mirror of https://git.ffmpeg.org/ffmpeg.git
409 lines
12 KiB
C
409 lines
12 KiB
C
/*
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* imdct.c
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*
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* Copyright (C) Aaron Holtzman - May 1999
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*
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* This file is part of ac3dec, a free Dolby AC-3 stream decoder.
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*
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* ac3dec 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, or (at your option)
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* any later version.
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*
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* ac3dec 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
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* along with GNU Make; see the file COPYING. If not, write to
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* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
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*
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*
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*/
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//#include "config.h"
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#include <inttypes.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <math.h>
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#include "ac3.h"
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#include "ac3_internal.h"
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void (* imdct_256) (float data[], float delay[]);
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void (* imdct_512) (float data[], float delay[]);
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typedef struct complex_s
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{
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float real;
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float imag;
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} complex_t;
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/* 128 point bit-reverse LUT */
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static uint8_t bit_reverse_512[] = {
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0x00, 0x40, 0x20, 0x60, 0x10, 0x50, 0x30, 0x70,
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0x08, 0x48, 0x28, 0x68, 0x18, 0x58, 0x38, 0x78,
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0x04, 0x44, 0x24, 0x64, 0x14, 0x54, 0x34, 0x74,
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0x0c, 0x4c, 0x2c, 0x6c, 0x1c, 0x5c, 0x3c, 0x7c,
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0x02, 0x42, 0x22, 0x62, 0x12, 0x52, 0x32, 0x72,
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0x0a, 0x4a, 0x2a, 0x6a, 0x1a, 0x5a, 0x3a, 0x7a,
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0x06, 0x46, 0x26, 0x66, 0x16, 0x56, 0x36, 0x76,
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0x0e, 0x4e, 0x2e, 0x6e, 0x1e, 0x5e, 0x3e, 0x7e,
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0x01, 0x41, 0x21, 0x61, 0x11, 0x51, 0x31, 0x71,
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0x09, 0x49, 0x29, 0x69, 0x19, 0x59, 0x39, 0x79,
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0x05, 0x45, 0x25, 0x65, 0x15, 0x55, 0x35, 0x75,
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0x0d, 0x4d, 0x2d, 0x6d, 0x1d, 0x5d, 0x3d, 0x7d,
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0x03, 0x43, 0x23, 0x63, 0x13, 0x53, 0x33, 0x73,
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0x0b, 0x4b, 0x2b, 0x6b, 0x1b, 0x5b, 0x3b, 0x7b,
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0x07, 0x47, 0x27, 0x67, 0x17, 0x57, 0x37, 0x77,
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0x0f, 0x4f, 0x2f, 0x6f, 0x1f, 0x5f, 0x3f, 0x7f};
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static uint8_t bit_reverse_256[] = {
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0x00, 0x20, 0x10, 0x30, 0x08, 0x28, 0x18, 0x38,
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0x04, 0x24, 0x14, 0x34, 0x0c, 0x2c, 0x1c, 0x3c,
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0x02, 0x22, 0x12, 0x32, 0x0a, 0x2a, 0x1a, 0x3a,
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0x06, 0x26, 0x16, 0x36, 0x0e, 0x2e, 0x1e, 0x3e,
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0x01, 0x21, 0x11, 0x31, 0x09, 0x29, 0x19, 0x39,
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0x05, 0x25, 0x15, 0x35, 0x0d, 0x2d, 0x1d, 0x3d,
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0x03, 0x23, 0x13, 0x33, 0x0b, 0x2b, 0x1b, 0x3b,
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0x07, 0x27, 0x17, 0x37, 0x0f, 0x2f, 0x1f, 0x3f};
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static complex_t buf[128];
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/* Twiddle factor LUT */
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static complex_t w_1[1];
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static complex_t w_2[2];
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static complex_t w_4[4];
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static complex_t w_8[8];
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static complex_t w_16[16];
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static complex_t w_32[32];
