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https://github.com/PAMGuard/PAMGuard.git
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Merge branch 'main' of https://github.com/macster110/PAMGuard
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commit
f4a8f6c0b9
@ -79,6 +79,18 @@ public class TDGraphParametersFX implements Serializable, Cloneable, ManagedPara
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* Used only when saving as Color (javafx) is not serializable.
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*/
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public String plotFillS = "white";
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/**
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* Show the hide panel on the left on start up. Note only used when first opening
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* saved settings or saving settings.
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*/
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public boolean showHidePaneLeft = true;
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/**
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* Show the hide panel on the right on start up. Note only used when first opening
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* saved settings or saving settings.
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*/
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public boolean showHidePaneRight = false;
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/* (non-Javadoc)
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@ -350,8 +350,8 @@ public class TDGraphFX extends PamBorderPane {
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setOverlayColour(LIGHT_TD_DISPLAY);
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//show the left hiding pane byu default.
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stackPane.getLeftHidingPane().showHidePane(true);
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// //show the left hiding pane byu default.
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// stackPane.getLeftHidingPane().showHidePane(true);
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}
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/**
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@ -1699,8 +1699,7 @@ public class TDGraphFX extends PamBorderPane {
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/**
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* A bit different to the standard getter in that this only gets called just
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* before the configuration is serialized into the .psf. It's time to pull any
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* configuration information out about every line drawn on this boomin' thing !
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* before the configuration is serialized into the .psfx.
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*
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* @return graph parameters ready to serialised.
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*/
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@ -1733,6 +1732,11 @@ public class TDGraphFX extends PamBorderPane {
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graphParameters.setScaleInfoData(scaleInfo.getDataTypeInfo(), scaleInfo.getScaleInfoData());
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}
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}
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//Finally save whether the hiding panels are open or not.
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graphParameters.showHidePaneLeft = stackPane.getLeftHidingPane().isShowing();
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graphParameters.showHidePaneRight = stackPane.getRightHidingPane().isShowing();
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}
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return graphParameters;
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@ -1816,6 +1820,11 @@ public class TDGraphFX extends PamBorderPane {
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tdAxisSelPane.remakePane();
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tdAxisSelPane.selectAxisType();
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setAxisName(graphParameters.currentDataType);
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//Open hide panes if needed.
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//Finally save whether the hiding panels are open or not.
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stackPane.getLeftHidingPane().showHidePane(graphParameters.showHidePaneLeft);
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stackPane.getRightHidingPane().showHidePane(graphParameters.showHidePaneRight);
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}
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@ -2,6 +2,7 @@ package dataPlotsFX.rawClipDataPlot;
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import java.awt.geom.Path2D;
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import java.io.Serializable;
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import java.util.ArrayList;
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import java.util.Arrays;
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@ -14,7 +15,7 @@ import PamguardMVC.PamDataUnit;
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import PamguardMVC.RawDataHolder;
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import clipgenerator.ClipSpectrogram;
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import dataPlotsFX.TDSymbolChooserFX;
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import dataPlotsFX.clickPlotFX.ClickSymbolChooserFX;
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import dataPlotsFX.clickPlotFX.ClickDisplayParams;
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import dataPlotsFX.data.TDDataProviderFX;
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import dataPlotsFX.data.TDScaleInfo;
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import dataPlotsFX.data.generic.GenericDataPlotInfo;
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@ -255,6 +256,36 @@ public class RawClipDataInfo extends GenericDataPlotInfo {
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// TODO Auto-generated method stub
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}
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/* (non-Javadoc)
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* @see dataPlots.data.TDDataInfo#getStoredSettings()
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*/
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@Override
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public Serializable getStoredSettings() {
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return rawClipParams;
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}
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/* (non-Javadoc)
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* @see dataPlots.data.TDDataInfo#setStoredSettings(java.io.Serializable)
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*/
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@Override
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public boolean setStoredSettings(Serializable storedSettings) {
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if (RawClipParams.class.isAssignableFrom(storedSettings.getClass())) {
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rawClipParams = (RawClipParams) storedSettings;
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updateSettings();
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return true;
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}
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return false;
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}
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/**
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* Called whenever settings are updated.
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*/
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private void updateSettings() {
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// TODO Auto-generated method stub
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}
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}
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@ -37,6 +37,13 @@ public class RawDLParams implements Serializable, Cloneable {
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* Holds channel and grouping information
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*/
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public GroupedSourceParameters groupedSourceParams = new GroupedSourceParameters();
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/**
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* True to enable segmentation. If segmentation is disabled then the raw waveform from
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* a data unit is passed directly to the model. Note that this is not an option for raw sound
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* data.
