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/*
* The Apache Software License, Version 1.1
*
* Copyright (c) 2002-2003 The Apache Software Foundation. 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 acknowledgement:
* "This product includes software developed by the
* Apache Software Foundation (http://www.codehaus.org/)."
* Alternately, this acknowledgement may appear in the software itself,
* if and wherever such third-party acknowledgements normally appear.
*
* 4. The names "Ant" and "Apache Software
* Foundation" must not be used to endorse or promote products derived
* from this software without prior written permission. For written
* permission, please contact [email protected].
*
* 5. Products derived from this software may not be called "Apache"
* nor may "Apache" appear in their names without prior written
* permission of the Apache Group.
*
* 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
* DISCLAIMED. IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR
* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* 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 the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
*
* This is a utility class used by selectors and DirectoryScanner. The functionality more properly belongs just to
* selectors, but unfortunately DirectoryScanner exposed these as protected methods. Thus we have to support any
* subclasses of DirectoryScanner that may access these methods.
*
*
* This is a Singleton.
*
*
* @author Arnout J. Kuiper [email protected]
* @author Magesh Umasankar
* @author Bruce Atherton
* @version $Id$
* @since 1.5
*/
public final class SelectorUtils
{
public static final String PATTERN_HANDLER_PREFIX = "[";
public static final String PATTERN_HANDLER_SUFFIX = "]";
public static final String REGEX_HANDLER_PREFIX = "%regex" + PATTERN_HANDLER_PREFIX;
public static final String ANT_HANDLER_PREFIX = "%ant" + PATTERN_HANDLER_PREFIX;
private static SelectorUtils instance = new SelectorUtils();
/**
* Private Constructor
*/
private SelectorUtils()
{
}
/**
* Retrieves the manager of the Singleton.
*/
public static SelectorUtils getInstance()
{
return instance;
}
/**
* Tests whether or not a given path matches the start of a given pattern up to the first "**".
*
* This is not a general purpose test and should only be used if you can live with false positives. For example,
* pattern=**\a and str=b will yield true.
*
* @param pattern The pattern to match against. Must not be null.
* @param str The path to match, as a String. Must not be null.
* @return whether or not a given path matches the start of a given pattern up to the first "**".
*/
public static boolean matchPatternStart( String pattern, String str )
{
return matchPatternStart( pattern, str, true );
}
/**
* Tests whether or not a given path matches the start of a given pattern up to the first "**".
*
* This is not a general purpose test and should only be used if you can live with false positives. For example,
* pattern=**\a and str=b will yield true.
*
* @param pattern The pattern to match against. Must not be null.
* @param str The path to match, as a String. Must not be null.
* @param isCaseSensitive Whether or not matching should be performed case sensitively.
* @return whether or not a given path matches the start of a given pattern up to the first "**".
*/
public static boolean matchPatternStart( String pattern, String str, boolean isCaseSensitive )
{
if ( isRegexPrefixedPattern( pattern ) )
{
// FIXME: ICK! But we can't do partial matches for regex, so we have to reserve judgement until we have
// a file to deal with, or we can definitely say this is an exclusion...
return true;
}
else
{
if ( isAntPrefixedPattern( pattern ) )
{
pattern = pattern.substring( ANT_HANDLER_PREFIX.length(),
pattern.length() - PATTERN_HANDLER_SUFFIX.length() );
}
String altStr = str.replace( '\\', '/' );
return matchAntPathPatternStart( pattern, str, File.separator, isCaseSensitive )
|| matchAntPathPatternStart( pattern, altStr, "/", isCaseSensitive );
}
}
static boolean isAntPrefixedPattern( String pattern )
{
return pattern.length() > ( ANT_HANDLER_PREFIX.length() + PATTERN_HANDLER_SUFFIX.length() + 1 )
&& pattern.startsWith( ANT_HANDLER_PREFIX ) && pattern.endsWith( PATTERN_HANDLER_SUFFIX );
}
@SuppressWarnings( "SimplifiableIfStatement" )
static boolean matchAntPathPatternStart( MatchPattern pattern, String str, String separator,
boolean isCaseSensitive )
{
if ( separatorPatternStartSlashMismatch( pattern, str, separator ) )
{
return false;
}
return matchAntPathPatternStart( pattern.getTokenizedPathString(), str, separator, isCaseSensitive );
}
static boolean matchAntPathPatternStart( String pattern, String str, String separator, boolean isCaseSensitive )
{
// When str starts with a File.separator, pattern has to start with a
// File.separator.
