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annotate ffmpeg/libavcodec/acelp_filters.h @ 13:844d341cf643 tip

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author Yading Song <yading.song@eecs.qmul.ac.uk>
date Thu, 31 Oct 2013 13:17:06 +0000
parents 6840f77b83aa
children
rev   line source
yading@10 1 /*
yading@10 2 * various filters for ACELP-based codecs
yading@10 3 *
yading@10 4 * Copyright (c) 2008 Vladimir Voroshilov
yading@10 5 *
yading@10 6 * This file is part of FFmpeg.
yading@10 7 *
yading@10 8 * FFmpeg is free software; you can redistribute it and/or
yading@10 9 * modify it under the terms of the GNU Lesser General Public
yading@10 10 * License as published by the Free Software Foundation; either
yading@10 11 * version 2.1 of the License, or (at your option) any later version.
yading@10 12 *
yading@10 13 * FFmpeg is distributed in the hope that it will be useful,
yading@10 14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
yading@10 15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
yading@10 16 * Lesser General Public License for more details.
yading@10 17 *
yading@10 18 * You should have received a copy of the GNU Lesser General Public
yading@10 19 * License along with FFmpeg; if not, write to the Free Software
yading@10 20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
yading@10 21 */
yading@10 22
yading@10 23 #ifndef AVCODEC_ACELP_FILTERS_H
yading@10 24 #define AVCODEC_ACELP_FILTERS_H
yading@10 25
yading@10 26 #include <stdint.h>
yading@10 27
yading@10 28 typedef struct ACELPFContext {
yading@10 29 /**
yading@10 30 * Floating point version of ff_acelp_interpolate()
yading@10 31 */
yading@10 32 void (*acelp_interpolatef)(float *out, const float *in,
yading@10 33 const float *filter_coeffs, int precision,
yading@10 34 int frac_pos, int filter_length, int length);
yading@10 35
yading@10 36 /**
yading@10 37 * Apply an order 2 rational transfer function in-place.
yading@10 38 *
yading@10 39 * @param out output buffer for filtered speech samples
yading@10 40 * @param in input buffer containing speech data (may be the same as out)
yading@10 41 * @param zero_coeffs z^-1 and z^-2 coefficients of the numerator
yading@10 42 * @param pole_coeffs z^-1 and z^-2 coefficients of the denominator
yading@10 43 * @param gain scale factor for final output
yading@10 44 * @param mem intermediate values used by filter (should be 0 initially)
yading@10 45 * @param n number of samples (should be a multiple of eight)
yading@10 46 */
yading@10 47 void (*acelp_apply_order_2_transfer_function)(float *out, const float *in,
yading@10 48 const float zero_coeffs[2],
yading@10 49 const float pole_coeffs[2],
yading@10 50 float gain,
yading@10 51 float mem[2], int n);
yading@10 52
yading@10 53 }ACELPFContext;
yading@10 54
yading@10 55 /**
yading@10 56 * Initialize ACELPFContext.
yading@10 57 */
yading@10 58 void ff_acelp_filter_init(ACELPFContext *c);
yading@10 59 void ff_acelp_filter_init_mips(ACELPFContext *c);
yading@10 60
yading@10 61 /**
yading@10 62 * low-pass Finite Impulse Response filter coefficients.
yading@10 63 *
yading@10 64 * Hamming windowed sinc filter with cutoff freq 3/40 of the sampling freq,
yading@10 65 * the coefficients are scaled by 2^15.
yading@10 66 * This array only contains the right half of the filter.
yading@10 67 * This filter is likely identical to the one used in G.729, though this
yading@10 68 * could not be determined from the original comments with certainty.
yading@10 69 */
yading@10 70 extern const int16_t ff_acelp_interp_filter[61];
yading@10 71
yading@10 72 /**
yading@10 73 * Generic FIR interpolation routine.
