1 /*
2 * Copyright (C) 2008 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 /* ---- includes ----------------------------------------------------------- */
18
19 #include "b_TensorEm/Flt16Vec.h"
20 #include "b_BasicEm/Memory.h"
21 #include "b_BasicEm/Math.h"
22 #include "b_BasicEm/Functions.h"
23
24 /* ------------------------------------------------------------------------- */
25
26 /* ========================================================================= */
27 /* */
28 /* ---- \ghd{ auxiliary functions } ---------------------------------------- */
29 /* */
30 /* ========================================================================= */
31
32 /* ------------------------------------------------------------------------- */
33
34 /* ========================================================================= */
35 /* */
36 /* ---- \ghd{ constructor / destructor } ----------------------------------- */
37 /* */
38 /* ========================================================================= */
39
40 /* ------------------------------------------------------------------------- */
41
bts_Flt16Vec_init(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)42 void bts_Flt16Vec_init( struct bbs_Context* cpA,
43 struct bts_Flt16Vec* ptrA )
44 {
45 bbs_Int16Arr_init( cpA, &ptrA->arrE );
46 ptrA->expE = 0;
47 }
48
49 /* ------------------------------------------------------------------------- */
50
bts_Flt16Vec_exit(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)51 void bts_Flt16Vec_exit( struct bbs_Context* cpA,
52 struct bts_Flt16Vec* ptrA )
53 {
54 bbs_Int16Arr_exit( cpA, &ptrA->arrE );
55 ptrA->expE = 0;
56 }
57
58 /* ------------------------------------------------------------------------- */
59
60 /* ========================================================================= */
61 /* */
62 /* ---- \ghd{ operators } -------------------------------------------------- */
63 /* */
64 /* ========================================================================= */
65
66 /* ------------------------------------------------------------------------- */
67
bts_Flt16Vec_copy(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA,const struct bts_Flt16Vec * srcPtrA)68 void bts_Flt16Vec_copy( struct bbs_Context* cpA,
69 struct bts_Flt16Vec* ptrA,
70 const struct bts_Flt16Vec* srcPtrA )
71 {
72 bbs_Int16Arr_copy( cpA, &ptrA->arrE, &srcPtrA->arrE );
73 ptrA->expE = srcPtrA->expE;
74 }
75
76 /* ------------------------------------------------------------------------- */
77
bts_Flt16Vec_equal(struct bbs_Context * cpA,const struct bts_Flt16Vec * ptrA,const struct bts_Flt16Vec * srcPtrA)78 flag bts_Flt16Vec_equal( struct bbs_Context* cpA,
79 const struct bts_Flt16Vec* ptrA,
80 const struct bts_Flt16Vec* srcPtrA )
81 {
82 if( !bbs_Int16Arr_equal( cpA, &ptrA->arrE, &srcPtrA->arrE ) ) return FALSE;
83 if( ptrA->expE != srcPtrA->expE ) return FALSE;
84 return TRUE;
85 }
86
87 /* ------------------------------------------------------------------------- */
88
89 /* ========================================================================= */
90 /* */
91 /* ---- \ghd{ query functions } -------------------------------------------- */
92 /* */
93 /* ========================================================================= */
94
