1
|
2
|	do_func.sa 3.4 2/18/91
3
|
4
| Do_func performs the unimplemented operation.  The operation
5
| to be performed is determined from the lower 7 bits of the
6
| extension word (except in the case of fmovecr and fsincos).
7
| The opcode and tag bits form an index into a jump table in
8
| tbldo.sa.  Cases of zero, infinity and NaN are handled in
9
| do_func by forcing the default result.  Normalized and
10
| denormalized (there are no unnormalized numbers at this
11
| point) are passed onto the emulation code.
12
|
13
| CMDREG1B and STAG are extracted from the fsave frame
14
| and combined to form the table index.  The function called
15
| will start with a0 pointing to the ETEMP operand.  Dyadic
16
| functions can find FPTEMP at -12(a0).
17
|
18
| Called functions return their result in fp0.  Sincos returns
19
| sin(x) in fp0 and cos(x) in fp1.
20
|
21

22
|		Copyright (C) Motorola, Inc. 1990
23
|			All Rights Reserved
24
|
25
|       For details on the license for this file, please see the
26
|       file, README, in this same directory.
27

28
DO_FUNC:	|idnt    2,1 | Motorola 040 Floating Point Software Package
29

30
	|section	8
31

32
#include "fpsp.h"
33

34
	|xref	t_dz2
35
	|xref	t_operr
36
	|xref	t_inx2
37
	|xref	t_resdnrm
38
	|xref	dst_nan
39
	|xref	src_nan
40
	|xref	nrm_set
41
	|xref	sto_cos
42

43
	|xref	tblpre
44
	|xref	slognp1,slogn,slog10,slog2
45
	|xref	slognd,slog10d,slog2d
46
	|xref	smod,srem
47
	|xref	sscale
48
	|xref	smovcr
49

50
PONE:	.long	0x3fff0000,0x80000000,0x00000000	|+1
51
MONE:	.long	0xbfff0000,0x80000000,0x00000000	|-1
52
PZERO:	.long	0x00000000,0x00000000,0x00000000	|+0
53
MZERO:	.long	0x80000000,0x00000000,0x00000000	|-0
54
PINF:	.long	0x7fff0000,0x00000000,0x00000000	|+inf
55
MINF:	.long	0xffff0000,0x00000000,0x00000000	|-inf
56
QNAN:	.long	0x7fff0000,0xffffffff,0xffffffff	|non-signaling nan
57
PPIBY2:  .long	0x3FFF0000,0xC90FDAA2,0x2168C235	|+PI/2
58
MPIBY2:  .long	0xbFFF0000,0xC90FDAA2,0x2168C235	|-PI/2
59

60
	.global	do_func
61
do_func:
62
	clrb	CU_ONLY(%a6)
63
|
64
| Check for fmovecr.  It does not follow the format of fp gen
65
| unimplemented instructions.  The test is on the upper 6 bits;
66
| if they are $17, the inst is fmovecr.  Call entry smovcr
67
| directly.
68
|
69
	bfextu	CMDREG1B(%a6){#0:#6},%d0 |get opclass and src fields
70
	cmpil	#0x17,%d0		|if op class and size fields are $17,
71
|				;it is FMOVECR; if not, continue
72
	bnes	not_fmovecr
73
	jmp	smovcr		|fmovecr; jmp directly to emulation
74

