FFmpeg
ac3dsp_mips.c
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1 /*
2  * Copyright (c) 2012
3  * MIPS Technologies, Inc., California.
4  *
5  * Redistribution and use in source and binary forms, with or without
6  * modification, are permitted provided that the following conditions
7  * are met:
8  * 1. Redistributions of source code must retain the above copyright
9  * notice, this list of conditions and the following disclaimer.
10  * 2. Redistributions in binary form must reproduce the above copyright
11  * notice, this list of conditions and the following disclaimer in the
12  * documentation and/or other materials provided with the distribution.
13  * 3. Neither the name of the MIPS Technologies, Inc., nor the names of its
14  * contributors may be used to endorse or promote products derived from
15  * this software without specific prior written permission.
16  *
17  * THIS SOFTWARE IS PROVIDED BY THE MIPS TECHNOLOGIES, INC. ``AS IS'' AND
18  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20  * ARE DISCLAIMED. IN NO EVENT SHALL THE MIPS TECHNOLOGIES, INC. BE LIABLE
21  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27  * SUCH DAMAGE.
28  *
29  * Authors: Branimir Vasic (bvasic@mips.com)
30  * Nedeljko Babic (nbabic@mips.com)
31  *
32  * Various AC-3 DSP Utils optimized for MIPS
33  *
34  * This file is part of FFmpeg.
35  *
36  * FFmpeg is free software; you can redistribute it and/or
37  * modify it under the terms of the GNU Lesser General Public
38  * License as published by the Free Software Foundation; either
39  * version 2.1 of the License, or (at your option) any later version.
40  *
41  * FFmpeg is distributed in the hope that it will be useful,
42  * but WITHOUT ANY WARRANTY; without even the implied warranty of
43  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
44  * Lesser General Public License for more details.
45  *
46  * You should have received a copy of the GNU Lesser General Public
47  * License along with FFmpeg; if not, write to the Free Software
48  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
49  */
50 
51 /**
52  * @file
53  * Reference: libavcodec/ac3dsp.c
54  */
55 
56 #include "config.h"
57 #include "libavcodec/ac3dsp.h"
58 #include "libavcodec/ac3.h"
59 #include "libavutil/mips/asmdefs.h"
60 
61 #if HAVE_INLINE_ASM
62 #if HAVE_MIPSDSP
63 static void ac3_bit_alloc_calc_bap_mips(int16_t *mask, int16_t *psd,
64  int start, int end,
65  int snr_offset, int floor,
66  const uint8_t *bap_tab, uint8_t *bap)
67 {
68  int band, band_end, cond;
69  int m, address1, address2;
