cb57a568e8
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@21305 a1c6a512-1295-4272-9138-f99709370657
334 lines
11 KiB
C
334 lines
11 KiB
C
/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright (C) 2006 by Nicolas Pitre <nico@cam.org>
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* Copyright (C) 2006-2007 by Stéphane Doyon <s.doyon@videotron.ca>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#include <inttypes.h>
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#include <stddef.h>
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#include <stdio.h>
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#include <string.h>
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#include "buffer.h"
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#include "debug.h"
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#include "system.h"
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#include "tdspeed.h"
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#include "settings.h"
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#define assert(cond)
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#define MIN_RATE 8000
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#define MAX_RATE 48000 /* double buffer for double rate */
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#define MINFREQ 100
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#define FIXED_BUFSIZE 3072 /* 48KHz factor 3.0 */
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struct tdspeed_state_s
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{
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bool stereo;
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int32_t shift_max; /* maximum displacement on a frame */
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int32_t src_step; /* source window pace */
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int32_t dst_step; /* destination window pace */
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int32_t dst_order; /* power of two for dst_step */
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int32_t ovl_shift; /* overlap buffer frame shift */
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int32_t ovl_size; /* overlap buffer used size */
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int32_t ovl_space; /* overlap buffer size */
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int32_t *ovl_buff[2]; /* overlap buffer */
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};
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static struct tdspeed_state_s tdspeed_state;
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static int32_t *overlap_buffer[2] = { NULL, NULL };
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static int32_t *outbuf[2] = { NULL, NULL };
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void tdspeed_init()
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{
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if (global_settings.timestretch_enabled)
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{
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/* Allocate buffers */
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if (overlap_buffer[0] == NULL)
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overlap_buffer[0] = (int32_t *) buffer_alloc(FIXED_BUFSIZE * sizeof(int32_t));
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if (overlap_buffer[1] == NULL)
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overlap_buffer[1] = (int32_t *) buffer_alloc(FIXED_BUFSIZE * sizeof(int32_t));
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if (outbuf[0] == NULL)
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outbuf[0] = (int32_t *) buffer_alloc(TDSPEED_OUTBUFSIZE * sizeof(int32_t));
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if (outbuf[1] == NULL)
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outbuf[1] = (int32_t *) buffer_alloc(TDSPEED_OUTBUFSIZE * sizeof(int32_t));
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}
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}
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bool tdspeed_config(int samplerate, bool stereo, int factor)
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{
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struct tdspeed_state_s *st = &tdspeed_state;
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int src_frame_sz;
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/* Check buffers were allocated ok */
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if (overlap_buffer[0] == NULL || overlap_buffer[1] == NULL)
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return false;
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if (outbuf[0] == NULL || outbuf[1] == NULL)
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return false;
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/* Check parameters */
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if (factor == 100)
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return false;
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if (samplerate < MIN_RATE || samplerate > MAX_RATE)
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return false;
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if (factor < SPEED_MIN || factor > SPEED_MAX)
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return false;
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st->stereo = stereo;
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st->dst_step = samplerate / MINFREQ;
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if (factor > 100)
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st->dst_step = st->dst_step * 100 / factor;
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st->dst_order = 1;
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while (st->dst_step >>= 1)
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st->dst_order++;
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st->dst_step = (1 << st->dst_order);
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st->src_step = st->dst_step * factor / 100;
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st->shift_max = (st->dst_step > st->src_step) ? st->dst_step : st->src_step;
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src_frame_sz = st->shift_max + st->dst_step;
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if (st->dst_step > st->src_step)
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src_frame_sz += st->dst_step - st->src_step;
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st->ovl_space = ((src_frame_sz - 2)/st->src_step) * st->src_step
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+ src_frame_sz;
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if (st->src_step > st->dst_step)
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st->ovl_space += 2*st->src_step - st->dst_step;
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if (st->ovl_space > FIXED_BUFSIZE)
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st->ovl_space = FIXED_BUFSIZE;
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st->ovl_size = 0;
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st->ovl_shift = 0;
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st->ovl_buff[0] = overlap_buffer[0];
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if (stereo)
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st->ovl_buff[1] = overlap_buffer[1];
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else
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st->ovl_buff[1] = st->ovl_buff[0];
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return true;
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}
