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[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [config/] [sh/] [lib1funcs.asm] - Blame information for rev 820

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1 38 julius 
/* Copyright (C) 1994, 1995, 1997, 1998, 1999, 2000, 2001, 2002, 2003,
2 
   2004, 2005, 2006
3 
   Free Software Foundation, Inc.
4 
 
5 
This file is free software; you can redistribute it and/or modify it
6 
under the terms of the GNU General Public License as published by the
7 
Free Software Foundation; either version 2, or (at your option) any
8 
later version.
9 
 
10 
In addition to the permissions in the GNU General Public License, the
11 
Free Software Foundation gives you unlimited permission to link the
12 
compiled version of this file into combinations with other programs,
13 
and to distribute those combinations without any restriction coming
14 
from the use of this file.  (The General Public License restrictions
15 
do apply in other respects; for example, they cover modification of
16 
the file, and distribution when not linked into a combine
17 
executable.)
18 
 
19 
This file is distributed in the hope that it will be useful, but
20 
WITHOUT ANY WARRANTY; without even the implied warranty of
21 
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
22 
General Public License for more details.
23 
 
24 
You should have received a copy of the GNU General Public License
25 
along with this program; see the file COPYING.  If not, write to
26 
the Free Software Foundation, 51 Franklin Street, Fifth Floor,
27 
Boston, MA 02110-1301, USA.  */
28 
 
29 
!! libgcc routines for the Renesas / SuperH SH CPUs.
30 
!! Contributed by Steve Chamberlain.
31 
!! sac@cygnus.com
32 
 
33 
!! ashiftrt_r4_x, ___ashrsi3, ___ashlsi3, ___lshrsi3 routines
34 
!! recoded in assembly by Toshiyasu Morita
35 
!! tm@netcom.com
36 
 
37 
/* SH2 optimizations for ___ashrsi3, ___ashlsi3, ___lshrsi3 and
38 
   ELF local label prefixes by J"orn Rennecke
39 
   amylaar@cygnus.com  */
40 
 
41 
#include "lib1funcs.h"
42 
 
43 
#if ! __SH5__
44 
#ifdef L_ashiftrt
45 
        .global GLOBAL(ashiftrt_r4_0)
46 
        .global GLOBAL(ashiftrt_r4_1)
47 
        .global GLOBAL(ashiftrt_r4_2)
48 
        .global GLOBAL(ashiftrt_r4_3)
49 
        .global GLOBAL(ashiftrt_r4_4)
50 
        .global GLOBAL(ashiftrt_r4_5)
51 
        .global GLOBAL(ashiftrt_r4_6)
52 
        .global GLOBAL(ashiftrt_r4_7)
53 
        .global GLOBAL(ashiftrt_r4_8)
54 
        .global GLOBAL(ashiftrt_r4_9)
55 
        .global GLOBAL(ashiftrt_r4_10)
56 
        .global GLOBAL(ashiftrt_r4_11)
57 
        .global GLOBAL(ashiftrt_r4_12)
58 
        .global GLOBAL(ashiftrt_r4_13)
59 
        .global GLOBAL(ashiftrt_r4_14)
60 
        .global GLOBAL(ashiftrt_r4_15)
61 
        .global GLOBAL(ashiftrt_r4_16)
62 
        .global GLOBAL(ashiftrt_r4_17)
63 
        .global GLOBAL(ashiftrt_r4_18)
64 
        .global GLOBAL(ashiftrt_r4_19)
65 
        .global GLOBAL(ashiftrt_r4_20)
66 
        .global GLOBAL(ashiftrt_r4_21)
67 
        .global GLOBAL(ashiftrt_r4_22)
68 
        .global GLOBAL(ashiftrt_r4_23)
69 
        .global GLOBAL(ashiftrt_r4_24)
70 
        .global GLOBAL(ashiftrt_r4_25)
71 
        .global GLOBAL(ashiftrt_r4_26)
72 
        .global GLOBAL(ashiftrt_r4_27)
73 
        .global GLOBAL(ashiftrt_r4_28)
74 
        .global GLOBAL(ashiftrt_r4_29)
75 
        .global GLOBAL(ashiftrt_r4_30)
76 
        .global GLOBAL(ashiftrt_r4_31)
77 
        .global GLOBAL(ashiftrt_r4_32)
78 
 
79 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_0))
80 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_1))
81 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_2))
82 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_3))
83 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_4))
84 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_5))
85 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_6))
86 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_7))
87 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_8))
88 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_9))
89 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_10))
90 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_11))
91 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_12))
92 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_13))
93 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_14))
94 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_15))
95 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_16))
96 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_17))
97 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_18))
98 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_19))
99 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_20))
100 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_21))
101 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_22))
102 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_23))
103 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_24))
104 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_25))
105 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_26))
106 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_27))
107 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_28))
108 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_29))
109 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_30))
110 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_31))
111 
        HIDDEN_FUNC(GLOBAL(ashiftrt_r4_32))
112 
 
113 
        .align  1
114 
GLOBAL(ashiftrt_r4_32):
115 
GLOBAL(ashiftrt_r4_31):
116 
        rotcl   r4
117 
        rts
118 
        subc    r4,r4
119 
 
120 
GLOBAL(ashiftrt_r4_30):
121 
        shar    r4
122 
GLOBAL(ashiftrt_r4_29):
123 
        shar    r4
124 
GLOBAL(ashiftrt_r4_28):
125 
        shar    r4
126 
GLOBAL(ashiftrt_r4_27):
127 
        shar    r4
128 
GLOBAL(ashiftrt_r4_26):
129 
        shar    r4
130 
GLOBAL(ashiftrt_r4_25):
131 
        shar    r4
132 
GLOBAL(ashiftrt_r4_24):
133 
        shlr16  r4
134 
        shlr8   r4
135 
        rts
136 
        exts.b  r4,r4
137 
 
138 
GLOBAL(ashiftrt_r4_23):
139 
        shar    r4
140 
GLOBAL(ashiftrt_r4_22):
141 
        shar    r4
142 
GLOBAL(ashiftrt_r4_21):
143 
        shar    r4
144 
GLOBAL(ashiftrt_r4_20):
145 
        shar    r4
146 
GLOBAL(ashiftrt_r4_19):
147 
        shar    r4
148 
GLOBAL(ashiftrt_r4_18):
149 
        shar    r4
150 
GLOBAL(ashiftrt_r4_17):
151 
        shar    r4
152 
GLOBAL(ashiftrt_r4_16):
153 
        shlr16  r4
154 
        rts
155 
        exts.w  r4,r4
156 
 
157 
GLOBAL(ashiftrt_r4_15):
158 
        shar    r4
159 
GLOBAL(ashiftrt_r4_14):
160 
        shar    r4
161 
GLOBAL(ashiftrt_r4_13):
162 
        shar    r4
163 
GLOBAL(ashiftrt_r4_12):
164 
        shar    r4
165 
GLOBAL(ashiftrt_r4_11):
166 
        shar    r4
167 
GLOBAL(ashiftrt_r4_10):
168 
        shar    r4
169 
GLOBAL(ashiftrt_r4_9):
170 
        shar    r4
171 
GLOBAL(ashiftrt_r4_8):
172 
        shar    r4
173 
GLOBAL(ashiftrt_r4_7):
174 
        shar    r4
175 
GLOBAL(ashiftrt_r4_6):
176 
        shar    r4
177 
GLOBAL(ashiftrt_r4_5):
178 
        shar    r4
179 
GLOBAL(ashiftrt_r4_4):
180 
        shar    r4
181 
GLOBAL(ashiftrt_r4_3):
182 
        shar    r4
183 
GLOBAL(ashiftrt_r4_2):
184 
        shar    r4
185 
GLOBAL(ashiftrt_r4_1):
186 
        rts
187 
        shar    r4
188 
 
189 
GLOBAL(ashiftrt_r4_0):
190 
        rts
191 
        nop
192 
 
193 
        ENDFUNC(GLOBAL(ashiftrt_r4_0))
194 
        ENDFUNC(GLOBAL(ashiftrt_r4_1))
195 
        ENDFUNC(GLOBAL(ashiftrt_r4_2))
196 
        ENDFUNC(GLOBAL(ashiftrt_r4_3))
197 
        ENDFUNC(GLOBAL(ashiftrt_r4_4))
198 
        ENDFUNC(GLOBAL(ashiftrt_r4_5))
199 
        ENDFUNC(GLOBAL(ashiftrt_r4_6))
200 
        ENDFUNC(GLOBAL(ashiftrt_r4_7))
201 
        ENDFUNC(GLOBAL(ashiftrt_r4_8))
202 
        ENDFUNC(GLOBAL(ashiftrt_r4_9))
203 
        ENDFUNC(GLOBAL(ashiftrt_r4_10))
204 
        ENDFUNC(GLOBAL(ashiftrt_r4_11))
205 
        ENDFUNC(GLOBAL(ashiftrt_r4_12))
206 
        ENDFUNC(GLOBAL(ashiftrt_r4_13))
207 
        ENDFUNC(GLOBAL(ashiftrt_r4_14))
208 
        ENDFUNC(GLOBAL(ashiftrt_r4_15))
209 
        ENDFUNC(GLOBAL(ashiftrt_r4_16))
210 
        ENDFUNC(GLOBAL(ashiftrt_r4_17))
211 
        ENDFUNC(GLOBAL(ashiftrt_r4_18))
212 
        ENDFUNC(GLOBAL(ashiftrt_r4_19))
213 
        ENDFUNC(GLOBAL(ashiftrt_r4_20))
214 
        ENDFUNC(GLOBAL(ashiftrt_r4_21))
215 
        ENDFUNC(GLOBAL(ashiftrt_r4_22))
216 
        ENDFUNC(GLOBAL(ashiftrt_r4_23))
217 
        ENDFUNC(GLOBAL(ashiftrt_r4_24))
218 
        ENDFUNC(GLOBAL(ashiftrt_r4_25))
219 
        ENDFUNC(GLOBAL(ashiftrt_r4_26))
220 
        ENDFUNC(GLOBAL(ashiftrt_r4_27))
221 
        ENDFUNC(GLOBAL(ashiftrt_r4_28))
222 
        ENDFUNC(GLOBAL(ashiftrt_r4_29))
223 
        ENDFUNC(GLOBAL(ashiftrt_r4_30))
224 
        ENDFUNC(GLOBAL(ashiftrt_r4_31))
225 
        ENDFUNC(GLOBAL(ashiftrt_r4_32))
226 
#endif
227 
 
228 
#ifdef L_ashiftrt_n
229 
 
230 
!
231 
! GLOBAL(ashrsi3)
232 
!
233 
! Entry:
234 
!
235 
! r4: Value to shift
236 
! r5: Shifts
237 
!
238 
! Exit:
239 
!
240 
! r0: Result
241 
!
242 
! Destroys:
243 
!
244 
! (none)
245 
!
246 
 
247 
        .global GLOBAL(ashrsi3)
248 
        HIDDEN_FUNC(GLOBAL(ashrsi3))
249 
        .align  2
250 
GLOBAL(ashrsi3):
251 
        mov     #31,r0
252 
        and     r0,r5
253 
        mova    LOCAL(ashrsi3_table),r0
254 
        mov.b   @(r0,r5),r5
255 
#ifdef __sh1__
256 
        add     r5,r0
257 
        jmp     @r0
258 
#else
259 
        braf    r5
260 
#endif
261 
        mov     r4,r0
262 
 
263 
        .align  2
264 
LOCAL(ashrsi3_table):
265 
        .byte           LOCAL(ashrsi3_0)-LOCAL(ashrsi3_table)
266 
        .byte           LOCAL(ashrsi3_1)-LOCAL(ashrsi3_table)
267 
        .byte           LOCAL(ashrsi3_2)-LOCAL(ashrsi3_table)
268 
        .byte           LOCAL(ashrsi3_3)-LOCAL(ashrsi3_table)
269 
        .byte           LOCAL(ashrsi3_4)-LOCAL(ashrsi3_table)
270 
        .byte           LOCAL(ashrsi3_5)-LOCAL(ashrsi3_table)
271 
        .byte           LOCAL(ashrsi3_6)-LOCAL(ashrsi3_table)
272 
        .byte           LOCAL(ashrsi3_7)-LOCAL(ashrsi3_table)
273 
        .byte           LOCAL(ashrsi3_8)-LOCAL(ashrsi3_table)
274 
        .byte           LOCAL(ashrsi3_9)-LOCAL(ashrsi3_table)
275 
        .byte           LOCAL(ashrsi3_10)-LOCAL(ashrsi3_table)
276 
        .byte           LOCAL(ashrsi3_11)-LOCAL(ashrsi3_table)
277 
        .byte           LOCAL(ashrsi3_12)-LOCAL(ashrsi3_table)
278 
        .byte           LOCAL(ashrsi3_13)-LOCAL(ashrsi3_table)
279 
        .byte           LOCAL(ashrsi3_14)-LOCAL(ashrsi3_table)
280 
        .byte           LOCAL(ashrsi3_15)-LOCAL(ashrsi3_table)
281 
        .byte           LOCAL(ashrsi3_16)-LOCAL(ashrsi3_table)
282 
        .byte           LOCAL(ashrsi3_17)-LOCAL(ashrsi3_table)
283 
        .byte           LOCAL(ashrsi3_18)-LOCAL(ashrsi3_table)
284 
        .byte           LOCAL(ashrsi3_19)-LOCAL(ashrsi3_table)
285 
        .byte           LOCAL(ashrsi3_20)-LOCAL(ashrsi3_table)
286 
        .byte           LOCAL(ashrsi3_21)-LOCAL(ashrsi3_table)
287 
        .byte           LOCAL(ashrsi3_22)-LOCAL(ashrsi3_table)
288 
        .byte           LOCAL(ashrsi3_23)-LOCAL(ashrsi3_table)
289 
        .byte           LOCAL(ashrsi3_24)-LOCAL(ashrsi3_table)
290 
        .byte           LOCAL(ashrsi3_25)-LOCAL(ashrsi3_table)
291 
        .byte           LOCAL(ashrsi3_26)-LOCAL(ashrsi3_table)
292 
        .byte           LOCAL(ashrsi3_27)-LOCAL(ashrsi3_table)
293 
        .byte           LOCAL(ashrsi3_28)-LOCAL(ashrsi3_table)
294 
        .byte           LOCAL(ashrsi3_29)-LOCAL(ashrsi3_table)
295 
        .byte           LOCAL(ashrsi3_30)-LOCAL(ashrsi3_table)
296 
        .byte           LOCAL(ashrsi3_31)-LOCAL(ashrsi3_table)
297 
 
298 
LOCAL(ashrsi3_31):
299 
        rotcl   r0
300 
        rts
301 
        subc    r0,r0
302 
 
303 
LOCAL(ashrsi3_30):
304 
        shar    r0
305 
LOCAL(ashrsi3_29):
306 
        shar    r0
307 
LOCAL(ashrsi3_28):
308 
        shar    r0
309 
LOCAL(ashrsi3_27):
310 
        shar    r0
311 
LOCAL(ashrsi3_26):
312 
        shar    r0
313 
LOCAL(ashrsi3_25):
314 
        shar    r0
315 
LOCAL(ashrsi3_24):
316 
        shlr16  r0
317 
        shlr8   r0
318 
        rts
319 
        exts.b  r0,r0
320 
 
321 
LOCAL(ashrsi3_23):
322 
        shar    r0
323 
LOCAL(ashrsi3_22):
324 
        shar    r0
325 
LOCAL(ashrsi3_21):
326 
        shar    r0
327 
LOCAL(ashrsi3_20):
328 
        shar    r0
329 
LOCAL(ashrsi3_19):
330 
        shar    r0
331 
LOCAL(ashrsi3_18):
332 
        shar    r0
333 
LOCAL(ashrsi3_17):
334 
        shar    r0
335 
LOCAL(ashrsi3_16):
336 
        shlr16  r0
337 
        rts
338 
        exts.w  r0,r0
339 
 
340 
LOCAL(ashrsi3_15):
341 
        shar    r0
342 
LOCAL(ashrsi3_14):
343 
        shar    r0
344 
LOCAL(ashrsi3_13):
345 
        shar    r0
346 
LOCAL(ashrsi3_12):
347 
        shar    r0
348 
LOCAL(ashrsi3_11):
349 
        shar    r0
350 
LOCAL(ashrsi3_10):
351 
        shar    r0
352 
LOCAL(ashrsi3_9):
353 
        shar    r0
354 
LOCAL(ashrsi3_8):
355 
        shar    r0
356 
LOCAL(ashrsi3_7):
357 
        shar    r0
358 
LOCAL(ashrsi3_6):
359 
        shar    r0
360 
LOCAL(ashrsi3_5):
361 
        shar    r0
362 
LOCAL(ashrsi3_4):
363 
        shar    r0
364 
LOCAL(ashrsi3_3):
365 
        shar    r0
366 
LOCAL(ashrsi3_2):
367 
        shar    r0
368 
LOCAL(ashrsi3_1):
369 
        rts
370 
        shar    r0
371 
 
372 
LOCAL(ashrsi3_0):
373 
        rts
374 
        nop
375 
 
376 
        ENDFUNC(GLOBAL(ashrsi3))
377 
#endif
378 
 
379 
#ifdef L_ashiftlt
380 
 
381 
!
382 
! GLOBAL(ashlsi3)
383 
!
384 
! Entry:
385 
!
386 
! r4: Value to shift
387 
! r5: Shifts
388 
!
389 
! Exit:
390 
!
391 
! r0: Result
392 
!
393 
! Destroys:
394 
!
395 
! (none)
396 
!
397 
        .global GLOBAL(ashlsi3)
398 
        HIDDEN_FUNC(GLOBAL(ashlsi3))
399 
        .align  2
400 
GLOBAL(ashlsi3):
401 
        mov     #31,r0
402 
        and     r0,r5
403 
        mova    LOCAL(ashlsi3_table),r0
404 
        mov.b   @(r0,r5),r5
405 
#ifdef __sh1__
406 
        add     r5,r0
407 
        jmp     @r0
408 
#else
409 
        braf    r5
410 
#endif
411 
        mov     r4,r0
412 
 
413 
        .align  2
414 
LOCAL(ashlsi3_table):
415 
        .byte           LOCAL(ashlsi3_0)-LOCAL(ashlsi3_table)
416 
        .byte           LOCAL(ashlsi3_1)-LOCAL(ashlsi3_table)
417 
        .byte           LOCAL(ashlsi3_2)-LOCAL(ashlsi3_table)
418 
        .byte           LOCAL(ashlsi3_3)-LOCAL(ashlsi3_table)
419 
        .byte           LOCAL(ashlsi3_4)-LOCAL(ashlsi3_table)
420 
        .byte           LOCAL(ashlsi3_5)-LOCAL(ashlsi3_table)
421 
        .byte           LOCAL(ashlsi3_6)-LOCAL(ashlsi3_table)
422 
        .byte           LOCAL(ashlsi3_7)-LOCAL(ashlsi3_table)
423 
        .byte           LOCAL(ashlsi3_8)-LOCAL(ashlsi3_table)
424 
        .byte           LOCAL(ashlsi3_9)-LOCAL(ashlsi3_table)
425 
        .byte           LOCAL(ashlsi3_10)-LOCAL(ashlsi3_table)
426 
        .byte           LOCAL(ashlsi3_11)-LOCAL(ashlsi3_table)
427 
        .byte           LOCAL(ashlsi3_12)-LOCAL(ashlsi3_table)
428 
        .byte           LOCAL(ashlsi3_13)-LOCAL(ashlsi3_table)
429 
        .byte           LOCAL(ashlsi3_14)-LOCAL(ashlsi3_table)
430 
        .byte           LOCAL(ashlsi3_15)-LOCAL(ashlsi3_table)
431 
        .byte           LOCAL(ashlsi3_16)-LOCAL(ashlsi3_table)
432 
        .byte           LOCAL(ashlsi3_17)-LOCAL(ashlsi3_table)
433 
        .byte           LOCAL(ashlsi3_18)-LOCAL(ashlsi3_table)
434 
        .byte           LOCAL(ashlsi3_19)-LOCAL(ashlsi3_table)
435 
        .byte           LOCAL(ashlsi3_20)-LOCAL(ashlsi3_table)
436 
        .byte           LOCAL(ashlsi3_21)-LOCAL(ashlsi3_table)
437 
        .byte           LOCAL(ashlsi3_22)-LOCAL(ashlsi3_table)
438 
        .byte           LOCAL(ashlsi3_23)-LOCAL(ashlsi3_table)
439 
        .byte           LOCAL(ashlsi3_24)-LOCAL(ashlsi3_table)
440 
        .byte           LOCAL(ashlsi3_25)-LOCAL(ashlsi3_table)
441 
        .byte           LOCAL(ashlsi3_26)-LOCAL(ashlsi3_table)
442 
        .byte           LOCAL(ashlsi3_27)-LOCAL(ashlsi3_table)
443 
        .byte           LOCAL(ashlsi3_28)-LOCAL(ashlsi3_table)
444 
        .byte           LOCAL(ashlsi3_29)-LOCAL(ashlsi3_table)
445 
        .byte           LOCAL(ashlsi3_30)-LOCAL(ashlsi3_table)
446 
        .byte           LOCAL(ashlsi3_31)-LOCAL(ashlsi3_table)
447 
 
448 
LOCAL(ashlsi3_6):
449 
        shll2   r0
450 
LOCAL(ashlsi3_4):
451 
        shll2   r0
452 
LOCAL(ashlsi3_2):
453 
        rts
454 
        shll2   r0
455 
 
