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source: buchla-68k/orig/RAM/PTSELBX.C@ 4f508e6

Last change on this file since 4f508e6 was 3ae31e9, checked in by Thomas Lopatic <thomas@…>, 7 years ago
Imported original source code.
Property mode set to `100755`
File size: 27.8 KB

Rev	Line
[3ae31e9]	1	/*
	2	=============================================================================
	3	ptselbx.c -- MIDAS-VII Patch editor box selection functions
	4	Version 45 -- 1988-12-08 -- D.N. Lynx Crowe
	5	=============================================================================
	6	*/
	7
	8	#define DEBUGIT 0
	9	#define SNAPDUMP 0
	10
	11	#include "stddefs.h"
	12	#include "fields.h"
	13	#include "vsdd.h"
	14	#include "graphdef.h"
	15	#include "patch.h"
	16	#include "macros.h"
	17	#include "smdefs.h"
	18	#include "curpak.h"
	19
	20	#include "midas.h"
	21	#include "ptdisp.h"
	22
	23	#if SNAPDUMP
	24	short snapit = 0;
	25	#endif
	26
	27	#if (SNAPDUMP\|DEBUGIT)
	28	extern short debugsw;
	29
	30	short debug01 = 1;
	31	#endif
	32
	33	#define HT_0 0x01 /* definer, stimulus */
	34	#define HT_1 0x02 /* source */
	35	#define HT_2 0x04 /* destination */
	36	#define HT_3 0x08 /* oscillator */
	37	#define HT_4 0x10 /* level, index, freq, location, filter */
	38	#define HT_5 0x20 /* filq, dynamc, vout, depth, rate, inten, aux */
	39	#define HT_OFF 0x00 /* no submenu highlighted */
	40
	41	/*
	42
	43	*/
	44
	45	extern short enterit(), nokey(), cnvp2c(), dec2fr();
	46
	47	extern unsigned short exp_c();
	48
	49	extern short CurLine;
	50
	51	extern short cents;
	52	extern short cmtype;
	53	extern short cxval;
	54	extern short cyval;
	55	extern short hitcx;
	56	extern short hitcy;
	57	extern short stccol;
	58	extern short stcrow;
	59	extern short submenu;
	60	extern short vtccol;
	61	extern short vtcrow;
	62
	63	extern short ndvals[];
	64
	65	extern unsigned short *obj11;
	66
	67	extern struct selbox *csbp;
	68	extern struct selbox *curboxp;
	69
	70	extern char *smdata[];
	71	extern char *ssdata[];
	72	extern char *stdata[];
	73	extern char *trdata[];
	74
	75	short ptfnbox();
	76
	77	/*
	78
	79	*/
	80
	81	short ptegood; /* pte buffer -- entire entry valid flag */
	82
	83	short ptedfok; /* pte buffer -- def valid flag */
	84	short ptestok; /* pte buffer -- stm valid flag */
	85	short ptedsok; /* pte buffer -- destination valid flag */
	86	short ptedtok; /* pte buffer -- datum valid flag */
	87
	88	short ptedef; /* pte buffer -- definer number */
	89	short ptestm; /* pte buffer -- stimulus number */
	90	short ptespec; /* pte buffer -- address type */
	91	short ptesuba; /* pte buffer -- sub-address */
	92	short ptedat1; /* pte buffer -- data word 1 */
	93	short ptedat2; /* pte buffer -- data word 2 */
	94
	95	short ptedftp; /* definer / stimulus entry flag */
	96
	97	short ptedfst; /* current definer/stimulus data entry format */
	98	short ptedest; /* current destination data entry format */
	99	short ptedata; /* current datum data entry format */
	100
	101	short ptemenu; /* current submenu highlighting */
	102
	103	short pteset; /* pte buffer setup flag */
	104	short ptbflag; /* pdbuf setup flag */
	105
	106	short ptecpos; /* current patch entry index */
	107	short ptepred; /* predecessor entry index */
	108	short ptesucc; /* successor entry index */
	109
	110	struct patch ptebuf; /* pte buffer -- patch table format */
	111
	112	char ptdebuf[50]; /* patch edit buffer */
	113
	114	/*
	115
	116	*/
	117
	118	char rawdfst[] = { / def/stm field initial contents */
	119
	120	"Key 001 1 01",
	121	"Rel 001 1 01",
	122	"Trig 01 ",
	123	"Pulse 1 "
	124	};
	125
	126	char rawdest[] = { / destination field initial contents */
	127
	128	"??????? 00 ??", /* ?????? 00 */
	129	"K 001 1 01 ", /* PA_KEY 01 */
	130	"Trigger 01 ", /* PA_TRG 02 */
	131	"Pulse 1 ", /* PA_PLS 03 */
	132	"LED A ", /* PA_LED 04 */
	133	"Seq 01 Lin ", /* PA_SLIN 05 */
	134	"Seq 01 Ctl ", /* PA_SCTL 06 */
	135	"Tune Table ", /* PA_TUNE 07 */
	136	"Reg 01 Set ", /* PA_RSET 08 */
