Arduino Simon Says ve Led yakalama oyunu
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malibozkus
Aktif Üye
- Mesajlar
- 142
biz yaptık hocam ama arduino ide kodları ile yaptık. size kodları ve devreyi göndereyim.
kodlar
*/
/*************************************************
* malibozkus
*************************************************/
#define NOTE_B0 31
#define NOTE_C1 33
#define NOTE_CS1 35
#define NOTE_D1 37
#define NOTE_DS1 39
#define NOTE_E1 41
#define NOTE_F1 44
#define NOTE_FS1 46
#define NOTE_G1 49
#define NOTE_GS1 52
#define NOTE_A1 55
#define NOTE_AS1 58
#define NOTE_B1 62
#define NOTE_C2 65
#define NOTE_CS2 69
#define NOTE_D2 73
#define NOTE_DS2 78
#define NOTE_E2 82
#define NOTE_F2 87
#define NOTE_FS2 93
#define NOTE_G2 98
#define NOTE_GS2 104
#define NOTE_A2 110
#define NOTE_AS2 117
#define NOTE_B2 123
#define NOTE_C3 131
#define NOTE_CS3 139
#define NOTE_D3 147
#define NOTE_DS3 156
#define NOTE_E3 165
#define NOTE_F3 175
#define NOTE_FS3 185
#define NOTE_G3 196
#define NOTE_GS3 208
#define NOTE_A3 220
#define NOTE_AS3 233
#define NOTE_B3 247
#define NOTE_C4 262
#define NOTE_CS4 277
#define NOTE_D4 294
#define NOTE_DS4 311
#define NOTE_E4 330
#define NOTE_F4 349
#define NOTE_FS4 370
#define NOTE_G4 392
#define NOTE_GS4 415
#define NOTE_A4 440
#define NOTE_AS4 466
#define NOTE_B4 494
#define NOTE_C5 523
#define NOTE_CS5 554
#define NOTE_D5 587
#define NOTE_DS5 622
#define NOTE_E5 659
#define NOTE_F5 698
#define NOTE_FS5 740
#define NOTE_G5 784
#define NOTE_GS5 831
#define NOTE_A5 880
#define NOTE_AS5 932
#define NOTE_B5 988
#define NOTE_C6 1047
#define NOTE_CS6 1109
#define NOTE_D6 1175
#define NOTE_DS6 1245
#define NOTE_E6 1319
#define NOTE_F6 1397
#define NOTE_FS6 1480
#define NOTE_G6 1568
#define NOTE_GS6 1661
#define NOTE_A6 1760
#define NOTE_AS6 1865
#define NOTE_B6 1976
#define NOTE_C7 2093
#define NOTE_CS7 2217
#define NOTE_D7 2349
#define NOTE_DS7 2489
#define NOTE_E7 2637
#define NOTE_F7 2794
#define NOTE_FS7 2960
#define NOTE_G7 3136
#define NOTE_GS7 3322
#define NOTE_A7 3520
#define NOTE_AS7 3729
#define NOTE_B7 3951
#define NOTE_C8 4186
#define NOTE_CS8 4435
#define NOTE_D8 4699
#define NOTE_DS8 4978
#define CHOICE_OFF 0 //Used to control LEDs
#define CHOICE_NONE 0 //Used to check buttons
#define CHOICE_RED (1 << 0)
#define CHOICE_GREEN (1 << 1)
#define CHOICE_BLUE (1 << 2)
#define CHOICE_YELLOW (1 << 3)
#define LED_RED 10
#define LED_GREEN 3
#define LED_BLUE 13
#define LED_YELLOW 5
// Button pin definitions
#define BUTTON_RED 9
#define BUTTON_GREEN 2
#define BUTTON_BLUE 12
#define BUTTON_YELLOW 6
// Buzzer pin definitions
#define BUZZER1 4
#define BUZZER2 7
// Define game parameters
#define ROUNDS_TO_WIN 13 //Number of rounds to succesfully remember before you win. 13 is do-able.
