[12]; /* group to color table */
48
49	extern struct gdsel gdfsep; / gdsel freechain pointer */
50
51	extern struct gdsel gdstbc[NGDSEL]; / group status list heads */
52	extern struct gdsel gdstbn[NGDSEL]; / group status list heads */
53	extern struct gdsel gdstbp[NGDSEL]; / group status list heads */
54
55	extern struct gdsel gdfsl[MAXFSL]; /* gdsel pool */
56
57	/*
58
59	*/
60
61	/* initialized data */
62
63	short lintab1[] = { /* note top line table */
64
65	205, 205, 201, 197, 197, 193, 193, 189, 185, 185, 181, 181,
66	177, 177, 173, 169, 169, 165, 165, 161, 157, 157, 153, 153,
67	149, 149, 145, 141, 141, 137, 137, 133, 129, 129, 125, 125,
68	121, 121, 117, 113, 113, 109, 109, 105, 101, 101, 97, 97,
69	93, 93, 89, 85, 85, 81, 81, 77, 73, 73, 69, 69,
70	65, 65, 61, 57, 57, 53, 53, 49, 45, 45, 41, 41,
71	37, 37, 33, 29, 29, 25, 25, 21, 17, 17, 13, 13,
72	9, 9, 5, 1
73	};
74
75	short lintab2[] = { /* note top line table - N_FLAT */
76
77	205, 201, 201, 197, 193, 193, 189, 189, 185, 181, 181, 177,
78	177, 173, 173, 169, 165, 165, 161, 161, 157, 153, 153, 149,
79	149, 145, 145, 141, 137, 137, 133, 133, 129, 125, 125, 121,
80	121, 117, 117, 113, 109, 109, 105, 105, 101, 97, 97, 93,
81	93, 89, 89, 85, 81, 81, 77, 77, 73, 69, 69, 65,
82	65, 61, 61, 57, 53, 53, 49, 49, 45, 41, 41, 37,
83	37, 33, 33, 29, 25, 25, 21, 21, 17, 13, 13, 9,
84	9, 5, 5, 1
85	};
86
87	short nttab1[] = { /* forward code transition table */
88
89	0, /* 0 */
90	2, /* 1 */
91	3, /* 2 */
92	3, /* 3 */
93	5, /* 4 */
94	3, /* 5 */
95	0 /* 6 */
96	};
97
98	short nttab2[] = { /* backward code transition table */
99
100	0, /* 0 */
101	0, /* 1 */
102	1, /* 2 */
103	3, /* 3 */
104	0, /* 4 */
105	4, /* 5 */
106	0 /* 6 */
107	};
108
109	/*
110
111	*/
112
113	short pxtbl[][4] = { /* pixel mask table for notes */
114
115	{ 0x0000, 0x0000, 0x0000, 0 }, /* 0 */
116	{ 0x0000, 0x0000, 0xFFFF, 0 }, /* 1 */
117	{ 0x0000, 0xFFFF, 0xFFFF, 0 }, /* 2 */
118	{ 0xFFFF, 0xFFFF, 0xFFFF, 0 }, /* 3 */
119	{ 0xFFFF, 0x0000, 0x0000, 0 }, /* 4 */
120	{ 0xFFFF, 0xFFFF, 0x0000, 0 }, /* 5 */
121	{ 0xFFFF, 0xFFFF, 0xFFFF, 0 } /* 6 */
122	};
123
124	short epxtbl[][16] = { /* pixel mask table for events */
125
126	{ 0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF, /* 0 */
127	0xFFFF, 0x0000, 0x0000, 0x0000,
128	0x0000, 0x0000, 0x0000, 0x0000,
129	0, 0, 0, 0 },
130
131	{ 0x0000, 0x0000, 0x0000, 0x0000, /* 1 */
132	0x0000, 0xFFFF, 0xFFFF, 0x0000,
133	0x0000, 0x0000, 0x0000, 0x0000,
134	0, 0, 0, 0 },
135
136	{ 0x0000, 0x0000, 0x0000, 0x0000, /* 2 */
137	0x0000, 0x0000, 0x0000, 0xFFFF,
138	0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF,
139	0, 0, 0, 0 },
140
141	{ 0xFFFF, 0xFFFF, 0xFFFF, 0x0000, /* 3 */
142	0x0000, 0x0000, 0x0000, 0x0000,
143	0x0000, 0x0000, 0x0000, 0x0000,
144	0, 0, 0, 0 },
145
146	{ 0x0000, 0x0000, 0x0000, 0xFFFF, /* 4 */
147	0xFFFF, 0xFFFF, 0x0000, 0x0000,
148	0x0000, 0x0000, 0x0000, 0x0000,
149	0, 0, 0, 0 },
150
151	{ 0x0000, 0x0000, 0x0000, 0x0000, /* 5 */
152	0x0000, 0x0000, 0xFFFF, 0xFFFF,
153	0xFFFF, 0x0000, 0x0000, 0x0000,
154	0, 0, 0, 0 },
155
156	{ 0x0000, 0x0000, 0x0000, 0x0000, /* 6 */
157	0x0000, 0x0000, 0x0000, 0x0000,
158	0x0000, 0xFFFF, 0xFFFF, 0xFFFF,
159	0, 0, 0, 0 }
160	};
161
162	/*
163
164	*/
165
166	/*
167	=============================================================================
168	uslice(slice, mask1, mask2, gdstb)
169
170	Updates 'slice[]' using 'mask1' and 'mask2' for the pixel mask
171	and the slice mask, respectively, and 'gdstb[]' for the group table.
