add SMAF codec (.mmf extension)(FS#10432)
[kugel-rb.git] / apps / codecs / libspeex / filters_bfin.h
blob1e433ee167f95e367ca7011aeaf3ce9af833ce57
1 /* Copyright (C) 2005 Analog Devices */
2 /**
3 @file filters_bfin.h
4 @brief Various analysis/synthesis filters (Blackfin version)
5 */
6 /*
7 Redistribution and use in source and binary forms, with or without
8 modification, are permitted provided that the following conditions
9 are met:
11 - Redistributions of source code must retain the above copyright
12 notice, this list of conditions and the following disclaimer.
14 - Redistributions in binary form must reproduce the above copyright
15 notice, this list of conditions and the following disclaimer in the
16 documentation and/or other materials provided with the distribution.
18 - Neither the name of the Xiph.org Foundation nor the names of its
19 contributors may be used to endorse or promote products derived from
20 this software without specific prior written permission.
22 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
23 ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
24 LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
25 A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
26 CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
27 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
28 PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
29 PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
30 LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
31 NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
32 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
35 #define OVERRIDE_NORMALIZE16
36 int normalize16(const spx_sig_t *x, spx_word16_t *y, spx_sig_t max_scale, int len)
38 spx_sig_t max_val=1;
39 int sig_shift;
40 __asm__
42 "%0 = 0;\n\t"
43 "I0 = %1;\n\t"
44 "L0 = 0;\n\t"
45 "R1 = [I0++];\n\t"
46 "LOOP norm_max%= LC0 = %2;\n\t"
47 "LOOP_BEGIN norm_max%=;\n\t"
48 "R2 = ABS R1 || R1 = [I0++];\n\t"
49 "%0 = MAX(%0, R2);\n\t"
50 "LOOP_END norm_max%=;\n\t"
51 : "=&d" (max_val)
52 : "a" (x), "a" (len)
53 : "R1", "R2"
56 sig_shift=0;
57 while (max_val>max_scale)
59 sig_shift++;
60 max_val >>= 1;
63 __asm__ __volatile__
65 "I0 = %0;\n\t"
66 "L0 = 0;\n\t"
67 "P1 = %1;\n\t"
68 "R0 = [I0++];\n\t"
69 "LOOP norm_shift%= LC0 = %3;\n\t"
70 "LOOP_BEGIN norm_shift%=;\n\t"
71 "R1 = ASHIFT R0 by %2.L || R0 = [I0++];\n\t"
72 "W[P1++] = R1;\n\t"
73 "LOOP_END norm_shift%=;\n\t"
74 "R1 = ASHIFT R0 by %2.L;\n\t"
75 "W[P1++] = R1;\n\t"
76 : : "a" (x), "a" (y), "d" (-sig_shift), "a" (len-1)
77 : "I0", "L0", "P1", "R0", "R1", "memory"
79 return sig_shift;
84 #define OVERRIDE_FILTER_MEM16
