Examples of org.jfree.data.time.RegularTimePeriod

• org.jfree.data.time.RegularTimePeriod
  An abstract class representing a unit of time. Convenient methods are provided for calculating the next and previous time periods. Conversion methods are defined that return the first and last milliseconds of the time period. The results from these methods are timezone dependent.

  This class is immutable, and all subclasses should be immutable also.

     * @return The x-value.
     */
    public double getXValue(int series, int item) {
        OHLCSeries s = (OHLCSeries) this.data.get(series);
        OHLCItem di = (OHLCItem) s.getDataItem(item);
        RegularTimePeriod period = di.getPeriod();
        return getX(period);
    }

    }

    private static XYDataset createDataset(String name, double base, RegularTimePeriod start, int count) {

        TimeSeries series = new TimeSeries(name, start.getClass());
        RegularTimePeriod period = start;
        double value = base;
        for (int i = 0; i < count; i++) {
            series.add(period, value);
            period = period.next();
            value = value * (1 + (Math.random() - 0.495) / 10.0);
        }

        TimeSeriesCollection dataset = new TimeSeriesCollection();
        dataset.addSeries(series);

    @Override
    public void addDataPointToSeries(SeriesDefinition seriesDefinition, SeriesRow row)
    {
        Date x = row.dimensionAsDate(0);
        double y = row.dimensionAsDouble(1);
        RegularTimePeriod jfreeChartDate = new Millisecond(x);
        _timeSeries.add(jfreeChartDate, y);
    }

     * @return The dataset.
     */
    private XYDataset createDataset(String name, double base, RegularTimePeriod start, int count) {

        TimeSeries series = new TimeSeries(name, start.getClass());
        RegularTimePeriod period = start;
        double value = base;
        for (int i = 0; i < count; i++) {
            series.add(period, value);
            period = period.previous();
            value = value * (1 + (Math.random() - 0.495) / 10.0);
        }

        TimeSeriesCollection dataset = new TimeSeriesCollection();
        dataset.addSeries(series);

        List ticks = new ArrayList();
        double x0;
        double y0 = state.getCursor();
        double insideLength = getTickMarkInsideLength();
        double outsideLength = getTickMarkOutsideLength();
        RegularTimePeriod t = createInstance(this.majorTickTimePeriodClass,
                this.first.getStart(), getTimeZone(), this.locale);
        long t0 = t.getFirstMillisecond();
        Line2D inside = null;
        Line2D outside = null;
        long firstOnAxis = getFirst().getFirstMillisecond();
        long lastOnAxis = getLast().getLastMillisecond() + 1;
        while (t0 <= lastOnAxis) {
            ticks.add(new NumberTick(new Double(t0), "", TextAnchor.CENTER,
                    TextAnchor.CENTER, 0.0));
            x0 = valueToJava2D(t0, dataArea, edge);
            if (edge == RectangleEdge.TOP) {
                inside = new Line2D.Double(x0, y0, x0, y0 + insideLength);
                outside = new Line2D.Double(x0, y0, x0, y0 - outsideLength);
            }
            else if (edge == RectangleEdge.BOTTOM) {
                inside = new Line2D.Double(x0, y0, x0, y0 - insideLength);
                outside = new Line2D.Double(x0, y0, x0, y0 + outsideLength);
            }
            if (t0 >= firstOnAxis) {
                g2.setPaint(getTickMarkPaint());
                g2.setStroke(getTickMarkStroke());
                g2.draw(inside);
                g2.draw(outside);
            }
            // draw minor tick marks
            if (this.minorTickMarksVisible) {
                RegularTimePeriod tminor = createInstance(
                        this.minorTickTimePeriodClass, new Date(t0),
                        getTimeZone(), this.locale);
                long tt0 = tminor.getFirstMillisecond();
                while (tt0 < t.getLastMillisecond()
                        && tt0 < lastOnAxis) {
                    double xx0 = valueToJava2D(tt0, dataArea, edge);
                    if (edge == RectangleEdge.TOP) {
                        inside = new Line2D.Double(xx0, y0, xx0,
                                y0 + this.minorTickMarkInsideLength);
                        outside = new Line2D.Double(xx0, y0, xx0,
                                y0 - this.minorTickMarkOutsideLength);
                    }
                    else if (edge == RectangleEdge.BOTTOM) {
                        inside = new Line2D.Double(xx0, y0, xx0,
                                y0 - this.minorTickMarkInsideLength);
                        outside = new Line2D.Double(xx0, y0, xx0,
                                y0 + this.minorTickMarkOutsideLength);
                    }
                    if (tt0 >= firstOnAxis) {
                        g2.setPaint(this.minorTickMarkPaint);
                        g2.setStroke(this.minorTickMarkStroke);
                        g2.draw(inside);
                        g2.draw(outside);
                    }
                    tminor = tminor.next();
                    tminor.peg(this.calendar);
                    tt0 = tminor.getFirstMillisecond();
                }
            }
            t = t.next();
            t.peg(this.calendar);
            t0 = t.getFirstMillisecond();

        long axisMax = this.last.getLastMillisecond();
        g2.setFont(this.labelInfo[band].getLabelFont());
        g2.setPaint(this.labelInfo[band].getLabelPaint());

