timeutils.java

jxta_src_2.41b jxta 2.41b 最新版源码 from www.jxta.org

/*
 *
 * $Id: TimeUtils.java,v 1.7 2005/12/22 01:33:51 bondolo Exp $
 *
 * Copyright (c) 2002 Sun Microsystems, Inc.  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in
 *    the documentation and/or other materials provided with the
 *    distribution.
 *
 * 3. The end-user documentation included with the redistribution,
 *    if any, must include the following acknowledgment:
 *       "This product includes software developed by the
 *       Sun Microsystems, Inc. for Project JXTA."
 *    Alternately, this acknowledgment may appear in the software itself,
 *    if and wherever such third-party acknowledgments normally appear.
 *
 * 4. The names "Sun", "Sun Microsystems, Inc.", "JXTA" and "Project JXTA"
 *    must not be used to endorse or promote products derived from this
 *    software without prior written permission. For written
 *    permission, please contact Project JXTA at http://www.jxta.org.
 *
 * 5. Products derived from this software may not be called "JXTA",
 *    nor may "JXTA" appear in their name, without prior written
 *    permission of Sun.
 *
 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 * ====================================================================
 *
 * This software consists of voluntary contributions made by many
 * individuals on behalf of Project JXTA.  For more information on
 * Project JXTA, please see <http://www.jxta.org/>.
 *
 * This license is based on the BSD license adopted by the Apache Foundation.
 *
 */

package net.jxta.impl.util;

/**
 *  Utilities for manipulating absolute and relative times and for accelerating
 *  and decelerating time for testing purposes.
 *
 *  <p/>The "time warp" functionality is useful for debugging and is scoped to
 *  the class loader in which the TimeUtils class is loaded.
 **/
public final class TimeUtils {
    
    /**
     *  Zero milliseconds (yes its redundant).
     **/
    public static final long ZEROMILLISECONDS = 0L;
    
    /**
     *  The number of milliseconds in a millisecond. (yes its redundant).
     **/
    public static final long AMILLISECOND = 1L;
    
    /**
     *  The number of milliseconds in a hundredth of a second.
     **/
    public static final long AHUNDREDTHOFASECOND = 10 * AMILLISECOND;
    
    /**
     *  The number of milliseconds in a tenth of a second.
     **/
    public static final long ATENTHOFASECOND = 100 * AMILLISECOND;
    
    /**
     *  The number of milliseconds in a second.
     **/
    public static final long ASECOND = 1000 * AMILLISECOND;
    
    /**
     *  The number of milliseconds in a minute.
     **/
    public static final long AMINUTE = 60 * ASECOND;
    
    /**
     *  The number of milliseconds in an hour.
     **/
    public static final long ANHOUR = 60 * AMINUTE;
    
    /**
     *  The number of milliseconds in a day.
     **/
    public static final long ADAY = 24 * ANHOUR;
    
    /**
     *  The number of milliseconds in a week.
     **/
    public static final long AWEEK = 7 * ADAY;
    
    /**
     *  The number of milliseconds in a fortnight (two weeks).
     **/
    public static final long AFORTNIGHT = 14 * ADAY;
    
    
    /**
     *  The number of milliseconds in the month of January.
     **/
    public static final long AJANUARY = 31 * ADAY;
    
    /**
     *  The number of milliseconds in the month of February in a non-leap year.
     **/
    public static final long AFEBRUARY = 28 * ADAY;
    
    /**
     *  The number of milliseconds in the month of February in a leap year.
     **/
    public static final long ALEAPFEBRUARY = 29 * ADAY;
    
    /**
     *  The number of milliseconds in the month of March.
     **/
    public static final long AMARCH = 31 * ADAY;
    
    /**
     *  The number of milliseconds in the month of April.
     **/
    public static final long ANAPRIL = 30 * ADAY;
    
    /**
     *  The number of milliseconds in the month of May.
     **/
    public static final long AMAY = 31 * ADAY;
    
    /**
     *  The number of milliseconds in the month of June.
     **/
    public static final long AJUNE = 30 * ADAY;
    
    /**
     *  The number of milliseconds in the month of July.
     **/
    public static final long AJULY = 31 * ADAY;
    
