The Design and Implementation of the FreeBSD Operating System, Second Edition
Now available: The Design and Implementation of the FreeBSD Operating System (Second Edition)


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FreeBSD/Linux Kernel Cross Reference
sys/dev/sound/pcm/feeder_volume.c

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    1 /*-
    2  * Copyright (c) 2005 Ariff Abdullah <ariff@FreeBSD.org>
    3  * All rights reserved.
    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  *
   14  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
   15  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
   16  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
   17  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
   18  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
   19  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
   20  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
   21  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
   22  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
   23  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
   24  * SUCH DAMAGE.
   25  */
   26 
   27 /* feeder_volume, a long 'Lost Technology' rather than a new feature. */
   28 
   29 #include <dev/sound/pcm/sound.h>
   30 #include "feeder_if.h"
   31 
   32 SND_DECLARE_FILE("$FreeBSD: releng/7.3/sys/dev/sound/pcm/feeder_volume.c 170834 2007-06-16 20:36:39Z ariff $");
   33 
   34 #define FVOL_OSS_SCALE          100
   35 #define FVOL_RESOLUTION         PCM_FXSHIFT
   36 #define FVOL_CLAMP(val)         (((val) << FVOL_RESOLUTION) / FVOL_OSS_SCALE)
   37 #define FVOL_LEFT(val)          FVOL_CLAMP((val) & 0x7f)
   38 #define FVOL_RIGHT(val)         FVOL_LEFT((val) >> 8)
   39 #define FVOL_MAX                (1 << FVOL_RESOLUTION)
   40 #define FVOL_CALC(sval, vval)   (((sval) * (vval)) >> FVOL_RESOLUTION)
   41 
   42 typedef uint32_t (*feed_volume_filter)(uint8_t *, int *, uint32_t);
   43 
   44 #define FEEDER_VOLUME_FILTER(FMTBIT, VOL_INTCAST, SIGN, SIGNS, ENDIAN, ENDIANS) \
   45 static uint32_t                                                                 \
   46 feed_volume_filter_##SIGNS##FMTBIT##ENDIANS(uint8_t *b, int *vol,               \
   47                                                         uint32_t count)         \
   48 {                                                                               \
   49         int32_t j;                                                              \
   50         int i;                                                                  \
   51                                                                                 \
   52         i = count;                                                              \
   53         b += i;                                                                 \
   54                                                                                 \
   55         do {                                                                    \
   56                 b -= PCM_##FMTBIT##_BPS;                                        \
   57                 i -= PCM_##FMTBIT##_BPS;                                        \
   58                 j = PCM_READ_##SIGN##FMTBIT##_##ENDIAN(b);                      \
   59                 j = FVOL_CALC((VOL_INTCAST)j,                                   \
   60                     vol[(i / PCM_##FMTBIT##_BPS) & 1]);                         \
   61                 PCM_WRITE_##SIGN##FMTBIT##_##ENDIAN(b, j);                      \
   62         } while (i != 0);                                                       \
   63                                                                                 \
   64         return (count);                                                         \
   65 }
   66 
   67 FEEDER_VOLUME_FILTER(8, int32_t, S, s, NE, ne)
   68 FEEDER_VOLUME_FILTER(16, int32_t, S, s, LE, le)
   69 FEEDER_VOLUME_FILTER(24, int32_t, S, s, LE, le)
   70 FEEDER_VOLUME_FILTER(32, intpcm_t, S, s, LE, le)
   71 FEEDER_VOLUME_FILTER(16, int32_t, S, s, BE, be)
   72 FEEDER_VOLUME_FILTER(24, int32_t, S, s, BE, be)
   73 FEEDER_VOLUME_FILTER(32, intpcm_t, S, s, BE, be)
   74 FEEDER_VOLUME_FILTER(8, int32_t, U, u, NE, ne)
   75 FEEDER_VOLUME_FILTER(16, int32_t, U, u, LE, le)
   76 FEEDER_VOLUME_FILTER(24, int32_t, U, u, LE, le)
   77 FEEDER_VOLUME_FILTER(32, intpcm_t, U, u, LE, le)
   78 FEEDER_VOLUME_FILTER(16, int32_t, U, u, BE, be)
   79 FEEDER_VOLUME_FILTER(24, int32_t, U, u, BE, be)
   80 FEEDER_VOLUME_FILTER(32, intpcm_t, U, u, BE, be)
   81 
   82 struct feed_volume_info {
   83         uint32_t format;
   84         int bps;
   85         feed_volume_filter filter;