#define ENTRY_TIME_LIMIT 3000 //Amount of time to press a button before game times out. 3000ms = 3 sec
#define MODE_MEMORY 0
#define MODE_BATTLE 1
#define MODE_BEEGEES 2
// Game state variables
byte gameMode = MODE_MEMORY; //By default, let's play the memory game
byte gameBoard[32]; //Contains the combination of buttons as we advance
byte gameRound = 0; //Counts the number of succesful rounds the player has made it through
void setup()
{
//Setup hardware inputs/outputs. These pins are defined in the hardware_versions header file
//Enable pull ups on inputs
pinMode(BUTTON_RED, INPUT_PULLUP);
pinMode(BUTTON_GREEN, INPUT_PULLUP);
pinMode(BUTTON_BLUE, INPUT_PULLUP);
pinMode(BUTTON_YELLOW, INPUT_PULLUP);
pinMode(LED_RED, OUTPUT);
pinMode(LED_GREEN, OUTPUT);
pinMode(LED_BLUE, OUTPUT);
pinMode(LED_YELLOW, OUTPUT);
pinMode(BUZZER1, OUTPUT);
pinMode(BUZZER2, OUTPUT);
//Mode checking
gameMode = MODE_MEMORY; // By default, we're going to play the memory game
// Check to see if the lower right button is pressed
if (checkButton() == CHOICE_YELLOW) play_beegees();
// Check to see if upper right button is pressed
if (checkButton() == CHOICE_GREEN)
{
gameMode = MODE_BATTLE; //Put game into battle mode
//Turn on the upper right (green) LED
setLEDs(CHOICE_GREEN);
toner(CHOICE_GREEN, 150);
setLEDs(CHOICE_RED | CHOICE_BLUE | CHOICE_YELLOW); // Turn on the other LEDs until you release button
while(checkButton() != CHOICE_NONE) ; // Wait for user to stop pressing button
//Now do nothing. Battle mode will be serviced in the main routine
}
play_winner(); // After setup is complete, say hello to the world
}
void loop()
{
attractMode(); // Blink lights while waiting for user to press a button
// Indicate the start of game play
setLEDs(CHOICE_RED | CHOICE_GREEN | CHOICE_BLUE | CHOICE_YELLOW); // Turn all LEDs on
delay(1000);
setLEDs(CHOICE_OFF); // Turn off LEDs
delay(250);
if (gameMode == MODE_MEMORY)
{
// Play memory game and handle result
if (play_memory() == true)
play_winner(); // Player won, play winner tones
else
play_loser(); // Player lost, play loser tones
}
if (gameMode == MODE_BATTLE)
{
play_battle(); // Play game until someone loses
play_loser(); // Player lost, play loser tones
}
}
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
//The following functions are related to game play only
// Play the regular memory game
// Returns 0 if player loses, or 1 if player wins
boolean play_memory(void)
{
randomSeed(millis()); // Seed the random generator with random amount of millis()
gameRound = 0; // Reset the game to the beginning
while (gameRound < ROUNDS_TO_WIN)
{
add_to_moves(); // Add a button to the current moves, then play them back
playMoves(); // Play back the current game board
// Then require the player to repeat the sequence.
for (byte currentMove = 0 ; currentMove < gameRound ; currentMove++)
{
byte choice = wait_for_button(); // See what button the user presses
if (choice == 0) return false; // If wait timed out, player loses
if (choice != gameBoard[currentMove]) return false; // If the choice is incorect, player loses
}
delay(1000); // Player was correct, delay before playing moves
}
return true; // Player made it through all the rounds to win!
}
// Play the special 2 player battle mode
// A player begins by pressing a button then handing it to the other player
// That player repeats the button and adds one, then passes back.
// This function returns when someone loses
boolean play_battle(void)
{
gameRound = 0; // Reset the game frame back to one frame
while (1) // Loop until someone fails
{
byte newButton = wait_for_button(); // Wait for user to input next move
gameBoard[gameRound++] = newButton; // Add this new button to the game array
// Then require the player to repeat the sequence.
for (byte currentMove = 0 ; currentMove < gameRound ; currentMove++)
{
byte choice = wait_for_button();
if (choice == 0) return false; // If wait timed out, player loses.
if (choice != gameBoard[currentMove]) return false; // If the choice is incorect, player loses.
}
delay(100); // Give the user an extra 100ms to hand the game to the other player
}
return true; // We should never get here
}
// Plays the current contents of the game moves
void playMoves(void)
{
for (byte currentMove = 0 ; currentMove < gameRound ; currentMove++)
{
toner(gameBoard[currentMove], 150);
// Wait some amount of time between button playback
// Shorten this to make game harder
delay(150); // 150 works well. 75 gets fast.
