Plots to kotlin. Multiple fixes to control.
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@ -148,7 +148,7 @@ class PKT8Display : DeviceDisplay<PKT8Device>(), PKT8ValueListener {
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private val plotFrame: PlotFrame by lazy {
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JFreeChartFrame(plotFrameMeta).apply {
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plots.descriptor = Descriptors.buildDescriptor(TimePlot::class.java)
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PlotUtils.setXAxis(this, "timestamp", null, "time")
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PlotUtils.setXAxis(this, "timestamp", "", "time")
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}
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}
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@ -190,7 +190,9 @@ class PKT8Display : DeviceDisplay<PKT8Device>(), PKT8ValueListener {
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if (rawDataButton.isSelected) {
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TimePlot.put(this, rawValue)
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} else {
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TimePlot.put(this, temperature)
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if(temperature != null) {
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TimePlot.put(this, temperature)
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}
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}
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}
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}
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@ -25,9 +25,9 @@ import hep.dataforge.fx.plots.PlotContainer
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import hep.dataforge.meta.Meta
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import hep.dataforge.meta.MetaBuilder
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import hep.dataforge.plots.PlotFrame
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import hep.dataforge.plots.PlotGroup
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import hep.dataforge.plots.PlotUtils
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import hep.dataforge.plots.data.TimePlot
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import hep.dataforge.plots.data.TimePlottableGroup
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import hep.dataforge.plots.jfreechart.JFreeChartFrame
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import hep.dataforge.values.Value
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import inr.numass.control.DeviceDisplay
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@ -88,7 +88,7 @@ class MspDisplay() : DeviceDisplay<MspDevice>(), DeviceListener, NamedValueListe
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configure(plotFrameMeta)
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}
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}
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val plottables: TimePlottableGroup = TimePlottableGroup().apply {
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val plottables = PlotGroup().apply {
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if (plotFrameMeta.hasMeta("peakJump.peak")) {
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for (peakMeta in plotFrameMeta.getMetaList("peakJump.peak")) {
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val mass = peakMeta.getString("mass")
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@ -13,7 +13,6 @@ import hep.dataforge.control.measurements.MeasurementListener
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import hep.dataforge.fx.bindWindow
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import hep.dataforge.fx.fragments.LogFragment
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import hep.dataforge.plots.data.TimePlot
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import hep.dataforge.plots.data.TimePlottableGroup
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import hep.dataforge.values.Value
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import inr.numass.control.DeviceDisplay
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import inr.numass.control.deviceStateToggle
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@ -63,10 +63,10 @@ public class PlotFitResultAction extends OneToOneAction<FitResult, FitResult> {
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}
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PlotFrame frame = PlotUtils.getPlotManager(context)
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PlotFrame frame = PlotUtils.INSTANCE.getPlotManager(context)
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.getPlotFrame(getName(), name, metaData.getMeta("frame", Meta.empty()));
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XYFunctionPlot fit = new XYFunctionPlot("fit",(x) -> model.getSpectrum().value(x, input.getParameters()));
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XYFunctionPlot fit = new XYFunctionPlot("fit", Meta.empty(), (Double x) -> model.getSpectrum().value(x, input.getParameters()));
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fit.setDensity(100);
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fit.setSmoothing(true);
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// ensuring all data points are calculated explicitly
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@ -75,7 +75,7 @@ public class PlotFitResultAction extends OneToOneAction<FitResult, FitResult> {
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frame.add(fit);
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frame.add(DataPlot.plot("data", adapter, data));
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frame.add(DataPlot.Companion.plot("data", adapter, data));
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return input;
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}
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@ -280,7 +280,7 @@ fun FitResult.display(context: Context, stage: String = "fit") {
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val func = { x: Double -> model.spectrum.value(x, parameters) }
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val fit = XYFunctionPlot("fit", func)
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val fit = XYFunctionPlot("fit", function = func)
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fit.density = 100
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// ensuring all data points are calculated explicitly
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data.rows.map { dp -> Adapters.getXValue(adapter, dp).doubleValue() }.sorted().forEach { fit.calculateIn(it) }
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@ -75,14 +75,13 @@ class TimeAnalyzerAction : OneToOneAction<NumassPoint, Table>() {
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}
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}
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val histogramPlot = DataPlot(name)
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val histogramPlot = DataPlot(name, adapter = Adapters.buildXYAdapter("x", "count"))
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.configure {
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"showLine" to true
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"showSymbol" to false
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"showErrors" to false
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"connectionType" to "step"
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}.apply {
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adapter = Adapters.buildXYAdapter("x", "count")
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configure(inputMeta.getMetaOrEmpty("histogram"))
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}.fillData(histogram)
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@ -251,7 +251,7 @@ val plotFitTask = task("plotFit") {
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val frame = PlotUtils.getPlotManager(context)
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.getPlotFrame("numass.plotFit", name, meta.getMeta("frame", Meta.empty()))
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val fit = XYFunctionPlot("fit", function).apply {
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val fit = XYFunctionPlot("fit", function = function).apply {
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density = 100
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}
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@ -32,7 +32,7 @@ public class TransmissionInterpolatorTest {
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//JFreeChartFrame.drawFrame("TransmissionInterpolatorTest", null);
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TransmissionInterpolator interpolator = TransmissionInterpolator.fromFile(Global.INSTANCE,
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"d:\\sterile-new\\loss2014-11\\.dataforge\\merge\\empty_sum.onComplete", "Uset", "CR", 15, 0.8, 19002d);
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frame.add(DataPlot.plot("data", interpolator.getX(), interpolator.getY()));
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frame.add(DataPlot.Companion.plot("data", interpolator.getX(), interpolator.getY()));
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frame.add(XYFunctionPlot.Companion.plot("interpolated", interpolator.getXmin(), interpolator.getXmax(), 2000, interpolator::value));
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// PrintFunction.printFuntionSimple(new PrintWriter(System.onComplete), interpolator, interpolator.getXmin(), interpolator.getXmax(), 500);
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