esp-clock/include/devices.h

#pragma once

#define SENSOR_ID "bme280"

#include "ha.h"
#include "esp.h"
#include "display.h"

using namespace Ha;

namespace Devices {

    auto espClockDevice = &DeviceConfig::create(MAIN_DEVICE_ID)
        .withName("ESP Clock")
        .withManufacturer("Espressif")
        .withModel("Esp8266 D1 Mini")
        .withArea("Living room");

    Sensor* sensor = Builder<TemperatureSensor>::instance(SENSOR_ID)
        .withValueTemplate("{{ value_json.temperature }}")
        .withPrecision(1)
        .asDevice(&DeviceConfig::create("esp-clock-living-room")
            .withName("Living room")
            .withModel("BPE280")
            .withArea("Living room")
            .withParent(espClockDevice)
        )
        .addSecondary(Builder<HumiditySensor>::instance(SENSOR_ID).withValueTemplate("{{ value_json.humidity }}").withPrecision(1).build())
        .addSecondary(Builder<PressureSensor>::instance(SENSOR_ID).withValueTemplate("{{ value_json.pressure }}").withPrecision(1).build())
        .build();

    auto ledMqtt = Builder<Light>::instance(new Light{ "Led", "led",
            [](const char* msg) {
                turnLed(strcmp("ON", msg) == 0);
            }
        }).restoreStateFromCommand().build();

    auto brightnessMqtt = Builder<Number>::instance(new Number{ "Brightness", "brightness",
            [](const char* msg) {
                Display::brightness = String{ msg }.toInt();
            }
        }).withMin(Display::Brightness::MIN).withMax(Display::Brightness::MAX).withStep(1).restoreStateFromCommand().build();

    auto hourFormatMqtt = Builder<Switch>::instance(new Switch{ "Format 24h", "format_24h",
            [](const char* msg) {
                Display::hourFormat24 = (strcmp("ON", msg) == 0);
            }
        }).restoreStateFromCommand().build();
    Number* displayTimerMqtt = Builder<Number>::instance(new Number{ "Timer duration", "timer_duration",
            [](const char* msg) {
                auto value = String{ msg }.toInt();
                timer = value;
                displayTimerMqtt->updateState(value);
            }
        }).withMin(0).withMax(90).withStep(5).restoreStateFromCommand().build();
    Sensor* timerRemainingMqtt = Builder<Sensor>::instance(new Sensor("Timer remaining", "timer_remaining"))
        .withUnitMeasure("min").withPrecision(0).build();
    Switch* timerMqtt = Builder<Switch>::instance(new Switch{"Timer", "timer",
            [](const char* msg) {
                if (strcmp("ON", msg) == 0) {
                    Display::tTimer.restart();
                    timerMqtt->updateState(true);
                 } else {
                    Display::tTimer.disable();
                    timerMqtt->updateState(false);
                 }
            }
        }).restoreStateFromCommand().build();

    auto button = 
        Builder<Button>::instance(new Button{"Restart", "restart",
            [](const char* msg) {
                if (strcmp("PRESS", msg) == 0) ESP.restart();
            }
        })
        .asDevice(espClockDevice)
        .addSecondary(
            Builder<Button>::instance(new Button{"Display sensor data", "display_sensor_data",
                [](const char* msg) {
                    if (strcmp("PRESS", msg) == 0) {
                        Bme::data.readAll();
                        Display::displayTask.activate(Display::tDisplaySensor);
                    };
                }
            }).build()
        )
        .addSecondary(
            Builder<Button>::instance(new Button{"Display date", "display_date",
                [](const char* msg) {
                    if (strcmp("PRESS", msg) == 0) {
                        Display::displayTask.activate(Display::tDisplayDate);
                    };
                }
            }).build()
        )
        .addSecondary(
            Builder<Button>::instance(new Button{"Display remaining timer", "display_remaining_timer",
                [](const char* msg) {
                    if (strcmp("PRESS", msg) == 0) {
                        Display::displayTask.activate(Display::tDisplayTimer);
                    }
                }
            }).build()
        )
        .addSecondary(
            Builder<Button>::instance(new Button{"Update time", "update_time",
                [](const char* msg) {
                    if (strcmp("PRESS", msg) == 0) Ntp::tUpdateTime.restart();
                }
            }).build()
        )
        .addSecondary(ledMqtt)
        .addSecondary(timerMqtt)
        .addSecondary(timerRemainingMqtt)
        .addConfiguration(brightnessMqtt)
        .addConfiguration(hourFormatMqtt)
        .addConfiguration(displayTimerMqtt)
        .addPreconfigured(HaESP::heapStats)
        .addPreconfigured(HaESP::restartInfo)
        .build();

    void publishBme280() {
        StaticJsonDocument<255> jsonDoc;
        jsonDoc["temperature"] = Bme::data.temp;
        jsonDoc["humidity"] = Bme::data.humidity;
        jsonDoc["pressure"] = Bme::data.pressure;
        char message[255];
        serializeJson(jsonDoc, message);
        sensor->updateState(message);
    }

    void setup() {
        Display::hourFormat24.registerCallback([]{
            hourFormatMqtt->updateState(Display::hourFormat24);
        });
        Display::brightness.registerCallback([]{
            brightnessMqtt->updateState(Display::brightness);
        });
        timer.registerCallback([](int8 current){
            timerRemainingMqtt->updateState(to_string(current).c_str());
        });
    }
}