hw/sd/sdcard: Support boot area in emmc image
[qemu/armbru.git] / audio / mixeng.c
blob69f6549224f48f0a6ce8fd9ef91f0681ef8da6b4
1 /*
2 * QEMU Mixing engine
4 * Copyright (c) 2004-2005 Vassili Karpov (malc)
5 * Copyright (c) 1998 Fabrice Bellard
7 * Permission is hereby granted, free of charge, to any person obtaining a copy
8 * of this software and associated documentation files (the "Software"), to deal
9 * in the Software without restriction, including without limitation the rights
10 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
11 * copies of the Software, and to permit persons to whom the Software is
12 * furnished to do so, subject to the following conditions:
14 * The above copyright notice and this permission notice shall be included in
15 * all copies or substantial portions of the Software.
17 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
18 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
20 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
21 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
22 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
23 * THE SOFTWARE.
25 #include "qemu/osdep.h"
26 #include "qemu/bswap.h"
27 #include "qemu/error-report.h"
28 #include "audio.h"
30 #define AUDIO_CAP "mixeng"
31 #include "audio_int.h"
33 /* 8 bit */
34 #define ENDIAN_CONVERSION natural
35 #define ENDIAN_CONVERT(v) (v)
37 /* Signed 8 bit */
38 #define BSIZE 8
39 #define ITYPE int
40 #define IN_MIN SCHAR_MIN
41 #define IN_MAX SCHAR_MAX
42 #define SIGNED
43 #define SHIFT 8
44 #include "mixeng_template.h"
45 #undef SIGNED
46 #undef IN_MAX
47 #undef IN_MIN
48 #undef BSIZE
49 #undef ITYPE
50 #undef SHIFT
52 /* Unsigned 8 bit */
53 #define BSIZE 8
54 #define ITYPE uint
55 #define IN_MIN 0
56 #define IN_MAX UCHAR_MAX
57 #define SHIFT 8
58 #include "mixeng_template.h"
59 #undef IN_MAX
60 #undef IN_MIN
61 #undef BSIZE
62 #undef ITYPE
63 #undef SHIFT
65 #undef ENDIAN_CONVERT
66 #undef ENDIAN_CONVERSION
68 /* Signed 16 bit */
69 #define BSIZE 16
70 #define ITYPE int
71 #define IN_MIN SHRT_MIN
72 #define IN_MAX SHRT_MAX
73 #define SIGNED
74 #define SHIFT 16
75 #define ENDIAN_CONVERSION natural
76 #define ENDIAN_CONVERT(v) (v)
77 #include "mixeng_template.h"
78 #undef ENDIAN_CONVERT
79 #undef ENDIAN_CONVERSION
80 #define ENDIAN_CONVERSION swap
81 #define ENDIAN_CONVERT(v) bswap16 (v)
82 #include "mixeng_template.h"
83 #undef ENDIAN_CONVERT
84 #undef ENDIAN_CONVERSION
85 #undef SIGNED
86 #undef IN_MAX
87 #undef IN_MIN
88 #undef BSIZE
89 #undef ITYPE
90 #undef SHIFT
92 /* Unsigned 16 bit */
93 #define BSIZE 16
94 #define ITYPE uint
95 #define IN_MIN 0
96 #define IN_MAX USHRT_MAX
97 #define SHIFT 16
98 #define ENDIAN_CONVERSION natural
99 #define ENDIAN_CONVERT(v) (v)
100 #include "mixeng_template.h"
101 #undef ENDIAN_CONVERT
102 #undef ENDIAN_CONVERSION
103 #define ENDIAN_CONVERSION swap
104 #define ENDIAN_CONVERT(v) bswap16 (v)
105 #include "mixeng_template.h"
106 #undef ENDIAN_CONVERT
107 #undef ENDIAN_CONVERSION
108 #undef IN_MAX
109 #undef IN_MIN
110 #undef BSIZE
111 #undef ITYPE
112 #undef SHIFT
114 /* Signed 32 bit */
115 #define BSIZE 32
116 #define ITYPE int
117 #define IN_MIN INT32_MIN
118 #define IN_MAX INT32_MAX
119 #define SIGNED
120 #define SHIFT 32
