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[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [config/] [h8300/] [lib1funcs.asm] - Blame information for rev 825

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1 38 julius
;; libgcc routines for the Renesas H8/300 CPU.
2
;; Contributed by Steve Chamberlain 
3
;; Optimizations by Toshiyasu Morita 
4
 
5
/* Copyright (C) 1994, 2000, 2001, 2002, 2003, 2004
6
   Free Software Foundation, Inc.
7
 
8
This file is free software; you can redistribute it and/or modify it
9
under the terms of the GNU General Public License as published by the
10
Free Software Foundation; either version 2, or (at your option) any
11
later version.
12
 
13
In addition to the permissions in the GNU General Public License, the
14
Free Software Foundation gives you unlimited permission to link the
15
compiled version of this file into combinations with other programs,
16
and to distribute those combinations without any restriction coming
17
from the use of this file.  (The General Public License restrictions
18
do apply in other respects; for example, they cover modification of
19
the file, and distribution when not linked into a combine
20
executable.)
21
 
22
This file is distributed in the hope that it will be useful, but
23
WITHOUT ANY WARRANTY; without even the implied warranty of
24
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
25
General Public License for more details.
26
 
27
You should have received a copy of the GNU General Public License
28
along with this program; see the file COPYING.  If not, write to
29
the Free Software Foundation, 51 Franklin Street, Fifth Floor,
30
Boston, MA 02110-1301, USA.  */
31
 
32
/* Assembler register definitions.  */
33
 
34
#define A0 r0
35
#define A0L r0l
36
#define A0H r0h
37
 
38
#define A1 r1
39
#define A1L r1l
40
#define A1H r1h
41
 
42
#define A2 r2
43
#define A2L r2l
44
#define A2H r2h
45
 
46
#define A3 r3
47
#define A3L r3l
48
#define A3H r3h
49
 
50
#define S0 r4
51
#define S0L r4l
52
#define S0H r4h
53
 
54
#define S1 r5
55
#define S1L r5l
56
#define S1H r5h
57
 
58
#define S2 r6
59
#define S2L r6l
60
#define S2H r6h
61
 
62
#ifdef __H8300__
63
#define PUSHP   push
64
#define POPP    pop
65
 
66
#define A0P     r0
67
#define A1P     r1
68
#define A2P     r2
69
#define A3P     r3
70
#define S0P     r4
71
#define S1P     r5
72
#define S2P     r6
73
#endif
74
 
75
#if defined (__H8300H__) || defined (__H8300S__) || defined (__H8300SX__)
76
#define PUSHP   push.l
77
#define POPP    pop.l
78
 
79
#define A0P     er0
80
#define A1P     er1
81
#define A2P     er2
82
#define A3P     er3
83
#define S0P     er4
84
#define S1P     er5
85
#define S2P     er6
86
 
87
#define A0E     e0
88
#define A1E     e1
89
#define A2E     e2
90
#define A3E     e3
91
#endif
92
 
93
#ifdef __H8300H__
94
#ifdef __NORMAL_MODE__
95
        .h8300hn
96
#else
97
        .h8300h
98
#endif
99
#endif
100
 
101
#ifdef __H8300S__
102
#ifdef __NORMAL_MODE__
103
        .h8300sn
104
#else
105
        .h8300s
106
#endif
107
#endif
108
#ifdef __H8300SX__
109
#ifdef __NORMAL_MODE__
110
        .h8300sxn
111
#else
112
        .h8300sx
113
#endif
114
#endif
115
 
116
#ifdef L_cmpsi2
117
#ifdef __H8300__
118
        .section .text
119
        .align 2
120
        .global ___cmpsi2
121
___cmpsi2:
122
        cmp.w   A0,A2
123
        bne     .L2
124
        cmp.w   A1,A3
125
        bne     .L4
126
        mov.w   #1,A0
127
        rts
128
.L2:
129
        bgt     .L5
130
.L3:
131
        mov.w   #2,A0
132
        rts
133
.L4:
134
        bls     .L3
135
.L5:
136
        sub.w   A0,A0
137
        rts
138
        .end
139
#endif
140
#endif /* L_cmpsi2 */
141
 
