xref: /freebsd/contrib/llvm-project/compiler-rt/lib/builtins/hexagon/fastmath2_dlib_asm.S (revision e8d8bef961a50d4dc22501cde4fb9fb0be1b2532)
1//===----------------------Hexagon builtin routine ------------------------===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8/* ==================================================================== */
9/*   FUNCTIONS Optimized double floating point operators                */
10/* ==================================================================== */
11/*      c = dadd_asm(a, b)                                              */
12/* ==================================================================== *
13fast2_QDOUBLE fast2_dadd(fast2_QDOUBLE a,fast2_QDOUBLE b) {
14      fast2_QDOUBLE c;
15      lint manta = a & MANTMASK;
16      int  expa  = Q6_R_sxth_R(a) ;
17      lint mantb = b & MANTMASK;
18      int  expb  = Q6_R_sxth_R(b) ;
19      int  exp, expdiff, j, k, hi, lo, cn;
20      lint mant;
21
22        expdiff = (int) Q6_P_vabsdiffh_PP(a, b);
23        expdiff = Q6_R_sxth_R(expdiff) ;
24        if (expdiff > 63) { expdiff = 62;}
25        if (expa > expb) {
26          exp = expa + 1;
27          expa = 1;
28          expb = expdiff + 1;
29        } else {
30          exp = expb + 1;
31          expb = 1;
32          expa = expdiff + 1;
33        }
34        mant = (manta>>expa) + (mantb>>expb);
35
36        hi = (int) (mant>>32);
37        lo = (int) (mant);
38
39        k =  Q6_R_normamt_R(hi);
40        if(hi == 0 || hi == -1) k = 31+Q6_R_normamt_R(lo);
41
42        mant = (mant << k);
43        cn  = (mant == 0x8000000000000000LL);
44        exp = exp - k + cn;
45
46        if (mant ==  0 || mant == -1)  exp = 0x8001;
47        c = (mant & MANTMASK) | (((lint) exp) & EXP_MASK);
48      return(c);
49 }
50 * ==================================================================== */
51        .text
52        .global fast2_dadd_asm
53        .type fast2_dadd_asm, @function
54fast2_dadd_asm:
55#define manta      R0
56#define mantexpa   R1:0
57#define lmanta     R1:0
58#define mantb      R2
59#define mantexpb   R3:2
60#define lmantb     R3:2
61#define expa       R4
62#define expb       R5
63#define mantexpd   R7:6
64#define expd       R6
65#define exp        R8
66#define c63        R9
67#define lmant      R1:0
68#define manth      R1
69#define mantl      R0
70#define minmin     R11:10  // exactly 0x000000000000008001LL
71#define minminl    R10
72#define k          R4
73#define ce         P0
74        .falign
75      {
76        mantexpd = VABSDIFFH(mantexpa, mantexpb) //represented as 0x08001LL
77        c63 = #62
78        expa = SXTH(manta)
79        expb = SXTH(mantb)
80      } {
81        expd = SXTH(expd)
82        ce = CMP.GT(expa, expb);
83        if ( ce.new) exp = add(expa, #1)
84        if (!ce.new) exp = add(expb, #1)
85      } {
86        if ( ce) expa = #1
87        if (!ce) expb = #1
88        manta.L = #0
89        expd = MIN(expd, c63)
90      } {
91        if (!ce) expa = add(expd, #1)
92        if ( ce) expb = add(expd, #1)
93        mantb.L = #0
94        minmin = #0
95      } {
96        lmanta = ASR(lmanta, expa)
97        lmantb = ASR(lmantb, expb)
98      } {
99        lmant = add(lmanta, lmantb)
100        minminl.L = #0x8001
101      } {
102        k  = clb(lmant)
103        c63 = #58
104      } {
105        k = add(k, #-1)
106        p0 = cmp.gt(k, c63)
107      } {
108        mantexpa = ASL(lmant, k)