172
173	Note transitions are based on the value of global variable 'sd',
174	which is zero for forward, and non-zero for backward scrolling.
175
176	Returns count of active groups and event priority levels.
177
178	Note colors come from 'gtctab[]'.
179
180	This code must be very fast or the display bogs down the system.
181	=============================================================================
182	*/
183
184	short
185	uslice(slice, mask1, mask2, gdstb)
186	unsigned *slice;
187	register unsigned mask1, mask2;
188	struct gdsel *gdstb[];
189	{
190	register unsigned pxptr, slptr;
191	register struct gdsel *gdsep;
192	register unsigned i, ncolor, w;
193	unsigned ncptr, nctabp;
194	struct gdsel *gdstp, gdprv, *gdnxt;
195	short wrote;
196	short *lintab;
197
198	DB_ENTR("uslice()");
199
200	/* initialize note color, note control, and group control pointers */
201
202	gdstp = gdstb; /* group control table */
203	nctabp = sd ? nttab2 : nttab1; /* note transition table */
204	ncptr = gtctab; /* group to color table */
205	wrote = 0; /* reset count of active groups */
206
207	lintab = (ac_code EQ N_SHARP) ? lintab1 : lintab2; /* line table */
208
209	if (gdstb[NGDSEL - 1]) { /* check for a bar marker */
210
211	slptr = slice; /* point at the slice */
212	ncolor = mask1 & BARCOLOR; /* setup bar write variable */
213
214	for (i = 211; i--; ) /* draw the bar */
215	slptr++ = (slptr & mask2) \| ncolor;
216
217	gdstb[NGDSEL - 1] = (struct gdsel )NULL; / clear flag */
218	}
219
220	/*
221
222	*/
223
224	for (i = 0; i < 12; i++) { /* scan the group control table ... */
225
226	ncolor = mask1 & ncptr++; / get note color mask */
227	gdprv = (struct gdsel )gdstp; / setup previous pointer */
228	gdsep = gdstp++; / setup current pointer */
229
230	if (gdsep) { /* ... process each active group ... */
231
232	++wrote; /* indicate slice was updated */
233
234	do { /* ... for each note played by the group ... */
235
236	/* setup slice and pixel pointers */
237
238	slptr = slice + lintab[gdsep->note];
239	pxptr = &pxtbl[gdsep->code][0];
240
241	/* update the slice */
242
243	slptr++ = (slptr & mask2) \| (*pxptr++ & ncolor);
244	slptr++ = (slptr & mask2) \| (*pxptr++ & ncolor);
245	slptr = (slptr & mask2) \| (*pxptr++ & ncolor);
246
247	gdnxt = gdsep->next; /* set next pointer */
248
249	/* update and check update note status code */
250
251	if (0 EQ (gdsep->code = nctabp[gdsep->code])) {
252
253	/* if it's zero, delete the element */
254
255	gdprv->next = gdnxt;
256	gdsep->next = gdfsep;
257	gdfsep = gdsep;
258
259	} else
260	gdprv = gdsep;
261
262	gdsep = gdnxt; /* set pointer for next pass */
263
264	} while (gdsep);
265	}
266	}
267
268	/*
269
270	*/
271	for (; i < (NGDSEL - 1); i++) {
272
273	gdprv = (struct gdsel )gdstp; / setup previous pointer */
274	gdsep = gdstp++; / setup current pointer */
275
276	if (gdsep) { /* ... process each active event priority ... */
277
278	++wrote; /* indicate slice was updated */
279
280	do { /* ... for each event of this priority ... */
281
282	/* setup slice and pixel pointers */
283
284	slptr = slice + 212;
285	pxptr = &epxtbl[gdsep->code][0];
286
287	/* get event color */
288
289	ncolor = mask1 & gdsep->note;
290
291	/* update the slice */
292
293	if (w = pxptr++) / 212 */
294	slptr = (slptr & mask2) \| (w & ncolor);
295
296	++slptr;
297
298	if (w = pxptr++) / 213 */
299	slptr = (slptr & mask2) \| (w & ncolor);
300
301	++slptr;
302
303	if (w = pxptr++) / 214 */
304	slptr = (slptr & mask2) \| (w & ncolor);
305
306	++slptr;
307
308	if (w = pxptr++) / 215 */
309	slptr = (slptr & mask2) \| (w & ncolor);
310
311	++slptr;
312
313	if (w = pxptr++) / 216 */
314	slptr = (slptr & mask2) \| (w & ncolor);
315
316	++slptr;
317
318	if (w = pxptr++) / 217 */
319	slptr = (slptr & mask2) \| (w & ncolor);
320
321	++slptr;
322