        // work out the number of periods to skip for labelling
        RegularTimePeriod p1 = this.labelInfo[band].createInstance(
                new Date(axisMin), this.timeZone, this.locale);
        RegularTimePeriod p2 = this.labelInfo[band].createInstance(
                new Date(axisMax), this.timeZone, this.locale);
        String label1 = this.labelInfo[band].getDateFormat().format(
                new Date(p1.getMiddleMillisecond()));
        String label2 = this.labelInfo[band].getDateFormat().format(
                new Date(p2.getMiddleMillisecond()));
        Rectangle2D b1 = TextUtilities.getTextBounds(label1, g2,
                g2.getFontMetrics());
        Rectangle2D b2 = TextUtilities.getTextBounds(label2, g2,
                g2.getFontMetrics());
        double w = Math.max(b1.getWidth(), b2.getWidth());
        long ww = Math.round(java2DToValue(dataArea.getX() + w + 5.0,
                dataArea, edge));
        if (isInverted()) {
            ww = axisMax - ww;
        }
        else {
            ww = ww - axisMin;
        }
        long length = p1.getLastMillisecond()
                      - p1.getFirstMillisecond();
        int periods = (int) (ww / length) + 1;

        RegularTimePeriod p = this.labelInfo[band].createInstance(
                new Date(axisMin), this.timeZone, this.locale);
        Rectangle2D b = null;
        long lastXX = 0L;
        float y = (float) (state.getCursor());
        TextAnchor anchor = TextAnchor.TOP_CENTER;
        float yDelta = (float) b1.getHeight();
        if (edge == RectangleEdge.TOP) {
            anchor = TextAnchor.BOTTOM_CENTER;
            yDelta = -yDelta;
        }
        while (p.getFirstMillisecond() <= axisMax) {
            float x = (float) valueToJava2D(p.getMiddleMillisecond(), dataArea,
                    edge);
            DateFormat df = this.labelInfo[band].getDateFormat();
            String label = df.format(new Date(p.getMiddleMillisecond()));
            long first = p.getFirstMillisecond();
            long last = p.getLastMillisecond();
            if (last > axisMax) {
                // this is the last period, but it is only partially visible
                // so check that the label will fit before displaying it...
                Rectangle2D bb = TextUtilities.getTextBounds(label, g2,
                        g2.getFontMetrics());
                if ((x + bb.getWidth() / 2) > dataArea.getMaxX()) {
                    float xstart = (float) valueToJava2D(Math.max(first,
                            axisMin), dataArea, edge);
                    if (bb.getWidth() < (dataArea.getMaxX() - xstart)) {
                        x = ((float) dataArea.getMaxX() + xstart) / 2.0f;
                    }
                    else {
                        label = null;
                    }
                }
            }
            if (first < axisMin) {
                // this is the first period, but it is only partially visible
                // so check that the label will fit before displaying it...
                Rectangle2D bb = TextUtilities.getTextBounds(label, g2,
                        g2.getFontMetrics());
                if ((x - bb.getWidth() / 2) < dataArea.getX()) {
                    float xlast = (float) valueToJava2D(Math.min(last,
                            axisMax), dataArea, edge);
                    if (bb.getWidth() < (xlast - dataArea.getX())) {
                        x = (xlast + (float) dataArea.getX()) / 2.0f;
                    }
                    else {
                        label = null;
                    }
                }

            }
            if (label != null) {
                g2.setPaint(this.labelInfo[band].getLabelPaint());
                b = TextUtilities.drawAlignedString(label, g2, x, y, anchor);
            }
            if (lastXX > 0L) {
                if (this.labelInfo[band].getDrawDividers()) {
                    long nextXX = p.getFirstMillisecond();
                    long mid = (lastXX + nextXX) / 2;
                    float mid2d = (float) valueToJava2D(mid, dataArea, edge);
                    g2.setStroke(this.labelInfo[band].getDividerStroke());
                    g2.setPaint(this.labelInfo[band].getDividerPaint());
                    g2.draw(new Line2D.Float(mid2d, y, mid2d, y + yDelta));
                }
            }
            lastXX = last;
            for (int i = 0; i < periods; i++) {
                p = p.next();
            }
            p.peg(this.calendar);
        }
        double used = 0.0;
        if (b != null) {
            used = b.getHeight();
            // work out the trailing gap

     *
     * @return The time period.
     */
    private RegularTimePeriod createInstance(Class periodClass,
            Date millisecond, TimeZone zone, Locale locale) {
        RegularTimePeriod result = null;
        try {
            Constructor c = periodClass.getDeclaredConstructor(new Class[] {
                    Date.class, TimeZone.class, Locale.class});
            result = (RegularTimePeriod) c.newInstance(new Object[] {
                    millisecond, zone, locale});

     * Creates a time series for testing.
     *
     * @return A time series.
     */
    private TimeSeries createSeries() {
        RegularTimePeriod t = new Day();
        TimeSeries series = new TimeSeries("Test");
        series.add(t, 1.0);
        t = t.next();
        series.add(t, 2.0);
        t = t.next();
        series.add(t, null);
        t = t.next();
        series.add(t, 4.0);
        return series;
    }

     */
    public void testClone() {

        TimePeriodValues series = new TimePeriodValues("Test Series");

        RegularTimePeriod jan1st2002 = new Day(1, MonthConstants.JANUARY, 2002);
        try {
            series.add(jan1st2002, new Integer(42));
        }
        catch (SeriesException e) {
            System.err.println("Problem adding to collection.");

        s1.setRangeDescription(null);
        assertFalse(s1.equals(s2));
        s2.setRangeDescription(null);
        assertTrue(s1.equals(s2));

        RegularTimePeriod p1 = new Day();
        RegularTimePeriod p2 = p1.next();
        s1.add(p1, 100.0);
        s1.add(p2, 200.0);
        boolean b3 = s1.equals(s2);
        assertFalse("b3", b3);