Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am trying to make a strain gauge display numbers in my java interface.

I have the strain gauge circuit working, and it sends its voltage into a microcontroller (PIC16F877A) program to do an analog to digital conversion and then output the numbers on a serial port. If you are interested, here is the code:

unsigned short analog;            //Variable for analog voltage
long tlong;
unsigned char ch;                    //

void main() {
  USART_Init(19200);              //set baude rate

  ADCON1 = 0;                     //All PORTA pins as analog, VDD as Vref
  TRISA  = 0xFF;                  //All PORTA is input

  do {
    analog = ADC_Read(2) >> 2;    //Read 10-bit ADC from AN2 and discard 2 LS bit

    tlong = (long)analog * 5000;  // Convert the result in millivolts
    tlong = tlong / 1023;         // 0..1023 -> 0-5000mV
    ch = tlong / 1000;            // Extract volts (thousands of millivolts) from result

    USART_Write(48+ch);           // Write result in ASCII format
    USART_Write('.');

    ch = (tlong / 100) % 10;      // Extract hundreds of millivolts
    USART_Write(48+ch);           // Write result in ASCII format

    ch = (tlong / 10) % 10;       // Extract tens of millivolts
    USART_Write(48+ch);           // Write result in ASCII format

    ch = tlong % 10;              // Extract digits for millivolts
    USART_Write(48+ch);           // Write result in ASCII format
    USART_Write(' ');
    USART_Write(' ');
    USART_Write(' ');

    Delay_ms(1000);
  } while (1);
}

That does not work perfectly, because as I move the strain gauge, the output numbers don't change the way that they should. If anyone has any ideas for that, it will be much appreciated.

But I moved on anyway and sent those numbers into my java program. I found this online and modified it to fit my design:

import java.io.*;
import java.util.*; 
import gnu.io.*;


public class SimpleRead implements Runnable, SerialPortEventListener {
    static CommPortIdentifier portId;
    static Enumeration portList;

InputStream inputStream;
SerialPort serialPort;
Thread readThread;
static byte[] readBuffer;
public static int result2;

public static void main(String[] args) {
    portList = CommPortIdentifier.getPortIdentifiers();
    System.out.println("portList... " + portList);

    while (portList.hasMoreElements()) {
        portId = (CommPortIdentifier) portList.nextElement();
        if (portId.getPortType() == CommPortIdentifier.PORT_SERIAL) {
            System.out.println("port identified is Serial.. "
                    + portId.getPortType());
            if (portId.getName().equals("COM4")) {
                System.out.println("port identified is COM4.. "
                        + portId.getName());
                // if (portId.getName().equals("/dev/term/a")) {
                SimpleRead reader = new SimpleRead();
            } else {
                System.out.println("unable to open port");
            }
        }
    }
}

public SimpleRead() {
    try {
        System.out.println("In SimpleRead() contructor");
        serialPort = (SerialPort) portId.open("SimpleReadApp1111",500);
        System.out.println(" Serial Port.. " + serialPort);
    } catch (PortInUseException e) {
        System.out.println("Port in use Exception");
    }
    try {
        inputStream = serialPort.getInputStream();
        System.out.println(" Input Stream... " + inputStream);
    } catch (IOException e) {
        System.out.println("IO Exception");
    }
    try {
        serialPort.addEventListener(this);

    } catch (TooManyListenersException e) {
        System.out.println("Tooo many Listener exception");
    }
    serialPort.notifyOnDataAvailable(true);
    try {

        serialPort.setSerialPortParams(19200, SerialPort.DATABITS_8,
                SerialPort.STOPBITS_1, SerialPort.PARITY_NONE);

        // no handshaking or other flow control
        serialPort.setFlowControlMode(SerialPort.FLOWCONTROL_NONE);

        // timer on any read of the serial port
        serialPort.enableReceiveTimeout(500);

        System.out.println("................");