109        exp = SUB(exp, k)
110        if(p0) jump .Ldenorma
111      } {
112        manta = insert(exp, #16, #0)
113        jumpr  r31
114      }
115.Ldenorma:
116      {
117        mantexpa = minmin
118        jumpr  r31
119      }
120/* =================================================================== *
121 fast2_QDOUBLE fast2_dsub(fast2_QDOUBLE a,fast2_QDOUBLE b) {
122      fast2_QDOUBLE c;
123      lint manta = a & MANTMASK;
124      int  expa  = Q6_R_sxth_R(a) ;
125      lint mantb = b & MANTMASK;
126      int  expb  = Q6_R_sxth_R(b) ;
127      int  exp, expdiff, j, k;
128      lint mant;
129
130        expdiff = (int) Q6_P_vabsdiffh_PP(a, b);
131        expdiff = Q6_R_sxth_R(expdiff) ;
132        if (expdiff > 63) { expdiff = 62;}
133        if (expa > expb) {
134          exp = expa + 1;
135          expa = 1;
136          expb = expdiff + 1;
137        } else {
138          exp = expb + 1;
139          expb = 1;
140          expa = expdiff + 1;
141        }
142        mant = (manta>>expa) - (mantb>>expb);
143        k =  Q6_R_clb_P(mant)-1;
144        mant = (mant << k);
145        exp = exp - k;
146        if (mant ==  0 || mant == -1)  exp = 0x8001;
147        c = (mant & MANTMASK) | (((lint) exp) & EXP_MASK);
148      return(c);
149 }
150 * ==================================================================== */
151        .text
152        .global fast2_dsub_asm
153        .type fast2_dsub_asm, @function
154fast2_dsub_asm:
155
156#define manta      R0
157#define mantexpa   R1:0
158#define lmanta     R1:0
159#define mantb      R2
160#define mantexpb   R3:2
161#define lmantb     R3:2
162#define expa       R4
163#define expb       R5
164#define mantexpd   R7:6
165#define expd       R6
166#define exp        R8
167#define c63        R9
168#define lmant      R1:0
169#define manth      R1
170#define mantl      R0
171#define minmin     R11:10  // exactly 0x000000000000008001LL
172#define minminl    R10
173#define k          R4
174#define ce         P0
175        .falign
176      {
177        mantexpd = VABSDIFFH(mantexpa, mantexpb) //represented as 0x08001LL
178        c63 = #62
179        expa = SXTH(manta)
180        expb = SXTH(mantb)
181      } {
182        expd = SXTH(expd)
183        ce = CMP.GT(expa, expb);
184        if ( ce.new) exp = add(expa, #1)
185        if (!ce.new) exp = add(expb, #1)
186      } {
187        if ( ce) expa = #1
188        if (!ce) expb = #1
189        manta.L = #0
190        expd = MIN(expd, c63)
191      } {
192        if (!ce) expa = add(expd, #1)
193        if ( ce) expb = add(expd, #1)
194        mantb.L = #0
195        minmin = #0
196      } {
197        lmanta = ASR(lmanta, expa)
198        lmantb = ASR(lmantb, expb)
199      } {
200        lmant = sub(lmanta, lmantb)
201        minminl.L = #0x8001
202      } {
203        k  = clb(lmant)
204        c63 = #58
205      } {
206        k = add(k, #-1)
207        p0 = cmp.gt(k, c63)
208      } {
209        mantexpa = ASL(lmant, k)
210        exp = SUB(exp, k)
211        if(p0) jump .Ldenorm
212      } {
213        manta = insert(exp, #16, #0)
214        jumpr  r31
215      }
216.Ldenorm:
217      {
218        mantexpa = minmin
219        jumpr  r31
220      }
221/* ==================================================================== *
222 fast2_QDOUBLE fast2_dmpy(fast2_QDOUBLE a,fast2_QDOUBLE b) {
223        fast2_QDOUBLE c;
224        lint manta = a & MANTMASK;
