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Linux/arch/m68k/ifpsp060/src/fplsp.S

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Diff markup

Differences between /arch/m68k/ifpsp060/src/fplsp.S (Version linux-6.12-rc7) and /arch/i386/ifpsp060/src/fplsp.S (Version linux-5.17.15)


  1 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~    
  2 MOTOROLA MICROPROCESSOR & MEMORY TECHNOLOGY GR    
  3 M68000 Hi-Performance Microprocessor Division     
  4 M68060 Software Package                           
  5 Production Release P1.00 -- October 10, 1994      
  6                                                   
  7 M68060 Software Package Copyright © 1993, 199    
  8                                                   
  9 THE SOFTWARE is provided on an "AS IS" basis a    
 10 To the maximum extent permitted by applicable     
 11 MOTOROLA DISCLAIMS ALL WARRANTIES WHETHER EXPR    
 12 INCLUDING IMPLIED WARRANTIES OF MERCHANTABILIT    
 13 and any warranty against infringement with reg    
 14 (INCLUDING ANY MODIFIED VERSIONS THEREOF) and     
 15                                                   
 16 To the maximum extent permitted by applicable     
 17 IN NO EVENT SHALL MOTOROLA BE LIABLE FOR ANY D    
 18 (INCLUDING WITHOUT LIMITATION, DAMAGES FOR LOS    
 19 BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORM    
 20 ARISING OF THE USE OR INABILITY TO USE THE SOF    
 21 Motorola assumes no responsibility for the mai    
 22                                                   
 23 You are hereby granted a copyright license to     
 24 so long as this entire notice is retained with    
 25 redistributed versions, and that such modified    
 26 No licenses are granted by implication, estopp    
 27 or trademarks of Motorola, Inc.                   
 28 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~    
 29 #                                                 
 30 # lfptop.s:                                       
 31 #       This file is appended to the top of th    
 32 # and contains the entry points into the packa    
 33 # effect, branches to one of the branch table     
 34 #                                                 
 35                                                   
 36         bra.l   _facoss_                          
 37         short   0x0000                            
 38         bra.l   _facosd_                          
 39         short   0x0000                            
 40         bra.l   _facosx_                          
 41         short   0x0000                            
 42                                                   
 43         bra.l   _fasins_                          
 44         short   0x0000                            
 45         bra.l   _fasind_                          
 46         short   0x0000                            
 47         bra.l   _fasinx_                          
 48         short   0x0000                            
 49                                                   
 50         bra.l   _fatans_                          
 51         short   0x0000                            
 52         bra.l   _fatand_                          
 53         short   0x0000                            
 54         bra.l   _fatanx_                          
 55         short   0x0000                            
 56                                                   
 57         bra.l   _fatanhs_                         
 58         short   0x0000                            
 59         bra.l   _fatanhd_                         
 60         short   0x0000                            
 61         bra.l   _fatanhx_                         
 62         short   0x0000                            
 63                                                   
 64         bra.l   _fcoss_                           
 65         short   0x0000                            
 66         bra.l   _fcosd_                           
 67         short   0x0000                            
 68         bra.l   _fcosx_                           
 69         short   0x0000                            
 70                                                   
 71         bra.l   _fcoshs_                          
 72         short   0x0000                            
 73         bra.l   _fcoshd_                          
 74         short   0x0000                            
 75         bra.l   _fcoshx_                          
 76         short   0x0000                            
 77                                                   
 78         bra.l   _fetoxs_                          
 79         short   0x0000                            
 80         bra.l   _fetoxd_                          
 81         short   0x0000                            
 82         bra.l   _fetoxx_                          
 83         short   0x0000                            
 84                                                   
 85         bra.l   _fetoxm1s_                        
 86         short   0x0000                            
 87         bra.l   _fetoxm1d_                        
 88         short   0x0000                            
 89         bra.l   _fetoxm1x_                        
 90         short   0x0000                            
 91                                                   
 92         bra.l   _fgetexps_                        
 93         short   0x0000                            
 94         bra.l   _fgetexpd_                        
 95         short   0x0000                            
 96         bra.l   _fgetexpx_                        
 97         short   0x0000                            
 98                                                   
 99         bra.l   _fgetmans_                        
100         short   0x0000                            
101         bra.l   _fgetmand_                        
102         short   0x0000                            
103         bra.l   _fgetmanx_                        
104         short   0x0000                            
105                                                   
106         bra.l   _flog10s_                         
107         short   0x0000                            
108         bra.l   _flog10d_                         
109         short   0x0000                            
110         bra.l   _flog10x_                         
111         short   0x0000                            
112                                                   
113         bra.l   _flog2s_                          
114         short   0x0000                            
115         bra.l   _flog2d_                          
116         short   0x0000                            
117         bra.l   _flog2x_                          
118         short   0x0000                            
119                                                   
120         bra.l   _flogns_                          
121         short   0x0000                            
122         bra.l   _flognd_                          
123         short   0x0000                            
124         bra.l   _flognx_                          
125         short   0x0000                            
126                                                   
127         bra.l   _flognp1s_                        
128         short   0x0000                            
129         bra.l   _flognp1d_                        
130         short   0x0000                            
131         bra.l   _flognp1x_                        
132         short   0x0000                            
133                                                   
134         bra.l   _fmods_                           
135         short   0x0000                            
136         bra.l   _fmodd_                           
137         short   0x0000                            
138         bra.l   _fmodx_                           
139         short   0x0000                            
140                                                   
141         bra.l   _frems_                           
142         short   0x0000                            
143         bra.l   _fremd_                           
144         short   0x0000                            
145         bra.l   _fremx_                           
146         short   0x0000                            
147                                                   
148         bra.l   _fscales_                         
149         short   0x0000                            
150         bra.l   _fscaled_                         
151         short   0x0000                            
152         bra.l   _fscalex_                         
153         short   0x0000                            
154                                                   
155         bra.l   _fsins_                           
156         short   0x0000                            
157         bra.l   _fsind_                           
158         short   0x0000                            
159         bra.l   _fsinx_                           
160         short   0x0000                            
161                                                   
162         bra.l   _fsincoss_                        
163         short   0x0000                            
164         bra.l   _fsincosd_                        
165         short   0x0000                            
166         bra.l   _fsincosx_                        
167         short   0x0000                            
168                                                   
169         bra.l   _fsinhs_                          
170         short   0x0000                            
171         bra.l   _fsinhd_                          
172         short   0x0000                            
173         bra.l   _fsinhx_                          
174         short   0x0000                            
175                                                   
176         bra.l   _ftans_                           
177         short   0x0000                            
178         bra.l   _ftand_                           
179         short   0x0000                            
180         bra.l   _ftanx_                           
181         short   0x0000                            
182                                                   
183         bra.l   _ftanhs_                          
184         short   0x0000                            
185         bra.l   _ftanhd_                          
186         short   0x0000                            
187         bra.l   _ftanhx_                          
188         short   0x0000                            
189                                                   
190         bra.l   _ftentoxs_                        
191         short   0x0000                            
192         bra.l   _ftentoxd_                        
193         short   0x0000                            
194         bra.l   _ftentoxx_                        
195         short   0x0000                            
196                                                   
197         bra.l   _ftwotoxs_                        
198         short   0x0000                            
199         bra.l   _ftwotoxd_                        
200         short   0x0000                            
201         bra.l   _ftwotoxx_                        
202         short   0x0000                            
203                                                   
204         bra.l   _fabss_                           
205         short   0x0000                            
206         bra.l   _fabsd_                           
207         short   0x0000                            
208         bra.l   _fabsx_                           
209         short   0x0000                            
210                                                   
211         bra.l   _fadds_                           
212         short   0x0000                            
213         bra.l   _faddd_                           
214         short   0x0000                            
215         bra.l   _faddx_                           
216         short   0x0000                            
217                                                   
218         bra.l   _fdivs_                           
219         short   0x0000                            
220         bra.l   _fdivd_                           
221         short   0x0000                            
222         bra.l   _fdivx_                           
223         short   0x0000                            
224                                                   
225         bra.l   _fints_                           
226         short   0x0000                            
227         bra.l   _fintd_                           
228         short   0x0000                            
229         bra.l   _fintx_                           
230         short   0x0000                            
231                                                   
232         bra.l   _fintrzs_                         
233         short   0x0000                            
234         bra.l   _fintrzd_                         
235         short   0x0000                            
236         bra.l   _fintrzx_                         
237         short   0x0000                            
238                                                   
239         bra.l   _fmuls_                           
240         short   0x0000                            
241         bra.l   _fmuld_                           
242         short   0x0000                            
243         bra.l   _fmulx_                           
244         short   0x0000                            
245                                                   
246         bra.l   _fnegs_                           
247         short   0x0000                            
248         bra.l   _fnegd_                           
249         short   0x0000                            
250         bra.l   _fnegx_                           
251         short   0x0000                            
252                                                   
253         bra.l   _fsqrts_                          
254         short   0x0000                            
255         bra.l   _fsqrtd_                          
256         short   0x0000                            
257         bra.l   _fsqrtx_                          
258         short   0x0000                            
259                                                   
260         bra.l   _fsubs_                           
261         short   0x0000                            
262         bra.l   _fsubd_                           
263         short   0x0000                            
264         bra.l   _fsubx_                           
265         short   0x0000                            
266                                                   
267 # leave room for future possible additions        
268         align   0x400                             
269                                                   
270 #                                                 
271 # This file contains a set of define statement    
272 # in order to promote readability within the c    
273 #                                                 
274                                                   
275 set LOCAL_SIZE,         192                       
276 set LV,                 -LOCAL_SIZE               
277                                                   
278 set EXC_SR,             0x4                       
279 set EXC_PC,             0x6                       
280 set EXC_VOFF,           0xa                       
281 set EXC_EA,             0xc                       
282                                                   
283 set EXC_FP,             0x0                       
284                                                   
285 set EXC_AREGS,          -68                       
286 set EXC_DREGS,          -100                      
287 set EXC_FPREGS,         -36                       
288                                                   
289 set EXC_A7,             EXC_AREGS+(7*4)           
290 set OLD_A7,             EXC_AREGS+(6*4)           
291 set EXC_A6,             EXC_AREGS+(6*4)           
292 set EXC_A5,             EXC_AREGS+(5*4)           
293 set EXC_A4,             EXC_AREGS+(4*4)           
294 set EXC_A3,             EXC_AREGS+(3*4)           
295 set EXC_A2,             EXC_AREGS+(2*4)           
296 set EXC_A1,             EXC_AREGS+(1*4)           
297 set EXC_A0,             EXC_AREGS+(0*4)           
298 set EXC_D7,             EXC_DREGS+(7*4)           
299 set EXC_D6,             EXC_DREGS+(6*4)           
300 set EXC_D5,             EXC_DREGS+(5*4)           
301 set EXC_D4,             EXC_DREGS+(4*4)           
302 set EXC_D3,             EXC_DREGS+(3*4)           
303 set EXC_D2,             EXC_DREGS+(2*4)           
304 set EXC_D1,             EXC_DREGS+(1*4)           
305 set EXC_D0,             EXC_DREGS+(0*4)           
306                                                   
307 set EXC_FP0,            EXC_FPREGS+(0*12)         
308 set EXC_FP1,            EXC_FPREGS+(1*12)         
309 set EXC_FP2,            EXC_FPREGS+(2*12)         
310                                                   
311 set FP_SCR1,            LV+80                     
312 set FP_SCR1_EX,         FP_SCR1+0                 
313 set FP_SCR1_SGN,        FP_SCR1+2                 
314 set FP_SCR1_HI,         FP_SCR1+4                 
315 set FP_SCR1_LO,         FP_SCR1+8                 
316                                                   
317 set FP_SCR0,            LV+68                     
318 set FP_SCR0_EX,         FP_SCR0+0                 
319 set FP_SCR0_SGN,        FP_SCR0+2                 
320 set FP_SCR0_HI,         FP_SCR0+4                 
321 set FP_SCR0_LO,         FP_SCR0+8                 
322                                                   
323 set FP_DST,             LV+56                     
324 set FP_DST_EX,          FP_DST+0                  
325 set FP_DST_SGN,         FP_DST+2                  
326 set FP_DST_HI,          FP_DST+4                  
327 set FP_DST_LO,          FP_DST+8                  
328                                                   
329 set FP_SRC,             LV+44                     
330 set FP_SRC_EX,          FP_SRC+0                  
331 set FP_SRC_SGN,         FP_SRC+2                  
332 set FP_SRC_HI,          FP_SRC+4                  
333 set FP_SRC_LO,          FP_SRC+8                  
334                                                   
335 set USER_FPIAR,         LV+40                     
336                                                   
337 set USER_FPSR,          LV+36                     
338 set FPSR_CC,            USER_FPSR+0               
339 set FPSR_QBYTE,         USER_FPSR+1               
340 set FPSR_EXCEPT,        USER_FPSR+2               
341 set FPSR_AEXCEPT,       USER_FPSR+3               
342                                                   
343 set USER_FPCR,          LV+32                     
344 set FPCR_ENABLE,        USER_FPCR+2               
345 set FPCR_MODE,          USER_FPCR+3               
346                                                   
347 set L_SCR3,             LV+28                     
348 set L_SCR2,             LV+24                     
349 set L_SCR1,             LV+20                     
350                                                   
351 set STORE_FLG,          LV+19                     
352                                                   
353 set EXC_TEMP2,          LV+24                     
354 set EXC_TEMP,           LV+16                     
355                                                   
356 set DTAG,               LV+15                     
357 set STAG,               LV+14                     
358                                                   
359 set SPCOND_FLG,         LV+10                     
360                                                   
361 set EXC_CC,             LV+8                      
362 set EXC_EXTWPTR,        LV+4                      
363 set EXC_EXTWORD,        LV+2                      
364 set EXC_CMDREG,         LV+2                      
365 set EXC_OPWORD,         LV+0                      
366                                                   
367 ################################                  
368                                                   
369 # Helpful macros                                  
370                                                   
371 set FTEMP,              0                         
372 set FTEMP_EX,           0                         
373 set FTEMP_SGN,          2                         
374 set FTEMP_HI,           4                         
375 set FTEMP_LO,           8                         
376 set FTEMP_GRS,          12                        
377                                                   
378 set LOCAL,              0                         
379 set LOCAL_EX,           0                         
380 set LOCAL_SGN,          2                         
381 set LOCAL_HI,           4                         
382 set LOCAL_LO,           8                         
383 set LOCAL_GRS,          12                        
384                                                   
385 set DST,                0                         
386 set DST_EX,             0                         
387 set DST_HI,             4                         
388 set DST_LO,             8                         
389                                                   
390 set SRC,                0                         
391 set SRC_EX,             0                         
392 set SRC_HI,             4                         
393 set SRC_LO,             8                         
394                                                   
395 set SGL_LO,             0x3f81                    
396 set SGL_HI,             0x407e                    
397 set DBL_LO,             0x3c01                    
398 set DBL_HI,             0x43fe                    
399 set EXT_LO,             0x0                       
400 set EXT_HI,             0x7ffe                    
401                                                   
402 set EXT_BIAS,           0x3fff                    
403 set SGL_BIAS,           0x007f                    
404 set DBL_BIAS,           0x03ff                    
405                                                   
406 set NORM,               0x00                      
407 set ZERO,               0x01                      
408 set INF,                0x02                      
409 set QNAN,               0x03                      
410 set DENORM,             0x04                      
411 set SNAN,               0x05                      
412 set UNNORM,             0x06                      
413                                                   
414 ##################                                
415 # FPSR/FPCR bits #                                
416 ##################                                
417 set neg_bit,            0x3                       
418 set z_bit,              0x2                       
419 set inf_bit,            0x1                       
420 set nan_bit,            0x0                       
421                                                   
422 set q_sn_bit,           0x7                       
423                                                   
424 set bsun_bit,           7                         
425 set snan_bit,           6                         
426 set operr_bit,          5                         
427 set ovfl_bit,           4                         
428 set unfl_bit,           3                         
429 set dz_bit,             2                         
430 set inex2_bit,          1                         
431 set inex1_bit,          0                         
432                                                   
433 set aiop_bit,           7                         
434 set aovfl_bit,          6                         
435 set aunfl_bit,          5                         
436 set adz_bit,            4                         
437 set ainex_bit,          3                         
438                                                   
439 #############################                     
440 # FPSR individual bit masks #                     
441 #############################                     
442 set neg_mask,           0x08000000                
443 set inf_mask,           0x02000000                
444 set z_mask,             0x04000000                
445 set nan_mask,           0x01000000                
446                                                   
447 set neg_bmask,          0x08                      
448 set inf_bmask,          0x02                      
449 set z_bmask,            0x04                      
450 set nan_bmask,          0x01                      
451                                                   
452 set bsun_mask,          0x00008000                
453 set snan_mask,          0x00004000                
454 set operr_mask,         0x00002000                
455 set ovfl_mask,          0x00001000                
456 set unfl_mask,          0x00000800                
457 set dz_mask,            0x00000400                
458 set inex2_mask,         0x00000200                
459 set inex1_mask,         0x00000100                
460                                                   
461 set aiop_mask,          0x00000080                
462 set aovfl_mask,         0x00000040                
463 set aunfl_mask,         0x00000020                
464 set adz_mask,           0x00000010                
465 set ainex_mask,         0x00000008                
466                                                   
467 ######################################            
468 # FPSR combinations used in the FPSP #            
469 ######################################            
470 set dzinf_mask,         inf_mask+dz_mask+adz_m    
471 set opnan_mask,         nan_mask+operr_mask+ai    
472 set nzi_mask,           0x01ffffff                
473 set unfinx_mask,        unfl_mask+inex2_mask+a    
474 set unf2inx_mask,       unfl_mask+inex2_mask+a    
475 set ovfinx_mask,        ovfl_mask+inex2_mask+a    
476 set inx1a_mask,         inex1_mask+ainex_mask     
477 set inx2a_mask,         inex2_mask+ainex_mask     
478 set snaniop_mask,       nan_mask+snan_mask+aio    
479 set snaniop2_mask,      snan_mask+aiop_mask       
480 set naniop_mask,        nan_mask+aiop_mask        
481 set neginf_mask,        neg_mask+inf_mask         
482 set infaiop_mask,       inf_mask+aiop_mask        
483 set negz_mask,          neg_mask+z_mask           
484 set opaop_mask,         operr_mask+aiop_mask      
485 set unfl_inx_mask,      unfl_mask+aunfl_mask+a    
486 set ovfl_inx_mask,      ovfl_mask+aovfl_mask+a    
487                                                   
488 #########                                         
489 # misc. #                                         
490 #########                                         
491 set rnd_stky_bit,       29                        
492                                                   
493 set sign_bit,           0x7                       
494 set signan_bit,         0x6                       
495                                                   
496 set sgl_thresh,         0x3f81                    
497 set dbl_thresh,         0x3c01                    
498                                                   
499 set x_mode,             0x0                       
500 set s_mode,             0x4                       
501 set d_mode,             0x8                       
502                                                   
503 set rn_mode,            0x0                       
504 set rz_mode,            0x1                       
505 set rm_mode,            0x2                       
506 set rp_mode,            0x3                       
507                                                   
508 set mantissalen,        64                        
509                                                   
510 set BYTE,               1                         
511 set WORD,               2                         
512 set LONG,               4                         
513                                                   
514 set BSUN_VEC,           0xc0                      
515 set INEX_VEC,           0xc4                      
516 set DZ_VEC,             0xc8                      
517 set UNFL_VEC,           0xcc                      
518 set OPERR_VEC,          0xd0                      
519 set OVFL_VEC,           0xd4                      
520 set SNAN_VEC,           0xd8                      
521                                                   
522 ###########################                       
523 # SPecial CONDition FLaGs #                       
524 ###########################                       
525 set ftrapcc_flg,        0x01                      
526 set fbsun_flg,          0x02                      
527 set mia7_flg,           0x04                      
528 set mda7_flg,           0x08                      
529 set fmovm_flg,          0x40                      
530 set immed_flg,          0x80                      
531                                                   
532 set ftrapcc_bit,        0x0                       
533 set fbsun_bit,          0x1                       
534 set mia7_bit,           0x2                       
535 set mda7_bit,           0x3                       
536 set immed_bit,          0x7                       
537                                                   
538 ##################################                
539 # TRANSCENDENTAL "LAST-OP" FLAGS #                
540 ##################################                
541 set FMUL_OP,            0x0                       
542 set FDIV_OP,            0x1                       
543 set FADD_OP,            0x2                       
544 set FMOV_OP,            0x3                       
545                                                   
546 #############                                     
547 # CONSTANTS #                                     
548 #############                                     
549 T1:     long            0x40C62D38,0xD3D64634     
550 T2:     long            0x3D6F90AE,0xB1E75CC7     
551                                                   
552 PI:     long            0x40000000,0xC90FDAA2,    
553 PIBY2:  long            0x3FFF0000,0xC90FDAA2,    
554                                                   
555 TWOBYPI:                                          
556         long            0x3FE45F30,0x6DC9C883     
557                                                   
558 ##############################################    
559 # MONADIC TEMPLATE                                
560 ##############################################    
561         global          _fsins_                   
562 _fsins_:                                          
563         link            %a6,&-LOCAL_SIZE          
564                                                   
565         movm.l          &0x0303,EXC_DREGS(%a6)    
566         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
567         fmovm.x         &0xc0,EXC_FP0(%a6)        
568                                                   
569         fmov.l          &0x0,%fpcr                
570                                                   
571 #                                                 
572 #       copy, convert, and tag input argument     
573 #                                                 
574         fmov.s          0x8(%a6),%fp0             
575         fmov.x          %fp0,FP_SRC(%a6)          
576         lea             FP_SRC(%a6),%a0           
577         bsr.l           tag                       
578         mov.b           %d0,STAG(%a6)             
579         mov.b           %d0,%d1                   
580                                                   
581         andi.l          &0x00ff00ff,USER_FPSR(    
582                                                   
583         clr.l           %d0                       
584         mov.b           FPCR_MODE(%a6),%d0        
585                                                   
586         tst.b           %d1                       
587         bne.b           _L0_2s                    
588         bsr.l           ssin                      
589         bra.b           _L0_6s                    
590 _L0_2s:                                           
591         cmpi.b          %d1,&ZERO                 
592         bne.b           _L0_3s                    
593         bsr.l           src_zero                  
594         bra.b           _L0_6s                    
595 _L0_3s:                                           
596         cmpi.b          %d1,&INF                  
597         bne.b           _L0_4s                    
598         bsr.l           t_operr                   
599         bra.b           _L0_6s                    
600 _L0_4s:                                           
601         cmpi.b          %d1,&QNAN                 
602         bne.b           _L0_5s                    
603         bsr.l           src_qnan                  
604         bra.b           _L0_6s                    
605 _L0_5s:                                           
606         bsr.l           ssind                     
607 _L0_6s:                                           
608                                                   
609 #                                                 
610 #       Result is now in FP0                      
611 #                                                 
612         movm.l          EXC_DREGS(%a6),&0x0303    
613         fmovm.l         USER_FPCR(%a6),%fpcr,%    
614         fmovm.x         EXC_FP1(%a6),&0x40        
615         unlk            %a6                       
616         rts                                       
617                                                   
618         global          _fsind_                   
619 _fsind_:                                          
620         link            %a6,&-LOCAL_SIZE          
621                                                   
622         movm.l          &0x0303,EXC_DREGS(%a6)    
623         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
624         fmovm.x         &0xc0,EXC_FP0(%a6)        
625                                                   
626         fmov.l          &0x0,%fpcr                
627                                                   
628 #                                                 
629 #       copy, convert, and tag input argument     
630 #                                                 
631         fmov.d          0x8(%a6),%fp0             
632         fmov.x          %fp0,FP_SRC(%a6)          
633         lea             FP_SRC(%a6),%a0           
634         bsr.l           tag                       
635         mov.b           %d0,STAG(%a6)             
636         mov.b           %d0,%d1                   
637                                                   
638         andi.l          &0x00ff00ff,USER_FPSR(    
639                                                   
640         clr.l           %d0                       
641         mov.b           FPCR_MODE(%a6),%d0        
642                                                   
643         mov.b           %d1,STAG(%a6)             
644         tst.b           %d1                       
645         bne.b           _L0_2d                    
646         bsr.l           ssin                      
647         bra.b           _L0_6d                    
648 _L0_2d:                                           
649         cmpi.b          %d1,&ZERO                 
650         bne.b           _L0_3d                    
651         bsr.l           src_zero                  
652         bra.b           _L0_6d                    
653 _L0_3d:                                           
654         cmpi.b          %d1,&INF                  
655         bne.b           _L0_4d                    
656         bsr.l           t_operr                   
657         bra.b           _L0_6d                    
658 _L0_4d:                                           
659         cmpi.b          %d1,&QNAN                 
660         bne.b           _L0_5d                    
661         bsr.l           src_qnan                  
662         bra.b           _L0_6d                    
663 _L0_5d:                                           
664         bsr.l           ssind                     
665 _L0_6d:                                           
666                                                   
667 #                                                 
668 #       Result is now in FP0                      
669 #                                                 
670         movm.l          EXC_DREGS(%a6),&0x0303    
671         fmovm.l         USER_FPCR(%a6),%fpcr,%    
672         fmovm.x         EXC_FP1(%a6),&0x40        
673         unlk            %a6                       
674         rts                                       
675                                                   
676         global          _fsinx_                   
677 _fsinx_:                                          
678         link            %a6,&-LOCAL_SIZE          
679                                                   
680         movm.l          &0x0303,EXC_DREGS(%a6)    
681         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
682         fmovm.x         &0xc0,EXC_FP0(%a6)        
683                                                   
684         fmov.l          &0x0,%fpcr                
685                                                   
686 #                                                 
687 #       copy, convert, and tag input argument     
688 #                                                 
689         lea             FP_SRC(%a6),%a0           
690         mov.l           0x8+0x0(%a6),0x0(%a0)     
691         mov.l           0x8+0x4(%a6),0x4(%a0)     
692         mov.l           0x8+0x8(%a6),0x8(%a0)     
693         bsr.l           tag                       
694         mov.b           %d0,STAG(%a6)             
695         mov.b           %d0,%d1                   
696                                                   
697         andi.l          &0x00ff00ff,USER_FPSR(    
698                                                   
699         clr.l           %d0                       
700         mov.b           FPCR_MODE(%a6),%d0        
701                                                   
702         tst.b           %d1                       
703         bne.b           _L0_2x                    
704         bsr.l           ssin                      
705         bra.b           _L0_6x                    
706 _L0_2x:                                           
707         cmpi.b          %d1,&ZERO                 
708         bne.b           _L0_3x                    
709         bsr.l           src_zero                  
710         bra.b           _L0_6x                    
711 _L0_3x:                                           
712         cmpi.b          %d1,&INF                  
713         bne.b           _L0_4x                    
714         bsr.l           t_operr                   
715         bra.b           _L0_6x                    
716 _L0_4x:                                           
717         cmpi.b          %d1,&QNAN                 
718         bne.b           _L0_5x                    
719         bsr.l           src_qnan                  
720         bra.b           _L0_6x                    
721 _L0_5x:                                           
722         bsr.l           ssind                     
723 _L0_6x:                                           
724                                                   
725 #                                                 
726 #       Result is now in FP0                      
727 #                                                 
728         movm.l          EXC_DREGS(%a6),&0x0303    
729         fmovm.l         USER_FPCR(%a6),%fpcr,%    
730         fmovm.x         EXC_FP1(%a6),&0x40        
731         unlk            %a6                       
732         rts                                       
733                                                   
734                                                   
735 ##############################################    
736 # MONADIC TEMPLATE                                
737 ##############################################    
738         global          _fcoss_                   
739 _fcoss_:                                          
740         link            %a6,&-LOCAL_SIZE          
741                                                   
742         movm.l          &0x0303,EXC_DREGS(%a6)    
743         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
744         fmovm.x         &0xc0,EXC_FP0(%a6)        
745                                                   
746         fmov.l          &0x0,%fpcr                
747                                                   
748 #                                                 
749 #       copy, convert, and tag input argument     
750 #                                                 
751         fmov.s          0x8(%a6),%fp0             
752         fmov.x          %fp0,FP_SRC(%a6)          
753         lea             FP_SRC(%a6),%a0           
754         bsr.l           tag                       
755         mov.b           %d0,STAG(%a6)             
756         mov.b           %d0,%d1                   
757                                                   
758         andi.l          &0x00ff00ff,USER_FPSR(    
759                                                   
760         clr.l           %d0                       
761         mov.b           FPCR_MODE(%a6),%d0        
762                                                   
763         tst.b           %d1                       
764         bne.b           _L1_2s                    
765         bsr.l           scos                      
766         bra.b           _L1_6s                    
767 _L1_2s:                                           
768         cmpi.b          %d1,&ZERO                 
769         bne.b           _L1_3s                    
770         bsr.l           ld_pone                   
771         bra.b           _L1_6s                    
772 _L1_3s:                                           
773         cmpi.b          %d1,&INF                  
774         bne.b           _L1_4s                    
775         bsr.l           t_operr                   
776         bra.b           _L1_6s                    
777 _L1_4s:                                           
778         cmpi.b          %d1,&QNAN                 
779         bne.b           _L1_5s                    
780         bsr.l           src_qnan                  
781         bra.b           _L1_6s                    
782 _L1_5s:                                           
783         bsr.l           scosd                     
784 _L1_6s:                                           
785                                                   
786 #                                                 
787 #       Result is now in FP0                      
788 #                                                 
789         movm.l          EXC_DREGS(%a6),&0x0303    
790         fmovm.l         USER_FPCR(%a6),%fpcr,%    
791         fmovm.x         EXC_FP1(%a6),&0x40        
792         unlk            %a6                       
793         rts                                       
794                                                   
795         global          _fcosd_                   
796 _fcosd_:                                          
797         link            %a6,&-LOCAL_SIZE          
798                                                   
799         movm.l          &0x0303,EXC_DREGS(%a6)    
800         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
801         fmovm.x         &0xc0,EXC_FP0(%a6)        
802                                                   
803         fmov.l          &0x0,%fpcr                
804                                                   
805 #                                                 
806 #       copy, convert, and tag input argument     
807 #                                                 
808         fmov.d          0x8(%a6),%fp0             
809         fmov.x          %fp0,FP_SRC(%a6)          
810         lea             FP_SRC(%a6),%a0           
811         bsr.l           tag                       
812         mov.b           %d0,STAG(%a6)             
813         mov.b           %d0,%d1                   
814                                                   
815         andi.l          &0x00ff00ff,USER_FPSR(    
816                                                   
817         clr.l           %d0                       
818         mov.b           FPCR_MODE(%a6),%d0        
819                                                   
820         mov.b           %d1,STAG(%a6)             
821         tst.b           %d1                       
822         bne.b           _L1_2d                    
823         bsr.l           scos                      
824         bra.b           _L1_6d                    
825 _L1_2d:                                           
826         cmpi.b          %d1,&ZERO                 
827         bne.b           _L1_3d                    
828         bsr.l           ld_pone                   
829         bra.b           _L1_6d                    
830 _L1_3d:                                           
831         cmpi.b          %d1,&INF                  
832         bne.b           _L1_4d                    
833         bsr.l           t_operr                   
834         bra.b           _L1_6d                    
835 _L1_4d:                                           
836         cmpi.b          %d1,&QNAN                 
837         bne.b           _L1_5d                    
838         bsr.l           src_qnan                  
839         bra.b           _L1_6d                    
840 _L1_5d:                                           
841         bsr.l           scosd                     
842 _L1_6d:                                           
843                                                   
844 #                                                 
845 #       Result is now in FP0                      
846 #                                                 
847         movm.l          EXC_DREGS(%a6),&0x0303    
848         fmovm.l         USER_FPCR(%a6),%fpcr,%    
849         fmovm.x         EXC_FP1(%a6),&0x40        
850         unlk            %a6                       
851         rts                                       
852                                                   
853         global          _fcosx_                   
854 _fcosx_:                                          
855         link            %a6,&-LOCAL_SIZE          
856                                                   
857         movm.l          &0x0303,EXC_DREGS(%a6)    
858         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
859         fmovm.x         &0xc0,EXC_FP0(%a6)        
860                                                   
861         fmov.l          &0x0,%fpcr                
862                                                   
863 #                                                 
864 #       copy, convert, and tag input argument     
865 #                                                 
866         lea             FP_SRC(%a6),%a0           
867         mov.l           0x8+0x0(%a6),0x0(%a0)     
868         mov.l           0x8+0x4(%a6),0x4(%a0)     
869         mov.l           0x8+0x8(%a6),0x8(%a0)     
870         bsr.l           tag                       
871         mov.b           %d0,STAG(%a6)             
872         mov.b           %d0,%d1                   
873                                                   
874         andi.l          &0x00ff00ff,USER_FPSR(    
875                                                   
876         clr.l           %d0                       
877         mov.b           FPCR_MODE(%a6),%d0        
878                                                   
879         tst.b           %d1                       
880         bne.b           _L1_2x                    
881         bsr.l           scos                      
882         bra.b           _L1_6x                    
883 _L1_2x:                                           
884         cmpi.b          %d1,&ZERO                 
885         bne.b           _L1_3x                    
886         bsr.l           ld_pone                   
887         bra.b           _L1_6x                    
888 _L1_3x:                                           
889         cmpi.b          %d1,&INF                  
890         bne.b           _L1_4x                    
891         bsr.l           t_operr                   
892         bra.b           _L1_6x                    
893 _L1_4x:                                           
894         cmpi.b          %d1,&QNAN                 
895         bne.b           _L1_5x                    
896         bsr.l           src_qnan                  
897         bra.b           _L1_6x                    
898 _L1_5x:                                           
899         bsr.l           scosd                     
900 _L1_6x:                                           
901                                                   
902 #                                                 
903 #       Result is now in FP0                      
904 #                                                 
905         movm.l          EXC_DREGS(%a6),&0x0303    
906         fmovm.l         USER_FPCR(%a6),%fpcr,%    
907         fmovm.x         EXC_FP1(%a6),&0x40        
908         unlk            %a6                       
909         rts                                       
910                                                   
911                                                   
912 ##############################################    
913 # MONADIC TEMPLATE                                
914 ##############################################    
915         global          _fsinhs_                  
916 _fsinhs_:                                         
917         link            %a6,&-LOCAL_SIZE          
918                                                   
919         movm.l          &0x0303,EXC_DREGS(%a6)    
920         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
921         fmovm.x         &0xc0,EXC_FP0(%a6)        
922                                                   
923         fmov.l          &0x0,%fpcr                
924                                                   
925 #                                                 
926 #       copy, convert, and tag input argument     
927 #                                                 
928         fmov.s          0x8(%a6),%fp0             
929         fmov.x          %fp0,FP_SRC(%a6)          
930         lea             FP_SRC(%a6),%a0           
931         bsr.l           tag                       
932         mov.b           %d0,STAG(%a6)             
933         mov.b           %d0,%d1                   
934                                                   
935         andi.l          &0x00ff00ff,USER_FPSR(    
936                                                   
937         clr.l           %d0                       
938         mov.b           FPCR_MODE(%a6),%d0        
939                                                   
940         tst.b           %d1                       
941         bne.b           _L2_2s                    
942         bsr.l           ssinh                     
943         bra.b           _L2_6s                    
944 _L2_2s:                                           
945         cmpi.b          %d1,&ZERO                 
946         bne.b           _L2_3s                    
947         bsr.l           src_zero                  
948         bra.b           _L2_6s                    
949 _L2_3s:                                           
950         cmpi.b          %d1,&INF                  
951         bne.b           _L2_4s                    
952         bsr.l           src_inf                   
953         bra.b           _L2_6s                    
954 _L2_4s:                                           
955         cmpi.b          %d1,&QNAN                 
956         bne.b           _L2_5s                    
957         bsr.l           src_qnan                  
958         bra.b           _L2_6s                    
959 _L2_5s:                                           
960         bsr.l           ssinhd                    
961 _L2_6s:                                           
962                                                   
963 #                                                 
964 #       Result is now in FP0                      
965 #                                                 
966         movm.l          EXC_DREGS(%a6),&0x0303    
967         fmovm.l         USER_FPCR(%a6),%fpcr,%    
968         fmovm.x         EXC_FP1(%a6),&0x40        
969         unlk            %a6                       
970         rts                                       
971                                                   
972         global          _fsinhd_                  
973 _fsinhd_:                                         
974         link            %a6,&-LOCAL_SIZE          
975                                                   
976         movm.l          &0x0303,EXC_DREGS(%a6)    
977         fmovm.l         %fpcr,%fpsr,USER_FPCR(    
978         fmovm.x         &0xc0,EXC_FP0(%a6)        
979                                                   
980         fmov.l          &0x0,%fpcr                
981                                                   
982 #                                                 
983 #       copy, convert, and tag input argument     
984 #                                                 
985         fmov.d          0x8(%a6),%fp0             
986         fmov.x          %fp0,FP_SRC(%a6)          
987         lea             FP_SRC(%a6),%a0           
988         bsr.l           tag                       
989         mov.b           %d0,STAG(%a6)             
990         mov.b           %d0,%d1                   
991                                                   
992         andi.l          &0x00ff00ff,USER_FPSR(    
993                                                   
994         clr.l           %d0                       
995         mov.b           FPCR_MODE(%a6),%d0        
996                                                   
997         mov.b           %d1,STAG(%a6)             
998         tst.b           %d1                       
999         bne.b           _L2_2d                    
1000         bsr.l           ssinh                    
1001         bra.b           _L2_6d                   
1002 _L2_2d:                                          
1003         cmpi.b          %d1,&ZERO                
1004         bne.b           _L2_3d                   
1005         bsr.l           src_zero                 
1006         bra.b           _L2_6d                   
1007 _L2_3d:                                          
1008         cmpi.b          %d1,&INF                 
1009         bne.b           _L2_4d                   
1010         bsr.l           src_inf                  
1011         bra.b           _L2_6d                   
1012 _L2_4d:                                          
1013         cmpi.b          %d1,&QNAN                
1014         bne.b           _L2_5d                   
1015         bsr.l           src_qnan                 
1016         bra.b           _L2_6d                   
1017 _L2_5d:                                          
1018         bsr.l           ssinhd                   
1019 _L2_6d:                                          
1020                                                  
1021 #                                                
1022 #       Result is now in FP0                     
1023 #                                                
1024         movm.l          EXC_DREGS(%a6),&0x030    
1025         fmovm.l         USER_FPCR(%a6),%fpcr,    
1026         fmovm.x         EXC_FP1(%a6),&0x40       
1027         unlk            %a6                      
1028         rts                                      
1029                                                  
1030         global          _fsinhx_                 
1031 _fsinhx_:                                        
1032         link            %a6,&-LOCAL_SIZE         
1033                                                  
1034         movm.l          &0x0303,EXC_DREGS(%a6    
1035         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1036         fmovm.x         &0xc0,EXC_FP0(%a6)       
1037                                                  
1038         fmov.l          &0x0,%fpcr               
1039                                                  
1040 #                                                
1041 #       copy, convert, and tag input argument    
1042 #                                                
1043         lea             FP_SRC(%a6),%a0          
1044         mov.l           0x8+0x0(%a6),0x0(%a0)    
1045         mov.l           0x8+0x4(%a6),0x4(%a0)    
1046         mov.l           0x8+0x8(%a6),0x8(%a0)    
1047         bsr.l           tag                      
1048         mov.b           %d0,STAG(%a6)            
1049         mov.b           %d0,%d1                  
1050                                                  
1051         andi.l          &0x00ff00ff,USER_FPSR    
1052                                                  
1053         clr.l           %d0                      
1054         mov.b           FPCR_MODE(%a6),%d0       
1055                                                  
1056         tst.b           %d1                      
1057         bne.b           _L2_2x                   
1058         bsr.l           ssinh                    
1059         bra.b           _L2_6x                   
1060 _L2_2x:                                          
1061         cmpi.b          %d1,&ZERO                
1062         bne.b           _L2_3x                   
1063         bsr.l           src_zero                 
1064         bra.b           _L2_6x                   
1065 _L2_3x:                                          
1066         cmpi.b          %d1,&INF                 
1067         bne.b           _L2_4x                   
1068         bsr.l           src_inf                  
1069         bra.b           _L2_6x                   
1070 _L2_4x:                                          
1071         cmpi.b          %d1,&QNAN                
1072         bne.b           _L2_5x                   
1073         bsr.l           src_qnan                 
1074         bra.b           _L2_6x                   
1075 _L2_5x:                                          
1076         bsr.l           ssinhd                   
1077 _L2_6x:                                          
1078                                                  
1079 #                                                
1080 #       Result is now in FP0                     
1081 #                                                
1082         movm.l          EXC_DREGS(%a6),&0x030    
1083         fmovm.l         USER_FPCR(%a6),%fpcr,    
1084         fmovm.x         EXC_FP1(%a6),&0x40       
1085         unlk            %a6                      
1086         rts                                      
1087                                                  
1088                                                  
1089 #############################################    
1090 # MONADIC TEMPLATE                               
1091 #############################################    
1092         global          _flognp1s_               
1093 _flognp1s_:                                      
1094         link            %a6,&-LOCAL_SIZE         
1095                                                  
1096         movm.l          &0x0303,EXC_DREGS(%a6    
1097         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1098         fmovm.x         &0xc0,EXC_FP0(%a6)       
1099                                                  
1100         fmov.l          &0x0,%fpcr               
1101                                                  
1102 #                                                
1103 #       copy, convert, and tag input argument    
1104 #                                                
1105         fmov.s          0x8(%a6),%fp0            
1106         fmov.x          %fp0,FP_SRC(%a6)         
1107         lea             FP_SRC(%a6),%a0          
1108         bsr.l           tag                      
1109         mov.b           %d0,STAG(%a6)            
1110         mov.b           %d0,%d1                  
1111                                                  
1112         andi.l          &0x00ff00ff,USER_FPSR    
1113                                                  
1114         clr.l           %d0                      
1115         mov.b           FPCR_MODE(%a6),%d0       
1116                                                  
1117         tst.b           %d1                      
1118         bne.b           _L3_2s                   
1119         bsr.l           slognp1                  
1120         bra.b           _L3_6s                   
1121 _L3_2s:                                          
1122         cmpi.b          %d1,&ZERO                
1123         bne.b           _L3_3s                   
1124         bsr.l           src_zero                 
1125         bra.b           _L3_6s                   
1126 _L3_3s:                                          
1127         cmpi.b          %d1,&INF                 
1128         bne.b           _L3_4s                   
1129         bsr.l           sopr_inf                 
1130         bra.b           _L3_6s                   
1131 _L3_4s:                                          
1132         cmpi.b          %d1,&QNAN                
1133         bne.b           _L3_5s                   
1134         bsr.l           src_qnan                 
1135         bra.b           _L3_6s                   
1136 _L3_5s:                                          
1137         bsr.l           slognp1d                 
1138 _L3_6s:                                          
1139                                                  
1140 #                                                
1141 #       Result is now in FP0                     
1142 #                                                
1143         movm.l          EXC_DREGS(%a6),&0x030    
1144         fmovm.l         USER_FPCR(%a6),%fpcr,    
1145         fmovm.x         EXC_FP1(%a6),&0x40       
1146         unlk            %a6                      
1147         rts                                      
1148                                                  
1149         global          _flognp1d_               
1150 _flognp1d_:                                      
1151         link            %a6,&-LOCAL_SIZE         
1152                                                  
1153         movm.l          &0x0303,EXC_DREGS(%a6    
1154         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1155         fmovm.x         &0xc0,EXC_FP0(%a6)       
1156                                                  
1157         fmov.l          &0x0,%fpcr               
1158                                                  
1159 #                                                
1160 #       copy, convert, and tag input argument    
1161 #                                                
1162         fmov.d          0x8(%a6),%fp0            
1163         fmov.x          %fp0,FP_SRC(%a6)         
1164         lea             FP_SRC(%a6),%a0          
1165         bsr.l           tag                      
1166         mov.b           %d0,STAG(%a6)            
1167         mov.b           %d0,%d1                  
1168                                                  
1169         andi.l          &0x00ff00ff,USER_FPSR    
1170                                                  
1171         clr.l           %d0                      
1172         mov.b           FPCR_MODE(%a6),%d0       
1173                                                  
1174         mov.b           %d1,STAG(%a6)            
1175         tst.b           %d1                      
1176         bne.b           _L3_2d                   
1177         bsr.l           slognp1                  
1178         bra.b           _L3_6d                   
1179 _L3_2d:                                          
1180         cmpi.b          %d1,&ZERO                
1181         bne.b           _L3_3d                   
1182         bsr.l           src_zero                 
1183         bra.b           _L3_6d                   
1184 _L3_3d:                                          
1185         cmpi.b          %d1,&INF                 
1186         bne.b           _L3_4d                   
1187         bsr.l           sopr_inf                 
1188         bra.b           _L3_6d                   
1189 _L3_4d:                                          
1190         cmpi.b          %d1,&QNAN                
1191         bne.b           _L3_5d                   
1192         bsr.l           src_qnan                 
1193         bra.b           _L3_6d                   
1194 _L3_5d:                                          
1195         bsr.l           slognp1d                 
1196 _L3_6d:                                          
1197                                                  
1198 #                                                
1199 #       Result is now in FP0                     
1200 #                                                
1201         movm.l          EXC_DREGS(%a6),&0x030    
1202         fmovm.l         USER_FPCR(%a6),%fpcr,    
1203         fmovm.x         EXC_FP1(%a6),&0x40       
1204         unlk            %a6                      
1205         rts                                      
1206                                                  
1207         global          _flognp1x_               
1208 _flognp1x_:                                      
1209         link            %a6,&-LOCAL_SIZE         
1210                                                  
1211         movm.l          &0x0303,EXC_DREGS(%a6    
1212         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1213         fmovm.x         &0xc0,EXC_FP0(%a6)       
1214                                                  
1215         fmov.l          &0x0,%fpcr               
1216                                                  
1217 #                                                
1218 #       copy, convert, and tag input argument    
1219 #                                                
1220         lea             FP_SRC(%a6),%a0          
1221         mov.l           0x8+0x0(%a6),0x0(%a0)    
1222         mov.l           0x8+0x4(%a6),0x4(%a0)    
1223         mov.l           0x8+0x8(%a6),0x8(%a0)    
1224         bsr.l           tag                      
1225         mov.b           %d0,STAG(%a6)            
1226         mov.b           %d0,%d1                  
1227                                                  
1228         andi.l          &0x00ff00ff,USER_FPSR    
1229                                                  
1230         clr.l           %d0                      
1231         mov.b           FPCR_MODE(%a6),%d0       
1232                                                  
1233         tst.b           %d1                      
1234         bne.b           _L3_2x                   
1235         bsr.l           slognp1                  
1236         bra.b           _L3_6x                   
1237 _L3_2x:                                          
1238         cmpi.b          %d1,&ZERO                
1239         bne.b           _L3_3x                   
1240         bsr.l           src_zero                 
1241         bra.b           _L3_6x                   
1242 _L3_3x:                                          
1243         cmpi.b          %d1,&INF                 
1244         bne.b           _L3_4x                   
1245         bsr.l           sopr_inf                 
1246         bra.b           _L3_6x                   
1247 _L3_4x:                                          
1248         cmpi.b          %d1,&QNAN                
1249         bne.b           _L3_5x                   
1250         bsr.l           src_qnan                 
1251         bra.b           _L3_6x                   
1252 _L3_5x:                                          
1253         bsr.l           slognp1d                 
1254 _L3_6x:                                          
1255                                                  
1256 #                                                
1257 #       Result is now in FP0                     
1258 #                                                
1259         movm.l          EXC_DREGS(%a6),&0x030    
1260         fmovm.l         USER_FPCR(%a6),%fpcr,    
1261         fmovm.x         EXC_FP1(%a6),&0x40       
1262         unlk            %a6                      
1263         rts                                      
1264                                                  
1265                                                  
1266 #############################################    
1267 # MONADIC TEMPLATE                               
1268 #############################################    
1269         global          _fetoxm1s_               
1270 _fetoxm1s_:                                      
1271         link            %a6,&-LOCAL_SIZE         
1272                                                  
1273         movm.l          &0x0303,EXC_DREGS(%a6    
1274         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1275         fmovm.x         &0xc0,EXC_FP0(%a6)       
1276                                                  
1277         fmov.l          &0x0,%fpcr               
1278                                                  
1279 #                                                
1280 #       copy, convert, and tag input argument    
1281 #                                                
1282         fmov.s          0x8(%a6),%fp0            
1283         fmov.x          %fp0,FP_SRC(%a6)         
1284         lea             FP_SRC(%a6),%a0          
1285         bsr.l           tag                      
1286         mov.b           %d0,STAG(%a6)            
1287         mov.b           %d0,%d1                  
1288                                                  
1289         andi.l          &0x00ff00ff,USER_FPSR    
1290                                                  
1291         clr.l           %d0                      
1292         mov.b           FPCR_MODE(%a6),%d0       
1293                                                  
1294         tst.b           %d1                      
1295         bne.b           _L4_2s                   
1296         bsr.l           setoxm1                  
1297         bra.b           _L4_6s                   
1298 _L4_2s:                                          
1299         cmpi.b          %d1,&ZERO                
1300         bne.b           _L4_3s                   
1301         bsr.l           src_zero                 
1302         bra.b           _L4_6s                   
1303 _L4_3s:                                          
1304         cmpi.b          %d1,&INF                 
1305         bne.b           _L4_4s                   
1306         bsr.l           setoxm1i                 
1307         bra.b           _L4_6s                   
1308 _L4_4s:                                          
1309         cmpi.b          %d1,&QNAN                
1310         bne.b           _L4_5s                   
1311         bsr.l           src_qnan                 
1312         bra.b           _L4_6s                   
1313 _L4_5s:                                          
1314         bsr.l           setoxm1d                 
1315 _L4_6s:                                          
1316                                                  
1317 #                                                
1318 #       Result is now in FP0                     
1319 #                                                
1320         movm.l          EXC_DREGS(%a6),&0x030    
1321         fmovm.l         USER_FPCR(%a6),%fpcr,    
1322         fmovm.x         EXC_FP1(%a6),&0x40       
1323         unlk            %a6                      
1324         rts                                      
1325                                                  
1326         global          _fetoxm1d_               
1327 _fetoxm1d_:                                      
1328         link            %a6,&-LOCAL_SIZE         
1329                                                  
1330         movm.l          &0x0303,EXC_DREGS(%a6    
1331         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1332         fmovm.x         &0xc0,EXC_FP0(%a6)       
1333                                                  
1334         fmov.l          &0x0,%fpcr               
1335                                                  
1336 #                                                
1337 #       copy, convert, and tag input argument    
1338 #                                                
1339         fmov.d          0x8(%a6),%fp0            
1340         fmov.x          %fp0,FP_SRC(%a6)         
1341         lea             FP_SRC(%a6),%a0          
1342         bsr.l           tag                      
1343         mov.b           %d0,STAG(%a6)            
1344         mov.b           %d0,%d1                  
1345                                                  
1346         andi.l          &0x00ff00ff,USER_FPSR    
1347                                                  
1348         clr.l           %d0                      
1349         mov.b           FPCR_MODE(%a6),%d0       
1350                                                  
1351         mov.b           %d1,STAG(%a6)            
1352         tst.b           %d1                      
1353         bne.b           _L4_2d                   
1354         bsr.l           setoxm1                  
1355         bra.b           _L4_6d                   
1356 _L4_2d:                                          
1357         cmpi.b          %d1,&ZERO                
1358         bne.b           _L4_3d                   
1359         bsr.l           src_zero                 
1360         bra.b           _L4_6d                   
1361 _L4_3d:                                          
1362         cmpi.b          %d1,&INF                 
1363         bne.b           _L4_4d                   
1364         bsr.l           setoxm1i                 
1365         bra.b           _L4_6d                   
1366 _L4_4d:                                          
1367         cmpi.b          %d1,&QNAN                
1368         bne.b           _L4_5d                   
1369         bsr.l           src_qnan                 
1370         bra.b           _L4_6d                   
1371 _L4_5d:                                          
1372         bsr.l           setoxm1d                 
1373 _L4_6d:                                          
1374                                                  
1375 #                                                
1376 #       Result is now in FP0                     
1377 #                                                
1378         movm.l          EXC_DREGS(%a6),&0x030    
1379         fmovm.l         USER_FPCR(%a6),%fpcr,    
1380         fmovm.x         EXC_FP1(%a6),&0x40       
1381         unlk            %a6                      
1382         rts                                      
1383                                                  
1384         global          _fetoxm1x_               
1385 _fetoxm1x_:                                      
1386         link            %a6,&-LOCAL_SIZE         
1387                                                  
1388         movm.l          &0x0303,EXC_DREGS(%a6    
1389         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1390         fmovm.x         &0xc0,EXC_FP0(%a6)       
1391                                                  
1392         fmov.l          &0x0,%fpcr               
1393                                                  
1394 #                                                
1395 #       copy, convert, and tag input argument    
1396 #                                                
1397         lea             FP_SRC(%a6),%a0          
1398         mov.l           0x8+0x0(%a6),0x0(%a0)    
1399         mov.l           0x8+0x4(%a6),0x4(%a0)    
1400         mov.l           0x8+0x8(%a6),0x8(%a0)    
1401         bsr.l           tag                      
1402         mov.b           %d0,STAG(%a6)            
1403         mov.b           %d0,%d1                  
1404                                                  
1405         andi.l          &0x00ff00ff,USER_FPSR    
1406                                                  
1407         clr.l           %d0                      
1408         mov.b           FPCR_MODE(%a6),%d0       
1409                                                  
1410         tst.b           %d1                      
1411         bne.b           _L4_2x                   
1412         bsr.l           setoxm1                  
1413         bra.b           _L4_6x                   
1414 _L4_2x:                                          
1415         cmpi.b          %d1,&ZERO                
1416         bne.b           _L4_3x                   
1417         bsr.l           src_zero                 
