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gerrit-public.fairphone.software / kernel / msm-4.9 / refs/tags/FP3-REL-Q-3.A.0107 / . / arch / m68k / fpsp040 / do_func.S
blob: 3eff99a804138c39232ed25c05dc6ec7cbeb5b56 [file] [log] [blame]
Linus Torvalds1da177e2005-04-16 15:20:36 -0700[diff] [blame]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|
Matt Waddele00d82d2006-02-11 17:55:48 -0800[diff] [blame]25| For details on the license for this file, please see the
26| file, README, in this same directory.
Linus Torvalds1da177e2005-04-16 15:20:36 -0700[diff] [blame]27
28DO_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
50PONE: .long 0x3fff0000,0x80000000,0x00000000 |+1
51MONE: .long 0xbfff0000,0x80000000,0x00000000 |-1
52PZERO: .long 0x00000000,0x00000000,0x00000000 |+0
53MZERO: .long 0x80000000,0x00000000,0x00000000 |-0
54PINF: .long 0x7fff0000,0x00000000,0x00000000 |+inf
55MINF: .long 0xffff0000,0x00000000,0x00000000 |-inf
56QNAN: .long 0x7fff0000,0xffffffff,0xffffffff |non-signaling nan
57PPIBY2: .long 0x3FFF0000,0xC90FDAA2,0x2168C235 |+PI/2
58MPIBY2: .long 0xbFFF0000,0xC90FDAA2,0x2168C235 |-PI/2
59
60 .global do_func
61do_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
75not_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
94serror:
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
104snzrinx:
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
109ld_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
116szero:
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
124sinf:
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
132sone:
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
140spi_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
148szr_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
157sopr_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
165sslognp1:
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
176setoxm1i:
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
187sslogn:
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
200sslognd:
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
209sslog10:
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
222sslog10d:
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
231sslog2:
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
244sslog2d:
245 btstb #sign_bit,LOCAL_EX(%a0)
246 beq slog2d
247 bra t_operr |take care of operands < 0
248
249|
250| FMOD
251|
252pmodt:
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
273pmod:
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
295smod_snan:
296 bra src_nan
297smod_dnan:
298 bra dst_nan
299smod_oper:
300 bra t_operr
301smod_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
308smod_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
313smod_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
320smod_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
325smod_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|
333premt:
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
354prem:
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
375srem_snan:
376 bra src_nan
377srem_dnan:
378 bra dst_nan
379srem_oper:
380 bra t_operr
381srem_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
388srem_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
393srem_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
400srem_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
405srem_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|
412pscalet:
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
433pscale:
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
452scl_opr:
453 bra t_operr
454
455scl_dnan:
456 bra dst_nan
457
458scl_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
462scl_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
466scl_snan:
467 bra src_nan
468|
469| FSINCOS
470|
471 .global ssincosz
472ssincosz:
473 btstb #sign_bit,ETEMP(%a6) |get sign
474 beqs sincosp
475 fmovex MZERO,%fp0
476 bras sincoscom
477sincosp:
478 fmovex PZERO,%fp0
479sincoscom:
480 fmovemx PONE,%fp1-%fp1 |do not allow FPSR to be affected
481 bra sto_cos |store cosine result
482
483 .global ssincosi
484ssincosi:
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
491ssincosnan:
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
506ld_ppi2:
507 fmovex PPIBY2,%fp0 |load +pi/2
508 bra t_inx2 |set inex2 exc
509
510|**Returns -PI/2
511 .global ld_mpi2
512ld_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
519ld_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
526ld_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
533ld_pone:
534 fmovex PONE,%fp0 |load +1
535 rts
536
537|**Returns -1
538 .global ld_mone
539ld_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
546ld_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
553ld_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