added another frequency range on analyzer

This commit is contained in:
Harrison Deng 2017-07-30 18:22:24 -05:00
parent c9f580d695
commit db27f7dbae
6 changed files with 196 additions and 88 deletions

View File

@ -28,22 +28,31 @@ public class AudioAnalyzer {
private FloatArray bassPeaks = new FloatArray(); private FloatArray bassPeaks = new FloatArray();
private float bassMaxValue; private float bassMaxValue;
private float bassAvg; private float bassAvg;
float bassThresholdMultiplier;
int bassThresholdCalcRange;
int UMBinBegin; int mBinBegin;
int UMBinEnd; int mBinEnd;
private FloatArray mSpectralFlux = new FloatArray();
private FloatArray mThreshold = new FloatArray();
private FloatArray mPrunned = new FloatArray();
private FloatArray mPeaks = new FloatArray();
private float mMaxValue;
private float mAvg;
float mThresholdMultiplier;
int mThresholdCalcRange;
int umBinBegin;
int umBinEnd;
private FloatArray umSpectralFlux = new FloatArray(); private FloatArray umSpectralFlux = new FloatArray();
private FloatArray umThreshold = new FloatArray(); private FloatArray umThreshold = new FloatArray();
private FloatArray umPrunned = new FloatArray(); private FloatArray umPrunned = new FloatArray();
private FloatArray umPeaks = new FloatArray(); private FloatArray umPeaks = new FloatArray();
private float UMMaxValue; private float umMaxValue;
private float umAvg; private float umAvg;
private FloatArray overlappedPeaks = new FloatArray();
float bassThresholdMultiplier;
float umThresholdMultiplier; float umThresholdMultiplier;
int UMThresholdCalcRange; int umThresholdCalcRange;
int bassThresholdCalcRange;
public volatile MiniSender sender; public volatile MiniSender sender;
@ -65,22 +74,28 @@ public class AudioAnalyzer {
int totalTasks = audioData.getSampleCount()/audioData.getReadWindowSize(); int totalTasks = audioData.getSampleCount()/audioData.getReadWindowSize();
bassThresholdMultiplier = 1.5f; bassThresholdMultiplier = 1.5f;
mThresholdMultiplier = 1.4f;
umThresholdMultiplier = 1.4f; umThresholdMultiplier = 1.4f;
bassBinBegin = 1; bassBinBegin = 0;
bassBinEnd = 13; bassBinEnd = 12;
UMBinBegin = 14; mBinBegin = 100;
UMBinEnd = 513; mBinEnd = 250;
umBinBegin = 350;
umBinEnd = 513;
bassThresholdCalcRange = thresholdRangeCalc(0.27f); bassThresholdCalcRange = thresholdRangeCalc(0.27f);
UMThresholdCalcRange = thresholdRangeCalc(0.4f); mThresholdCalcRange = thresholdRangeCalc(0.4f);
umThresholdCalcRange = thresholdRangeCalc(0.4f);
Gdx.app.debug("Read freq", String.valueOf(audioData.getFormat().getSampleRate())); Gdx.app.debug("Read freq", String.valueOf(audioData.getFormat().getSampleRate()));
Gdx.app.debug("Using following bin ranges", "\nBass freq begin: " + bassBinBegin + "\nBass freq end: " + bassBinEnd + "\nMain freq begin: " + UMBinBegin + "\nMain freq end: " + UMBinEnd); Gdx.app.debug("Using following bin ranges", "\nBass freq begin: " + bassBinBegin + "\nBass freq end: " + bassBinEnd + "\nMain freq begin: " + umBinBegin + "\nMain freq end: " + umBinEnd);
Gdx.app.debug("Threshold Calc Range UM", String.valueOf(UMThresholdCalcRange)); Gdx.app.debug("Threshold Calc Range UM", String.valueOf(umThresholdCalcRange));
Gdx.app.debug("Threshold Calc Range M", String.valueOf(umThresholdCalcRange));