75
not_fmovecr:
76
	movew	CMDREG1B(%a6),%d0
77
	andl	#0x7F,%d0
78
	cmpil	#0x38,%d0		|if the extension is >= $38,
79
	bge	serror		|it is illegal
80
	bfextu	STAG(%a6){#0:#3},%d1
81
	lsll	#3,%d0		|make room for STAG
82
	addl	%d1,%d0		|combine for final index into table
83
	leal	tblpre,%a1	|start of monster jump table
84
	movel	(%a1,%d0.w*4),%a1	|real target address
85
	leal	ETEMP(%a6),%a0	|a0 is pointer to src op
86
	movel	USER_FPCR(%a6),%d1
87
	andl	#0xFF,%d1		| discard all but rounding mode/prec
88
	fmovel	#0,%fpcr
89
	jmp	(%a1)
90
|
91
|	ERROR
92
|
93
	.global	serror
94
serror:
95
	st	STORE_FLG(%a6)
96
	rts
97
|
98
| These routines load forced values into fp0.  They are called
99
| by index into tbldo.
100
|
101
| Load a signed zero to fp0 and set inex2/ainex
102
|
103
	.global	snzrinx
104
snzrinx:
105
	btstb	#sign_bit,LOCAL_EX(%a0)	|get sign of source operand
106
	bnes	ld_mzinx	|if negative, branch
107
	bsr	ld_pzero	|bsr so we can return and set inx
108
	bra	t_inx2		|now, set the inx for the next inst
109
ld_mzinx:
110
	bsr	ld_mzero	|if neg, load neg zero, return here
111
	bra	t_inx2		|now, set the inx for the next inst
112
|
113
| Load a signed zero to fp0; do not set inex2/ainex
114
|
115
	.global	szero
116
szero:
117
	btstb	#sign_bit,LOCAL_EX(%a0) |get sign of source operand
118
	bne	ld_mzero	|if neg, load neg zero
119
	bra	ld_pzero	|load positive zero
120
|
121
| Load a signed infinity to fp0; do not set inex2/ainex
122
|
123
	.global	sinf
124
sinf:
125
	btstb	#sign_bit,LOCAL_EX(%a0)	|get sign of source operand
126
	bne	ld_minf			|if negative branch
127
	bra	ld_pinf
128
|
129
| Load a signed one to fp0; do not set inex2/ainex
130
|
131
	.global	sone
132
sone:
133
	btstb	#sign_bit,LOCAL_EX(%a0)	|check sign of source
134
	bne	ld_mone
135
	bra	ld_pone
136
|
137
| Load a signed pi/2 to fp0; do not set inex2/ainex
138
|
139
	.global	spi_2
140
spi_2:
141
	btstb	#sign_bit,LOCAL_EX(%a0)	|check sign of source
142
	bne	ld_mpi2
143
	bra	ld_ppi2
144
|
145
| Load either a +0 or +inf for plus/minus operand
146
|
147
	.global	szr_inf
148
szr_inf:
149
	btstb	#sign_bit,LOCAL_EX(%a0)	|check sign of source
150
	bne	ld_pzero
151
	bra	ld_pinf
152
|
153
| Result is either an operr or +inf for plus/minus operand
154
| [Used by slogn, slognp1, slog10, and slog2]
155
|
156
	.global	sopr_inf
157
sopr_inf:
158
	btstb	#sign_bit,LOCAL_EX(%a0)	|check sign of source
159
	bne	t_operr
160
	bra	ld_pinf
161
|
162
|	FLOGNP1
163
|
164
	.global	sslognp1
165
sslognp1:
166
	fmovemx (%a0),%fp0-%fp0
167
	fcmpb	#-1,%fp0
168
	fbgt	slognp1
169
	fbeq	t_dz2		|if = -1, divide by zero exception
170
	fmovel	#0,%FPSR		|clr N flag
171
	bra	t_operr		|take care of operands < -1
172
|
173
|	FETOXM1
174
|
175
	.global	setoxm1i
176
setoxm1i:
177
	btstb	#sign_bit,LOCAL_EX(%a0)	|check sign of source
178
	bne	ld_mone
179
	bra	ld_pinf
180
|
181
|	FLOGN
182
|
183
| Test for 1.0 as an input argument, returning +zero.  Also check
184
| the sign and return operr if negative.
185
|
186
	.global	sslogn
187
sslogn:
188
	btstb	#sign_bit,LOCAL_EX(%a0)
189
	bne	t_operr		|take care of operands < 0
190
	cmpiw	#0x3fff,LOCAL_EX(%a0) |test for 1.0 input
191
	bne	slogn
192
	cmpil	#0x80000000,LOCAL_HI(%a0)
193
	bne	slogn
194
	tstl	LOCAL_LO(%a0)
195
	bne	slogn
196
	fmovex	PZERO,%fp0
197
	rts
198