323	if (w = pxptr++) / 218 */
324	slptr = (slptr & mask2) \| (w & ncolor);
325
326	++slptr;
327
328	if (w = pxptr++) / 219 */
329	slptr = (slptr & mask2) \| (w & ncolor);
330
331	++slptr;
332
333	if (w = pxptr++) / 220 */
334	slptr = (slptr & mask2) \| (w & ncolor);
335
336	++slptr;
337
338	if (w = pxptr++) / 221 */
339	slptr = (slptr & mask2) \| (w & ncolor);
340
341	++slptr;
342
343	if (w = pxptr++) / 222 */
344	slptr = (slptr & mask2) \| (w & ncolor);
345
346	++slptr;
347
348	if (w = pxptr) / 223 */
349	slptr = (slptr & mask2) \| (w & ncolor);
350
351	gdnxt = gdsep->next; /* set next pointer */
352	gdprv->next = gdnxt; /* delete the element */
353	gdsep->next = gdfsep;
354	gdfsep = gdsep;
355	gdsep = gdnxt; /* set pointer for next pass */
356
357	} while (gdsep);
358	}
359	}
360
361	DB_EXIT(wrote ? "uslice - slice written" : "uslice - no write");
362
363	return(wrote);
364	}
365
366	/*
367
368	*/
369
370	/*
371	=============================================================================
372	rslice(gdstb)
373
374	Reverses the slice codes in 'gdstb' based the value of sd,
375	which is zero for forward, and non-zero for backward scrolling.
376	=============================================================================
377	*/
378
379	rslice(gdstb)
380	struct gdsel *gdstb[];
381	{
382	register struct gdsel *gdsep;
383	register struct gdsel **gdstp;
384	register unsigned *nctabp;
385	register unsigned i, nc;
386	struct gdsel gdprv, gdnxt;
387
388	DB_ENTR("rslice");
389
390	#if DEBUGIT
391	if (debugsw)
392	printf("\nrslice($%lX): sd = %s\n", gdstb, sd ? "BAK" : "FWD");
393	#endif
394
395	/* initialize note control and group control pointers */
396
397	nctabp = sd ? nttab2 : nttab1; /* note control table pointer */
398	gdstp = gdstb; /* group control table pointer */
399
400	/*
401
402	*/
403	/* reverse note codes */
404
405	for (i = 0; i < 12; i++) { /* scan the group control table ... */
406
407	gdprv = (struct gdsel )gdstp; / setup previous pointer */
408	gdsep = gdstp++; / setup current pointer */
409
410	if (gdsep) { /* ... process each active group ... */
411
412	do { /* ... for each note played by the group ... */
413
414	gdnxt = gdsep->next; /* set next pointer */
415
416	/* update and check update note status code */
417
418	if (0 EQ (gdsep->code = nctabp[nc = gdsep->code])) {
419
420	#if DEBUGIT
421	if (debugsw)
422	printf("rslice: note %d - %d -> %d\n",
423	gdsep->note, nc, gdsep->code);
424	#endif
425
426	/* if it's zero, delete the element */
427
428	gdprv->next = gdnxt;
429	gdsep->next = gdfsep;
430	gdfsep = gdsep;
431
432	} else {
433
434	#if DEBUGIT
435	if (debugsw)
436	printf("rslice: note %d - %d -> %d\n",
437	gdsep->note, nc, gdsep->code);
438	#endif
439
440	gdprv = gdsep;
441	}
442
443	gdsep = gdnxt; /* set pointer for next pass */
444
445	} while (gdsep);
446	}
447	}
448
449	/*
450
451	*/
452	/* delete event codes */
453
454	for (; i < NGDSEL - 1; i++) {
455
456	gdprv = (struct gdsel )gdstp; / setup previous pointer */
457	gdsep = gdstp++; / setup current pointer */
458
459	if (gdsep) { /* ... process each active event priority ... */
460
461	do { /* ... for each event of this priority ... */
462
463	gdnxt = gdsep->next; /* set next pointer */
464	gdprv->next = gdnxt; /* delete the element */
465	gdsep->next = gdfsep;
466	gdfsep = gdsep;
467	gdsep = gdnxt; /* set pointer for next pass */
468
469	} while (gdsep);
470	}
471	}
472
473	gdstb[NGDSEL - 1] = (struct gdsel )NULL; / clear bar flag */
474
475	DB_EXIT("rslice");
476	}
477
478	/*
479
480	*/
481
482	/*
483	=============================================================================
484	cslice(slice, mask1, mask2, gdstb)
485
486	Updates 'slice[]' using 'mask1' and 'mask2' for the pixel mask
487	and the slice mask, respectively, using 'gdstb[]' as the group table.