Gdx.app.debug("Threshold Calc Range Bass", String.valueOf(bassThresholdCalcRange)); Gdx.app.debug("Threshold Calc Range Bass", String.valueOf(bassThresholdCalcRange));
fft = new FloatFFT_1D(audioData.getReadWindowSize()); fft = new FloatFFT_1D(audioData.getReadWindowSize());
@ -106,7 +121,7 @@ public class AudioAnalyzer {
System.arraycopy(spectrum, 0, lastSpectrum, 0, spectrum.length); System.arraycopy(spectrum, 0, lastSpectrum, 0, spectrum.length);
System.arraycopy(audioPCM, 0, spectrum, 0, spectrum.length); System.arraycopy(audioPCM, 0, spectrum, 0, spectrum.length);
float fluxVal = 0; float fluxVal;
//bass detection //bass detection
fluxVal = 0; fluxVal = 0;
for (int i = bassBinBegin; i < bassBinEnd && work; i++) { for (int i = bassBinBegin; i < bassBinEnd && work; i++) {
@ -115,9 +130,17 @@ public class AudioAnalyzer {
} }
bassSpectralFlux.add(fluxVal); bassSpectralFlux.add(fluxVal);
//main detection //m detection
fluxVal = 0; fluxVal = 0;
for (int i = UMBinBegin; i < UMBinEnd && work; i++) { for (int i = mBinBegin; i < mBinEnd && work; i++) {
fluxVal += ((spectrum[i] - lastSpectrum[i])) < 0
? 0 : (spectrum[i] - lastSpectrum[i]);
}
mSpectralFlux.add(fluxVal);
//um detection
fluxVal = 0;
for (int i = umBinBegin; i < umBinEnd && work; i++) {
fluxVal += ((spectrum[i] - lastSpectrum[i])) < 0 fluxVal += ((spectrum[i] - lastSpectrum[i])) < 0
? 0 : (spectrum[i] - lastSpectrum[i]); ? 0 : (spectrum[i] - lastSpectrum[i]);
} }
@ -141,27 +164,31 @@ public class AudioAnalyzer {
thresholdCalculator = new Runnable() { thresholdCalculator = new Runnable() {
@Override @Override
public void run() { public void run() {
Gdx.app.debug("Audio Analyzer", "beginning thrshold calc.");
//threshold calculation //threshold calculation
for (int i = 0; i < umSpectralFlux.size && work; i++) { for (int i = 0; i < umSpectralFlux.size && work; i++) {
int UMStart = Math.max(0, i - UMThresholdCalcRange/2); int start = Math.max(0, i - umThresholdCalcRange/2);
int UMEnd = Math.min(umSpectralFlux.size - 1, i + UMThresholdCalcRange/2); int end = Math.min(umSpectralFlux.size - 1, i + umThresholdCalcRange/2);
int bassStart = Math.max(0, i - bassThresholdCalcRange/2);
int bassEnd = Math.min(umSpectralFlux.size - 1, i + bassThresholdCalcRange/2);
float average = 0; float average = 0;
for (int j = bassStart; j <= bassEnd; j++) { for (int j = start; j <= end; j++) {
average += bassSpectralFlux.get(j); average += bassSpectralFlux.get(j);
} }
average /= (bassEnd - bassStart); average /= (end - start);
bassThreshold.add(average * bassThresholdMultiplier); bassThreshold.add(average * bassThresholdMultiplier);
average = 0; average = 0;
for (int j = UMStart; j <= UMEnd; j++) { for (int j = start; j <= end; j++) {
average+= mSpectralFlux.get(j);
}
average /= (end - start);
mThreshold.add(average*mThresholdMultiplier);
average = 0;
for (int j = start; j <= end; j++) {
average+= umSpectralFlux.get(j); average+= umSpectralFlux.get(j);
} }
average /= (UMEnd - UMStart); average /= (end - start);
umThreshold.add(average*umThresholdMultiplier); umThreshold.add(average*umThresholdMultiplier);
} }
@ -172,22 +199,25 @@ public class AudioAnalyzer {
float prunnedCurrentVal; float prunnedCurrentVal;
