/*! * \file galileo_e5a_pcps_acquisition_gsoc2014_gensource_test.cc * \brief This class implements an acquisition test for * GalileoE5a3msNoncoherentIQAcquisition class. * \author Marc Sales, 2014. marcsales92(at)gmail.com * * ------------------------------------------------------------------------- * * Copyright (C) 2010-2019 (see AUTHORS file for a list of contributors) * * GNSS-SDR is a software defined Global Navigation * Satellite Systems receiver * * This file is part of GNSS-SDR. * * SPDX-License-Identifier: GPL-3.0-or-later * * ------------------------------------------------------------------------- */ #include "concurrent_queue.h" #include "fir_filter.h" #include "galileo_e5a_noncoherent_iq_acquisition_caf.h" #include "gen_signal_source.h" #include "gnss_block_interface.h" #include "gnss_sdr_valve.h" #include "gnss_synchro.h" #include "in_memory_configuration.h" #include "pass_through.h" #include "signal_generator.h" #include "signal_generator_c.h" #include #include #include #include #include #include #include #if HAS_GENERIC_LAMBDA #else #include #endif #ifdef GR_GREATER_38 #include #else #include #endif // ######## GNURADIO BLOCK MESSAGE RECEVER ######### class GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx; #if GNURADIO_USES_STD_POINTERS using GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_sptr = std::shared_ptr; #else using GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_sptr = boost::shared_ptr; #endif GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_sptr GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_make(Concurrent_Queue& queue); class GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx : public gr::block { private: friend GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_sptr GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_make(Concurrent_Queue& queue); void msg_handler_events(pmt::pmt_t msg); explicit GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx(Concurrent_Queue& queue); Concurrent_Queue& channel_internal_queue; public: int rx_message; ~GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx(); //!< Default destructor }; GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_sptr GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_make(Concurrent_Queue& queue) { return GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_sptr(new GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx(queue)); } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx::msg_handler_events(pmt::pmt_t msg) { try { int64_t message = pmt::to_long(std::move(msg)); rx_message = message; channel_internal_queue.push(rx_message); } catch (boost::bad_any_cast& e) { LOG(WARNING) << "msg_handler_telemetry Bad any cast!"; rx_message = 0; } } GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx::GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx(Concurrent_Queue& queue) : gr::block("GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx", gr::io_signature::make(0, 0, 0), gr::io_signature::make(0, 0, 0)), channel_internal_queue(queue) { this->message_port_register_in(pmt::mp("events")); this->set_msg_handler(pmt::mp("events"), #if HAS_GENERIC_LAMBDA [this](auto&& PH1) { msg_handler_events(PH1); }); #else #if BOOST_173_OR_GREATER boost::bind(&GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx::msg_handler_events, this, boost::placeholders::_1)); #else boost::bind(&GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx::msg_handler_events, this, _1)); #endif #endif rx_message = 0; } GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx::~GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx() = default; class GalileoE5aPcpsAcquisitionGSoC2014GensourceTest : public ::testing::Test { protected: GalileoE5aPcpsAcquisitionGSoC2014GensourceTest() { item_size = sizeof(gr_complex); stop = false; message = 0; gnss_synchro = Gnss_Synchro(); init(); } ~GalileoE5aPcpsAcquisitionGSoC2014GensourceTest() = default; void init(); void config_1(); void config_2(); void config_3(); void start_queue(); void wait_message(); void process_message(); void stop_queue(); Concurrent_Queue channel_internal_queue; std::shared_ptr> queue; gr::top_block_sptr top_block; std::shared_ptr acquisition; std::shared_ptr config; Gnss_Synchro gnss_synchro; size_t item_size; bool stop; int message; std::thread ch_thread; unsigned int integration_time_ms = 0; unsigned int fs_in = 0; double expected_delay_chips = 0.0; double expected_delay_sec = 0.0; double expected_doppler_hz = 0.0; double expected_delay_chips1 = 0.0; double expected_delay_sec1 = 0.0; double expected_doppler_hz1 = 0.0; double expected_delay_chips2 = 0.0; double expected_delay_sec2 = 0.0; double expected_doppler_hz2 = 0.0; double expected_delay_chips3 = 0.0; double expected_delay_sec3 = 0.0; double expected_doppler_hz3 = 0.0; float max_doppler_error_hz = 0.0; float max_delay_error_chips = 0.0; int CAF_window_hz = 0; int Zero_padding = 0; unsigned int num_of_realizations = 0; unsigned int realization_counter; unsigned int detection_counter; unsigned int correct_estimation_counter; unsigned int acquired_samples; unsigned int mean_acq_time_us; double mse_doppler; double mse_delay; double Pd; double Pfa_p; double Pfa_a; int sat = 0; }; void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::init() { message = 0; realization_counter = 0; detection_counter = 0; correct_estimation_counter = 0; acquired_samples = 0; mse_doppler = 0; mse_delay = 0; mean_acq_time_us = 0; Pd = 0; Pfa_p = 0; Pfa_a = 0; } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::config_1() { gnss_synchro.Channel_ID = 0; gnss_synchro.System = 'E'; std::string signal = "5X"; signal.copy(gnss_synchro.Signal, 2, 0); integration_time_ms = 1; fs_in = 32e6; expected_delay_chips = round(14000.0 * 10230000.0 / static_cast(fs_in)); expected_doppler_hz = 2800; expected_delay_sec = 94; CAF_window_hz = 0; Zero_padding = 0; max_doppler_error_hz = 2 / (3 * integration_time_ms * 1e-3); max_delay_error_chips = 0.50; num_of_realizations = 1; config = std::make_shared(); config->set_property("Channel.signal", signal); config->set_property("GNSS-SDR.internal_fs_sps", std::to_string(fs_in)); config->set_property("SignalSource.fs_hz", std::to_string(fs_in)); config->set_property("SignalSource.item_type", "gr_complex"); config->set_property("SignalSource.num_satellites", "1"); config->set_property("SignalSource.system_0", "E"); config->set_property("SignalSource.signal_0", "5X"); config->set_property("SignalSource.PRN_0", "11"); config->set_property("SignalSource.CN0_dB_0", "50"); config->set_property("SignalSource.doppler_Hz_0", std::to_string(expected_doppler_hz)); config->set_property("SignalSource.delay_chips_0", std::to_string(expected_delay_chips)); config->set_property("SignalSource.delay_sec_0", std::to_string(expected_delay_sec)); config->set_property("SignalSource.noise_flag", "false"); config->set_property("SignalSource.data_flag", "false"); config->set_property("SignalSource.BW_BB", "0.97"); config->set_property("SignalSource.dump", "false"); config->set_property("SignalSource.dump_filename", "../data/signal_source.dat"); config->set_property("InputFilter.implementation", "Fir_Filter"); config->set_property("InputFilter.input_item_type", "gr_complex"); config->set_property("InputFilter.output_item_type", "gr_complex"); config->set_property("InputFilter.taps_item_type", "float"); config->set_property("InputFilter.number_of_taps", "11"); config->set_property("InputFilter.number_of_bands", "2"); config