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https://github.com/eried/portapack-mayhem.git
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625 lines
23 KiB
C++
625 lines
23 KiB
C++
/*
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* Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc.
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* Copyright (C) 2020 euquiq
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* Copyright (C) 2023 gullradriel, Nilorea Studio Inc.
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*
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* This file is part of PortaPack.
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*
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* This program 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 2, or (at your option)
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* any later version.
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*
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* This program 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 this program; 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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#include "ui_looking_glass_app.hpp"
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#include "convert.hpp"
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#include "file_reader.hpp"
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#include "string_format.hpp"
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#include "audio.hpp"
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#include "file_path.hpp"
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using namespace portapack;
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namespace ui {
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void GlassView::focus() {
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range_presets.focus();
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}
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GlassView::~GlassView() {
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audio::output::stop();
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receiver_model.set_sampling_rate(3072000); // Just a hack to avoid hanging other apps
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receiver_model.disable();
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baseband::shutdown();
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}
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// Function to map the value from one range to another
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int32_t GlassView::map(int32_t value, int32_t fromLow, int32_t fromHigh, int32_t toLow, int32_t toHigh) {
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return toLow + (value - fromLow) * (toHigh - toLow) / (fromHigh - fromLow);
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}
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void GlassView::update_display_beep() {
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if (beep_enabled) {
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button_beep_squelch.set_style(&Styles::green);
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// bip-XXdb
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button_beep_squelch.set_text("bip" + to_string_dec_int(beep_squelch, 3) + "db");
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receiver_model.set_headphone_volume(receiver_model.headphone_volume()); // WM8731 hack.
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} else {
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button_beep_squelch.set_style(&Styles::white);
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button_beep_squelch.set_text("bip OFF ");
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}
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}
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void GlassView::manage_beep_audio() {
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if (beep_enabled) {
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audio::set_rate(audio::Rate::Hz_24000);
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audio::output::start();
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} else {
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baseband::request_beep_stop();
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audio::output::stop();
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}
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}
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void GlassView::get_max_power(const ChannelSpectrum& spectrum, uint8_t bin, uint8_t& max_power) {
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if (mode == LOOKING_GLASS_SINGLEPASS) {
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// <20MHz spectrum mode
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if (bin < 120) {
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if (spectrum.db[SPEC_NB_BINS - 120 + bin] > max_power)
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max_power = spectrum.db[SPEC_NB_BINS - 120 + bin];
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} else {
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if (spectrum.db[bin - 120] > max_power)
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max_power = spectrum.db[bin - 120];
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}
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} else {
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// FAST or SLOW mode
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if (bin < 120) {
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if (spectrum.db[134 + bin] > max_power)
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max_power = spectrum.db[134 + bin];
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} else {
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if (spectrum.db[bin - 118] > max_power)
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max_power = spectrum.db[bin - 118];
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}
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}
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}
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rf::Frequency GlassView::get_freq_from_bin_pos(uint8_t pos) {
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rf::Frequency freq_at_pos = 0;
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if (mode == LOOKING_GLASS_SINGLEPASS) {
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// starting from the middle, minus 8 ignored bin on each side. Since pos is [-120,120] after the (pos - 120), it's divided by SCREEN_W(240)/2 => 120
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freq_at_pos = f_center_ini + ((pos - 120) * ((looking_glass_range - ((16 * looking_glass_range) / SPEC_NB_BINS)) / 2)) / (SCREEN_W / 2);
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} else
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freq_at_pos = f_min + (2 * offset * each_bin_size) + (pos * looking_glass_range) / SCREEN_W;
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return freq_at_pos;
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}
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void GlassView::on_marker_change() {
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marker = get_freq_from_bin_pos(marker_pixel_index);
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field_marker.set_text(to_string_short_freq(marker));
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plot_marker(marker_pixel_index); // Refresh marker on screen
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}
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void GlassView::retune() {
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// Start a new sweep.
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// Tune rx for this new slice directly because the model
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// saves to persistent memory which is slower.
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radio::set_tuning_frequency(f_center);
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chThdSleepMilliseconds(5); // stabilize freq
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baseband::spectrum_streaming_start(); // Do the RX
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}
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void GlassView::reset_live_view() {
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max_freq_hold = 0;
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max_freq_power = -1000;
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// Clear screen in peak mode.