for (int i = 0; i < umSpectralFlux.size && work; i++) { for (int i = 0; i < umSpectralFlux.size && work; i++) {
prunnedCurrentVal = bassSpectralFlux.get(i) - bassThreshold.get(i); prunnedCurrentVal = bassSpectralFlux.get(i) - bassThreshold.get(i);
if (prunnedCurrentVal >= 0) { if (prunnedCurrentVal >= 0) {
bassPrunned.add(prunnedCurrentVal); bassPrunned.add(prunnedCurrentVal);
} else { } else {
bassPrunned.add(0); bassPrunned.add(0);
} }
prunnedCurrentVal = umSpectralFlux.get(i) - umThreshold.get(i); prunnedCurrentVal = mSpectralFlux.get(i) - mThreshold.get(i);
if (prunnedCurrentVal >= 0 ) {
mPrunned.add(prunnedCurrentVal);
} else {
mPrunned.add(0);
}
prunnedCurrentVal = umSpectralFlux.get(i) - umThreshold.get(i);
if (prunnedCurrentVal >= 0 ) { if (prunnedCurrentVal >= 0 ) {
umPrunned.add(prunnedCurrentVal); umPrunned.add(prunnedCurrentVal);
} else { } else {
umPrunned.add(0); umPrunned.add(0);
} }
} }
Gdx.app.debug("Audio Analyzer", "Data prunned."); Gdx.app.debug("Audio Analyzer", "Data prunned.");
@ -196,6 +226,7 @@ public class AudioAnalyzer {
int lastID = 0; int lastID = 0;
float bassBeats = 0; float bassBeats = 0;
float mBeats = 0;
float umBeats = 0; float umBeats = 0;
avgSPB = -1f; avgSPB = -1f;
for (int i = 0; i < umPrunned.size-1 && work; i++) { for (int i = 0; i < umPrunned.size-1 && work; i++) {
@ -204,19 +235,18 @@ public class AudioAnalyzer {
bassMaxValue = bassPeaks.get(i); bassMaxValue = bassPeaks.get(i);
} }
umPeaks.add((umPrunned.get(i) > umPrunned.get(i+1) ? umPrunned.get(i) : 0f)); mPeaks.add((mPrunned.get(i) > mPrunned.get(i+1) ? mPrunned.get(i) : 0f));
if (umPeaks.get(i) > UMMaxValue) { if (mPeaks.get(i) > mMaxValue) {
UMMaxValue = umPeaks.get(i); mMaxValue = mPeaks.get(i);
} }
//overlapping beats umPeaks.add((umPrunned.get(i) > umPrunned.get(i+1) ? umPrunned.get(i) : 0f));
if (bassPeaks.get(i) != 0 && umPeaks.get(i) != 0) { if (umPeaks.get(i) > umMaxValue) {
overlappedPeaks.add((bassPeaks.get(i)+umPeaks.get(i))/2f); umMaxValue = umPeaks.get(i);
} else {
overlappedPeaks.add(0);
} }
if (avgSPB != -1) { if (avgSPB != -1) {
if (bassPeaks.get(i) == 0) { if (bassPeaks.get(i) == 0) {
avgSPB ++; avgSPB ++;
@ -232,6 +262,12 @@ public class AudioAnalyzer {
bassBeats++; bassBeats++;
} }
if (mPeaks.get(i) != 0) {
mAvg += mPeaks.get(i);
mBeats++;
}
if (umPeaks.get(i) != 0) { if (umPeaks.get(i) != 0) {
umAvg += umPeaks.get(i); umAvg += umPeaks.get(i);
umBeats++; umBeats++;
@ -246,13 +282,13 @@ public class AudioAnalyzer {
Gdx.app.debug("Audio Analyzer", "Avg SPB: " + avgSPB); Gdx.app.debug("Audio Analyzer", "Avg SPB: " + avgSPB);
bassAvg /= bassBeats; bassAvg /= bassBeats;
mAvg /= mBeats;
umAvg /= umBeats; umAvg /= umBeats;
Gdx.app.debug("Audio Analyzer", "Avg bass: " + bassAvg); Gdx.app.debug("Audio Analyzer", "Avg bass: " + bassAvg);
Gdx.app.debug("Audio Analyzer", "Avg M: " + mAvg);
Gdx.app.debug("Audio Analyzer", "Avg UM: " + umAvg); Gdx.app.debug("Audio Analyzer", "Avg UM: " + umAvg);
if (work) { if (work) {
Gdx.app.debug("Audio Analyzer", "overlapped beats checked.");
finalized = true; finalized = true;
sender.send(MiniEvents.MUSIC_DATA_CLEANED); sender.send(MiniEvents.MUSIC_DATA_CLEANED);
@ -268,12 +304,15 @@ public class AudioAnalyzer {
bassPrunned.shrink(); bassPrunned.shrink();
bassPeaks.shrink(); bassPeaks.shrink();
