All Downloads are FREE. Search and download functionalities are using the official Maven repository.

repairability_test_files.arja.arja1.one.arja1_one_s Maven / Gradle / Ivy

/* ===========================================================
 * JFreeChart : a free chart library for the Java(tm) platform
 * ===========================================================
 *
 * (C) Copyright 2000-2009, 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.]
 *
 * ---------------
 * TimeSeries.java
 * ---------------
 * (C) Copyright 2001-2009, by Object Refinery Limited.
 *
 * Original Author:  David Gilbert (for Object Refinery Limited);
 * Contributor(s):   Bryan Scott;
 *                   Nick Guenther;
 *
 * Changes
 * -------
 * 11-Oct-2001 : Version 1 (DG);
 * 14-Nov-2001 : Added listener mechanism (DG);
 * 15-Nov-2001 : Updated argument checking and exceptions in add() method (DG);
 * 29-Nov-2001 : Added properties to describe the domain and range (DG);
 * 07-Dec-2001 : Renamed TimeSeries --> BasicTimeSeries (DG);
 * 01-Mar-2002 : Updated import statements (DG);
 * 28-Mar-2002 : Added a method add(TimePeriod, double) (DG);
 * 27-Aug-2002 : Changed return type of delete method to void (DG);
 * 04-Oct-2002 : Added itemCount and historyCount attributes, fixed errors
 *               reported by Checkstyle (DG);
 * 29-Oct-2002 : Added series change notification to addOrUpdate() method (DG);
 * 28-Jan-2003 : Changed name back to TimeSeries (DG);
 * 13-Mar-2003 : Moved to com.jrefinery.data.time package and implemented
 *               Serializable (DG);
 * 01-May-2003 : Updated equals() method (see bug report 727575) (DG);
 * 14-Aug-2003 : Added ageHistoryCountItems method (copied existing code for
 *               contents) made a method and added to addOrUpdate.  Made a
 *               public method to enable ageing against a specified time
 *               (eg now) as opposed to lastest time in series (BS);
 * 15-Oct-2003 : Added fix for setItemCount method - see bug report 804425.
 *               Modified exception message in add() method to be more
 *               informative (DG);
 * 13-Apr-2004 : Added clear() method (DG);
 * 21-May-2004 : Added an extra addOrUpdate() method (DG);
 * 15-Jun-2004 : Fixed NullPointerException in equals() method (DG);
 * 29-Nov-2004 : Fixed bug 1075255 (DG);
 * 17-Nov-2005 : Renamed historyCount --> maximumItemAge (DG);
 * 28-Nov-2005 : Changed maximumItemAge from int to long (DG);
 * 01-Dec-2005 : New add methods accept notify flag (DG);
 * ------------- JFREECHART 1.0.x ---------------------------------------------
 * 24-May-2006 : Improved error handling in createCopy() methods (DG);
 * 01-Sep-2006 : Fixed bugs in removeAgedItems() methods - see bug report
 *               1550045 (DG);
 * 22-Mar-2007 : Simplified getDataItem(RegularTimePeriod) - see patch 1685500
 *               by Nick Guenther (DG);
 * 21-Jun-2007 : Removed JCommon dependencies (DG);
 * 29-Jun-2007 : Changed first parameter in constructors from String to
 *               Comparable (DG);
 * 31-Oct-2007 : Implemented faster hashCode() (DG);
 * 21-Nov-2007 : Fixed clone() method (bug 1832432) (DG);
 * 10-Jan-2008 : Fixed createCopy(RegularTimePeriod, RegularTimePeriod) (bug
 *               1864222) (DG);
 * 13-Jan-2009 : Fixed constructors so that timePeriodClass doesn't need to
 *               be specified in advance (DG);
 * 26-May-2009 : Added cache for minY and maxY values (DG);
 * 09-Jun-2009 : Ensure that TimeSeriesDataItem objects used in underlying
 *               storage are cloned to keep series isolated from external
 *               changes (DG);
 * 10-Jun-2009 : Added addOrUpdate(TimeSeriesDataItem) method (DG);
 * 31-Aug-2009 : Clear minY and maxY cache values in createCopy (DG);
 *
 */

package org.jfree.data.time;

import java.io.Serializable;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.Collection;
import java.util.Collections;
import java.util.Date;
import java.util.Iterator;
import java.util.List;
import java.util.TimeZone;

import org.jfree.chart.util.ObjectUtilities;
import org.jfree.data.general.Series;
import org.jfree.data.event.SeriesChangeEvent;
import org.jfree.data.general.SeriesException;