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if (live_frequency_view == 2)
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display.fill_rectangle({{0, 108 + 16}, {SCREEN_W, SCREEN_H - (108 + 16)}}, {0, 0, 0});
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}
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void GlassView::add_spectrum_pixel(uint8_t power) {
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spectrum_row[pixel_index] = spectrum_rgb3_lut[power]; // row of colors
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spectrum_data[pixel_index] = (live_frequency_integrate * spectrum_data[pixel_index] + power) / (live_frequency_integrate + 1); // smoothing
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pixel_index++;
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if (pixel_index == SCREEN_W) // got an entire waterfall line
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{
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if (live_frequency_view > 0) {
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constexpr int rssi_sample_range = SPEC_NB_BINS;
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constexpr float rssi_voltage_min = 0.4;
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constexpr float rssi_voltage_max = 2.2;
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constexpr float adc_voltage_max = 3.3;
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constexpr int raw_min = rssi_sample_range * rssi_voltage_min / adc_voltage_max;
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constexpr int raw_max = rssi_sample_range * rssi_voltage_max / adc_voltage_max;
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constexpr int raw_delta = raw_max - raw_min;
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const range_t<int> y_max_range{0, 320 - (108 + 16)};
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// drawing and keeping track of max freq
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for (uint16_t xpos = 0; xpos < SCREEN_W; xpos++) {
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// save max powerwull freq
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if (spectrum_data[xpos] > max_freq_power) {
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max_freq_power = spectrum_data[xpos];
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max_freq_hold = get_freq_from_bin_pos(xpos);
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}
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int16_t point = y_max_range.clip(((spectrum_data[xpos] - raw_min) * (320 - (108 + 16))) / raw_delta);
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uint8_t color_gradient = (point * 255) / 212;
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// clear if not in peak view
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if (live_frequency_view != 2) {
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display.fill_rectangle({{xpos, 108 + 16}, {1, SCREEN_H - point}}, {0, 0, 0});
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}
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display.fill_rectangle({{xpos, SCREEN_H - point}, {1, point}}, {color_gradient, 0, uint8_t(255 - color_gradient)});
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}
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if (last_max_freq != max_freq_hold) {
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last_max_freq = max_freq_hold;
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freq_stats.set("MAX HOLD: " + to_string_short_freq(max_freq_hold));
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}
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plot_marker(marker_pixel_index);
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} else {
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display.draw_pixels({{0, display.scroll(1)}, {SCREEN_W, 1}}, spectrum_row); // new line at top, one less var, speedier
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}
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pixel_index = 0; // Start New cascade line
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}
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}
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bool GlassView::process_bins(uint8_t* powerlevel) {
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bins_hz_size += each_bin_size; // add pixel to fulfilled bag of Hz
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if (bins_hz_size >= marker_pixel_step) // new pixel fullfilled
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{
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if (*powerlevel > min_color_power)
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add_spectrum_pixel(*powerlevel); // Pixel will represent max_power
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else
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add_spectrum_pixel(0); // Filtered out, show black
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*powerlevel = 0;
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if (!pixel_index) // Received indication that a waterfall line has been completed
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{
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bins_hz_size = 0; // Since this is an entire pixel line, we don't carry "Pixels into next bin"
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if (mode != LOOKING_GLASS_SINGLEPASS) {
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f_center = f_center_ini;
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retune();
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} else
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baseband::spectrum_streaming_start();
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return true; // signal a new line
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}
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bins_hz_size -= marker_pixel_step; // reset bins size, but carrying the eventual excess Hz into next pixel
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}
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return false;
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}
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// Apparently, the spectrum object returns an array of SPEC_NB_BINS (256) bins
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// Each having the radio signal power for its corresponding frequency slot
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void GlassView::on_channel_spectrum(const ChannelSpectrum& spectrum) {
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baseband::spectrum_streaming_stop();
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// Convert bins of this spectrum slice into a representative max_power and when enough, into pixels
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// we actually need SCREEN_W (240) of those bins
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for (uint8_t bin = 0; bin < bin_length; bin++) {
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get_max_power(spectrum, bin, max_power);
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if (max_power > range_max_power)
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range_max_power = max_power;
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// process dc spike if enable
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if (bin == 119) {
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uint8_t next_max_power = 0;
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get_max_power(spectrum, bin + 1, next_max_power);
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for (uint8_t it = 0; it < ignore_dc; it++) {
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uint8_t med_max_power = (max_power + next_max_power) / 2; // due to the way process_bins works we have to keep resetting the color
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if (process_bins(&med_max_power) == true)
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return; // new line signaled, return
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}