85 void filter_mem16(const spx_word16_t *_x, const spx_coef_t *num, const spx_coef_t *den, spx_word16_t *_y, int N, int ord, spx_mem_t *mem, char *stack)
87 VARDECL(spx_word32_t *xy2);
88 VARDECL(spx_word32_t *numden_a);
89 spx_word32_t *xy;
90 spx_word16_t *numden;
91 int i;
93 ALLOC(xy2, (N+1), spx_word32_t);
94 ALLOC(numden_a, (2*ord+2), spx_word32_t);
95 xy = xy2+1;
96 numden = (spx_word16_t*) numden_a;
98 for (i=0;i<ord;i++)
100 numden[2*i] = num[i];
101 numden[2*i+1] = den[i];
103 __asm__ __volatile__
105 /* Register setup */
106 "R0 = %5;\n\t" /*ord */
108 "P0 = %3;\n\t"
109 "I0 = P0;\n\t"
110 "B0 = P0;\n\t" /* numden */
111 "L0 = 0;\n\t"
113 "P2 = %0;\n\t" /* Fused xy */
114 "I2 = P2;\n\t"
115 "L2 = 0;\n\t"
117 "P4 = %6;\n\t" /* mem */
118 "P0 = %1;\n\t" /* _x */
119 "P1 = %2;\n\t" /* _y */
121 /* First sample */
122 "R1 = [P4++];\n\t"
123 "R1 <<= 3;\n\t" /* shift mem */
124 "R1.L = R1 (RND);\n\t"
125 "R2 = W[P0++];\n\t" /* load x[0] */
126 "R1.L = R1.L + R2.L;\n\t"
127 "W[P1++] = R1;\n\t" /* store y[0] */
128 "R2 = PACK(R1.L, R2.L);\n\t" /* pack x16 and y16 */
129 "[P2] = R2;\n\t"
131 /* Samples 1 to ord-1 (using memory) */
132 "R0 += -1;\n\t"
133 "R3 = 0;\n\t"
134 "LC0 = R0;\n\t"
135 "LOOP filter_start%= LC0;\n\t"
136 "LOOP_BEGIN filter_start%=;\n\t"
137 "R3 += 1;\n\t"
138 "LC1 = R3;\n\t"
140 "R1 = [P4++];\n\t"
141 "A1 = R1;\n\t"
142 "A0 = 0;\n\t"
143 "I0 = B0;\n\t"
144 "I2 = P2;\n\t"
145 "P2 += 4;\n\t"
146 "R4 = [I0++] || R5 = [I2--];\n\t"
147 "LOOP filter_start_inner%= LC1;\n\t"
148 "LOOP_BEGIN filter_start_inner%=;\n\t"
149 "A1 -= R4.H*R5.H, A0 += R4.L*R5.L (IS) || R4 = [I0++] || R5 = [I2--];\n\t"
150 "LOOP_END filter_start_inner%=;\n\t"
151 "A0 += A1;\n\t"
152 "R4 = A0;\n\t"
153 "R4 <<= 3;\n\t" /* shift mem */
154 "R4.L = R4 (RND);\n\t"
155 "R2 = W[P0++];\n\t" /* load x */
156 "R4.L = R4.L + R2.L;\n\t"
157 "W[P1++] = R4;\n\t" /* store y */
158 //"R4 <<= 2;\n\t"
159 //"R2 <<= 2;\n\t"
160 "R2 = PACK(R4.L, R2.L);\n\t" /* pack x16 and y16 */
161 "[P2] = R2;\n\t"
163 "LOOP_END filter_start%=;\n\t"
165 /* Samples ord to N*/
166 "R0 = %5;\n\t"
167 "R0 <<= 1;\n\t"
168 "I0 = B0;\n\t" /* numden */
169 "R0 <<= 1;\n\t"
170 "L0 = R0;\n\t"
172 "R0 = %5;\n\t" /* org */
173 "R2 = %4;\n\t" /* N */
174 "R2 = R2 - R0;\n\t"
175 "R4 = [I0++];\n\t" /* numden */
176 "LC0 = R2;\n\t"
177 "P3 = R0;\n\t"
178 "R0 <<= 2;\n\t"
179 "R0 += 8;\n\t"
180 "I2 = P2;\n\t"
181 "M0 = R0;\n\t"
182 "A1 = A0 = 0;\n\t"
183 "R5 = [I2--];\n\t" /* load xy */
184 "LOOP filter_mid%= LC0;\n\t"
185 "LOOP_BEGIN filter_mid%=;\n\t"
186 "LOOP filter_mid_inner%= LC1=P3;\n\t"
187 "LOOP_BEGIN filter_mid_inner%=;\n\t"
188 "A1 -= R4.H*R5.H, A0 += R4.L*R5.L (IS) || R4 = [I0++] || R5 = [I2--];\n\t"
189 "LOOP_END filter_mid_inner%=;\n\t"
190 "R0 = (A0 += A1) || I2 += M0;\n\t"
191 "R0 = R0 << 3 || R5 = W[P0++];\n\t" /* load x */
192 "R0.L = R0 (RND);\n\t"
193 "R0.L = R0.L + R5.L;\n\t"
194 "R5 = PACK(R0.L, R5.L) || W[P1++] = R0;\n\t" /* shift y | store y */
195 "A1 = A0 = 0 || [I2--] = R5\n\t"
196 "LOOP_END filter_mid%=;\n\t"
197 "I2 += 4;\n\t"
198 "P2 = I2;\n\t"
199 /* Update memory */
200 "P4 = %6;\n\t"
201 "R0 = %5;\n\t"
202 "LC0 = R0;\n\t"
203 "P0 = B0;\n\t"
204 "A1 = A0 = 0;\n\t"
205 "LOOP mem_update%= LC0;\n\t"
206 "LOOP_BEGIN mem_update%=;\n\t"
207 "I2 = P2;\n\t"
208 "I0 = P0;\n\t"
209 "P0 += 4;\n\t"
210 "R0 = LC0;\n\t"
211 "LC1 = R0;\n\t"
212 "R5 = [I2--] || R4 = [I0++];\n\t"
213 "LOOP mem_accum%= LC1;\n\t"
214 "LOOP_BEGIN mem_accum%=;\n\t"
215 "A1 -= R4.H*R5.H, A0 += R4.L*R5.L (IS) || R4 = [I0++] || R5 = [I2--];\n\t"
216 "LOOP_END mem_accum%=;\n\t"
217 "R0 = (A0 += A1);\n\t"
218 "A1 = A0 = 0 || [P4++] = R0;\n\t"
219 "LOOP_END mem_update%=;\n\t"
220 "L0 = 0;\n\t"
221 : : "m" (xy), "m" (_x), "m" (_y), "m" (numden), "m" (N), "m" (ord), "m" (mem)
222 : "A0", "A1", "R0", "R1", "R2", "R3", "R4", "R5", "P0", "P1", "P2", "P3", "P4", "B0", "I0", "I2", "L0", "L2", "M0", "memory"
229 #define OVERRIDE_IIR_MEM16
230 void iir_mem16(const spx_word16_t *_x, const spx_coef_t *den, spx_word16_t *_y, int N, int ord, spx_mem_t *mem, char *stack)
232 VARDECL(spx_word16_t *y);
233 spx_word16_t *yy;
235 ALLOC(y, (N+2), spx_word16_t);
236 yy = y+2;
238 __asm__ __volatile__
240 /* Register setup */
241 "R0 = %5;\n\t" /*ord */
243 "P1 = %3;\n\t"
244 "I1 = P1;\n\t"
245 "B1 = P1;\n\t"
246 "L1 = 0;\n\t"
248 "P3 = %0;\n\t"
249 "I3 = P3;\n\t"
250 "L3 = 0;\n\t"
252 "P4 = %6;\n\t"
253 "P0 = %1;\n\t"
254 "P1 = %2;\n\t"
256 /* First sample */
257 "R1 = [P4++];\n\t"
258 "R1 = R1 << 3 (S);\n\t"
259 "R1.L = R1 (RND);\n\t"
260 "R2 = W[P0++];\n\t"
261 "R1 = R1 + R2;\n\t"
262 "W[P1++] = R1;\n\t"
263 "W[P3] = R1;\n\t"
265 /* Samples 1 to ord-1 (using memory) */
266 "R0 += -1;\n\t"
267 "R3 = 0;\n\t"
268 "LC0 = R0;\n\t"
269 "LOOP filter_start%= LC0;\n\t"
270 "LOOP_BEGIN filter_start%=;\n\t"
271 "R3 += 1;\n\t"
272 "LC1 = R3;\n\t"
274 "R1 = [P4++];\n\t"
275 "A1 = R1;\n\t"
276 "I1 = B1;\n\t"
277 "I3 = P3;\n\t"
278 "P3 += 2;\n\t"
279 "LOOP filter_start_inner%= LC1;\n\t"
280 "LOOP_BEGIN filter_start_inner%=;\n\t"
281 "R4.L = W[I1++];\n\t"
282 "R5.L = W[I3--];\n\t"
283 "A1 -= R4.L*R5.L (IS);\n\t"
284 "LOOP_END filter_start_inner%=;\n\t"
286 "R1 = A1;\n\t"
287 "R1 <<= 3;\n\t"
288 "R1.L = R1 (RND);\n\t"
289 "R2 = W[P0++];\n\t"
290 "R1 = R1 + R2;\n\t"
291 "W[P1++] = R1;\n\t"
292 "W[P3] = R1;\n\t"
293 "LOOP_END filter_start%=;\n\t"
295 /* Samples ord to N*/
296 "R0 = %5;\n\t"
297 "R0 <<= 1;\n\t"
