mirror of
https://github.com/mpv-player/mpv
synced 2024-12-12 01:46:16 +00:00
0c3d542dc7
git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@28374 b3059339-0415-0410-9bf9-f77b7e298cf2
518 lines
14 KiB
C
518 lines
14 KiB
C
/*
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* This audio filter changes the format of a data block. Valid
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* formats are: AFMT_U8, AFMT_S8, AFMT_S16_LE, AFMT_S16_BE
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* AFMT_U16_LE, AFMT_U16_BE, AFMT_S32_LE and AFMT_S32_BE.
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*
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* This file is part of MPlayer.
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*
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* MPlayer is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* MPlayer is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with MPlayer; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <inttypes.h>
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#include <limits.h>
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#include <math.h>
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#include "config.h"
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#include "af.h"
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#include "mpbswap.h"
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#include "libvo/fastmemcpy.h"
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/* Functions used by play to convert the input audio to the correct
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format */
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/* The below includes retrieves functions for converting to and from
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ulaw and alaw */
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#include "af_format_ulaw.h"
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#include "af_format_alaw.h"
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// Switch endianness
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static void endian(void* in, void* out, int len, int bps);
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// From signed to unsigned and the other way
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static void si2us(void* data, int len, int bps);
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// Change the number of bits per sample
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static void change_bps(void* in, void* out, int len, int inbps, int outbps);
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// From float to int signed
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static void float2int(float* in, void* out, int len, int bps);
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// From signed int to float
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static void int2float(void* in, float* out, int len, int bps);
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static af_data_t* play(struct af_instance_s* af, af_data_t* data);
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static af_data_t* play_swapendian(struct af_instance_s* af, af_data_t* data);
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static af_data_t* play_float_s16(struct af_instance_s* af, af_data_t* data);
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static af_data_t* play_s16_float(struct af_instance_s* af, af_data_t* data);
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// Helper functions to check sanity for input arguments
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// Sanity check for bytes per sample
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static int check_bps(int bps)
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{
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if(bps != 4 && bps != 3 && bps != 2 && bps != 1){
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af_msg(AF_MSG_ERROR,"[format] The number of bytes per sample"
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" must be 1, 2, 3 or 4. Current value is %i \n",bps);
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return AF_ERROR;
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}
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return AF_OK;
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}
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// Check for unsupported formats
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static int check_format(int format)
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{
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char buf[256];
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switch(format & AF_FORMAT_SPECIAL_MASK){
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case(AF_FORMAT_IMA_ADPCM):
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case(AF_FORMAT_MPEG2):
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case(AF_FORMAT_AC3):
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af_msg(AF_MSG_ERROR,"[format] Sample format %s not yet supported \n",
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af_fmt2str(format,buf,256));
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return AF_ERROR;
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}
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return AF_OK;
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}
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// Initialization and runtime control
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static int control(struct af_instance_s* af, int cmd, void* arg)
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{
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switch(cmd){
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case AF_CONTROL_REINIT:{
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char buf1[256];
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char buf2[256];
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af_data_t *data = arg;
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// Make sure this filter isn't redundant
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if(af->data->format == data->format &&
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af->data->bps == data->bps)
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return AF_DETACH;
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// Check for errors in configuration
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if((AF_OK != check_bps(data->bps)) ||
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(AF_OK != check_format(data->format)) ||
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(AF_OK != check_bps(af->data->bps)) ||
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(AF_OK != check_format(af->data->format)))
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return AF_ERROR;
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af_msg(AF_MSG_VERBOSE,"[format] Changing sample format from %s to %s\n",
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af_fmt2str(data->format,buf1,256),
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af_fmt2str(af->data->format,buf2,256));
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af->data->rate = data->rate;
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af->data->nch = data->nch;
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af->mul = (double)af->data->bps / data->bps;
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af->play = play; // set default
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// look whether only endianness differences are there
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if ((af->data->format & ~AF_FORMAT_END_MASK) ==
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(data->format & ~AF_FORMAT_END_MASK))
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{
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af_msg(AF_MSG_VERBOSE,"[format] Accelerated endianness conversion only\n");
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af->play = play_swapendian;
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}
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if ((data->format == AF_FORMAT_FLOAT_NE) &&
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(af->data->format == AF_FORMAT_S16_NE))