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}
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// process actual bin
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if (process_bins(&max_power)) {
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int8_t power = map(range_max_power, 0, 255, -100, 20);
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if (power >= beep_squelch) {
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baseband::request_audio_beep(map(range_max_power, 0, 256, 400, 2600), 24000, 250);
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}
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range_max_power = 0;
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return; // new line signaled, return
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}
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}
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if (mode != LOOKING_GLASS_SINGLEPASS) {
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f_center += looking_glass_step;
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retune();
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} else {
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baseband::spectrum_streaming_start();
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}
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}
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void GlassView::on_hide() {
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baseband::spectrum_streaming_stop();
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display.scroll_disable();
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}
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void GlassView::on_show() {
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display.scroll_set_area(109, 319); // Restart scroll on the correct coordinates
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baseband::spectrum_streaming_start();
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}
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void GlassView::on_range_changed() {
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reset_live_view();
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f_min = field_frequency_min.value();
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f_max = field_frequency_max.value();
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f_min = f_min * MHZ_DIV; // Transpose into full frequency realm
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f_max = f_max * MHZ_DIV;
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looking_glass_range = f_max - f_min;
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if (looking_glass_range <= LOOKING_GLASS_SLICE_WIDTH_MAX) {
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// if the view is done in one pass, show it like in analog_audio_app
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mode = LOOKING_GLASS_SINGLEPASS;
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offset = 2;
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bin_length = SCREEN_W;
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ignore_dc = 0;
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looking_glass_bandwidth = looking_glass_range;
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looking_glass_sampling_rate = looking_glass_bandwidth;
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each_bin_size = looking_glass_bandwidth / SCREEN_W;
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looking_glass_step = looking_glass_bandwidth;
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f_center_ini = f_min + (looking_glass_bandwidth / 2); // Initial center frequency for sweep
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} else {
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// view is made in multiple pass, use original bin picking
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mode = scan_type.selected_index_value();
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looking_glass_bandwidth = LOOKING_GLASS_SLICE_WIDTH_MAX;
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looking_glass_sampling_rate = LOOKING_GLASS_SLICE_WIDTH_MAX;
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each_bin_size = LOOKING_GLASS_SLICE_WIDTH_MAX / SPEC_NB_BINS;
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if (mode == LOOKING_GLASS_FASTSCAN) {
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offset = 2;
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ignore_dc = 4;
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bin_length = SCREEN_W;
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} else { // if( mode == LOOKING_GLASS_SLOWSCAN )
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offset = 2;
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bin_length = 80;
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ignore_dc = 0;
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}
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looking_glass_step = (bin_length + ignore_dc) * each_bin_size;
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f_center_ini = f_min - (offset * each_bin_size) + (looking_glass_bandwidth / 2); // Initial center frequency for sweep
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}
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search_span = looking_glass_range / MHZ_DIV;
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marker_pixel_step = looking_glass_range / SCREEN_W; // Each pixel value in Hz
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pixel_index = 0;
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max_power = 0;
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bins_hz_size = 0;
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on_marker_change();
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update_range_field();
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// set the sample rate and bandwidth
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receiver_model.set_sampling_rate(looking_glass_sampling_rate);
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receiver_model.set_baseband_bandwidth(looking_glass_bandwidth);
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receiver_model.set_squelch_level(0);
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f_center = f_center_ini; // Reset sweep into first slice
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baseband::set_spectrum(looking_glass_bandwidth, trigger);
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receiver_model.set_target_frequency(f_center); // tune rx for this slice
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}
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void GlassView::plot_marker(uint8_t pos) {
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uint8_t shift_y = 0;
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if (live_frequency_view > 0) // plot one line down when in live view
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{
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shift_y = 16;
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}
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portapack::display.fill_rectangle({0, 100 + shift_y, SCREEN_W, 8}, Color::black()); // Clear old marker and whole marker rectangle btw
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portapack::display.fill_rectangle({pos - 2, 100 + shift_y, 5, 3}, Color::red()); // Red marker top
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portapack::display.fill_rectangle({pos - 1, 103 + shift_y, 3, 3}, Color::red()); // Red marker middle
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portapack::display.fill_rectangle({pos, 106 + shift_y, 1, 2}, Color::red()); // Red marker bottom
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}
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void GlassView::update_min(int32_t v) {
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int32_t min_size = steps;
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if (locked_range)
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min_size = search_span;