121 #define ENDIAN_CONVERSION natural
122 #define ENDIAN_CONVERT(v) (v)
123 #include "mixeng_template.h"
124 #undef ENDIAN_CONVERT
125 #undef ENDIAN_CONVERSION
126 #define ENDIAN_CONVERSION swap
127 #define ENDIAN_CONVERT(v) bswap32 (v)
128 #include "mixeng_template.h"
129 #undef ENDIAN_CONVERT
130 #undef ENDIAN_CONVERSION
131 #undef SIGNED
132 #undef IN_MAX
133 #undef IN_MIN
134 #undef BSIZE
135 #undef ITYPE
136 #undef SHIFT
138 /* Unsigned 32 bit */
139 #define BSIZE 32
140 #define ITYPE uint
141 #define IN_MIN 0
142 #define IN_MAX UINT32_MAX
143 #define SHIFT 32
144 #define ENDIAN_CONVERSION natural
145 #define ENDIAN_CONVERT(v) (v)
146 #include "mixeng_template.h"
147 #undef ENDIAN_CONVERT
148 #undef ENDIAN_CONVERSION
149 #define ENDIAN_CONVERSION swap
150 #define ENDIAN_CONVERT(v) bswap32 (v)
151 #include "mixeng_template.h"
152 #undef ENDIAN_CONVERT
153 #undef ENDIAN_CONVERSION
154 #undef IN_MAX
155 #undef IN_MIN
156 #undef BSIZE
157 #undef ITYPE
158 #undef SHIFT
160 t_sample *mixeng_conv[2][2][2][3] = {
164 conv_natural_uint8_t_to_mono,
165 conv_natural_uint16_t_to_mono,
166 conv_natural_uint32_t_to_mono
169 conv_natural_uint8_t_to_mono,
170 conv_swap_uint16_t_to_mono,
171 conv_swap_uint32_t_to_mono,
176 conv_natural_int8_t_to_mono,
177 conv_natural_int16_t_to_mono,
178 conv_natural_int32_t_to_mono
181 conv_natural_int8_t_to_mono,
182 conv_swap_int16_t_to_mono,
183 conv_swap_int32_t_to_mono
190 conv_natural_uint8_t_to_stereo,
191 conv_natural_uint16_t_to_stereo,
192 conv_natural_uint32_t_to_stereo
195 conv_natural_uint8_t_to_stereo,
196 conv_swap_uint16_t_to_stereo,
197 conv_swap_uint32_t_to_stereo
202 conv_natural_int8_t_to_stereo,
203 conv_natural_int16_t_to_stereo,
204 conv_natural_int32_t_to_stereo
207 conv_natural_int8_t_to_stereo,
208 conv_swap_int16_t_to_stereo,
209 conv_swap_int32_t_to_stereo,
215 f_sample *mixeng_clip[2][2][2][3] = {
219 clip_natural_uint8_t_from_mono,
220 clip_natural_uint16_t_from_mono,
221 clip_natural_uint32_t_from_mono
224 clip_natural_uint8_t_from_mono,
225 clip_swap_uint16_t_from_mono,
226 clip_swap_uint32_t_from_mono
231 clip_natural_int8_t_from_mono,
232 clip_natural_int16_t_from_mono,
233 clip_natural_int32_t_from_mono
236 clip_natural_int8_t_from_mono,
237 clip_swap_int16_t_from_mono,
238 clip_swap_int32_t_from_mono
245 clip_natural_uint8_t_from_stereo,
246 clip_natural_uint16_t_from_stereo,
247 clip_natural_uint32_t_from_stereo
250 clip_natural_uint8_t_from_stereo,
251 clip_swap_uint16_t_from_stereo,
252 clip_swap_uint32_t_from_stereo
257 clip_natural_int8_t_from_stereo,
258 clip_natural_int16_t_from_stereo,
259 clip_natural_int32_t_from_stereo
262 clip_natural_int8_t_from_stereo,
263 clip_swap_int16_t_from_stereo,
264 clip_swap_int32_t_from_stereo
270 #ifdef FLOAT_MIXENG
271 #define CONV_NATURAL_FLOAT(x) (x)
272 #define CLIP_NATURAL_FLOAT(x) (x)
273 #else
274 /* macros to map [-1.f, 1.f] <-> [INT32_MIN, INT32_MAX + 1] */
275 static const float float_scale = (int64_t)INT32_MAX + 1;
276 #define CONV_NATURAL_FLOAT(x) ((x) * float_scale)
278 #ifdef RECIPROCAL
279 static const float float_scale_reciprocal = 1.f / ((int64_t)INT32_MAX + 1);
280 #define CLIP_NATURAL_FLOAT(x) ((x) * float_scale_reciprocal)
281 #else