}
}
// Adds a new random button to the game sequence, by sampling the timer
void add_to_moves(void)
{
byte newButton = random(0, 4); //min (included), max (exluded)
// We have to convert this number, 0 to 3, to CHOICEs
if(newButton == 0) newButton = CHOICE_RED;
else if(newButton == 1) newButton = CHOICE_GREEN;
else if(newButton == 2) newButton = CHOICE_BLUE;
else if(newButton == 3) newButton = CHOICE_YELLOW;
gameBoard[gameRound++] = newButton; // Add this new button to the game array
}
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
//The following functions control the hardware
// Lights a given LEDs
// Pass in a byte that is made up from CHOICE_RED, CHOICE_YELLOW, etc
void setLEDs(byte leds)
{
if ((leds & CHOICE_RED) != 0)
digitalWrite(LED_RED, HIGH);
else
digitalWrite(LED_RED, LOW);
if ((leds & CHOICE_GREEN) != 0)
digitalWrite(LED_GREEN, HIGH);
else
digitalWrite(LED_GREEN, LOW);
if ((leds & CHOICE_BLUE) != 0)
digitalWrite(LED_BLUE, HIGH);
else
digitalWrite(LED_BLUE, LOW);
if ((leds & CHOICE_YELLOW) != 0)
digitalWrite(LED_YELLOW, HIGH);
else
digitalWrite(LED_YELLOW, LOW);
}
// Wait for a button to be pressed.
// Returns one of LED colors (LED_RED, etc.) if successful, 0 if timed out
byte wait_for_button(void)
{
long startTime = millis(); // Remember the time we started the this loop
while ( (millis() - startTime) < ENTRY_TIME_LIMIT) // Loop until too much time has passed
{
byte button = checkButton();
if (button != CHOICE_NONE)
{
toner(button, 150); // Play the button the user just pressed
while(checkButton() != CHOICE_NONE) ; // Now let's wait for user to release button
delay(10); // This helps with debouncing and accidental double taps
return button;
}
}
return CHOICE_NONE; // If we get here, we've timed out!
}
// Returns a '1' bit in the position corresponding to CHOICE_RED, CHOICE_GREEN, etc.
byte checkButton(void)
{
if (digitalRead(BUTTON_RED) == 0) return(CHOICE_RED);
else if (digitalRead(BUTTON_GREEN) == 0) return(CHOICE_GREEN);
else if (digitalRead(BUTTON_BLUE) == 0) return(CHOICE_BLUE);
else if (digitalRead(BUTTON_YELLOW) == 0) return(CHOICE_YELLOW);
return(CHOICE_NONE); // If no button is pressed, return none
}
// Light an LED and play tone
// Red, upper left: 440Hz - 2.272ms - 1.136ms pulse
// Green, upper right: 880Hz - 1.136ms - 0.568ms pulse
// Blue, lower left: 587.33Hz - 1.702ms - 0.851ms pulse
// Yellow, lower right: 784Hz - 1.276ms - 0.638ms pulse
void toner(byte which, int buzz_length_ms)
{
setLEDs(which); //Turn on a given LED
//Play the sound associated with the given LED
switch(which)
{
case CHOICE_RED:
buzz_sound(buzz_length_ms, 1136);
break;
case CHOICE_GREEN:
buzz_sound(buzz_length_ms, 568);
break;
case CHOICE_BLUE:
buzz_sound(buzz_length_ms, 851);
break;
case CHOICE_YELLOW:
buzz_sound(buzz_length_ms, 638);
break;
}
setLEDs(CHOICE_OFF); // Turn off all LEDs
}
// Toggle buzzer every buzz_delay_us, for a duration of buzz_length_ms.
void buzz_sound(int buzz_length_ms, int buzz_delay_us)
{
// Convert total play time from milliseconds to microseconds
long buzz_length_us = buzz_length_ms * (long)1000;
// Loop until the remaining play time is less than a single buzz_delay_us
while (buzz_length_us > (buzz_delay_us * 2))
{
buzz_length_us -= buzz_delay_us * 2; //Decrease the remaining play time
// Toggle the buzzer at various speeds
digitalWrite(BUZZER1, LOW);
digitalWrite(BUZZER2, HIGH);
delayMicroseconds(buzz_delay_us);
digitalWrite(BUZZER1, HIGH);
digitalWrite(BUZZER2, LOW);
delayMicroseconds(buzz_delay_us);
}
}
// Play the winner sound and lights
void play_winner(void)
{
setLEDs(CHOICE_GREEN | CHOICE_BLUE);
winner_sound();
setLEDs(CHOICE_RED | CHOICE_YELLOW);
winner_sound();
setLEDs(CHOICE_GREEN | CHOICE_BLUE);
winner_sound();
setLEDs(CHOICE_RED | CHOICE_YELLOW);
winner_sound();
}
// Play the winner sound
// This is just a unique (annoying) sound we came up with, there is no magic to it
void winner_sound(void)
{
// Toggle the buzzer at various speeds
for (byte x = 250 ; x > 70 ; x--)
{
for (byte y = 0 ; y < 3 ; y++)
{
digitalWrite(BUZZER2, HIGH);
digitalWrite(BUZZER1, LOW);
delayMicroseconds(x);
digitalWrite(BUZZER2, LOW);
digitalWrite(BUZZER1, HIGH);
delayMicroseconds(x);
}
}
}
// Play the loser sound/lights
void play_loser(void)
{
setLEDs(CHOICE_RED | CHOICE_GREEN);
buzz_sound(255, 1500);
setLEDs(CHOICE_BLUE | CHOICE_YELLOW);
buzz_sound(255, 1500);
setLEDs(CHOICE_RED | CHOICE_GREEN);
buzz_sound(255, 1500);
setLEDs(CHOICE_BLUE | CHOICE_YELLOW);
buzz_sound(255, 1500);
}
// Show an "attract mode" display while waiting for user to press button.