142
#ifdef L_ucmpsi2
143
#ifdef __H8300__
144
        .section .text
145
        .align 2
146
        .global ___ucmpsi2
147
___ucmpsi2:
148
        cmp.w   A0,A2
149
        bne     .L2
150
        cmp.w   A1,A3
151
        bne     .L4
152
        mov.w   #1,A0
153
        rts
154
.L2:
155
        bhi     .L5
156
.L3:
157
        mov.w   #2,A0
158
        rts
159
.L4:
160
        bls     .L3
161
.L5:
162
        sub.w   A0,A0
163
        rts
164
        .end
165
#endif
166
#endif /* L_ucmpsi2 */
167
 
168
#ifdef L_divhi3
169
 
170
;; HImode divides for the H8/300.
171
;; We bunch all of this into one object file since there are several
172
;; "supporting routines".
173
 
174
; general purpose normalize routine
175
;
176
; divisor in A0
177
; dividend in A1
178
; turns both into +ve numbers, and leaves what the answer sign
179
; should be in A2L
180
 
181
#ifdef __H8300__
182
        .section .text
183
        .align 2
184
divnorm:
185
        or      A0H,A0H         ; is divisor > 0
186
        stc     ccr,A2L
187
        bge     _lab1
188
        not     A0H             ; no - then make it +ve
189
        not     A0L
190
        adds    #1,A0
191
_lab1:  or      A1H,A1H ; look at dividend
192
        bge     _lab2
193
        not     A1H             ; it is -ve, make it positive
194
        not     A1L
195
        adds    #1,A1
196
        xor     #0x8,A2L; and toggle sign of result
197
_lab2:  rts
198
;; Basically the same, except that the sign of the divisor determines
199
;; the sign.
200
modnorm:
201
        or      A0H,A0H         ; is divisor > 0
202
        stc     ccr,A2L
203
        bge     _lab7
204
        not     A0H             ; no - then make it +ve
205
        not     A0L
206
        adds    #1,A0
207
_lab7:  or      A1H,A1H ; look at dividend
208
        bge     _lab8
209
        not     A1H             ; it is -ve, make it positive
210
        not     A1L
211
        adds    #1,A1
212
_lab8:  rts
213
 
214
; A0=A0/A1 signed
215
 
216
        .global ___divhi3
217
___divhi3:
218
        bsr     divnorm
219
        bsr     ___udivhi3
220
negans: btst    #3,A2L  ; should answer be negative ?
221
        beq     _lab4
222
        not     A0H     ; yes, so make it so
223
        not     A0L
224
        adds    #1,A0
225
_lab4:  rts
226
 
227
; A0=A0%A1 signed
228
 
229
        .global ___modhi3
230
___modhi3:
231
        bsr     modnorm
232
        bsr     ___udivhi3
233
        mov     A3,A0
234
        bra     negans
235
 
236
; A0=A0%A1 unsigned
237
 
238
        .global ___umodhi3
239
___umodhi3:
240
        bsr     ___udivhi3
241
        mov     A3,A0
242
        rts
243
 
244
; A0=A0/A1 unsigned
245
; A3=A0%A1 unsigned
246
; A2H trashed
247
; D high 8 bits of denom
248
; d low 8 bits of denom
249
; N high 8 bits of num
250
; n low 8 bits of num
251
; M high 8 bits of mod
252
; m low 8 bits of mod
253
; Q high 8 bits of quot
254
; q low 8 bits of quot
255
; P preserve
256
 
257
; The H8/300 only has a 16/8 bit divide, so we look at the incoming and
258
; see how to partition up the expression.
259
 
260
        .global ___udivhi3
261
___udivhi3:
262
                                ; A0 A1 A2 A3
263
                                ; Nn Dd       P
264
        sub.w   A3,A3           ; Nn Dd xP 00
265
        or      A1H,A1H
266
        bne     divlongway
267
        or      A0H,A0H
268
        beq     _lab6
269
 
270
; we know that D == 0 and N is != 0
271
        mov.b   A0H,A3L         ; Nn Dd xP 0N
272
        divxu   A1L,A3          ;          MQ
273
        mov.b   A3L,A0H         ; Q
274
; dealt with N, do n
275
_lab6:  mov.b   A0L,A3L         ;           n
276
        divxu   A1L,A3          ;          mq
277
        mov.b   A3L,A0L         ; Qq
278
        mov.b   A3H,A3L         ;           m
279
        mov.b   #0x0,A3H        ; Qq       0m
280
        rts
281
 
282
; D != 0 - which means the denominator is
283
;          loop around to get the result.
284
 