456 
LOCAL(ashlsi3_7):
457 
        shll2   r0
458 
LOCAL(ashlsi3_5):
459 
        shll2   r0
460 
LOCAL(ashlsi3_3):
461 
        shll2   r0
462 
LOCAL(ashlsi3_1):
463 
        rts
464 
        shll    r0
465 
 
466 
LOCAL(ashlsi3_14):
467 
        shll2   r0
468 
LOCAL(ashlsi3_12):
469 
        shll2   r0
470 
LOCAL(ashlsi3_10):
471 
        shll2   r0
472 
LOCAL(ashlsi3_8):
473 
        rts
474 
        shll8   r0
475 
 
476 
LOCAL(ashlsi3_15):
477 
        shll2   r0
478 
LOCAL(ashlsi3_13):
479 
        shll2   r0
480 
LOCAL(ashlsi3_11):
481 
        shll2   r0
482 
LOCAL(ashlsi3_9):
483 
        shll8   r0
484 
        rts
485 
        shll    r0
486 
 
487 
LOCAL(ashlsi3_22):
488 
        shll2   r0
489 
LOCAL(ashlsi3_20):
490 
        shll2   r0
491 
LOCAL(ashlsi3_18):
492 
        shll2   r0
493 
LOCAL(ashlsi3_16):
494 
        rts
495 
        shll16  r0
496 
 
497 
LOCAL(ashlsi3_23):
498 
        shll2   r0
499 
LOCAL(ashlsi3_21):
500 
        shll2   r0
501 
LOCAL(ashlsi3_19):
502 
        shll2   r0
503 
LOCAL(ashlsi3_17):
504 
        shll16  r0
505 
        rts
506 
        shll    r0
507 
 
508 
LOCAL(ashlsi3_30):
509 
        shll2   r0
510 
LOCAL(ashlsi3_28):
511 
        shll2   r0
512 
LOCAL(ashlsi3_26):
513 
        shll2   r0
514 
LOCAL(ashlsi3_24):
515 
        shll16  r0
516 
        rts
517 
        shll8   r0
518 
 
519 
LOCAL(ashlsi3_31):
520 
        shll2   r0
521 
LOCAL(ashlsi3_29):
522 
        shll2   r0
523 
LOCAL(ashlsi3_27):
524 
        shll2   r0
525 
LOCAL(ashlsi3_25):
526 
        shll16  r0
527 
        shll8   r0
528 
        rts
529 
        shll    r0
530 
 
531 
LOCAL(ashlsi3_0):
532 
        rts
533 
        nop
534 
 
535 
        ENDFUNC(GLOBAL(ashlsi3))
536 
#endif
537 
 
538 
#ifdef L_lshiftrt
539 
 
540 
!
541 
! GLOBAL(lshrsi3)
542 
!
543 
! Entry:
544 
!
545 
! r4: Value to shift
546 
! r5: Shifts
547 
!
548 
! Exit:
549 
!
550 
! r0: Result
551 
!
552 
! Destroys:
553 
!
554 
! (none)
555 
!
556 
        .global GLOBAL(lshrsi3)
557 
        HIDDEN_FUNC(GLOBAL(lshrsi3))
558 
        .align  2
559 
GLOBAL(lshrsi3):
560 
        mov     #31,r0
561 
        and     r0,r5
562 
        mova    LOCAL(lshrsi3_table),r0
563 
        mov.b   @(r0,r5),r5
564 
#ifdef __sh1__
565 
        add     r5,r0
566 
        jmp     @r0
567 
#else
568 
        braf    r5
569 
#endif
570 
        mov     r4,r0
571 
 
572 
        .align  2
573 
LOCAL(lshrsi3_table):
574 
        .byte           LOCAL(lshrsi3_0)-LOCAL(lshrsi3_table)
575 
        .byte           LOCAL(lshrsi3_1)-LOCAL(lshrsi3_table)
576 
        .byte           LOCAL(lshrsi3_2)-LOCAL(lshrsi3_table)
577 
        .byte           LOCAL(lshrsi3_3)-LOCAL(lshrsi3_table)
578 
        .byte           LOCAL(lshrsi3_4)-LOCAL(lshrsi3_table)
579 
        .byte           LOCAL(lshrsi3_5)-LOCAL(lshrsi3_table)
580 
        .byte           LOCAL(lshrsi3_6)-LOCAL(lshrsi3_table)
581 
        .byte           LOCAL(lshrsi3_7)-LOCAL(lshrsi3_table)
582 
        .byte           LOCAL(lshrsi3_8)-LOCAL(lshrsi3_table)
583 
        .byte           LOCAL(lshrsi3_9)-LOCAL(lshrsi3_table)
584 
        .byte           LOCAL(lshrsi3_10)-LOCAL(lshrsi3_table)
585 
        .byte           LOCAL(lshrsi3_11)-LOCAL(lshrsi3_table)
586 
        .byte           LOCAL(lshrsi3_12)-LOCAL(lshrsi3_table)
587 
        .byte           LOCAL(lshrsi3_13)-LOCAL(lshrsi3_table)
588 
        .byte           LOCAL(lshrsi3_14)-LOCAL(lshrsi3_table)
589 
        .byte           LOCAL(lshrsi3_15)-LOCAL(lshrsi3_table)
590 
        .byte           LOCAL(lshrsi3_16)-LOCAL(lshrsi3_table)
591 
        .byte           LOCAL(lshrsi3_17)-LOCAL(lshrsi3_table)
592 
        .byte           LOCAL(lshrsi3_18)-LOCAL(lshrsi3_table)
593 
        .byte           LOCAL(lshrsi3_19)-LOCAL(lshrsi3_table)
594 
        .byte           LOCAL(lshrsi3_20)-LOCAL(lshrsi3_table)
595 
        .byte           LOCAL(lshrsi3_21)-LOCAL(lshrsi3_table)
596 
        .byte           LOCAL(lshrsi3_22)-LOCAL(lshrsi3_table)
597 
        .byte           LOCAL(lshrsi3_23)-LOCAL(lshrsi3_table)
598 
        .byte           LOCAL(lshrsi3_24)-LOCAL(lshrsi3_table)
599 
        .byte           LOCAL(lshrsi3_25)-LOCAL(lshrsi3_table)
600 
        .byte           LOCAL(lshrsi3_26)-LOCAL(lshrsi3_table)
601 
        .byte           LOCAL(lshrsi3_27)-LOCAL(lshrsi3_table)
602 
        .byte           LOCAL(lshrsi3_28)-LOCAL(lshrsi3_table)
603 
        .byte           LOCAL(lshrsi3_29)-LOCAL(lshrsi3_table)
604 
        .byte           LOCAL(lshrsi3_30)-LOCAL(lshrsi3_table)
605 
        .byte           LOCAL(lshrsi3_31)-LOCAL(lshrsi3_table)
606 
 
607 
LOCAL(lshrsi3_6):
608 
        shlr2   r0
609 
LOCAL(lshrsi3_4):
610 
        shlr2   r0
611 
LOCAL(lshrsi3_2):
612 
        rts
613 
        shlr2   r0
614 
 
615 
LOCAL(lshrsi3_7):
616 
        shlr2   r0
617 
LOCAL(lshrsi3_5):
618 
        shlr2   r0
619 
LOCAL(lshrsi3_3):
620 
        shlr2   r0
621 
LOCAL(lshrsi3_1):
622 
        rts
623 
        shlr    r0
624 
 
625 
LOCAL(lshrsi3_14):
626 
        shlr2   r0
627 
LOCAL(lshrsi3_12):
628 
        shlr2   r0
629 
LOCAL(lshrsi3_10):
630 
        shlr2   r0
631 
LOCAL(lshrsi3_8):
632 
        rts
633 
        shlr8   r0
634 
 
635 
LOCAL(lshrsi3_15):
636 
        shlr2   r0
637 
LOCAL(lshrsi3_13):
638 
        shlr2   r0
639 
LOCAL(lshrsi3_11):
640 
        shlr2   r0
641 
LOCAL(lshrsi3_9):
642 
        shlr8   r0
643 
        rts
644 
        shlr    r0
645 
 
646 
LOCAL(lshrsi3_22):
647 
        shlr2   r0
648 
LOCAL(lshrsi3_20):
649 
        shlr2   r0
650 
LOCAL(lshrsi3_18):
651 
        shlr2   r0
652 
LOCAL(lshrsi3_16):
653 
        rts
654 
        shlr16  r0
655 
 
656 
LOCAL(lshrsi3_23):
657 
        shlr2   r0
658 
LOCAL(lshrsi3_21):
659 
        shlr2   r0
660 
LOCAL(lshrsi3_19):
661 
        shlr2   r0
662 
LOCAL(lshrsi3_17):
663 
        shlr16  r0
664 
        rts
665 
        shlr    r0
666 
 
667 
LOCAL(lshrsi3_30):
668 
        shlr2   r0
669 
LOCAL(lshrsi3_28):
670 
        shlr2   r0
671 
LOCAL(lshrsi3_26):
672 
        shlr2   r0
673 
LOCAL(lshrsi3_24):
674 
        shlr16  r0
675 
        rts
676 
        shlr8   r0
677 
 
678 
LOCAL(lshrsi3_31):
679 
        shlr2   r0
680 
LOCAL(lshrsi3_29):
681 
        shlr2   r0
682 
LOCAL(lshrsi3_27):
683 
        shlr2   r0
684 
LOCAL(lshrsi3_25):
685 
        shlr16  r0
686 
        shlr8   r0
687 
        rts
688 
        shlr    r0
689 
 
690 
LOCAL(lshrsi3_0):
691 
        rts
692 
        nop
693 
 
694 
        ENDFUNC(GLOBAL(lshrsi3))
695 
#endif
696 
 
697 
#ifdef L_movmem
698 
        .text
699 
        .balign 4
700 
        .global GLOBAL(movmem)
701 
        HIDDEN_FUNC(GLOBAL(movmem))
702 
        HIDDEN_ALIAS(movstr,movmem)
703 
        /* This would be a lot simpler if r6 contained the byte count
704 
           minus 64, and we wouldn't be called here for a byte count of 64.  */
705 
GLOBAL(movmem):
706 
        sts.l   pr,@-r15
707 
        shll2   r6
708 
        bsr     GLOBAL(movmemSI52+2)
709 
        mov.l   @(48,r5),r0
710 
        .balign 4
711 
LOCAL(movmem_loop): /* Reached with rts */
712 
        mov.l   @(60,r5),r0
713 
        add     #-64,r6
714 
        mov.l   r0,@(60,r4)
715 
        tst     r6,r6
716 
        mov.l   @(56,r5),r0
717 
        bt      LOCAL(movmem_done)
718 
        mov.l   r0,@(56,r4)
719 
        cmp/pl  r6
720 
        mov.l   @(52,r5),r0
721 
        add     #64,r5
722 
        mov.l   r0,@(52,r4)
723 
        add     #64,r4
724 
        bt      GLOBAL(movmemSI52)
725 
! done all the large groups, do the remainder
726 
! jump to movmem+
727 
        mova    GLOBAL(movmemSI4)+4,r0
728 
        add     r6,r0
729 
        jmp     @r0
730 
LOCAL(movmem_done): ! share slot insn, works out aligned.
731 
        lds.l   @r15+,pr
732 
        mov.l   r0,@(56,r4)
733 
        mov.l   @(52,r5),r0
734 
        rts
735 
        mov.l   r0,@(52,r4)
736 
        .balign 4
737 
! ??? We need aliases movstr* for movmem* for the older libraries.  These
738 
! aliases will be removed at the some point in the future.
739 
        .global GLOBAL(movmemSI64)
740 
        HIDDEN_FUNC(GLOBAL(movmemSI64))
741 
        HIDDEN_ALIAS(movstrSI64,movmemSI64)
742 
GLOBAL(movmemSI64):
743 
        mov.l   @(60,r5),r0
744 
        mov.l   r0,@(60,r4)
745 
        .global GLOBAL(movmemSI60)
746 
        HIDDEN_FUNC(GLOBAL(movmemSI60))
747 
        HIDDEN_ALIAS(movstrSI60,movmemSI60)
748 
GLOBAL(movmemSI60):
749 
        mov.l   @(56,r5),r0
750 
        mov.l   r0,@(56,r4)
751 
        .global GLOBAL(movmemSI56)
752 
        HIDDEN_FUNC(GLOBAL(movmemSI56))
753 
        HIDDEN_ALIAS(movstrSI56,movmemSI56)
754 
GLOBAL(movmemSI56):
755 
        mov.l   @(52,r5),r0
756 
        mov.l   r0,@(52,r4)
757 
        .global GLOBAL(movmemSI52)
758 
        HIDDEN_FUNC(GLOBAL(movmemSI52))
759 
        HIDDEN_ALIAS(movstrSI52,movmemSI52)
760 
GLOBAL(movmemSI52):
761 
        mov.l   @(48,r5),r0
762 
        mov.l   r0,@(48,r4)
763 
        .global GLOBAL(movmemSI48)
764 
        HIDDEN_FUNC(GLOBAL(movmemSI48))
765 
        HIDDEN_ALIAS(movstrSI48,movmemSI48)
766 
GLOBAL(movmemSI48):
767 
        mov.l   @(44,r5),r0
768 
        mov.l   r0,@(44,r4)
769 
        .global GLOBAL(movmemSI44)
770 
        HIDDEN_FUNC(GLOBAL(movmemSI44))
771 
        HIDDEN_ALIAS(movstrSI44,movmemSI44)
772 
GLOBAL(movmemSI44):
773 
        mov.l   @(40,r5),r0
774 
        mov.l   r0,@(40,r4)
775 
        .global GLOBAL(movmemSI40)
776 
        HIDDEN_FUNC(GLOBAL(movmemSI40))
777 
        HIDDEN_ALIAS(movstrSI40,movmemSI40)
778 
GLOBAL(movmemSI40):
779 
        mov.l   @(36,r5),r0
780 
        mov.l   r0,@(36,r4)
781 
        .global GLOBAL(movmemSI36)
782 
        HIDDEN_FUNC(GLOBAL(movmemSI36))
783 
        HIDDEN_ALIAS(movstrSI36,movmemSI36)
784 
GLOBAL(movmemSI36):
785 
        mov.l   @(32,r5),r0
786 
        mov.l   r0,@(32,r4)
787 
        .global GLOBAL(movmemSI32)
788 
        HIDDEN_FUNC(GLOBAL(movmemSI32))
789 
        HIDDEN_ALIAS(movstrSI32,movmemSI32)
790 
GLOBAL(movmemSI32):
791 
        mov.l   @(28,r5),r0
792 
        mov.l   r0,@(28,r4)
793 
        .global GLOBAL(movmemSI28)
794 
        HIDDEN_FUNC(GLOBAL(movmemSI28))
795 
        HIDDEN_ALIAS(movstrSI28,movmemSI28)
796 
GLOBAL(movmemSI28):
797 
        mov.l   @(24,r5),r0
798 
        mov.l   r0,@(24,r4)
799 
        .global GLOBAL(movmemSI24)
800 
        HIDDEN_FUNC(GLOBAL(movmemSI24))
801 
        HIDDEN_ALIAS(movstrSI24,movmemSI24)
802 
GLOBAL(movmemSI24):
803 
        mov.l   @(20,r5),r0
804 
        mov.l   r0,@(20,r4)
805 
        .global GLOBAL(movmemSI20)
806 
        HIDDEN_FUNC(GLOBAL(movmemSI20))
807 
        HIDDEN_ALIAS(movstrSI20,movmemSI20)
808 
GLOBAL(movmemSI20):
809 
        mov.l   @(16,r5),r0
810 
        mov.l   r0,@(16,r4)
811 
        .global GLOBAL(movmemSI16)
812 
        HIDDEN_FUNC(GLOBAL(movmemSI16))
813 
        HIDDEN_ALIAS(movstrSI16,movmemSI16)
814 
GLOBAL(movmemSI16):
815 
        mov.l   @(12,r5),r0
816 
        mov.l   r0,@(12,r4)
817 
        .global GLOBAL(movmemSI12)
818 
        HIDDEN_FUNC(GLOBAL(movmemSI12))
819 
        HIDDEN_ALIAS(movstrSI12,movmemSI12)
820 
GLOBAL(movmemSI12):
821 
        mov.l   @(8,r5),r0
822 
        mov.l   r0,@(8,r4)
823 
        .global GLOBAL(movmemSI8)
824 
        HIDDEN_FUNC(GLOBAL(movmemSI8))
825 
        HIDDEN_ALIAS(movstrSI8,movmemSI8)
826 
GLOBAL(movmemSI8):
827 
        mov.l   @(4,r5),r0
828 
        mov.l   r0,@(4,r4)
829 
        .global GLOBAL(movmemSI4)
830 
        HIDDEN_FUNC(GLOBAL(movmemSI4))
831 
        HIDDEN_ALIAS(movstrSI4,movmemSI4)
832 
GLOBAL(movmemSI4):
833 
        mov.l   @(0,r5),r0
834 
        rts
835 
        mov.l   r0,@(0,r4)
836 
 
837 
        ENDFUNC(GLOBAL(movmemSI64))
838 
        ENDFUNC(GLOBAL(movmemSI60))
839 
        ENDFUNC(GLOBAL(movmemSI56))
840 
        ENDFUNC(GLOBAL(movmemSI52))
841 
        ENDFUNC(GLOBAL(movmemSI48))
842 
        ENDFUNC(GLOBAL(movmemSI44))
843 
        ENDFUNC(GLOBAL(movmemSI40))
844 
        ENDFUNC(GLOBAL(movmemSI36))
845 
        ENDFUNC(GLOBAL(movmemSI32))
846 
        ENDFUNC(GLOBAL(movmemSI28))
847 
        ENDFUNC(GLOBAL(movmemSI24))
848 
        ENDFUNC(GLOBAL(movmemSI20))
849 
        ENDFUNC(GLOBAL(movmemSI16))
850 
        ENDFUNC(GLOBAL(movmemSI12))
851 
        ENDFUNC(GLOBAL(movmemSI8))
852 
        ENDFUNC(GLOBAL(movmemSI4))
853 
        ENDFUNC(GLOBAL(movmem))
854 
#endif
855 
 
856 
#ifdef L_movmem_i4
857 
        .text
858 
        .global GLOBAL(movmem_i4_even)
859 
        .global GLOBAL(movmem_i4_odd)
860 
        .global GLOBAL(movmemSI12_i4)
861 
 
862 
        HIDDEN_FUNC(GLOBAL(movmem_i4_even))
863 
        HIDDEN_FUNC(GLOBAL(movmem_i4_odd))
864 
        HIDDEN_FUNC(GLOBAL(movmemSI12_i4))
865 
 
866 
        HIDDEN_ALIAS(movstr_i4_even,movmem_i4_even)
867 
        HIDDEN_ALIAS(movstr_i4_odd,movmem_i4_odd)
868 
        HIDDEN_ALIAS(movstrSI12_i4,movmemSI12_i4)
869 
 
870 
        .p2align        5
871 
L_movmem_2mod4_end:
872 
        mov.l   r0,@(16,r4)
873 
        rts
874 
        mov.l   r1,@(20,r4)
875 
 
876 
        .p2align        2
877 
 
878 
GLOBAL(movmem_i4_even):
879 
        mov.l   @r5+,r0
880 
        bra     L_movmem_start_even
881 
        mov.l   @r5+,r1
882 
 
883 
GLOBAL(movmem_i4_odd):
884 
        mov.l   @r5+,r1
885 
        add     #-4,r4
886 
        mov.l   @r5+,r2
887 
        mov.l   @r5+,r3
888 
        mov.l   r1,@(4,r4)
889 
        mov.l   r2,@(8,r4)
890 
 
891 
L_movmem_loop:
892 
        mov.l   r3,@(12,r4)
893 
        dt      r6
894 
        mov.l   @r5+,r0
895 
        bt/s    L_movmem_2mod4_end
896 
        mov.l   @r5+,r1
897 
        add     #16,r4
898 
L_movmem_start_even:
899 
        mov.l   @r5+,r2
900 
        mov.l   @r5+,r3
901 
        mov.l   r0,@r4
902 
        dt      r6
903 
        mov.l   r1,@(4,r4)
904 
        bf/s    L_movmem_loop
905 
        mov.l   r2,@(8,r4)
906 
        rts
907 
        mov.l   r3,@(12,r4)
908 
 
909 
        ENDFUNC(GLOBAL(movmem_i4_even))
910 
        ENDFUNC(GLOBAL(movmem_i4_odd))
911 
 
912 
        .p2align        4
913 
GLOBAL(movmemSI12_i4):
914 
        mov.l   @r5,r0
915 
        mov.l   @(4,r5),r1
916 
        mov.l   @(8,r5),r2
917 
        mov.l   r0,@r4
918 
        mov.l   r1,@(4,r4)
919 
        rts
920 
        mov.l   r2,@(8,r4)
921 
 
922 
        ENDFUNC(GLOBAL(movmemSI12_i4))
923 
#endif
924 
 
925 
#ifdef L_mulsi3
926 
 
927 
 
928 
        .global GLOBAL(mulsi3)
929 
        HIDDEN_FUNC(GLOBAL(mulsi3))
930 
 
931 
! r4 =       aabb
932 
! r5 =       ccdd
933 
! r0 = aabb*ccdd  via partial products
934 
!
935 
! if aa == 0 and cc = 0
936 
! r0 = bb*dd
937 
!
938 
! else
939 
! aa = bb*dd + (aa*dd*65536) + (cc*bb*65536)
940 
!
941 
 
942 
GLOBAL(mulsi3):
943 
        mulu.w  r4,r5           ! multiply the lsws  macl=bb*dd
944 
        mov     r5,r3           ! r3 = ccdd
945 
        swap.w  r4,r2           ! r2 = bbaa
946 
        xtrct   r2,r3           ! r3 = aacc
947 
        tst     r3,r3           ! msws zero ?
948 
        bf      hiset
949 
        rts                     ! yes - then we have the answer
950 
        sts     macl,r0
951 
 