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*/
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public boolean enableSegmentation = true;
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/**
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* The number of raw samples to send to the classifier.
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@ -85,7 +92,7 @@ public class RawDLParams implements Serializable, Cloneable {
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* different class names. If we change model then the class names may change.
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* Previously annotated data will then be messed up. But, in a giant dataset
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* that may be an issue. Perhaps users wish to run a new model on some chunk of
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* data without messing up all the other classified detectionS which have used
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* data without messing up all the other classified detections which have used
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* that module. So store the data in binary files? That is super inefficient as
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* the same string is stored many times. So instead store a short which
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* identifies the string that sits in this table. Everytime a new model is added
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@ -141,12 +141,12 @@ public class DLPredictonPane extends DynamicSettingsPane<DLPredictionFilterParam
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@Override
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public DLPredictionFilterParams getParams(DLPredictionFilterParams currParams) {
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if (classPanes==null) return currParams;
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for (int i=0; i<classPanes.length ; i++) {
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currParams.classSelect[i] = classPanes[i].enable.isSelected();
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currParams.minClassPredicton[i] = classPanes[i].slider.getValue();
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}
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return currParams;
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}
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@ -382,6 +382,7 @@ public class DelphinIDUtils {
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// String modelPath = "/Users/au671271/Library/CloudStorage/Dropbox/PAMGuard_dev/Deep_Learning/delphinID/testencounter415/whistle_model_2/whistle_4s_415.zip";
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String modelPath = "D:/Dropbox/PAMGuard_dev/Deep_Learning/delphinID/testencounter415/whistle_model_2/whistle_4s_415.zip";
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//line widths in pixels
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double[] lineWidths = new double[] {6, 7, 10, 15, 20};
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for (double lineWidth:lineWidths) {
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@ -117,7 +117,7 @@ public class GenericModelWorker extends DLModelWorker<StandardPrediction> {
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((GenericModelParams) genericParams).defaultShape = longArr2Long(genericModel.getInputShape().getShape());
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((GenericModelParams) genericParams).defualtOuput = longArr2Long(genericModel.getOutShape().getShape());
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}
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catch (Exception e) {
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@ -486,9 +486,17 @@ public class SegmenterProcess extends PamProcess {
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//pass the raw click data to the segmenter
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for (int i=0;i<chans.length; i++) {
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newRawData(pamDataUnit,
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rawDataChunk[i], chans[i], true);
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if (dlControl.getDLParams().enableSegmentation) {
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//segment the data unit into different chunks.
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newRawData(pamDataUnit,
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rawDataChunk[i], chans[i], dlControl.getDLParams().rawSampleSize, dlControl.getDLParams().sampleHop, true);
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}
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else {
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//send the whole data chunk to the deep learning unit
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newRawData(pamDataUnit,
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rawDataChunk[i], chans[i], rawDataChunk[i].length, rawDataChunk[i].length, true);
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}
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//the way that the newRawdata works is it waits for the next chunk and copies all relevant bits
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//from previous chunks into segments. This is fine for continuous data but means that chunks of data
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//don't get their last hop...
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@ -512,7 +520,7 @@ public class SegmenterProcess extends PamProcess {
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* @param iChan - the channel that is being segmented
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*/
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public void newRawData(PamDataUnit unit, double[] rawDataChunk, int iChan) {
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newRawData(unit, rawDataChunk, iChan, false);
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newRawData(unit, rawDataChunk, iChan, dlControl.getDLParams().rawSampleSize ,dlControl.getDLParams().sampleHop , false);
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}
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/**
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@ -523,15 +531,17 @@ public class SegmenterProcess extends PamProcess {
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*
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* @param unit - the data unit which contains relevant metadata on time
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* etc.
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* @param rawDataChunk - the sound chunk to segment extracted from the data
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* @param rawDataChunk - the sound chunk extracted from the data
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* unit.
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* @param iChan - the channel that is being segmented
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* @param rawSampleSize - the segment size in samples i.e. the size of the segmenting window.
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* @param rawSampleHop - the segment hop in samples i.e. how far the window jumps for each segment.
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* @param forceSave - make sure that all data is passed into the buffers and
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* do not wait for the next data unit. This is used to make
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* sure that discrete chunks have their full number of
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* segments saved.
