void checkButton() { //one change per click to make seleting drinks easier for the drunken //if (digitalRead(2) != lastButtonState) { //delayMicroseconds(50); //debounce delay if (digitalRead(2) != lastButtonState) { //ok we have a change! if (digitalRead(2) == LOW) { //pushed digitalWrite(led,HIGH); ledTime = millis(); if (box->waiting == 0) { if (currentDrink == drinksMax - 1) currentDrink = -1; currentDrink++; if(debug)Serial.println(box->drinks[currentDrink].name); lcd.clear(); lcd.print("Drink:"); lcd.setCursor(0, 1); lcd.print(box->drinks[currentDrink].name); } else { //revert save persons[lastPersonIndex].drinks_taken[currentDrink]--; box->waiting = 0; lcd.clear(); lcd.print("Abort!"); delay(500); //reset to default lcd.clear(); lcd.print("Drink:"); lcd.setCursor(0, 1); lcd.print(box->drinks[currentDrink].name); } } else {//released } lastButtonState = digitalRead(2); } //} } bool checkFinger() { uint8_t p = finger.getImage(); if (p != FINGERPRINT_OK) return -1; p = finger.image2Tz(); if (p != FINGERPRINT_OK) return -1; digitalWrite(led,HIGH); ledTime = millis(); p = finger.fingerFastSearch(); if (p != FINGERPRINT_OK) return -1; // found a match! // if(debug)Serial.print("Found ID #"); if(debug)Serial.print(finger.fingerID); // if(debug)Serial.print(" with confidence of "); if(debug)Serial.println(finger.confidence); //ok now check which person that is! if (getFingerIndex(finger.fingerID) != -1) { if(debug)Serial.print("This is "); if(debug)Serial.println(persons[getFingerIndex(finger.fingerID)].name); countUp(getFingerIndex(finger.fingerID), 0);//for finger context } } void checkRFID() { Serial1.flush(); if (Serial1.available() >= gesamtKennungLaenge) // wenn genug Zeichen eingegangen ... { if (Serial1.read() == startZeichen) // und das Startzeichen erkannt wurde ... { //if(debug)Serial.print("Start-Byte erkannt ... "); bytesGelesen = 0; // starten Lesen, also Zaehler auf 0 while (bytesGelesen < kennungLaenge) // lese 12-stelligen Code { char zeichen = Serial1.read(); // lesen Zeichen //if(debug)Serial.print(zeichen); // zur Kontrolle //if(debug)Serial.print(" "); if (zeichen == endeZeichen) // suche nach Ende-Befehl { //if(debug)Serial.println("CR erkannt ..."); break; } code[bytesGelesen] = zeichen; // speicher Zeichen im Puffer bytesGelesen = bytesGelesen + 1; // ein Zeichen weiter } code[bytesGelesen] = 0; // beende Zeichenkette if(debug)Serial.print("RFID-Code lautet: "); if(debug)Serial.println(code); digitalWrite(led,HIGH); ledTime = millis(); //if(debug)Serial.print("This is "); //if(debug)Serial.println(persons[getRFIDIndex(persons, code)].name); if(getRFIDIndex( code)!=-1) countUp(getRFIDIndex( code), 1); // 1 for rfid context else if(debug)Serial.println("Error: Nonexisting Card"); zugang = ""; delay(1000); // debounce time serial1_flush_buffer(); } } } void serial1_flush_buffer() { while (Serial1.read() >= 0) ; // do nothing } // //LB //Funktion schreiben, welche ein Array vom struct Person (Beliebige Groesse) sowie eine rfid-kennung uebernimmt und den Index der entsprechenden Person im array (beginnend bei 0)zurueckgiebt. int getRFIDIndex( char* rfid) { for (int i = 0; i < personCount; i++) { if (!strcmp(persons[i].rfid_uuid, rfid)) { return i; } } return -1; } int getFingerIndex( uint8_t fingerID) { for (int i = 0; i < personCount; i++) { if (persons[i].finger_uuid == fingerID) { return i; } } return -1; } void countUp(int personIndex, int context) { lcd.clear(); lcd.print(persons[personIndex].name); lcd.setCursor(0, 1); persons[personIndex].drinks_taken[currentDrink]++; lcd.print(persons[personIndex].drinks_taken[currentDrink]); lcd.print(" Ok? "); lcd.setCursor(7, 1); lcd.print("3"); lastPersonIndex = personIndex; box->waiting = 3; oldTime = millis(); } void boxTimer() { if (box->waiting != 0) { if ((millis() - oldTime) > 1000) { if (box->waiting == 3) { lcd.setCursor(7, 1); lcd.print("2"); box->waiting = 2; } else if (box->waiting == 2) { lcd.setCursor(7, 1); lcd.print("1"); box->waiting = 1; } else if (box->waiting == 1) { update_pers_file(); lcd.clear(); lcd.print("Saved!"); delay(500); //reset to default lcd.clear(); lcd.print("Drink:"); lcd.setCursor(0, 1); lcd.print(box->drinks[currentDrink].name); box->waiting = 0; digitalWrite(led,false); } oldTime = millis(); } } } void ledTimer() { if (ledTime != 0) { if ((millis() - ledTime) > 5000) { digitalWrite(led,LOW); ledTime = 0; } } }