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Android 3D Simple Bubble Chart
// Android Chart Examples
SciChart Android ships with ~90 Android Chart Examples which you can browse, play with, view the source-code and even export each SciChart Android Chart Example to a stand-alone Android Studio project. All of this is possible with the new and improved SciChart Android Examples Suite, which ships as part of our Android Charts SDK.
Demonstrates how to use ScatterRenderableSeries3D type and create a 3D Bubble Android Charts with SciChart Android Chart Library. The ScatterRenderableSeries3D requires a pointmarker, that defines a shape of scatters. ScatterRenderableSeries3D supports multiple types of pointmarkers for both in 2D and 3D. In 3D charts those include: SpherePointMarker3D, CubePointMarker3D, PyramidPointMarker3D, CylinderPointMarker3D.
You may also customize scatters’ Size and Colors.
Read more in the Android Scatter 3D Chart Type Documentation.
// Source Code
The full source code for the Android 3D Simple Bubble Chart example is included below (Scroll down!).
Did you know you can also view the source code from one of the following sources as well?
- Clone the SciChart.Android.Examples from Github.
- Or, view source and export each example to an Android Studio project from the Java version of the SciChart Android Examples app.
- Also the SciChart Android Trial contains the full source for the examples (link below).
The SciChart Examples source code is available on Github and viewable in-app for some platforms
// Kotlin: Bubble3DChartFragment.kt
//******************************************************************************
// SCICHART® Copyright SciChart Ltd. 2011-2021. All rights reserved.
//
// Web: http://www.scichart.com
// Support: support@scichart.com
// Sales: sales@scichart.com
//
// Bubble3DChartFragment.kt is part of SCICHART®, High Performance Scientific Charts
// For full terms and conditions of the license, see http://www.scichart.com/scichart-eula/
//
// This source code is protected by international copyright law. Unauthorized
// reproduction, reverse-engineering, or distribution of all or any portion of
// this source code is strictly prohibited.
//
// This source code contains confidential and proprietary trade secrets of
// SciChart Ltd., and should at no time be copied, transferred, sold,
// distributed or made available without express written permission.
//******************************************************************************
package com.scichart.examples.fragments.examples3d.basicChartTypes.kt
import com.scichart.charting3d.visuals.SciChartSurface3D
import com.scichart.charting3d.visuals.renderableSeries.metadataProviders.PointMetadataProvider3D
import com.scichart.charting3d.visuals.renderableSeries.metadataProviders.PointMetadataProvider3D.PointMetadata3D
import com.scichart.data.model.DoubleRange
import com.scichart.drawing.utility.ColorUtil
import com.scichart.examples.data.DataManager
import com.scichart.examples.fragments.base.ExampleSingleChart3DBaseFragment
import com.scichart.examples.utils.scichartExtensions.*
class Bubble3DChartFragment : ExampleSingleChart3DBaseFragment() {
override fun initExample(surface3d: SciChartSurface3D) {
val dataManager = DataManager.getInstance()
val pointMetaDataProvider = PointMetadataProvider3D()
surface3d.suspendUpdates {
xAxis = numericAxis3D { growBy = DoubleRange(0.1, 0.1) }
yAxis = numericAxis3D { growBy = DoubleRange(0.1, 0.1) }
zAxis = numericAxis3D { growBy = DoubleRange(0.1, 0.1) }
renderableSeries {
scatterRenderableSeries3D {
xyzDataSeries3D<Double, Double, Double> {
val metadata = pointMetaDataProvider.metadata
for (i in 0 until 250) {
val x = dataManager.getGaussianRandomNumber(5.0, 1.5)
val y = dataManager.getGaussianRandomNumber(5.0, 1.5)
val z = dataManager.getGaussianRandomNumber(5.0, 1.5)
append(x, y, z)
metadata.add(PointMetadata3D(dataManager.randomColor, dataManager.randomScale))
}
}
spherePointMarker3D { fill = ColorUtil.Lime; size = 2f }
metadataProvider = pointMetaDataProvider
}
}
chartModifiers { defaultModifiers3D() }
}
}
}// Java: Bubble3DChartFragment.java
//******************************************************************************
// SCICHART® Copyright SciChart Ltd. 2011-2021. All rights reserved.
