514414f6b3
for finding it.
249 lines
9.8 KiB
C++
249 lines
9.8 KiB
C++
/*
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# Copyright 2010 Nick Foster
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# Copyright 2013 Nicholas Corgan
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#
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# This file is part of gr-air-modes
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#
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# gr-air-modes 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 3, or (at your option)
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# any later version.
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#
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# gr-air-modes 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 gr-air-modes; see the file COPYING. If not, write to
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# the Free Software Foundation, Inc., 51 Franklin Street,
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# Boston, MA 02110-1301, USA.
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#
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include <ciso646>
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#include "preamble_impl.h"
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#include <gnuradio/io_signature.h>
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#include <string.h>
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#include <iostream>
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#include <gnuradio/tags.h>
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namespace gr {
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air_modes::preamble::sptr air_modes::preamble::make(float channel_rate, float threshold_db) {
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return gnuradio::get_initial_sptr(new air_modes::preamble_impl(channel_rate, threshold_db));
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}
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air_modes::preamble_impl::preamble_impl(float channel_rate, float threshold_db) :
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gr::block ("preamble",
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gr::io_signature::make2 (2, 2, sizeof(float), sizeof(float)), //stream 0 is received data, stream 1 is moving average for reference
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gr::io_signature::make (1, 1, sizeof(float))) //the output soft symbols
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{
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d_chip_rate = 2000000; //2Mchips per second
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set_rate(channel_rate);
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set_threshold(threshold_db);
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std::stringstream str;
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str << name() << unique_id();
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d_me = pmt::string_to_symbol(str.str());
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d_key = pmt::string_to_symbol("preamble_found");
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}
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void air_modes::preamble_impl::set_rate(float channel_rate) {
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d_samples_per_chip = channel_rate / d_chip_rate;
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d_samples_per_symbol = d_samples_per_chip * 2;
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d_check_width = 120 * d_samples_per_symbol;
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d_sample_rate = channel_rate;
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set_output_multiple(1+d_check_width*2);
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set_history(d_samples_per_symbol);
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}
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void air_modes::preamble_impl::set_threshold(float threshold_db) {
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d_threshold_db = threshold_db;
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d_threshold = powf(10., threshold_db/20.); //the level that the sample must be above the moving average in order to qualify as a pulse
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}
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float air_modes::preamble_impl::get_threshold(void) {
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return d_threshold_db;
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}
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float air_modes::preamble_impl::get_rate(void) {
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return d_sample_rate;
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}
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static void integrate_and_dump(float *out, const float *in, int chips, int samps_per_chip) {
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for(int i=0; i<chips; i++) {
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float acc = 0;
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for(int j=0; j<samps_per_chip; j++) {
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acc += in[i*samps_per_chip+j];
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}
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out[i] = acc;
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}
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}
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//the preamble pattern in bits
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//fixme goes in .h
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static const bool preamble_bits[] = {1, 0, 1, 0, 0, 0, 0, 1, 0, 1};
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static double correlate_preamble(const float *in, int samples_per_chip) {
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double corr = 0.0;
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for(int i=0; i<10; i++) {
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for(int j=0; j<samples_per_chip;j++)
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if(preamble_bits[i]) corr += in[i*samples_per_chip+j];
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}
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return corr;
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}
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static pmt::pmt_t tag_to_timestamp(gr::tag_t tstamp, uint64_t abs_sample_cnt, int rate) {
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uint64_t last_whole_stamp;
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double last_frac_stamp;
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pmt::pmt_t tstime = pmt::make_tuple(pmt::from_uint64(0), pmt::from_double(0));
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if(tstamp.key == NULL
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|| !pmt::is_symbol(tstamp.key)
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|| pmt::symbol_to_string(tstamp.key) != "rx_time") {
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last_whole_stamp = 0;
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last_frac_stamp = 0;
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} else {
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last_whole_stamp = pmt::to_uint64(pmt::tuple_ref(tstamp.value, 0));
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last_frac_stamp = pmt::to_double(pmt::tuple_ref(tstamp.value, 1));
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}
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//the timestamp tag has tstamp.offset, the sample index of the timestamp tag
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//also tstamp.value, a pmt pair with (uint64, double) representing int and
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//fractional timestamp, respectively.
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//this function also gets an abs_sample_cnt which represents the sample count to
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//find a timestamp for. sps is obviously samples per second.