/**
 * Represents a sequence of zero or more data items in the form (period, value)
 * where 'period' is some instance of a subclass of {@link RegularTimePeriod}.
 * The time series will ensure that (a) all data items have the same type of
 * period (for example, {@link Day}) and (b) that each period appears at
 * most one time in the series.
 */
public class TimeSeries extends Series implements Cloneable, Serializable {

    /** For serialization. */
    private static final long serialVersionUID = -5032960206869675528L;

    /** Default value for the domain description. */
    protected static final String DEFAULT_DOMAIN_DESCRIPTION = "Time";

    /** Default value for the range description. */
    protected static final String DEFAULT_RANGE_DESCRIPTION = "Value";

    /** A description of the domain. */
    private String domain;

    /** A description of the range. */
    private String range;

    /** The type of period for the data. */
    protected Class timePeriodClass;

    /** The list of data items in the series. */
    protected List data;

    /** The maximum number of items for the series. */
    private int maximumItemCount;

    /**
     * The maximum age of items for the series, specified as a number of
     * time periods.
     */
    private long maximumItemAge;

    /**
     * The minimum y-value in the series.
     *
     * @since 1.0.14
     */
    private double minY;

    /**
     * The maximum y-value in the series.
     *
     * @since 1.0.14
     */
    private double maxY;

    /**
     * Creates a new (empty) time series.  By default, a daily time series is
     * created.  Use one of the other constructors if you require a different
     * time period.
     *
     * @param name  the series name (null not permitted).
     */
    public TimeSeries(Comparable name) {
        this(name, DEFAULT_DOMAIN_DESCRIPTION, DEFAULT_RANGE_DESCRIPTION);
    }

