/* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * * This file is part of PortaPack. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "spectrum_collector.hpp" #include "dsp_fft.hpp" #include "utility.hpp" #include "event_m4.hpp" #include "portapack_shared_memory.hpp" /* #include "event_m4.hpp" that line is duplicated, we can delete it .*/ #include void SpectrumCollector::on_message(const Message* const message) { switch(message->id) { case Message::ID::UpdateSpectrum: update(); break; case Message::ID::SpectrumStreamingConfig: set_state(*reinterpret_cast(message)); break; default: break; } } void SpectrumCollector::set_state(const SpectrumStreamingConfigMessage& message) { if( message.mode == SpectrumStreamingConfigMessage::Mode::Running ) { start(); } else { stop(); } } void SpectrumCollector::start() { streaming = true; ChannelSpectrumConfigMessage message { &fifo }; shared_memory.application_queue.push(message); } void SpectrumCollector::stop() { streaming = false; fifo.reset_in(); } void SpectrumCollector::set_decimation_factor( const size_t decimation_factor ) { channel_spectrum_decimator.set_factor(decimation_factor); } /* TODO: Refactor to register task with idle thread? * It's sad that the idle thread has to call all the way back here just to * perform the deferred task on the buffer of data we prepared. */ void SpectrumCollector::feed( const buffer_c16_t& channel, const int32_t filter_low_frequency, const int32_t filter_high_frequency, const int32_t filter_transition ) { // Called from baseband processing thread. channel_filter_low_frequency = filter_low_frequency; channel_filter_high_frequency = filter_high_frequency; channel_filter_transition = filter_transition; channel_spectrum_decimator.feed( channel, [this](const buffer_c16_t& data) { this->post_message(data); } ); } void SpectrumCollector::post_message(const buffer_c16_t& data) { // Called from baseband processing thread. if( streaming && !channel_spectrum_request_update ) { fft_swap(data, channel_spectrum); channel_spectrum_sampling_rate = data.sampling_rate; channel_spectrum_request_update = true; EventDispatcher::events_flag(EVT_MASK_SPECTRUM); } } /* 3 types of Windowing time domain shapes declaration , but only used Hamming , shapes for FFT gcc10 compile sintax error c/m (1/2), The primary diff. between const and constexpr variables is that the initialization of a const var can be deferred until run time. A constexpr var. must be initialized at compile time. ... A var. can be declared with constexpr , when it has a literal type and is initialized. gcc10 compile sintax error c/m (2/2) Static assert --> Tests a software assertion at compile time for debugging. we keep the same safety compile protection , just changing slightly the sintax checking that the size of the called array is power of 2. if the bool "constant expression" is TRUE (normal case) , the declaration has no effect. if the bool "constant expression" is FALSE (abnormal array size) , it is aborted the compile with a msg error. */ template // Although currently we are not using that Windowing shape, we apply the same gcc10 compile error c/m static typename T::value_type spectrum_window_none(const T& s, const size_t i) { static_assert(power_of_two(sizeof(s)), "Array size must be power of 2"); // c/m compile error gcc10 , OK for all gcc versions. return s[i]; }; template // Currently we are calling and using that Window shape. static typename T::value_type spectrum_window_hamming_3(const T& s, const size_t i) { static_assert(power_of_two(sizeof(s)), "Array size must be power of 2"); // c/m compile error gcc10 , OK for all gcc versions. const size_t mask = s.size() - 1; // c/m compile error gcc10 , constexpr->const // Three point Hamming window. return s[i] * 0.54f + (s[(i-1) & mask] + s[(i+1) & mask]) * -0.23f; }; template // Although currently we are not using that Windowing shape, we apply the same gcc10 compile error c/m static typename T::value_type spectrum_window_blackman_3(const T& s, const size_t i) { static_assert(power_of_two(sizeof(s)), "Array size must be power of 2"); // c/m compile error gcc10 , OK for all gcc versions. const size_t mask = s.size() - 1; // c/m compile error gcc10 , constexpr->const // Three term Blackman window. constexpr float alpha = 0.42f; constexpr float beta = 0.5f * 0.5f; constexpr float gamma = 0.08f * 0.05f; return s[i] * alpha - (s[(i-1) & mask] + s[(i+1) & mask]) * beta + (s[(i-2) & mask] + s[(i+2) & mask]) * gamma; }; void SpectrumCollector::update() { // Called from idle thread (after EVT_MASK_SPECTRUM is flagged) if( streaming && channel_spectrum_request_update ) { /* Decimated buffer is full. Compute spectrum. */ fft_c_preswapped(channel_spectrum, 0, 8); ChannelSpectrum spectrum; spectrum.sampling_rate = channel_spectrum_sampling_rate; spectrum.channel_filter_low_frequency = channel_filter_low_frequency; spectrum.channel_filter_high_frequency = channel_filter_high_frequency; spectrum.channel_filter_transition = channel_filter_transition; for(size_t i=0; i