952 
hiset:  sts     macl,r0         ! r0 = bb*dd
953 
        mulu.w  r2,r5           ! brewing macl = aa*dd
954 
        sts     macl,r1
955 
        mulu.w  r3,r4           ! brewing macl = cc*bb
956 
        sts     macl,r2
957 
        add     r1,r2
958 
        shll16  r2
959 
        rts
960 
        add     r2,r0
961 
 
962 
        ENDFUNC(GLOBAL(mulsi3))
963 
#endif
964 
#endif /* ! __SH5__ */
965 
#ifdef L_sdivsi3_i4
966 
        .title "SH DIVIDE"
967 
!! 4 byte integer Divide code for the Renesas SH
968 
#ifdef __SH4__
969 
!! args in r4 and r5, result in fpul, clobber dr0, dr2
970 
 
971 
        .global GLOBAL(sdivsi3_i4)
972 
        HIDDEN_FUNC(GLOBAL(sdivsi3_i4))
973 
GLOBAL(sdivsi3_i4):
974 
        lds r4,fpul
975 
        float fpul,dr0
976 
        lds r5,fpul
977 
        float fpul,dr2
978 
        fdiv dr2,dr0
979 
        rts
980 
        ftrc dr0,fpul
981 
 
982 
        ENDFUNC(GLOBAL(sdivsi3_i4))
983 
#elif defined(__SH4_SINGLE__) || defined(__SH4_SINGLE_ONLY__) || (defined (__SH5__) && ! defined __SH4_NOFPU__)
984 
!! args in r4 and r5, result in fpul, clobber r2, dr0, dr2
985 
 
986 
#if ! __SH5__ || __SH5__ == 32
987 
#if __SH5__
988 
        .mode   SHcompact
989 
#endif
990 
        .global GLOBAL(sdivsi3_i4)
991 
        HIDDEN_FUNC(GLOBAL(sdivsi3_i4))
992 
GLOBAL(sdivsi3_i4):
993 
        sts.l fpscr,@-r15
994 
        mov #8,r2
995 
        swap.w r2,r2
996 
        lds r2,fpscr
997 
        lds r4,fpul
998 
        float fpul,dr0
999 
        lds r5,fpul
1000 
        float fpul,dr2
1001 
        fdiv dr2,dr0
1002 
        ftrc dr0,fpul
1003 
        rts
1004 
        lds.l @r15+,fpscr
1005 
 
1006 
        ENDFUNC(GLOBAL(sdivsi3_i4))
1007 
#endif /* ! __SH5__ || __SH5__ == 32 */
1008 
#endif /* ! __SH4__ */
1009 
#endif
1010 
 
1011 
#ifdef L_sdivsi3
1012 
/* __SH4_SINGLE_ONLY__ keeps this part for link compatibility with
1013 
   sh2e/sh3e code.  */
1014 
#if (! defined(__SH4__) && ! defined (__SH4_SINGLE__)) || defined (__linux__)
1015 
!!
1016 
!! Steve Chamberlain
1017 
!! sac@cygnus.com
1018 
!!
1019 
!!
1020 
 
1021 
!! args in r4 and r5, result in r0 clobber r1, r2, r3, and t bit
1022 
 
1023 
        .global GLOBAL(sdivsi3)
1024 
#if __SHMEDIA__
1025 
#if __SH5__ == 32
1026 
        .section        .text..SHmedia32,"ax"
1027 
#else
1028 
        .text
1029 
#endif
1030 
        .align  2
1031 
#if 0
1032 
/* The assembly code that follows is a hand-optimized version of the C
1033 
   code that follows.  Note that the registers that are modified are
1034 
   exactly those listed as clobbered in the patterns divsi3_i1 and
1035 
   divsi3_i1_media.
1036 
 
1037 
int __sdivsi3 (i, j)
1038 
     int i, j;
1039 
{
1040 
  register unsigned long long r18 asm ("r18");
1041 
  register unsigned long long r19 asm ("r19");
1042 
  register unsigned long long r0 asm ("r0") = 0;
1043 
  register unsigned long long r1 asm ("r1") = 1;
1044 
  register int r2 asm ("r2") = i >> 31;
1045 
  register int r3 asm ("r3") = j >> 31;
1046 
 
1047 
  r2 = r2 ? r2 : r1;
1048 
  r3 = r3 ? r3 : r1;
1049 
  r18 = i * r2;
1050 
  r19 = j * r3;
1051 
  r2 *= r3;
1052 
 
1053 
  r19 <<= 31;
1054 
  r1 <<= 31;
1055 
  do
1056 
    if (r18 >= r19)
1057 
      r0 |= r1, r18 -= r19;
1058 
  while (r19 >>= 1, r1 >>= 1);
1059 
 
1060 
  return r2 * (int)r0;
1061 
}
1062 
*/
1063 
GLOBAL(sdivsi3):
1064 
        pt/l    LOCAL(sdivsi3_dontadd), tr2
1065 
        pt/l    LOCAL(sdivsi3_loop), tr1
1066 
        ptabs/l r18, tr0
1067 
        movi    0, r0
1068 
        movi    1, r1
1069 
        shari.l r4, 31, r2
1070 
        shari.l r5, 31, r3
1071 
        cmveq   r2, r1, r2
1072 
        cmveq   r3, r1, r3
1073 
        muls.l  r4, r2, r18
1074 
        muls.l  r5, r3, r19
1075 
        muls.l  r2, r3, r2
1076 
        shlli   r19, 31, r19
1077 
        shlli   r1, 31, r1
1078 
LOCAL(sdivsi3_loop):
1079 
        bgtu    r19, r18, tr2
1080 
        or      r0, r1, r0
1081 
        sub     r18, r19, r18
1082 
LOCAL(sdivsi3_dontadd):
1083 
        shlri   r1, 1, r1
1084 
        shlri   r19, 1, r19
1085 
        bnei    r1, 0, tr1
1086 
        muls.l  r0, r2, r0
1087 
        add.l   r0, r63, r0
1088 
        blink   tr0, r63
1089 
#elif 0 /* ! 0 */
1090 
 // inputs: r4,r5
1091 
 // clobbered: r1,r2,r3,r18,r19,r20,r21,r25,tr0
1092 
 // result in r0
1093 
GLOBAL(sdivsi3):
1094 
 // can create absolute value without extra latency,
1095 
 // but dependent on proper sign extension of inputs:
1096 
 // shari.l r5,31,r2
1097 
 // xor r5,r2,r20
1098 
 // sub r20,r2,r20 // r20 is now absolute value of r5, zero-extended.
1099 
 shari.l r5,31,r2
1100 
 ori r2,1,r2
1101 
 muls.l r5,r2,r20 // r20 is now absolute value of r5, zero-extended.
1102 
 movi 0xffffffffffffbb0c,r19 // shift count eqiv 76
1103 
 shari.l r4,31,r3
1104 
 nsb r20,r0
1105 
 shlld r20,r0,r25
1106 
 shlri r25,48,r25
1107 
 sub r19,r25,r1
1108 
 mmulfx.w r1,r1,r2
1109 
 mshflo.w r1,r63,r1
1110 
 // If r4 was to be used in-place instead of r21, could use this sequence
1111 
 // to compute absolute:
1112 
 // sub r63,r4,r19 // compute absolute value of r4
1113 
 // shlri r4,32,r3 // into lower 32 bit of r4, keeping
1114 
 // mcmv r19,r3,r4 // the sign in the upper 32 bits intact.
1115 
 ori r3,1,r3
1116 
 mmulfx.w r25,r2,r2
1117 
 sub r19,r0,r0
1118 
 muls.l r4,r3,r21
1119 
 msub.w r1,r2,r2
1120 
 addi r2,-2,r1
1121 
 mulu.l r21,r1,r19
1122 
 mmulfx.w r2,r2,r2
1123 
 shlli r1,15,r1
1124 
 shlrd r19,r0,r19
1125 
 mulu.l r19,r20,r3
1126 
 mmacnfx.wl r25,r2,r1
1127 
 ptabs r18,tr0
1128 
 sub r21,r3,r25
1129 
 
1130 
 mulu.l r25,r1,r2
1131 
 addi r0,14,r0
1132 
 xor r4,r5,r18
1133 
 shlrd r2,r0,r2
1134 
 mulu.l r2,r20,r3
1135 
 add r19,r2,r19
1136 
 shari.l r18,31,r18
1137 
 sub r25,r3,r25
1138 
 
1139 
 mulu.l r25,r1,r2
1140 
 sub r25,r20,r25
1141 
 add r19,r18,r19
1142 
 shlrd r2,r0,r2
1143 
 mulu.l r2,r20,r3
1144 
 addi r25,1,r25
1145 
 add r19,r2,r19
1146 
 
1147 
 cmpgt r25,r3,r25
1148 
 add.l r19,r25,r0
1149 
 xor r0,r18,r0
1150 
 blink tr0,r63
1151 
#else /* ! 0 && ! 0 */
1152 
 
1153 
 // inputs: r4,r5
1154 
 // clobbered: r1,r18,r19,r20,r21,r25,tr0
1155 
 // result in r0
1156 
        HIDDEN_FUNC(GLOBAL(sdivsi3_2))
1157 
#ifndef __pic__
1158 
        FUNC(GLOBAL(sdivsi3))
1159 
GLOBAL(sdivsi3): /* this is the shcompact entry point */
1160 
 // The special SHmedia entry point sdivsi3_1 prevents accidental linking
1161 
 // with the SHcompact implementation, which clobbers tr1 / tr2.
1162 
 .global GLOBAL(sdivsi3_1)
1163 
GLOBAL(sdivsi3_1):
1164 
 .global GLOBAL(div_table_internal)
1165 
 movi (GLOBAL(div_table_internal) >> 16) & 65535, r20
1166 
 shori GLOBAL(div_table_internal) & 65535, r20
1167 
#endif
1168 
 .global GLOBAL(sdivsi3_2)
1169 
 // div_table in r20
1170 
 // clobbered: r1,r18,r19,r21,r25,tr0
1171 
GLOBAL(sdivsi3_2):
1172 
 nsb r5, r1
1173 
 shlld r5, r1, r25    // normalize; [-2 ..1, 1..2) in s2.62
1174 
 shari r25, 58, r21   // extract 5(6) bit index (s2.4 with hole -1..1)
1175 
 ldx.ub r20, r21, r19 // u0.8
1176 
 shari r25, 32, r25   // normalize to s2.30
1177 
 shlli r21, 1, r21
1178 
 muls.l r25, r19, r19 // s2.38
1179 
 ldx.w r20, r21, r21  // s2.14
1180 
  ptabs r18, tr0
1181 
 shari r19, 24, r19   // truncate to s2.14
1182 
 sub r21, r19, r19    // some 11 bit inverse in s1.14
1183 
 muls.l r19, r19, r21 // u0.28
1184 
  sub r63, r1, r1
1185 
  addi r1, 92, r1
1186 
 muls.l r25, r21, r18 // s2.58
1187 
 shlli r19, 45, r19   // multiply by two and convert to s2.58
1188 
  /* bubble */
1189 
 sub r19, r18, r18
1190 
 shari r18, 28, r18   // some 22 bit inverse in s1.30
1191 
 muls.l r18, r25, r0  // s2.60
1192 
  muls.l r18, r4, r25 // s32.30
1193 
  /* bubble */
1194 
 shari r0, 16, r19   // s-16.44
1195 
 muls.l r19, r18, r19 // s-16.74
1196 
  shari r25, 63, r0
1197 
  shari r4, 14, r18   // s19.-14
1198 
 shari r19, 30, r19   // s-16.44
1199 
 muls.l r19, r18, r19 // s15.30
1200 
  xor r21, r0, r21    // You could also use the constant 1 << 27.
1201 
  add r21, r25, r21
1202 
 sub r21, r19, r21
1203 
 shard r21, r1, r21
1204 
 sub r21, r0, r0
1205 
 blink tr0, r63
1206 
#ifndef __pic__
1207 
        ENDFUNC(GLOBAL(sdivsi3))
1208 
#endif
1209 
        ENDFUNC(GLOBAL(sdivsi3_2))
1210 
#endif
1211 
#elif defined __SHMEDIA__
1212 
/* m5compact-nofpu */
1213 
 // clobbered: r18,r19,r20,r21,r25,tr0,tr1,tr2
1214 
        .mode   SHmedia
1215 
        .section        .text..SHmedia32,"ax"
1216 
        .align  2
1217 
        FUNC(GLOBAL(sdivsi3))
1218 
GLOBAL(sdivsi3):
1219 
        pt/l LOCAL(sdivsi3_dontsub), tr0
1220 
        pt/l LOCAL(sdivsi3_loop), tr1
1221 
        ptabs/l r18,tr2
1222 
        shari.l r4,31,r18
1223 
        shari.l r5,31,r19
1224 
        xor r4,r18,r20
1225 
        xor r5,r19,r21
1226 
        sub.l r20,r18,r20
1227 
        sub.l r21,r19,r21
1228 
        xor r18,r19,r19
1229 
        shlli r21,32,r25
1230 
        addi r25,-1,r21
1231 
        addz.l r20,r63,r20
1232 
LOCAL(sdivsi3_loop):
1233 
        shlli r20,1,r20
1234 
        bgeu/u r21,r20,tr0
1235 
        sub r20,r21,r20
1236 
LOCAL(sdivsi3_dontsub):
1237 
        addi.l r25,-1,r25
1238 
        bnei r25,-32,tr1
1239 
        xor r20,r19,r20
1240 
        sub.l r20,r19,r0
1241 
        blink tr2,r63
1242 
        ENDFUNC(GLOBAL(sdivsi3))
1243 
#else /* ! __SHMEDIA__ */
1244 
        FUNC(GLOBAL(sdivsi3))
1245 
GLOBAL(sdivsi3):
1246 
        mov     r4,r1
1247 
        mov     r5,r0
1248 
 
1249 
        tst     r0,r0
1250 
        bt      div0
1251 
        mov     #0,r2
1252 
        div0s   r2,r1
1253 
        subc    r3,r3
1254 
        subc    r2,r1
1255 
        div0s   r0,r3
1256 
        rotcl   r1
1257 
        div1    r0,r3
1258 
        rotcl   r1
1259 
        div1    r0,r3
1260 
        rotcl   r1
1261 
        div1    r0,r3
1262 
        rotcl   r1
1263 
        div1    r0,r3
1264 
        rotcl   r1
1265 
        div1    r0,r3
1266 
        rotcl   r1
1267 
        div1    r0,r3
1268 
        rotcl   r1
1269 
        div1    r0,r3
1270 
        rotcl   r1
1271 
        div1    r0,r3
1272 
        rotcl   r1
1273 
        div1    r0,r3
1274 
        rotcl   r1
1275 
        div1    r0,r3
1276 
        rotcl   r1
1277 
        div1    r0,r3
1278 
        rotcl   r1
1279 
        div1    r0,r3
1280 
        rotcl   r1
1281 
        div1    r0,r3
1282 
        rotcl   r1
1283 
        div1    r0,r3
1284 
        rotcl   r1
1285 
        div1    r0,r3
1286 
        rotcl   r1
1287 
        div1    r0,r3
1288 
        rotcl   r1
1289 
        div1    r0,r3
1290 
        rotcl   r1
1291 
        div1    r0,r3
1292 
        rotcl   r1
1293 
        div1    r0,r3
1294 
        rotcl   r1
1295 
        div1    r0,r3
1296 
        rotcl   r1
1297 
        div1    r0,r3
1298 
        rotcl   r1
1299 
        div1    r0,r3
1300 
        rotcl   r1
1301 
        div1    r0,r3
1302 
        rotcl   r1
1303 
        div1    r0,r3
1304 
        rotcl   r1
1305 
        div1    r0,r3
1306 
        rotcl   r1
1307 
        div1    r0,r3
1308 
        rotcl   r1
1309 
        div1    r0,r3
1310 
        rotcl   r1
1311 
        div1    r0,r3
1312 
        rotcl   r1
1313 
        div1    r0,r3
1314 
        rotcl   r1
1315 
        div1    r0,r3
1316 
        rotcl   r1
1317 
        div1    r0,r3
1318 
        rotcl   r1
1319 
        div1    r0,r3
1320 
        rotcl   r1
1321 
        addc    r2,r1
1322 
        rts
1323 
        mov     r1,r0
1324 
 
1325 
 
1326 
div0:   rts
1327 
        mov     #0,r0
1328 
 
1329 
        ENDFUNC(GLOBAL(sdivsi3))
1330 
#endif /* ! __SHMEDIA__ */
1331 
#endif /* ! __SH4__ */
1332 
#endif
1333 
#ifdef L_udivsi3_i4
1334 
 
1335 
        .title "SH DIVIDE"
1336 
!! 4 byte integer Divide code for the Renesas SH
1337 
#ifdef __SH4__
1338 
!! args in r4 and r5, result in fpul, clobber r0, r1, r4, r5, dr0, dr2, dr4,
1339 
!! and t bit
1340 
 
1341 
        .global GLOBAL(udivsi3_i4)
1342 
        HIDDEN_FUNC(GLOBAL(udivsi3_i4))
1343 
GLOBAL(udivsi3_i4):
1344 
        mov #1,r1
1345 
        cmp/hi r1,r5
1346 
        bf trivial
1347 
        rotr r1
1348 
        xor r1,r4
1349 
        lds r4,fpul
1350 
        mova L1,r0
1351 
#ifdef FMOVD_WORKS
1352 
        fmov.d @r0+,dr4
1353 
#else
1354 
        fmov.s @r0+,DR40
1355 
        fmov.s @r0,DR41
1356 
#endif
1357 
        float fpul,dr0
1358 
        xor r1,r5
1359 
        lds r5,fpul
1360 
        float fpul,dr2
1361 
        fadd dr4,dr0
1362 
        fadd dr4,dr2
1363 
        fdiv dr2,dr0
1364 
        rts
1365 
        ftrc dr0,fpul
1366 
 
1367 
trivial:
1368 
        rts
1369 
        lds r4,fpul
1370 
 
1371 
        .align 2
1372 
#ifdef FMOVD_WORKS
1373 
        .align 3        ! make double below 8 byte aligned.
1374 
#endif
1375 
L1:
1376 
        .double 2147483648
1377 
 
1378 
        ENDFUNC(GLOBAL(udivsi3_i4))
1379 
#elif defined (__SH5__) && ! defined (__SH4_NOFPU__)
1380 
#if ! __SH5__ || __SH5__ == 32
1381 
!! args in r4 and r5, result in fpul, clobber r20, r21, dr0, fr33
1382 
        .mode   SHmedia
1383 
        .global GLOBAL(udivsi3_i4)
1384 
        HIDDEN_FUNC(GLOBAL(udivsi3_i4))
1385 
GLOBAL(udivsi3_i4):
1386 
        addz.l  r4,r63,r20
1387 
        addz.l  r5,r63,r21
1388 
        fmov.qd r20,dr0
1389 
        fmov.qd r21,dr32
1390 
        ptabs   r18,tr0
1391 
        float.qd dr0,dr0
1392 
        float.qd dr32,dr32
1393 
        fdiv.d  dr0,dr32,dr0
1394 
        ftrc.dq dr0,dr32
1395 
        fmov.s fr33,fr32
1396 
        blink tr0,r63
1397 
 
1398 
        ENDFUNC(GLOBAL(udivsi3_i4))
1399 
#endif /* ! __SH5__ || __SH5__ == 32 */
1400 
#elif defined(__SH4_SINGLE__) || defined(__SH4_SINGLE_ONLY__)
1401 
!! args in r4 and r5, result in fpul, clobber r0, r1, r4, r5, dr0, dr2, dr4
1402 
 
1403 
        .global GLOBAL(udivsi3_i4)
1404 
        HIDDEN_FUNC(GLOBAL(udivsi3_i4))
1405 
GLOBAL(udivsi3_i4):
1406 
        mov #1,r1
1407 
        cmp/hi r1,r5
1408 
        bf trivial
1409 
        sts.l fpscr,@-r15
1410 
        mova L1,r0
1411 
        lds.l @r0+,fpscr
1412 
        rotr r1
1413 
        xor r1,r4
1414 
        lds r4,fpul
1415 
#ifdef FMOVD_WORKS
1416 
        fmov.d @r0+,dr4
1417 
#else
1418 
        fmov.s @r0+,DR40
1419 
        fmov.s @r0,DR41
1420 
#endif
1421 
        float fpul,dr0
1422 
        xor r1,r5
1423 
        lds r5,fpul
1424 
        float fpul,dr2
1425 
        fadd dr4,dr0
1426 
        fadd dr4,dr2
1427 
        fdiv dr2,dr0
1428 
        ftrc dr0,fpul
1429 
        rts
1430 
        lds.l @r15+,fpscr
1431 
 
1432 
#ifdef FMOVD_WORKS
1433 
        .align 3        ! make double below 8 byte aligned.
1434 
#endif
1435 
trivial:
1436 
        rts
1437 
        lds r4,fpul
1438 
 
1439 
        .align 2
1440 
L1:
1441 
#ifndef FMOVD_WORKS
1442 
        .long 0x80000
1443 
#else
1444 
        .long 0x180000
1445 
#endif
1446 
        .double 2147483648
1447 
 
1448 
        ENDFUNC(GLOBAL(udivsi3_i4))
1449 
#endif /* ! __SH4__ */
1450 
#endif
1451 
 
1452 
#ifdef L_udivsi3
1453 
/* __SH4_SINGLE_ONLY__ keeps this part for link compatibility with
1454 
   sh2e/sh3e code.  */
1455 
#if (! defined(__SH4__) && ! defined (__SH4_SINGLE__)) || defined (__linux__)
1456 
 
1457 
!! args in r4 and r5, result in r0, clobbers r4, pr, and t bit
1458 
        .global GLOBAL(udivsi3)
1459 
        HIDDEN_FUNC(GLOBAL(udivsi3))
1460 
 
1461 
#if __SHMEDIA__
1462 
#if __SH5__ == 32
1463 
        .section        .text..SHmedia32,"ax"
1464 
#else
1465 
        .text
1466 
#endif
1467 
        .align  2
1468 
#if 0
1469 
/* The assembly code that follows is a hand-optimized version of the C
1470 
   code that follows.  Note that the registers that are modified are
1471 
   exactly those listed as clobbered in the patterns udivsi3_i1 and
1472 
   udivsi3_i1_media.
1473 
 
1474 
unsigned
1475 
__udivsi3 (i, j)
1476 
    unsigned i, j;
1477 
{
1478 
  register unsigned long long r0 asm ("r0") = 0;
1479 
  register unsigned long long r18 asm ("r18") = 1;
1480 
  register unsigned long long r4 asm ("r4") = i;
1481 
  register unsigned long long r19 asm ("r19") = j;
1482 
 
1483 
  r19 <<= 31;
1484 
  r18 <<= 31;
1485 
  do
1486 
    if (r4 >= r19)
1487 
      r0 |= r18, r4 -= r19;
1488 
  while (r19 >>= 1, r18 >>= 1);
1489 
 
1490 
  return r0;
1491 
}
1492 
*/
1493 
GLOBAL(udivsi3):
1494 
        pt/l    LOCAL(udivsi3_dontadd), tr2
1495 
        pt/l    LOCAL(udivsi3_loop), tr1
1496 
        ptabs/l r18, tr0
1497 
        movi    0, r0
1498 
        movi    1, r18
1499 
        addz.l  r5, r63, r19
1500 
        addz.l  r4, r63, r4
1501 
        shlli   r19, 31, r19
1502 
        shlli   r18, 31, r18
1503 
LOCAL(udivsi3_loop):
1504 
        bgtu    r19, r4, tr2
1505 
        or      r0, r18, r0
1506 
        sub     r4, r19, r4
1507 
LOCAL(udivsi3_dontadd):
1508 
        shlri   r18, 1, r18
1509 
        shlri   r19, 1, r19
1510 
        bnei    r18, 0, tr1
1511 
        blink   tr0, r63
1512 
#else
1513 
GLOBAL(udivsi3):
1514 
 // inputs: r4,r5
1515 
 // clobbered: r18,r19,r20,r21,r22,r25,tr0
1516 
 // result in r0.
1517 
 addz.l r5,r63,r22
1518 
 nsb r22,r0
1519 
 shlld r22,r0,r25
1520 
 shlri r25,48,r25
1521 
 movi 0xffffffffffffbb0c,r20 // shift count eqiv 76
1522 
 sub r20,r25,r21
1523 
 mmulfx.w r21,r21,r19
1524 
 mshflo.w r21,r63,r21
1525 
 ptabs r18,tr0
1526 
 mmulfx.w r25,r19,r19
1527 
 sub r20,r0,r0
1528 
 /* bubble */
1529 
 msub.w r21,r19,r19
1530 
 addi r19,-2,r21 /* It would be nice for scheduling to do this add to r21
1531 
                    before the msub.w, but we need a different value for
1532 
                    r19 to keep errors under control.  */
1533 
 mulu.l r4,r21,r18
1534 
 mmulfx.w r19,r19,r19
1535 
 shlli r21,15,r21
1536 
 shlrd r18,r0,r18
1537 
 mulu.l r18,r22,r20
1538 
 mmacnfx.wl r25,r19,r21
1539 
 /* bubble */
1540 
 sub r4,r20,r25
1541 
 
1542 
 mulu.l r25,r21,r19
1543 
 addi r0,14,r0
1544 
 /* bubble */
1545 
 shlrd r19,r0,r19
1546 
 mulu.l r19,r22,r20
1547 
 add r18,r19,r18
1548 
 /* bubble */
1549 
 sub.l r25,r20,r25
1550 
 
1551 
 mulu.l r25,r21,r19
1552 
 addz.l r25,r63,r25
1553 
 sub r25,r22,r25
1554 
 shlrd r19,r0,r19
1555 
 mulu.l r19,r22,r20
1556 
 addi r25,1,r25
1557 
 add r18,r19,r18
1558 
 
1559 
 cmpgt r25,r20,r25
1560 
 add.l r18,r25,r0
1561 
 blink tr0,r63
1562 
#endif
1563 
#elif defined (__SHMEDIA__)
1564 
/* m5compact-nofpu - more emphasis on code size than on speed, but don't
1565 
   ignore speed altogether - div1 needs 9 cycles, subc 7 and rotcl 4.
1566 
   So use a short shmedia loop.  */
1567 
 // clobbered: r20,r21,r25,tr0,tr1,tr2
1568 
        .mode   SHmedia
1569 
        .section        .text..SHmedia32,"ax"
1570 
        .align  2
1571 
GLOBAL(udivsi3):
1572 
 pt/l LOCAL(udivsi3_dontsub), tr0
1573 
 pt/l LOCAL(udivsi3_loop), tr1
1574 
 ptabs/l r18,tr2
1575 
 shlli r5,32,r25
1576 
 addi r25,-1,r21
1577 
 addz.l r4,r63,r20
1578 
LOCAL(udivsi3_loop):
1579 
 shlli r20,1,r20
1580 
 bgeu/u r21,r20,tr0
1581 
 sub r20,r21,r20
1582 
LOCAL(udivsi3_dontsub):
1583 
 addi.l r25,-1,r25
1584 
 bnei r25,-32,tr1
1585 
 add.l r20,r63,r0
1586 
 blink tr2,r63
1587 
#else /* ! defined (__SHMEDIA__) */
1588 
LOCAL(div8):
1589 
 div1 r5,r4
1590 
LOCAL(div7):
1591 
 div1 r5,r4; div1 r5,r4; div1 r5,r4
1592 
 div1 r5,r4; div1 r5,r4; div1 r5,r4; rts; div1 r5,r4
1593 
 
1594 
LOCAL(divx4):
1595 
 div1 r5,r4; rotcl r0
1596 
 div1 r5,r4; rotcl r0
1597 
 div1 r5,r4; rotcl r0
1598 
 rts; div1 r5,r4
1599 
 
1600 
GLOBAL(udivsi3):
1601 
 sts.l pr,@-r15
1602 
 extu.w r5,r0
1603 
 cmp/eq r5,r0
1604 
#ifdef __sh1__
1605 
 bf LOCAL(large_divisor)
1606 
#else
1607 
 bf/s LOCAL(large_divisor)
1608 
#endif
1609 
 div0u
1610 
 swap.w r4,r0
1611 
 shlr16 r4
1612 
 bsr LOCAL(div8)
1613 
 shll16 r5
1614 
 bsr LOCAL(div7)
1615 
 div1 r5,r4
1616 
 xtrct r4,r0
1617 
 xtrct r0,r4
1618 
 bsr LOCAL(div8)
1619 
 swap.w r4,r4
1620 
 bsr LOCAL(div7)
1621 
 div1 r5,r4
1622 
 lds.l @r15+,pr
1623 
 xtrct r4,r0
1624 
 swap.w r0,r0
1625 
 rotcl r0
1626 
 rts
1627 
 shlr16 r5
1628 
 
1629 
LOCAL(large_divisor):
1630 
#ifdef __sh1__
1631 
 div0u
1632 
#endif
1633 
 mov #0,r0
1634 
 xtrct r4,r0
1635 
 xtrct r0,r4
1636 
 bsr LOCAL(divx4)
1637 
 rotcl r0
1638 
 bsr LOCAL(divx4)
1639 
 rotcl r0
1640 
 bsr LOCAL(divx4)
1641 
 rotcl r0
1642 
 bsr LOCAL(divx4)
1643 
 rotcl r0
1644 
 lds.l @r15+,pr
1645 
 rts
1646 
 rotcl r0
1647 
 
1648 
        ENDFUNC(GLOBAL(udivsi3))
1649 
#endif /* ! __SHMEDIA__ */
1650 
#endif /* __SH4__ */
1651 
#endif /* L_udivsi3 */
1652 
 
1653 
#ifdef L_udivdi3
1654 
#ifdef __SHMEDIA__
1655 
        .mode   SHmedia
1656 
        .section        .text..SHmedia32,"ax"
1657 
        .align  2
1658 
        .global GLOBAL(udivdi3)
1659 
        FUNC(GLOBAL(udivdi3))
1660 
GLOBAL(udivdi3):
1661 
        HIDDEN_ALIAS(udivdi3_internal,udivdi3)
1662 
        shlri r3,1,r4
1663 
        nsb r4,r22
1664 
        shlld r3,r22,r6
1665 
        shlri r6,49,r5
1666 
        movi 0xffffffffffffbaf1,r21 /* .l shift count 17.  */
1667 
        sub r21,r5,r1
1668 
        mmulfx.w r1,r1,r4
1669 
        mshflo.w r1,r63,r1
1670 
        sub r63,r22,r20 // r63 == 64 % 64
1671 
        mmulfx.w r5,r4,r4
1672 
        pta LOCAL(large_divisor),tr0
1673 
        addi r20,32,r9
1674 
        msub.w r1,r4,r1
1675 
        madd.w r1,r1,r1
1676 
        mmulfx.w r1,r1,r4
1677 
        shlri r6,32,r7
1678 
        bgt/u r9,r63,tr0 // large_divisor
1679 
        mmulfx.w r5,r4,r4
1680 
        shlri r2,32+14,r19
1681 
        addi r22,-31,r0
1682 
        msub.w r1,r4,r1
1683 
 
1684 
        mulu.l r1,r7,r4
1685 
        addi r1,-3,r5
1686 
        mulu.l r5,r19,r5
1687 
        sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
1688 
        shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
1689 
                         the case may be, %0000000000000000 000.11111111111, still */
1690 
        muls.l r1,r4,r4 /* leaving at least one sign bit.  */
1691 
        mulu.l r5,r3,r8
1692 
        mshalds.l r1,r21,r1
1693 
        shari r4,26,r4
1694 
        shlld r8,r0,r8
1695 
        add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
1696 
        sub r2,r8,r2
1697 
        /* Can do second step of 64 : 32 div now, using r1 and the rest in r2.  */
1698 
 
1699 
        shlri r2,22,r21
1700 
        mulu.l r21,r1,r21
1701 
        shlld r5,r0,r8
1702 
        addi r20,30-22,r0
1703 
        shlrd r21,r0,r21
1704 
        mulu.l r21,r3,r5
1705 
        add r8,r21,r8
1706 
        mcmpgt.l r21,r63,r21 // See Note 1
1707 
        addi r20,30,r0
1708 
        mshfhi.l r63,r21,r21
1709 
        sub r2,r5,r2
1710 
        andc r2,r21,r2
1711 
 
1712 
        /* small divisor: need a third divide step */
1713 
        mulu.l r2,r1,r7
1714 
        ptabs r18,tr0
1715 
        addi r2,1,r2
1716 
        shlrd r7,r0,r7
1717 
        mulu.l r7,r3,r5
1718 
        add r8,r7,r8
1719 
        sub r2,r3,r2
1720 
        cmpgt r2,r5,r5
1721 
        add r8,r5,r2
1722 
        /* could test r3 here to check for divide by zero.  */
1723 
        blink tr0,r63
1724 
 
1725 
LOCAL(large_divisor):
1726 
        mmulfx.w r5,r4,r4
1727 
        shlrd r2,r9,r25
1728 
        shlri r25,32,r8
1729 
        msub.w r1,r4,r1
1730 
 
1731 
        mulu.l r1,r7,r4
1732 
        addi r1,-3,r5
1733 
        mulu.l r5,r8,r5
1734 
        sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
1735 
        shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
1736 
                         the case may be, %0000000000000000 000.11111111111, still */
1737 
        muls.l r1,r4,r4 /* leaving at least one sign bit.  */
1738 
        shlri r5,14-1,r8
1739 
        mulu.l r8,r7,r5
1740 
        mshalds.l r1,r21,r1
1741 
        shari r4,26,r4
1742 
        add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
1743 
        sub r25,r5,r25
1744 
        /* Can do second step of 64 : 32 div now, using r1 and the rest in r25.  */
1745 
 
1746 
        shlri r25,22,r21
1747 
        mulu.l r21,r1,r21
1748 
        pta LOCAL(no_lo_adj),tr0
1749 
        addi r22,32,r0
1750 
        shlri r21,40,r21
1751 
        mulu.l r21,r7,r5
1752 
        add r8,r21,r8
1753 
        shlld r2,r0,r2
1754 
        sub r25,r5,r25
1755 
        bgtu/u r7,r25,tr0 // no_lo_adj
1756 
        addi r8,1,r8
1757 
        sub r25,r7,r25
1758 
LOCAL(no_lo_adj):
1759 
        mextr4 r2,r25,r2
1760 
 
1761 
        /* large_divisor: only needs a few adjustments.  */
1762 
        mulu.l r8,r6,r5
1763 
        ptabs r18,tr0
1764 
        /* bubble */
1765 
        cmpgtu r5,r2,r5
1766 
        sub r8,r5,r2
1767 
        blink tr0,r63
1768 
        ENDFUNC(GLOBAL(udivdi3))
1769 
/* Note 1: To shift the result of the second divide stage so that the result
1770 
   always fits into 32 bits, yet we still reduce the rest sufficiently
1771 
   would require a lot of instructions to do the shifts just right.  Using
1772 
   the full 64 bit shift result to multiply with the divisor would require
1773 
   four extra instructions for the upper 32 bits (shift / mulu / shift / sub).
1774 
   Fortunately, if the upper 32 bits of the shift result are nonzero, we
1775 
   know that the rest after taking this partial result into account will
1776 
   fit into 32 bits.  So we just clear the upper 32 bits of the rest if the
1777 
   upper 32 bits of the partial result are nonzero.  */
1778 
#endif /* __SHMEDIA__ */
1779 
#endif /* L_udivdi3 */
1780 
 
1781 
#ifdef L_divdi3
1782 
#ifdef __SHMEDIA__
1783 
        .mode   SHmedia
1784 
        .section        .text..SHmedia32,"ax"
1785 
        .align  2
1786 
        .global GLOBAL(divdi3)
1787 
        FUNC(GLOBAL(divdi3))
1788 
GLOBAL(divdi3):
1789 
        pta GLOBAL(udivdi3_internal),tr0
1790 
        shari r2,63,r22
1791 
        shari r3,63,r23
1792 
        xor r2,r22,r2
1793 
        xor r3,r23,r3
1794 
        sub r2,r22,r2
1795 
        sub r3,r23,r3
1796 
        beq/u r22,r23,tr0
1797 
        ptabs r18,tr1
1798 
        blink tr0,r18
1799 
        sub r63,r2,r2
1800 
        blink tr1,r63
1801 
        ENDFUNC(GLOBAL(divdi3))
1802 
#endif /* __SHMEDIA__ */
1803 
#endif /* L_divdi3 */
1804 
 
1805 
#ifdef L_umoddi3
1806 
#ifdef __SHMEDIA__
1807 
        .mode   SHmedia
1808 
        .section        .text..SHmedia32,"ax"
1809 
        .align  2
1810 
        .global GLOBAL(umoddi3)
1811 
        FUNC(GLOBAL(umoddi3))
1812 
GLOBAL(umoddi3):
1813 
        HIDDEN_ALIAS(umoddi3_internal,umoddi3)
1814 
        shlri r3,1,r4
1815 
        nsb r4,r22
1816 
        shlld r3,r22,r6
1817 
        shlri r6,49,r5
1818 
        movi 0xffffffffffffbaf1,r21 /* .l shift count 17.  */
1819 
        sub r21,r5,r1
1820 
        mmulfx.w r1,r1,r4
1821 
        mshflo.w r1,r63,r1
1822 
        sub r63,r22,r20 // r63 == 64 % 64
1823 
        mmulfx.w r5,r4,r4
1824 
        pta LOCAL(large_divisor),tr0
1825 
        addi r20,32,r9
1826 
        msub.w r1,r4,r1
1827 
        madd.w r1,r1,r1
1828 
        mmulfx.w r1,r1,r4
1829 
        shlri r6,32,r7
1830 
        bgt/u r9,r63,tr0 // large_divisor
1831 
        mmulfx.w r5,r4,r4
1832 
        shlri r2,32+14,r19
1833 
        addi r22,-31,r0
1834 
        msub.w r1,r4,r1
1835 
 
1836 
        mulu.l r1,r7,r4
1837 
        addi r1,-3,r5
1838 
        mulu.l r5,r19,r5
1839 
        sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
1840 
        shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
1841 
                         the case may be, %0000000000000000 000.11111111111, still */
1842 
        muls.l r1,r4,r4 /* leaving at least one sign bit.  */
1843 
        mulu.l r5,r3,r5
1844 
        mshalds.l r1,r21,r1
1845 
        shari r4,26,r4
1846 
        shlld r5,r0,r5
1847 
        add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
1848 
        sub r2,r5,r2
1849 
        /* Can do second step of 64 : 32 div now, using r1 and the rest in r2.  */
1850 
 
1851 
        shlri r2,22,r21
1852 
        mulu.l r21,r1,r21
1853 
        addi r20,30-22,r0
1854 
        /* bubble */ /* could test r3 here to check for divide by zero.  */
1855 
        shlrd r21,r0,r21
1856 
        mulu.l r21,r3,r5
1857 
        mcmpgt.l r21,r63,r21 // See Note 1
1858 
        addi r20,30,r0
1859 
        mshfhi.l r63,r21,r21
1860 
        sub r2,r5,r2
1861 
        andc r2,r21,r2
1862 
 
1863 
        /* small divisor: need a third divide step */
1864 
        mulu.l r2,r1,r7
1865 
        ptabs r18,tr0
1866 
        sub r2,r3,r8 /* re-use r8 here for rest - r3 */
1867 
        shlrd r7,r0,r7
1868 
        mulu.l r7,r3,r5
1869 
        /* bubble */
1870 
        addi r8,1,r7
1871 
        cmpgt r7,r5,r7
1872 
        cmvne r7,r8,r2
1873 
        sub r2,r5,r2
1874 
        blink tr0,r63
1875 
 
1876 
LOCAL(large_divisor):
1877 
        mmulfx.w r5,r4,r4
1878 
        shlrd r2,r9,r25
1879 
        shlri r25,32,r8
1880 
        msub.w r1,r4,r1
1881 
 
1882 
        mulu.l r1,r7,r4
1883 
        addi r1,-3,r5
1884 
        mulu.l r5,r8,r5
1885 
        sub r63,r4,r4 // Negate to make sure r1 ends up <= 1/r2
1886 
        shlri r4,2,r4 /* chop off leading %0000000000000000 001.00000000000 - or, as
1887 
                         the case may be, %0000000000000000 000.11111111111, still */
1888 
        muls.l r1,r4,r4 /* leaving at least one sign bit.  */
1889 
        shlri r5,14-1,r8
1890 
        mulu.l r8,r7,r5
1891 
        mshalds.l r1,r21,r1
1892 
        shari r4,26,r4
1893 
        add r1,r4,r1 // 31 bit unsigned reciprocal now in r1 (msb equiv. 0.5)
1894 
        sub r25,r5,r25
1895 
        /* Can do second step of 64 : 32 div now, using r1 and the rest in r25.  */
1896 
 
1897 
        shlri r25,22,r21
1898 
        mulu.l r21,r1,r21
1899 
        pta LOCAL(no_lo_adj),tr0
1900 
        addi r22,32,r0
1901 
        shlri r21,40,r21
1902 
        mulu.l r21,r7,r5
1903 
        add r8,r21,r8
1904 
        shlld r2,r0,r2
1905 
        sub r25,r5,r25
1906 
        bgtu/u r7,r25,tr0 // no_lo_adj
1907 
        addi r8,1,r8
1908 
        sub r25,r7,r25
1909 
LOCAL(no_lo_adj):
1910 
        mextr4 r2,r25,r2
1911 
 
1912 
        /* large_divisor: only needs a few adjustments.  */
1913 
        mulu.l r8,r6,r5
1914 
        ptabs r18,tr0
1915 
        add r2,r6,r7
1916 
        cmpgtu r5,r2,r8
1917 
        cmvne r8,r7,r2
1918 
        sub r2,r5,r2
1919 
        shlrd r2,r22,r2
1920 
        blink tr0,r63
1921 
        ENDFUNC(GLOBAL(umoddi3))
1922 
/* Note 1: To shift the result of the second divide stage so that the result
1923 
   always fits into 32 bits, yet we still reduce the rest sufficiently
1924 
   would require a lot of instructions to do the shifts just right.  Using
1925 
   the full 64 bit shift result to multiply with the divisor would require
1926 
   four extra instructions for the upper 32 bits (shift / mulu / shift / sub).
1927 
   Fortunately, if the upper 32 bits of the shift result are nonzero, we
1928 
   know that the rest after taking this partial result into account will
1929 
   fit into 32 bits.  So we just clear the upper 32 bits of the rest if the
1930 
   upper 32 bits of the partial result are nonzero.  */
1931 
#endif /* __SHMEDIA__ */
1932 
#endif /* L_umoddi3 */
1933 
 