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if (min_size < 2)
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min_size = 2;
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if (v > 7200 - min_size) {
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v = 7200 - min_size;
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}
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if (v > (field_frequency_max.value() - min_size))
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field_frequency_max.set_value(v + min_size, false);
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if (locked_range)
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field_frequency_max.set_value(v + min_size, false);
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else
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field_frequency_min.set_value(v, false);
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}
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void GlassView::update_max(int32_t v) {
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int32_t min_size = steps;
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if (locked_range)
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min_size = search_span;
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if (min_size < 2)
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min_size = 2;
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if (v < min_size) {
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v = min_size;
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}
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if (v < (field_frequency_min.value() + min_size))
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field_frequency_min.set_value(v - min_size, false);
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if (locked_range)
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field_frequency_min.set_value(v - min_size, false);
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else
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field_frequency_max.set_value(v, false);
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}
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void GlassView::update_range_field() {
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if (!locked_range) {
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field_range.set_style(&Styles::white);
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field_range.set_text(" " + to_string_dec_uint(search_span) + " ");
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} else {
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field_range.set_style(&Styles::red);
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field_range.set_text(">" + to_string_dec_uint(search_span) + "<");
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}
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}
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GlassView::GlassView(
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NavigationView& nav)
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: nav_(nav) {
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baseband::run_image(portapack::spi_flash::image_tag_wideband_spectrum);
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add_children({&labels,
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&field_frequency_min,
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&field_frequency_max,
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&field_lna,
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&field_vga,
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&field_range,
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//&steps_config,
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&scan_type,
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&view_config,
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&level_integration,
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&field_volume,
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&filter_config,
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&field_rf_amp,
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&range_presets,
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&button_beep_squelch,
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&field_marker,
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&field_trigger,
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&button_jump,
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&button_rst,
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&field_rx_iq_phase_cal,
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&freq_stats});
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load_presets(); // Load available presets from TXT files (or default).
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preset_index = clip<uint8_t>(preset_index, 0, presets_db.size());
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field_frequency_min.set_value(f_min / MHZ_DIV);
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field_frequency_min.on_change = [this](int32_t v) {
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range_presets.set_selected_index(0); // Manual
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update_min(v);
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on_range_changed();
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};
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field_frequency_min.on_select = [this, &nav](NumberField& field) {
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auto new_view = nav_.push<FrequencyKeypadView>(field_frequency_min.value() * MHZ_DIV);
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new_view->on_changed = [this, &field](rf::Frequency f) {
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field_frequency_min.set_value(f / MHZ_DIV);
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};
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};
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field_frequency_max.set_value(f_max / MHZ_DIV);
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field_frequency_max.on_change = [this](int32_t v) {
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range_presets.set_selected_index(0); // Manual
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update_max(v);
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on_range_changed();
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};
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field_frequency_max.on_select = [this, &nav](NumberField& field) {
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auto new_view = nav_.push<FrequencyKeypadView>(field_frequency_max.value() * MHZ_DIV);
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new_view->on_changed = [this, &field](rf::Frequency f) {
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field_frequency_max.set_value(f / MHZ_DIV);
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};
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};
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/*steps_config.on_change = [this](size_t, OptionsField::value_t v) {
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field_frequency_min.set_step(v);
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field_frequency_max.set_step(v);
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steps = v;
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};
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steps_config.set_selected_index(0); // 1 Mhz step.*/
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scan_type.on_change = [this](size_t, OptionsField::value_t v) {
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mode = v;
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on_range_changed();
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};
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scan_type.set_selected_index(mode);
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view_config.on_change = [this](size_t, OptionsField::value_t v) {
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reset_live_view(); // Clear between changes.
