mirror of
https://github.com/eried/portapack-mayhem.git
synced 2024-12-30 01:36:50 -05:00
ac89ca2a2a
* change peak from green to orange * add db
529 lines
17 KiB
C++
529 lines
17 KiB
C++
/*
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* Copyright (C) 2015 Jared Boone, ShareBrained Technology, 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_rssi.hpp"
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#include "baseband_api.hpp"
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#include "utility.hpp"
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#include <algorithm>
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#define min(a, b) ((a) < (b) ? (a) : (b))
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#define max(a, b) ((a) > (b) ? (a) : (b))
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#define abs(x) ((x) > 0 ? (x) : -(x))
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// flag value for graph min
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// If it does not change, then all graph min values are is zero
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#define GRAPH_MIN_ALL_ZERO_FLAG 666
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namespace ui {
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RSSI::RSSI(
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Rect parent_rect,
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bool instant_exec)
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: Widget{parent_rect},
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instant_exec_{instant_exec} {
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}
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void RSSI::paint(Painter& painter) {
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const auto r = screen_rect();
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constexpr int rssi_sample_range = 256;
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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_min = 0;
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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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if (!vertical_rssi_enabled) {
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// horizontal left to right level meters
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const range_t<int> x_avg_range{0, r.width() - 1};
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const int16_t x_avg = x_avg_range.clip((avg_ - raw_min) * r.width() / raw_delta);
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const range_t<int> x_min_range{0, x_avg};
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const int16_t x_min = x_min_range.clip((min_ - raw_min) * r.width() / raw_delta);
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const range_t<int> x_max_range{x_avg + 1, r.width() - 1};
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const int16_t x_max = x_max_range.clip((max_ - raw_min) * r.width() / raw_delta);
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const int16_t peak = x_max_range.clip((peak_ - raw_min) * r.width() / raw_delta);
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// x_min
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const Rect r0{r.left(), r.top(), x_min, r.height()};
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painter.fill_rectangle(
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r0,
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Theme::getInstance()->fg_blue->foreground);
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// x_avg
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const Rect r1{r.left() + x_min, r.top(), x_avg - x_min, r.height()};
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painter.fill_rectangle(
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r1,
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Theme::getInstance()->fg_red->foreground);
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// x_avg middle marker
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const Rect r2{r.left() + x_avg, r.top(), 1, r.height()};
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painter.fill_rectangle(
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r2,
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Color::white());
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// x_max
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const Rect r3{r.left() + x_avg + 1, r.top(), x_max - (x_avg + 1), r.height()};
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painter.fill_rectangle(
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r3,
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Theme::getInstance()->fg_red->foreground);
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// filling last part in black
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const Rect r4{r.left() + x_max, r.top(), r.width() - x_max, r.height()};
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painter.fill_rectangle(
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r4,
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Theme::getInstance()->bg_darkest->background);
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// show green peak value
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if (peak_enabled) {
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const Rect r5{r.left() + peak - 3, r.top(), 3, r.height()};
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painter.fill_rectangle(
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r5,
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Theme::getInstance()->fg_orange->foreground);
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}
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// dB - x
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constexpr int db_min = -80;
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constexpr int db_max = 10;
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constexpr int db_delta = db_max - db_min;
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const range_t<int> x_db_range{0, r.width() - 1};
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const int16_t x_db = x_db_range.clip((db_ - db_min) * r.width() / db_delta);
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const Rect r_db{r.left() + x_db, r.top(), 1, r.height()};
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if (db_) painter.fill_rectangle(r_db, Color::green());
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} else {
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// vertical bottom to top level meters
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const range_t<int> y_avg_range{0, r.height() - 1};
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const int16_t y_avg = y_avg_range.clip((avg_ - raw_min) * r.height() / raw_delta);
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const range_t<int> y_min_range{0, y_avg};
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const int16_t y_min = y_min_range.clip((min_ - raw_min) * r.height() / raw_delta);
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const range_t<int> y_max_range{y_avg + 1, r.height() - 1};
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const int16_t y_max = y_max_range.clip((max_ - raw_min) * r.height() / raw_delta);
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const range_t<int> peak_range{0, r.height() - 1};
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const int16_t peak = peak_range.clip((peak_ - raw_min) * r.height() / raw_delta);
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// y_min
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const Rect r0{r.left(), r.bottom() - y_min, r.width(), y_min};
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painter.fill_rectangle( // TODO: the blue plot is broken in vertical bars, not from the dB PR (#2403)
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r0,
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Color::blue());
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// y_avg
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const Rect r1{r.left(), r.bottom() - y_avg, r.width(), y_avg - y_min};
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painter.fill_rectangle(