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static complex_t w_64[64];
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static complex_t * w[7] = {w_1, w_2, w_4, w_8, w_16, w_32, w_64};
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/* Twiddle factors for IMDCT */
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static float xcos1[128];
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static float xsin1[128];
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static float xcos2[64];
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static float xsin2[64];
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/* Windowing function for Modified DCT - Thank you acroread */
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float imdct_window[] = {
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0.00014, 0.00024, 0.00037, 0.00051, 0.00067, 0.00086, 0.00107, 0.00130,
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0.00157, 0.00187, 0.00220, 0.00256, 0.00297, 0.00341, 0.00390, 0.00443,
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0.00501, 0.00564, 0.00632, 0.00706, 0.00785, 0.00871, 0.00962, 0.01061,
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0.01166, 0.01279, 0.01399, 0.01526, 0.01662, 0.01806, 0.01959, 0.02121,
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0.02292, 0.02472, 0.02662, 0.02863, 0.03073, 0.03294, 0.03527, 0.03770,
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0.04025, 0.04292, 0.04571, 0.04862, 0.05165, 0.05481, 0.05810, 0.06153,
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0.06508, 0.06878, 0.07261, 0.07658, 0.08069, 0.08495, 0.08935, 0.09389,
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0.09859, 0.10343, 0.10842, 0.11356, 0.11885, 0.12429, 0.12988, 0.13563,
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0.14152, 0.14757, 0.15376, 0.16011, 0.16661, 0.17325, 0.18005, 0.18699,
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0.19407, 0.20130, 0.20867, 0.21618, 0.22382, 0.23161, 0.23952, 0.24757,
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0.25574, 0.26404, 0.27246, 0.28100, 0.28965, 0.29841, 0.30729, 0.31626,
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0.32533, 0.33450, 0.34376, 0.35311, 0.36253, 0.37204, 0.38161, 0.39126,
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0.40096, 0.41072, 0.42054, 0.43040, 0.44030, 0.45023, 0.46020, 0.47019,
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0.48020, 0.49022, 0.50025, 0.51028, 0.52031, 0.53033, 0.54033, 0.55031,
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0.56026, 0.57019, 0.58007, 0.58991, 0.59970, 0.60944, 0.61912, 0.62873,
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0.63827, 0.64774, 0.65713, 0.66643, 0.67564, 0.68476, 0.69377, 0.70269,
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0.71150, 0.72019, 0.72877, 0.73723, 0.74557, 0.75378, 0.76186, 0.76981,
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0.77762, 0.78530, 0.79283, 0.80022, 0.80747, 0.81457, 0.82151, 0.82831,
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0.83496, 0.84145, 0.84779, 0.85398, 0.86001, 0.86588, 0.87160, 0.87716,
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0.88257, 0.88782, 0.89291, 0.89785, 0.90264, 0.90728, 0.91176, 0.91610,
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0.92028, 0.92432, 0.92822, 0.93197, 0.93558, 0.93906, 0.94240, 0.94560,
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0.94867, 0.95162, 0.95444, 0.95713, 0.95971, 0.96217, 0.96451, 0.96674,
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0.96887, 0.97089, 0.97281, 0.97463, 0.97635, 0.97799, 0.97953, 0.98099,
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0.98236, 0.98366, 0.98488, 0.98602, 0.98710, 0.98811, 0.98905, 0.98994,
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0.99076, 0.99153, 0.99225, 0.99291, 0.99353, 0.99411, 0.99464, 0.99513,
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0.99558, 0.99600, 0.99639, 0.99674, 0.99706, 0.99736, 0.99763, 0.99788,
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0.99811, 0.99831, 0.99850, 0.99867, 0.99882, 0.99895, 0.99908, 0.99919,
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0.99929, 0.99938, 0.99946, 0.99953, 0.99959, 0.99965, 0.99969, 0.99974,
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0.99978, 0.99981, 0.99984, 0.99986, 0.99988, 0.99990, 0.99992, 0.99993,
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0.99994, 0.99995, 0.99996, 0.99997, 0.99998, 0.99998, 0.99998, 0.99999,
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0.99999, 0.99999, 0.99999, 1.00000, 1.00000, 1.00000, 1.00000, 1.00000,
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1.00000, 1.00000, 1.00000, 1.00000, 1.00000, 1.00000, 1.00000, 1.00000 };
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static inline void swap_cmplx(complex_t *a, complex_t *b)
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{
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complex_t tmp;
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tmp = *a;
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*a = *b;
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*b = tmp;
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}
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static inline complex_t cmplx_mult(complex_t a, complex_t b)
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{
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complex_t ret;