void attractMode(void)
{
while(1)
{
setLEDs(CHOICE_RED);
delay(100);
if (checkButton() != CHOICE_NONE) return;
setLEDs(CHOICE_BLUE);
delay(100);
if (checkButton() != CHOICE_NONE) return;
setLEDs(CHOICE_GREEN);
delay(100);
if (checkButton() != CHOICE_NONE) return;
setLEDs(CHOICE_YELLOW);
delay(100);
if (checkButton() != CHOICE_NONE) return;
}
}
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
// The following functions are related to Beegees Easter Egg only
// Notes in the melody. Each note is about an 1/8th note, "0"s are rests.
int melody[] = {
NOTE_G4, NOTE_A4, 0, NOTE_C5, 0, 0, NOTE_G4, 0, 0, 0,
NOTE_E4, 0, NOTE_D4, NOTE_E4, NOTE_G4, 0,
NOTE_D4, NOTE_E4, 0, NOTE_G4, 0, 0,
NOTE_D4, 0, NOTE_E4, 0, NOTE_G4, 0, NOTE_A4, 0, NOTE_C5, 0};
int noteDuration = 115; // This essentially sets the tempo, 115 is just about right for a disco groove
int LEDnumber = 0; // Keeps track of which LED we are on during the beegees loop
// Do nothing but play bad beegees music
// This function is activated when user holds bottom right button during power up
void play_beegees()
{
//Turn on the bottom right (yellow) LED
setLEDs(CHOICE_YELLOW);
toner(CHOICE_YELLOW, 150);
setLEDs(CHOICE_RED | CHOICE_GREEN | CHOICE_BLUE); // Turn on the other LEDs until you release button
while(checkButton() != CHOICE_NONE) ; // Wait for user to stop pressing button
setLEDs(CHOICE_NONE); // Turn off LEDs
delay(1000); // Wait a second before playing song
digitalWrite(BUZZER1, LOW); // setup the "BUZZER1" side of the buzzer to stay low, while we play the tone on the other pin.
while(checkButton() == CHOICE_NONE) //Play song until you press a button
{
// iterate over the notes of the melody:
for (int thisNote = 0; thisNote < 32; thisNote++) {
changeLED();
tone(BUZZER2, melody[thisNote],noteDuration);
// to distinguish the notes, set a minimum time between them.