mSpectralFlux.shrink();
mThreshold.shrink();
mPrunned.shrink();
mPeaks.shrink();
umSpectralFlux.shrink(); umSpectralFlux.shrink();
umThreshold.shrink(); umThreshold.shrink();
umPrunned.shrink(); umPrunned.shrink();
umPeaks.shrink(); umPeaks.shrink();
overlappedPeaks.shrink();
} }
public void startAnalyticalThread(AudioData audiofile) { public void startAnalyticalThread(AudioData audiofile) {
@ -302,6 +341,9 @@ public class AudioAnalyzer {
public FloatArray getBassPeaks() { public FloatArray getBassPeaks() {
return bassPeaks; return bassPeaks;
} }
public FloatArray getmPeaks() {
return mPeaks;
}
public FloatArray getUMPeaks() { public FloatArray getUMPeaks() {
return umPeaks; return umPeaks;
} }
@ -314,8 +356,12 @@ public class AudioAnalyzer {
return bassMaxValue; return bassMaxValue;
} }
public float getmMaxValue() {
return mMaxValue;
}
public float getUMMaxValue() { public float getUMMaxValue() {
return UMMaxValue; return umMaxValue;
} }
public int getReadIndex() { public int getReadIndex() {
@ -346,10 +392,6 @@ public class AudioAnalyzer {
return PUID; return PUID;
} }
public FloatArray getOverlappedPeaks() {
return overlappedPeaks;
}
public AudioData getAudioData() { public AudioData getAudioData() {
return audioData; return audioData;
} }
@ -369,4 +411,8 @@ public class AudioAnalyzer {
public float getUmAvg() { public float getUmAvg() {
return umAvg; return umAvg;
} }
public float getmAvg() {
return mAvg;
}
} }

View File

@ -15,8 +15,8 @@ public class RhythmMapAlgorithm implements Runnable {
private MiniSender sender; private MiniSender sender;
private FloatArray bassPeaks; private FloatArray bassPeaks;
private FloatArray UMPeaks; private FloatArray mPeaks;
private FloatArray overlappedPeaks; private FloatArray umPeaks;
private MersenneTwister rand; private MersenneTwister rand;
private GamePlayMap map; private GamePlayMap map;
@ -34,9 +34,9 @@ public class RhythmMapAlgorithm implements Runnable {
sender = new MiniSender(); sender = new MiniSender();
bassPeaks = analyzer.getBassPeaks(); bassPeaks = analyzer.getBassPeaks();
UMPeaks = analyzer.getUMPeaks(); mPeaks = analyzer.getmPeaks();
overlappedPeaks = analyzer.getOverlappedPeaks(); umPeaks = analyzer.getUMPeaks();
map = new GamePlayMap(analyzer.getAudioData(), UMPeaks.size); map = new GamePlayMap(analyzer.getAudioData(), umPeaks.size);
rand = new MersenneTwister(analyzer.getPUID()); rand = new MersenneTwister(analyzer.getPUID());
avgSPB = analyzer.getAvgSPB(); avgSPB = analyzer.getAvgSPB();
windowPerSecond = 1/analyzer.getsecondsPerWindow(); windowPerSecond = 1/analyzer.getsecondsPerWindow();
@ -58,7 +58,7 @@ public class RhythmMapAlgorithm implements Runnable {
public void run() { public void run() {
map.beginBuild(); map.beginBuild();
for (int index = 0; index < bassPeaks.size; index++) { for (int index = 0; index < bassPeaks.size; index++) {
if (bassPeaks.get(index) != 0 || UMPeaks.get(index) != 0) { if (bassPeaks.get(index) != 0 || umPeaks.get(index) != 0) {
if (bassPeaks.get(index) != 0) { if (bassPeaks.get(index) != 0) {
//If there is a value of some sorts that is not zero, we generate some beat for the map //If there is a value of some sorts that is not zero, we generate some beat for the map