//
// Web: http://www.scichart.com
// Support: support@scichart.com
// Sales: sales@scichart.com
//
// CreateBubble3DChartFragment.java is part of SCICHART®, High Performance Scientific Charts
// For full terms and conditions of the license, see http://www.scichart.com/scichart-eula/
//
// This source code is protected by international copyright law. Unauthorized
// reproduction, reverse-engineering, or distribution of all or any portion of
// this source code is strictly prohibited.
//
// This source code contains confidential and proprietary trade secrets of
// SciChart Ltd., and should at no time be copied, transferred, sold,
// distributed or made available without express written permission.
//******************************************************************************
package com.scichart.examples.fragments.examples3d.basicChartTypes;
import androidx.annotation.NonNull;
import com.scichart.charting3d.model.dataSeries.xyz.XyzDataSeries3D;
import com.scichart.charting3d.visuals.SciChartSurface3D;
import com.scichart.charting3d.visuals.axes.NumericAxis3D;
import com.scichart.charting3d.visuals.pointMarkers.SpherePointMarker3D;
import com.scichart.charting3d.visuals.renderableSeries.metadataProviders.PointMetadataProvider3D;
import com.scichart.charting3d.visuals.renderableSeries.metadataProviders.PointMetadataProvider3D.PointMetadata3D;
import com.scichart.charting3d.visuals.renderableSeries.scatter.ScatterRenderableSeries3D;
import com.scichart.core.framework.UpdateSuspender;
import com.scichart.drawing.utility.ColorUtil;
import com.scichart.examples.data.DataManager;
import com.scichart.examples.fragments.base.ExampleSingleChart3DBaseFragment;
import java.util.List;
public class Bubble3DChartFragment extends ExampleSingleChart3DBaseFragment {
@Override
protected void initExample(@NonNull SciChartSurface3D surface3d) {
final DataManager dataManager = DataManager.getInstance();
final NumericAxis3D xAxis = sciChart3DBuilder.newNumericAxis3D().withGrowBy(0.1, 0.1).build();
final NumericAxis3D yAxis = sciChart3DBuilder.newNumericAxis3D().withGrowBy(0.1, 0.1).build();
final NumericAxis3D zAxis = sciChart3DBuilder.newNumericAxis3D().withGrowBy(0.1, 0.1).build();
final XyzDataSeries3D<Double, Double, Double> xyzDataSeries3D = new XyzDataSeries3D<>(Double.class, Double.class, Double.class);
final PointMetadataProvider3D metadataProvider = new PointMetadataProvider3D();
final List<PointMetadata3D> metadata = metadataProvider.metadata;
for (int i = 0; i < 250; i++) {
final double x = dataManager.getGaussianRandomNumber(5, 1.5);
final double y = dataManager.getGaussianRandomNumber(5, 1.5);
final double z = dataManager.getGaussianRandomNumber(5, 1.5);
xyzDataSeries3D.append(x, y, z);
metadata.add(new PointMetadata3D(dataManager.getRandomColor(), dataManager.getRandomScale()));
}
final SpherePointMarker3D pointMarker = sciChart3DBuilder.newSpherePointMarker3D()
.withFill(ColorUtil.LimeGreen)
.withSize(2f)
.build();
final ScatterRenderableSeries3D rs = sciChart3DBuilder.newScatterSeries3D()
.withDataSeries(xyzDataSeries3D)
.withPointMarker(pointMarker)
.withMetadataProvider(metadataProvider)
.build();
UpdateSuspender.using(surface3d, () -> {
surface3d.setXAxis(xAxis);
surface3d.setYAxis(yAxis);
surface3d.setZAxis(zAxis);
surface3d.getRenderableSeries().add(rs);
surface3d.getChartModifiers().add(sciChart3DBuilder.newModifierGroupWithDefaultModifiers().build());
});
}
}