#pragma once #include #include #include #include #include #include // Password Obfuscation #define PASSWORD_OBFUSCATION_STRING "********" // Page IDs #define INTERNAL_DISPLAY_BOOT_PAGE 0 #define INTERNAL_DISPLAY_DASHBOARD_PAGE 1 #define INTERNAL_DISPLAY_INPUT_PAGE 2 #define INTERNAL_DISPLAY_OUTPUT_PAGE 3 #define INTERNAL_DISPLAY_AC_PAGE 4 #define INTERNAL_DISPLAY_PWM_ADJUSTMENT_PAGE 5 #define INTERNAL_DISPLAY_NETWORK_CONFIG_PAGE 6 #define INTERNAL_DISPLAY_OTA_PAGE 9 #define INTERNAL_DISPLAY_CLIMATE_NULL_PTR_PAGE 10 #define INTERNAL_DISPLAY_MQTT_CONFIG_PAGE 11 #define INTERNAL_DISPLAY_INPUT_NULL_PTR_PAGE 12 #define INTERNAL_DISPLAY_OUTPUT_NULL_PTR_PAGE 13 // Picture IDs #define PIC_LAN_DISCONNECTED 2 #define PIC_LAN_CONNECTED 3 #define PIC_MQTT_DISCONNECTED 4 #define PIC_MQTT_CONNECTED 5 #define PIC_PWM_BAR_ON 33 #define PIC_PWM_BAR_OFF 48 #define PIC_AC_MODE_OFF_ACTIVE 24 #define PIC_AC_MODE_OFF_INACTIVE 25 #define PIC_AC_MODE_FAN_ACTIVE 22 #define PIC_AC_MODE_FAN_INACTIVE 23 #define PIC_AC_MODE_COOL_ACTIVE 12 #define PIC_AC_MODE_COOL_INACTIVE 13 #define PIC_AC_FAN_SPEED_AUTO_ACTIVE 14 #define PIC_AC_FAN_SPEED_AUTO_INACTIVE 15 #define PIC_AC_FAN_SPEED_LOW_ACTIVE 18 #define PIC_AC_FAN_SPEED_LOW_INACTIVE 19 #define PIC_AC_FAN_SPEED_MEDIUM_ACTIVE 20 #define PIC_AC_FAN_SPEED_MEDIUM_INACTIVE 21 #define PIC_AC_FAN_SPEED_HIGH_ACTIVE 16 #define PIC_AC_FAN_SPEED_HIGH_INACTIVE 17 // AC Fan Speeds and Mode Position Assumptions #define AC_FAN_SPEED_AUTO 0 #define AC_FAN_SPEED_LOW 1 #define AC_FAN_SPEED_MEDIUM 2 #define AC_FAN_SPEED_HIGH 3 #define AC_MODE_OFF 0 #define AC_MODE_FAN_ONLY 1 #define AC_MODE_COOL 2 // Messages #define MSG_MQTT_CONNECTED "BMS Managed" #define MSG_MQTT_DISCONNECTED "Standalone" #define MSG_PWM_ADJUSTMENT_STATE_ON "ON" #define MSG_PWM_ADJUSTMENT_STATE_OFF "OFF" // Refresh Interval #define INTERNAL_DISPLAY_CLOCK_REFRESH_INTERVAL 15000 #define INTERNAL_DISPLAY_TOP_BAR_REFRESH_INTERVAL 5000 // Touch Types #define TOUCH_TYPE_PRESS 0x01 #define TOUCH_TYPE_RELEASE 0x0 /** * @brief The internal display of the ESPMegaPRO * * This is the display that is installed on some ESPMegaPRO Chassis. It is a 3.5" TFT LCD with a resistive touch screen. * * You can use this display to monitor the status of the ESPMegaPRO and also to control the various components of the * ESPMegaPRO. * * If you are using a custom display, you need to create a class that inherits from ESPMegaDisplay and implement the * methods in that class, you may refer to this class for reference. * * @note This class is automatically instantiated by the ESPMegaPRO and can be accessed via the `display` variable. */ class InternalDisplay : public ESPMegaDisplay { public: InternalDisplay(HardwareSerial *displayAdapter); void begin(ESPMegaIoT *iot, std::function getRtcTime); void loop(); void bindInputCard(DigitalInputCard *inputCard); void bindOutputCard(DigitalOutputCard *outputCard); void bindClimateCard(ClimateCard *climateCard); void unbindInputCard(); void unbindOutputCard(); void unbindClimateCard(); private: uint8_t bindedInputCardCallbackHandler; uint8_t bindedOutputCardCallbackHandler; uint8_t bindedClimateCardCallbackHandler; uint8_t bindedClimateCardSensorCallbackHandler; DigitalInputCard *inputCard; DigitalOutputCard *outputCard; ClimateCard *climateCard; void handleInputStateChange(uint8_t pin, bool state); void handlePwmStateChange(uint8_t pin, bool state, uint16_t value); void handlePageChange(uint8_t page); void handlePayload(uint8_t type, uint8_t *payload, uint8_t length); void setOutputBar(uint8_t pin, uint16_t value); void setOutputStateColor(uint8_t pin, bool state); void setInputMarker(uint8_t pin, bool state); void handleACStateChange(uint8_t mode, uint8_t fan_speed, uint8_t temperature); void saveNetworkConfig(); void saveMQTTConfig(); void updateStatusIcons(bool networkStatus, bool mqttStatus); void updateClock(); void refreshPage(); void refreshPage(uint8_t page); void refreshDashboard(); void refreshInput(); void refreshOutput(); void refreshAC(); void refreshPWMAdjustment(); void refreshPWMAdjustmentSlider(); void refreshPWMAdjustmentState(); void refreshPWMAdjustmentId(); void refreshNetworkConfig(); void refreshMQTTConfig(); void setBootStatus(const char* status); void sendIpToDisplay(IPAddress ip); uint8_t pmwAdjustmentPin; // Touch handlers void handleTouch(uint8_t page, uint8_t component, uint8_t type); void handlePWMAdjustmentTouch(uint8_t component, uint8_t type); void handleACTouch(uint8_t component, uint8_t type); MqttConfig *mqttConfig; NetworkConfig *networkConfig; // Pointers to various data ESPMegaIoT *iot; std::function getRtcTime; };