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TOMOYO Linux Cross Reference
Linux/arch/m68k/fpsp040/slogn.S

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Diff markup

Differences between /arch/m68k/fpsp040/slogn.S (Version linux-6.12-rc7) and /arch/i386/fpsp040/slogn.S (Version ccs-tools-1.8.12)


  1 |                                                 
  2 |       slogn.sa 3.1 12/10/90                     
  3 |                                                 
  4 |       slogn computes the natural logarithm o    
  5 |       input value. slognd does the same exce    
  6 |       denormalized number. slognp1 computes     
  7 |       computes log(1+X) for denormalized X.     
  8 |                                                 
  9 |       Input: Double-extended value in memory    
 10 |               register a0.                      
 11 |                                                 
 12 |       Output: log(X) or log(1+X) returned in    
 13 |                                                 
 14 |       Accuracy and Monotonicity: The returne    
 15 |               64 significant bit, i.e. withi    
 16 |               result is subsequently rounded    
 17 |               result is provably monotonic i    
 18 |                                                 
 19 |       Speed: The program slogn takes approxi    
 20 |               argument X such that |X-1| >=     
 21 |               situation. For those arguments    
 22 |                210 cycles. For the less comm    
 23 |                run no worse than 10% slower.    
 24 |                                                 
 25 |       Algorithm:                                
 26 |       LOGN:                                     
 27 |       Step 1. If |X-1| < 1/16, approximate l    
 28 |               u, where u = 2(X-1)/(X+1). Oth    
 29 |                                                 
 30 |       Step 2. X = 2**k * Y where 1 <= Y < 2.    
 31 |               significant bits of Y plus 2**    
 32 |               2 where the six "x" match thos    
 33 |                                                 
 34 |       Step 3. Define u = (Y-F)/F. Approximat    
 35 |               log(1+u) = poly.                  
 36 |                                                 
 37 |       Step 4. Reconstruct log(X) = log( 2**k    
 38 |               by k*log(2) + (log(F) + poly).    
 39 |               beforehand and stored in the p    
 40 |                                                 
 41 |       lognp1:                                   
 42 |       Step 1: If |X| < 1/16, approximate log    
 43 |               u where u = 2X/(2+X). Otherwis    
 44 |                                                 
 45 |       Step 2: Let 1+X = 2**k * Y, where 1 <=    
 46 |               of the algorithm for LOGN and     
 47 |               k*log(2) + log(F) + poly where    
 48 |               u = (Y-F)/F.                      
 49 |                                                 
 50 |       Implementation Notes:                     
 51 |       Note 1. There are 64 different possibl    
 52 |               need to be tabulated. Moreover    
 53 |               tabulated so that the division    
 54 |               multiplication.                   
 55 |                                                 
 56 |       Note 2. In Step 2 of lognp1, in order     
 57 |               Y-F has to be calculated caref    
 58 |                                                 
 59 |       Note 3. To fully exploit the pipeline,    
 60 |               into two parts evaluated indep    
 61 |                                                 
 62                                                   
 63 |               Copyright (C) Motorola, Inc. 1    
 64 |                       All Rights Reserved       
 65 |                                                 
 66 |       For details on the license for this fi    
 67 |       file, README, in this same directory.     
