2014-11-28 23:44:41 +08:00
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/*
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2016-03-20 23:41:37 +08:00
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This software is part of libcsdr, a set of simple DSP routines for
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2014-11-28 23:44:41 +08:00
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Software Defined Radio.
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Copyright (c) 2014, Andras Retzler <randras@sdr.hu>
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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* Neither the name of the copyright holder nor the
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names of its contributors may be used to endorse or promote products
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derived from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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DISCLAIMED. IN NO EVENT SHALL ANDRAS RETZLER BE LIABLE FOR ANY
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DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#pragma once
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#define MIN_M(x,y) (((x)>(y))?(y):(x))
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2016-05-08 15:33:40 +08:00
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#define MAX_M(x,y) (((x)<(y))?(y):(x))
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2014-11-28 23:44:41 +08:00
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/*
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2016-03-20 23:41:37 +08:00
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_____ _
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/ ____| | |
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| | ___ _ __ ___ _ __ | | _____ __
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| |___| (_) | | | | | | |_) | | __/> <
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\_____\___/|_| |_| |_| .__/|_|\___/_/\_\
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2014-11-28 23:44:41 +08:00
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*/
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typedef struct complexf_s { float i; float q; } complexf;
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//apply to pointers:
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#define iof(complexf_input_p,i) (*(((float*)complexf_input_p)+2*(i)))
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#define qof(complexf_input_p,i) (*(((float*)complexf_input_p)+2*(i)+1))
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2016-05-18 20:56:05 +08:00
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#define absof(complexf_input_p,i) (sqrt((iof(complexf_input_p,i)*iof(complexf_input_p,i))+(qof(complexf_input_p,i)*qof(complexf_input_p,i))))
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2014-11-28 23:44:41 +08:00
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#define argof(complexf_input_p,i) (atan2(qof(complexf_input_p,i),iof(complexf_input_p,i)))
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2016-05-18 20:56:05 +08:00
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#define cmult(cfo, cfi1, cfi2) {iof(cfo,0)=iof(cfi1,0)*iof(cfi2,0)-qof(cfi1,0)*qof(cfi2,0);qof(cfo,0)=iof(cfi1,0)*qof(cfi2,0)+iof(cfi2,0)*qof(cfi1,0);}
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2014-11-28 23:44:41 +08:00
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//(ai+aq*j)*(bi+bq*j)=ai*bi-aq*bq+(aq*bi+ai*bq)*j
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#define cmultadd(cfo, cfi1, cfi2) { iof(cfo,0)+=iof(cfi1,0)*iof(cfi2,0)-qof(cfi1,0)*qof(cfi2,0);qof(cfo,0)+=iof(cfi1,0)*qof(cfi2,0)+iof(cfi2,0)*qof(cfi1,0); }
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#define csetnull(cf) { iof(cf,0)=0.0; qof(cf,0)=0.0; }
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#define e_powj(cf,w) { iof(cf,0)=cos(w); qof(cf,0)=sin(w); }
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#define ccopy(dst,src) { iof(dst,0)=iof(src,0); qof(dst,0)=qof(src,0); }
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//apply to values
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#define iofv(complexf_input) (*((float*)&complexf_input))
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#define qofv(complexf_input) (*(((float*)&complexf_input)+1))
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//they dropped M_PI in C99, so we define it:
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#define PI ((float)3.14159265358979323846)
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2015-11-30 03:05:28 +08:00
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#define TIME_TAKEN(start,end) ((end.tv_sec-start.tv_sec)+(end.tv_nsec-start.tv_nsec)/1e9)
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2014-11-28 23:44:41 +08:00
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//window
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2016-03-20 23:41:37 +08:00
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typedef enum window_s
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2014-11-28 23:44:41 +08:00
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{
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WINDOW_BOXCAR, WINDOW_BLACKMAN, WINDOW_HAMMING
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} window_t;
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#define WINDOW_DEFAULT WINDOW_HAMMING
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//FFT
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//Note: these reference to things in this file (e.g. complexf):
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#include "fft_fftw.h"
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#include "fft_rpi.h"
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// =================================================================================
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//filter design
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void firdes_lowpass_f(float *output, int length, float cutoff_rate, window_t window);
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void firdes_bandpass_c(complexf *output, int length, float lowcut, float highcut, window_t window);
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float firdes_wkernel_blackman(float input);
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float firdes_wkernel_hamming(float input);
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float firdes_wkernel_boxcar(float input);
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window_t firdes_get_window_from_string(char* input);
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char* firdes_get_string_from_window(window_t window);
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2014-12-14 06:46:41 +08:00