    /**
     *  The number of milliseconds in the month of August.
     **/
    public static final long ANAUGUST = 31 * ADAY;
    
    /**
     *  The number of milliseconds in the month of September.
     **/
    public static final long ASEPTEMBER = 30 * ADAY;
    
    /**
     *  The number of milliseconds in the month of October.
     **/
    public static final long ANOCTOBER = 31 * ADAY;
    
    /**
     *  The number of milliseconds in the month of November.
     **/
    public static final long ANOVEMBER = 30 * ADAY;
    
    /**
     *  The number of milliseconds in the month of December.
     **/
    public static final long ADECEMBER = 31 * ADAY;
    
    
    /**
     *  The number of milliseconds in a non-leap year.
     **/
    public static final long AYEAR = AJANUARY + AFEBRUARY + AMARCH + ANAPRIL +
            AMAY + AJUNE + AJULY + ANAUGUST + ASEPTEMBER +
            ANOCTOBER + ANOVEMBER + ADECEMBER;
    
    /**
     *  The number of milliseconds in a leap year.
     **/
    public static final long ALEAPYEAR = AJANUARY + ALEAPFEBRUARY + AMARCH +
            ANAPRIL + AMAY + AJUNE + AJULY + ANAUGUST +
            ASEPTEMBER + ANOCTOBER + ANOVEMBER + ADECEMBER;
    
    /**
     *  This odd little guy is for use in testing. it is applied anywhere the
     *  current time is used and allows modules which use timeutils to be tested
     *  through long (simulated) periods of time passing.
     **/
    static volatile long TIMEWARP = 0;
    
    /**
     *  Absolute time in millis at which we began timewarping.
     **/
    static long WARPBEGAN = 0;
    
    /**
     *  The rate at which time is warped using the auto-warper.
     **/
    static double WARPFACTOR = 1.0;
    
    /**
     *  Don't let anyone instantiate this class.
     **/
    private TimeUtils() {}
    
    /**
     *  Return the current time. This value may differ from the value returned
     * by {@link System#currentTimeMillis()} if the {@link #timeWarp(long)} or
     * {@link #autoWarp(double)} features are being used. Using
     * {@link #timeNow()} allows test harnesses to simulate long periods of
     * time passing.
     *
     *  @return The current time which has been possibly adjusted by a "time warp"
     *  factor.
     **/
    public static final long timeNow() {
        long now = System.currentTimeMillis();
        
        if( WARPFACTOR != 1.0 ) {
            long elapsed = now - WARPBEGAN;
            
            long dialation = (long) (elapsed * WARPFACTOR);
            
            TIMEWARP += (dialation - elapsed);
        }
        
        return now + TIMEWARP;
    }
    
    /**
     *  Convert a duration into a duration expressed in milliseconds to absolute
     *  time realtive to the current real time. Special handling for the maximum
     *  and minimum durations converts them to the maximum and minimum absolute
     *  times.
     *
     *  @param duration a time duration expressed in milliseconds.
     *  @return an absolute time in milliseconds based on the duration's
     *  relation to the current real time.
     **/
    public static final long toAbsoluteTimeMillis( long duration ) {
        
        return toAbsoluteTimeMillis( duration, timeNow() );
    }
    
    /**
     *  Convert a duration into a duration expressed in milliseconds to absolute
     *  time realtive to the provided absolute time. Special handling for the
     *  maximum and minimum durations converts them to the maximum and minimum
     *  absolute times.
     *
     *  @param duration a time duration expressed in milliseconds.
     *  @param fromWhen an absolute time expressed in milliseconds.
     *  @return an absolute time in milliseconds based on the duration's
     *  relation to the provided absolute time.
     **/
    public static final long toAbsoluteTimeMillis( long duration, long fromWhen ) {
        
        // Special cases for the boundaries.
        
        if ( Long.MAX_VALUE == duration ) {
            return Long.MAX_VALUE;
        }
        
        if ( Long.MIN_VALUE == duration ) {
            return Long.MIN_VALUE;
        }
        
        long whence = fromWhen + duration;
        
        if( duration > 0 ) {
            // check for overflow
            if( whence < fromWhen ) {
                whence = Long.MAX_VALUE;
            }
            