 68                                                   
 69 |slogn  idnt    2,1 | Motorola 040 Floating Po    
 70                                                   
 71         |section        8                         
 72                                                   
 73 #include "fpsp.h"                                 
 74                                                   
 75 BOUNDS1:  .long 0x3FFEF07D,0x3FFF8841             
 76 BOUNDS2:  .long 0x3FFE8000,0x3FFFC000             
 77                                                   
 78 LOGOF2: .long 0x3FFE0000,0xB17217F7,0xD1CF79AC    
 79                                                   
 80 one:    .long 0x3F800000                          
 81 zero:   .long 0x00000000                          
 82 infty:  .long 0x7F800000                          
 83 negone: .long 0xBF800000                          
 84                                                   
 85 LOGA6:  .long 0x3FC2499A,0xB5E4040B               
 86 LOGA5:  .long 0xBFC555B5,0x848CB7DB               
 87                                                   
 88 LOGA4:  .long 0x3FC99999,0x987D8730               
 89 LOGA3:  .long 0xBFCFFFFF,0xFF6F7E97               
 90                                                   
 91 LOGA2:  .long 0x3FD55555,0x555555a4               
 92 LOGA1:  .long 0xBFE00000,0x00000008               
 93                                                   
 94 LOGB5:  .long 0x3F175496,0xADD7DAD6               
 95 LOGB4:  .long 0x3F3C71C2,0xFE80C7E0               
 96                                                   
 97 LOGB3:  .long 0x3F624924,0x928BCCFF               
 98 LOGB2:  .long 0x3F899999,0x999995EC               
 99                                                   
100 LOGB1:  .long 0x3FB55555,0x55555555               
101 TWO:    .long 0x40000000,0x00000000               
102                                                   
103 LTHOLD: .long 0x3f990000,0x80000000,0x00000000    
104                                                   
105 LOGTBL:                                           
106         .long  0x3FFE0000,0xFE03F80F,0xE03F80F    
107         .long  0x3FF70000,0xFF015358,0x833C47E    
108         .long  0x3FFE0000,0xFA232CF2,0x52138AC    
109         .long  0x3FF90000,0xBDC8D83E,0xAD88D54    
110         .long  0x3FFE0000,0xF6603D98,0x0F6603D    
111         .long  0x3FFA0000,0x9CF43DCF,0xF5EAFD4    
112         .long  0x3FFE0000,0xF2B9D648,0x0F2B9D6    
113         .long  0x3FFA0000,0xDA16EB88,0xCB8DF61    
114         .long  0x3FFE0000,0xEF2EB71F,0xC434523    
115         .long  0x3FFB0000,0x8B29B775,0x1BD7074    
116         .long  0x3FFE0000,0xEBBDB2A5,0xC1619C8    
117         .long  0x3FFB0000,0xA8D839F8,0x30C1FB4    
118         .long  0x3FFE0000,0xE865AC7B,0x7603A19    
119         .long  0x3FFB0000,0xC61A2EB1,0x8CD907A    
120         .long  0x3FFE0000,0xE525982A,0xF70C880    
121         .long  0x3FFB0000,0xE2F2A47A,0xDE3A18A    
122         .long  0x3FFE0000,0xE1FC780E,0x1FC780E    
123         .long  0x3FFB0000,0xFF64898E,0xDF55D55    
124         .long  0x3FFE0000,0xDEE95C4C,0xA037BA5    
125         .long  0x3FFC0000,0x8DB956A9,0x7B3D014    
126         .long  0x3FFE0000,0xDBEB61EE,0xD19C595    
127         .long  0x3FFC0000,0x9B8FE100,0xF47BA1D    
128         .long  0x3FFE0000,0xD901B203,0x6406C80    
129         .long  0x3FFC0000,0xA9372F1D,0x0DA1BD1    
130         .long  0x3FFE0000,0xD62B80D6,0x2B80D62    
131         .long  0x3FFC0000,0xB6B07F38,0xCE90E46    
132         .long  0x3FFE0000,0xD3680D36,0x80D3680    