1934 
#ifdef L_moddi3
1935 
#ifdef __SHMEDIA__
1936 
        .mode   SHmedia
1937 
        .section        .text..SHmedia32,"ax"
1938 
        .align  2
1939 
        .global GLOBAL(moddi3)
1940 
        FUNC(GLOBAL(moddi3))
1941 
GLOBAL(moddi3):
1942 
        pta GLOBAL(umoddi3_internal),tr0
1943 
        shari r2,63,r22
1944 
        shari r3,63,r23
1945 
        xor r2,r22,r2
1946 
        xor r3,r23,r3
1947 
        sub r2,r22,r2
1948 
        sub r3,r23,r3
1949 
        beq/u r22,r63,tr0
1950 
        ptabs r18,tr1
1951 
        blink tr0,r18
1952 
        sub r63,r2,r2
1953 
        blink tr1,r63
1954 
        ENDFUNC(GLOBAL(moddi3))
1955 
#endif /* __SHMEDIA__ */
1956 
#endif /* L_moddi3 */
1957 
 
1958 
#ifdef L_set_fpscr
1959 
#if !defined (__SH2A_NOFPU__)
1960 
#if defined (__SH2E__) || defined (__SH2A__) || defined (__SH3E__) || defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || __SH5__ == 32
1961 
#ifdef __SH5__
1962 
        .mode   SHcompact
1963 
#endif
1964 
        .global GLOBAL(set_fpscr)
1965 
        HIDDEN_FUNC(GLOBAL(set_fpscr))
1966 
GLOBAL(set_fpscr):
1967 
        lds r4,fpscr
1968 
#ifdef __PIC__
1969 
        mov.l   r12,@-r15
1970 
        mova    LOCAL(set_fpscr_L0),r0
1971 
        mov.l   LOCAL(set_fpscr_L0),r12
1972 
        add     r0,r12
1973 
        mov.l   LOCAL(set_fpscr_L1),r0
1974 
        mov.l   @(r0,r12),r1
1975 
        mov.l   @r15+,r12
1976 
#else
1977 
        mov.l LOCAL(set_fpscr_L1),r1
1978 
#endif
1979 
        swap.w r4,r0
1980 
        or #24,r0
1981 
#ifndef FMOVD_WORKS
1982 
        xor #16,r0
1983 
#endif
1984 
#if defined(__SH4__) || defined (__SH2A_DOUBLE__)
1985 
        swap.w r0,r3
1986 
        mov.l r3,@(4,r1)
1987 
#else /* defined (__SH2E__) || defined(__SH3E__) || defined(__SH4_SINGLE*__) */
1988 
        swap.w r0,r2
1989 
        mov.l r2,@r1
1990 
#endif
1991 
#ifndef FMOVD_WORKS
1992 
        xor #8,r0
1993 
#else
1994 
        xor #24,r0
1995 
#endif
1996 
#if defined(__SH4__) || defined (__SH2A_DOUBLE__)
1997 
        swap.w r0,r2
1998 
        rts
1999 
        mov.l r2,@r1
2000 
#else /* defined(__SH2E__) || defined(__SH3E__) || defined(__SH4_SINGLE*__) */
2001 
        swap.w r0,r3
2002 
        rts
2003 
        mov.l r3,@(4,r1)
2004 
#endif
2005 
        .align 2
2006 
#ifdef __PIC__
2007 
LOCAL(set_fpscr_L0):
2008 
        .long _GLOBAL_OFFSET_TABLE_
2009 
LOCAL(set_fpscr_L1):
2010 
        .long GLOBAL(fpscr_values@GOT)
2011 
#else
2012 
LOCAL(set_fpscr_L1):
2013 
        .long GLOBAL(fpscr_values)
2014 
#endif
2015 
 
2016 
        ENDFUNC(GLOBAL(set_fpscr))
2017 
#ifndef NO_FPSCR_VALUES
2018 
#ifdef __ELF__
2019 
        .comm   GLOBAL(fpscr_values),8,4
2020 
#else
2021 
        .comm   GLOBAL(fpscr_values),8
2022 
#endif /* ELF */
2023 
#endif /* NO_FPSCR_VALUES */
2024 
#endif /* SH2E / SH3E / SH4 */
2025 
#endif /* __SH2A_NOFPU__ */
2026 
#endif /* L_set_fpscr */
2027 
#ifdef L_ic_invalidate
2028 
#if __SH5__ == 32
2029 
        .mode   SHmedia
2030 
        .section        .text..SHmedia32,"ax"
2031 
        .align  2
2032 
        .global GLOBAL(init_trampoline)
2033 
        HIDDEN_FUNC(GLOBAL(init_trampoline))
2034 
GLOBAL(init_trampoline):
2035 
        st.l    r0,8,r2
2036 
#ifdef __LITTLE_ENDIAN__
2037 
        movi    9,r20
2038 
        shori   0x402b,r20
2039 
        shori   0xd101,r20
2040 
        shori   0xd002,r20
2041 
#else
2042 
        movi    0xffffffffffffd002,r20
2043 
        shori   0xd101,r20
2044 
        shori   0x402b,r20
2045 
        shori   9,r20
2046 
#endif
2047 
        st.q    r0,0,r20
2048 
        st.l    r0,12,r3
2049 
        ENDFUNC(GLOBAL(init_trampoline))
2050 
        .global GLOBAL(ic_invalidate)
2051 
        HIDDEN_FUNC(GLOBAL(ic_invalidate))
2052 
GLOBAL(ic_invalidate):
2053 
        ocbwb   r0,0
2054 
        synco
2055 
        icbi    r0, 0
2056 
        ptabs   r18, tr0
2057 
        synci
2058 
        blink   tr0, r63
2059 
        ENDFUNC(GLOBAL(ic_invalidate))
2060 
#elif defined(__SH4A__)
2061 
        .global GLOBAL(ic_invalidate)
2062 
        HIDDEN_FUNC(GLOBAL(ic_invalidate))
2063 
GLOBAL(ic_invalidate):
2064 
        ocbwb   @r4
2065 
        synco
2066 
        rts
2067 
        icbi    @r4
2068 
        ENDFUNC(GLOBAL(ic_invalidate))
2069 
#elif defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || (defined(__SH4_NOFPU__) && !defined(__SH5__))
2070 
        /* For system code, we use ic_invalidate_line_i, but user code
2071 
           needs a different mechanism.  A kernel call is generally not
2072 
           available, and it would also be slow.  Different SH4 variants use
2073 
           different sizes and associativities of the Icache.  We use a small
2074 
           bit of dispatch code that can be put hidden in every shared object,
2075 
           which calls the actual processor-specific invalidation code in a
2076 
           separate module.
2077 
           Or if you have operating system support, the OS could mmap the
2078 
           procesor-specific code from a single page, since it is highly
2079 
           repetitive.  */
2080 
        .global GLOBAL(ic_invalidate)
2081 
        HIDDEN_FUNC(GLOBAL(ic_invalidate))
2082 
GLOBAL(ic_invalidate):
2083 
        mov.l   0f,r1
2084 
#ifdef __pic__
2085 
        mova    0f,r0
2086 
        mov.l   1f,r2
2087 
        add     r1,r0
2088 
        mov.l   @(r0,r2),r1
2089 
#endif
2090 
        ocbwb   @r4
2091 
        mov.l   @(8,r1),r0
2092 
        sub     r1,r4
2093 
        and     r4,r0
2094 
        add     r1,r0
2095 
        jmp     @r0
2096 
        mov.l   @(4,r1),r0
2097 
#ifndef __pic__
2098 
0:      .long   GLOBAL(ic_invalidate_array)
2099 
#else /* __pic__ */
2100 
        .global GLOBAL(ic_invalidate_array)
2101 
        /* ??? Why won't the assembler allow to add these two constants?  */
2102 
0:      .long   _GLOBAL_OFFSET_TABLE_
2103 
1:      .long   GLOBAL(ic_invalidate_array)@GOT
2104 
        ENDFUNC(GLOBAL(ic_invalidate))
2105 
#endif /* __pic__ */
2106 
#endif /* SH4 */
2107 
#endif /* L_ic_invalidate */
2108 
 
2109 
#ifdef L_ic_invalidate_array
2110 
#if defined(__SH4A__) || (defined (__FORCE_SH4A__) && (defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || (defined(__SH4_NOFPU__) && !defined(__SH5__))))
2111 
        .global GLOBAL(ic_invalidate_array)
2112 
        /* This is needed when an SH4 dso with trampolines is used on SH4A.  */
2113 
        .global GLOBAL(ic_invalidate_array)
2114 
        FUNC(GLOBAL(ic_invalidate_array))
2115 
GLOBAL(ic_invalidate_array):
2116 
        add     r1,r4
2117 
        synco
2118 
        rts
2119 
        icbi    @r4
2120 
        .long   0
2121 
        ENDFUNC(GLOBAL(ic_invalidate_array))
2122 
#elif defined(__SH4_SINGLE__) || defined(__SH4__) || defined(__SH4_SINGLE_ONLY__) || (defined(__SH4_NOFPU__) && !defined(__SH5__))
2123 
        .global GLOBAL(ic_invalidate_array)
2124 
        .p2align 5
2125 
        FUNC(GLOBAL(ic_invalidate_array))
2126 
/* This must be aligned to the beginning of a cache line.  */
2127 
GLOBAL(ic_invalidate_array):
2128 
#ifndef WAYS
2129 
#define WAYS 4
2130 
#define WAY_SIZE 0x4000
2131 
#endif
2132 
#if WAYS == 1
2133 
        .rept   WAY_SIZE * WAYS / 32
2134 
        rts
2135 
        nop
2136 
        .rept   7
2137 
        .long   WAY_SIZE - 32
2138 
        .endr
2139 
        .endr
2140 
#elif WAYS <= 6
2141 
        .rept   WAY_SIZE * WAYS / 32
2142 
        braf    r0
2143 
        add     #-8,r0
2144 
        .long   WAY_SIZE + 8
2145 
        .long   WAY_SIZE - 32
2146 
        .rept   WAYS-2
2147 
        braf    r0
2148 
        nop
2149 
        .endr
2150 
        .rept   7 - WAYS
2151 
        rts
2152 
        nop
2153 
        .endr
2154 
        .endr
2155 
#else /* WAYS > 6 */
2156 
        /* This variant needs two different pages for mmap-ing.  */
2157 
        .rept   WAYS-1
2158 
        .rept   WAY_SIZE / 32
2159 
        braf    r0
2160 
        nop
2161 
        .long   WAY_SIZE
2162 
        .rept 6
2163 
        .long   WAY_SIZE - 32
2164 
        .endr
2165 
        .endr
2166 
        .endr
2167 
        .rept   WAY_SIZE / 32
2168 
        rts
2169 
        .rept   15
2170 
        nop
2171 
        .endr
2172 
        .endr
2173 
#endif /* WAYS */
2174 
        ENDFUNC(GLOBAL(ic_invalidate_array))
2175 
#endif /* SH4 */
2176 
#endif /* L_ic_invalidate_array */
2177 
 
2178 
#if defined (__SH5__) && __SH5__ == 32
2179 
#ifdef L_shcompact_call_trampoline
2180 
        .section        .rodata
2181 
        .align  1
2182 
LOCAL(ct_main_table):
2183 
.word   LOCAL(ct_r2_fp) - datalabel LOCAL(ct_main_label)
2184 
.word   LOCAL(ct_r2_ld) - datalabel LOCAL(ct_main_label)
2185 
.word   LOCAL(ct_r2_pop) - datalabel LOCAL(ct_main_label)
2186 
.word   LOCAL(ct_r3_fp) - datalabel LOCAL(ct_main_label)
2187 
.word   LOCAL(ct_r3_ld) - datalabel LOCAL(ct_main_label)
2188 
.word   LOCAL(ct_r3_pop) - datalabel LOCAL(ct_main_label)
2189 
.word   LOCAL(ct_r4_fp) - datalabel LOCAL(ct_main_label)
2190 
.word   LOCAL(ct_r4_ld) - datalabel LOCAL(ct_main_label)
2191 
.word   LOCAL(ct_r4_pop) - datalabel LOCAL(ct_main_label)
2192 
.word   LOCAL(ct_r5_fp) - datalabel LOCAL(ct_main_label)
2193 
.word   LOCAL(ct_r5_ld) - datalabel LOCAL(ct_main_label)
2194 
.word   LOCAL(ct_r5_pop) - datalabel LOCAL(ct_main_label)
2195 
.word   LOCAL(ct_r6_fph) - datalabel LOCAL(ct_main_label)
2196 
.word   LOCAL(ct_r6_fpl) - datalabel LOCAL(ct_main_label)
2197 
.word   LOCAL(ct_r6_ld) - datalabel LOCAL(ct_main_label)
2198 
.word   LOCAL(ct_r6_pop) - datalabel LOCAL(ct_main_label)
2199 
.word   LOCAL(ct_r7_fph) - datalabel LOCAL(ct_main_label)
2200 
.word   LOCAL(ct_r7_fpl) - datalabel LOCAL(ct_main_label)
2201 
.word   LOCAL(ct_r7_ld) - datalabel LOCAL(ct_main_label)
2202 
.word   LOCAL(ct_r7_pop) - datalabel LOCAL(ct_main_label)
2203 
.word   LOCAL(ct_r8_fph) - datalabel LOCAL(ct_main_label)
2204 
.word   LOCAL(ct_r8_fpl) - datalabel LOCAL(ct_main_label)
2205 
.word   LOCAL(ct_r8_ld) - datalabel LOCAL(ct_main_label)
2206 
.word   LOCAL(ct_r8_pop) - datalabel LOCAL(ct_main_label)
2207 
.word   LOCAL(ct_r9_fph) - datalabel LOCAL(ct_main_label)
2208 
.word   LOCAL(ct_r9_fpl) - datalabel LOCAL(ct_main_label)
2209 
.word   LOCAL(ct_r9_ld) - datalabel LOCAL(ct_main_label)
2210 
.word   LOCAL(ct_r9_pop) - datalabel LOCAL(ct_main_label)
2211 
.word   LOCAL(ct_pop_seq) - datalabel LOCAL(ct_main_label)
2212 
.word   LOCAL(ct_pop_seq) - datalabel LOCAL(ct_main_label)
2213 
.word   LOCAL(ct_r9_pop) - datalabel LOCAL(ct_main_label)
2214 
.word   LOCAL(ct_ret_wide) - datalabel LOCAL(ct_main_label)
2215 
.word   LOCAL(ct_call_func) - datalabel LOCAL(ct_main_label)
2216 
        .mode   SHmedia
2217 
        .section        .text..SHmedia32, "ax"
2218 
        .align  2
2219 
 
2220 
     /* This function loads 64-bit general-purpose registers from the
2221 
        stack, from a memory address contained in them or from an FP
2222 
        register, according to a cookie passed in r1.  Its execution
2223 
        time is linear on the number of registers that actually have
2224 
        to be copied.  See sh.h for details on the actual bit pattern.
2225 
 
2226 
        The function to be called is passed in r0.  If a 32-bit return
2227 
        value is expected, the actual function will be tail-called,
2228 
        otherwise the return address will be stored in r10 (that the
2229 
        caller should expect to be clobbered) and the return value
2230 
        will be expanded into r2/r3 upon return.  */
2231 
 