	137	"Reg 01 Add ", /* PA_RADD 09 */
	138	"Instrument V1", /* PA_INST 10 */
	139	"Osc 1 Int V1", /* PA_OSC 11 */
	140	"WaveshapeA V1", /* PA_WAVA 12 */
	141	"WaveshapeB V1", /* PA_WAVB 13 */
	142	"Configure V1", /* PA_CNFG 14 */
	143	"Level Srce V1", /* PA_LEVL 15 */
	144	"Ind 1 Srce V1", /* PA_INDX 16 */
	145	"Frq 1 Srce V1", /* PA_FREQ 17 */
	146	"Filtr Srce V1", /* PA_FILT 18 */
	147	"Fil Q Srce V1", /* PA_FILQ 19 */
	148	"Loctn Srce V1", /* PA_LOCN 20 */
	149	"Dynmc Srce V1", /* PA_DYNM 21 */
	150	"Aux Srce ", /* PA_AUX 22 */
	151	"Rate Srce ", /* PA_RATE 23 */
	152	"Inten Srce ", /* PA_INTN 24 */
	153	"Depth Srce ", /* PA_DPTH 25 */
	154	"Vlt 1 Srce " /* PA_VOUT 26 */
	155	};
	156
	157	/*
	158
	159	*/
	160
	161	char rawmode[] = { "Frq ", "Pch ", "Int ", "Rat " }; / oscillator modes */
	162	char rawmdat[] = { "00.1 ", "0C 00", "+0000", "1/1 " }; / oscillator data */
	163
	164	short omtabl[] = { PSO_FRQ, PSO_PCH, PSO_INT, PSO_RAT }; /* oscillator modes */
	165	short omdtab[] = { 2, 320, 0, 0 }; /* oscillator data */
	166	short omftab[] = { 6, 7, 4, 5 }; /* mode data format */
	167
	168	char *rawfpud[] = { "PchWh", "+0.00", "00001", "\2400.00", "Start" };
	169
	170	short fpudtab[] = { SM_HTPW, 0, 1, 0, 1 };
	171	short fpuetab[] = { 11, 1, 2, 3, 9 };
	172
	173	short dfsttab[] = { 0x0000, 0x8000, 0x1100, 0x1180 };
	174
	175	short defcols[] = { 2, 6, 7, 8}; /* def data entry columns */
	176	short stmcols[] = { 15, 19, 20, 21}; /* stm data entry columns */
	177
	178	short dstcols[] = { /* destination data entry columns */
	179
	180	/* -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 */
	181	28, 30, 36, 34, 32, 32, 42, 39, 34, 32, 32, 34
	182	};
	183
	184	short dfsttp[] = { 1, 1, 2, 3 }; /* def/stm formats */
	185
	186	short datasrc[] = {
	187
	188	SM_HTPW, SM_VTMW, SM_LPBR, SM_PED1, SM_CTL1,
	189	SM_PTCH, SM_FREQ, SM_KVEL, SM_KPRS, SM_RAND
	190	};
	191
	192	/*
	193
	194	*/
	195
	196	short destype[] = { /* destination type table */
	197
	198	PA_KEY, -1, PA_TRG, PA_PLS, PA_LED,
	199	PA_SLIN, PA_SCTL, PA_TUNE, PA_RSET, PA_RADD,
	200	PA_INST, PA_OSC, PA_WAVA, PA_WAVB, PA_CNFG,
	201	PA_INDX, PA_FREQ, -1, -1, -1,
	202	PA_LEVL, PA_LOCN, PA_FILT, PA_FILQ, PA_DYNM,
	203	PA_VOUT, PA_DPTH, PA_RATE, PA_INTN, PA_AUX,
	204	-1, -1, -1, -1, -1,
	205	-1, -1, -1, -1, -1,
	206	-1, -1, -1, -1, -1
	207	};
	208
	209	char destfmt[] = { /* destination data entry format table */
	210
	211	0, -1, 1, 2, 3, /* 1 .. 5 */
	212	4, 4, 5, 4, 4, /* 6 .. 10 */
	213	6, 9, 6, 6, 6, /* 11 .. 15 */
	214	9, 9, -1, -1, -1, /* 16 .. 20 */
	215	10, 10, 10, 10, 10, /* 21 .. 25 */
	216	8, 7, 7, 7, 7 /* 26 .. 30 */
	217	};
	218
	219	char datafmt[] = { /* datum data entry format table */
	220
	221	8, -1, 9, 8, 14,
	222	13, 9, 18, 12, 12,
	223	15, 4, 16, 16, 17,
	224	11, 11, -1, -1, -1,
	225	11, 11, 11, 11, 11,
	226	11, 11, 11, 11, 11
	227	};
	228
	229	/*
	230
	231	*/
	232
	233	char desdatf[] = { /* data entry default flags */
	234
	235	2, 0, 2, 2, 1,
	236	1, 2, 1, 3, 3,
	237	1, 0, 1, 1, 1,
	238	2, 2, 0, 0, 0,
	239	2, 2, 2, 2, 2,
	240	2, 2, 2, 2, 2
	241	};
	242
	243	short desdat1[] = { /* data word 1 defaults */
	244
	245	0, 0, 0, 0, 0,
	246	0, 0, 0, 0, 0,
	247	0, 0, 0, 0, 0,
	248	0, 0, 0, 0, 0,
	249	0, 0, 0, 0, 0,
	250	0, 0, 0, 0, 0
	251	};
	252
	253	short desdat2[] = { /* data word 2 defaults */
	254
	255	0, 0, 1, 0, 0,
	256	0, 1, 0, 0, 1,
	257	0, 0, 0, 0, 0,
	258	SM_HTPW, SM_HTPW, 0, 0, 0,
	259	SM_HTPW, SM_HTPW, SM_HTPW, SM_HTPW, SM_HTPW,
	260	SM_HTPW, SM_HTPW, SM_HTPW, SM_HTPW, SM_HTPW
	261	};
	262
	263	/*
	264
	265	*/
	266
	267	char *rawdata[] = {
	268
	269	"Trans", " ", "Start", "Trans", "000 ",
	270	"000 ", "Start", "0 ", "+00 ", "+01 ",
	271	"00 ", "+0000", "01 ", "01 ", "00 ",
	272	"PchWh", "PchWh", " ", " ", " ",
	273	"PchWh", "PchWh", "PchWh", "PchWh", "PchWh",
	274	"PchWh", "PchWh", "PchWh", "PchWh", "PchWh"
	275	};
	276
	277	char hilitab[][8] = { /* submenu highlight table */
	278
	279	/* start, width, row1, row2, row3, row4, row5, pad */
	280