225        int  expa  = Q6_R_sxth_R(a) ;
226        lint mantb = b & MANTMASK;
227        int  expb  = Q6_R_sxth_R(b) ;
228        int exp, k;
229        lint mant;
230        int          hia, hib, hi, lo;
231        unsigned int loa, lob;
232
233        hia = (int)(a >> 32);
234        loa = Q6_R_extractu_RII((int)manta, 31, 1);
235        hib = (int)(b >> 32);
236        lob = Q6_R_extractu_RII((int)mantb, 31, 1);
237
238        mant = Q6_P_mpy_RR(hia, lob);
239        mant = Q6_P_mpyacc_RR(mant,hib, loa);
240        mant = (mant >> 30) + (Q6_P_mpy_RR(hia, hib)<<1);
241
242        hi = (int) (mant>>32);
243
244        k =  Q6_R_normamt_R(hi);
245        mant = mant << k;
246        exp = expa + expb - k;
247        if (mant ==  0 || mant == -1)  exp = 0x8001;
248        c = (mant & MANTMASK) | (((lint) exp) & EXP_MASK);
249        return(c);
250 }
251 * ==================================================================== */
252        .text
253        .global fast2_dmpy_asm
254        .type fast2_dmpy_asm, @function
255fast2_dmpy_asm:
256
257#define mantal     R0
258#define mantah     R1
259#define mantexpa   R1:0
260#define mantbl     R2
261#define mantbh     R3
262#define mantexpb   R3:2
263#define expa       R4
264#define expb       R5
265#define c8001      R12
266#define mantexpd   R7:6
267#define mantdh     R7
268#define exp        R8
269#define lmantc     R11:10
270#define kb         R9
271#define guard      R11
272#define mantal_    R12
273#define mantbl_    R13
274#define min        R15:14
275#define minh       R15
276
277        .falign
278      {
279        mantbl_= lsr(mantbl, #16)
280        expb = sxth(mantbl)
281        expa = sxth(mantal)
282        mantal_= lsr(mantal, #16)
283      }
284      {
285        lmantc = mpy(mantah, mantbh)
286        mantexpd = mpy(mantah, mantbl_)
287        mantal.L = #0x0
288        min = #0
289      }
290      {
291        lmantc = add(lmantc, lmantc)
292        mantexpd+= mpy(mantbh, mantal_)
293        mantbl.L = #0x0
294        minh.H = #0x8000
295      }
296      {
297        mantexpd = asr(mantexpd, #15)
298        c8001.L =  #0x8001
299        p1 = cmp.eq(mantexpa, mantexpb)
300      }
301      {
302        mantexpd = add(mantexpd, lmantc)
303        exp = add(expa, expb)
304        p2 = cmp.eq(mantexpa, min)
305      }
306      {
307        kb  = clb(mantexpd)
308        mantexpb = abs(mantexpd)
309        guard = #58
310      }
311      {
312        p1 = and(p1, p2)
313        exp = sub(exp, kb)
314        kb = add(kb, #-1)
315	p0 = cmp.gt(kb, guard)
316      }
317      {
318        exp = add(exp, #1)
319        mantexpa = asl(mantexpd, kb)
320        if(p1) jump .Lsat   //rarely happens
321      }
322      {
323        mantal = insert(exp,#16, #0)
324        if(!p0) jumpr  r31
325      }
326      {
327        mantal = insert(c8001,#16, #0)
328        jumpr  r31
329      }
330.Lsat:
331      {
332        mantexpa = #-1
333      }
334      {
335        mantexpa = lsr(mantexpa, #1)
336      }
337      {
338        mantal = insert(exp,#16, #0)
339        jumpr  r31
340      }
341
342/* ==================================================================== *
343 int fast2_qd2f(fast2_QDOUBLE a) {
344        int exp;
345        long long int manta;
346        int ic, rnd, mantb;
347
348        manta = a>>32;
349        exp = Q6_R_sxth_R(a) ;
350        ic = 0x80000000 & manta;
