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/* =========================================================== * JFreeChart : a free chart library for the Java(tm) platform * =========================================================== * * (C) Copyright 2000-2008, by Object Refinery Limited and Contributors. * * Project Info: http://www.jfree.org/jfreechart/index.html * * This library is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or * (at your option) any later version. * * This library is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public * License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, * USA. * * [Java is a trademark or registered trademark of Sun Microsystems, Inc. * in the United States and other countries.] * * ------------------------- * TimeSeriesCollection.java * ------------------------- * (C) Copyright 2001-2008, by Object Refinery Limited. * * Original Author: David Gilbert (for Object Refinery Limited); * Contributor(s): -; * * Changes * ------- * 11-Oct-2001 : Version 1 (DG); * 18-Oct-2001 : Added implementation of IntervalXYDataSource so that bar plots * (using numerical axes) can be plotted from time series * data (DG); * 22-Oct-2001 : Renamed DataSource.java --> Dataset.java etc. (DG); * 15-Nov-2001 : Added getSeries() method. Changed name from TimeSeriesDataset * to TimeSeriesCollection (DG); * 07-Dec-2001 : TimeSeries --> BasicTimeSeries (DG); * 01-Mar-2002 : Added a time zone offset attribute, to enable fast calculation * of the time period start and end values (DG); * 29-Mar-2002 : The collection now registers itself with all the time series * objects as a SeriesChangeListener. Removed redundant * calculateZoneOffset method (DG); * 06-Jun-2002 : Added a setting to control whether the x-value supplied in the * getXValue() method comes from the START, MIDDLE, or END of the * time period. This is a workaround for JFreeChart, where the * current date axis always labels the start of a time * period (DG); * 24-Jun-2002 : Removed unnecessary import (DG); * 24-Aug-2002 : Implemented DomainInfo interface, and added the * DomainIsPointsInTime flag (DG); * 07-Oct-2002 : Fixed errors reported by Checkstyle (DG); * 16-Oct-2002 : Added remove methods (DG); * 10-Jan-2003 : Changed method names in RegularTimePeriod class (DG); * 13-Mar-2003 : Moved to com.jrefinery.data.time package and implemented * Serializable (DG); * 04-Sep-2003 : Added getSeries(String) method (DG); * 15-Sep-2003 : Added a removeAllSeries() method to match * XYSeriesCollection (DG); * 05-May-2004 : Now extends AbstractIntervalXYDataset (DG); * 15-Jul-2004 : Switched getX() with getXValue() and getY() with * getYValue() (DG); * 06-Oct-2004 : Updated for changed in DomainInfo interface (DG); * 11-Jan-2005 : Removed deprecated code in preparation for the 1.0.0 * release (DG); * 28-Mar-2005 : Fixed bug in getSeries(int) method (1170825) (DG); * ------------- JFREECHART 1.0.x --------------------------------------------- * 13-Dec-2005 : Deprecated the 'domainIsPointsInTime' flag as it is * redundant. Fixes bug 1243050 (DG); * 04-May-2007 : Override getDomainOrder() to indicate that items are sorted * by x-value (ascending) (DG); * 08-May-2007 : Added indexOf(TimeSeries) method (DG); * 18-Jan-2008 : Changed getSeries(String) to getSeries(Comparable) (DG); * */ package edu.dlnu.liuwenpeng.Time; import java.io.Serializable; import java.util.ArrayList; import java.util.Calendar; import java.util.Collections; import java.util.Iterator; import java.util.List; import java.util.TimeZone; import org.jfree.data.DomainInfo; import org.jfree.data.DomainOrder; import org.jfree.data.Range; import org.jfree.data.general.DatasetChangeEvent; import org.jfree.data.time.RegularTimePeriod; import org.jfree.data.time.TimePeriodAnchor; import org.jfree.data.time.TimeSeriesDataItem; import org.jfree.data.xy.AbstractIntervalXYDataset; import org.jfree.data.xy.IntervalXYDataset; import org.jfree.data.xy.XYDataset; import org.jfree.util.ObjectUtilities; /** * A collection of time series objects. This class implements the * {@link org.jfree.data.xy.XYDataset} interface, as well as the extended * {@link IntervalXYDataset} interface. This makes it a convenient dataset for * use with the {@link org.jfree.chart.plot.XYPlot} class. */ public class TimeSeriesCollection extends AbstractIntervalXYDataset implements XYDataset, IntervalXYDataset, DomainInfo, Serializable { /** For serialization. */ private static final long serialVersionUID = 834149929022371137L; /** Storage for the time series. */ private List data; /** A working