    /**
     * Creates a new time series that contains no data.
     * 

* Descriptions can be specified for the domain and range. One situation * where this is helpful is when generating a chart for the time series - * axis labels can be taken from the domain and range description. * * @param name the name of the series (null not permitted). * @param domain the domain description (null permitted). * @param range the range description (null permitted). * * @since 1.0.13 */ public TimeSeries(Comparable name, String domain, String range) { super(name); this.domain = domain; this.range = range; this.timePeriodClass = null; this.data = new java.util.ArrayList(); this.maximumItemCount = Integer.MAX_VALUE; this.maximumItemAge = Long.MAX_VALUE; this.minY = Double.NaN; this.maxY = Double.NaN; } /** * Returns the domain description. * * @return The domain description (possibly null). * * @see #setDomainDescription(String) */ public String getDomainDescription() { return this.domain; } /** * Sets the domain description and sends a PropertyChangeEvent * (with the property name Domain) to all registered * property change listeners. * * @param description the description (null permitted). * * @see #getDomainDescription() */ public void setDomainDescription(String description) { String old = this.domain; this.domain = description; firePropertyChange("Domain", old, description); } /** * Returns the range description. * * @return The range description (possibly null). * * @see #setRangeDescription(String) */ public String getRangeDescription() { return this.range; } /** * Sets the range description and sends a PropertyChangeEvent * (with the property name Range) to all registered listeners. * * @param description the description (null permitted). * * @see #getRangeDescription() */ public void setRangeDescription(String description) { String old = this.range; this.range = description; firePropertyChange("Range", old, description); } /** * Returns the number of items in the series. * * @return The item count. */ public int getItemCount() { return this.data.size(); } /** * Returns the list of data items for the series (the list contains * {@link TimeSeriesDataItem} objects and is unmodifiable). * * @return The list of data items. */ public List getItems() { // FIXME: perhaps we should clone the data list return Collections.unmodifiableList(this.data); } /** * Returns the maximum number of items that will be retained in the series. * The default value is Integer.MAX_VALUE. * * @return The maximum item count. * * @see #setMaximumItemCount(int) */ public int getMaximumItemCount() { return this.maximumItemCount; } /** * Sets the maximum number of items that will be retained in the series. * If you add a new item to the series such that the number of items will * exceed the maximum item count, then the FIRST element in the series is * automatically removed, ensuring that the maximum item count is not * exceeded. * * @param maximum the maximum (requires >= 0). * * @see #getMaximumItemCount() */ public void setMaximumItemCount(int maximum) { if (maximum < 0) { throw new IllegalArgumentException("Negative 'maximum' argument."); } this.maximumItemCount = maximum; int count = this.data.size(); if (count > maximum) { delete(0, count - maximum - 1); } } /** * Returns the maximum item age (in time periods) for the series. * * @return The maximum item age. * * @see #setMaximumItemAge(long) */ public long getMaximumItemAge() { return this.maximumItemAge; } /** * Sets the number of time units in the 'history' for the series. This * provides one mechanism for automatically dropping old data from the * time series. For example, if a series contains daily data, you might set * the history count to 30. Then, when you add a new data item, all data * items more than 30 days older than the latest value are automatically * dropped from the series. * * @param periods the number of time periods. * * @see #getMaximumItemAge() */ public void setMaximumItemAge(long periods) { if (periods < 0) { throw new IllegalArgumentException("Negative 'periods' argument."); } this.maximumItemAge = periods; removeAgedItems(true); // remove old items and notify if necessary } /** * Returns the smallest y-value in the series, ignoring any null and * Double.NaN values. This method returns Double.NaN if there is no * smallest y-value (for example, when the series is empty). * * @return The smallest y-value. * * @see #getMaxY() * * @since 1.0.14 */ public double getMinY() { return this.minY; } /** * Returns the largest y-value in the series, ignoring any Double.NaN * values. This method returns Double.NaN if there is no largest y-value * (for example, when the series is empty). * * @return The largest y-value. * * @see #getMinY() * * @since 1.0.14 */ public double getMaxY() { return this.maxY; } /** * Returns the time period class for this series. *

