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PROCPFL.S@ 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: 25.8 KB

Line
1	* ------------------------------------------------------------------------------
2	* procpfl.s -- process pendant functions (sustain release processing)
3	* Version 8 -- 1988-08-31 -- D.N. Lynx Crowe
4	* ------------------------------------------------------------------------------
5	.text
6	*
7	.xdef _procpfl
8	*
9	.xdef _curpf_f * current function (v/p)
10	.xdef _curpf_l * current pflist entry
11	.xdef _curpf_t * current trigger
12	*
13	.xref _irand
14	.xref _xgetran
15	*
16	.xref _expbit
17	.xref _funcndx
18	.xref _pflist
19	.xref _pfqhdr
20	.xref _prstab
21	.xref _ptoftab
22	.xref _timemlt
23	.xref _trgtab
24	.xref _valents
25	.xref _vce2grp
26	.xref _vce2trg
27	.xref _veltab
28	*
29	.page
30	* ------------------------------------------------------------------------------
31	* Register usage
32	* --------------
33	* d0 scratch
34	* d1 FPU function index
35	* d2 point index from FH_CPT (idfcpt)
36	* d3 scratch
37	* d4 jump point number from PT_PAR1 (ippar1)
38	* d5 scratch
39	*
40	* a0 scratch
41	* a1 function header base
42	* a2 point table base
43	* a3 FPU base
44	*
45	* ------------------------------------------------------------------------------
46	* FPU definitions
47	* ---------------
48	*
49	UPD_BIT .equ $0001 * update bit (1 = update)
50	INT_BIT .equ $0002 * int. bit (0 = disable)
51	RAT_BIT .equ $0004 * ratio bit (0 = ratio)
52	*
53	VSUBNBIT .equ 3 * new value select bit number
54	VAL_BITS .equ $0018 * new value select bit mask
55	*
56	MSK_RNVB .equ $000C * new value / ratio bits
57	MSK_ONVB .equ $0010 * old new value bit
58	*
59	FKILL .equ $0014 * kill value for function
60	FSEND .equ $0015 * send new value to function
61	*
62	CLREXP .equ $8000 * clear value for time exponent
63	CLRMNT .equ $8000 * clear value for time mantissa
64	*
65	* ------------------------------------------------------------------------------
66	* Miscellaneous definitions
67	* -------------------------
68	*
69	PCHMAX .equ 21920 * maximum pitch value
70	VALMAX .equ 32000 * maximum value to send to FPU
71	VALMIN .equ -32000 * minimum value to send to FPU
72	*
73	LSPCH .equ 2 * left shift for sources to freq
74	*
75	VALLEN .equ 10 * length of the 'valent' struct
76	VT_VAL .equ 8 * value offset in 'valent'
77	*
78	.page
79	* ------------------------------------------------------------------------------
80	* FPU addresses
81	* -------------
82	*
83	FPUBASE .equ $180000 * FPU base address
84	*
85	FPUWST .equ FPUBASE * FPU waveshape base
86	FPUFUNC .equ FPUBASE+$4000 * FPU function base
87	FPUINT1 .equ FPUBASE+$4000 * FPU int. input address (R/O)
88	FPUINT2 .equ FPUBASE+$6000 * FPU int. reset address (W/O)
89	FPUCFG .equ FPUBASE+$5FE0 * FPU config. data address (W/O)
90	*
91	F_CTL .equ $00 * control word
92	F_VAL10 .equ $02 * new value "10"
93	F_CV1 .equ $08 * control voltage 1
94	F_SF1 .equ $0A * scale factor 1
95	F_CV2 .equ $0C * control voltage 2
96	F_SF2 .equ $0E * scale factor 2
97	F_CV3 .equ $10 * control voltage 3
98	F_SF3 .equ $12 * scale factor 3
99	F_MNT .equ $14 * time mantissa
100	F_EXP .equ $16 * time exponent
101	F_VAL01 .equ $1C * new value "01"
102	*
103	P_FREQ1 .equ $0020 * frequency 1
104	P_FREQ2 .equ $0060 * frequency 2
105	P_FREQ3 .equ $00A0 * frequency 3
106	P_FREQ4 .equ $00E0 * frequency 4