133         .long  0x3FFC0000,0xC3FD0329,0x0648848    
134         .long  0x3FFE0000,0xD0B69FCB,0xD2580D0    
135         .long  0x3FFC0000,0xD11DE0FF,0x15AB18C    
136         .long  0x3FFE0000,0xCE168A77,0x25080CE    
137         .long  0x3FFC0000,0xDE1433A1,0x6C66B15    
138         .long  0x3FFE0000,0xCB8727C0,0x65C393E    
139         .long  0x3FFC0000,0xEAE10B5A,0x7DDC8AD    
140         .long  0x3FFE0000,0xC907DA4E,0x871146A    
141         .long  0x3FFC0000,0xF7856E5E,0xE2C9B29    
142         .long  0x3FFE0000,0xC6980C69,0x80C6980    
143         .long  0x3FFD0000,0x82012CA5,0xA68206D    
144         .long  0x3FFE0000,0xC4372F85,0x5D824CA    
145         .long  0x3FFD0000,0x882C5FCD,0x7256A8C    
146         .long  0x3FFE0000,0xC1E4BBD5,0x95F6E94    
147         .long  0x3FFD0000,0x8E44C60B,0x4CCFD7D    
148         .long  0x3FFE0000,0xBFA02FE8,0x0BFA02F    
149         .long  0x3FFD0000,0x944AD09E,0xF4351AF    
150         .long  0x3FFE0000,0xBD691047,0x07661AA    
151         .long  0x3FFD0000,0x9A3EECD4,0xC3EAA6B    
152         .long  0x3FFE0000,0xBB3EE721,0xA54D880    
153         .long  0x3FFD0000,0xA0218434,0x353F1DE    
154         .long  0x3FFE0000,0xB92143FA,0x36F5E02    
155         .long  0x3FFD0000,0xA5F2FCAB,0xBBC506D    
156         .long  0x3FFE0000,0xB70FBB5A,0x19BE365    
157         .long  0x3FFD0000,0xABB3B8BA,0x2AD362A    
158         .long  0x3FFE0000,0xB509E68A,0x9B94821    
159         .long  0x3FFD0000,0xB1641795,0xCE3CA97    
160         .long  0x3FFE0000,0xB30F6352,0x8917C80    
161         .long  0x3FFD0000,0xB7047551,0x5D0F1C6    
162         .long  0x3FFE0000,0xB11FD3B8,0x0B11FD3    
163         .long  0x3FFD0000,0xBC952AFE,0xEA3D13E    
164         .long  0x3FFE0000,0xAF3ADDC6,0x80AF3AD    
165         .long  0x3FFD0000,0xC2168ED0,0xF458BA4    
166         .long  0x3FFE0000,0xAD602B58,0x0AD602B    
167         .long  0x3FFD0000,0xC788F439,0xB3163BF    
168         .long  0x3FFE0000,0xAB8F69E2,0x8359CD1    
169         .long  0x3FFD0000,0xCCECAC08,0xBF04565    
170         .long  0x3FFE0000,0xA9C84A47,0xA07F563    
171         .long  0x3FFD0000,0xD2420487,0x2DD8516    
172         .long  0x3FFE0000,0xA80A80A8,0x0A80A80    
173         .long  0x3FFD0000,0xD7894992,0x3BC3588    
174         .long  0x3FFE0000,0xA655C439,0x2D7B73A    
175         .long  0x3FFD0000,0xDCC2C4B4,0x9887DAC    
176         .long  0x3FFE0000,0xA4A9CF1D,0x9683375    
177         .long  0x3FFD0000,0xE1EEBD3E,0x6D6A6B9    
178         .long  0x3FFE0000,0xA3065E3F,0xAE7CD0E    
179         .long  0x3FFD0000,0xE70D785C,0x2F9F5BD    
180         .long  0x3FFE0000,0xA16B312E,0xA8FC377    
181         .long  0x3FFD0000,0xEC1F392C,0x5179F28    
182         .long  0x3FFE0000,0x9FD809FD,0x809FD80    
183         .long  0x3FFD0000,0xF12440D3,0xE36130E    
184         .long  0x3FFE0000,0x9E4CAD23,0xDD5F3A2    
185         .long  0x3FFD0000,0xF61CCE92,0x346600B    
186         .long  0x3FFE0000,0x9CC8E160,0xC3FB19B    
187         .long  0x3FFD0000,0xFB091FD3,0x8145630    
188         .long  0x3FFE0000,0x9B4C6F9E,0xF03A3CA    
189         .long  0x3FFD0000,0xFFE97042,0xBFA4C2A    
190         .long  0x3FFE0000,0x99D722DA,0xBDE58F0    
191         .long  0x3FFE0000,0x825EFCED,0x4936933    
192         .long  0x3FFE0000,0x9868C809,0x868C809    
193         .long  0x3FFE0000,0x84C37A7A,0xB9A905C    
194         .long  0x3FFE0000,0x97012E02,0x5C04B80    
195         .long  0x3FFE0000,0x87224C2E,0x8E645FB    
196         .long  0x3FFE0000,0x95A02568,0x095A025    