* Only one time period class can be used within a single series (enforced). * If you add a data item with a {@link Year} for the time period, then all * subsequent data items must also have a {@link Year} for the time period. * * @return The time period class (may be null but only for * an empty series). */ public Class getTimePeriodClass() { return this.timePeriodClass; } /** * Returns a data item from the dataset. Note that the returned object * is a clone of the item in the series, so modifying it will have no * effect on the data series. * * @param index the item index. * * @return The data item. * * @see #getDataItem(RegularTimePeriod) */ public TimeSeriesDataItem getDataItem(int index) { TimeSeriesDataItem item = (TimeSeriesDataItem) this.data.get(index); return (TimeSeriesDataItem) item.clone(); } /** * Returns the data item for a specific period. Note that the returned * object is a clone of the item in the series, so modifying it will have * no effect on the data series. * * @param period the period of interest (null not allowed). * * @return The data item matching the specified period (or * null if there is no match). * * @see #getDataItem(int) */ public TimeSeriesDataItem getDataItem(RegularTimePeriod period) { int index = getIndex(period); if (index >= 0) { return getDataItem(index); } else { return null; } } /** * Returns a data item for the series. This method returns the object * that is used for the underlying storage - you should not modify the * contents of the returned value unless you know what you are doing. * * @param index the item index (zero-based). * * @return The data item. * * @see #getDataItem(int) * * @since 1.0.14 */ TimeSeriesDataItem getRawDataItem(int index) { return (TimeSeriesDataItem) this.data.get(index); } /** * Returns a data item for the series. This method returns the object * that is used for the underlying storage - you should not modify the * contents of the returned value unless you know what you are doing. * * @param period the item index (zero-based). * * @return The data item. * * @see #getDataItem(RegularTimePeriod) * * @since 1.0.14 */ TimeSeriesDataItem getRawDataItem(RegularTimePeriod period) { int index = getIndex(period); if (index >= 0) { return (TimeSeriesDataItem) this.data.get(index); } else { return null; } } /** * Returns the time period at the specified index. * * @param index the index of the data item. * * @return The time period. */ public RegularTimePeriod getTimePeriod(int index) { return getRawDataItem(index).getPeriod(); } /** * Returns a time period that would be the next in sequence on the end of * the time series. * * @return The next time period. */ public RegularTimePeriod getNextTimePeriod() { RegularTimePeriod last = getTimePeriod(getItemCount() - 1); return last.next(); } /** * Returns a collection of all the time periods in the time series. * * @return A collection of all the time periods. */ public Collection getTimePeriods() { Collection result = new java.util.ArrayList(); for (int i = 0; i < getItemCount(); i++) { result.add(getTimePeriod(i)); } return result; } /** * Returns a collection of time periods in the specified series, but not in * this series, and therefore unique to the specified series. * * @param series the series to check against this one. * * @return The unique time periods. */ public Collection getTimePeriodsUniqueToOtherSeries(TimeSeries series) { Collection result = new java.util.ArrayList(); for (int i = 0; i < series.getItemCount(); i++) { RegularTimePeriod period = series.getTimePeriod(i); int index = getIndex(period); if (index < 0) { result.add(period); } } return result; } /** * Returns the index for the item (if any) that corresponds to a time * period. * * @param period the time period (null not permitted). * * @return The index. */ public int getIndex(RegularTimePeriod period) { if (period == null) { throw new IllegalArgumentException("Null 'period' argument."); } TimeSeriesDataItem dummy = new TimeSeriesDataItem( period, Integer.MIN_VALUE); return Collections.binarySearch(this.data, dummy); } /** * Returns the value at the specified index. * * @param index index of a value. * * @return The value (possibly null). */ public Number getValue(int index) { return getRawDataItem(index).getValue(); } /** * Returns the value for a time period. If there is