95 /* ------------------------------------------------------------------------- */
96
bts_Flt16Vec_avg(struct bbs_Context * cpA,const struct bts_Flt16Vec * ptrA)97 int16 bts_Flt16Vec_avg( struct bbs_Context* cpA, const struct bts_Flt16Vec* ptrA )
98 {
99 uint16 iL;
100 uint16 sizeL = ptrA->arrE.sizeE;
101 int32 sumL = 0;
102 const int16* srcL = ptrA->arrE.arrPtrE;
103 for( iL = 0; iL < sizeL; iL++ )
104 {
105 sumL += srcL[ iL ];
106 }
107 return sumL / ( int32 )sizeL;
108 }
109
110 /* ------------------------------------------------------------------------- */
111
bts_Flt16Vec_norm(struct bbs_Context * cpA,const struct bts_Flt16Vec * ptrA)112 uint32 bts_Flt16Vec_norm( struct bbs_Context* cpA, const struct bts_Flt16Vec* ptrA )
113 {
114 return bbs_vecNorm16( ptrA->arrE.arrPtrE, ptrA->arrE.sizeE );
115 }
116
117 /* ------------------------------------------------------------------------- */
118
bts_Flt16Vec_maxAbs(struct bbs_Context * cpA,const struct bts_Flt16Vec * ptrA)119 uint16 bts_Flt16Vec_maxAbs( struct bbs_Context* cpA, const struct bts_Flt16Vec* ptrA )
120 {
121 uint16 iL;
122 uint16 sizeL = ptrA->arrE.sizeE;
123 uint16 maxL = 0;
124 const int16* srcL = ptrA->arrE.arrPtrE;
125 for( iL = 0; iL < sizeL; iL++ )
126 {
127 uint16 vL = srcL[ iL ] > 0 ? srcL[ iL ] : -srcL[ iL ];
128 maxL = vL > maxL ? vL : maxL;
129 }
130 return maxL;
131 }
132
133 /* ------------------------------------------------------------------------- */
134
135 /* ========================================================================= */
136 /* */
137 /* ---- \ghd{ modify functions } ------------------------------------------- */
138 /* */
139 /* ========================================================================= */
140
141 /* ------------------------------------------------------------------------- */
142
bts_Flt16Vec_create(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA,uint32 sizeA,struct bbs_MemSeg * mspA)143 void bts_Flt16Vec_create( struct bbs_Context* cpA,
144 struct bts_Flt16Vec* ptrA,
145 uint32 sizeA,
146 struct bbs_MemSeg* mspA )
147 {
148 bbs_Int16Arr_create( cpA, &ptrA->arrE, sizeA, mspA );
149 }
150
151 /* ------------------------------------------------------------------------- */
152
bts_Flt16Vec_size(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA,uint32 sizeA)153 void bts_Flt16Vec_size( struct bbs_Context* cpA,
154 struct bts_Flt16Vec* ptrA,
155 uint32 sizeA )
156 {
157 bbs_Int16Arr_size( cpA, &ptrA->arrE, sizeA );
158 }
159
160 /* ------------------------------------------------------------------------- */
161
162 /* ========================================================================= */
163 /* */
164 /* ---- \ghd{ I/O } -------------------------------------------------------- */
165 /* */
166 /* ========================================================================= */
167
168 /* ------------------------------------------------------------------------- */
169
bts_Flt16Vec_memSize(struct bbs_Context * cpA,const struct bts_Flt16Vec * ptrA)170 uint32 bts_Flt16Vec_memSize( struct bbs_Context* cpA,
171 const struct bts_Flt16Vec *ptrA )
172 {
173 return bbs_SIZEOF16( uint32 ) /* mem size */
174 + bbs_Int16Arr_memSize( cpA, &ptrA->arrE )
175 + bbs_SIZEOF16( ptrA->expE );
176 }
177
178 /* ------------------------------------------------------------------------- */
179