calendar (to recycle) */ private Calendar workingCalendar; /** * The point within each time period that is used for the X value when this * collection is used as an {@link org.jfree.data.xy.XYDataset}. This can * be the start, middle or end of the time period. */ private TimePeriodAnchor xPosition; /** * A flag that indicates that the domain is 'points in time'. If this * flag is true, only the x-value is used to determine the range of values * in the domain, the start and end x-values are ignored. * * @deprecated No longer used (as of 1.0.1). */ private boolean domainIsPointsInTime; /** * Constructs an empty dataset, tied to the default timezone. */ public TimeSeriesCollection() { this(null, TimeZone.getDefault()); } /** * Constructs an empty dataset, tied to a specific timezone. * * @param zone the timezone (<code>null</code> permitted, will use * <code>TimeZone.getDefault()</code> in that case). */ public TimeSeriesCollection(TimeZone zone) { this(null, zone); } /** * Constructs a dataset containing a single series (more can be added), * tied to the default timezone. * * @param series the series (<code>null</code> permitted). */ public TimeSeriesCollection(TimeSeries series) { this(series, TimeZone.getDefault()); } /** * Constructs a dataset containing a single series (more can be added), * tied to a specific timezone. * * @param series a series to add to the collection (<code>null</code> * permitted). * @param zone the timezone (<code>null</code> permitted, will use * <code>TimeZone.getDefault()</code> in that case). */ public TimeSeriesCollection(TimeSeries series, TimeZone zone) { if (zone == null) { zone = TimeZone.getDefault(); } this.workingCalendar = Calendar.getInstance(zone); this.data = new ArrayList(); if (series != null) { this.data.add(series); series.addChangeListener(this); } this.xPosition = TimePeriodAnchor.START; this.domainIsPointsInTime = true; } /** * Returns a flag that controls whether the domain is treated as 'points in * time'. This flag is used when determining the max and min values for * the domain. If <code>true</code>, then only the x-values are considered * for the max and min values. If <code>false</code>, then the start and * end x-values will also be taken into consideration. * * @return The flag. * * @deprecated This flag is no longer used (as of 1.0.1). */ public boolean getDomainIsPointsInTime() { return this.domainIsPointsInTime; } /** * Sets a flag that controls whether the domain is treated as 'points in * time', or time periods. * * @param flag the flag. * * @deprecated This flag is no longer used, as of 1.0.1. The * <code>includeInterval</code> flag in methods such as * {@link #getDomainBounds(boolean)} makes this unnecessary. */ public void setDomainIsPointsInTime(boolean flag) { this.domainIsPointsInTime = flag; notifyListeners(new DatasetChangeEvent(this, this)); } /** * Returns the order of the domain values in this dataset. * * @return {@link DomainOrder#ASCENDING} */ public DomainOrder getDomainOrder() { return DomainOrder.ASCENDING; } /** * Returns the position within each time period that is used for the X * value when the collection is used as an * {@link org.jfree.data.xy.XYDataset}. * * @return The anchor position (never <code>null</code>). */ public TimePeriodAnchor getXPosition() { return this.xPosition; } /** * Sets the position within each time period that is used for the X values * when the collection is used as an {@link XYDataset}, then sends a * {@link DatasetChangeEvent} is sent to all registered listeners. * * @param anchor the anchor position (<code>null</code> not permitted). */ public void setXPosition(TimePeriodAnchor anchor) { if (anchor == null) { throw new IllegalArgumentException("Null 'anchor' argument."); } this.xPosition = anchor; notifyListeners(new DatasetChangeEvent(this, this)); } /** * Returns a list of all the series in the collection. * * @return The list (which is unmodifiable). */ public List getSeries() { return Collections.unmodifiableList(this.data); } /** * Returns the number of series in the collection. * * @return The series count. */ public int getSeriesCount() { return this.data.size(); } /** * Returns the index of the specified series, or -1 if that series is not * present in the dataset. * * @param series the series (<code>null</code> not permitted). * * @return The series index. * * @since 1.0.6 */ public int indexOf(TimeSeries series) { if (series == null) { throw new IllegalArgumentException("Null 'series' argument."); } return this.data.indexOf(series); } /** * Returns a series. * * @param series the index