// the note's duration + 30% seems to work well:
int pauseBetweenNotes = noteDuration * 1.30;
delay(pauseBetweenNotes);
// stop the tone playing:
noTone(BUZZER2);
}
}
}
// Each time this function is called the board moves to the next LED
void changeLED(void)
{
setLEDs(1 << LEDnumber); // Change the LED
LEDnumber++; // Goto the next LED
if(LEDnumber > 3) LEDnumber = 0; // Wrap the counter if needed
}
kodlar
*/
/*************************************************
* malibozkus
*************************************************/
#define NOTE_B0 31
#define NOTE_C1 33
#define NOTE_CS1 35
#define NOTE_D1 37
#define NOTE_DS1 39
#define NOTE_E1 41
#define NOTE_F1 44
#define NOTE_FS1 46
#define NOTE_G1 49
#define NOTE_GS1 52
#define NOTE_A1 55
#define NOTE_AS1 58
#define NOTE_B1 62
#define NOTE_C2 65
#define NOTE_CS2 69
#define NOTE_D2 73
#define NOTE_DS2 78
#define NOTE_E2 82
#define NOTE_F2 87
#define NOTE_FS2 93
#define NOTE_G2 98
#define NOTE_GS2 104
#define NOTE_A2 110
#define NOTE_AS2 117
#define NOTE_B2 123
#define NOTE_C3 131
#define NOTE_CS3 139
#define NOTE_D3 147
#define NOTE_DS3 156
#define NOTE_E3 165
#define NOTE_F3 175
#define NOTE_FS3 185
#define NOTE_G3 196
#define NOTE_GS3 208
#define NOTE_A3 220
#define NOTE_AS3 233
#define NOTE_B3 247
#define NOTE_C4 262
#define NOTE_CS4 277
#define NOTE_D4 294
#define NOTE_DS4 311
#define NOTE_E4 330
#define NOTE_F4 349
#define NOTE_FS4 370
#define NOTE_G4 392
#define NOTE_GS4 415
#define NOTE_A4 440
#define NOTE_AS4 466
#define NOTE_B4 494
#define NOTE_C5 523
#define NOTE_CS5 554
#define NOTE_D5 587
#define NOTE_DS5 622
#define NOTE_E5 659
#define NOTE_F5 698
#define NOTE_FS5 740
#define NOTE_G5 784
#define NOTE_GS5 831
#define NOTE_A5 880
#define NOTE_AS5 932
#define NOTE_B5 988
#define NOTE_C6 1047
#define NOTE_CS6 1109
#define NOTE_D6 1175
#define NOTE_DS6 1245
#define NOTE_E6 1319
#define NOTE_F6 1397
#define NOTE_FS6 1480
#define NOTE_G6 1568
#define NOTE_GS6 1661
#define NOTE_A6 1760
#define NOTE_AS6 1865
#define NOTE_B6 1976
#define NOTE_C7 2093
#define NOTE_CS7 2217
#define NOTE_D7 2349
#define NOTE_DS7 2489
#define NOTE_E7 2637
#define NOTE_F7 2794
#define NOTE_FS7 2960
#define NOTE_G7 3136
#define NOTE_GS7 3322
#define NOTE_A7 3520
#define NOTE_AS7 3729
#define NOTE_B7 3951
#define NOTE_C8 4186
#define NOTE_CS8 4435
#define NOTE_D8 4699
#define NOTE_DS8 4978
#define CHOICE_OFF 0 //Used to control LEDs
#define CHOICE_NONE 0 //Used to check buttons
#define CHOICE_RED (1 << 0)
#define CHOICE_GREEN (1 << 1)
#define CHOICE_BLUE (1 << 2)
#define CHOICE_YELLOW (1 << 3)
#define LED_RED 10
#define LED_GREEN 3
#define LED_BLUE 13
#define LED_YELLOW 5
// Button pin definitions
#define BUTTON_RED 9
#define BUTTON_GREEN 2
#define BUTTON_BLUE 12
#define BUTTON_YELLOW 6
// Buzzer pin definitions
#define BUZZER1 4
#define BUZZER2 7
// Define game parameters
#define ROUNDS_TO_WIN 13 //Number of rounds to succesfully remember before you win. 13 is do-able.
#define ENTRY_TIME_LIMIT 3000 //Amount of time to press a button before game times out. 3000ms = 3 sec
#define MODE_MEMORY 0
#define MODE_BATTLE 1
#define MODE_BEEGEES 2
// Game state variables
byte gameMode = MODE_MEMORY; //By default, let's play the memory game
byte gameBoard[32]; //Contains the combination of buttons as we advance
byte gameRound = 0; //Counts the number of succesful rounds the player has made it through
void setup()
{
//Setup hardware inputs/outputs. These pins are defined in the hardware_versions header file
//Enable pull ups on inputs
pinMode(BUTTON_RED, INPUT_PULLUP);
pinMode(BUTTON_GREEN, INPUT_PULLUP);
pinMode(BUTTON_BLUE, INPUT_PULLUP);
pinMode(BUTTON_YELLOW, INPUT_PULLUP);
pinMode(LED_RED, OUTPUT);
pinMode(LED_GREEN, OUTPUT);
pinMode(LED_BLUE, OUTPUT);
pinMode(LED_YELLOW, OUTPUT);
pinMode(BUZZER1, OUTPUT);
pinMode(BUZZER2, OUTPUT);
//Mode checking
gameMode = MODE_MEMORY; // By default, we're going to play the memory game
// Check to see if the lower right button is pressed
if (checkButton() == CHOICE_YELLOW) play_beegees();
// Check to see if upper right button is pressed
if (checkButton() == CHOICE_GREEN)
{
gameMode = MODE_BATTLE; //Put game into battle mode
//Turn on the upper right (green) LED
setLEDs(CHOICE_GREEN);
toner(CHOICE_GREEN, 150);
