Teensy/Arduino – Memory Game

This project is all about creating a simple game to test your memory.

I’ll be using a Teensy 3.0 board. If you want to know more about this board please click here to read a Getting Started Guide I’ve created a few days ago. This project is also 100% compatible with the Arduino.

Watch the video below to see how it works

Parts Required

parts

You can use the preceding links or go directly to MakerAdvisor.com/tools to find all the parts for your projects at the best price!

Schematics

  • Teensy

schematics_memory_game_teensy

  • Arduino

[schematics] memory game

Upload the code below

This code works with Teensy and with the Arduino.

/*
  Memory Game with Arduino
  Based on a project by Jeremy Wilson 
  Modified by Rui Santos
  Visit: https://randomnerdtutorials.com
*/

// Constants
const int button1 = 2;          // 1st button controls Blue LED 
const int button2 = 3;          // 2nd button controls Yellow LED
const int button3 = 4;          // 3rd button controls Green LED
const int button4 = 5;          // 4th button controls Red LED
const int led1 = 7;             // Blue LED
const int led2 = 8;             // Yellow LED
const int led3 = 9;             // Green LED
const int led4 = 10;            // Red LED
const int buzzer = 12;          // Buzzer Output
const int tones[] = {1915, 1700, 1519, 1432, 2700}; // tones when you press the LED's - the last one is when you fail.

// Variables
int buttonState[] = {0,0,0,0};         // current state of the button
int lastButtonState[] = {0,0,0,0};     // previous state of the button
int buttonPushCounter[] = {0,0,0,0}; 


void playTone(int tone, int duration) {
  for (long i = 0; i < duration * 1000L; i += tone * 2) {
    digitalWrite(buzzer, HIGH);
    delayMicroseconds(tone);
    digitalWrite(buzzer, LOW);
    delayMicroseconds(tone);
  }
}

void setup() {
  // initialize inputs :
  randomSeed(analogRead(0));
  pinMode(button1, INPUT);
  pinMode(button2, INPUT);
  pinMode(button3, INPUT);
  pinMode(button4, INPUT);
  // initialize outputs:
  pinMode(led1, OUTPUT);
  pinMode(led2, OUTPUT);
  pinMode(led3, OUTPUT);
  pinMode(led4, OUTPUT);
  pinMode(buzzer, OUTPUT);
  // initialize serial communication for debugging:
  //Serial.begin(9600); 
}
int game_on = 0;
int wait = 0;
int currentlevel = 1; // This is the level (also the number of button presses to pass to next level)
long rand_num = 0; //initialize long variable for random number from 0-100.
int rando = 0; //initialize random integer for loopgame_on. Will be from 1-4 later.
int butwait = 500; //amount of time to wait for next button input (ghetto de-bounce)
int ledtime = 500; //amount of time each LED flashes for when button is pressed
int n_levels = 10; //number of levels until the game is won
int pinandtone = 0; //This integer is used when the sequence is displayed
int right = 0; //This variable must be 1 in order to go to the next level
int speedfactor = 5; //This is the final speed of the lights and sounds for the last level. This increases as more games are won
int leddelay = 200; //Initializing time for LED. This will decrease as the level increases

void loop() {
  
int n_array[n_levels];
int u_array[n_levels];

int i;
//clears arrays both "n_array" and "u_array" and starts a new game
if (game_on == 0){
for(i=0; i<n_levels; i=i+1){
        n_array[i]=0;
        u_array[i]=0;
        rand_num = random(1,200);
        if (rand_num <= 50)
          rando=0;
        else if (rand_num>50 && rand_num<=100)
          rando=1;
        else if (rand_num>100 && rand_num<=150)
          rando=2;
         else if (rand_num<=200)
          rando=3;
        //saves a random number in our n_array
         n_array[i]=rando;
      }
 game_on = 1; 