1418         bra.b           _L4_6x                   
1419 _L4_3x:                                          
1420         cmpi.b          %d1,&INF                 
1421         bne.b           _L4_4x                   
1422         bsr.l           setoxm1i                 
1423         bra.b           _L4_6x                   
1424 _L4_4x:                                          
1425         cmpi.b          %d1,&QNAN                
1426         bne.b           _L4_5x                   
1427         bsr.l           src_qnan                 
1428         bra.b           _L4_6x                   
1429 _L4_5x:                                          
1430         bsr.l           setoxm1d                 
1431 _L4_6x:                                          
1432                                                  
1433 #                                                
1434 #       Result is now in FP0                     
1435 #                                                
1436         movm.l          EXC_DREGS(%a6),&0x030    
1437         fmovm.l         USER_FPCR(%a6),%fpcr,    
1438         fmovm.x         EXC_FP1(%a6),&0x40       
1439         unlk            %a6                      
1440         rts                                      
1441                                                  
1442                                                  
1443 #############################################    
1444 # MONADIC TEMPLATE                               
1445 #############################################    
1446         global          _ftanhs_                 
1447 _ftanhs_:                                        
1448         link            %a6,&-LOCAL_SIZE         
1449                                                  
1450         movm.l          &0x0303,EXC_DREGS(%a6    
1451         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1452         fmovm.x         &0xc0,EXC_FP0(%a6)       
1453                                                  
1454         fmov.l          &0x0,%fpcr               
1455                                                  
1456 #                                                
1457 #       copy, convert, and tag input argument    
1458 #                                                
1459         fmov.s          0x8(%a6),%fp0            
1460         fmov.x          %fp0,FP_SRC(%a6)         
1461         lea             FP_SRC(%a6),%a0          
1462         bsr.l           tag                      
1463         mov.b           %d0,STAG(%a6)            
1464         mov.b           %d0,%d1                  
1465                                                  
1466         andi.l          &0x00ff00ff,USER_FPSR    
1467                                                  
1468         clr.l           %d0                      
1469         mov.b           FPCR_MODE(%a6),%d0       
1470                                                  
1471         tst.b           %d1                      
1472         bne.b           _L5_2s                   
1473         bsr.l           stanh                    
1474         bra.b           _L5_6s                   
1475 _L5_2s:                                          
1476         cmpi.b          %d1,&ZERO                
1477         bne.b           _L5_3s                   
1478         bsr.l           src_zero                 
1479         bra.b           _L5_6s                   
1480 _L5_3s:                                          
1481         cmpi.b          %d1,&INF                 
1482         bne.b           _L5_4s                   
1483         bsr.l           src_one                  
1484         bra.b           _L5_6s                   
1485 _L5_4s:                                          
1486         cmpi.b          %d1,&QNAN                
1487         bne.b           _L5_5s                   
1488         bsr.l           src_qnan                 
1489         bra.b           _L5_6s                   
1490 _L5_5s:                                          
1491         bsr.l           stanhd                   
1492 _L5_6s:                                          
1493                                                  
1494 #                                                
1495 #       Result is now in FP0                     
1496 #                                                
1497         movm.l          EXC_DREGS(%a6),&0x030    
1498         fmovm.l         USER_FPCR(%a6),%fpcr,    
1499         fmovm.x         EXC_FP1(%a6),&0x40       
1500         unlk            %a6                      
1501         rts                                      
1502                                                  
1503         global          _ftanhd_                 
1504 _ftanhd_:                                        
1505         link            %a6,&-LOCAL_SIZE         
1506                                                  
1507         movm.l          &0x0303,EXC_DREGS(%a6    
1508         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1509         fmovm.x         &0xc0,EXC_FP0(%a6)       
1510                                                  
1511         fmov.l          &0x0,%fpcr               
1512                                                  
1513 #                                                
1514 #       copy, convert, and tag input argument    
1515 #                                                
1516         fmov.d          0x8(%a6),%fp0            
1517         fmov.x          %fp0,FP_SRC(%a6)         
1518         lea             FP_SRC(%a6),%a0          
1519         bsr.l           tag                      
1520         mov.b           %d0,STAG(%a6)            
1521         mov.b           %d0,%d1                  
1522                                                  
1523         andi.l          &0x00ff00ff,USER_FPSR    
1524                                                  
1525         clr.l           %d0                      
1526         mov.b           FPCR_MODE(%a6),%d0       
1527                                                  
1528         mov.b           %d1,STAG(%a6)            
1529         tst.b           %d1                      
1530         bne.b           _L5_2d                   
1531         bsr.l           stanh                    
1532         bra.b           _L5_6d                   
1533 _L5_2d:                                          
1534         cmpi.b          %d1,&ZERO                
1535         bne.b           _L5_3d                   
1536         bsr.l           src_zero                 
1537         bra.b           _L5_6d                   
1538 _L5_3d:                                          
1539         cmpi.b          %d1,&INF                 
1540         bne.b           _L5_4d                   
1541         bsr.l           src_one                  
1542         bra.b           _L5_6d                   
1543 _L5_4d:                                          
1544         cmpi.b          %d1,&QNAN                
1545         bne.b           _L5_5d                   
1546         bsr.l           src_qnan                 
1547         bra.b           _L5_6d                   
1548 _L5_5d:                                          
1549         bsr.l           stanhd                   
1550 _L5_6d:                                          
1551                                                  
1552 #                                                
1553 #       Result is now in FP0                     
1554 #                                                
1555         movm.l          EXC_DREGS(%a6),&0x030    
1556         fmovm.l         USER_FPCR(%a6),%fpcr,    
1557         fmovm.x         EXC_FP1(%a6),&0x40       
1558         unlk            %a6                      
1559         rts                                      
1560                                                  
1561         global          _ftanhx_                 
1562 _ftanhx_:                                        
1563         link            %a6,&-LOCAL_SIZE         
1564                                                  
1565         movm.l          &0x0303,EXC_DREGS(%a6    
1566         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1567         fmovm.x         &0xc0,EXC_FP0(%a6)       
1568                                                  
1569         fmov.l          &0x0,%fpcr               
1570                                                  
1571 #                                                
1572 #       copy, convert, and tag input argument    
1573 #                                                
1574         lea             FP_SRC(%a6),%a0          
1575         mov.l           0x8+0x0(%a6),0x0(%a0)    
1576         mov.l           0x8+0x4(%a6),0x4(%a0)    
1577         mov.l           0x8+0x8(%a6),0x8(%a0)    
1578         bsr.l           tag                      
1579         mov.b           %d0,STAG(%a6)            
1580         mov.b           %d0,%d1                  
1581                                                  
1582         andi.l          &0x00ff00ff,USER_FPSR    
1583                                                  
1584         clr.l           %d0                      
1585         mov.b           FPCR_MODE(%a6),%d0       
1586                                                  
1587         tst.b           %d1                      
1588         bne.b           _L5_2x                   
1589         bsr.l           stanh                    
1590         bra.b           _L5_6x                   
1591 _L5_2x:                                          
1592         cmpi.b          %d1,&ZERO                
1593         bne.b           _L5_3x                   
1594         bsr.l           src_zero                 
1595         bra.b           _L5_6x                   
1596 _L5_3x:                                          
1597         cmpi.b          %d1,&INF                 
1598         bne.b           _L5_4x                   
1599         bsr.l           src_one                  
1600         bra.b           _L5_6x                   
1601 _L5_4x:                                          
1602         cmpi.b          %d1,&QNAN                
1603         bne.b           _L5_5x                   
1604         bsr.l           src_qnan                 
1605         bra.b           _L5_6x                   
1606 _L5_5x:                                          
1607         bsr.l           stanhd                   
1608 _L5_6x:                                          
1609                                                  
1610 #                                                
1611 #       Result is now in FP0                     
1612 #                                                
1613         movm.l          EXC_DREGS(%a6),&0x030    
1614         fmovm.l         USER_FPCR(%a6),%fpcr,    
1615         fmovm.x         EXC_FP1(%a6),&0x40       
1616         unlk            %a6                      
1617         rts                                      
1618                                                  
1619                                                  
1620 #############################################    
1621 # MONADIC TEMPLATE                               
1622 #############################################    
1623         global          _fatans_                 
1624 _fatans_:                                        
1625         link            %a6,&-LOCAL_SIZE         
1626                                                  
1627         movm.l          &0x0303,EXC_DREGS(%a6    
1628         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1629         fmovm.x         &0xc0,EXC_FP0(%a6)       
1630                                                  
1631         fmov.l          &0x0,%fpcr               
1632                                                  
1633 #                                                
1634 #       copy, convert, and tag input argument    
1635 #                                                
1636         fmov.s          0x8(%a6),%fp0            
1637         fmov.x          %fp0,FP_SRC(%a6)         
1638         lea             FP_SRC(%a6),%a0          
1639         bsr.l           tag                      
1640         mov.b           %d0,STAG(%a6)            
1641         mov.b           %d0,%d1                  
1642                                                  
1643         andi.l          &0x00ff00ff,USER_FPSR    
1644                                                  
1645         clr.l           %d0                      
1646         mov.b           FPCR_MODE(%a6),%d0       
1647                                                  
1648         tst.b           %d1                      
1649         bne.b           _L6_2s                   
1650         bsr.l           satan                    
1651         bra.b           _L6_6s                   
1652 _L6_2s:                                          
1653         cmpi.b          %d1,&ZERO                
1654         bne.b           _L6_3s                   
1655         bsr.l           src_zero                 
1656         bra.b           _L6_6s                   
1657 _L6_3s:                                          
1658         cmpi.b          %d1,&INF                 
1659         bne.b           _L6_4s                   
1660         bsr.l           spi_2                    
1661         bra.b           _L6_6s                   
1662 _L6_4s:                                          
1663         cmpi.b          %d1,&QNAN                
1664         bne.b           _L6_5s                   
1665         bsr.l           src_qnan                 
1666         bra.b           _L6_6s                   
1667 _L6_5s:                                          
1668         bsr.l           satand                   
1669 _L6_6s:                                          
1670                                                  
1671 #                                                
1672 #       Result is now in FP0                     
1673 #                                                
1674         movm.l          EXC_DREGS(%a6),&0x030    
1675         fmovm.l         USER_FPCR(%a6),%fpcr,    
1676         fmovm.x         EXC_FP1(%a6),&0x40       
1677         unlk            %a6                      
1678         rts                                      
1679                                                  
1680         global          _fatand_                 
1681 _fatand_:                                        
1682         link            %a6,&-LOCAL_SIZE         
1683                                                  
1684         movm.l          &0x0303,EXC_DREGS(%a6    
1685         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1686         fmovm.x         &0xc0,EXC_FP0(%a6)       
1687                                                  
1688         fmov.l          &0x0,%fpcr               
1689                                                  
1690 #                                                
1691 #       copy, convert, and tag input argument    
1692 #                                                
1693         fmov.d          0x8(%a6),%fp0            
1694         fmov.x          %fp0,FP_SRC(%a6)         
1695         lea             FP_SRC(%a6),%a0          
1696         bsr.l           tag                      
1697         mov.b           %d0,STAG(%a6)            
1698         mov.b           %d0,%d1                  
1699                                                  
1700         andi.l          &0x00ff00ff,USER_FPSR    
1701                                                  
1702         clr.l           %d0                      
1703         mov.b           FPCR_MODE(%a6),%d0       
1704                                                  
1705         mov.b           %d1,STAG(%a6)            
1706         tst.b           %d1                      
1707         bne.b           _L6_2d                   
1708         bsr.l           satan                    
1709         bra.b           _L6_6d                   
1710 _L6_2d:                                          
1711         cmpi.b          %d1,&ZERO                
1712         bne.b           _L6_3d                   
1713         bsr.l           src_zero                 
1714         bra.b           _L6_6d                   
1715 _L6_3d:                                          
1716         cmpi.b          %d1,&INF                 
1717         bne.b           _L6_4d                   
1718         bsr.l           spi_2                    
1719         bra.b           _L6_6d                   
1720 _L6_4d:                                          
1721         cmpi.b          %d1,&QNAN                
1722         bne.b           _L6_5d                   
1723         bsr.l           src_qnan                 
1724         bra.b           _L6_6d                   
1725 _L6_5d:                                          
1726         bsr.l           satand                   
1727 _L6_6d:                                          
1728                                                  
1729 #                                                
1730 #       Result is now in FP0                     
1731 #                                                
1732         movm.l          EXC_DREGS(%a6),&0x030    
1733         fmovm.l         USER_FPCR(%a6),%fpcr,    
1734         fmovm.x         EXC_FP1(%a6),&0x40       
1735         unlk            %a6                      
1736         rts                                      
1737                                                  
1738         global          _fatanx_                 
1739 _fatanx_:                                        
1740         link            %a6,&-LOCAL_SIZE         
1741                                                  
1742         movm.l          &0x0303,EXC_DREGS(%a6    
1743         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1744         fmovm.x         &0xc0,EXC_FP0(%a6)       
1745                                                  
1746         fmov.l          &0x0,%fpcr               
1747                                                  
1748 #                                                
1749 #       copy, convert, and tag input argument    
1750 #                                                
1751         lea             FP_SRC(%a6),%a0          
1752         mov.l           0x8+0x0(%a6),0x0(%a0)    
1753         mov.l           0x8+0x4(%a6),0x4(%a0)    
1754         mov.l           0x8+0x8(%a6),0x8(%a0)    
1755         bsr.l           tag                      
1756         mov.b           %d0,STAG(%a6)            
1757         mov.b           %d0,%d1                  
1758                                                  
1759         andi.l          &0x00ff00ff,USER_FPSR    
1760                                                  
1761         clr.l           %d0                      
1762         mov.b           FPCR_MODE(%a6),%d0       
1763                                                  
1764         tst.b           %d1                      
1765         bne.b           _L6_2x                   
1766         bsr.l           satan                    
1767         bra.b           _L6_6x                   
1768 _L6_2x:                                          
1769         cmpi.b          %d1,&ZERO                
1770         bne.b           _L6_3x                   
1771         bsr.l           src_zero                 
1772         bra.b           _L6_6x                   
1773 _L6_3x:                                          
1774         cmpi.b          %d1,&INF                 
1775         bne.b           _L6_4x                   
1776         bsr.l           spi_2                    
1777         bra.b           _L6_6x                   
1778 _L6_4x:                                          
1779         cmpi.b          %d1,&QNAN                
1780         bne.b           _L6_5x                   
1781         bsr.l           src_qnan                 
1782         bra.b           _L6_6x                   
1783 _L6_5x:                                          
1784         bsr.l           satand                   
1785 _L6_6x:                                          
1786                                                  
1787 #                                                
1788 #       Result is now in FP0                     
1789 #                                                
1790         movm.l          EXC_DREGS(%a6),&0x030    
1791         fmovm.l         USER_FPCR(%a6),%fpcr,    
1792         fmovm.x         EXC_FP1(%a6),&0x40       
1793         unlk            %a6                      
1794         rts                                      
1795                                                  
1796                                                  
1797 #############################################    
1798 # MONADIC TEMPLATE                               
1799 #############################################    
1800         global          _fasins_                 
1801 _fasins_:                                        
1802         link            %a6,&-LOCAL_SIZE         
1803                                                  
1804         movm.l          &0x0303,EXC_DREGS(%a6    
1805         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1806         fmovm.x         &0xc0,EXC_FP0(%a6)       
1807                                                  
1808         fmov.l          &0x0,%fpcr               
1809                                                  
1810 #                                                
1811 #       copy, convert, and tag input argument    
1812 #                                                
1813         fmov.s          0x8(%a6),%fp0            
1814         fmov.x          %fp0,FP_SRC(%a6)         
1815         lea             FP_SRC(%a6),%a0          
1816         bsr.l           tag                      
1817         mov.b           %d0,STAG(%a6)            
1818         mov.b           %d0,%d1                  
1819                                                  
1820         andi.l          &0x00ff00ff,USER_FPSR    
1821                                                  
1822         clr.l           %d0                      
1823         mov.b           FPCR_MODE(%a6),%d0       
1824                                                  
1825         tst.b           %d1                      
1826         bne.b           _L7_2s                   
1827         bsr.l           sasin                    
1828         bra.b           _L7_6s                   
1829 _L7_2s:                                          
1830         cmpi.b          %d1,&ZERO                
1831         bne.b           _L7_3s                   
1832         bsr.l           src_zero                 
1833         bra.b           _L7_6s                   
1834 _L7_3s:                                          
1835         cmpi.b          %d1,&INF                 
1836         bne.b           _L7_4s                   
1837         bsr.l           t_operr                  
1838         bra.b           _L7_6s                   
1839 _L7_4s:                                          
1840         cmpi.b          %d1,&QNAN                
1841         bne.b           _L7_5s                   
1842         bsr.l           src_qnan                 
1843         bra.b           _L7_6s                   
1844 _L7_5s:                                          
1845         bsr.l           sasind                   
1846 _L7_6s:                                          
1847                                                  
1848 #                                                
1849 #       Result is now in FP0                     
1850 #                                                
1851         movm.l          EXC_DREGS(%a6),&0x030    
1852         fmovm.l         USER_FPCR(%a6),%fpcr,    
1853         fmovm.x         EXC_FP1(%a6),&0x40       
1854         unlk            %a6                      
1855         rts                                      
1856                                                  
1857         global          _fasind_                 
1858 _fasind_:                                        
1859         link            %a6,&-LOCAL_SIZE         
1860                                                  
1861         movm.l          &0x0303,EXC_DREGS(%a6    
1862         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1863         fmovm.x         &0xc0,EXC_FP0(%a6)       
1864                                                  
1865         fmov.l          &0x0,%fpcr               
1866                                                  
1867 #                                                
1868 #       copy, convert, and tag input argument    
1869 #                                                
1870         fmov.d          0x8(%a6),%fp0            
1871         fmov.x          %fp0,FP_SRC(%a6)         
1872         lea             FP_SRC(%a6),%a0          
1873         bsr.l           tag                      
1874         mov.b           %d0,STAG(%a6)            
1875         mov.b           %d0,%d1                  
1876                                                  
1877         andi.l          &0x00ff00ff,USER_FPSR    
1878                                                  
1879         clr.l           %d0                      
1880         mov.b           FPCR_MODE(%a6),%d0       
1881                                                  
1882         mov.b           %d1,STAG(%a6)            
1883         tst.b           %d1                      
1884         bne.b           _L7_2d                   
1885         bsr.l           sasin                    
1886         bra.b           _L7_6d                   
1887 _L7_2d:                                          
1888         cmpi.b          %d1,&ZERO                
1889         bne.b           _L7_3d                   
1890         bsr.l           src_zero                 
1891         bra.b           _L7_6d                   
1892 _L7_3d:                                          
1893         cmpi.b          %d1,&INF                 
1894         bne.b           _L7_4d                   
1895         bsr.l           t_operr                  
1896         bra.b           _L7_6d                   
1897 _L7_4d:                                          
1898         cmpi.b          %d1,&QNAN                
1899         bne.b           _L7_5d                   
1900         bsr.l           src_qnan                 
1901         bra.b           _L7_6d                   
1902 _L7_5d:                                          
1903         bsr.l           sasind                   
1904 _L7_6d:                                          
1905                                                  
1906 #                                                
1907 #       Result is now in FP0                     
1908 #                                                
1909         movm.l          EXC_DREGS(%a6),&0x030    
1910         fmovm.l         USER_FPCR(%a6),%fpcr,    
1911         fmovm.x         EXC_FP1(%a6),&0x40       
1912         unlk            %a6                      
1913         rts                                      
1914                                                  
1915         global          _fasinx_                 
1916 _fasinx_:                                        
1917         link            %a6,&-LOCAL_SIZE         
1918                                                  
1919         movm.l          &0x0303,EXC_DREGS(%a6    
1920         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1921         fmovm.x         &0xc0,EXC_FP0(%a6)       
1922                                                  
1923         fmov.l          &0x0,%fpcr               
1924                                                  
1925 #                                                
1926 #       copy, convert, and tag input argument    
1927 #                                                
1928         lea             FP_SRC(%a6),%a0          
1929         mov.l           0x8+0x0(%a6),0x0(%a0)    
1930         mov.l           0x8+0x4(%a6),0x4(%a0)    
1931         mov.l           0x8+0x8(%a6),0x8(%a0)    
1932         bsr.l           tag                      
1933         mov.b           %d0,STAG(%a6)            
1934         mov.b           %d0,%d1                  
1935                                                  
1936         andi.l          &0x00ff00ff,USER_FPSR    
1937                                                  
1938         clr.l           %d0                      
1939         mov.b           FPCR_MODE(%a6),%d0       
1940                                                  
1941         tst.b           %d1                      
1942         bne.b           _L7_2x                   
1943         bsr.l           sasin                    
1944         bra.b           _L7_6x                   
1945 _L7_2x:                                          
1946         cmpi.b          %d1,&ZERO                
1947         bne.b           _L7_3x                   
1948         bsr.l           src_zero                 
1949         bra.b           _L7_6x                   
1950 _L7_3x:                                          
1951         cmpi.b          %d1,&INF                 
1952         bne.b           _L7_4x                   
1953         bsr.l           t_operr                  
1954         bra.b           _L7_6x                   
1955 _L7_4x:                                          
1956         cmpi.b          %d1,&QNAN                
1957         bne.b           _L7_5x                   
1958         bsr.l           src_qnan                 
1959         bra.b           _L7_6x                   
1960 _L7_5x:                                          
1961         bsr.l           sasind                   
1962 _L7_6x:                                          
1963                                                  
1964 #                                                
1965 #       Result is now in FP0                     
1966 #                                                
1967         movm.l          EXC_DREGS(%a6),&0x030    
1968         fmovm.l         USER_FPCR(%a6),%fpcr,    
1969         fmovm.x         EXC_FP1(%a6),&0x40       
1970         unlk            %a6                      
1971         rts                                      
1972                                                  
1973                                                  
1974 #############################################    
1975 # MONADIC TEMPLATE                               
1976 #############################################    
1977         global          _fatanhs_                
1978 _fatanhs_:                                       
1979         link            %a6,&-LOCAL_SIZE         
1980                                                  
1981         movm.l          &0x0303,EXC_DREGS(%a6    
1982         fmovm.l         %fpcr,%fpsr,USER_FPCR    
1983         fmovm.x         &0xc0,EXC_FP0(%a6)       
1984                                                  
1985         fmov.l          &0x0,%fpcr               
1986                                                  
1987 #                                                
1988 #       copy, convert, and tag input argument    
1989 #                                                
1990         fmov.s          0x8(%a6),%fp0            
1991         fmov.x          %fp0,FP_SRC(%a6)         
1992         lea             FP_SRC(%a6),%a0          
1993         bsr.l           tag                      
1994         mov.b           %d0,STAG(%a6)            
1995         mov.b           %d0,%d1                  
1996                                                  
1997         andi.l          &0x00ff00ff,USER_FPSR    
1998                                                  
1999         clr.l           %d0                      
2000         mov.b           FPCR_MODE(%a6),%d0       
2001                                                  
2002         tst.b           %d1                      
2003         bne.b           _L8_2s                   
2004         bsr.l           satanh                   
2005         bra.b           _L8_6s                   
2006 _L8_2s:                                          
2007         cmpi.b          %d1,&ZERO                
2008         bne.b           _L8_3s                   
2009         bsr.l           src_zero                 
2010         bra.b           _L8_6s                   
2011 _L8_3s:                                          
2012         cmpi.b          %d1,&INF                 
2013         bne.b           _L8_4s                   
2014         bsr.l           t_operr                  
2015         bra.b           _L8_6s                   
2016 _L8_4s:                                          
2017         cmpi.b          %d1,&QNAN                
2018         bne.b           _L8_5s                   
2019         bsr.l           src_qnan                 
2020         bra.b           _L8_6s                   
2021 _L8_5s:                                          
2022         bsr.l           satanhd                  
2023 _L8_6s:                                          
2024                                                  
2025 #                                                
2026 #       Result is now in FP0                     
2027 #                                                
2028         movm.l          EXC_DREGS(%a6),&0x030    
2029         fmovm.l         USER_FPCR(%a6),%fpcr,    
2030         fmovm.x         EXC_FP1(%a6),&0x40       
2031         unlk            %a6                      
2032         rts                                      
2033                                                  
2034         global          _fatanhd_                
2035 _fatanhd_:                                       
2036         link            %a6,&-LOCAL_SIZE         
2037                                                  
2038         movm.l          &0x0303,EXC_DREGS(%a6    
2039         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2040         fmovm.x         &0xc0,EXC_FP0(%a6)       
2041                                                  
2042         fmov.l          &0x0,%fpcr               
2043                                                  
2044 #                                                
2045 #       copy, convert, and tag input argument    
2046 #                                                
2047         fmov.d          0x8(%a6),%fp0            
2048         fmov.x          %fp0,FP_SRC(%a6)         
2049         lea             FP_SRC(%a6),%a0          
2050         bsr.l           tag                      
2051         mov.b           %d0,STAG(%a6)            
2052         mov.b           %d0,%d1                  
2053                                                  
2054         andi.l          &0x00ff00ff,USER_FPSR    
2055                                                  
2056         clr.l           %d0                      
2057         mov.b           FPCR_MODE(%a6),%d0       
2058                                                  
2059         mov.b           %d1,STAG(%a6)            
2060         tst.b           %d1                      
2061         bne.b           _L8_2d                   
2062         bsr.l           satanh                   
2063         bra.b           _L8_6d                   
2064 _L8_2d:                                          
2065         cmpi.b          %d1,&ZERO                
2066         bne.b           _L8_3d                   
2067         bsr.l           src_zero                 
2068         bra.b           _L8_6d                   
2069 _L8_3d:                                          
2070         cmpi.b          %d1,&INF                 
2071         bne.b           _L8_4d                   
2072         bsr.l           t_operr                  
2073         bra.b           _L8_6d                   
2074 _L8_4d:                                          
2075         cmpi.b          %d1,&QNAN                
2076         bne.b           _L8_5d                   
2077         bsr.l           src_qnan                 
2078         bra.b           _L8_6d                   
2079 _L8_5d:                                          
2080         bsr.l           satanhd                  
2081 _L8_6d:                                          
2082                                                  
2083 #                                                
2084 #       Result is now in FP0                     
2085 #                                                
2086         movm.l          EXC_DREGS(%a6),&0x030    
2087         fmovm.l         USER_FPCR(%a6),%fpcr,    
2088         fmovm.x         EXC_FP1(%a6),&0x40       
2089         unlk            %a6                      
2090         rts                                      
2091                                                  
2092         global          _fatanhx_                
2093 _fatanhx_:                                       
2094         link            %a6,&-LOCAL_SIZE         
2095                                                  
2096         movm.l          &0x0303,EXC_DREGS(%a6    
2097         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2098         fmovm.x         &0xc0,EXC_FP0(%a6)       
2099                                                  
2100         fmov.l          &0x0,%fpcr               
2101                                                  
2102 #                                                
2103 #       copy, convert, and tag input argument    
2104 #                                                
2105         lea             FP_SRC(%a6),%a0          
2106         mov.l           0x8+0x0(%a6),0x0(%a0)    
2107         mov.l           0x8+0x4(%a6),0x4(%a0)    
2108         mov.l           0x8+0x8(%a6),0x8(%a0)    
2109         bsr.l           tag                      
2110         mov.b           %d0,STAG(%a6)            
2111         mov.b           %d0,%d1                  
2112                                                  
2113         andi.l          &0x00ff00ff,USER_FPSR    
2114                                                  
2115         clr.l           %d0                      
2116         mov.b           FPCR_MODE(%a6),%d0       
2117                                                  
2118         tst.b           %d1                      
2119         bne.b           _L8_2x                   
2120         bsr.l           satanh                   
2121         bra.b           _L8_6x                   
2122 _L8_2x:                                          
2123         cmpi.b          %d1,&ZERO                
2124         bne.b           _L8_3x                   
2125         bsr.l           src_zero                 
2126         bra.b           _L8_6x                   
2127 _L8_3x:                                          
2128         cmpi.b          %d1,&INF                 
2129         bne.b           _L8_4x                   
2130         bsr.l           t_operr                  
2131         bra.b           _L8_6x                   
2132 _L8_4x:                                          
2133         cmpi.b          %d1,&QNAN                
2134         bne.b           _L8_5x                   
2135         bsr.l           src_qnan                 
2136         bra.b           _L8_6x                   
2137 _L8_5x:                                          
2138         bsr.l           satanhd                  
2139 _L8_6x:                                          
2140                                                  
2141 #                                                
2142 #       Result is now in FP0                     
2143 #                                                
2144         movm.l          EXC_DREGS(%a6),&0x030    
2145         fmovm.l         USER_FPCR(%a6),%fpcr,    
2146         fmovm.x         EXC_FP1(%a6),&0x40       
2147         unlk            %a6                      
2148         rts                                      
2149                                                  
2150                                                  
2151 #############################################    
2152 # MONADIC TEMPLATE                               
2153 #############################################    
2154         global          _ftans_                  
2155 _ftans_:                                         
2156         link            %a6,&-LOCAL_SIZE         
2157                                                  
2158         movm.l          &0x0303,EXC_DREGS(%a6    
2159         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2160         fmovm.x         &0xc0,EXC_FP0(%a6)       
2161                                                  
2162         fmov.l          &0x0,%fpcr               
2163                                                  
2164 #                                                
2165 #       copy, convert, and tag input argument    
2166 #                                                
2167         fmov.s          0x8(%a6),%fp0            
2168         fmov.x          %fp0,FP_SRC(%a6)         
2169         lea             FP_SRC(%a6),%a0          
2170         bsr.l           tag                      
2171         mov.b           %d0,STAG(%a6)            
2172         mov.b           %d0,%d1                  
2173                                                  
2174         andi.l          &0x00ff00ff,USER_FPSR    
2175                                                  
2176         clr.l           %d0                      
2177         mov.b           FPCR_MODE(%a6),%d0       
2178                                                  
2179         tst.b           %d1                      
2180         bne.b           _L9_2s                   
2181         bsr.l           stan                     
2182         bra.b           _L9_6s                   
2183 _L9_2s:                                          
2184         cmpi.b          %d1,&ZERO                
2185         bne.b           _L9_3s                   
2186         bsr.l           src_zero                 
2187         bra.b           _L9_6s                   
2188 _L9_3s:                                          
2189         cmpi.b          %d1,&INF                 
2190         bne.b           _L9_4s                   
2191         bsr.l           t_operr                  
2192         bra.b           _L9_6s                   
2193 _L9_4s:                                          
2194         cmpi.b          %d1,&QNAN                
2195         bne.b           _L9_5s                   
2196         bsr.l           src_qnan                 
2197         bra.b           _L9_6s                   
2198 _L9_5s:                                          
2199         bsr.l           stand                    
2200 _L9_6s:                                          
2201                                                  
2202 #                                                
2203 #       Result is now in FP0                     
2204 #                                                
2205         movm.l          EXC_DREGS(%a6),&0x030    
2206         fmovm.l         USER_FPCR(%a6),%fpcr,    
2207         fmovm.x         EXC_FP1(%a6),&0x40       
2208         unlk            %a6                      
2209         rts                                      
2210                                                  
2211         global          _ftand_                  
2212 _ftand_:                                         
2213         link            %a6,&-LOCAL_SIZE         
2214                                                  
2215         movm.l          &0x0303,EXC_DREGS(%a6    
2216         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2217         fmovm.x         &0xc0,EXC_FP0(%a6)       
2218                                                  
2219         fmov.l          &0x0,%fpcr               
2220                                                  
2221 #                                                
2222 #       copy, convert, and tag input argument    
2223 #                                                
2224         fmov.d          0x8(%a6),%fp0            
2225         fmov.x          %fp0,FP_SRC(%a6)         
2226         lea             FP_SRC(%a6),%a0          
2227         bsr.l           tag                      
2228         mov.b           %d0,STAG(%a6)            
2229         mov.b           %d0,%d1                  
2230                                                  
2231         andi.l          &0x00ff00ff,USER_FPSR    
2232                                                  
2233         clr.l           %d0                      
2234         mov.b           FPCR_MODE(%a6),%d0       
2235                                                  
2236         mov.b           %d1,STAG(%a6)            
2237         tst.b           %d1                      
2238         bne.b           _L9_2d                   
2239         bsr.l           stan                     
2240         bra.b           _L9_6d                   
2241 _L9_2d:                                          
2242         cmpi.b          %d1,&ZERO                
2243         bne.b           _L9_3d                   
2244         bsr.l           src_zero                 
2245         bra.b           _L9_6d                   
2246 _L9_3d:                                          
2247         cmpi.b          %d1,&INF                 
2248         bne.b           _L9_4d                   
2249         bsr.l           t_operr                  
2250         bra.b           _L9_6d                   
2251 _L9_4d:                                          
2252         cmpi.b          %d1,&QNAN                
2253         bne.b           _L9_5d                   
2254         bsr.l           src_qnan                 
2255         bra.b           _L9_6d                   
2256 _L9_5d:                                          
2257         bsr.l           stand                    
2258 _L9_6d:                                          
2259                                                  
2260 #                                                
2261 #       Result is now in FP0                     
2262 #                                                
2263         movm.l          EXC_DREGS(%a6),&0x030    
2264         fmovm.l         USER_FPCR(%a6),%fpcr,    
2265         fmovm.x         EXC_FP1(%a6),&0x40       
2266         unlk            %a6                      
2267         rts                                      
2268                                                  
2269         global          _ftanx_                  
2270 _ftanx_:                                         
2271         link            %a6,&-LOCAL_SIZE         
2272                                                  
2273         movm.l          &0x0303,EXC_DREGS(%a6    
2274         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2275         fmovm.x         &0xc0,EXC_FP0(%a6)       
2276                                                  
2277         fmov.l          &0x0,%fpcr               
2278                                                  
2279 #                                                
2280 #       copy, convert, and tag input argument    
2281 #                                                
2282         lea             FP_SRC(%a6),%a0          
2283         mov.l           0x8+0x0(%a6),0x0(%a0)    
2284         mov.l           0x8+0x4(%a6),0x4(%a0)    
2285         mov.l           0x8+0x8(%a6),0x8(%a0)    
2286         bsr.l           tag                      
2287         mov.b           %d0,STAG(%a6)            
2288         mov.b           %d0,%d1                  
2289                                                  
2290         andi.l          &0x00ff00ff,USER_FPSR    
2291                                                  
2292         clr.l           %d0                      
2293         mov.b           FPCR_MODE(%a6),%d0       
2294                                                  
2295         tst.b           %d1                      
2296         bne.b           _L9_2x                   
2297         bsr.l           stan                     
2298         bra.b           _L9_6x                   
2299 _L9_2x:                                          
2300         cmpi.b          %d1,&ZERO                
2301         bne.b           _L9_3x                   
2302         bsr.l           src_zero                 
2303         bra.b           _L9_6x                   
2304 _L9_3x:                                          
2305         cmpi.b          %d1,&INF                 
2306         bne.b           _L9_4x                   
2307         bsr.l           t_operr                  
2308         bra.b           _L9_6x                   
2309 _L9_4x:                                          
2310         cmpi.b          %d1,&QNAN                
2311         bne.b           _L9_5x                   
2312         bsr.l           src_qnan                 
2313         bra.b           _L9_6x                   
2314 _L9_5x:                                          
2315         bsr.l           stand                    
2316 _L9_6x:                                          
2317                                                  
2318 #                                                
2319 #       Result is now in FP0                     
2320 #                                                
2321         movm.l          EXC_DREGS(%a6),&0x030    
2322         fmovm.l         USER_FPCR(%a6),%fpcr,    
2323         fmovm.x         EXC_FP1(%a6),&0x40       
2324         unlk            %a6                      
2325         rts                                      
2326                                                  
2327                                                  
2328 #############################################    
2329 # MONADIC TEMPLATE                               
2330 #############################################    
2331         global          _fetoxs_                 
2332 _fetoxs_:                                        
2333         link            %a6,&-LOCAL_SIZE         
2334                                                  
2335         movm.l          &0x0303,EXC_DREGS(%a6    
2336         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2337         fmovm.x         &0xc0,EXC_FP0(%a6)       
2338                                                  
2339         fmov.l          &0x0,%fpcr               
2340                                                  
2341 #                                                
2342 #       copy, convert, and tag input argument    
2343 #                                                
2344         fmov.s          0x8(%a6),%fp0            
2345         fmov.x          %fp0,FP_SRC(%a6)         
2346         lea             FP_SRC(%a6),%a0          
2347         bsr.l           tag                      
2348         mov.b           %d0,STAG(%a6)            
2349         mov.b           %d0,%d1                  
2350                                                  
2351         andi.l          &0x00ff00ff,USER_FPSR    
2352                                                  
2353         clr.l           %d0                      
2354         mov.b           FPCR_MODE(%a6),%d0       
2355                                                  
2356         tst.b           %d1                      
2357         bne.b           _L10_2s                  
2358         bsr.l           setox                    
2359         bra.b           _L10_6s                  
2360 _L10_2s:                                         
2361         cmpi.b          %d1,&ZERO                
2362         bne.b           _L10_3s                  
2363         bsr.l           ld_pone                  
2364         bra.b           _L10_6s                  
2365 _L10_3s:                                         
2366         cmpi.b          %d1,&INF                 
2367         bne.b           _L10_4s                  
2368         bsr.l           szr_inf                  
2369         bra.b           _L10_6s                  
2370 _L10_4s:                                         
2371         cmpi.b          %d1,&QNAN                
2372         bne.b           _L10_5s                  
2373         bsr.l           src_qnan                 
2374         bra.b           _L10_6s                  
2375 _L10_5s:                                         
2376         bsr.l           setoxd                   
2377 _L10_6s:                                         
2378                                                  
2379 #                                                
2380 #       Result is now in FP0                     
2381 #                                                
2382         movm.l          EXC_DREGS(%a6),&0x030    
2383         fmovm.l         USER_FPCR(%a6),%fpcr,    
2384         fmovm.x         EXC_FP1(%a6),&0x40       
2385         unlk            %a6                      
2386         rts                                      
2387                                                  
2388         global          _fetoxd_                 
2389 _fetoxd_:                                        
2390         link            %a6,&-LOCAL_SIZE         
2391                                                  
2392         movm.l          &0x0303,EXC_DREGS(%a6    
2393         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2394         fmovm.x         &0xc0,EXC_FP0(%a6)       
2395                                                  
2396         fmov.l          &0x0,%fpcr               
2397                                                  
2398 #                                                
2399 #       copy, convert, and tag input argument    
2400 #                                                
2401         fmov.d          0x8(%a6),%fp0            
2402         fmov.x          %fp0,FP_SRC(%a6)         
2403         lea             FP_SRC(%a6),%a0          
2404         bsr.l           tag                      
2405         mov.b           %d0,STAG(%a6)            
2406         mov.b           %d0,%d1                  
2407                                                  
2408         andi.l          &0x00ff00ff,USER_FPSR    
2409                                                  
2410         clr.l           %d0                      
2411         mov.b           FPCR_MODE(%a6),%d0       
2412                                                  
2413         mov.b           %d1,STAG(%a6)            
2414         tst.b           %d1                      
2415         bne.b           _L10_2d                  
2416         bsr.l           setox                    
2417         bra.b           _L10_6d                  
2418 _L10_2d:                                         
2419         cmpi.b          %d1,&ZERO                
2420         bne.b           _L10_3d                  
2421         bsr.l           ld_pone                  
2422         bra.b           _L10_6d                  
2423 _L10_3d:                                         
2424         cmpi.b          %d1,&INF                 
2425         bne.b           _L10_4d                  
2426         bsr.l           szr_inf                  
2427         bra.b           _L10_6d                  
2428 _L10_4d:                                         
2429         cmpi.b          %d1,&QNAN                
2430         bne.b           _L10_5d                  
2431         bsr.l           src_qnan                 
2432         bra.b           _L10_6d                  
2433 _L10_5d:                                         
2434         bsr.l           setoxd                   
2435 _L10_6d:                                         
2436                                                  
2437 #                                                
2438 #       Result is now in FP0                     
2439 #                                                
2440         movm.l          EXC_DREGS(%a6),&0x030    
2441         fmovm.l         USER_FPCR(%a6),%fpcr,    
2442         fmovm.x         EXC_FP1(%a6),&0x40       
2443         unlk            %a6                      
2444         rts                                      
2445                                                  
2446         global          _fetoxx_                 
2447 _fetoxx_:                                        
2448         link            %a6,&-LOCAL_SIZE         
2449                                                  
2450         movm.l          &0x0303,EXC_DREGS(%a6    
2451         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2452         fmovm.x         &0xc0,EXC_FP0(%a6)       
2453                                                  
2454         fmov.l          &0x0,%fpcr               
2455                                                  
2456 #                                                
2457 #       copy, convert, and tag input argument    
2458 #                                                
2459         lea             FP_SRC(%a6),%a0          
2460         mov.l           0x8+0x0(%a6),0x0(%a0)    
2461         mov.l           0x8+0x4(%a6),0x4(%a0)    
2462         mov.l           0x8+0x8(%a6),0x8(%a0)    
2463         bsr.l           tag                      
2464         mov.b           %d0,STAG(%a6)            
2465         mov.b           %d0,%d1                  
2466                                                  
2467         andi.l          &0x00ff00ff,USER_FPSR    
2468                                                  
2469         clr.l           %d0                      
2470         mov.b           FPCR_MODE(%a6),%d0       
2471                                                  
2472         tst.b           %d1                      
2473         bne.b           _L10_2x                  
2474         bsr.l           setox                    
2475         bra.b           _L10_6x                  
2476 _L10_2x:                                         
2477         cmpi.b          %d1,&ZERO                
2478         bne.b           _L10_3x                  
2479         bsr.l           ld_pone                  
2480         bra.b           _L10_6x                  
2481 _L10_3x:                                         
2482         cmpi.b          %d1,&INF                 
2483         bne.b           _L10_4x                  
2484         bsr.l           szr_inf                  
2485         bra.b           _L10_6x                  
2486 _L10_4x:                                         
2487         cmpi.b          %d1,&QNAN                
2488         bne.b           _L10_5x                  
2489         bsr.l           src_qnan                 
2490         bra.b           _L10_6x                  
2491 _L10_5x:                                         
2492         bsr.l           setoxd                   
2493 _L10_6x:                                         
2494                                                  
2495 #                                                
2496 #       Result is now in FP0                     
2497 #                                                
2498         movm.l          EXC_DREGS(%a6),&0x030    
2499         fmovm.l         USER_FPCR(%a6),%fpcr,    
2500         fmovm.x         EXC_FP1(%a6),&0x40       
2501         unlk            %a6                      
2502         rts                                      
2503                                                  
2504                                                  
2505 #############################################    
2506 # MONADIC TEMPLATE                               
2507 #############################################    
2508         global          _ftwotoxs_               
2509 _ftwotoxs_:                                      
2510         link            %a6,&-LOCAL_SIZE         
2511                                                  
2512         movm.l          &0x0303,EXC_DREGS(%a6    
2513         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2514         fmovm.x         &0xc0,EXC_FP0(%a6)       
2515                                                  
2516         fmov.l          &0x0,%fpcr               
2517                                                  
2518 #                                                
2519 #       copy, convert, and tag input argument    
2520 #                                                
2521         fmov.s          0x8(%a6),%fp0            
2522         fmov.x          %fp0,FP_SRC(%a6)         
2523         lea             FP_SRC(%a6),%a0          
2524         bsr.l           tag                      
2525         mov.b           %d0,STAG(%a6)            
2526         mov.b           %d0,%d1                  
2527                                                  
2528         andi.l          &0x00ff00ff,USER_FPSR    
2529                                                  
2530         clr.l           %d0                      
2531         mov.b           FPCR_MODE(%a6),%d0       
2532                                                  
2533         tst.b           %d1                      
2534         bne.b           _L11_2s                  
2535         bsr.l           stwotox                  
2536         bra.b           _L11_6s                  
2537 _L11_2s:                                         
2538         cmpi.b          %d1,&ZERO                
2539         bne.b           _L11_3s                  
2540         bsr.l           ld_pone                  
2541         bra.b           _L11_6s                  
2542 _L11_3s:                                         
2543         cmpi.b          %d1,&INF                 
2544         bne.b           _L11_4s                  
2545         bsr.l           szr_inf                  
2546         bra.b           _L11_6s                  
2547 _L11_4s:                                         
2548         cmpi.b          %d1,&QNAN                
2549         bne.b           _L11_5s                  
2550         bsr.l           src_qnan                 
2551         bra.b           _L11_6s                  
2552 _L11_5s:                                         
2553         bsr.l           stwotoxd                 
2554 _L11_6s:                                         
2555                                                  
2556 #                                                
2557 #       Result is now in FP0                     
2558 #                                                
2559         movm.l          EXC_DREGS(%a6),&0x030    
2560         fmovm.l         USER_FPCR(%a6),%fpcr,    
2561         fmovm.x         EXC_FP1(%a6),&0x40       
2562         unlk            %a6                      
2563         rts                                      
2564                                                  
2565         global          _ftwotoxd_               
2566 _ftwotoxd_:                                      
2567         link            %a6,&-LOCAL_SIZE         
2568                                                  
2569         movm.l          &0x0303,EXC_DREGS(%a6    
2570         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2571         fmovm.x         &0xc0,EXC_FP0(%a6)       
2572                                                  
2573         fmov.l          &0x0,%fpcr               
2574                                                  
2575 #                                                
2576 #       copy, convert, and tag input argument    
2577 #                                                
2578         fmov.d          0x8(%a6),%fp0            
2579         fmov.x          %fp0,FP_SRC(%a6)         
2580         lea             FP_SRC(%a6),%a0          
2581         bsr.l           tag                      
2582         mov.b           %d0,STAG(%a6)            
2583         mov.b           %d0,%d1                  
2584                                                  
2585         andi.l          &0x00ff00ff,USER_FPSR    
2586                                                  
2587         clr.l           %d0                      
2588         mov.b           FPCR_MODE(%a6),%d0       
2589                                                  
2590         mov.b           %d1,STAG(%a6)            
2591         tst.b           %d1                      
2592         bne.b           _L11_2d                  
2593         bsr.l           stwotox                  
2594         bra.b           _L11_6d                  
2595 _L11_2d:                                         
2596         cmpi.b          %d1,&ZERO                
2597         bne.b           _L11_3d                  
2598         bsr.l           ld_pone                  
2599         bra.b           _L11_6d                  
2600 _L11_3d:                                         
2601         cmpi.b          %d1,&INF                 
2602         bne.b           _L11_4d                  
2603         bsr.l           szr_inf                  
2604         bra.b           _L11_6d                  
2605 _L11_4d:                                         
2606         cmpi.b          %d1,&QNAN                
2607         bne.b           _L11_5d                  
2608         bsr.l           src_qnan                 
2609         bra.b           _L11_6d                  
2610 _L11_5d:                                         
2611         bsr.l           stwotoxd                 
2612 _L11_6d:                                         
2613                                                  
2614 #                                                
2615 #       Result is now in FP0                     
2616 #                                                
2617         movm.l          EXC_DREGS(%a6),&0x030    
2618         fmovm.l         USER_FPCR(%a6),%fpcr,    
2619         fmovm.x         EXC_FP1(%a6),&0x40       
2620         unlk            %a6                      
2621         rts                                      
2622                                                  
2623         global          _ftwotoxx_               
2624 _ftwotoxx_:                                      
2625         link            %a6,&-LOCAL_SIZE         
2626                                                  
2627         movm.l          &0x0303,EXC_DREGS(%a6    
2628         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2629         fmovm.x         &0xc0,EXC_FP0(%a6)       
2630                                                  
2631         fmov.l          &0x0,%fpcr               
2632                                                  
2633 #                                                
2634 #       copy, convert, and tag input argument    
2635 #                                                
2636         lea             FP_SRC(%a6),%a0          
2637         mov.l           0x8+0x0(%a6),0x0(%a0)    
2638         mov.l           0x8+0x4(%a6),0x4(%a0)    
2639         mov.l           0x8+0x8(%a6),0x8(%a0)    
2640         bsr.l           tag                      
2641         mov.b           %d0,STAG(%a6)            
2642         mov.b           %d0,%d1                  
2643                                                  
2644         andi.l          &0x00ff00ff,USER_FPSR    
2645                                                  
2646         clr.l           %d0                      
2647         mov.b           FPCR_MODE(%a6),%d0       
2648                                                  
2649         tst.b           %d1                      
2650         bne.b           _L11_2x                  
2651         bsr.l           stwotox                  
2652         bra.b           _L11_6x                  
2653 _L11_2x:                                         
2654         cmpi.b          %d1,&ZERO                
2655         bne.b           _L11_3x                  
2656         bsr.l           ld_pone                  
2657         bra.b           _L11_6x                  
2658 _L11_3x:                                         
2659         cmpi.b          %d1,&INF                 
2660         bne.b           _L11_4x                  
2661         bsr.l           szr_inf                  
2662         bra.b           _L11_6x                  
2663 _L11_4x:                                         
2664         cmpi.b          %d1,&QNAN                
2665         bne.b           _L11_5x                  
2666         bsr.l           src_qnan                 
2667         bra.b           _L11_6x                  
2668 _L11_5x:                                         
2669         bsr.l           stwotoxd                 
2670 _L11_6x:                                         
2671                                                  
2672 #                                                
2673 #       Result is now in FP0                     
2674 #                                                
2675         movm.l          EXC_DREGS(%a6),&0x030    
2676         fmovm.l         USER_FPCR(%a6),%fpcr,    
2677         fmovm.x         EXC_FP1(%a6),&0x40       
2678         unlk            %a6                      
2679         rts                                      
2680                                                  
2681                                                  
2682 #############################################    
2683 # MONADIC TEMPLATE                               
2684 #############################################    
2685         global          _ftentoxs_               
2686 _ftentoxs_:                                      
2687         link            %a6,&-LOCAL_SIZE         
2688                                                  
2689         movm.l          &0x0303,EXC_DREGS(%a6    
2690         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2691         fmovm.x         &0xc0,EXC_FP0(%a6)       
2692                                                  
2693         fmov.l          &0x0,%fpcr               
2694                                                  
2695 #                                                
2696 #       copy, convert, and tag input argument    
2697 #                                                
2698         fmov.s          0x8(%a6),%fp0            
2699         fmov.x          %fp0,FP_SRC(%a6)         
2700         lea             FP_SRC(%a6),%a0          
2701         bsr.l           tag                      
2702         mov.b           %d0,STAG(%a6)            
2703         mov.b           %d0,%d1                  
2704                                                  
2705         andi.l          &0x00ff00ff,USER_FPSR    
2706                                                  
2707         clr.l           %d0                      
2708         mov.b           FPCR_MODE(%a6),%d0       
2709                                                  
2710         tst.b           %d1                      
2711         bne.b           _L12_2s                  
2712         bsr.l           stentox                  
2713         bra.b           _L12_6s                  
2714 _L12_2s:                                         
2715         cmpi.b          %d1,&ZERO                
2716         bne.b           _L12_3s                  
2717         bsr.l           ld_pone                  
2718         bra.b           _L12_6s                  
2719 _L12_3s:                                         
2720         cmpi.b          %d1,&INF                 
2721         bne.b           _L12_4s                  
2722         bsr.l           szr_inf                  
2723         bra.b           _L12_6s                  
2724 _L12_4s:                                         
2725         cmpi.b          %d1,&QNAN                
2726         bne.b           _L12_5s                  
2727         bsr.l           src_qnan                 
2728         bra.b           _L12_6s                  
2729 _L12_5s:                                         
2730         bsr.l           stentoxd                 
2731 _L12_6s:                                         
2732                                                  
2733 #                                                
2734 #       Result is now in FP0                     
2735 #                                                
2736         movm.l          EXC_DREGS(%a6),&0x030    
2737         fmovm.l         USER_FPCR(%a6),%fpcr,    
2738         fmovm.x         EXC_FP1(%a6),&0x40       
2739         unlk            %a6                      
2740         rts                                      
2741                                                  
2742         global          _ftentoxd_               
2743 _ftentoxd_:                                      
2744         link            %a6,&-LOCAL_SIZE         
2745                                                  
2746         movm.l          &0x0303,EXC_DREGS(%a6    
2747         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2748         fmovm.x         &0xc0,EXC_FP0(%a6)       
2749                                                  
2750         fmov.l          &0x0,%fpcr               
2751                                                  
2752 #                                                
2753 #       copy, convert, and tag input argument    
2754 #                                                
2755         fmov.d          0x8(%a6),%fp0            
2756         fmov.x          %fp0,FP_SRC(%a6)         
2757         lea             FP_SRC(%a6),%a0          
2758         bsr.l           tag                      
2759         mov.b           %d0,STAG(%a6)            
2760         mov.b           %d0,%d1                  
2761                                                  
2762         andi.l          &0x00ff00ff,USER_FPSR    
2763                                                  
2764         clr.l           %d0                      
2765         mov.b           FPCR_MODE(%a6),%d0       
2766                                                  
2767         mov.b           %d1,STAG(%a6)            
2768         tst.b           %d1                      
2769         bne.b           _L12_2d                  
2770         bsr.l           stentox                  
2771         bra.b           _L12_6d                  
2772 _L12_2d:                                         
2773         cmpi.b          %d1,&ZERO                
2774         bne.b           _L12_3d                  
2775         bsr.l           ld_pone                  
2776         bra.b           _L12_6d                  
2777 _L12_3d:                                         
2778         cmpi.b          %d1,&INF                 
2779         bne.b           _L12_4d                  
2780         bsr.l           szr_inf                  
2781         bra.b           _L12_6d                  
2782 _L12_4d:                                         
2783         cmpi.b          %d1,&QNAN                
2784         bne.b           _L12_5d                  
2785         bsr.l           src_qnan                 
2786         bra.b           _L12_6d                  
2787 _L12_5d:                                         
2788         bsr.l           stentoxd                 
2789 _L12_6d:                                         
2790                                                  
2791 #                                                
2792 #       Result is now in FP0                     
2793 #                                                
2794         movm.l          EXC_DREGS(%a6),&0x030    
2795         fmovm.l         USER_FPCR(%a6),%fpcr,    
2796         fmovm.x         EXC_FP1(%a6),&0x40       
2797         unlk            %a6                      
2798         rts                                      
2799                                                  
2800         global          _ftentoxx_               
2801 _ftentoxx_:                                      
2802         link            %a6,&-LOCAL_SIZE         
2803                                                  
2804         movm.l          &0x0303,EXC_DREGS(%a6    
2805         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2806         fmovm.x         &0xc0,EXC_FP0(%a6)       
2807                                                  
2808         fmov.l          &0x0,%fpcr               
2809                                                  
2810 #                                                
2811 #       copy, convert, and tag input argument    
2812 #                                                
2813         lea             FP_SRC(%a6),%a0          
2814         mov.l           0x8+0x0(%a6),0x0(%a0)    
2815         mov.l           0x8+0x4(%a6),0x4(%a0)    
2816         mov.l           0x8+0x8(%a6),0x8(%a0)    
2817         bsr.l           tag                      
2818         mov.b           %d0,STAG(%a6)            
2819         mov.b           %d0,%d1                  
2820                                                  
2821         andi.l          &0x00ff00ff,USER_FPSR    
2822                                                  
2823         clr.l           %d0                      
2824         mov.b           FPCR_MODE(%a6),%d0       
2825                                                  
2826         tst.b           %d1                      
2827         bne.b           _L12_2x                  
2828         bsr.l           stentox                  
2829         bra.b           _L12_6x                  
2830 _L12_2x:                                         
2831         cmpi.b          %d1,&ZERO                
2832         bne.b           _L12_3x                  
2833         bsr.l           ld_pone                  
2834         bra.b           _L12_6x                  
2835 _L12_3x:                                         
2836         cmpi.b          %d1,&INF                 
2837         bne.b           _L12_4x                  
2838         bsr.l           szr_inf                  
