Game with buttons and sound

 

We made a very simple scheme with 4 buttons and 4 LED and sound sensor.

When game starts, the computer gives our Arduino board a signal with light and sound (kind of combination, played very fast, because it s a game, based on the reaction of a gamer)

The gamer should repeat this combination and push buttons to repeat it.

If it’ s right, computer gives a sound signal that it s right and gives us a red LED blinking.

If it’s wrong, all 4 LED are blinking with a “wrong combination” sound.

IMG_0185

here is the graphic

game

THE CODE IS HERE

#include <Tone.h>
Tone speakerpin;
int starttune[] = {NOTE_C4, NOTE_F4, NOTE_C4, NOTE_F4, NOTE_C4, NOTE_F4, NOTE_C4, NOTE_F4, NOTE_G4, NOTE_F4, NOTE_E4, NOTE_F4, NOTE_G4};
int duration2[] = {100, 200, 100, 200, 100, 400, 100, 100, 100, 100, 200, 100, 500};
int note[] = {NOTE_C4, NOTE_C4, NOTE_G4, NOTE_C5, NOTE_G4, NOTE_C5};
int duration[] = {100, 100, 100, 300, 100, 300};
boolean button[] = {2, 3, 4, 5}; //The four button input pins
boolean ledpin[] = {8, 9, 10, 11}; // LED pins
int turn = 0; // turn counter
int buttonstate = 0; // button state checker
int randomArray[100]; //Intentionally long to store up to 100 inputs
int inputArray[100];
void setup()
{
Serial.begin(9600);
speakerpin.begin(13); // speaker is on pin 13

for(int x=0; x<4; x++) // LED pins are outputs
{
pinMode(ledpin[x], OUTPUT);
}

for(int x=0; x<4; x++)
{
pinMode(button[x], INPUT); // button pins are inputs
digitalWrite(button[x], HIGH); // enable internal pullup; buttons start in high position; logic reversed
}

randomSeed(analogRead(0)); //Added to generate “more randomness” with the randomArray for the output function
for (int thisNote = 0; thisNote < 13; thisNote ++) {
// play the next note:
speakerpin.play(starttune[thisNote]);
// hold the note:
if (thisNote==0 || thisNote==2 || thisNote==4 || thisNote== 6)
{
digitalWrite(ledpin[0], HIGH);
}
if (thisNote==1 || thisNote==3 || thisNote==5 || thisNote== 7 || thisNote==9 || thisNote==11)
{
digitalWrite(ledpin[1], HIGH);
}
if (thisNote==8 || thisNote==12)
{
digitalWrite(ledpin[2], HIGH);
}
if (thisNote==10)
{
digitalWrite(ledpin[3], HIGH);
}
delay(duration2[thisNote]);
// stop for the next note:
speakerpin.stop();
digitalWrite(ledpin[0], LOW);
digitalWrite(ledpin[1], LOW);
digitalWrite(ledpin[2], LOW);
digitalWrite(ledpin[3], LOW);
delay(25);
}
delay(1000);
}

void loop()
{
for (int y=0; y<=99; y++)
{
//function for generating the array to be matched by the player
digitalWrite(ledpin[0], HIGH);
digitalWrite(ledpin[1], HIGH);
digitalWrite(ledpin[2], HIGH);
digitalWrite(ledpin[3], HIGH);

for (int thisNote = 0; thisNote < 6; thisNote ++) {
// play the next note:
speakerpin.play(note[thisNote]);
// hold the note:
delay(duration[thisNote]);
// stop for the next note:
speakerpin.stop();
delay(25);
}

digitalWrite(ledpin[0], LOW);
digitalWrite(ledpin[1], LOW);
digitalWrite(ledpin[2], LOW);
digitalWrite(ledpin[3], LOW);
delay(1000);

for (int y=turn; y <= turn; y++)
{ //Limited by the turn variable
Serial.println(“”); //Some serial output to follow along
Serial.print(“Turn: “);
Serial.print(y);
Serial.println(“”);
randomArray[y] = random(1, 5); //Assigning a random number (1-4) to the randomArray[y], y being the turn count
for (int x=0; x <= turn; x++)
{
Serial.print(randomArray[x]);