70  int16_t *psd1, *psd_end;
71  uint8_t *bap1;
72 
73  if (snr_offset == -960) {
74  memset(bap, 0, AC3_MAX_COEFS);
75  return;
76  }
77 
78  psd1 = &psd[start];
79  bap1 = &bap[start];
80  band = ff_ac3_bin_to_band_tab[start];
81 
82  do {
83  m = (FFMAX(mask[band] - snr_offset - floor, 0) & 0x1FE0) + floor;
84  band_end = ff_ac3_band_start_tab[++band];
85  band_end = FFMIN(band_end, end);
86  psd_end = psd + band_end - 1;
87 
88  __asm__ volatile (
89  "slt %[cond], %[psd1], %[psd_end] \n\t"
90  "beqz %[cond], 1f \n\t"
91  "2: \n\t"
92  "lh %[address1], 0(%[psd1]) \n\t"
93  "lh %[address2], 2(%[psd1]) \n\t"
94  PTR_ADDIU " %[psd1], %[psd1], 4 \n\t"
95  "subu %[address1], %[address1], %[m] \n\t"
96  "sra %[address1], %[address1], 5 \n\t"
97  "addiu %[address1], %[address1], -32 \n\t"
98  "shll_s.w %[address1], %[address1], 26 \n\t"
99  "subu %[address2], %[address2], %[m] \n\t"
100  "sra %[address2], %[address2], 5 \n\t"
101  "sra %[address1], %[address1], 26 \n\t"
102  "addiu %[address1], %[address1], 32 \n\t"
103  "lbux %[address1], %[address1](%[bap_tab]) \n\t"
104  "addiu %[address2], %[address2], -32 \n\t"
105  "shll_s.w %[address2], %[address2], 26 \n\t"
106  "sb %[address1], 0(%[bap1]) \n\t"
107  "slt %[cond], %[psd1], %[psd_end] \n\t"
108  "sra %[address2], %[address2], 26 \n\t"
109  "addiu %[address2], %[address2], 32 \n\t"
110  "lbux %[address2], %[address2](%[bap_tab]) \n\t"
111  "sb %[address2], 1(%[bap1]) \n\t"
112  PTR_ADDIU " %[bap1], %[bap1], 2 \n\t"
113  "bnez %[cond], 2b \n\t"
114  PTR_ADDIU " %[psd_end], %[psd_end], 2 \n\t"
115  "slt %[cond], %[psd1], %[psd_end] \n\t"
116  "beqz %[cond], 3f \n\t"
117  "1: \n\t"
118  "lh %[address1], 0(%[psd1]) \n\t"
119  PTR_ADDIU " %[psd1], %[psd1], 2 \n\t"
120  "subu %[address1], %[address1], %[m] \n\t"
121  "sra %[address1], %[address1], 5 \n\t"
122  "addiu %[address1], %[address1], -32 \n\t"
123  "shll_s.w %[address1], %[address1], 26 \n\t"
124  "sra %[address1], %[address1], 26 \n\t"
125  "addiu %[address1], %[address1], 32 \n\t"
126  "lbux %[address1], %[address1](%[bap_tab]) \n\t"
127  "sb %[address1], 0(%[bap1]) \n\t"
128  PTR_ADDIU " %[bap1], %[bap1], 1 \n\t"
129  "3: \n\t"
130 
131  : [address1]"=&r"(address1), [address2]"=&r"(address2),
132  [cond]"=&r"(cond), [bap1]"+r"(bap1),
133  [psd1]"+r"(psd1), [psd_end]"+r"(psd_end)
134  : [m]"r"(m), [bap_tab]"r"(bap_tab)
135  : "memory"
136  );
137  } while (end > band_end);
138 }
139 
140 static void ac3_update_bap_counts_mips(uint16_t mant_cnt[16], uint8_t *bap,
141  int len)
142 {
143  void *temp0, *temp2, *temp4, *temp5, *temp6, *temp7;