282 #define CLIP_NATURAL_FLOAT(x) ((x) / float_scale)
283 #endif
284 #endif
286 static void conv_natural_float_to_mono(struct st_sample *dst, const void *src,
287 int samples)
289 float *in = (float *)src;
291 while (samples--) {
292 dst->r = dst->l = CONV_NATURAL_FLOAT(*in++);
293 dst++;
297 static void conv_natural_float_to_stereo(struct st_sample *dst, const void *src,
298 int samples)
300 float *in = (float *)src;
302 while (samples--) {
303 dst->l = CONV_NATURAL_FLOAT(*in++);
304 dst->r = CONV_NATURAL_FLOAT(*in++);
305 dst++;
309 t_sample *mixeng_conv_float[2] = {
310 conv_natural_float_to_mono,
311 conv_natural_float_to_stereo,
314 static void clip_natural_float_from_mono(void *dst, const struct st_sample *src,
315 int samples)
317 float *out = (float *)dst;
319 while (samples--) {
320 *out++ = CLIP_NATURAL_FLOAT(src->l + src->r);
321 src++;
325 static void clip_natural_float_from_stereo(
326 void *dst, const struct st_sample *src, int samples)
328 float *out = (float *)dst;
330 while (samples--) {
331 *out++ = CLIP_NATURAL_FLOAT(src->l);
332 *out++ = CLIP_NATURAL_FLOAT(src->r);
333 src++;
337 f_sample *mixeng_clip_float[2] = {
338 clip_natural_float_from_mono,
339 clip_natural_float_from_stereo,
342 void audio_sample_to_uint64(const void *samples, int pos,
343 uint64_t *left, uint64_t *right)
345 #ifdef FLOAT_MIXENG
346 error_report(
347 "Coreaudio and floating point samples are not supported by replay yet");
348 abort();
349 #else
350 const struct st_sample *sample = samples;
351 sample += pos;
352 *left = sample->l;
353 *right = sample->r;
354 #endif
357 void audio_sample_from_uint64(void *samples, int pos,
358 uint64_t left, uint64_t right)
360 #ifdef FLOAT_MIXENG
361 error_report(
362 "Coreaudio and floating point samples are not supported by replay yet");
363 abort();
364 #else
365 struct st_sample *sample = samples;
366 sample += pos;
367 sample->l = left;
368 sample->r = right;
369 #endif
373 * August 21, 1998
374 * Copyright 1998 Fabrice Bellard.
376 * [Rewrote completely the code of Lance Norskog And Sundry
377 * Contributors with a more efficient algorithm.]
379 * This source code is freely redistributable and may be used for
380 * any purpose. This copyright notice must be maintained.
381 * Lance Norskog And Sundry Contributors are not responsible for
382 * the consequences of using this software.
386 * Sound Tools rate change effect file.
389 * Linear Interpolation.
391 * The use of fractional increment allows us to use no buffer. It
392 * avoid the problems at the end of the buffer we had with the old
393 * method which stored a possibly big buffer of size
394 * lcm(in_rate,out_rate).
396 * Limited to 16 bit samples and sampling frequency <= 65535 Hz. If
397 * the input & output frequencies are equal, a delay of one sample is
398 * introduced. Limited to processing 32-bit count worth of samples.
400 * 1 << FRAC_BITS evaluating to zero in several places. Changed with
401 * an (unsigned long) cast to make it safe. MarkMLl 2/1/99
404 /* Private data */
405 struct rate {
406 uint64_t opos;
407 uint64_t opos_inc;
408 uint32_t ipos; /* position in the input stream (integer) */
409 struct st_sample ilast; /* last sample in the input stream */
413 * Prepare processing.