2839         bra.b           _L12_6x                  
2840 _L12_4x:                                         
2841         cmpi.b          %d1,&QNAN                
2842         bne.b           _L12_5x                  
2843         bsr.l           src_qnan                 
2844         bra.b           _L12_6x                  
2845 _L12_5x:                                         
2846         bsr.l           stentoxd                 
2847 _L12_6x:                                         
2848                                                  
2849 #                                                
2850 #       Result is now in FP0                     
2851 #                                                
2852         movm.l          EXC_DREGS(%a6),&0x030    
2853         fmovm.l         USER_FPCR(%a6),%fpcr,    
2854         fmovm.x         EXC_FP1(%a6),&0x40       
2855         unlk            %a6                      
2856         rts                                      
2857                                                  
2858                                                  
2859 #############################################    
2860 # MONADIC TEMPLATE                               
2861 #############################################    
2862         global          _flogns_                 
2863 _flogns_:                                        
2864         link            %a6,&-LOCAL_SIZE         
2865                                                  
2866         movm.l          &0x0303,EXC_DREGS(%a6    
2867         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2868         fmovm.x         &0xc0,EXC_FP0(%a6)       
2869                                                  
2870         fmov.l          &0x0,%fpcr               
2871                                                  
2872 #                                                
2873 #       copy, convert, and tag input argument    
2874 #                                                
2875         fmov.s          0x8(%a6),%fp0            
2876         fmov.x          %fp0,FP_SRC(%a6)         
2877         lea             FP_SRC(%a6),%a0          
2878         bsr.l           tag                      
2879         mov.b           %d0,STAG(%a6)            
2880         mov.b           %d0,%d1                  
2881                                                  
2882         andi.l          &0x00ff00ff,USER_FPSR    
2883                                                  
2884         clr.l           %d0                      
2885         mov.b           FPCR_MODE(%a6),%d0       
2886                                                  
2887         tst.b           %d1                      
2888         bne.b           _L13_2s                  
2889         bsr.l           slogn                    
2890         bra.b           _L13_6s                  
2891 _L13_2s:                                         
2892         cmpi.b          %d1,&ZERO                
2893         bne.b           _L13_3s                  
2894         bsr.l           t_dz2                    
2895         bra.b           _L13_6s                  
2896 _L13_3s:                                         
2897         cmpi.b          %d1,&INF                 
2898         bne.b           _L13_4s                  
2899         bsr.l           sopr_inf                 
2900         bra.b           _L13_6s                  
2901 _L13_4s:                                         
2902         cmpi.b          %d1,&QNAN                
2903         bne.b           _L13_5s                  
2904         bsr.l           src_qnan                 
2905         bra.b           _L13_6s                  
2906 _L13_5s:                                         
2907         bsr.l           slognd                   
2908 _L13_6s:                                         
2909                                                  
2910 #                                                
2911 #       Result is now in FP0                     
2912 #                                                
2913         movm.l          EXC_DREGS(%a6),&0x030    
2914         fmovm.l         USER_FPCR(%a6),%fpcr,    
2915         fmovm.x         EXC_FP1(%a6),&0x40       
2916         unlk            %a6                      
2917         rts                                      
2918                                                  
2919         global          _flognd_                 
2920 _flognd_:                                        
2921         link            %a6,&-LOCAL_SIZE         
2922                                                  
2923         movm.l          &0x0303,EXC_DREGS(%a6    
2924         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2925         fmovm.x         &0xc0,EXC_FP0(%a6)       
2926                                                  
2927         fmov.l          &0x0,%fpcr               
2928                                                  
2929 #                                                
2930 #       copy, convert, and tag input argument    
2931 #                                                
2932         fmov.d          0x8(%a6),%fp0            
2933         fmov.x          %fp0,FP_SRC(%a6)         
2934         lea             FP_SRC(%a6),%a0          
2935         bsr.l           tag                      
2936         mov.b           %d0,STAG(%a6)            
2937         mov.b           %d0,%d1                  
2938                                                  
2939         andi.l          &0x00ff00ff,USER_FPSR    
2940                                                  
2941         clr.l           %d0                      
2942         mov.b           FPCR_MODE(%a6),%d0       
2943                                                  
2944         mov.b           %d1,STAG(%a6)            
2945         tst.b           %d1                      
2946         bne.b           _L13_2d                  
2947         bsr.l           slogn                    
2948         bra.b           _L13_6d                  
2949 _L13_2d:                                         
2950         cmpi.b          %d1,&ZERO                
2951         bne.b           _L13_3d                  
2952         bsr.l           t_dz2                    
2953         bra.b           _L13_6d                  
2954 _L13_3d:                                         
2955         cmpi.b          %d1,&INF                 
2956         bne.b           _L13_4d                  
2957         bsr.l           sopr_inf                 
2958         bra.b           _L13_6d                  
2959 _L13_4d:                                         
2960         cmpi.b          %d1,&QNAN                
2961         bne.b           _L13_5d                  
2962         bsr.l           src_qnan                 
2963         bra.b           _L13_6d                  
2964 _L13_5d:                                         
2965         bsr.l           slognd                   
2966 _L13_6d:                                         
2967                                                  
2968 #                                                
2969 #       Result is now in FP0                     
2970 #                                                
2971         movm.l          EXC_DREGS(%a6),&0x030    
2972         fmovm.l         USER_FPCR(%a6),%fpcr,    
2973         fmovm.x         EXC_FP1(%a6),&0x40       
2974         unlk            %a6                      
2975         rts                                      
2976                                                  
2977         global          _flognx_                 
2978 _flognx_:                                        
2979         link            %a6,&-LOCAL_SIZE         
2980                                                  
2981         movm.l          &0x0303,EXC_DREGS(%a6    
2982         fmovm.l         %fpcr,%fpsr,USER_FPCR    
2983         fmovm.x         &0xc0,EXC_FP0(%a6)       
2984                                                  
2985         fmov.l          &0x0,%fpcr               
2986                                                  
2987 #                                                
2988 #       copy, convert, and tag input argument    
2989 #                                                
2990         lea             FP_SRC(%a6),%a0          
2991         mov.l           0x8+0x0(%a6),0x0(%a0)    
2992         mov.l           0x8+0x4(%a6),0x4(%a0)    
2993         mov.l           0x8+0x8(%a6),0x8(%a0)    
2994         bsr.l           tag                      
2995         mov.b           %d0,STAG(%a6)            
2996         mov.b           %d0,%d1                  
2997                                                  
2998         andi.l          &0x00ff00ff,USER_FPSR    
2999                                                  
3000         clr.l           %d0                      
3001         mov.b           FPCR_MODE(%a6),%d0       
3002                                                  
3003         tst.b           %d1                      
3004         bne.b           _L13_2x                  
3005         bsr.l           slogn                    
3006         bra.b           _L13_6x                  
3007 _L13_2x:                                         
3008         cmpi.b          %d1,&ZERO                
3009         bne.b           _L13_3x                  
3010         bsr.l           t_dz2                    
3011         bra.b           _L13_6x                  
3012 _L13_3x:                                         
3013         cmpi.b          %d1,&INF                 
3014         bne.b           _L13_4x                  
3015         bsr.l           sopr_inf                 
3016         bra.b           _L13_6x                  
3017 _L13_4x:                                         
3018         cmpi.b          %d1,&QNAN                
3019         bne.b           _L13_5x                  
3020         bsr.l           src_qnan                 
3021         bra.b           _L13_6x                  
3022 _L13_5x:                                         
3023         bsr.l           slognd                   
3024 _L13_6x:                                         
3025                                                  
3026 #                                                
3027 #       Result is now in FP0                     
3028 #                                                
3029         movm.l          EXC_DREGS(%a6),&0x030    
3030         fmovm.l         USER_FPCR(%a6),%fpcr,    
3031         fmovm.x         EXC_FP1(%a6),&0x40       
3032         unlk            %a6                      
3033         rts                                      
3034                                                  
3035                                                  
3036 #############################################    
3037 # MONADIC TEMPLATE                               
3038 #############################################    
3039         global          _flog10s_                
3040 _flog10s_:                                       
3041         link            %a6,&-LOCAL_SIZE         
3042                                                  
3043         movm.l          &0x0303,EXC_DREGS(%a6    
3044         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3045         fmovm.x         &0xc0,EXC_FP0(%a6)       
3046                                                  
3047         fmov.l          &0x0,%fpcr               
3048                                                  
3049 #                                                
3050 #       copy, convert, and tag input argument    
3051 #                                                
3052         fmov.s          0x8(%a6),%fp0            
3053         fmov.x          %fp0,FP_SRC(%a6)         
3054         lea             FP_SRC(%a6),%a0          
3055         bsr.l           tag                      
3056         mov.b           %d0,STAG(%a6)            
3057         mov.b           %d0,%d1                  
3058                                                  
3059         andi.l          &0x00ff00ff,USER_FPSR    
3060                                                  
3061         clr.l           %d0                      
3062         mov.b           FPCR_MODE(%a6),%d0       
3063                                                  
3064         tst.b           %d1                      
3065         bne.b           _L14_2s                  
3066         bsr.l           slog10                   
3067         bra.b           _L14_6s                  
3068 _L14_2s:                                         
3069         cmpi.b          %d1,&ZERO                
3070         bne.b           _L14_3s                  
3071         bsr.l           t_dz2                    
3072         bra.b           _L14_6s                  
3073 _L14_3s:                                         
3074         cmpi.b          %d1,&INF                 
3075         bne.b           _L14_4s                  
3076         bsr.l           sopr_inf                 
3077         bra.b           _L14_6s                  
3078 _L14_4s:                                         
3079         cmpi.b          %d1,&QNAN                
3080         bne.b           _L14_5s                  
3081         bsr.l           src_qnan                 
3082         bra.b           _L14_6s                  
3083 _L14_5s:                                         
3084         bsr.l           slog10d                  
3085 _L14_6s:                                         
3086                                                  
3087 #                                                
3088 #       Result is now in FP0                     
3089 #                                                
3090         movm.l          EXC_DREGS(%a6),&0x030    
3091         fmovm.l         USER_FPCR(%a6),%fpcr,    
3092         fmovm.x         EXC_FP1(%a6),&0x40       
3093         unlk            %a6                      
3094         rts                                      
3095                                                  
3096         global          _flog10d_                
3097 _flog10d_:                                       
3098         link            %a6,&-LOCAL_SIZE         
3099                                                  
3100         movm.l          &0x0303,EXC_DREGS(%a6    
3101         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3102         fmovm.x         &0xc0,EXC_FP0(%a6)       
3103                                                  
3104         fmov.l          &0x0,%fpcr               
3105                                                  
3106 #                                                
3107 #       copy, convert, and tag input argument    
3108 #                                                
3109         fmov.d          0x8(%a6),%fp0            
3110         fmov.x          %fp0,FP_SRC(%a6)         
3111         lea             FP_SRC(%a6),%a0          
3112         bsr.l           tag                      
3113         mov.b           %d0,STAG(%a6)            
3114         mov.b           %d0,%d1                  
3115                                                  
3116         andi.l          &0x00ff00ff,USER_FPSR    
3117                                                  
3118         clr.l           %d0                      
3119         mov.b           FPCR_MODE(%a6),%d0       
3120                                                  
3121         mov.b           %d1,STAG(%a6)            
3122         tst.b           %d1                      
3123         bne.b           _L14_2d                  
3124         bsr.l           slog10                   
3125         bra.b           _L14_6d                  
3126 _L14_2d:                                         
3127         cmpi.b          %d1,&ZERO                
3128         bne.b           _L14_3d                  
3129         bsr.l           t_dz2                    
3130         bra.b           _L14_6d                  
3131 _L14_3d:                                         
3132         cmpi.b          %d1,&INF                 
3133         bne.b           _L14_4d                  
3134         bsr.l           sopr_inf                 
3135         bra.b           _L14_6d                  
3136 _L14_4d:                                         
3137         cmpi.b          %d1,&QNAN                
3138         bne.b           _L14_5d                  
3139         bsr.l           src_qnan                 
3140         bra.b           _L14_6d                  
3141 _L14_5d:                                         
3142         bsr.l           slog10d                  
3143 _L14_6d:                                         
3144                                                  
3145 #                                                
3146 #       Result is now in FP0                     
3147 #                                                
3148         movm.l          EXC_DREGS(%a6),&0x030    
3149         fmovm.l         USER_FPCR(%a6),%fpcr,    
3150         fmovm.x         EXC_FP1(%a6),&0x40       
3151         unlk            %a6                      
3152         rts                                      
3153                                                  
3154         global          _flog10x_                
3155 _flog10x_:                                       
3156         link            %a6,&-LOCAL_SIZE         
3157                                                  
3158         movm.l          &0x0303,EXC_DREGS(%a6    
3159         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3160         fmovm.x         &0xc0,EXC_FP0(%a6)       
3161                                                  
3162         fmov.l          &0x0,%fpcr               
3163                                                  
3164 #                                                
3165 #       copy, convert, and tag input argument    
3166 #                                                
3167         lea             FP_SRC(%a6),%a0          
3168         mov.l           0x8+0x0(%a6),0x0(%a0)    
3169         mov.l           0x8+0x4(%a6),0x4(%a0)    
3170         mov.l           0x8+0x8(%a6),0x8(%a0)    
3171         bsr.l           tag                      
3172         mov.b           %d0,STAG(%a6)            
3173         mov.b           %d0,%d1                  
3174                                                  
3175         andi.l          &0x00ff00ff,USER_FPSR    
3176                                                  
3177         clr.l           %d0                      
3178         mov.b           FPCR_MODE(%a6),%d0       
3179                                                  
3180         tst.b           %d1                      
3181         bne.b           _L14_2x                  
3182         bsr.l           slog10                   
3183         bra.b           _L14_6x                  
3184 _L14_2x:                                         
3185         cmpi.b          %d1,&ZERO                
3186         bne.b           _L14_3x                  
3187         bsr.l           t_dz2                    
3188         bra.b           _L14_6x                  
3189 _L14_3x:                                         
3190         cmpi.b          %d1,&INF                 
3191         bne.b           _L14_4x                  
3192         bsr.l           sopr_inf                 
3193         bra.b           _L14_6x                  
3194 _L14_4x:                                         
3195         cmpi.b          %d1,&QNAN                
3196         bne.b           _L14_5x                  
3197         bsr.l           src_qnan                 
3198         bra.b           _L14_6x                  
3199 _L14_5x:                                         
3200         bsr.l           slog10d                  
3201 _L14_6x:                                         
3202                                                  
3203 #                                                
3204 #       Result is now in FP0                     
3205 #                                                
3206         movm.l          EXC_DREGS(%a6),&0x030    
3207         fmovm.l         USER_FPCR(%a6),%fpcr,    
3208         fmovm.x         EXC_FP1(%a6),&0x40       
3209         unlk            %a6                      
3210         rts                                      
3211                                                  
3212                                                  
3213 #############################################    
3214 # MONADIC TEMPLATE                               
3215 #############################################    
3216         global          _flog2s_                 
3217 _flog2s_:                                        
3218         link            %a6,&-LOCAL_SIZE         
3219                                                  
3220         movm.l          &0x0303,EXC_DREGS(%a6    
3221         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3222         fmovm.x         &0xc0,EXC_FP0(%a6)       
3223                                                  
3224         fmov.l          &0x0,%fpcr               
3225                                                  
3226 #                                                
3227 #       copy, convert, and tag input argument    
3228 #                                                
3229         fmov.s          0x8(%a6),%fp0            
3230         fmov.x          %fp0,FP_SRC(%a6)         
3231         lea             FP_SRC(%a6),%a0          
3232         bsr.l           tag                      
3233         mov.b           %d0,STAG(%a6)            
3234         mov.b           %d0,%d1                  
3235                                                  
3236         andi.l          &0x00ff00ff,USER_FPSR    
3237                                                  
3238         clr.l           %d0                      
3239         mov.b           FPCR_MODE(%a6),%d0       
3240                                                  
3241         tst.b           %d1                      
3242         bne.b           _L15_2s                  
3243         bsr.l           slog2                    
3244         bra.b           _L15_6s                  
3245 _L15_2s:                                         
3246         cmpi.b          %d1,&ZERO                
3247         bne.b           _L15_3s                  
3248         bsr.l           t_dz2                    
3249         bra.b           _L15_6s                  
3250 _L15_3s:                                         
3251         cmpi.b          %d1,&INF                 
3252         bne.b           _L15_4s                  
3253         bsr.l           sopr_inf                 
3254         bra.b           _L15_6s                  
3255 _L15_4s:                                         
3256         cmpi.b          %d1,&QNAN                
3257         bne.b           _L15_5s                  
3258         bsr.l           src_qnan                 
3259         bra.b           _L15_6s                  
3260 _L15_5s:                                         
3261         bsr.l           slog2d                   
3262 _L15_6s:                                         
3263                                                  
3264 #                                                
3265 #       Result is now in FP0                     
3266 #                                                
3267         movm.l          EXC_DREGS(%a6),&0x030    
3268         fmovm.l         USER_FPCR(%a6),%fpcr,    
3269         fmovm.x         EXC_FP1(%a6),&0x40       
3270         unlk            %a6                      
3271         rts                                      
3272                                                  
3273         global          _flog2d_                 
3274 _flog2d_:                                        
3275         link            %a6,&-LOCAL_SIZE         
3276                                                  
3277         movm.l          &0x0303,EXC_DREGS(%a6    
3278         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3279         fmovm.x         &0xc0,EXC_FP0(%a6)       
3280                                                  
3281         fmov.l          &0x0,%fpcr               
3282                                                  
3283 #                                                
3284 #       copy, convert, and tag input argument    
3285 #                                                
3286         fmov.d          0x8(%a6),%fp0            
3287         fmov.x          %fp0,FP_SRC(%a6)         
3288         lea             FP_SRC(%a6),%a0          
3289         bsr.l           tag                      
3290         mov.b           %d0,STAG(%a6)            
3291         mov.b           %d0,%d1                  
3292                                                  
3293         andi.l          &0x00ff00ff,USER_FPSR    
3294                                                  
3295         clr.l           %d0                      
3296         mov.b           FPCR_MODE(%a6),%d0       
3297                                                  
3298         mov.b           %d1,STAG(%a6)            
3299         tst.b           %d1                      
3300         bne.b           _L15_2d                  
3301         bsr.l           slog2                    
3302         bra.b           _L15_6d                  
3303 _L15_2d:                                         
3304         cmpi.b          %d1,&ZERO                
3305         bne.b           _L15_3d                  
3306         bsr.l           t_dz2                    
3307         bra.b           _L15_6d                  
3308 _L15_3d:                                         
3309         cmpi.b          %d1,&INF                 
3310         bne.b           _L15_4d                  
3311         bsr.l           sopr_inf                 
3312         bra.b           _L15_6d                  
3313 _L15_4d:                                         
3314         cmpi.b          %d1,&QNAN                
3315         bne.b           _L15_5d                  
3316         bsr.l           src_qnan                 
3317         bra.b           _L15_6d                  
3318 _L15_5d:                                         
3319         bsr.l           slog2d                   
3320 _L15_6d:                                         
3321                                                  
3322 #                                                
3323 #       Result is now in FP0                     
3324 #                                                
3325         movm.l          EXC_DREGS(%a6),&0x030    
3326         fmovm.l         USER_FPCR(%a6),%fpcr,    
3327         fmovm.x         EXC_FP1(%a6),&0x40       
3328         unlk            %a6                      
3329         rts                                      
3330                                                  
3331         global          _flog2x_                 
3332 _flog2x_:                                        
3333         link            %a6,&-LOCAL_SIZE         
3334                                                  
3335         movm.l          &0x0303,EXC_DREGS(%a6    
3336         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3337         fmovm.x         &0xc0,EXC_FP0(%a6)       
3338                                                  
3339         fmov.l          &0x0,%fpcr               
3340                                                  
3341 #                                                
3342 #       copy, convert, and tag input argument    
3343 #                                                
3344         lea             FP_SRC(%a6),%a0          
3345         mov.l           0x8+0x0(%a6),0x0(%a0)    
3346         mov.l           0x8+0x4(%a6),0x4(%a0)    
3347         mov.l           0x8+0x8(%a6),0x8(%a0)    
3348         bsr.l           tag                      
3349         mov.b           %d0,STAG(%a6)            
3350         mov.b           %d0,%d1                  
3351                                                  
3352         andi.l          &0x00ff00ff,USER_FPSR    
3353                                                  
3354         clr.l           %d0                      
3355         mov.b           FPCR_MODE(%a6),%d0       
3356                                                  
3357         tst.b           %d1                      
3358         bne.b           _L15_2x                  
3359         bsr.l           slog2                    
3360         bra.b           _L15_6x                  
3361 _L15_2x:                                         
3362         cmpi.b          %d1,&ZERO                
3363         bne.b           _L15_3x                  
3364         bsr.l           t_dz2                    
3365         bra.b           _L15_6x                  
3366 _L15_3x:                                         
3367         cmpi.b          %d1,&INF                 
3368         bne.b           _L15_4x                  
3369         bsr.l           sopr_inf                 
3370         bra.b           _L15_6x                  
3371 _L15_4x:                                         
3372         cmpi.b          %d1,&QNAN                
3373         bne.b           _L15_5x                  
3374         bsr.l           src_qnan                 
3375         bra.b           _L15_6x                  
3376 _L15_5x:                                         
3377         bsr.l           slog2d                   
3378 _L15_6x:                                         
3379                                                  
3380 #                                                
3381 #       Result is now in FP0                     
3382 #                                                
3383         movm.l          EXC_DREGS(%a6),&0x030    
3384         fmovm.l         USER_FPCR(%a6),%fpcr,    
3385         fmovm.x         EXC_FP1(%a6),&0x40       
3386         unlk            %a6                      
3387         rts                                      
3388                                                  
3389                                                  
3390 #############################################    
3391 # MONADIC TEMPLATE                               
3392 #############################################    
3393         global          _fcoshs_                 
3394 _fcoshs_:                                        
3395         link            %a6,&-LOCAL_SIZE         
3396                                                  
3397         movm.l          &0x0303,EXC_DREGS(%a6    
3398         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3399         fmovm.x         &0xc0,EXC_FP0(%a6)       
3400                                                  
3401         fmov.l          &0x0,%fpcr               
3402                                                  
3403 #                                                
3404 #       copy, convert, and tag input argument    
3405 #                                                
3406         fmov.s          0x8(%a6),%fp0            
3407         fmov.x          %fp0,FP_SRC(%a6)         
3408         lea             FP_SRC(%a6),%a0          
3409         bsr.l           tag                      
3410         mov.b           %d0,STAG(%a6)            
3411         mov.b           %d0,%d1                  
3412                                                  
3413         andi.l          &0x00ff00ff,USER_FPSR    
3414                                                  
3415         clr.l           %d0                      
3416         mov.b           FPCR_MODE(%a6),%d0       
3417                                                  
3418         tst.b           %d1                      
3419         bne.b           _L16_2s                  
3420         bsr.l           scosh                    
3421         bra.b           _L16_6s                  
3422 _L16_2s:                                         
3423         cmpi.b          %d1,&ZERO                
3424         bne.b           _L16_3s                  
3425         bsr.l           ld_pone                  
3426         bra.b           _L16_6s                  
3427 _L16_3s:                                         
3428         cmpi.b          %d1,&INF                 
3429         bne.b           _L16_4s                  
3430         bsr.l           ld_pinf                  
3431         bra.b           _L16_6s                  
3432 _L16_4s:                                         
3433         cmpi.b          %d1,&QNAN                
3434         bne.b           _L16_5s                  
3435         bsr.l           src_qnan                 
3436         bra.b           _L16_6s                  
3437 _L16_5s:                                         
3438         bsr.l           scoshd                   
3439 _L16_6s:                                         
3440                                                  
3441 #                                                
3442 #       Result is now in FP0                     
3443 #                                                
3444         movm.l          EXC_DREGS(%a6),&0x030    
3445         fmovm.l         USER_FPCR(%a6),%fpcr,    
3446         fmovm.x         EXC_FP1(%a6),&0x40       
3447         unlk            %a6                      
3448         rts                                      
3449                                                  
3450         global          _fcoshd_                 
3451 _fcoshd_:                                        
3452         link            %a6,&-LOCAL_SIZE         
3453                                                  
3454         movm.l          &0x0303,EXC_DREGS(%a6    
3455         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3456         fmovm.x         &0xc0,EXC_FP0(%a6)       
3457                                                  
3458         fmov.l          &0x0,%fpcr               
3459                                                  
3460 #                                                
3461 #       copy, convert, and tag input argument    
3462 #                                                
3463         fmov.d          0x8(%a6),%fp0            
3464         fmov.x          %fp0,FP_SRC(%a6)         
3465         lea             FP_SRC(%a6),%a0          
3466         bsr.l           tag                      
3467         mov.b           %d0,STAG(%a6)            
3468         mov.b           %d0,%d1                  
3469                                                  
3470         andi.l          &0x00ff00ff,USER_FPSR    
3471                                                  
3472         clr.l           %d0                      
3473         mov.b           FPCR_MODE(%a6),%d0       
3474                                                  
3475         mov.b           %d1,STAG(%a6)            
3476         tst.b           %d1                      
3477         bne.b           _L16_2d                  
3478         bsr.l           scosh                    
3479         bra.b           _L16_6d                  
3480 _L16_2d:                                         
3481         cmpi.b          %d1,&ZERO                
3482         bne.b           _L16_3d                  
3483         bsr.l           ld_pone                  
3484         bra.b           _L16_6d                  
3485 _L16_3d:                                         
3486         cmpi.b          %d1,&INF                 
3487         bne.b           _L16_4d                  
3488         bsr.l           ld_pinf                  
3489         bra.b           _L16_6d                  
3490 _L16_4d:                                         
3491         cmpi.b          %d1,&QNAN                
3492         bne.b           _L16_5d                  
3493         bsr.l           src_qnan                 
3494         bra.b           _L16_6d                  
3495 _L16_5d:                                         
3496         bsr.l           scoshd                   
3497 _L16_6d:                                         
3498                                                  
3499 #                                                
3500 #       Result is now in FP0                     
3501 #                                                
3502         movm.l          EXC_DREGS(%a6),&0x030    
3503         fmovm.l         USER_FPCR(%a6),%fpcr,    
3504         fmovm.x         EXC_FP1(%a6),&0x40       
3505         unlk            %a6                      
3506         rts                                      
3507                                                  
3508         global          _fcoshx_                 
3509 _fcoshx_:                                        
3510         link            %a6,&-LOCAL_SIZE         
3511                                                  
3512         movm.l          &0x0303,EXC_DREGS(%a6    
3513         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3514         fmovm.x         &0xc0,EXC_FP0(%a6)       
3515                                                  
3516         fmov.l          &0x0,%fpcr               
3517                                                  
3518 #                                                
3519 #       copy, convert, and tag input argument    
3520 #                                                
3521         lea             FP_SRC(%a6),%a0          
3522         mov.l           0x8+0x0(%a6),0x0(%a0)    
3523         mov.l           0x8+0x4(%a6),0x4(%a0)    
3524         mov.l           0x8+0x8(%a6),0x8(%a0)    
3525         bsr.l           tag                      
3526         mov.b           %d0,STAG(%a6)            
3527         mov.b           %d0,%d1                  
3528                                                  
3529         andi.l          &0x00ff00ff,USER_FPSR    
3530                                                  
3531         clr.l           %d0                      
3532         mov.b           FPCR_MODE(%a6),%d0       
3533                                                  
3534         tst.b           %d1                      
3535         bne.b           _L16_2x                  
3536         bsr.l           scosh                    
3537         bra.b           _L16_6x                  
3538 _L16_2x:                                         
3539         cmpi.b          %d1,&ZERO                
3540         bne.b           _L16_3x                  
3541         bsr.l           ld_pone                  
3542         bra.b           _L16_6x                  
3543 _L16_3x:                                         
3544         cmpi.b          %d1,&INF                 
3545         bne.b           _L16_4x                  
3546         bsr.l           ld_pinf                  
3547         bra.b           _L16_6x                  
3548 _L16_4x:                                         
3549         cmpi.b          %d1,&QNAN                
3550         bne.b           _L16_5x                  
3551         bsr.l           src_qnan                 
3552         bra.b           _L16_6x                  
3553 _L16_5x:                                         
3554         bsr.l           scoshd                   
3555 _L16_6x:                                         
3556                                                  
3557 #                                                
3558 #       Result is now in FP0                     
3559 #                                                
3560         movm.l          EXC_DREGS(%a6),&0x030    
3561         fmovm.l         USER_FPCR(%a6),%fpcr,    
3562         fmovm.x         EXC_FP1(%a6),&0x40       
3563         unlk            %a6                      
3564         rts                                      
3565                                                  
3566                                                  
3567 #############################################    
3568 # MONADIC TEMPLATE                               
3569 #############################################    
3570         global          _facoss_                 
3571 _facoss_:                                        
3572         link            %a6,&-LOCAL_SIZE         
3573                                                  
3574         movm.l          &0x0303,EXC_DREGS(%a6    
3575         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3576         fmovm.x         &0xc0,EXC_FP0(%a6)       
3577                                                  
3578         fmov.l          &0x0,%fpcr               
3579                                                  
3580 #                                                
3581 #       copy, convert, and tag input argument    
3582 #                                                
3583         fmov.s          0x8(%a6),%fp0            
3584         fmov.x          %fp0,FP_SRC(%a6)         
3585         lea             FP_SRC(%a6),%a0          
3586         bsr.l           tag                      
3587         mov.b           %d0,STAG(%a6)            
3588         mov.b           %d0,%d1                  
3589                                                  
3590         andi.l          &0x00ff00ff,USER_FPSR    
3591                                                  
3592         clr.l           %d0                      
3593         mov.b           FPCR_MODE(%a6),%d0       
3594                                                  
3595         tst.b           %d1                      
3596         bne.b           _L17_2s                  
3597         bsr.l           sacos                    
3598         bra.b           _L17_6s                  
3599 _L17_2s:                                         
3600         cmpi.b          %d1,&ZERO                
3601         bne.b           _L17_3s                  
3602         bsr.l           ld_ppi2                  
3603         bra.b           _L17_6s                  
3604 _L17_3s:                                         
3605         cmpi.b          %d1,&INF                 
3606         bne.b           _L17_4s                  
3607         bsr.l           t_operr                  
3608         bra.b           _L17_6s                  
3609 _L17_4s:                                         
3610         cmpi.b          %d1,&QNAN                
3611         bne.b           _L17_5s                  
3612         bsr.l           src_qnan                 
3613         bra.b           _L17_6s                  
3614 _L17_5s:                                         
3615         bsr.l           sacosd                   
3616 _L17_6s:                                         
3617                                                  
3618 #                                                
3619 #       Result is now in FP0                     
3620 #                                                
3621         movm.l          EXC_DREGS(%a6),&0x030    
3622         fmovm.l         USER_FPCR(%a6),%fpcr,    
3623         fmovm.x         EXC_FP1(%a6),&0x40       
3624         unlk            %a6                      
3625         rts                                      
3626                                                  
3627         global          _facosd_                 
3628 _facosd_:                                        
3629         link            %a6,&-LOCAL_SIZE         
3630                                                  
3631         movm.l          &0x0303,EXC_DREGS(%a6    
3632         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3633         fmovm.x         &0xc0,EXC_FP0(%a6)       
3634                                                  
3635         fmov.l          &0x0,%fpcr               
3636                                                  
3637 #                                                
3638 #       copy, convert, and tag input argument    
3639 #                                                
3640         fmov.d          0x8(%a6),%fp0            
3641         fmov.x          %fp0,FP_SRC(%a6)         
3642         lea             FP_SRC(%a6),%a0          
3643         bsr.l           tag                      
3644         mov.b           %d0,STAG(%a6)            
3645         mov.b           %d0,%d1                  
3646                                                  
3647         andi.l          &0x00ff00ff,USER_FPSR    
3648                                                  
3649         clr.l           %d0                      
3650         mov.b           FPCR_MODE(%a6),%d0       
3651                                                  
3652         mov.b           %d1,STAG(%a6)            
3653         tst.b           %d1                      
3654         bne.b           _L17_2d                  
3655         bsr.l           sacos                    
3656         bra.b           _L17_6d                  
3657 _L17_2d:                                         
3658         cmpi.b          %d1,&ZERO                
3659         bne.b           _L17_3d                  
3660         bsr.l           ld_ppi2                  
3661         bra.b           _L17_6d                  
3662 _L17_3d:                                         
3663         cmpi.b          %d1,&INF                 
3664         bne.b           _L17_4d                  
3665         bsr.l           t_operr                  
3666         bra.b           _L17_6d                  
3667 _L17_4d:                                         
3668         cmpi.b          %d1,&QNAN                
3669         bne.b           _L17_5d                  
3670         bsr.l           src_qnan                 
3671         bra.b           _L17_6d                  
3672 _L17_5d:                                         
3673         bsr.l           sacosd                   
3674 _L17_6d:                                         
3675                                                  
3676 #                                                
3677 #       Result is now in FP0                     
3678 #                                                
3679         movm.l          EXC_DREGS(%a6),&0x030    
3680         fmovm.l         USER_FPCR(%a6),%fpcr,    
3681         fmovm.x         EXC_FP1(%a6),&0x40       
3682         unlk            %a6                      
3683         rts                                      
3684                                                  
3685         global          _facosx_                 
3686 _facosx_:                                        
3687         link            %a6,&-LOCAL_SIZE         
3688                                                  
3689         movm.l          &0x0303,EXC_DREGS(%a6    
3690         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3691         fmovm.x         &0xc0,EXC_FP0(%a6)       
3692                                                  
3693         fmov.l          &0x0,%fpcr               
3694                                                  
3695 #                                                
3696 #       copy, convert, and tag input argument    
3697 #                                                
3698         lea             FP_SRC(%a6),%a0          
3699         mov.l           0x8+0x0(%a6),0x0(%a0)    
3700         mov.l           0x8+0x4(%a6),0x4(%a0)    
3701         mov.l           0x8+0x8(%a6),0x8(%a0)    
3702         bsr.l           tag                      
3703         mov.b           %d0,STAG(%a6)            
3704         mov.b           %d0,%d1                  
3705                                                  
3706         andi.l          &0x00ff00ff,USER_FPSR    
3707                                                  
3708         clr.l           %d0                      
3709         mov.b           FPCR_MODE(%a6),%d0       
3710                                                  
3711         tst.b           %d1                      
3712         bne.b           _L17_2x                  
3713         bsr.l           sacos                    
3714         bra.b           _L17_6x                  
3715 _L17_2x:                                         
3716         cmpi.b          %d1,&ZERO                
3717         bne.b           _L17_3x                  
3718         bsr.l           ld_ppi2                  
3719         bra.b           _L17_6x                  
3720 _L17_3x:                                         
3721         cmpi.b          %d1,&INF                 
3722         bne.b           _L17_4x                  
3723         bsr.l           t_operr                  
3724         bra.b           _L17_6x                  
3725 _L17_4x:                                         
3726         cmpi.b          %d1,&QNAN                
3727         bne.b           _L17_5x                  
3728         bsr.l           src_qnan                 
3729         bra.b           _L17_6x                  
3730 _L17_5x:                                         
3731         bsr.l           sacosd                   
3732 _L17_6x:                                         
3733                                                  
3734 #                                                
3735 #       Result is now in FP0                     
3736 #                                                
3737         movm.l          EXC_DREGS(%a6),&0x030    
3738         fmovm.l         USER_FPCR(%a6),%fpcr,    
3739         fmovm.x         EXC_FP1(%a6),&0x40       
3740         unlk            %a6                      
3741         rts                                      
3742                                                  
3743                                                  
3744 #############################################    
3745 # MONADIC TEMPLATE                               
3746 #############################################    
3747         global          _fgetexps_               
3748 _fgetexps_:                                      
3749         link            %a6,&-LOCAL_SIZE         
3750                                                  
3751         movm.l          &0x0303,EXC_DREGS(%a6    
3752         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3753         fmovm.x         &0xc0,EXC_FP0(%a6)       
3754                                                  
3755         fmov.l          &0x0,%fpcr               
3756                                                  
3757 #                                                
3758 #       copy, convert, and tag input argument    
3759 #                                                
3760         fmov.s          0x8(%a6),%fp0            
3761         fmov.x          %fp0,FP_SRC(%a6)         
3762         lea             FP_SRC(%a6),%a0          
3763         bsr.l           tag                      
3764         mov.b           %d0,STAG(%a6)            
3765         mov.b           %d0,%d1                  
3766                                                  
3767         andi.l          &0x00ff00ff,USER_FPSR    
3768                                                  
3769         clr.l           %d0                      
3770         mov.b           FPCR_MODE(%a6),%d0       
3771                                                  
3772         tst.b           %d1                      
3773         bne.b           _L18_2s                  
3774         bsr.l           sgetexp                  
3775         bra.b           _L18_6s                  
3776 _L18_2s:                                         
3777         cmpi.b          %d1,&ZERO                
3778         bne.b           _L18_3s                  
3779         bsr.l           src_zero                 
3780         bra.b           _L18_6s                  
3781 _L18_3s:                                         
3782         cmpi.b          %d1,&INF                 
3783         bne.b           _L18_4s                  
3784         bsr.l           t_operr                  
3785         bra.b           _L18_6s                  
3786 _L18_4s:                                         
3787         cmpi.b          %d1,&QNAN                
3788         bne.b           _L18_5s                  
3789         bsr.l           src_qnan                 
3790         bra.b           _L18_6s                  
3791 _L18_5s:                                         
3792         bsr.l           sgetexpd                 
3793 _L18_6s:                                         
3794                                                  
3795 #                                                
3796 #       Result is now in FP0                     
3797 #                                                
3798         movm.l          EXC_DREGS(%a6),&0x030    
3799         fmovm.l         USER_FPCR(%a6),%fpcr,    
3800         fmovm.x         EXC_FP1(%a6),&0x40       
3801         unlk            %a6                      
3802         rts                                      
3803                                                  
3804         global          _fgetexpd_               
3805 _fgetexpd_:                                      
3806         link            %a6,&-LOCAL_SIZE         
3807                                                  
3808         movm.l          &0x0303,EXC_DREGS(%a6    
3809         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3810         fmovm.x         &0xc0,EXC_FP0(%a6)       
3811                                                  
3812         fmov.l          &0x0,%fpcr               
3813                                                  
3814 #                                                
3815 #       copy, convert, and tag input argument    
3816 #                                                
3817         fmov.d          0x8(%a6),%fp0            
3818         fmov.x          %fp0,FP_SRC(%a6)         
3819         lea             FP_SRC(%a6),%a0          
3820         bsr.l           tag                      
3821         mov.b           %d0,STAG(%a6)            
3822         mov.b           %d0,%d1                  
3823                                                  
3824         andi.l          &0x00ff00ff,USER_FPSR    
3825                                                  
3826         clr.l           %d0                      
3827         mov.b           FPCR_MODE(%a6),%d0       
3828                                                  
3829         mov.b           %d1,STAG(%a6)            
3830         tst.b           %d1                      
3831         bne.b           _L18_2d                  
3832         bsr.l           sgetexp                  
3833         bra.b           _L18_6d                  
3834 _L18_2d:                                         
3835         cmpi.b          %d1,&ZERO                
3836         bne.b           _L18_3d                  
3837         bsr.l           src_zero                 
3838         bra.b           _L18_6d                  
3839 _L18_3d:                                         
3840         cmpi.b          %d1,&INF                 
3841         bne.b           _L18_4d                  
3842         bsr.l           t_operr                  
3843         bra.b           _L18_6d                  
3844 _L18_4d:                                         
3845         cmpi.b          %d1,&QNAN                
3846         bne.b           _L18_5d                  
3847         bsr.l           src_qnan                 
3848         bra.b           _L18_6d                  
3849 _L18_5d:                                         
3850         bsr.l           sgetexpd                 
3851 _L18_6d:                                         
3852                                                  
3853 #                                                
3854 #       Result is now in FP0                     
3855 #                                                
3856         movm.l          EXC_DREGS(%a6),&0x030    
3857         fmovm.l         USER_FPCR(%a6),%fpcr,    
3858         fmovm.x         EXC_FP1(%a6),&0x40       
3859         unlk            %a6                      
3860         rts                                      
3861                                                  
3862         global          _fgetexpx_               
3863 _fgetexpx_:                                      
3864         link            %a6,&-LOCAL_SIZE         
3865                                                  
3866         movm.l          &0x0303,EXC_DREGS(%a6    
3867         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3868         fmovm.x         &0xc0,EXC_FP0(%a6)       
3869                                                  
3870         fmov.l          &0x0,%fpcr               
3871                                                  
3872 #                                                
3873 #       copy, convert, and tag input argument    
3874 #                                                
3875         lea             FP_SRC(%a6),%a0          
3876         mov.l           0x8+0x0(%a6),0x0(%a0)    
3877         mov.l           0x8+0x4(%a6),0x4(%a0)    
3878         mov.l           0x8+0x8(%a6),0x8(%a0)    
3879         bsr.l           tag                      
3880         mov.b           %d0,STAG(%a6)            
3881         mov.b           %d0,%d1                  
3882                                                  
3883         andi.l          &0x00ff00ff,USER_FPSR    
3884                                                  
3885         clr.l           %d0                      
3886         mov.b           FPCR_MODE(%a6),%d0       
3887                                                  
3888         tst.b           %d1                      
3889         bne.b           _L18_2x                  
3890         bsr.l           sgetexp                  
3891         bra.b           _L18_6x                  
3892 _L18_2x:                                         
3893         cmpi.b          %d1,&ZERO                
3894         bne.b           _L18_3x                  
3895         bsr.l           src_zero                 
3896         bra.b           _L18_6x                  
3897 _L18_3x:                                         
3898         cmpi.b          %d1,&INF                 
3899         bne.b           _L18_4x                  
3900         bsr.l           t_operr                  
3901         bra.b           _L18_6x                  
3902 _L18_4x:                                         
3903         cmpi.b          %d1,&QNAN                
3904         bne.b           _L18_5x                  
3905         bsr.l           src_qnan                 
3906         bra.b           _L18_6x                  
3907 _L18_5x:                                         
3908         bsr.l           sgetexpd                 
3909 _L18_6x:                                         
3910                                                  
3911 #                                                
3912 #       Result is now in FP0                     
3913 #                                                
3914         movm.l          EXC_DREGS(%a6),&0x030    
3915         fmovm.l         USER_FPCR(%a6),%fpcr,    
3916         fmovm.x         EXC_FP1(%a6),&0x40       
3917         unlk            %a6                      
3918         rts                                      
3919                                                  
3920                                                  
3921 #############################################    
3922 # MONADIC TEMPLATE                               
3923 #############################################    
3924         global          _fgetmans_               
3925 _fgetmans_:                                      
3926         link            %a6,&-LOCAL_SIZE         
3927                                                  
3928         movm.l          &0x0303,EXC_DREGS(%a6    
3929         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3930         fmovm.x         &0xc0,EXC_FP0(%a6)       
3931                                                  
3932         fmov.l          &0x0,%fpcr               
3933                                                  
3934 #                                                
3935 #       copy, convert, and tag input argument    
3936 #                                                
3937         fmov.s          0x8(%a6),%fp0            
3938         fmov.x          %fp0,FP_SRC(%a6)         
3939         lea             FP_SRC(%a6),%a0          
3940         bsr.l           tag                      
3941         mov.b           %d0,STAG(%a6)            
3942         mov.b           %d0,%d1                  
3943                                                  
3944         andi.l          &0x00ff00ff,USER_FPSR    
3945                                                  
3946         clr.l           %d0                      
3947         mov.b           FPCR_MODE(%a6),%d0       
3948                                                  
3949         tst.b           %d1                      
3950         bne.b           _L19_2s                  
3951         bsr.l           sgetman                  
3952         bra.b           _L19_6s                  
3953 _L19_2s:                                         
3954         cmpi.b          %d1,&ZERO                
3955         bne.b           _L19_3s                  
3956         bsr.l           src_zero                 
3957         bra.b           _L19_6s                  
3958 _L19_3s:                                         
3959         cmpi.b          %d1,&INF                 
3960         bne.b           _L19_4s                  
3961         bsr.l           t_operr                  
3962         bra.b           _L19_6s                  
3963 _L19_4s:                                         
3964         cmpi.b          %d1,&QNAN                
3965         bne.b           _L19_5s                  
3966         bsr.l           src_qnan                 
3967         bra.b           _L19_6s                  
3968 _L19_5s:                                         
3969         bsr.l           sgetmand                 
3970 _L19_6s:                                         
3971                                                  
3972 #                                                
3973 #       Result is now in FP0                     
3974 #                                                
3975         movm.l          EXC_DREGS(%a6),&0x030    
3976         fmovm.l         USER_FPCR(%a6),%fpcr,    
3977         fmovm.x         EXC_FP1(%a6),&0x40       
3978         unlk            %a6                      
3979         rts                                      
3980                                                  
3981         global          _fgetmand_               
3982 _fgetmand_:                                      
3983         link            %a6,&-LOCAL_SIZE         
3984                                                  
3985         movm.l          &0x0303,EXC_DREGS(%a6    
3986         fmovm.l         %fpcr,%fpsr,USER_FPCR    
3987         fmovm.x         &0xc0,EXC_FP0(%a6)       
3988                                                  
3989         fmov.l          &0x0,%fpcr               
3990                                                  
3991 #                                                
3992 #       copy, convert, and tag input argument    
3993 #                                                
3994         fmov.d          0x8(%a6),%fp0            
3995         fmov.x          %fp0,FP_SRC(%a6)         
3996         lea             FP_SRC(%a6),%a0          
3997         bsr.l           tag                      
3998         mov.b           %d0,STAG(%a6)            
3999         mov.b           %d0,%d1                  
4000                                                  
4001         andi.l          &0x00ff00ff,USER_FPSR    
4002                                                  
4003         clr.l           %d0                      
4004         mov.b           FPCR_MODE(%a6),%d0       
4005                                                  
4006         mov.b           %d1,STAG(%a6)            
4007         tst.b           %d1                      
4008         bne.b           _L19_2d                  
4009         bsr.l           sgetman                  
4010         bra.b           _L19_6d                  
4011 _L19_2d:                                         
4012         cmpi.b          %d1,&ZERO                
4013         bne.b           _L19_3d                  
4014         bsr.l           src_zero                 
4015         bra.b           _L19_6d                  
4016 _L19_3d:                                         
4017         cmpi.b          %d1,&INF                 
4018         bne.b           _L19_4d                  
4019         bsr.l           t_operr                  
4020         bra.b           _L19_6d                  
4021 _L19_4d:                                         
4022         cmpi.b          %d1,&QNAN                
4023         bne.b           _L19_5d                  
4024         bsr.l           src_qnan                 
4025         bra.b           _L19_6d                  
4026 _L19_5d:                                         
4027         bsr.l           sgetmand                 
4028 _L19_6d:                                         
4029                                                  
4030 #                                                
4031 #       Result is now in FP0                     
4032 #                                                
4033         movm.l          EXC_DREGS(%a6),&0x030    
4034         fmovm.l         USER_FPCR(%a6),%fpcr,    
4035         fmovm.x         EXC_FP1(%a6),&0x40       
4036         unlk            %a6                      
4037         rts                                      
4038                                                  
4039         global          _fgetmanx_               
4040 _fgetmanx_:                                      
4041         link            %a6,&-LOCAL_SIZE         
4042                                                  
4043         movm.l          &0x0303,EXC_DREGS(%a6    
4044         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4045         fmovm.x         &0xc0,EXC_FP0(%a6)       
4046                                                  
4047         fmov.l          &0x0,%fpcr               
4048                                                  
4049 #                                                
4050 #       copy, convert, and tag input argument    
4051 #                                                
4052         lea             FP_SRC(%a6),%a0          
4053         mov.l           0x8+0x0(%a6),0x0(%a0)    
4054         mov.l           0x8+0x4(%a6),0x4(%a0)    
4055         mov.l           0x8+0x8(%a6),0x8(%a0)    
4056         bsr.l           tag                      
4057         mov.b           %d0,STAG(%a6)            
4058         mov.b           %d0,%d1                  
4059                                                  
4060         andi.l          &0x00ff00ff,USER_FPSR    
4061                                                  
4062         clr.l           %d0                      
4063         mov.b           FPCR_MODE(%a6),%d0       
4064                                                  
4065         tst.b           %d1                      
4066         bne.b           _L19_2x                  
4067         bsr.l           sgetman                  
4068         bra.b           _L19_6x                  
4069 _L19_2x:                                         
4070         cmpi.b          %d1,&ZERO                
4071         bne.b           _L19_3x                  
4072         bsr.l           src_zero                 
4073         bra.b           _L19_6x                  
4074 _L19_3x:                                         
4075         cmpi.b          %d1,&INF                 
4076         bne.b           _L19_4x                  
4077         bsr.l           t_operr                  
4078         bra.b           _L19_6x                  
4079 _L19_4x:                                         
4080         cmpi.b          %d1,&QNAN                
4081         bne.b           _L19_5x                  
4082         bsr.l           src_qnan                 
4083         bra.b           _L19_6x                  
4084 _L19_5x:                                         
4085         bsr.l           sgetmand                 
4086 _L19_6x:                                         
4087                                                  
4088 #                                                
4089 #       Result is now in FP0                     
4090 #                                                
4091         movm.l          EXC_DREGS(%a6),&0x030    
4092         fmovm.l         USER_FPCR(%a6),%fpcr,    
4093         fmovm.x         EXC_FP1(%a6),&0x40       
4094         unlk            %a6                      
4095         rts                                      
4096                                                  
4097                                                  
4098 #############################################    
4099 # MONADIC TEMPLATE                               
4100 #############################################    
4101         global          _fsincoss_               
4102 _fsincoss_:                                      
4103         link            %a6,&-LOCAL_SIZE         
4104                                                  
4105         movm.l          &0x0303,EXC_DREGS(%a6    
4106         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4107         fmovm.x         &0xc0,EXC_FP0(%a6)       
4108                                                  
4109         fmov.l          &0x0,%fpcr               
4110                                                  
4111 #                                                
4112 #       copy, convert, and tag input argument    
4113 #                                                
4114         fmov.s          0x8(%a6),%fp0            
4115         fmov.x          %fp0,FP_SRC(%a6)         
4116         lea             FP_SRC(%a6),%a0          
4117         bsr.l           tag                      
4118         mov.b           %d0,STAG(%a6)            
4119         mov.b           %d0,%d1                  
4120                                                  
4121         andi.l          &0x00ff00ff,USER_FPSR    
4122                                                  
4123         clr.l           %d0                      
4124         mov.b           FPCR_MODE(%a6),%d0       
4125                                                  
4126         tst.b           %d1                      
4127         bne.b           _L20_2s                  
4128         bsr.l           ssincos                  
4129         bra.b           _L20_6s                  
4130 _L20_2s:                                         
4131         cmpi.b          %d1,&ZERO                
4132         bne.b           _L20_3s                  
4133         bsr.l           ssincosz                 
4134         bra.b           _L20_6s                  
4135 _L20_3s:                                         
4136         cmpi.b          %d1,&INF                 
4137         bne.b           _L20_4s                  
4138         bsr.l           ssincosi                 
4139         bra.b           _L20_6s                  
4140 _L20_4s:                                         
4141         cmpi.b          %d1,&QNAN                
4142         bne.b           _L20_5s                  
4143         bsr.l           ssincosqnan              
4144         bra.b           _L20_6s                  
4145 _L20_5s:                                         
4146         bsr.l           ssincosd                 
4147 _L20_6s:                                         
4148                                                  
4149 #                                                
4150 #       Result is now in FP0                     
4151 #                                                
4152         movm.l          EXC_DREGS(%a6),&0x030    
4153         fmovm.l         USER_FPCR(%a6),%fpcr,    
4154         fmovm.x         &0x03,-(%sp)             
4155         fmovm.x         (%sp)+,&0x40             
4156         fmovm.x         (%sp)+,&0x80             
4157         unlk            %a6                      
4158         rts                                      
4159                                                  
4160         global          _fsincosd_               
4161 _fsincosd_:                                      
4162         link            %a6,&-LOCAL_SIZE         
4163                                                  
4164         movm.l          &0x0303,EXC_DREGS(%a6    
4165         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4166         fmovm.x         &0xc0,EXC_FP0(%a6)       
4167                                                  
4168         fmov.l          &0x0,%fpcr               
4169                                                  
4170 #                                                
4171 #       copy, convert, and tag input argument    
4172 #                                                
4173         fmov.d          0x8(%a6),%fp0            
4174         fmov.x          %fp0,FP_SRC(%a6)         
4175         lea             FP_SRC(%a6),%a0          
4176         bsr.l           tag                      
4177         mov.b           %d0,STAG(%a6)            
4178         mov.b           %d0,%d1                  
4179                                                  
4180         andi.l          &0x00ff00ff,USER_FPSR    
4181                                                  
4182         clr.l           %d0                      
4183         mov.b           FPCR_MODE(%a6),%d0       
4184                                                  
4185         mov.b           %d1,STAG(%a6)            
4186         tst.b           %d1                      
4187         bne.b           _L20_2d                  
4188         bsr.l           ssincos                  
4189         bra.b           _L20_6d                  
4190 _L20_2d:                                         
4191         cmpi.b          %d1,&ZERO                
4192         bne.b           _L20_3d                  
4193         bsr.l           ssincosz                 
4194         bra.b           _L20_6d                  
4195 _L20_3d:                                         
4196         cmpi.b          %d1,&INF                 
4197         bne.b           _L20_4d                  
4198         bsr.l           ssincosi                 
4199         bra.b           _L20_6d                  
4200 _L20_4d:                                         
4201         cmpi.b          %d1,&QNAN                
4202         bne.b           _L20_5d                  
4203         bsr.l           ssincosqnan              
4204         bra.b           _L20_6d                  
4205 _L20_5d:                                         
4206         bsr.l           ssincosd                 
4207 _L20_6d:                                         
4208                                                  
4209 #                                                
4210 #       Result is now in FP0                     
4211 #                                                
4212         movm.l          EXC_DREGS(%a6),&0x030    
4213         fmovm.l         USER_FPCR(%a6),%fpcr,    
4214         fmovm.x         &0x03,-(%sp)             
4215         fmovm.x         (%sp)+,&0x40             
4216         fmovm.x         (%sp)+,&0x80             
4217         unlk            %a6                      
4218         rts                                      
4219                                                  
4220         global          _fsincosx_               
4221 _fsincosx_:                                      
4222         link            %a6,&-LOCAL_SIZE         
4223                                                  
4224         movm.l          &0x0303,EXC_DREGS(%a6    
4225         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4226         fmovm.x         &0xc0,EXC_FP0(%a6)       
4227                                                  
4228         fmov.l          &0x0,%fpcr               
4229                                                  
4230 #                                                
4231 #       copy, convert, and tag input argument    
4232 #                                                
4233         lea             FP_SRC(%a6),%a0          
4234         mov.l           0x8+0x0(%a6),0x0(%a0)    
4235         mov.l           0x8+0x4(%a6),0x4(%a0)    
4236         mov.l           0x8+0x8(%a6),0x8(%a0)    
4237         bsr.l           tag                      
4238         mov.b           %d0,STAG(%a6)            
4239         mov.b           %d0,%d1                  
4240                                                  
4241         andi.l          &0x00ff00ff,USER_FPSR    
4242                                                  
4243         clr.l           %d0                      
4244         mov.b           FPCR_MODE(%a6),%d0       
4245                                                  
4246         tst.b           %d1                      
4247         bne.b           _L20_2x                  
4248         bsr.l           ssincos                  
4249         bra.b           _L20_6x                  
4250 _L20_2x:                                         
4251         cmpi.b          %d1,&ZERO                
4252         bne.b           _L20_3x                  
4253         bsr.l           ssincosz                 
4254         bra.b           _L20_6x                  
4255 _L20_3x:                                         
4256         cmpi.b          %d1,&INF                 
4257         bne.b           _L20_4x                  
4258         bsr.l           ssincosi                 
4259         bra.b           _L20_6x                  
