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IP_13_Playing_Cards/test_examples/rcVersion.ino

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Add src/arduino/rcVersion.ino
2024-02-14 11:23:41 +01:00
// Library Imports
// Written by the IP-Team 13
// E.S
#include <SoftwareSerial.h>
#include <DFRobotDFPlayerMini.h>
#include <SPI.h>
#include <MFRC522.h>
//Pin Definition
#define RST_PIN 9 // Pin für Reset beim RC522
#define SS_PIN 10 // Pin für Slave Select beim RC522
// Modul-Object Initiation
MFRC522 mfrc522(SS_PIN, RST_PIN);
SoftwareSerial mySerial(16, 17);
DFRobotDFPlayerMini mp3;
// Setup
void setup() {
// Start Serial Connection
Serial.begin(115200);
mySerial.begin(9600);
SPI.begin();
// Start Module Objects
mfrc522.PCD_Init();
// Check MP3-Module
if (!mp3.begin(mySerial)) {
while (true) {
delay(0);
}
}
// Set Volume
mp3.volume(30);
// Check RC522
Serial.println("Scan PICC to see UID, SAK, type, and data blocks...");
}
// Loop
void loop() {
// Define Variables
uint8_t success;
uint8_t uid[MFRC522::MF_KEY_SIZE];
uint8_t uidLength;
// Look for new cards
if ( ! mfrc522.PICC_IsNewCardPresent() || ! mfrc522.PICC_ReadCardSerial()) {
delay(50);
return;
}
// Read UID
uidLength = mfrc522.uid.size;
for (uint8_t i = 0; i < uidLength; i++) {
uid[i] = mfrc522.uid.uidByte[i];
}
// Analyse Data
for (uint8_t block = 7; block < 8; block++) {
byte data[18];
byte dataSize = sizeof(data);
success = mfrc522.MIFARE_Read(block, data, &dataSize);
if (success) {
// Get Hexadecimal Format
String firstByteAsString = String(data[0], HEX);
// Play Card Name
playCardName(firstByteAsString);
}
else {
// Error Handling
Serial.println("Read failed!");
}
Serial.println("");
}
// Reduction of Workload
delay(1000);
}
// Function : Handling Hexadecimal Format
void playCardName(String hexMod) {
// Copy the String
String kopie = hexMod;
// Define Variables
int farbe, symbol;
// Check the length of the String for leading zeros
if (hexMod.length() == 1) {
// Converting the Hexadecimal to a leading zero Format
hexMod = String("00" + hexMod).substring(hexMod.length(), hexMod.length() + 2);
// Setting the Color to Red
farbe = 0;
// Get the Charakter for the Symbol
int symbolChar = hexMod.charAt(1);
// Check if the Symbol is one of the letters a to f
if (symbolChar >= 'a' && symbolChar <= 'f') {
// Calculate the decimal number for the letters from a to f
symbol = 10 + (symbolChar - 'a');
} else {
// Calculate the Decimal Number of the Hexadecimal Number
symbol = hexMod.charAt(1)-'0';
}
}
else {
farbe = hexMod.substring(0, 1).toInt();
int symbolChar = hexMod.charAt(1);
// Check if the Symbol is a letter between a and f
if (symbolChar >= 'a' && symbolChar <= 'f') {
symbol = 10 + (symbolChar - 'a');
} else {
symbol = hexMod.substring(1, 2).toInt();
}
}
// Play the Corresponding Audiofile from the Storage
playCard(farbe, symbol);
}
// Function: Playing the corresponding Audiofile for the Cardname
void playCard(int farbNummer, int symbolNummer) {
// First Switch : Check the Color
switch (farbNummer) {
case 0: mp3.play(16); break; // Red
case 1: mp3.play(17); break; // Yellow
case 2: mp3.play(18); break; // Blue
case 3: mp3.play(19); break; // Green
case 4: mp3.play(20); break; // black
}
// Wait 2 Seconds to avoid Latency or Noises of the File
delay(2000);
// Switch 2: Check the Symbol
switch (symbolNummer) {
case 0: mp3.play(1); break; // Zero
case 1: mp3.play(2); break; // One
case 2: mp3.play(3); break; // Two
case 3: mp3.play(4); break; // Three
case 4: mp3.play(5); break; // Four
case 5: mp3.play(6); break; // Five
case 6: mp3.play(7); break; // Six
case 7: mp3.play(8); break; // Seven
case 8: mp3.play(9); break; // Eight
case 9: mp3.play(10); break; // Nine
case 10: mp3.play(11); break; // Skip
case 11: mp3.play(12); break; // Reverse
case 12: mp3.play(13); break; // Draw 2
case 13: mp3.play(15); break; // Draw 4
case 14: mp3.play(14); break; // Color Change
}
// Wait 1 Second to avoid noises and latency
delay(1000);
}