no data item with the * specified period, this method will return null. * * @param period time period (null not permitted). * * @return The value (possibly null). */ public Number getValue(RegularTimePeriod period) { int index = getIndex(period); if (index >= 0) { return getValue(index); } else { return null; } } /** * Adds a data item to the series and sends a {@link SeriesChangeEvent} to * all registered listeners. * * @param item the (timeperiod, value) pair (null not * permitted). */ public void add(TimeSeriesDataItem item) { add(item, true); } /** * Adds a data item to the series and sends a {@link SeriesChangeEvent} to * all registered listeners. * * @param item the (timeperiod, value) pair (null not * permitted). * @param notify notify listeners? */ public void add(TimeSeriesDataItem item, boolean notify) { if (item == null) { throw new IllegalArgumentException("Null 'item' argument."); } item = (TimeSeriesDataItem) item.clone(); Class c = item.getPeriod().getClass(); if (this.timePeriodClass == null) { this.timePeriodClass = c; } else if (!this.timePeriodClass.equals(c)) { StringBuffer b = new StringBuffer(); b.append("You are trying to add data where the time period class "); b.append("is "); b.append(item.getPeriod().getClass().getName()); b.append(", but the TimeSeries is expecting an instance of "); b.append(this.timePeriodClass.getName()); b.append("."); throw new SeriesException(b.toString()); } // make the change (if it's not a duplicate time period)... boolean added = false; int count = getItemCount(); if (count == 0) { this.data.add(item); added = true; } else { RegularTimePeriod last = getTimePeriod(getItemCount() - 1); if (item.getPeriod().compareTo(last) > 0) { this.data.add(item); added = true; } else { int index = Collections.binarySearch(this.data, item); if (index < 0) { this.data.add(-index - 1, item); added = true; } else { StringBuffer b = new StringBuffer(); b.append("You are attempting to add an observation for "); b.append("the time period "); b.append(item.getPeriod().toString()); b.append(" but the series already contains an observation"); b.append(" for that time period. Duplicates are not "); b.append("permitted. Try using the addOrUpdate() method."); throw new SeriesException(b.toString()); } } } if (added) { updateBoundsForAddedItem(item); // check if this addition will exceed the maximum item count... if (getItemCount() > this.maximumItemCount) { TimeSeriesDataItem d = (TimeSeriesDataItem) this.data.remove(0); updateBoundsForRemovedItem(d); } removeAgedItems(false); // remove old items if necessary, but // don't notify anyone, because that // happens next anyway... if (notify) { fireSeriesChanged(); } } } /** * Adds a new data item to the series and sends a {@link SeriesChangeEvent} * to all registered listeners. * * @param period the time period (null not permitted). * @param value the value. */ public void add(RegularTimePeriod period, double value) { // defer argument checking... add(period, value, true); } /** * Adds a new data item to the series and sends a {@link SeriesChangeEvent} * to all registered listeners. * * @param period the time period (null not permitted). * @param value the value. * @param notify notify listeners? */ public void add(RegularTimePeriod period, double value, boolean notify) { // defer argument checking... TimeSeriesDataItem item = new TimeSeriesDataItem(period, value); add(item, notify); } /** * Adds a new data item to the series and sends * a {@link org.jfree.data.general.SeriesChangeEvent} to all registered * listeners. * * @param period the time period (null not permitted). * @param value the value (null permitted). */ public void add(RegularTimePeriod period, Number value) { // defer argument checking... add(period, value, true); } /** * Adds a new data item to the series and sends a {@link SeriesChangeEvent} * to all registered listeners. * * @param period the time period (null not permitted). * @param value the value (null permitted). * @param notify notify listeners? */ public void add(RegularTimePeriod period, Number value, boolean notify) { // defer argument checking... TimeSeriesDataItem item = new TimeSeriesDataItem(period, value); add(item, notify); } /** * Updates (changes) the value for a time period. Throws a * {@link SeriesException} if the period does not exist. * * @param