Example #1
0
  	/* Here is where the algorithm determining
  	 * how much to shift each pitch will be.
  	 * there are multiple ways we can implement this...
  	 *
  	 * We can either shift each pitch to the nearest semitone or
  	 * shift it in the context of a certain key. The problem with
  	 * shifting it to the nearest semitone is that the output would
  	 * most likely be atonal, which is not likely to be desirable for
  	 * someone needing autotune. If we shift in the context of a
  	 * certain key, then we can match it to some predetermined
  	 * key inputted by the user or by the first (or first several) notes
  	 * of the inputted file. We could determine what semitone to
  	 * match to by comparing it to an array of notes (their Hz values)
  	 * in that key and finding the closest one.

  } */
  public SampleBuffer getTuned() {
    PitchShift shifty = new PitchShift(Obuffer.OBUFFERSIZE);
    // System.out.println("Got here");
    // double[] doubleData = ShortAndDouble(data);
    // System.out.println("Got here");
    shifty.setPitchShift(this.pitchToShift);
    // System.out.println("Got here");
    // System.out.println(shifty.gOutFIFO);
    shifty.smbPitchShift(data, data, 0, length);

    SampleBuffer rewritten =
        new SampleBuffer(sample.getSampleFrequency(), sample.getChannelCount());
    return rewritten;

    // shifty.setOversampling(4);
    // shifty.setSampleRate(sampleRate);
    // shifty.setFftFrameSize(2048);
    //	shifty./*setAllTheRelevantParametersÉ*/
    //	shifty.smbPitchShift(/*relevant data from sample and header */);
    //	return (/*relevant data from sample and header now changed */);
  }