298 "I1 = B1;\n\t"
299 "L1 = R0;\n\t"
301 "R0 = %5;\n\t"
302 "R2 = %4;\n\t"
303 "R2 = R2 - R0;\n\t"
304 "R4.L = W[I1++];\n\t"
305 "LC0 = R2;\n\t"
306 "LOOP filter_mid%= LC0;\n\t"
307 "LOOP_BEGIN filter_mid%=;\n\t"
308 "LC1 = R0;\n\t"
309 "A1 = 0;\n\t"
310 "I3 = P3;\n\t"
311 "P3 += 2;\n\t"
312 "R5.L = W[I3--];\n\t"
313 "LOOP filter_mid_inner%= LC1;\n\t"
314 "LOOP_BEGIN filter_mid_inner%=;\n\t"
315 "A1 -= R4.L*R5.L (IS) || R4.L = W[I1++] || R5.L = W[I3--];\n\t"
316 "LOOP_END filter_mid_inner%=;\n\t"
317 "R1 = A1;\n\t"
318 "R1 = R1 << 3 || R2 = W[P0++];\n\t"
319 "R1.L = R1 (RND);\n\t"
320 "R1 = R1 + R2;\n\t"
321 "W[P1++] = R1;\n\t"
322 "W[P3] = R1;\n\t"
323 "LOOP_END filter_mid%=;\n\t"
325 /* Update memory */
326 "P4 = %6;\n\t"
327 "R0 = %5;\n\t"
328 "LC0 = R0;\n\t"
329 "P1 = B1;\n\t"
330 "LOOP mem_update%= LC0;\n\t"
331 "LOOP_BEGIN mem_update%=;\n\t"
332 "A0 = 0;\n\t"
333 "I3 = P3;\n\t"
334 "I1 = P1;\n\t"
335 "P1 += 2;\n\t"
336 "R0 = LC0;\n\t"
337 "LC1=R0;\n\t"
338 "R5.L = W[I3--] || R4.L = W[I1++];\n\t"
339 "LOOP mem_accum%= LC1;\n\t"
340 "LOOP_BEGIN mem_accum%=;\n\t"
341 "A0 -= R4.L*R5.L (IS) || R4.L = W[I1++] || R5.L = W[I3--];\n\t"
342 "LOOP_END mem_accum%=;\n\t"
343 "R0 = A0;\n\t"
344 "[P4++] = R0;\n\t"
345 "LOOP_END mem_update%=;\n\t"
346 "L1 = 0;\n\t"
347 : : "m" (yy), "m" (_x), "m" (_y), "m" (den), "m" (N), "m" (ord), "m" (mem)
348 : "A0", "A1", "R0", "R1", "R2", "R3", "R4", "R5", "P0", "P1", "P2", "P3", "P4", "B1", "I1", "I3", "L1", "L3", "memory"
354 #define OVERRIDE_FIR_MEM16
355 void fir_mem16(const spx_word16_t *x, const spx_coef_t *num, spx_word16_t *y, int N, int ord, spx_mem_t *mem, char *stack)
357 int i;
358 spx_coef_t den2[12];
359 spx_coef_t *den;
360 den = (spx_coef_t*)((((int)den2)+4)&0xfffffffc);
361 for (i=0;i<10;i++)
362 den[i] = 0;
363 filter_mem16(x, num, den, y, N, ord, mem, stack);
367 #define OVERRIDE_COMPUTE_IMPULSE_RESPONSE
368 void compute_impulse_response(const spx_coef_t *ak, const spx_coef_t *awk1, const spx_coef_t *awk2, spx_word16_t *y, int N, int ord, char *stack)
370 int i;
371 VARDECL(spx_word16_t *ytmp);
372 ALLOC(ytmp, N, spx_word16_t);
373 spx_word16_t *ytmp2 = ytmp;
374 y[0] = LPC_SCALING;
375 for (i=0;i<ord;i++)
376 y[i+1] = awk1[i];
377 i++;
378 for (;i<N;i++)
379 y[i] = 0;
381 N-=1;
382 __asm__ __volatile__
384 "I0 = %0;\n\t"
385 "I1 = %1;\n\t"
386 "L0 = 0;\n\t"
387 "L1 = 0;\n\t"
388 "L2 = 0;\n\t"
389 "L3 = 0;\n\t"
390 "R0 = 1;\n\t"
391 "R0 <<= 13;\n\t"
392 "W[I0] = R0.L;\n\t"
393 "R0 <<= 1;\n\t"
394 "W[I1] = R0.L;\n\t"
395 "R0 = %5;\n\t"
396 "LC0 = R0;\n\t"
397 "R2 = 0;\n\t"
398 "LOOP samples%= LC0;\n\t"
399 "LOOP_BEGIN samples%=;\n\t"
400 "R2 += 1;\n\t"
401 "R2 = MIN(R2, %4);\n\t"