period the period (null not permitted). * @param value the value (null permitted). */ public void update(RegularTimePeriod period, Number value) { TimeSeriesDataItem temp = new TimeSeriesDataItem(period, value); int index = Collections.binarySearch(this.data, temp); if (index < 0) { throw new SeriesException("There is no existing value for the " + "specified 'period'."); } update(index, value); } /** * Updates (changes) the value of a data item. * * @param index the index of the data item. * @param value the new value (null permitted). */ public void update(int index, Number value) { TimeSeriesDataItem item = (TimeSeriesDataItem) this.data.get(index); boolean iterate = false; Number oldYN = item.getValue(); if (oldYN != null) { double oldY = oldYN.doubleValue(); if (!Double.isNaN(oldY)) { iterate = oldY <= this.minY || oldY >= this.maxY; } } item.setValue(value); if (iterate) { findBoundsByIteration(); } else if (value != null) { double yy = value.doubleValue(); this.minY = minIgnoreNaN(this.minY, yy); this.maxY = maxIgnoreNaN(this.maxY, yy); } fireSeriesChanged(); } /** * Adds or updates data from one series to another. Returns another series * containing the values that were overwritten. * * @param series the series to merge with this. * * @return A series containing the values that were overwritten. */ public TimeSeries addAndOrUpdate(TimeSeries series) { TimeSeries overwritten = new TimeSeries("Overwritten values from: " + getKey()); for (int i = 0; i < series.getItemCount(); i++) { TimeSeriesDataItem item = series.getRawDataItem(i); TimeSeriesDataItem oldItem = addOrUpdate(item.getPeriod(), item.getValue()); if (oldItem != null) { overwritten.add(oldItem); } } return overwritten; } /** * Adds or updates an item in the times series and sends a * {@link SeriesChangeEvent} to all registered listeners. * * @param period the time period to add/update (null not * permitted). * @param value the new value. * * @return A copy of the overwritten data item, or null if no * item was overwritten. */ public TimeSeriesDataItem addOrUpdate(RegularTimePeriod period, double value) { return addOrUpdate(period, new Double(value)); } /** * Adds or updates an item in the times series and sends a * {@link SeriesChangeEvent} to all registered listeners. * * @param period the time period to add/update (null not * permitted). * @param value the new value (null permitted). * * @return A copy of the overwritten data item, or null if no * item was overwritten. */ public TimeSeriesDataItem addOrUpdate(RegularTimePeriod period, Number value) { return addOrUpdate(new TimeSeriesDataItem(period, value)); } /** * Adds or updates an item in the times series and sends a * {@link SeriesChangeEvent} to all registered listeners. * * @param item the data item (null not permitted). * * @return A copy of the overwritten data item, or null if no * item was overwritten. * * @since 1.0.14 */ public TimeSeriesDataItem addOrUpdate(TimeSeriesDataItem item) { if (item == null) { throw new IllegalArgumentException("Null 'period' argument."); } Class periodClass = item.getPeriod().getClass(); if (this.timePeriodClass == null) { this.timePeriodClass = periodClass; } else if (!this.timePeriodClass.equals(periodClass)) { String msg = "You are trying to add data where the time " + "period class is " + periodClass.getName() + ", but the TimeSeries is expecting an instance of " + this.timePeriodClass.getName() + "."; throw new SeriesException(msg); } TimeSeriesDataItem overwritten = null; int index = Collections.binarySearch(this.data, item); if (index >= 0) { TimeSeriesDataItem existing = (TimeSeriesDataItem) this.data.get(index); overwritten = (TimeSeriesDataItem) existing.clone(); // figure out if we need to iterate through all the y-values // to find the revised minY / maxY boolean iterate = false; Number oldYN = existing.getValue(); double oldY = oldYN != null ? oldYN.doubleValue() : Double.NaN; if (!Double.isNaN(oldY)) { iterate = oldY <= this.minY || oldY >= this.maxY; } existing.setValue(item.getValue()); if (iterate) { findBoundsByIteration(); } else if (item.getValue() != null) { double yy = item.getValue().doubleValue(); this.minY = minIgnoreNaN(this.minY, yy); this.maxY = minIgnoreNaN(this.maxY, yy); } } else { item = (TimeSeriesDataItem) item.clone(); this.data.add(-index - 