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int firdes_filter_len(float transition_bw);
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2014-11-28 23:44:41 +08:00
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//demodulators
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complexf fmdemod_quadri_cf(complexf* input, float* output, int input_size, float *temp, complexf last_sample);
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complexf fmdemod_quadri_novect_cf(complexf* input, float* output, int input_size, complexf last_sample);
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float fmdemod_atan_cf(complexf* input, float *output, int input_size, float last_phase);
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void amdemod_cf(complexf* input, float *output, int input_size);
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void amdemod_estimator_cf(complexf* input, float *output, int input_size, float alpha, float beta);
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void limit_ff(float* input, float* output, int input_size, float max_amplitude);
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//filters, decimators, resamplers, shift, etc.
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2015-08-17 05:40:42 +08:00
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float fir_one_pass_ff(float* input, float* taps, int taps_length);
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2014-11-28 23:44:41 +08:00
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int fir_decimate_cc(complexf *input, complexf *output, int input_size, int decimation, float *taps, int taps_length);
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2017-02-19 22:41:33 +08:00
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int fir_interpolate_cc(complexf *input, complexf *output, int input_size, int interpolation, float *taps, int taps_length);
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2014-11-28 23:44:41 +08:00
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int deemphasis_nfm_ff (float* input, float* output, int input_size, int sample_rate);
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float deemphasis_wfm_ff (float* input, float* output, int input_size, float tau, int sample_rate, float last_output);
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float shift_math_cc(complexf *input, complexf* output, int input_size, float rate, float starting_phase);
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typedef struct dcblock_preserve_s
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{
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float last_input;
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float last_output;
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} dcblock_preserve_t;
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dcblock_preserve_t dcblock_ff(float* input, float* output, int input_size, float a, dcblock_preserve_t preserved);
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float fastdcblock_ff(float* input, float* output, int input_size, float last_dc_level);
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typedef struct fastagc_ff_s
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{
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2016-03-20 23:41:37 +08:00
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float* buffer_1;
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2014-11-28 23:44:41 +08:00
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float* buffer_2;
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float* buffer_input; //it is the actual input buffer to fill
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float peak_1;
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float peak_2;
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int input_size;
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float reference;
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float last_gain;
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} fastagc_ff_t;
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void fastagc_ff(fastagc_ff_t* input, float* output);
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typedef struct rational_resampler_ff_s
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{
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int input_processed;
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int output_size;
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int last_taps_delay;
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} rational_resampler_ff_t;
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rational_resampler_ff_t rational_resampler_ff(float *input, float *output, int input_size, int interpolation, int decimation, float *taps, int taps_length, int last_taps_delay);
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void rational_resampler_get_lowpass_f(float* output, int output_size, int interpolation, int decimation, window_t window);
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2016-03-26 17:44:28 +08:00
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float *precalculate_window(int size, window_t window);
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2014-11-28 23:44:41 +08:00
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void apply_window_c(complexf* input, complexf* output, int size, window_t window);
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2016-03-26 17:44:28 +08:00
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void apply_precalculated_window_c(complexf* input, complexf* output, int size, float *windowt);
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2014-11-28 23:44:41 +08:00
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void apply_window_f(float* input, float* output, int size, window_t window);
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void logpower_cf(complexf* input, float* output, int size, float add_db);
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2016-03-26 00:00:20 +08:00
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void accumulate_power_cf(complexf* input, float* output, int size);
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void log_ff(float* input, float* output, int size, float add_db);
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2014-11-28 23:44:41 +08:00
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typedef struct fractional_decimator_ff_s
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{
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float remain;
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int input_processed;
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int output_size;
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} fractional_decimator_ff_t;
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fractional_decimator_ff_t fractional_decimator_ff(float* input, float* output, int input_size, float rate, float *taps, int taps_length, fractional_decimator_ff_t d);