199
	.global	sslognd
200
sslognd:
201
	btstb	#sign_bit,LOCAL_EX(%a0)
202
	beq	slognd
203
	bra	t_operr		|take care of operands < 0
204

205
|
206
|	FLOG10
207
|
208
	.global	sslog10
209
sslog10:
210
	btstb	#sign_bit,LOCAL_EX(%a0)
211
	bne	t_operr		|take care of operands < 0
212
	cmpiw	#0x3fff,LOCAL_EX(%a0) |test for 1.0 input
213
	bne	slog10
214
	cmpil	#0x80000000,LOCAL_HI(%a0)
215
	bne	slog10
216
	tstl	LOCAL_LO(%a0)
217
	bne	slog10
218
	fmovex	PZERO,%fp0
219
	rts
220

221
	.global	sslog10d
222
sslog10d:
223
	btstb	#sign_bit,LOCAL_EX(%a0)
224
	beq	slog10d
225
	bra	t_operr		|take care of operands < 0
226

227
|
228
|	FLOG2
229
|
230
	.global	sslog2
231
sslog2:
232
	btstb	#sign_bit,LOCAL_EX(%a0)
233
	bne	t_operr		|take care of operands < 0
234
	cmpiw	#0x3fff,LOCAL_EX(%a0) |test for 1.0 input
235
	bne	slog2
236
	cmpil	#0x80000000,LOCAL_HI(%a0)
237
	bne	slog2
238
	tstl	LOCAL_LO(%a0)
239
	bne	slog2
240
	fmovex	PZERO,%fp0
241
	rts
242

243
	.global	sslog2d
244
sslog2d:
245
	btstb	#sign_bit,LOCAL_EX(%a0)
246
	beq	slog2d
247
	bra	t_operr		|take care of operands < 0
248

249
|
250
|	FMOD
251
|
252
pmodt:
253
|				;$21 fmod
254
|				;dtag,stag
255
	.long	smod		|  00,00  norm,norm = normal
256
	.long	smod_oper	|  00,01  norm,zero = nan with operr
257
	.long	smod_fpn	|  00,10  norm,inf  = fpn
258
	.long	smod_snan	|  00,11  norm,nan  = nan
259
	.long	smod_zro	|  01,00  zero,norm = +-zero
260
	.long	smod_oper	|  01,01  zero,zero = nan with operr
261
	.long	smod_zro	|  01,10  zero,inf  = +-zero
262
	.long	smod_snan	|  01,11  zero,nan  = nan
263
	.long	smod_oper	|  10,00  inf,norm  = nan with operr
264
	.long	smod_oper	|  10,01  inf,zero  = nan with operr
265
	.long	smod_oper	|  10,10  inf,inf   = nan with operr
266
	.long	smod_snan	|  10,11  inf,nan   = nan
267
	.long	smod_dnan	|  11,00  nan,norm  = nan
268
	.long	smod_dnan	|  11,01  nan,zero  = nan
269
	.long	smod_dnan	|  11,10  nan,inf   = nan
270
	.long	smod_dnan	|  11,11  nan,nan   = nan
271

272
	.global	pmod
273
pmod:
274
	clrb	FPSR_QBYTE(%a6) | clear quotient field
275
	bfextu	STAG(%a6){#0:#3},%d0 |stag = d0
276
	bfextu	DTAG(%a6){#0:#3},%d1 |dtag = d1
277

278
|
279
| Alias extended denorms to norms for the jump table.
280
|
281
	bclrl	#2,%d0
282
	bclrl	#2,%d1
283

284
	lslb	#2,%d1
285
	orb	%d0,%d1		|d1{3:2} = dtag, d1{1:0} = stag
286
|				;Tag values:
287
|				;00 = norm or denorm
288
|				;01 = zero
289
|				;10 = inf
290
|				;11 = nan
291
	lea	pmodt,%a1
292
	movel	(%a1,%d1.w*4),%a1
293
	jmp	(%a1)
294