2232 
        .global GLOBAL(GCC_shcompact_call_trampoline)
2233 
        FUNC(GLOBAL(GCC_shcompact_call_trampoline))
2234 
GLOBAL(GCC_shcompact_call_trampoline):
2235 
        ptabs/l r0, tr0 /* Prepare to call the actual function.  */
2236 
        movi    ((datalabel LOCAL(ct_main_table) - 31 * 2) >> 16) & 65535, r0
2237 
        pt/l    LOCAL(ct_loop), tr1
2238 
        addz.l  r1, r63, r1
2239 
        shori   ((datalabel LOCAL(ct_main_table) - 31 * 2)) & 65535, r0
2240 
LOCAL(ct_loop):
2241 
        nsb     r1, r28
2242 
        shlli   r28, 1, r29
2243 
        ldx.w   r0, r29, r30
2244 
LOCAL(ct_main_label):
2245 
        ptrel/l r30, tr2
2246 
        blink   tr2, r63
2247 
LOCAL(ct_r2_fp):        /* Copy r2 from an FP register.  */
2248 
        /* It must be dr0, so just do it.  */
2249 
        fmov.dq dr0, r2
2250 
        movi    7, r30
2251 
        shlli   r30, 29, r31
2252 
        andc    r1, r31, r1
2253 
        blink   tr1, r63
2254 
LOCAL(ct_r3_fp):        /* Copy r3 from an FP register.  */
2255 
        /* It is either dr0 or dr2.  */
2256 
        movi    7, r30
2257 
        shlri   r1, 26, r32
2258 
        shlli   r30, 26, r31
2259 
        andc    r1, r31, r1
2260 
        fmov.dq dr0, r3
2261 
        beqi/l  r32, 4, tr1
2262 
        fmov.dq dr2, r3
2263 
        blink   tr1, r63
2264 
LOCAL(ct_r4_fp):        /* Copy r4 from an FP register.  */
2265 
        shlri   r1, 23 - 3, r34
2266 
        andi    r34, 3 << 3, r33
2267 
        addi    r33, LOCAL(ct_r4_fp_copy) - datalabel LOCAL(ct_r4_fp_base), r32
2268 
LOCAL(ct_r4_fp_base):
2269 
        ptrel/l r32, tr2
2270 
        movi    7, r30
2271 
        shlli   r30, 23, r31
2272 
        andc    r1, r31, r1
2273 
        blink   tr2, r63
2274 
LOCAL(ct_r4_fp_copy):
2275 
        fmov.dq dr0, r4
2276 
        blink   tr1, r63
2277 
        fmov.dq dr2, r4
2278 
        blink   tr1, r63
2279 
        fmov.dq dr4, r4
2280 
        blink   tr1, r63
2281 
LOCAL(ct_r5_fp):        /* Copy r5 from an FP register.  */
2282 
        shlri   r1, 20 - 3, r34
2283 
        andi    r34, 3 << 3, r33
2284 
        addi    r33, LOCAL(ct_r5_fp_copy) - datalabel LOCAL(ct_r5_fp_base), r32
2285 
LOCAL(ct_r5_fp_base):
2286 
        ptrel/l r32, tr2
2287 
        movi    7, r30
2288 
        shlli   r30, 20, r31
2289 
        andc    r1, r31, r1
2290 
        blink   tr2, r63
2291 
LOCAL(ct_r5_fp_copy):
2292 
        fmov.dq dr0, r5
2293 
        blink   tr1, r63
2294 
        fmov.dq dr2, r5
2295 
        blink   tr1, r63
2296 
        fmov.dq dr4, r5
2297 
        blink   tr1, r63
2298 
        fmov.dq dr6, r5
2299 
        blink   tr1, r63
2300 
LOCAL(ct_r6_fph):       /* Copy r6 from a high FP register.  */
2301 
        /* It must be dr8.  */
2302 
        fmov.dq dr8, r6
2303 
        movi    15, r30
2304 
        shlli   r30, 16, r31
2305 
        andc    r1, r31, r1
2306 
        blink   tr1, r63
2307 
LOCAL(ct_r6_fpl):       /* Copy r6 from a low FP register.  */
2308 
        shlri   r1, 16 - 3, r34
2309 
        andi    r34, 3 << 3, r33
2310 
        addi    r33, LOCAL(ct_r6_fp_copy) - datalabel LOCAL(ct_r6_fp_base), r32
2311 
LOCAL(ct_r6_fp_base):
2312 
        ptrel/l r32, tr2
2313 
        movi    7, r30
2314 
        shlli   r30, 16, r31
2315 
        andc    r1, r31, r1
2316 
        blink   tr2, r63
2317 
LOCAL(ct_r6_fp_copy):
2318 
        fmov.dq dr0, r6
2319 
        blink   tr1, r63
2320 
        fmov.dq dr2, r6
2321 
        blink   tr1, r63
2322 
        fmov.dq dr4, r6
2323 
        blink   tr1, r63
2324 
        fmov.dq dr6, r6
2325 
        blink   tr1, r63
2326 
LOCAL(ct_r7_fph):       /* Copy r7 from a high FP register.  */
2327 
        /* It is either dr8 or dr10.  */
2328 
        movi    15 << 12, r31
2329 
        shlri   r1, 12, r32
2330 
        andc    r1, r31, r1
2331 
        fmov.dq dr8, r7
2332 
        beqi/l  r32, 8, tr1
2333 
        fmov.dq dr10, r7
2334 
        blink   tr1, r63
2335 
LOCAL(ct_r7_fpl):       /* Copy r7 from a low FP register.  */
2336 
        shlri   r1, 12 - 3, r34
2337 
        andi    r34, 3 << 3, r33
2338 
        addi    r33, LOCAL(ct_r7_fp_copy) - datalabel LOCAL(ct_r7_fp_base), r32
2339 
LOCAL(ct_r7_fp_base):
2340 
        ptrel/l r32, tr2
2341 
        movi    7 << 12, r31
2342 
        andc    r1, r31, r1
2343 
        blink   tr2, r63
2344 
LOCAL(ct_r7_fp_copy):
2345 
        fmov.dq dr0, r7
2346 
        blink   tr1, r63
2347 
        fmov.dq dr2, r7
2348 
        blink   tr1, r63
2349 
        fmov.dq dr4, r7
2350 
        blink   tr1, r63
2351 
        fmov.dq dr6, r7
2352 
        blink   tr1, r63
2353 
LOCAL(ct_r8_fph):       /* Copy r8 from a high FP register.  */
2354 
        /* It is either dr8 or dr10.  */
2355 
        movi    15 << 8, r31
2356 
        andi    r1, 1 << 8, r32
2357 
        andc    r1, r31, r1
2358 
        fmov.dq dr8, r8
2359 
        beq/l   r32, r63, tr1
2360 
        fmov.dq dr10, r8
2361 
        blink   tr1, r63
2362 
LOCAL(ct_r8_fpl):       /* Copy r8 from a low FP register.  */
2363 
        shlri   r1, 8 - 3, r34
2364 
        andi    r34, 3 << 3, r33
2365 
        addi    r33, LOCAL(ct_r8_fp_copy) - datalabel LOCAL(ct_r8_fp_base), r32
2366 
LOCAL(ct_r8_fp_base):
2367 
        ptrel/l r32, tr2
2368 
        movi    7 << 8, r31
2369 
        andc    r1, r31, r1
2370 
        blink   tr2, r63
2371 
LOCAL(ct_r8_fp_copy):
2372 
        fmov.dq dr0, r8
2373 
        blink   tr1, r63
2374 
        fmov.dq dr2, r8
2375 
        blink   tr1, r63
2376 
        fmov.dq dr4, r8
2377 
        blink   tr1, r63
2378 
        fmov.dq dr6, r8
2379 
        blink   tr1, r63
2380 
LOCAL(ct_r9_fph):       /* Copy r9 from a high FP register.  */
2381 
        /* It is either dr8 or dr10.  */
2382 
        movi    15 << 4, r31
2383 
        andi    r1, 1 << 4, r32
2384 
        andc    r1, r31, r1
2385 
        fmov.dq dr8, r9
2386 
        beq/l   r32, r63, tr1
2387 
        fmov.dq dr10, r9
2388 
        blink   tr1, r63
2389 
LOCAL(ct_r9_fpl):       /* Copy r9 from a low FP register.  */
2390 
        shlri   r1, 4 - 3, r34
2391 
        andi    r34, 3 << 3, r33
2392 
        addi    r33, LOCAL(ct_r9_fp_copy) - datalabel LOCAL(ct_r9_fp_base), r32
2393 
LOCAL(ct_r9_fp_base):
2394 
        ptrel/l r32, tr2
2395 
        movi    7 << 4, r31
2396 
        andc    r1, r31, r1
2397 
        blink   tr2, r63
2398 
LOCAL(ct_r9_fp_copy):
2399 
        fmov.dq dr0, r9
2400 
        blink   tr1, r63
2401 
        fmov.dq dr2, r9
2402 
        blink   tr1, r63
2403 
        fmov.dq dr4, r9
2404 
        blink   tr1, r63
2405 
        fmov.dq dr6, r9
2406 
        blink   tr1, r63
2407 
LOCAL(ct_r2_ld):        /* Copy r2 from a memory address.  */
2408 
        pt/l    LOCAL(ct_r2_load), tr2
2409 
        movi    3, r30
2410 
        shlli   r30, 29, r31
2411 
        and     r1, r31, r32
2412 
        andc    r1, r31, r1
2413 
        beq/l   r31, r32, tr2
2414 
        addi.l  r2, 8, r3
2415 
        ldx.q   r2, r63, r2
2416 
        /* Fall through.  */
2417 
LOCAL(ct_r3_ld):        /* Copy r3 from a memory address.  */
2418 
        pt/l    LOCAL(ct_r3_load), tr2
2419 
        movi    3, r30
2420 
        shlli   r30, 26, r31
2421 
        and     r1, r31, r32
2422 
        andc    r1, r31, r1
2423 
        beq/l   r31, r32, tr2
2424 
        addi.l  r3, 8, r4
2425 
        ldx.q   r3, r63, r3
2426 
LOCAL(ct_r4_ld):        /* Copy r4 from a memory address.  */
2427 
        pt/l    LOCAL(ct_r4_load), tr2
2428 
        movi    3, r30
2429 
        shlli   r30, 23, r31
2430 
        and     r1, r31, r32
2431 
        andc    r1, r31, r1
2432 
        beq/l   r31, r32, tr2
2433 
        addi.l  r4, 8, r5
2434 
        ldx.q   r4, r63, r4
2435 
LOCAL(ct_r5_ld):        /* Copy r5 from a memory address.  */
2436 
        pt/l    LOCAL(ct_r5_load), tr2
2437 
        movi    3, r30
2438 
        shlli   r30, 20, r31
2439 
        and     r1, r31, r32
2440 
        andc    r1, r31, r1
2441 
        beq/l   r31, r32, tr2
2442 
        addi.l  r5, 8, r6
2443 
        ldx.q   r5, r63, r5
2444 
LOCAL(ct_r6_ld):        /* Copy r6 from a memory address.  */
2445 
        pt/l    LOCAL(ct_r6_load), tr2
2446 
        movi    3 << 16, r31
2447 
        and     r1, r31, r32
2448 
        andc    r1, r31, r1
2449 
        beq/l   r31, r32, tr2
2450 
        addi.l  r6, 8, r7
2451 
        ldx.q   r6, r63, r6
2452 
LOCAL(ct_r7_ld):        /* Copy r7 from a memory address.  */
2453 
        pt/l    LOCAL(ct_r7_load), tr2
2454 
        movi    3 << 12, r31
2455 
        and     r1, r31, r32
2456 
        andc    r1, r31, r1
2457 
        beq/l   r31, r32, tr2
2458 
        addi.l  r7, 8, r8
2459 
        ldx.q   r7, r63, r7
2460 
LOCAL(ct_r8_ld):        /* Copy r8 from a memory address.  */
2461 
        pt/l    LOCAL(ct_r8_load), tr2
2462 
        movi    3 << 8, r31
2463 
        and     r1, r31, r32
2464 
        andc    r1, r31, r1
2465 
        beq/l   r31, r32, tr2
2466 
        addi.l  r8, 8, r9
2467 
        ldx.q   r8, r63, r8
2468 
LOCAL(ct_r9_ld):        /* Copy r9 from a memory address.  */
2469 
        pt/l    LOCAL(ct_check_tramp), tr2
2470 
        ldx.q   r9, r63, r9
2471 
        blink   tr2, r63
2472 
LOCAL(ct_r2_load):
2473 
        ldx.q   r2, r63, r2
2474 
        blink   tr1, r63
2475 
LOCAL(ct_r3_load):
2476 
        ldx.q   r3, r63, r3
2477 
        blink   tr1, r63
2478 
LOCAL(ct_r4_load):
2479 
        ldx.q   r4, r63, r4
2480 
        blink   tr1, r63
2481 
LOCAL(ct_r5_load):
2482 
        ldx.q   r5, r63, r5
2483 
        blink   tr1, r63
2484 
LOCAL(ct_r6_load):
2485 
        ldx.q   r6, r63, r6
2486 
        blink   tr1, r63
2487 
LOCAL(ct_r7_load):
2488 
        ldx.q   r7, r63, r7
2489 
        blink   tr1, r63
2490 
LOCAL(ct_r8_load):
2491 
        ldx.q   r8, r63, r8
2492 
        blink   tr1, r63
2493 
LOCAL(ct_r2_pop):       /* Pop r2 from the stack.  */
2494 
        movi    1, r30
2495 
        ldx.q   r15, r63, r2
2496 
        shlli   r30, 29, r31
2497 
        addi.l  r15, 8, r15
2498 
        andc    r1, r31, r1
2499 
        blink   tr1, r63
2500 
LOCAL(ct_r3_pop):       /* Pop r3 from the stack.  */
2501 
        movi    1, r30
2502 
        ldx.q   r15, r63, r3
2503 
        shlli   r30, 26, r31
2504 
        addi.l  r15, 8, r15
2505 
        andc    r1, r31, r1
2506 
        blink   tr1, r63
2507 
LOCAL(ct_r4_pop):       /* Pop r4 from the stack.  */
2508 
        movi    1, r30
2509 
        ldx.q   r15, r63, r4
2510 
        shlli   r30, 23, r31
2511 
        addi.l  r15, 8, r15
2512 
        andc    r1, r31, r1
2513 
        blink   tr1, r63
2514 
LOCAL(ct_r5_pop):       /* Pop r5 from the stack.  */
2515 
        movi    1, r30
2516 
        ldx.q   r15, r63, r5
2517 
        shlli   r30, 20, r31
2518 
        addi.l  r15, 8, r15
2519 
        andc    r1, r31, r1
2520 
        blink   tr1, r63
2521 
LOCAL(ct_r6_pop):       /* Pop r6 from the stack.  */
2522 
        movi    1, r30
2523 
        ldx.q   r15, r63, r6
2524 
        shlli   r30, 16, r31
2525 
        addi.l  r15, 8, r15
2526 
        andc    r1, r31, r1
2527 
        blink   tr1, r63
2528 
LOCAL(ct_r7_pop):       /* Pop r7 from the stack.  */
2529 
        ldx.q   r15, r63, r7
2530 
        movi    1 << 12, r31
2531 
        addi.l  r15, 8, r15
2532 
        andc    r1, r31, r1
2533 
        blink   tr1, r63
2534 
LOCAL(ct_r8_pop):       /* Pop r8 from the stack.  */
2535 
        ldx.q   r15, r63, r8
2536 
        movi    1 << 8, r31
2537 
        addi.l  r15, 8, r15
2538 
        andc    r1, r31, r1
2539 
        blink   tr1, r63
2540 
LOCAL(ct_pop_seq):      /* Pop a sequence of registers off the stack.  */
2541 
        andi    r1, 7 << 1, r30
2542 
        movi    (LOCAL(ct_end_of_pop_seq) >> 16) & 65535, r32
2543 
        shlli   r30, 2, r31
2544 
        shori   LOCAL(ct_end_of_pop_seq) & 65535, r32
2545 
        sub.l   r32, r31, r33
2546 
        ptabs/l r33, tr2
2547 
        blink   tr2, r63
2548 
LOCAL(ct_start_of_pop_seq):     /* Beginning of pop sequence.  */
2549 
        ldx.q   r15, r63, r3
2550 
        addi.l  r15, 8, r15
2551 
        ldx.q   r15, r63, r4
2552 
        addi.l  r15, 8, r15
2553 
        ldx.q   r15, r63, r5
2554 
        addi.l  r15, 8, r15
2555 
        ldx.q   r15, r63, r6
2556 
        addi.l  r15, 8, r15
2557 
        ldx.q   r15, r63, r7
2558 
        addi.l  r15, 8, r15
2559 
        ldx.q   r15, r63, r8
2560 
        addi.l  r15, 8, r15
2561 
LOCAL(ct_r9_pop):       /* Pop r9 from the stack.  */
2562 
        ldx.q   r15, r63, r9
2563 
        addi.l  r15, 8, r15
2564 
LOCAL(ct_end_of_pop_seq): /* Label used to compute first pop instruction.  */
2565 
LOCAL(ct_check_tramp):  /* Check whether we need a trampoline.  */
2566 
        pt/u    LOCAL(ct_ret_wide), tr2
2567 
        andi    r1, 1, r1
2568 
        bne/u   r1, r63, tr2
2569 
LOCAL(ct_call_func):    /* Just branch to the function.  */
2570 
        blink   tr0, r63
2571 
LOCAL(ct_ret_wide):     /* Call the function, so that we can unpack its
2572 
                           64-bit return value.  */
2573 
        add.l   r18, r63, r10
2574 
        blink   tr0, r18
2575 
        ptabs   r10, tr0
2576 
#if __LITTLE_ENDIAN__
2577 
        shari   r2, 32, r3
2578 
        add.l   r2, r63, r2
2579 
#else
2580 
        add.l   r2, r63, r3
2581 
        shari   r2, 32, r2
2582 
#endif
2583 
        blink   tr0, r63
2584 
 
2585 
        ENDFUNC(GLOBAL(GCC_shcompact_call_trampoline))
2586 
#endif /* L_shcompact_call_trampoline */
2587 
 
2588 
#ifdef L_shcompact_return_trampoline
2589 
     /* This function does the converse of the code in `ret_wide'
2590 
        above.  It is tail-called by SHcompact functions returning
2591 
        64-bit non-floating-point values, to pack the 32-bit values in
2592 
        r2 and r3 into r2.  */
2593 
 
2594 
        .mode   SHmedia
2595 
        .section        .text..SHmedia32, "ax"
2596 
        .align  2
2597 
        .global GLOBAL(GCC_shcompact_return_trampoline)
2598 
        HIDDEN_FUNC(GLOBAL(GCC_shcompact_return_trampoline))
2599 
GLOBAL(GCC_shcompact_return_trampoline):
2600 
        ptabs/l r18, tr0
2601 
#if __LITTLE_ENDIAN__
2602 
        addz.l  r2, r63, r2
2603 
        shlli   r3, 32, r3
2604 
#else
2605 
        addz.l  r3, r63, r3
2606 
        shlli   r2, 32, r2
2607 
#endif
2608 
        or      r3, r2, r2
2609 
        blink   tr0, r63
2610 
 
2611 
        ENDFUNC(GLOBAL(GCC_shcompact_return_trampoline))
2612 
#endif /* L_shcompact_return_trampoline */
2613 
 
2614 
#ifdef L_shcompact_incoming_args
2615 
        .section        .rodata
2616 
        .align  1
2617 
LOCAL(ia_main_table):
2618 
.word   1 /* Invalid, just loop */
2619 
.word   LOCAL(ia_r2_ld) - datalabel LOCAL(ia_main_label)
2620 
.word   LOCAL(ia_r2_push) - datalabel LOCAL(ia_main_label)
2621 
.word   1 /* Invalid, just loop */
2622 
.word   LOCAL(ia_r3_ld) - datalabel LOCAL(ia_main_label)
2623 
.word   LOCAL(ia_r3_push) - datalabel LOCAL(ia_main_label)
2624 
.word   1 /* Invalid, just loop */
2625 
.word   LOCAL(ia_r4_ld) - datalabel LOCAL(ia_main_label)
2626 
.word   LOCAL(ia_r4_push) - datalabel LOCAL(ia_main_label)
2627 
.word   1 /* Invalid, just loop */
2628 
.word   LOCAL(ia_r5_ld) - datalabel LOCAL(ia_main_label)
2629 
.word   LOCAL(ia_r5_push) - datalabel LOCAL(ia_main_label)
2630 
.word   1 /* Invalid, just loop */
2631 
.word   1 /* Invalid, just loop */
2632 
.word   LOCAL(ia_r6_ld) - datalabel LOCAL(ia_main_label)
2633 
.word   LOCAL(ia_r6_push) - datalabel LOCAL(ia_main_label)
2634 
.word   1 /* Invalid, just loop */
2635 
.word   1 /* Invalid, just loop */
2636 
.word   LOCAL(ia_r7_ld) - datalabel LOCAL(ia_main_label)
2637 
.word   LOCAL(ia_r7_push) - datalabel LOCAL(ia_main_label)
2638 
.word   1 /* Invalid, just loop */
2639 
.word   1 /* Invalid, just loop */
2640 
.word   LOCAL(ia_r8_ld) - datalabel LOCAL(ia_main_label)
2641 
.word   LOCAL(ia_r8_push) - datalabel LOCAL(ia_main_label)
2642 
.word   1 /* Invalid, just loop */
2643 
.word   1 /* Invalid, just loop */
2644 
.word   LOCAL(ia_r9_ld) - datalabel LOCAL(ia_main_label)
2645 
.word   LOCAL(ia_r9_push) - datalabel LOCAL(ia_main_label)
2646 
.word   LOCAL(ia_push_seq) - datalabel LOCAL(ia_main_label)
2647 
.word   LOCAL(ia_push_seq) - datalabel LOCAL(ia_main_label)
2648 
.word   LOCAL(ia_r9_push) - datalabel LOCAL(ia_main_label)
2649 
.word   LOCAL(ia_return) - datalabel LOCAL(ia_main_label)
2650 
.word   LOCAL(ia_return) - datalabel LOCAL(ia_main_label)
2651 
        .mode   SHmedia
2652 
        .section        .text..SHmedia32, "ax"
2653 
        .align  2
2654 
 
2655 
     /* This function stores 64-bit general-purpose registers back in
2656 
        the stack, and loads the address in which each register
2657 
        was stored into itself.  The lower 32 bits of r17 hold the address
2658 
        to begin storing, and the upper 32 bits of r17 hold the cookie.
2659 
        Its execution time is linear on the
2660 
        number of registers that actually have to be copied, and it is
2661 
        optimized for structures larger than 64 bits, as opposed to
2662 
        individual `long long' arguments.  See sh.h for details on the
2663 
        actual bit pattern.  */
2664 
 
2665 
        .global GLOBAL(GCC_shcompact_incoming_args)
2666 
        FUNC(GLOBAL(GCC_shcompact_incoming_args))
2667 
GLOBAL(GCC_shcompact_incoming_args):
2668 
        ptabs/l r18, tr0        /* Prepare to return.  */
2669 
        shlri   r17, 32, r0     /* Load the cookie.  */
2670 
        movi    ((datalabel LOCAL(ia_main_table) - 31 * 2) >> 16) & 65535, r43
2671 
        pt/l    LOCAL(ia_loop), tr1
2672 
        add.l   r17, r63, r17
2673 
        shori   ((datalabel LOCAL(ia_main_table) - 31 * 2)) & 65535, r43
2674 
LOCAL(ia_loop):
2675 
        nsb     r0, r36
2676 
        shlli   r36, 1, r37
2677 
        ldx.w   r43, r37, r38
2678 
LOCAL(ia_main_label):
2679 
        ptrel/l r38, tr2
2680 
        blink   tr2, r63
2681 
LOCAL(ia_r2_ld):        /* Store r2 and load its address.  */
2682 
        movi    3, r38
2683 
        shlli   r38, 29, r39
2684 
        and     r0, r39, r40
2685 
        andc    r0, r39, r0
2686 
        stx.q   r17, r63, r2
2687 
        add.l   r17, r63, r2
2688 
        addi.l  r17, 8, r17
2689 
        beq/u   r39, r40, tr1
2690 
LOCAL(ia_r3_ld):        /* Store r3 and load its address.  */
2691 
        movi    3, r38
2692 
        shlli   r38, 26, r39
2693 
        and     r0, r39, r40
2694 
        andc    r0, r39, r0
2695 
        stx.q   r17, r63, r3
2696 
        add.l   r17, r63, r3
2697 
        addi.l  r17, 8, r17
2698 
        beq/u   r39, r40, tr1
2699 
LOCAL(ia_r4_ld):        /* Store r4 and load its address.  */
2700 
        movi    3, r38
2701 
        shlli   r38, 23, r39
2702 
        and     r0, r39, r40
2703 
        andc    r0, r39, r0
2704 
        stx.q   r17, r63, r4
2705 
        add.l   r17, r63, r4
2706 
        addi.l  r17, 8, r17
2707 
        beq/u   r39, r40, tr1
2708 
LOCAL(ia_r5_ld):        /* Store r5 and load its address.  */
2709 
        movi    3, r38
2710 
        shlli   r38, 20, r39
2711 
        and     r0, r39, r40
2712 
        andc    r0, r39, r0
2713 
        stx.q   r17, r63, r5
2714 
        add.l   r17, r63, r5
2715 
        addi.l  r17, 8, r17
2716 
        beq/u   r39, r40, tr1
2717 
LOCAL(ia_r6_ld):        /* Store r6 and load its address.  */
2718 
        movi    3, r38
2719 
        shlli   r38, 16, r39
2720 
        and     r0, r39, r40
2721 
        andc    r0, r39, r0
2722 
        stx.q   r17, r63, r6
2723 
        add.l   r17, r63, r6
2724 
        addi.l  r17, 8, r17
2725 
        beq/u   r39, r40, tr1
2726 
LOCAL(ia_r7_ld):        /* Store r7 and load its address.  */
2727 
        movi    3 << 12, r39
2728 
        and     r0, r39, r40
2729 
        andc    r0, r39, r0
2730 
        stx.q   r17, r63, r7
2731 
        add.l   r17, r63, r7
2732 
        addi.l  r17, 8, r17
2733 
        beq/u   r39, r40, tr1
2734 
LOCAL(ia_r8_ld):        /* Store r8 and load its address.  */
2735 
        movi    3 << 8, r39
2736 
        and     r0, r39, r40
2737 
        andc    r0, r39, r0
2738 
        stx.q   r17, r63, r8
2739 
        add.l   r17, r63, r8
2740 
        addi.l  r17, 8, r17
2741 
        beq/u   r39, r40, tr1
2742 
LOCAL(ia_r9_ld):        /* Store r9 and load its address.  */
2743 
        stx.q   r17, r63, r9
2744 
        add.l   r17, r63, r9
2745 
        blink   tr0, r63
2746 
LOCAL(ia_r2_push):      /* Push r2 onto the stack.  */
2747 
        movi    1, r38
2748 
        shlli   r38, 29, r39
2749 
        andc    r0, r39, r0
2750 
        stx.q   r17, r63, r2
2751 
        addi.l  r17, 8, r17
2752 
        blink   tr1, r63
2753 
LOCAL(ia_r3_push):      /* Push r3 onto the stack.  */
2754 
        movi    1, r38
2755 
        shlli   r38, 26, r39
2756 
        andc    r0, r39, r0
2757 
        stx.q   r17, r63, r3
2758 
        addi.l  r17, 8, r17
2759 
        blink   tr1, r63
2760 
LOCAL(ia_r4_push):      /* Push r4 onto the stack.  */
2761 
        movi    1, r38
2762 
        shlli   r38, 23, r39
2763 
        andc    r0, r39, r0
2764 
        stx.q   r17, r63, r4
2765 
        addi.l  r17, 8, r17
2766 
        blink   tr1, r63
2767 
LOCAL(ia_r5_push):      /* Push r5 onto the stack.  */
2768 
        movi    1, r38
2769 
        shlli   r38, 20, r39
2770 
        andc    r0, r39, r0
2771 
        stx.q   r17, r63, r5
2772 
        addi.l  r17, 8, r17
2773 
        blink   tr1, r63
2774 
LOCAL(ia_r6_push):      /* Push r6 onto the stack.  */
2775 
        movi    1, r38
2776 
        shlli   r38, 16, r39
2777 
        andc    r0, r39, r0
2778 
        stx.q   r17, r63, r6
2779 
        addi.l  r17, 8, r17
2780 
        blink   tr1, r63
2781 
LOCAL(ia_r7_push):      /* Push r7 onto the stack.  */
2782 
        movi    1 << 12, r39
2783 
        andc    r0, r39, r0
2784 
        stx.q   r17, r63, r7
2785 
        addi.l  r17, 8, r17
2786 
        blink   tr1, r63
2787 
LOCAL(ia_r8_push):      /* Push r8 onto the stack.  */
2788 
        movi    1 << 8, r39
2789 
        andc    r0, r39, r0
2790 
        stx.q   r17, r63, r8
2791 
        addi.l  r17, 8, r17
2792 
        blink   tr1, r63
2793 
LOCAL(ia_push_seq):     /* Push a sequence of registers onto the stack.  */
2794 
        andi    r0, 7 << 1, r38
2795 
        movi    (LOCAL(ia_end_of_push_seq) >> 16) & 65535, r40
2796 
        shlli   r38, 2, r39
2797 
        shori   LOCAL(ia_end_of_push_seq) & 65535, r40
2798 
        sub.l   r40, r39, r41
2799 
        ptabs/l r41, tr2
2800 
        blink   tr2, r63
2801 
LOCAL(ia_stack_of_push_seq):     /* Beginning of push sequence.  */
2802 
        stx.q   r17, r63, r3
2803 
        addi.l  r17, 8, r17
2804 
        stx.q   r17, r63, r4
2805 
        addi.l  r17, 8, r17
2806 
        stx.q   r17, r63, r5
2807 
        addi.l  r17, 8, r17
2808 
        stx.q   r17, r63, r6
2809 
        addi.l  r17, 8, r17
2810 
        stx.q   r17, r63, r7
2811 
        addi.l  r17, 8, r17
2812 
        stx.q   r17, r63, r8
2813 
        addi.l  r17, 8, r17
2814 
LOCAL(ia_r9_push):      /* Push r9 onto the stack.  */
2815 
        stx.q   r17, r63, r9
2816 
LOCAL(ia_return):       /* Return.  */
2817 
        blink   tr0, r63
2818 
LOCAL(ia_end_of_push_seq): /* Label used to compute the first push instruction.  */
2819 
        ENDFUNC(GLOBAL(GCC_shcompact_incoming_args))
2820 
#endif /* L_shcompact_incoming_args */
2821 
#endif
2822 
#if __SH5__
2823 
#ifdef L_nested_trampoline
2824 
#if __SH5__ == 32
2825 
        .section        .text..SHmedia32,"ax"
2826 
#else
2827 
        .text
2828 
#endif
2829 
        .align  3 /* It is copied in units of 8 bytes in SHmedia mode.  */
2830 
        .global GLOBAL(GCC_nested_trampoline)
2831 
        HIDDEN_FUNC(GLOBAL(GCC_nested_trampoline))
2832 
GLOBAL(GCC_nested_trampoline):
2833 
        .mode   SHmedia
2834 
        ptrel/u r63, tr0
2835 
        gettr   tr0, r0
2836 
#if __SH5__ == 64
2837 
        ld.q    r0, 24, r1
2838 
#else
2839 
        ld.l    r0, 24, r1
2840 
#endif
2841 
        ptabs/l r1, tr1
2842 
#if __SH5__ == 64
2843 
        ld.q    r0, 32, r1
2844 
#else
2845 
        ld.l    r0, 28, r1
2846 
#endif
2847 
        blink   tr1, r63
2848 
 