4260 _L20_4x:                                         
4261         cmpi.b          %d1,&QNAN                
4262         bne.b           _L20_5x                  
4263         bsr.l           ssincosqnan              
4264         bra.b           _L20_6x                  
4265 _L20_5x:                                         
4266         bsr.l           ssincosd                 
4267 _L20_6x:                                         
4268                                                  
4269 #                                                
4270 #       Result is now in FP0                     
4271 #                                                
4272         movm.l          EXC_DREGS(%a6),&0x030    
4273         fmovm.l         USER_FPCR(%a6),%fpcr,    
4274         fmovm.x         &0x03,-(%sp)             
4275         fmovm.x         (%sp)+,&0x40             
4276         fmovm.x         (%sp)+,&0x80             
4277         unlk            %a6                      
4278         rts                                      
4279                                                  
4280                                                  
4281 #############################################    
4282 # DYADIC TEMPLATE                                
4283 #############################################    
4284         global          _frems_                  
4285 _frems_:                                         
4286         link            %a6,&-LOCAL_SIZE         
4287                                                  
4288         movm.l          &0x0303,EXC_DREGS(%a6    
4289         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4290         fmovm.x         &0xc0,EXC_FP0(%a6)       
4291                                                  
4292         fmov.l          &0x0,%fpcr               
4293                                                  
4294 #                                                
4295 #       copy, convert, and tag input argument    
4296 #                                                
4297         fmov.s          0x8(%a6),%fp0            
4298         fmov.x          %fp0,FP_DST(%a6)         
4299         lea             FP_DST(%a6),%a0          
4300         bsr.l           tag                      
4301         mov.b           %d0,DTAG(%a6)            
4302                                                  
4303         fmov.s          0xc(%a6),%fp0            
4304         fmov.x          %fp0,FP_SRC(%a6)         
4305         lea             FP_SRC(%a6),%a0          
4306         bsr.l           tag                      
4307         mov.b           %d0,STAG(%a6)            
4308         mov.l           %d0,%d1                  
4309                                                  
4310         andi.l          &0x00ff00ff,USER_FPSR    
4311                                                  
4312         clr.l           %d0                      
4313         mov.b           FPCR_MODE(%a6),%d0       
4314                                                  
4315         lea             FP_SRC(%a6),%a0          
4316         lea             FP_DST(%a6),%a1          
4317                                                  
4318         tst.b           %d1                      
4319         bne.b           _L21_2s                  
4320         bsr.l           srem_snorm               
4321         bra.b           _L21_6s                  
4322 _L21_2s:                                         
4323         cmpi.b          %d1,&ZERO                
4324         bne.b           _L21_3s                  
4325         bsr.l           srem_szero               
4326         bra.b           _L21_6s                  
4327 _L21_3s:                                         
4328         cmpi.b          %d1,&INF                 
4329         bne.b           _L21_4s                  
4330         bsr.l           srem_sinf                
4331         bra.b           _L21_6s                  
4332 _L21_4s:                                         
4333         cmpi.b          %d1,&QNAN                
4334         bne.b           _L21_5s                  
4335         bsr.l           sop_sqnan                
4336         bra.b           _L21_6s                  
4337 _L21_5s:                                         
4338         bsr.l           srem_sdnrm               
4339 _L21_6s:                                         
4340                                                  
4341 #                                                
4342 #       Result is now in FP0                     
4343 #                                                
4344         movm.l          EXC_DREGS(%a6),&0x030    
4345         fmovm.l         USER_FPCR(%a6),%fpcr,    
4346         fmovm.x         EXC_FP1(%a6),&0x40       
4347         unlk            %a6                      
4348         rts                                      
4349                                                  
4350         global          _fremd_                  
4351 _fremd_:                                         
4352         link            %a6,&-LOCAL_SIZE         
4353                                                  
4354         movm.l          &0x0303,EXC_DREGS(%a6    
4355         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4356         fmovm.x         &0xc0,EXC_FP0(%a6)       
4357                                                  
4358         fmov.l          &0x0,%fpcr               
4359                                                  
4360 #                                                
4361 #       copy, convert, and tag input argument    
4362 #                                                
4363         fmov.d          0x8(%a6),%fp0            
4364         fmov.x          %fp0,FP_DST(%a6)         
4365         lea             FP_DST(%a6),%a0          
4366         bsr.l           tag                      
4367         mov.b           %d0,DTAG(%a6)            
4368                                                  
4369         fmov.d          0x10(%a6),%fp0           
4370         fmov.x          %fp0,FP_SRC(%a6)         
4371         lea             FP_SRC(%a6),%a0          
4372         bsr.l           tag                      
4373         mov.b           %d0,STAG(%a6)            
4374         mov.l           %d0,%d1                  
4375                                                  
4376         andi.l          &0x00ff00ff,USER_FPSR    
4377                                                  
4378         clr.l           %d0                      
4379         mov.b           FPCR_MODE(%a6),%d0       
4380                                                  
4381         lea             FP_SRC(%a6),%a0          
4382         lea             FP_DST(%a6),%a1          
4383                                                  
4384         tst.b           %d1                      
4385         bne.b           _L21_2d                  
4386         bsr.l           srem_snorm               
4387         bra.b           _L21_6d                  
4388 _L21_2d:                                         
4389         cmpi.b          %d1,&ZERO                
4390         bne.b           _L21_3d                  
4391         bsr.l           srem_szero               
4392         bra.b           _L21_6d                  
4393 _L21_3d:                                         
4394         cmpi.b          %d1,&INF                 
4395         bne.b           _L21_4d                  
4396         bsr.l           srem_sinf                
4397         bra.b           _L21_6d                  
4398 _L21_4d:                                         
4399         cmpi.b          %d1,&QNAN                
4400         bne.b           _L21_5d                  
4401         bsr.l           sop_sqnan                
4402         bra.b           _L21_6d                  
4403 _L21_5d:                                         
4404         bsr.l           srem_sdnrm               
4405 _L21_6d:                                         
4406                                                  
4407 #                                                
4408 #       Result is now in FP0                     
4409 #                                                
4410         movm.l          EXC_DREGS(%a6),&0x030    
4411         fmovm.l         USER_FPCR(%a6),%fpcr,    
4412         fmovm.x         EXC_FP1(%a6),&0x40       
4413         unlk            %a6                      
4414         rts                                      
4415                                                  
4416         global          _fremx_                  
4417 _fremx_:                                         
4418         link            %a6,&-LOCAL_SIZE         
4419                                                  
4420         movm.l          &0x0303,EXC_DREGS(%a6    
4421         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4422         fmovm.x         &0xc0,EXC_FP0(%a6)       
4423                                                  
4424         fmov.l          &0x0,%fpcr               
4425                                                  
4426 #                                                
4427 #       copy, convert, and tag input argument    
4428 #                                                
4429         lea             FP_DST(%a6),%a0          
4430         mov.l           0x8+0x0(%a6),0x0(%a0)    
4431         mov.l           0x8+0x4(%a6),0x4(%a0)    
4432         mov.l           0x8+0x8(%a6),0x8(%a0)    
4433         bsr.l           tag                      
4434         mov.b           %d0,DTAG(%a6)            
4435                                                  
4436         lea             FP_SRC(%a6),%a0          
4437         mov.l           0x14+0x0(%a6),0x0(%a0    
4438         mov.l           0x14+0x4(%a6),0x4(%a0    
4439         mov.l           0x14+0x8(%a6),0x8(%a0    
4440         bsr.l           tag                      
4441         mov.b           %d0,STAG(%a6)            
4442         mov.l           %d0,%d1                  
4443                                                  
4444         andi.l          &0x00ff00ff,USER_FPSR    
4445                                                  
4446         clr.l           %d0                      
4447         mov.b           FPCR_MODE(%a6),%d0       
4448                                                  
4449         lea             FP_SRC(%a6),%a0          
4450         lea             FP_DST(%a6),%a1          
4451                                                  
4452         tst.b           %d1                      
4453         bne.b           _L21_2x                  
4454         bsr.l           srem_snorm               
4455         bra.b           _L21_6x                  
4456 _L21_2x:                                         
4457         cmpi.b          %d1,&ZERO                
4458         bne.b           _L21_3x                  
4459         bsr.l           srem_szero               
4460         bra.b           _L21_6x                  
4461 _L21_3x:                                         
4462         cmpi.b          %d1,&INF                 
4463         bne.b           _L21_4x                  
4464         bsr.l           srem_sinf                
4465         bra.b           _L21_6x                  
4466 _L21_4x:                                         
4467         cmpi.b          %d1,&QNAN                
4468         bne.b           _L21_5x                  
4469         bsr.l           sop_sqnan                
4470         bra.b           _L21_6x                  
4471 _L21_5x:                                         
4472         bsr.l           srem_sdnrm               
4473 _L21_6x:                                         
4474                                                  
4475 #                                                
4476 #       Result is now in FP0                     
4477 #                                                
4478         movm.l          EXC_DREGS(%a6),&0x030    
4479         fmovm.l         USER_FPCR(%a6),%fpcr,    
4480         fmovm.x         EXC_FP1(%a6),&0x40       
4481         unlk            %a6                      
4482         rts                                      
4483                                                  
4484                                                  
4485 #############################################    
4486 # DYADIC TEMPLATE                                
4487 #############################################    
4488         global          _fmods_                  
4489 _fmods_:                                         
4490         link            %a6,&-LOCAL_SIZE         
4491                                                  
4492         movm.l          &0x0303,EXC_DREGS(%a6    
4493         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4494         fmovm.x         &0xc0,EXC_FP0(%a6)       
4495                                                  
4496         fmov.l          &0x0,%fpcr               
4497                                                  
4498 #                                                
4499 #       copy, convert, and tag input argument    
4500 #                                                
4501         fmov.s          0x8(%a6),%fp0            
4502         fmov.x          %fp0,FP_DST(%a6)         
4503         lea             FP_DST(%a6),%a0          
4504         bsr.l           tag                      
4505         mov.b           %d0,DTAG(%a6)            
4506                                                  
4507         fmov.s          0xc(%a6),%fp0            
4508         fmov.x          %fp0,FP_SRC(%a6)         
4509         lea             FP_SRC(%a6),%a0          
4510         bsr.l           tag                      
4511         mov.b           %d0,STAG(%a6)            
4512         mov.l           %d0,%d1                  
4513                                                  
4514         andi.l          &0x00ff00ff,USER_FPSR    
4515                                                  
4516         clr.l           %d0                      
4517         mov.b           FPCR_MODE(%a6),%d0       
4518                                                  
4519         lea             FP_SRC(%a6),%a0          
4520         lea             FP_DST(%a6),%a1          
4521                                                  
4522         tst.b           %d1                      
4523         bne.b           _L22_2s                  
4524         bsr.l           smod_snorm               
4525         bra.b           _L22_6s                  
4526 _L22_2s:                                         
4527         cmpi.b          %d1,&ZERO                
4528         bne.b           _L22_3s                  
4529         bsr.l           smod_szero               
4530         bra.b           _L22_6s                  
4531 _L22_3s:                                         
4532         cmpi.b          %d1,&INF                 
4533         bne.b           _L22_4s                  
4534         bsr.l           smod_sinf                
4535         bra.b           _L22_6s                  
4536 _L22_4s:                                         
4537         cmpi.b          %d1,&QNAN                
4538         bne.b           _L22_5s                  
4539         bsr.l           sop_sqnan                
4540         bra.b           _L22_6s                  
4541 _L22_5s:                                         
4542         bsr.l           smod_sdnrm               
4543 _L22_6s:                                         
4544                                                  
4545 #                                                
4546 #       Result is now in FP0                     
4547 #                                                
4548         movm.l          EXC_DREGS(%a6),&0x030    
4549         fmovm.l         USER_FPCR(%a6),%fpcr,    
4550         fmovm.x         EXC_FP1(%a6),&0x40       
4551         unlk            %a6                      
4552         rts                                      
4553                                                  
4554         global          _fmodd_                  
4555 _fmodd_:                                         
4556         link            %a6,&-LOCAL_SIZE         
4557                                                  
4558         movm.l          &0x0303,EXC_DREGS(%a6    
4559         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4560         fmovm.x         &0xc0,EXC_FP0(%a6)       
4561                                                  
4562         fmov.l          &0x0,%fpcr               
4563                                                  
4564 #                                                
4565 #       copy, convert, and tag input argument    
4566 #                                                
4567         fmov.d          0x8(%a6),%fp0            
4568         fmov.x          %fp0,FP_DST(%a6)         
4569         lea             FP_DST(%a6),%a0          
4570         bsr.l           tag                      
4571         mov.b           %d0,DTAG(%a6)            
4572                                                  
4573         fmov.d          0x10(%a6),%fp0           
4574         fmov.x          %fp0,FP_SRC(%a6)         
4575         lea             FP_SRC(%a6),%a0          
4576         bsr.l           tag                      
4577         mov.b           %d0,STAG(%a6)            
4578         mov.l           %d0,%d1                  
4579                                                  
4580         andi.l          &0x00ff00ff,USER_FPSR    
4581                                                  
4582         clr.l           %d0                      
4583         mov.b           FPCR_MODE(%a6),%d0       
4584                                                  
4585         lea             FP_SRC(%a6),%a0          
4586         lea             FP_DST(%a6),%a1          
4587                                                  
4588         tst.b           %d1                      
4589         bne.b           _L22_2d                  
4590         bsr.l           smod_snorm               
4591         bra.b           _L22_6d                  
4592 _L22_2d:                                         
4593         cmpi.b          %d1,&ZERO                
4594         bne.b           _L22_3d                  
4595         bsr.l           smod_szero               
4596         bra.b           _L22_6d                  
4597 _L22_3d:                                         
4598         cmpi.b          %d1,&INF                 
4599         bne.b           _L22_4d                  
4600         bsr.l           smod_sinf                
4601         bra.b           _L22_6d                  
4602 _L22_4d:                                         
4603         cmpi.b          %d1,&QNAN                
4604         bne.b           _L22_5d                  
4605         bsr.l           sop_sqnan                
4606         bra.b           _L22_6d                  
4607 _L22_5d:                                         
4608         bsr.l           smod_sdnrm               
4609 _L22_6d:                                         
4610                                                  
4611 #                                                
4612 #       Result is now in FP0                     
4613 #                                                
4614         movm.l          EXC_DREGS(%a6),&0x030    
4615         fmovm.l         USER_FPCR(%a6),%fpcr,    
4616         fmovm.x         EXC_FP1(%a6),&0x40       
4617         unlk            %a6                      
4618         rts                                      
4619                                                  
4620         global          _fmodx_                  
4621 _fmodx_:                                         
4622         link            %a6,&-LOCAL_SIZE         
4623                                                  
4624         movm.l          &0x0303,EXC_DREGS(%a6    
4625         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4626         fmovm.x         &0xc0,EXC_FP0(%a6)       
4627                                                  
4628         fmov.l          &0x0,%fpcr               
4629                                                  
4630 #                                                
4631 #       copy, convert, and tag input argument    
4632 #                                                
4633         lea             FP_DST(%a6),%a0          
4634         mov.l           0x8+0x0(%a6),0x0(%a0)    
4635         mov.l           0x8+0x4(%a6),0x4(%a0)    
4636         mov.l           0x8+0x8(%a6),0x8(%a0)    
4637         bsr.l           tag                      
4638         mov.b           %d0,DTAG(%a6)            
4639                                                  
4640         lea             FP_SRC(%a6),%a0          
4641         mov.l           0x14+0x0(%a6),0x0(%a0    
4642         mov.l           0x14+0x4(%a6),0x4(%a0    
4643         mov.l           0x14+0x8(%a6),0x8(%a0    
4644         bsr.l           tag                      
4645         mov.b           %d0,STAG(%a6)            
4646         mov.l           %d0,%d1                  
4647                                                  
4648         andi.l          &0x00ff00ff,USER_FPSR    
4649                                                  
4650         clr.l           %d0                      
4651         mov.b           FPCR_MODE(%a6),%d0       
4652                                                  
4653         lea             FP_SRC(%a6),%a0          
4654         lea             FP_DST(%a6),%a1          
4655                                                  
4656         tst.b           %d1                      
4657         bne.b           _L22_2x                  
4658         bsr.l           smod_snorm               
4659         bra.b           _L22_6x                  
4660 _L22_2x:                                         
4661         cmpi.b          %d1,&ZERO                
4662         bne.b           _L22_3x                  
4663         bsr.l           smod_szero               
4664         bra.b           _L22_6x                  
4665 _L22_3x:                                         
4666         cmpi.b          %d1,&INF                 
4667         bne.b           _L22_4x                  
4668         bsr.l           smod_sinf                
4669         bra.b           _L22_6x                  
4670 _L22_4x:                                         
4671         cmpi.b          %d1,&QNAN                
4672         bne.b           _L22_5x                  
4673         bsr.l           sop_sqnan                
4674         bra.b           _L22_6x                  
4675 _L22_5x:                                         
4676         bsr.l           smod_sdnrm               
4677 _L22_6x:                                         
4678                                                  
4679 #                                                
4680 #       Result is now in FP0                     
4681 #                                                
4682         movm.l          EXC_DREGS(%a6),&0x030    
4683         fmovm.l         USER_FPCR(%a6),%fpcr,    
4684         fmovm.x         EXC_FP1(%a6),&0x40       
4685         unlk            %a6                      
4686         rts                                      
4687                                                  
4688                                                  
4689 #############################################    
4690 # DYADIC TEMPLATE                                
4691 #############################################    
4692         global          _fscales_                
4693 _fscales_:                                       
4694         link            %a6,&-LOCAL_SIZE         
4695                                                  
4696         movm.l          &0x0303,EXC_DREGS(%a6    
4697         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4698         fmovm.x         &0xc0,EXC_FP0(%a6)       
4699                                                  
4700         fmov.l          &0x0,%fpcr               
4701                                                  
4702 #                                                
4703 #       copy, convert, and tag input argument    
4704 #                                                
4705         fmov.s          0x8(%a6),%fp0            
4706         fmov.x          %fp0,FP_DST(%a6)         
4707         lea             FP_DST(%a6),%a0          
4708         bsr.l           tag                      
4709         mov.b           %d0,DTAG(%a6)            
4710                                                  
4711         fmov.s          0xc(%a6),%fp0            
4712         fmov.x          %fp0,FP_SRC(%a6)         
4713         lea             FP_SRC(%a6),%a0          
4714         bsr.l           tag                      
4715         mov.b           %d0,STAG(%a6)            
4716         mov.l           %d0,%d1                  
4717                                                  
4718         andi.l          &0x00ff00ff,USER_FPSR    
4719                                                  
4720         clr.l           %d0                      
4721         mov.b           FPCR_MODE(%a6),%d0       
4722                                                  
4723         lea             FP_SRC(%a6),%a0          
4724         lea             FP_DST(%a6),%a1          
4725                                                  
4726         tst.b           %d1                      
4727         bne.b           _L23_2s                  
4728         bsr.l           sscale_snorm             
4729         bra.b           _L23_6s                  
4730 _L23_2s:                                         
4731         cmpi.b          %d1,&ZERO                
4732         bne.b           _L23_3s                  
4733         bsr.l           sscale_szero             
4734         bra.b           _L23_6s                  
4735 _L23_3s:                                         
4736         cmpi.b          %d1,&INF                 
4737         bne.b           _L23_4s                  
4738         bsr.l           sscale_sinf              
4739         bra.b           _L23_6s                  
4740 _L23_4s:                                         
4741         cmpi.b          %d1,&QNAN                
4742         bne.b           _L23_5s                  
4743         bsr.l           sop_sqnan                
4744         bra.b           _L23_6s                  
4745 _L23_5s:                                         
4746         bsr.l           sscale_sdnrm             
4747 _L23_6s:                                         
4748                                                  
4749 #                                                
4750 #       Result is now in FP0                     
4751 #                                                
4752         movm.l          EXC_DREGS(%a6),&0x030    
4753         fmovm.l         USER_FPCR(%a6),%fpcr,    
4754         fmovm.x         EXC_FP1(%a6),&0x40       
4755         unlk            %a6                      
4756         rts                                      
4757                                                  
4758         global          _fscaled_                
4759 _fscaled_:                                       
4760         link            %a6,&-LOCAL_SIZE         
4761                                                  
4762         movm.l          &0x0303,EXC_DREGS(%a6    
4763         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4764         fmovm.x         &0xc0,EXC_FP0(%a6)       
4765                                                  
4766         fmov.l          &0x0,%fpcr               
4767                                                  
4768 #                                                
4769 #       copy, convert, and tag input argument    
4770 #                                                
4771         fmov.d          0x8(%a6),%fp0            
4772         fmov.x          %fp0,FP_DST(%a6)         
4773         lea             FP_DST(%a6),%a0          
4774         bsr.l           tag                      
4775         mov.b           %d0,DTAG(%a6)            
4776                                                  
4777         fmov.d          0x10(%a6),%fp0           
4778         fmov.x          %fp0,FP_SRC(%a6)         
4779         lea             FP_SRC(%a6),%a0          
4780         bsr.l           tag                      
4781         mov.b           %d0,STAG(%a6)            
4782         mov.l           %d0,%d1                  
4783                                                  
4784         andi.l          &0x00ff00ff,USER_FPSR    
4785                                                  
4786         clr.l           %d0                      
4787         mov.b           FPCR_MODE(%a6),%d0       
4788                                                  
4789         lea             FP_SRC(%a6),%a0          
4790         lea             FP_DST(%a6),%a1          
4791                                                  
4792         tst.b           %d1                      
4793         bne.b           _L23_2d                  
4794         bsr.l           sscale_snorm             
4795         bra.b           _L23_6d                  
4796 _L23_2d:                                         
4797         cmpi.b          %d1,&ZERO                
4798         bne.b           _L23_3d                  
4799         bsr.l           sscale_szero             
4800         bra.b           _L23_6d                  
4801 _L23_3d:                                         
4802         cmpi.b          %d1,&INF                 
4803         bne.b           _L23_4d                  
4804         bsr.l           sscale_sinf              
4805         bra.b           _L23_6d                  
4806 _L23_4d:                                         
4807         cmpi.b          %d1,&QNAN                
4808         bne.b           _L23_5d                  
4809         bsr.l           sop_sqnan                
4810         bra.b           _L23_6d                  
4811 _L23_5d:                                         
4812         bsr.l           sscale_sdnrm             
4813 _L23_6d:                                         
4814                                                  
4815 #                                                
4816 #       Result is now in FP0                     
4817 #                                                
4818         movm.l          EXC_DREGS(%a6),&0x030    
4819         fmovm.l         USER_FPCR(%a6),%fpcr,    
4820         fmovm.x         EXC_FP1(%a6),&0x40       
4821         unlk            %a6                      
4822         rts                                      
4823                                                  
4824         global          _fscalex_                
4825 _fscalex_:                                       
4826         link            %a6,&-LOCAL_SIZE         
4827                                                  
4828         movm.l          &0x0303,EXC_DREGS(%a6    
4829         fmovm.l         %fpcr,%fpsr,USER_FPCR    
4830         fmovm.x         &0xc0,EXC_FP0(%a6)       
4831                                                  
4832         fmov.l          &0x0,%fpcr               
4833                                                  
4834 #                                                
4835 #       copy, convert, and tag input argument    
4836 #                                                
4837         lea             FP_DST(%a6),%a0          
4838         mov.l           0x8+0x0(%a6),0x0(%a0)    
4839         mov.l           0x8+0x4(%a6),0x4(%a0)    
4840         mov.l           0x8+0x8(%a6),0x8(%a0)    
4841         bsr.l           tag                      
4842         mov.b           %d0,DTAG(%a6)            
4843                                                  
4844         lea             FP_SRC(%a6),%a0          
4845         mov.l           0x14+0x0(%a6),0x0(%a0    
4846         mov.l           0x14+0x4(%a6),0x4(%a0    
4847         mov.l           0x14+0x8(%a6),0x8(%a0    
4848         bsr.l           tag                      
4849         mov.b           %d0,STAG(%a6)            
4850         mov.l           %d0,%d1                  
4851                                                  
4852         andi.l          &0x00ff00ff,USER_FPSR    
4853                                                  
4854         clr.l           %d0                      
4855         mov.b           FPCR_MODE(%a6),%d0       
4856                                                  
4857         lea             FP_SRC(%a6),%a0          
4858         lea             FP_DST(%a6),%a1          
4859                                                  
4860         tst.b           %d1                      
4861         bne.b           _L23_2x                  
4862         bsr.l           sscale_snorm             
4863         bra.b           _L23_6x                  
4864 _L23_2x:                                         
4865         cmpi.b          %d1,&ZERO                
4866         bne.b           _L23_3x                  
4867         bsr.l           sscale_szero             
4868         bra.b           _L23_6x                  
4869 _L23_3x:                                         
4870         cmpi.b          %d1,&INF                 
4871         bne.b           _L23_4x                  
4872         bsr.l           sscale_sinf              
4873         bra.b           _L23_6x                  
4874 _L23_4x:                                         
4875         cmpi.b          %d1,&QNAN                
4876         bne.b           _L23_5x                  
4877         bsr.l           sop_sqnan                
4878         bra.b           _L23_6x                  
4879 _L23_5x:                                         
4880         bsr.l           sscale_sdnrm             
4881 _L23_6x:                                         
4882                                                  
4883 #                                                
4884 #       Result is now in FP0                     
4885 #                                                
4886         movm.l          EXC_DREGS(%a6),&0x030    
4887         fmovm.l         USER_FPCR(%a6),%fpcr,    
4888         fmovm.x         EXC_FP1(%a6),&0x40       
4889         unlk            %a6                      
4890         rts                                      
4891                                                  
4892                                                  
4893 #############################################    
4894 # ssin():     computes the sine of a normaliz    
4895 # ssind():    computes the sine of a denormal    
4896 # scos():     computes the cosine of a normal    
4897 # scosd():    computes the cosine of a denorm    
4898 # ssincos():  computes the sine and cosine of    
4899 # ssincosd(): computes the sine and cosine of    
4900 #                                                
4901 # INPUT *************************************    
4902 #       a0 = pointer to extended precision in    
4903 #       d0 = round precision,mode                
4904 #                                                
4905 # OUTPUT ************************************    
4906 #       fp0 = sin(X) or cos(X)                   
4907 #                                                
4908 #    For ssincos(X):                             
4909 #       fp0 = sin(X)                             
4910 #       fp1 = cos(X)                             
4911 #                                                
4912 # ACCURACY and MONOTONICITY *****************    
4913 #       The returned result is within 1 ulp i    
4914 #       within 0.5001 ulp to 53 bits if the r    
4915 #       rounded to double precision. The resu    
4916 #       in double precision.                     
4917 #                                                
4918 # ALGORITHM *********************************    
4919 #                                                
4920 #       SIN and COS:                             
4921 #       1. If SIN is invoked, set AdjN := 0;     
4922 #                                                
4923 #       2. If |X| >= 15Pi or |X| < 2**(-40),     
4924 #                                                
4925 #       3. Decompose X as X = N(Pi/2) + r whe    
4926 #               k = N mod 4, so in particular    
4927 #               Overwrite k by k := k + AdjN.    
4928 #                                                
4929 #       4. If k is even, go to 6.                
4930 #                                                
4931 #       5. (k is odd) Set j := (k-1)/2, sgn :    
4932 #               Return sgn*cos(r) where cos(r    
4933 #               even polynomial in r, 1 + r*r    
4934 #               s = r*r.                         
4935 #               Exit.                            
4936 #                                                
4937 #       6. (k is even) Set j := k/2, sgn := (    
4938 #               where sin(r) is approximated     
4939 #               r + r*s*(A1+s*(A2+ ... + s*A7    
4940 #               Exit.                            
4941 #                                                
4942 #       7. If |X| > 1, go to 9.                  
4943 #                                                
4944 #       8. (|X|<2**(-40)) If SIN is invoked,     
4945 #               otherwise return 1.              
4946 #                                                
4947 #       9. Overwrite X by X := X rem 2Pi. Now    
4948 #               go back to 3.                    
4949 #                                                
4950 #       SINCOS:                                  
4951 #       1. If |X| >= 15Pi or |X| < 2**(-40),     
4952 #                                                
4953 #       2. Decompose X as X = N(Pi/2) + r whe    
4954 #               k = N mod 4, so in particular    
4955 #                                                
4956 #       3. If k is even, go to 5.                
4957 #                                                
4958 #       4. (k is odd) Set j1 := (k-1)/2, j2 :    
4959 #               j1 exclusive or with the l.s.    
4960 #               sgn1 := (-1)**j1, sgn2 := (-1    
4961 #               SIN(X) = sgn1 * cos(r) and CO    
4962 #               sin(r) and cos(r) are compute    
4963 #               polynomials in r, respectivel    
4964 #                                                
4965 #       5. (k is even) Set j1 := k/2, sgn1 :=    
4966 #               SIN(X) = sgn1 * sin(r) and CO    
4967 #               sin(r) and cos(r) are compute    
4968 #               polynomials in r, respectivel    
4969 #                                                
4970 #       6. If |X| > 1, go to 8.                  
4971 #                                                
4972 #       7. (|X|<2**(-40)) SIN(X) = X and COS(    
4973 #                                                
4974 #       8. Overwrite X by X := X rem 2Pi. Now    
4975 #               go back to 2.                    
4976 #                                                
4977 #############################################    
4978                                                  
4979 SINA7:  long            0xBD6AAA77,0xCCC994F5    
4980 SINA6:  long            0x3DE61209,0x7AAE8DA1    
4981 SINA5:  long            0xBE5AE645,0x2A118AE4    
4982 SINA4:  long            0x3EC71DE3,0xA5341531    
4983 SINA3:  long            0xBF2A01A0,0x1A018B59    
4984 SINA2:  long            0x3FF80000,0x88888888    
4985 SINA1:  long            0xBFFC0000,0xAAAAAAAA    
4986                                                  
4987 COSB8:  long            0x3D2AC4D0,0xD6011EE3    
4988 COSB7:  long            0xBDA9396F,0x9F45AC19    
4989 COSB6:  long            0x3E21EED9,0x0612C972    
4990 COSB5:  long            0xBE927E4F,0xB79D9FCF    
4991 COSB4:  long            0x3EFA01A0,0x1A01D423    
4992 COSB3:  long            0xBFF50000,0xB60B60B6    
4993 COSB2:  long            0x3FFA0000,0xAAAAAAAA    
4994 COSB1:  long            0xBF000000               
4995                                                  
4996         set             INARG,FP_SCR0            
4997                                                  
4998         set             X,FP_SCR0                
4999 #       set             XDCARE,X+2               
5000         set             XFRAC,X+4                
5001                                                  
5002         set             RPRIME,FP_SCR0           
5003         set             SPRIME,FP_SCR1           
5004                                                  
5005         set             POSNEG1,L_SCR1           
5006         set             TWOTO63,L_SCR1           
5007                                                  
5008         set             ENDFLAG,L_SCR2           
5009         set             INT,L_SCR2               
5010                                                  
5011         set             ADJN,L_SCR3              
5012                                                  
5013 ############################################     
5014         global          ssin                     
5015 ssin:                                            
5016         mov.l           &0,ADJN(%a6)             
5017         bra.b           SINBGN                   
5018                                                  
5019 ############################################     
5020         global          scos                     
5021 scos:                                            
5022         mov.l           &1,ADJN(%a6)             
5023                                                  
5024 ############################################     
5025 SINBGN:                                          
5026 #--SAVE FPCR, FP1. CHECK IF |X| IS TOO SMALL     
5027                                                  
5028         fmov.x          (%a0),%fp0               
5029         fmov.x          %fp0,X(%a6)              
5030                                                  
5031 # "COMPACTIFY" X                                 
5032         mov.l           (%a0),%d1                
5033         mov.w           4(%a0),%d1               
5034         and.l           &0x7FFFFFFF,%d1          
5035                                                  
5036         cmpi.l          %d1,&0x3FD78000          
5037         bge.b           SOK1                     
5038         bra.w           SINSM                    
5039                                                  
5040 SOK1:                                            
5041         cmp.l           %d1,&0x4004BC7E          
5042         blt.b           SINMAIN                  
5043         bra.w           SREDUCEX                 
5044                                                  
5045 #--THIS IS THE USUAL CASE, |X| <= 15 PI.         
5046 #--THE ARGUMENT REDUCTION IS DONE BY TABLE LO    
5047 SINMAIN:                                         
5048         fmov.x          %fp0,%fp1                
5049         fmul.d          TWOBYPI(%pc),%fp1        
5050                                                  
5051         lea             PITBL+0x200(%pc),%a1     
5052                                                  
5053         fmov.l          %fp1,INT(%a6)            
5054                                                  
5055         mov.l           INT(%a6),%d1             
5056         asl.l           &4,%d1                   
5057         add.l           %d1,%a1                  
5058                                                  
5059 # A1 IS THE ADDRESS OF N*PIBY2                   
5060 # ...WHICH IS IN TWO PIECES Y1 & Y2              
5061         fsub.x          (%a1)+,%fp0              
5062         fsub.s          (%a1),%fp0               
5063                                                  
5064 SINCONT:                                         
5065 #--continuation from REDUCEX                     
5066                                                  
5067 #--GET N+ADJN AND SEE IF SIN(R) OR COS(R) IS     
5068         mov.l           INT(%a6),%d1             
5069         add.l           ADJN(%a6),%d1            
5070         ror.l           &1,%d1                   
5071         cmp.l           %d1,&0                   
5072         blt.w           COSPOLY                  
5073                                                  
5074 #--LET J BE THE LEAST SIG. BIT OF D0, LET SGN    
5075 #--THEN WE RETURN       SGN*SIN(R). SGN*SIN(R    
5076 #--R' + R'*S*(A1 + S(A2 + S(A3 + S(A4 + ... +    
5077 #--R' = SGN*R, S=R*R. THIS CAN BE REWRITTEN A    
5078 #--R' + R'*S*( [A1+T(A3+T(A5+TA7))] + [S(A2+T    
5079 #--WHERE T=S*S.                                  
5080 #--NOTE THAT A3 THROUGH A7 ARE STORED IN DOUB    
5081 #--WHILE A1 AND A2 ARE IN DOUBLE-EXTENDED FOR    
5082 SINPOLY:                                         
5083         fmovm.x         &0x0c,-(%sp)             
5084                                                  
5085         fmov.x          %fp0,X(%a6)              
5086         fmul.x          %fp0,%fp0                
5087                                                  
5088         fmov.d          SINA7(%pc),%fp3          
5089         fmov.d          SINA6(%pc),%fp2          
5090                                                  
5091         fmov.x          %fp0,%fp1                
5092         fmul.x          %fp1,%fp1                
5093                                                  
5094         ror.l           &1,%d1                   
5095         and.l           &0x80000000,%d1          
5096 # ...LEAST SIG. BIT OF D0 IN SIGN POSITION       
5097         eor.l           %d1,X(%a6)               
5098                                                  
5099         fmul.x          %fp1,%fp3                
5100         fmul.x          %fp1,%fp2                
5101                                                  
5102         fadd.d          SINA5(%pc),%fp3          
5103         fadd.d          SINA4(%pc),%fp2          
5104                                                  
5105         fmul.x          %fp1,%fp3                
5106         fmul.x          %fp1,%fp2                
5107                                                  
5108         fadd.d          SINA3(%pc),%fp3          
5109         fadd.x          SINA2(%pc),%fp2          
5110                                                  
5111         fmul.x          %fp3,%fp1                
5112                                                  
5113         fmul.x          %fp0,%fp2                
5114         fadd.x          SINA1(%pc),%fp1          
5115         fmul.x          X(%a6),%fp0              
5116                                                  
5117         fadd.x          %fp2,%fp1                
5118                                                  
5119         fmul.x          %fp1,%fp0                
5120                                                  
5121         fmovm.x         (%sp)+,&0x30             
5122                                                  
5123         fmov.l          %d0,%fpcr                
5124         fadd.x          X(%a6),%fp0              
5125         bra             t_inx2                   
5126                                                  
5127 #--LET J BE THE LEAST SIG. BIT OF D0, LET SGN    
5128 #--THEN WE RETURN       SGN*COS(R). SGN*COS(R    
5129 #--SGN + S'*(B1 + S(B2 + S(B3 + S(B4 + ... +     
5130 #--S=R*R AND S'=SGN*S. THIS CAN BE REWRITTEN     
5131 #--SGN + S'*([B1+T(B3+T(B5+TB7))] + [S(B2+T(B    
5132 #--WHERE T=S*S.                                  
5133 #--NOTE THAT B4 THROUGH B8 ARE STORED IN DOUB    
5134 #--WHILE B2 AND B3 ARE IN DOUBLE-EXTENDED FOR    
5135 #--AND IS THEREFORE STORED AS SINGLE PRECISIO    
5136 COSPOLY:                                         
5137         fmovm.x         &0x0c,-(%sp)             
5138                                                  
5139         fmul.x          %fp0,%fp0                
5140                                                  
5141         fmov.d          COSB8(%pc),%fp2          
5142         fmov.d          COSB7(%pc),%fp3          
5143                                                  
5144         fmov.x          %fp0,%fp1                
5145         fmul.x          %fp1,%fp1                
5146                                                  
5147         fmov.x          %fp0,X(%a6)              
5148         ror.l           &1,%d1                   
5149         and.l           &0x80000000,%d1          
5150 # ...LEAST SIG. BIT OF D0 IN SIGN POSITION       
5151                                                  
5152         fmul.x          %fp1,%fp2                
5153                                                  
5154         eor.l           %d1,X(%a6)               
5155         and.l           &0x80000000,%d1          
5156                                                  
5157         fmul.x          %fp1,%fp3                
5158                                                  
5159         or.l            &0x3F800000,%d1          
5160         mov.l           %d1,POSNEG1(%a6)         
5161                                                  
5162         fadd.d          COSB6(%pc),%fp2          
5163         fadd.d          COSB5(%pc),%fp3          
5164                                                  
5165         fmul.x          %fp1,%fp2                
5166         fmul.x          %fp1,%fp3                
5167                                                  
5168         fadd.d          COSB4(%pc),%fp2          
5169         fadd.x          COSB3(%pc),%fp3          
5170                                                  
5171         fmul.x          %fp1,%fp2                
5172         fmul.x          %fp3,%fp1                
5173                                                  
5174         fadd.x          COSB2(%pc),%fp2          
5175         fadd.s          COSB1(%pc),%fp1          
5176                                                  
5177         fmul.x          %fp2,%fp0                
5178                                                  
5179         fadd.x          %fp1,%fp0                
5180                                                  
5181         fmul.x          X(%a6),%fp0              
5182                                                  
5183         fmovm.x         (%sp)+,&0x30             
5184                                                  
5185         fmov.l          %d0,%fpcr                
5186         fadd.s          POSNEG1(%a6),%fp0        
5187         bra             t_inx2                   
5188                                                  
5189 #############################################    
5190                                                  
5191 # SINe: Big OR Small?                            
5192 #--IF |X| > 15PI, WE USE THE GENERAL ARGUMENT    
5193 #--IF |X| < 2**(-40), RETURN X OR 1.             
5194 SINBORS:                                         
5195         cmp.l           %d1,&0x3FFF8000          
5196         bgt.l           SREDUCEX                 
5197                                                  
5198 SINSM:                                           
5199         mov.l           ADJN(%a6),%d1            
5200         cmp.l           %d1,&0                   
5201         bgt.b           COSTINY                  
5202                                                  
5203 # here, the operation may underflow iff the p    
5204 # extended denorms are handled through anothe    
5205 SINTINY:                                         
5206 #       mov.w           &0x0000,XDCARE(%a6)      
5207                                                  
5208         fmov.l          %d0,%fpcr                
5209         mov.b           &FMOV_OP,%d1             
5210         fmov.x          X(%a6),%fp0              
5211         bra             t_catch                  
5212                                                  
5213 COSTINY:                                         
5214         fmov.s          &0x3F800000,%fp0         
5215         fmov.l          %d0,%fpcr                
5216         fadd.s          &0x80800000,%fp0         
5217         bra             t_pinx2                  
5218                                                  
5219 #############################################    
5220         global          ssind                    
5221 #--SIN(X) = X FOR DENORMALIZED X                 
5222 ssind:                                           
5223         bra             t_extdnrm                
5224                                                  
5225 ############################################     
5226         global          scosd                    
5227 #--COS(X) = 1 FOR DENORMALIZED X                 
5228 scosd:                                           
5229         fmov.s          &0x3F800000,%fp0         
5230         bra             t_pinx2                  
5231                                                  
5232 #############################################    
5233                                                  
5234         global          ssincos                  
5235 ssincos:                                         
5236 #--SET ADJN TO 4                                 
5237         mov.l           &4,ADJN(%a6)             
5238                                                  
5239         fmov.x          (%a0),%fp0               
5240         fmov.x          %fp0,X(%a6)              
5241                                                  
5242         mov.l           (%a0),%d1                
5243         mov.w           4(%a0),%d1               
5244         and.l           &0x7FFFFFFF,%d1          
5245                                                  
5246         cmp.l           %d1,&0x3FD78000          
5247         bge.b           SCOK1                    
5248         bra.w           SCSM                     
5249                                                  
5250 SCOK1:                                           
5251         cmp.l           %d1,&0x4004BC7E          
5252         blt.b           SCMAIN                   
5253         bra.w           SREDUCEX                 
5254                                                  
5255                                                  
5256 #--THIS IS THE USUAL CASE, |X| <= 15 PI.         
5257 #--THE ARGUMENT REDUCTION IS DONE BY TABLE LO    
5258 SCMAIN:                                          
5259         fmov.x          %fp0,%fp1                
5260                                                  
5261         fmul.d          TWOBYPI(%pc),%fp1        
5262                                                  
5263         lea             PITBL+0x200(%pc),%a1     
5264                                                  
5265         fmov.l          %fp1,INT(%a6)            
5266                                                  
5267         mov.l           INT(%a6),%d1             
5268         asl.l           &4,%d1                   
5269         add.l           %d1,%a1                  
5270                                                  
5271         fsub.x          (%a1)+,%fp0              
5272         fsub.s          (%a1),%fp0               
5273                                                  
5274 SCCONT:                                          
5275 #--continuation point from REDUCEX               
5276                                                  
5277         mov.l           INT(%a6),%d1             
5278         ror.l           &1,%d1                   
5279         cmp.l           %d1,&0                   
5280         bge.w           NEVEN                    
5281                                                  
5282 SNODD:                                           
5283 #--REGISTERS SAVED SO FAR: D0, A0, FP2.          
5284         fmovm.x         &0x04,-(%sp)             
5285                                                  
5286         fmov.x          %fp0,RPRIME(%a6)         
5287         fmul.x          %fp0,%fp0                
5288         fmov.d          SINA7(%pc),%fp1          
5289         fmov.d          COSB8(%pc),%fp2          
5290         fmul.x          %fp0,%fp1                
5291         fmul.x          %fp0,%fp2                
5292                                                  
5293         mov.l           %d2,-(%sp)               
5294         mov.l           %d1,%d2                  
5295         ror.l           &1,%d2                   
5296         and.l           &0x80000000,%d2          
5297         eor.l           %d1,%d2                  
5298         and.l           &0x80000000,%d2          
5299                                                  
5300         fadd.d          SINA6(%pc),%fp1          
5301         fadd.d          COSB7(%pc),%fp2          
5302                                                  
5303         fmul.x          %fp0,%fp1                
5304         eor.l           %d2,RPRIME(%a6)          
5305         mov.l           (%sp)+,%d2               
5306         fmul.x          %fp0,%fp2                
5307         ror.l           &1,%d1                   
5308         and.l           &0x80000000,%d1          
5309         mov.l           &0x3F800000,POSNEG1(%    
5310         eor.l           %d1,POSNEG1(%a6)         
5311                                                  
5312         fadd.d          SINA5(%pc),%fp1          
5313         fadd.d          COSB6(%pc),%fp2          
5314                                                  
5315         fmul.x          %fp0,%fp1                
5316         fmul.x          %fp0,%fp2                
5317         fmov.x          %fp0,SPRIME(%a6)         
5318                                                  
5319         fadd.d          SINA4(%pc),%fp1          
5320         eor.l           %d1,SPRIME(%a6)          
5321         fadd.d          COSB5(%pc),%fp2          
5322                                                  
5323         fmul.x          %fp0,%fp1                
5324         fmul.x          %fp0,%fp2                
5325                                                  
5326         fadd.d          SINA3(%pc),%fp1          
5327         fadd.d          COSB4(%pc),%fp2          
5328                                                  
5329         fmul.x          %fp0,%fp1                
5330         fmul.x          %fp0,%fp2                
5331                                                  
5332         fadd.x          SINA2(%pc),%fp1          
5333         fadd.x          COSB3(%pc),%fp2          
5334                                                  
5335         fmul.x          %fp0,%fp1                
5336         fmul.x          %fp0,%fp2                
5337                                                  
5338         fadd.x          SINA1(%pc),%fp1          
5339         fadd.x          COSB2(%pc),%fp2          
5340                                                  
5341         fmul.x          %fp0,%fp1                
5342         fmul.x          %fp2,%fp0                
5343                                                  
5344         fmul.x          RPRIME(%a6),%fp1         
5345         fadd.s          COSB1(%pc),%fp0          
5346         fmul.x          SPRIME(%a6),%fp0         
5347                                                  
5348         fmovm.x         (%sp)+,&0x20             
5349                                                  
5350         fmov.l          %d0,%fpcr                
5351         fadd.x          RPRIME(%a6),%fp1         
5352         bsr             sto_cos                  
5353         fadd.s          POSNEG1(%a6),%fp0        
5354         bra             t_inx2                   
5355                                                  
5356 NEVEN:                                           
5357 #--REGISTERS SAVED SO FAR: FP2.                  
5358         fmovm.x         &0x04,-(%sp)             
5359                                                  
5360         fmov.x          %fp0,RPRIME(%a6)         
5361         fmul.x          %fp0,%fp0                
5362                                                  
5363         fmov.d          COSB8(%pc),%fp1          
5364         fmov.d          SINA7(%pc),%fp2          
5365                                                  
5366         fmul.x          %fp0,%fp1                
5367         fmov.x          %fp0,SPRIME(%a6)         
5368         fmul.x          %fp0,%fp2                
5369                                                  
5370         ror.l           &1,%d1                   
5371         and.l           &0x80000000,%d1          
5372                                                  
5373         fadd.d          COSB7(%pc),%fp1          
5374         fadd.d          SINA6(%pc),%fp2          
5375                                                  
5376         eor.l           %d1,RPRIME(%a6)          
5377         eor.l           %d1,SPRIME(%a6)          
5378                                                  
5379         fmul.x          %fp0,%fp1                
5380                                                  
5381         or.l            &0x3F800000,%d1          
5382         mov.l           %d1,POSNEG1(%a6)         
5383                                                  
5384         fmul.x          %fp0,%fp2                
5385                                                  
5386         fadd.d          COSB6(%pc),%fp1          
5387         fadd.d          SINA5(%pc),%fp2          
5388                                                  
5389         fmul.x          %fp0,%fp1                
5390         fmul.x          %fp0,%fp2                
5391                                                  
5392         fadd.d          COSB5(%pc),%fp1          
5393         fadd.d          SINA4(%pc),%fp2          
5394                                                  
5395         fmul.x          %fp0,%fp1                
5396         fmul.x          %fp0,%fp2                
5397                                                  
5398         fadd.d          COSB4(%pc),%fp1          
5399         fadd.d          SINA3(%pc),%fp2          
5400                                                  
5401         fmul.x          %fp0,%fp1                
5402         fmul.x          %fp0,%fp2                
5403                                                  
5404         fadd.x          COSB3(%pc),%fp1          
5405         fadd.x          SINA2(%pc),%fp2          
5406                                                  
5407         fmul.x          %fp0,%fp1                
5408         fmul.x          %fp0,%fp2                
5409                                                  
5410         fadd.x          COSB2(%pc),%fp1          
5411         fadd.x          SINA1(%pc),%fp2          
5412                                                  
5413         fmul.x          %fp0,%fp1                
5414         fmul.x          %fp2,%fp0                
5415                                                  
5416                                                  
5417         fadd.s          COSB1(%pc),%fp1          
5418         fmul.x          RPRIME(%a6),%fp0         
5419         fmul.x          SPRIME(%a6),%fp1         
5420                                                  
5421         fmovm.x         (%sp)+,&0x20             
5422                                                  
5423         fmov.l          %d0,%fpcr                
5424         fadd.s          POSNEG1(%a6),%fp1        
5425         bsr             sto_cos                  
5426         fadd.x          RPRIME(%a6),%fp0         
5427         bra             t_inx2                   
5428                                                  
5429 #############################################    
5430                                                  
5431 SCBORS:                                          
5432         cmp.l           %d1,&0x3FFF8000          
5433         bgt.w           SREDUCEX                 
5434                                                  
5435 #############################################    
5436                                                  
5437 SCSM:                                            
5438 #       mov.w           &0x0000,XDCARE(%a6)      
5439         fmov.s          &0x3F800000,%fp1         
5440                                                  
5441         fmov.l          %d0,%fpcr                
5442         fsub.s          &0x00800000,%fp1         
5443         bsr             sto_cos                  
5444         fmov.l          %fpcr,%d0                
5445         mov.b           &FMOV_OP,%d1             
5446         fmov.x          X(%a6),%fp0              
5447         bra             t_catch                  
5448                                                  
5449 #############################################    
5450                                                  
5451         global          ssincosd                 
5452 #--SIN AND COS OF X FOR DENORMALIZED X           
5453 ssincosd:                                        
5454         mov.l           %d0,-(%sp)               
5455         fmov.s          &0x3F800000,%fp1         
5456         bsr             sto_cos                  
5457         mov.l           (%sp)+,%d0               
5458         bra             t_extdnrm                
5459                                                  
5460 ############################################     
5461                                                  
5462 #--WHEN REDUCEX IS USED, THE CODE WILL INEVIT    
5463 #--THIS REDUCTION METHOD, HOWEVER, IS MUCH FA    
5464 #--THE REMAINDER INSTRUCTION WHICH IS NOW IN     
5465 SREDUCEX:                                        
5466         fmovm.x         &0x3c,-(%sp)             
5467         mov.l           %d2,-(%sp)               
5468         fmov.s          &0x00000000,%fp1         
5469                                                  
5470 #--If compact form of abs(arg) in d0=$7ffefff    
5471 #--there is a danger of unwanted overflow in     
5472 #--case, reduce argument by one remainder ste    
5473 #--safe.                                         
5474         cmp.l           %d1,&0x7ffeffff          
5475         bne.b           SLOOP                    
5476                                                  
5477 # yes; create 2**16383*PI/2                      
5478         mov.w           &0x7ffe,FP_SCR0_EX(%a    
5479         mov.l           &0xc90fdaa2,FP_SCR0_H    
5480         clr.l           FP_SCR0_LO(%a6)          
5481                                                  
5482 # create low half of 2**16383*PI/2 at FP_SCR1    
5483         mov.w           &0x7fdc,FP_SCR1_EX(%a    
5484         mov.l           &0x85a308d3,FP_SCR1_H    
5485         clr.l           FP_SCR1_LO(%a6)          
5486                                                  
5487         ftest.x         %fp0                     
5488         fblt.w          sred_neg                 
5489                                                  
5490         or.b            &0x80,FP_SCR0_EX(%a6)    
5491         or.b            &0x80,FP_SCR1_EX(%a6)    
5492 sred_neg:                                        
5493         fadd.x          FP_SCR0(%a6),%fp0        
5494         fmov.x          %fp0,%fp1                
5495         fadd.x          FP_SCR1(%a6),%fp0        
5496         fsub.x          %fp0,%fp1                
5497         fadd.x          FP_SCR1(%a6),%fp1        
5498                                                  
5499 #--ON ENTRY, FP0 IS X, ON RETURN, FP0 IS X RE    
5500 #--integer quotient will be stored in N          
5501 #--Intermeditate remainder is 66-bit long; (R    
5502 SLOOP:                                           
5503         fmov.x          %fp0,INARG(%a6)          
5504         mov.w           INARG(%a6),%d1           
5505         mov.l           %d1,%a1                  
5506         and.l           &0x00007FFF,%d1          
5507         sub.l           &0x00003FFF,%d1          
5508         cmp.l           %d1,&28                  
5509         ble.b           SLASTLOOP                
5510 SCONTLOOP:                                       
5511         sub.l           &27,%d1                  
5512         mov.b           &0,ENDFLAG(%a6)          
5513         bra.b           SWORK                    
5514 SLASTLOOP:                                       
5515         clr.l           %d1                      
5516         mov.b           &1,ENDFLAG(%a6)          
5517                                                  
5518 SWORK:                                           
5519 #--FIND THE REMAINDER OF (R,r) W.R.T.   2**L     
5520 #--THAT INT( X * (2/PI) / 2**(L) ) < 2**29.      
5521                                                  
5522 #--CREATE 2**(-L) * (2/PI), SIGN(INARG)*2**(6    
5523 #--2**L * (PIby2_1), 2**L * (PIby2_2)            
5524                                                  
5525         mov.l           &0x00003FFE,%d2          
5526         sub.l           %d1,%d2                  
5527                                                  
5528         mov.l           &0xA2F9836E,FP_SCR0_H    
5529         mov.l           &0x4E44152A,FP_SCR0_L    
5530         mov.w           %d2,FP_SCR0_EX(%a6)      
5531                                                  
5532         fmov.x          %fp0,%fp2                
5533         fmul.x          FP_SCR0(%a6),%fp2        
5534                                                  
5535 #--WE MUST NOW FIND INT(FP2). SINCE WE NEED T    
5536 #--FLOATING POINT FORMAT, THE TWO FMOVE'S        
5537 #--WILL BE TOO INEFFICIENT. THE WAY AROUND IT    
5538 #--(SIGN(INARG)*2**63   +       FP2) - SIGN(I    
5539 #--US THE DESIRED VALUE IN FLOATING POINT.       
5540         mov.l           %a1,%d2                  
5541         swap            %d2                      
5542         and.l           &0x80000000,%d2          
5543         or.l            &0x5F000000,%d2          
5544         mov.l           %d2,TWOTO63(%a6)         
5545         fadd.s          TWOTO63(%a6),%fp2        
5546         fsub.s          TWOTO63(%a6),%fp2        
5547 #       fint.x          %fp2                     
5548                                                  
5549 #--CREATING 2**(L)*Piby2_1 and 2**(L)*Piby2_2    
5550         mov.l           %d1,%d2                  
5551                                                  
5552         add.l           &0x00003FFF,%d2          
5553         mov.w           %d2,FP_SCR0_EX(%a6)      
5554         mov.l           &0xC90FDAA2,FP_SCR0_H    
5555         clr.l           FP_SCR0_LO(%a6)          
5556                                                  
5557         add.l           &0x00003FDD,%d1          
5558         mov.w           %d1,FP_SCR1_EX(%a6)      
5559         mov.l           &0x85A308D3,FP_SCR1_H    
5560         clr.l           FP_SCR1_LO(%a6)          
5561                                                  
5562         mov.b           ENDFLAG(%a6),%d1         
5563                                                  
5564 #--We are now ready to perform (R+r) - N*P1 -    
5565 #--P2 = 2**(L) * Piby2_2                         
5566         fmov.x          %fp2,%fp4                
5567         fmul.x          FP_SCR0(%a6),%fp4        
5568         fmov.x          %fp2,%fp5                
5569         fmul.x          FP_SCR1(%a6),%fp5        
5570         fmov.x          %fp4,%fp3                
5571                                                  
5572 #--we want P+p = W+w  but  |p| <= half ulp of    
5573 #--Then, we need to compute  A := R-P   and      
5574         fadd.x          %fp5,%fp3                
5575         fsub.x          %fp3,%fp4                
5576                                                  
5577         fsub.x          %fp3,%fp0                
5578         fadd.x          %fp5,%fp4                
5579                                                  
5580         fmov.x          %fp0,%fp3                
5581         fsub.x          %fp4,%fp1                
5582                                                  
5583 #--Now we need to normalize (A,a) to  "new (R    
5584 #--|r| <= half ulp of R.                         
5585         fadd.x          %fp1,%fp0                
5586 #--No need to calculate r if this is the last    
5587         cmp.b           %d1,&0                   
5588         bgt.w           SRESTORE                 
5589                                                  
5590 #--Need to calculate r                           
5591         fsub.x          %fp0,%fp3                
5592         fadd.x          %fp3,%fp1                
5593         bra.w           SLOOP                    
5594                                                  
5595 SRESTORE:                                        
5596         fmov.l          %fp2,INT(%a6)            
5597         mov.l           (%sp)+,%d2               
5598         fmovm.x         (%sp)+,&0x3c             
5599                                                  
5600         mov.l           ADJN(%a6),%d1            
5601         cmp.l           %d1,&4                   
5602                                                  
5603         blt.w           SINCONT                  
5604         bra.w           SCCONT                   
5605                                                  
5606 #############################################    
5607 # stan():  computes the tangent of a normaliz    
5608 # stand(): computes the tangent of a denormal    
5609 #                                                
5610 # INPUT *************************************    
5611 #       a0 = pointer to extended precision in    
5612 #       d0 = round precision,mode                
5613 #                                                
5614 # OUTPUT ************************************    
5615 #       fp0 = tan(X)                             
5616 #                                                
5617 # ACCURACY and MONOTONICITY *****************    
5618 #       The returned result is within 3 ulp i    
5619 #       within 0.5001 ulp to 53 bits if the r    
5620 #       rounded to double precision. The resu    
5621 #       in double precision.                     
5622 #                                                
5623 # ALGORITHM *********************************    
5624 #                                                
5625 #       1. If |X| >= 15Pi or |X| < 2**(-40),     
5626 #                                                
5627 #       2. Decompose X as X = N(Pi/2) + r whe    
5628 #               k = N mod 2, so in particular    
5629 #                                                
5630 #       3. If k is odd, go to 5.                 
5631 #                                                
5632 #       4. (k is even) Tan(X) = tan(r) and ta    
5633 #               rational function U/V where      
5634 #               U = r + r*s*(P1 + s*(P2 + s*P    
5635 #               V = 1 + s*(Q1 + s*(Q2 + s*(Q3    
5636 #               Exit.                            
5637 #                                                
5638 #       4. (k is odd) Tan(X) = -cot(r). Since    
5639 #               a rational function U/V where    
5640 #               U = r + r*s*(P1 + s*(P2 + s*P    
5641 #               V = 1 + s*(Q1 + s*(Q2 + s*(Q3    
5642 #               -Cot(r) = -V/U. Exit.            
5643 #                                                
5644 #       6. If |X| > 1, go to 8.                  
5645 #                                                
5646 #       7. (|X|<2**(-40)) Tan(X) = X. Exit.      
5647 #                                                
5648 #       8. Overwrite X by X := X rem 2Pi. Now    
5649 #               to 2.                            
5650 #                                                
5651 #############################################    
5652                                                  
5653 TANQ4:                                           
5654         long            0x3EA0B759,0xF50F8688    
5655 TANP3:                                           
5656         long            0xBEF2BAA5,0xA8924F04    
5657                                                  
5658 TANQ3:                                           
5659         long            0xBF346F59,0xB39BA65F    
5660                                                  
5661 TANP2:                                           
5662         long            0x3FF60000,0xE073D3FC    
5663                                                  
5664 TANQ2:                                           
5665         long            0x3FF90000,0xD23CD684    
5666                                                  
5667 TANP1:                                           
5668         long            0xBFFC0000,0x8895A6C5    
5669                                                  
5670 TANQ1:                                           
5671         long            0xBFFD0000,0xEEF57E0D    
5672                                                  
5673 INVTWOPI:                                        
5674         long            0x3FFC0000,0xA2F9836E    
5675                                                  
5676 TWOPI1:                                          
5677         long            0x40010000,0xC90FDAA2    
5678 TWOPI2:                                          
5679         long            0x3FDF0000,0x85A308D4    
5680                                                  
5681 #--N*PI/2, -32 <= N <= 32, IN A LEADING TERM     
5682 #--TERM IN SGL. NOTE THAT PI IS 64-BIT LONG,     
5683 #--MOST 69 BITS LONG.                            
