212 lines
6.1 KiB
C++
212 lines
6.1 KiB
C++
#pragma once
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#include <Adafruit_LEDBackpack.h> // Support for the Backpack FeatherWing
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#include <Adafruit_GFX.h> // Adafruit's graphics library
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#include <Adafruit_I2CDevice.h>
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#include <SPI.h>
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#include "ntp_time.h"
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#include "bme.h"
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#define DISPLAY_ADDRESS 0x70
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#define BRIGHTNESS_MIN 0
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#define BRIGHTNESS_MAX 15
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#define BRIGHTNESS_STEP 1
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#define BRIGHTNESS_NIGHT BRIGHTNESS_MIN
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#define BRIGHTNESS_DAY 11
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#define MILLISECONDS(value) value*TASK_MILLISECOND
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#define SECONDS(value) value*TASK_SECOND
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#define MINUTES(value) value*TASK_MINUTE
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#define DISPLAY_SENSOR_ITERATIONS 2+1
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#define DISPLAY_DELAY (SECONDS(2))
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namespace Display {
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void displayTime();
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void displayDate();
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void displayTemp();
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void displayHumidity();
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void drawTime();
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void drawColon(bool);
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Task tDisplayTime(MILLISECONDS(500), TASK_FOREVER, displayTime, &ts, false,
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[]() {
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drawTime();
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return true;
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},
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[]() {
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drawColon(false);
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});
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Task tDisplaySensor(SECONDS(5), DISPLAY_SENSOR_ITERATIONS, nullptr, &ts, false,
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[]() {
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if (!tDisplayTime.isEnabled()) return false;
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tDisplayTime.disable();
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tDisplaySensor.setCallback(displayTemp);
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return true;
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},
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[]() {
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tDisplaySensor.setIterations((DISPLAY_SENSOR_ITERATIONS - 1) * 2 + 1);
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tDisplayTime.enable();
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});
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Task tDisplayDate(SECONDS(5), TASK_ONCE + 1, displayDate, &ts, false,
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[]() {
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if (!tDisplayTime.isEnabled()) return false;
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tDisplayTime.disable();
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return true;
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},
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[]() {
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tDisplayTime.enable();
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});
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bool hourFormat24 = false;
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void (*hourFormatChangedCallback)();
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// Create display object
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Adafruit_7segment clockDisplay = Adafruit_7segment();
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namespace Brightness {
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uint8_t current = BRIGHTNESS_NIGHT;
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void (*brightnessChangedCallback)();
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void set(uint8_t value) {
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current = value % (BRIGHTNESS_MAX + 1);
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clockDisplay.setBrightness(current);
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if (brightnessChangedCallback) brightnessChangedCallback();
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}
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void change(bool increase) {
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increase ? set(current + BRIGHTNESS_STEP) : set(current - BRIGHTNESS_STEP);
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}
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}
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namespace Timer {
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int8 timer = 0, currentTimer = 0;
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void start() {
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currentTimer = timer;
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auto displayTimer = []{
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if (currentTimer >= 0) {
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clockDisplay.print(currentTimer--, DEC);
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clockDisplay.writeDisplay();
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}
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};
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tDisplayTime.setInterval(MINUTES(1));
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tDisplayTime.setCallback(displayTimer);
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tDisplayTime.restart();
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}
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void stop() {
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tDisplayTime.setInterval(MILLISECONDS(500));
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tDisplayTime.setCallback(displayTime);
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tDisplayTime.restart();
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}
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}
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void drawTime() {
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int displayHour = hourFormat24 ? hour() : hourFormat12();
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int displayMinute = minute();
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int displayValue = displayHour * 100 + displayMinute;
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// Print the time on the display
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clockDisplay.print(displayValue, DEC);
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// Add zero padding when in 24 hour mode and it's midnight.
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// In this case the print function above won't have leading 0's
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// which can look confusing. Go in and explicitly add these zeros.
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if (displayHour == 0) {
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clockDisplay.writeDigitNum(1, 0);
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if (displayMinute < 10) {
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clockDisplay.writeDigitNum(3, 0);
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}
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}
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}
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void drawColon(bool colonOn) {
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if (colonOn) {
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static int currentHour = -1;
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if (currentHour != hour()) {
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currentHour = hour();
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if (currentHour == 4) {
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Ntp::tUpdateTime.restart();
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}
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if (currentHour == 8) {
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Brightness::set(BRIGHTNESS_DAY);
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Wifi::tConnect.enable();
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}
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if (currentHour == 17) {
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Brightness::set(BRIGHTNESS_NIGHT);
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}
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}
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static int currentMin = -1;
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if (currentMin != minute()) {
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currentMin = minute();
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drawTime();
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}
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}
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clockDisplay.drawColon(colonOn);
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}
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void displayTime() {
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static bool colonOn = true;
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drawColon(colonOn);
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clockDisplay.writeDisplay();
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colonOn = !colonOn;
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}
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void displayTemp() {
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clockDisplay.printFloat(Bme::data.temp, 2);
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clockDisplay.writeDigitAscii(4, 'c');
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clockDisplay.writeDisplay();
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tDisplaySensor.setCallback(&displayHumidity);
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}
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void displayHumidity() {
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clockDisplay.printFloat(Bme::data.humidity, 2);
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clockDisplay.writeDigitAscii(4, '%');
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clockDisplay.writeDisplay();
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tDisplaySensor.setCallback(&displayTemp);
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}
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void displayValue(uint8_t value) {
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tDisplayTime.disable();
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clockDisplay.print(value, HEX);
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clockDisplay.writeDisplay();
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tDisplayTime.enableDelayed(DISPLAY_DELAY);
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}
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void displayText(const char c[]) {
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tDisplayTime.disable();
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clockDisplay.println(c);
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clockDisplay.writeDisplay();
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tDisplayTime.enableDelayed(DISPLAY_DELAY);
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}
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unordered_map<char, const char*> daysOfWeek = {
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{1, "So"},
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{2, "Mo"},
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{3, "Di"},
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{4, "Mi"},
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{5, "Do"},
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{6, "Fr"},
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{7, "Sa"},
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};
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void displayDate() {
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char date[5];
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sprintf(date, "%2s%2u", daysOfWeek[weekday()], day());
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clockDisplay.println(date);
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clockDisplay.writeDisplay();
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}
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void changeHourFormat24(bool format24) {
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hourFormat24 = format24;
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drawTime();
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if (hourFormatChangedCallback) hourFormatChangedCallback();
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}
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void setup() {
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clockDisplay.begin(DISPLAY_ADDRESS);
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clockDisplay.setBrightness(Brightness::current);
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tDisplayTime.enable();
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}
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}
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