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{
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af_msg(AF_MSG_VERBOSE,"[format] Accelerated %s to %s conversion\n",
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af_fmt2str(data->format,buf1,256),
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af_fmt2str(af->data->format,buf2,256));
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af->play = play_float_s16;
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}
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if ((data->format == AF_FORMAT_S16_NE) &&
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(af->data->format == AF_FORMAT_FLOAT_NE))
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{
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af_msg(AF_MSG_VERBOSE,"[format] Accelerated %s to %s conversion\n",
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af_fmt2str(data->format,buf1,256),
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af_fmt2str(af->data->format,buf2,256));
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af->play = play_s16_float;
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}
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return AF_OK;
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}
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case AF_CONTROL_COMMAND_LINE:{
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int format = af_str2fmt_short(arg);
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if (format == -1) {
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af_msg(AF_MSG_ERROR, "[format] %s is not a valid format\n", (char *)arg);
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return AF_ERROR;
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}
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if(AF_OK != af->control(af,AF_CONTROL_FORMAT_FMT | AF_CONTROL_SET,&format))
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return AF_ERROR;
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return AF_OK;
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}
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case AF_CONTROL_FORMAT_FMT | AF_CONTROL_SET:{
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// Check for errors in configuration
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if(AF_OK != check_format(*(int*)arg))
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return AF_ERROR;
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af->data->format = *(int*)arg;
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af->data->bps = af_fmt2bits(af->data->format)/8;
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return AF_OK;
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}
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}
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return AF_UNKNOWN;
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}
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// Deallocate memory
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static void uninit(struct af_instance_s* af)
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{
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if (af->data)
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free(af->data->audio);
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free(af->data);
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af->setup = 0;
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}
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static af_data_t* play_swapendian(struct af_instance_s* af, af_data_t* data)
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{
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af_data_t* l = af->data; // Local data
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af_data_t* c = data; // Current working data
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int len = c->len/c->bps; // Length in samples of current audio block
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if(AF_OK != RESIZE_LOCAL_BUFFER(af,data))
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return NULL;
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endian(c->audio,l->audio,len,c->bps);
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c->audio = l->audio;
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c->format = l->format;
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return c;
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}
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static af_data_t* play_float_s16(struct af_instance_s* af, af_data_t* data)
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{
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af_data_t* l = af->data; // Local data
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af_data_t* c = data; // Current working data
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int len = c->len/4; // Length in samples of current audio block
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if(AF_OK != RESIZE_LOCAL_BUFFER(af,data))
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return NULL;
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float2int(c->audio, l->audio, len, 2);
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c->audio = l->audio;
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c->len = len*2;
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c->bps = 2;
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c->format = l->format;
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return c;
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}
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static af_data_t* play_s16_float(struct af_instance_s* af, af_data_t* data)
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{
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af_data_t* l = af->data; // Local data
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af_data_t* c = data; // Current working data
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int len = c->len/2; // Length in samples of current audio block
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if(AF_OK != RESIZE_LOCAL_BUFFER(af,data))
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return NULL;
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int2float(c->audio, l->audio, len, 2);
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c->audio = l->audio;
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c->len = len*4;
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c->bps = 4;
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c->format = l->format;
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return c;
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}
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// Filter data through filter
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static af_data_t* play(struct af_instance_s* af, af_data_t* data)
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{
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af_data_t* l = af->data; // Local data
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af_data_t* c = data; // Current working data
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int len = c->len/c->bps; // Length in samples of current audio block
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if(AF_OK != RESIZE_LOCAL_BUFFER(af,data))
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return NULL;
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// Change to cpu native endian format
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if((c->format&AF_FORMAT_END_MASK)!=AF_FORMAT_NE)
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endian(c->audio,c->audio,len,c->bps);
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// Conversion table
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if((c->format & AF_FORMAT_SPECIAL_MASK) == AF_FORMAT_MU_LAW) {
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from_ulaw(c->audio, l->audio, len, l->bps, l->format&AF_FORMAT_POINT_MASK);
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if(AF_FORMAT_A_LAW == (l->format&AF_FORMAT_SPECIAL_MASK))
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to_ulaw(l->audio, l->audio, len, 1, AF_FORMAT_SI);
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if((l->format&AF_FORMAT_SIGN_MASK) == AF_FORMAT_US)