5684 #       global          PITBL                    
5685 PITBL:                                           
5686         long            0xC0040000,0xC90FDAA2    
5687         long            0xC0040000,0xC2C75BCD    
5688         long            0xC0040000,0xBC7EDCF7    
5689         long            0xC0040000,0xB6365E22    
5690         long            0xC0040000,0xAFEDDF4D    
5691         long            0xC0040000,0xA9A56078    
5692         long            0xC0040000,0xA35CE1A3    
5693         long            0xC0040000,0x9D1462CE    
5694         long            0xC0040000,0x96CBE3F9    
5695         long            0xC0040000,0x90836524    
5696         long            0xC0040000,0x8A3AE64F    
5697         long            0xC0040000,0x83F2677A    
5698         long            0xC0030000,0xFB53D14A    
5699         long            0xC0030000,0xEEC2D3A0    
5700         long            0xC0030000,0xE231D5F6    
5701         long            0xC0030000,0xD5A0D84C    
5702         long            0xC0030000,0xC90FDAA2    
5703         long            0xC0030000,0xBC7EDCF7    
5704         long            0xC0030000,0xAFEDDF4D    
5705         long            0xC0030000,0xA35CE1A3    
5706         long            0xC0030000,0x96CBE3F9    
5707         long            0xC0030000,0x8A3AE64F    
5708         long            0xC0020000,0xFB53D14A    
5709         long            0xC0020000,0xE231D5F6    
5710         long            0xC0020000,0xC90FDAA2    
5711         long            0xC0020000,0xAFEDDF4D    
5712         long            0xC0020000,0x96CBE3F9    
5713         long            0xC0010000,0xFB53D14A    
5714         long            0xC0010000,0xC90FDAA2    
5715         long            0xC0010000,0x96CBE3F9    
5716         long            0xC0000000,0xC90FDAA2    
5717         long            0xBFFF0000,0xC90FDAA2    
5718         long            0x00000000,0x00000000    
5719         long            0x3FFF0000,0xC90FDAA2    
5720         long            0x40000000,0xC90FDAA2    
5721         long            0x40010000,0x96CBE3F9    
5722         long            0x40010000,0xC90FDAA2    
5723         long            0x40010000,0xFB53D14A    
5724         long            0x40020000,0x96CBE3F9    
5725         long            0x40020000,0xAFEDDF4D    
5726         long            0x40020000,0xC90FDAA2    
5727         long            0x40020000,0xE231D5F6    
5728         long            0x40020000,0xFB53D14A    
5729         long            0x40030000,0x8A3AE64F    
5730         long            0x40030000,0x96CBE3F9    
5731         long            0x40030000,0xA35CE1A3    
5732         long            0x40030000,0xAFEDDF4D    
5733         long            0x40030000,0xBC7EDCF7    
5734         long            0x40030000,0xC90FDAA2    
5735         long            0x40030000,0xD5A0D84C    
5736         long            0x40030000,0xE231D5F6    
5737         long            0x40030000,0xEEC2D3A0    
5738         long            0x40030000,0xFB53D14A    
5739         long            0x40040000,0x83F2677A    
5740         long            0x40040000,0x8A3AE64F    
5741         long            0x40040000,0x90836524    
5742         long            0x40040000,0x96CBE3F9    
5743         long            0x40040000,0x9D1462CE    
5744         long            0x40040000,0xA35CE1A3    
5745         long            0x40040000,0xA9A56078    
5746         long            0x40040000,0xAFEDDF4D    
5747         long            0x40040000,0xB6365E22    
5748         long            0x40040000,0xBC7EDCF7    
5749         long            0x40040000,0xC2C75BCD    
5750         long            0x40040000,0xC90FDAA2    
5751                                                  
5752         set             INARG,FP_SCR0            
5753                                                  
5754         set             TWOTO63,L_SCR1           
5755         set             INT,L_SCR1               
5756         set             ENDFLAG,L_SCR2           
5757                                                  
5758         global          stan                     
5759 stan:                                            
5760         fmov.x          (%a0),%fp0               
5761                                                  
5762         mov.l           (%a0),%d1                
5763         mov.w           4(%a0),%d1               
5764         and.l           &0x7FFFFFFF,%d1          
5765                                                  
5766         cmp.l           %d1,&0x3FD78000          
5767         bge.b           TANOK1                   
5768         bra.w           TANSM                    
5769 TANOK1:                                          
5770         cmp.l           %d1,&0x4004BC7E          
5771         blt.b           TANMAIN                  
5772         bra.w           REDUCEX                  
5773                                                  
5774 TANMAIN:                                         
5775 #--THIS IS THE USUAL CASE, |X| <= 15 PI.         
5776 #--THE ARGUMENT REDUCTION IS DONE BY TABLE LO    
5777         fmov.x          %fp0,%fp1                
5778         fmul.d          TWOBYPI(%pc),%fp1        
5779                                                  
5780         lea.l           PITBL+0x200(%pc),%a1     
5781                                                  
5782         fmov.l          %fp1,%d1                 
5783                                                  
5784         asl.l           &4,%d1                   
5785         add.l           %d1,%a1                  
5786                                                  
5787         fsub.x          (%a1)+,%fp0              
5788                                                  
5789         fsub.s          (%a1),%fp0               
5790                                                  
5791         ror.l           &5,%d1                   
5792         and.l           &0x80000000,%d1          
5793                                                  
5794 TANCONT:                                         
5795         fmovm.x         &0x0c,-(%sp)             
5796                                                  
5797         cmp.l           %d1,&0                   
5798         blt.w           NODD                     
5799                                                  
5800         fmov.x          %fp0,%fp1                
5801         fmul.x          %fp1,%fp1                
5802                                                  
5803         fmov.d          TANQ4(%pc),%fp3          
5804         fmov.d          TANP3(%pc),%fp2          
5805                                                  
5806         fmul.x          %fp1,%fp3                
5807         fmul.x          %fp1,%fp2                
5808                                                  
5809         fadd.d          TANQ3(%pc),%fp3          
5810         fadd.x          TANP2(%pc),%fp2          
5811                                                  
5812         fmul.x          %fp1,%fp3                
5813         fmul.x          %fp1,%fp2                
5814                                                  
5815         fadd.x          TANQ2(%pc),%fp3          
5816         fadd.x          TANP1(%pc),%fp2          
5817                                                  
5818         fmul.x          %fp1,%fp3                
5819         fmul.x          %fp1,%fp2                
5820                                                  
5821         fadd.x          TANQ1(%pc),%fp3          
5822         fmul.x          %fp0,%fp2                
5823                                                  
5824         fmul.x          %fp3,%fp1                
5825                                                  
5826         fadd.x          %fp2,%fp0                
5827                                                  
5828         fadd.s          &0x3F800000,%fp1         
5829                                                  
5830         fmovm.x         (%sp)+,&0x30             
5831                                                  
5832         fmov.l          %d0,%fpcr                
5833         fdiv.x          %fp1,%fp0                
5834         bra             t_inx2                   
5835                                                  
5836 NODD:                                            
5837         fmov.x          %fp0,%fp1                
5838         fmul.x          %fp0,%fp0                
5839                                                  
5840         fmov.d          TANQ4(%pc),%fp3          
5841         fmov.d          TANP3(%pc),%fp2          
5842                                                  
5843         fmul.x          %fp0,%fp3                
5844         fmul.x          %fp0,%fp2                
5845                                                  
5846         fadd.d          TANQ3(%pc),%fp3          
5847         fadd.x          TANP2(%pc),%fp2          
5848                                                  
5849         fmul.x          %fp0,%fp3                
5850         fmul.x          %fp0,%fp2                
5851                                                  
5852         fadd.x          TANQ2(%pc),%fp3          
5853         fadd.x          TANP1(%pc),%fp2          
5854                                                  
5855         fmul.x          %fp0,%fp3                
5856         fmul.x          %fp0,%fp2                
5857                                                  
5858         fadd.x          TANQ1(%pc),%fp3          
5859         fmul.x          %fp1,%fp2                
5860                                                  
5861         fmul.x          %fp3,%fp0                
5862                                                  
5863         fadd.x          %fp2,%fp1                
5864         fadd.s          &0x3F800000,%fp0         
5865                                                  
5866         fmovm.x         (%sp)+,&0x30             
5867                                                  
5868         fmov.x          %fp1,-(%sp)              
5869         eor.l           &0x80000000,(%sp)        
5870                                                  
5871         fmov.l          %d0,%fpcr                
5872         fdiv.x          (%sp)+,%fp0              
5873         bra             t_inx2                   
5874                                                  
5875 TANBORS:                                         
5876 #--IF |X| > 15PI, WE USE THE GENERAL ARGUMENT    
5877 #--IF |X| < 2**(-40), RETURN X OR 1.             
5878         cmp.l           %d1,&0x3FFF8000          
5879         bgt.b           REDUCEX                  
5880                                                  
5881 TANSM:                                           
5882         fmov.x          %fp0,-(%sp)              
5883         fmov.l          %d0,%fpcr                
5884         mov.b           &FMOV_OP,%d1             
5885         fmov.x          (%sp)+,%fp0              
5886         bra             t_catch                  
5887                                                  
5888         global          stand                    
5889 #--TAN(X) = X FOR DENORMALIZED X                 
5890 stand:                                           
5891         bra             t_extdnrm                
5892                                                  
5893 #--WHEN REDUCEX IS USED, THE CODE WILL INEVIT    
5894 #--THIS REDUCTION METHOD, HOWEVER, IS MUCH FA    
5895 #--THE REMAINDER INSTRUCTION WHICH IS NOW IN     
5896 REDUCEX:                                         
5897         fmovm.x         &0x3c,-(%sp)             
5898         mov.l           %d2,-(%sp)               
5899         fmov.s          &0x00000000,%fp1         
5900                                                  
5901 #--If compact form of abs(arg) in d0=$7ffefff    
5902 #--there is a danger of unwanted overflow in     
5903 #--case, reduce argument by one remainder ste    
5904 #--safe.                                         
5905         cmp.l           %d1,&0x7ffeffff          
5906         bne.b           LOOP                     
5907                                                  
5908 # yes; create 2**16383*PI/2                      
5909         mov.w           &0x7ffe,FP_SCR0_EX(%a    
5910         mov.l           &0xc90fdaa2,FP_SCR0_H    
5911         clr.l           FP_SCR0_LO(%a6)          
5912                                                  
5913 # create low half of 2**16383*PI/2 at FP_SCR1    
5914         mov.w           &0x7fdc,FP_SCR1_EX(%a    
5915         mov.l           &0x85a308d3,FP_SCR1_H    
5916         clr.l           FP_SCR1_LO(%a6)          
5917                                                  
5918         ftest.x         %fp0                     
5919         fblt.w          red_neg                  
5920                                                  
5921         or.b            &0x80,FP_SCR0_EX(%a6)    
5922         or.b            &0x80,FP_SCR1_EX(%a6)    
5923 red_neg:                                         
5924         fadd.x          FP_SCR0(%a6),%fp0        
5925         fmov.x          %fp0,%fp1                
5926         fadd.x          FP_SCR1(%a6),%fp0        
5927         fsub.x          %fp0,%fp1                
5928         fadd.x          FP_SCR1(%a6),%fp1        
5929                                                  
5930 #--ON ENTRY, FP0 IS X, ON RETURN, FP0 IS X RE    
5931 #--integer quotient will be stored in N          
5932 #--Intermeditate remainder is 66-bit long; (R    
5933 LOOP:                                            
5934         fmov.x          %fp0,INARG(%a6)          
5935         mov.w           INARG(%a6),%d1           
5936         mov.l           %d1,%a1                  
5937         and.l           &0x00007FFF,%d1          
5938         sub.l           &0x00003FFF,%d1          
5939         cmp.l           %d1,&28                  
5940         ble.b           LASTLOOP                 
5941 CONTLOOP:                                        
5942         sub.l           &27,%d1                  
5943         mov.b           &0,ENDFLAG(%a6)          
5944         bra.b           WORK                     
5945 LASTLOOP:                                        
5946         clr.l           %d1                      
5947         mov.b           &1,ENDFLAG(%a6)          
5948                                                  
5949 WORK:                                            
5950 #--FIND THE REMAINDER OF (R,r) W.R.T.   2**L     
5951 #--THAT INT( X * (2/PI) / 2**(L) ) < 2**29.      
5952                                                  
5953 #--CREATE 2**(-L) * (2/PI), SIGN(INARG)*2**(6    
5954 #--2**L * (PIby2_1), 2**L * (PIby2_2)            
5955                                                  
5956         mov.l           &0x00003FFE,%d2          
5957         sub.l           %d1,%d2                  
5958                                                  
5959         mov.l           &0xA2F9836E,FP_SCR0_H    
5960         mov.l           &0x4E44152A,FP_SCR0_L    
5961         mov.w           %d2,FP_SCR0_EX(%a6)      
5962                                                  
5963         fmov.x          %fp0,%fp2                
5964         fmul.x          FP_SCR0(%a6),%fp2        
5965                                                  
5966 #--WE MUST NOW FIND INT(FP2). SINCE WE NEED T    
5967 #--FLOATING POINT FORMAT, THE TWO FMOVE'S        
5968 #--WILL BE TOO INEFFICIENT. THE WAY AROUND IT    
5969 #--(SIGN(INARG)*2**63   +       FP2) - SIGN(I    
5970 #--US THE DESIRED VALUE IN FLOATING POINT.       
5971         mov.l           %a1,%d2                  
5972         swap            %d2                      
5973         and.l           &0x80000000,%d2          
5974         or.l            &0x5F000000,%d2          
5975         mov.l           %d2,TWOTO63(%a6)         
5976         fadd.s          TWOTO63(%a6),%fp2        
5977         fsub.s          TWOTO63(%a6),%fp2        
5978 #       fintrz.x        %fp2,%fp2                
5979                                                  
5980 #--CREATING 2**(L)*Piby2_1 and 2**(L)*Piby2_2    
5981         mov.l           %d1,%d2                  
5982                                                  
5983         add.l           &0x00003FFF,%d2          
5984         mov.w           %d2,FP_SCR0_EX(%a6)      
5985         mov.l           &0xC90FDAA2,FP_SCR0_H    
5986         clr.l           FP_SCR0_LO(%a6)          
5987                                                  
5988         add.l           &0x00003FDD,%d1          
5989         mov.w           %d1,FP_SCR1_EX(%a6)      
5990         mov.l           &0x85A308D3,FP_SCR1_H    
5991         clr.l           FP_SCR1_LO(%a6)          
5992                                                  
5993         mov.b           ENDFLAG(%a6),%d1         
5994                                                  
5995 #--We are now ready to perform (R+r) - N*P1 -    
5996 #--P2 = 2**(L) * Piby2_2                         
5997         fmov.x          %fp2,%fp4                
5998         fmul.x          FP_SCR0(%a6),%fp4        
5999         fmov.x          %fp2,%fp5                
6000         fmul.x          FP_SCR1(%a6),%fp5        
6001         fmov.x          %fp4,%fp3                
6002                                                  
6003 #--we want P+p = W+w  but  |p| <= half ulp of    
6004 #--Then, we need to compute  A := R-P   and      
6005         fadd.x          %fp5,%fp3                
6006         fsub.x          %fp3,%fp4                
6007                                                  
6008         fsub.x          %fp3,%fp0                
6009         fadd.x          %fp5,%fp4                
6010                                                  
6011         fmov.x          %fp0,%fp3                
6012         fsub.x          %fp4,%fp1                
6013                                                  
6014 #--Now we need to normalize (A,a) to  "new (R    
6015 #--|r| <= half ulp of R.                         
6016         fadd.x          %fp1,%fp0                
6017 #--No need to calculate r if this is the last    
6018         cmp.b           %d1,&0                   
6019         bgt.w           RESTORE                  
6020                                                  
6021 #--Need to calculate r                           
6022         fsub.x          %fp0,%fp3                
6023         fadd.x          %fp3,%fp1                
6024         bra.w           LOOP                     
6025                                                  
6026 RESTORE:                                         
6027         fmov.l          %fp2,INT(%a6)            
6028         mov.l           (%sp)+,%d2               
6029         fmovm.x         (%sp)+,&0x3c             
6030                                                  
6031         mov.l           INT(%a6),%d1             
6032         ror.l           &1,%d1                   
6033                                                  
6034         bra.w           TANCONT                  
6035                                                  
6036 #############################################    
6037 # satan():  computes the arctangent of a norm    
6038 # satand(): computes the arctangent of a deno    
6039 #                                                
6040 # INPUT *************************************    
6041 #       a0 = pointer to extended precision in    
6042 #       d0 = round precision,mode                
6043 #                                                
6044 # OUTPUT ************************************    
6045 #       fp0 = arctan(X)                          
6046 #                                                
6047 # ACCURACY and MONOTONICITY *****************    
6048 #       The returned result is within 2 ulps     
6049 #       i.e. within 0.5001 ulp to 53 bits if     
6050 #       rounded to double precision. The resu    
6051 #       in double precision.                     
6052 #                                                
6053 # ALGORITHM *********************************    
6054 #       Step 1. If |X| >= 16 or |X| < 1/16, g    
6055 #                                                
6056 #       Step 2. Let X = sgn * 2**k * 1.xxxxxx    
6057 #               Note that k = -4, -3,..., or     
6058 #               Define F = sgn * 2**k * 1.xxx    
6059 #               significant bits of X with a     
6060 #               bit position. Define u to be     
6061 #                                                
6062 #       Step 3. Approximate arctan(u) by a po    
6063 #                                                
6064 #       Step 4. Return arctan(F) + poly, arct    
6065 #               table of values calculated be    
6066 #                                                
6067 #       Step 5. If |X| >= 16, go to Step 7.      
6068 #                                                
6069 #       Step 6. Approximate arctan(X) by an o    
6070 #                                                
6071 #       Step 7. Define X' = -1/X. Approximate    
6072 #               polynomial in X'.                
6073 #               Arctan(X) = sign(X)*Pi/2 + ar    
6074 #                                                
6075 #############################################    
6076                                                  
6077 ATANA3: long            0xBFF6687E,0x314987D8    
6078 ATANA2: long            0x4002AC69,0x34A26DB3    
6079 ATANA1: long            0xBFC2476F,0x4E1DA28E    
6080                                                  
6081 ATANB6: long            0x3FB34444,0x7F876989    
6082 ATANB5: long            0xBFB744EE,0x7FAF45DB    
6083 ATANB4: long            0x3FBC71C6,0x46940220    
6084 ATANB3: long            0xBFC24924,0x921872F9    
6085 ATANB2: long            0x3FC99999,0x99998FA9    
6086 ATANB1: long            0xBFD55555,0x55555555    
6087                                                  
6088 ATANC5: long            0xBFB70BF3,0x98539E6A    
6089 ATANC4: long            0x3FBC7187,0x962D1D7D    
6090 ATANC3: long            0xBFC24924,0x827107B8    
6091 ATANC2: long            0x3FC99999,0x9996263E    
6092 ATANC1: long            0xBFD55555,0x55555536    
6093                                                  
6094 PPIBY2: long            0x3FFF0000,0xC90FDAA2    
6095 NPIBY2: long            0xBFFF0000,0xC90FDAA2    
6096                                                  
6097 PTINY:  long            0x00010000,0x80000000    
6098 NTINY:  long            0x80010000,0x80000000    
6099                                                  
6100 ATANTBL:                                         
6101         long            0x3FFB0000,0x83D152C5    
6102         long            0x3FFB0000,0x8BC85445    
6103         long            0x3FFB0000,0x93BE4060    
6104         long            0x3FFB0000,0x9BB3078D    
6105         long            0x3FFB0000,0xA3A69A52    
6106         long            0x3FFB0000,0xAB98E943    
6107         long            0x3FFB0000,0xB389E502    
6108         long            0x3FFB0000,0xBB797E43    
6109         long            0x3FFB0000,0xC367A5C7    
6110         long            0x3FFB0000,0xCB544C61    
6111         long            0x3FFB0000,0xD33F62F8    
6112         long            0x3FFB0000,0xDB28DA81    
6113         long            0x3FFB0000,0xE310A407    
6114         long            0x3FFB0000,0xEAF6B0A8    
6115         long            0x3FFB0000,0xF2DAF194    
6116         long            0x3FFB0000,0xFABD5813    
6117         long            0x3FFC0000,0x8346AC21    
6118         long            0x3FFC0000,0x8B232A08    
6119         long            0x3FFC0000,0x92FB70B8    
6120         long            0x3FFC0000,0x9ACF476F    
6121         long            0x3FFC0000,0xA29E7630    
6122         long            0x3FFC0000,0xAA68C5D0    
6123         long            0x3FFC0000,0xB22DFFFD    
6124         long            0x3FFC0000,0xB9EDEF45    
6125         long            0x3FFC0000,0xC1A85F1C    
6126         long            0x3FFC0000,0xC95D1BE8    
6127         long            0x3FFC0000,0xD10BF300    
6128         long            0x3FFC0000,0xD8B4B2BA    
6129         long            0x3FFC0000,0xE0572A6B    
6130         long            0x3FFC0000,0xE7F32A70    
6131         long            0x3FFC0000,0xEF888432    
6132         long            0x3FFC0000,0xF7170A28    
6133         long            0x3FFD0000,0x812FD288    
6134         long            0x3FFD0000,0x88A8D1B1    
6135         long            0x3FFD0000,0x9012AB3F    
6136         long            0x3FFD0000,0x976CC3D4    
6137         long            0x3FFD0000,0x9EB68949    
6138         long            0x3FFD0000,0xA5EF72C3    
6139         long            0x3FFD0000,0xAD1700BA    
6140         long            0x3FFD0000,0xB42CBCFA    
6141         long            0x3FFD0000,0xBB303A94    
6142         long            0x3FFD0000,0xC22115C6    
6143         long            0x3FFD0000,0xC8FEF3E6    
6144         long            0x3FFD0000,0xCFC98330    
6145         long            0x3FFD0000,0xD6807AA1    
6146         long            0x3FFD0000,0xDD2399BC    
6147         long            0x3FFD0000,0xE3B2A855    
6148         long            0x3FFD0000,0xEA2D764F    
6149         long            0x3FFD0000,0xF3BF5BF8    
6150         long            0x3FFE0000,0x801CE39E    
6151         long            0x3FFE0000,0x8630A2DA    
6152         long            0x3FFE0000,0x8C1AD445    
6153         long            0x3FFE0000,0x91DB8F16    
6154         long            0x3FFE0000,0x97731420    
6155         long            0x3FFE0000,0x9CE1C8E6    
6156         long            0x3FFE0000,0xA22832DB    
6157         long            0x3FFE0000,0xA746F2DD    
6158         long            0x3FFE0000,0xAC3EC0FB    
6159         long            0x3FFE0000,0xB110688A    
6160         long            0x3FFE0000,0xB5BCC490    
6161         long            0x3FFE0000,0xBA44BC7D    
6162         long            0x3FFE0000,0xBEA94144    
6163         long            0x3FFE0000,0xC2EB4ABB    
6164         long            0x3FFE0000,0xC70BD54C    
6165         long            0x3FFE0000,0xCD000549    
6166         long            0x3FFE0000,0xD48457D2    
6167         long            0x3FFE0000,0xDB948DA7    
6168         long            0x3FFE0000,0xE23855F9    
6169         long            0x3FFE0000,0xE8771129    
6170         long            0x3FFE0000,0xEE57C16E    
6171         long            0x3FFE0000,0xF3E10211    
6172         long            0x3FFE0000,0xF919039D    
6173         long            0x3FFE0000,0xFE058B8F    
6174         long            0x3FFF0000,0x8155FB49    
6175         long            0x3FFF0000,0x83889E35    
6176         long            0x3FFF0000,0x859CFA76    
6177         long            0x3FFF0000,0x87952ECF    
6178         long            0x3FFF0000,0x89732FD1    
6179         long            0x3FFF0000,0x8B38CAD1    
6180         long            0x3FFF0000,0x8CE7A8D8    
6181         long            0x3FFF0000,0x8F46A39E    
6182         long            0x3FFF0000,0x922DA7D7    
6183         long            0x3FFF0000,0x94D19FCB    
6184         long            0x3FFF0000,0x973AB944    
6185         long            0x3FFF0000,0x996FF00E    
6186         long            0x3FFF0000,0x9B773F95    
6187         long            0x3FFF0000,0x9D55CC32    
6188         long            0x3FFF0000,0x9F100575    
6189         long            0x3FFF0000,0xA0A9C290    
6190         long            0x3FFF0000,0xA22659EB    
6191         long            0x3FFF0000,0xA388B4AF    
6192         long            0x3FFF0000,0xA4D35F10    
6193         long            0x3FFF0000,0xA60895DC    
6194         long            0x3FFF0000,0xA72A51DC    
6195         long            0x3FFF0000,0xA83A5153    
6196         long            0x3FFF0000,0xA93A2007    
6197         long            0x3FFF0000,0xAA9E7245    
6198         long            0x3FFF0000,0xAC4C84BA    
6199         long            0x3FFF0000,0xADCE4A4A    
6200         long            0x3FFF0000,0xAF2A2DCD    
6201         long            0x3FFF0000,0xB0656F81    
6202         long            0x3FFF0000,0xB1846515    
6203         long            0x3FFF0000,0xB28AAA15    
6204         long            0x3FFF0000,0xB37B44FF    
6205         long            0x3FFF0000,0xB458C3DC    
6206         long            0x3FFF0000,0xB525529D    
6207         long            0x3FFF0000,0xB5E2CCA9    
6208         long            0x3FFF0000,0xB692CADA    
6209         long            0x3FFF0000,0xB736AEA7    
6210         long            0x3FFF0000,0xB7CFAB28    
6211         long            0x3FFF0000,0xB85ECC66    
6212         long            0x3FFF0000,0xB8E4FD5A    
6213         long            0x3FFF0000,0xB99F41F6    
6214         long            0x3FFF0000,0xBA7F1E17    
6215         long            0x3FFF0000,0xBB471285    
6216         long            0x3FFF0000,0xBBFABE8A    
6217         long            0x3FFF0000,0xBC9D0FAD    
6218         long            0x3FFF0000,0xBD306A39    
6219         long            0x3FFF0000,0xBDB6C731    
6220         long            0x3FFF0000,0xBE31CAC5    
6221         long            0x3FFF0000,0xBEA2D55C    
6222         long            0x3FFF0000,0xBF0B10B7    
6223         long            0x3FFF0000,0xBF6B7A18    
6224         long            0x3FFF0000,0xBFC4EA46    
6225         long            0x3FFF0000,0xC0181BDE    
6226         long            0x3FFF0000,0xC065B066    
6227         long            0x3FFF0000,0xC0AE345F    
6228         long            0x3FFF0000,0xC0F22291    
6229                                                  
6230         set             X,FP_SCR0                
6231         set             XDCARE,X+2               
6232         set             XFRAC,X+4                
6233         set             XFRACLO,X+8              
6234                                                  
6235         set             ATANF,FP_SCR1            
6236         set             ATANFHI,ATANF+4          
6237         set             ATANFLO,ATANF+8          
6238                                                  
6239         global          satan                    
6240 #--ENTRY POINT FOR ATAN(X), HERE X IS FINITE,    
6241 satan:                                           
6242         fmov.x          (%a0),%fp0               
6243                                                  
6244         mov.l           (%a0),%d1                
6245         mov.w           4(%a0),%d1               
6246         fmov.x          %fp0,X(%a6)              
6247         and.l           &0x7FFFFFFF,%d1          
6248                                                  
6249         cmp.l           %d1,&0x3FFB8000          
6250         bge.b           ATANOK1                  
6251         bra.w           ATANSM                   
6252                                                  
6253 ATANOK1:                                         
6254         cmp.l           %d1,&0x4002FFFF          
6255         ble.b           ATANMAIN                 
6256         bra.w           ATANBIG                  
6257                                                  
6258 #--THE MOST LIKELY CASE, |X| IN [1/16, 16). W    
6259 #--THE IDEA IS ATAN(X) = ATAN(F) + ATAN( [X-F    
6260 #--SO IF F IS CHOSEN TO BE CLOSE TO X AND ATA    
6261 #--A TABLE, ALL WE NEED IS TO APPROXIMATE ATA    
6262 #--U = (X-F)/(1+XF) IS SMALL (REMEMBER F IS C    
6263 #--TRUE THAT A DIVIDE IS NOW NEEDED, BUT THE     
6264 #--ATAN(U) IS A VERY SHORT POLYNOMIAL AND THE    
6265 #--FETCH F AND SAVING OF REGISTERS CAN BE ALL    
6266 #--DIVIDE. IN THE END THIS METHOD IS MUCH FAS    
6267 #--ONE. NOTE ALSO THAT THE TRADITIONAL SCHEME    
6268 #--ATAN(X) DIRECTLY WILL NEED TO USE A RATION    
6269 #--(DIVISION NEEDED) ANYWAY BECAUSE A POLYNOM    
6270 #--WILL INVOLVE A VERY LONG POLYNOMIAL.          
6271                                                  
6272 #--NOW WE SEE X AS +-2^K * 1.BBBBBBB....B <-     
6273 #--WE CHOSE F TO BE +-2^K * 1.BBBB1              
6274 #--THAT IS IT MATCHES THE EXPONENT AND FIRST     
6275 #--SIXTH BITS IS SET TO BE 1. SINCE K = -4, -    
6276 #--ARE ONLY 8 TIMES 16 = 2^7 = 128 |F|'S. SIN    
6277 #-- -ATAN(|F|), WE NEED TO STORE ONLY ATAN(|F    
6278                                                  
6279 ATANMAIN:                                        
6280                                                  
6281         and.l           &0xF8000000,XFRAC(%a6    
6282         or.l            &0x04000000,XFRAC(%a6    
6283         mov.l           &0x00000000,XFRACLO(%    
6284                                                  
6285         fmov.x          %fp0,%fp1                
6286         fmul.x          X(%a6),%fp1              
6287         fsub.x          X(%a6),%fp0              
6288         fadd.s          &0x3F800000,%fp1         
6289         fdiv.x          %fp1,%fp0                
6290                                                  
6291 #--WHILE THE DIVISION IS TAKING ITS TIME, WE     
6292 #--CREATE ATAN(F) AND STORE IT IN ATANF, AND     
6293 #--SAVE REGISTERS FP2.                           
6294                                                  
6295         mov.l           %d2,-(%sp)               
6296         mov.l           %d1,%d2                  
6297         and.l           &0x00007800,%d1          
6298         and.l           &0x7FFF0000,%d2          
6299         sub.l           &0x3FFB0000,%d2          
6300         asr.l           &1,%d2                   
6301         add.l           %d2,%d1                  
6302         asr.l           &7,%d1                   
6303         lea             ATANTBL(%pc),%a1         
6304         add.l           %d1,%a1                  
6305         mov.l           (%a1)+,ATANF(%a6)        
6306         mov.l           (%a1)+,ATANFHI(%a6)      
6307         mov.l           (%a1)+,ATANFLO(%a6)      
6308         mov.l           X(%a6),%d1               
6309         and.l           &0x80000000,%d1          
6310         or.l            %d1,ATANF(%a6)           
6311         mov.l           (%sp)+,%d2               
6312                                                  
6313 #--THAT'S ALL I HAVE TO DO FOR NOW,              
6314 #--BUT ALAS, THE DIVIDE IS STILL CRANKING!       
6315                                                  
6316 #--U IN FP0, WE ARE NOW READY TO COMPUTE ATAN    
6317 #--U + A1*U*V*(A2 + V*(A3 + V)), V = U*U         
6318 #--THE POLYNOMIAL MAY LOOK STRANGE, BUT IS NE    
6319 #--THE NATURAL FORM IS U + U*V*(A1 + V*(A2 +     
6320 #--WHAT WE HAVE HERE IS MERELY  A1 = A3, A2 =    
6321 #--THE REASON FOR THIS REARRANGEMENT IS TO MA    
6322 #--PARTS A1*U*V AND (A2 + ... STUFF) MORE LOA    
6323                                                  
6324         fmovm.x         &0x04,-(%sp)             
6325                                                  
6326         fmov.x          %fp0,%fp1                
6327         fmul.x          %fp1,%fp1                
6328         fmov.d          ATANA3(%pc),%fp2         
6329         fadd.x          %fp1,%fp2                
6330         fmul.x          %fp1,%fp2                
6331         fmul.x          %fp0,%fp1                
6332         fadd.d          ATANA2(%pc),%fp2         
6333         fmul.d          ATANA1(%pc),%fp1         
6334         fmul.x          %fp2,%fp1                
6335         fadd.x          %fp1,%fp0                
6336                                                  
6337         fmovm.x         (%sp)+,&0x20             
6338                                                  
6339         fmov.l          %d0,%fpcr                
6340         fadd.x          ATANF(%a6),%fp0          
6341         bra             t_inx2                   
6342                                                  
6343 ATANBORS:                                        
6344 #--|X| IS IN d0 IN COMPACT FORM. FP1, d0 SAVE    
6345 #--FP0 IS X AND |X| <= 1/16 OR |X| >= 16.        
6346         cmp.l           %d1,&0x3FFF8000          
6347         bgt.w           ATANBIG                  
6348                                                  
6349 ATANSM:                                          
6350 #--|X| <= 1/16                                   
6351 #--IF |X| < 2^(-40), RETURN X AS ANSWER. OTHE    
6352 #--ATAN(X) BY X + X*Y*(B1+Y*(B2+Y*(B3+Y*(B4+Y    
6353 #--WHICH IS X + X*Y*( [B1+Z*(B3+Z*B5)] + [Y*(    
6354 #--WHERE Y = X*X, AND Z = Y*Y.                   
6355                                                  
6356         cmp.l           %d1,&0x3FD78000          
6357         blt.w           ATANTINY                 
6358                                                  
6359 #--COMPUTE POLYNOMIAL                            
6360         fmovm.x         &0x0c,-(%sp)             
6361                                                  
6362         fmul.x          %fp0,%fp0                
6363                                                  
6364         fmov.x          %fp0,%fp1                
6365         fmul.x          %fp1,%fp1                
6366                                                  
6367         fmov.d          ATANB6(%pc),%fp2         
6368         fmov.d          ATANB5(%pc),%fp3         
6369                                                  
6370         fmul.x          %fp1,%fp2                
6371         fmul.x          %fp1,%fp3                
6372                                                  
6373         fadd.d          ATANB4(%pc),%fp2         
6374         fadd.d          ATANB3(%pc),%fp3         
6375                                                  
6376         fmul.x          %fp1,%fp2                
6377         fmul.x          %fp3,%fp1                
6378                                                  
6379         fadd.d          ATANB2(%pc),%fp2         
6380         fadd.d          ATANB1(%pc),%fp1         
6381                                                  
6382         fmul.x          %fp0,%fp2                
6383         fmul.x          X(%a6),%fp0              
6384                                                  
6385         fadd.x          %fp2,%fp1                
6386                                                  
6387         fmul.x          %fp1,%fp0                
6388                                                  
6389         fmovm.x         (%sp)+,&0x30             
6390                                                  
6391         fmov.l          %d0,%fpcr                
6392         fadd.x          X(%a6),%fp0              
6393         bra             t_inx2                   
6394                                                  
6395 ATANTINY:                                        
6396 #--|X| < 2^(-40), ATAN(X) = X                    
6397                                                  
6398         fmov.l          %d0,%fpcr                
6399         mov.b           &FMOV_OP,%d1             
6400         fmov.x          X(%a6),%fp0              
6401                                                  
6402         bra             t_catch                  
6403                                                  
6404 ATANBIG:                                         
6405 #--IF |X| > 2^(100), RETURN     SIGN(X)*(PI/2    
6406 #--RETURN SIGN(X)*PI/2 + ATAN(-1/X).             
6407         cmp.l           %d1,&0x40638000          
6408         bgt.w           ATANHUGE                 
6409                                                  
6410 #--APPROXIMATE ATAN(-1/X) BY                     
6411 #--X'+X'*Y*(C1+Y*(C2+Y*(C3+Y*(C4+Y*C5)))), X'    
6412 #--THIS CAN BE RE-WRITTEN AS                     
6413 #--X'+X'*Y*( [C1+Z*(C3+Z*C5)] + [Y*(C2+Z*C4)]    
6414                                                  
6415         fmovm.x         &0x0c,-(%sp)             
6416                                                  
6417         fmov.s          &0xBF800000,%fp1         
6418         fdiv.x          %fp0,%fp1                
6419                                                  
6420 #--DIVIDE IS STILL CRANKING                      
6421                                                  
6422         fmov.x          %fp1,%fp0                
6423         fmul.x          %fp0,%fp0                
6424         fmov.x          %fp1,X(%a6)              
6425                                                  
6426         fmov.x          %fp0,%fp1                
6427         fmul.x          %fp1,%fp1                
6428                                                  
6429         fmov.d          ATANC5(%pc),%fp3         
6430         fmov.d          ATANC4(%pc),%fp2         
6431                                                  
6432         fmul.x          %fp1,%fp3                
6433         fmul.x          %fp1,%fp2                
6434                                                  
6435         fadd.d          ATANC3(%pc),%fp3         
6436         fadd.d          ATANC2(%pc),%fp2         
6437                                                  
6438         fmul.x          %fp3,%fp1                
6439         fmul.x          %fp0,%fp2                
6440                                                  
6441         fadd.d          ATANC1(%pc),%fp1         
6442         fmul.x          X(%a6),%fp0              
6443                                                  
6444         fadd.x          %fp2,%fp1                
6445                                                  
6446         fmul.x          %fp1,%fp0                
6447 #                                       ...      
6448         fadd.x          X(%a6),%fp0              
6449                                                  
6450         fmovm.x         (%sp)+,&0x30             
6451                                                  
6452         fmov.l          %d0,%fpcr                
6453         tst.b           (%a0)                    
6454         bpl.b           pos_big                  
6455                                                  
6456 neg_big:                                         
6457         fadd.x          NPIBY2(%pc),%fp0         
6458         bra             t_minx2                  
6459                                                  
6460 pos_big:                                         
6461         fadd.x          PPIBY2(%pc),%fp0         
6462         bra             t_pinx2                  
6463                                                  
6464 ATANHUGE:                                        
6465 #--RETURN SIGN(X)*(PIBY2 - TINY) = SIGN(X)*PI    
6466         tst.b           (%a0)                    
6467         bpl.b           pos_huge                 
6468                                                  
6469 neg_huge:                                        
6470         fmov.x          NPIBY2(%pc),%fp0         
6471         fmov.l          %d0,%fpcr                
6472         fadd.x          PTINY(%pc),%fp0          
6473         bra             t_minx2                  
6474                                                  
6475 pos_huge:                                        
6476         fmov.x          PPIBY2(%pc),%fp0         
6477         fmov.l          %d0,%fpcr                
6478         fadd.x          NTINY(%pc),%fp0          
6479         bra             t_pinx2                  
6480                                                  
6481         global          satand                   
6482 #--ENTRY POINT FOR ATAN(X) FOR DENORMALIZED A    
6483 satand:                                          
6484         bra             t_extdnrm                
6485                                                  
6486 #############################################    
6487 # sasin():  computes the inverse sine of a no    
6488 # sasind(): computes the inverse sine of a de    
6489 #                                                
6490 # INPUT *************************************    
6491 #       a0 = pointer to extended precision in    
6492 #       d0 = round precision,mode                
6493 #                                                
6494 # OUTPUT ************************************    
6495 #       fp0 = arcsin(X)                          
6496 #                                                
6497 # ACCURACY and MONOTONICITY *****************    
6498 #       The returned result is within 3 ulps     
6499 #       i.e. within 0.5001 ulp to 53 bits if     
6500 #       rounded to double precision. The resu    
6501 #       in double precision.                     
6502 #                                                
6503 # ALGORITHM *********************************    
6504 #                                                
6505 #       ASIN                                     
6506 #       1. If |X| >= 1, go to 3.                 
6507 #                                                
6508 #       2. (|X| < 1) Calculate asin(X) by        
6509 #               z := sqrt( [1-X][1+X] )          
6510 #               asin(X) = atan( x / z ).         
6511 #               Exit.                            
6512 #                                                
6513 #       3. If |X| > 1, go to 5.                  
6514 #                                                
6515 #       4. (|X| = 1) sgn := sign(X), return a    
6516 #                                                
6517 #       5. (|X| > 1) Generate an invalid oper    
6518 #               Exit.                            
6519 #                                                
6520 #############################################    
6521                                                  
6522         global          sasin                    
6523 sasin:                                           
6524         fmov.x          (%a0),%fp0               
6525                                                  
6526         mov.l           (%a0),%d1                
6527         mov.w           4(%a0),%d1               
6528         and.l           &0x7FFFFFFF,%d1          
6529         cmp.l           %d1,&0x3FFF8000          
6530         bge.b           ASINBIG                  
6531                                                  
6532 # This catch is added here for the '060 QSP.     
6533 # satan() would handle this case by causing t    
6534 # not be caught until gen_except(). Now, with    
6535 # detected inside of satan(), the exception w    
6536 # instead of inside sasin() as expected.         
6537         cmp.l           %d1,&0x3FD78000          
6538         blt.w           ASINTINY                 
6539                                                  
6540 #--THIS IS THE USUAL CASE, |X| < 1               
6541 #--ASIN(X) = ATAN( X / SQRT( (1-X)(1+X) ) )      
6542                                                  
6543 ASINMAIN:                                        
6544         fmov.s          &0x3F800000,%fp1         
6545         fsub.x          %fp0,%fp1                
6546         fmovm.x         &0x4,-(%sp)              
6547         fmov.s          &0x3F800000,%fp2         
6548         fadd.x          %fp0,%fp2                
6549         fmul.x          %fp2,%fp1                
6550         fmovm.x         (%sp)+,&0x20             
6551         fsqrt.x         %fp1                     
6552         fdiv.x          %fp1,%fp0                
6553         fmovm.x         &0x01,-(%sp)             
6554         lea             (%sp),%a0                
6555         bsr             satan                    
6556         add.l           &0xc,%sp                 
6557         bra             t_inx2                   
6558                                                  
6559 ASINBIG:                                         
6560         fabs.x          %fp0                     
6561         fcmp.s          %fp0,&0x3F800000         
6562         fbgt            t_operr                  
6563                                                  
6564 #--|X| = 1, ASIN(X) = +- PI/2.                   
6565 ASINONE:                                         
6566         fmov.x          PIBY2(%pc),%fp0          
6567         mov.l           (%a0),%d1                
6568         and.l           &0x80000000,%d1          
6569         or.l            &0x3F800000,%d1          
6570         mov.l           %d1,-(%sp)               
6571         fmov.l          %d0,%fpcr                
6572         fmul.s          (%sp)+,%fp0              
6573         bra             t_inx2                   
6574                                                  
6575 #--|X| < 2^(-40), ATAN(X) = X                    
6576 ASINTINY:                                        
6577         fmov.l          %d0,%fpcr                
6578         mov.b           &FMOV_OP,%d1             
6579         fmov.x          (%a0),%fp0               
6580         bra             t_catch                  
6581                                                  
6582         global          sasind                   
6583 #--ASIN(X) = X FOR DENORMALIZED X                
6584 sasind:                                          
6585         bra             t_extdnrm                
6586                                                  
6587 #############################################    
6588 # sacos():  computes the inverse cosine of a     
6589 # sacosd(): computes the inverse cosine of a     
6590 #                                                
6591 # INPUT *************************************    
6592 #       a0 = pointer to extended precision in    
6593 #       d0 = round precision,mode                
6594 #                                                
6595 # OUTPUT ************************************    
6596 #       fp0 = arccos(X)                          
6597 #                                                
6598 # ACCURACY and MONOTONICITY *****************    
6599 #       The returned result is within 3 ulps     
6600 #       i.e. within 0.5001 ulp to 53 bits if     
6601 #       rounded to double precision. The resu    
6602 #       in double precision.                     
6603 #                                                
6604 # ALGORITHM *********************************    
6605 #                                                
6606 #       ACOS                                     
6607 #       1. If |X| >= 1, go to 3.                 
6608 #                                                
6609 #       2. (|X| < 1) Calculate acos(X) by        
6610 #               z := (1-X) / (1+X)               
6611 #               acos(X) = 2 * atan( sqrt(z) )    
6612 #               Exit.                            
6613 #                                                
6614 #       3. If |X| > 1, go to 5.                  
6615 #                                                
6616 #       4. (|X| = 1) If X > 0, return 0. Othe    
6617 #                                                
6618 #       5. (|X| > 1) Generate an invalid oper    
6619 #               Exit.                            
6620 #                                                
6621 #############################################    
6622                                                  
6623         global          sacos                    
6624 sacos:                                           
6625         fmov.x          (%a0),%fp0               
6626                                                  
6627         mov.l           (%a0),%d1                
6628         mov.w           4(%a0),%d1               
6629         and.l           &0x7FFFFFFF,%d1          
6630         cmp.l           %d1,&0x3FFF8000          
6631         bge.b           ACOSBIG                  
6632                                                  
6633 #--THIS IS THE USUAL CASE, |X| < 1               
6634 #--ACOS(X) = 2 * ATAN(  SQRT( (1-X)/(1+X) ) )    
6635                                                  
6636 ACOSMAIN:                                        
6637         fmov.s          &0x3F800000,%fp1         
6638         fadd.x          %fp0,%fp1                
6639         fneg.x          %fp0                     
6640         fadd.s          &0x3F800000,%fp0         
6641         fdiv.x          %fp1,%fp0                
6642         fsqrt.x         %fp0                     
6643         mov.l           %d0,-(%sp)               
6644         clr.l           %d0                      
6645         fmovm.x         &0x01,-(%sp)             
6646         lea             (%sp),%a0                
6647         bsr             satan                    
6648         add.l           &0xc,%sp                 
6649                                                  
6650         fmov.l          (%sp)+,%fpcr             
6651         fadd.x          %fp0,%fp0                
6652         bra             t_pinx2                  
6653                                                  
6654 ACOSBIG:                                         
6655         fabs.x          %fp0                     
6656         fcmp.s          %fp0,&0x3F800000         
6657         fbgt            t_operr                  
6658                                                  
6659 #--|X| = 1, ACOS(X) = 0 OR PI                    
6660         tst.b           (%a0)                    
6661         bpl.b           ACOSP1                   
6662                                                  
6663 #--X = -1                                        
6664 #Returns PI and inexact exception                
6665 ACOSM1:                                          
6666         fmov.x          PI(%pc),%fp0             
6667         fmov.l          %d0,%fpcr                
6668         fadd.s          &0x00800000,%fp0         
6669         bra             t_pinx2                  
6670                                                  
6671 ACOSP1:                                          
6672         bra             ld_pzero                 
6673                                                  
6674         global          sacosd                   
6675 #--ACOS(X) = PI/2 FOR DENORMALIZED X             
6676 sacosd:                                          
6677         fmov.l          %d0,%fpcr                
6678         fmov.x          PIBY2(%pc),%fp0          
6679         bra             t_pinx2                  
6680                                                  
6681 #############################################    
6682 # setox():    computes the exponential for a     
6683 # setoxd():   computes the exponential for a     
6684 # setoxm1():  computes the exponential minus     
6685 # setoxm1d(): computes the exponential minus     
6686 #                                                
6687 # INPUT *************************************    
6688 #       a0 = pointer to extended precision in    
6689 #       d0 = round precision,mode                
6690 #                                                
6691 # OUTPUT ************************************    
6692 #       fp0 = exp(X) or exp(X)-1                 
6693 #                                                
6694 # ACCURACY and MONOTONICITY *****************    
6695 #       The returned result is within 0.85 ul    
6696 #       i.e. within 0.5001 ulp to 53 bits if     
6697 #       rounded to double precision. The resu    
6698 #       in double precision.                     
6699 #                                                
6700 # ALGORITHM and IMPLEMENTATION **************    
6701 #                                                
6702 #       setoxd                                   
6703 #       ------                                   
6704 #       Step 1. Set ans := 1.0                   
6705 #                                                
6706 #       Step 2. Return  ans := ans + sign(X)*    
6707 #       Notes:  This will always generate one    
6708 #                                                
6709 #                                                
6710 #       setox                                    
6711 #       -----                                    
6712 #                                                
6713 #       Step 1. Filter out extreme cases of i    
6714 #               1.1     If |X| >= 2^(-65), go    
6715 #               1.2     Go to Step 7.            
6716 #               1.3     If |X| < 16380 log(2)    
6717 #               1.4     Go to Step 8.            
6718 #       Notes:  The usual case should take th    
6719 #               To avoid the use of floating-    
6720 #               compact representation of |X|    
6721 #               32-bit integer, the upper (mo    
6722 #               are the sign and biased expon    
6723 #               lower 16 bits are the 16 most    
6724 #               (including the explicit bit)     
6725 #               the comparisons in Steps 1.1     
6726 #               by integer comparison. Note a    
6727 #               16380 log(2) used in Step 1.3    
6728 #               form. Thus taking the branch     
6729 #               |X| < 16380 log(2). There is     
6730 #               number of cases where |X| is     
6731 #               16380 log(2) and the branch t    
6732 #                                                
6733 #       Step 2. Calculate N = round-to-neares    
6734 #               2.1     Set AdjFlag := 0 (ind    
6735 #                       was taken)               
6736 #               2.2     N := round-to-nearest    
6737 #               2.3     Calculate       J = N    
6738 #                       or 63.                   
6739 #               2.4     Calculate       M = (    
6740 #               2.5     Calculate the address    
6741 #                       2^(J/64).                
6742 #               2.6     Create the value Scal    
6743 #       Notes:  The calculation in 2.2 is rea    
6744 #                       Z := X * constant        
6745 #                       N := round-to-nearest    
6746 #               where                            
6747 #                       constant := single-pr    
6748 #                                                
6749 #               Using a single-precision cons    
6750 #               access. Another effect of usi    
6751 #               "constant" is that the calcul    
6752 #                                                
6753 #                       Z = X*(64/log2)*(1+ep    
6754 #                                                
6755 #               This error has to be consider    
6756 #                                                
6757 #       Step 3. Calculate X - N*log2/64.         
6758 #               3.1     R := X + N*L1,           
6759 #                               where L1 := s    
6760 #               3.2     R := R + N*L2,           
6761 #                               L2 := extende    
6762 #       Notes:  a) The way L1 and L2 are chos    
6763 #               approximate the value -log2/6    
6764 #               b) N*L1 is exact because N is    
6765 #               and L1 is no longer than 24 b    
6766 #               c) The calculation X+N*L1 is     
6767 #               cancellation. Thus, R is prac    
6768 #               64 bits.                         
6769 #               d) It is important to estimat    
6770 #               after Step 3.2.                  
6771 #                                                
6772 #               N = rnd-to-int( X*64/log2 (1+    
6773 #               X*64/log2 (1+eps)       =        
6774 #               X*64/log2 - N   =       f - e    
6775 #               X - N*log2/64   =       f*log    
6776 #                                                
6777 #                                                
6778 #               Now |X| <= 16446 log2, thus      
6779 #                                                
6780 #                       |X - N*log2/64| <= (0    
6781 #                                       <= 0.    
6782 #                This bound will be used in S    
6783 #                                                
6784 #       Step 4. Approximate exp(R)-1 by a pol    
6785 #               p = R + R*R*(A1 + R*(A2 + R*(    
6786 #       Notes:  a) In order to reduce memory     
6787 #               are made as "short" as possib    
6788 #               and A5 are single precision;     
6789 #               precision.                       
6790 #               b) Even with the restrictions    
6791 #                  |p - (exp(R)-1)| < 2^(-68.    
6792 #               Note that 0.0062 is slightly     
6793 #               c) To fully utilize the pipel    
6794 #               two independent pieces of rou    
6795 #                       p = [ R + R*S*(A2 + S    
6796 #                               [ S*(A1 + S*(    
6797 #               where S = R*R.                   
6798 #                                                
6799 #       Step 5. Compute 2^(J/64)*exp(R) = 2^(    
6800 #                               ans := T + (     
6801 #               where T and t are the stored     
6802 #       Notes:  2^(J/64) is stored as T and t    
6803 #               2^(J/64) to roughly 85 bits;     
6804 #               and t is in single precision.    
6805 #               rounded to 62 bits so that th    
6806 #               zero. The reason for such a s    
6807 #               T-2, and T-8 will all be exac    
6808 #               give much more accurate compu    
6809 #               EXPM1.                           
6810 #                                                
6811 #       Step 6. Reconstruction of exp(X)         
6812 #                       exp(X) = 2^M * 2^(J/6    
6813 #               6.1     If AdjFlag = 0, go to    
6814 #               6.2     ans := ans * AdjScale    
6815 #               6.3     Restore the user FPCR    
6816 #               6.4     Return ans := ans * S    
6817 #       Notes:  If AdjFlag = 0, we have X = M    
6818 #               |M| <= 16380, and Scale = 2^M    
6819 #               neither overflow nor underflo    
6820 #               means that                       
6821 #                       X = (M1+M)log2 + Jlog    
6822 #               Hence, exp(X) may overflow or    
6823 #               When that is the case, AdjSca    
6824 #               approximately M. Thus 6.2 wil    
6825 #               over/underflow. Possible exce    
6826 #               or underflow. The inexact exc    
6827 #               6.4. Although one can argue t    
6828 #               should always be raised, to s    
6829 #               cost to much than the flag is    
6830 #                                                
6831 #       Step 7. Return 1 + X.                    
6832 #               7.1     ans := X                 
6833 #               7.2     Restore user FPCR.       
6834 #               7.3     Return ans := 1 + ans    
6835 #       Notes:  For non-zero X, the inexact e    
6836 #               raised by 7.3. That is the on    
6837 #               Note also that we use the FMO    
6838 #               in Step 7.1 to avoid unnecess    
6839 #               the FMOVEM may not seem relev    
6840 #               the precaution will be useful    
6841 #               this code where the separate     
6842 #               inputs will be done away with    
6843 #                                                
6844 #       Step 8. Handle exp(X) where |X| >= 16    
6845 #               8.1     If |X| > 16480 log2,     
6846 #               (mimic 2.2 - 2.6)                
6847 #               8.2     N := round-to-integer    
6848 #               8.3     Calculate J = N mod 6    
6849 #               8.4     K := (N-J)/64, M1 :=     
6850 #                       AdjFlag := 1.            
6851 #               8.5     Calculate the address    
6852 #                       2^(J/64).                
6853 #               8.6     Create the values Sca    
6854 #               8.7     Go to Step 3.            
6855 #       Notes:  Refer to notes for 2.2 - 2.6.    
6856 #                                                
6857 #       Step 9. Handle exp(X), |X| > 16480 lo    
6858 #               9.1     If X < 0, go to 9.3      
6859 #               9.2     ans := Huge, go to 9.    
6860 #               9.3     ans := Tiny.             
6861 #               9.4     Restore user FPCR.       
6862 #               9.5     Return ans := ans * a    
6863 #       Notes:  Exp(X) will surely overflow o    
6864 #               X's sign. "Huge" and "Tiny" a    
6865 #               extended-precision numbers wh    
6866 #               with an inexact result. Thus,    
6867 #               inexact together with either     
6868 #                                                
6869 #       setoxm1d                                 
6870 #       --------                                 
6871 #                                                
6872 #       Step 1. Set ans := 0                     
6873 #                                                
6874 #       Step 2. Return  ans := X + ans. Exit.    
6875 #       Notes:  This will return X with the a    
6876 #                precision prescribed by the     
6877 #                                                
6878 #       setoxm1                                  
6879 #       -------                                  
6880 #                                                
6881 #       Step 1. Check |X|                        
6882 #               1.1     If |X| >= 1/4, go to     
6883 #               1.2     Go to Step 7.            
6884 #               1.3     If |X| < 70 log(2), g    
6885 #               1.4     Go to Step 10.           
6886 #       Notes:  The usual case should take th    
6887 #               However, it is conceivable |X    
6888 #               because EXPM1 is intended to     
6889 #               accurately when |X| is small.    
6890 #               the comparisons, see the note    
6891 #                                                
6892 #       Step 2. Calculate N = round-to-neares    
6893 #               2.1     N := round-to-nearest    
6894 #               2.2     Calculate       J = N    
6895 #                       or 63.                   
6896 #               2.3     Calculate       M = (    
6897 #               2.4     Calculate the address    
6898 #                       2^(J/64).                
6899 #               2.5     Create the values Sc     
6900 #                       OnebySc := -2^(-M).      
6901 #       Notes:  See the notes on Step 2 of se    
6902 #                                                
6903 #       Step 3. Calculate X - N*log2/64.         
6904 #               3.1     R := X + N*L1,           
6905 #                               where L1 := s    
6906 #               3.2     R := R + N*L2,           
6907 #                               L2 := extende    
6908 #       Notes:  Applying the analysis of Step    
6909 #               shows that |R| <= 0.0055 (not    
6910 #               this case).                      
6911 #                                                
6912 #       Step 4. Approximate exp(R)-1 by a pol    
6913 #                       p = R+R*R*(A1+R*(A2+R    
6914 #       Notes:  a) In order to reduce memory     
6915 #               are made as "short" as possib    
6916 #               and A6 are single precision;     
6917 #               precision.                       
6918 #               b) Even with the restriction     
6919 #                       |p - (exp(R)-1)| <       
6920 #               for all |R| <= 0.0055.           
6921 #               c) To fully utilize the pipel    
6922 #               two independent pieces of rou    
6923 #                       p = [ R*S*(A2 + S*(A4    
6924 #                               [ R + S*(A1 +    
6925 #               where S = R*R.                   
6926 #                                                
6927 #       Step 5. Compute 2^(J/64)*p by            
6928 #                               p := T*p         
6929 #               where T and t are the stored     
6930 #       Notes:  2^(J/64) is stored as T and t    
6931 #               2^(J/64) to roughly 85 bits;     
6932 #               and t is in single precision.    
6933 #               rounded to 62 bits so that th    
6934 #               zero. The reason for such a s    
6935 #               T-2, and T-8 will all be exac    
6936 #               be exploited in Step 6 below.    