144  int temp1, temp3;
145 
146  __asm__ volatile (
147  "andi %[temp3], %[len], 3 \n\t"
148  PTR_ADDU "%[temp2], %[bap], %[len] \n\t"
149  PTR_ADDU "%[temp4], %[bap], %[temp3] \n\t"
150  "beq %[temp2], %[temp4], 4f \n\t"
151  "1: \n\t"
152  "lbu %[temp0], -1(%[temp2]) \n\t"
153  "lbu %[temp5], -2(%[temp2]) \n\t"
154  "lbu %[temp6], -3(%[temp2]) \n\t"
155  "sll %[temp0], %[temp0], 1 \n\t"
156  PTR_ADDU "%[temp0], %[mant_cnt], %[temp0] \n\t"
157  "sll %[temp5], %[temp5], 1 \n\t"
158  PTR_ADDU "%[temp5], %[mant_cnt], %[temp5] \n\t"
159  "lhu %[temp1], 0(%[temp0]) \n\t"
160  "sll %[temp6], %[temp6], 1 \n\t"
161  PTR_ADDU "%[temp6], %[mant_cnt], %[temp6] \n\t"
162  "addiu %[temp1], %[temp1], 1 \n\t"
163  "sh %[temp1], 0(%[temp0]) \n\t"
164  "lhu %[temp1], 0(%[temp5]) \n\t"
165  "lbu %[temp7], -4(%[temp2]) \n\t"
166  PTR_ADDIU "%[temp2],%[temp2], -4 \n\t"
167  "addiu %[temp1], %[temp1], 1 \n\t"
168  "sh %[temp1], 0(%[temp5]) \n\t"
169  "lhu %[temp1], 0(%[temp6]) \n\t"
170  "sll %[temp7], %[temp7], 1 \n\t"
171  PTR_ADDU "%[temp7], %[mant_cnt], %[temp7] \n\t"
172  "addiu %[temp1], %[temp1],1 \n\t"
173  "sh %[temp1], 0(%[temp6]) \n\t"
174  "lhu %[temp1], 0(%[temp7]) \n\t"
175  "addiu %[temp1], %[temp1], 1 \n\t"
176  "sh %[temp1], 0(%[temp7]) \n\t"
177  "bne %[temp2], %[temp4], 1b \n\t"
178  "4: \n\t"
179  "beqz %[temp3], 2f \n\t"
180  "3: \n\t"
181  "addiu %[temp3], %[temp3], -1 \n\t"
182  "lbu %[temp0], -1(%[temp2]) \n\t"
183  PTR_ADDIU "%[temp2],%[temp2], -1 \n\t"
184  "sll %[temp0], %[temp0], 1 \n\t"
185  PTR_ADDU "%[temp0], %[mant_cnt], %[temp0] \n\t"
186  "lhu %[temp1], 0(%[temp0]) \n\t"
187  "addiu %[temp1], %[temp1], 1 \n\t"
188  "sh %[temp1], 0(%[temp0]) \n\t"
189  "bgtz %[temp3], 3b \n\t"
190  "2: \n\t"
191 
192  : [temp0] "=&r" (temp0), [temp1] "=&r" (temp1),
193  [temp2] "=&r" (temp2), [temp3] "=&r" (temp3),
194  [temp4] "=&r" (temp4), [temp5] "=&r" (temp5),
195  [temp6] "=&r" (temp6), [temp7] "=&r" (temp7)
196  : [len] "r" (len), [bap] "r" (bap),
197  [mant_cnt] "r" (mant_cnt)
198  : "memory"
199  );
200 }
201 #endif
202 
203 #if HAVE_MIPSFPU
204 #if !HAVE_MIPS32R6 && !HAVE_MIPS64R6
205 static void float_to_fixed24_mips(int32_t *dst, const float *src, unsigned int len)
206 {
207  const float scale = 1 << 24;
208  float src0, src1, src2, src3, src4, src5, src6, src7;
209  int temp0, temp1, temp2, temp3, temp4, temp5, temp6, temp7;
210 
211  do {
212  __asm__ volatile (
213  "lwc1 %[src0], 0(%[src]) \n\t"
214  "lwc1 %[src1], 4(%[src]) \n\t"
215  "lwc1 %[src2], 8(%[src]) \n\t"
216  "lwc1 %[src3], 12(%[src]) \n\t"