	281	{ 2, 3, HT_0\|HT_2, HT_0, HT_0\|HT_2, HT_0\|HT_2, HT_2, 0},
	282	{ 7, 6, HT_2, HT_2, HT_2, HT_2, HT_2, 0},
	283	{ 15, 5, HT_2, HT_2, HT_2, HT_2, HT_2, 0},
	284	{ 22, 5, HT_2, HT_2\|HT_3, HT_3, HT_3, HT_3, 0},
	285	{ 29, 5, HT_2, HT_2, HT_2, HT_2, HT_2, 0},
	286	{ 36, 5, HT_2, HT_2, HT_2, HT_2, HT_2, 0},
	287	{ 43, 4, HT_4\|HT_5, HT_4\|HT_5, HT_4\|HT_5, HT_4\|HT_5, 0, 0},
	288	{ 49, 5, HT_1, HT_1, HT_1, HT_1, HT_1, 0},
	289	{ 56, 5, HT_1, HT_1, HT_1, HT_1, HT_1, 0}
	290	};
	291
	292	struct selbox ptboxes[] = { /* selection boxes */
	293
	294	{CTOX(1), RTOY(DATAROW), CTOX(48)-1, RTOY(1+DATAROW)-1, 0, ptfnbox}, /* current patch */
	295
	296	{ 0, 0, 0, 0, 0, FN_NULL}
	297	};
	298
	299	/*
	300
	301	*/
	302
	303	/*
	304	=============================================================================
	305	hilitpm() -- highlight patch submenu
	306	=============================================================================
	307	*/
	308
	309	hilitpm(n)
	310	register char n;
	311	{
	312	register short chr, h, v, w;
	313
	314	ptemenu = n; /* set current submenu type */
	315
	316	for (h = 0; h < 9; h++) { /* scan the columns */
	317
	318	for (v = 0; v < 5; v++) { /* scan the rows */
	319
	320	chr = hilitab[h][0]; /* starting character */
	321
	322	for (w = hilitab[h][1]; w-- > 0; )
	323	vsetcv(obj11, v + 1, chr++,
	324	(hilitab[h][v + 2] & n) ?
	325	PTIATR : PTMATR, 64);
	326	}
	327	}
	328	}
	329
	330	/*
	331
	332	*/
	333
	334	/*
	335	=============================================================================
	336	aftercm() -- determine state after cursor motion
	337	=============================================================================
	338	*/
	339
	340	aftercm()
	341	{
	342	switch (stccol) { /* switch based on current cursor column */
	343
	344	case 2: /* definer */
	345	case 3:
	346	case 4:
	347	hilitpm(HT_0);
	348	break;
	349
	350	case 15: /* stimulus */
	351	case 16:
	352	case 17:
	353
	354	hilitpm(HT_0);
	355	break;
	356
	357	case 28: /* destination */
	358
	359	hilitpm(HT_2);
	360	break;
	361
	362	/*
	363
	364	*/
	365	case 34: /* may be a destination sub-address */
	366	case 35:
	367	case 36:
	368	case 37:
	369
	370	if (ptedsok) { /* if destination is good ... */
	371
	372	switch (PE_SPEC & ptespec) {
	373
	374	case PA_OSC:
	375
	376	hilitpm(HT_3);
	377	break;
	378
	379	case PA_LEVL:
	380	case PA_INDX:
	381	case PA_FREQ:
	382	case PA_LOCN:
	383	case PA_FILT:
	384
	385	hilitpm(HT_4);
	386	break;
	387
	388	case PA_FILQ:
	389	case PA_DYNM:
	390	case PA_VOUT:
	391	case PA_DPTH:
	392	case PA_RATE:
	393	case PA_INTN:
	394	case PA_AUX:
	395
	396	hilitpm(HT_5);
	397	break;
	398
	399	default:
	400
	401	hilitpm(HT_OFF);
	402	break;
	403	}
	404
	405	} else {
	406
	407	hilitpm(HT_OFF);
	408	}
	409
	410	break;
	411	/*
	412
	413	*/
	414	case 42: /* datum */
	415
	416	if (ptedtok) { /* if datum is valid ... */
	417
	418	switch (PE_SPEC & ptespec) {
	419
	420	case PA_LEVL:
	421	case PA_INDX:
	422	case PA_FREQ:
	423	case PA_LOCN:
	424	case PA_FILT:
	425	case PA_FILQ:
	426	case PA_DYNM:
	427	case PA_VOUT:
	428	case PA_DPTH:
	429	case PA_RATE:
	430	case PA_INTN:
	431	case PA_AUX:
	432
	433	if (ptedat1 EQ PSA_SRC)
	434	hilitpm(HT_1);
	435	else
	436	hilitpm(HT_OFF);
	437
	438	break;
	439
	440	default:
	441
	442	hilitpm(HT_OFF);
	443	break;
	444	}
	445
	446	} else {
	447
	448	hilitpm(HT_OFF);
	449	}
	450
	451	break;
	452
	453	default: /* not in a starting place */
	454
	455	hilitpm(HT_OFF);
	456	break;
	457	}
	458	}
	459
	460	/*
	461
	462	*/
	463
	464	/*
	465	=============================================================================
	466	movectc() -- move cursor and reset highlighting
	467	=============================================================================
	468	*/
	469
	470	movectc(r, c)
	471	short r, c;
	472	{
	473	ctcpos(r, c);
	474	aftercm();
	475	}
	476
	477	/*
	478	=============================================================================
	479	endpsm() -- end patch submenu data entry