    } catch (UnsupportedCommOperationException e) {
        System.out.println("UnSupported comm operation");
    }
    readThread = new Thread(this);
    readThread.start();
}

public void run() {
    try {
        System.out.println("In run() function ");
        Thread.sleep(500);
        // System.out.println();
    } catch (InterruptedException e) {
        System.out.println("Interrupted Exception in run() method");
    }
}

public void serialEvent(SerialPortEvent event) {

    // System.out.println("In Serial Event function().. " + event +
    // event.getEventType());
    switch (event.getEventType()) {
    /*
     * case SerialPortEvent.BI: case SerialPortEvent.OE: case
     * SerialPortEvent.FE: case SerialPortEvent.PE: case SerialPortEvent.CD:
     * case SerialPortEvent.CTS: case SerialPortEvent.DSR: case
     * SerialPortEvent.RI: case SerialPortEvent.OUTPUT_BUFFER_EMPTY: break;
     */
    case SerialPortEvent.DATA_AVAILABLE:
        readBuffer = new byte[500];

        try {

            while (inputStream.available()>0) {

                int numBytes = inputStream.read(readBuffer);

            //   System.out.println("Number of bytes read " + numBytes);
                System.out.print(new String(readBuffer));
            }



        } catch (IOException e) {
            System.out.println("IO Exception in SerialEvent()");
        }
        break;
    }
    // System.out.println();
/*  String one = new String(readBuffer);
    char two = one.charAt(0);
    System.out.println("Character at three: " + two);*/
}

}

It reads the same range of numbers (one serial port, so I can't test if it's the same numbers) as the previous code, although it sometimes gives me weird numbers like instead of .692, it'll say 320, then the next number is 43, then maybe only a '.' will show up, but it will soon go back to normal. I assumed it was a buffer problem where it says "readBuffer = new byte[500]", where i changed the size to 500 (originally was 8) and it got slightly better.

I have to turn the output into an integer to do some math with it anyway, and as an integer I can easily filter out all the weird data. So ultimately, my question is now would I turn this output data into usable integers? The main problem is that I'm not even sure where in my java program it's reading the serial port numbers. I assume the variable is readBuffer, but I get errors when ever I try and use it places, usually a type mismatch.

So any help would be great, thanks!

share|improve this question

I studied your above code further and I think in the above code the stream is:

<x.xxx >, so if you read 8 bytes each time that would be one data entry. If you use inputstreamreader if will convert byte to a character...

check http://docs.oracle.com/javase/1.4.2/docs/api/java/io/InputStreamReader.html

share|improve this answer
    
That is exactly what the stream is supposed to be, normally it outputs 0.200-1.000, although like I said, I occasionally get weird whole numbers, and even decimals by themselves. Thank you very much for the suggestion, I will try and implement inputstreamreader tomorrow! – Mark Conigliaro Apr 20 '12 at 1:31

It is hard to guess from info provided but You said:

"gives me weird numbers like instead of .692, it'll say 320"

and

The main problem is that I'm not even sure where in my java program it's reading the serial port numbers

This looks to me as byte order problem if you are trying to read Integer from received byte buffer. Also may be IEEE standard mismatch for float type if you try to read float data from received byte buffer. But I recommend to not use float types and use only integers.

if you are using java 5+ use ByteBuffer class from nio package, like this:

    byte[] readBuffer = getBufferFromyourCode();
    ByteBuffer buffer = ByteBuffer.wrap(readBuffer); //wrap received byte buffer
    buffer.order(ByteOrder.LITTLE_ENDIAN);//set correct endiannes
    Integer version = buffer.getInt();// read first 4 bytes
    Integer length = buffer.getInt(); // read next 4 bytes
    byte[] rowMsg = new byte[length];// length = bytes to read
    buffer.get(rowMsg); // copies 'length' bytes in rowMsg
    String msg = new String(rowMsg); // convert to String
    System.out.println("Version "+version+" message received");
    System.out.println("Length: "+length);
    System.out.println("text: "+msg);

note byte order setting, try both big and little endian to see if values you read from buffer look normal. Check more about endiannes here: http://en.wikipedia.org/wiki/Endiannes

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.