Utilized Tone() for BEEGEES Melody

I utilized the built-in Arduino Tone() function and "pitches.h" header
to recreate the BeeGees melody. It looks a lot cleaner in the code, and
it's easier to figure out the melody (which is also now in a nice
looking array). The only down side is that the volume is about half. I
would love to hack the arduino Tone() function to be able to play the
tone on both sides of the buzzer. But for now, I think the cleaner code
is more important.

Firmware/Simon_Says/Simon_Says.ino

@@ -42,6 +42,7 @@
  */
 
 #include "hardware_versions.h"
+#include "pitches.h" // Used for the MODE_BEEGEES, for playing the melody on the buzzer!
 
 // Define game parameters
 #define ROUNDS_TO_WIN      13 //Number of rounds to succesfully remember before you win. 13 is do-able.
@@ -404,10 +405,17 @@ void attractMode(void)
 }
 
 //-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
-//The following functions are related to Beegees Easter Egg only
+// 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
-int count = 20; // for keeping rhythm straight in the beegees loop
 
 // Do nothing but play bad beegees music
 // This function is activated when user holds bottom right button during power up
@@ -424,118 +432,25 @@ void play_beegees()
   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
   {
-    buzz(3);
-    delay(400);
-    buzz(4);
-    rest(1);
-    delay(600);
-    buzz(5);
-    rest(1);
-    rest(1);
-    delay(400);
-    buzz(3);
-    rest(1);
-    rest(1);
-    rest(1);
-    buzz(2);
-    rest(1);
-    buzz(1);
-    buzz(2);
-    buzz(3);
-    rest(1);
-    buzz(1);
-    buzz(2);
-    rest(1);
-    buzz(3);
-    rest(1);
-    rest(1);   
-    buzz(1);
-    rest(1);
-    buzz(2);
-    rest(1);
-    buzz(3);
-    rest(1);
-    buzz(4);
-    rest(1);
-    buzz(5);
-    rest(1);
-    delay(700);
+    // 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);
+    }
   }
 }
 
-//
-void buzz(int tone){
-
-  //Declare an integer, "freq", for frequency of the note to be played.
-  int freq;
-
-  //5 different tones to select. Each tone is a different frequency.
-  if(tone == 1) freq = 2000;
-  if(tone == 2) freq = 1800;
-  if(tone == 3) freq = 1500;
-  if(tone == 4) freq = 1350;
-  if(tone == 5) freq = 1110;
-
-  //freq = (freq/2);
-
-  // Because frequency is determined by the wavelength (the time HIGH and the time LOW),
-  // you need to have "count" in order to keep a note the same length in time.
-  // "count" is the number of times this function will repeat the HIGH/LOW pattern - to create the sound of the note.
-
-  count = 40;
-
-  // In order to keep all 5 notes the same length in time, you must compare them to the longest note (tonic)  - aka the "1" note.
-  count = count * (2000/freq);
-
-  // Change to the next LED
-  changeLED();
-
-  // this next for loop actually makes the buzzer pin move.
-  // it uses the "count" variable to know how many times to play the frequency.
-  // -this keeps the timing correct.
-  for(int i = 0 ; i < count ; i++)
-  {
-    digitalWrite(BUZZER1, HIGH);
-    digitalWrite(BUZZER2, LOW);
-    delayMicroseconds(freq);
-
-    digitalWrite(BUZZER1, LOW);
-    digitalWrite(BUZZER2, HIGH);
-    delayMicroseconds(freq);
-  }
-
-  delay(60);
-}
-
-//
-void rest(int tone){
-  int freq;
-  if(tone == 1) freq = 2000;
-  if(tone == 2) freq = 1800;
-  if(tone == 3) freq = 1500;
-  if(tone == 4) freq = 1350;
-  if(tone == 5) freq = 1110;
-
-  //freq = (freq/2);
-
-  count = 40;
-  count = count * (2000/freq);
-  //change_led(); 
-
-  for(int i = 0 ; i < count ; i++)
-  {
-    digitalWrite(BUZZER1, LOW);
-    delayMicroseconds(freq);
-    digitalWrite(BUZZER1, LOW);
-    delayMicroseconds(freq);
-  }
-
-  delay(75);
-}
-
 // Each time this function is called the board moves to the next LED
 void changeLED(void)
 {

Firmware/Simon_Says/hardware_versions.h

@@ -15,8 +15,8 @@
 
 
 // Uncomment one of the following, corresponding to the board you have.
-//#define BOARD_REV_2_3_2011 //Works with PTH board label '2-3-2011'
-#define BOARD_REV_4_9_2009   //Works with SMD simoon board label '4/9/2009' and '9/7/11'
+#define BOARD_REV_2_3_2011 //Works with PTH board label '2-3-2011'
+//#define BOARD_REV_4_9_2009   //Works with SMD simoon board label '4/9/2009' and '9/7/11'
 //#define BOARD_REV_6_25_2008
 
 #ifdef BOARD_REV_2_3_2011

Firmware/Simon_Says/pitches.h

@@ -0,0 +1,95 @@
+/*************************************************
+ * Public Constants
+ *************************************************/
+
+#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
+
+