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//
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//so (abs_sample_cnt - tstamp.offset) is the delay we apply to the tag
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// int((abs_sample_cnt - tstamp.offset)/sps) is the integer offset
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// (abs_sample_cnt - tstamp.offset)/sps is the fractional offset
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uint64_t int_offset = int(abs_sample_cnt - tstamp.offset)/rate;
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double frac_offset = ((abs_sample_cnt - tstamp.offset) % rate) / double(rate);
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uint64_t abs_whole = last_whole_stamp + int_offset;
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double abs_frac = last_frac_stamp + frac_offset;
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if(abs_frac > 1.0f) {
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abs_frac -= 1.0f;
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abs_whole += 1;
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}
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tstime = pmt::make_tuple(pmt::from_uint64(abs_whole), pmt::from_double(abs_frac));
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return tstime;
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}
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int air_modes::preamble_impl::general_work(int noutput_items,
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gr_vector_int &ninput_items,
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gr_vector_const_void_star &input_items,
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gr_vector_void_star &output_items)
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{
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const float *in = (const float *) input_items[0];
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const float *inavg = (const float *) input_items[1];
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int mininputs = std::min(ninput_items[0], ninput_items[1]); //they should be matched but let's be safe
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//round number of input samples down to nearest d_samples_per_chip
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//we also subtract off d_samples_per_chip to allow the bit center finder some leeway
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const int ninputs = std::max(mininputs - (mininputs % int(d_samples_per_chip)) - int(d_samples_per_chip), 0);
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if (ninputs <= 0) { consume_each(0); return 0; }
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float *out = (float *) output_items[0];
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if(0) std::cout << "Preamble called with " << ninputs << " samples" << std::endl;
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//fixme move into .h
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const int pulse_offsets[4] = { 0,
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int(2 * d_samples_per_chip),
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int(7 * d_samples_per_chip),
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int(9 * d_samples_per_chip)
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};
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uint64_t abs_sample_cnt = nitems_read(0);
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std::vector<gr::tag_t> tstamp_tags;
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get_tags_in_range(tstamp_tags, 0, abs_sample_cnt, abs_sample_cnt + ninputs, pmt::string_to_symbol("rx_time"));
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//tags.back() is the most recent timestamp, then.
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if(tstamp_tags.size() > 0) {
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d_timestamp = tstamp_tags.back();
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}
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for(int i=0; i < ninputs; i++) {
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float pulse_threshold = inavg[i] * d_threshold;
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if(in[i] > pulse_threshold) { //hey we got a candidate
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if(in[i+1] > in[i]) continue; //wait for the peak
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//check to see the rest of the pulses are there
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if( in[i+pulse_offsets[1]] < pulse_threshold ) continue;
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if( in[i+pulse_offsets[2]] < pulse_threshold ) continue;
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if( in[i+pulse_offsets[3]] < pulse_threshold ) continue;
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//get a more accurate bit center by finding the correlation peak across all four preamble bits
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bool late, early;
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int how_late = 0;
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do {
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double now_corr = correlate_preamble(in+i, d_samples_per_chip);
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double late_corr = correlate_preamble(in+i+1, d_samples_per_chip);
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double early_corr = correlate_preamble(in+i-1, d_samples_per_chip);
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late = (late_corr > now_corr);
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//early = (early_corr > now_corr);
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if(late) { i++; how_late++; }
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//if(early && i>0) { std::cout << "EARLY " << i << std::endl; i--; }
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} while(late and how_late < d_samples_per_chip);// xor early);
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if(0) std::cout << "We were " << how_late << " samples late" << std::endl;
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//now check to see that the non-peak symbols in the preamble
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//are below the peaks by threshold dB
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float avgpeak = ( in[i+pulse_offsets[0]]
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+ in[i+pulse_offsets[1]]
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+ in[i+pulse_offsets[2]]
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+ in[i+pulse_offsets[3]]) / 4.0;
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float space_threshold = inavg[i] + (avgpeak - inavg[i])/d_threshold;
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bool valid_preamble = true; //f'in c++
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for( int j=1.5*d_samples_per_symbol; j<=3*d_samples_per_symbol; j++)
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if(in[i+j] > space_threshold) valid_preamble = false;
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for( int j=5*d_samples_per_symbol; j<=7.5*d_samples_per_symbol; j++)
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if(in[i+j] > space_threshold) valid_preamble = false;
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if(!valid_preamble) continue;
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//be sure we've got enough room in the input buffer to copy out a whole packet
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if(ninputs-i < 240*d_samples_per_chip) {
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consume_each(std::max(i-1,0));
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if(0) std::cout << "Preamble consumed " << std::max(i-1,0) << ", returned 0 (no room)" << std::endl;
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return 0;
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}
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//all right i'm prepared to call this a preamble
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for(int j=0; j<240; j++) {
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out[j] = in[i+int(j*d_samples_per_chip)] - inavg[i];
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}
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//get the timestamp of the preamble
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pmt::pmt_t tstamp = tag_to_timestamp(d_timestamp, abs_sample_cnt + i, d_sample_rate);
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//now tag the preamble
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add_item_tag(0, //stream ID
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nitems_written(0), //sample
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d_key, //frame_info
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tstamp,
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d_me //block src id
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);
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//produce only one output per work call -- TODO this should probably change
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if(0) std::cout << "Preamble consumed " << i+240*d_samples_per_chip << "with i=" << i << ", returned 240" << std::endl;
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consume_each(i+240*d_samples_per_chip);
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return 240;
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}
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}
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//didn't get anything this time
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if(0) std::cout << "Preamble consumed " << ninputs << ", returned 0" << std::endl;
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consume_each(ninputs);
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return 0;
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}
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} //namespace gr
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