bts_Flt16Vec_memWrite(struct bbs_Context * cpA,const struct bts_Flt16Vec * ptrA,uint16 * memPtrA)180 uint32 bts_Flt16Vec_memWrite( struct bbs_Context* cpA,
181 const struct bts_Flt16Vec* ptrA,
182 uint16* memPtrA )
183 {
184 uint32 memSizeL = bts_Flt16Vec_memSize( cpA, ptrA );
185 memPtrA += bbs_memWrite32( &memSizeL, memPtrA );
186 memPtrA += bbs_Int16Arr_memWrite( cpA, &ptrA->arrE, memPtrA );
187 memPtrA += bbs_memWrite16( &ptrA->expE, memPtrA );
188 return memSizeL;
189 }
190
191 /* ------------------------------------------------------------------------- */
192
bts_Flt16Vec_memRead(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA,const uint16 * memPtrA,struct bbs_MemSeg * mspA)193 uint32 bts_Flt16Vec_memRead( struct bbs_Context* cpA,
194 struct bts_Flt16Vec* ptrA,
195 const uint16* memPtrA,
196 struct bbs_MemSeg* mspA )
197 {
198 uint32 memSizeL;
199 if( bbs_Context_error( cpA ) ) return 0;
200 memPtrA += bbs_memRead32( &memSizeL, memPtrA );
201 memPtrA += bbs_Int16Arr_memRead( cpA, &ptrA->arrE, memPtrA, mspA );
202 memPtrA += bbs_memRead16( &ptrA->expE, memPtrA );
203
204 if( memSizeL != bts_Flt16Vec_memSize( cpA, ptrA ) )
205 {
206 bbs_ERR0( bbs_ERR_CORRUPT_DATA, "uint32 bts_Flt16Vec_memRead( const struct bts_Flt16Vec* ptrA, const void* memPtrA ):\n"
207 "size mismatch" );
208 return 0;
209 }
210 return memSizeL;
211 }
212
213 /* ------------------------------------------------------------------------- */
214
215 /* ========================================================================= */
216 /* */
217 /* ---- \ghd{ exec functions } --------------------------------------------- */
218 /* */
219 /* ========================================================================= */
220
221 /* ------------------------------------------------------------------------- */
222
bts_Flt16Vec_maximizeMantisse(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)223 void bts_Flt16Vec_maximizeMantisse( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA )
224 {
225 uint32 maxAbsL = bts_Flt16Vec_maxAbs( cpA, ptrA );
226 int16 shlL = 0;
227
228 if( maxAbsL == 0 ) return; /* cannot maximize 0 */
229
230 while( maxAbsL < 0x4000 )
231 {
232 shlL++;
233 maxAbsL <<= 1;
234 }
235
236 if( shlL > 0 )
237 {
238 uint32 iL;
239 uint32 sizeL = ptrA->arrE.sizeE;
240 int16* dstL = ptrA->arrE.arrPtrE;
241 for( iL = 0; iL < sizeL; iL++ ) dstL[ iL ] <<= shlL;
242 ptrA->expE -= shlL;
243 }
244 }
245
246 /* ------------------------------------------------------------------------- */
247
bts_Flt16Vec_maximizeAbsValue(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)248 uint32 bts_Flt16Vec_maximizeAbsValue( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA )
249 {
250 int32 maxAbsL = bts_Flt16Vec_maxAbs( cpA, ptrA );
251 int32 fL;
252 if( maxAbsL == 0 ) return 0; /* vector is zero */
253
254 fL = ( int32 )0x7FFF0000 / maxAbsL;
255
256 {
257 uint32 iL;
258 uint32 sizeL = ptrA->arrE.sizeE;
259 int16* dstL = ptrA->arrE.arrPtrE;
260 for( iL = 0; iL < sizeL; iL++ ) dstL[ iL ] = ( ( int32 )dstL[ iL ] * fL + 32768 ) >> 16;
261 }
262
263 return fL;
264 }
265
266 /* ------------------------------------------------------------------------- */
267
bts_Flt16Vec_zeroAverage(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)268 void bts_Flt16Vec_zeroAverage( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA )
269 {
270 uint16 iL;
271 uint16 sizeL = ptrA->arrE.sizeE;
272 int16* dstL = ptrA->arrE.arrPtrE;
273 int16 avgL = bts_Flt16Vec_avg( cpA, ptrA );
274 for( iL = 0; iL < sizeL; iL++ ) dstL[ iL ] -= avgL;
275 }
276
277 /* ------------------------------------------------------------------------- */
278
bts_Flt16Vec_normalize(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)279 void bts_Flt16Vec_normalize( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA )
280 {
281 uint32 normL = bts_Flt16Vec_norm( cpA, ptrA );
282
283 if( normL == 0 )
284 {
285 /* vector is zero - do nothing */
286 return;
287 }
288 else
289 {
290 int16* dstL = ptrA->arrE.arrPtrE;
291 uint16 iL;
292 uint16 sizeL = ptrA->arrE.sizeE;
293 int16 expL = 0;
294 int32 fL;
295
296 /* let norm occupy 17 bits */
297 if( ( normL & 0xFFFE0000 ) != 0 )
298 {
299 while( ( ( normL >> -expL ) & 0xFFFE0000 ) != 0 ) expL--;
300 normL >>= -expL;
301 }
302 else
303 {
304 while( ( ( normL << expL ) & 0xFFFF0000 ) == 0 ) expL++;
305 normL <<= expL;
306 }
307
308 /* fL is positive and occupies only 16 bits - a product with int16 fits in int32 */
309 fL = ( uint32 )0xFFFFFFFF / normL;
310
311 /* multiply with factor */
312 for( iL = 0; iL < sizeL; iL++ ) dstL[ iL ] = ( ( ( ( int32 )dstL[ iL ] * fL ) >> 15 ) + 1 ) >> 1;
313
314 /* set exponent */
315 ptrA->expE = expL - 16;
316 }
317 /*
318 {
319 uint32 testNormL = bts_Flt16Vec_norm( cpA, ptrA );
320 printf( "test norm %f\n", ( float )testNormL / ( 1 << -ptrA->expE ) );
321 }
322 */
323 }
324
325 /* ------------------------------------------------------------------------- */
326
bts_Flt16Vec_setZero(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA)327 void bts_Flt16Vec_setZero( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA )
328 {
329 bbs_Int16Arr_fill( cpA, &ptrA->arrE, 0 );
330 ptrA->expE = 0;
331 }
332
333 /* ------------------------------------------------------------------------- */
334
bts_Flt16Vec_mul(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA,int32 valA,int16 expA)335 void bts_Flt16Vec_mul( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA, int32 valA, int16 expA )
336 {
337 int32 valL = valA;
338 int16 expL = expA;
339
340 if( valL == 0 )
341 {
342 bts_Flt16Vec_setZero( cpA, ptrA );
343 return;
344 }
345 else
346 {
347 uint32 iL;
348 uint32 sizeL = ptrA->arrE.sizeE;
349 int16* dstL = ptrA->arrE.arrPtrE;
350
351 /* adjust valL to maximum 16 bit accuracy */
352 uint32 absValL = valL > 0 ? valL : -valL;
353 if( ( absValL & 0xFFFF8000 ) != 0 )
354 {
355 int32 shrL = 0;
356 while( ( absValL & 0xFFFF8000 ) != 0 )
357 {
358 absValL >>= 1;
359 shrL++;
360 }
361
362 if( shrL > 0 )
363 {
364 valL = ( ( valL >> ( shrL - 1 ) ) + 1 ) >> 1;
365 expL += shrL;
366 if( valL >= 0x08000 ) valL = 0x07FFF; /* saturate */
367 }
368 }
369 else
370 {
371 int32 shlL = 0;
372 while( ( absValL & 0xFFFFC000 ) == 0 )
373 {
374 absValL <<= 1;
375 shlL++;
376 }
377
378 valL <<= shlL;
379 expL -= shlL;
380 }
381
382 for( iL = 0; iL < sizeL; iL++ )
383 {
384 dstL[ iL ] = ( ( ( ( int32 )dstL[ iL ] * valL ) >> 15 ) + 1 ) >> 1;
385 }
386 ptrA->expE += expL + 16;
387 }
388 }
389
390 /* ------------------------------------------------------------------------- */
391