197         .long  0x3FFE0000,0x897B8CAC,0x9F7DE29    
198         .long  0x3FFE0000,0x94458094,0x4580944    
199         .long  0x3FFE0000,0x8BCF55DE,0xC4CD05F    
200         .long  0x3FFE0000,0x92F11384,0x0497889    
201         .long  0x3FFE0000,0x8E1DC0FB,0x89E125E    
202         .long  0x3FFE0000,0x91A2B3C4,0xD5E6F80    
203         .long  0x3FFE0000,0x9066E68C,0x955B6C9    
204         .long  0x3FFE0000,0x905A3863,0x3E06C43    
205         .long  0x3FFE0000,0x92AADE74,0xC7BE59E    
206         .long  0x3FFE0000,0x8F1779D9,0xFDC3A21    
207         .long  0x3FFE0000,0x94E9BFF6,0x1584564    
208         .long  0x3FFE0000,0x8DDA5202,0x3769480    
209         .long  0x3FFE0000,0x9723A1B7,0x2013420    
210         .long  0x3FFE0000,0x8CA29C04,0x6514E02    
211         .long  0x3FFE0000,0x995899C8,0x90EB899    
212         .long  0x3FFE0000,0x8B70344A,0x139BC75    
213         .long  0x3FFE0000,0x9B88BDAA,0x3A3DAE2    
214         .long  0x3FFE0000,0x8A42F870,0x5669DB4    
215         .long  0x3FFE0000,0x9DB4224F,0xFFE1157    
216         .long  0x3FFE0000,0x891AC73A,0xE9819B5    
217         .long  0x3FFE0000,0x9FDADC26,0x8B7A12D    
218         .long  0x3FFE0000,0x87F78087,0xF78087F    
219         .long  0x3FFE0000,0xA1FCFF17,0xCE733BD    
220         .long  0x3FFE0000,0x86D90544,0x7A34ACC    
221         .long  0x3FFE0000,0xA41A9E8F,0x5446FB9    
222         .long  0x3FFE0000,0x85BF3761,0x2CEE3C9    
223         .long  0x3FFE0000,0xA633CD7E,0x6771CD8    
224         .long  0x3FFE0000,0x84A9F9C8,0x084A9F9    
225         .long  0x3FFE0000,0xA8489E60,0x0B435A5    
226         .long  0x3FFE0000,0x83993052,0x3FBE336    
227         .long  0x3FFE0000,0xAA59233C,0xCCA4BD4    
228         .long  0x3FFE0000,0x828CBFBE,0xB9A020A    
229         .long  0x3FFE0000,0xAC656DAE,0x6BCC498    
230         .long  0x3FFE0000,0x81848DA8,0xFAF0D27    
231         .long  0x3FFE0000,0xAE6D8EE3,0x60BB246    
232         .long  0x3FFE0000,0x80808080,0x8080808    
233         .long  0x3FFE0000,0xB07197A2,0x3C46C65    
234                                                   
235         .set    ADJK,L_SCR1                       
236                                                   
237         .set    X,FP_SCR1                         
238         .set    XDCARE,X+2                        
239         .set    XFRAC,X+4                         
240                                                   
241         .set    F,FP_SCR2                         
242         .set    FFRAC,F+4                         
243                                                   
244         .set    KLOG2,FP_SCR3                     
245                                                   
246         .set    SAVEU,FP_SCR4                     
247                                                   
248         | xref  t_frcinx                          
249         |xref   t_extdnrm                         
250         |xref   t_operr                           
251         |xref   t_dz                              
252                                                   
253         .global slognd                            
254 slognd:                                           
255 |--ENTRY POINT FOR LOG(X) FOR DENORMALIZED INP    
256                                                   
257         movel           #-100,ADJK(%a6) | ...I    
258                                                   
259 |----normalize the input value by left shiftin    
260 |----below), adjusting exponent and storing -k    
261 |----the value TWOTO100 is no longer needed.      
