void setup() { initBoard(); for(unsigned int _i=0; _i<(unsigned int)(20); _i++) { toneWithDelay(BuzzerPin, (Random()*100), 200); } }
void setup() { initBoard(); while(true) { toneWithDelay(BuzzerPin, (abs(accel.readZ())*0.1), (abs(accel.readY())*0.01)); } }
void setup() { initBoard(); float factor = 0.1; while(true) { toneWithDelay(BuzzerPin, (abs(accel.readZ())*factor), 50); } }
void setup() { initBoard(); float code = 0; while(true) { code = irReceiver.getIRRemoteCode(); toneWithDelay(BuzzerPin, (code*440), 250); serial0.println(code); } }
void setup() { initBoard(); while(true) { if(DigitalRead(D14)) { DigitalWrite(D14, true); toneWithDelay(BuzzerPin, NOTE_E4, 100); } else { DigitalWrite(D14, false); } } }
void setup() { initBoard(); toneWithDelay(BuzzerPin, NOTE_C4, 300); toneWithDelay(BuzzerPin, NOTE_B4, 200); }
void setup() { initBoard(); float vel = 80; float spinVel = 70; float code = 0; while(true) { code = irReceiver.getIRRemoteCode(); if(((int)(code)==(int)(2))) { robot.motor0(vel); robot.motor1(vel); } else { } if(((int)(code)==(int)(8))) { robot.motor0(-(vel)); robot.motor1(-(vel)); } else { } if(((int)(code)==(int)(4))) { robot.motor0(-(spinVel)); robot.motor1(spinVel); } else { } if(((int)(code)==(int)(6))) { robot.motor0(spinVel); robot.motor1(-(spinVel)); } else { } if(((int)(code)==(int)(3))) { robot.motor0(vel); robot.motor1((vel*0.7)); } else { } if(((int)(code)==(int)(1))) { robot.motor0((vel*0.7)); robot.motor1(vel); } else { } if(((int)(code)==(int)(5))) { toneWithDelay(BuzzerPin, 880, 150); robot.motor0(0); robot.motor1(0); } else { } delay(200); } }