295
smod_snan:
296
	bra	src_nan
297
smod_dnan:
298
	bra	dst_nan
299
smod_oper:
300
	bra	t_operr
301
smod_zro:
302
	moveb	ETEMP(%a6),%d1	|get sign of src op
303
	moveb	FPTEMP(%a6),%d0	|get sign of dst op
304
	eorb	%d0,%d1		|get exor of sign bits
305
	btstl	#7,%d1		|test for sign
306
	beqs	smod_zsn	|if clr, do not set sign big
307
	bsetb	#q_sn_bit,FPSR_QBYTE(%a6) |set q-byte sign bit
308
smod_zsn:
309
	btstl	#7,%d0		|test if + or -
310
	beq	ld_pzero	|if pos then load +0
311
	bra	ld_mzero	|else neg load -0
312

313
smod_fpn:
314
	moveb	ETEMP(%a6),%d1	|get sign of src op
315
	moveb	FPTEMP(%a6),%d0	|get sign of dst op
316
	eorb	%d0,%d1		|get exor of sign bits
317
	btstl	#7,%d1		|test for sign
318
	beqs	smod_fsn	|if clr, do not set sign big
319
	bsetb	#q_sn_bit,FPSR_QBYTE(%a6) |set q-byte sign bit
320
smod_fsn:
321
	tstb	DTAG(%a6)	|filter out denormal destination case
322
	bpls	smod_nrm	|
323
	leal	FPTEMP(%a6),%a0	|a0<- addr(FPTEMP)
324
	bra	t_resdnrm	|force UNFL(but exact) result
325
smod_nrm:
326
	fmovel USER_FPCR(%a6),%fpcr |use user's rmode and precision
327
	fmovex FPTEMP(%a6),%fp0	|return dest to fp0
328
	rts
329

330
|
331
|	FREM
332
|
333
premt:
334
|				;$25 frem
335
|				;dtag,stag
336
	.long	srem		|  00,00  norm,norm = normal
337
	.long	srem_oper	|  00,01  norm,zero = nan with operr
338
	.long	srem_fpn	|  00,10  norm,inf  = fpn
339
	.long	srem_snan	|  00,11  norm,nan  = nan
340
	.long	srem_zro	|  01,00  zero,norm = +-zero
341
	.long	srem_oper	|  01,01  zero,zero = nan with operr
342
	.long	srem_zro	|  01,10  zero,inf  = +-zero
343
	.long	srem_snan	|  01,11  zero,nan  = nan
344
	.long	srem_oper	|  10,00  inf,norm  = nan with operr
345
	.long	srem_oper	|  10,01  inf,zero  = nan with operr
346
	.long	srem_oper	|  10,10  inf,inf   = nan with operr
347
	.long	srem_snan	|  10,11  inf,nan   = nan
348
	.long	srem_dnan	|  11,00  nan,norm  = nan
349
	.long	srem_dnan	|  11,01  nan,zero  = nan
350
	.long	srem_dnan	|  11,10  nan,inf   = nan
351
	.long	srem_dnan	|  11,11  nan,nan   = nan
352

353
	.global	prem
354
prem:
355
	clrb	FPSR_QBYTE(%a6)   |clear quotient field
356
	bfextu	STAG(%a6){#0:#3},%d0 |stag = d0
357
	bfextu	DTAG(%a6){#0:#3},%d1 |dtag = d1
358
|
359
| Alias extended denorms to norms for the jump table.
360
|
361
	bclr	#2,%d0
362
	bclr	#2,%d1
363

364
	lslb	#2,%d1
365
	orb	%d0,%d1		|d1{3:2} = dtag, d1{1:0} = stag
366
|				;Tag values:
367
|				;00 = norm or denorm
368
|				;01 = zero
369
|				;10 = inf
370
|				;11 = nan
371
	lea	premt,%a1
372
	movel	(%a1,%d1.w*4),%a1
373
	jmp	(%a1)
374

