view flys-artifacts/src/main/java/de/intevation/flys/jfree/EnhancedLineAndShapeRenderer.java @ 4205:0dd8963cec9c

Set also the width of the GaugeTree when resizing the GaugePanel GWT is no longer able to calculate and set the correct width of the GaugeTree since the GaugeTree is added via a Canvas wrapper. Therefore set the width manually when resizing the GaugeTree.
author Björn Ricks <bjoern.ricks@intevation.de>
date Mon, 22 Oct 2012 15:33:16 +0200
parents f2a5fe968b98
children
line wrap: on
line source
package de.intevation.flys.jfree;

import java.awt.Color;
import java.awt.Font;
import java.awt.Graphics2D;
import java.awt.Paint;
import java.awt.Shape;
import java.awt.geom.Rectangle2D;
import java.util.HashMap;
import java.util.Map;

import org.apache.log4j.Logger;
import org.jfree.chart.axis.ValueAxis;
import org.jfree.chart.entity.EntityCollection;
import org.jfree.chart.plot.CrosshairState;
import org.jfree.chart.plot.PlotOrientation;
import org.jfree.chart.plot.XYPlot;
import org.jfree.chart.renderer.xy.XYLineAndShapeRenderer;
import org.jfree.data.xy.XYDataset;
import org.jfree.data.xy.XYSeries;
import org.jfree.data.xy.XYSeriesCollection;
import org.jfree.text.TextUtilities;
import org.jfree.ui.RectangleEdge;
import org.jfree.ui.TextAnchor;
import org.jfree.util.BooleanList;
import org.jfree.util.ShapeUtilities;

/**
 * Renderer with additional the additional functionality of renderering minima
 * and/or maxima of dataseries contained in datasets.
 */
public class EnhancedLineAndShapeRenderer extends XYLineAndShapeRenderer {

    /**
     *
     */
    private static final long serialVersionUID = 1L;

    /** Own logger. */
    private static final Logger logger =
        Logger.getLogger(EnhancedLineAndShapeRenderer.class);

    protected BooleanList isMinimumShapeVisible;
    protected BooleanList isMaximumShapeVisible;
    protected BooleanList showLineLabel;

    protected Map<Integer, Double> seriesMinimum;
    protected Map<Integer, Double> seriesMinimumX;
    protected Map<Integer, Double> seriesMaximum;

    protected Map<Integer, Font> lineLabelFonts;
    protected Map<Integer, Color> lineLabelTextColors;
    protected BooleanList showLineLabelBG;
    protected Map<Integer, Color> lineLabelBGColors;


    public EnhancedLineAndShapeRenderer(boolean lines, boolean shapes) {
        super(lines, shapes);
        this.isMinimumShapeVisible = new BooleanList();
        this.isMaximumShapeVisible = new BooleanList();
        this.showLineLabel         = new BooleanList();
        this.showLineLabelBG       = new BooleanList();
        this.seriesMinimum         = new HashMap<Integer, Double>();
        this.seriesMaximum         = new HashMap<Integer, Double>();
        this.seriesMinimumX        = new HashMap<Integer, Double>();
        this.lineLabelFonts        = new HashMap<Integer, Font>();
        this.lineLabelTextColors   = new HashMap<Integer, Color>();
        this.lineLabelBGColors     = new HashMap<Integer, Color>();
    }


    /**
     * Draw a background-box of a text to render.
     * @param g2 graphics device to use
     * @param text text to draw
     * @param textX x-position for text
     * @param textY y-position for text
     * @param bgColor color to fill box with.
     */
    public static void drawTextBox(Graphics2D g2,
        String text, float textX, float textY, Color bgColor
    ) {
        Rectangle2D hotspotBox = g2.getFontMetrics().getStringBounds(text, g2);
        float w = (float) hotspotBox.getWidth(), h = (float) hotspotBox.getHeight();
        hotspotBox.setRect(textX, textY-h, w, h);
        Color oldColor = g2.getColor();
        g2.setColor(bgColor);
        g2.fill(hotspotBox);
        g2.setColor(oldColor);
    }


    /**
     * Whether or not a specific item in a series (maybe the maxima) should
     * be rendered with shape.
     */
    public boolean getItemShapeVisible(XYDataset dataset, int series, int item){
        if (super.getItemShapeVisible(series, item)) {
            return true;
        }

        if (isMinimumShapeVisible(series) && isMinimum(dataset, series, item)) {
            return true;
        }

        if (isMaximumShapeVisible(series) && isMaximum(dataset, series, item)) {
            return true;
        }

        return false;
    }


    /**
     * Rectangle used to draw maximums shape.
     */
    public Shape getMaximumShape(int series, int column) {
        return new Rectangle2D.Double(-5d, -5d, 10d, 10d);
    }