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2015-08-17 05:40:42 +08:00
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typedef struct shift_table_data_s
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{
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float* table;
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2016-03-20 23:41:37 +08:00
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int table_size;
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2015-08-17 05:40:42 +08:00
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} shift_table_data_t;
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void shift_table_deinit(shift_table_data_t table_data);
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shift_table_data_t shift_table_init(int table_size);
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float shift_table_cc(complexf* input, complexf* output, int input_size, float rate, shift_table_data_t table_data, float starting_phase);
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2015-11-29 20:54:09 +08:00
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typedef struct shift_addfast_data_s
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{
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float dsin[4];
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float dcos[4];
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2015-11-30 03:05:28 +08:00
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float phase_increment;
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2015-11-29 20:54:09 +08:00
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} shift_addfast_data_t;
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shift_addfast_data_t shift_addfast_init(float rate);
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2015-11-30 06:46:06 +08:00
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shift_addfast_data_t shift_addfast_init(float rate);
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2015-11-29 20:54:09 +08:00
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float shift_addfast_cc(complexf *input, complexf* output, int input_size, shift_addfast_data_t* d, float starting_phase);
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2015-11-30 06:46:06 +08:00
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typedef struct shift_unroll_data_s
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{
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float* dsin;
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float* dcos;
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float phase_increment;
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int size;
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} shift_unroll_data_t;
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float shift_unroll_cc(complexf *input, complexf* output, int input_size, shift_unroll_data_t* d, float starting_phase);
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shift_unroll_data_t shift_unroll_init(float rate, int size);
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2015-08-17 05:40:42 +08:00
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2014-11-28 23:44:41 +08:00
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int log2n(int x);
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int next_pow2(int x);
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void apply_fir_fft_cc(FFT_PLAN_T* plan, FFT_PLAN_T* plan_inverse, complexf* taps_fft, complexf* last_overlap, int overlap_size);
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void gain_ff(float* input, float* output, int input_size, float gain);
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2016-03-20 23:41:37 +08:00
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float get_power_f(float* input, int input_size, int decimation);
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float get_power_c(complexf* input, int input_size, int decimation);
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2014-11-28 23:44:41 +08:00
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2015-10-31 23:22:33 +08:00
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void add_dcoffset_cc(complexf* input, complexf* output, int input_size);
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2015-10-31 23:42:17 +08:00
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float fmmod_fc(float* input, complexf* output, int input_size, float last_phase);
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2015-11-01 19:30:03 +08:00
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void fixed_amplitude_cc(complexf* input, complexf* output, int input_size, float amp);
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2015-10-31 23:22:33 +08:00
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2014-11-28 23:44:41 +08:00
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void convert_u8_f(unsigned char* input, float* output, int input_size);
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void convert_f_u8(float* input, unsigned char* output, int input_size);
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2015-11-23 03:53:10 +08:00
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void convert_s8_f(signed char* input, float* output, int input_size);
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void convert_f_s8(float* input, signed char* output, int input_size);
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2016-02-14 18:19:36 +08:00
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void convert_f_s16(float* input, short* output, int input_size);
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void convert_s16_f(short* input, float* output, int input_size);
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2014-11-28 23:44:41 +08:00
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void convert_f_i16(float* input, short* output, int input_size);
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void convert_i16_f(short* input, float* output, int input_size);
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2016-06-21 06:14:03 +08:00
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void convert_f_s24(float* input, unsigned char* output, int input_size, int bigendian);
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void convert_s24_f(unsigned char* input, float* output, int input_size, int bigendian);
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2014-11-28 23:44:41 +08:00
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2015-08-17 05:40:42 +08:00
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int is_nan(float f);
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2016-05-05 05:46:23 +08:00
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2016-05-08 15:33:40 +08:00
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//digital demod