of the series (zero-based). * * @return The series. */ public TimeSeries getSeries(int series) { if ((series < 0) || (series >= getSeriesCount())) { throw new IllegalArgumentException("The 'series' argument is out of bounds (" + series + ")."); } return (TimeSeries) this.data.get(series); } /** * Returns the series with the specified key, or <code>null</code> if * there is no such series. * * @param key the series key (<code>null</code> permitted). * * @return The series with the given key. */ public TimeSeries getSeries(Comparable key) { TimeSeries result = null; Iterator iterator = this.data.iterator(); while (iterator.hasNext()) { TimeSeries series = (TimeSeries) iterator.next(); Comparable k = series.getKey(); if (k != null && k.equals(key)) { result = series; } } return result; } /** * Returns the key for a series. * * @param series the index of the series (zero-based). * * @return The key for a series. */ public Comparable getSeriesKey(int series) { // check arguments...delegated // fetch the series name... return getSeries(series).getKey(); } /** * Adds a series to the collection and sends a {@link DatasetChangeEvent} to * all registered listeners. * * @param series the series (<code>null</code> not permitted). */ public void addSeries(TimeSeries series) { if (series == null) { throw new IllegalArgumentException("Null 'series' argument."); } this.data.add(series); series.addChangeListener(this); fireDatasetChanged(); } /** * Removes the specified series from the collection and sends a * {@link DatasetChangeEvent} to all registered listeners. * * @param series the series (<code>null</code> not permitted). */ public void removeSeries(TimeSeries series) { if (series == null) { throw new IllegalArgumentException("Null 'series' argument."); } this.data.remove(series); series.removeChangeListener(this); fireDatasetChanged(); } /** * Removes a series from the collection. * * @param index the series index (zero-based). */ public void removeSeries(int index) { TimeSeries series = getSeries(index); if (series != null) { removeSeries(series); } } /** * Removes all the series from the collection and sends a * {@link DatasetChangeEvent} to all registered listeners. */ public void removeAllSeries() { // deregister the collection as a change listener to each series in the // collection for (int i = 0; i < this.data.size(); i++) { TimeSeries series = (TimeSeries) this.data.get(i); series.removeChangeListener(this); } // remove all the series from the collection and notify listeners. this.data.clear(); fireDatasetChanged(); } /** * Returns the number of items in the specified series. This method is * provided for convenience. * * @param series the series index (zero-based). * * @return The item count. */ public int getItemCount(int series) { return getSeries(series).getItemCount(); } /** * Returns the x-value (as a double primitive) for an item within a series. * * @param series the series (zero-based index). * @param item the item (zero-based index). * * @return The x-value. */ public double getXValue(int series, int item) { TimeSeries s = (TimeSeries) this.data.get(series); TimeSeriesDataItem i = s.getDataItem(item); RegularTimePeriod period = i.getPeriod(); return getX(period); } /** * Returns the x-value for the specified series and item. * * @param series the series (zero-based index). * @param item the item (zero-based index). * * @return The value. */ public Number getX(int series, int item) { TimeSeries ts = (TimeSeries) this.data.get(series); TimeSeriesDataItem dp = ts.getDataItem(item); RegularTimePeriod period = dp.getPeriod(); return new Long(getX(period)); } /** * Returns the x-value for a time period. * * @param period the time period (<code>null</code> not permitted). * * @return The x-value. */ protected synchronized long getX(RegularTimePeriod period) { long result = 0L; if (this.xPosition == TimePeriodAnchor.START) { result = period.getFirstMillisecond(this.workingCalendar); } else if (this.xPosition == TimePeriodAnchor.MIDDLE) { result = period.getMiddleMillisecond(this.workingCalendar); } else if (this.xPosition == TimePeriodAnchor.END) { result = period.getLastMillisecond(this.workingCalendar); } return result; } /** * Returns the starting X value for the specified series and item. * * @param series the series (zero-based index). * @param item the item (zero-based index). * * @return The value. */ public synchronized Number getStartX(int series, int item) { TimeSeries ts = (TimeSeries) this.data.get(series); TimeSeriesDataItem dp = ts.getDataItem(item); return new