	480	=============================================================================
	481	*/
	482
	483	endpsm(row, col)
	484	short row, col;
	485	{
	486	submenu = FALSE;
	487	cmtype = CT_SMTH;
	488
	489	ptegood = ptedfok AND ptestok AND ptedsok AND ptedtok;
	490
	491	mtcoff();
	492	movectc(row, col);
	493
	494	srdspte();
	495	}
	496
	497	/*
	498
	499	*/
	500
	501	/*
	502	=============================================================================
	503	edefstm() -- enter a def or a stm field
	504	=============================================================================
	505	*/
	506
	507	edefstm(du, n)
	508	short du, n;
	509	{
	510	short chan, port, stim;
	511	register short i, left, right;
	512	register long ltemp;
	513
	514	#if DEBUGIT
	515	if (debugsw AND snapit)
	516	printf("edefstm(%d): pte stok=%d dfok=%d\n",
	517	n, ptestok, ptedfok);
	518	#endif
	519
	520	if (n) {
	521
	522	if (NOT ptestok) {
	523
	524	movectc(DATAROW, 15);
	525	return;
	526	}
	527
	528	} else {
	529
	530	if (NOT ptedfok) {
	531
	532	movectc(DATAROW, 2);
	533	return;
	534	}
	535	}
	536
	537	port = ((n ? ptestm : ptedef) >> 11) & 0x0003;
	538	chan = ((n ? ptestm : ptedef) >> 7) & 0x000F;
	539	stim = (n ? ptestm : ptedef) & 0x007F;
	540
	541	/*
	542
	543	*/
	544
	545	if ( (port EQ 0) OR (port EQ 1) OR
	546	((port EQ 2) AND (chan < 2)) ) { /* key / rel */
	547
	548	ltemp = 0; /* stimulus number */
	549	left = n ? 19 : 6;
	550	right = n ? 22 : 9;
	551
	552	for (i = left; i < right; i++)
	553	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	554
	555	if ((ltemp EQ 0) OR (ltemp > 128L)) {
	556
	557	movectc(DATAROW, left);
	558	return;
	559	}
	560
	561	stim = ltemp - 1;
	562
	563	if (port EQ 2) {
	564
	565	chan = 0;
	566
	567	} else {
	568
	569	ltemp = 0; /* channel */
	570	left = n ? 25 : 12;
	571	right = n ? 27 : 14;
	572
	573	for (i = left; i < right; i++)
	574	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	575
	576	if ((ltemp EQ 0) OR (ltemp > 16L)) {
	577
	578	movectc(DATAROW, left);
	579	return;
	580	}
	581
	582	chan = ltemp - 1;
	583	}
	584
	585	if (n)
	586	ptestm = (ptestm & 0x8000) \| (port << 11) \| (chan << 7) \| stim;
	587	else
	588	ptedef = (ptedef & 0x8000) \| (port << 11) \| (chan << 7) \| stim;
	589	/*
	590
	591	*/
	592	} else if ((port EQ 2) AND (chan EQ 2)) { /* Trig */
	593
	594	ltemp = 0;
	595	left = n ? 20 : 7;
	596	right = n ? 22 : 9;
	597
	598	for (i = left; i < right; i++)
	599	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	600
	601	if ((ltemp EQ 0) OR (ltemp > 16L)) {
	602
	603	movectc(DATAROW, left);
	604	return;
	605	}
	606
	607	stim = ltemp - 1;
	608
	609	if (n)
	610	ptestm = 0x1100 \| stim;
	611	else
	612	ptedef = 0x1100 \| stim;
	613	/*
	614
	615	*/
	616	} else if ((port EQ 2) AND (chan EQ 3)) { /* Pulse */
	617
	618	left = n ? 21 : 8;
	619	ltemp = ptdebuf[left] - '0';
	620
	621	if ((ltemp EQ 0) OR (ltemp > 2L)) {
	622
	623	movectc(DATAROW, left);
	624	return;
	625	}
	626
	627	stim = ltemp - 1;
	628
	629	if (n)
	630	ptestm = 0x1180 \| stim;
	631	else
	632	ptedef = 0x1180 \| stim;
	633
	634	} else {
	635
	636	movectc(DATAROW, n ? 15 : 2);
	637	return;
	638	}
	639
	640	if (n)
	641	ptestok = TRUE;
	642	else
	643	ptedfok = TRUE;
	644
	645	#if SNAPDUMP
	646	if (debugsw AND snapit)
	647	SnapPTV("edefstm");
	648	#endif
	649
	650	if (du) { /* if display is to be updated ... */
	651
	652	srdspte();
	653	movectc(DATAROW, n ? 28 : 15);
	654	}
	655	}
	656
	657	/*
	658
	659	*/
	660
	661	/*
	662	=============================================================================
	663	ptdest() -- enter patch destination field
	664	=============================================================================
	665	*/
	666
	667	ptdest(du)
	668	short du;
	669	{
	670	register long ltemp;
	671	register short i, left, right, stim;
	672	short port, chan;
	673
	674	#if DEBUGIT
	675	if (debugsw AND debug01)
	676	printf("ptdest(%d): entry -- ptedest = %d\n", du, ptedest);
	677	#endif
	678
	679	switch (ptedest) {
	680
	681	case 0: /* key */
	682
	683	ltemp = 0;
	684	left = 30;
