began re-tuning analyzer

core/src/zero1hd/polyjet/audio/AudioAnalyzer.java

@@ -16,7 +16,6 @@ public class AudioAnalyzer {
 	float[] audioPCM;
 	float[] spectrum;
 	float[] lastSpectrum;
-	float[] fftData;
 	
 	Runnable analysisAlgorithm;
 	Runnable thresholdCalculator;
@@ -63,11 +62,11 @@ public class AudioAnalyzer {
 				bassThresholdMultiplier = 1.5f;
 				UMThresholdMultiplier = 2f;
 				
-				bassBinBegin = binCalculator(60);
+				bassBinBegin = 1;
-				bassBinEnd = binCalculator(800);
+				bassBinEnd = 17;
 				
-				UMBinBegin = binCalculator(1500);
+				UMBinBegin = 300;
-				UMBinEnd = binCalculator(3000);
+				UMBinEnd = 450;
 				
 				UMThresholdCalcRange = thresholdRangeCalc(0.5f);
 				bassThresholdCalcRange = thresholdRangeCalc(0.7f);
@@ -236,7 +235,6 @@ public class AudioAnalyzer {
 	
 	public void startAnalyticalThread(AudioData audiofile) {
 		audioPCM = new float[audiofile.getReadWindowSize()];
-		fftData = new float[audiofile.getReadWindowSize()];
 		spectrum = new float[(audiofile.getReadWindowSize()/2)+1];
 		lastSpectrum = new float[(audiofile.getReadWindowSize()/2)+1];
 		this.audiofile = audiofile;
@@ -265,16 +263,6 @@ public class AudioAnalyzer {
 		return UMPeaks;
 	}
 	
-	private int binCalculator(int frequency) {
-		float totalBins = audiofile.getReadWindowSize()/2 +1;
-		float frequencyRange = audiofile.getFormat().getSampleRate()/2;
-		
-		//Formula derived from: (22050b/513)+(22050/513/2) = F
-		//let b be the bin
-		//let F be the frequency.
-		return (int) (totalBins*(frequency - (frequencyRange/totalBins*2))/frequencyRange);
-	}
-	
 	private int thresholdRangeCalc(float durationOfRange) {
 		float timePerWindow = (float)audiofile.getReadWindowSize()/audiofile.getFormat().getSampleRate();
 		return (int) (durationOfRange/timePerWindow);