for(int y=0; y<4; y++)
{

if (randomArray[x] == 1 && ledpin[y] == 8)
{ //if statements to display the stored values in the array
digitalWrite(ledpin[y], HIGH);
speakerpin.play(NOTE_G3, 100);
delay(400);
digitalWrite(ledpin[y], LOW);
delay(100);
}

if (randomArray[x] == 2 && ledpin[y] == 9)
{
digitalWrite(ledpin[y], HIGH);
speakerpin.play(NOTE_A3, 100);
delay(400);
digitalWrite(ledpin[y], LOW);
delay(100);
}

if (randomArray[x] == 3 && ledpin[y] == 10)
{
digitalWrite(ledpin[y], HIGH);
speakerpin.play(NOTE_B3, 100);
delay(400);
digitalWrite(ledpin[y], LOW);
delay(100);
}

if (randomArray[x] == 4 && ledpin[y] == 11)
{
digitalWrite(ledpin[y], HIGH);
speakerpin.play(NOTE_C4, 100);
delay(400);
digitalWrite(ledpin[y], LOW);
delay(100);
}
}
}
}
input();
}
}

void input() { //Function for allowing user input and checking input against the generated array

for (int x=0; x <= turn;)
{ //Statement controlled by turn count

for(int y=0; y<4; y++)
{

buttonstate = digitalRead(button[y]);

if (buttonstate == LOW && button[y] == 2)
{ //Checking for button push
digitalWrite(ledpin[0], HIGH);
speakerpin.play(NOTE_G3, 100);
delay(200);
digitalWrite(ledpin[0], LOW);
inputArray[x] = 1;
delay(250);
Serial.print(” “);
Serial.print(1);
if (inputArray[x] != randomArray[x]) { //Checks value input by user and checks it against
fail(); //the value in the same spot on the generated array
} //The fail function is called if it does not match
x++;
}
if (buttonstate == LOW && button[y] == 3)
{
digitalWrite(ledpin[1], HIGH);
speakerpin.play(NOTE_A3, 100);
delay(200);
digitalWrite(ledpin[1], LOW);
inputArray[x] = 2;
delay(250);
Serial.print(” “);
Serial.print(2);
if (inputArray[x] != randomArray[x]) {
fail();
}
x++;
}

if (buttonstate == LOW && button[y] == 4)
{
digitalWrite(ledpin[2], HIGH);
speakerpin.play(NOTE_B3, 100);
delay(200);
digitalWrite(ledpin[2], LOW);
inputArray[x] = 3;
delay(250);
Serial.print(” “);
Serial.print(3);
if (inputArray[x] != randomArray[x]) {
fail();
}
x++;
}

if (buttonstate == LOW && button[y] == 5)
{
digitalWrite(ledpin[3], HIGH);
speakerpin.play(NOTE_C4, 100);
delay(200);
digitalWrite(ledpin[3], LOW);
inputArray[x] = 4;
delay(250);
Serial.print(” “);
Serial.print(4);
if (inputArray[x] != randomArray[x])
{
fail();
}
x++;
}
}
}
delay(500);
turn++; //Increments the turn count, also the last action before starting the output function over again
}

void fail() { //Function used if the player fails to match the sequence

for (int y=0; y<=2; y++)
{ //Flashes lights for failure

digitalWrite(ledpin[0], HIGH);
digitalWrite(ledpin[1], HIGH);
digitalWrite(ledpin[2], HIGH);
digitalWrite(ledpin[3], HIGH);
speakerpin.play(NOTE_G3, 300);
delay(200);
digitalWrite(ledpin[0], LOW);
digitalWrite(ledpin[1], LOW);
digitalWrite(ledpin[2], LOW);
digitalWrite(ledpin[3], LOW);
speakerpin.play(NOTE_C3, 300);
delay(200);
}
delay(500);
turn = -1; //Resets turn value so the game starts over without need for a reset button
}

CHLOE, HELEN, KATE

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