2849 
        ENDFUNC(GLOBAL(GCC_nested_trampoline))
2850 
#endif /* L_nested_trampoline */
2851 
#endif /* __SH5__ */
2852 
#if __SH5__ == 32
2853 
#ifdef L_push_pop_shmedia_regs
2854 
        .section        .text..SHmedia32,"ax"
2855 
        .mode   SHmedia
2856 
        .align  2
2857 
#ifndef __SH4_NOFPU__
2858 
        .global GLOBAL(GCC_push_shmedia_regs)
2859 
        FUNC(GLOBAL(GCC_push_shmedia_regs))
2860 
GLOBAL(GCC_push_shmedia_regs):
2861 
        addi.l  r15, -14*8, r15
2862 
        fst.d   r15, 13*8, dr62
2863 
        fst.d   r15, 12*8, dr60
2864 
        fst.d   r15, 11*8, dr58
2865 
        fst.d   r15, 10*8, dr56
2866 
        fst.d   r15,  9*8, dr54
2867 
        fst.d   r15,  8*8, dr52
2868 
        fst.d   r15,  7*8, dr50
2869 
        fst.d   r15,  6*8, dr48
2870 
        fst.d   r15,  5*8, dr46
2871 
        fst.d   r15,  4*8, dr44
2872 
        fst.d   r15,  3*8, dr42
2873 
        fst.d   r15,  2*8, dr40
2874 
        fst.d   r15,  1*8, dr38
2875 
        fst.d   r15,  0*8, dr36
2876 
#else /* ! __SH4_NOFPU__ */
2877 
        .global GLOBAL(GCC_push_shmedia_regs_nofpu)
2878 
        FUNC(GLOBAL(GCC_push_shmedia_regs_nofpu))
2879 
GLOBAL(GCC_push_shmedia_regs_nofpu):
2880 
#endif /* ! __SH4_NOFPU__ */
2881 
        ptabs/l r18, tr0
2882 
        addi.l  r15, -27*8, r15
2883 
        gettr   tr7, r62
2884 
        gettr   tr6, r61
2885 
        gettr   tr5, r60
2886 
        st.q    r15, 26*8, r62
2887 
        st.q    r15, 25*8, r61
2888 
        st.q    r15, 24*8, r60
2889 
        st.q    r15, 23*8, r59
2890 
        st.q    r15, 22*8, r58
2891 
        st.q    r15, 21*8, r57
2892 
        st.q    r15, 20*8, r56
2893 
        st.q    r15, 19*8, r55
2894 
        st.q    r15, 18*8, r54
2895 
        st.q    r15, 17*8, r53
2896 
        st.q    r15, 16*8, r52
2897 
        st.q    r15, 15*8, r51
2898 
        st.q    r15, 14*8, r50
2899 
        st.q    r15, 13*8, r49
2900 
        st.q    r15, 12*8, r48
2901 
        st.q    r15, 11*8, r47
2902 
        st.q    r15, 10*8, r46
2903 
        st.q    r15,  9*8, r45
2904 
        st.q    r15,  8*8, r44
2905 
        st.q    r15,  7*8, r35
2906 
        st.q    r15,  6*8, r34
2907 
        st.q    r15,  5*8, r33
2908 
        st.q    r15,  4*8, r32
2909 
        st.q    r15,  3*8, r31
2910 
        st.q    r15,  2*8, r30
2911 
        st.q    r15,  1*8, r29
2912 
        st.q    r15,  0*8, r28
2913 
        blink   tr0, r63
2914 
#ifndef __SH4_NOFPU__
2915 
        ENDFUNC(GLOBAL(GCC_push_shmedia_regs))
2916 
#else
2917 
        ENDFUNC(GLOBAL(GCC_push_shmedia_regs_nofpu))
2918 
#endif
2919 
#ifndef __SH4_NOFPU__
2920 
        .global GLOBAL(GCC_pop_shmedia_regs)
2921 
        FUNC(GLOBAL(GCC_pop_shmedia_regs))
2922 
GLOBAL(GCC_pop_shmedia_regs):
2923 
        pt      .L0, tr1
2924 
        movi    41*8, r0
2925 
        fld.d   r15, 40*8, dr62
2926 
        fld.d   r15, 39*8, dr60
2927 
        fld.d   r15, 38*8, dr58
2928 
        fld.d   r15, 37*8, dr56
2929 
        fld.d   r15, 36*8, dr54
2930 
        fld.d   r15, 35*8, dr52
2931 
        fld.d   r15, 34*8, dr50
2932 
        fld.d   r15, 33*8, dr48
2933 
        fld.d   r15, 32*8, dr46
2934 
        fld.d   r15, 31*8, dr44
2935 
        fld.d   r15, 30*8, dr42
2936 
        fld.d   r15, 29*8, dr40
2937 
        fld.d   r15, 28*8, dr38
2938 
        fld.d   r15, 27*8, dr36
2939 
        blink   tr1, r63
2940 
#else /* ! __SH4_NOFPU__        */
2941 
        .global GLOBAL(GCC_pop_shmedia_regs_nofpu)
2942 
        FUNC(GLOBAL(GCC_pop_shmedia_regs_nofpu))
2943 
GLOBAL(GCC_pop_shmedia_regs_nofpu):
2944 
#endif /* ! __SH4_NOFPU__       */
2945 
        movi    27*8, r0
2946 
.L0:
2947 
        ptabs   r18, tr0
2948 
        ld.q    r15, 26*8, r62
2949 
        ld.q    r15, 25*8, r61
2950 
        ld.q    r15, 24*8, r60
2951 
        ptabs   r62, tr7
2952 
        ptabs   r61, tr6
2953 
        ptabs   r60, tr5
2954 
        ld.q    r15, 23*8, r59
2955 
        ld.q    r15, 22*8, r58
2956 
        ld.q    r15, 21*8, r57
2957 
        ld.q    r15, 20*8, r56
2958 
        ld.q    r15, 19*8, r55
2959 
        ld.q    r15, 18*8, r54
2960 
        ld.q    r15, 17*8, r53
2961 
        ld.q    r15, 16*8, r52
2962 
        ld.q    r15, 15*8, r51
2963 
        ld.q    r15, 14*8, r50
2964 
        ld.q    r15, 13*8, r49
2965 
        ld.q    r15, 12*8, r48
2966 
        ld.q    r15, 11*8, r47
2967 
        ld.q    r15, 10*8, r46
2968 
        ld.q    r15,  9*8, r45
2969 
        ld.q    r15,  8*8, r44
2970 
        ld.q    r15,  7*8, r35
2971 
        ld.q    r15,  6*8, r34
2972 
        ld.q    r15,  5*8, r33
2973 
        ld.q    r15,  4*8, r32
2974 
        ld.q    r15,  3*8, r31
2975 
        ld.q    r15,  2*8, r30
2976 
        ld.q    r15,  1*8, r29
2977 
        ld.q    r15,  0*8, r28
2978 
        add.l   r15, r0, r15
2979 
        blink   tr0, r63
2980 
 
2981 
#ifndef __SH4_NOFPU__
2982 
        ENDFUNC(GLOBAL(GCC_pop_shmedia_regs))
2983 
#else
2984 
        ENDFUNC(GLOBAL(GCC_pop_shmedia_regs_nofpu))
2985 
#endif
2986 
#endif /* __SH5__ == 32 */
2987 
#endif /* L_push_pop_shmedia_regs */
2988 
 
2989 
#ifdef L_div_table
2990 
#if __SH5__
2991 
#if defined(__pic__) && defined(__SHMEDIA__)
2992 
        .global GLOBAL(sdivsi3)
2993 
        FUNC(GLOBAL(sdivsi3))
2994 
#if __SH5__ == 32
2995 
        .section        .text..SHmedia32,"ax"
2996 
#else
2997 
        .text
2998 
#endif
2999 
#if 0
3000 
/* ??? FIXME: Presumably due to a linker bug, exporting data symbols
3001 
   in a text section does not work (at least for shared libraries):
3002 
   the linker sets the LSB of the address as if this was SHmedia code.  */
3003 
#define TEXT_DATA_BUG
3004 
#endif
3005 
        .align  2
3006 
 // inputs: r4,r5
3007 
 // clobbered: r1,r18,r19,r20,r21,r25,tr0
3008 
 // result in r0
3009 
 .global GLOBAL(sdivsi3)
3010 
GLOBAL(sdivsi3):
3011 
#ifdef TEXT_DATA_BUG
3012 
 ptb datalabel Local_div_table,tr0
3013 
#else
3014 
 ptb GLOBAL(div_table_internal),tr0
3015 
#endif
3016 
 nsb r5, r1
3017 
 shlld r5, r1, r25    // normalize; [-2 ..1, 1..2) in s2.62
3018 
 shari r25, 58, r21   // extract 5(6) bit index (s2.4 with hole -1..1)
3019 
 /* bubble */
3020 
 gettr tr0,r20
3021 
 ldx.ub r20, r21, r19 // u0.8
3022 
 shari r25, 32, r25   // normalize to s2.30
3023 
 shlli r21, 1, r21
3024 
 muls.l r25, r19, r19 // s2.38
3025 
 ldx.w r20, r21, r21  // s2.14
3026 
  ptabs r18, tr0
3027 
 shari r19, 24, r19   // truncate to s2.14
3028 
 sub r21, r19, r19    // some 11 bit inverse in s1.14
3029 
 muls.l r19, r19, r21 // u0.28
3030 
  sub r63, r1, r1
3031 
  addi r1, 92, r1
3032 
 muls.l r25, r21, r18 // s2.58
3033 
 shlli r19, 45, r19   // multiply by two and convert to s2.58
3034 
  /* bubble */
3035 
 sub r19, r18, r18
3036 
 shari r18, 28, r18   // some 22 bit inverse in s1.30
3037 
 muls.l r18, r25, r0  // s2.60
3038 
  muls.l r18, r4, r25 // s32.30
3039 
  /* bubble */
3040 
 shari r0, 16, r19   // s-16.44
3041 
 muls.l r19, r18, r19 // s-16.74
3042 
  shari r25, 63, r0
3043 
  shari r4, 14, r18   // s19.-14
3044 
 shari r19, 30, r19   // s-16.44
3045 
 muls.l r19, r18, r19 // s15.30
3046 
  xor r21, r0, r21    // You could also use the constant 1 << 27.
3047 
  add r21, r25, r21
3048 
 sub r21, r19, r21
3049 
 shard r21, r1, r21
3050 
 sub r21, r0, r0
3051 
 blink tr0, r63
3052 
        ENDFUNC(GLOBAL(sdivsi3))
3053 
/* This table has been generated by divtab.c .
3054 
Defects for bias -330:
3055 
   Max defect: 6.081536e-07 at -1.000000e+00
3056 
   Min defect: 2.849516e-08 at 1.030651e+00
3057 
   Max 2nd step defect: 9.606539e-12 at -1.000000e+00
3058 
   Min 2nd step defect: 0.000000e+00 at 0.000000e+00
3059 
   Defect at 1: 1.238659e-07
3060 
   Defect at -2: 1.061708e-07 */
3061 
#else /* ! __pic__ || ! __SHMEDIA__ */
3062 
        .section        .rodata
3063 
#endif /* __pic__ */
3064 
#if defined(TEXT_DATA_BUG) && defined(__pic__) && defined(__SHMEDIA__)
3065 
        .balign 2
3066 
        .type   Local_div_table,@object
3067 
        .size   Local_div_table,128
3068 
/* negative division constants */
3069 
        .word   -16638
3070 
        .word   -17135
3071 
        .word   -17737
3072 
        .word   -18433
3073 
        .word   -19103
3074 
        .word   -19751
3075 
        .word   -20583
3076 
        .word   -21383
3077 
        .word   -22343
3078 
        .word   -23353
3079 
        .word   -24407
3080 
        .word   -25582
3081 
        .word   -26863
3082 
        .word   -28382
3083 
        .word   -29965
3084 
        .word   -31800
3085 
/* negative division factors */
3086 
        .byte   66
3087 
        .byte   70
3088 
        .byte   75
3089 
        .byte   81
3090 
        .byte   87
3091 
        .byte   93
3092 
        .byte   101
3093 
        .byte   109
3094 
        .byte   119
3095 
        .byte   130
3096 
        .byte   142
3097 
        .byte   156
3098 
        .byte   172
3099 
        .byte   192
3100 
        .byte   214
3101 
        .byte   241
3102 
        .skip 16
3103 
Local_div_table:
3104 
        .skip 16
3105 
/* positive division factors */
3106 
        .byte   241
3107 
        .byte   214
3108 
        .byte   192
3109 
        .byte   172
3110 
        .byte   156
3111 
        .byte   142
3112 
        .byte   130
3113 
        .byte   119
3114 
        .byte   109
3115 
        .byte   101
3116 
        .byte   93
3117 
        .byte   87
3118 
        .byte   81
3119 
        .byte   75
3120 
        .byte   70
3121 
        .byte   66
3122 
/* positive division constants */
3123 
        .word   31801
3124 
        .word   29966
3125 
        .word   28383
3126 
        .word   26864
3127 
        .word   25583
3128 
        .word   24408
3129 
        .word   23354
3130 
        .word   22344
3131 
        .word   21384
3132 
        .word   20584
3133 
        .word   19752
3134 
        .word   19104
3135 
        .word   18434
3136 
        .word   17738
3137 
        .word   17136
3138 
        .word   16639
3139 
        .section        .rodata
3140 
#endif /* TEXT_DATA_BUG */
3141 
        .balign 2
3142 
        .type   GLOBAL(div_table),@object
3143 
        .size   GLOBAL(div_table),128
3144 
/* negative division constants */
3145 
        .word   -16638
3146 
        .word   -17135
3147 
        .word   -17737
3148 
        .word   -18433
3149 
        .word   -19103
3150 
        .word   -19751
3151 
        .word   -20583
3152 
        .word   -21383
3153 
        .word   -22343
3154 
        .word   -23353
3155 
        .word   -24407
3156 
        .word   -25582
3157 
        .word   -26863
3158 
        .word   -28382
3159 
        .word   -29965
3160 
        .word   -31800
3161 
/* negative division factors */
3162 
        .byte   66
3163 
        .byte   70
3164 
        .byte   75
3165 
        .byte   81
3166 
        .byte   87
3167 
        .byte   93
3168 
        .byte   101
3169 
        .byte   109
3170 
        .byte   119
3171 
        .byte   130
3172 
        .byte   142
3173 
        .byte   156
3174 
        .byte   172
3175 
        .byte   192
3176 
        .byte   214
3177 
        .byte   241
3178 
        .skip 16
3179 
        .global GLOBAL(div_table)
3180 
GLOBAL(div_table):
3181 
        HIDDEN_ALIAS(div_table_internal,div_table)
3182 
        .skip 16
3183 
/* positive division factors */
3184 
        .byte   241
3185 
        .byte   214
3186 
        .byte   192
3187 
        .byte   172
3188 
        .byte   156
3189 
        .byte   142
3190 
        .byte   130
3191 
        .byte   119
3192 
        .byte   109
3193 
        .byte   101
3194 
        .byte   93
3195 
        .byte   87
3196 
        .byte   81
3197 
        .byte   75
3198 
        .byte   70
3199 
        .byte   66
3200 
/* positive division constants */
3201 
        .word   31801
3202 
        .word   29966
3203 
        .word   28383
3204 
        .word   26864
3205 
        .word   25583
3206 
        .word   24408
3207 
        .word   23354
3208 
        .word   22344
3209 
        .word   21384
3210 
        .word   20584
3211 
        .word   19752
3212 
        .word   19104
3213 
        .word   18434
3214 
        .word   17738
3215 
        .word   17136
3216 
        .word   16639
3217 
 
3218 
#elif defined (__SH3__) || defined (__SH3E__) || defined (__SH4__) || defined (__SH4_SINGLE__) || defined (__SH4_SINGLE_ONLY__) || defined (__SH4_NOFPU__)
3219 
/* This code used shld, thus is not suitable for SH1 / SH2.  */
3220 
 
3221 
/* Signed / unsigned division without use of FPU, optimized for SH4.
3222 
   Uses a lookup table for divisors in the range -128 .. +128, and
3223 
   div1 with case distinction for larger divisors in three more ranges.
3224 
   The code is lumped together with the table to allow the use of mova.  */
3225 
#ifdef __LITTLE_ENDIAN__
3226 
#define L_LSB 0
3227 
#define L_LSWMSB 1
3228 
#define L_MSWLSB 2
3229 
#else
3230 
#define L_LSB 3
3231 
#define L_LSWMSB 2
3232 
#define L_MSWLSB 1
3233 
#endif
3234 
 
3235 
        .balign 4
3236 
        .global GLOBAL(udivsi3_i4i)
3237 
        FUNC(GLOBAL(udivsi3_i4i))
3238 
GLOBAL(udivsi3_i4i):
3239 
        mov.w LOCAL(c128_w), r1
3240 
        div0u
3241 
        mov r4,r0
3242 
        shlr8 r0
3243 
        cmp/hi r1,r5
3244 
        extu.w r5,r1
3245 
        bf LOCAL(udiv_le128)
3246 
        cmp/eq r5,r1
3247 
        bf LOCAL(udiv_ge64k)
3248 
        shlr r0
3249 
        mov r5,r1
3250 
        shll16 r5
3251 
        mov.l r4,@-r15
3252 
        div1 r5,r0
3253 
        mov.l r1,@-r15
3254 
        div1 r5,r0
3255 
        div1 r5,r0
3256 
        bra LOCAL(udiv_25)
3257 
        div1 r5,r0
3258 
 