    /**
     * Rectangle used to draw minimums shape.
     */
    public Shape getMinimumShape(int series, int column) {
        return new Rectangle2D.Double(-5d, -5d, 10d, 10d);
    }


    /** Get fill paint for the maximum indicators. */
    public Paint getMaximumFillPaint(int series, int column) {
        Paint p = getItemPaint(series, column);

        if (p instanceof Color) {
            Color c = (Color) p;
            Color b = c;

            for (int i = 0; i < 2; i++) {
                b = b.darker();
            }

            return b;
        }

        logger.warn("Item paint is no instance of Color!");
        return p;
    }


    /** Get fill paint for the minimum indicators. */
    public Paint getMinimumFillPaint(int series, int column) {
        Paint p = getItemPaint(series, column);

        if (p instanceof Color) {
            Color c = (Color) p;
            Color b = c;

            for (int i = 0; i < 2; i++) {
                b = b.darker();
            }

            return b;
        }

        logger.warn("Item paint is no instance of Color!");
        return p;
    }


    /**
     * Overrides XYLineAndShapeRenderer.drawSecondaryPass() to call an adapted
     * method getItemShapeVisible() which now takes an XYDataset. So, 99% of
     * code equal the code in XYLineAndShapeRenderer.
     */
    @Override
    protected void drawSecondaryPass(
        Graphics2D       g2,
        XYPlot           plot,
        XYDataset        dataset,
        int              pass,
        int              series,
        int              item,
        ValueAxis        domainAxis,
        Rectangle2D      dataArea,
        ValueAxis        rangeAxis,
        CrosshairState   crosshairState,
        EntityCollection entities
    ) {
        Shape entityArea = null;

        // get the data point...
        double x1 = dataset.getXValue(series, item);
        double y1 = dataset.getYValue(series, item);
        if (Double.isNaN(y1) || Double.isNaN(x1)) {
            return;
        }

        PlotOrientation orientation = plot.getOrientation();
        RectangleEdge xAxisLocation = plot.getDomainAxisEdge();
        RectangleEdge yAxisLocation = plot.getRangeAxisEdge();
        double transX1 = domainAxis.valueToJava2D(x1, dataArea, xAxisLocation);
        double transY1 = rangeAxis.valueToJava2D(y1, dataArea, yAxisLocation);

        if (getItemShapeVisible(dataset, series, item)) {
            Shape shape = null;

            // OPTIMIZE: instead of calculating minimum and maximum for every
            //           point, calculate it just once (assume that dataset
            //           content does not change during rendering).
            // NOTE:     Above OPTIMIZE might already be fulfilled to most extend.
            boolean isMinimum = isMinimumShapeVisible(series)
                && isMinimum(dataset, series, item);

            boolean isMaximum = isMaximumShapeVisible(series)
                && isMaximum(dataset, series, item);

            if (isMinimum) {
                logger.debug("Create a Minimum shape.");
                shape = getMinimumShape(series, item);
            }
            else if (isMaximum) {
                logger.debug("Create a Maximum shape.");
                shape = getMaximumShape(series, item);
            }
            else {
                shape = getItemShape(series, item);
            }

            if (orientation == PlotOrientation.HORIZONTAL) {
                shape = ShapeUtilities.createTranslatedShape(shape, transY1,
                        transX1);
            }
            else if (orientation == PlotOrientation.VERTICAL) {
                shape = ShapeUtilities.createTranslatedShape(shape, transX1,
                        transY1);
            }
            entityArea = shape;
            if (shape.intersects(dataArea)) {
                if (getItemShapeFilled(series, item)) {
                    if (getUseFillPaint()) {
                        g2.setPaint(getItemFillPaint(series, item));
                    }
                    else {
                        g2.setPaint(getItemPaint(series, item));
                    }
                    g2.fill(shape);
                }
                if (getDrawOutlines()) {
                    if (getUseOutlinePaint()) {
                        g2.setPaint(getItemOutlinePaint(series, item));
                    }
                    else {
                        g2.setPaint(getItemPaint(series, item));
                    }
                    g2.setStroke(getItemOutlineStroke(series, item));
                    g2.draw(shape);
                }

                if (isMinimum) {
                    g2.setPaint(getMinimumFillPaint(series, item));
                    g2.fill(shape);
                    g2.setPaint(getItemOutlinePaint(series, item));
                    g2.setStroke(getItemOutlineStroke(series, item));
                    g2.draw(shape);
                }
                else if (isMaximum) {
                    g2.setPaint(getMaximumFillPaint(series, item));
                    g2.fill(shape);
                    g2.setPaint(getItemOutlinePaint(series, item));
                    g2.setStroke(getItemOutlineStroke(series, item));
                    g2.draw(shape);
                }
            }
        } // if (getItemShapeVisible(dataset, series, item))

        double xx = transX1;
        double yy = transY1;
        if (orientation == PlotOrientation.HORIZONTAL) {
            xx = transY1;
            yy = transX1;
        }