if (index > 1.5*windowPerSecond && bassPeaks.get(index) > avgBass) { if (index > 1.5*windowPerSecond && bassPeaks.get(index) > avgBass) {
@ -80,8 +80,8 @@ public class RhythmMapAlgorithm implements Runnable {
} }
} }
if (UMPeaks.get(index) != 0) { if (umPeaks.get(index) != 0) {
if (UMPeaks.get(index) >= avgUM) { if (umPeaks.get(index) >= avgUM) {
//If upper midrange peaks are greater than average, the: //If upper midrange peaks are greater than average, the:
int spawnLocations = (Main.GAME_AREA_WIDTH-8)/8; int spawnLocations = (Main.GAME_AREA_WIDTH-8)/8;
@ -101,9 +101,6 @@ public class RhythmMapAlgorithm implements Runnable {
} }
} }
if (overlappedPeaks.get(index) != 0) {
}
if (rand.nextFloat() < 0.15f) { if (rand.nextFloat() < 0.15f) {
switch(rand.nextInt(10)) { switch(rand.nextInt(10)) {

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@ -40,7 +40,7 @@ public class AudioGraph extends Actor {
public void act(float delta) { public void act(float delta) {
audioGraph.setColor(0f, 0f, 0f, 0.75f); audioGraph.setColor(0f, 0f, 0f, 0.75f);
audioGraph.fill(); audioGraph.fill();
if (overlayGraph != null) {
if (Gdx.input.isKeyPressed(Keys.COMMA)) { if (Gdx.input.isKeyPressed(Keys.COMMA)) {
if (scale > 0.05f) { if (scale > 0.05f) {
scale -= 0.25f; scale -= 0.25f;
@ -57,9 +57,21 @@ public class AudioGraph extends Actor {
} else { } else {
displayMode = 0; displayMode = 0;
} }
}
}
if (Gdx.input.isKeyPressed(Keys.COMMA)) {
if (scale > 0.05f) {
scale -= 0.25f;
}
} else if (Gdx.input.isKeyPressed(Keys.PERIOD)) {
if (scale < audioGraph.getHeight()*2f) {
scale += 0.4f;
}
} else if (Gdx.input.isKeyJustPressed(Keys.SLASH)) { } else if (Gdx.input.isKeyJustPressed(Keys.SLASH)) {
scale = audioGraph.getHeight(); scale = audioGraph.getHeight();
} }
switch (displayMode) { switch (displayMode) {
case 0: case 0:
audioGraph.setColor(1f, 0f, 0f, 0.75f); audioGraph.setColor(1f, 0f, 0f, 0.75f);
@ -93,8 +105,6 @@ public class AudioGraph extends Actor {
break; break;
} }
audioGraph.setColor(0f, 1f, 0f, 0.95f); audioGraph.setColor(0f, 1f, 0f, 0.95f);
audioGraph.drawLine(audioGraph.getWidth()/2, 0, audioGraph.getWidth()/2, audioGraph.getHeight()); audioGraph.drawLine(audioGraph.getWidth()/2, 0, audioGraph.getWidth()/2, audioGraph.getHeight());
@ -111,6 +121,11 @@ public class AudioGraph extends Actor {
public void setGraphingData(FloatArray dataSet1, FloatArray dataSet2) { public void setGraphingData(FloatArray dataSet1, FloatArray dataSet2) {
this.mainGraph = dataSet1; this.mainGraph = dataSet1;
this.overlayGraph = dataSet2; this.overlayGraph = dataSet2;
if (dataSet2 == null) {
displayMode = 2;
} else {
displayMode = 0;
}
} }
} }

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@ -20,7 +20,8 @@ import zero1hd.polyjet.screens.MainMenu;
import zero1hd.polyjet.ui.windows.BeatViewer; import zero1hd.polyjet.ui.windows.BeatViewer;
import zero1hd.polyjet.ui.windows.DifficultyWindow; import zero1hd.polyjet.ui.windows.DifficultyWindow;
import zero1hd.polyjet.ui.windows.FPSWindow; import zero1hd.polyjet.ui.windows.FPSWindow;
import zero1hd.polyjet.ui.windows.GraphWindow; import zero1hd.polyjet.ui.windows.MGraphWindow;
import zero1hd.polyjet.ui.windows.BassUMGraphWindow;
import zero1hd.polyjet.ui.windows.MusicController; import zero1hd.polyjet.ui.windows.MusicController;