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ret.real = a.real * b.real - a.imag * b.imag;
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ret.imag = a.real * b.imag + a.imag * b.real;
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return ret;
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}
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void
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imdct_do_512(float data[],float delay[])
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{
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int i,k;
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int p,q;
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int m;
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int two_m;
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int two_m_plus_one;
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float tmp_a_i;
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float tmp_a_r;
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float tmp_b_i;
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float tmp_b_r;
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float *data_ptr;
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float *delay_ptr;
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float *window_ptr;
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//
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// 512 IMDCT with source and dest data in 'data'
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//
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// Pre IFFT complex multiply plus IFFT cmplx conjugate
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for( i=0; i < 128; i++) {
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/* z[i] = (X[256-2*i-1] + j * X[2*i]) * (xcos1[i] + j * xsin1[i]) ; */
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buf[i].real = (data[256-2*i-1] * xcos1[i]) - (data[2*i] * xsin1[i]);
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buf[i].imag = -1.0 * ((data[2*i] * xcos1[i]) + (data[256-2*i-1] * xsin1[i]));
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}
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//Bit reversed shuffling
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for(i=0; i<128; i++) {
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k = bit_reverse_512[i];
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if (k < i)
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swap_cmplx(&buf[i],&buf[k]);
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}
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/* FFT Merge */
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for (m=0; m < 7; m++) {
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if(m)
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two_m = (1 << m);
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else
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two_m = 1;
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two_m_plus_one = (1 << (m+1));
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for(k = 0; k < two_m; k++) {
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for(i = 0; i < 128; i += two_m_plus_one) {
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p = k + i;
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q = p + two_m;
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tmp_a_r = buf[p].real;
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tmp_a_i = buf[p].imag;
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tmp_b_r = buf[q].real * w[m][k].real - buf[q].imag * w[m][k].imag;
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tmp_b_i = buf[q].imag * w[m][k].real + buf[q].real * w[m][k].imag;
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buf[p].real = tmp_a_r + tmp_b_r;
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buf[p].imag = tmp_a_i + tmp_b_i;
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buf[q].real = tmp_a_r - tmp_b_r;
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buf[q].imag = tmp_a_i - tmp_b_i;
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}
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}
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}
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/* Post IFFT complex multiply plus IFFT complex conjugate*/
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for( i=0; i < 128; i++) {
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/* y[n] = z[n] * (xcos1[n] + j * xsin1[n]) ; */
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tmp_a_r = buf[i].real;
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tmp_a_i = -1.0 * buf[i].imag;
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buf[i].real =(tmp_a_r * xcos1[i]) - (tmp_a_i * xsin1[i]);
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buf[i].imag =(tmp_a_r * xsin1[i]) + (tmp_a_i * xcos1[i]);
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}
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data_ptr = data;
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delay_ptr = delay;
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window_ptr = imdct_window;
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/* Window and convert to real valued signal */
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for(i=0; i< 64; i++) {