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*/
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public synchronized void newRawData(PamDataUnit unit, double[] rawDataChunk, int iChan, boolean forcesave) {
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public synchronized void newRawData(PamDataUnit unit, double[] rawDataChunk, int iChan, int rawSampleSize, int rawSampleHop, boolean forcesave) {
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long timeMilliseconds = unit.getTimeMilliseconds();
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long startSampleTime = unit.getStartSample();
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@ -555,7 +565,7 @@ public class SegmenterProcess extends PamProcess {
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if (currentRawChunks[i]==null) {
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//create a new data unit - should only be called once after initial start.
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currentRawChunks[i] = new GroupedRawData(timeMilliseconds, getSourceParams().getGroupChannels(i),
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startSampleTime, dlControl.getDLParams().rawSampleSize, dlControl.getDLParams().rawSampleSize);
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startSampleTime, rawSampleSize, rawSampleSize);
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currentRawChunks[i].setParentDataUnit(unit);;
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}
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@ -615,7 +625,7 @@ public class SegmenterProcess extends PamProcess {
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//segments which do not include any last zero padded segmen- zeros can confuse deep learning models so it may be better to keep use
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//this instead of zero padding end chunks.
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int nChunks = (int) Math.ceil((overFlow)/(double) dlControl.getDLParams().sampleHop);
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int nChunks = (int) Math.ceil((overFlow)/(double) rawSampleHop);
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nChunks = Math.max(nChunks, 1); //cannot be less than one (if forceSave is used then can be zero if no overflow)
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nextRawChunks[i]=new GroupedRawData[nChunks];
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@ -638,11 +648,11 @@ public class SegmenterProcess extends PamProcess {
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//go from current raw chunks tim millis to try and minimise compounding time errors.
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// long timeMillis = (long) (currentRawChunks[i].getTimeMilliseconds() + j*(1000.*(dlControl.getDLParams().sampleHop)/this.getSampleRate()));
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long startSample = lastRawDataChunk.getStartSample() + dlControl.getDLParams().sampleHop;
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long startSample = lastRawDataChunk.getStartSample() + rawSampleHop;
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long timeMillis = this.absSamplesToMilliseconds(startSample);
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nextRawChunks[i][j] = new GroupedRawData(timeMillis, getSourceParams().getGroupChannels(i),
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startSample, dlControl.getDLParams().rawSampleSize, dlControl.getDLParams().rawSampleSize);
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startSample, rawSampleSize, rawSampleSize);
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nextRawChunks[i][j].setParentDataUnit(unit);
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}
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31
src/test/rawDeepLearningClassifier/ClickDLTest.java
Normal file
31
src/test/rawDeepLearningClassifier/ClickDLTest.java
Normal file
@ -0,0 +1,31 @@
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package test.rawDeepLearningClassifier;
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import org.junit.jupiter.api.Test;
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import rawDeepLearningClassifier.dlClassification.genericModel.GenericModelParams;
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import rawDeepLearningClassifier.dlClassification.genericModel.GenericModelWorker;
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public class ClickDLTest {
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@Test
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public void clickDLTest() {
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//relative paths to the resource folders.
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System.out.println("*****Click classification Deep Learning*****");
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//relative paths to the resource folders.
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String relModelPath = "D:/Dropbox/PAMGuard_dev/Deep_Learning/click_classifier_Thomas/best_model/saved_model.pb";
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GenericModelWorker genericModelWorker = new GenericModelWorker();
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GenericModelParams genericModelParams = new GenericModelParams();
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genericModelParams.modelPath = relModelPath;
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genericModelWorker.prepModel(genericModelParams, null);
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}
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}
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@ -5,8 +5,8 @@ import org.junit.jupiter.api.Test;
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public class PamZipDLClassifierTest {
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/**
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* Test the koogu classifier and tests are working properly. This tests loading the koogu model and also using
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* functions in KooguWorker.
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* Test the koogu classifier and tests are working properly for a PAMGuard zip model - i.e. this is a very similar model to Koogu but zipped with a .zip
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* filename instead of .kgu.
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*/
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@Test
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public void zipClassifierTest() {
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@ -20,5 +20,8 @@ public class PamZipDLClassifierTest {
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//metadata says it should be used with Koogu classifier.
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KooguDLClassifierTest.runKooguClassifier( relModelPath, relWavPath, relMatPath);
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}
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}
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