488
489	Differs from uslice() in that no note gdstb events are deleted.
490	Used for center slice updates.
491
492	Note transitions are based on the value of global variable 'sd',
493	which is zero for forward, and non-zero for backward scrolling.
494
495	Returns count of active groups and event priority levels.
496
497	Note colors come from 'gtctab[]'.
498
499	This code has to be very fast.
500	=============================================================================
501	*/
502
503	short
504	cslice(slice, mask1, mask2, gdstb)
505	unsigned *slice;
506	register unsigned mask1, mask2;
507	struct gdsel *gdstb[];
508	{
509	register unsigned pxptr, slptr;
510	register struct gdsel *gdsep;
511	register unsigned i, ncolor, w;
512	unsigned ncptr, nctabp;
513	struct gdsel *gdstp, gdprv, *gdnxt;
514	short wrote;
515	short *lintab;
516
517	DB_ENTR("cslice()");
518
519	/* initialize note color, note control, and group control pointers */
520
521	gdstp = gdstb; /* group control table */
522	nctabp = sd ? nttab2 : nttab1; /* note transition table */
523	ncptr = gtctab; /* group to color table */
524	wrote = 0; /* reset count of active groups */
525
526	lintab = (ac_code EQ N_SHARP) ? lintab1 : lintab2; /* line table */
527
528	if (gdstb[NGDSEL - 1]) { /* check for a bar marker */
529
530	slptr = slice; /* point at the slice */
531	ncolor = mask1 & BARCOLOR; /* setup bar write variable */
532
533	for (i = 211; i--; ) /* draw the bar */
534	slptr++ = (slptr & mask2) \| ncolor;
535
536	gdstb[NGDSEL - 1] = (struct gdsel )NULL; / clear flag */
537	}
538
539	/*
540
541	*/
542
543	for (i = 0; i < 12; i++) { /* scan the group control table ... */
544
545	ncolor = ncptr++; / get note color */
546	gdprv = (struct gdsel )gdstp; / setup previous pointer */
547	gdsep = gdstp++; / setup current pointer */
548
549	if (gdsep) { /* ... process each active group ... */
550
551	#ifdef DEBUGGER
552	sprintf(DBvar, "cslice - g=%d gdsep=$%lX", i, gdsep); DB_CMNT(DBvar);
553	#endif
554	++wrote; /* indicate slice was updated */
555
556	do { /* ... for each note played by the group ... */
557
558	/* setup slice and pixel pointers */
559
560	slptr = slice + lintab[gdsep->note];
561	pxptr = &pxtbl[gdsep->code][0];
562
563	/* update the slice */
564
565	slptr++ = (slptr & mask2) \| (*pxptr++ & ncolor);
566	slptr++ = (slptr & mask2) \| (*pxptr++ & ncolor);
567	slptr = (slptr & mask2) \| (*pxptr++ & ncolor);
568
569	gdnxt = gdsep->next; /* set nxt pointer */
570	gdprv = gdsep; /* set prv pointer */
571	gdsep = gdnxt; /* set pointer for next pass */
572
573	} while (gdsep);
574	}
575	}
576
577	/*
578
579	*/
580	for (; i < (NGDSEL - 1); i++) { /* scan the event priorities ... */
581
582	gdprv = (struct gdsel )gdstp; / setup previous pointer */
583	gdsep = gdstp++; / setup current pointer */
584
585	if (gdsep) { /* ... process each active event priority ... */
586
587	++wrote; /* indicate slice was updated */
588
589	do { /* ... for each event of this priority ... */
590
591	/* setup slice and pixel pointers */
592
593	slptr = slice + 212;
594	pxptr = &epxtbl[gdsep->code][0];
595
596	ncolor = gdsep->note; /* get event color */
597
598	/* update the slice */
599
600	if (w = pxptr++) / 212 */
