Я создаю приложение для Android, которое отображает частоту устойчивой ноты с алгоритмом FFT. Я использую методы Jtransform. Моя проблема в настоящее время в том, что я могуt отображать частоту на экране. Следующий код является вычислением частоты fft и AsynchTask, который должен отображать частоту в текстовом поле.

import edu.emory.mathcs.jtransforms.fft.DoubleFFT_1D;

public class Tuning extends Activity implements OnClickListener{

    int audioSource = MediaRecorder.AudioSource.MIC;    // Audio source is the device mic
    int channelConfig = AudioFormat.CHANNEL_IN_MONO;    // Recording in mono
    int audioEncoding = AudioFormat.ENCODING_PCM_16BIT; // Records in 16bit


    private DoubleFFT_1D fft;                           // The fft double array
    int blockSize = 1024;                               // deal with this many samples at a time
    int sampleRate = 44100;                             // Sample rate in Hz
    public double frequency = 0.0;                      // the frequency given

    RecordAudio recordTask;                             // Creates a Record Audio command
    TextView tv;                                        // Creates a text view for the frequency


    // On Start Up
    @Override
    public void onCreate(Bundle savedInstanceState){
        super.onCreate(savedInstanceState);
        setContentView(R.layout.tuning);

        tv = (TextView) findViewById(R.id.lbl1);

    }


    // The Record and analysis class
    private class RecordAudio extends AsyncTask{
    @Override
    protected Void doInBackground(Void... params){      

        /*Calculates the fft and frequency of the input*/
        try{
            int bufferSize = AudioRecord.getMinBufferSize(sampleRate, channelConfig, audioEncoding);                // Gets the minimum buffer needed
            AudioRecord audioRecord = new AudioRecord(audioSource, sampleRate, channelConfig, audioEncoding, bufferSize);   // The RAW PCM sample recording

            short[] buffer = new short[blockSize];          // Save the raw PCM samples as short bytes
            double[] audioDataDoubles = new double[(blockSize*2)]; // Same values as above, as doubles

            double[] re = new double[blockSize];
            double[] im = new double[blockSize];
            double[] magnitude = new double[blockSize];

            audioRecord.startRecording();                   // Start working

            fft = new DoubleFFT_1D(blockSize);

            while(started){
                /* Reads the data from the microphone. it takes in data 
                 * to the size of the window "blockSize". The data is then
                 * given in to audioRecord. The int returned is the number
                 * of bytes that were read*/

                int bufferReadResult = audioRecord.read(buffer, 0, blockSize);

                // Read in the data from the mic to the array
                for(int i = 0; i < blockSize && i < bufferReadResult; i++) {

                    /* dividing the short by 32768.0 gives us the 
                     * result in a range -1.0 to 1.0.
                     * Data for the compextForward is given back 
                     * as two numbers in sequence. Therefore audioDataDoubles
                     * needs to be twice as large*/

                    audioDataDoubles[2*i] = (double) buffer[i]/32768.0; // signed 16 bit
                    audioDataDoubles[(2*i)+1] = 0.0;
                }

                //audiodataDoubles now holds data to work with
                fft.complexForward(audioDataDoubles);

                // Calculate the Real and imaginary and Magnitude.
                for(int i = 0; i < blockSize; i++){
                    // real is stored in first part of array
                    re[i] = audioDataDoubles[i*2];
                    // imaginary is stored in the sequential part
                    im[i] = audioDataDoubles[(i*2)+1];
                    // magnitude is calculated by the square root of (imaginary^2 + real^2)
                    magnitude[i] = Math.sqrt((re[i] * re[i]) + (im[i]*im[i]));
                }

                double peak = -1.0;
                // Get the largest magnitude peak
                for(int i = 0; i < blockSize; i++){
                    if(peak < magnitude[i])
                        peak = magnitude[i];
                }
                // calculated the frequency
                frequency = (sampleRate * peak)/blockSize;

                /* calls onProgressUpdate
                 * publishes the frequency
                 */
                publishProgress(frequency);
            }

        } catch(Throwable t){
            Log.e("AudioRecord", "Recording Failed");
        }
        return null;
    }


    // This should display the Frequency
    protected void onProgressUpdate(Double value){

        //print the frequency 
        setContentView(R.layout.tuning);
        String info = Double.toString(value);

        //TextView doubleView = (TextView) findViewById(R.id.DoubleView);
        tv.setText(info);
    }

    // For the click of the button
   public void onClick(View v){
       if(started){
           started = false;
           startStopButton.setText("Start");
           recordTask.cancel(true);
       } else {
           started = true;
           startStopButton.setText("Stop");
           recordTask = new RecordAudio();
           recordTask.execute();
       }
   }

Я проверил другие подобные вопросы, и я могуНе могу найти ошибку в моем коде.

РЕДАКТИРОВАТЬ: добавленоonClick() кодировать. Я знаю, что частота рассчитывается, и, согласно Eclipse, ни в одной точкеonProgressUpdate() будучи призванным