262 |----Note that this code assumes the denormali    
263                                                   
264         moveml  %d2-%d7,-(%a7)          | ...s    
265         movel   #0x00000000,%d3         | ...D    
266         movel   4(%a0),%d4                        
267         movel   8(%a0),%d5              | ...(    
268         clrl    %d2                     | ...D    
269                                                   
270         tstl    %d4                               
271         bnes    HiX_not0                          
272                                                   
273 HiX_0:                                            
274         movel   %d5,%d4                           
275         clrl    %d5                               
276         movel   #32,%d2                           
277         clrl    %d6                               
278         bfffo      %d4{#0:#32},%d6                
279         lsll      %d6,%d4                         
280         addl    %d6,%d2                 | ...(    
281                                                   
282         movel   %d3,X(%a6)                        
283         movel   %d4,XFRAC(%a6)                    
284         movel   %d5,XFRAC+4(%a6)                  
285         negl    %d2                               
286         movel   %d2,ADJK(%a6)                     
287         fmovex  X(%a6),%fp0                       
288         moveml  (%a7)+,%d2-%d7          | ...r    
289         lea     X(%a6),%a0                        
290         bras    LOGBGN                  | ...b    
291                                                   
292                                                   
293 HiX_not0:                                         
294         clrl    %d6                               
295         bfffo   %d4{#0:#32},%d6         | ...f    
296         movel   %d6,%d2                 | ...g    
297         lsll    %d6,%d4                           
298         movel   %d5,%d7                 | ...a    
299         lsll    %d6,%d5                           
300         negl    %d6                               
301         addil   #32,%d6                           
302         lsrl    %d6,%d7                           
303         orl     %d7,%d4                 | ...(    
304                                                   
305         movel   %d3,X(%a6)                        
306         movel   %d4,XFRAC(%a6)                    
307         movel   %d5,XFRAC+4(%a6)                  
308         negl    %d2                               
309         movel   %d2,ADJK(%a6)                     
310         fmovex  X(%a6),%fp0                       
311         moveml  (%a7)+,%d2-%d7          | ...r    
312         lea     X(%a6),%a0                        
313         bras    LOGBGN                  | ...b    
314                                                   
315                                                   
316         .global slogn                             
317 slogn:                                            
318 |--ENTRY POINT FOR LOG(X) FOR X FINITE, NON-ZE    
319                                                   
320         fmovex          (%a0),%fp0      | ...L    
321         movel           #0x00000000,ADJK(%a6)     
322                                                   
323 LOGBGN:                                           
324 |--FPCR SAVED AND CLEARED, INPUT IS 2^(ADJK)*F    
325 |--A FINITE, NON-ZERO, NORMALIZED NUMBER.         
326                                                   
327         movel   (%a0),%d0                         
328         movew   4(%a0),%d0                        
329                                                   
330         movel   (%a0),X(%a6)                      
331         movel   4(%a0),X+4(%a6)                   
332         movel   8(%a0),X+8(%a6)                   
333                                                   
334         cmpil   #0,%d0          | ...CHECK IF     
335         blt     LOGNEG          | ...LOG OF NE    
336         cmp2l   BOUNDS1,%d0     | ...X IS POSI    
337         bcc     LOGNEAR1        | ...BOUNDS IS    
338                                                   
339 LOGMAIN:                                          
340 |--THIS SHOULD BE THE USUAL CASE, X NOT VERY C    
341                                                   
342 |--X = 2^(K) * Y, 1 <= Y < 2. THUS, Y = 1.XXXX    
343 |--WE DEFINE F = 1.XXXXXX1, I.E. FIRST 7 BITS     
344 |--THE IDEA IS THAT LOG(X) = K*LOG2 + LOG(Y)      
345 |--                      = K*LOG2 + LOG(F) + L    
346 |--NOTE THAT U = (Y-F)/F IS VERY SMALL AND THU    
347 |--LOG(1+U) CAN BE VERY EFFICIENT.                
348 |--ALSO NOTE THAT THE VALUE 1/F IS STORED IN A    
349 |--DIVISION IS NEEDED TO CALCULATE (Y-F)/F.       
350                                                   
351 |--GET K, Y, F, AND ADDRESS OF 1/F.               