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static int tdspeed_apply(int32_t *buf_out[2], int32_t *buf_in[2],
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int data_len, int last, int out_size)
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/* data_len in samples */
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{
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struct tdspeed_state_s *st = &tdspeed_state;
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int32_t *curr, *prev, *dest[2], *d;
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int32_t i, j, next_frame, prev_frame, shift, src_frame_sz;
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bool stereo = buf_in[0] != buf_in[1];
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assert(stereo == st->stereo);
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src_frame_sz = st->shift_max + st->dst_step;
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if (st->dst_step > st->src_step)
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src_frame_sz += st->dst_step - st->src_step;
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/* deal with overlap data first, if any */
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if (st->ovl_size)
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{
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int32_t have, copy, steps;
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have = st->ovl_size;
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if (st->ovl_shift > 0)
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have -= st->ovl_shift;
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/* append just enough data to have all of the overlap buffer consumed */
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steps = (have - 1) / st->src_step;
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copy = steps * st->src_step + src_frame_sz - have;
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if (copy < src_frame_sz - st->dst_step)
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copy += st->src_step; /* one more step to allow for pregap data */
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if (copy > data_len) copy = data_len;
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assert(st->ovl_size +copy <= FIXED_BUFSIZE);
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memcpy(st->ovl_buff[0] + st->ovl_size, buf_in[0],
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copy * sizeof(int32_t));
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if (stereo)
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memcpy(st->ovl_buff[1] + st->ovl_size, buf_in[1],
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copy * sizeof(int32_t));
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if (!last && have + copy < src_frame_sz)
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{
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/* still not enough to process at least one frame */
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st->ovl_size += copy;
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return 0;
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}
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/* recursively call ourselves to process the overlap buffer */
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have = st->ovl_size;
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st->ovl_size = 0;
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if (copy == data_len)
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{
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assert( (have+copy) <= FIXED_BUFSIZE);
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return tdspeed_apply(buf_out, st->ovl_buff, have+copy, last,
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out_size);
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}
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assert( (have+copy) <= FIXED_BUFSIZE);
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i = tdspeed_apply(buf_out, st->ovl_buff, have+copy, -1, out_size);
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dest[0] = buf_out[0] + i;
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dest[1] = buf_out[1] + i;
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/* readjust pointers to account for data already consumed */
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next_frame = copy - src_frame_sz + st->src_step;
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prev_frame = next_frame - st->ovl_shift;
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}
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else
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{
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dest[0] = buf_out[0];
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dest[1] = buf_out[1];
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next_frame = prev_frame = 0;
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if (st->ovl_shift > 0)
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next_frame += st->ovl_shift;
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else
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prev_frame += -st->ovl_shift;
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}
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st->ovl_shift = 0;
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/* process all complete frames */
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while (data_len - next_frame >= src_frame_sz)
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{
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/* find frame overlap by autocorelation */
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int64_t min_delta = ~(1ll << 63); /* most positive */
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shift = 0;
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#define INC1 8
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#define INC2 32
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/* Power of 2 of a 28bit number requires 56bits, can accumulate
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256times in a 64bit variable. */
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assert(st->dst_step / INC2 <= 256);
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assert(next_frame + st->shift_max - 1 + st->dst_step-1 < data_len);
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assert(prev_frame + st->dst_step - 1 < data_len);
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for (i = 0; i < st->shift_max; i += INC1)
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{
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int64_t delta = 0;
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curr = buf_in[0] + next_frame + i;
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prev = buf_in[0] + prev_frame;
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for (j = 0; j < st->dst_step; j += INC2, curr += INC2, prev += INC2)
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{
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int32_t diff = *curr - *prev;
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delta += (int64_t)diff * diff;
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if (delta >= min_delta)
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goto skip;
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}
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if (stereo)
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{
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curr = buf_in[1] +next_frame + i;
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prev = buf_in[1] +prev_frame;