        // Draw the item label if there is one...
        if (isItemLabelVisible(series, item)) {
            drawItemLabel(g2, orientation, dataset, series, item, xx, yy,
                    (y1 < 0.0));
        }

        // Draw label of line.
        if (dataset instanceof XYSeriesCollection
            && isShowLineLabel(series)
            && isMinimumX (dataset, series, item)
            ) {
            XYSeries xYSeries = ((XYSeriesCollection) dataset).getSeries(series);
            String waterlevelLabel = (xYSeries instanceof HasLabel)
                ? ((HasLabel)xYSeries).getLabel()
                : xYSeries.getKey().toString();
            // TODO Force water of some German rivers to flow direction mountains.

            Font oldFont = g2.getFont();

            Color oldColor = g2.getColor();
            g2.setFont(this.getLineLabelFont(series));
            g2.setColor(this.getLineLabelTextColor(series));
            g2.setBackground(Color.black);

            // Try to always display label if the data is visible.
            if (!isPointInRect(dataArea, xx, yy)) {
                // Move into the data area.
                xx = Math.max(xx, dataArea.getMinX());
                xx = Math.min(xx, dataArea.getMaxX());
                yy = Math.max(yy, dataArea.getMinY());
                yy = Math.min(yy, dataArea.getMaxY());
            }

            // Move to right until no collisions exist anymore
            Shape hotspot = TextUtilities.calculateRotatedStringBounds(
                waterlevelLabel, g2, (float)xx, (float)yy-3f,
                TextAnchor.CENTER_LEFT,
                0f, TextAnchor.CENTER_LEFT);
            while (JFreeUtil.collides(hotspot, entities,
                                      CollisionFreeLineLabelEntity.class)) {
                xx += 5f;
                hotspot = TextUtilities.calculateRotatedStringBounds(
                    waterlevelLabel, g2, (float)xx, (float)yy-3f, TextAnchor.CENTER_LEFT,
                    0f, TextAnchor.CENTER_LEFT);
            }

            // Register to avoid collissions.
            entities.add(new CollisionFreeLineLabelEntity(hotspot,
                1, "", ""));

            // Fill background.
            if (isShowLineLabelBG(series)) {
                drawTextBox(g2, waterlevelLabel, (float)xx, (float)yy-3f,
                    getLineLabelBGColor(series));
            }

            g2.drawString(waterlevelLabel, (float)xx, (float)yy-3f);

            g2.setFont(oldFont);
            g2.setColor(oldColor);
        }

        int domainAxisIndex = plot.getDomainAxisIndex(domainAxis);
        int rangeAxisIndex = plot.getRangeAxisIndex(rangeAxis);
        updateCrosshairValues(crosshairState, x1, y1, domainAxisIndex,
                rangeAxisIndex, transX1, transY1, orientation);

        // Add an entity for the item, but only if it falls within the data
        // area...
        if (entities != null && isPointInRect(dataArea, xx, yy)) {
            addEntity(entities, entityArea, dataset, series, item, xx, yy);
        }
    }


    /**
     * Sets whether or not the minimum should be rendered with shape.
     */
    public void setIsMinimumShapeVisisble(int series, boolean isVisible) {
        this.isMinimumShapeVisible.setBoolean(series, isVisible);
    }


    /**
     * Whether or not the minimum should be rendered with shape.
     */
    public boolean isMinimumShapeVisible(int series) {
        if (this.isMinimumShapeVisible.size() <= series) {
            return false;
        }

        return isMinimumShapeVisible.getBoolean(series);
    }


    /**
     * Sets whether or not the maximum should be rendered with shape.
     */
    public void setIsMaximumShapeVisible(int series, boolean isVisible) {
        this.isMaximumShapeVisible.setBoolean(series, isVisible);
    }