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*data_ptr++ = 2.0f * (-buf[64+i].imag * *window_ptr++ + *delay_ptr++);
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*data_ptr++ = 2.0f * ( buf[64-i-1].real * *window_ptr++ + *delay_ptr++);
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}
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for(i=0; i< 64; i++) {
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*data_ptr++ = 2.0f * (-buf[i].real * *window_ptr++ + *delay_ptr++);
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*data_ptr++ = 2.0f * ( buf[128-i-1].imag * *window_ptr++ + *delay_ptr++);
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}
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/* The trailing edge of the window goes into the delay line */
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delay_ptr = delay;
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for(i=0; i< 64; i++) {
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*delay_ptr++ = -buf[64+i].real * *--window_ptr;
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*delay_ptr++ = buf[64-i-1].imag * *--window_ptr;
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}
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for(i=0; i<64; i++) {
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*delay_ptr++ = buf[i].imag * *--window_ptr;
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*delay_ptr++ = -buf[128-i-1].real * *--window_ptr;
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}
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}
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void
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imdct_do_256(float data[],float delay[])
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{
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int i,k;
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int p,q;
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int m;
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int two_m;
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int two_m_plus_one;
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float tmp_a_i;
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float tmp_a_r;
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float tmp_b_i;
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float tmp_b_r;
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float *data_ptr;
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float *delay_ptr;
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float *window_ptr;
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complex_t *buf_1, *buf_2;
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buf_1 = &buf[0];
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buf_2 = &buf[64];
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/* Pre IFFT complex multiply plus IFFT cmplx conjugate */
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for(k=0; k<64; k++) {
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/* X1[k] = X[2*k] */
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/* X2[k] = X[2*k+1] */
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p = 2 * (128-2*k-1);
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q = 2 * (2 * k);
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/* Z1[k] = (X1[128-2*k-1] + j * X1[2*k]) * (xcos2[k] + j * xsin2[k]); */
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buf_1[k].real = data[p] * xcos2[k] - data[q] * xsin2[k];
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buf_1[k].imag = -1.0f * (data[q] * xcos2[k] + data[p] * xsin2[k]);
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/* Z2[k] = (X2[128-2*k-1] + j * X2[2*k]) * (xcos2[k] + j * xsin2[k]); */
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buf_2[k].real = data[p + 1] * xcos2[k] - data[q + 1] * xsin2[k];
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buf_2[k].imag = -1.0f * ( data[q + 1] * xcos2[k] + data[p + 1] * xsin2[k]);
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}
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//IFFT Bit reversed shuffling
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for(i=0; i<64; i++) {
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k = bit_reverse_256[i];
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if (k < i) {
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swap_cmplx(&buf_1[i],&buf_1[k]);
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swap_cmplx(&buf_2[i],&buf_2[k]);
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}
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}
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/* FFT Merge */
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for (m=0; m < 6; m++) {
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two_m = (1 << m);
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two_m_plus_one = (1 << (m+1));
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//FIXME
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if(m)
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two_m = (1 << m);
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else
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two_m = 1;
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for(k = 0; k < two_m; k++) {
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for(i = 0; i < 64; i += two_m_plus_one) {
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p = k + i;