->set_property("InputFilter.band1_begin", "0.0"); config->set_property("InputFilter.band1_end", "0.97"); config->set_property("InputFilter.band2_begin", "0.98"); config->set_property("InputFilter.band2_end", "1.0"); config->set_property("InputFilter.ampl1_begin", "1.0"); config->set_property("InputFilter.ampl1_end", "1.0"); config->set_property("InputFilter.ampl2_begin", "0.0"); config->set_property("InputFilter.ampl2_end", "0.0"); config->set_property("InputFilter.band1_error", "1.0"); config->set_property("InputFilter.band2_error", "1.0"); config->set_property("InputFilter.filter_type", "bandpass"); config->set_property("InputFilter.grid_density", "16"); config->set_property("Acquisition_5X.implementation", "Galileo_E5a_Noncoherent_IQ_Acquisition_CAF"); config->set_property("Acquisition_5X.item_type", "gr_complex"); config->set_property("Acquisition_5X.coherent_integration_time_ms", std::to_string(integration_time_ms)); config->set_property("Acquisition_5X.max_dwells", "1"); config->set_property("Acquisition_5X.CAF_window_hz", std::to_string(CAF_window_hz)); config->set_property("Acquisition_5X.Zero_padding", std::to_string(Zero_padding)); config->set_property("Acquisition_5X.pfa", "0.003"); // config->set_property("Acquisition_5X.threshold", "0.01"); config->set_property("Acquisition_5X.doppler_max", "10000"); config->set_property("Acquisition_5X.doppler_step", "250"); config->set_property("Acquisition_5X.bit_transition_flag", "false"); config->set_property("Acquisition_5X.dump", "false"); config->set_property("SignalSource.dump_filename", "../data/acquisition.dat"); } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::config_2() { gnss_synchro.Channel_ID = 0; gnss_synchro.System = 'E'; std::string signal = "5X"; signal.copy(gnss_synchro.Signal, 2, 0); integration_time_ms = 3; fs_in = 12e6; expected_delay_chips = 1000; expected_doppler_hz = 250; max_doppler_error_hz = 2 / (3 * integration_time_ms * 1e-3); max_delay_error_chips = 0.50; num_of_realizations = 1; config = std::make_shared(); config->set_property("GNSS-SDR.internal_fs_sps", std::to_string(fs_in)); config->set_property("Acquisition_5X.implementation", "Galileo_E5a_PCPS_Acquisition"); config->set_property("Acquisition_5X.item_type", "gr_complex"); config->set_property("Acquisition_5X.coherent_integration_time_ms", std::to_string(integration_time_ms)); config->set_property("Acquisition_5X.max_dwells", "1"); config->set_property("Acquisition_5X.threshold", "0.1"); config->set_property("Acquisition_5X.doppler_max", "10000"); config->set_property("Acquisition_5X.doppler_step", "250"); config->set_property("Acquisition_5X.bit_transition_flag", "false"); config->set_property("Acquisition_5X.dump", "false"); config->set_property("SignalSource.dump_filename", "../data/acquisition.dat"); } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::config_3() { gnss_synchro.Channel_ID = 0; gnss_synchro.System = 'E'; // std::string signal = "5Q"; std::string signal = "5X"; signal.copy(gnss_synchro.Signal, 2, 0); integration_time_ms = 3; fs_in = 12e6; expected_delay_chips = 0; expected_delay_sec = 0; expected_doppler_hz = 0; expected_delay_chips1 = 6000; expected_delay_sec1 = 10; expected_doppler_hz1 = 700; expected_delay_chips2 = 9000; expected_delay_sec2 = 26; expected_doppler_hz2 = -1500; expected_delay_chips3 = 2000; expected_delay_sec3 = 77; expected_doppler_hz3 = 5000; max_doppler_error_hz = 2 / (3 * integration_time_ms * 1e-3); max_delay_error_chips = 0.50; num_of_realizations = 10; config = std::make_shared(); config->set_property("GNSS-SDR.internal_fs_sps", std::to_string(fs_in)); config->set_property("SignalSource.fs_hz", std::to_string(fs_in)); config->set_property("SignalSource.item_type", "gr_complex"); config->set_property("SignalSource.num_satellites", "4"); config->set_property("SignalSource.system_0", "E"); config->set_property("SignalSource.signal_0", "5X"); config->set_property("SignalSource.PRN_0", "11"); config->set_property("SignalSource.CN0_dB_0", "46"); config->set_property("SignalSource.doppler_Hz_0", std::to_string(expected_doppler_hz)); config->set_property("SignalSource.delay_chips_0", std::to_string(expected_delay_chips)); config->set_property("SignalSource.delay_sec_0", std::to_string(expected_delay_sec)); config->set_property("SignalSource.system_1", "E"); config->set_property("SignalSource.signal_1", "5X"); config->set_property("SignalSource.PRN_1", "12"); config->set_property("SignalSource.CN0_dB_1", "46"); config->set_property("SignalSource.doppler_Hz_1", std::to_string(expected_doppler_hz1)); config->set_property("SignalSource.delay_chips_1", std::to_string(expected_delay_chips1)); config->set_property("SignalSource.delay_sec_1", std::to_string(expected_delay_sec1)); config->set_property("SignalSource.system_2", "E"); config->set_property("SignalSource.signal_2", "5X"); config->set_property("SignalSource.PRN_2", "19"); config->set_property("SignalSource.CN0_dB_2", "43"); config->set_property("SignalSource.doppler_Hz_2", std::to_string(expected_doppler_hz2)); config->set_property("SignalSource.delay_chips_2", std::to_string(expected_delay_chips2)); config->set_property("SignalSource.delay_sec_2", std::to_string(expected_delay_sec2)); config->set_property("SignalSource.system_3", "E"); config->set_property("SignalSource.signal_3", "5X"); config->set_property("SignalSource.PRN_3", "20"); config->set_property("SignalSource.CN0_dB_3", "39"); config->set_property("SignalSource.doppler_Hz_3", std::to_string(expected_doppler_hz3)); config->set_property("SignalSource.delay_chips_3", std::to_string(expected_delay_chips3)); config->set_property("SignalSource.delay_sec_3", std::to_string(expected_delay_sec3)); config->set_property("SignalSource.noise_flag", "true"); config->set_property("SignalSource.data_flag", "true"); config->set_property("SignalSource.BW_BB", "0.97"); config->set_property("SignalSource.dump", "false"); config->set_property("SignalSource.dump_filename", "../data/signal_source.dat"); config->set_property("InputFilter.implementation", "Fir_Filter"); config->set_property("InputFilter.input_item_type", "gr_complex"); config->set_property("InputFilter.output_item_type", "gr_complex"); config->set_property("InputFilter.taps_item_type", "float"); config->set_property("InputFilter.number_of_taps", "11"); config->set_property("InputFilter.number_of_bands", "2"); config->set_property("InputFilter.band1_begin", "0.0"); config->set_property("InputFilter.band1_end", "0.97"); config->set_property("InputFilter.band2_begin", "0.98"); config->set_property("InputFilter.band2_end", "1.0"); config->set_property("InputFilter.ampl1_begin", "1.0"); config->set_property("InputFilter.ampl1_end", "1.0"); config->set_property("InputFilter.ampl2_begin", "0.0"); config->set_property("InputFilter.ampl2_end", "0.0"); config->set_property("InputFilter.band1_error", "1.0"); config->set_property("InputFilter.band2_error", "1.0"); config->set_property("InputFilter.filter_type", "bandpass"); config->set_property("InputFilter.grid_density", "16"); config->set_property("Acquisition_5X.item_type", "gr_complex"); config->set_property("Acquisition_5X.coherent_integration_time_ms", std::to_string(integration_time_ms)); config->set_property("Acquisition_5X.max_dwells", "1"); config->set_property("Acquisition_5X.implementation", "Galileo_E5a_PCPS_Acquisition"); config->set_property("Acquisition_5X.threshold", "0.5"); config->set_property("Acquisition_5X.doppler_max", "10000"); config->set_property("Acquisition_5X.doppler_step", "250"); config->set_property("Acquisition_5X.bit_transition_flag", "false"); config->set_property("Acquisition_5X.dump", "false"); config->set_property("SignalSource.dump_filename", "../data/acquisition.dat"); } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::start_queue() { stop = false; ch_thread = std::thread(&GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::wait_message, this); } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::wait_message() { std::chrono::time_point start, end; std::chrono::duration elapsed_seconds(0); while (!stop) { acquisition->reset(); start = std::chrono::system_clock::now(); channel_internal_queue.wait_and_pop(message); end = std::chrono::system_clock::now(); elapsed_seconds = end - start; mean_acq_time_us += elapsed_seconds.count() * 1e6; process_message(); } } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::process_message() { if (message == 1) { double delay_error_chips = 0.0; double doppler_error_hz = 0.0; switch (sat) { case 0: delay_error_chips = std::abs(static_cast(expected_delay_chips) - static_cast(gnss_synchro.Acq_delay_samples - 5) * 10230.0 / (static_cast(fs_in) * 1e-3)); doppler_error_hz = std::abs(expected_doppler_hz - gnss_synchro.Acq_doppler_hz); break; case 1: delay_error_chips = std::abs(static_cast(expected_delay_chips1) - static_cast(gnss_synchro.Acq_delay_samples - 5) * 10230.0 / (static_cast(fs_in) * 1e-3)); doppler_error_hz = std::abs(expected_doppler_hz1 - gnss_synchro.Acq_doppler_hz); break; case 2: delay_error_chips = std::abs(static_cast(expected_delay_chips2) - static_cast(gnss_synchro.Acq_delay_samples - 5) * 10230.0 / (static_cast(fs_in) * 1e-3)); doppler_error_hz = std::abs(expected_doppler_hz2 - gnss_synchro.Acq_doppler_hz); break; case 3: delay_error_chips = std::abs(static_cast(expected_delay_chips3) - static_cast(gnss_synchro.Acq_delay_samples - 5) * 10230.0 / (static_cast(fs_in) * 1e-3)); doppler_error_hz = std::abs(expected_doppler_hz3 - gnss_synchro.Acq_doppler_hz); break; default: // case 3 std::cout << "Error: message from unexpected acquisition channel" << std::endl; break; } detection_counter++; // The term -5 is here to correct the additional delay introduced by the FIR filter /* double delay_error_chips = abs((double)expected_delay_chips - (double)(gnss_synchro.Acq_delay_samples-5)*10230.0/((double)fs_in*1e-3)); double doppler_error_hz = abs(expected_doppler_hz - gnss_synchro.Acq_doppler_hz); */ mse_delay += std::pow(delay_error_chips, 2); mse_doppler += std::pow(doppler_error_hz, 2); if ((delay_error_chips < max_delay_error_chips) && (doppler_error_hz < max_doppler_error_hz)) { correct_estimation_counter++; } } realization_counter++; // std::cout << correct_estimation_counter << "correct estimation counter" << std::endl; std::cout << "Progress: " << round(static_cast(realization_counter / num_of_realizations * 100)) << "% \r" << std::flush; // std::cout << message << "message" <(correct_estimation_counter) / static_cast(num_of_realizations); Pfa_a = static_cast(detection_counter) / static_cast(num_of_realizations); Pfa_p = static_cast(detection_counter - correct_estimation_counter) / static_cast(num_of_realizations); mean_acq_time_us /= num_of_realizations; stop_queue(); top_block->stop(); } } void GalileoE5aPcpsAcquisitionGSoC2014GensourceTest::stop_queue() { stop = true; } TEST_F(GalileoE5aPcpsAcquisitionGSoC2014GensourceTest, Instantiate) { config_1(); acquisition = std::make_shared(config.get(), "Acquisition_5X", 1, 0); } TEST_F(GalileoE5aPcpsAcquisitionGSoC2014GensourceTest, ConnectAndRun) { config_1(); // int nsamples = floor(5*fs_in*integration_time_ms*1e-3); int nsamples = 21000 * 3; std::chrono::time_point start, end; std::chrono::duration