yading@10 74 * @param[out] out buffer for interpolated data
yading@10 75 * @param in input data
yading@10 76 * @param filter_coeffs interpolation filter coefficients (0.15)
yading@10 77 * @param precision sub sample factor, that is the precision of the position
yading@10 78 * @param frac_pos fractional part of position [0..precision-1]
yading@10 79 * @param filter_length filter length
yading@10 80 * @param length length of output
yading@10 81 *
yading@10 82 * filter_coeffs contains coefficients of the right half of the symmetric
yading@10 83 * interpolation filter. filter_coeffs[0] should the central (unpaired) coefficient.
yading@10 84 * See ff_acelp_interp_filter for an example.
yading@10 85 *
yading@10 86 */
yading@10 87 void ff_acelp_interpolate(int16_t* out, const int16_t* in,
yading@10 88 const int16_t* filter_coeffs, int precision,
yading@10 89 int frac_pos, int filter_length, int length);
yading@10 90
yading@10 91 /**
yading@10 92 * Floating point version of ff_acelp_interpolate()
yading@10 93 */
yading@10 94 void ff_acelp_interpolatef(float *out, const float *in,
yading@10 95 const float *filter_coeffs, int precision,
yading@10 96 int frac_pos, int filter_length, int length);
yading@10 97
yading@10 98
yading@10 99 /**
yading@10 100 * high-pass filtering and upscaling (4.2.5 of G.729).
yading@10 101 * @param[out] out output buffer for filtered speech data
yading@10 102 * @param[in,out] hpf_f past filtered data from previous (2 items long)
yading@10 103 * frames (-0x20000000 <= (14.13) < 0x20000000)
yading@10 104 * @param in speech data to process
yading@10 105 * @param length input data size
yading@10 106 *
yading@10 107 * out[i] = 0.93980581 * in[i] - 1.8795834 * in[i-1] + 0.93980581 * in[i-2] +
yading@10 108 * 1.9330735 * out[i-1] - 0.93589199 * out[i-2]
yading@10 109 *
yading@10 110 * The filter has a cut-off frequency of 1/80 of the sampling freq
yading@10 111 *
yading@10 112 * @note Two items before the top of the in buffer must contain two items from the
yading@10 113 * tail of the previous subframe.
yading@10 114 *
yading@10 115 * @remark It is safe to pass the same array in in and out parameters.
yading@10 116 *
yading@10 117 * @remark AMR uses mostly the same filter (cut-off frequency 60Hz, same formula,
yading@10 118 * but constants differs in 5th sign after comma). Fortunately in
yading@10 119 * fixed-point all coefficients are the same as in G.729. Thus this
yading@10 120 * routine can be used for the fixed-point AMR decoder, too.
yading@10 121 */
yading@10 122 void ff_acelp_high_pass_filter(int16_t* out, int hpf_f[2],
yading@10 123 const int16_t* in, int length);
yading@10 124
yading@10 125 /**
yading@10 126 * Apply an order 2 rational transfer function in-place.
yading@10 127 *
yading@10 128 * @param out output buffer for filtered speech samples
yading@10 129 * @param in input buffer containing speech data (may be the same as out)
yading@10 130 * @param zero_coeffs z^-1 and z^-2 coefficients of the numerator
yading@10 131 * @param pole_coeffs z^-1 and z^-2 coefficients of the denominator
yading@10 132 * @param gain scale factor for final output
yading@10 133 * @param mem intermediate values used by filter (should be 0 initially)
yading@10 134 * @param n number of samples
yading@10 135 */
yading@10 136 void ff_acelp_apply_order_2_transfer_function(float *out, const float *in,
yading@10 137 const float zero_coeffs[2],
yading@10 138 const float pole_coeffs[2],
yading@10 139 float gain,
yading@10 140 float mem[2], int n);
yading@10 141
yading@10 142 /**
yading@10 143 * Apply tilt compensation filter, 1 - tilt * z-1.
yading@10 144 *
yading@10 145 * @param mem pointer to the filter's state (one single float)
yading@10 146 * @param tilt tilt factor
yading@10 147 * @param samples array where the filter is applied
yading@10 148 * @param size the size of the samples array
yading@10 149 */
yading@10 150 void ff_tilt_compensation(float *mem, float tilt, float *samples, int size);
yading@10 151
yading@10 152
yading@10 153 #endif /* AVCODEC_ACELP_FILTERS_H */