	685	right = 33;
	686
	687	for (i = left; i < right; i++)
	688	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	689
	690	if ((ltemp EQ 0) OR (ltemp > 128L)) {
	691
	692	movectc(DATAROW, left);
	693	return;
	694	}
	695
	696	stim = ltemp - 1;
	697	ltemp = 0;
	698	left = 36;
	699	right = 38;
	700
	701	for (i = left; i < right; i++)
	702	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	703
	704	if ((ltemp EQ 0) OR (ltemp > 16L)) {
	705
	706	movectc(DATAROW, left);
	707	return;
	708	}
	709
	710	chan = ltemp - 1;
	711	/*
	712
	713	*/
	714	if (ptdebuf[34] EQ 'L') {
	715
	716	port = 2;
	717	chan = 0;
	718
	719	} else {
	720
	721	port = ptdebuf[34] - '1';
	722	}
	723
	724	ptesuba = (port << 11) \| (chan << 7) \| stim;
	725	break;
	726	/*
	727
	728	*/
	729	case 1: /* trigger */
	730
	731	ltemp = 0;
	732	left = 36;
	733	right = 38;
	734
	735	for (i = left; i < right; i++)
	736	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	737
	738	if ((ltemp EQ 0) OR (ltemp > 16L)) {
	739
	740	movectc(DATAROW, left);
	741	return;
	742	}
	743
	744	stim = ltemp - 1;
	745	ptesuba = 0x1100 \| stim;
	746	break;
	747
	748	case 2: /* pulse */
	749
	750	ptesuba = ptdebuf[34] - '1';
	751	break;
	752
	753	case 3: /* led */
	754
	755	ptesuba = ptdebuf[32] - 'A';
	756	break;
	757
	758	case 4: /* seq / reg */
	759
	760	ltemp = 0;
	761	left = 32;
	762	right = 34;
	763
	764	for (i = left; i < right; i++)
	765	ltemp = (ltemp * 10) + ptdebuf[i] - '0';
	766
	767	if ((ltemp EQ 0) OR (ltemp > 16L)) {
	768
	769	movectc(DATAROW, left);
	770	return;
	771	}
	772
	773	ptesuba = ltemp - 1;
	774	break;
	775
	776	/*
	777
	778	*/
	779	case 5: /* tuning */
	780	case 7: /* aux, rate, inten, depth */
	781
	782	break;
	783
	784	case 6: /* inst, wave, config */
	785	case 10: /* level, filtr, fil Q, loctn, dynmc */
	786
	787	if (ptdebuf[39] EQ 'V')
	788	stim = 0;
	789	else
	790	stim = 12;
	791
	792	i = ptdebuf[40] & 0x00FF;
	793
	794	if (i GE '\254')
	795	stim += i - '\242';
	796	else
	797	stim += i - '0';
	798
	799	--stim;
	800	ptesuba = stim << 8;
	801	break;
	802
	803	case 8: /* vlt */
	804
	805	ptesuba = ptdebuf[32] - '0';
	806	break;
	807	/*
	808
	809	*/
	810	case 9: /* osc, ind, frq */
	811
	812	if (ptdebuf[39] EQ 'V')
	813	stim = 0;
	814	else
	815	stim = 12;
	816
	817	i = ptdebuf[40] & 0x00FF;
	818
	819	if (i GE '\254')
	820	stim += i - '\242';
	821	else
	822	stim += i - '0';
	823
	824	--stim;
	825	ptesuba = (stim << 8) \| (ptdebuf[32] - '0');
	826	break;
	827
	828	default: /* something weird got in here ... */
	829
	830	movectc(DATAROW, 28);
	831	return;
	832	}
	833
	834	ptedsok = TRUE;
	835
	836	#if SNAPDUMP
	837	if (debugsw AND snapit)
	838	SnapPTV("ptdest");
	839	#endif
	840
	841	if (du) {
	842
	843	srdspte();
	844	movectc(DATAROW, 42);
	845	}
	846
	847	#if DEBUGIT
	848	if (debugsw AND debug01)
	849	printf("ptdest(%d): exit\n", du);
	850	#endif
	851	}
	852
	853	/*
	854
	855	*/
	856
	857	/*
	858	=============================================================================
	859	epatch() -- enter patch and reposition cursor to the DEF field
	860	=============================================================================
	861	*/
	862
	863	epatch()
	864	{
	865	#if DEBUGIT
	866	if (debugsw AND debug01)
	867	printf("epatch(): entry\n");
	868	#endif
	869
	870	ptedtok = TRUE; /* data just got parsed or we wouldn't be here */
	871	edefstm(0, 0); /* parse def */
	872	edefstm(0, 1); /* parse stm */
	873	ptdest(0); /* parse dest */
	874	entrpte(); /* enter the patch */
	875	srdspte(); /* adjust the display */
	876	movectc(DATAROW, 2); /* reposition the cursor */
	877
	878	#if SNAPDUMP
	879	if (debugsw AND snapit)
	880	SnapPTV("epatch");
	881	#endif
	882
	883	#if DEBUGIT
	884	if (debugsw AND debug01)
	885	printf("epatch(): exit\n");
	886	#endif
	887	}
	888
	889	/*
	890
	891	*/
	892
	893	/*
	894	=============================================================================
	895	badpdat() -- position cursor at bad data field