elapsed_seconds(0); acquisition = std::make_shared(config.get(), "Acquisition_5X", 1, 0); auto msg_rx = GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_make(channel_internal_queue); queue = std::make_shared>(); top_block = gr::make_top_block("Acquisition test"); ASSERT_NO_THROW({ acquisition->connect(top_block); auto source = gr::analog::sig_source_c::make(fs_in, gr::analog::GR_SIN_WAVE, 1000, 1, gr_complex(0)); auto valve = gnss_sdr_make_valve(sizeof(gr_complex), nsamples, queue); top_block->connect(source, 0, valve, 0); top_block->connect(valve, 0, acquisition->get_left_block(), 0); top_block->msg_connect(acquisition->get_right_block(), pmt::mp("events"), msg_rx, pmt::mp("events")); }) << "Failure connecting the blocks of acquisition test."; EXPECT_NO_THROW({ start = std::chrono::system_clock::now(); top_block->run(); // Start threads and wait end = std::chrono::system_clock::now(); elapsed_seconds = end - start; }) << "Failure running the top_block."; std::cout << "Processed " << nsamples << " samples in " << elapsed_seconds.count() * 1e6 << " microseconds" << std::endl; } TEST_F(GalileoE5aPcpsAcquisitionGSoC2014GensourceTest, ValidationOfSIM) { config_1(); queue = std::make_shared>(); top_block = gr::make_top_block("Acquisition test"); acquisition = std::make_shared(config.get(), "Acquisition_5X", 1, 0); auto msg_rx = GalileoE5aPcpsAcquisitionGSoC2014GensourceTest_msg_rx_make(channel_internal_queue); ASSERT_NO_THROW({ acquisition->set_channel(0); }) << "Failure setting channel."; ASSERT_NO_THROW({ acquisition->set_gnss_synchro(&gnss_synchro); }) << "Failure setting gnss_synchro."; ASSERT_NO_THROW({ acquisition->set_doppler_max(config->property("Acquisition_5X.doppler_max", 5000)); }) << "Failure setting doppler_max."; ASSERT_NO_THROW({ acquisition->set_doppler_step(config->property("Acquisition_5X.doppler_step", 100)); }) << "Failure setting doppler_step."; ASSERT_NO_THROW({ acquisition->set_threshold(config->property("Acquisition_5X.threshold", 0.0001)); }) << "Failure setting threshold."; ASSERT_NO_THROW({ acquisition->connect(top_block); }) << "Failure connecting acquisition to the top_block."; // USING THE SIGNAL GENERATOR ASSERT_NO_THROW({ std::shared_ptr signal_source; SignalGenerator* signal_generator = new SignalGenerator(config.get(), "SignalSource", 0, 1, queue); FirFilter* filter = new FirFilter(config.get(), "InputFilter", 1, 1); filter->connect(top_block); signal_source.reset(new GenSignalSource(signal_generator, filter, "SignalSource", queue)); signal_source->connect(top_block); top_block->connect(signal_source->get_right_block(), 0, acquisition->get_left_block(), 0); top_block->msg_connect(acquisition->get_right_block(), pmt::mp("events"), msg_rx, pmt::mp("events")); }) << "Failure connecting the blocks of acquisition test."; acquisition->reset(); acquisition->init(); // i = 0 --> satellite in acquisition is visible // i = 1 --> satellite in acquisition is not visible for (unsigned int i = 0; i < 1; i++) { init(); switch (i) { case 0: { gnss_synchro.PRN = 11; // present break; } case 1: { gnss_synchro.PRN = 19; // not present break; } } acquisition->set_gnss_synchro(&gnss_synchro); acquisition->set_local_code(); acquisition->set_state(1); start_queue(); EXPECT_NO_THROW({ top_block->run(); // Start threads and wait }) << "Failure running the top_block."; stop_queue(); ch_thread.join(); if (i == 0) { EXPECT_EQ(1, message) << "Acquisition failure. Expected message: 1=ACQ SUCCESS."; if (message == 1) { // std::cout << gnss_synchro.Acq_delay_samples << "acq delay" <(1), correct_estimation_counter) << "Acquisition failure. Incorrect parameters estimation."; } } else if (i == 1) { EXPECT_EQ(2, message) << "Acquisition failure. Expected message: 2=ACQ FAIL."; } } }