setLEDs(CHOICE_RED | CHOICE_BLUE | CHOICE_YELLOW); // Turn on the other LEDs until you release button
while(checkButton() != CHOICE_NONE) ; // Wait for user to stop pressing button
//Now do nothing. Battle mode will be serviced in the main routine
}
play_winner(); // After setup is complete, say hello to the world
}
void loop()
{
attractMode(); // Blink lights while waiting for user to press a button
// Indicate the start of game play
setLEDs(CHOICE_RED | CHOICE_GREEN | CHOICE_BLUE | CHOICE_YELLOW); // Turn all LEDs on
delay(1000);
setLEDs(CHOICE_OFF); // Turn off LEDs
delay(250);
if (gameMode == MODE_MEMORY)
{
// Play memory game and handle result
if (play_memory() == true)
play_winner(); // Player won, play winner tones
else
play_loser(); // Player lost, play loser tones
}
if (gameMode == MODE_BATTLE)
{
play_battle(); // Play game until someone loses
play_loser(); // Player lost, play loser tones
}
}
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
//The following functions are related to game play only
// Play the regular memory game
// Returns 0 if player loses, or 1 if player wins
boolean play_memory(void)
{
randomSeed(millis()); // Seed the random generator with random amount of millis()
gameRound = 0; // Reset the game to the beginning
while (gameRound < ROUNDS_TO_WIN)
{
add_to_moves(); // Add a button to the current moves, then play them back
playMoves(); // Play back the current game board
// Then require the player to repeat the sequence.
for (byte currentMove = 0 ; currentMove < gameRound ; currentMove++)
{
byte choice = wait_for_button(); // See what button the user presses
if (choice == 0) return false; // If wait timed out, player loses
if (choice != gameBoard[currentMove]) return false; // If the choice is incorect, player loses
}
delay(1000); // Player was correct, delay before playing moves
}
return true; // Player made it through all the rounds to win!
}
// Play the special 2 player battle mode
// A player begins by pressing a button then handing it to the other player
// That player repeats the button and adds one, then passes back.
// This function returns when someone loses
boolean play_battle(void)
{
gameRound = 0; // Reset the game frame back to one frame
while (1) // Loop until someone fails
{
byte newButton = wait_for_button(); // Wait for user to input next move
gameBoard[gameRound++] = newButton; // Add this new button to the game array
// Then require the player to repeat the sequence.
for (byte currentMove = 0 ; currentMove < gameRound ; currentMove++)
{
byte choice = wait_for_button();
if (choice == 0) return false; // If wait timed out, player loses.
if (choice != gameBoard[currentMove]) return false; // If the choice is incorect, player loses.
}
delay(100); // Give the user an extra 100ms to hand the game to the other player
}
return true; // We should never get here
}
// Plays the current contents of the game moves
void playMoves(void)
{
for (byte currentMove = 0 ; currentMove < gameRound ; currentMove++)
{
toner(gameBoard[currentMove], 150);
// Wait some amount of time between button playback
// Shorten this to make game harder
delay(150); // 150 works well. 75 gets fast.
}
}
// Adds a new random button to the game sequence, by sampling the timer
void add_to_moves(void)
{
byte newButton = random(0, 4); //min (included), max (exluded)
// We have to convert this number, 0 to 3, to CHOICEs
if(newButton == 0) newButton = CHOICE_RED;
else if(newButton == 1) newButton = CHOICE_GREEN;
else if(newButton == 2) newButton = CHOICE_BLUE;
else if(newButton == 3) newButton = CHOICE_YELLOW;
gameBoard[gameRound++] = newButton; // Add this new button to the game array
}
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
//The following functions control the hardware
// Lights a given LEDs
// Pass in a byte that is made up from CHOICE_RED, CHOICE_YELLOW, etc
void setLEDs(byte leds)
{
if ((leds & CHOICE_RED) != 0)
digitalWrite(LED_RED, HIGH);
else
digitalWrite(LED_RED, LOW);
if ((leds & CHOICE_GREEN) != 0)
digitalWrite(LED_GREEN, HIGH);
else
digitalWrite(LED_GREEN, LOW);
if ((leds & CHOICE_BLUE) != 0)
digitalWrite(LED_BLUE, HIGH);
else
digitalWrite(LED_BLUE, LOW);
if ((leds & CHOICE_YELLOW) != 0)
digitalWrite(LED_YELLOW, HIGH);
else
digitalWrite(LED_YELLOW, LOW);
}
// Wait for a button to be pressed.