1, item); updateBoundsForAddedItem(item); // check if this addition will exceed the maximum item count... if (getItemCount() > this.maximumItemCount) { TimeSeriesDataItem d = (TimeSeriesDataItem) this.data.remove(0); updateBoundsForRemovedItem(d); } } removeAgedItems(false); // remove old items if necessary, but // don't notify anyone, because that // happens next anyway... fireSeriesChanged(); return overwritten; } /** * Age items in the series. Ensure that the timespan from the youngest to * the oldest record in the series does not exceed maximumItemAge time * periods. Oldest items will be removed if required. * * @param notify controls whether or not a {@link SeriesChangeEvent} is * sent to registered listeners IF any items are removed. */ public void removeAgedItems(boolean notify) { // check if there are any values earlier than specified by the history // count... if (getItemCount() > 1) { long latest = getTimePeriod(getItemCount() - 1).getSerialIndex(); boolean removed = false; while ((latest - getTimePeriod(0).getSerialIndex()) > this.maximumItemAge) { this.data.remove(0); removed = true; } if (removed) { findBoundsByIteration(); if (notify) { fireSeriesChanged(); } } } } /** * Age items in the series. Ensure that the timespan from the supplied * time to the oldest record in the series does not exceed history count. * oldest items will be removed if required. * * @param latest the time to be compared against when aging data * (specified in milliseconds). * @param notify controls whether or not a {@link SeriesChangeEvent} is * sent to registered listeners IF any items are removed. */ public void removeAgedItems(long latest, boolean notify) { if (this.data.isEmpty()) { return; // nothing to do } // find the serial index of the period specified by 'latest' long index = Long.MAX_VALUE; try { Method m = RegularTimePeriod.class.getDeclaredMethod( "createInstance", new Class[] {Class.class, Date.class, TimeZone.class}); RegularTimePeriod newest = (RegularTimePeriod) m.invoke( this.timePeriodClass, new Object[] {this.timePeriodClass, new Date(latest), TimeZone.getDefault()}); index = newest.getSerialIndex(); } catch (NoSuchMethodException e) { e.printStackTrace(); } catch (IllegalAccessException e) { e.printStackTrace(); } catch (InvocationTargetException e) { e.printStackTrace(); } // check if there are any values earlier than specified by the history // count... boolean removed = false; while (getItemCount() > 0 && (index - getTimePeriod(0).getSerialIndex()) > this.maximumItemAge) { this.data.remove(0); removed = true; } if (removed) { findBoundsByIteration(); if (notify) { fireSeriesChanged(); } } } /** * Removes all data items from the series and sends a * {@link SeriesChangeEvent} to all registered listeners. */ public void clear() { if (this.data.size() > 0) { this.data.clear(); this.timePeriodClass = null; this.minY = Double.NaN; this.maxY = Double.NaN; fireSeriesChanged(); } } /** * Deletes the data item for the given time period and sends a * {@link SeriesChangeEvent} to all registered listeners. If there is no * item with the specified time period, this method does nothing. * * @param period the period of the item to delete (null not * permitted). */ public void delete(RegularTimePeriod period) { int index = getIndex(period); if (index >= 0) { TimeSeriesDataItem item = (TimeSeriesDataItem) this.data.remove( index); updateBoundsForRemovedItem(item); if (this.data.isEmpty()) { this.timePeriodClass = null; } fireSeriesChanged(); } } /** * Deletes data from start until end index (end inclusive). * * @param start the index of the first period to delete. * @param end the index of the last period to delete. */ public void delete(int start, int end) { delete(start, end, true); } /** * Deletes data from start until end index (end inclusive). * * @param start the index of the first period to delete. * @param end the index of the last period to delete. * @param notify notify listeners? * * @since 1.0.14 */ public void delete(int start, int end, boolean notify) { if (end < start) { throw new IllegalArgumentException("Requires start <= end."); } for (int i = 0; i <= (end - start); i++) { this.data.remove(start); } findBoundsByIteration(); if (this.data.isEmpty()) { this.timePeriodClass = null; } if (notify) { fireSeriesChanged(); } } /** * Returns a clone of the time series. *