285
divlongway:
286
        mov.b   A0H,A3L         ; Nn Dd xP 0N
287
        mov.b   #0x0,A0H        ; high byte of answer has to be zero
288
        mov.b   #0x8,A2H        ;       8
289
div8:   add.b   A0L,A0L         ; n*=2
290
        rotxl   A3L             ; Make remainder bigger
291
        rotxl   A3H
292
        sub.w   A1,A3           ; Q-=N
293
        bhs     setbit          ; set a bit ?
294
        add.w   A1,A3           ;  no : too far , Q+=N
295
 
296
        dec     A2H
297
        bne     div8            ; next bit
298
        rts
299
 
300
setbit: inc     A0L             ; do insert bit
301
        dec     A2H
302
        bne     div8            ; next bit
303
        rts
304
 
305
#endif /* __H8300__ */
306
#endif /* L_divhi3 */
307
 
308
#ifdef L_divsi3
309
 
310
;; 4 byte integer divides for the H8/300.
311
;;
312
;; We have one routine which does all the work and lots of
313
;; little ones which prepare the args and massage the sign.
314
;; We bunch all of this into one object file since there are several
315
;; "supporting routines".
316
 
317
        .section .text
318
        .align 2
319
 
320
; Put abs SIs into r0/r1 and r2/r3, and leave a 1 in r6l with sign of rest.
321
; This function is here to keep branch displacements small.
322
 
323
#ifdef __H8300__
324
 
325
divnorm:
326
        mov.b   A0H,A0H         ; is the numerator -ve
327
        stc     ccr,S2L         ; keep the sign in bit 3 of S2L
328
        bge     postive
329
 
330
        ; negate arg
331
        not     A0H
332
        not     A1H
333
        not     A0L
334
        not     A1L
335
 
336
        add     #1,A1L
337
        addx    #0,A1H
338
        addx    #0,A0L
339
        addx    #0,A0H
340
postive:
341
        mov.b   A2H,A2H         ; is the denominator -ve
342
        bge     postive2
343
        not     A2L
344
        not     A2H
345
        not     A3L
346
        not     A3H
347
        add.b   #1,A3L
348
        addx    #0,A3H
349
        addx    #0,A2L
350
        addx    #0,A2H
351
        xor.b   #0x08,S2L       ; toggle the result sign
352
postive2:
353
        rts
354
 
355
;; Basically the same, except that the sign of the divisor determines
356
;; the sign.
357
modnorm:
358
        mov.b   A0H,A0H         ; is the numerator -ve
359
        stc     ccr,S2L         ; keep the sign in bit 3 of S2L
360
        bge     mpostive
361
 
362
        ; negate arg
363
        not     A0H
364
        not     A1H
365
        not     A0L
366
        not     A1L
367
 
368
        add     #1,A1L
369
        addx    #0,A1H
370
        addx    #0,A0L
371
        addx    #0,A0H
372
mpostive:
373
        mov.b   A2H,A2H         ; is the denominator -ve
374
        bge     mpostive2
375
        not     A2L
376
        not     A2H
377
        not     A3L
378
        not     A3H
379
        add.b   #1,A3L
380
        addx    #0,A3H
381
        addx    #0,A2L
382
        addx    #0,A2H
383
mpostive2:
384
        rts
385
 
386
#else /* __H8300H__ */
387
 
388
divnorm:
389
        mov.l   A0P,A0P         ; is the numerator -ve
390
        stc     ccr,S2L         ; keep the sign in bit 3 of S2L
391
        bge     postive
392
 
393
        neg.l   A0P             ; negate arg
394
 
395
postive:
396
        mov.l   A1P,A1P         ; is the denominator -ve
397
        bge     postive2
398
 
399
        neg.l   A1P             ; negate arg
400
        xor.b   #0x08,S2L       ; toggle the result sign
401
 
402
postive2:
403
        rts
404
 
405
;; Basically the same, except that the sign of the divisor determines
406
;; the sign.
407
modnorm:
408
        mov.l   A0P,A0P         ; is the numerator -ve
409
        stc     ccr,S2L         ; keep the sign in bit 3 of S2L
410
        bge     mpostive
411
 
412
        neg.l   A0P             ; negate arg
413
 
414
mpostive:
415
        mov.l   A1P,A1P         ; is the denominator -ve
416
        bge     mpostive2
417
 