217  "lwc1 %[src4], 16(%[src]) \n\t"
218  "lwc1 %[src5], 20(%[src]) \n\t"
219  "lwc1 %[src6], 24(%[src]) \n\t"
220  "lwc1 %[src7], 28(%[src]) \n\t"
221  "mul.s %[src0], %[src0], %[scale] \n\t"
222  "mul.s %[src1], %[src1], %[scale] \n\t"
223  "mul.s %[src2], %[src2], %[scale] \n\t"
224  "mul.s %[src3], %[src3], %[scale] \n\t"
225  "mul.s %[src4], %[src4], %[scale] \n\t"
226  "mul.s %[src5], %[src5], %[scale] \n\t"
227  "mul.s %[src6], %[src6], %[scale] \n\t"
228  "mul.s %[src7], %[src7], %[scale] \n\t"
229  "cvt.w.s %[src0], %[src0] \n\t"
230  "cvt.w.s %[src1], %[src1] \n\t"
231  "cvt.w.s %[src2], %[src2] \n\t"
232  "cvt.w.s %[src3], %[src3] \n\t"
233  "cvt.w.s %[src4], %[src4] \n\t"
234  "cvt.w.s %[src5], %[src5] \n\t"
235  "cvt.w.s %[src6], %[src6] \n\t"
236  "cvt.w.s %[src7], %[src7] \n\t"
237  "mfc1 %[temp0], %[src0] \n\t"
238  "mfc1 %[temp1], %[src1] \n\t"
239  "mfc1 %[temp2], %[src2] \n\t"
240  "mfc1 %[temp3], %[src3] \n\t"
241  "mfc1 %[temp4], %[src4] \n\t"
242  "mfc1 %[temp5], %[src5] \n\t"
243  "mfc1 %[temp6], %[src6] \n\t"
244  "mfc1 %[temp7], %[src7] \n\t"
245  "sw %[temp0], 0(%[dst]) \n\t"
246  "sw %[temp1], 4(%[dst]) \n\t"
247  "sw %[temp2], 8(%[dst]) \n\t"
248  "sw %[temp3], 12(%[dst]) \n\t"
249  "sw %[temp4], 16(%[dst]) \n\t"
250  "sw %[temp5], 20(%[dst]) \n\t"
251  "sw %[temp6], 24(%[dst]) \n\t"
252  "sw %[temp7], 28(%[dst]) \n\t"
253 
254  : [dst] "+r" (dst), [src] "+r" (src),
255  [src0] "=&f" (src0), [src1] "=&f" (src1),
256  [src2] "=&f" (src2), [src3] "=&f" (src3),
257  [src4] "=&f" (src4), [src5] "=&f" (src5),
258  [src6] "=&f" (src6), [src7] "=&f" (src7),
259  [temp0] "=r" (temp0), [temp1] "=r" (temp1),
260  [temp2] "=r" (temp2), [temp3] "=r" (temp3),
261  [temp4] "=r" (temp4), [temp5] "=r" (temp5),
262  [temp6] "=r" (temp6), [temp7] "=r" (temp7)
263  : [scale] "f" (scale)
264  : "memory"
265  );
266  src = src + 8;
267  dst = dst + 8;
268  len -= 8;
269  } while (len > 0);
270 }
271 
272 static void ac3_downmix_mips(float **samples, float (*matrix)[2],
273  int out_ch, int in_ch, int len)
274 {
275  int i, j, i1, i2, i3;
276  float v0, v1, v2, v3;
277  float v4, v5, v6, v7;
278  float samples0, samples1, samples2, samples3, matrix_j, matrix_j2;
279  float *samples_p, *samples_sw, *matrix_p, **samples_x, **samples_end;
280 
281  __asm__ volatile(
282  ".set push \n\t"
283  ".set noreorder \n\t"
284 
285  "li %[i1], 2 \n\t"
286  "sll %[len], 2 \n\t"
287  "move %[i], $zero \n\t"
288  "sll %[j], %[in_ch], " PTRLOG " \n\t"
289 
290  "bne %[out_ch], %[i1], 3f \n\t" // if (out_ch == 2)
291  " li %[i2], 1 \n\t"
292 