107	P_FILTER .equ $0140 * filter
108	P_FILTRQ .equ $00C0 * filter q
109	*
110	P_INDEX1 .equ $0120 * index 1
111	P_INDEX2 .equ $0160 * index 2
112	P_INDEX3 .equ $0180 * index 3
113	P_INDEX4 .equ $01A0 * index 4
114	P_INDEX5 .equ $01C0 * index 5
115	P_INDEX6 .equ $01E0 * index 6
116	*
117	P_LEVEL .equ $0040 * level
118	*
119	P_LOCN .equ $0080 * location
120	P_DYNAM .equ $0100 * dynamics
121	*
122	.page
123	* ------------------------------------------------------------------------------
124	* Structure definitions
125	* ------------------------------------------------------------------------------
126	* The following MUST match the idfnhdr structure definition in instdsp.h:
127	*
128	FH_LEN .equ 12 * length of the idfnhdr structure
129	*
130	FH_PCH .equ 0 * WORD - pitch offset
131	FH_MLT .equ 2 * WORD - overall value multiplier
132	FH_SRC .equ 4 * BYTE - overall value source
133	FH_PIF .equ 5 * BYTE - # of points in the function
134	FH_PT1 .equ 6 * BYTE - index of first point
135	FH_TMD .equ 7 * BYTE - trigger mode / control bits
136	FH_CPT .equ 8 * BYTE - current point
137	FH_PRM .equ 9 * BYTE - misc. function parameter
138	FH_TRG .equ 10 * WORD - trigger
139	*
140	I_ACTIVE .equ 1 * 'Active' bit number (in FH_TMD)
141	*
142	MSK_CTL .equ $001C * mask for FPU hardware bits (in FH_TMD)
143	*
144	* ------------------------------------------------------------------------------
145	* The following MUST match the instpnt structure definition in instdsp.h:
146	*
147	PT_LEN .equ 12 * length of the instpnt structure
148	*
149	PT_TIM .equ 0 * WORD - time (packed)
150	PT_VAL .equ 2 * WORD - value
151	PT_VMLT .equ 4 * WORD - value multiplier
152	PT_VSRC .equ 6 * BYTE - value source
153	PT_ACT .equ 7 * BYTE - action
154	PT_PAR1 .equ 8 * BYTE - parameter 1
155	PT_PAR2 .equ 9 * BYTE - parameter 2
156	PT_PAR3 .equ 10 * BYTE - parameter 3
157	PT_PAD .equ 11 * BYTE - padding for even boundary
158	*
159	MSK_MNT .equ $FFF0 * mask for mantissa (in PT_TIM)
160	MSK_EXP .equ $000F * mask for exponent (in PT_TIM)
161	*
162	MAX_ACT .equ 7 * maximum action code value
163	*
164	* ------------------------------------------------------------------------------
165	* Source definitions -- must match those in 'smdefs.h'
166	*
167	SM_RAND .equ 1 * random
168	SM_PTCH .equ 5 * pitch
169	SM_KPRS .equ 6 * key pressure
170	SM_KVEL .equ 7 * key velocity
171	SM_FREQ .equ 10 * frequency
172	*
173	.page
174	*
175	* Layout of pflist entries 32 bytes each
176	* ------------------------
177	PF_NEXT .equ 0 * LONG - next entry pointer
178	PF_TRIG .equ 4 * WORD - trigger number
179	PF_FUNC .equ 6 * WORD - fpuifnc value
180	PF_D1 .equ 8 * LONG - d1
181	PF_D2 .equ 12 * LONG - d2
182	PF_D4 .equ 16 * LONG - d4
183	PF_A1 .equ 20 * LONG - a1
184	PF_A2 .equ 24 * LONG - a2
185	PF_A3 .equ 28 * LONG - a3
186	*
187	* Parameter offset
188	* ----------------
189	TRIG .equ 8 * WORD - trigger number
190	*
191	* Register equates
192	* ----------------
193	RCUR .equ a4 * current pflist entry pointer
194	RPRV .equ a5 * previous pflist entry pointer
195	*
196	.page
197	* ------------------------------------------------------------------------------
198	* _procpfl() -- process pendant functions
199	*
200	* void
201	* procpfl(trig);
202	* unsigned trig;
203	*
204	* Processes pendant (sustained) functions by restarting them
205	* when the trigger (trig) that's sustaining them is released.