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si2us(l->audio,len,l->bps);
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} else if((c->format & AF_FORMAT_SPECIAL_MASK) == AF_FORMAT_A_LAW) {
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from_alaw(c->audio, l->audio, len, l->bps, l->format&AF_FORMAT_POINT_MASK);
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if(AF_FORMAT_A_LAW == (l->format&AF_FORMAT_SPECIAL_MASK))
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to_alaw(l->audio, l->audio, len, 1, AF_FORMAT_SI);
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if((l->format&AF_FORMAT_SIGN_MASK) == AF_FORMAT_US)
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si2us(l->audio,len,l->bps);
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} else if((c->format & AF_FORMAT_POINT_MASK) == AF_FORMAT_F) {
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switch(l->format&AF_FORMAT_SPECIAL_MASK){
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case(AF_FORMAT_MU_LAW):
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to_ulaw(c->audio, l->audio, len, c->bps, c->format&AF_FORMAT_POINT_MASK);
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break;
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case(AF_FORMAT_A_LAW):
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to_alaw(c->audio, l->audio, len, c->bps, c->format&AF_FORMAT_POINT_MASK);
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break;
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default:
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float2int(c->audio, l->audio, len, l->bps);
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if((l->format&AF_FORMAT_SIGN_MASK) == AF_FORMAT_US)
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si2us(l->audio,len,l->bps);
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break;
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}
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} else {
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// Input must be int
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// Change signed/unsigned
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if((c->format&AF_FORMAT_SIGN_MASK) != (l->format&AF_FORMAT_SIGN_MASK)){
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si2us(c->audio,len,c->bps);
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}
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// Convert to special formats
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switch(l->format&(AF_FORMAT_SPECIAL_MASK|AF_FORMAT_POINT_MASK)){
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case(AF_FORMAT_MU_LAW):
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to_ulaw(c->audio, l->audio, len, c->bps, c->format&AF_FORMAT_POINT_MASK);
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break;
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case(AF_FORMAT_A_LAW):
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to_alaw(c->audio, l->audio, len, c->bps, c->format&AF_FORMAT_POINT_MASK);
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break;
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case(AF_FORMAT_F):
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int2float(c->audio, l->audio, len, c->bps);
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break;
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default:
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// Change the number of bits
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if(c->bps != l->bps)
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change_bps(c->audio,l->audio,len,c->bps,l->bps);
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else
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fast_memcpy(l->audio,c->audio,len*c->bps);
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break;
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}
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}
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// Switch from cpu native endian to the correct endianness
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if((l->format&AF_FORMAT_END_MASK)!=AF_FORMAT_NE)
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endian(l->audio,l->audio,len,l->bps);
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// Set output data
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c->audio = l->audio;
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c->len = len*l->bps;
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c->bps = l->bps;
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c->format = l->format;
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return c;
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}
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// Allocate memory and set function pointers
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static int af_open(af_instance_t* af){
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af->control=control;
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af->uninit=uninit;
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af->play=play;
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af->mul=1;
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af->data=calloc(1,sizeof(af_data_t));
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if(af->data == NULL)
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return AF_ERROR;
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return AF_OK;
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}
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// Description of this filter
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af_info_t af_info_format = {
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"Sample format conversion",
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"format",
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"Anders",
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"",
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AF_FLAGS_REENTRANT,
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af_open
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};
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static inline uint32_t load24bit(void* data, int pos) {
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#ifdef WORDS_BIGENDIAN
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return (((uint32_t)((uint8_t*)data)[3*pos])<<24) |
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(((uint32_t)((uint8_t*)data)[3*pos+1])<<16) |
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(((uint32_t)((uint8_t*)data)[3*pos+2])<<8);
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#else
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return (((uint32_t)((uint8_t*)data)[3*pos])<<8) |
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(((uint32_t)((uint8_t*)data)[3*pos+1])<<16) |
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(((uint32_t)((uint8_t*)data)[3*pos+2])<<24);
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#endif
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}
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static inline void store24bit(void* data, int pos, uint32_t expanded_value) {
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#ifdef WORDS_BIGENDIAN
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((uint8_t*)data)[3*pos]=expanded_value>>24;
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((uint8_t*)data)[3*pos+1]=expanded_value>>16;
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((uint8_t*)data)[3*pos+2]=expanded_value>>8;
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#else
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((uint8_t*)data)[3*pos]=expanded_value>>8;
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((uint8_t*)data)[3*pos+1]=expanded_value>>16;
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((uint8_t*)data)[3*pos+2]=expanded_value>>24;
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#endif
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}
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// Function implementations used by play
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static void endian(void* in, void* out, int len, int bps)
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{