293  "2: \n\t" // start of the for loop (for (i = 0; i < len; i+=4))
294  "move %[matrix_p], %[matrix] \n\t"
295  "move %[samples_x], %[samples] \n\t"
296  "mtc1 $zero, %[v0] \n\t"
297  "mtc1 $zero, %[v1] \n\t"
298  "mtc1 $zero, %[v2] \n\t"
299  "mtc1 $zero, %[v3] \n\t"
300  "mtc1 $zero, %[v4] \n\t"
301  "mtc1 $zero, %[v5] \n\t"
302  "mtc1 $zero, %[v6] \n\t"
303  "mtc1 $zero, %[v7] \n\t"
304  "addiu %[i1], %[i], 4 \n\t"
305  "addiu %[i2], %[i], 8 \n\t"
306  PTR_L " %[samples_p], 0(%[samples_x]) \n\t"
307  "addiu %[i3], %[i], 12 \n\t"
308  PTR_ADDU "%[samples_end],%[samples_x], %[j] \n\t"
309  "move %[samples_sw], %[samples_p] \n\t"
310 
311  "1: \n\t" // start of the inner for loop (for (j = 0; j < in_ch; j++))
312  "lwc1 %[matrix_j], 0(%[matrix_p]) \n\t"
313  "lwc1 %[matrix_j2], 4(%[matrix_p]) \n\t"
314  "lwxc1 %[samples0], %[i](%[samples_p]) \n\t"
315  "lwxc1 %[samples1], %[i1](%[samples_p]) \n\t"
316  "lwxc1 %[samples2], %[i2](%[samples_p]) \n\t"
317  "lwxc1 %[samples3], %[i3](%[samples_p]) \n\t"
318  PTR_ADDIU "%[matrix_p], 8 \n\t"
319  PTR_ADDIU "%[samples_x]," PTRSIZE " \n\t"
320  "madd.s %[v0], %[v0], %[samples0], %[matrix_j] \n\t"
321  "madd.s %[v1], %[v1], %[samples1], %[matrix_j] \n\t"
322  "madd.s %[v2], %[v2], %[samples2], %[matrix_j] \n\t"
323  "madd.s %[v3], %[v3], %[samples3], %[matrix_j] \n\t"
324  "madd.s %[v4], %[v4], %[samples0], %[matrix_j2]\n\t"
325  "madd.s %[v5], %[v5], %[samples1], %[matrix_j2]\n\t"
326  "madd.s %[v6], %[v6], %[samples2], %[matrix_j2]\n\t"
327  "madd.s %[v7], %[v7], %[samples3], %[matrix_j2]\n\t"
328  "bne %[samples_x], %[samples_end], 1b \n\t"
329  PTR_L " %[samples_p], 0(%[samples_x]) \n\t"
330 
331  PTR_L " %[samples_p], " PTRSIZE "(%[samples]) \n\t"
332  "swxc1 %[v0], %[i](%[samples_sw]) \n\t"
333  "swxc1 %[v1], %[i1](%[samples_sw]) \n\t"
334  "swxc1 %[v2], %[i2](%[samples_sw]) \n\t"
335  "swxc1 %[v3], %[i3](%[samples_sw]) \n\t"
336  "swxc1 %[v4], %[i](%[samples_p]) \n\t"
337  "addiu %[i], 16 \n\t"
338  "swxc1 %[v5], %[i1](%[samples_p]) \n\t"
339  "swxc1 %[v6], %[i2](%[samples_p]) \n\t"
340  "bne %[i], %[len], 2b \n\t"
341  " swxc1 %[v7], %[i3](%[samples_p]) \n\t"
342 
343  "3: \n\t"
344  "bne %[out_ch], %[i2], 6f \n\t" // if (out_ch == 1)
345  " nop \n\t"
346 
347  "5: \n\t" // start of the outer for loop (for (i = 0; i < len; i+=4))
348  "move %[matrix_p], %[matrix] \n\t"
349  "move %[samples_x], %[samples] \n\t"
350  "mtc1 $zero, %[v0] \n\t"
351  "mtc1 $zero, %[v1] \n\t"
352  "mtc1 $zero, %[v2] \n\t"
353  "mtc1 $zero, %[v3] \n\t"
354  "addiu %[i1], %[i], 4 \n\t"
355  "addiu %[i2], %[i], 8 \n\t"