415 void *st_rate_start (int inrate, int outrate)
417 struct rate *rate = g_new0(struct rate, 1);
419 rate->opos = 0;
421 /* increment */
422 rate->opos_inc = ((uint64_t) inrate << 32) / outrate;
424 rate->ipos = 0;
425 rate->ilast.l = 0;
426 rate->ilast.r = 0;
427 return rate;
430 #define NAME st_rate_flow_mix
431 #define OP(a, b) a += b
432 #include "rate_template.h"
434 #define NAME st_rate_flow
435 #define OP(a, b) a = b
436 #include "rate_template.h"
438 void st_rate_stop (void *opaque)
440 g_free (opaque);
444 * st_rate_frames_out() - returns the number of frames the resampling code
445 * generates from frames_in frames
447 * @opaque: pointer to struct rate
448 * @frames_in: number of frames
450 * When upsampling, there may be more than one correct result. In this case,
451 * the function returns the maximum number of output frames the resampling
452 * code can generate.
454 uint32_t st_rate_frames_out(void *opaque, uint32_t frames_in)
456 struct rate *rate = opaque;
457 uint64_t opos_end, opos_delta;
458 uint32_t ipos_end;
459 uint32_t frames_out;
461 if (rate->opos_inc == 1ULL << 32) {
462 return frames_in;
465 /* no output frame without at least one input frame */
466 if (!frames_in) {
467 return 0;
470 /* last frame read was at rate->ipos - 1 */
471 ipos_end = rate->ipos - 1 + frames_in;
472 opos_end = (uint64_t)ipos_end << 32;
474 /* last frame written was at rate->opos - rate->opos_inc */
475 if (opos_end + rate->opos_inc <= rate->opos) {
476 return 0;
478 opos_delta = opos_end - rate->opos + rate->opos_inc;
479 frames_out = opos_delta / rate->opos_inc;
481 return opos_delta % rate->opos_inc ? frames_out : frames_out - 1;
485 * st_rate_frames_in() - returns the number of frames needed to
486 * get frames_out frames after resampling
488 * @opaque: pointer to struct rate
489 * @frames_out: number of frames
491 * When downsampling, there may be more than one correct result. In this
492 * case, the function returns the maximum number of input frames needed.
494 uint32_t st_rate_frames_in(void *opaque, uint32_t frames_out)
496 struct rate *rate = opaque;
497 uint64_t opos_start, opos_end;
498 uint32_t ipos_start, ipos_end;
500 if (rate->opos_inc == 1ULL << 32) {
501 return frames_out;
504 if (frames_out) {
505 opos_start = rate->opos;
506 ipos_start = rate->ipos;
507 } else {
508 uint64_t offset;
510 /* add offset = ceil(opos_inc) to opos and ipos to avoid an underflow */
511 offset = (rate->opos_inc + (1ULL << 32) - 1) & ~((1ULL << 32) - 1);
512 opos_start = rate->opos + offset;
513 ipos_start = rate->ipos + (offset >> 32);
515 /* last frame written was at opos_start - rate->opos_inc */
516 opos_end = opos_start - rate->opos_inc + rate->opos_inc * frames_out;
517 ipos_end = (opos_end >> 32) + 1;
519 /* last frame read was at ipos_start - 1 */
520 return ipos_end + 1 > ipos_start ? ipos_end + 1 - ipos_start : 0;
523 void mixeng_clear (struct st_sample *buf, int len)
525 memset (buf, 0, len * sizeof (struct st_sample));
528 void mixeng_volume (struct st_sample *buf, int len, struct mixeng_volume *vol)
530 if (vol->mute) {
531 mixeng_clear (buf, len);
532 return;
535 while (len--) {
536 #ifdef FLOAT_MIXENG
537 buf->l = buf->l * vol->l;
538 buf->r = buf->r * vol->r;
539 #else
540 buf->l = (buf->l * vol->l) >> 32;
541 buf->r = (buf->r * vol->r) >> 32;
542 #endif
543 buf += 1;