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typedef struct rtty_baudot_item_s
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{
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unsigned long long code;
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unsigned char ascii_letter;
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unsigned char ascii_figure;
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} rtty_baudot_item_t;
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typedef enum rtty_baudot_decoder_state_e
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{
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RTTY_BAUDOT_WAITING_STOP_PULSE = 0,
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RTTY_BAUDOT_WAITING_START_PULSE,
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RTTY_BAUDOT_RECEIVING_DATA
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} rtty_baudot_decoder_state_t;
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typedef struct rtty_baudot_decoder_s
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{
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unsigned char fig_mode;
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unsigned char character_received;
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unsigned short shr;
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unsigned char bit_cntr;
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rtty_baudot_decoder_state_t state;
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} rtty_baudot_decoder_t;
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#define RTTY_FIGURE_MODE_SELECT_CODE 0b11011
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#define RTTY_LETTER_MODE_SELECT_CODE 0b11111
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char rtty_baudot_decoder_lookup(unsigned char* fig_mode, unsigned char c);
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char rtty_baudot_decoder_push(rtty_baudot_decoder_t* s, unsigned char symbol);
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//PSK31
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typedef struct psk31_varicode_item_s
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{
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unsigned long long code;
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int bitcount;
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unsigned char ascii;
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} psk31_varicode_item_t;
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char psk31_varicode_decoder_push(unsigned long long* status_shr, unsigned char symbol);
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//Serial
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typedef struct serial_line_s
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{
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float samples_per_bits;
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int databits; //including parity
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float stopbits;
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int output_size;
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int input_used;
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2016-05-08 18:38:09 +08:00
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float bit_sampling_width_ratio;
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2016-05-08 15:33:40 +08:00
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} serial_line_t;
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void serial_line_decoder_f_u8(serial_line_t* s, float* input, unsigned char* output, int input_size);
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void binary_slicer_f_u8(float* input, unsigned char* output, int input_size);
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2016-05-09 18:59:08 +08:00
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typedef enum pll_type_e
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{
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2016-05-23 00:35:26 +08:00
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PLL_P_CONTROLLER=1,
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PLL_PI_CONTROLLER=2
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2016-05-09 18:59:08 +08:00
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} pll_type_t;
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typedef struct pll_s
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{
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pll_type_t pll_type;
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//common:
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float output_phase;
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float dphase;
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float frequency;
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float alpha;
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2016-05-11 14:48:31 +08:00
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float beta;
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2016-05-18 20:56:05 +08:00
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float iir_temp;
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2016-05-09 18:59:08 +08:00
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} pll_t;
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2016-05-23 00:35:26 +08:00
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void pll_cc_init_pi_controller(pll_t* p, float bandwidth, float ko, float kd, float damping_factor);
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void pll_cc_init_p_controller(pll_t* p, float alpha);
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2016-05-11 04:59:14 +08:00
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void pll_cc(pll_t* p, complexf* input, float* output_dphase, complexf* output_nco, int input_size);
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2017-03-02 19:17:31 +08:00
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typedef enum timing_recovery_algorithm_e
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{
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TIMING_RECOVERY_ALGORITHM_GARDNER,
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TIMING_RECOVERY_ALGORITHM_EARLYLATE
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} timing_recovery_algorithm_t;
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#define TIMING_RECOVERY_ALGORITHM_DEFAULT TIMING_RECOVERY_ALGORITHM_GARDNER
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typedef struct timing_recovery_state_s
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{
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timing_recovery_algorithm_t algorithm;
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int decimation_rate; // = input_rate / output_rate. We should get an input signal that is N times oversampled.
