// door status on arduino // arduino is Duemilanove // sensor is a reed sensor const int REED_SWITCH_INPUT_PIN = 13; const int RED_LED_OUTPUT_PIN = 12; const int YELLOW_LED_OUTPUT_PIN = 11; const int GREEN_LED_OUTPUT_PIN = 10; void setup(){ Serial.begin(9600); pinMode(REED_SWITCH_INPUT_PIN, INPUT); pinMode(RED_LED_OUTPUT_PIN, OUTPUT); pinMode(YELLOW_LED_OUTPUT_PIN, OUTPUT); pinMode(GREEN_LED_OUTPUT_PIN, OUTPUT); } const int DELAY_TIME = 1000; const int MAX_COUNTER = 20; const int LOWER_THRESHOLD = 3; const int UPPER_THRESHOLD = MAX_COUNTER - LOWER_THRESHOLD; const int CLOSED_DOOR = 1; const int OPEN_DOOR = 0; int measured_state_counter = MAX_COUNTER / 2; int published_state = OPEN_DOOR; void print_status() { Serial.print(" "); Serial.print(published_state); Serial.print(" "); Serial.println(measured_state_counter); } void update_measured_state_counter() { if(LOW == digitalRead(REED_SWITCH_INPUT_PIN)) { measured_state_counter = max(0, measured_state_counter - 1); } else { measured_state_counter = min(THRESHOLD, measured_state_counter + 1); } } void update_published_state() { // status check if we can switch the status. // low pass prevents waggling a bit if (measured_state_counter >= UPPER_THRESHOLD) { published_state = CLOSED_DOOR; } else if (measured_state_counter <= LOWER_THRESHOLD) { published_state = OPEN_DOOR; } } void update_led_pins() { if (published_state == CLOSED_DOOR) { digitalWrite(RED_LED_OUTPUT_PIN, HIGH); digitalWrite(GREEN_LED_OUTPUT_PIN, LOW); } else if (published_state == OPEN_DOOR) { digitalWrite(RED_LED_OUTPUT_PIN, LOW); digitalWrite(GREEN_LED_OUTPUT_PIN, HIGH); } if (measured_state_counter > LOWER_THRESHOLD && measured_state_counter < UPPER_THRESHOLD) { digitalWrite(YELLOW_LED_OUTPUT_PIN, HIGH); } else { digitalWrite(YELLOW_LED_OUTPUT_PIN, LOW); } } void loop(){ print_status(); update_measured_state_counter(); update_published_state(); delay(DELAY_TIME); update_led_pins(); }