418
        neg.l   A1P             ; negate arg
419
 
420
mpostive2:
421
        rts
422
 
423
#endif
424
 
425
; numerator in A0/A1
426
; denominator in A2/A3
427
        .global ___modsi3
428
___modsi3:
429
#ifdef __H8300__
430
        PUSHP   S2P
431
        PUSHP   S0P
432
        PUSHP   S1P
433
        bsr     modnorm
434
        bsr     divmodsi4
435
        mov     S0,A0
436
        mov     S1,A1
437
        bra     exitdiv
438
#else
439
        PUSHP   S2P
440
        bsr     modnorm
441
        bsr     ___udivsi3
442
        mov.l   er3,er0
443
        bra     exitdiv
444
#endif
445
 
446
        ;; H8/300H and H8S version of ___udivsi3 is defined later in
447
        ;; the file.
448
#ifdef __H8300__
449
        .global ___udivsi3
450
___udivsi3:
451
        PUSHP   S2P
452
        PUSHP   S0P
453
        PUSHP   S1P
454
        bsr     divmodsi4
455
        bra     reti
456
#endif
457
 
458
        .global ___umodsi3
459
___umodsi3:
460
#ifdef __H8300__
461
        PUSHP   S2P
462
        PUSHP   S0P
463
        PUSHP   S1P
464
        bsr     divmodsi4
465
        mov     S0,A0
466
        mov     S1,A1
467
        bra     reti
468
#else
469
        bsr     ___udivsi3
470
        mov.l   er3,er0
471
        rts
472
#endif
473
 
474
        .global ___divsi3
475
___divsi3:
476
#ifdef __H8300__
477
        PUSHP   S2P
478
        PUSHP   S0P
479
        PUSHP   S1P
480
        jsr     divnorm
481
        jsr     divmodsi4
482
#else
483
        PUSHP   S2P
484
        jsr     divnorm
485
        bsr     ___udivsi3
486
#endif
487
 
488
        ; examine what the sign should be
489
exitdiv:
490
        btst    #3,S2L
491
        beq     reti
492
 
493
        ; should be -ve
494
#ifdef __H8300__
495
        not     A0H
496
        not     A1H
497
        not     A0L
498
        not     A1L
499
 
500
        add     #1,A1L
501
        addx    #0,A1H
502
        addx    #0,A0L
503
        addx    #0,A0H
504
#else /* __H8300H__ */
505
        neg.l   A0P
506
#endif
507
 
508
reti:
509
#ifdef __H8300__
510
        POPP    S1P
511
        POPP    S0P
512
#endif
513
        POPP    S2P
514
        rts
515
 
516
        ; takes A0/A1 numerator (A0P for H8/300H)
517
        ; A2/A3 denominator (A1P for H8/300H)
518
        ; returns A0/A1 quotient (A0P for H8/300H)
519
        ; S0/S1 remainder (S0P for H8/300H)
520
        ; trashes S2H
521
 
522
#ifdef __H8300__
523
 
524
divmodsi4:
525
        sub.w   S0,S0           ; zero play area
526
        mov.w   S0,S1
527
        mov.b   A2H,S2H
528
        or      A2L,S2H
529
        or      A3H,S2H
530
        bne     DenHighNonZero
531
        mov.b   A0H,A0H
532
        bne     NumByte0Zero
533
        mov.b   A0L,A0L
534
        bne     NumByte1Zero
535
        mov.b   A1H,A1H
536
        bne     NumByte2Zero
537
        bra     NumByte3Zero
538
NumByte0Zero:
539
        mov.b   A0H,S1L
540
        divxu   A3L,S1
541
        mov.b   S1L,A0H
542
NumByte1Zero:
543
        mov.b   A0L,S1L
544
        divxu   A3L,S1
545
        mov.b   S1L,A0L
546
NumByte2Zero:
547
        mov.b   A1H,S1L
548
        divxu   A3L,S1
549
        mov.b   S1L,A1H
550
NumByte3Zero:
551
        mov.b   A1L,S1L
552
        divxu   A3L,S1
553
        mov.b   S1L,A1L
554
 
555
        mov.b   S1H,S1L
556
        mov.b   #0x0,S1H
557
        rts
558
 
559
; have to do the divide by shift and test
560
DenHighNonZero:
561
        mov.b   A0H,S1L
562
        mov.b   A0L,A0H
563
        mov.b   A1H,A0L
564
        mov.b   A1L,A1H
565
 
566
        mov.b   #0,A1L
567
        mov.b   #24,S2H ; only do 24 iterations
568
 
569
nextbit:
570
        add.w   A1,A1   ; double the answer guess
571
        rotxl   A0L
572
        rotxl   A0H
573
 