   86 };
   87 
   88 static struct feed_volume_info feed_volume_tbl[] = {
   89         { AFMT_S8,     PCM_8_BPS,  feed_volume_filter_s8ne  },
   90         { AFMT_S16_LE, PCM_16_BPS, feed_volume_filter_s16le },
   91         { AFMT_S24_LE, PCM_24_BPS, feed_volume_filter_s24le },
   92         { AFMT_S32_LE, PCM_32_BPS, feed_volume_filter_s32le },
   93         { AFMT_S16_BE, PCM_16_BPS, feed_volume_filter_s16be },
   94         { AFMT_S24_BE, PCM_24_BPS, feed_volume_filter_s24be },
   95         { AFMT_S32_BE, PCM_32_BPS, feed_volume_filter_s32be },
   96         { AFMT_U8,     PCM_8_BPS,  feed_volume_filter_u8ne  },
   97         { AFMT_U16_LE, PCM_16_BPS, feed_volume_filter_u16le },
   98         { AFMT_U24_LE, PCM_24_BPS, feed_volume_filter_u24le },
   99         { AFMT_U32_LE, PCM_32_BPS, feed_volume_filter_u32le },
  100         { AFMT_U16_BE, PCM_16_BPS, feed_volume_filter_u16be },
  101         { AFMT_U24_BE, PCM_24_BPS, feed_volume_filter_u24be },
  102         { AFMT_U32_BE, PCM_32_BPS, feed_volume_filter_u32be },
  103 };
  104 
  105 #define FVOL_DATA(i, c)         ((intptr_t)((((i) & 0x1f) << 4) | ((c) & 0xf)))
  106 #define FVOL_INFOIDX(m)         (((m) >> 4) & 0x1f)
  107 #define FVOL_CHANNELS(m)        ((m) & 0xf)
  108 
  109 static int
  110 feed_volume_init(struct pcm_feeder *f)
  111 {
  112         int i, channels;
  113 
  114         if (f->desc->in != f->desc->out)
  115                 return (EINVAL);
  116 
  117         /* For now, this is mandatory! */
  118         if (!(f->desc->out & AFMT_STEREO))
  119                 return (EINVAL);
  120 
  121         channels = 2;
  122 
  123         for (i = 0; i < sizeof(feed_volume_tbl) / sizeof(feed_volume_tbl[0]);
  124             i++) {
  125                 if ((f->desc->out & ~AFMT_STEREO) ==
  126                     feed_volume_tbl[i].format) {
  127                         f->data = (void *)FVOL_DATA(i, channels);
  128                         return (0);
  129                 }
  130         }
  131 
  132         return (-1);
  133 }
  134 
  135 static int
  136 feed_volume(struct pcm_feeder *f, struct pcm_channel *c, uint8_t *b,
  137                                                 uint32_t count, void *source)
  138 {
  139         struct feed_volume_info *info;
  140         int vol[2];
  141         int k, smpsz;
  142 
  143         vol[0] = FVOL_LEFT(c->volume);
  144         vol[1] = FVOL_RIGHT(c->volume);
  145 
  146         if (vol[0] == FVOL_MAX && vol[1] == FVOL_MAX)
  147                 return (FEEDER_FEED(f->source, c, b, count, source));
  148 
  149         info = &feed_volume_tbl[FVOL_INFOIDX((intptr_t)f->data)];
  150         smpsz = info->bps * FVOL_CHANNELS((intptr_t)f->data);
  151         if (count < smpsz)
  152                 return (0);
  153 
  154         k = FEEDER_FEED(f->source, c, b, count - (count % smpsz), source);
  155         if (k < smpsz)
  156                 return (0);
  157 
  158         k -= k % smpsz;
  159         return (info->filter(b, vol, k));
  160 }
  161 
  162 static struct pcm_feederdesc feeder_volume_desc[] = {
  163         {FEEDER_VOLUME, AFMT_S8 | AFMT_STEREO, AFMT_S8 | AFMT_STEREO, 0},
  164         {FEEDER_VOLUME, AFMT_S16_LE | AFMT_STEREO, AFMT_S16_LE | AFMT_STEREO, 0},
  165         {FEEDER_VOLUME, AFMT_S24_LE | AFMT_STEREO, AFMT_S24_LE | AFMT_STEREO, 0},
  166         {FEEDER_VOLUME, AFMT_S32_LE | AFMT_STEREO, AFMT_S32_LE | AFMT_STEREO, 0},
  167         {FEEDER_VOLUME, AFMT_S16_BE | AFMT_STEREO, AFMT_S16_BE | AFMT_STEREO, 0},
  168         {FEEDER_VOLUME, AFMT_S24_BE | AFMT_STEREO, AFMT_S24_BE | AFMT_STEREO, 0},
  169         {FEEDER_VOLUME, AFMT_S32_BE | AFMT_STEREO, AFMT_S32_BE | AFMT_STEREO, 0},
  170         {FEEDER_VOLUME, AFMT_U8 | AFMT_STEREO, AFMT_U8 | AFMT_STEREO, 0},
  171         {FEEDER_VOLUME, AFMT_U16_LE | AFMT_STEREO, AFMT_U16_LE | AFMT_STEREO, 0},
  172         {FEEDER_VOLUME, AFMT_U24_LE | AFMT_STEREO, AFMT_U24_LE | AFMT_STEREO, 0},
  173         {FEEDER_VOLUME, AFMT_U32_LE | AFMT_STEREO, AFMT_U32_LE | AFMT_STEREO, 0},
  174         {FEEDER_VOLUME, AFMT_U16_BE | AFMT_STEREO, AFMT_U16_BE | AFMT_STEREO, 0},
  175         {FEEDER_VOLUME, AFMT_U24_BE | AFMT_STEREO, AFMT_U24_BE | AFMT_STEREO, 0},
  176         {FEEDER_VOLUME, AFMT_U32_BE | AFMT_STEREO, AFMT_U32_BE | AFMT_STEREO, 0},
  177         {0, 0, 0, 0},
  178 };
  179 static kobj_method_t feeder_volume_methods[] = {
  180         KOBJMETHOD(feeder_init,         feed_volume_init),
  181         KOBJMETHOD(feeder_feed,         feed_volume),
  182         {0, 0}
  183 };
  184 FEEDER_DECLARE(feeder_volume, 2, NULL);

Cache object: b0617b8867df584361c5a4902eb994db


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