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q = p + two_m;
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//Do block 1
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tmp_a_r = buf_1[p].real;
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tmp_a_i = buf_1[p].imag;
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tmp_b_r = buf_1[q].real * w[m][k].real - buf_1[q].imag * w[m][k].imag;
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tmp_b_i = buf_1[q].imag * w[m][k].real + buf_1[q].real * w[m][k].imag;
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buf_1[p].real = tmp_a_r + tmp_b_r;
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buf_1[p].imag = tmp_a_i + tmp_b_i;
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buf_1[q].real = tmp_a_r - tmp_b_r;
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buf_1[q].imag = tmp_a_i - tmp_b_i;
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//Do block 2
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tmp_a_r = buf_2[p].real;
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tmp_a_i = buf_2[p].imag;
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tmp_b_r = buf_2[q].real * w[m][k].real - buf_2[q].imag * w[m][k].imag;
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tmp_b_i = buf_2[q].imag * w[m][k].real + buf_2[q].real * w[m][k].imag;
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buf_2[p].real = tmp_a_r + tmp_b_r;
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buf_2[p].imag = tmp_a_i + tmp_b_i;
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buf_2[q].real = tmp_a_r - tmp_b_r;
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buf_2[q].imag = tmp_a_i - tmp_b_i;
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}
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}
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}
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/* Post IFFT complex multiply */
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for( i=0; i < 64; i++) {
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/* y1[n] = z1[n] * (xcos2[n] + j * xs in2[n]) ; */
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tmp_a_r = buf_1[i].real;
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tmp_a_i = -buf_1[i].imag;
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buf_1[i].real =(tmp_a_r * xcos2[i]) - (tmp_a_i * xsin2[i]);
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buf_1[i].imag =(tmp_a_r * xsin2[i]) + (tmp_a_i * xcos2[i]);
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/* y2[n] = z2[n] * (xcos2[n] + j * xsin2[n]) ; */
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tmp_a_r = buf_2[i].real;
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tmp_a_i = -buf_2[i].imag;
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buf_2[i].real =(tmp_a_r * xcos2[i]) - (tmp_a_i * xsin2[i]);
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buf_2[i].imag =(tmp_a_r * xsin2[i]) + (tmp_a_i * xcos2[i]);
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}
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data_ptr = data;
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delay_ptr = delay;
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window_ptr = imdct_window;
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/* Window and convert to real valued signal */
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for(i=0; i< 64; i++) {
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*data_ptr++ = 2.0f * (-buf_1[i].imag * *window_ptr++ + *delay_ptr++);
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*data_ptr++ = 2.0f * ( buf_1[64-i-1].real * *window_ptr++ + *delay_ptr++);
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}
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for(i=0; i< 64; i++) {
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*data_ptr++ = 2.0f * (-buf_1[i].real * *window_ptr++ + *delay_ptr++);
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*data_ptr++ = 2.0f * ( buf_1[64-i-1].imag * *window_ptr++ + *delay_ptr++);
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}
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delay_ptr = delay;
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for(i=0; i< 64; i++) {
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*delay_ptr++ = -buf_2[i].real * *--window_ptr;
|
|
*delay_ptr++ = buf_2[64-i-1].imag * *--window_ptr;
|
|
}
|
|
|
|
for(i=0; i< 64; i++) {
|
|
*delay_ptr++ = buf_2[i].imag * *--window_ptr;
|
|
*delay_ptr++ = -buf_2[64-i-1].real * *--window_ptr;
|
|
}
|
|
}
|
|
|
|
void imdct_init (void)
|
|
{
|
|
#ifdef LIBAC3_MLIB
|
|
void imdct_do_256_mlib(float data[],float delay[]);
|
|
void imdct_do_512_mlib(float data[],float delay[]);
|
|
|
|
imdct_512 = imdct_do_512_mlib;
|
|
imdct_256 = imdct_do_256_mlib;
|
|
#else
|
|
int i, j, k;
|
|
|
|
/* Twiddle factors to turn IFFT into IMDCT */
|
|
for (i = 0; i < 128; i++) {
|
|
xcos1[i] = -cos ((M_PI / 2048) * (8 * i + 1));
|
|
xsin1[i] = -sin ((M_PI / 2048) * (8 * i + 1));
|
|
}
|
|
|
|
/* More twiddle factors to turn IFFT into IMDCT */
|
|
for (i = 0; i < 64; i++) {
|
|
xcos2[i] = -cos ((M_PI / 1024) * (8 * i + 1));
|
|
xsin2[i] = -sin ((M_PI / 1024) * (8 * i + 1));
|
|
}
|
|
|
|
for (i = 0; i < 7; i++) {
|
|
j = 1 << i;
|
|
for (k = 0; k < j; k++) {
|
|
w[i][k].real = cos (-M_PI * k / j);
|
|
w[i][k].imag = sin (-M_PI * k / j);
|
|
}
|
|
}
|
|
imdct_512 = imdct_do_512;
|
|
imdct_256 = imdct_do_256;
|
|
#endif
|
|
}
|