574
        rotxl   S1L     ; double remainder
575
        rotxl   S1H
576
        rotxl   S0L
577
        rotxl   S0H
578
        sub.w   A3,S1   ; does it all fit
579
        subx    A2L,S0L
580
        subx    A2H,S0H
581
        bhs     setone
582
 
583
        add.w   A3,S1   ; no, restore mistake
584
        addx    A2L,S0L
585
        addx    A2H,S0H
586
 
587
        dec     S2H
588
        bne     nextbit
589
        rts
590
 
591
setone:
592
        inc     A1L
593
        dec     S2H
594
        bne     nextbit
595
        rts
596
 
597
#else /* __H8300H__ */
598
 
599
        ;; This function also computes the remainder and stores it in er3.
600
        .global ___udivsi3
601
___udivsi3:
602
        mov.w   A1E,A1E         ; denominator top word 0?
603
        bne     DenHighNonZero
604
 
605
        ; do it the easy way, see page 107 in manual
606
        mov.w   A0E,A2
607
        extu.l  A2P
608
        divxu.w A1,A2P
609
        mov.w   A2E,A0E
610
        divxu.w A1,A0P
611
        mov.w   A0E,A3
612
        mov.w   A2,A0E
613
        extu.l  A3P
614
        rts
615
 
616
        ; er0 = er0 / er1
617
        ; er3 = er0 % er1
618
        ; trashes er1 er2
619
        ; expects er1 >= 2^16
620
DenHighNonZero:
621
        mov.l   er0,er3
622
        mov.l   er1,er2
623
#ifdef __H8300H__
624
divmod_L21:
625
        shlr.l  er0
626
        shlr.l  er2             ; make divisor < 2^16
627
        mov.w   e2,e2
628
        bne     divmod_L21
629
#else
630
        shlr.l  #2,er2          ; make divisor < 2^16
631
        mov.w   e2,e2
632
        beq     divmod_L22A
633
divmod_L21:
634
        shlr.l  #2,er0
635
divmod_L22:
636
        shlr.l  #2,er2          ; make divisor < 2^16
637
        mov.w   e2,e2
638
        bne     divmod_L21
639
divmod_L22A:
640
        rotxl.w r2
641
        bcs     divmod_L23
642
        shlr.l  er0
643
        bra     divmod_L24
644
divmod_L23:
645
        rotxr.w r2
646
        shlr.l  #2,er0
647
divmod_L24:
648
#endif
649
        ;; At this point,
650
        ;;  er0 contains shifted dividend
651
        ;;  er1 contains divisor
652
        ;;  er2 contains shifted divisor
653
        ;;  er3 contains dividend, later remainder
654
        divxu.w r2,er0          ; r0 now contains the approximate quotient (AQ)
655
        extu.l  er0
656
        beq     divmod_L25
657
        subs    #1,er0          ; er0 = AQ - 1
658
        mov.w   e1,r2
659
        mulxu.w r0,er2          ; er2 = upper (AQ - 1) * divisor
660
        sub.w   r2,e3           ; dividend - 65536 * er2
661
        mov.w   r1,r2
662
        mulxu.w r0,er2          ; compute er3 = remainder (tentative)
663
        sub.l   er2,er3         ; er3 = dividend - (AQ - 1) * divisor
664
divmod_L25:
665
        cmp.l   er1,er3         ; is divisor < remainder?
666
        blo     divmod_L26
667
        adds    #1,er0
668
        sub.l   er1,er3         ; correct the remainder
669
divmod_L26:
670
        rts
671
 
672
#endif
673
#endif /* L_divsi3 */
674
 
675
#ifdef L_mulhi3
676
 
677
;; HImode multiply.
678
; The H8/300 only has an 8*8->16 multiply.
679
; The answer is the same as:
680
;
681
; product = (srca.l * srcb.l) + ((srca.h * srcb.l) + (srcb.h * srca.l)) * 256
682
; (we can ignore A1.h * A0.h cause that will all off the top)
683
; A0 in
684
; A1 in
685
; A0 answer
686
 
687
#ifdef __H8300__
688
        .section .text
689
        .align 2
690
        .global ___mulhi3
691
___mulhi3:
692
        mov.b   A1L,A2L         ; A2l gets srcb.l
693
        mulxu   A0L,A2          ; A2 gets first sub product
694
 
695
        mov.b   A0H,A3L         ; prepare for
696
        mulxu   A1L,A3          ; second sub product
697
 
698
        add.b   A3L,A2H         ; sum first two terms
699
 
700
        mov.b   A1H,A3L         ; third sub product
701
        mulxu   A0L,A3
702
 