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r1,
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Color::red());
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// y_avg middle marker
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const Rect r2{r.left(), r.bottom() - y_avg, r.width(), 1};
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painter.fill_rectangle(
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r2,
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Color::white());
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// y_max
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const Rect r3{r.left(), r.bottom() - y_max, r.width(), y_max - y_avg};
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// const Rect r3 { r.left(), r.bottom() - y_max , r.width() , y_max - y_avg - 1 };
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painter.fill_rectangle(
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r3,
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Color::red());
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// fill last part of level in black
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const Rect r4{r.left(), r.top(), r.width(), r.height() - y_max};
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painter.fill_rectangle(
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r4,
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Color::black());
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// show green peak value if enabled
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if (peak_enabled) {
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const Rect r5{r.left(), r.bottom() - peak - 3, r.width(), 3};
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painter.fill_rectangle(
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r5,
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Color::orange());
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}
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// dB - y
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constexpr int db_min = -80;
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constexpr int db_max = 10;
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constexpr int db_delta = db_max - db_min;
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const range_t<int> y_db_range{0, r.height() - 1};
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const int16_t y_db = y_db_range.clip((db_ - db_min) * r.height() / db_delta);
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const Rect r_db{r.left(), r.bottom() - y_db, r.width(), 3};
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if (db_) painter.fill_rectangle(r_db, Color::green());
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}
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if (pitch_rssi_enabled) {
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baseband::set_pitch_rssi((avg_ - raw_min) * 2000 / raw_delta, true);
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}
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if (has_focus() || highlighted()) {
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const Rect r6{r.left(), r.top(), r.width(), r.height()};
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painter.draw_rectangle(
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r6,
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Color::white()); // TODO this and all the following Color struct call should satisfy the new "theme" system ref
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}
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}
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uint8_t RSSI::get_min() {
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return min_;
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}
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uint8_t RSSI::get_avg() {
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return avg_;
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}
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uint8_t RSSI::get_max() {
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return max_;
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}
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uint8_t RSSI::get_delta() {
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return max_ - min_;
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}
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void RSSI::set_pitch_rssi(bool enabled) {
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pitch_rssi_enabled = enabled;
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if (!enabled) baseband::set_pitch_rssi(0, false);
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}
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void RSSI::set_vertical_rssi(bool enabled) {
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if (enabled)
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vertical_rssi_enabled = true;
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else
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vertical_rssi_enabled = false;
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}
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void RSSI::set_peak(bool enabled, size_t duration) {
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peak_enabled = enabled;
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peak_duration = duration;
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}
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void RSSI::on_statistics_update(const RSSIStatistics& statistics) {
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min_ = statistics.min;
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avg_ = statistics.accumulator / statistics.count;
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max_ = statistics.max;
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if (peak_enabled) {
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peak_duration_ = peak_duration_ + 100;
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if (max_ > peak_) {
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peak_ = max_;
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}
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if (peak_duration_ > peak_duration) {
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peak_duration_ = 0;
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peak_ = max_;
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}
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}
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set_dirty();
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}
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uint8_t RSSIGraph::get_graph_min() {
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return graph_min_;
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}
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uint8_t RSSIGraph::get_graph_avg() {
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return graph_avg_;
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}
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uint8_t RSSIGraph::get_graph_max() {
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return graph_max_;
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}
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uint8_t RSSIGraph::get_graph_delta() {
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return graph_max_ - graph_min_;
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}
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void RSSIGraph::paint(Painter& painter) {
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const auto r = screen_rect();
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if (graph_list.size() == 0)
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return;
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int xpos = 0, prev_xpos = r.width();
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RSSIGraph_entry& prev_entry = graph_list[0];
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graph_min_ = GRAPH_MIN_ALL_ZERO_FLAG; // if it stays at that value the whole graphlist min are zero
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graph_max_ = 0;