356  PTR_L " %[samples_p], 0(%[samples_x]) \n\t"
357  "addiu %[i3], %[i], 12 \n\t"
358  PTR_ADDU "%[samples_end],%[samples_x], %[j] \n\t"
359  "move %[samples_sw], %[samples_p] \n\t"
360 
361  "4: \n\t" // start of the inner for loop (for (j = 0; j < in_ch; j++))
362  "lwc1 %[matrix_j], 0(%[matrix_p]) \n\t"
363  "lwxc1 %[samples0], %[i](%[samples_p]) \n\t"
364  "lwxc1 %[samples1], %[i1](%[samples_p]) \n\t"
365  "lwxc1 %[samples2], %[i2](%[samples_p]) \n\t"
366  "lwxc1 %[samples3], %[i3](%[samples_p]) \n\t"
367  PTR_ADDIU "%[matrix_p], 8 \n\t"
368  PTR_ADDIU "%[samples_x]," PTRSIZE " \n\t"
369  "madd.s %[v0], %[v0], %[samples0], %[matrix_j] \n\t"
370  "madd.s %[v1], %[v1], %[samples1], %[matrix_j] \n\t"
371  "madd.s %[v2], %[v2], %[samples2], %[matrix_j] \n\t"
372  "madd.s %[v3], %[v3], %[samples3], %[matrix_j] \n\t"
373  "bne %[samples_x], %[samples_end], 4b \n\t"
374  PTR_L " %[samples_p], 0(%[samples_x]) \n\t"
375 
376  "swxc1 %[v0], %[i](%[samples_sw]) \n\t"
377  "addiu %[i], 16 \n\t"
378  "swxc1 %[v1], %[i1](%[samples_sw]) \n\t"
379  "swxc1 %[v2], %[i2](%[samples_sw]) \n\t"
380  "bne %[i], %[len], 5b \n\t"
381  " swxc1 %[v3], %[i3](%[samples_sw]) \n\t"
382  "6: \n\t"
383 
384  ".set pop"
385  :[samples_p]"=&r"(samples_p), [matrix_j]"=&f"(matrix_j), [matrix_j2]"=&f"(matrix_j2),
386  [samples0]"=&f"(samples0), [samples1]"=&f"(samples1),
387  [samples2]"=&f"(samples2), [samples3]"=&f"(samples3),
388  [v0]"=&f"(v0), [v1]"=&f"(v1), [v2]"=&f"(v2), [v3]"=&f"(v3),
389  [v4]"=&f"(v4), [v5]"=&f"(v5), [v6]"=&f"(v6), [v7]"=&f"(v7),
390  [samples_x]"=&r"(samples_x), [matrix_p]"=&r"(matrix_p),
391  [samples_end]"=&r"(samples_end), [samples_sw]"=&r"(samples_sw),
392  [i1]"=&r"(i1), [i2]"=&r"(i2), [i3]"=&r"(i3), [i]"=&r"(i),
393  [j]"=&r"(j), [len]"+r"(len)
394  :[samples]"r"(samples), [matrix]"r"(matrix),
395  [in_ch]"r"(in_ch), [out_ch]"r"(out_ch)
396  :"memory"
397  );
398 }
399 #endif /* !HAVE_MIPS32R6 && !HAVE_MIPS64R6 */
400 #endif /* HAVE_MIPSFPU */
401 #endif /* HAVE_INLINE_ASM */
402 
403 void ff_ac3dsp_init_mips(AC3DSPContext *c, int bit_exact) {
404 #if HAVE_INLINE_ASM
405 #if HAVE_MIPSDSP
406  c->bit_alloc_calc_bap = ac3_bit_alloc_calc_bap_mips;
407  c->update_bap_counts = ac3_update_bap_counts_mips;
408 #endif
409 #if HAVE_MIPSFPU
410 #if !HAVE_MIPS32R6 && !HAVE_MIPS64R6
411  c->float_to_fixed24 = float_to_fixed24_mips;
412  //c->downmix = ac3_downmix_mips;
413 #endif
414 #endif
415 
416 #endif
417 }
ff_ac3_bin_to_band_tab
const uint8_t ff_ac3_bin_to_band_tab[253]
Map each frequency coefficient bin to the critical band that contains it.