    /**
     * Whether or not the maximum should be rendered with shape.
     */
    public boolean isMaximumShapeVisible(int series) {
        if (this.isMaximumShapeVisible.size() <= series) {
            return false;
        }

        return isMaximumShapeVisible.getBoolean(series);
    }

    /** Whether or not a label should be shown for series. */
    public boolean isShowLineLabel(int series) {
        if (this.showLineLabel.size() <= series) {
            return false;
        }

        return showLineLabel.getBoolean(series);
    }


    /** Sets whether or not a label should be shown for series. */
    public void setShowLineLabel(boolean showLineLabel, int series) {
        this.showLineLabel.setBoolean(series, showLineLabel);
    }


    /** Whether or not a label should be shown for series. */
    public boolean isShowLineLabelBG(int series) {
        if (this.showLineLabelBG.size() <= series) {
            return false;
        }

        return showLineLabelBG.getBoolean(series);
    }


    public void setShowLineLabelBG(int series, boolean doShow) {
        this.showLineLabelBG.setBoolean(series, doShow);
    }

    public Color getLineLabelBGColor(int series) {
        if (this.lineLabelBGColors.size() <= series) {
            return null;
        }

        return this.lineLabelBGColors.get(series);
    }

    public void setLineLabelBGColor(int series, Color color) {
        this.lineLabelBGColors.put(series, color);
    }

    public Color getLineLabelTextColor(int series) {
        if (this.lineLabelTextColors.size() <= series) {
            return null;
        }

        return this.lineLabelTextColors.get(series);
    }

    public void setLineLabelTextColor(int series, Color color) {
        this.lineLabelTextColors.put(series, color);
    }

    public void setLineLabelFont(Font font, int series) {
        this.lineLabelFonts.put(series, font);
    }

    public Font getLineLabelFont(int series) {
        return this.lineLabelFonts.get(series);
    }


    /**
     * True if the given item of given dataset has the smallest
     * X value within this set.
     */
    public boolean isMinimumX(XYDataset dataset, int series, int item) {
        return dataset.getXValue(series, item) == getMinimumX(dataset, series);
    }


    /**
     * Get Minimum X Value of a given series in a dataset.
     * The value is stored for later use if queried the first time.
     */
    public double getMinimumX(XYDataset dataset, int series) {
        Integer key = Integer.valueOf(series);
        Double  old = seriesMinimumX.get(key);

        if (old != null) {
            return old.doubleValue();
        }

        logger.debug("Compute minimum of Series: " + series);

        double min = Double.MAX_VALUE;

        for (int i = 0, n = dataset.getItemCount(series); i < n; i++) {
            double tmpValue = dataset.getXValue(series, i);

            if (tmpValue < min) {
                min = tmpValue;
            }
        }

        seriesMinimumX.put(key, Double.valueOf(min));

        return min;
    }


    /**
     * True if the given item of given dataset has the smallest
     * Y value within this set.
     */
    public boolean isMinimum(XYDataset dataset, int series, int item) {
        return dataset.getYValue(series, item) == getMinimum(dataset, series);
    }


    /**
     * Get Minimum Y Value of a given series in a dataset.
     * The value is stored for later use if queried the first time.
     */
    public double getMinimum(XYDataset dataset, int series) {
        Integer key = Integer.valueOf(series);
        Double  old = seriesMinimum.get(key);

        if (old != null) {
            return old.doubleValue();
        }

        logger.debug("Compute minimum of Series: " + series);

        double min = Double.MAX_VALUE;

        for (int i = 0, n = dataset.getItemCount(series); i < n; i++) {
            double tmpValue = dataset.getYValue(series, i);

            if (tmpValue < min) {
                min = tmpValue;
            }
        }

        seriesMinimum.put(key, Double.valueOf(min));

        return min;
    }


    /**
     * True if the given item of given dataset has the biggest
     * Y value within this set.
     */
    public boolean isMaximum(XYDataset dataset, int series, int item) {
        return dataset.getYValue(series, item) == getMaximum(dataset, series);
    }


    /**
     * Get maximum Y Value of a given series in a dataset.
     * The value is stored for later use if queried the first time.
     */
    public double getMaximum(XYDataset dataset, int series) {
        Integer key = Integer.valueOf(series);
        Double  old = seriesMaximum.get(key);

        if (old != null) {
            return old.doubleValue();
        }

        logger.debug("Compute maximum of Series: " + series);

        double max = -Double.MAX_VALUE;

        for (int i = 0, n = dataset.getItemCount(series); i < n; i++) {
            double tmpValue = dataset.getYValue(series, i);

            if (tmpValue > max) {
                max = tmpValue;
            }
        }

        seriesMaximum.put(key, Double.valueOf(max));

        return max;
    }
}
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