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int avg_sum = 0;
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for (int n = 1; (unsigned)n <= graph_list.size(); n++) {
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xpos = (r.width() * (graph_list.size() - n)) / graph_list.size();
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int size = abs(xpos - prev_xpos);
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RSSIGraph_entry& entry = graph_list[n - 1];
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// stats
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if (entry.rssi_min != 0 && entry.rssi_min < graph_min_) {
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graph_min_ = entry.rssi_min;
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}
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if (entry.rssi_max > graph_max_) {
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graph_max_ = entry.rssi_max;
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}
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avg_sum += entry.rssi_avg;
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// black
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const Rect r0{r.right() - prev_xpos, r.top(), size, r.height()};
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painter.fill_rectangle(
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r0,
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Color::black());
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// y_max
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int top_y_val = max(entry.rssi_max, prev_entry.rssi_max);
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int width_y = abs(entry.rssi_max - prev_entry.rssi_max);
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if (width_y == 0)
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width_y = 1;
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const Point p1v{r.right() - prev_xpos, r.bottom() - top_y_val};
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painter.draw_vline(
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p1v,
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width_y,
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Color::red());
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const Point p1h{r.right() - prev_xpos, r.bottom() - entry.rssi_max};
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painter.draw_hline(
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p1h,
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size,
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Color::red());
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// y_avg
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top_y_val = max(entry.rssi_avg, prev_entry.rssi_avg);
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width_y = abs(entry.rssi_avg - prev_entry.rssi_avg);
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if (width_y == 0)
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width_y = 1;
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const Point p2v{r.right() - prev_xpos, r.bottom() - top_y_val};
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painter.draw_vline(
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p2v,
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width_y,
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Color::white());
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const Point p2h{r.right() - prev_xpos, r.bottom() - entry.rssi_avg};
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painter.draw_hline(
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p2h,
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size,
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Color::white());
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// y_min
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top_y_val = max(entry.rssi_min, prev_entry.rssi_min);
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width_y = abs(entry.rssi_min - prev_entry.rssi_min);
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if (width_y == 0)
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width_y = 1;
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const Point p3v{r.right() - prev_xpos, r.bottom() - top_y_val};
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painter.draw_vline(
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p3v,
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width_y,
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Color::blue());
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const Point p3h{r.right() - prev_xpos, r.bottom() - entry.rssi_min};
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painter.draw_hline(
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p3h,
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size,
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Color::blue());
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// hack to display db
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top_y_val = max(entry.db, prev_entry.db);
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width_y = abs(entry.db - prev_entry.db);
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if (width_y == 0)
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width_y = 1;
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const Point p4v{r.right() - prev_xpos, r.bottom() - top_y_val};
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painter.draw_vline(
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p4v,
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width_y,
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Color::green());
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const Point p4h{r.right() - prev_xpos, r.bottom() - entry.db};
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painter.draw_hline(
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p4h,
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size,
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Color::green());
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prev_entry = entry;
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prev_xpos = xpos;
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}
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graph_avg_ = (avg_sum / graph_list.size());
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// hack to only set to 0 if all graphlist min values are 0
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if (graph_min_ == GRAPH_MIN_ALL_ZERO_FLAG)
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graph_min_ = 0;
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}
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/*void RSSIGraph::paintOld(Painter& painter) {
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const auto r = screen_rect();
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int16_t size = r.width() / nb_columns ;
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int16_t top_y_val = 0 ;
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int16_t width_y = 0 ;
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if( size < 1 )
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size = 1 ;
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int xpos = r.right() ;
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for ( int n = 2 ; (unsigned)n <= graph_list.size(); n++) {
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auto& entry = graph_list[graph_list.size()-n];
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auto& prev_entry = graph_list[graph_list.size()-(n-1)];
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// black
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const Rect r0{ xpos - size , r.top() , size , r.height() };
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painter.fill_rectangle(
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r0,
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Color::black());
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// y_max
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top_y_val = max( entry.rssi_max , prev_entry.rssi_max );