	896	=============================================================================
	897	*/
	898
	899	badpdat()
	900	{
	901	ptedtok = FALSE;
	902	movectc(DATAROW, 42);
	903	}
	904
	905	/*
	906	=============================================================================
	907	setsubm() -- setup submenu
	908	=============================================================================
	909	*/
	910
	911	setsubm(r, c)
	912	short r, c;
	913	{
	914	submenu = TRUE;
	915	cmtype = CT_MENU;
	916	mtcpos(r, c);
	917	}
	918
	919	/*
	920
	921	*/
	922
	923	/*
	924	=============================================================================
	925	ptfnbox() -- patch display box hit processor
	926	=============================================================================
	927	*/
	928
	929	short
	930	ptfnbox(n)
	931	short n;
	932	{
	933	register short i, box, ptd, ptt;
	934	register long ltemp;
	935
	936	if (NOT submenu) { /* PATCH DATA ENTRY LINE */
	937
	938	if (inrange(stccol, 2, 13)) { /* DEFINER */
	939
	940	ptedftp = 1; /* def */
	941
	942	if (inrange(stccol, 2, 4)) { /* select */
	943
	944	setsubm(19, 2);
	945
	946	} else { /* enter */
	947
	948	edefstm(0, 1);
	949	ptdest(0);
	950	edefstm(1, 0);
	951	}
	952
	953	return(SUCCESS);
	954
	955	} else if (inrange(stccol, 15, 26)) { /* STIMULUS */
	956
	957	ptedftp = 2; /* stm */
	958
	959	if (inrange(stccol, 15, 17)) { /* select */
	960
	961	setsubm(19, 2);
	962
	963	} else { /* enter */
	964
	965	edefstm(0 ,0);
	966	ptdest(0);
	967	edefstm(1, 1);
	968	}
	969
	970	return(SUCCESS);
	971	/*
	972
	973	*/
	974	} else if (inrange(stccol, 28, 40)) { /* DESTINATION */
	975
	976	ptedftp = 0; /* not def/stm */
	977
	978	if (stccol EQ 28) { /* select */
	979
	980	setsubm(19, 2);
	981
	982	} else if (ptemenu EQ HT_3) {
	983
	984	setsubm(20, 22);
	985
	986	} else if ((ptemenu EQ HT_4) OR
	987	(ptemenu EQ HT_5)) {
	988
	989	setsubm(19, 43);
	990
	991	} else { /* enter */
	992
	993	edefstm(0, 0);
	994	edefstm(0, 1);
	995	ptdest(1);
	996	}
	997
	998	return(SUCCESS);
	999	/*
	1000
	1001	*/
	1002	} else if (inrange(stccol, 42, 46)) { /* DATUM */
	1003
	1004	ptedftp = 0; /* not def/stm */
	1005	setptcv(); /* setup control variables */
	1006
	1007	#if DEBUGIT
	1008	if (debugsw AND debug01)
	1009	SnapPTV("ptfnbox");
	1010	#endif
	1011	switch (ptedata) { /* switch on Datum format */
	1012
	1013	case 0: /* -none- */
	1014
	1015	ptedtok = FALSE;
	1016	return(FAILURE);
	1017
	1018	case 1: /* multiplier -- +1.00 */
	1019
	1020	ebuf[0] = ptdebuf[43];
	1021	ebuf[1] = ptdebuf[45];
	1022	ebuf[2] = ptdebuf[46];
	1023	ebuf[3] = ptdebuf[42];
	1024
	1025	if (0xFFFF EQ (i = dec2fr(ebuf))) {
	1026
	1027	badpdat();
	1028	return(FAILURE);
	1029	}
	1030
	1031	ptedat2 = i;
	1032	epatch(); /* enter -- multiplier */
	1033	return(SUCCESS);
	1034	/*
	1035
	1036	*/
	1037	case 2: /* time -- 32767 */
	1038
	1039	ltemp = 0;
	1040
	1041	for (i = 42; i < 47; i++)
	1042	ltemp = (ltemp * 10) + (ptdebuf[i] - '0');
	1043
	1044	if (ltemp > 32767L) {
	1045
	1046	badpdat();
	1047	return(FAILURE);
	1048	}
	1049
	1050	ptedat2 = tofpu((unsigned short)ltemp);
	1051	epatch(); /* enter -- time */
	1052	return(SUCCESS);
	1053
	1054	case 3: /* value -- +10.00 */
	1055
	1056	i = ptdebuf[42] & 0x00FF;
	1057
	1058	if ((i EQ '\240') OR (i EQ '\241'))
	1059	ltemp = 1000;
	1060	else
	1061	ltemp = 0;
	1062
	1063	ltemp += ((ptdebuf[43] - '0') * 100) +
	1064	((ptdebuf[45] - '0') * 10) +
	1065	(ptdebuf[46] - '0');
	1066
	1067	if (ltemp > 1000L) {
	1068
	1069	badpdat();
	1070	return(FAILURE);
	1071	}
	1072
	1073	if ((i EQ '-') OR (i EQ '\241'))
	1074	ltemp = -ltemp;
	1075
	1076	ptedat2 = ltemp << 5;
	1077	epatch(); /* enter -- value */
	1078	return(SUCCESS);
	1079
	1080	/*
	1081
	1082	*/
	1083	case 4: /* interval -- +1200 */
	1084
	1085	ltemp = 0;
	1086
	1087	for (i = 43; i < 47; i++)
	1088	ltemp = (ltemp * 10) + (ptdebuf[i] - '0');
	1089
	1090	if (ltemp > 1200L) {
	1091
	1092	badpdat();
	1093	return(FAILURE);
	1094	}
	1095
	1096	if (ptdebuf[42] EQ '-')
	1097	ltemp = -ltemp;
	1098