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live_frequency_view = v;
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switch (v) {
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case 0: // SPEC
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level_integration.hidden(true);
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freq_stats.hidden(true);
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button_jump.hidden(true);
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button_rst.hidden(true);
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display.scroll_set_area(109, 319); // Restart scroll on the correct coordinates.
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break;
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case 1: // LEVEL
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display.fill_rectangle({{0, 108}, {SCREEN_W, 24}}, {0, 0, 0});
|
|
display.scroll_disable();
|
|
level_integration.hidden(false);
|
|
freq_stats.hidden(false);
|
|
button_jump.hidden(false);
|
|
button_rst.hidden(false);
|
|
break;
|
|
|
|
case 2: // PEAK
|
|
default:
|
|
display.fill_rectangle({{0, 108}, {SCREEN_W, 24}}, {0, 0, 0});
|
|
display.scroll_disable();
|
|
level_integration.hidden(false);
|
|
freq_stats.hidden(false);
|
|
button_jump.hidden(false);
|
|
button_rst.hidden(false);
|
|
break;
|
|
}
|
|
|
|
set_dirty();
|
|
};
|
|
view_config.set_selected_index(live_frequency_view);
|
|
|
|
level_integration.on_change = [this](size_t, OptionsField::value_t v) {
|
|
reset_live_view();
|
|
live_frequency_integrate = v;
|
|
};
|
|
level_integration.set_selected_index(live_frequency_integrate);
|
|
|
|
filter_config.on_change = [this](size_t ix, OptionsField::value_t v) {
|
|
reset_live_view();
|
|
min_color_power = v;
|
|
filter_index = ix;
|
|
};
|
|
filter_config.set_selected_index(filter_index);
|
|
|
|
range_presets.on_change = [this](size_t ix, OptionsField::value_t v) {
|
|
preset_index = ix;
|
|
if (ix == 0) return; // Don't update range for "Manual".
|
|
|
|
// NB: Don't trigger updates, presets directly set the range
|
|
// values without applying step or range lock.
|
|
field_frequency_min.set_value(presets_db[v].min, false);
|
|
field_frequency_max.set_value(presets_db[v].max, false);
|
|
on_range_changed();
|
|
};
|
|
range_presets.set_selected_index(preset_index);
|
|
|
|
field_marker.on_encoder_change = [this](TextField&, EncoderEvent delta) {
|
|
marker_pixel_index = clip<uint8_t>(marker_pixel_index + delta, 0, SCREEN_W);
|
|
on_marker_change();
|
|
};
|
|
|
|
field_marker.on_select = [this](TextField&) {
|
|
// Launch Audio with marker frequency.
|
|
launch_audio(marker);
|
|
};
|
|
|
|
field_trigger.on_change = [this](int32_t v) {
|
|
trigger = v;
|
|
baseband::set_spectrum(looking_glass_bandwidth, trigger);
|
|
};
|
|
field_trigger.set_value(trigger);
|
|
|
|
field_range.on_select = [this](TextField&) {
|
|
locked_range = !locked_range;
|
|
update_range_field();
|
|
};
|
|
|
|
button_jump.on_select = [this](Button&) {
|
|
// Launch Audio with peak frequency.
|
|
launch_audio(max_freq_hold);
|
|
};
|
|
|
|
button_rst.on_select = [this](Button&) {
|
|
reset_live_view();
|
|
};
|
|
|
|
field_rx_iq_phase_cal.set_range(0, hackrf_r9 ? 63 : 31); // max2839 has 6 bits [0..63], max2837 has 5 bits [0..31]
|
|
field_rx_iq_phase_cal.set_value(get_spec_iq_phase_calibration_value()); // using accessor function of AnalogAudioView to read iq_phase_calibration_value from rx_audio.ini
|
|
field_rx_iq_phase_cal.on_change = [this](int32_t v) {
|
|
set_spec_iq_phase_calibration_value(v); // using accessor function of AnalogAudioView to write inside SPEC submenu, register value to max283x and save it to rx_audio.ini
|
|
};
|
|
set_spec_iq_phase_calibration_value(get_spec_iq_phase_calibration_value()); // initialize iq_phase_calibration in radio
|
|
|
|
display.scroll_set_area(109, 319);
|
|
|
|
// trigger:
|
|
// Discord User jteich: WidebandSpectrum::on_message to set the trigger value. In WidebandSpectrum::execute,
|
|
// it keeps adding the output of the fft to the buffer until "trigger" number of calls are made,
|
|
// at which time it pushes the buffer up with channel_spectrum.feed
|
|
baseband::set_spectrum(looking_glass_bandwidth, trigger);
|
|
|
|
marker_pixel_index = SCREEN_W / 2;
|
|
on_range_changed(); // Force a UI update.