}


//shows the user the current sequence
if (wait == 0){
 delay (200);
i = 0;
for (i = 0; i < currentlevel; i= i + 1){
  leddelay = ledtime/(1+(speedfactor/n_levels)*(currentlevel - 1));
      pinandtone = n_array[i];
      digitalWrite(pinandtone+7, HIGH);
      playTone(tones[pinandtone], leddelay);
      digitalWrite(pinandtone+7, LOW);
      delay(100/speedfactor);
    }
    wait = 1;
}
i = 0;
int buttonchange = 0;    
int j = 0; // This is the current position in the sequence
while (j < currentlevel){    
    while (buttonchange == 0){
          for (i = 0; i < 4; i = i + 1){ 
          buttonState[i] = digitalRead(i+2);
          buttonchange = buttonchange + buttonState[i];
        }
    }
     for (i = 0; i < 4; i = i + 1){
        if (buttonState[i] == HIGH) {
            digitalWrite(i+7, HIGH);
            playTone(tones[i], ledtime);
            digitalWrite(i+7, LOW);
            wait = 0;
            u_array[j]=i; 
            buttonState[i] = LOW;
            buttonchange = 0;
         }
       } 
        if (u_array[j] == n_array[j]){
            j++;  
            right = 1;
            }
        else{
          
            right = 0;
            i = 4;
            j = currentlevel;
            wait = 0;
        }
}

if (right == 0){
  delay(300);
  i = 0;
  game_on = 0;
  currentlevel = 1;
  for (i = 0; i < 4; i = i + 1){
         digitalWrite(i+7, HIGH);
      }
          playTone(tones[4], ledtime);
   for (i = 0; i < 4; i = i + 1){
         digitalWrite(i+7, LOW);   
       }
       delay (200);
  for (i = 0; i < 4; i = i + 1){
         digitalWrite(i+7, HIGH);
      }
          playTone(tones[4], ledtime);
   for (i = 0; i < 4; i = i + 1){
         digitalWrite(i+7, LOW);   
       }
       
       delay(500);
       game_on = 0;
}


//if you insert the right sequence it levels up
if (right == 1){
    currentlevel++;
    wait = 0;
    }
//if you finish the game    
if (currentlevel == n_levels){
  delay(500);
  // The following is the victory sound:
  int notes[] = {2, 2, 2, 2, 0, 1, 2, 1, 2};
  int note = 0;
  int tempo[] = {200, 200, 200, 400, 400, 400, 200, 200, 600}; 
  int breaks[] = {100, 100, 100, 200, 200, 200, 300, 100, 200}; 
  for (i = 0; i < 9; i = i + 1){
  note = notes[i];
    digitalWrite(note+7, HIGH);
    playTone(tones[note], tempo[i]);
    digitalWrite(note+7, LOW);
    delay(breaks[i]);
  }
//sets game_on to 0, so it restarts a new game
game_on = 0;
currentlevel = 1;
n_levels = n_levels + 2;
speedfactor = speedfactor + 1;
    }
 
}

View raw code


Did you enjoy this project?

Please leave a comment.

Thanks for reading, you can contact me by leaving a comment. If you like this post probably you might like my next ones, so please support me by subscribing my blog and my Facebook Page.

P.S. Click here to read the Getting Started with Teensy.



Learn how to build a home automation system and we’ll cover the following main subjects: Node-RED, Node-RED Dashboard, Raspberry Pi, ESP32, ESP8266, MQTT, and InfluxDB database DOWNLOAD »
Learn how to build a home automation system and we’ll cover the following main subjects: Node-RED, Node-RED Dashboard, Raspberry Pi, ESP32, ESP8266, MQTT, and InfluxDB database DOWNLOAD »

Enjoyed this project? Stay updated by subscribing our newsletter!

8 thoughts on “Teensy/Arduino – Memory Game”

  1. Hi there!
    I think you missed in the drawing the 3.3V wires from the button switches to 3.3V. Also the 3.3V wire is shorted to the GND line on the breadboard.

    Otherwise looks great! Thanks for sharing!

    Itzik

    Reply
    • Hi Itzik!
      Thanks for taking the time to leave a comment and help me.
      I didn’t notice I made that mistake and forgot some of the wiring, I just updated the schematics now.
      I think it’s everything correct.

      Thanks for the help.
      Have a nice day,
      Rui

      Reply
  2. Hi Rui!

    Now it works great! Still, need to work on the sounds some more 🙂
    Can you please EMail me the schematic in Fritz format? Will help me a lot.

    Thank you very much and have a great 2014!
    Itzik

    Reply

Leave a Reply to Rui Santos Cancel reply

Download Our Free eBooks and Resources

Get instant access to our FREE eBooks, Resources, and Exclusive Electronics Projects by entering your email address below.