Java Code Examples for org.jfree.data.xy.OHLCDataset#getVolumeValue()
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org.jfree.data.xy.OHLCDataset#getVolumeValue() .
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Example 1
Source File: CandlestickRenderer.java From openstock with GNU General Public License v3.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ @Override public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 2
Source File: CandlestickRenderer.java From ccu-historian with GNU General Public License v3.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ @Override public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 3
Source File: CandlestickRenderer.java From SIMVA-SoS with Apache License 2.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ @Override public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 4
Source File: CandlestickRenderer.java From ECG-Viewer with GNU General Public License v2.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ @Override public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 5
Source File: CandlestickRenderer.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 6
Source File: CandlestickRenderer.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 7
Source File: CandlestickRenderer.java From opensim-gui with Apache License 2.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 8
Source File: CandlestickRenderer.java From buffer_bci with GNU General Public License v3.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ @Override public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }
Example 9
Source File: CandlestickRenderer.java From buffer_bci with GNU General Public License v3.0 | 5 votes |
/** * Initialises the renderer then returns the number of 'passes' through the * data that the renderer will require (usually just one). This method * will be called before the first item is rendered, giving the renderer * an opportunity to initialise any state information it wants to maintain. * The renderer can do nothing if it chooses. * * @param g2 the graphics device. * @param dataArea the area inside the axes. * @param plot the plot. * @param dataset the data. * @param info an optional info collection object to return data back to * the caller. * * @return The number of passes the renderer requires. */ @Override public XYItemRendererState initialise(Graphics2D g2, Rectangle2D dataArea, XYPlot plot, XYDataset dataset, PlotRenderingInfo info) { // calculate the maximum allowed candle width from the axis... ValueAxis axis = plot.getDomainAxis(); double x1 = axis.getLowerBound(); double x2 = x1 + this.maxCandleWidthInMilliseconds; RectangleEdge edge = plot.getDomainAxisEdge(); double xx1 = axis.valueToJava2D(x1, dataArea, edge); double xx2 = axis.valueToJava2D(x2, dataArea, edge); this.maxCandleWidth = Math.abs(xx2 - xx1); // Absolute value, since the relative x // positions are reversed for horizontal orientation // calculate the highest volume in the dataset... if (this.drawVolume) { OHLCDataset highLowDataset = (OHLCDataset) dataset; this.maxVolume = 0.0; for (int series = 0; series < highLowDataset.getSeriesCount(); series++) { for (int item = 0; item < highLowDataset.getItemCount(series); item++) { double volume = highLowDataset.getVolumeValue(series, item); if (volume > this.maxVolume) { this.maxVolume = volume; } } } } return new XYItemRendererState(info); }