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int output_size;
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int input_processed;
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int use_q; //use both I and Q for calculating the error
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2017-03-03 23:21:45 +08:00
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int debug_phase;
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2017-03-04 01:23:11 +08:00
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int debug_count;
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2017-03-05 02:50:11 +08:00
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int debug_force;
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2017-03-06 00:21:38 +08:00
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int debug_writefiles;
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2017-03-06 02:56:15 +08:00
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int last_correction_offset;
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2017-03-07 06:00:34 +08:00
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float earlylate_ratio;
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2017-03-02 19:17:31 +08:00
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} timing_recovery_state_t;
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timing_recovery_state_t timing_recovery_init(timing_recovery_algorithm_t algorithm, int decimation_rate, int use_q);
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2017-03-03 18:20:49 +08:00
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void timing_recovery_cc(complexf* input, complexf* output, int input_length, timing_recovery_state_t* state);
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2017-03-02 19:17:31 +08:00
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timing_recovery_algorithm_t timing_recovery_get_algorithm_from_string(char* input);
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char* timing_recovery_get_string_from_algorithm(timing_recovery_algorithm_t algorithm);
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2017-03-03 23:21:45 +08:00
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void timing_recovery_trigger_debug(timing_recovery_state_t* state, int debug_phase);
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2017-03-06 02:56:15 +08:00
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void octave_plot_point_on_cplxsig(complexf* signal, int signal_size, float error, int index, int correction_offset, int writefiles, int points_size, ...);
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2017-03-26 22:55:28 +08:00
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void psk_modulator_u8_c(unsigned char* input, complexf* output, int input_size, int n_psk);
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void duplicate_samples_ntimes_u8_u8(unsigned char* input, unsigned char* output, int input_size_bytes, int sample_size_bytes, int ntimes);
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complexf psk31_interpolate_sine_cc(complexf* input, complexf* output, int input_size, int interpolation, complexf last_input);
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void pack_bits_8to1_u8_u8(unsigned char* input, unsigned char* output, int input_size);
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void psk31_varicode_encoder_u8_u8(unsigned char* input, unsigned char* output, int input_size, int output_max_size, int* input_processed, int* output_size);
|
2017-03-27 19:44:01 +08:00
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unsigned char differential_codec(unsigned char* input, unsigned char* output, int input_size, int encode, unsigned char state);
|
2017-04-01 03:23:07 +08:00
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|
typedef struct bpsk_costas_loop_state_s
|
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|
|
{
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|
float rc_filter_alpha;
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float vco_phase_addition_multiplier;
|
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|
|
float vco_phase;
|
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|
float last_lpfi_output;
|
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|
|
float last_lpfq_output;
|
2017-04-02 18:51:53 +08:00
|
|
|
float last_vco_phase_addition;
|
2017-04-01 03:23:07 +08:00
|
|
|
} bpsk_costas_loop_state_t;
|
|
|
|
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|
|
bpsk_costas_loop_state_t init_bpsk_costas_loop_cc(float samples_per_bits);
|
|
|
|
void bpsk_costas_loop_cc(complexf* input, complexf* output, int input_size, bpsk_costas_loop_state_t* state);
|
2017-04-07 02:38:44 +08:00
|
|
|
void simple_agc_cc(complexf* input, complexf* output, int input_size, float rate, float reference, float max_gain, float* current_gain);
|
2017-04-09 20:53:22 +08:00
|
|
|
void firdes_add_resonator_c(complexf* output, int length, float rate, window_t window);
|
|
|
|
int apply_fir_cc(complexf* input, complexf* output, int input_size, complexf* taps, int taps_length);
|