402 "I0 = %0;\n\t"
403 "I1 = %1;\n\t"
404 "I2 = %2;\n\t"
405 "I3 = %3;\n\t"
406 "%0 += 2;\n\t"
407 "%1 += 2;\n\t"
408 "A1 = A0 = 0;\n\t"
409 "R0.L = W[I0--] || R1.L = W[I2++];\n\t"
410 "LC1 = R2;\n\t"
411 "LOOP filter%= LC1;\n\t"
412 "LOOP_BEGIN filter%=;\n\t"
413 "A0 -= R0.L*R1.L (IS) || R0.L = W[I1--] || R1.L = W[I3++];\n\t"
414 "A1 -= R0.L*R1.L (IS) || R0.L = W[I0--] || R1.L = W[I2++];\n\t"
415 "LOOP_END filter%=;\n\t"
416 "R0 = A0, R1 = A1;\n\t"
417 "R3 = W[%1] (X);\n\t"
418 "R3 <<= 13;\n\t"
419 "R0 = R0 + R3;\n\t"
420 "R3 = R0 >>> 13;\n\t"
421 "W[%0] = R3.L;\n\t"
422 "R0 <<= 1;\n\t"
423 "R1 = R1 + R0;\n\t"
424 "R1 >>>= 13;\n\t"
425 "W[%1] = R1.L;\n\t"
426 "LOOP_END samples%=;\n\t"
427 : "=a" (ytmp2), "=a" (y)
428 : "a" (awk2), "a" (ak), "d" (ord), "m" (N), "0" (ytmp2), "1" (y)
429 : "A0", "A1", "R0", "R1", "R2", "R3", "I0", "I1", "I2", "I3", "L0", "L1", "L2", "L3", "A0", "A1"
435 #if 0 /* Equivalent C function for filter_mem2 and compute_impulse_response */
436 #define min(a,b) ((a)<(b) ? (a):(b))
438 void compute_impulse_response(const spx_coef_t *ak, const spx_coef_t *awk1, const spx_coef_t *awk2, spx_word16_t *y, int N, int ord, char *stack)
440 int i,j;
441 VARDECL(spx_word16_t *ytmp);
442 ALLOC(ytmp, N, spx_word16_t);
444 y[0] = LPC_SCALING;
445 for (i=0;i<ord;i++)
446 y[i+1] = awk1[i];
447 i++;
448 for (;i<N;i++)
449 y[i] = 0;
451 for (i=0;i<N;i++)
453 spx_word32_t yi = SHL32(EXTEND32(y[i]),LPC_SHIFT);
454 spx_word32_t yi2 = 0;
455 for (j=0;j<min(i,ord);j++)
457 yi = MAC16_16(yi, awk2[j], -ytmp[i-j-1]);
458 yi2 = MAC16_16(yi2, ak[j], -y[i-j-1]);
460 ytmp[i] = EXTRACT16(SHR32(yi,LPC_SHIFT));
461 yi2 = ADD32(yi2,SHL32(yi,1));
462 y[i] = EXTRACT16(SHR32(yi2,LPC_SHIFT));
468 void filter_mem2(const spx_sig_t *_x, const spx_coef_t *num, const spx_coef_t *den, spx_sig_t *_y, int N, int ord, spx_mem_t *mem)
470 int i,j;
471 spx_word16_t xi,yi,nyi;
472 spx_word16_t x[N],y[N];
473 spx_word16_t *xx, *yy;
474 xx = x;
475 yy = y;
476 for (i=0;i<N;i++)
478 x[i] = EXTRACT16(SHR32(_x[i],SIG_SHIFT));
481 for (i=0;i<ord;i++)
483 spx_word32_t yi = mem[i];
484 for (j=0;j<i;j++)
486 yi = MAC16_16(yi, num[j], x[i-j-1]);
487 yi = MAC16_16(yi, den[j], -y[i-j-1]);
489 _y[i] = ADD32(_x[i],SHL32(yi,1));
490 y[i] = EXTRACT16(SHR32(_y[i],SIG_SHIFT));
492 for (i=ord;i<N;i++)
494 spx_word32_t yi = 0;
495 for (j=0;j<ord;j++)
497 yi = MAC16_16(yi, num[j], x[i-j-1]);
498 yi = MAC16_16(yi, den[j], -y[i-j-1]);
500 _y[i] = ADD32(_x[i],SHL32(yi,1));
501 y[i] = EXTRACT16(SHR32(_y[i],SIG_SHIFT));
504 for (i=0;i<ord;i++)
506 spx_mem_t m = 0;
507 for (j=0;j<ord-i;j++)
509 m = MAC16_16(m, x[N-1-j], num[j+i]);
510 m = MAC16_16(m, -y[N-1-j], den[j+i]);
512 mem[i] = m;
515 #endif