375
srem_snan:
376
	bra	src_nan
377
srem_dnan:
378
	bra	dst_nan
379
srem_oper:
380
	bra	t_operr
381
srem_zro:
382
	moveb	ETEMP(%a6),%d1	|get sign of src op
383
	moveb	FPTEMP(%a6),%d0	|get sign of dst op
384
	eorb	%d0,%d1		|get exor of sign bits
385
	btstl	#7,%d1		|test for sign
386
	beqs	srem_zsn	|if clr, do not set sign big
387
	bsetb	#q_sn_bit,FPSR_QBYTE(%a6) |set q-byte sign bit
388
srem_zsn:
389
	btstl	#7,%d0		|test if + or -
390
	beq	ld_pzero	|if pos then load +0
391
	bra	ld_mzero	|else neg load -0
392

393
srem_fpn:
394
	moveb	ETEMP(%a6),%d1	|get sign of src op
395
	moveb	FPTEMP(%a6),%d0	|get sign of dst op
396
	eorb	%d0,%d1		|get exor of sign bits
397
	btstl	#7,%d1		|test for sign
398
	beqs	srem_fsn	|if clr, do not set sign big
399
	bsetb	#q_sn_bit,FPSR_QBYTE(%a6) |set q-byte sign bit
400
srem_fsn:
401
	tstb	DTAG(%a6)	|filter out denormal destination case
402
	bpls	srem_nrm	|
403
	leal	FPTEMP(%a6),%a0	|a0<- addr(FPTEMP)
404
	bra	t_resdnrm	|force UNFL(but exact) result
405
srem_nrm:
406
	fmovel USER_FPCR(%a6),%fpcr |use user's rmode and precision
407
	fmovex FPTEMP(%a6),%fp0	|return dest to fp0
408
	rts
409
|
410
|	FSCALE
411
|
412
pscalet:
413
|				;$26 fscale
414
|				;dtag,stag
415
	.long	sscale		|  00,00  norm,norm = result
416
	.long	sscale		|  00,01  norm,zero = fpn
417
	.long	scl_opr		|  00,10  norm,inf  = nan with operr
418
	.long	scl_snan	|  00,11  norm,nan  = nan
419
	.long	scl_zro		|  01,00  zero,norm = +-zero
420
	.long	scl_zro		|  01,01  zero,zero = +-zero
421
	.long	scl_opr		|  01,10  zero,inf  = nan with operr
422
	.long	scl_snan	|  01,11  zero,nan  = nan
423
	.long	scl_inf		|  10,00  inf,norm  = +-inf
424
	.long	scl_inf		|  10,01  inf,zero  = +-inf
425
	.long	scl_opr		|  10,10  inf,inf   = nan with operr
426
	.long	scl_snan	|  10,11  inf,nan   = nan
427
	.long	scl_dnan	|  11,00  nan,norm  = nan
428
	.long	scl_dnan	|  11,01  nan,zero  = nan
429
	.long	scl_dnan	|  11,10  nan,inf   = nan
430
	.long	scl_dnan	|  11,11  nan,nan   = nan
431

432
	.global	pscale
433
pscale:
434
	bfextu	STAG(%a6){#0:#3},%d0 |stag in d0
435
	bfextu	DTAG(%a6){#0:#3},%d1 |dtag in d1
436
	bclrl	#2,%d0		|alias  denorm into norm
437
	bclrl	#2,%d1		|alias  denorm into norm
438
	lslb	#2,%d1
439
	orb	%d0,%d1		|d1{4:2} = dtag, d1{1:0} = stag
440
|				;dtag values     stag values:
441
|				;000 = norm      00 = norm
442
|				;001 = zero	 01 = zero
443
|				;010 = inf	 10 = inf
444
|				;011 = nan	 11 = nan
445
|				;100 = dnrm
446
|
447
|
448
	leal	pscalet,%a1	|load start of jump table
449
	movel	(%a1,%d1.w*4),%a1	|load a1 with label depending on tag
450
	jmp	(%a1)		|go to the routine
451