6937 #               in p is no bigger than 2^(-67    
6938 #               result.                          
6939 #                                                
6940 #       Step 6. Reconstruction of exp(X)-1       
6941 #                       exp(X)-1 = 2^M * ( 2^    
6942 #               6.1     If M <= 63, go to Ste    
6943 #               6.2     ans := T + (p + (t +     
6944 #               6.3     If M >= -3, go to 6.5    
6945 #               6.4     ans := (T + (p + t))     
6946 #               6.5     ans := (T + OnebySc)     
6947 #               6.6     Restore user FPCR.       
6948 #               6.7     Return ans := Sc * an    
6949 #       Notes:  The various arrangements of t    
6950 #               accurate evaluations.            
6951 #                                                
6952 #       Step 7. exp(X)-1 for |X| < 1/4.          
6953 #               7.1     If |X| >= 2^(-65), go    
6954 #               7.2     Go to Step 8.            
6955 #                                                
6956 #       Step 8. Calculate exp(X)-1, |X| < 2^(    
6957 #               8.1     If |X| < 2^(-16312),     
6958 #               8.2     Restore FPCR; return     
6959 #                       Exit.                    
6960 #               8.3     X := X * 2^(140).        
6961 #               8.4     Restore FPCR; ans :=     
6962 #                Return ans := ans*2^(140). E    
6963 #       Notes:  The idea is to return "X - ti    
6964 #               precision and rounding modes.    
6965 #               inefficiency, we stay away fr    
6966 #               the best we can. For |X| >= 2    
6967 #               straightforward 8.2 generates    
6968 #               the case warrants.               
6969 #                                                
6970 #       Step 9. Calculate exp(X)-1, |X| < 1/4    
6971 #                       p = X + X*X*(B1 + X*(    
6972 #       Notes:  a) In order to reduce memory     
6973 #               are made as "short" as possib    
6974 #               to B12 are single precision;     
6975 #               precision; and B2 is double e    
6976 #               b) Even with the restriction     
6977 #                       |p - (exp(X)-1)| < |X    
6978 #               for all |X| <= 0.251.            
6979 #               Note that 0.251 is slightly b    
6980 #               c) To fully preserve accuracy    
6981 #               computed as                      
6982 #                       X + ( S*B1 +    Q ) w    
6983 #                       Q       =       X*S*(    
6984 #               d) To fully utilize the pipel    
6985 #               two independent pieces of rou    
6986 #                       Q = [ X*S*(B2 + S*(B4    
6987 #                               [ S*S*(B3 + S    
6988 #                                                
6989 #       Step 10. Calculate exp(X)-1 for |X| >    
6990 #               10.1 If X >= 70log2 , exp(X)     
6991 #               practical purposes. Therefore    
6992 #               10.2 If X <= -70log2, exp(X)     
6993 #               purposes.                        
6994 #               ans := -1                        
6995 #               Restore user FPCR                
6996 #               Return ans := ans + 2^(-126).    
6997 #       Notes:  10.2 will always create an in    
6998 #               in the user rounding precisio    
6999 #                                                
7000 #############################################    
7001                                                  
7002 L2:     long            0x3FDC0000,0x82E30865    
7003                                                  
7004 EEXPA3: long            0x3FA55555,0x55554CC1    
7005 EEXPA2: long            0x3FC55555,0x55554A54    
7006                                                  
7007 EM1A4:  long            0x3F811111,0x11174385    
7008 EM1A3:  long            0x3FA55555,0x55554F5A    
7009                                                  
7010 EM1A2:  long            0x3FC55555,0x55555555    
7011                                                  
7012 EM1B8:  long            0x3EC71DE3,0xA5774682    
7013 EM1B7:  long            0x3EFA01A0,0x19D7CB68    
7014                                                  
7015 EM1B6:  long            0x3F2A01A0,0x1A019DF3    
7016 EM1B5:  long            0x3F56C16C,0x16C170E2    
7017                                                  
7018 EM1B4:  long            0x3F811111,0x11111111    
7019 EM1B3:  long            0x3FA55555,0x55555555    
7020                                                  
7021 EM1B2:  long            0x3FFC0000,0xAAAAAAAA    
7022         long            0x00000000               
7023                                                  
7024 TWO140: long            0x48B00000,0x00000000    
7025 TWON140:                                         
7026         long            0x37300000,0x00000000    
7027                                                  
7028 EEXPTBL:                                         
7029         long            0x3FFF0000,0x80000000    
7030         long            0x3FFF0000,0x8164D1F3    
7031         long            0x3FFF0000,0x82CD8698    
7032         long            0x3FFF0000,0x843A28C3    
7033         long            0x3FFF0000,0x85AAC367    
7034         long            0x3FFF0000,0x871F6196    
7035         long            0x3FFF0000,0x88980E80    
7036         long            0x3FFF0000,0x8A14D575    
7037         long            0x3FFF0000,0x8B95C1E3    
7038         long            0x3FFF0000,0x8D1ADF5B    
7039         long            0x3FFF0000,0x8EA4398B    
7040         long            0x3FFF0000,0x9031DC43    
7041         long            0x3FFF0000,0x91C3D373    
7042         long            0x3FFF0000,0x935A2B2F    
7043         long            0x3FFF0000,0x94F4EFA8    
7044         long            0x3FFF0000,0x96942D37    
7045         long            0x3FFF0000,0x9837F051    
7046         long            0x3FFF0000,0x99E04593    
7047         long            0x3FFF0000,0x9B8D39B9    
7048         long            0x3FFF0000,0x9D3ED9A7    
7049         long            0x3FFF0000,0x9EF53260    
7050         long            0x3FFF0000,0xA0B0510F    
7051         long            0x3FFF0000,0xA2704303    
7052         long            0x3FFF0000,0xA43515AE    
7053         long            0x3FFF0000,0xA5FED6A9    
7054         long            0x3FFF0000,0xA7CD93B4    
7055         long            0x3FFF0000,0xA9A15AB4    
7056         long            0x3FFF0000,0xAB7A39B5    
7057         long            0x3FFF0000,0xAD583EEA    
7058         long            0x3FFF0000,0xAF3B78AD    
7059         long            0x3FFF0000,0xB123F581    
7060         long            0x3FFF0000,0xB311C412    
7061         long            0x3FFF0000,0xB504F333    
7062         long            0x3FFF0000,0xB6FD91E3    
7063         long            0x3FFF0000,0xB8FBAF47    
7064         long            0x3FFF0000,0xBAFF5AB2    
7065         long            0x3FFF0000,0xBD08A39F    
7066         long            0x3FFF0000,0xBF1799B6    
7067         long            0x3FFF0000,0xC12C4CCA    
7068         long            0x3FFF0000,0xC346CCDA    
7069         long            0x3FFF0000,0xC5672A11    
7070         long            0x3FFF0000,0xC78D74C8    
7071         long            0x3FFF0000,0xC9B9BD86    
7072         long            0x3FFF0000,0xCBEC14FE    
7073         long            0x3FFF0000,0xCE248C15    
7074         long            0x3FFF0000,0xD06333DA    
7075         long            0x3FFF0000,0xD2A81D91    
7076         long            0x3FFF0000,0xD4F35AAB    
7077         long            0x3FFF0000,0xD744FCCA    
7078         long            0x3FFF0000,0xD99D15C2    
7079         long            0x3FFF0000,0xDBFBB797    
7080         long            0x3FFF0000,0xDE60F482    
7081         long            0x3FFF0000,0xE0CCDEEC    
7082         long            0x3FFF0000,0xE33F8972    
7083         long            0x3FFF0000,0xE5B906E7    
7084         long            0x3FFF0000,0xE8396A50    
7085         long            0x3FFF0000,0xEAC0C6E7    
7086         long            0x3FFF0000,0xED4F301E    
7087         long            0x3FFF0000,0xEFE4B99B    
7088         long            0x3FFF0000,0xF281773C    
7089         long            0x3FFF0000,0xF5257D15    
7090         long            0x3FFF0000,0xF7D0DF73    
7091         long            0x3FFF0000,0xFA83B2DB    
7092         long            0x3FFF0000,0xFD3E0C0C    
7093                                                  
7094         set             ADJFLAG,L_SCR2           
7095         set             SCALE,FP_SCR0            
7096         set             ADJSCALE,FP_SCR1         
7097         set             SC,FP_SCR0               
7098         set             ONEBYSC,FP_SCR1          
7099                                                  
7100         global          setox                    
7101 setox:                                           
7102 #--entry point for EXP(X), here X is finite,     
7103                                                  
7104 #--Step 1.                                       
7105         mov.l           (%a0),%d1                
7106         and.l           &0x7FFF0000,%d1          
7107         cmp.l           %d1,&0x3FBE0000          
7108         bge.b           EXPC1                    
7109         bra             EXPSM                    
7110                                                  
7111 EXPC1:                                           
7112 #--The case |X| >= 2^(-65)                       
7113         mov.w           4(%a0),%d1               
7114         cmp.l           %d1,&0x400CB167          
7115         blt.b           EXPMAIN                  
7116         bra             EEXPBIG                  
7117                                                  
7118 EXPMAIN:                                         
7119 #--Step 2.                                       
7120 #--This is the normal branch:   2^(-65) <= |X    
7121         fmov.x          (%a0),%fp0               
7122                                                  
7123         fmov.x          %fp0,%fp1                
7124         fmul.s          &0x42B8AA3B,%fp0         
7125         fmovm.x         &0xc,-(%sp)              
7126         mov.l           &0,ADJFLAG(%a6)          
7127         fmov.l          %fp0,%d1                 
7128         lea             EEXPTBL(%pc),%a1         
7129         fmov.l          %d1,%fp0                 
7130                                                  
7131         mov.l           %d1,L_SCR1(%a6)          
7132         and.l           &0x3F,%d1                
7133         lsl.l           &4,%d1                   
7134         add.l           %d1,%a1                  
7135         mov.l           L_SCR1(%a6),%d1          
7136         asr.l           &6,%d1                   
7137         add.w           &0x3FFF,%d1              
7138         mov.w           L2(%pc),L_SCR1(%a6)      
7139                                                  
7140 EXPCONT1:                                        
7141 #--Step 3.                                       
7142 #--fp1,fp2 saved on the stack. fp0 is N, fp1     
7143 #--a0 points to 2^(J/64), D0 is biased expo.     
7144         fmov.x          %fp0,%fp2                
7145         fmul.s          &0xBC317218,%fp0         
7146         fmul.x          L2(%pc),%fp2             
7147         fadd.x          %fp1,%fp0                
7148         fadd.x          %fp2,%fp0                
7149                                                  
7150 #--Step 4.                                       
7151 #--WE NOW COMPUTE EXP(R)-1 BY A POLYNOMIAL       
7152 #-- R + R*R*(A1 + R*(A2 + R*(A3 + R*(A4 + R*A    
7153 #--TO FULLY UTILIZE THE PIPELINE, WE COMPUTE     
7154 #--[R+R*S*(A2+S*A4)] + [S*(A1+S*(A3+S*A5))]      
7155                                                  
7156         fmov.x          %fp0,%fp1                
7157         fmul.x          %fp1,%fp1                
7158                                                  
7159         fmov.s          &0x3AB60B70,%fp2         
7160                                                  
7161         fmul.x          %fp1,%fp2                
7162         fmov.x          %fp1,%fp3                
7163         fmul.s          &0x3C088895,%fp3         
7164                                                  
7165         fadd.d          EEXPA3(%pc),%fp2         
7166         fadd.d          EEXPA2(%pc),%fp3         
7167                                                  
7168         fmul.x          %fp1,%fp2                
7169         mov.w           %d1,SCALE(%a6)           
7170         mov.l           &0x80000000,SCALE+4(%    
7171         clr.l           SCALE+8(%a6)             
7172                                                  
7173         fmul.x          %fp1,%fp3                
7174                                                  
7175         fadd.s          &0x3F000000,%fp2         
7176         fmul.x          %fp0,%fp3                
7177                                                  
7178         fmul.x          %fp1,%fp2                
7179         fadd.x          %fp3,%fp0                
7180                                                  
7181         fmov.x          (%a1)+,%fp1              
7182         fadd.x          %fp2,%fp0                
7183                                                  
7184 #--Step 5                                        
7185 #--final reconstruction process                  
7186 #--EXP(X) = 2^M * ( 2^(J/64) + 2^(J/64)*(EXP(    
7187                                                  
7188         fmul.x          %fp1,%fp0                
7189         fmovm.x         (%sp)+,&0x30             
7190         fadd.s          (%a1),%fp0               
7191                                                  
7192         fadd.x          %fp1,%fp0                
7193         mov.l           ADJFLAG(%a6),%d1         
7194                                                  
7195 #--Step 6                                        
7196         tst.l           %d1                      
7197         beq.b           NORMAL                   
7198 ADJUST:                                          
7199         fmul.x          ADJSCALE(%a6),%fp0       
7200 NORMAL:                                          
7201         fmov.l          %d0,%fpcr                
7202         mov.b           &FMUL_OP,%d1             
7203         fmul.x          SCALE(%a6),%fp0          
7204         bra             t_catch                  
7205                                                  
7206 EXPSM:                                           
7207 #--Step 7                                        
7208         fmovm.x         (%a0),&0x80              
7209         fmov.l          %d0,%fpcr                
7210         fadd.s          &0x3F800000,%fp0         
7211         bra             t_pinx2                  
7212                                                  
7213 EEXPBIG:                                         
7214 #--Step 8                                        
7215         cmp.l           %d1,&0x400CB27C          
7216         bgt.b           EXP2BIG                  
7217 #--Steps 8.2 -- 8.6                              
7218         fmov.x          (%a0),%fp0               
7219                                                  
7220         fmov.x          %fp0,%fp1                
7221         fmul.s          &0x42B8AA3B,%fp0         
7222         fmovm.x         &0xc,-(%sp)              
7223         mov.l           &1,ADJFLAG(%a6)          
7224         fmov.l          %fp0,%d1                 
7225         lea             EEXPTBL(%pc),%a1         
7226         fmov.l          %d1,%fp0                 
7227         mov.l           %d1,L_SCR1(%a6)          
7228         and.l           &0x3F,%d1                
7229         lsl.l           &4,%d1                   
7230         add.l           %d1,%a1                  
7231         mov.l           L_SCR1(%a6),%d1          
7232         asr.l           &6,%d1                   
7233         mov.l           %d1,L_SCR1(%a6)          
7234         asr.l           &1,%d1                   
7235         sub.l           %d1,L_SCR1(%a6)          
7236         add.w           &0x3FFF,%d1              
7237         mov.w           %d1,ADJSCALE(%a6)        
7238         mov.l           &0x80000000,ADJSCALE+    
7239         clr.l           ADJSCALE+8(%a6)          
7240         mov.l           L_SCR1(%a6),%d1          
7241         add.w           &0x3FFF,%d1              
7242         bra.w           EXPCONT1                 
7243                                                  
7244 EXP2BIG:                                         
7245 #--Step 9                                        
7246         tst.b           (%a0)                    
7247         bmi             t_unfl2                  
7248         bra             t_ovfl2                  
7249                                                  
7250         global          setoxd                   
7251 setoxd:                                          
7252 #--entry point for EXP(X), X is denormalized     
7253         mov.l           (%a0),-(%sp)             
7254         andi.l          &0x80000000,(%sp)        
7255         ori.l           &0x00800000,(%sp)        
7256                                                  
7257         fmov.s          &0x3F800000,%fp0         
7258                                                  
7259         fmov.l          %d0,%fpcr                
7260         fadd.s          (%sp)+,%fp0              
7261         bra             t_pinx2                  
7262                                                  
7263         global          setoxm1                  
7264 setoxm1:                                         
7265 #--entry point for EXPM1(X), here X is finite    
7266                                                  
7267 #--Step 1.                                       
7268 #--Step 1.1                                      
7269         mov.l           (%a0),%d1                
7270         and.l           &0x7FFF0000,%d1          
7271         cmp.l           %d1,&0x3FFD0000          
7272         bge.b           EM1CON1                  
7273         bra             EM1SM                    
7274                                                  
7275 EM1CON1:                                         
7276 #--Step 1.3                                      
7277 #--The case |X| >= 1/4                           
7278         mov.w           4(%a0),%d1               
7279         cmp.l           %d1,&0x4004C215          
7280         ble.b           EM1MAIN                  
7281         bra             EM1BIG                   
7282                                                  
7283 EM1MAIN:                                         
7284 #--Step 2.                                       
7285 #--This is the case:    1/4 <= |X| <= 70 log2    
7286         fmov.x          (%a0),%fp0               
7287                                                  
7288         fmov.x          %fp0,%fp1                
7289         fmul.s          &0x42B8AA3B,%fp0         
7290         fmovm.x         &0xc,-(%sp)              
7291         fmov.l          %fp0,%d1                 
7292         lea             EEXPTBL(%pc),%a1         
7293         fmov.l          %d1,%fp0                 
7294                                                  
7295         mov.l           %d1,L_SCR1(%a6)          
7296         and.l           &0x3F,%d1                
7297         lsl.l           &4,%d1                   
7298         add.l           %d1,%a1                  
7299         mov.l           L_SCR1(%a6),%d1          
7300         asr.l           &6,%d1                   
7301         mov.l           %d1,L_SCR1(%a6)          
7302                                                  
7303 #--Step 3.                                       
7304 #--fp1,fp2 saved on the stack. fp0 is N, fp1     
7305 #--a0 points to 2^(J/64), D0 and a1 both cont    
7306         fmov.x          %fp0,%fp2                
7307         fmul.s          &0xBC317218,%fp0         
7308         fmul.x          L2(%pc),%fp2             
7309         fadd.x          %fp1,%fp0                
7310         fadd.x          %fp2,%fp0                
7311         add.w           &0x3FFF,%d1              
7312                                                  
7313 #--Step 4.                                       
7314 #--WE NOW COMPUTE EXP(R)-1 BY A POLYNOMIAL       
7315 #-- R + R*R*(A1 + R*(A2 + R*(A3 + R*(A4 + R*(    
7316 #--TO FULLY UTILIZE THE PIPELINE, WE COMPUTE     
7317 #--[R*S*(A2+S*(A4+S*A6))] + [R+S*(A1+S*(A3+S*    
7318                                                  
7319         fmov.x          %fp0,%fp1                
7320         fmul.x          %fp1,%fp1                
7321                                                  
7322         fmov.s          &0x3950097B,%fp2         
7323                                                  
7324         fmul.x          %fp1,%fp2                
7325         fmov.x          %fp1,%fp3                
7326         fmul.s          &0x3AB60B6A,%fp3         
7327                                                  
7328         fadd.d          EM1A4(%pc),%fp2          
7329         fadd.d          EM1A3(%pc),%fp3          
7330         mov.w           %d1,SC(%a6)              
7331         mov.l           &0x80000000,SC+4(%a6)    
7332         clr.l           SC+8(%a6)                
7333                                                  
7334         fmul.x          %fp1,%fp2                
7335         mov.l           L_SCR1(%a6),%d1          
7336         neg.w           %d1                      
7337         fmul.x          %fp1,%fp3                
7338         add.w           &0x3FFF,%d1              
7339         fadd.d          EM1A2(%pc),%fp2          
7340         fadd.s          &0x3F000000,%fp3         
7341                                                  
7342         fmul.x          %fp1,%fp2                
7343         or.w            &0x8000,%d1              
7344         mov.w           %d1,ONEBYSC(%a6)         
7345         mov.l           &0x80000000,ONEBYSC+4    
7346         clr.l           ONEBYSC+8(%a6)           
7347         fmul.x          %fp3,%fp1                
7348                                                  
7349         fmul.x          %fp0,%fp2                
7350         fadd.x          %fp1,%fp0                
7351                                                  
7352         fadd.x          %fp2,%fp0                
7353                                                  
7354         fmovm.x         (%sp)+,&0x30             
7355                                                  
7356 #--Step 5                                        
7357 #--Compute 2^(J/64)*p                            
7358                                                  
7359         fmul.x          (%a1),%fp0               
7360                                                  
7361 #--Step 6                                        
7362 #--Step 6.1                                      
7363         mov.l           L_SCR1(%a6),%d1          
7364         cmp.l           %d1,&63                  
7365         ble.b           MLE63                    
7366 #--Step 6.2     M >= 64                          
7367         fmov.s          12(%a1),%fp1             
7368         fadd.x          ONEBYSC(%a6),%fp1        
7369         fadd.x          %fp1,%fp0                
7370         fadd.x          (%a1),%fp0               
7371         bra             EM1SCALE                 
7372 MLE63:                                           
7373 #--Step 6.3     M <= 63                          
7374         cmp.l           %d1,&-3                  
7375         bge.b           MGEN3                    
7376 MLTN3:                                           
7377 #--Step 6.4     M <= -4                          
7378         fadd.s          12(%a1),%fp0             
7379         fadd.x          (%a1),%fp0               
7380         fadd.x          ONEBYSC(%a6),%fp0        
7381         bra             EM1SCALE                 
7382 MGEN3:                                           
7383 #--Step 6.5     -3 <= M <= 63                    
7384         fmov.x          (%a1)+,%fp1              
7385         fadd.s          (%a1),%fp0               
7386         fadd.x          ONEBYSC(%a6),%fp1        
7387         fadd.x          %fp1,%fp0                
7388                                                  
7389 EM1SCALE:                                        
7390 #--Step 6.6                                      
7391         fmov.l          %d0,%fpcr                
7392         fmul.x          SC(%a6),%fp0             
7393         bra             t_inx2                   
7394                                                  
7395 EM1SM:                                           
7396 #--Step 7       |X| < 1/4.                       
7397         cmp.l           %d1,&0x3FBE0000          
7398         bge.b           EM1POLY                  
7399                                                  
7400 EM1TINY:                                         
7401 #--Step 8       |X| < 2^(-65)                    
7402         cmp.l           %d1,&0x00330000          
7403         blt.b           EM12TINY                 
7404 #--Step 8.2                                      
7405         mov.l           &0x80010000,SC(%a6)      
7406         mov.l           &0x80000000,SC+4(%a6)    
7407         clr.l           SC+8(%a6)                
7408         fmov.x          (%a0),%fp0               
7409         fmov.l          %d0,%fpcr                
7410         mov.b           &FADD_OP,%d1             
7411         fadd.x          SC(%a6),%fp0             
7412         bra             t_catch                  
7413                                                  
7414 EM12TINY:                                        
7415 #--Step 8.3                                      
7416         fmov.x          (%a0),%fp0               
7417         fmul.d          TWO140(%pc),%fp0         
7418         mov.l           &0x80010000,SC(%a6)      
7419         mov.l           &0x80000000,SC+4(%a6)    
7420         clr.l           SC+8(%a6)                
7421         fadd.x          SC(%a6),%fp0             
7422         fmov.l          %d0,%fpcr                
7423         mov.b           &FMUL_OP,%d1             
7424         fmul.d          TWON140(%pc),%fp0        
7425         bra             t_catch                  
7426                                                  
7427 EM1POLY:                                         
7428 #--Step 9       exp(X)-1 by a simple polynomi    
7429         fmov.x          (%a0),%fp0               
7430         fmul.x          %fp0,%fp0                
7431         fmovm.x         &0xc,-(%sp)              
7432         fmov.s          &0x2F30CAA8,%fp1         
7433         fmul.x          %fp0,%fp1                
7434         fmov.s          &0x310F8290,%fp2         
7435         fadd.s          &0x32D73220,%fp1         
7436                                                  
7437         fmul.x          %fp0,%fp2                
7438         fmul.x          %fp0,%fp1                
7439                                                  
7440         fadd.s          &0x3493F281,%fp2         
7441         fadd.d          EM1B8(%pc),%fp1          
7442                                                  
7443         fmul.x          %fp0,%fp2                
7444         fmul.x          %fp0,%fp1                
7445                                                  
7446         fadd.d          EM1B7(%pc),%fp2          
7447         fadd.d          EM1B6(%pc),%fp1          
7448                                                  
7449         fmul.x          %fp0,%fp2                
7450         fmul.x          %fp0,%fp1                
7451                                                  
7452         fadd.d          EM1B5(%pc),%fp2          
7453         fadd.d          EM1B4(%pc),%fp1          
7454                                                  
7455         fmul.x          %fp0,%fp2                
7456         fmul.x          %fp0,%fp1                
7457                                                  
7458         fadd.d          EM1B3(%pc),%fp2          
7459         fadd.x          EM1B2(%pc),%fp1          
7460                                                  
7461         fmul.x          %fp0,%fp2                
7462         fmul.x          %fp0,%fp1                
7463                                                  
7464         fmul.x          %fp0,%fp2                
7465         fmul.x          (%a0),%fp1               
7466                                                  
7467         fmul.s          &0x3F000000,%fp0         
7468         fadd.x          %fp2,%fp1                
7469                                                  
7470         fmovm.x         (%sp)+,&0x30             
7471                                                  
7472         fadd.x          %fp1,%fp0                
7473                                                  
7474         fmov.l          %d0,%fpcr                
7475         fadd.x          (%a0),%fp0               
7476         bra             t_inx2                   
7477                                                  
7478 EM1BIG:                                          
7479 #--Step 10      |X| > 70 log2                    
7480         mov.l           (%a0),%d1                
7481         cmp.l           %d1,&0                   
7482         bgt.w           EXPC1                    
7483 #--Step 10.2                                     
7484         fmov.s          &0xBF800000,%fp0         
7485         fmov.l          %d0,%fpcr                
7486         fadd.s          &0x00800000,%fp0         
7487         bra             t_minx2                  
7488                                                  
7489         global          setoxm1d                 
7490 setoxm1d:                                        
7491 #--entry point for EXPM1(X), here X is denorm    
7492 #--Step 0.                                       
7493         bra             t_extdnrm                
7494                                                  
7495 #############################################    
7496 # sgetexp():  returns the exponent portion of    
7497 #             The exponent bias is removed an    
7498 #             returned as an extended precisi    
7499 # sgetexpd(): handles denormalized numbers.      
7500 #                                                
7501 # sgetman():  extracts the mantissa of the in    
7502 #             mantissa is converted to an ext    
7503 #             an exponent of $3fff and is ret    
7504 #             the result is [1.0 - 2.0).         
7505 # sgetmand(): handles denormalized numbers.      
7506 #                                                
7507 # INPUT *************************************    
7508 #       a0  = pointer to extended precision i    
7509 #                                                
7510 # OUTPUT ************************************    
7511 #       fp0 = exponent(X) or mantissa(X)         
7512 #                                                
7513 #############################################    
7514                                                  
7515         global          sgetexp                  
7516 sgetexp:                                         
7517         mov.w           SRC_EX(%a0),%d0          
7518         bclr            &0xf,%d0                 
7519         subi.w          &0x3fff,%d0              
7520         fmov.w          %d0,%fp0                 
7521         blt.b           sgetexpn                 
7522         rts                                      
7523                                                  
7524 sgetexpn:                                        
7525         mov.b           &neg_bmask,FPSR_CC(%a    
7526         rts                                      
7527                                                  
7528         global          sgetexpd                 
7529 sgetexpd:                                        
7530         bsr.l           norm                     
7531         neg.w           %d0                      
7532         subi.w          &0x3fff,%d0              
7533         fmov.w          %d0,%fp0                 
7534         mov.b           &neg_bmask,FPSR_CC(%a    
7535         rts                                      
7536                                                  
7537         global          sgetman                  
7538 sgetman:                                         
7539         mov.w           SRC_EX(%a0),%d0          
7540         ori.w           &0x7fff,%d0              
7541         bclr            &0xe,%d0                 
7542                                                  
7543 # here, we build the result in a tmp location    
7544         mov.l           SRC_HI(%a0),FP_SCR0_H    
7545         mov.l           SRC_LO(%a0),FP_SCR0_L    
7546         mov.w           %d0,FP_SCR0_EX(%a6)      
7547         fmov.x          FP_SCR0(%a6),%fp0        
7548         bmi.b           sgetmann                 
7549         rts                                      
7550                                                  
7551 sgetmann:                                        
7552         mov.b           &neg_bmask,FPSR_CC(%a    
7553         rts                                      
7554                                                  
7555 #                                                
7556 # For denormalized numbers, shift the mantiss    
7557 # then load the exponent with +/1 $3fff.         
7558 #                                                
7559         global          sgetmand                 
7560 sgetmand:                                        
7561         bsr.l           norm                     
7562         bra.b           sgetman                  
7563                                                  
7564 #############################################    
7565 # scosh():  computes the hyperbolic cosine of    
7566 # scoshd(): computes the hyperbolic cosine of    
7567 #                                                
7568 # INPUT *************************************    
7569 #       a0 = pointer to extended precision in    
7570 #       d0 = round precision,mode                
7571 #                                                
7572 # OUTPUT ************************************    
7573 #       fp0 = cosh(X)                            
7574 #                                                
7575 # ACCURACY and MONOTONICITY *****************    
7576 #       The returned result is within 3 ulps     
7577 #       i.e. within 0.5001 ulp to 53 bits if     
7578 #       rounded to double precision. The resu    
7579 #       in double precision.                     
7580 #                                                
7581 # ALGORITHM *********************************    
7582 #                                                
7583 #       COSH                                     
7584 #       1. If |X| > 16380 log2, go to 3.         
7585 #                                                
7586 #       2. (|X| <= 16380 log2) Cosh(X) is obt    
7587 #               y = |X|, z = exp(Y), and         
7588 #               cosh(X) = (1/2)*( z + 1/z ).     
7589 #               Exit.                            
7590 #                                                
7591 #       3. (|X| > 16380 log2). If |X| > 16480    
7592 #                                                
7593 #       4. (16380 log2 < |X| <= 16480 log2)      
7594 #               cosh(X) = sign(X) * exp(|X|)/    
7595 #               However, invoking exp(|X|) ma    
7596 #               overflow. Thus, we calculate     
7597 #               Y       := |X|                   
7598 #               Fact    :=      2**(16380)       
7599 #               Y'      := Y - 16381 log2        
7600 #               cosh(X) := Fact * exp(Y').       
7601 #               Exit.                            
7602 #                                                
7603 #       5. (|X| > 16480 log2) sinh(X) must ov    
7604 #               Huge*Huge to generate overflo    
7605 #               the appropriate sign. Huge is    
7606 #               in extended format. Exit.        
7607 #                                                
7608 #############################################    
7609                                                  
7610 TWO16380:                                        
7611         long            0x7FFB0000,0x80000000    
7612                                                  
7613         global          scosh                    
7614 scosh:                                           
7615         fmov.x          (%a0),%fp0               
7616                                                  
7617         mov.l           (%a0),%d1                
7618         mov.w           4(%a0),%d1               
7619         and.l           &0x7FFFFFFF,%d1          
7620         cmp.l           %d1,&0x400CB167          
7621         bgt.b           COSHBIG                  
7622                                                  
7623 #--THIS IS THE USUAL CASE, |X| < 16380 LOG2      
7624 #--COSH(X) = (1/2) * ( EXP(X) + 1/EXP(X) )       
7625                                                  
7626         fabs.x          %fp0                     
7627                                                  
7628         mov.l           %d0,-(%sp)               
7629         clr.l           %d0                      
7630         fmovm.x         &0x01,-(%sp)             
7631         lea             (%sp),%a0                
7632         bsr             setox                    
7633         add.l           &0xc,%sp                 
7634         fmul.s          &0x3F000000,%fp0         
7635         mov.l           (%sp)+,%d0               
7636                                                  
7637         fmov.s          &0x3E800000,%fp1         
7638         fdiv.x          %fp0,%fp1                
7639                                                  
7640         fmov.l          %d0,%fpcr                
7641         mov.b           &FADD_OP,%d1             
7642         fadd.x          %fp1,%fp0                
7643         bra             t_catch                  
7644                                                  
7645 COSHBIG:                                         
7646         cmp.l           %d1,&0x400CB2B3          
7647         bgt.b           COSHHUGE                 
7648                                                  
7649         fabs.x          %fp0                     
7650         fsub.d          T1(%pc),%fp0             
7651         fsub.d          T2(%pc),%fp0             
7652                                                  
7653         mov.l           %d0,-(%sp)               
7654         clr.l           %d0                      
7655         fmovm.x         &0x01,-(%sp)             
7656         lea             (%sp),%a0                
7657         bsr             setox                    
7658         add.l           &0xc,%sp                 
7659         mov.l           (%sp)+,%d0               
7660                                                  
7661         fmov.l          %d0,%fpcr                
7662         mov.b           &FMUL_OP,%d1             
7663         fmul.x          TWO16380(%pc),%fp0       
7664         bra             t_catch                  
7665                                                  
7666 COSHHUGE:                                        
7667         bra             t_ovfl2                  
7668                                                  
7669         global          scoshd                   
7670 #--COSH(X) = 1 FOR DENORMALIZED X                
7671 scoshd:                                          
7672         fmov.s          &0x3F800000,%fp0         
7673                                                  
7674         fmov.l          %d0,%fpcr                
7675         fadd.s          &0x00800000,%fp0         
7676         bra             t_pinx2                  
7677                                                  
7678 #############################################    
7679 # ssinh():  computes the hyperbolic sine of a    
7680 # ssinhd(): computes the hyperbolic sine of a    
7681 #                                                
7682 # INPUT *************************************    
7683 #       a0 = pointer to extended precision in    
7684 #       d0 = round precision,mode                
7685 #                                                
7686 # OUTPUT ************************************    
7687 #       fp0 = sinh(X)                            
7688 #                                                
7689 # ACCURACY and MONOTONICITY *****************    
7690 #       The returned result is within 3 ulps     
7691 #       i.e. within 0.5001 ulp to 53 bits if     
7692 #       rounded to double precision. The resu    
7693 #       in double precision.                     
7694 #                                                
7695 # ALGORITHM *********************************    
7696 #                                                
7697 #       SINH                                     
7698 #       1. If |X| > 16380 log2, go to 3.         
7699 #                                                
7700 #       2. (|X| <= 16380 log2) Sinh(X) is obt    
7701 #               y = |X|, sgn = sign(X), and z    
7702 #               sinh(X) = sgn*(1/2)*( z + z/(    
7703 #          Exit.                                 
7704 #                                                
7705 #       3. If |X| > 16480 log2, go to 5.         
7706 #                                                
7707 #       4. (16380 log2 < |X| <= 16480 log2)      
7708 #               sinh(X) = sign(X) * exp(|X|)/    
7709 #          However, invoking exp(|X|) may cau    
7710 #          Thus, we calculate sinh(X) as foll    
7711 #             Y       := |X|                     
7712 #             sgn     := sign(X)                 
7713 #             sgnFact := sgn * 2**(16380)        
7714 #             Y'      := Y - 16381 log2          
7715 #             sinh(X) := sgnFact * exp(Y').      
7716 #          Exit.                                 
7717 #                                                
7718 #       5. (|X| > 16480 log2) sinh(X) must ov    
7719 #          sign(X)*Huge*Huge to generate over    
7720 #          the appropriate sign. Huge is the     
7721 #          extended format. Exit.                
7722 #                                                
7723 #############################################    
7724                                                  
7725         global          ssinh                    
7726 ssinh:                                           
7727         fmov.x          (%a0),%fp0               
7728                                                  
7729         mov.l           (%a0),%d1                
7730         mov.w           4(%a0),%d1               
7731         mov.l           %d1,%a1                  
7732         and.l           &0x7FFFFFFF,%d1          
7733         cmp.l           %d1,&0x400CB167          
7734         bgt.b           SINHBIG                  
7735                                                  
7736 #--THIS IS THE USUAL CASE, |X| < 16380 LOG2      
7737 #--Y = |X|, Z = EXPM1(Y), SINH(X) = SIGN(X)*(    
7738                                                  
7739         fabs.x          %fp0                     
7740                                                  
7741         movm.l          &0x8040,-(%sp)           
7742         fmovm.x         &0x01,-(%sp)             
7743         lea             (%sp),%a0                
7744         clr.l           %d0                      
7745         bsr             setoxm1                  
7746         add.l           &0xc,%sp                 
7747         fmov.l          &0,%fpcr                 
7748         movm.l          (%sp)+,&0x0201           
7749                                                  
7750         fmov.x          %fp0,%fp1                
7751         fadd.s          &0x3F800000,%fp1         
7752         fmov.x          %fp0,-(%sp)              
7753         fdiv.x          %fp1,%fp0                
7754         mov.l           %a1,%d1                  
7755         and.l           &0x80000000,%d1          
7756         or.l            &0x3F000000,%d1          
7757         fadd.x          (%sp)+,%fp0              
7758         mov.l           %d1,-(%sp)               
7759                                                  
7760         fmov.l          %d0,%fpcr                
7761         mov.b           &FMUL_OP,%d1             
7762         fmul.s          (%sp)+,%fp0              
7763         bra             t_catch                  
7764                                                  
7765 SINHBIG:                                         
7766         cmp.l           %d1,&0x400CB2B3          
7767         bgt             t_ovfl                   
7768         fabs.x          %fp0                     
7769         fsub.d          T1(%pc),%fp0             
7770         mov.l           &0,-(%sp)                
7771         mov.l           &0x80000000,-(%sp)       
7772         mov.l           %a1,%d1                  
7773         and.l           &0x80000000,%d1          
7774         or.l            &0x7FFB0000,%d1          
7775         mov.l           %d1,-(%sp)               
7776         fsub.d          T2(%pc),%fp0             
7777                                                  
7778         mov.l           %d0,-(%sp)               
7779         clr.l           %d0                      
7780         fmovm.x         &0x01,-(%sp)             
7781         lea             (%sp),%a0                
7782         bsr             setox                    
7783         add.l           &0xc,%sp                 
7784                                                  
7785         mov.l           (%sp)+,%d0               
7786         fmov.l          %d0,%fpcr                
7787         mov.b           &FMUL_OP,%d1             
7788         fmul.x          (%sp)+,%fp0              
7789         bra             t_catch                  
7790                                                  
7791         global          ssinhd                   
7792 #--SINH(X) = X FOR DENORMALIZED X                
7793 ssinhd:                                          
7794         bra             t_extdnrm                
7795                                                  
7796 #############################################    
7797 # stanh():  computes the hyperbolic tangent o    
7798 # stanhd(): computes the hyperbolic tangent o    
7799 #                                                
7800 # INPUT *************************************    
7801 #       a0 = pointer to extended precision in    
7802 #       d0 = round precision,mode                
7803 #                                                
7804 # OUTPUT ************************************    
7805 #       fp0 = tanh(X)                            
7806 #                                                
7807 # ACCURACY and MONOTONICITY *****************    
7808 #       The returned result is within 3 ulps     
7809 #       i.e. within 0.5001 ulp to 53 bits if     
7810 #       rounded to double precision. The resu    
7811 #       in double precision.                     
7812 #                                                
7813 # ALGORITHM *********************************    
7814 #                                                
7815 #       TANH                                     
7816 #       1. If |X| >= (5/2) log2 or |X| <= 2**    
7817 #                                                
7818 #       2. (2**(-40) < |X| < (5/2) log2) Calc    
7819 #               sgn := sign(X), y := 2|X|, z     
7820 #               tanh(X) = sgn*( z/(2+z) ).       
7821 #               Exit.                            
7822 #                                                
7823 #       3. (|X| <= 2**(-40) or |X| >= (5/2) l    
7824 #               go to 7.                         
7825 #                                                
7826 #       4. (|X| >= (5/2) log2) If |X| >= 50 l    
7827 #                                                
7828 #       5. ((5/2) log2 <= |X| < 50 log2) Calc    
7829 #               sgn := sign(X), y := 2|X|, z     
7830 #               tanh(X) = sgn - [ sgn*2/(1+z)    
7831 #               Exit.                            
7832 #                                                
7833 #       6. (|X| >= 50 log2) Tanh(X) = +-1 (ro    
7834 #               calculate Tanh(X) by             
7835 #               sgn := sign(X), Tiny := 2**(-    
7836 #               tanh(X) := sgn - sgn*Tiny.       
7837 #               Exit.                            
7838 #                                                
7839 #       7. (|X| < 2**(-40)). Tanh(X) = X.        
7840 #                                                
7841 #############################################    
7842                                                  
7843         set             X,FP_SCR0                
7844         set             XFRAC,X+4                
7845                                                  
7846         set             SGN,L_SCR3               
7847                                                  
7848         set             V,FP_SCR0                
7849                                                  
7850         global          stanh                    
7851 stanh:                                           
7852         fmov.x          (%a0),%fp0               
7853                                                  
7854         fmov.x          %fp0,X(%a6)              
7855         mov.l           (%a0),%d1                
7856         mov.w           4(%a0),%d1               
7857         mov.l           %d1,X(%a6)               
7858         and.l           &0x7FFFFFFF,%d1          
7859         cmp.l           %d1, &0x3fd78000         
7860         blt.w           TANHBORS                 
7861         cmp.l           %d1, &0x3fffddce         
7862         bgt.w           TANHBORS                 
7863                                                  
7864 #--THIS IS THE USUAL CASE                        
7865 #--Y = 2|X|, Z = EXPM1(Y), TANH(X) = SIGN(X)     
7866                                                  
7867         mov.l           X(%a6),%d1               
7868         mov.l           %d1,SGN(%a6)             
7869         and.l           &0x7FFF0000,%d1          
7870         add.l           &0x00010000,%d1          
7871         mov.l           %d1,X(%a6)               
7872         and.l           &0x80000000,SGN(%a6)     
7873         fmov.x          X(%a6),%fp0              
7874                                                  
7875         mov.l           %d0,-(%sp)               
7876         clr.l           %d0                      
7877         fmovm.x         &0x1,-(%sp)              
7878         lea             (%sp),%a0                
7879         bsr             setoxm1                  
7880         add.l           &0xc,%sp                 
7881         mov.l           (%sp)+,%d0               
7882                                                  
7883         fmov.x          %fp0,%fp1                
7884         fadd.s          &0x40000000,%fp1         
7885         mov.l           SGN(%a6),%d1             
7886         fmov.x          %fp1,V(%a6)              
7887         eor.l           %d1,V(%a6)               
7888                                                  
7889         fmov.l          %d0,%fpcr                
7890         fdiv.x          V(%a6),%fp0              
7891         bra             t_inx2                   
7892                                                  
7893 TANHBORS:                                        
7894         cmp.l           %d1,&0x3FFF8000          
7895         blt.w           TANHSM                   
7896                                                  
7897         cmp.l           %d1,&0x40048AA1          
7898         bgt.w           TANHHUGE                 
7899                                                  
7900 #-- (5/2) LOG2 < |X| < 50 LOG2,                  
7901 #--TANH(X) = 1 - (2/[EXP(2X)+1]). LET Y = 2|X    
7902 #--TANH(X) = SGN -      SGN*2/[EXP(Y)+1].        
7903                                                  
7904         mov.l           X(%a6),%d1               
7905         mov.l           %d1,SGN(%a6)             
7906         and.l           &0x7FFF0000,%d1          
7907         add.l           &0x00010000,%d1          
7908         mov.l           %d1,X(%a6)               
7909         and.l           &0x80000000,SGN(%a6)     
7910         mov.l           SGN(%a6),%d1             
7911         fmov.x          X(%a6),%fp0              
7912                                                  
7913         mov.l           %d0,-(%sp)               
7914         clr.l           %d0                      
7915         fmovm.x         &0x01,-(%sp)             
7916         lea             (%sp),%a0                
7917         bsr             setox                    
7918         add.l           &0xc,%sp                 
7919         mov.l           (%sp)+,%d0               
7920         mov.l           SGN(%a6),%d1             
7921         fadd.s          &0x3F800000,%fp0         
7922                                                  
7923         eor.l           &0xC0000000,%d1          
7924         fmov.s          %d1,%fp1                 
7925         fdiv.x          %fp0,%fp1                
7926                                                  
7927         mov.l           SGN(%a6),%d1             
7928         or.l            &0x3F800000,%d1          
7929         fmov.s          %d1,%fp0                 
7930                                                  
7931         fmov.l          %d0,%fpcr                
7932         mov.b           &FADD_OP,%d1             
7933         fadd.x          %fp1,%fp0                
7934         bra             t_inx2                   
7935                                                  
7936 TANHSM:                                          
7937         fmov.l          %d0,%fpcr                
7938         mov.b           &FMOV_OP,%d1             
7939         fmov.x          X(%a6),%fp0              
7940         bra             t_catch                  
7941                                                  
7942 #---RETURN SGN(X) - SGN(X)EPS                    
7943 TANHHUGE:                                        
7944         mov.l           X(%a6),%d1               
7945         and.l           &0x80000000,%d1          
7946         or.l            &0x3F800000,%d1          
7947         fmov.s          %d1,%fp0                 
7948         and.l           &0x80000000,%d1          
7949         eor.l           &0x80800000,%d1          
7950                                                  
7951         fmov.l          %d0,%fpcr                
7952         fadd.s          %d1,%fp0                 
7953         bra             t_inx2                   
7954                                                  
7955         global          stanhd                   
7956 #--TANH(X) = X FOR DENORMALIZED X                
7957 stanhd:                                          
7958         bra             t_extdnrm                
7959                                                  
7960 #############################################    
7961 # slogn():    computes the natural logarithm     
7962 # slognd():   computes the natural logarithm     
7963 # slognp1():  computes the log(1+X) of a norm    
7964 # slognp1d(): computes the log(1+X) of a deno    
7965 #                                                
7966 # INPUT *************************************    
7967 #       a0 = pointer to extended precision in    
7968 #       d0 = round precision,mode                
7969 #                                                
7970 # OUTPUT ************************************    
7971 #       fp0 = log(X) or log(1+X)                 
7972 #                                                
7973 # ACCURACY and MONOTONICITY *****************    
7974 #       The returned result is within 2 ulps     
7975 #       i.e. within 0.5001 ulp to 53 bits if     
7976 #       rounded to double precision. The resu    
7977 #       in double precision.                     
7978 #                                                
7979 # ALGORITHM *********************************    
7980 #       LOGN:                                    
7981 #       Step 1. If |X-1| < 1/16, approximate     
7982 #               polynomial in u, where u = 2(    
7983 #               move on to Step 2.               
7984 #                                                
7985 #       Step 2. X = 2**k * Y where 1 <= Y < 2    
7986 #               seven significant bits of Y p    
7987 #               F = 1.xxxxxx1 in base 2 where    
7988 #               of Y. Note that |Y-F| <= 2**(    
7989 #                                                
7990 #       Step 3. Define u = (Y-F)/F. Approxima    
7991 #               polynomial in u, log(1+u) = p    
7992 #                                                
7993 #       Step 4. Reconstruct                      
7994 #               log(X) = log( 2**k * Y ) = k*    
7995 #               by k*log(2) + (log(F) + poly)    
7996 #               calculated beforehand and sto    
7997 #                                                
7998 #       lognp1:                                  
7999 #       Step 1: If |X| < 1/16, approximate lo    
8000 #               polynomial in u where u = 2X/    
8001 #               to Step 2.                       
8002 #                                                
8003 #       Step 2: Let 1+X = 2**k * Y, where 1 <    
8004 #               in Step 2 of the algorithm fo    
8005 #               log(1+X) as k*log(2) + log(F)    
8006 #               approximates log(1+u), u = (Y    
8007 #                                                
8008 #       Implementation Notes:                    
8009 #       Note 1. There are 64 different possib    
8010 #               log(F)'s need to be tabulated    
8011 #               1/F are also tabulated so tha    
8012 #               can be performed by a multipl    
8013 #                                                
8014 #       Note 2. In Step 2 of lognp1, in order    
8015 #               the value Y-F has to be calcu    
8016 #               1/2 <= X < 3/2.                  
8017 #                                                
8018 #       Note 3. To fully exploit the pipeline    
8019 #               separated into two parts eval    
8020 #               being added up.                  
8021 #                                                
8022 #############################################    
8023 LOGOF2:                                          
8024         long            0x3FFE0000,0xB17217F7    
8025                                                  
8026 one:                                             
8027         long            0x3F800000               
8028 zero:                                            
8029         long            0x00000000               
8030 infty:                                           
8031         long            0x7F800000               
8032 negone:                                          
8033         long            0xBF800000               
8034                                                  
8035 LOGA6:                                           
8036         long            0x3FC2499A,0xB5E4040B    
8037 LOGA5:                                           
8038         long            0xBFC555B5,0x848CB7DB    
8039                                                  
8040 LOGA4:                                           
8041         long            0x3FC99999,0x987D8730    
8042 LOGA3:                                           
8043         long            0xBFCFFFFF,0xFF6F7E97    
8044                                                  
8045 LOGA2:                                           
8046         long            0x3FD55555,0x555555A4    
8047 LOGA1:                                           
8048         long            0xBFE00000,0x00000008    
8049                                                  
8050 LOGB5:                                           
8051         long            0x3F175496,0xADD7DAD6    
8052 LOGB4:                                           
8053         long            0x3F3C71C2,0xFE80C7E0    
8054                                                  
8055 LOGB3:                                           
8056         long            0x3F624924,0x928BCCFF    
8057 LOGB2:                                           
8058         long            0x3F899999,0x999995EC    
8059                                                  
8060 LOGB1:                                           
8061         long            0x3FB55555,0x55555555    
8062 TWO:                                             
8063         long            0x40000000,0x00000000    
8064                                                  
8065 LTHOLD:                                          
8066         long            0x3f990000,0x80000000    
8067                                                  
8068 LOGTBL:                                          
8069         long            0x3FFE0000,0xFE03F80F    
8070         long            0x3FF70000,0xFF015358    
8071         long            0x3FFE0000,0xFA232CF2    
8072         long            0x3FF90000,0xBDC8D83E    
8073         long            0x3FFE0000,0xF6603D98    
8074         long            0x3FFA0000,0x9CF43DCF    
8075         long            0x3FFE0000,0xF2B9D648    
8076         long            0x3FFA0000,0xDA16EB88    
8077         long            0x3FFE0000,0xEF2EB71F    
8078         long            0x3FFB0000,0x8B29B775    
8079         long            0x3FFE0000,0xEBBDB2A5    
8080         long            0x3FFB0000,0xA8D839F8    
8081         long            0x3FFE0000,0xE865AC7B    
8082         long            0x3FFB0000,0xC61A2EB1    
8083         long            0x3FFE0000,0xE525982A    
8084         long            0x3FFB0000,0xE2F2A47A    
8085         long            0x3FFE0000,0xE1FC780E    
8086         long            0x3FFB0000,0xFF64898E    
8087         long            0x3FFE0000,0xDEE95C4C    
8088         long            0x3FFC0000,0x8DB956A9    
8089         long            0x3FFE0000,0xDBEB61EE    
8090         long            0x3FFC0000,0x9B8FE100    
8091         long            0x3FFE0000,0xD901B203    
8092         long            0x3FFC0000,0xA9372F1D    
8093         long            0x3FFE0000,0xD62B80D6    
8094         long            0x3FFC0000,0xB6B07F38    
8095         long            0x3FFE0000,0xD3680D36    
8096         long            0x3FFC0000,0xC3FD0329    
8097         long            0x3FFE0000,0xD0B69FCB    
8098         long            0x3FFC0000,0xD11DE0FF    
8099         long            0x3FFE0000,0xCE168A77    
8100         long            0x3FFC0000,0xDE1433A1    
8101         long            0x3FFE0000,0xCB8727C0    
8102         long            0x3FFC0000,0xEAE10B5A    
8103         long            0x3FFE0000,0xC907DA4E    
8104         long            0x3FFC0000,0xF7856E5E    
8105         long            0x3FFE0000,0xC6980C69    
8106         long            0x3FFD0000,0x82012CA5    
8107         long            0x3FFE0000,0xC4372F85    
8108         long            0x3FFD0000,0x882C5FCD    
8109         long            0x3FFE0000,0xC1E4BBD5    
8110         long            0x3FFD0000,0x8E44C60B    
8111         long            0x3FFE0000,0xBFA02FE8    
8112         long            0x3FFD0000,0x944AD09E    
8113         long            0x3FFE0000,0xBD691047    
8114         long            0x3FFD0000,0x9A3EECD4    
8115         long            0x3FFE0000,0xBB3EE721    
8116         long            0x3FFD0000,0xA0218434    
8117         long            0x3FFE0000,0xB92143FA    
8118         long            0x3FFD0000,0xA5F2FCAB    
8119         long            0x3FFE0000,0xB70FBB5A    
8120         long            0x3FFD0000,0xABB3B8BA    
8121         long            0x3FFE0000,0xB509E68A    
8122         long            0x3FFD0000,0xB1641795    
8123         long            0x3FFE0000,0xB30F6352    
8124         long            0x3FFD0000,0xB7047551    
8125         long            0x3FFE0000,0xB11FD3B8    
8126         long            0x3FFD0000,0xBC952AFE    
8127         long            0x3FFE0000,0xAF3ADDC6    
8128         long            0x3FFD0000,0xC2168ED0    
8129         long            0x3FFE0000,0xAD602B58    
8130         long            0x3FFD0000,0xC788F439    
8131         long            0x3FFE0000,0xAB8F69E2    
8132         long            0x3FFD0000,0xCCECAC08    
8133         long            0x3FFE0000,0xA9C84A47    
8134         long            0x3FFD0000,0xD2420487    
8135         long            0x3FFE0000,0xA80A80A8    
8136         long            0x3FFD0000,0xD7894992    
8137         long            0x3FFE0000,0xA655C439    
8138         long            0x3FFD0000,0xDCC2C4B4    
8139         long            0x3FFE0000,0xA4A9CF1D    
8140         long            0x3FFD0000,0xE1EEBD3E    
8141         long            0x3FFE0000,0xA3065E3F    
8142         long            0x3FFD0000,0xE70D785C    
8143         long            0x3FFE0000,0xA16B312E    
8144         long            0x3FFD0000,0xEC1F392C    
8145         long            0x3FFE0000,0x9FD809FD    
8146         long            0x3FFD0000,0xF12440D3    
8147         long            0x3FFE0000,0x9E4CAD23    
8148         long            0x3FFD0000,0xF61CCE92    
8149         long            0x3FFE0000,0x9CC8E160    
8150         long            0x3FFD0000,0xFB091FD3    
8151         long            0x3FFE0000,0x9B4C6F9E    
8152         long            0x3FFD0000,0xFFE97042    
8153         long            0x3FFE0000,0x99D722DA    
8154         long            0x3FFE0000,0x825EFCED    
8155         long            0x3FFE0000,0x9868C809    
8156         long            0x3FFE0000,0x84C37A7A    
8157         long            0x3FFE0000,0x97012E02    
8158         long            0x3FFE0000,0x87224C2E    
8159         long            0x3FFE0000,0x95A02568    
8160         long            0x3FFE0000,0x897B8CAC    
8161         long            0x3FFE0000,0x94458094    
8162         long            0x3FFE0000,0x8BCF55DE    
8163         long            0x3FFE0000,0x92F11384    
8164         long            0x3FFE0000,0x8E1DC0FB    
8165         long            0x3FFE0000,0x91A2B3C4    
8166         long            0x3FFE0000,0x9066E68C    
8167         long            0x3FFE0000,0x905A3863    
8168         long            0x3FFE0000,0x92AADE74    
8169         long            0x3FFE0000,0x8F1779D9    
8170         long            0x3FFE0000,0x94E9BFF6    
8171         long            0x3FFE0000,0x8DDA5202    
8172         long            0x3FFE0000,0x9723A1B7    
8173         long            0x3FFE0000,0x8CA29C04    
8174         long            0x3FFE0000,0x995899C8    
8175         long            0x3FFE0000,0x8B70344A    
8176         long            0x3FFE0000,0x9B88BDAA    
8177         long            0x3FFE0000,0x8A42F870    
8178         long            0x3FFE0000,0x9DB4224F    
8179         long            0x3FFE0000,0x891AC73A    
8180         long            0x3FFE0000,0x9FDADC26    
8181         long            0x3FFE0000,0x87F78087    
8182         long            0x3FFE0000,0xA1FCFF17    
8183         long            0x3FFE0000,0x86D90544    
8184         long            0x3FFE0000,0xA41A9E8F    
8185         long            0x3FFE0000,0x85BF3761    
8186         long            0x3FFE0000,0xA633CD7E    
8187         long            0x3FFE0000,0x84A9F9C8    
8188         long            0x3FFE0000,0xA8489E60    
8189         long            0x3FFE0000,0x83993052    
8190         long            0x3FFE0000,0xAA59233C    
8191         long            0x3FFE0000,0x828CBFBE    
8192         long            0x3FFE0000,0xAC656DAE    
8193         long            0x3FFE0000,0x81848DA8    
8194         long            0x3FFE0000,0xAE6D8EE3    
8195         long            0x3FFE0000,0x80808080    
8196         long            0x3FFE0000,0xB07197A2    
8197                                                  
8198         set             ADJK,L_SCR1              
8199                                                  
8200         set             X,FP_SCR0                
8201         set             XDCARE,X+2               
8202         set             XFRAC,X+4                
8203                                                  
8204         set             F,FP_SCR1                
8205         set             FFRAC,F+4                
8206                                                  
8207         set             KLOG2,FP_SCR0            
8208                                                  
8209         set             SAVEU,FP_SCR0            
8210                                                  
8211         global          slogn                    
8212 #--ENTRY POINT FOR LOG(X) FOR X FINITE, NON-Z    
8213 slogn:                                           
8214         fmov.x          (%a0),%fp0               
8215         mov.l           &0x00000000,ADJK(%a6)    
8216                                                  
8217 LOGBGN:                                          
8218 #--FPCR SAVED AND CLEARED, INPUT IS 2^(ADJK)*    
8219 #--A FINITE, NON-ZERO, NORMALIZED NUMBER.        