703
        add.b   A3L,A2H         ; almost there
704
        mov.w   A2,A0           ; that is
705
        rts
706
 
707
#endif
708
#endif /* L_mulhi3 */
709
 
710
#ifdef L_mulsi3
711
 
712
;; SImode multiply.
713
;;
714
;; I think that shift and add may be sufficient for this.  Using the
715
;; supplied 8x8->16 would need 10 ops of 14 cycles each + overhead.  This way
716
;; the inner loop uses maybe 20 cycles + overhead, but terminates
717
;; quickly on small args.
718
;;
719
;; A0/A1 src_a
720
;; A2/A3 src_b
721
;;
722
;;  while (a)
723
;;    {
724
;;      if (a & 1)
725
;;        r += b;
726
;;      a >>= 1;
727
;;      b <<= 1;
728
;;    }
729
 
730
        .section .text
731
        .align 2
732
 
733
#ifdef __H8300__
734
 
735
        .global ___mulsi3
736
___mulsi3:
737
        PUSHP   S0P
738
        PUSHP   S1P
739
 
740
        sub.w   S0,S0
741
        sub.w   S1,S1
742
 
743
        ; while (a)
744
_top:   mov.w   A0,A0
745
        bne     _more
746
        mov.w   A1,A1
747
        beq     _done
748
_more:  ; if (a & 1)
749
        bld     #0,A1L
750
        bcc     _nobit
751
        ; r += b
752
        add.w   A3,S1
753
        addx    A2L,S0L
754
        addx    A2H,S0H
755
_nobit:
756
        ; a >>= 1
757
        shlr    A0H
758
        rotxr   A0L
759
        rotxr   A1H
760
        rotxr   A1L
761
 
762
        ; b <<= 1
763
        add.w   A3,A3
764
        addx    A2L,A2L
765
        addx    A2H,A2H
766
        bra     _top
767
 
768
_done:
769
        mov.w   S0,A0
770
        mov.w   S1,A1
771
        POPP    S1P
772
        POPP    S0P
773
        rts
774
 
775
#else /* __H8300H__ */
776
 
777
;
778
; mulsi3 for H8/300H - based on Renesas SH implementation
779
;
780
; by Toshiyasu Morita
781
;
782
; Old code:
783
;
784
; 16b * 16b = 372 states (worst case)
785
; 32b * 32b = 724 states (worst case)
786
;
787
; New code:
788
;
789
; 16b * 16b =  48 states
790
; 16b * 32b =  72 states
791
; 32b * 32b =  92 states
792
;
793
 
794
        .global ___mulsi3
795
___mulsi3:
796
        mov.w   r1,r2   ; ( 2 states) b * d
797
        mulxu   r0,er2  ; (22 states)
798
 
799
        mov.w   e0,r3   ; ( 2 states) a * d
800
        beq     L_skip1 ; ( 4 states)
801
        mulxu   r1,er3  ; (22 states)
802
        add.w   r3,e2   ; ( 2 states)
803
 
804
L_skip1:
805
        mov.w   e1,r3   ; ( 2 states) c * b
806
        beq     L_skip2 ; ( 4 states)
807
        mulxu   r0,er3  ; (22 states)
808
        add.w   r3,e2   ; ( 2 states)
809
 
810
L_skip2:
811
        mov.l   er2,er0 ; ( 2 states)
812
        rts             ; (10 states)
813
 
814
#endif
815
#endif /* L_mulsi3 */
816
#ifdef L_fixunssfsi_asm
817
/* For the h8300 we use asm to save some bytes, to
818
   allow more programs to fit into the tiny address
819
   space.  For the H8/300H and H8S, the C version is good enough.  */
820
#ifdef __H8300__
821
/* We still treat NANs different than libgcc2.c, but then, the
822
   behavior is undefined anyways.  */
823
        .global ___fixunssfsi
824
___fixunssfsi:
825
        cmp.b #0x4f,r0h
826
        bge Large_num
827
        jmp     @___fixsfsi
828
Large_num:
829
        bhi L_huge_num
830
        xor.b #0x80,A0L
831
        bmi L_shift8
832
L_huge_num:
833
        mov.w #65535,A0
834
        mov.w A0,A1
835
        rts
836
L_shift8:
837
        mov.b A0L,A0H
838
        mov.b A1H,A0L
839
        mov.b A1L,A1H
840
        mov.b #0,A1L
841
        rts
842
#endif
843
#endif /* L_fixunssfsi_asm */

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