// Returns one of LED colors (LED_RED, etc.) if successful, 0 if timed out
byte wait_for_button(void)
{
long startTime = millis(); // Remember the time we started the this loop
while ( (millis() - startTime) < ENTRY_TIME_LIMIT) // Loop until too much time has passed
{
byte button = checkButton();
if (button != CHOICE_NONE)
{
toner(button, 150); // Play the button the user just pressed
while(checkButton() != CHOICE_NONE) ; // Now let's wait for user to release button
delay(10); // This helps with debouncing and accidental double taps
return button;
}
}
return CHOICE_NONE; // If we get here, we've timed out!
}
// Returns a '1' bit in the position corresponding to CHOICE_RED, CHOICE_GREEN, etc.
byte checkButton(void)
{
if (digitalRead(BUTTON_RED) == 0) return(CHOICE_RED);
else if (digitalRead(BUTTON_GREEN) == 0) return(CHOICE_GREEN);
else if (digitalRead(BUTTON_BLUE) == 0) return(CHOICE_BLUE);
else if (digitalRead(BUTTON_YELLOW) == 0) return(CHOICE_YELLOW);
return(CHOICE_NONE); // If no button is pressed, return none
}
// Light an LED and play tone
// Red, upper left: 440Hz - 2.272ms - 1.136ms pulse
// Green, upper right: 880Hz - 1.136ms - 0.568ms pulse
// Blue, lower left: 587.33Hz - 1.702ms - 0.851ms pulse
// Yellow, lower right: 784Hz - 1.276ms - 0.638ms pulse
void toner(byte which, int buzz_length_ms)
{
setLEDs(which); //Turn on a given LED
//Play the sound associated with the given LED
switch(which)
{
case CHOICE_RED:
buzz_sound(buzz_length_ms, 1136);
break;
case CHOICE_GREEN:
buzz_sound(buzz_length_ms, 568);
break;
case CHOICE_BLUE:
buzz_sound(buzz_length_ms, 851);
break;
case CHOICE_YELLOW:
buzz_sound(buzz_length_ms, 638);
break;
}
setLEDs(CHOICE_OFF); // Turn off all LEDs
}
// Toggle buzzer every buzz_delay_us, for a duration of buzz_length_ms.
void buzz_sound(int buzz_length_ms, int buzz_delay_us)
{
// Convert total play time from milliseconds to microseconds
long buzz_length_us = buzz_length_ms * (long)1000;
// Loop until the remaining play time is less than a single buzz_delay_us
while (buzz_length_us > (buzz_delay_us * 2))
{
buzz_length_us -= buzz_delay_us * 2; //Decrease the remaining play time
// Toggle the buzzer at various speeds
digitalWrite(BUZZER1, LOW);
digitalWrite(BUZZER2, HIGH);
delayMicroseconds(buzz_delay_us);
digitalWrite(BUZZER1, HIGH);
digitalWrite(BUZZER2, LOW);
delayMicroseconds(buzz_delay_us);
}
}
// Play the winner sound and lights
void play_winner(void)
{
setLEDs(CHOICE_GREEN | CHOICE_BLUE);
winner_sound();
setLEDs(CHOICE_RED | CHOICE_YELLOW);
winner_sound();
setLEDs(CHOICE_GREEN | CHOICE_BLUE);
winner_sound();
setLEDs(CHOICE_RED | CHOICE_YELLOW);
winner_sound();
}
// Play the winner sound
// This is just a unique (annoying) sound we came up with, there is no magic to it
void winner_sound(void)
{
// Toggle the buzzer at various speeds
for (byte x = 250 ; x > 70 ; x--)
{
for (byte y = 0 ; y < 3 ; y++)
{
digitalWrite(BUZZER2, HIGH);
digitalWrite(BUZZER1, LOW);
delayMicroseconds(x);
digitalWrite(BUZZER2, LOW);
digitalWrite(BUZZER1, HIGH);
delayMicroseconds(x);
}
}
}
// Play the loser sound/lights
void play_loser(void)
{
setLEDs(CHOICE_RED | CHOICE_GREEN);
buzz_sound(255, 1500);
setLEDs(CHOICE_BLUE | CHOICE_YELLOW);
buzz_sound(255, 1500);
setLEDs(CHOICE_RED | CHOICE_GREEN);
buzz_sound(255, 1500);
setLEDs(CHOICE_BLUE | CHOICE_YELLOW);
buzz_sound(255, 1500);
}
// Show an "attract mode" display while waiting for user to press button.