import zero1hd.polyjet.ui.windows.MusicSelector; import zero1hd.polyjet.ui.windows.MusicSelector;
import zero1hd.polyjet.ui.windows.SpawnerWindow; import zero1hd.polyjet.ui.windows.SpawnerWindow;
@ -33,7 +34,8 @@ public class CreativeHUD extends Stage implements MiniListener {
MusicSelector musicSelector; MusicSelector musicSelector;
FPSWindow fpsViewer; FPSWindow fpsViewer;
BeatViewer beatViewer; BeatViewer beatViewer;
GraphWindow graphViewer; BassUMGraphWindow bassUMgraphWindow;
MGraphWindow mGraphWindow;
VolumeWindow volumeWindow; VolumeWindow volumeWindow;
SpawnerWindow spawnerWindow; SpawnerWindow spawnerWindow;
DifficultyWindow diffWindow; DifficultyWindow diffWindow;
@ -51,7 +53,8 @@ public class CreativeHUD extends Stage implements MiniListener {
fpsViewer = new FPSWindow("FPS", core.getDefaultSkin()); fpsViewer = new FPSWindow("FPS", core.getDefaultSkin());
beatViewer = new BeatViewer("Beat", core.getDefaultSkin()); beatViewer = new BeatViewer("Beat", core.getDefaultSkin());
graphViewer = new GraphWindow("Peak Values", core.getDefaultSkin()); bassUMgraphWindow = new BassUMGraphWindow("Bass/UM Peak Values", core.getDefaultSkin());
mGraphWindow = new MGraphWindow("Midrange Peak Values", core.getDefaultSkin());
volumeWindow = new VolumeWindow("Volume adjustments", core.getDefaultSkin(), core.getPrefs()); volumeWindow = new VolumeWindow("Volume adjustments", core.getDefaultSkin(), core.getPrefs());
spawnerWindow = new SpawnerWindow("Spawn Tool", core.getDefaultSkin(), gpa.ec, gpa); spawnerWindow = new SpawnerWindow("Spawn Tool", core.getDefaultSkin(), gpa.ec, gpa);
diffWindow = new DifficultyWindow(core.getDefaultSkin()); diffWindow = new DifficultyWindow(core.getDefaultSkin());
@ -137,14 +140,16 @@ public class CreativeHUD extends Stage implements MiniListener {
toolboxToolSet.add(fpsViewerCheckbox); toolboxToolSet.add(fpsViewerCheckbox);
toolboxToolSet.row(); toolboxToolSet.row();
final CheckBox peakGraphCheckbox = new CheckBox(" Peak Graph", core.getDefaultSkin()); final CheckBox peakGraphCheckbox = new CheckBox(" Peak Graphs", core.getDefaultSkin());
peakGraphCheckbox.addListener(new ChangeListener() { peakGraphCheckbox.addListener(new ChangeListener() {
@Override @Override
public void changed(ChangeEvent event, Actor actor) { public void changed(ChangeEvent event, Actor actor) {
if (peakGraphCheckbox.isChecked()) { if (peakGraphCheckbox.isChecked()) {
addActor(graphViewer); addActor(bassUMgraphWindow);
addActor(mGraphWindow);
} else { } else {
graphViewer.remove(); bassUMgraphWindow.remove();
mGraphWindow.remove();
} }
} }
@ -208,6 +213,8 @@ public class CreativeHUD extends Stage implements MiniListener {
return super.keyUp(event, keycode); return super.keyUp(event, keycode);
} }
}); });
toolboxToolSet.pack();
toolbox.pack();
} }
@Override @Override
@ -232,7 +239,8 @@ public class CreativeHUD extends Stage implements MiniListener {
case MUSIC_SELECTED: case MUSIC_SELECTED:
beatViewer.setMusic(null, null); beatViewer.setMusic(null, null);
volumeWindow.setMusic(null); volumeWindow.setMusic(null);
graphViewer.setData(null, null, null); bassUMgraphWindow.setData(null, null, null);
mGraphWindow.setData(null, null, null);