* Notes: *

    *
  • no need to clone the domain and range descriptions, since String * object is immutable;
  • *
  • we pass over to the more general method clone(start, end).
  • *
* * @return A clone of the time series. * * @throws CloneNotSupportedException not thrown by this class, but * subclasses may differ. */ public Object clone() throws CloneNotSupportedException { TimeSeries clone = (TimeSeries) super.clone(); clone.data = (List) ObjectUtilities.deepClone(this.data); return clone; } /** * Creates a new timeseries by copying a subset of the data in this time * series. * * @param start the index of the first time period to copy. * @param end the index of the last time period to copy. * * @return A series containing a copy of this times series from start until * end. * * @throws CloneNotSupportedException if there is a cloning problem. */ public TimeSeries createCopy(int start, int end) throws CloneNotSupportedException { if (start < 0) { throw new IllegalArgumentException("Requires start >= 0."); } if (end < start) { throw new IllegalArgumentException("Requires start <= end."); } TimeSeries copy = (TimeSeries) super.clone(); copy.data = new java.util.ArrayList(); if (this.data.size() > 0) { for (int index = start; index <= end; index++) { TimeSeriesDataItem item = (TimeSeriesDataItem) this.data.get(index); TimeSeriesDataItem clone = (TimeSeriesDataItem) item.clone(); try { copy.add(clone); } catch (SeriesException e) { e.printStackTrace(); } } } return copy; } /** * Creates a new timeseries by copying a subset of the data in this time * series. * * @param start the first time period to copy (null not * permitted). * @param end the last time period to copy (null not * permitted). * * @return A time series containing a copy of this time series from start * until end. * * @throws CloneNotSupportedException if there is a cloning problem. */ public TimeSeries createCopy(RegularTimePeriod start, RegularTimePeriod end) throws CloneNotSupportedException { if (start == null) { throw new IllegalArgumentException("Null 'start' argument."); } if (end == null) { throw new IllegalArgumentException("Null 'end' argument."); } if (start.compareTo(end) > 0) { throw new IllegalArgumentException( "Requires start on or before end."); } boolean emptyRange = false; int startIndex = getIndex(start); if (startIndex < 0) { startIndex = -(startIndex + 1); if (startIndex == this.data.size()) { emptyRange = true; // start is after last data item } } int endIndex = getIndex(end); if (endIndex < 0) { // end period is not in original series endIndex = -(endIndex + 1); // this is first item AFTER end period endIndex = endIndex - 1; // so this is last item BEFORE end } if ((endIndex < 0) || (endIndex < startIndex)) { emptyRange = true; } if (emptyRange) { TimeSeries copy = (TimeSeries) super.clone(); copy.data = new java.util.ArrayList(); return copy; } else { return createCopy(startIndex, endIndex); } } /** * Tests the series for equality with an arbitrary object. * * @param obj the object to test against (null permitted). * * @return A boolean. */ public boolean equals(Object obj) { if (obj == this) { return true; } if (!(obj instanceof TimeSeries)) { return false; } TimeSeries that = (TimeSeries) obj; if (!ObjectUtilities.equal(getDomainDescription(), that.getDomainDescription())) { return false; } if (!ObjectUtilities.equal(getRangeDescription(), that.getRangeDescription())) { return false; } if (!ObjectUtilities.equal(this.timePeriodClass, that.timePeriodClass)) { return false; } if (getMaximumItemAge() != that.getMaximumItemAge()) { return false; } if (getMaximumItemCount() != that.getMaximumItemCount()) { return false; } int count = getItemCount(); if (count != that.getItemCount()) { return false; } if (!ObjectUtilities.equal(this.data, that.data)) { return false; } return super.equals(obj); } /** * Returns a hash code value for the object. * * @return The hashcode */ public int hashCode() { int result = super.hashCode(); result = 29 * result + (this.domain != null ? this.domain.hashCode() : 0); result = 29 * result + (this.range != null ? this.range.hashCode() : 0); result = 29 * result + (this.timePeriodClass != null ? this.timePeriodClass.hashCode() : 0); // it is too slow to look at every data item, so let's just look at // the first, middle and last items... int count = getItemCount(); if (count > 0) { TimeSeriesDataItem item = getRawDataItem(0); result = 29 * result + item.hashCode(); } if (count > 1) { TimeSeriesDataItem item = getRawDataItem(count - 1); result = 29 * result + item.hashCode(); } if (count > 2) { TimeSeriesDataItem item = getRawDataItem(count / 2); result = 29 * result + item.hashCode(); } result = 29 * result + this.maximumItemCount; result = 29 * result + (int) this.maximumItemAge; return result; } /** * Updates the cached values for the minimum and maximum data values. * * @param item the item added (null not permitted). * * @since 1.0.14 */ private void updateBoundsForAddedItem(TimeSeriesDataItem item) { Number yN = item.getValue(); if (item.getValue() != null) { double y = yN.doubleValue(); this.minY = minIgnoreNaN(this.minY, y); this.maxY = maxIgnoreNaN(this.maxY, y); } } /** * Updates the cached values for the minimum and maximum data values on * the basis that the specified item has just been removed. * * @param item the item added (null not permitted). * * @since 1.0.14 */ private void updateBoundsForRemovedItem(TimeSeriesDataItem item) { Number yN = item.getValue(); if (yN != null) { double y = yN.doubleValue(); if (!Double.isNaN(y)) { if (y <= this.minY || y >= this.maxY) { findBoundsByIteration(); } } } } /** * Finds the bounds of the x and y values for the series, by iterating * through all the data items. * * @since 1.0.14 */ private void findBoundsByIteration() { this.minY = Double.NaN; this.maxY = Double.NaN; Iterator iterator = this.data.iterator(); while (iterator.hasNext()) { TimeSeriesDataItem item = (TimeSeriesDataItem) iterator.next(); updateBoundsForAddedItem(item); } } /** * A function to find the minimum of two values, but ignoring any * Double.NaN values. * * @param a the first value. * @param b the second value. * * @return The minimum of the two values. */ private double minIgnoreNaN(double a, double b) { if (Double.isNaN(a)) { return b; } else { if (Double.isNaN(b)) { return a; } else { return Math.min(a, b); } } } /** * A function to find the maximum of two values, but ignoring any * Double.NaN values. * * @param a the first value. * @param b the second value. * * @return The maximum of the two values. */ private double maxIgnoreNaN(double a, double b) { if (Double.isNaN(a)) { return b; } else { if (Double.isNaN(b)) { return a; } else { return Math.max(a, b); } } } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy