mirror of
https://github.com/gnss-sdr/gnss-sdr
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306 lines
10 KiB
C++
306 lines
10 KiB
C++
/*!
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* \file acquisition_dump_reader.cc
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* \brief Helper file for unit testing
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* \authors Carles Fernandez-Prades, 2017. cfernandez(at)cttc.es
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* Antonio Ramos, 2018. antonio.ramos(at)cttc.es
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*
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*
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* -----------------------------------------------------------------------------
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*
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* GNSS-SDR is a Global Navigation Satellite System software-defined receiver.
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* This file is part of GNSS-SDR.
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*
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* Copyright (C) 2010-2020 (see AUTHORS file for a list of contributors)
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* SPDX-License-Identifier: GPL-3.0-or-later
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*
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* -----------------------------------------------------------------------------
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*/
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#include "acquisition_dump_reader.h"
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#include <matio.h>
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#include <algorithm>
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#include <cmath>
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#include <iostream>
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#include <utility>
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bool Acquisition_Dump_Reader::read_binary_acq()
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{
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mat_t* matfile = Mat_Open(d_dump_filename.c_str(), MAT_ACC_RDONLY);
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if (matfile == nullptr)
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{
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std::cout << "Unreachable Acquisition dump file " << d_dump_filename << '\n';
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return false;
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}
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matvar_t* var_ = Mat_VarRead(matfile, "acq_grid");
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if (var_ == nullptr)
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{
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std::cout << "Unreachable grid variable in Acquisition dump file.\n";
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Mat_Close(matfile);
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return false;
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}
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if (var_->rank != 2)
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{
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std::cout << "Invalid Acquisition dump file: rank error\n";
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Mat_VarFree(var_);
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Mat_Close(matfile);
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return false;
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}
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if ((var_->dims[0] != d_samples_per_code) or (var_->dims[1] != d_num_doppler_bins))
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{
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std::cout << "Invalid Acquisition dump file: dimension matrix error\n";
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if (var_->dims[0] != d_samples_per_code)
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{
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std::cout << "Expected " << d_samples_per_code << " samples per code. Obtained " << var_->dims[0] << '\n';
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}
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if (var_->dims[1] != d_num_doppler_bins)
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{
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std::cout << "Expected " << d_num_doppler_bins << " Doppler bins. Obtained " << var_->dims[1] << '\n';
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}
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Mat_VarFree(var_);
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Mat_Close(matfile);
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return false;
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}
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if (var_->data_type != MAT_T_SINGLE)
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{
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std::cout << "Invalid Acquisition dump file: data type error\n";
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Mat_VarFree(var_);
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Mat_Close(matfile);
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return false;
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}
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matvar_t* var2_ = Mat_VarRead(matfile, "doppler_max");
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d_doppler_max = *static_cast<unsigned int*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "doppler_step");
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d_doppler_step = *static_cast<unsigned int*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "input_power");
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input_power = *static_cast<float*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "acq_doppler_hz");
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acq_doppler_hz = *static_cast<float*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "acq_delay_samples");
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acq_delay_samples = *static_cast<float*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "test_statistic");
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test_statistic = *static_cast<float*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "threshold");
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threshold = *static_cast<float*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "sample_counter");
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sample_counter = *static_cast<uint64_t*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "d_positive_acq");
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positive_acq = *static_cast<int*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "num_dwells");
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num_dwells = *static_cast<int*>(var2_->data);
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Mat_VarFree(var2_);
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var2_ = Mat_VarRead(matfile, "PRN");
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PRN = *static_cast<int*>(var2_->data);
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Mat_VarFree(var2_);
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std::vector<std::vector<float> >::iterator it1;
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std::vector<float>::iterator it2;
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auto* aux = static_cast<float*>(var_->data);
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int k = 0;
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float normalization_factor = std::pow(d_samples_per_code, 4) * input_power;
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for (it1 = mag.begin(); it1 != mag.end(); it1++)
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{
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for (it2 = it1->begin(); it2 != it1->end(); it2++)
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{
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*it2 = static_cast<float>(aux[k]) / normalization_factor;
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k++;
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}
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}
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Mat_VarFree(var_);
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Mat_Close(matfile);
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return true;
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}
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Acquisition_Dump_Reader::Acquisition_Dump_Reader(const std::string& basename,
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int channel,
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int execution)
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{
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unsigned int sat_ = 0;
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unsigned int doppler_max_ = 0;
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unsigned int doppler_step_ = 0;
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unsigned int samples_per_code_ = 0;
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mat_t* matfile = Mat_Open(d_dump_filename.c_str(), MAT_ACC_RDONLY);
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if (matfile != nullptr)
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{
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matvar_t* var_ = Mat_VarRead(matfile, "doppler_max");
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doppler_max_ = *static_cast<unsigned int*>(var_->data);
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Mat_VarFree(var_);
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var_ = Mat_VarRead(matfile, "doppler_step");
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doppler_step_ = *static_cast<unsigned int*>(var_->data);
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Mat_VarFree(var_);
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var_ = Mat_VarRead(matfile, "PRN");
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sat_ = *static_cast<int*>(var_->data);
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Mat_VarFree(var_);
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var_ = Mat_VarRead(matfile, "grid");
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samples_per_code_ = var_->dims[0];
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Mat_VarFree(var_);
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Mat_Close(matfile);
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}
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else
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{
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std::cout << "Unreachable Acquisition dump file " << d_dump_filename << '\n';
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}
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acq_doppler_hz = 0.0;
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acq_delay_samples = 0.0;
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test_statistic = 0.0;
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input_power = 0.0;
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threshold = 0.0;
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positive_acq = 0;
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sample_counter = 0;
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PRN = 0;
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d_sat = 0;
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d_doppler_max = doppler_max_;
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d_doppler_step = doppler_step_;
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d_samples_per_code = samples_per_code_;
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d_num_doppler_bins = 0;
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num_dwells = 0;
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*this = Acquisition_Dump_Reader(basename,
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sat_,
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doppler_max_,
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doppler_step_,
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samples_per_code_,
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channel,
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execution);
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}
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Acquisition_Dump_Reader::Acquisition_Dump_Reader(const std::string& basename,
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unsigned int sat,
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unsigned int doppler_max,
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unsigned int doppler_step,
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unsigned int samples_per_code,
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int channel,
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int execution)
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: d_basename(basename),
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d_sat(sat),
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d_doppler_max(doppler_max),
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d_doppler_step(doppler_step),
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d_samples_per_code(samples_per_code)
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{
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if (d_doppler_step == 0)
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{
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d_doppler_step = 1;
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}
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d_num_doppler_bins = static_cast<unsigned int>(ceil(static_cast<double>(static_cast<int>(d_doppler_max) - static_cast<int>(-d_doppler_max)) / static_cast<double>(d_doppler_step)));
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std::vector<std::vector<float> > mag_aux(d_num_doppler_bins, std::vector<float>(d_samples_per_code));
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mag = std::move(mag_aux);
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d_dump_filename = d_basename + "_ch_" + std::to_string(channel) + "_" + std::to_string(execution) + "_sat_" + std::to_string(d_sat) + ".mat";
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for (unsigned int doppler_index = 0; doppler_index < d_num_doppler_bins; doppler_index++)
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{
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doppler.push_back(-static_cast<int>(d_doppler_max) + d_doppler_step * doppler_index);
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}
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for (unsigned int k = 0; k < d_samples_per_code; k++)
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{
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samples.push_back(k);
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}
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}
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// Copy assignment operator
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Acquisition_Dump_Reader& Acquisition_Dump_Reader::operator=(const Acquisition_Dump_Reader& other)
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{
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if (this != &other)
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{
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doppler = other.doppler;
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samples = other.samples;
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mag = other.mag;
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acq_doppler_hz = other.acq_doppler_hz;
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acq_delay_samples = other.acq_delay_samples;
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test_statistic = other.test_statistic;
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input_power = other.input_power;
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threshold = other.threshold;
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positive_acq = other.positive_acq;
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PRN = other.PRN;
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num_dwells = other.num_dwells;
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sample_counter = other.sample_counter;
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d_basename = other.d_basename;
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d_dump_filename = other.d_dump_filename;
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d_sat = other.d_sat;
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d_doppler_max = other.d_doppler_max;
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d_doppler_step = other.d_doppler_step;
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d_samples_per_code = other.d_samples_per_code;
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d_num_doppler_bins = other.d_num_doppler_bins;
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}
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return *this;
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}
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// Move constructor
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Acquisition_Dump_Reader::Acquisition_Dump_Reader(Acquisition_Dump_Reader&& other) noexcept
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: doppler(std::move(other.doppler)),
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samples(std::move(other.samples)),
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mag(std::move(other.mag)),
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acq_doppler_hz(other.acq_doppler_hz),
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acq_delay_samples(other.acq_delay_samples),
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test_statistic(other.test_statistic),
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input_power(other.input_power),
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threshold(other.threshold),
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positive_acq(other.positive_acq),
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PRN(other.PRN),
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num_dwells(other.num_dwells),
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sample_counter(other.sample_counter),
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d_basename(std::move(other.d_basename)),
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d_dump_filename(std::move(other.d_dump_filename)),
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d_sat(other.d_sat),
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d_doppler_max(other.d_doppler_max),
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d_doppler_step(other.d_doppler_step),
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d_samples_per_code(other.d_samples_per_code),
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d_num_doppler_bins(other.d_num_doppler_bins)
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{
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}
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// Move assignment operator
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Acquisition_Dump_Reader& Acquisition_Dump_Reader::operator=(Acquisition_Dump_Reader&& other) noexcept
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{
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if (this != &other) // Check for self-assignment
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{
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// Move member variables from the other object to this object
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d_basename = std::move(other.d_basename);
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d_dump_filename = std::move(other.d_dump_filename);
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d_sat = other.d_sat;
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d_doppler_max = other.d_doppler_max;
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d_doppler_step = other.d_doppler_step;
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d_samples_per_code = other.d_samples_per_code;
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d_num_doppler_bins = other.d_num_doppler_bins;
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doppler = std::move(other.doppler);
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samples = std::move(other.samples);
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mag = std::move(other.mag);
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acq_doppler_hz = other.acq_doppler_hz;
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acq_delay_samples = other.acq_delay_samples;
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test_statistic = other.test_statistic;
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input_power = other.input_power;
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threshold = other.threshold;
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positive_acq = other.positive_acq;
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PRN = other.PRN;
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num_dwells = other.num_dwells;
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sample_counter = other.sample_counter;
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}
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return *this;
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} |