if (musicPlayBackControls.getAudiofile() != null) { if (musicPlayBackControls.getAudiofile() != null) {
musicPlayBackControls.getAudiofile().dispose(); musicPlayBackControls.getAudiofile().dispose();
} }
@ -258,11 +266,16 @@ public class CreativeHUD extends Stage implements MiniListener {
musicPlayBackControls.setAudiofile(analyzer.getAudioData()); musicPlayBackControls.setAudiofile(analyzer.getAudioData());
volumeWindow.setMusic(analyzer.getAudioData()); volumeWindow.setMusic(analyzer.getAudioData());
beatViewer.setMusic(analyzer.getAudioData(), analyzer); beatViewer.setMusic(analyzer.getAudioData(), analyzer);
graphViewer.setData(analyzer.getBassPeaks(), analyzer.getUMPeaks(), analyzer.getAudioData());
graphViewer.getGraph().avgG1 = analyzer.getBassAvg(); bassUMgraphWindow.setData(analyzer.getBassPeaks(), analyzer.getUMPeaks(), analyzer.getAudioData());
graphViewer.getGraph().normalDataG1 = analyzer.getBassMaxValue(); bassUMgraphWindow.getGraph().avgG1 = analyzer.getBassAvg();
graphViewer.getGraph().avgG2 = analyzer.getUmAvg(); bassUMgraphWindow.getGraph().normalDataG1 = analyzer.getBassMaxValue();
graphViewer.getGraph().normalDataG2 = analyzer.getUMMaxValue(); bassUMgraphWindow.getGraph().avgG2 = analyzer.getUmAvg();
bassUMgraphWindow.getGraph().normalDataG2 = analyzer.getUMMaxValue();
mGraphWindow.setData(analyzer.getmPeaks(), null, analyzer.getAudioData());
mGraphWindow.getGraph().normalDataG1 = analyzer.getmMaxValue();
mGraphWindow.getGraph().avgG1 = analyzer.getmAvg();
gpa.setAudioMap(mapGen.getMap()); gpa.setAudioMap(mapGen.getMap());
break; break;
default: default:

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@ -7,15 +7,15 @@ import com.badlogic.gdx.utils.FloatArray;
import zero1hd.polyjet.audio.AudioData; import zero1hd.polyjet.audio.AudioData;
import zero1hd.polyjet.ui.builders.AudioGraph; import zero1hd.polyjet.ui.builders.AudioGraph;
public class GraphWindow extends Window { public class BassUMGraphWindow extends Window {
AudioGraph graph; AudioGraph graph;
AudioData audioData; AudioData audioData;
public GraphWindow(String title, Skin skin) { public BassUMGraphWindow(String title, Skin skin) {
super(title, skin, "tinted"); super(title, skin, "tinted");
graph = new AudioGraph(300, 150); graph = new AudioGraph(300, 150);
add(graph); add(graph);
setSize(305, 155); pack();
} }
@Override @Override

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@ -0,0 +1,37 @@
package zero1hd.polyjet.ui.windows;
import com.badlogic.gdx.scenes.scene2d.ui.Skin;
import com.badlogic.gdx.scenes.scene2d.ui.Window;
import com.badlogic.gdx.utils.FloatArray;
import zero1hd.polyjet.audio.AudioData;
import zero1hd.polyjet.ui.builders.AudioGraph;
public class MGraphWindow extends Window {
private AudioGraph graph;
private AudioData audioData;
public MGraphWindow(String title, Skin skin) {
super(title, skin, "tinted");
graph = new AudioGraph(300, 150);
add(graph);
pack();
}
@Override
public void act(float delta) {
if (audioData != null) {
graph.setAudioDataIndex(audioData.getReadIndex());
}
super.act(delta);
}
public AudioGraph getGraph() {
return graph;
}
public void setData(FloatArray dataSet1, FloatArray dataSet2, AudioData audioData) {
this.audioData = audioData;
graph.setGraphingData(dataSet1, dataSet2);
}
}