void attractMode(void)
{
while(1)
{
setLEDs(CHOICE_RED);
delay(100);
if (checkButton() != CHOICE_NONE) return;
setLEDs(CHOICE_BLUE);
delay(100);
if (checkButton() != CHOICE_NONE) return;
setLEDs(CHOICE_GREEN);
delay(100);
if (checkButton() != CHOICE_NONE) return;
setLEDs(CHOICE_YELLOW);
delay(100);
if (checkButton() != CHOICE_NONE) return;
}
}
//-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
// The following functions are related to Beegees Easter Egg only
// Notes in the melody. Each note is about an 1/8th note, "0"s are rests.
int melody[] = {
NOTE_G4, NOTE_A4, 0, NOTE_C5, 0, 0, NOTE_G4, 0, 0, 0,
NOTE_E4, 0, NOTE_D4, NOTE_E4, NOTE_G4, 0,
NOTE_D4, NOTE_E4, 0, NOTE_G4, 0, 0,
NOTE_D4, 0, NOTE_E4, 0, NOTE_G4, 0, NOTE_A4, 0, NOTE_C5, 0};
int noteDuration = 115; // This essentially sets the tempo, 115 is just about right for a disco groove
int LEDnumber = 0; // Keeps track of which LED we are on during the beegees loop
// Do nothing but play bad beegees music
// This function is activated when user holds bottom right button during power up
void play_beegees()
{
//Turn on the bottom right (yellow) LED
setLEDs(CHOICE_YELLOW);
toner(CHOICE_YELLOW, 150);
setLEDs(CHOICE_RED | CHOICE_GREEN | CHOICE_BLUE); // Turn on the other LEDs until you release button
while(checkButton() != CHOICE_NONE) ; // Wait for user to stop pressing button
setLEDs(CHOICE_NONE); // Turn off LEDs
delay(1000); // Wait a second before playing song
digitalWrite(BUZZER1, LOW); // setup the "BUZZER1" side of the buzzer to stay low, while we play the tone on the other pin.
while(checkButton() == CHOICE_NONE) //Play song until you press a button
{
// iterate over the notes of the melody:
for (int thisNote = 0; thisNote < 32; thisNote++) {
changeLED();
tone(BUZZER2, melody[thisNote],noteDuration);
// to distinguish the notes, set a minimum time between them.
// the note's duration + 30% seems to work well:
int pauseBetweenNotes = noteDuration * 1.30;
delay(pauseBetweenNotes);
// stop the tone playing:
noTone(BUZZER2);
}
}
}
// Each time this function is called the board moves to the next LED
void changeLED(void)
{
setLEDs(1 << LEDnumber); // Change the LED
LEDnumber++; // Goto the next LED
if(LEDnumber > 3) LEDnumber = 0; // Wrap the counter if needed
}
Ekli dosyalar
- Mesajlar
- 415
oyunun mantığı ve çalışma şekli nedir acaba? mblock ile yapılabilir bir şeye benziyor.
- Mesajlar
- 4,580
Simon Says oyununda 4 farklı renkte lamba olur. Bunlar belirli bir sırada (her yeniden başladığında rastgele şekilde) yanar ve her renk için belirlenen nota çalar. Her renk için de bir düğme bulunur, oyuncu lambaların yanma sırasına göre tuşlara basar. Yanlış tuşa basıldığında oyuncu kaybeder. Oyunda lambalar artan şekilde yanar. Yani oyun ilk başladığında örneğin sadece kırmızı yanar, oyuncu kırmızı düğmeye basar. Sonra önce kırmızı sonra örneğin yeşil yanar. Oyuncu önce kırmızı sonra yeşil düğmeye basar. Sonra kırmızı, yeşil, kırmızı yanar, oyuncu da kırmızı, yeşil, kırmızı düğmeye basar. Bu şekilde oyun eklenerek devam eder. Oyunu yapmak için dizi değişken kullanabilmek, bu olmuyorsa da bir metin değişkenin istenen bir harfini alabileceğiniz bir fonksiyona ihtiyaç var. Mblok bunları sağlıyorsa yapılabilir.
http://roboturka.com/arduino/arduino-ile-simon-says-oyunu/ adresinde arduino ile yapılmış bir örnek var.
- Mesajlar
- 776
http://akcaovaortaokulu.meb.k12.tr/icerikler/mega-hafiza_7378247.html
scratch programında bizde böyle bir tasarım yapmıştık.
scratch programında bizde böyle bir tasarım yapmıştık.
- Mesajlar
- 776
oyunumuzu indirip denemek isteyenler için ekledim sitemize.
http://akcaovaortaokulu.meb.k12.tr/icerikler/mega-hafiza_7378247.html
http://akcaovaortaokulu.meb.k12.tr/icerikler/mega-hafiza_7378247.html