Long(dp.getPeriod().getFirstMillisecond(this.workingCalendar)); } /** * Returns the ending X value for the specified series and item. * * @param series The series (zero-based index). * @param item The item (zero-based index). * * @return The value. */ public synchronized Number getEndX(int series, int item) { TimeSeries ts = (TimeSeries) this.data.get(series); TimeSeriesDataItem dp = ts.getDataItem(item); return new Long(dp.getPeriod().getLastMillisecond(this.workingCalendar)); } /** * Returns the y-value for the specified series and item. * * @param series the series (zero-based index). * @param item the item (zero-based index). * * @return The value (possibly <code>null</code>). */ public Number getY(int series, int item) { TimeSeries ts = (TimeSeries) this.data.get(series); TimeSeriesDataItem dp = ts.getDataItem(item); return dp.getValue(); } /** * Returns the starting Y value for the specified series and item. * * @param series the series (zero-based index). * @param item the item (zero-based index). * * @return The value (possibly <code>null</code>). */ public Number getStartY(int series, int item) { return getY(series, item); } /** * Returns the ending Y value for the specified series and item. * * @param series te series (zero-based index). * @param item the item (zero-based index). * * @return The value (possibly <code>null</code>). */ public Number getEndY(int series, int item) { return getY(series, item); } /** * Returns the indices of the two data items surrounding a particular * millisecond value. * * @param series the series index. * @param milliseconds the time. * * @return An array containing the (two) indices of the items surrounding * the time. */ public int[] getSurroundingItems(int series, long milliseconds) { int[] result = new int[] { -1, -1 }; TimeSeries timeSeries = getSeries(series); for (int i = 0; i < timeSeries.getItemCount(); i++) { Number x = getX(series, i); long m = x.longValue(); if (m <= milliseconds) { result[0] = i; } if (m >= milliseconds) { result[1] = i; break; } } return result; } /** * Returns the minimum x-value in the dataset. * * @param includeInterval a flag that determines whether or not the * x-interval is taken into account. * * @return The minimum value. */ public double getDomainLowerBound(boolean includeInterval) { double result = Double.NaN; Range r = getDomainBounds(includeInterval); if (r != null) { result = r.getLowerBound(); } return result; } /** * Returns the maximum x-value in the dataset. * * @param includeInterval a flag that determines whether or not the * x-interval is taken into account. * * @return The maximum value. */ public double getDomainUpperBound(boolean includeInterval) { double result = Double.NaN; Range r = getDomainBounds(includeInterval); if (r != null) { result = r.getUpperBound(); } return result; } /** * Returns the range of the values in this dataset's domain. * * @param includeInterval a flag that determines whether or not the * x-interval is taken into account. * * @return The range. */ public Range getDomainBounds(boolean includeInterval) { Range result = null; Iterator iterator = this.data.iterator(); while (iterator.hasNext()) { TimeSeries series = (TimeSeries) iterator.next(); int count = series.getItemCount(); if (count > 0) { RegularTimePeriod start = series.getTimePeriod(0); RegularTimePeriod end = series.getTimePeriod(count - 1); Range temp; //if (!includeInterval) { temp = new Range(getX(start), getX(end)); //System.out.println("here"); // } /* else { temp = new Range( start.getFirstMillisecond(this.workingCalendar), end.getLastMillisecond(this.workingCalendar)); } */ result = Range.combine(result, temp); } } return result; } /** * Tests this time series collection for equality with another object. * * @param obj the other object. * * @return A boolean. */ public boolean equals(Object obj) { if (obj == this) { return true; } if (!(obj instanceof TimeSeriesCollection)) { return false; } TimeSeriesCollection that = (TimeSeriesCollection) obj; if (this.xPosition != that.xPosition) { return false; } if (this.domainIsPointsInTime != that.domainIsPointsInTime) { return false; } if (!ObjectUtilities.equal(this.data, that.data)) { return false; } return true; } /** * Returns a hash code value for the object. * * @return The hashcode */ public int hashCode() { int result; result = this.data.hashCode(); result = 29 * result + (this.workingCalendar != null ? this.workingCalendar.hashCode() : 0); result = 29 * result + (this.xPosition != null ? this.xPosition.hashCode() : 0); result = 29 * result + (this.domainIsPointsInTime ? 1 : 0); return result; } }