352         asrl    #8,%d0                            
353         asrl    #8,%d0          | ...SHIFTED 1    
354         subil   #0x3FFF,%d0     | ...THIS IS K    
355         addl    ADJK(%a6),%d0   | ...ADJUST K,    
356         lea     LOGTBL,%a0      | ...BASE ADDR    
357         fmovel  %d0,%fp1                | ...C    
358                                                   
359 |--WHILE THE CONVERSION IS GOING ON, WE GET F     
360         movel   #0x3FFF0000,X(%a6)      | ...X    
361         movel   XFRAC(%a6),FFRAC(%a6)             
362         andil   #0xFE000000,FFRAC(%a6) | ...FI    
363         oril    #0x01000000,FFRAC(%a6) | ...GE    
364         movel   FFRAC(%a6),%d0  | ...READY TO     
365         andil   #0x7E000000,%d0                   
366         asrl    #8,%d0                            
367         asrl    #8,%d0                            
368         asrl    #4,%d0          | ...SHIFTED 2    
369         addal   %d0,%a0         | ...A0 IS THE    
370                                                   
371         fmovex  X(%a6),%fp0                       
372         movel   #0x3fff0000,F(%a6)                
373         clrl    F+8(%a6)                          
374         fsubx   F(%a6),%fp0             | ...Y    
375         fmovemx %fp2-%fp2/%fp3,-(%sp)   | ...S    
376 |--SUMMARY: FP0 IS Y-F, A0 IS ADDRESS OF 1/F,     
377 |--REGISTERS SAVED: FPCR, FP1, FP2                
378                                                   
379 LP1CONT1:                                         
380 |--AN RE-ENTRY POINT FOR LOGNP1                   
381         fmulx   (%a0),%fp0      | ...FP0 IS U     
382         fmulx   LOGOF2,%fp1     | ...GET K*LOG    
383         fmovex  %fp0,%fp2                         
384         fmulx   %fp2,%fp2               | ...F    
385         fmovex  %fp1,KLOG2(%a6) | ...PUT K*LOG    
386                                                   
387 |--LOG(1+U) IS APPROXIMATED BY                    
388 |--U + V*(A1+U*(A2+U*(A3+U*(A4+U*(A5+U*A6)))))    
389 |--[U + V*(A1+V*(A3+V*A5))]  +  [U*V*(A2+V*(A4    
390                                                   
391         fmovex  %fp2,%fp3                         
392         fmovex  %fp2,%fp1                         
393                                                   
394         fmuld   LOGA6,%fp1      | ...V*A6         
395         fmuld   LOGA5,%fp2      | ...V*A5         
396                                                   
397         faddd   LOGA4,%fp1      | ...A4+V*A6      
398         faddd   LOGA3,%fp2      | ...A3+V*A5      
399                                                   
400         fmulx   %fp3,%fp1               | ...V    
401         fmulx   %fp3,%fp2               | ...V    
402                                                   
403         faddd   LOGA2,%fp1      | ...A2+V*(A4+    
404         faddd   LOGA1,%fp2      | ...A1+V*(A3+    
405                                                   
406         fmulx   %fp3,%fp1               | ...V    
407         addal   #16,%a0         | ...ADDRESS O    
408         fmulx   %fp3,%fp2               | ...V    
409                                                   
410         fmulx   %fp0,%fp1               | ...U    
411         faddx   %fp2,%fp0               | ...U    
412                                                   
413         faddx   (%a0),%fp1      | ...LOG(F)+U*    
414         fmovemx  (%sp)+,%fp2-%fp2/%fp3  | ...R    
415         faddx   %fp1,%fp0               | ...F    
416                                                   
417         fmovel  %d1,%fpcr                         
418         faddx   KLOG2(%a6),%fp0 | ...FINAL ADD    
419         bra     t_frcinx                          
420                                                   
421                                                   
422 LOGNEAR1:                                         
423 |--REGISTERS SAVED: FPCR, FP1. FP0 CONTAINS TH    
424         fmovex  %fp0,%fp1                         
425         fsubs   one,%fp1                | ...F    
426         fadds   one,%fp0                | ...F    
427         faddx   %fp1,%fp1               | ...F    
428 |--LOG(X) = LOG(1+U/2)-LOG(1-U/2) WHICH IS AN     
429 |--IN U, U = 2(X-1)/(X+1) = FP1/FP0               
430                                                   
431 LP1CONT2:                                         
432 |--THIS IS AN RE-ENTRY POINT FOR LOGNP1           
433         fdivx   %fp0,%fp1               | ...F    
434         fmovemx %fp2-%fp2/%fp3,-(%sp)    | ...    