601	slptr = (slptr & mask2) \| (w & ncolor);
602
603	++slptr;
604
605	if (w = pxptr++) / 213 */
606	slptr = (slptr & mask2) \| (w & ncolor);
607
608	++slptr;
609
610	if (w = pxptr++) / 214 */
611	slptr = (slptr & mask2) \| (w & ncolor);
612
613	++slptr;
614
615	if (w = pxptr++) / 215 */
616	slptr = (slptr & mask2) \| (w & ncolor);
617
618	++slptr;
619
620	if (w = pxptr++) / 216 */
621	slptr = (slptr & mask2) \| (w & ncolor);
622
623	++slptr;
624
625	if (w = pxptr++) / 217 */
626	slptr = (slptr & mask2) \| (w & ncolor);
627
628	++slptr;
629
630	if (w = pxptr++) / 218 */
631	slptr = (slptr & mask2) \| (w & ncolor);
632
633	++slptr;
634
635	if (w = pxptr++) / 219 */
636	slptr = (slptr & mask2) \| (w & ncolor);
637
638	++slptr;
639
640	if (w = pxptr++) / 220 */
641	slptr = (slptr & mask2) \| (w & ncolor);
642
643	++slptr;
644
645	if (w = pxptr++) / 221 */
646	slptr = (slptr & mask2) \| (w & ncolor);
647
648	++slptr;
649
650	if (w = pxptr++) / 222 */
651	slptr = (slptr & mask2) \| (w & ncolor);
652
653	++slptr;
654
655	if (w = pxptr) / 223 */
656	slptr = (slptr & mask2) \| (w & ncolor);
657
658	gdnxt = gdsep->next; /* set next pointer */
659	gdprv->next = gdnxt; /* delete the element */
660	gdsep->next = gdfsep;
661	gdfsep = gdsep;
662	gdsep = gdnxt; /* set pointer for next pass */
663
664	} while (gdsep);
665	}
666	}
667
668	DB_EXIT(wrote ? "cslice - slice written" : "cslice - no write");
669
670	return(wrote);
671	}
672
673	/*
674
675	*/
676
677	/*
678	=============================================================================
679	clrsctl() -- clear slice control list and pointers
680	=============================================================================
681	*/
682
683	clrsctl()
684	{
685	register struct gdsel gdsp, gnxt, **gp;
686	register short i;
687
688	gdfsep = gdsp = &gdfsl[0]; /* initialize slice control pool */
689	gnxt = &gdfsl[1];
690
691	for (i = MAXFSL - 1; i--; ) {
692
693	gdsp->code = 0;
694	gdsp->note = 0;
695	gdsp->next = gnxt;
696
697	gdsp++;
698	gnxt++;
699	}
700
701	gdsp->code = 0;
702	gdsp->note = 0;
703	gdsp->next = (struct gdsel *)0L;
704
705	gp = gdstbc; /* clear gdstbc */
706
707	for (i = NGDSEL; i--; )
708	gp++ = (struct gdsel )0L;
709
710	gp = gdstbn; /* clear gdstbn */
711
712	for (i = NGDSEL; i--; )
713	gp++ = (struct gdsel )0L;
714
715	gp = gdstbp; /* clear gdstbp */
716
717	for (i = NGDSEL; i--; )
718	gp++ = (struct gdsel )0L;
719
720	sbase = I_SBASE; /* initialize score video RAM offset */
721	soffset = I_OFFSET; /* initialize scroll register offset */
722	saddr = &v_score[sbase]; /* initialize score area base address */
723
724	consl = &slices[672]; /* initialize constant slice pointer */
725	prvsl = &slices[448]; /* initialize previous slice pointer */
726	cursl = &slices[224]; /* initialize current slice pointer */
727	nxtsl = &slices[0]; /* initialize next slice pointer */
728	/*
729
730	*/
731	{
732	register unsigned p1, p2, *p3, sword;
733	unsigned *p4;
734
735	p1 = consl; /* clear slices */
736	p2 = nxtsl;
737	p3 = cursl;
738	p4 = prvsl;
739
740	for (i = 224; i--; ) {
741
742	sword = *p1++;
743	*p2++ = sword;
744	*p3++ = sword;
745	*p4++ = sword;
746	}
747	}
748	}

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