206	* Invoked by key release processing in msm() and localkb().
207	*
208	* ------------------------------------------------------------------------------
209	*
210	_procpfl: nop * FOR DEBUGGING PATCH
211	*
212	link a6,#0 * allocate stack frame
213	movem.l d3-d7/a3-a5,-(a7) * preserve registers we use
214	*
215	move.w sr,d7 * save interrupt state
216	move.w #$2200,sr * turn off FPU interrupts
217	*
218	move.w TRIG(a6),d6 * get trigger we're processing
219	move.w d6,_curpf_t * ...
220	movea.l #_pflist,RPRV * point at 'previous' pflist entry
221	bra pfscan * go scan the chain
222	*
223	pfpass: movea.l RCUR,RPRV * point at previous entry
224	*
225	pfscan: move.l (RPRV),d5 * get next pflist entry pointer
226	beq pfexit * done if no more
227	*
228	movea.l d5,RCUR * point at current entry
229	move.l d5,_curpf_l * ...
230	*
231	cmp.w PF_TRIG(RCUR),d6 * see if this entry is wanted
232	bne pfpass * jump if not
233	*
234	movem.l PF_D1(RCUR),d1-d2/d4/a1-a3 * restore processing state
235	move.w PF_FUNC(RCUR),_curpf_f * ...
236	*
237	btst #I_ACTIVE,FH_TMD(a1) * see if function is active
238	bne doact * continue function if so
239	*
240	bra stopfn * stop function if not
241	*
242	pfnext: move.l (RCUR),(RPRV) * remove entry from pflist
243	move.l _pfqhdr,(RCUR) * chain entry to free list
244	move.l RCUR,_pfqhdr * ...
245	bra pfscan * go look at next entry
246	*
247	pfexit: move.w d7,sr * restore interrupt level
248	movem.l (a7)+,d3-d7/a3-a5 * restore the registers we used
249	unlk a6 * deallocate stack frame
250	rts * return to caller
251	*
252	.page
253	*
254	* ------------------------------------------------------------------------------
255	* stop a function
256	* ------------------------------------------------------------------------------
257	stopfn: move.b FH_TMD(a1),d0 * get function control bits
258	andi.w #MSK_RNVB,d0 * mask for ratio / new new-value bit
259	move.w d0,d3 * isolate new new-value bit
260	add.w d3,d3 * ... from function header
261	andi.w #MSK_ONVB,d3 * ... shift to old new-value bit
262	or.w d3,d0 * ... and put new bit in old bit
263	move.w d0,F_CTL(a3,d1.W) * stop the function
264	bclr #I_ACTIVE,FH_TMD(a1) * reset the active bit
265	bra pfnext * go restore registers and exit
266	*
267	* ------------------------------------------------------------------------------
268	* setup for and dispatch to the proper action handler
269	* ------------------------------------------------------------------------------
270	doact: clr.w d2 * get current point index in d2
271	move.b FH_CPT(a1),d2 * ...
272	lsl.w #2,d2 * multiply it by the length of a point
273	move.w d2,d0 * ... (fast multiply by PT_LEN = 12
274	add.w d2,d2 * ... via shift and add)
275	add.w d0,d2 * ...
276	clr.w d4 * get jump point # into d4
277	move.b PT_PAR1(a2,d2.W),d4 * ...
278	clr.w d3 * get action code in d3
279	move.b PT_ACT(a2,d2.W),d3 * ...
280	cmpi.b #MAX_ACT,d3 * check against the limit
281	bgt stopfn * stop things if it's a bad action code
282	*
283	lsl.w #2,d3 * develop index to action dispatch table
284	lea actab,a0 * get the address of the action handler
285	movea.l 0(a0,d3.W),a0 * ...