Definition: ac3.c:45
AC3DSPContext
Definition: ac3dsp.h:33
AC3_MAX_COEFS
#define AC3_MAX_COEFS
Definition: ac3.h:37
asmdefs.h
FFMAX
#define FFMAX(a, b)
Definition: macros.h:47
PTRSIZE
#define PTRSIZE
Definition: asmdefs.h:47
v0
#define v0
Definition: regdef.h:26
scale
static av_always_inline float scale(float x, float s)
Definition: vf_v360.c:1388
PTRLOG
#define PTRLOG
Definition: asmdefs.h:48
mask
static const uint16_t mask[17]
Definition: lzw.c:38
floor
static __device__ float floor(float a)
Definition: cuda_runtime.h:173
ff_ac3_band_start_tab
const uint8_t ff_ac3_band_start_tab[AC3_CRITICAL_BANDS+1]
Starting frequency coefficient bin for each critical band.
Definition: ac3.c:34
bap_tab
static const uint8_t bap_tab[64]
Definition: dolby_e.c:590
src
#define src
Definition: vp8dsp.c:255
ac3dsp.h
c
Undefined Behavior In the C some operations are like signed integer dereferencing freed accessing outside allocated Undefined Behavior must not occur in a C it is not safe even if the output of undefined operations is unused The unsafety may seem nit picking but Optimizing compilers have in fact optimized code on the assumption that no undefined Behavior occurs Optimizing code based on wrong assumptions can and has in some cases lead to effects beyond the output of computations The signed integer overflow problem in speed critical code Code which is highly optimized and works with signed integers sometimes has the problem that often the output of the computation does not c
Definition: undefined.txt:32
src0
#define src0
Definition: h264pred.c:139
src1
#define src1
Definition: h264pred.c:140
i
#define i(width, name, range_min, range_max)
Definition: cbs_h2645.c:271
FFMIN
#define FFMIN(a, b)
Definition: macros.h:49
len
int len
Definition: vorbis_enc_data.h:426
__asm__
__asm__(".macro parse_r var r\n\t" "\\var = -1\n\t" _IFC_REG(0) _IFC_REG(1) _IFC_REG(2) _IFC_REG(3) _IFC_REG(4) _IFC_REG(5) _IFC_REG(6) _IFC_REG(7) _IFC_REG(8) _IFC_REG(9) _IFC_REG(10) _IFC_REG(11) _IFC_REG(12) _IFC_REG(13) _IFC_REG(14) _IFC_REG(15) _IFC_REG(16) _IFC_REG(17) _IFC_REG(18) _IFC_REG(19) _IFC_REG(20) _IFC_REG(21) _IFC_REG(22) _IFC_REG(23) _IFC_REG(24) _IFC_REG(25) _IFC_REG(26) _IFC_REG(27) _IFC_REG(28) _IFC_REG(29) _IFC_REG(30) _IFC_REG(31) ".iflt \\var\n\t" ".error \"Unable to parse register name \\r\"\n\t" ".endif\n\t" ".endm")
PTR_ADDU
#define PTR_ADDU
Definition: asmdefs.h:49
ff_ac3dsp_init_mips
void ff_ac3dsp_init_mips(AC3DSPContext *c, int bit_exact)
Definition: ac3dsp_mips.c:403
PTR_ADDIU
#define PTR_ADDIU
Definition: asmdefs.h:50
samples
Filter the word “frame” indicates either a video frame or a group of audio samples
Definition: filter_design.txt:8
PTR_L
#define PTR_L
Definition: asmdefs.h:53
ac3.h
int32_t
int32_t
Definition: audioconvert.c:56
cond
int(* cond)(enum AVPixelFormat pix_fmt)
Definition: pixdesc_query.c:28