8220                                                  
8221         mov.l           (%a0),%d1                
8222         mov.w           4(%a0),%d1               
8223                                                  
8224         mov.l           (%a0),X(%a6)             
8225         mov.l           4(%a0),X+4(%a6)          
8226         mov.l           8(%a0),X+8(%a6)          
8227                                                  
8228         cmp.l           %d1,&0                   
8229         blt.w           LOGNEG                   
8230 # X IS POSITIVE, CHECK IF X IS NEAR 1            
8231         cmp.l           %d1,&0x3ffef07d          
8232         blt.b           LOGMAIN                  
8233         cmp.l           %d1,&0x3fff8841          
8234         ble.w           LOGNEAR1                 
8235                                                  
8236 LOGMAIN:                                         
8237 #--THIS SHOULD BE THE USUAL CASE, X NOT VERY     
8238                                                  
8239 #--X = 2^(K) * Y, 1 <= Y < 2. THUS, Y = 1.XXX    
8240 #--WE DEFINE F = 1.XXXXXX1, I.E. FIRST 7 BITS    
8241 #--THE IDEA IS THAT LOG(X) = K*LOG2 + LOG(Y)     
8242 #--                      = K*LOG2 + LOG(F) +     
8243 #--NOTE THAT U = (Y-F)/F IS VERY SMALL AND TH    
8244 #--LOG(1+U) CAN BE VERY EFFICIENT.               
8245 #--ALSO NOTE THAT THE VALUE 1/F IS STORED IN     
8246 #--DIVISION IS NEEDED TO CALCULATE (Y-F)/F.      
8247                                                  
8248 #--GET K, Y, F, AND ADDRESS OF 1/F.              
8249         asr.l           &8,%d1                   
8250         asr.l           &8,%d1                   
8251         sub.l           &0x3FFF,%d1              
8252         add.l           ADJK(%a6),%d1            
8253         lea             LOGTBL(%pc),%a0          
8254         fmov.l          %d1,%fp1                 
8255                                                  
8256 #--WHILE THE CONVERSION IS GOING ON, WE GET F    
8257         mov.l           &0x3FFF0000,X(%a6)       
8258         mov.l           XFRAC(%a6),FFRAC(%a6)    
8259         and.l           &0xFE000000,FFRAC(%a6    
8260         or.l            &0x01000000,FFRAC(%a6    
8261         mov.l           FFRAC(%a6),%d1  # REA    
8262         and.l           &0x7E000000,%d1          
8263         asr.l           &8,%d1                   
8264         asr.l           &8,%d1                   
8265         asr.l           &4,%d1                   
8266         add.l           %d1,%a0                  
8267                                                  
8268         fmov.x          X(%a6),%fp0              
8269         mov.l           &0x3fff0000,F(%a6)       
8270         clr.l           F+8(%a6)                 
8271         fsub.x          F(%a6),%fp0              
8272         fmovm.x         &0xc,-(%sp)              
8273 #--SUMMARY: FP0 IS Y-F, A0 IS ADDRESS OF 1/F,    
8274 #--REGISTERS SAVED: FPCR, FP1, FP2               
8275                                                  
8276 LP1CONT1:                                        
8277 #--AN RE-ENTRY POINT FOR LOGNP1                  
8278         fmul.x          (%a0),%fp0               
8279         fmul.x          LOGOF2(%pc),%fp1         
8280         fmov.x          %fp0,%fp2                
8281         fmul.x          %fp2,%fp2                
8282         fmov.x          %fp1,KLOG2(%a6)          
8283                                                  
8284 #--LOG(1+U) IS APPROXIMATED BY                   
8285 #--U + V*(A1+U*(A2+U*(A3+U*(A4+U*(A5+U*A6))))    
8286 #--[U + V*(A1+V*(A3+V*A5))]  +  [U*V*(A2+V*(A    
8287                                                  
8288         fmov.x          %fp2,%fp3                
8289         fmov.x          %fp2,%fp1                
8290                                                  
8291         fmul.d          LOGA6(%pc),%fp1          
8292         fmul.d          LOGA5(%pc),%fp2          
8293                                                  
8294         fadd.d          LOGA4(%pc),%fp1          
8295         fadd.d          LOGA3(%pc),%fp2          
8296                                                  
8297         fmul.x          %fp3,%fp1                
8298         fmul.x          %fp3,%fp2                
8299                                                  
8300         fadd.d          LOGA2(%pc),%fp1          
8301         fadd.d          LOGA1(%pc),%fp2          
8302                                                  
8303         fmul.x          %fp3,%fp1                
8304         add.l           &16,%a0                  
8305         fmul.x          %fp3,%fp2                
8306                                                  
8307         fmul.x          %fp0,%fp1                
8308         fadd.x          %fp2,%fp0                
8309                                                  
8310         fadd.x          (%a0),%fp1               
8311         fmovm.x         (%sp)+,&0x30             
8312         fadd.x          %fp1,%fp0                
8313                                                  
8314         fmov.l          %d0,%fpcr                
8315         fadd.x          KLOG2(%a6),%fp0          
8316         bra             t_inx2                   
8317                                                  
8318                                                  
8319 LOGNEAR1:                                        
8320                                                  
8321 # if the input is exactly equal to one, then     
8322 # if these 2 lines weren't here, the correct     
8323 # but the INEX2 bit would be set.                
8324         fcmp.b          %fp0,&0x1                
8325         fbeq.l          ld_pzero                 
8326                                                  
8327 #--REGISTERS SAVED: FPCR, FP1. FP0 CONTAINS T    
8328         fmov.x          %fp0,%fp1                
8329         fsub.s          one(%pc),%fp1            
8330         fadd.s          one(%pc),%fp0            
8331         fadd.x          %fp1,%fp1                
8332 #--LOG(X) = LOG(1+U/2)-LOG(1-U/2) WHICH IS AN    
8333 #--IN U, U = 2(X-1)/(X+1) = FP1/FP0              
8334                                                  
8335 LP1CONT2:                                        
8336 #--THIS IS AN RE-ENTRY POINT FOR LOGNP1          
8337         fdiv.x          %fp0,%fp1                
8338         fmovm.x         &0xc,-(%sp)              
8339 #--REGISTERS SAVED ARE NOW FPCR,FP1,FP2,FP3      
8340 #--LET V=U*U, W=V*V, CALCULATE                   
8341 #--U + U*V*(B1 + V*(B2 + V*(B3 + V*(B4 + V*B5    
8342 #--U + U*V*(  [B1 + W*(B3 + W*B5)]  +  [V*(B2    
8343         fmov.x          %fp1,%fp0                
8344         fmul.x          %fp0,%fp0                
8345         fmov.x          %fp1,SAVEU(%a6)          
8346         fmov.x          %fp0,%fp1                
8347         fmul.x          %fp1,%fp1                
8348                                                  
8349         fmov.d          LOGB5(%pc),%fp3          
8350         fmov.d          LOGB4(%pc),%fp2          
8351                                                  
8352         fmul.x          %fp1,%fp3                
8353         fmul.x          %fp1,%fp2                
8354                                                  
8355         fadd.d          LOGB3(%pc),%fp3          
8356         fadd.d          LOGB2(%pc),%fp2          
8357                                                  
8358         fmul.x          %fp3,%fp1                
8359                                                  
8360         fmul.x          %fp0,%fp2                
8361                                                  
8362         fadd.d          LOGB1(%pc),%fp1          
8363         fmul.x          SAVEU(%a6),%fp0          
8364                                                  
8365         fadd.x          %fp2,%fp1                
8366         fmovm.x         (%sp)+,&0x30             
8367                                                  
8368         fmul.x          %fp1,%fp0                
8369                                                  
8370         fmov.l          %d0,%fpcr                
8371         fadd.x          SAVEU(%a6),%fp0          
8372         bra             t_inx2                   
8373                                                  
8374 #--REGISTERS SAVED FPCR. LOG(-VE) IS INVALID     
8375 LOGNEG:                                          
8376         bra             t_operr                  
8377                                                  
8378         global          slognd                   
8379 slognd:                                          
8380 #--ENTRY POINT FOR LOG(X) FOR DENORMALIZED IN    
8381                                                  
8382         mov.l           &-100,ADJK(%a6)          
8383                                                  
8384 #----normalize the input value by left shifti    
8385 #----below), adjusting exponent and storing -    
8386 #----the value TWOTO100 is no longer needed.     
8387 #----Note that this code assumes the denormal    
8388                                                  
8389         movm.l          &0x3f00,-(%sp)           
8390         mov.l           (%a0),%d3                
8391         mov.l           4(%a0),%d4               
8392         mov.l           8(%a0),%d5               
8393         clr.l           %d2                      
8394                                                  
8395         tst.l           %d4                      
8396         bne.b           Hi_not0                  
8397                                                  
8398 Hi_0:                                            
8399         mov.l           %d5,%d4                  
8400         clr.l           %d5                      
8401         mov.l           &32,%d2                  
8402         clr.l           %d6                      
8403         bfffo           %d4{&0:&32},%d6          
8404         lsl.l           %d6,%d4                  
8405         add.l           %d6,%d2                  
8406                                                  
8407         mov.l           %d3,X(%a6)               
8408         mov.l           %d4,XFRAC(%a6)           
8409         mov.l           %d5,XFRAC+4(%a6)         
8410         neg.l           %d2                      
8411         mov.l           %d2,ADJK(%a6)            
8412         fmov.x          X(%a6),%fp0              
8413         movm.l          (%sp)+,&0xfc             
8414         lea             X(%a6),%a0               
8415         bra.w           LOGBGN                   
8416                                                  
8417 Hi_not0:                                         
8418         clr.l           %d6                      
8419         bfffo           %d4{&0:&32},%d6          
8420         mov.l           %d6,%d2                  
8421         lsl.l           %d6,%d4                  
8422         mov.l           %d5,%d7                  
8423         lsl.l           %d6,%d5                  
8424         neg.l           %d6                      
8425         add.l           &32,%d6                  
8426         lsr.l           %d6,%d7                  
8427         or.l            %d7,%d4                  
8428                                                  
8429         mov.l           %d3,X(%a6)               
8430         mov.l           %d4,XFRAC(%a6)           
8431         mov.l           %d5,XFRAC+4(%a6)         
8432         neg.l           %d2                      
8433         mov.l           %d2,ADJK(%a6)            
8434         fmov.x          X(%a6),%fp0              
8435         movm.l          (%sp)+,&0xfc             
8436         lea             X(%a6),%a0               
8437         bra.w           LOGBGN                   
8438                                                  
8439         global          slognp1                  
8440 #--ENTRY POINT FOR LOG(1+X) FOR X FINITE, NON    
8441 slognp1:                                         
8442         fmov.x          (%a0),%fp0               
8443         fabs.x          %fp0                     
8444         fcmp.x          %fp0,LTHOLD(%pc)         
8445         fbgt.w          LP1REAL                  
8446         fmov.l          %d0,%fpcr                
8447         mov.b           &FMOV_OP,%d1             
8448         fmov.x          (%a0),%fp0               
8449         bra             t_catch                  
8450                                                  
8451 LP1REAL:                                         
8452         fmov.x          (%a0),%fp0               
8453         mov.l           &0x00000000,ADJK(%a6)    
8454         fmov.x          %fp0,%fp1                
8455         fadd.s          one(%pc),%fp0            
8456         fmov.x          %fp0,X(%a6)              
8457         mov.w           XFRAC(%a6),XDCARE(%a6    
8458         mov.l           X(%a6),%d1               
8459         cmp.l           %d1,&0                   
8460         ble.w           LP1NEG0                  
8461         cmp.l           %d1,&0x3ffe8000          
8462         blt.w           LOGMAIN                  
8463         cmp.l           %d1,&0x3fffc000          
8464         bgt.w           LOGMAIN                  
8465 #--IF 1+Z > 3/2 OR 1+Z < 1/2, THEN X, WHICH I    
8466 #--CONTAINS AT LEAST 63 BITS OF INFORMATION O    
8467 #--SIMPLY INVOKE LOG(X) FOR LOG(1+Z).            
8468                                                  
8469 LP1NEAR1:                                        
8470 #--NEXT SEE IF EXP(-1/16) < X < EXP(1/16)        
8471         cmp.l           %d1,&0x3ffef07d          
8472         blt.w           LP1CARE                  
8473         cmp.l           %d1,&0x3fff8841          
8474         bgt.w           LP1CARE                  
8475                                                  
8476 LP1ONE16:                                        
8477 #--EXP(-1/16) < X < EXP(1/16). LOG(1+Z) = LOG    
8478 #--WHERE U = 2Z/(2+Z) = 2Z/(1+X).                
8479         fadd.x          %fp1,%fp1                
8480         fadd.s          one(%pc),%fp0            
8481 #--U = FP1/FP0                                   
8482         bra.w           LP1CONT2                 
8483                                                  
8484 LP1CARE:                                         
8485 #--HERE WE USE THE USUAL TABLE DRIVEN APPROAC    
8486 #--TAKEN BECAUSE 1+Z CAN HAVE 67 BITS OF INFO    
8487 #--PRESERVE ALL THE INFORMATION. BECAUSE 1+Z     
8488 #--THERE ARE ONLY TWO CASES.                     
8489 #--CASE 1: 1+Z < 1, THEN K = -1 AND Y-F = (2-    
8490 #--CASE 2: 1+Z > 1, THEN K = 0  AND Y-F = (1-    
8491 #--ON RETURNING TO LP1CONT1, WE MUST HAVE K I    
8492 #--(1/F) IN A0, Y-F IN FP0, AND FP2 SAVED.       
8493                                                  
8494         mov.l           XFRAC(%a6),FFRAC(%a6)    
8495         and.l           &0xFE000000,FFRAC(%a6    
8496         or.l            &0x01000000,FFRAC(%a6    
8497         cmp.l           %d1,&0x3FFF8000          
8498         bge.b           KISZERO                  
8499                                                  
8500 KISNEG1:                                         
8501         fmov.s          TWO(%pc),%fp0            
8502         mov.l           &0x3fff0000,F(%a6)       
8503         clr.l           F+8(%a6)                 
8504         fsub.x          F(%a6),%fp0              
8505         mov.l           FFRAC(%a6),%d1           
8506         and.l           &0x7E000000,%d1          
8507         asr.l           &8,%d1                   
8508         asr.l           &8,%d1                   
8509         asr.l           &4,%d1                   
8510         fadd.x          %fp1,%fp1                
8511         fmovm.x         &0xc,-(%sp)              
8512         fadd.x          %fp1,%fp0                
8513         lea             LOGTBL(%pc),%a0          
8514         add.l           %d1,%a0                  
8515         fmov.s          negone(%pc),%fp1         
8516         bra.w           LP1CONT1                 
8517                                                  
8518 KISZERO:                                         
8519         fmov.s          one(%pc),%fp0            
8520         mov.l           &0x3fff0000,F(%a6)       
8521         clr.l           F+8(%a6)                 
8522         fsub.x          F(%a6),%fp0              
8523         mov.l           FFRAC(%a6),%d1           
8524         and.l           &0x7E000000,%d1          
8525         asr.l           &8,%d1                   
8526         asr.l           &8,%d1                   
8527         asr.l           &4,%d1                   
8528         fadd.x          %fp1,%fp0                
8529         fmovm.x         &0xc,-(%sp)              
8530         lea             LOGTBL(%pc),%a0          
8531         add.l           %d1,%a0                  
8532         fmov.s          zero(%pc),%fp1           
8533         bra.w           LP1CONT1                 
8534                                                  
8535 LP1NEG0:                                         
8536 #--FPCR SAVED. D0 IS X IN COMPACT FORM.          
8537         cmp.l           %d1,&0                   
8538         blt.b           LP1NEG                   
8539 LP1ZERO:                                         
8540         fmov.s          negone(%pc),%fp0         
8541                                                  
8542         fmov.l          %d0,%fpcr                
8543         bra             t_dz                     
8544                                                  
8545 LP1NEG:                                          
8546         fmov.s          zero(%pc),%fp0           
8547                                                  
8548         fmov.l          %d0,%fpcr                
8549         bra             t_operr                  
8550                                                  
8551         global          slognp1d                 
8552 #--ENTRY POINT FOR LOG(1+Z) FOR DENORMALIZED     
8553 # Simply return the denorm                       
8554 slognp1d:                                        
8555         bra             t_extdnrm                
8556                                                  
8557 #############################################    
8558 # satanh():  computes the inverse hyperbolic     
8559 # satanhd(): computes the inverse hyperbolic     
8560 #                                                
8561 # INPUT *************************************    
8562 #       a0 = pointer to extended precision in    
8563 #       d0 = round precision,mode                
8564 #                                                
8565 # OUTPUT ************************************    
8566 #       fp0 = arctanh(X)                         
8567 #                                                
8568 # ACCURACY and MONOTONICITY *****************    
8569 #       The returned result is within 3 ulps     
8570 #       i.e. within 0.5001 ulp to 53 bits if     
8571 #       rounded to double precision. The resu    
8572 #       in double precision.                     
8573 #                                                
8574 # ALGORITHM *********************************    
8575 #                                                
8576 #       ATANH                                    
8577 #       1. If |X| >= 1, go to 3.                 
8578 #                                                
8579 #       2. (|X| < 1) Calculate atanh(X) by       
8580 #               sgn := sign(X)                   
8581 #               y := |X|                         
8582 #               z := 2y/(1-y)                    
8583 #               atanh(X) := sgn * (1/2) * log    
8584 #               Exit.                            
8585 #                                                
8586 #       3. If |X| > 1, go to 5.                  
8587 #                                                
8588 #       4. (|X| = 1) Generate infinity with a    
8589 #               divide-by-zero by                
8590 #               sgn := sign(X)                   
8591 #               atan(X) := sgn / (+0).           
8592 #               Exit.                            
8593 #                                                
8594 #       5. (|X| > 1) Generate an invalid oper    
8595 #               Exit.                            
8596 #                                                
8597 #############################################    
8598                                                  
8599         global          satanh                   
8600 satanh:                                          
8601         mov.l           (%a0),%d1                
8602         mov.w           4(%a0),%d1               
8603         and.l           &0x7FFFFFFF,%d1          
8604         cmp.l           %d1,&0x3FFF8000          
8605         bge.b           ATANHBIG                 
8606                                                  
8607 #--THIS IS THE USUAL CASE, |X| < 1               
8608 #--Y = |X|, Z = 2Y/(1-Y), ATANH(X) = SIGN(X)     
8609                                                  
8610         fabs.x          (%a0),%fp0               
8611         fmov.x          %fp0,%fp1                
8612         fneg.x          %fp1                     
8613         fadd.x          %fp0,%fp0                
8614         fadd.s          &0x3F800000,%fp1         
8615         fdiv.x          %fp1,%fp0                
8616         mov.l           (%a0),%d1                
8617         and.l           &0x80000000,%d1          
8618         or.l            &0x3F000000,%d1          
8619         mov.l           %d1,-(%sp)               
8620                                                  
8621         mov.l           %d0,-(%sp)               
8622         clr.l           %d0                      
8623         fmovm.x         &0x01,-(%sp)             
8624         lea             (%sp),%a0                
8625         bsr             slognp1                  
8626         add.l           &0xc,%sp                 
8627                                                  
8628         mov.l           (%sp)+,%d0               
8629         fmov.l          %d0,%fpcr                
8630         mov.b           &FMUL_OP,%d1             
8631         fmul.s          (%sp)+,%fp0              
8632         bra             t_catch                  
8633                                                  
8634 ATANHBIG:                                        
8635         fabs.x          (%a0),%fp0               
8636         fcmp.s          %fp0,&0x3F800000         
8637         fbgt            t_operr                  
8638         bra             t_dz                     
8639                                                  
8640         global          satanhd                  
8641 #--ATANH(X) = X FOR DENORMALIZED X               
8642 satanhd:                                         
8643         bra             t_extdnrm                
8644                                                  
8645 #############################################    
8646 # slog10():  computes the base-10 logarithm o    
8647 # slog10d(): computes the base-10 logarithm o    
8648 # slog2():   computes the base-2 logarithm of    
8649 # slog2d():  computes the base-2 logarithm of    
8650 #                                                
8651 # INPUT *************************************    
8652 #       a0 = pointer to extended precision in    
8653 #       d0 = round precision,mode                
8654 #                                                
8655 # OUTPUT ************************************    
8656 #       fp0 = log_10(X) or log_2(X)              
8657 #                                                
8658 # ACCURACY and MONOTONICITY *****************    
8659 #       The returned result is within 1.7 ulp    
8660 #       i.e. within 0.5003 ulp to 53 bits if     
8661 #       rounded to double precision. The resu    
8662 #       in double precision.                     
8663 #                                                
8664 # ALGORITHM *********************************    
8665 #                                                
8666 #       slog10d:                                 
8667 #                                                
8668 #       Step 0. If X < 0, create a NaN and ra    
8669 #               flag. Otherwise, save FPCR in    
8670 #       Notes:  Default means round-to-neares    
8671 #               traps, and precision control     
8672 #                                                
8673 #       Step 1. Call slognd to obtain Y = log    
8674 #       Notes:  Even if X is denormalized, lo    
8675 #                                                
8676 #       Step 2.  Compute log_10(X) = log(X) *    
8677 #            2.1 Restore the user FPCR           
8678 #            2.2 Return ans := Y * INV_L10.      
8679 #                                                
8680 #       slog10:                                  
8681 #                                                
8682 #       Step 0. If X < 0, create a NaN and ra    
8683 #               flag. Otherwise, save FPCR in    
8684 #       Notes:  Default means round-to-neares    
8685 #               traps, and precision control     
8686 #                                                
8687 #       Step 1. Call sLogN to obtain Y = log(    
8688 #                                                
8689 #       Step 2.   Compute log_10(X) = log(X)     
8690 #            2.1  Restore the user FPCR          
8691 #            2.2  Return ans := Y * INV_L10.     
8692 #                                                
8693 #       sLog2d:                                  
8694 #                                                
8695 #       Step 0. If X < 0, create a NaN and ra    
8696 #               flag. Otherwise, save FPCR in    
8697 #       Notes:  Default means round-to-neares    
8698 #               traps, and precision control     
8699 #                                                
8700 #       Step 1. Call slognd to obtain Y = log    
8701 #       Notes:  Even if X is denormalized, lo    
8702 #                                                
8703 #       Step 2.   Compute log_10(X) = log(X)     
8704 #            2.1  Restore the user FPCR          
8705 #            2.2  Return ans := Y * INV_L2.      
8706 #                                                
8707 #       sLog2:                                   
8708 #                                                
8709 #       Step 0. If X < 0, create a NaN and ra    
8710 #               flag. Otherwise, save FPCR in    
8711 #       Notes:  Default means round-to-neares    
8712 #               traps, and precision control     
8713 #                                                
8714 #       Step 1. If X is not an integer power     
8715 #               go to Step 3.                    
8716 #                                                
8717 #       Step 2.   Return k.                      
8718 #            2.1  Get integer k, X = 2^k.        
8719 #            2.2  Restore the user FPCR.         
8720 #            2.3  Return ans := convert-to-do    
8721 #                                                
8722 #       Step 3. Call sLogN to obtain Y = log(    
8723 #                                                
8724 #       Step 4.   Compute log_2(X) = log(X) *    
8725 #            4.1  Restore the user FPCR          
8726 #            4.2  Return ans := Y * INV_L2.      
8727 #                                                
8728 #############################################    
8729                                                  
8730 INV_L10:                                         
8731         long            0x3FFD0000,0xDE5BD8A9    
8732                                                  
8733 INV_L2:                                          
8734         long            0x3FFF0000,0xB8AA3B29    
8735                                                  
8736         global          slog10                   
8737 #--entry point for Log10(X), X is normalized     
8738 slog10:                                          
8739         fmov.b          &0x1,%fp0                
8740         fcmp.x          %fp0,(%a0)               
8741         fbeq.l          ld_pzero                 
8742                                                  
8743         mov.l           (%a0),%d1                
8744         blt.w           invalid                  
8745         mov.l           %d0,-(%sp)               
8746         clr.l           %d0                      
8747         bsr             slogn                    
8748         fmov.l          (%sp)+,%fpcr             
8749         fmul.x          INV_L10(%pc),%fp0        
8750         bra             t_inx2                   
8751                                                  
8752         global          slog10d                  
8753 #--entry point for Log10(X), X is denormalize    
8754 slog10d:                                         
8755         mov.l           (%a0),%d1                
8756         blt.w           invalid                  
8757         mov.l           %d0,-(%sp)               
8758         clr.l           %d0                      
8759         bsr             slognd                   
8760         fmov.l          (%sp)+,%fpcr             
8761         fmul.x          INV_L10(%pc),%fp0        
8762         bra             t_minx2                  
8763                                                  
8764         global          slog2                    
8765 #--entry point for Log2(X), X is normalized      
8766 slog2:                                           
8767         mov.l           (%a0),%d1                
8768         blt.w           invalid                  
8769                                                  
8770         mov.l           8(%a0),%d1               
8771         bne.b           continue                 
8772                                                  
8773         mov.l           4(%a0),%d1               
8774         and.l           &0x7FFFFFFF,%d1          
8775         bne.b           continue                 
8776                                                  
8777 #--X = 2^k.                                      
8778         mov.w           (%a0),%d1                
8779         and.l           &0x00007FFF,%d1          
8780         sub.l           &0x3FFF,%d1              
8781         beq.l           ld_pzero                 
8782         fmov.l          %d0,%fpcr                
8783         fmov.l          %d1,%fp0                 
8784         bra             t_inx2                   
8785                                                  
8786 continue:                                        
8787         mov.l           %d0,-(%sp)               
8788         clr.l           %d0                      
8789         bsr             slogn                    
8790         fmov.l          (%sp)+,%fpcr             
8791         fmul.x          INV_L2(%pc),%fp0         
8792         bra             t_inx2                   
8793                                                  
8794 invalid:                                         
8795         bra             t_operr                  
8796                                                  
8797         global          slog2d                   
8798 #--entry point for Log2(X), X is denormalized    
8799 slog2d:                                          
8800         mov.l           (%a0),%d1                
8801         blt.w           invalid                  
8802         mov.l           %d0,-(%sp)               
8803         clr.l           %d0                      
8804         bsr             slognd                   
8805         fmov.l          (%sp)+,%fpcr             
8806         fmul.x          INV_L2(%pc),%fp0         
8807         bra             t_minx2                  
8808                                                  
8809 #############################################    
8810 # stwotox():  computes 2**X for a normalized     
8811 # stwotoxd(): computes 2**X for a denormalize    
8812 # stentox():  computes 10**X for a normalized    
8813 # stentoxd(): computes 10**X for a denormaliz    
8814 #                                                
8815 # INPUT *************************************    
8816 #       a0 = pointer to extended precision in    
8817 #       d0 = round precision,mode                
8818 #                                                
8819 # OUTPUT ************************************    
8820 #       fp0 = 2**X or 10**X                      
8821 #                                                
8822 # ACCURACY and MONOTONICITY *****************    
8823 #       The returned result is within 2 ulps     
8824 #       i.e. within 0.5001 ulp to 53 bits if     
8825 #       rounded to double precision. The resu    
8826 #       in double precision.                     
8827 #                                                
8828 # ALGORITHM *********************************    
8829 #                                                
8830 #       twotox                                   
8831 #       1. If |X| > 16480, go to ExpBig.         
8832 #                                                
8833 #       2. If |X| < 2**(-70), go to ExpSm.       
8834 #                                                
8835 #       3. Decompose X as X = N/64 + r where     
8836 #               decompose N as                   
8837 #                N = 64(M + M') + j,  j = 0,1    
8838 #                                                
8839 #       4. Overwrite r := r * log2. Then         
8840 #               2**X = 2**(M') * 2**(M) * 2**    
8841 #               Go to expr to compute that ex    
8842 #                                                
8843 #       tentox                                   
8844 #       1. If |X| > 16480*log_10(2) (base 10     
8845 #                                                
8846 #       2. If |X| < 2**(-70), go to ExpSm.       
8847 #                                                
8848 #       3. Set y := X*log_2(10)*64 (base 2 lo    
8849 #               N := round-to-int(y). Decompo    
8850 #                N = 64(M + M') + j,  j = 0,1    
8851 #                                                
8852 #       4. Define r as                           
8853 #               r := ((X - N*L1)-N*L2) * L10     
8854 #               where L1, L2 are the leading     
8855 #               log_10(2)/64 and L10 is the n    
8856 #               10**X = 2**(M') * 2**(M) * 2*    
8857 #               Go to expr to compute that ex    
8858 #                                                
8859 #       expr                                     
8860 #       1. Fetch 2**(j/64) from table as Fact    
8861 #                                                
8862 #       2. Overwrite Fact1 and Fact2 by          
8863 #               Fact1 := 2**(M) * Fact1          
8864 #               Fact2 := 2**(M) * Fact2          
8865 #               Thus Fact1 + Fact2 = 2**(M) *    
8866 #                                                
8867 #       3. Calculate P where 1 + P approximat    
8868 #               P = r + r*r*(A1+r*(A2+...+r*A    
8869 #                                                
8870 #       4. Let AdjFact := 2**(M'). Return        
8871 #               AdjFact * ( Fact1 + ((Fact1*P    
8872 #               Exit.                            
8873 #                                                
8874 #       ExpBig                                   
8875 #       1. Generate overflow by Huge * Huge i    
8876 #               generate underflow by Tiny *     
8877 #                                                
8878 #       ExpSm                                    
8879 #       1. Return 1 + X.                         
8880 #                                                
8881 #############################################    
8882                                                  
8883 L2TEN64:                                         
8884         long            0x406A934F,0x0979A371    
8885 L10TWO1:                                         
8886         long            0x3F734413,0x509F8000    
8887                                                  
8888 L10TWO2:                                         
8889         long            0xBFCD0000,0xC0219DC1    
8890                                                  
8891 LOG10:  long            0x40000000,0x935D8DDD    
8892                                                  
8893 LOG2:   long            0x3FFE0000,0xB17217F7    
8894                                                  
8895 EXPA5:  long            0x3F56C16D,0x6F7BD0B2    
8896 EXPA4:  long            0x3F811112,0x302C712C    
8897 EXPA3:  long            0x3FA55555,0x55554CC1    
8898 EXPA2:  long            0x3FC55555,0x55554A54    
8899 EXPA1:  long            0x3FE00000,0x00000000    
8900                                                  
8901 TEXPTBL:                                         
8902         long            0x3FFF0000,0x80000000    
8903         long            0x3FFF0000,0x8164D1F3    
8904         long            0x3FFF0000,0x82CD8698    
8905         long            0x3FFF0000,0x843A28C3    
8906         long            0x3FFF0000,0x85AAC367    
8907         long            0x3FFF0000,0x871F6196    
8908         long            0x3FFF0000,0x88980E80    
8909         long            0x3FFF0000,0x8A14D575    
8910         long            0x3FFF0000,0x8B95C1E3    
8911         long            0x3FFF0000,0x8D1ADF5B    
8912         long            0x3FFF0000,0x8EA4398B    
8913         long            0x3FFF0000,0x9031DC43    
8914         long            0x3FFF0000,0x91C3D373    
8915         long            0x3FFF0000,0x935A2B2F    
8916         long            0x3FFF0000,0x94F4EFA8    
8917         long            0x3FFF0000,0x96942D37    
8918         long            0x3FFF0000,0x9837F051    
8919         long            0x3FFF0000,0x99E04593    
8920         long            0x3FFF0000,0x9B8D39B9    
8921         long            0x3FFF0000,0x9D3ED9A7    
8922         long            0x3FFF0000,0x9EF53260    
8923         long            0x3FFF0000,0xA0B0510F    
8924         long            0x3FFF0000,0xA2704303    
8925         long            0x3FFF0000,0xA43515AE    
8926         long            0x3FFF0000,0xA5FED6A9    
8927         long            0x3FFF0000,0xA7CD93B4    
8928         long            0x3FFF0000,0xA9A15AB4    
8929         long            0x3FFF0000,0xAB7A39B5    
8930         long            0x3FFF0000,0xAD583EEA    
8931         long            0x3FFF0000,0xAF3B78AD    
8932         long            0x3FFF0000,0xB123F581    
8933         long            0x3FFF0000,0xB311C412    
8934         long            0x3FFF0000,0xB504F333    
8935         long            0x3FFF0000,0xB6FD91E3    
8936         long            0x3FFF0000,0xB8FBAF47    
8937         long            0x3FFF0000,0xBAFF5AB2    
8938         long            0x3FFF0000,0xBD08A39F    
8939         long            0x3FFF0000,0xBF1799B6    
8940         long            0x3FFF0000,0xC12C4CCA    
8941         long            0x3FFF0000,0xC346CCDA    
8942         long            0x3FFF0000,0xC5672A11    
8943         long            0x3FFF0000,0xC78D74C8    
8944         long            0x3FFF0000,0xC9B9BD86    
8945         long            0x3FFF0000,0xCBEC14FE    
8946         long            0x3FFF0000,0xCE248C15    
8947         long            0x3FFF0000,0xD06333DA    
8948         long            0x3FFF0000,0xD2A81D91    
8949         long            0x3FFF0000,0xD4F35AAB    
8950         long            0x3FFF0000,0xD744FCCA    
8951         long            0x3FFF0000,0xD99D15C2    
8952         long            0x3FFF0000,0xDBFBB797    
8953         long            0x3FFF0000,0xDE60F482    
8954         long            0x3FFF0000,0xE0CCDEEC    
8955         long            0x3FFF0000,0xE33F8972    
8956         long            0x3FFF0000,0xE5B906E7    
8957         long            0x3FFF0000,0xE8396A50    
8958         long            0x3FFF0000,0xEAC0C6E7    
8959         long            0x3FFF0000,0xED4F301E    
8960         long            0x3FFF0000,0xEFE4B99B    
8961         long            0x3FFF0000,0xF281773C    
8962         long            0x3FFF0000,0xF5257D15    
8963         long            0x3FFF0000,0xF7D0DF73    
8964         long            0x3FFF0000,0xFA83B2DB    
8965         long            0x3FFF0000,0xFD3E0C0C    
8966                                                  
8967         set             INT,L_SCR1               
8968                                                  
8969         set             X,FP_SCR0                
8970         set             XDCARE,X+2               
8971         set             XFRAC,X+4                
8972                                                  
8973         set             ADJFACT,FP_SCR0          
8974                                                  
8975         set             FACT1,FP_SCR0            
8976         set             FACT1HI,FACT1+4          
8977         set             FACT1LOW,FACT1+8         
8978                                                  
8979         set             FACT2,FP_SCR1            
8980         set             FACT2HI,FACT2+4          
8981         set             FACT2LOW,FACT2+8         
8982                                                  
8983         global          stwotox                  
8984 #--ENTRY POINT FOR 2**(X), HERE X IS FINITE,     
8985 stwotox:                                         
8986         fmovm.x         (%a0),&0x80              
8987                                                  
8988         mov.l           (%a0),%d1                
8989         mov.w           4(%a0),%d1               
8990         fmov.x          %fp0,X(%a6)              
8991         and.l           &0x7FFFFFFF,%d1          
8992                                                  
8993         cmp.l           %d1,&0x3FB98000          
8994         bge.b           TWOOK1                   
8995         bra.w           EXPBORS                  
8996                                                  
8997 TWOOK1:                                          
8998         cmp.l           %d1,&0x400D80C0          
8999         ble.b           TWOMAIN                  
9000         bra.w           EXPBORS                  
9001                                                  
9002 TWOMAIN:                                         
9003 #--USUAL CASE, 2^(-70) <= |X| <= 16480           
9004                                                  
9005         fmov.x          %fp0,%fp1                
9006         fmul.s          &0x42800000,%fp1         
9007         fmov.l          %fp1,INT(%a6)            
9008         mov.l           %d2,-(%sp)               
9009         lea             TEXPTBL(%pc),%a1         
9010         fmov.l          INT(%a6),%fp1            
9011         mov.l           INT(%a6),%d1             
9012         mov.l           %d1,%d2                  
9013         and.l           &0x3F,%d1                
9014         asl.l           &4,%d1                   
9015         add.l           %d1,%a1                  
9016         asr.l           &6,%d2                   
9017         mov.l           %d2,%d1                  
9018         asr.l           &1,%d1                   
9019         sub.l           %d1,%d2                  
9020         add.l           &0x3FFF,%d2              
9021                                                  
9022 #--SUMMARY: a1 IS ADDRESS FOR THE LEADING POR    
9023 #--D0 IS M WHERE N = 64(M+M') + J. NOTE THAT     
9024 #--ADJFACT = 2^(M').                             
9025 #--REGISTERS SAVED SO FAR ARE (IN ORDER) FPCR    
9026                                                  
9027         fmovm.x         &0x0c,-(%sp)             
9028                                                  
9029         fmul.s          &0x3C800000,%fp1         
9030         mov.l           (%a1)+,FACT1(%a6)        
9031         mov.l           (%a1)+,FACT1HI(%a6)      
9032         mov.l           (%a1)+,FACT1LOW(%a6)     
9033         mov.w           (%a1)+,FACT2(%a6)        
9034                                                  
9035         fsub.x          %fp1,%fp0                
9036                                                  
9037         mov.w           (%a1)+,FACT2HI(%a6)      
9038         clr.w           FACT2HI+2(%a6)           
9039         clr.l           FACT2LOW(%a6)            
9040         add.w           %d1,FACT1(%a6)           
9041         fmul.x          LOG2(%pc),%fp0           
9042         add.w           %d1,FACT2(%a6)           
9043                                                  
9044         bra.w           expr                     
9045                                                  
9046 EXPBORS:                                         
9047 #--FPCR, D0 SAVED                                
9048         cmp.l           %d1,&0x3FFF8000          
9049         bgt.b           TEXPBIG                  
9050                                                  
9051 #--|X| IS SMALL, RETURN 1 + X                    
9052                                                  
9053         fmov.l          %d0,%fpcr                
9054         fadd.s          &0x3F800000,%fp0         
9055         bra             t_pinx2                  
9056                                                  
9057 TEXPBIG:                                         
9058 #--|X| IS LARGE, GENERATE OVERFLOW IF X > 0;     
9059 #--REGISTERS SAVE SO FAR ARE FPCR AND  D0        
9060         mov.l           X(%a6),%d1               
9061         cmp.l           %d1,&0                   
9062         blt.b           EXPNEG                   
9063                                                  
9064         bra             t_ovfl2                  
9065                                                  
9066 EXPNEG:                                          
9067         bra             t_unfl2                  
9068                                                  
9069         global          stwotoxd                 
9070 stwotoxd:                                        
9071 #--ENTRY POINT FOR 2**(X) FOR DENORMALIZED AR    
9072                                                  
9073         fmov.l          %d0,%fpcr                
9074         fmov.s          &0x3F800000,%fp0         
9075         mov.l           (%a0),%d1                
9076         or.l            &0x00800001,%d1          
9077         fadd.s          %d1,%fp0                 
9078         bra             t_pinx2                  
9079                                                  
9080         global          stentox                  
9081 #--ENTRY POINT FOR 10**(X), HERE X IS FINITE,    
9082 stentox:                                         
9083         fmovm.x         (%a0),&0x80              
9084                                                  
9085         mov.l           (%a0),%d1                
9086         mov.w           4(%a0),%d1               
9087         fmov.x          %fp0,X(%a6)              
9088         and.l           &0x7FFFFFFF,%d1          
9089                                                  
9090         cmp.l           %d1,&0x3FB98000          
9091         bge.b           TENOK1                   
9092         bra.w           EXPBORS                  
9093                                                  
9094 TENOK1:                                          
9095         cmp.l           %d1,&0x400B9B07          
9096         ble.b           TENMAIN                  
9097         bra.w           EXPBORS                  
9098                                                  
9099 TENMAIN:                                         
9100 #--USUAL CASE, 2^(-70) <= |X| <= 16480 LOG 2     
9101                                                  
9102         fmov.x          %fp0,%fp1                
9103         fmul.d          L2TEN64(%pc),%fp1        
9104         fmov.l          %fp1,INT(%a6)            
9105         mov.l           %d2,-(%sp)               
9106         lea             TEXPTBL(%pc),%a1         
9107         fmov.l          INT(%a6),%fp1            
9108         mov.l           INT(%a6),%d1             
9109         mov.l           %d1,%d2                  
9110         and.l           &0x3F,%d1                
9111         asl.l           &4,%d1                   
9112         add.l           %d1,%a1                  
9113         asr.l           &6,%d2                   
9114         mov.l           %d2,%d1                  
9115         asr.l           &1,%d1                   
9116         sub.l           %d1,%d2                  
9117         add.l           &0x3FFF,%d2              
9118                                                  
9119 #--SUMMARY: a1 IS ADDRESS FOR THE LEADING POR    
9120 #--D0 IS M WHERE N = 64(M+M') + J. NOTE THAT     
9121 #--ADJFACT = 2^(M').                             
9122 #--REGISTERS SAVED SO FAR ARE (IN ORDER) FPCR    
9123         fmovm.x         &0x0c,-(%sp)             
9124                                                  
9125         fmov.x          %fp1,%fp2                
9126                                                  
9127         fmul.d          L10TWO1(%pc),%fp1        
9128         mov.l           (%a1)+,FACT1(%a6)        
9129                                                  
9130         fmul.x          L10TWO2(%pc),%fp2        
9131                                                  
9132         mov.l           (%a1)+,FACT1HI(%a6)      
9133         mov.l           (%a1)+,FACT1LOW(%a6)     
9134         fsub.x          %fp1,%fp0                
9135         mov.w           (%a1)+,FACT2(%a6)        
9136                                                  
9137         fsub.x          %fp2,%fp0                
9138                                                  
9139         mov.w           (%a1)+,FACT2HI(%a6)      
9140         clr.w           FACT2HI+2(%a6)           
9141         clr.l           FACT2LOW(%a6)            
9142                                                  
9143         fmul.x          LOG10(%pc),%fp0          
9144         add.w           %d1,FACT1(%a6)           
9145         add.w           %d1,FACT2(%a6)           
9146                                                  
9147 expr:                                            
9148 #--FPCR, FP2, FP3 ARE SAVED IN ORDER AS SHOWN    
9149 #--ADJFACT CONTAINS 2**(M'), FACT1 + FACT2 =     
9150 #--FP0 IS R. THE FOLLOWING CODE COMPUTES         
9151 #--     2**(M'+M) * 2**(J/64) * EXP(R)           
9152                                                  
9153         fmov.x          %fp0,%fp1                
9154         fmul.x          %fp1,%fp1                
9155                                                  
9156         fmov.d          EXPA5(%pc),%fp2          
9157         fmov.d          EXPA4(%pc),%fp3          
9158                                                  
9159         fmul.x          %fp1,%fp2                
9160         fmul.x          %fp1,%fp3                
9161                                                  
9162         fadd.d          EXPA3(%pc),%fp2          
9163         fadd.d          EXPA2(%pc),%fp3          
9164                                                  
9165         fmul.x          %fp1,%fp2                
9166         fmul.x          %fp1,%fp3                
9167                                                  
9168         fadd.d          EXPA1(%pc),%fp2          
9169         fmul.x          %fp0,%fp3                
9170                                                  
9171         fmul.x          %fp1,%fp2                
9172         fadd.x          %fp3,%fp0                
9173         fadd.x          %fp2,%fp0                
9174                                                  
9175         fmovm.x         (%sp)+,&0x30             
9176                                                  
9177 #--FINAL RECONSTRUCTION PROCESS                  
9178 #--EXP(X) = 2^M*2^(J/64) + 2^M*2^(J/64)*(EXP(    
9179                                                  
9180         fmul.x          FACT1(%a6),%fp0          
9181         fadd.x          FACT2(%a6),%fp0          
9182         fadd.x          FACT1(%a6),%fp0          
9183                                                  
9184         fmov.l          %d0,%fpcr                
9185         mov.w           %d2,ADJFACT(%a6)         
9186         mov.l           (%sp)+,%d2               
9187         mov.l           &0x80000000,ADJFACT+4    
9188         clr.l           ADJFACT+8(%a6)           
9189         mov.b           &FMUL_OP,%d1             
9190         fmul.x          ADJFACT(%a6),%fp0        
9191         bra             t_catch                  
9192                                                  
9193         global          stentoxd                 
9194 stentoxd:                                        
9195 #--ENTRY POINT FOR 10**(X) FOR DENORMALIZED A    
9196                                                  
9197         fmov.l          %d0,%fpcr                
9198         fmov.s          &0x3F800000,%fp0         
9199         mov.l           (%a0),%d1                
9200         or.l            &0x00800001,%d1          
9201         fadd.s          %d1,%fp0                 
9202         bra             t_pinx2                  
9203                                                  
9204 #############################################    
9205 # sscale(): computes the destination operand     
9206 #           operand. If the absoulute value o    
9207 #           >= 2^14, an overflow or underflow    
9208 #                                                
9209 # INPUT *************************************    
9210 #       a0  = pointer to double-extended sour    
9211 #       a1  = pointer to double-extended dest    
9212 #                                                
9213 # OUTPUT ************************************    
9214 #       fp0 =  scale(X,Y)                        
9215 #                                                
9216 #############################################    
9217                                                  
9218 set     SIGN,           L_SCR1                   
9219                                                  
9220         global          sscale                   
9221 sscale:                                          
9222         mov.l           %d0,-(%sp)               
9223                                                  
9224         mov.w           DST_EX(%a1),%d1          
9225         smi.b           SIGN(%a6)                
9226         andi.l          &0x00007fff,%d1          
9227                                                  
9228         mov.w           SRC_EX(%a0),%d0          
9229         andi.w          &0x7fff,%d0              
9230         cmpi.w          %d0,&0x3fff              
9231         blt.w           src_small                
9232         cmpi.w          %d0,&0x400c              
9233         bgt.w           src_out                  
9234                                                  
9235 #                                                
9236 # Source is within 2^14 range.                   
9237 #                                                
9238 src_ok:                                          
9239         fintrz.x        SRC(%a0),%fp0            
9240         fmov.l          %fp0,%d0                 
9241 # don't want any accrued bits from the fintrz    
9242 # we may need to read the fpsr for the last f    
9243         fmov.l          &0x0,%fpsr               
9244                                                  
9245         tst.b           DST_HI(%a1)              
9246         bmi.b           sok_norm                 
9247                                                  
9248 # the dst is a DENORM. normalize the DENORM a    
9249 # the src value. then, jump to the norm part     
9250 sok_dnrm:                                        
9251         mov.l           %d0,-(%sp)               
9252                                                  
9253         mov.w           DST_EX(%a1),FP_SCR0_E    
9254         mov.l           DST_HI(%a1),FP_SCR0_H    
9255         mov.l           DST_LO(%a1),FP_SCR0_L    
9256                                                  
9257         lea             FP_SCR0(%a6),%a0         
9258         bsr.l           norm                     
9259         neg.l           %d0                      
9260         add.l           (%sp)+,%d0               
9261                                                  
9262         fmovm.x         FP_SCR0(%a6),&0x80       
9263                                                  
9264         cmpi.w          %d0,&-0x3fff             
9265         bge.b           sok_norm2                
9266                                                  
9267 # the multiply factor that we're trying to cr    
9268 # for the multiply to work. therefore, we're     
9269 # multiply with a denorm which will cause an     
9270 # exception to be put into the machine which     
9271 # later. we don't do this with the DENORMs ab    
9272 # is slower. but, don't fret, I don't see it     
9273         fmov.l          (%sp)+,%fpcr             
9274         mov.l           &0x80000000,%d1          
9275         subi.l          &-0x3fff,%d0             
9276         neg.l           %d0                      
9277         cmpi.b          %d0,&0x20                
9278         bge.b           sok_dnrm_32              
9279         lsr.l           %d0,%d1                  
9280         clr.l           -(%sp)                   
9281         mov.l           %d1,-(%sp)               
9282         clr.l           -(%sp)                   
9283         bra.b           sok_norm_cont            
9284 sok_dnrm_32:                                     
9285         subi.b          &0x20,%d0                
9286         lsr.l           %d0,%d1                  
9287         mov.l           %d1,-(%sp)               
9288         clr.l           -(%sp)                   
9289         clr.l           -(%sp)                   
9290         bra.b           sok_norm_cont            
9291                                                  
9292 # the src will force the dst to a DENORM valu    
9293 # create an fp multiply that will create the     
9294 sok_norm:                                        
9295         fmovm.x         DST(%a1),&0x80           
9296 sok_norm2:                                       
9297         fmov.l          (%sp)+,%fpcr             
9298                                                  
9299         addi.w          &0x3fff,%d0              
9300         swap            %d0                      
9301         clr.l           -(%sp)                   
9302         mov.l           &0x80000000,-(%sp)       
9303         mov.l           %d0,-(%sp)               
9304                                                  
9305 sok_norm_cont:                                   
9306         fmov.l          %fpcr,%d0                
9307         mov.b           &FMUL_OP,%d1             
9308         fmul.x          (%sp)+,%fp0              
9309         bra             t_catch2                 
9310                                                  
9311 #                                                
9312 # Source is outside of 2^14 range.  Test the     
9313 # to the appropriate exception handler.          
9314 #                                                
9315 src_out:                                         
9316         mov.l           (%sp)+,%d0               
9317         exg             %a0,%a1                  
9318         tst.b           SRC_EX(%a1)              
9319         bmi             t_unfl                   
9320         bra             t_ovfl_sc                
9321                                                  
9322 #                                                
9323 # The source input is below 1, so we check fo    
9324 # and set unfl.                                  
9325 #                                                
9326 src_small:                                       
9327         tst.b           DST_HI(%a1)              
9328         bpl.b           ssmall_done              
9329                                                  
9330         mov.l           (%sp)+,%d0               
9331         fmov.l          %d0,%fpcr                
9332         mov.b           &FMOV_OP,%d1             
9333         fmov.x          DST(%a1),%fp0            
9334         bra             t_catch2                 
9335 ssmall_done:                                     
9336         mov.l           (%sp)+,%d0               
9337         mov.l           %a1,%a0                  
9338         bra             t_resdnrm                
9339                                                  
9340 #############################################    
9341 # smod(): computes the fp MOD of the input va    
9342 # srem(): computes the fp (IEEE) REM of the i    
9343 #                                                
9344 # INPUT *************************************    
9345 #       a0 = pointer to extended precision in    
9346 #       a1 = pointer to extended precision in    
9347 #       d0 = round precision,mode                
9348 #                                                
9349 #       The input operands X and Y can be eit    
9350 #       denormalized.                            
9351 #                                                
9352 # OUTPUT ************************************    
9353 #      fp0 = FREM(X,Y) or FMOD(X,Y)              
9354 #                                                
9355 # ALGORITHM *********************************    
9356 #                                                
9357 #       Step 1.  Save and strip signs of X an    
9358 #                signY := sign(Y), X := |X|,     
9359 #                signQ := signX EOR signY. Re    
9360 #                is requested.                   
9361 #                                                
9362 #       Step 2.  Set L := expo(X)-expo(Y), k     
9363 #                If (L < 0) then                 
9364 #                   R := X, go to Step 4.        
9365 #                else                            
9366 #                   R := 2^(-L)X, j := L.        
9367 #                endif                           
9368 #                                                
9369 #       Step 3.  Perform MOD(X,Y)                
9370 #            3.1 If R = Y, go to Step 9.         
9371 #            3.2 If R > Y, then { R := R - Y,    
9372 #            3.3 If j = 0, go to Step 4.         
9373 #            3.4 k := k + 1, j := j - 1, Q :=    
9374 #                Step 3.1.                       
9375 #                                                
9376 #       Step 4.  At this point, R = X - QY =     
9377 #                Last_Subtract := false (used    
9378 #                MOD is requested, go to Step    
9379 #                                                
9380 #       Step 5.  R = MOD(X,Y), but REM(X,Y) i    
9381 #            5.1 If R < Y/2, then R = MOD(X,Y    
9382 #                Step 6.                         
9383 #            5.2 If R > Y/2, then { set Last_    
9384 #                Q := Q + 1, Y := signY*Y }.     
9385 #            5.3 This is the tricky case of R    
9386 #                then { Q := Q + 1, signX :=     
9387 #                                                
9388 #       Step 6.  R := signX*R.                   