286	*
287	* ------------------------------------------------------------------------------
288	* At this point we're ready to do the action associated with the point,
289	* and the registers are set up, and will remain, as follows:
290	*
291	* d1 FPU function index a1 function header base
292	* d2 point table index a2 point table base
293	* a3 FPU function base
294	* d4 jump point number
295	*
296	* d0, d3, d5, and a0 are used as scratch throughout the code.
297	*
298	* ------------------------------------------------------------------------------
299	*
300	jmp (a0) * dispatch to action handler
301	*
302	.page
303	* ------------------------------------------------------------------------------
304	* act0 -- AC_NULL -- no action
305	* ---- --------------------
306	act0: move.b FH_PT1(a1),d0 * get first point number
307	add.b FH_PIF(a1),d0 * add number of points in function
308	subq.b #1,d0 * make it last point number
309	cmp.b FH_CPT(a1),d0 * see if we're at the last point
310	beq stopfn * stop function if so
311	*
312	addq.b #1,FH_CPT(a1) * update function header for next point
313	addi.w #PT_LEN,d2 * advance the point index
314	*
315	* ------------------------------------------------------------------------------
316	* outseg -- output a segment
317	* ------ ----------------
318	outseg: move.w PT_TIM(a2,d2.w),d3 * get packed time
319	move.w d3,d0 * extract mantissa
320	andi.w #MSK_MNT,d0 * ...
321	mulu _timemlt,d0 * multiply by panel time pot value
322	lsr.l #8,d0 * ... and scale it
323	lsr.l #7,d0 * ...
324	move.w d0,F_MNT(a3,d1.W) * send mantissa to FPU
325	andi.w #MSK_EXP,d3 * extract exponent code
326	add.w d3,d3 * look up decoded exponent
327	lea _expbit,a0 * ... in expbit
328	move.w 0(a0,d3.W),F_EXP(a3,d1.W) * send exponent to FPU
329	move.w PT_VAL(a2,d2.W),d3 * get the function value
330	*
331	.page
332	* ------------------------------------------------------------------------------
333	* get the point source, if any
334	* ------------------------------------------------------------------------------
335	tst.w PT_VMLT(a2,d2.W) * see if we have a point mlt.
336	beq nosrc * don't do anything for zero
337	*
338	clr.w d0 * get the source number
339	move.b PT_VSRC(a2,d2.W),d0 * ...
340	beq nosrc * don't do anything for zero
341	*
342	* ------------------------------------------------------------------------------
343	* SM_RAND -- random
344	* ------------------------------------------------------------------------------
345	cmpi.w #SM_RAND,d0 * is this the random source ?
346	bne srctyp0 * jump if not
347	*
348	movem.l d1-d2/a0-a2,-(a7) * preserve registers around call
349	move.w PT_VMLT(a2,d2.W),-(a7) * pass multiplier to xgetran()
350	jsr _xgetran * call for a random number
351	tst.w (a7)+ * clean up stack
352	movem.l (a7)+,d1-d2/a0-a2 * restore registers
353	move.w d0,d5 * put random value in the value register
354	bra applym * go apply the multiplier
355	*
356	.page
357	* ------------------------------------------------------------------------------
358	* SM_FREQ -- frequency
359	* ------------------------------------------------------------------------------
360	srctyp0: cmpi.w #SM_FREQ,d0 * is this the frequency source ?
361	bne srctyp1 * jump if not
362	*
363	move.w (a1),d0 * get the pitch
364	lsr.w #6,d0 * shift to a word index
365	andi.w #$01FE,d0 * mask out extraneous bits
366	lea _ptoftab,a0 * get entry from ptoftab[]
367	move.w 0(a0,d0.W),d5 * ...
368	bra applym * go apply the multiplier
369	*
370	* ------------------------------------------------------------------------------
371	* SM_PTCH -- pitch
372	* ------------------------------------------------------------------------------
373	srctyp1: cmpi.w #SM_PTCH,d0 * is this the pitch source ?
