#include // AC Control Locking char AC_LOCK_TOPIC[75]; char AC_LOCK_REPORT_TOPIC[75]; #define AC_LOCK_ADDRESS 15002 bool ac_lock = false; // Display Componets NexButton up_bt = NexButton(1, 2, "up_bt"); NexButton down_bt = NexButton(1, 3, "down_bt"); NexButton mode_off_btn = NexButton(1, 4, "mode_off_btn"); NexButton mode_fan_btn = NexButton(1, 5, "mode_fan_btn"); NexButton mode_cool_btn = NexButton(1, 6, "mode_cool_btn"); NexButton fan_auto_btn = NexButton(1, 7, "fan_auto_btn"); NexButton fan_1_btn = NexButton(1, 8, "fan_1_btn"); NexButton fan_2_btn = NexButton(1, 9, "fan_2_btn"); NexButton fan_3_btn = NexButton(1, 10, "fan_3_btn"); NexButton lt_bt = NexButton(1, 11, "lt_bt"); NexButton fan_bt = NexButton(1, 12, "fan_bt"); NexButton puri_bt = NexButton(1, 13, "puri_bt"); // List of Component ID Message to listen to NexTouch *nex_listen_list[] = { <_bt, &fan_bt, &puri_bt, &up_bt, &down_bt, &mode_off_btn, &mode_fan_btn, &mode_cool_btn, &fan_auto_btn, &fan_1_btn, &fan_2_btn, &fan_3_btn, NULL}; /* This Code will run right after ESPMega PRO's Peripheral Initialization Routine */ void user_pre_init() { nexInit(); memcpy(AC_LOCK_REPORT_TOPIC, MQTT_BASE_TOPIC, 20); strcat(AC_LOCK_REPORT_TOPIC, "/ac/lock"); } /* This code will run after every component is initialized */ void user_init() { elcd.print("page dashboard"); elcd_sendstop(); ac_lock = ESPMega_FRAM.read8(AC_LOCK_ADDRESS); ac_lock = ac_lock > 1 ? 0 : ac_lock; elcd.print("dashboard.pic="); elcd.print(ac_lock ? "2" : "1"); elcd_sendstop(); lt_bt.attachPop(lt_btn_cb, <_bt); fan_bt.attachPop(fan_btn_cb, &fan_bt); puri_bt.attachPop(puri_btn_cb, &puri_bt); up_bt.attachPop(temp_up_btn_cb, &up_bt); down_bt.attachPop(temp_down_btn_cb, &down_bt); mode_off_btn.attachPop(mode_off_btn_cb, &mode_off_btn); mode_fan_btn.attachPop(mode_fan_btn_cb, &mode_fan_btn); mode_cool_btn.attachPop(mode_cool_btn_cb, &mode_cool_btn); fan_auto_btn.attachPop(fan_auto_btn_cb, &fan_auto_btn); fan_1_btn.attachPop(fan_1_btn_cb, &fan_1_btn); fan_2_btn.attachPop(fan_2_btn_cb, &fan_2_btn); fan_3_btn.attachPop(fan_3_btn_cb, &fan_3_btn); ac_update_lcd(); pwm_update_lcd(); timer_tick_callback(); } /* This code will run once every event loop */ void user_loop() { nexLoop(nex_listen_list); } /* This code will run when an input pin changed state */ void virtual_interrupt_user_callback(int pin, int state) { if (pin >= 0 & pin <= 7) { pwm_toggle(pin); } } void pwm_changed_user_callback(int pin) { pwm_update_lcd(); } /* This code will run every 15 seconds */ void timer_tick_callback() { rtctime_t time = ESPMega_getTime(); elcd.printf("clock.txt=\"%02d:%02d\"", time.hours, time.minutes); elcd_sendstop(); } void lt_btn_cb(void *comp) { cud_light_toggle(); } void fan_btn_cb(void *comp) { cud_fan_toggle(); } void puri_btn_cb(void *comp) { pwm_toggle(AIR_PURIFIER_PIN); } void temp_up_btn_cb(void *comp) { Serial.println("UPCB"); if (!ac_lock) { ac_set_state(ac_get_mode(), ac_get_temperature() + 1, ac_get_fan_speed()); } Serial.println("UPCBEND"); } void temp_down_btn_cb(void *comp) { Serial.println("DOWNCB"); if (!ac_lock) { ac_set_state(ac_get_mode(), ac_get_temperature() - 1, ac_get_fan_speed()); } Serial.println("DOWNCBEND"); } void mode_cool_btn_cb(void *comp) { if (!ac_lock) ac_set_state(1, ac_get_temperature(), ac_get_fan_speed()); } void mode_fan_btn_cb(void *comp) { if (!ac_lock) ac_set_state(2, ac_get_temperature(), ac_get_fan_speed()); } void mode_off_btn_cb(void *comp) { if (!ac_lock) ac_set_state(0, ac_get_temperature(), ac_get_fan_speed()); } void fan_auto_btn_cb(void *comp) { if (!ac_lock) { ac_set_state(ac_get_mode(), ac_get_temperature(), 0); } } void fan_1_btn_cb(void *comp) { if (!ac_lock) { ac_set_state(ac_get_mode(), ac_get_temperature(), 3); } } void fan_2_btn_cb(void *comp) { if (!ac_lock) { ac_set_state(ac_get_mode(), ac_get_temperature(), 2); } } void fan_3_btn_cb(void *comp) { if (!ac_lock) { ac_set_state(ac_get_mode(), ac_get_temperature(), 1); } } void cud_light_toggle() { bool new_state = !cud_light_group_state(); pwm_set_state(LIGHT1_PIN, new_state); pwm_set_state(LIGHT2_PIN, new_state); pwm_set_state(LIGHT3_PIN, new_state); pwm_set_state(LIGHT4_PIN, new_state); } bool cud_light_group_state() { return pwm_get_state(LIGHT1_PIN) || pwm_get_state(LIGHT2_PIN) || pwm_get_state(LIGHT3_PIN) || pwm_get_state(LIGHT4_PIN); } void cud_fan_toggle() { bool new_state = !cud_fan_group_state(); pwm_set_state(FAN1_PIN, new_state); pwm_set_state(FAN2_PIN, new_state); pwm_set_state(FAN3_PIN, new_state); } bool cud_fan_group_state() { return pwm_get_state(FAN1_PIN) || pwm_get_state(FAN2_PIN) || pwm_get_state(FAN3_PIN); } void ac_changed_user_callback(uint8_t mode, uint8_t temperature, uint8_t fan_speed) { ac_update_lcd(); } void ac_update_lcd() { uint8_t temperature = ac_get_temperature(); uint8_t mode = ac_get_mode(); uint8_t fan_speed = ac_get_fan_speed(); elcd_sendstop(); elcd.print("temp_txt.txt=\""); elcd.print(temperature); elcd.print("C\""); elcd_sendstop(); elcd.print("mode_off_btn.pic="); elcd.print(mode == 0 ? 14 : 13); elcd_sendstop(); elcd.print("mode_fan_btn.pic="); elcd.print(mode == 2 ? 16 : 15); elcd_sendstop(); elcd.print("mode_cool_btn.pic="); elcd.print(mode == 1 ? 18 : 17); elcd_sendstop(); elcd.print("fan_auto_btn.pic="); elcd.print(fan_speed == 0 ? 20 : 19); elcd_sendstop(); elcd.print("fan_1_btn.pic="); elcd.print(fan_speed == 3 ? 22 : 21); elcd_sendstop(); elcd.print("fan_2_btn.pic="); elcd.print(fan_speed == 2 ? 24 : 23); elcd_sendstop(); elcd.print("fan_3_btn.pic="); elcd.print(fan_speed == 1 ? 26 : 25); elcd_sendstop(); } void ac_lock_callback(char* payload) { Serial.println(payload); if (!strcmp(payload,"lock")) { Serial.println("locking"); ac_lock = true; ESPMega_FRAM.write8(AC_LOCK_ADDRESS, ac_lock); elcd.print("dashboard.pic="); elcd.print(ac_lock ? "2" : "1"); elcd_sendstop(); } else if (!strcmp(payload,"unlock")) { Serial.println("unlocking"); ac_lock = false; ESPMega_FRAM.write8(AC_LOCK_ADDRESS, ac_lock); elcd.print("dashboard.pic="); elcd.print(ac_lock ? "2" : "1"); elcd_sendstop(); } ac_lock_report(); } void ac_lock_report() { mqtt.publish(AC_LOCK_REPORT_TOPIC,ac_lock?"lock":"unlock"); } void elcd_sendstop() { ESPMega_EXTLCD.write(0xFF); ESPMega_EXTLCD.write(0xFF); ESPMega_EXTLCD.write(0xFF); } void pwm_update_lcd() { elcd.print("lt_bt.pic="); elcd.print(cud_light_group_state()?4:3); elcd_sendstop(); elcd.print("fan_bt.pic="); elcd.print(cud_fan_group_state()?6:5); elcd_sendstop(); elcd.print("puri_bt.pic="); elcd.print(pwm_get_state(AIR_PURIFIER_PIN)?8:7); elcd_sendstop(); } void mqtt_connected_user_callback() { mqtt.subscribe(AC_LOCK_TOPIC); ac_lock_report(); } void user_state_request_callback() { ac_lock_report(); } void user_mqtt_callback(char* topic, uint8_t topic_length, char* payload, unsigned int payload_length) { Serial.println("USERMQTTTRIG"); if(!strcmp(topic,AC_LOCK_TOPIC)) { Serial.println("AC LOCK TOPIC TRIG"); ac_lock_callback(payload); } }