|
|
|
|
receiver_model.set_sampling_rate(looking_glass_sampling_rate); // 20mhz
|
|
receiver_model.set_baseband_bandwidth(looking_glass_bandwidth); // possible values: 1.75/2.5/3.5/5/5.5/6/7/8/9/10/12/14/15/20/24/28MHz
|
|
receiver_model.set_squelch_level(0);
|
|
receiver_model.enable();
|
|
|
|
button_beep_squelch.on_select = [this](ButtonWithEncoder& button) {
|
|
(void)button;
|
|
beep_enabled = 1 - beep_enabled;
|
|
manage_beep_audio();
|
|
update_display_beep();
|
|
};
|
|
|
|
button_beep_squelch.on_change = [this]() {
|
|
int new_beep_squelch = beep_squelch + button_beep_squelch.get_encoder_delta();
|
|
if (new_beep_squelch < -99)
|
|
new_beep_squelch = -99;
|
|
if (new_beep_squelch > 20)
|
|
new_beep_squelch = 20;
|
|
beep_squelch = new_beep_squelch;
|
|
button_beep_squelch.set_encoder_delta(0);
|
|
update_display_beep();
|
|
};
|
|
|
|
manage_beep_audio();
|
|
update_display_beep();
|
|
}
|
|
|
|
uint8_t GlassView::get_spec_iq_phase_calibration_value() { // define accessor functions inside AnalogAudioView to read & write real iq_phase_calibration_value
|
|
return iq_phase_calibration_value;
|
|
}
|
|
|
|
void GlassView::set_spec_iq_phase_calibration_value(uint8_t cal_value) { // define accessor functions
|
|
iq_phase_calibration_value = cal_value;
|
|
radio::set_rx_max283x_iq_phase_calibration(iq_phase_calibration_value);
|
|
}
|
|
|
|
void GlassView::load_presets() {
|
|
File presets_file;
|
|
auto error = presets_file.open(looking_glass_dir / u"PRESETS.TXT");
|
|
presets_db.clear();
|
|
|
|
// Add the "Manual" entry.
|
|
presets_db.push_back({0, 0, "Manual"});
|
|
|
|
if (!error) {
|
|
auto reader = FileLineReader(presets_file);
|
|
for (const auto& line : reader) {
|
|
if (line.length() == 0 || line[0] == '#')
|
|
continue;
|
|
|
|
auto cols = split_string(line, ',');
|
|
if (cols.size() != 3)
|
|
continue;
|
|
|
|
preset_entry entry{};
|
|
parse_int(cols[0], entry.min);
|
|
parse_int(cols[1], entry.max);
|
|
entry.label = trimr(cols[2]);
|
|
|
|
if (entry.min == 0 || entry.max == 0 || entry.min >= entry.max)
|
|
continue; // Invalid line.
|
|
|
|
presets_db.emplace_back(std::move(entry));
|
|
}
|
|
}
|
|
|
|
populate_presets();
|
|
}
|
|
|
|
void GlassView::populate_presets() {
|
|
using option_t = std::pair<std::string, int32_t>;
|
|
using options_t = std::vector<option_t>;
|
|
options_t entries;
|
|
|
|
for (const auto& preset : presets_db)
|
|
entries.emplace_back(preset.label, entries.size());
|
|
|
|
range_presets.set_options(std::move(entries));
|
|
}
|
|
|
|
void GlassView::launch_audio(rf::Frequency center_freq) {
|
|
receiver_model.set_target_frequency(center_freq);
|
|
auto settings = receiver_model.settings();
|
|
settings.frequency_step = MHZ_DIV; // Preset a 1 MHz frequency step into RX -> AUDIO
|
|
nav_.replace<AnalogAudioView>(settings); // Jump into audio view
|
|
}
|
|
|
|
} // namespace ui
|