3259 
LOCAL(div_le128):
3260 
        mova LOCAL(div_table_ix),r0
3261 
        bra LOCAL(div_le128_2)
3262 
        mov.b @(r0,r5),r1
3263 
LOCAL(udiv_le128):
3264 
        mov.l r4,@-r15
3265 
        mova LOCAL(div_table_ix),r0
3266 
        mov.b @(r0,r5),r1
3267 
        mov.l r5,@-r15
3268 
LOCAL(div_le128_2):
3269 
        mova LOCAL(div_table_inv),r0
3270 
        mov.l @(r0,r1),r1
3271 
        mov r5,r0
3272 
        tst #0xfe,r0
3273 
        mova LOCAL(div_table_clz),r0
3274 
        dmulu.l r1,r4
3275 
        mov.b @(r0,r5),r1
3276 
        bt/s LOCAL(div_by_1)
3277 
        mov r4,r0
3278 
        mov.l @r15+,r5
3279 
        sts mach,r0
3280 
        /* clrt */
3281 
        addc r4,r0
3282 
        mov.l @r15+,r4
3283 
        rotcr r0
3284 
        rts
3285 
        shld r1,r0
3286 
 
3287 
LOCAL(div_by_1_neg):
3288 
        neg r4,r0
3289 
LOCAL(div_by_1):
3290 
        mov.l @r15+,r5
3291 
        rts
3292 
        mov.l @r15+,r4
3293 
 
3294 
LOCAL(div_ge64k):
3295 
        bt/s LOCAL(div_r8)
3296 
        div0u
3297 
        shll8 r5
3298 
        bra LOCAL(div_ge64k_2)
3299 
        div1 r5,r0
3300 
LOCAL(udiv_ge64k):
3301 
        cmp/hi r0,r5
3302 
        mov r5,r1
3303 
        bt LOCAL(udiv_r8)
3304 
        shll8 r5
3305 
        mov.l r4,@-r15
3306 
        div1 r5,r0
3307 
        mov.l r1,@-r15
3308 
LOCAL(div_ge64k_2):
3309 
        div1 r5,r0
3310 
        mov.l LOCAL(zero_l),r1
3311 
        .rept 4
3312 
        div1 r5,r0
3313 
        .endr
3314 
        mov.l r1,@-r15
3315 
        div1 r5,r0
3316 
        mov.w LOCAL(m256_w),r1
3317 
        div1 r5,r0
3318 
        mov.b r0,@(L_LSWMSB,r15)
3319 
        xor r4,r0
3320 
        and r1,r0
3321 
        bra LOCAL(div_ge64k_end)
3322 
        xor r4,r0
3323 
 
3324 
LOCAL(div_r8):
3325 
        shll16 r4
3326 
        bra LOCAL(div_r8_2)
3327 
        shll8 r4
3328 
LOCAL(udiv_r8):
3329 
        mov.l r4,@-r15
3330 
        shll16 r4
3331 
        clrt
3332 
        shll8 r4
3333 
        mov.l r5,@-r15
3334 
LOCAL(div_r8_2):
3335 
        rotcl r4
3336 
        mov r0,r1
3337 
        div1 r5,r1
3338 
        mov r4,r0
3339 
        rotcl r0
3340 
        mov r5,r4
3341 
        div1 r5,r1
3342 
        .rept 5
3343 
        rotcl r0; div1 r5,r1
3344 
        .endr
3345 
        rotcl r0
3346 
        mov.l @r15+,r5
3347 
        div1 r4,r1
3348 
        mov.l @r15+,r4
3349 
        rts
3350 
        rotcl r0
3351 
 
3352 
        ENDFUNC(GLOBAL(udivsi3_i4i))
3353 
 
3354 
        .global GLOBAL(sdivsi3_i4i)
3355 
        FUNC(GLOBAL(sdivsi3_i4i))
3356 
        /* This is link-compatible with a GLOBAL(sdivsi3) call,
3357 
           but we effectively clobber only r1.  */
3358 
GLOBAL(sdivsi3_i4i):
3359 
        mov.l r4,@-r15
3360 
        cmp/pz r5
3361 
        mov.w LOCAL(c128_w), r1
3362 
        bt/s LOCAL(pos_divisor)
3363 
        cmp/pz r4
3364 
        mov.l r5,@-r15
3365 
        neg r5,r5
3366 
        bt/s LOCAL(neg_result)
3367 
        cmp/hi r1,r5
3368 
        neg r4,r4
3369 
LOCAL(pos_result):
3370 
        extu.w r5,r0
3371 
        bf LOCAL(div_le128)
3372 
        cmp/eq r5,r0
3373 
        mov r4,r0
3374 
        shlr8 r0
3375 
        bf/s LOCAL(div_ge64k)
3376 
        cmp/hi r0,r5
3377 
        div0u
3378 
        shll16 r5
3379 
        div1 r5,r0
3380 
        div1 r5,r0
3381 
        div1 r5,r0
3382 
LOCAL(udiv_25):
3383 
        mov.l LOCAL(zero_l),r1
3384 
        div1 r5,r0
3385 
        div1 r5,r0
3386 
        mov.l r1,@-r15
3387 
        .rept 3
3388 
        div1 r5,r0
3389 
        .endr
3390 
        mov.b r0,@(L_MSWLSB,r15)
3391 
        xtrct r4,r0
3392 
        swap.w r0,r0
3393 
        .rept 8
3394 
        div1 r5,r0
3395 
        .endr
3396 
        mov.b r0,@(L_LSWMSB,r15)
3397 
LOCAL(div_ge64k_end):
3398 
        .rept 8
3399 
        div1 r5,r0
3400 
        .endr
3401 
        mov.l @r15+,r4 ! zero-extension and swap using LS unit.
3402 
        extu.b r0,r0
3403 
        mov.l @r15+,r5
3404 
        or r4,r0
3405 
        mov.l @r15+,r4
3406 
        rts
3407 
        rotcl r0
3408 
 
3409 
LOCAL(div_le128_neg):
3410 
        tst #0xfe,r0
3411 
        mova LOCAL(div_table_ix),r0
3412 
        mov.b @(r0,r5),r1
3413 
        mova LOCAL(div_table_inv),r0
3414 
        bt/s LOCAL(div_by_1_neg)
3415 
        mov.l @(r0,r1),r1
3416 
        mova LOCAL(div_table_clz),r0
3417 
        dmulu.l r1,r4
3418 
        mov.b @(r0,r5),r1
3419 
        mov.l @r15+,r5
3420 
        sts mach,r0
3421 
        /* clrt */
3422 
        addc r4,r0
3423 
        mov.l @r15+,r4
3424 
        rotcr r0
3425 
        shld r1,r0
3426 
        rts
3427 
        neg r0,r0
3428 
 
3429 
LOCAL(pos_divisor):
3430 
        mov.l r5,@-r15
3431 
        bt/s LOCAL(pos_result)
3432 
        cmp/hi r1,r5
3433 
        neg r4,r4
3434 
LOCAL(neg_result):
3435 
        extu.w r5,r0
3436 
        bf LOCAL(div_le128_neg)
3437 
        cmp/eq r5,r0
3438 
        mov r4,r0
3439 
        shlr8 r0
3440 
        bf/s LOCAL(div_ge64k_neg)
3441 
        cmp/hi r0,r5
3442 
        div0u
3443 
        mov.l LOCAL(zero_l),r1
3444 
        shll16 r5
3445 
        div1 r5,r0
3446 
        mov.l r1,@-r15
3447 
        .rept 7
3448 
        div1 r5,r0
3449 
        .endr
3450 
        mov.b r0,@(L_MSWLSB,r15)
3451 
        xtrct r4,r0
3452 
        swap.w r0,r0
3453 
        .rept 8
3454 
        div1 r5,r0
3455 
        .endr
3456 
        mov.b r0,@(L_LSWMSB,r15)
3457 
LOCAL(div_ge64k_neg_end):
3458 
        .rept 8
3459 
        div1 r5,r0
3460 
        .endr
3461 
        mov.l @r15+,r4 ! zero-extension and swap using LS unit.
3462 
        extu.b r0,r1
3463 
        mov.l @r15+,r5
3464 
        or r4,r1
3465 
LOCAL(div_r8_neg_end):
3466 
        mov.l @r15+,r4
3467 
        rotcl r1
3468 
        rts
3469 
        neg r1,r0
3470 
 
3471 
LOCAL(div_ge64k_neg):
3472 
        bt/s LOCAL(div_r8_neg)
3473 
        div0u
3474 
        shll8 r5
3475 
        mov.l LOCAL(zero_l),r1
3476 
        .rept 6
3477 
        div1 r5,r0
3478 
        .endr
3479 
        mov.l r1,@-r15
3480 
        div1 r5,r0
3481 
        mov.w LOCAL(m256_w),r1
3482 
        div1 r5,r0
3483 
        mov.b r0,@(L_LSWMSB,r15)
3484 
        xor r4,r0
3485 
        and r1,r0
3486 
        bra LOCAL(div_ge64k_neg_end)
3487 
        xor r4,r0
3488 
 
3489 
LOCAL(c128_w):
3490 
        .word 128
3491 
 
3492 
LOCAL(div_r8_neg):
3493 
        clrt
3494 
        shll16 r4
3495 
        mov r4,r1
3496 
        shll8 r1
3497 
        mov r5,r4
3498 
        .rept 7
3499 
        rotcl r1; div1 r5,r0
3500 
        .endr
3501 
        mov.l @r15+,r5
3502 
        rotcl r1
3503 
        bra LOCAL(div_r8_neg_end)
3504 
        div1 r4,r0
3505 
 
3506 
LOCAL(m256_w):
3507 
        .word 0xff00
3508 
/* This table has been generated by divtab-sh4.c.  */
3509 
        .balign 4
3510 
LOCAL(div_table_clz):
3511 
        .byte   0
3512 
        .byte   1
3513 
        .byte   0
3514 
        .byte   -1
3515 
        .byte   -1
3516 
        .byte   -2
3517 
        .byte   -2
3518 
        .byte   -2
3519 
        .byte   -2
3520 
        .byte   -3
3521 
        .byte   -3
3522 
        .byte   -3
3523 
        .byte   -3
3524 
        .byte   -3
3525 
        .byte   -3
3526 
        .byte   -3
3527 
        .byte   -3
3528 
        .byte   -4
3529 
        .byte   -4
3530 
        .byte   -4
3531 
        .byte   -4
3532 
        .byte   -4
3533 
        .byte   -4
3534 
        .byte   -4
3535 
        .byte   -4
3536 
        .byte   -4
3537 
        .byte   -4
3538 
        .byte   -4
3539 
        .byte   -4
3540 
        .byte   -4
3541 
        .byte   -4
3542 
        .byte   -4
3543 
        .byte   -4
3544 
        .byte   -5
3545 
        .byte   -5
3546 
        .byte   -5
3547 
        .byte   -5
3548 
        .byte   -5
3549 
        .byte   -5
3550 
        .byte   -5
3551 
        .byte   -5
3552 
        .byte   -5
3553 
        .byte   -5
3554 
        .byte   -5
3555 
        .byte   -5
3556 
        .byte   -5
3557 
        .byte   -5
3558 
        .byte   -5
3559 
        .byte   -5
3560 
        .byte   -5
3561 
        .byte   -5
3562 
        .byte   -5
3563 
        .byte   -5
3564 
        .byte   -5
3565 
        .byte   -5
3566 
        .byte   -5
3567 
        .byte   -5
3568 
        .byte   -5
3569 
        .byte   -5
3570 
        .byte   -5
3571 
        .byte   -5
3572 
        .byte   -5
3573 
        .byte   -5
3574 
        .byte   -5
3575 
        .byte   -5
3576 
        .byte   -6
3577 
        .byte   -6
3578 
        .byte   -6
3579 
        .byte   -6
3580 
        .byte   -6
3581 
        .byte   -6
3582 
        .byte   -6
3583 
        .byte   -6
3584 
        .byte   -6
3585 
        .byte   -6
3586 
        .byte   -6
3587 
        .byte   -6
3588 
        .byte   -6
3589 
        .byte   -6
3590 
        .byte   -6
3591 
        .byte   -6
3592 
        .byte   -6
3593 
        .byte   -6
3594 
        .byte   -6
3595 
        .byte   -6
3596 
        .byte   -6
3597 
        .byte   -6
3598 
        .byte   -6
3599 
        .byte   -6
3600 
        .byte   -6
3601 
        .byte   -6
3602 
        .byte   -6
3603 
        .byte   -6
3604 
        .byte   -6
3605 
        .byte   -6
3606 
        .byte   -6
3607 
        .byte   -6
3608 
        .byte   -6
3609 
        .byte   -6
3610 
        .byte   -6
3611 
        .byte   -6
3612 
        .byte   -6
3613 
        .byte   -6
3614 
        .byte   -6
3615 
        .byte   -6
3616 
        .byte   -6
3617 
        .byte   -6
3618 
        .byte   -6
3619 
        .byte   -6
3620 
        .byte   -6
3621 
        .byte   -6
3622 
        .byte   -6
3623 
        .byte   -6
3624 
        .byte   -6
3625 
        .byte   -6
3626 
        .byte   -6
3627 
        .byte   -6
3628 
        .byte   -6
3629 
        .byte   -6
3630 
        .byte   -6
3631 
        .byte   -6
3632 
        .byte   -6
3633 
        .byte   -6
3634 
        .byte   -6
3635 
        .byte   -6
3636 
        .byte   -6
3637 
        .byte   -6
3638 
        .byte   -6
3639 
/* Lookup table translating positive divisor to index into table of
3640 
   normalized inverse.  N.B. the '0' entry is also the last entry of the
3641 
 previous table, and causes an unaligned access for division by zero.  */
3642 
LOCAL(div_table_ix):
3643 
        .byte   -6
3644 
        .byte   -128
3645 
        .byte   -128
3646 
        .byte   0
3647 
        .byte   -128
3648 
        .byte   -64
3649 
        .byte   0
3650 
        .byte   64
3651 
        .byte   -128
3652 
        .byte   -96
3653 
        .byte   -64
3654 
        .byte   -32
3655 
        .byte   0
3656 
        .byte   32
3657 
        .byte   64
3658 
        .byte   96
3659 
        .byte   -128
3660 
        .byte   -112
3661 
        .byte   -96
3662 
        .byte   -80
3663 
        .byte   -64
3664 
        .byte   -48
3665 
        .byte   -32
3666 
        .byte   -16
3667 
        .byte   0
3668 
        .byte   16
3669 
        .byte   32
3670 
        .byte   48
3671 
        .byte   64
3672 
        .byte   80
3673 
        .byte   96
3674 
        .byte   112
3675 
        .byte   -128
3676 
        .byte   -120
3677 
        .byte   -112
3678 
        .byte   -104
3679 
        .byte   -96
3680 
        .byte   -88
3681 
        .byte   -80
3682 
        .byte   -72
3683 
        .byte   -64
3684 
        .byte   -56
3685 
        .byte   -48
3686 
        .byte   -40
3687 
        .byte   -32
3688 
        .byte   -24
3689 
        .byte   -16
3690 
        .byte   -8
3691 
        .byte   0
3692 
        .byte   8
3693 
        .byte   16
3694 
        .byte   24
3695 
        .byte   32
3696 
        .byte   40
3697 
        .byte   48
3698 
        .byte   56
3699 
        .byte   64
3700 
        .byte   72
3701 
        .byte   80
3702 
        .byte   88
3703 
        .byte   96
3704 
        .byte   104
3705 
        .byte   112
3706 
        .byte   120
3707 
        .byte   -128
3708 
        .byte   -124
3709 
        .byte   -120
3710 
        .byte   -116
3711 
        .byte   -112
3712 
        .byte   -108
3713 
        .byte   -104
3714 
        .byte   -100
3715 
        .byte   -96
3716 
        .byte   -92
3717 
        .byte   -88
3718 
        .byte   -84
3719 
        .byte   -80
3720 
        .byte   -76
3721 
        .byte   -72
3722 
        .byte   -68
3723 
        .byte   -64
3724 
        .byte   -60
3725 
        .byte   -56
3726 
        .byte   -52
3727 
        .byte   -48
3728 
        .byte   -44
3729 
        .byte   -40
3730 
        .byte   -36
3731 
        .byte   -32
3732 
        .byte   -28
3733 
        .byte   -24
3734 
        .byte   -20
3735 
        .byte   -16
3736 
        .byte   -12
3737 
        .byte   -8
3738 
        .byte   -4
3739 
        .byte   0
3740 
        .byte   4
3741 
        .byte   8
3742 
        .byte   12
3743 
        .byte   16
3744 
        .byte   20
3745 
        .byte   24
3746 
        .byte   28
3747 
        .byte   32
3748 
        .byte   36
3749 
        .byte   40
3750 
        .byte   44
3751 
        .byte   48
3752 
        .byte   52
3753 
        .byte   56
3754 
        .byte   60
3755 
        .byte   64
3756 
        .byte   68
3757 
        .byte   72
3758 
        .byte   76
3759 
        .byte   80
3760 
        .byte   84
3761 
        .byte   88
3762 
        .byte   92
3763 
        .byte   96
3764 
        .byte   100
3765 
        .byte   104
3766 
        .byte   108
3767 
        .byte   112
3768 
        .byte   116
3769 
        .byte   120
3770 
        .byte   124
3771 
        .byte   -128
3772 
/* 1/64 .. 1/127, normalized.  There is an implicit leading 1 in bit 32.  */
3773 
        .balign 4
3774 
LOCAL(zero_l):
3775 
        .long   0x0
3776 
        .long   0xF81F81F9
3777 
        .long   0xF07C1F08
3778 
        .long   0xE9131AC0
3779 
        .long   0xE1E1E1E2
3780 
        .long   0xDAE6076C
3781 
        .long   0xD41D41D5
3782 
        .long   0xCD856891
3783 
        .long   0xC71C71C8
3784 
        .long   0xC0E07039
3785 
        .long   0xBACF914D
3786 
        .long   0xB4E81B4F
3787 
        .long   0xAF286BCB
3788 
        .long   0xA98EF607
3789 
        .long   0xA41A41A5
3790 
        .long   0x9EC8E952
3791 
        .long   0x9999999A
3792 
        .long   0x948B0FCE
3793 
        .long   0x8F9C18FA
3794 
        .long   0x8ACB90F7
3795 
        .long   0x86186187
3796 
        .long   0x81818182
3797 
        .long   0x7D05F418
3798 
        .long   0x78A4C818
3799 
        .long   0x745D1746
3800 
        .long   0x702E05C1
3801 
        .long   0x6C16C16D
3802 
        .long   0x68168169
3803 
        .long   0x642C8591
3804 
        .long   0x60581606
3805 
        .long   0x5C9882BA
3806 
        .long   0x58ED2309
3807 
LOCAL(div_table_inv):
3808 
        .long   0x55555556
3809 
        .long   0x51D07EAF
3810 
        .long   0x4E5E0A73
3811 
        .long   0x4AFD6A06
3812 
        .long   0x47AE147B
3813 
        .long   0x446F8657
3814 
        .long   0x41414142
3815 
        .long   0x3E22CBCF
3816 
        .long   0x3B13B13C
3817 
        .long   0x38138139
3818 
        .long   0x3521CFB3
3819 
        .long   0x323E34A3
3820 
        .long   0x2F684BDB
3821 
        .long   0x2C9FB4D9
3822 
        .long   0x29E4129F
3823 
        .long   0x27350B89
3824 
        .long   0x24924925
3825 
        .long   0x21FB7813
3826 
        .long   0x1F7047DD
3827 
        .long   0x1CF06ADB
3828 
        .long   0x1A7B9612
3829 
        .long   0x18118119
3830 
        .long   0x15B1E5F8
3831 
        .long   0x135C8114
3832 
        .long   0x11111112
3833 
        .long   0xECF56BF
3834 
        .long   0xC9714FC
3835 
        .long   0xA6810A7
3836 
        .long   0x8421085
3837 
        .long   0x624DD30
3838 
        .long   0x4104105
3839 
        .long   0x2040811
3840 
        /* maximum error: 0.987342 scaled: 0.921875*/
3841 
 
3842 
        ENDFUNC(GLOBAL(sdivsi3_i4i))
3843 
#endif /* SH3 / SH4 */
3844 
 
3845 
#endif /* L_div_table */
3846 
 
3847 
#ifdef L_udiv_qrnnd_16
3848 
#if !__SHMEDIA__
3849 
        HIDDEN_FUNC(GLOBAL(udiv_qrnnd_16))
3850 
        /* r0: rn r1: qn */ /* r0: n1 r4: n0 r5: d r6: d1 */ /* r2: __m */
3851 
        /* n1 < d, but n1 might be larger than d1.  */
3852 
        .global GLOBAL(udiv_qrnnd_16)
3853 
        .balign 8
3854 
GLOBAL(udiv_qrnnd_16):
3855 
        div0u
3856 
        cmp/hi r6,r0
3857 
        bt .Lots
3858 
        .rept 16
3859 
        div1 r6,r0
3860 
        .endr
3861 
        extu.w r0,r1
3862 
        bt 0f
3863 
        add r6,r0
3864 
0:      rotcl r1
3865 
        mulu.w r1,r5
3866 
        xtrct r4,r0
3867 
        swap.w r0,r0
3868 
        sts macl,r2
3869 
        cmp/hs r2,r0
3870 
        sub r2,r0
3871 
        bt 0f
3872 
        addc r5,r0
3873 
        add #-1,r1
3874 
        bt 0f
3875 
1:      add #-1,r1
3876 
        rts
3877 
        add r5,r0
3878 
        .balign 8
3879 
.Lots:
3880 
        sub r5,r0
3881 
        swap.w r4,r1
3882 
        xtrct r0,r1
3883 
        clrt
3884 
        mov r1,r0
3885 
        addc r5,r0
3886 
        mov #-1,r1
3887 
        SL1(bf, 1b,
3888 
        shlr16 r1)
3889 
0:      rts
3890 
        nop
3891 
        ENDFUNC(GLOBAL(udiv_qrnnd_16))
3892 
#endif /* !__SHMEDIA__ */
3893 
#endif /* L_udiv_qrnnd_16 */

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