435 |--REGISTERS SAVED ARE NOW FPCR,FP1,FP2,FP3       
436 |--LET V=U*U, W=V*V, CALCULATE                    
437 |--U + U*V*(B1 + V*(B2 + V*(B3 + V*(B4 + V*B5)    
438 |--U + U*V*(  [B1 + W*(B3 + W*B5)]  +  [V*(B2     
439         fmovex  %fp1,%fp0                         
440         fmulx   %fp0,%fp0       | ...FP0 IS V     
441         fmovex  %fp1,SAVEU(%a6) | ...STORE U I    
442         fmovex  %fp0,%fp1                         
443         fmulx   %fp1,%fp1       | ...FP1 IS W     
444                                                   
445         fmoved  LOGB5,%fp3                        
446         fmoved  LOGB4,%fp2                        
447                                                   
448         fmulx   %fp1,%fp3       | ...W*B5         
449         fmulx   %fp1,%fp2       | ...W*B4         
450                                                   
451         faddd   LOGB3,%fp3 | ...B3+W*B5           
452         faddd   LOGB2,%fp2 | ...B2+W*B4           
453                                                   
454         fmulx   %fp3,%fp1       | ...W*(B3+W*B    
455                                                   
456         fmulx   %fp0,%fp2       | ...V*(B2+W*B    
457                                                   
458         faddd   LOGB1,%fp1 | ...B1+W*(B3+W*B5)    
459         fmulx   SAVEU(%a6),%fp0 | ...FP0 IS U*    
460                                                   
461         faddx   %fp2,%fp1       | ...B1+W*(B3+    
462         fmovemx (%sp)+,%fp2-%fp2/%fp3 | ...FP2    
463                                                   
464         fmulx   %fp1,%fp0       | ...U*V*( [B1    
465                                                   
466         fmovel  %d1,%fpcr                         
467         faddx   SAVEU(%a6),%fp0                   
468         bra     t_frcinx                          
469         rts                                       
470                                                   
471 LOGNEG:                                           
472 |--REGISTERS SAVED FPCR. LOG(-VE) IS INVALID      
473         bra     t_operr                           
474                                                   
475         .global slognp1d                          
476 slognp1d:                                         
477 |--ENTRY POINT FOR LOG(1+Z) FOR DENORMALIZED I    
478 | Simply return the denorm                        
479                                                   
480         bra     t_extdnrm                         
481                                                   
482         .global slognp1                           
483 slognp1:                                          
484 |--ENTRY POINT FOR LOG(1+X) FOR X FINITE, NON-    
485                                                   
486         fmovex  (%a0),%fp0      | ...LOAD INPU    
487         fabsx   %fp0            |test magnitud    
488         fcmpx   LTHOLD,%fp0     |compare with     
489         fbgt    LP1REAL         |if greater, c    
490         fmovel  #0,%fpsr                |clr N    
491         fmovel  %d1,%fpcr                         
492         fmovex  (%a0),%fp0      |return signed    
493         bra     t_frcinx                          
494                                                   
495 LP1REAL:                                          
496         fmovex  (%a0),%fp0      | ...LOAD INPU    
497         movel   #0x00000000,ADJK(%a6)             
498         fmovex  %fp0,%fp1       | ...FP1 IS IN    
499         fadds   one,%fp0        | ...X := ROUN    
500         fmovex  %fp0,X(%a6)                       
501         movew   XFRAC(%a6),XDCARE(%a6)            
502         movel   X(%a6),%d0                        
503         cmpil   #0,%d0                            
504         ble     LP1NEG0 | ...LOG OF ZERO OR -V    
505         cmp2l   BOUNDS2,%d0                       
506         bcs     LOGMAIN | ...BOUNDS2 IS [1/2,3    
507 |--IF 1+Z > 3/2 OR 1+Z < 1/2, THEN X, WHICH IS    
508 |--CONTAINS AT LEAST 63 BITS OF INFORMATION OF    
509 |--SIMPLY INVOKE LOG(X) FOR LOG(1+Z).             
510                                                   
511 LP1NEAR1:                                         
512 |--NEXT SEE IF EXP(-1/16) < X < EXP(1/16)         
513         cmp2l   BOUNDS1,%d0                       
514         bcss    LP1CARE                           
515                                                   
516 LP1ONE16:                                         
517 |--EXP(-1/16) < X < EXP(1/16). LOG(1+Z) = LOG(    
518 |--WHERE U = 2Z/(2+Z) = 2Z/(1+X).                 
519         faddx   %fp1,%fp1       | ...FP1 IS 2Z    
520         fadds   one,%fp0        | ...FP0 IS 1+    
521 |--U = FP1/FP0                                    
522         bra     LP1CONT2                          
523                                                   
524 LP1CARE:                                          
525 |--HERE WE USE THE USUAL TABLE DRIVEN APPROACH    
526 |--TAKEN BECAUSE 1+Z CAN HAVE 67 BITS OF INFOR    
527 |--PRESERVE ALL THE INFORMATION. BECAUSE 1+Z I    
528 |--THERE ARE ONLY TWO CASES.                      
529 |--CASE 1: 1+Z < 1, THEN K = -1 AND Y-F = (2-F    
530 |--CASE 2: 1+Z > 1, THEN K = 0  AND Y-F = (1-F    
531 |--ON RETURNING TO LP1CONT1, WE MUST HAVE K IN    
532 |--(1/F) IN A0, Y-F IN FP0, AND FP2 SAVED.        
533                                                   
534         movel   XFRAC(%a6),FFRAC(%a6)             
535         andil   #0xFE000000,FFRAC(%a6)            
536         oril    #0x01000000,FFRAC(%a6)  | ...F    
537         cmpil   #0x3FFF8000,%d0 | ...SEE IF 1+    
538         bges    KISZERO                           
539                                                   
540 KISNEG1:                                          
541         fmoves  TWO,%fp0                          
542         movel   #0x3fff0000,F(%a6)                
543         clrl    F+8(%a6)                          
544         fsubx   F(%a6),%fp0     | ...2-F          
545         movel   FFRAC(%a6),%d0                    
546         andil   #0x7E000000,%d0                   
547         asrl    #8,%d0                            
548         asrl    #8,%d0                            
549         asrl    #4,%d0          | ...D0 CONTAI    
550         faddx   %fp1,%fp1               | ...G    
551         fmovemx %fp2-%fp2/%fp3,-(%sp)   | ...S    
552         faddx   %fp1,%fp0               | ...F    
553         lea     LOGTBL,%a0      | ...A0 IS ADD    
554         addal   %d0,%a0                           
555         fmoves  negone,%fp1     | ...FP1 IS K     
556         bra     LP1CONT1                          
557                                                   
558 KISZERO:                                          
559         fmoves  one,%fp0                          
560         movel   #0x3fff0000,F(%a6)                
561         clrl    F+8(%a6)                          
562         fsubx   F(%a6),%fp0             | ...1    
563         movel   FFRAC(%a6),%d0                    
564         andil   #0x7E000000,%d0                   
565         asrl    #8,%d0                            
566         asrl    #8,%d0                            
567         asrl    #4,%d0                            
568         faddx   %fp1,%fp0               | ...F    
569         fmovemx %fp2-%fp2/%fp3,-(%sp)   | ...F    
570         lea     LOGTBL,%a0                        
571         addal   %d0,%a0         | ...A0 IS ADD    
572         fmoves  zero,%fp1       | ...FP1 IS K     
573         bra     LP1CONT1                          
574                                                   
575 LP1NEG0:                                          
576 |--FPCR SAVED. D0 IS X IN COMPACT FORM.           
577         cmpil   #0,%d0                            
578         blts    LP1NEG                            
579 LP1ZERO:                                          
580         fmoves  negone,%fp0                       
581                                                   
582         fmovel  %d1,%fpcr                         
583         bra t_dz                                  
584                                                   
585 LP1NEG:                                           
586         fmoves  zero,%fp0                         
587                                                   
588         fmovel  %d1,%fpcr                         
589         bra     t_operr                           
590                                                   
591         |end                                      
                                                      

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