	1099	ptedat2 = ltemp << 1;
	1100	epatch(); /* enter -- interval */
	1101	return(SUCCESS);
	1102	/*
	1103
	1104	*/
	1105	case 5: /* ratio -- 9/9 */
	1106
	1107	ptedat2 = ndvals[ptdebuf[42] - '0'] -
	1108	ndvals[ptdebuf[44] - '0'];
	1109
	1110	epatch(); /* enter -- ratio */
	1111	return(SUCCESS);
	1112
	1113	case 6: /* frequency -- 15.9 */
	1114
	1115	ltemp = ((ptdebuf[42] - '0') * 100) +
	1116	((ptdebuf[43] - '0') * 10) +
	1117	(ptdebuf[45] - '0');
	1118
	1119	if (ltemp > 159L) {
	1120
	1121	badpdat();
	1122	return(FAILURE);
	1123	}
	1124
	1125	ptedat2 = ltemp << 1;
	1126	epatch(); /* enter -- frequency */
	1127	return(SUCCESS);
	1128
	1129	case 7: /* pitch -- 9C#99 */
	1130
	1131	memcpy(ebuf,& ptdebuf[42], 5);
	1132
	1133	if (FAILURE EQ cnvp2c()) {
	1134
	1135	badpdat();
	1136	return(FAILURE);
	1137	}
	1138
	1139	ptedat2 = cents;
	1140	epatch(); /* enter - pitch */
	1141	return(SUCCESS);
	1142	/*
	1143
	1144	*/
	1145	case 8: /* trans/stop/start */
	1146	case 9: /* stop/start */
	1147	case 10: /* off/on */
	1148
	1149	epatch(); /* enter -- control */
	1150	return(SUCCESS);
	1151
	1152	case 11: /* source */
	1153
	1154	if (stccol EQ 42)
	1155	setsubm(19, 49); /* select */
	1156	else
	1157	epatch(); /* enter -- source */
	1158
	1159	return(SUCCESS);
	1160
	1161	case 12: /* register/value -- R16 \| +99 */
	1162
	1163	ltemp = ((ptdebuf[43] - '0') * 10) +
	1164	(ptdebuf[44] - '0');
	1165
	1166	if (ptdebuf[42] EQ 'R') {
	1167
	1168	if ((ltemp EQ 0) OR (ltemp > 16L)) {
	1169
	1170	badpdat();
	1171	return(FAILURE);
	1172	}
	1173
	1174	--ltemp;
	1175	ptedat1 = 1;
	1176
	1177	} else {
	1178
	1179	ptedat1 = 0;
	1180	}
	1181
	1182	ptedat2 = ltemp;
	1183	epatch(); /* enter -- register \| value */
	1184	return(SUCCESS);
	1185	/*
	1186
	1187	*/
	1188	case 13: /* sequence line */
	1189
	1190	ltemp = 0;
	1191
	1192	for (i = 42; i < 45; i++)
	1193	ltemp = (ltemp * 10) + (ptdebuf[i] - '0');
	1194
	1195	ptedat1 = ltemp;
	1196	epatch(); /* enter -- sequence line */
	1197	return(SUCCESS);
	1198
	1199	case 14: /* LED controls */
	1200
	1201	ltemp = 0;
	1202
	1203	if (ptesuba & 0x0001) {
	1204
	1205	for (i = 42; i < 46; i++)
	1206	ltemp = (ltemp << 2) \| (ptdebuf[i] - '0');
	1207
	1208	ptedat1 = ltemp << 8;
	1209
	1210	} else {
	1211
	1212	for (i = 42; i < 45; i++)
	1213	ltemp = (ltemp << 2) \| (ptdebuf[i] - '0');
	1214
	1215	ptedat1 = ltemp << 10;
	1216	}
	1217
	1218	epatch(); /* enter -- LED controls */
	1219	return(SUCCESS);
	1220
	1221	/*
	1222
	1223	*/
	1224	case 15: /* instrument number */
	1225
	1226	ltemp = ((ptdebuf[42] - '0') * 10) +
	1227	(ptdebuf[43] - '0');
	1228
	1229	if (ltemp > 40L) {
	1230
	1231	badpdat();
	1232	return(FAILURE);
	1233	}
	1234
	1235	ptedat1 = ltemp;
	1236	epatch(); /* enter -- instrument number */
	1237	return(SUCCESS);
	1238
	1239	case 16: /* waveshape number */
	1240
	1241	ltemp = ((ptdebuf[42] - '0') * 10) +
	1242	(ptdebuf[43] - '0');
	1243
	1244	if ((ltemp EQ 0) OR (ltemp > 20L)) {
	1245
	1246	badpdat();
	1247	return(FAILURE);
	1248	}
	1249
	1250	ptedat1 = ltemp;
	1251	epatch(); /* enter -- waveshape number */
	1252	return(SUCCESS);
	1253	/*
	1254
	1255	*/
	1256	case 17: /* configuration number */
	1257
	1258	ltemp = ((ptdebuf[42] - '0') * 10) +
	1259	(ptdebuf[43] - '0');
	1260
	1261	if (ltemp > 11L) {
	1262
	1263	badpdat();
	1264	return(FAILURE);
	1265	}
	1266
	1267	ptedat1 = ltemp;
	1268	epatch(); /* enter -- configuration number */
	1269	return(SUCCESS);
	1270
	1271	case 18: /* tuning table number */
	1272
	1273	ptedat1 = ptdebuf[42] - '0';
	1274	epatch(); /* enter -- tuning table number */
	1275	return(SUCCESS);
	1276
	1277	default: /* something weird got in here ... */
	1278
	1279	ptedtok = FALSE;
	1280	return(FAILURE);
	1281	}
	1282	}
	1283
	1284	return(FAILURE);
	1285	/*
	1286
	1287	*/
	1288	} else { /* SUBMENU SELECTION */
	1289
	1290	/* determine the "box" we're pointing at */
	1291
	1292	if (inrange(vtccol, 2, 4))
	1293	box = vtcrow - 18;
	1294	else if (inrange(vtccol, 7, 12))
	1295	box = vtcrow - 13;