452
scl_opr:
453
	bra	t_operr
454

455
scl_dnan:
456
	bra	dst_nan
457

458
scl_zro:
459
	btstb	#sign_bit,FPTEMP_EX(%a6)	|test if + or -
460
	beq	ld_pzero		|if pos then load +0
461
	bra	ld_mzero		|if neg then load -0
462
scl_inf:
463
	btstb	#sign_bit,FPTEMP_EX(%a6)	|test if + or -
464
	beq	ld_pinf			|if pos then load +inf
465
	bra	ld_minf			|else neg load -inf
466
scl_snan:
467
	bra	src_nan
468
|
469
|	FSINCOS
470
|
471
	.global	ssincosz
472
ssincosz:
473
	btstb	#sign_bit,ETEMP(%a6)	|get sign
474
	beqs	sincosp
475
	fmovex	MZERO,%fp0
476
	bras	sincoscom
477
sincosp:
478
	fmovex PZERO,%fp0
479
sincoscom:
480
	fmovemx PONE,%fp1-%fp1	|do not allow FPSR to be affected
481
	bra	sto_cos		|store cosine result
482

483
	.global	ssincosi
484
ssincosi:
485
	fmovex QNAN,%fp1	|load NAN
486
	bsr	sto_cos		|store cosine result
487
	fmovex QNAN,%fp0	|load NAN
488
	bra	t_operr
489

490
	.global	ssincosnan
491
ssincosnan:
492
	movel	ETEMP_EX(%a6),FP_SCR1(%a6)
493
	movel	ETEMP_HI(%a6),FP_SCR1+4(%a6)
494
	movel	ETEMP_LO(%a6),FP_SCR1+8(%a6)
495
	bsetb	#signan_bit,FP_SCR1+4(%a6)
496
	fmovemx FP_SCR1(%a6),%fp1-%fp1
497
	bsr	sto_cos
498
	bra	src_nan
499
|
500
| This code forces default values for the zero, inf, and nan cases
501
| in the transcendentals code.  The CC bits must be set in the
502
| stacked FPSR to be correctly reported.
503
|
504
|**Returns +PI/2
505
	.global	ld_ppi2
506
ld_ppi2:
507
	fmovex PPIBY2,%fp0		|load +pi/2
508
	bra	t_inx2			|set inex2 exc
509

510
|**Returns -PI/2
511
	.global	ld_mpi2
512
ld_mpi2:
513
	fmovex MPIBY2,%fp0		|load -pi/2
514
	orl	#neg_mask,USER_FPSR(%a6)	|set N bit
515
	bra	t_inx2			|set inex2 exc
516

517
|**Returns +inf
518
	.global	ld_pinf
519
ld_pinf:
520
	fmovex PINF,%fp0		|load +inf
521
	orl	#inf_mask,USER_FPSR(%a6)	|set I bit
522
	rts
523

524
|**Returns -inf
525
	.global	ld_minf
526
ld_minf:
527
	fmovex MINF,%fp0		|load -inf
528
	orl	#neg_mask+inf_mask,USER_FPSR(%a6)	|set N and I bits
529
	rts
530

531
|**Returns +1
532
	.global	ld_pone
533
ld_pone:
534
	fmovex PONE,%fp0		|load +1
535
	rts
536

537
|**Returns -1
538
	.global	ld_mone
539
ld_mone:
540
	fmovex MONE,%fp0		|load -1
541
	orl	#neg_mask,USER_FPSR(%a6)	|set N bit
542
	rts
543

544
|**Returns +0
545
	.global	ld_pzero
546
ld_pzero:
547
	fmovex PZERO,%fp0		|load +0
548
	orl	#z_mask,USER_FPSR(%a6)	|set Z bit
549
	rts
550

551
|**Returns -0
552
	.global	ld_mzero
553
ld_mzero:
554
	fmovex MZERO,%fp0		|load -0
555
	orl	#neg_mask+z_mask,USER_FPSR(%a6)	|set N and Z bits
556
	rts
557

558
	|end
559

560