        } else {
            // check for underflow
            if( whence > fromWhen ) {
                whence = Long.MIN_VALUE;
            }
        }
        
        return whence;
    }
    
    /**
     *  Convert an absolute real time in milliseconds to a duration relative
     *  to the current real time. Special handling for the maximum and minimum
     *  absolute times converts them to the maximum and minimum durations.
     *
     *  @param  whence an absolute real time expressed in milliseconds.
     *  @return a duration expressed in milliseconds relative to the current
     *  real time.
     **/
    public static final long toRelativeTimeMillis( long whence ) {
        
        return toRelativeTimeMillis( whence, timeNow() );
    }
    
    /**
     *  Convert an absolute real time in milliseconds to a duration relative
     *  to the specified absolute real time. Special handling for the maximum
     *  and minimum absolute times converts them to the maximum and minimum
     *  durations.
     *
     *  @param  whence An absolute real time expressed in milliseconds.
     *  @param  fromWhen The base time in absolute real time expressed in
     *  milliseconds from which the relative time will be calculated.
     *  @return a duration expressed in milliseconds relative to the provided
     *  absolute time.
     **/
    public static final long toRelativeTimeMillis( long whence, long fromWhen ) {
        // Special cases for the boundaries.
        
        if ( Long.MAX_VALUE == whence ) {
            return Long.MAX_VALUE;
        }
        
        if (  Long.MIN_VALUE == whence ) {
            return Long.MIN_VALUE;
        }
        
        return whence - fromWhen;
    }
    
    /**
     * A utility for advancing the timewarp by the number of milliseconds
     * specified. May not be used if you are also using {@link #autoWarp(double)}.
     *
     *  @param advanceby Advance the timewarp by the number of milliseconds
     * specified.
     **/
    public static final void timeWarp( long advanceby ) {
        if( 0 != WARPBEGAN ) {
            throw new IllegalStateException( "auto time warping already initialized at warp factor " + WARPFACTOR );
        }
        
        TIMEWARP += advanceby;
    }
    
    /**
     *  A utility for automagically adjusting the time dialation of the
     *  time warp.
     *
     *  @param warpfactor a decimal ratio at which artifical time will pass.
     *
     *  <ul>
     *      <li>To have time pass at the rate of an hour every minute, initialize
     *      with: <tt>(double)(TimeUtils.ANHOUR / TimeUtils.AMINUTE)</tt>.</li>
     *      <li>To have time pass at five times normal rate, initialize
     *      with: <tt>5.0</tt>.</li>
     *      <li>etc.</li>
     *  </ul>
     **/
    public static final void autoWarp( double warpfactor ) {
        if( 0 != WARPBEGAN ) {
            throw new IllegalStateException( "Auto time warping already initialized at warp factor " + WARPFACTOR );
        }
        
        if( warpfactor <= 0.0 ) {
            throw new IllegalArgumentException( "Time should not stand still or run backwards. It's unnatural." );
        }
        
        if( warpfactor != 1.0 ) {
            WARPFACTOR = warpfactor;
            WARPBEGAN = System.currentTimeMillis();
        }
    }
    
    /**
     *  Return a relative time adjusted by the current warping factor.
     *  Needed for external methods which do not use {@link #timeNow()} such
     *  as {@link Object#wait(long)} and
     *  {@link java.net.Socket#setSoTimeout(int)}.
     *
     * @param initial The initial time value to "warp".
     * @return The provided initial time adjusted by the current warping factor.
     */
    public static final long warpedRelativeTime( long initial ) {
        if( 0 == initial ) {
            return 0;
        }
        
        long adjusted = (long) (initial * WARPFACTOR);
        
        // Handle overflow and underflow
        if( initial < 0 ) {
            if( adjusted >= 0 ) {
                adjusted = Long.MIN_VALUE;
            }
        } else {
            if( adjusted < 0 ) {
                adjusted = Long.MAX_VALUE;
            }
        }
        
        // since 0 is usually a special "wait forever" value we don't allow time
        // to be reduced to zero because that would cause a change of behaviour
        // in many cases.
        return (0 != adjusted) ? adjusted : 1;
    }
}