374	bne srctyp2 * jump if not
375	*
376	move.w (a1),d5 * get the pitch as the value
377	bra applym * go apply the multiplier
378	*
379	* ------------------------------------------------------------------------------
380	* SM_KVEL -- velocity
381	* ------------------------------------------------------------------------------
382	srctyp2: cmpi.w #SM_KVEL,d0 * is this the key velocity source ?
383	bne srctyp3 * jump if not
384	*
385	move.w FH_TRG(a1),d0 * get the trigger number
386	add.w d0,d0 * ... as a word index
387	lea _veltab,a0 * ... into veltab[]
388	move.w 0(a0,d0.W),d5 * get the velocity from veltab[trg]
389	bra applym * go apply the multiplier
390	*
391	* ------------------------------------------------------------------------------
392	* SM_KPRS -- pressure
393	* ------------------------------------------------------------------------------
394	srctyp3: cmpi.w #SM_KPRS,d0 * is this the key pressure source ?
395	bne srctyp4 * jump if not (must be an analog input)
396	*
397	move.w FH_TRG(a1),d0 * get the trigger number
398	add.w d0,d0 * ... as a word index
399	lea _prstab,a0 * ... into prstab[]
400	move.w 0(a0,d0.W),d5 * get the pressure from prstab[trg]
401	bra applym * go apply the multiplier
402	*
403	.page
404	* ------------------------------------------------------------------------------
405	* all other sources come out of the valents[] array
406	* ------------------------------------------------------------------------------
407	srctyp4: lea _vce2grp,a0 * point at vce2grp[]
408	move.w _curpf_f,d5 * get voice number in d5
409	lsr.w #3,d5 * ...
410	andi.w #$001E,d5 * ... as a word index
411	move.w 0(a0,d5.W),d5 * get the group number
412	subq.w #1,d5 * ...
413	lsl.w #4,d5 * shift it left a nybble
414	or.w d5,d0 * OR it into the source number
415	add.w d0,d0 * make source number a valents[] index
416	move.w d0,d5 * ... (fast multiply by VALLEN = 10
417	lsl.w #2,d0 * ... via shift and add)
418	add.w d5,d0 * ...
419	lea _valents,a0 * get base of valents[]
420	move.w VT_VAL(a0,d0.W),d5 * get value
421	*
422	* ------------------------------------------------------------------------------
423	* apply the multiplier to the source, and add it to the function value
424	* ------------------------------------------------------------------------------
425	applym: muls PT_VMLT(a2,d2.W),d5 * apply the multiplier
426	asr.l #7,d5 * scale the result
427	asr.l #8,d5 * ...
428	ext.l d3 * add the function value
429	add.l d3,d5 * ...
430	cmpi.l #VALMAX,d5 * check for overflow
431	ble srcmlt1 * jump if no overflow
432	*
433	move.l #VALMAX,d5 * limit at VALMAX
434	bra srcmlt2 * ...
435	*
436	srcmlt1: cmpi.l #VALMIN,d5 * check for underflow
437	bge srcmlt2 * jump if no underflow
438	*
439	move.l #VALMIN,d5 * limit at VALMIN
440	*
441	srcmlt2: move.w d5,d3 * setup value for output to FPU
442	*
443	.page
444	* ------------------------------------------------------------------------------
445	* adjust the value according to the function type
446	* ------------------------------------------------------------------------------
447	nosrc: move.w d1,d0 * get function type
448	andi.w #$01E0,d0 * ...
449	*
450	* ------------------------------------------------------------------------------
451	* level or location
452	* ------------------------------------------------------------------------------
453	cmpi.w #P_LEVEL,d0 * see if it's the level
454	beq outsegl * jump if so
455	*
456	cmpi.w #P_LOCN,d0 * see if it's the location
457	bne outsegf * jump if not
458	*
459	tst.w d3 * check sign of value
460	bpl outsegc * jump if positive
461	*
462	clr.w d3 * force negative values to 0
463	*
464	outsegc: asr.w #5,d3 * shift value to LS bits
465	sub.w #500,d3 * subtract 5.00 from value
466	asl.w #6,d3 * readjust to MS bits
467	bra outseg3 * go output the value
468	*
469	outsegl: tst.w d3 * check sign of value
470	bpl outsegm * jump if positive
471	*
472	clr.w d3 * limit negative values at 0
473	*
474	outsegm: asr.w #5,d3 * shift value to LS bits
475	sub.w #500,d3 * subtract 5.00 from value
476	asl.w #6,d3 * readjust to MS bits
477	bra outseg3 * go output the value
478	*
479	.page
480	* ------------------------------------------------------------------------------
481	* filter
482	* ------------------------------------------------------------------------------
483	outsegf: cmpi.w #P_FILTER,d0 * see if it's the filter
484	bne outsegp * jump if not
485	*
486	ext.l d3 * make function value a long
487	asr.l #1,d3 * multiply function value by .75
488	move.l d3,d0 * ... (fast multiply by .75
489	asr.l #1,d0 * ... via shift and add)
490	add.l d0,d3 * ...
491	move.w (a1),d0 * add pitch
492	ext.l d0 * ...
493	add.l d0,d3 * ...
494	cmpi.l #VALMAX,d3 * see if it's within limits
495	ble outsega * ...
496	*
497	move.w #VALMAX,d3 * limit at VALMAX
498	bra outseg3 * ...
499	*
500	outsega: cmpi.l #VALMIN,d3 * ...
501	bge outseg3 * ...
502	*
503	move.w #VALMIN,d3 * limit at VALMIN
504	bra outseg3 * ...
505	*
506	.page
507	* ------------------------------------------------------------------------------
508	* freq 1..4
509	* ------------------------------------------------------------------------------
510	outsegp: cmpi.w #P_FREQ1,d0 * see if it's freq1
511	beq outseg0 * go process freq1
512	*
513	outsegq: cmpi.w #P_FREQ2,d0 * see if it's freq2
514	beq outseg0 * process it if so
515	*
516	cmpi.w #P_FREQ3,d0 * see if it's freq3
517	beq outseg0 * process it if so
518	*
519	cmpi.w #P_FREQ4,d0 * see if it's freq4
520	bne outseg3 * jump if not
521	*
522	outseg0: ext.l d3 * scale the point value to cents offset
523	asr.l #5,d3 * ...
524	sub.l #500,d3 * ... value - 500
525	asl.l #LSPCH,d3 * mult. by 2 and scale for 1/2 cent lsb
526	move.w (a1),d0 * add pitch from function header
527	ext.l d0 * ...
528	add.l d0,d3 * ...
529	cmp.l #PCHMAX,d3 * see if result is valid
530	ble outseg3 * jump if within pitch limits
531	*
532	move.l #PCHMAX,d3 * limit at maximum pitch
533	*
534	* ------------------------------------------------------------------------------
535	* send the value to the FPU
536	* ------------------------------------------------------------------------------
537	outseg3: move.b FH_TMD(a1),d0 * get hardware bits from function header
538	eor.w #VAL_BITS,d0 * toggle new value select bits
539	move.b d0,FH_TMD(a1) * store updated word
540	btst.l #VSUBNBIT,d0 * check which value address to use
541	beq outseg1
542	*
543	move.w d3,F_VAL01(a3,d1.W) * send value to FPU
544	bra outseg2
545	*
546	outseg1: move.w d3,F_VAL10(a3,d1.W) * send value to FPU
547	*
548	outseg2: andi.w #MSK_CTL,d0 * mask off software bits
549	ori.w #UPD_BIT+INT_BIT,d0 * set the update & !lastseg bits
550	move.w d0,F_CTL(a3,d1.W) * send control word to FPU
551	bra pfnext * done -- exit
552	*
553	.page
554	*
555	* ------------------------------------------------------------------------------
556	* act2 -- AC_ENBL -- stop if key is up
557	* ---- ----------------------------
558	act2: move.w _curpf_f,d0 * get voice as a word index
559	lsr.w #3,d0 * ...
560	andi.w #$001E,d0 * ...
561	lea _vce2trg,a0 * check to see if voice is free
562	move.w 0(a0,d0.W),d0 * ...
563	cmpi.w #-1,d0 * ...
564	beq stopfn * if so, stop the function
565	*
566	btst #15,d0 * see if voice is held
567	bne act0 * continue if so
568	*
569	btst #14,d0 * ...
570	bne act0 * ...
571	*
572	lea _trgtab,a0 * check trigger table entry
573	tst.b 0(a0,d0.W) * ...
574	bne act0 * if trigger is active, continue
575	*
576	bra stopfn * if not, stop the function
577	*
578	* ------------------------------------------------------------------------------
579	* act3 -- AC_JUMP -- unconditional jump
580	* ---- -----------------------------
581	act3: cmp.b FH_PIF(a1),d4 * check jump point against limit
582	bcc stopfn * stop function if jump point invalid
583	*
584	clr.w d2 * get index of first point
585	move.b FH_PT1(a1),d2 * ...
586	add.b d4,d2 * add jump point
587	move.b d2,FH_CPT(a1) * make it the current point
588	lsl.w #2,d2 * develop new point index in d2
589	move.w d2,d0 * ... (fast multiply by PT_LEN = 12
590	add.w d2,d2 * ... via shift and add)
591	add.w d0,d2 * ...
592	bra outseg * output the segment
593	*
594	.page
595	*
596	* ------------------------------------------------------------------------------
597	* act4 -- AC_LOOP -- jump to point PT_PAR1 PT_PAR2 times
598	* ---- ----------------------------------------------
599	act4: tst.b PT_PAR3(a2,d2.W) * check counter
600	bne act4a * jump if it's running
601	*
602	move.b PT_PAR2(a2,d2.W),d0 * get parameter
603	subi.w #90,d0 * put parameter in random range
604	bmi act4b * treat as normal if < 90
605	*
606	movem.l d1-d2/a0-a2,-(a7) * get ranged random number
607	move.w d0,-(a7) * ...
608	jsr _irand * ...
609	tst.w (a7)+ * ...
610	movem.l (a7)+,d1-d2/a0-a2 * ...
611	move.b d0,PT_PAR3(a2,d2.w) * set counter
612	beq act0 * next segment if cntr set to 0
613	*
614	bra act3 * else jump to the point
615	*
616	act4b: move.b PT_PAR2(a2,d2.W),PT_PAR3(a2,d2.W) * set counter
617	beq act0 * next segment if cntr set to 0
618	*
619	bra act3 * else jump to the point
620	*
621	act4a: subq.b #1,PT_PAR3(a2,d2.W) * decrement counter
622	beq act0 * next segment if cntr ran out
623	*
624	bra act3 * jump if it's still non-zero
625	*
626	* ------------------------------------------------------------------------------
627	* act5 -- AC_KYUP -- jump if key is up
628	* ---- ----------------------------
629	act5: move.w _curpf_f,d0 * get voice as a word index
630	lsr.w #3,d0 * ...
631	andi.w #$001E,d0 * ...
632	lea _vce2trg,a0 * check to see if voice is free
633	move.w 0(a0,d0.W),d0 * ...
634	cmpi.w #-1,d0 * ...
635	beq act3 * if so (inactive), do the jump
636	*
637	btst #15,d0 * see if voice is held
638	bne act0 * continue if so
639	*
640	btst #14,d0 * ...
641	bne act0 * ...
642	*
643	lea _trgtab,a0 * check trigger table entry
644	tst.b 0(a0,d0.W) * see if the trigger is active
645	beq act3 * if not, do the jump
646	*
647	bra act0 * if so, do next segment
648	*
649	.page
650	*
651	* ------------------------------------------------------------------------------
652	* act6 -- AC_KYDN -- jump if key is down
653	* ---- ------------------------------
654	act6: move.w _curpf_f,d0 * get voice as a word index
655	lsr.w #3,d0 * ...
656	andi.w #$001E,d0 * ...
657	lea _vce2trg,a0 * check to see if voice is free
658	move.w 0(a0,d0.W),d0 * ...
659	cmpi.w #-1,d0 * ...
660	beq act0 * if so (inactive), continue
661	*
662	btst #15,d0 * see if voice is held
663	bne act3 * do jump if so
664	*
665	btst #14,d0 * ...
666	bne act3 * ...
667	*
668	lea _trgtab,a0 * check trigger table entry
669	tst.b 0(a0,d0.W) * see if the trigger is active
670	bne act3 * if so, do the jump
671	*
672	bra act0 * if not, do next segment
673	*
674	* ------------------------------------------------------------------------------
675	act7: bra act0 * AC_HERE: treat act7 as AC_NULL
676	*
677	.page
678	*
679	* act1 -- AC_SUST -- pause if key is down (sustain)
680	* ---- -----------------------------------------
681	act1: move.w _curpf_f,d0 * get voice as a word index
682	lsr.w #3,d0 * ...
683	andi.w #$001E,d0 * ...
684	lea _vce2trg,a0 * point at voice to trigger table
685	move.w 0(a0,d0.W),d0 * get trigger table entry
686	cmpi.w #-1,d0 * see if voice is free
687	beq act0 * treat as no-op if so
688	*
689	btst #15,d0 * see if voice is held by a pedal
690	bne act1a * sustain if so
691	*
692	btst #14,d0 * see if voice is sustained by a pedal
693	bne act1a * sustain if so
694	*
695	lea _trgtab,a0 * point at trigger table
696	tst.b 0(a0,d0.W) * check trigger status
697	beq act0 * continue if not active
698	*
699	act1a: move.l _pfqhdr,d3 * see if any pflist entries remain
700	beq act0 * no-op if not (shouldn't happen ...)
701	*
702	move.b FH_PT1(a1),d0 * get first point number
703	add.b FH_PIF(a1),d0 * add base to first point
704	subq.b #1,d0 * make d0 last point number
705	cmp.b FH_CPT(a1),d0 * check current point number
706	beq stopfn * done if this is the last point
707	*
708	addq.b #1,FH_CPT(a1) * update current point number
709	addi.w #PT_LEN,d2 * update point index
710	movea.l d3,a0 * acquire a new pflist entry
711	move.l (a0),_pfqhdr * ...
712	move.l _pflist,(a0) * ...
713	move.l a0,_pflist * ...
714	move.w FH_TRG(a1),PF_TRIG(a0) * set trigger number in entry
715	move.w _curpf_f,PF_FUNC(a0) * set v/p word in entry
716	movem.l d1-d2/d4/a1-a3,PF_D1(a0) * set registers in entry
717	move.b FH_TMD(a1),d0 * stop the function
718	andi.w #MSK_RNVB,d0 * ...
719	move.w d0,d3 * ...
720	add.w d3,d3 * ...
721	andi.w #MSK_ONVB,d3 * ...
722	or.w d3,d0 * ...
723	move.w d0,F_CTL(a3,d1.W) * ...
724	bra pfnext * go do next list entry
725	*
726	.page
727	* ------------------------------------------------------------------------------
728	.data
729	* ------------------------------------------------------------------------------
730	*
731	* actab -- action code dispatch table
732	* ----- --------------------------
733	actab: dc.l act0 * 0 - AC_NULL: no action
734	dc.l act1 * 1 - AC_SUST: sustain
735	dc.l act2 * 2 - AC_ENBL: enable
736	dc.l act3 * 3 - AC_JUMP: unconditional jump
737	dc.l act4 * 4 - AC_LOOP: jump n times (loop)
738	dc.l act5 * 5 - AC_KYUP: jump if key up (enable jump)
739	dc.l act6 * 6 - AC_KYDN: jump if key down (sustain jump)
740	dc.l act7 * 7 - AC_HERE: here on key up
741	*
742	* ------------------------------------------------------------------------------
743	.bss
744	* ------------------------------------------------------------------------------
745	*
746	* ----------------- local variables --------------------------------------------
747	*
748	_curpf_f: ds.w 1 * interrupting voice & parameter from FPU
749	*
750	* ----------------- debug variables --------------------------------------------
751	*
752	_curpf_t: ds.w 1 * current trigger
753	*
754	_curpf_l: ds.l 1 * current pflist entry
755	*
756	* ------------------------------------------------------------------------------
757	*
758	.end

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