	1296	else if (inrange(vtccol, 15, 19))
	1297	box = vtcrow - 8;
	1298	else if (inrange(vtccol, 22, 26))
	1299	box = vtcrow - 3;
	1300	else if (inrange(vtccol, 29, 33))
	1301	box = vtcrow + 2;
	1302	else if (inrange(vtccol, 36, 40))
	1303	box = vtcrow + 7;
	1304	else if (inrange(vtccol, 43, 46))
	1305	box = vtcrow + 12;
	1306	else if (inrange(vtccol, 49, 53))
	1307	box = vtcrow + 17;
	1308	else if (inrange(vtccol, 56, 60))
	1309	box = vtcrow + 22;
	1310	else
	1311	return(FAILURE);
	1312
	1313	/*
	1314
	1315	*/
	1316	switch (ptemenu) { /* switch on submenu type */
	1317
	1318	case HT_0: /* DEFINERS / STIMULLI */
	1319
	1320	if (inrange(box, 1, 4)) { /* Key, Rel, Trg, Pls */
	1321
	1322	i = box - 1;
	1323	ptedfst = dfsttp[i];
	1324
	1325	if (ptedftp EQ 1) { /* def */
	1326
	1327	ptedfok = TRUE;
	1328	ptbflag = TRUE;
	1329
	1330	ptedef = dfsttab[i];
	1331
	1332	strcpy(&ptdebuf[2], rawdfst[i]);
	1333
	1334	UpdVid(7, 2, rawdfst[i], PTDATR);
	1335	endpsm(DATAROW, defcols[ptedfst]);
	1336
	1337	return(SUCCESS);
	1338
	1339	} else if (ptedftp EQ 2) { /* stm */
	1340
	1341	ptestok = TRUE;
	1342	ptbflag = TRUE;
	1343
	1344	ptestm = dfsttab[i];
	1345
	1346	strcpy(&ptdebuf[15], rawdfst[i]);
	1347
	1348	UpdVid(7, 15, rawdfst[i], PTDATR);
	1349	endpsm(DATAROW, stmcols[ptedfst]);
	1350
	1351	return(SUCCESS);
	1352	}
	1353	}
	1354
	1355	return(FAILURE);
	1356	/*
	1357
	1358	*/
	1359	case HT_1: /* SOURCES */
	1360
	1361	if (inrange(box, 36, 45)) {
	1362
	1363	ptedtok = TRUE;
	1364	ptbflag = TRUE;
	1365
	1366	ptedat2 = datasrc[box - 36];
	1367
	1368	strcpy(&ptdebuf[42], smdata[ptedat2]);
	1369
	1370	UpdVid(7, 42, smdata[ptedat2], PTDATR);
	1371	endpsm(DATAROW, 46);
	1372
	1373	return(SUCCESS);
	1374	}
	1375
	1376	return(FAILURE);
	1377	/*
	1378
	1379	*/
	1380	case HT_2: /* DESTINATIONS */
	1381
	1382	i = box - 1;
	1383	ptt = destype[i];
	1384
	1385	if (ptt NE -1) {
	1386
	1387	ptedsok = TRUE;
	1388	ptedtok = TRUE;
	1389	ptbflag = TRUE;
	1390
	1391	ptedest = destfmt[i];
	1392	ptedata = datafmt[i];
	1393	ptespec = ptt;
	1394	ptesuba = 0x0000;
	1395	ptedat1 = 0x0000;
	1396	ptedat2 = 0x0000;
	1397
	1398	if (ptd = desdatf[i]) {
	1399
	1400	if (ptd & 1)
	1401	ptedat1 = desdat1[i];
	1402
	1403	if (ptd & 2)
	1404	ptedat2 = desdat2[i];
	1405	}
	1406
	1407	strcpy(&ptdebuf[28], rawdest[ptt]);
	1408	strcpy(&ptdebuf[42], rawdata[i]);
	1409
	1410	UpdVid(7, 28, rawdest[ptt], PTDATR);
	1411	UpdVid(7, 42, rawdata[i], PTDATR);
	1412	endpsm(DATAROW, dstcols[1 + ptedest]);
	1413
	1414	return(SUCCESS);
	1415	}
	1416
	1417	return(FAILURE);
	1418	/*
	1419
	1420	*/
	1421	case HT_3: /* OSCILLATOR MODES */
	1422
	1423	if (inrange(box, 17, 20)) {
	1424
	1425	i = box - 17;
	1426
	1427	ptedsok = TRUE;
	1428	ptedtok = TRUE;
	1429	ptbflag = TRUE;
	1430
	1431	ptedat1 = omtabl[i];
	1432	ptedat2 = omdtab[i];
	1433
	1434	ptedata = omftab[i];
	1435
	1436	strcpy(&ptdebuf[34], rawmode[i]);
	1437	strcpy(&ptdebuf[42], rawmdat[i]);
	1438
	1439	UpdVid(7, 34, rawmode[i], PTDATR);
	1440	UpdVid(7, 42, rawmdat[i], PTDATR);
	1441	endpsm(DATAROW, 39);
	1442
	1443	return(SUCCESS);
	1444	}
	1445
	1446	return(FAILURE);
	1447	/*
	1448
	1449	*/
	1450	case HT_5: /* FPU OUTPUTS WITHOUT FUNCTIONS */
	1451
	1452	if (NOT inrange(box, 31, 34))
	1453	return(FAILURE);
	1454
	1455	case HT_4: /* FPU OUTPUTS WITH FUNCTIONS */
	1456
	1457	if (NOT inrange(box, 31, 35))
	1458	return(FAILURE);
	1459
	1460	i = box - 31;
	1461
	1462	ptedsok = TRUE;
	1463	ptedtok = TRUE;
	1464	ptbflag = TRUE;
	1465
	1466	ptedat1 = i;
	1467	ptedat2 = fpudtab[i];
	1468
	1469	ptedata = fpuetab[i];
	1470
	1471	strcpy(&ptdebuf[34], stdata[i]);
	1472	strcpy(&ptdebuf[42], rawfpud[i]);
	1473
	1474	UpdVid(7, 34, stdata[i], PTDATR);
	1475	UpdVid(7, 42, rawfpud[i], PTDATR);
	1476	endpsm(DATAROW, 42);
	1477
	1478	return(SUCCESS);
	1479
	1480	default: /* -BOGUS- */
	1481
	1482	endpsm(stcrow, stccol);
	1483
	1484	return(FAILURE);
	1485	}
	1486	}
	1487
	1488	return(FAILURE);
	1489	}

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