Update: My suggestion is to first try communicating the Arduino with Processing by youself. This is what I describe below. If you want to jump straight to controlling the Arduino directly with Processing, the link provided by Binary Nerd is your best choice to get you started.
Update 2: Try this link as well: Netbeans and Processing
Arduino code runs on the Arduino, and Processing code runs on your computer. If you want to control your Arduino through Processing, you will most likely use the serial port, and create two programs. One, on the Arduino, might receive commands and perform actions (turn LEDs on or off), or send back answers. The other, in Processing, might send the Arduino the necessary commands and process it's answers in some way.
Here is a quick example I made for one LED and one analog input. This is untested code. Follow the steps. Once this has worked, you could try using Processing directly with the Arduino in Netbeans.
Step 1. Arduino
- Buy an Arduino board.
- Download the Arduino IDE (http://www.arduino.cc)
- Connect the Arduino to you computer.
- Copy the Arduino code (below) into the Aruino IDE.
- Upload to the Arduino.
Step 2. Processing
- Download the Processing IDE.
- Copy the Processing code (below) into the Processing IDE.
- Make sure the COM port in the code is the one the Arduino is connected to.
- Run the Processing code.
int ledPin = 13;
int analogPin = 0;
char c = 0;
pinMode( ledPin, OUTPUT );
Serial.begin( 9600 );
// Wait for a character to arrive at the serial port.
if( Serial.available() > 0 )
// Read one byte (character).
c = Serial.read();
switch( c )
// Turn LED on.
digitalWrite( ledPin, HIGH );
// Turn LED off.
digitalWrite( ledPin, LOW );
// Send the reading from the analog pin throught the serial port.
Serial.println( analogRead( analogPin ) );
Processing code (runs on your computer).
serial = new Serial(this, "COM1", 9600); // Use the serial port connected
// to your Arduino.
while( true )
serial.write( '1' ); // Turn LED on.
delay( 1000 ); // Wait one second
serial.write( '0' ); // Turn LED off.
delay( 1000 );
serial.write( 'Q' ); // Get analog reading
serial.bufferUntil( 10 ); // Wait for the data from the Arduino.
// This captures characters until a newline
// is received, the runs serialEvent()...
void serialEvent(Serial s)
println( s.readString() );