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register int i;
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switch(bps){
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case(2):{
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for(i=0;i<len;i++){
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((uint16_t*)out)[i]=bswap_16(((uint16_t*)in)[i]);
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}
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break;
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}
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case(3):{
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register uint8_t s;
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for(i=0;i<len;i++){
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s=((uint8_t*)in)[3*i];
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((uint8_t*)out)[3*i]=((uint8_t*)in)[3*i+2];
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if (in != out)
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((uint8_t*)out)[3*i+1]=((uint8_t*)in)[3*i+1];
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((uint8_t*)out)[3*i+2]=s;
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}
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break;
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}
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case(4):{
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for(i=0;i<len;i++){
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((uint32_t*)out)[i]=bswap_32(((uint32_t*)in)[i]);
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}
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break;
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}
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}
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}
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static void si2us(void* data, int len, int bps)
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{
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register long i = -(len * bps);
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register uint8_t *p = &((uint8_t *)data)[len * bps];
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#if AF_FORMAT_NE == AF_FORMAT_LE
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p += bps - 1;
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#endif
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if (len <= 0) return;
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do {
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p[i] ^= 0x80;
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} while (i += bps);
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}
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static void change_bps(void* in, void* out, int len, int inbps, int outbps)
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{
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register int i;
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switch(inbps){
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case(1):
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switch(outbps){
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case(2):
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for(i=0;i<len;i++)
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((uint16_t*)out)[i]=((uint16_t)((uint8_t*)in)[i])<<8;
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break;
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case(3):
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for(i=0;i<len;i++)
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store24bit(out, i, ((uint32_t)((uint8_t*)in)[i])<<24);
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break;
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case(4):
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for(i=0;i<len;i++)
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((uint32_t*)out)[i]=((uint32_t)((uint8_t*)in)[i])<<24;
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break;
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}
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break;
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case(2):
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switch(outbps){
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case(1):
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for(i=0;i<len;i++)
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((uint8_t*)out)[i]=(uint8_t)((((uint16_t*)in)[i])>>8);
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break;
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case(3):
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for(i=0;i<len;i++)
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store24bit(out, i, ((uint32_t)((uint16_t*)in)[i])<<16);
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break;
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case(4):
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for(i=0;i<len;i++)
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((uint32_t*)out)[i]=((uint32_t)((uint16_t*)in)[i])<<16;
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break;
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}
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break;
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case(3):
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switch(outbps){
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case(1):
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for(i=0;i<len;i++)
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((uint8_t*)out)[i]=(uint8_t)(load24bit(in, i)>>24);
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break;
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case(2):
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for(i=0;i<len;i++)
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((uint16_t*)out)[i]=(uint16_t)(load24bit(in, i)>>16);
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break;
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case(4):
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for(i=0;i<len;i++)
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((uint32_t*)out)[i]=(uint32_t)load24bit(in, i);
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break;
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}
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break;
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case(4):
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switch(outbps){
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case(1):
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for(i=0;i<len;i++)
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((uint8_t*)out)[i]=(uint8_t)((((uint32_t*)in)[i])>>24);
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break;
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case(2):
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for(i=0;i<len;i++)
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((uint16_t*)out)[i]=(uint16_t)((((uint32_t*)in)[i])>>16);
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break;
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case(3):
|
|
for(i=0;i<len;i++)
|
|
store24bit(out, i, ((uint32_t*)in)[i]);
|
|
break;
|
|
}
|
|
break;
|
|
}
|
|
}
|
|
|
|
static void float2int(float* in, void* out, int len, int bps)
|
|
{
|
|
register int i;
|
|
switch(bps){
|
|
case(1):
|
|
for(i=0;i<len;i++)
|
|
((int8_t*)out)[i] = lrintf(127.0 * in[i]);
|
|
break;
|
|
case(2):
|
|
for(i=0;i<len;i++)
|
|
((int16_t*)out)[i] = lrintf(32767.0 * in[i]);
|
|
break;
|
|
case(3):
|
|
for(i=0;i<len;i++)
|
|
store24bit(out, i, lrintf(2147483647.0 * in[i]));
|
|
break;
|
|
case(4):
|
|
for(i=0;i<len;i++)
|
|
((int32_t*)out)[i] = lrintf(2147483647.0 * in[i]);
|
|
break;
|
|
}
|
|
}
|
|
|
|
static void int2float(void* in, float* out, int len, int bps)
|
|
{
|
|
register int i;
|
|
switch(bps){
|
|
case(1):
|
|
for(i=0;i<len;i++)
|
|
out[i]=(1.0/128.0)*((int8_t*)in)[i];
|
|
break;
|
|
case(2):
|
|
for(i=0;i<len;i++)
|
|
out[i]=(1.0/32768.0)*((int16_t*)in)[i];
|
|
break;
|
|
case(3):
|
|
for(i=0;i<len;i++)
|
|
out[i]=(1.0/2147483648.0)*((int32_t)load24bit(in, i));
|
|
break;
|
|
case(4):
|
|
for(i=0;i<len;i++)
|
|
out[i]=(1.0/2147483648.0)*((int32_t*)in)[i];
|
|
break;
|
|
}
|
|
}
|