bts_Flt16Vec_dotPtrd(struct bbs_Context * cpA,struct bts_Flt16Vec * vp1A,struct bts_Flt16Vec * vp2A,int32 * manPtrA,int32 * expPtrA)392 void bts_Flt16Vec_dotPtrd( struct bbs_Context* cpA, struct bts_Flt16Vec* vp1A, struct bts_Flt16Vec* vp2A, int32* manPtrA, int32* expPtrA )
393 {
394 bbs_DEF_fNameL( "void bts_Flt16Vec_dotPtrd( struct bbs_Context* cpA, struct bts_Flt16Vec* vp1A, struct bts_Flt16Vec* vp2A, int32* matPtrA, int32* expPtrA )" )
395 uint16 iL;
396 uint16 sizeL = vp1A->arrE.sizeE;
397 const int16* arr1L = vp1A->arrE.arrPtrE;
398 const int16* arr2L = vp2A->arrE.arrPtrE;
399 int16 shrm1L = -1; /* shift minus 1 */
400 int32 sumL;
401
402 if( vp1A->arrE.sizeE != vp2A->arrE.sizeE )
403 {
404 bbs_ERROR1( "%s:\nVectors have different size", fNameL );
405 return;
406 }
407
408 sumL = 0;
409 /* shrm1L == -1 */
410 for( iL = 0; iL < sizeL; iL++ )
411 {
412 sumL += ( int32 )arr1L[ iL ] * ( int32 )arr2L[ iL ];
413 if( ( ( ( sumL > 0 ) ? sumL : -sumL ) & 0xC0000000 ) != 0 ) break;
414 }
415
416 if( iL < sizeL )
417 {
418 /* danger of overflow: increase shift; adjust sum */
419 shrm1L++;
420 sumL = ( ( sumL >> 1 ) + 1 ) >> 1;
421
422 /* shrm1L == 0 */
423 for( iL = 0; iL < sizeL; iL++ )
424 {
425 sumL += ( int32 )( ( arr1L[ iL ] + 1 ) >> 1 ) * ( int32 )( ( arr2L[ iL ] + 1 ) >> 1 );
426 if( ( ( ( sumL > 0 ) ? sumL : -sumL ) & 0xC0000000 ) != 0 ) break;
427 }
428
429 for( iL = 0; iL < sizeL; iL++ )
430 {
431 if( ( ( ( sumL > 0 ) ? sumL : -sumL ) & 0xC0000000 ) != 0 )
432 {
433 /* danger of overflow: increase shift; adjust sum */
434 shrm1L++;
435 sumL = ( ( sumL >> 1 ) + 1 ) >> 1;
436 }
437
438 sumL += ( int32 )( ( ( arr1L[ iL ] >> shrm1L ) + 1 ) >> 1 ) * ( int32 )( ( ( arr2L[ iL ] >> shrm1L ) + 1 ) >> 1 );
439 }
440 }
441
442 if( manPtrA != NULL ) *manPtrA = sumL;
443 if( expPtrA != NULL ) *expPtrA = vp1A->expE + vp2A->expE + ( ( shrm1L + 1 ) << 1 );
444 }
445
446 /* ------------------------------------------------------------------------- */
447
bts_Flt16Vec_append(struct bbs_Context * cpA,struct bts_Flt16Vec * ptrA,struct bts_Flt16Vec * srcPtrA)448 void bts_Flt16Vec_append( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA, struct bts_Flt16Vec* srcPtrA )
449 {
450 if( ptrA->arrE.sizeE == 0 )
451 {
452 bts_Flt16Vec_copy( cpA, ptrA, srcPtrA );
453 }
454 else
455 {
456 uint32 idxL = ptrA->arrE.sizeE;
457 bts_Flt16Vec_size( cpA, ptrA, idxL + srcPtrA->arrE.sizeE );
458
459 /* copy data */
460 bbs_memcpy16( ptrA->arrE.arrPtrE + idxL, srcPtrA->arrE.arrPtrE, srcPtrA->arrE.sizeE );
461
462 /* equalize exponent */
463 if( ptrA->expE > srcPtrA->expE )
464 {
465 uint32 iL;
466 uint32 sizeL = srcPtrA->arrE.sizeE;
467 uint32 shrL = ptrA->expE - srcPtrA->expE;
468 int16* dstL = ptrA->arrE.arrPtrE + idxL;
469 for( iL = 0; iL < sizeL; iL++ ) dstL[ iL ] = ( ( dstL[ iL ] >> ( shrL - 1 ) ) + 1 ) >> 1;
470 }
471 else if( ptrA->expE < srcPtrA->expE )
472 {
473 uint32 iL;
474 uint32 sizeL = idxL;
475 uint32 shrL = srcPtrA->expE - ptrA->expE;
476 int16* dstL = ptrA->arrE.arrPtrE;
477 for( iL = 0; iL < sizeL; iL++ ) dstL[ iL ] = ( ( dstL[ iL ] >> ( shrL - 1 ) ) + 1 ) >> 1;
478 ptrA->expE = srcPtrA->expE;
479 }
480 }
481 }
482
483 /* ------------------------------------------------------------------------- */
484
485 /* ========================================================================= */
486
487