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for (j = 0; j < st->dst_step; j += INC2, curr += INC2, prev += INC2)
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{
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int32_t diff = *curr - *prev;
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delta += (int64_t)diff * diff;
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if (delta >= min_delta)
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goto skip;
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}
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}
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min_delta = delta;
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shift = i;
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skip:;
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}
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/* overlap fading-out previous frame with fading-in current frame */
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curr = buf_in[0] + next_frame + shift;
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prev = buf_in[0] + prev_frame;
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d = dest[0];
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assert(next_frame + shift + st->dst_step - 1 < data_len);
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assert(prev_frame + st->dst_step - 1 < data_len);
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assert(dest[0] - buf_out[0] + st->dst_step - 1 < out_size);
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for (i = 0, j = st->dst_step; j; i++, j--)
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{
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*d++ = (*curr++ * (int64_t)i
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+ *prev++ * (int64_t)j) >> st->dst_order;
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}
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dest[0] = d;
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if (stereo)
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{
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curr = buf_in[1] +next_frame + shift;
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prev = buf_in[1] +prev_frame;
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d = dest[1];
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for (i = 0, j = st->dst_step; j; i++, j--)
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{
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assert(d < buf_out[1] +out_size);
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*d++ = (*curr++ * (int64_t) i
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+ *prev++ * (int64_t) j) >> st->dst_order;
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}
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dest[1] = d;
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}
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/* adjust pointers for next frame */
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prev_frame = next_frame + shift + st->dst_step;
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next_frame += st->src_step;
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/* here next_frame - prev_frame = src_step - dst_step - shift */
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assert(next_frame - prev_frame == st->src_step - st->dst_step - shift);
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}
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/* now deal with remaining partial frames */
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if (last == -1)
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{
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/* special overlap buffer processing: remember frame shift only */
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st->ovl_shift = next_frame - prev_frame;
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}
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else if (last != 0)
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{
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/* last call: purge all remaining data to output buffer */
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i = data_len -prev_frame;
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assert(dest[0] +i <= buf_out[0] +out_size);
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memcpy(dest[0], buf_in[0] +prev_frame, i * sizeof(int32_t));
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dest[0] += i;
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if (stereo)
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{
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assert(dest[1] +i <= buf_out[1] +out_size);
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memcpy(dest[1], buf_in[1] +prev_frame, i * sizeof(int32_t));
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dest[1] += i;
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}
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}
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else
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{
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/* preserve remaining data + needed overlap data for next call */
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st->ovl_shift = next_frame - prev_frame;
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i = (st->ovl_shift < 0) ? next_frame : prev_frame;
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st->ovl_size = data_len - i;
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assert(st->ovl_size <= FIXED_BUFSIZE);
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memcpy(st->ovl_buff[0], buf_in[0]+i, st->ovl_size * sizeof(int32_t));
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if (stereo)
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memcpy(st->ovl_buff[1], buf_in[1]+i, st->ovl_size * sizeof(int32_t));
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}
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return dest[0] - buf_out[0];
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}
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long tdspeed_est_output_size()
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{
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return TDSPEED_OUTBUFSIZE;
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}
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long tdspeed_est_input_size(long size)
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{
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struct tdspeed_state_s *st = &tdspeed_state;
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size = (size -st->ovl_size) *st->src_step / st->dst_step;
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if (size < 0)
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size = 0;
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return size;
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}
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int tdspeed_doit(int32_t *src[], int count)
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{
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count = tdspeed_apply( (int32_t *[2]) { outbuf[0], outbuf[1] },
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src, count, 0, TDSPEED_OUTBUFSIZE);
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src[0] = outbuf[0];
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src[1] = outbuf[1];
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return count;
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}
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