9389 #                                                
9390 #       Step 7.  If Last_Subtract = true, R :    
9391 #                                                
9392 #       Step 8.  Return signQ, last 7 bits of    
9393 #                                                
9394 #       Step 9.  At this point, R = 2^(-j)*X     
9395 #                X = 2^(j)*(Q+1)Y. set Q := 2    
9396 #                R := 0. Return signQ, last 7    
9397 #                                                
9398 #############################################    
9399                                                  
9400         set             Mod_Flag,L_SCR3          
9401         set             Sc_Flag,L_SCR3+1         
9402                                                  
9403         set             SignY,L_SCR2             
9404         set             SignX,L_SCR2+2           
9405         set             SignQ,L_SCR3+2           
9406                                                  
9407         set             Y,FP_SCR0                
9408         set             Y_Hi,Y+4                 
9409         set             Y_Lo,Y+8                 
9410                                                  
9411         set             R,FP_SCR1                
9412         set             R_Hi,R+4                 
9413         set             R_Lo,R+8                 
9414                                                  
9415 Scale:                                           
9416         long            0x00010000,0x80000000    
9417                                                  
9418         global          smod                     
9419 smod:                                            
9420         clr.b           FPSR_QBYTE(%a6)          
9421         mov.l           %d0,-(%sp)               
9422         clr.b           Mod_Flag(%a6)            
9423         bra.b           Mod_Rem                  
9424                                                  
9425         global          srem                     
9426 srem:                                            
9427         clr.b           FPSR_QBYTE(%a6)          
9428         mov.l           %d0,-(%sp)               
9429         mov.b           &0x1,Mod_Flag(%a6)       
9430                                                  
9431 Mod_Rem:                                         
9432 #..Save sign of X and Y                          
9433         movm.l          &0x3f00,-(%sp)           
9434         mov.w           SRC_EX(%a0),%d3          
9435         mov.w           %d3,SignY(%a6)           
9436         and.l           &0x00007FFF,%d3          
9437                                                  
9438 #                                                
9439         mov.l           SRC_HI(%a0),%d4          
9440         mov.l           SRC_LO(%a0),%d5          
9441                                                  
9442         tst.l           %d3                      
9443         bne.b           Y_Normal                 
9444                                                  
9445         mov.l           &0x00003FFE,%d3          
9446         tst.l           %d4                      
9447         bne.b           HiY_not0                 
9448                                                  
9449 HiY_0:                                           
9450         mov.l           %d5,%d4                  
9451         clr.l           %d5                      
9452         sub.l           &32,%d3                  
9453         clr.l           %d6                      
9454         bfffo           %d4{&0:&32},%d6          
9455         lsl.l           %d6,%d4                  
9456         sub.l           %d6,%d3                  
9457 #                                                
9458         bra.b           Chk_X                    
9459                                                  
9460 HiY_not0:                                        
9461         clr.l           %d6                      
9462         bfffo           %d4{&0:&32},%d6          
9463         sub.l           %d6,%d3                  
9464         lsl.l           %d6,%d4                  
9465         mov.l           %d5,%d7                  
9466         lsl.l           %d6,%d5                  
9467         neg.l           %d6                      
9468         add.l           &32,%d6                  
9469         lsr.l           %d6,%d7                  
9470         or.l            %d7,%d4                  
9471 #                                       ...wi    
9472         bra.b           Chk_X                    
9473                                                  
9474 Y_Normal:                                        
9475         add.l           &0x00003FFE,%d3          
9476 #                                       ...wi    
9477                                                  
9478 Chk_X:                                           
9479         mov.w           DST_EX(%a1),%d0          
9480         mov.w           %d0,SignX(%a6)           
9481         mov.w           SignY(%a6),%d1           
9482         eor.l           %d0,%d1                  
9483         and.l           &0x00008000,%d1          
9484         mov.w           %d1,SignQ(%a6)           
9485         and.l           &0x00007FFF,%d0          
9486         mov.l           DST_HI(%a1),%d1          
9487         mov.l           DST_LO(%a1),%d2          
9488         tst.l           %d0                      
9489         bne.b           X_Normal                 
9490         mov.l           &0x00003FFE,%d0          
9491         tst.l           %d1                      
9492         bne.b           HiX_not0                 
9493                                                  
9494 HiX_0:                                           
9495         mov.l           %d2,%d1                  
9496         clr.l           %d2                      
9497         sub.l           &32,%d0                  
9498         clr.l           %d6                      
9499         bfffo           %d1{&0:&32},%d6          
9500         lsl.l           %d6,%d1                  
9501         sub.l           %d6,%d0                  
9502 #                                       ...wi    
9503         bra.b           Init                     
9504                                                  
9505 HiX_not0:                                        
9506         clr.l           %d6                      
9507         bfffo           %d1{&0:&32},%d6          
9508         sub.l           %d6,%d0                  
9509         lsl.l           %d6,%d1                  
9510         mov.l           %d2,%d7                  
9511         lsl.l           %d6,%d2                  
9512         neg.l           %d6                      
9513         add.l           &32,%d6                  
9514         lsr.l           %d6,%d7                  
9515         or.l            %d7,%d1                  
9516 #                                       ...wi    
9517         bra.b           Init                     
9518                                                  
9519 X_Normal:                                        
9520         add.l           &0x00003FFE,%d0          
9521 #                                       ...wi    
9522                                                  
9523 Init:                                            
9524 #                                                
9525         mov.l           %d3,L_SCR1(%a6)          
9526         mov.l           %d0,-(%sp)               
9527         sub.l           %d3,%d0                  
9528                                                  
9529         clr.l           %d6                      
9530         clr.l           %d3                      
9531         mov.l           &0,%a1                   
9532                                                  
9533 #..(Carry,D1,D2) is R                            
9534         tst.l           %d0                      
9535         bge.b           Mod_Loop_pre             
9536                                                  
9537 #..expo(X) < expo(Y). Thus X = mod(X,Y)          
9538 #                                                
9539         mov.l           (%sp)+,%d0               
9540         bra.w           Get_Mod                  
9541                                                  
9542 Mod_Loop_pre:                                    
9543         addq.l          &0x4,%sp                 
9544 #..At this point  R = 2^(-L)X; Q = 0; k = 0;     
9545 Mod_Loop:                                        
9546         tst.l           %d6                      
9547         bgt.b           R_GT_Y                   
9548                                                  
9549 #..At this point carry = 0, R = (D1,D2), Y =     
9550         cmp.l           %d1,%d4                  
9551         bne.b           R_NE_Y                   
9552         cmp.l           %d2,%d5                  
9553         bne.b           R_NE_Y                   
9554                                                  
9555 #..At this point, R = Y                          
9556         bra.w           Rem_is_0                 
9557                                                  
9558 R_NE_Y:                                          
9559 #..use the borrow of the previous compare        
9560         bcs.b           R_LT_Y                   
9561                                                  
9562 R_GT_Y:                                          
9563 #..If Carry is set, then Y < (Carry,D1,D2) <     
9564 #..and Y < (D1,D2) < 2Y. Either way, perform     
9565         sub.l           %d5,%d2                  
9566         subx.l          %d4,%d1                  
9567         clr.l           %d6                      
9568         addq.l          &1,%d3                   
9569                                                  
9570 R_LT_Y:                                          
9571 #..At this point, Carry=0, R < Y. R = 2^(k-L)    
9572         tst.l           %d0                      
9573         beq.b           PostLoop                 
9574                                                  
9575         add.l           %d3,%d3                  
9576         add.l           %d2,%d2                  
9577         roxl.l          &1,%d1                   
9578         scs             %d6                      
9579         addq.l          &1,%a1                   
9580         subq.l          &1,%d0                   
9581 #..At this point, R=(Carry,D1,D2) = 2^(k-L)X     
9582                                                  
9583         bra.b           Mod_Loop                 
9584                                                  
9585 PostLoop:                                        
9586 #..k = L, j = 0, Carry = 0, R = (D1,D2) = X -    
9587                                                  
9588 #..normalize R.                                  
9589         mov.l           L_SCR1(%a6),%d0          
9590         tst.l           %d1                      
9591         bne.b           HiR_not0                 
9592                                                  
9593 HiR_0:                                           
9594         mov.l           %d2,%d1                  
9595         clr.l           %d2                      
9596         sub.l           &32,%d0                  
9597         clr.l           %d6                      
9598         bfffo           %d1{&0:&32},%d6          
9599         lsl.l           %d6,%d1                  
9600         sub.l           %d6,%d0                  
9601 #                                       ...wi    
9602         bra.b           Get_Mod                  
9603                                                  
9604 HiR_not0:                                        
9605         clr.l           %d6                      
9606         bfffo           %d1{&0:&32},%d6          
9607         bmi.b           Get_Mod                  
9608         sub.l           %d6,%d0                  
9609         lsl.l           %d6,%d1                  
9610         mov.l           %d2,%d7                  
9611         lsl.l           %d6,%d2                  
9612         neg.l           %d6                      
9613         add.l           &32,%d6                  
9614         lsr.l           %d6,%d7                  
9615         or.l            %d7,%d1                  
9616                                                  
9617 #                                                
9618 Get_Mod:                                         
9619         cmp.l           %d0,&0x000041FE          
9620         bge.b           No_Scale                 
9621 Do_Scale:                                        
9622         mov.w           %d0,R(%a6)               
9623         mov.l           %d1,R_Hi(%a6)            
9624         mov.l           %d2,R_Lo(%a6)            
9625         mov.l           L_SCR1(%a6),%d6          
9626         mov.w           %d6,Y(%a6)               
9627         mov.l           %d4,Y_Hi(%a6)            
9628         mov.l           %d5,Y_Lo(%a6)            
9629         fmov.x          R(%a6),%fp0              
9630         mov.b           &1,Sc_Flag(%a6)          
9631         bra.b           ModOrRem                 
9632 No_Scale:                                        
9633         mov.l           %d1,R_Hi(%a6)            
9634         mov.l           %d2,R_Lo(%a6)            
9635         sub.l           &0x3FFE,%d0              
9636         mov.w           %d0,R(%a6)               
9637         mov.l           L_SCR1(%a6),%d6          
9638         sub.l           &0x3FFE,%d6              
9639         mov.l           %d6,L_SCR1(%a6)          
9640         fmov.x          R(%a6),%fp0              
9641         mov.w           %d6,Y(%a6)               
9642         mov.l           %d4,Y_Hi(%a6)            
9643         mov.l           %d5,Y_Lo(%a6)            
9644         clr.b           Sc_Flag(%a6)             
9645                                                  
9646 #                                                
9647 ModOrRem:                                        
9648         tst.b           Mod_Flag(%a6)            
9649         beq.b           Fix_Sign                 
9650                                                  
9651         mov.l           L_SCR1(%a6),%d6          
9652         subq.l          &1,%d6                   
9653         cmp.l           %d0,%d6                  
9654         blt.b           Fix_Sign                 
9655         bgt.b           Last_Sub                 
9656                                                  
9657         cmp.l           %d1,%d4                  
9658         bne.b           Not_EQ                   
9659         cmp.l           %d2,%d5                  
9660         bne.b           Not_EQ                   
9661         bra.w           Tie_Case                 
9662                                                  
9663 Not_EQ:                                          
9664         bcs.b           Fix_Sign                 
9665                                                  
9666 Last_Sub:                                        
9667 #                                                
9668         fsub.x          Y(%a6),%fp0              
9669         addq.l          &1,%d3                   
9670                                                  
9671 #                                                
9672 Fix_Sign:                                        
9673 #..Get sign of X                                 
9674         mov.w           SignX(%a6),%d6           
9675         bge.b           Get_Q                    
9676         fneg.x          %fp0                     
9677                                                  
9678 #..Get Q                                         
9679 #                                                
9680 Get_Q:                                           
9681         clr.l           %d6                      
9682         mov.w           SignQ(%a6),%d6           
9683         mov.l           &8,%d7                   
9684         lsr.l           %d7,%d6                  
9685         and.l           &0x0000007F,%d3          
9686         or.l            %d6,%d3                  
9687 #       swap            %d3                      
9688 #       fmov.l          %fpsr,%d6                
9689 #       and.l           &0xFF00FFFF,%d6          
9690 #       or.l            %d3,%d6                  
9691 #       fmov.l          %d6,%fpsr                
9692         mov.b           %d3,FPSR_QBYTE(%a6)      
9693                                                  
9694 #                                                
9695 Restore:                                         
9696         movm.l          (%sp)+,&0xfc             
9697         mov.l           (%sp)+,%d0               
9698         fmov.l          %d0,%fpcr                
9699         tst.b           Sc_Flag(%a6)             
9700         beq.b           Finish                   
9701         mov.b           &FMUL_OP,%d1             
9702         fmul.x          Scale(%pc),%fp0          
9703         bra             t_catch2                 
9704 # the '040 package did this apparently to see    
9705 # preceding fmul was a denorm. but, it better    
9706 # algorithm just got done playing with fp0 an    
9707 # as a result. trust me...                       
9708 #       bra             t_avoid_unsupp           
9709 #                                                
9710                                                  
9711 Finish:                                          
9712         mov.b           &FMOV_OP,%d1             
9713         fmov.x          %fp0,%fp0                
9714         bra             t_catch2                 
9715                                                  
9716 Rem_is_0:                                        
9717 #..R = 2^(-j)X - Q Y = Y, thus R = 0 and quot    
9718         addq.l          &1,%d3                   
9719         cmp.l           %d0,&8                   
9720         bge.b           Q_Big                    
9721                                                  
9722         lsl.l           %d0,%d3                  
9723         bra.b           Set_R_0                  
9724                                                  
9725 Q_Big:                                           
9726         clr.l           %d3                      
9727                                                  
9728 Set_R_0:                                         
9729         fmov.s          &0x00000000,%fp0         
9730         clr.b           Sc_Flag(%a6)             
9731         bra.w           Fix_Sign                 
9732                                                  
9733 Tie_Case:                                        
9734 #..Check parity of Q                             
9735         mov.l           %d3,%d6                  
9736         and.l           &0x00000001,%d6          
9737         tst.l           %d6                      
9738         beq.w           Fix_Sign                 
9739                                                  
9740 #..Q is odd, Q := Q + 1, signX := -signX         
9741         addq.l          &1,%d3                   
9742         mov.w           SignX(%a6),%d6           
9743         eor.l           &0x00008000,%d6          
9744         mov.w           %d6,SignX(%a6)           
9745         bra.w           Fix_Sign                 
9746                                                  
9747 #############################################    
9748 # XDEF **************************************    
9749 #       tag(): return the optype of the input    
9750 #                                                
9751 #       This routine is used by the 060FPLSP.    
9752 #                                                
9753 # XREF **************************************    
9754 #       None                                     
9755 #                                                
9756 # INPUT *************************************    
9757 #       a0 = pointer to extended precision op    
9758 #                                                
9759 # OUTPUT ************************************    
9760 #       d0 = value of type tag                   
9761 #               one of: NORM, INF, QNAN, SNAN    
9762 #                                                
9763 # ALGORITHM *********************************    
9764 #       Simply test the exponent, j-bit, and     
9765 # determine the type of operand.                 
9766 #       If it's an unnormalized zero, alter t    
9767 # to be a normal zero.                           
9768 #                                                
9769 #############################################    
9770                                                  
9771         global          tag                      
9772 tag:                                             
9773         mov.w           FTEMP_EX(%a0), %d0       
9774         andi.w          &0x7fff, %d0             
9775         cmpi.w          %d0, &0x7fff             
9776         beq.b           inf_or_nan_x             
9777 not_inf_or_nan_x:                                
9778         btst            &0x7,FTEMP_HI(%a0)       
9779         beq.b           not_norm_x               
9780 is_norm_x:                                       
9781         mov.b           &NORM, %d0               
9782         rts                                      
9783 not_norm_x:                                      
9784         tst.w           %d0                      
9785         bne.b           is_unnorm_x              
9786 not_unnorm_x:                                    
9787         tst.l           FTEMP_HI(%a0)            
9788         bne.b           is_denorm_x              
9789         tst.l           FTEMP_LO(%a0)            
9790         bne.b           is_denorm_x              
9791 is_zero_x:                                       
9792         mov.b           &ZERO, %d0               
9793         rts                                      
9794 is_denorm_x:                                     
9795         mov.b           &DENORM, %d0             
9796         rts                                      
9797 is_unnorm_x:                                     
9798         bsr.l           unnorm_fix               
9799         rts                                      
9800 is_unnorm_reg_x:                                 
9801         mov.b           &UNNORM, %d0             
9802         rts                                      
9803 inf_or_nan_x:                                    
9804         tst.l           FTEMP_LO(%a0)            
9805         bne.b           is_nan_x                 
9806         mov.l           FTEMP_HI(%a0), %d0       
9807         and.l           &0x7fffffff, %d0         
9808         bne.b           is_nan_x                 
9809 is_inf_x:                                        
9810         mov.b           &INF, %d0                
9811         rts                                      
9812 is_nan_x:                                        
9813         mov.b           &QNAN, %d0               
9814         rts                                      
9815                                                  
9816 #############################################    
9817                                                  
9818 qnan:   long            0x7fff0000, 0xfffffff    
9819                                                  
9820 #############################################    
9821 # XDEF **************************************    
9822 #       t_dz(): Handle 060FPLSP dz exception     
9823 #       t_dz2(): Handle 060FPLSP dz exception    
9824 #                                                
9825 #       These rouitnes are used by the 060FPL    
9826 #                                                
9827 # XREF **************************************    
9828 #       None                                     
9829 #                                                
9830 # INPUT *************************************    
9831 #       a0 = pointer to extended precision so    
9832 #                                                
9833 # OUTPUT ************************************    
9834 #       fp0 = default DZ result.                 
9835 #                                                
9836 # ALGORITHM *********************************    
9837 #       Transcendental emulation for the 060F    
9838 # a DZ exception should occur for the instruc    
9839 # return the default result.                     
9840 #       If DZ is enabled, the dst operand sho    
9841 # in fp0 while fp1 is used to create a DZ exc    
9842 # operating system can log that such an event    
9843 #                                                
9844 #############################################    
9845                                                  
9846         global          t_dz                     
9847 t_dz:                                            
9848         tst.b           SRC_EX(%a0)              
9849         bpl.b           dz_pinf                  
9850                                                  
9851         global          t_dz2                    
9852 t_dz2:                                           
9853         ori.l           &dzinf_mask+neg_mask,    
9854                                                  
9855         btst            &dz_bit,FPCR_ENABLE(%    
9856         bne.b           dz_minf_ena              
9857                                                  
9858 # dz is disabled. return a -INF.                 
9859         fmov.s          &0xff800000,%fp0         
9860         rts                                      
9861                                                  
9862 # dz is enabled. create a dz exception so the    
9863 # but use fp1 instead. return the dst operand    
9864 dz_minf_ena:                                     
9865         fmovm.x         EXC_FP0(%a6),&0x80       
9866         fmov.l          USER_FPCR(%a6),%fpcr     
9867         fmov.s          &0xbf800000,%fp1         
9868         fdiv.s          &0x00000000,%fp1         
9869         rts                                      
9870                                                  
9871 dz_pinf:                                         
9872         ori.l           &dzinf_mask,USER_FPSR    
9873                                                  
9874         btst            &dz_bit,FPCR_ENABLE(%    
9875         bne.b           dz_pinf_ena              
9876                                                  
9877 # dz is disabled. return a +INF.                 
9878         fmov.s          &0x7f800000,%fp0         
9879         rts                                      
9880                                                  
9881 # dz is enabled. create a dz exception so the    
9882 # but use fp1 instead. return the dst operand    
9883 dz_pinf_ena:                                     
9884         fmovm.x         EXC_FP0(%a6),&0x80       
9885         fmov.l          USER_FPCR(%a6),%fpcr     
9886         fmov.s          &0x3f800000,%fp1         
9887         fdiv.s          &0x00000000,%fp1         
9888         rts                                      
9889                                                  
9890 #############################################    
9891 # XDEF **************************************    
9892 #       t_operr(): Handle 060FPLSP OPERR exce    
9893 #                                                
9894 #       This routine is used by the 060FPLSP     
9895 #                                                
9896 # XREF **************************************    
9897 #       None.                                    
9898 #                                                
9899 # INPUT *************************************    
9900 #       fp1 = source operand                     
9901 #                                                
9902 # OUTPUT ************************************    
9903 #       fp0 = default result                     
9904 #       fp1 = unchanged                          
9905 #                                                
9906 # ALGORITHM *********************************    
9907 #       An operand error should occur as the     
9908 # emulation in the 060FPLSP. If OPERR is disa    
9909 # in fp0. If OPERR is enabled, return the dst    
9910 # and the source operand in fp1. Use fp2 to c    
9911 # so that the operating system can log the ev    
9912 #                                                
9913 #############################################    
9914                                                  
9915         global          t_operr                  
9916 t_operr:                                         
9917         ori.l           &opnan_mask,USER_FPSR    
9918                                                  
9919         btst            &operr_bit,FPCR_ENABL    
9920         bne.b           operr_ena                
9921                                                  
9922 # operr is disabled. return a QNAN in fp0        
9923         fmovm.x         qnan(%pc),&0x80          
9924         rts                                      
9925                                                  
9926 # operr is enabled. create an operr exception    
9927 # but use fp2 instead. return the dst operand    
9928 operr_ena:                                       
9929         fmovm.x         EXC_FP0(%a6),&0x80       
9930         fmov.l          USER_FPCR(%a6),%fpcr     
9931         fmovm.x         &0x04,-(%sp)             
9932         fmov.s          &0x7f800000,%fp2         
9933         fmul.s          &0x00000000,%fp2         
9934         fmovm.x         (%sp)+,&0x20             
9935         rts                                      
9936                                                  
9937 pls_huge:                                        
9938         long            0x7ffe0000,0xffffffff    
9939 mns_huge:                                        
9940         long            0xfffe0000,0xffffffff    
9941 pls_tiny:                                        
9942         long            0x00000000,0x80000000    
9943 mns_tiny:                                        
9944         long            0x80000000,0x80000000    
9945                                                  
9946 #############################################    
9947 # XDEF **************************************    
9948 #       t_unfl(): Handle 060FPLSP underflow e    
9949 #       t_unfl2(): Handle 060FPLSP underflow     
9950 #                  emulation. result always p    
9951 #                                                
9952 #       This routine is used by the 060FPLSP     
9953 #                                                
9954 # XREF **************************************    
9955 #       None.                                    
9956 #                                                
9957 # INPUT *************************************    
9958 #       a0 = pointer to extended precision so    
9959 #                                                
9960 # OUTPUT ************************************    
9961 #       fp0 = default underflow result           
9962 #                                                
9963 # ALGORITHM *********************************    
9964 #       An underflow should occur as the resu    
9965 # emulation in the 060FPLSP. Create an underf    
9966 # and two very small numbers of appropriate s    
9967 # system can log the event.                      
9968 #                                                
9969 #############################################    
9970                                                  
9971         global          t_unfl                   
9972 t_unfl:                                          
9973         tst.b           SRC_EX(%a0)              
9974         bpl.b           unf_pos                  
9975                                                  
9976         global          t_unfl2                  
9977 t_unfl2:                                         
9978         ori.l           &unfinx_mask+neg_mask    
9979                                                  
9980         fmov.l          USER_FPCR(%a6),%fpcr     
9981         fmovm.x         mns_tiny(%pc),&0x80      
9982         fmul.x          pls_tiny(%pc),%fp0       
9983                                                  
9984         fmov.l          %fpsr,%d0                
9985         rol.l           &0x8,%d0                 
9986         mov.b           %d0,FPSR_CC(%a6)         
9987         rts                                      
9988 unf_pos:                                         
9989         ori.w           &unfinx_mask,FPSR_EXC    
9990                                                  
9991         fmov.l          USER_FPCR(%a6),%fpcr     
9992         fmovm.x         pls_tiny(%pc),&0x80      
9993         fmul.x          %fp0,%fp0                
9994                                                  
9995         fmov.l          %fpsr,%d0                
9996         rol.l           &0x8,%d0                 
9997         mov.b           %d0,FPSR_CC(%a6)         
9998         rts                                      
9999                                                  
10000 ############################################    
10001 # XDEF *************************************    
10002 #       t_ovfl(): Handle 060FPLSP overflow e    
10003 #                 (monadic)                     
10004 #       t_ovfl2(): Handle 060FPLSP overflow     
10005 #                  emulation. result always     
10006 #       t_ovfl_sc(): Handle 060FPLSP overflo    
10007 #                    emulation for "fscale".    
10008 #                                               
10009 #       This routine is used by the 060FPLSP    
10010 #                                               
10011 # XREF *************************************    
10012 #       None.                                   
10013 #                                               
10014 # INPUT ************************************    
10015 #       a0 = pointer to extended precision s    
10016 #                                               
10017 # OUTPUT ***********************************    
10018 #       fp0 = default underflow result          
10019 #                                               
10020 # ALGORITHM ********************************    
10021 #       An overflow should occur as the resu    
10022 # emulation in the 060FPLSP. Create an overf    
10023 # and two very lareg numbers of appropriate     
10024 # system can log the event.                     
10025 #       For t_ovfl_sc() we take special care    
10026 #                                               
10027 ############################################    
10028                                                 
10029         global          t_ovfl_sc               
10030 t_ovfl_sc:                                      
10031         ori.l           &ovfl_inx_mask,USER_    
10032                                                 
10033         mov.b           %d0,%d1                 
10034         andi.b          &0xc0,%d1               
10035         beq.w           ovfl_work               
10036                                                 
10037 # dst op is a DENORM. we have to normalize t    
10038 # result would be inexact for the given prec    
10039 # dst so we don't screw up the version passe    
10040         mov.w           LOCAL_EX(%a0),FP_SCR    
10041         mov.l           LOCAL_HI(%a0),FP_SCR    
10042         mov.l           LOCAL_LO(%a0),FP_SCR    
10043         lea             FP_SCR0(%a6),%a0        
10044         movm.l          &0xc080,-(%sp)          
10045         bsr.l           norm                    
10046         movm.l          (%sp)+,&0x0103          
10047                                                 
10048         cmpi.b          %d1,&0x40               
10049         bne.b           ovfl_sc_dbl             
10050 ovfl_sc_sgl:                                    
10051         tst.l           LOCAL_LO(%a0)           
10052         bne.b           ovfl_sc_inx             
10053         tst.b           3+LOCAL_HI(%a0)         
10054         bne.b           ovfl_sc_inx             
10055         bra.w           ovfl_work               
10056 ovfl_sc_dbl:                                    
10057         mov.l           LOCAL_LO(%a0),%d1       
10058         andi.l          &0x7ff,%d1              
10059         beq.w           ovfl_work               
10060 ovfl_sc_inx:                                    
10061         ori.l           &inex2_mask,USER_FPS    
10062         bra.b           ovfl_work               
10063                                                 
10064         global          t_ovfl                  
10065 t_ovfl:                                         
10066         ori.w           &ovfinx_mask,FPSR_EX    
10067 ovfl_work:                                      
10068         tst.b           SRC_EX(%a0)             
10069         bpl.b           ovfl_p                  
10070 ovfl_m:                                         
10071         fmov.l          USER_FPCR(%a6),%fpcr    
10072         fmovm.x         mns_huge(%pc),&0x80     
10073         fmul.x          pls_huge(%pc),%fp0      
10074                                                 
10075         fmov.l          %fpsr,%d0               
10076         rol.l           &0x8,%d0                
10077         ori.b           &neg_mask,%d0           
10078         mov.b           %d0,FPSR_CC(%a6)        
10079         rts                                     
10080 ovfl_p:                                         
10081         fmov.l          USER_FPCR(%a6),%fpcr    
10082         fmovm.x         pls_huge(%pc),&0x80     
10083         fmul.x          pls_huge(%pc),%fp0      
10084                                                 
10085         fmov.l          %fpsr,%d0               
10086         rol.l           &0x8,%d0                
10087         mov.b           %d0,FPSR_CC(%a6)        
10088         rts                                     
10089                                                 
10090         global          t_ovfl2                 
10091 t_ovfl2:                                        
10092         ori.w           &ovfinx_mask,FPSR_EX    
10093         fmov.l          USER_FPCR(%a6),%fpcr    
10094         fmovm.x         pls_huge(%pc),&0x80     
10095         fmul.x          pls_huge(%pc),%fp0      
10096                                                 
10097         fmov.l          %fpsr,%d0               
10098         rol.l           &0x8,%d0                
10099         mov.b           %d0,FPSR_CC(%a6)        
10100         rts                                     
10101                                                 
10102 ############################################    
10103 # XDEF *************************************    
10104 #       t_catch(): Handle 060FPLSP OVFL,UNFL    
10105 #                  emulation.                   
10106 #       t_catch2(): Handle 060FPLSP OVFL,UNF    
10107 #                   emulation.                  
10108 #                                               
10109 #       These routines are used by the 060FP    
10110 #                                               
10111 # XREF *************************************    
10112 #       None.                                   
10113 #                                               
10114 # INPUT ************************************    
10115 #       fp0 = default underflow or overflow     
10116 #                                               
10117 # OUTPUT ***********************************    
10118 #       fp0 = default result                    
10119 #                                               
10120 # ALGORITHM ********************************    
10121 #       If an overflow or underflow occurred    
10122 # instruction of transcendental 060FPLSP emu    
10123 # occurred and has been logged. Now we need     
10124 # exception should occur.                       
10125 #                                               
10126 ############################################    
10127                                                 
10128         global          t_catch2                
10129 t_catch2:                                       
10130         fmov.l          %fpsr,%d0               
10131         or.l            %d0,USER_FPSR(%a6)      
10132         bra.b           inx2_work               
10133                                                 
10134         global          t_catch                 
10135 t_catch:                                        
10136         fmov.l          %fpsr,%d0               
10137         or.l            %d0,USER_FPSR(%a6)      
10138                                                 
10139 ############################################    
10140 # XDEF *************************************    
10141 #       t_inx2(): Handle inexact 060FPLSP ex    
10142 #       t_pinx2(): Handle inexact 060FPLSP e    
10143 #       t_minx2(): Handle inexact 060FPLSP e    
10144 #                                               
10145 # XREF *************************************    
10146 #       None.                                   
10147 #                                               
10148 # INPUT ************************************    
10149 #       fp0 = default result                    
10150 #                                               
10151 # OUTPUT ***********************************    
10152 #       fp0 = default result                    
10153 #                                               
10154 # ALGORITHM ********************************    
10155 #       The last instruction of transcendent    
10156 # 060FPLSP should be inexact. So, if inexact    
10157 # the event here by adding a large and very     
10158 # so that the operating system can log the e    
10159 #       Must check, too, if the result was z    
10160 # set the FPSR bits and return.                 
10161 #                                               
10162 ############################################    
10163                                                 
10164         global          t_inx2                  
10165 t_inx2:                                         
10166         fblt.w          t_minx2                 
10167         fbeq.w          inx2_zero               
10168                                                 
10169         global          t_pinx2                 
10170 t_pinx2:                                        
10171         ori.w           &inx2a_mask,FPSR_EXC    
10172         bra.b           inx2_work               
10173                                                 
10174         global          t_minx2                 
10175 t_minx2:                                        
10176         ori.l           &inx2a_mask+neg_mask    
10177                                                 
10178 inx2_work:                                      
10179         btst            &inex2_bit,FPCR_ENAB    
10180         bne.b           inx2_work_ena           
10181         rts                                     
10182 inx2_work_ena:                                  
10183         fmov.l          USER_FPCR(%a6),%fpcr    
10184         fmov.s          &0x3f800000,%fp1        
10185         fadd.x          pls_tiny(%pc),%fp1      
10186         rts                                     
10187                                                 
10188 inx2_zero:                                      
10189         mov.b           &z_bmask,FPSR_CC(%a6    
10190         ori.w           &inx2a_mask,2+USER_F    
10191         rts                                     
10192                                                 
10193 ############################################    
10194 # XDEF *************************************    
10195 #       t_extdnrm(): Handle DENORM inputs in    
10196 #       t_resdnrm(): Handle DENORM inputs in    
10197 #                                               
10198 #       This routine is used by the 060FPLSP    
10199 #                                               
10200 # XREF *************************************    
10201 #       None.                                   
10202 #                                               
10203 # INPUT ************************************    
10204 #       a0 = pointer to extended precision i    
10205 #                                               
10206 # OUTPUT ***********************************    
10207 #       fp0 = default result                    
10208 #                                               
10209 # ALGORITHM ********************************    
10210 #       For all functions that have a denorm    
10211 # f(x)=x, this is the entry point.              
10212 #       DENORM value is moved using "fmove"     
10213 # if enabled so the operating system can log    
10214 #                                               
10215 ############################################    
10216                                                 
10217         global          t_extdnrm               
10218 t_extdnrm:                                      
10219         fmov.l          USER_FPCR(%a6),%fpcr    
10220         fmov.x          SRC_EX(%a0),%fp0        
10221         fmov.l          %fpsr,%d0               
10222         ori.l           &unfinx_mask,%d0        
10223         or.l            %d0,USER_FPSR(%a6)      
10224         rts                                     
10225                                                 
10226         global          t_resdnrm               
10227 t_resdnrm:                                      
10228         fmov.l          USER_FPCR(%a6),%fpcr    
10229         fmov.x          SRC_EX(%a0),%fp0        
10230         fmov.l          %fpsr,%d0               
10231         or.l            %d0,USER_FPSR(%a6)      
10232         rts                                     
10233                                                 
10234 ##########################################      
10235                                                 
10236 #                                               
10237 # sto_cos:                                      
10238 #       This is used by fsincos library emul    
10239 # values are already in fp0 and fp1 so we do    
10240 #                                               
10241         global          sto_cos                 
10242 sto_cos:                                        
10243         rts                                     
10244                                                 
10245 ##########################################      
10246                                                 
10247 #                                               
10248 #       dst_qnan --- force result when desti    
10249 #                                               
10250         global          dst_qnan                
10251 dst_qnan:                                       
10252         fmov.x          DST(%a1),%fp0           
10253         tst.b           DST_EX(%a1)             
10254         bmi.b           dst_qnan_m              
10255 dst_qnan_p:                                     
10256         mov.b           &nan_bmask,FPSR_CC(%    
10257         rts                                     
10258 dst_qnan_m:                                     
10259         mov.b           &nan_bmask+neg_bmask    
10260         rts                                     
10261                                                 
10262 #                                               
10263 #       src_qnan --- force result when sourc    
10264 #                                               
10265         global          src_qnan                
10266 src_qnan:                                       
10267         fmov.x          SRC(%a0),%fp0           
10268         tst.b           SRC_EX(%a0)             
10269         bmi.b           src_qnan_m              
10270 src_qnan_p:                                     
10271         mov.b           &nan_bmask,FPSR_CC(%    
10272         rts                                     
10273 src_qnan_m:                                     
10274         mov.b           &nan_bmask+neg_bmask    
10275         rts                                     
10276                                                 
10277 ##########################################      
10278                                                 
10279 #                                               
10280 #       Native instruction support              
10281 #                                               
10282 #       Some systems may need entry points e    
10283 #       instructions.  These routines are pr    
10284 #       convenience.                            
10285 #                                               
10286         global          _fadds_                 
10287 _fadds_:                                        
10288         fmov.l          %fpcr,-(%sp)            
10289         fmov.l          &0x00000000,%fpcr       
10290         fmov.s          0x8(%sp),%fp0           
10291         fmov.l          (%sp)+,%fpcr            
10292         fadd.s          0x8(%sp),%fp0           
10293         rts                                     
10294                                                 
10295         global          _faddd_                 
10296 _faddd_:                                        
10297         fmov.l          %fpcr,-(%sp)            
10298         fmov.l          &0x00000000,%fpcr       
10299         fmov.d          0x8(%sp),%fp0           
10300         fmov.l          (%sp)+,%fpcr            
10301         fadd.d          0xc(%sp),%fp0           
10302         rts                                     
10303                                                 
10304         global          _faddx_                 
10305 _faddx_:                                        
10306         fmovm.x         0x4(%sp),&0x80          
10307         fadd.x          0x10(%sp),%fp0          
10308         rts                                     
10309                                                 
10310         global          _fsubs_                 
10311 _fsubs_:                                        
10312         fmov.l          %fpcr,-(%sp)            
10313         fmov.l          &0x00000000,%fpcr       
10314         fmov.s          0x8(%sp),%fp0           
10315         fmov.l          (%sp)+,%fpcr            
10316         fsub.s          0x8(%sp),%fp0           
10317         rts                                     
10318                                                 
10319         global          _fsubd_                 
10320 _fsubd_:                                        
10321         fmov.l          %fpcr,-(%sp)            
10322         fmov.l          &0x00000000,%fpcr       
10323         fmov.d          0x8(%sp),%fp0           
10324         fmov.l          (%sp)+,%fpcr            
10325         fsub.d          0xc(%sp),%fp0           
10326         rts                                     
10327                                                 
10328         global          _fsubx_                 
10329 _fsubx_:                                        
10330         fmovm.x         0x4(%sp),&0x80          
10331         fsub.x          0x10(%sp),%fp0          
10332         rts                                     
10333                                                 
10334         global          _fmuls_                 
10335 _fmuls_:                                        
10336         fmov.l          %fpcr,-(%sp)            
10337         fmov.l          &0x00000000,%fpcr       
10338         fmov.s          0x8(%sp),%fp0           
10339         fmov.l          (%sp)+,%fpcr            
10340         fmul.s          0x8(%sp),%fp0           
10341         rts                                     
10342                                                 
10343         global          _fmuld_                 
10344 _fmuld_:                                        
10345         fmov.l          %fpcr,-(%sp)            
10346         fmov.l          &0x00000000,%fpcr       
10347         fmov.d          0x8(%sp),%fp0           
10348         fmov.l          (%sp)+,%fpcr            
10349         fmul.d          0xc(%sp),%fp0           
10350         rts                                     
10351                                                 
10352         global          _fmulx_                 
10353 _fmulx_:                                        
10354         fmovm.x         0x4(%sp),&0x80          
10355         fmul.x          0x10(%sp),%fp0          
10356         rts                                     
10357                                                 
10358         global          _fdivs_                 
10359 _fdivs_:                                        
10360         fmov.l          %fpcr,-(%sp)            
10361         fmov.l          &0x00000000,%fpcr       
10362         fmov.s          0x8(%sp),%fp0           
10363         fmov.l          (%sp)+,%fpcr            
10364         fdiv.s          0x8(%sp),%fp0           
10365         rts                                     
10366                                                 
10367         global          _fdivd_                 
10368 _fdivd_:                                        
10369         fmov.l          %fpcr,-(%sp)            
10370         fmov.l          &0x00000000,%fpcr       
10371         fmov.d          0x8(%sp),%fp0           
10372         fmov.l          (%sp)+,%fpcr            
10373         fdiv.d          0xc(%sp),%fp0           
10374         rts                                     
10375                                                 
10376         global          _fdivx_                 
10377 _fdivx_:                                        
10378         fmovm.x         0x4(%sp),&0x80          
10379         fdiv.x          0x10(%sp),%fp0          
10380         rts                                     
10381                                                 
10382         global          _fabss_                 
10383 _fabss_:                                        
10384         fabs.s          0x4(%sp),%fp0           
10385         rts                                     
10386                                                 
10387         global          _fabsd_                 
10388 _fabsd_:                                        
10389         fabs.d          0x4(%sp),%fp0           
10390         rts                                     
10391                                                 
10392         global          _fabsx_                 
10393 _fabsx_:                                        
10394         fabs.x          0x4(%sp),%fp0           
10395         rts                                     
10396                                                 
10397         global          _fnegs_                 
10398 _fnegs_:                                        
10399         fneg.s          0x4(%sp),%fp0           
10400         rts                                     
10401                                                 
10402         global          _fnegd_                 
10403 _fnegd_:                                        
10404         fneg.d          0x4(%sp),%fp0           
10405         rts                                     
10406                                                 
10407         global          _fnegx_                 
10408 _fnegx_:                                        
10409         fneg.x          0x4(%sp),%fp0           
10410         rts                                     
10411                                                 
10412         global          _fsqrts_                
10413 _fsqrts_:                                       
10414         fsqrt.s         0x4(%sp),%fp0           
10415         rts                                     
10416                                                 
10417         global          _fsqrtd_                
10418 _fsqrtd_:                                       
10419         fsqrt.d         0x4(%sp),%fp0           
10420         rts                                     
10421                                                 
10422         global          _fsqrtx_                
10423 _fsqrtx_:                                       
10424         fsqrt.x         0x4(%sp),%fp0           
10425         rts                                     
10426                                                 
10427         global          _fints_                 
10428 _fints_:                                        
10429         fint.s          0x4(%sp),%fp0           
10430         rts                                     
10431                                                 
10432         global          _fintd_                 
10433 _fintd_:                                        
10434         fint.d          0x4(%sp),%fp0           
10435         rts                                     
10436                                                 
10437         global          _fintx_                 
10438 _fintx_:                                        
10439         fint.x          0x4(%sp),%fp0           
10440         rts                                     
10441                                                 
10442         global          _fintrzs_               
10443 _fintrzs_:                                      
10444         fintrz.s        0x4(%sp),%fp0           
10445         rts                                     
10446                                                 
10447         global          _fintrzd_               
10448 _fintrzd_:                                      
10449         fintrz.d        0x4(%sp),%fp0           
10450         rts                                     
10451                                                 
10452         global          _fintrzx_               
10453 _fintrzx_:                                      
10454         fintrz.x        0x4(%sp),%fp0           
10455         rts                                     
10456                                                 
10457 ############################################    
10458                                                 
10459 ############################################    
10460 # src_zero(): Return signed zero according t    
10461 ############################################    
10462         global          src_zero                
10463 src_zero:                                       
10464         tst.b           SRC_EX(%a0)             
10465         bmi.b           ld_mzero                
10466                                                 
10467 #                                               
10468 # ld_pzero(): return a positive zero.           
10469 #                                               
10470         global          ld_pzero                
10471 ld_pzero:                                       
10472         fmov.s          &0x00000000,%fp0        
10473         mov.b           &z_bmask,FPSR_CC(%a6    
10474         rts                                     
10475                                                 
10476 # ld_mzero(): return a negative zero.           
10477         global          ld_mzero                
10478 ld_mzero:                                       
10479         fmov.s          &0x80000000,%fp0        
10480         mov.b           &neg_bmask+z_bmask,F    
10481         rts                                     
10482                                                 
10483 ############################################    
10484 # dst_zero(): Return signed zero according t    
10485 ############################################    
10486         global          dst_zero                
10487 dst_zero:                                       
10488         tst.b           DST_EX(%a1)             
10489         bmi.b           ld_mzero                
10490         bra.b           ld_pzero                
10491                                                 
10492 ############################################    
10493 # src_inf(): Return signed inf according to     
10494 ############################################    
10495         global          src_inf                 
10496 src_inf:                                        
10497         tst.b           SRC_EX(%a0)             
10498         bmi.b           ld_minf                 
10499                                                 
10500 #                                               
10501 # ld_pinf(): return a positive infinity.        
10502 #                                               
10503         global          ld_pinf                 
10504 ld_pinf:                                        
10505         fmov.s          &0x7f800000,%fp0        
10506         mov.b           &inf_bmask,FPSR_CC(%    
10507         rts                                     
10508                                                 
10509 #                                               
10510 # ld_minf():return a negative infinity.         
10511 #                                               
10512         global          ld_minf                 
10513 ld_minf:                                        
10514         fmov.s          &0xff800000,%fp0        
10515         mov.b           &neg_bmask+inf_bmask    
10516         rts                                     
10517                                                 
10518 ############################################    
10519 # dst_inf(): Return signed inf according to     
10520 ############################################    
10521         global          dst_inf                 
10522 dst_inf:                                        
10523         tst.b           DST_EX(%a1)             
10524         bmi.b           ld_minf                 
10525         bra.b           ld_pinf                 
10526                                                 
10527         global          szr_inf                 
10528 ############################################    
10529 # szr_inf(): Return +ZERO for a negative src    
10530 #                   +INF for a positive src     
10531 #            Routine used for fetox, ftwotox    
10532 ############################################    
10533 szr_inf:                                        
10534         tst.b           SRC_EX(%a0)             
10535         bmi.b           ld_pzero                
10536         bra.b           ld_pinf                 
10537                                                 
10538 ############################################    
10539 # sopr_inf(): Return +INF for a positive src    
10540 #             jump to operand error routine     
10541 #             Routine used for flogn, flognp    
10542 ############################################    
10543         global          sopr_inf                
10544 sopr_inf:                                       
10545         tst.b           SRC_EX(%a0)             
10546         bmi.w           t_operr                 
10547         bra.b           ld_pinf                 
10548                                                 
10549 ############################################    
10550 # setoxm1i(): Return minus one for a negativ    
10551 #             positive infinity for a positi    
10552 #             Routine used for fetoxm1.         
10553 ############################################    
10554         global          setoxm1i                
10555 setoxm1i:                                       
10556         tst.b           SRC_EX(%a0)             
10557         bmi.b           ld_mone                 
10558         bra.b           ld_pinf                 
10559                                                 
10560 ############################################    
10561 # src_one(): Return signed one according to     
10562 ############################################    
10563         global          src_one                 
10564 src_one:                                        
10565         tst.b           SRC_EX(%a0)             
10566         bmi.b           ld_mone                 
10567                                                 
10568 #                                               
10569 # ld_pone(): return positive one.               
10570 #                                               
10571         global          ld_pone                 
10572 ld_pone:                                        
10573         fmov.s          &0x3f800000,%fp0        
10574         clr.b           FPSR_CC(%a6)            
10575         rts                                     
10576                                                 
10577 #                                               
10578 # ld_mone(): return negative one.               
10579 #                                               
10580         global          ld_mone                 
10581 ld_mone:                                        
10582         fmov.s          &0xbf800000,%fp0        
10583         mov.b           &neg_bmask,FPSR_CC(%    
10584         rts                                     
10585                                                 
10586 ppiby2: long            0x3fff0000, 0xc90fda    
10587 mpiby2: long            0xbfff0000, 0xc90fda    
10588                                                 
10589 ############################################    
10590 # spi_2(): Return signed PI/2 according to s    
10591 ############################################    
10592         global          spi_2                   
10593 spi_2:                                          
10594         tst.b           SRC_EX(%a0)             
10595         bmi.b           ld_mpi2                 
10596                                                 
10597 #                                               
10598 # ld_ppi2(): return positive PI/2.              
10599 #                                               
10600         global          ld_ppi2                 
10601 ld_ppi2:                                        
10602         fmov.l          %d0,%fpcr               
10603         fmov.x          ppiby2(%pc),%fp0        
10604         bra.w           t_pinx2                 
10605                                                 
10606 #                                               
10607 # ld_mpi2(): return negative PI/2.              
10608 #                                               
10609         global          ld_mpi2                 
10610 ld_mpi2:                                        
10611         fmov.l          %d0,%fpcr               
10612         fmov.x          mpiby2(%pc),%fp0        
10613         bra.w           t_minx2                 
10614                                                 
10615 ############################################    
10616 # The following routines give support for fs    
10617 ############################################    
10618                                                 
10619 #                                               
10620 # ssincosz(): When the src operand is ZERO,     
10621 #             cosine register and return a Z    
10622 #             as the src operand.               
10623 #                                               
10624         global          ssincosz                
10625 ssincosz:                                       
10626         fmov.s          &0x3f800000,%fp1        
10627         tst.b           SRC_EX(%a0)             
10628         bpl.b           sincoszp                
10629         fmov.s          &0x80000000,%fp0        
10630         mov.b           &z_bmask+neg_bmask,F    
10631         rts                                     
10632 sincoszp:                                       
10633         fmov.s          &0x00000000,%fp0        
10634         mov.b           &z_bmask,FPSR_CC(%a6    
10635         rts                                     
10636                                                 
10637 #                                               
10638 # ssincosi(): When the src operand is INF, s    
10639 #             register and jump to the opera    
10640 #             src operands.                     
10641 #                                               
10642         global          ssincosi                
10643 ssincosi:                                       
10644         fmov.x          qnan(%pc),%fp1          
10645         bra.w           t_operr                 
10646                                                 
10647 #                                               
10648 # ssincosqnan(): When the src operand is a Q    
10649 #                register and branch to the     
10650 #                                               
10651         global          ssincosqnan             
10652 ssincosqnan:                                    
10653         fmov.x          LOCAL_EX(%a0),%fp1      
10654         bra.w           src_qnan                
10655                                                 
10656 ############################################    
10657                                                 
10658         global          smod_sdnrm              
10659         global          smod_snorm              
10660 smod_sdnrm:                                     
10661 smod_snorm:                                     
10662         mov.b           DTAG(%a6),%d1           
10663         beq.l           smod                    
10664         cmpi.b          %d1,&ZERO               
10665         beq.w           smod_zro                
10666         cmpi.b          %d1,&INF                
10667         beq.l           t_operr                 
10668         cmpi.b          %d1,&DENORM             
10669         beq.l           smod                    
10670         bra.l           dst_qnan                
10671                                                 
10672         global          smod_szero              
10673 smod_szero:                                     
10674         mov.b           DTAG(%a6),%d1           
10675         beq.l           t_operr                 
10676         cmpi.b          %d1,&ZERO               
10677         beq.l           t_operr                 
10678         cmpi.b          %d1,&INF                
10679         beq.l           t_operr                 
10680         cmpi.b          %d1,&DENORM             
10681         beq.l           t_operr                 
10682         bra.l           dst_qnan                
10683                                                 
10684         global          smod_sinf               
10685 smod_sinf:                                      
10686         mov.b           DTAG(%a6),%d1           
10687         beq.l           smod_fpn                
10688         cmpi.b          %d1,&ZERO               
10689         beq.l           smod_zro                
10690         cmpi.b          %d1,&INF                
10691         beq.l           t_operr                 
10692         cmpi.b          %d1,&DENORM             
10693         beq.l           smod_fpn                
10694         bra.l           dst_qnan                
10695                                                 
10696 smod_zro:                                       
10697 srem_zro:                                       
10698         mov.b           SRC_EX(%a0),%d1         
10699         mov.b           DST_EX(%a1),%d0         
10700         eor.b           %d0,%d1                 
10701         andi.b          &0x80,%d1               
10702         mov.b           %d1,FPSR_QBYTE(%a6)     
10703         tst.b           %d0                     
10704         bpl.w           ld_pzero                
10705         bra.w           ld_mzero                
10706                                                 
10707 smod_fpn:                                       
10708 srem_fpn:                                       
10709         clr.b           FPSR_QBYTE(%a6)         
10710         mov.l           %d0,-(%sp)              
10711         mov.b           SRC_EX(%a0),%d1         
10712         mov.b           DST_EX(%a1),%d0         
10713         eor.b           %d0,%d1                 
10714         andi.b          &0x80,%d1               
10715         mov.b           %d1,FPSR_QBYTE(%a6)     
10716         cmpi.b          DTAG(%a6),&DENORM       
10717         bne.b           smod_nrm                
10718         lea             DST(%a1),%a0            
10719         mov.l           (%sp)+,%d0              
10720         bra             t_resdnrm               
10721 smod_nrm:                                       
10722         fmov.l          (%sp)+,%fpcr            
10723         fmov.x          DST(%a1),%fp0           
10724         tst.b           DST_EX(%a1)             
10725         bmi.b           smod_nrm_neg            
10726         rts                                     
10727                                                 
10728 smod_nrm_neg:                                   
10729         mov.b           &neg_bmask,FPSR_CC(%    
10730         rts                                     
10731                                                 
10732 ############################################    
10733         global          srem_snorm              
10734         global          srem_sdnrm              
10735 srem_sdnrm:                                     
10736 srem_snorm:                                     
10737         mov.b           DTAG(%a6),%d1           
10738         beq.l           srem                    
10739         cmpi.b          %d1,&ZERO               
10740         beq.w           srem_zro                
10741         cmpi.b          %d1,&INF                
10742         beq.l           t_operr                 
10743         cmpi.b          %d1,&DENORM             
10744         beq.l           srem                    
10745         bra.l           dst_qnan                
10746                                                 
10747         global          srem_szero              
10748 srem_szero:                                     
10749         mov.b           DTAG(%a6),%d1           
10750         beq.l           t_operr                 
10751         cmpi.b          %d1,&ZERO               
10752         beq.l           t_operr                 
10753         cmpi.b          %d1,&INF                
10754         beq.l           t_operr                 
10755         cmpi.b          %d1,&DENORM             
10756         beq.l           t_operr                 
10757         bra.l           dst_qnan                
10758                                                 
10759         global          srem_sinf               
10760 srem_sinf:                                      
10761         mov.b           DTAG(%a6),%d1           
10762         beq.w           srem_fpn                
10763         cmpi.b          %d1,&ZERO               
10764         beq.w           srem_zro                
10765         cmpi.b          %d1,&INF                
10766         beq.l           t_operr                 
10767         cmpi.b          %d1,&DENORM             
10768         beq.l           srem_fpn                
10769         bra.l           dst_qnan                
10770                                                 
10771 ############################################    
10772                                                 
10773         global          sscale_snorm            
10774         global          sscale_sdnrm            
10775 sscale_snorm:                                   
10776 sscale_sdnrm:                                   
10777         mov.b           DTAG(%a6),%d1           
10778         beq.l           sscale                  
10779         cmpi.b          %d1,&ZERO               
10780         beq.l           dst_zero                
10781         cmpi.b          %d1,&INF                
10782         beq.l           dst_inf                 
10783         cmpi.b          %d1,&DENORM             
10784         beq.l           sscale                  
10785         bra.l           dst_qnan                
10786                                                 
10787         global          sscale_szero            
10788 sscale_szero:                                   
10789         mov.b           DTAG(%a6),%d1           
10790         beq.l           sscale                  
10791         cmpi.b          %d1,&ZERO               
10792         beq.l           dst_zero                
10793         cmpi.b          %d1,&INF                
10794         beq.l           dst_inf                 
10795         cmpi.b          %d1,&DENORM             
10796         beq.l           sscale                  
10797         bra.l           dst_qnan                
10798                                                 
10799         global          sscale_sinf             
10800 sscale_sinf:                                    
10801         mov.b           DTAG(%a6),%d1           
10802         beq.l           t_operr                 
10803         cmpi.b          %d1,&QNAN               
10804         beq.l           dst_qnan                
10805         bra.l           t_operr                 
10806                                                 
10807 ############################################    
10808                                                 
10809         global          sop_sqnan               
10810 sop_sqnan:                                      
10811         mov.b           DTAG(%a6),%d1           
10812         cmpi.b          %d1,&QNAN               
10813         beq.l           dst_qnan                
10814         bra.l           src_qnan                
10815                                                 
10816 ############################################    
10817 # norm(): normalize the mantissa of an exten    
10818 #         input operand should not be normal    
10819 #                                               
10820 # XDEF *************************************    
10821 #       norm()                                  
10822 #                                               
10823 # XREF *************************************    
10824 #       none                                    
10825 #                                               
10826 # INPUT ************************************    
10827 #       a0 = pointer fp extended precision o    
10828 #                                               
10829 # OUTPUT ***********************************    
10830 #       d0 = number of bit positions the man    
10831 #       a0 = the input operand's mantissa is    
10832 #            is unchanged.                      
10833 #                                               
10834 ############################################    
10835         global          norm                    
10836 norm:                                           
10837         mov.l           %d2, -(%sp)             
10838         mov.l           %d3, -(%sp)             
10839                                                 
10840         mov.l           FTEMP_HI(%a0), %d0      
10841         mov.l           FTEMP_LO(%a0), %d1      
10842                                                 
10843         bfffo           %d0{&0:&32}, %d2        
10844         beq.b           norm_lo                 
10845                                                 
10846 norm_hi:                                        
10847         lsl.l           %d2, %d0                
10848         bfextu          %d1{&0:%d2}, %d3        
10849                                                 
10850         or.l            %d3, %d0                
10851         lsl.l           %d2, %d1                
10852                                                 
10853         mov.l           %d0, FTEMP_HI(%a0)      
10854         mov.l           %d1, FTEMP_LO(%a0)      
10855                                                 
10856         mov.l           %d2, %d0                
10857                                                 
10858         mov.l           (%sp)+, %d3             
10859         mov.l           (%sp)+, %d2             
10860                                                 
10861         rts                                     
10862                                                 
10863 norm_lo:                                        
10864         bfffo           %d1{&0:&32}, %d2        
10865         lsl.l           %d2, %d1                
10866         add.l           &32, %d2                
10867                                                 
10868         mov.l           %d1, FTEMP_HI(%a0)      
10869         clr.l           FTEMP_LO(%a0)           
10870                                                 
10871         mov.l           %d2, %d0                
10872                                                 
10873         mov.l           (%sp)+, %d3             
10874         mov.l           (%sp)+, %d2             
10875                                                 
10876         rts                                     
10877                                                 
10878 ############################################    
10879 # unnorm_fix(): - changes an UNNORM to one o    
10880 #               - returns corresponding opty    
10881 #                                               
10882 # XDEF *************************************    
10883 #       unnorm_fix()                            
10884 #                                               
10885 # XREF *************************************    
10886 #       norm() - normalize the mantissa         
10887 #                                               
10888 # INPUT ************************************    
10889 #       a0 = pointer to unnormalized extende    
10890 #                                               
10891 # OUTPUT ***********************************    
10892 #       d0 = optype tag - is corrected to on    
10893 #       a0 = input operand has been converte    
10894 #            zero; both the exponent and man    
10895 #                                               
10896 ############################################    
10897                                                 
10898         global          unnorm_fix              
10899 unnorm_fix:                                     
10900         bfffo           FTEMP_HI(%a0){&0:&32    
10901         bne.b           unnorm_shift            
10902                                                 
10903 #                                               
10904 # hi(man) is all zeroes so see if any bits i    
10905 #                                               
10906 unnorm_chk_lo:                                  
10907         bfffo           FTEMP_LO(%a0){&0:&32    
10908         beq.w           unnorm_zero             
10909                                                 
10910         add.w           &32, %d0                
10911                                                 
10912 #                                               
10913 # d0 = # shifts needed for complete normaliz    
10914 #                                               
10915 unnorm_shift:                                   
10916         clr.l           %d1                     
10917         mov.w           FTEMP_EX(%a0), %d1      
10918         and.w           &0x7fff, %d1            
10919                                                 
10920         cmp.w           %d0, %d1                
10921         bgt.b           unnorm_nrm_zero         
10922                                                 
10923 #                                               
10924 # exponent would not go < 0. therefore, numb    
10925 #                                               
10926         sub.w           %d0, %d1                
10927         mov.w           FTEMP_EX(%a0), %d0      
10928         and.w           &0x8000, %d0            
10929         or.w            %d0, %d1                
10930         mov.w           %d1, FTEMP_EX(%a0)      
10931                                                 
10932         bsr.l           norm                    
10933                                                 
10934         mov.b           &NORM, %d0              
10935         rts                                     
10936                                                 
10937 #                                               
10938 # exponent would go < 0, so only denormalize    
10939 #                                               
10940 unnorm_nrm_zero:                                
10941         cmp.b           %d1, &32                
10942         bgt.b           unnorm_nrm_zero_lrg     
10943                                                 
10944         bfextu          FTEMP_HI(%a0){%d1:&3    
10945         mov.l           %d0, FTEMP_HI(%a0)      
10946                                                 
10947         mov.l           FTEMP_LO(%a0), %d0      
10948         lsl.l           %d1, %d0                
10949         mov.l           %d0, FTEMP_LO(%a0)      
10950                                                 
10951         and.w           &0x8000, FTEMP_EX(%a    
10952                                                 
10953         mov.b           &DENORM, %d0            
10954         rts                                     
10955                                                 
10956 #                                               
10957 # only mantissa bits set are in lo(man)         
10958 #                                               
10959 unnorm_nrm_zero_lrg:                            
10960         sub.w           &32, %d1                
10961                                                 
10962         mov.l           FTEMP_LO(%a0), %d0      
10963         lsl.l           %d1, %d0                
10964                                                 
10965         mov.l           %d0, FTEMP_HI(%a0)      
10966         clr.l           FTEMP_LO(%a0)           
10967                                                 
10968         and.w           &0x8000, FTEMP_EX(%a    
10969                                                 
10970         mov.b           &DENORM, %d0            
10971         rts                                     
10972                                                 
10973 #                                               
10974 # whole mantissa is zero so this UNNORM is a    
10975 #                                               
10976 unnorm_zero:                                    
10977         and.w           &0x8000, FTEMP_EX(%a    
10978                                                 
10979         mov.b           &ZERO, %d0              
10980         rts                                     
                                                      

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