Mercurial Hosting > luan
view src/org/eclipse/jetty/util/DateCache.java @ 823:9d4eab790cd2
remove ServletRequestHttpWrapper and ServletResponseHttpWrapper
author | Franklin Schmidt <fschmidt@gmail.com> |
---|---|
date | Wed, 14 Sep 2016 01:05:27 -0600 |
parents | 3428c60d7cfc |
children |
line wrap: on
line source
// // ======================================================================== // Copyright (c) 1995-2014 Mort Bay Consulting Pty. Ltd. // ------------------------------------------------------------------------ // All rights reserved. This program and the accompanying materials // are made available under the terms of the Eclipse Public License v1.0 // and Apache License v2.0 which accompanies this distribution. // // The Eclipse Public License is available at // http://www.eclipse.org/legal/epl-v10.html // // The Apache License v2.0 is available at // http://www.opensource.org/licenses/apache2.0.php // // You may elect to redistribute this code under either of these licenses. // ======================================================================== // package org.eclipse.jetty.util; import java.text.DateFormatSymbols; import java.text.SimpleDateFormat; import java.util.Date; import java.util.Locale; import java.util.TimeZone; /* ------------------------------------------------------------ */ /** Date Format Cache. * Computes String representations of Dates and caches * the results so that subsequent requests within the same minute * will be fast. * * Only format strings that contain either "ss" or "ss.SSS" are * handled. * * The timezone of the date may be included as an ID with the "zzz" * format string or as an offset with the "ZZZ" format string. * * If consecutive calls are frequently very different, then this * may be a little slower than a normal DateFormat. * * * */ public class DateCache { public static String DEFAULT_FORMAT="EEE MMM dd HH:mm:ss zzz yyyy"; private static long __hitWindow=60*60; private String _formatString; private String _tzFormatString; private SimpleDateFormat _tzFormat; private String _minFormatString; private SimpleDateFormat _minFormat; private String _secFormatString; private String _secFormatString0; private String _secFormatString1; private long _lastMinutes = -1; private long _lastSeconds = -1; private int _lastMs = -1; private String _lastResult = null; private Locale _locale = null; private DateFormatSymbols _dfs = null; /* ------------------------------------------------------------ */ /** Constructor. * Make a DateCache that will use a default format. The default format * generates the same results as Date.toString(). */ public DateCache() { this(DEFAULT_FORMAT); getFormat().setTimeZone(TimeZone.getDefault()); } /* ------------------------------------------------------------ */ /** Constructor. * Make a DateCache that will use the given format */ public DateCache(String format) { _formatString=format; setTimeZone(TimeZone.getDefault()); } /* ------------------------------------------------------------ */ public DateCache(String format,Locale l) { _formatString=format; _locale = l; setTimeZone(TimeZone.getDefault()); } /* ------------------------------------------------------------ */ public DateCache(String format,DateFormatSymbols s) { _formatString=format; _dfs = s; setTimeZone(TimeZone.getDefault()); } /* ------------------------------------------------------------ */ /** Set the timezone. * @param tz TimeZone */ public synchronized void setTimeZone(TimeZone tz) { setTzFormatString(tz); if( _locale != null ) { _tzFormat=new SimpleDateFormat(_tzFormatString,_locale); _minFormat=new SimpleDateFormat(_minFormatString,_locale); } else if( _dfs != null ) { _tzFormat=new SimpleDateFormat(_tzFormatString,_dfs); _minFormat=new SimpleDateFormat(_minFormatString,_dfs); } else { _tzFormat=new SimpleDateFormat(_tzFormatString); _minFormat=new SimpleDateFormat(_minFormatString); } _tzFormat.setTimeZone(tz); _minFormat.setTimeZone(tz); _lastSeconds=-1; _lastMinutes=-1; } /* ------------------------------------------------------------ */ public TimeZone getTimeZone() { return _tzFormat.getTimeZone(); } /* ------------------------------------------------------------ */ /** Set the timezone. * @param timeZoneId TimeZoneId the ID of the zone as used by * TimeZone.getTimeZone(id) */ public void setTimeZoneID(String timeZoneId) { setTimeZone(TimeZone.getTimeZone(timeZoneId)); } /* ------------------------------------------------------------ */ private synchronized void setTzFormatString(final TimeZone tz ) { int zIndex = _formatString.indexOf( "ZZZ" ); if( zIndex >= 0 ) { String ss1 = _formatString.substring( 0, zIndex ); String ss2 = _formatString.substring( zIndex+3 ); int tzOffset = tz.getRawOffset(); StringBuilder sb = new StringBuilder(_formatString.length()+10); sb.append(ss1); sb.append("'"); if( tzOffset >= 0 ) sb.append( '+' ); else { tzOffset = -tzOffset; sb.append( '-' ); } int raw = tzOffset / (1000*60); // Convert to seconds int hr = raw / 60; int min = raw % 60; if( hr < 10 ) sb.append( '0' ); sb.append( hr ); if( min < 10 ) sb.append( '0' ); sb.append( min ); sb.append( '\'' ); sb.append(ss2); _tzFormatString=sb.toString(); } else _tzFormatString=_formatString; setMinFormatString(); } /* ------------------------------------------------------------ */ private void setMinFormatString() { int i = _tzFormatString.indexOf("ss.SSS"); int l = 6; if (i>=0) throw new IllegalStateException("ms not supported"); i = _tzFormatString.indexOf("ss"); l=2; // Build a formatter that formats a second format string String ss1=_tzFormatString.substring(0,i); String ss2=_tzFormatString.substring(i+l); _minFormatString =ss1+"'ss'"+ss2; } /* ------------------------------------------------------------ */ /** Format a date according to our stored formatter. * @param inDate * @return Formatted date */ public synchronized String format(Date inDate) { return format(inDate.getTime()); } /* ------------------------------------------------------------ */ /** Format a date according to our stored formatter. * @param inDate * @return Formatted date */ public synchronized String format(long inDate) { long seconds = inDate / 1000; // Is it not suitable to cache? if (seconds<_lastSeconds || _lastSeconds>0 && seconds>_lastSeconds+__hitWindow) { // It's a cache miss Date d = new Date(inDate); return _tzFormat.format(d); } // Check if we are in the same second // and don't care about millis if (_lastSeconds==seconds ) return _lastResult; Date d = new Date(inDate); // Check if we need a new format string long minutes = seconds/60; if (_lastMinutes != minutes) { _lastMinutes = minutes; _secFormatString=_minFormat.format(d); int i=_secFormatString.indexOf("ss"); int l=2; _secFormatString0=_secFormatString.substring(0,i); _secFormatString1=_secFormatString.substring(i+l); } // Always format if we get here _lastSeconds = seconds; StringBuilder sb=new StringBuilder(_secFormatString.length()); sb.append(_secFormatString0); int s=(int)(seconds%60); if (s<10) sb.append('0'); sb.append(s); sb.append(_secFormatString1); _lastResult=sb.toString(); return _lastResult; } /* ------------------------------------------------------------ */ /** Format to string buffer. * @param inDate Date the format * @param buffer StringBuilder */ public void format(long inDate, StringBuilder buffer) { buffer.append(format(inDate)); } /* ------------------------------------------------------------ */ /** Get the format. */ public SimpleDateFormat getFormat() { return _minFormat; } /* ------------------------------------------------------------ */ public String getFormatString() { return _formatString; } /* ------------------------------------------------------------ */ public String now() { long now=System.currentTimeMillis(); _lastMs=(int)(now%1000); return format(now); } /* ------------------------------------------------------------ */ public int lastMs() { return _lastMs; } }