Update of /cvsroot/pure-data/externals/hardware/arduino/Pd_firmware In directory sc8-pr-cvs1.sourceforge.net:/tmp/cvs-serv9813/Pd_firmware
Added Files: Pd_firmware.pde Log Message: first sketch of Pd-controlled firmware
--- NEW FILE: Pd_firmware.pde --- /* Pd_firmware * ------------------ * * * It was designed to work with the Pd patch of the same * name in: Help -> Browser -> examples -> hardware * * (cleft) 2006 Hans-Christoph Steiner * @author: Hans-Christoph Steiner * @date: 2006-03-10 * @location: Polytechnic University, Brooklyn, New York, USA */
/* * Pduino protocol * =============== * data: 0-127 control: 128-255 * * Pd->Arduino commands * -------------------- * 150 - next byte sets PWM0 value * 151 - next byte sets PWM1 value * 152 - next byte sets PWM2 value * 200-213 - set digital pin 0-13 to input * 220-233 - set digital pin 0-13 to output * * * Pd->Arduino byte cycle * ---------------------- * 0 cycle marker (255/11111111) * 1 digitalOut 0-6 bitmask * 2 digitalOut 7-13 bitmask * * Arduino->Pd byte cycle * ---------------------- * 0 digitalIn 0-6 bitmask * 1 digitalIn 7-13 bitmask * 2 analogIn0 byte0 * 3 analogIn0 byte1 * 4 analogIn1 byte0 * 5 analogIn1 byte1 * 6 analogIn2 byte0 * 7 analogIn2 byte1 * 8 analogIn3 byte0 * 9 analogIn3 byte1 * 10 analogIn4 byte0 * 11 analogIn4 byte1 * 12 analogIn5 byte0 * 13 analogIn5 byte1 * 14 cycle marker (255/11111111) * * * TX RX * ----------------------- * */
/* * CAUTION!! Be careful with the Serial Monitor, it could freeze * your computer with this firmware running! It outputs data * without a delay() so its very fast. */
byte i;
// this int serves as an array of bits to store pin status int digitalPinStatus;
byte analogPin; int analogData;
void outputDigital(byte startPin) { byte digitalPin; byte digitalPinBit; byte digitalOutputByte; byte digitalData; for(i=0;i<7;++i) { digitalPin = i+startPin; digitalPinBit = 2^digitalPin; // only read the pin if its set to input if(digitalPinStatus & digitalPinBit) digitalData = digitalRead(digitalPin); else digitalData = 0; digitalOutputByte = digitalOutputByte + (2^(i+1-startPin)*digitalData); } printByte(digitalOutputByte); }
void setup() { beginSerial(9600); }
void loop() { // read all digital pins outputDigital(0); outputDigital(7); /* * get analog in */ analogData = analogRead(analogPin); // these two bytes get converted back into the whole number in Pd printByte(analogData / 32); // div by 32 for the big byte printByte(analogData % 32); // mod by 32 for the small byte ++analogPin; if (analogPin > 5) analogPin = 0; /* end with the cycle marker */ printByte(255); }