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width_y = abs( entry.rssi_max - prev_entry.rssi_max );
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if( width_y == 0 )
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width_y = 1 ;
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const Rect r1{ xpos - size , r.bottom() - top_y_val , size , width_y };
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painter.fill_rectangle(
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r1,
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Color::red());
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// y_avg
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top_y_val = max( entry.rssi_avg , prev_entry.rssi_avg );
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width_y = abs( entry.rssi_avg - prev_entry.rssi_avg );
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if( width_y == 0 )
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width_y = 1 ;
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const Rect r2{ xpos - size , r.bottom() - top_y_val , size , width_y };
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painter.fill_rectangle(
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r2,
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Color::white());
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// y_min
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top_y_val = max( entry.rssi_min , prev_entry.rssi_min );
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width_y = abs( entry.rssi_min - prev_entry.rssi_min );
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if( width_y == 0 )
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width_y = 1 ;
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const Rect r3{ xpos - size , r.bottom() - top_y_val , size , width_y };
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painter.fill_rectangle(
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r3,
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Color::blue());
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// hack to display db
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top_y_val = max( entry.db , prev_entry.db );
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width_y = abs( entry.db - prev_entry.db );
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if( width_y == 0 )
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width_y = 1 ;
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const Rect r4{ xpos - size , r.bottom() - top_y_val , size , width_y };
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painter.fill_rectangle(
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r4,
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Color::green());
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xpos = xpos - size ;
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}
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if( xpos > r.left() )
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{
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const Rect r5{ r.left() , r.top() , xpos - r.left() , r.height() };
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painter.fill_rectangle(
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r5,
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Color::black());
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}
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}*/
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void RSSIGraph::add_values(int16_t rssi_min, int16_t rssi_avg, int16_t rssi_max, int16_t db) {
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const auto r = screen_rect();
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constexpr int rssi_sample_range = 256;
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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_min = 0;
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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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// vertical bottom to top level meters
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const range_t<int> y_avg_range{0, r.height() - 1};
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const int16_t y_avg = y_avg_range.clip((rssi_avg - raw_min) * r.height() / raw_delta);
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const range_t<int> y_min_range{0, y_avg};
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const int16_t y_min = y_min_range.clip((rssi_min - raw_min) * r.height() / raw_delta);
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const range_t<int> y_max_range{y_avg + 1, r.height() - 1};
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const int16_t y_max = y_max_range.clip((rssi_max - raw_min) * r.height() / raw_delta);
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const range_t<int> db_range{-80, 10};
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int16_t db_ = db_range.clip(db);
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db_ = db_ - 10;
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db_ = db_ * r.height() / 90;
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db_ = r.height() + db_;
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graph_list.push_back({y_min, y_avg, y_max, db_});
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while (graph_list.size() > nb_columns) {
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graph_list.erase(graph_list.begin());
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}
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set_dirty();
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}
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void RSSIGraph::set_nb_columns(int16_t nb) {
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nb_columns = nb;
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while (graph_list.size() > nb_columns) {
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graph_list.erase(graph_list.begin());
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}
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}
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|
|
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void RSSIGraph::on_hide() {
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nb_columns_before_hide = nb_columns;
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nb_columns = 1;
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while (graph_list.size() > nb_columns) {
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graph_list.erase(graph_list.begin());
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}
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|
}
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|
|
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void RSSIGraph::on_show() {
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nb_columns = nb_columns_before_hide;
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|
}
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|
|
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void RSSI::on_focus() {
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|
if (on_highlight)
|
|
on_highlight(*this);
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|
}
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|
|
|
bool RSSI::on_key(const KeyEvent key) {
|
|
if (key == KeyEvent::Select) {
|
|
if (on_select) {
|
|
on_select(*this);
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|
return true;
|
|
}
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|
} else {
|
|
if (on_dir) {
|
|
return on_dir(*this, key);
|
|
}
|
|
}
|
|
return false;
|
|
}
|
|
|
|
bool RSSI::on_touch(const TouchEvent event) {
|
|
switch (event.type) {
|
|
case TouchEvent::Type::Start:
|
|
set_highlighted(true);
|
|
set_dirty();
|
|
if (on_touch_press) {
|
|
on_touch_press(*this);
|
|
}
|
|
if (on_select && instant_exec_) {
|
|
on_select(*this);
|
|
}
|
|
return true;
|
|
case TouchEvent::Type::End:
|
|
set_highlighted(false);
|
|
set_dirty();
|
|
if (on_touch_release) {
|
|
on_touch_release(*this);
|
|
}
|
|
if (on_select && !instant_exec_) {
|
|
on_select(*this);
|
|
}
|
|
return true;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
void RSSI::set_db(int16_t db) {
|
|
db_ = db;
|
|
}
|
|
} /* namespace ui */
|