351        manta = Q6_R_abs_R_sat(manta);
352        mantb = (manta + rnd)>>7;
353        rnd = 0x40
354        exp = (exp + 126);
355        if((manta & 0xff) == rnd) rnd = 0x00;
356        if((manta & 0x7fffffc0) == 0x7fffffc0) {
357           manta = 0x0; exp++;
358        } else {
359           manta= mantb & 0x007fffff;
360        }
361        exp = (exp << 23) & 0x7fffffc0;
362        ic = Q6_R_addacc_RR(ic, exp, manta);
363        return (ic);
364 }
365 * ==================================================================== */
366
367        .text
368        .global fast2_qd2f_asm
369        .type fast2_qd2f_asm, @function
370fast2_qd2f_asm:
371#define mantah   R1
372#define mantal   R0
373#define cff      R0
374#define mant     R3
375#define expo     R4
376#define rnd      R5
377#define mask     R6
378#define c07f     R7
379#define c80      R0
380#define mantb    R2
381#define ic       R0
382
383      .falign
384     {
385       mant = abs(mantah):sat
386       expo = sxth(mantal)
387       rnd = #0x40
388       mask.L = #0xffc0
389     }
390     {
391       cff = extractu(mant, #8, #0)
392       p2 = cmp.gt(expo, #126)
393       p3 = cmp.ge(expo, #-126)
394       mask.H = #0x7fff
395     }
396     {
397       p1 = cmp.eq(cff,#0x40)
398       if(p1.new) rnd = #0
399       expo = add(expo, #126)
400       if(!p3) jump .Lmin
401     }
402     {
403       p0 = bitsset(mant, mask)
404       c80.L = #0x0000
405       mantb = add(mant, rnd)
406       c07f = lsr(mask, #8)
407     }
408     {
409       if(p0) expo = add(expo, #1)
410       if(p0) mant = #0
411       mantb = lsr(mantb, #7)
412       c80.H = #0x8000
413     }
414     {
415       ic = and(c80, mantah)
416       mask &= asl(expo, #23)
417       if(!p0) mant = and(mantb, c07f)
418       if(p2) jump .Lmax
419     }
420     {
421       ic += add(mask, mant)
422       jumpr r31
423     }
424.Lmax:
425     {
426       ic.L = #0xffff;
427     }
428     {
429       ic.H = #0x7f7f;
430       jumpr r31
431     }
432.Lmin:
433     {
434       ic = #0x0
435       jumpr r31
436     }
437
438/* ==================================================================== *
439fast2_QDOUBLE fast2_f2qd(int ia) {
440        lint exp;
441        lint mant;
442        fast2_QDOUBLE c;
443
444        mant = ((ia << 7) | 0x40000000)&0x7fffff80 ;
445        if (ia & 0x80000000) mant = -mant;
446        exp =  ((ia >> 23) & 0xFFLL) - 126;
447        c = (mant<<32) | Q6_R_zxth_R(exp);;
448        return(c);
449}
450 * ==================================================================== */
451        .text
452        .global fast2_f2qd_asm
453        .type fast2_f2qd_asm, @function
454fast2_f2qd_asm:
455#define ia    R0
456#define mag   R3
457#define mantr R1
458#define expr  R0
459#define zero  R2
460#define maxneg R5:4
461#define maxnegl R4
462        .falign
463  {
464       mantr = asl(ia, #7)
465       p0 = tstbit(ia, #31)
466       maxneg = #0
467       mag = add(ia,ia)
468  }
469  {
470       mantr = setbit(mantr, #30)
471       expr= extractu(ia,#8,#23)
472       maxnegl.L = #0x8001
473       p1 = cmp.eq(mag, #0)
474  }
475  {
476       mantr= extractu(mantr, #31, #0)
477       expr= add(expr, #-126)
478       zero = #0
479       if(p1) jump .Lminqd
480  }
481  {
482       expr = zxth(expr)
483       if(p0) mantr= sub(zero, mantr)
484       jumpr r31
485  }
486.Lminqd:
487  {
488       R1:0 = maxneg
489       jumpr r31
490  }
491