// When pattern starts with a File.separator, str has to start with a
// File.separator.
if ( separatorPatternStartSlashMismatch( pattern, str, separator ) )
{
return false;
}
String[] patDirs = tokenizePathToString( pattern, separator );
return matchAntPathPatternStart( patDirs, str, separator, isCaseSensitive );
}
// When str starts with a File.separator, pattern has to start with a
// File.separator.
// When pattern starts with a File.separator, str has to start with a
// File.separator.
private static boolean separatorPatternStartSlashMismatch( String pattern, String str, String separator )
{
return str.startsWith( separator ) != pattern.startsWith( separator );
}
private static boolean separatorPatternStartSlashMismatch( MatchPattern matchPattern, String str, String separator )
{
return str.startsWith( separator ) != matchPattern.startsWith( separator );
}
static boolean matchAntPathPatternStart( String[] patDirs, String str, String separator, boolean isCaseSensitive )
{
String[] strDirs = tokenizePathToString( str, separator );
int patIdxStart = 0;
int patIdxEnd = patDirs.length - 1;
int strIdxStart = 0;
int strIdxEnd = strDirs.length - 1;
// up to first '**'
while ( patIdxStart <= patIdxEnd && strIdxStart <= strIdxEnd )
{
String patDir = patDirs[patIdxStart];
if ( patDir.equals( "**" ) )
{
break;
}
if ( !match( patDir, strDirs[strIdxStart], isCaseSensitive ) )
{
return false;
}
patIdxStart++;
strIdxStart++;
}
return strIdxStart > strIdxEnd || patIdxStart <= patIdxEnd;
}
/**
* Tests whether or not a given path matches a given pattern.
*
* @param pattern The pattern to match against. Must not be null.
* @param str The path to match, as a String. Must not be null.
* @return true if the pattern matches against the string, or false otherwise.
*/
public static boolean matchPath( String pattern, String str )
{
return matchPath( pattern, str, true );
}
/**
* Tests whether or not a given path matches a given pattern.
*
* @param pattern The pattern to match against. Must not be null.
* @param str The path to match, as a String. Must not be null.
* @param isCaseSensitive Whether or not matching should be performed case sensitively.
* @return true if the pattern matches against the string, or false otherwise.
*/
public static boolean matchPath( String pattern, String str, boolean isCaseSensitive )
{
return matchPath( pattern, str, File.separator, isCaseSensitive );
}
public static boolean matchPath( String pattern, String str, String separator, boolean isCaseSensitive )
{
if ( isRegexPrefixedPattern( pattern ) )
{
pattern =
pattern.substring( REGEX_HANDLER_PREFIX.length(), pattern.length() - PATTERN_HANDLER_SUFFIX.length() );
return str.matches( pattern );
}
else
{
if ( isAntPrefixedPattern( pattern ) )
{
pattern = pattern.substring( ANT_HANDLER_PREFIX.length(),
pattern.length() - PATTERN_HANDLER_SUFFIX.length() );
}
return matchAntPathPattern( pattern, str, separator, isCaseSensitive );
}
}
static boolean isRegexPrefixedPattern( String pattern )
{
return pattern.length() > ( REGEX_HANDLER_PREFIX.length() + PATTERN_HANDLER_SUFFIX.length() + 1 )
&& pattern.startsWith( REGEX_HANDLER_PREFIX ) && pattern.endsWith( PATTERN_HANDLER_SUFFIX );
}
static boolean matchAntPathPattern( MatchPattern matchPattern, String str, String separator,
boolean isCaseSensitive )
{
if ( separatorPatternStartSlashMismatch( matchPattern, str, separator ) )
{
return false;
}
String[] patDirs = matchPattern.getTokenizedPathString();
String[] strDirs = tokenizePathToString( str, separator );
return matchAntPathPattern( patDirs, strDirs, isCaseSensitive );
}
static boolean matchAntPathPattern( String pattern, String str, String separator, boolean isCaseSensitive )
{
if ( separatorPatternStartSlashMismatch( pattern, str, separator ) )
{
return false;
}
String[] patDirs = tokenizePathToString( pattern, separator );
String[] strDirs = tokenizePathToString( str, separator );
return matchAntPathPattern( patDirs, strDirs, isCaseSensitive );
}
static boolean matchAntPathPattern( String[] patDirs, String[] strDirs, boolean isCaseSensitive )
{
int patIdxStart = 0;
int patIdxEnd = patDirs.length - 1;
int strIdxStart = 0;
int strIdxEnd = strDirs.length - 1;
// up to first '**'
while ( patIdxStart <= patIdxEnd && strIdxStart <= strIdxEnd )
{
String patDir = patDirs[patIdxStart];
if ( patDir.equals( "**" ) )
{
break;
}
if ( !match( patDir, strDirs[strIdxStart], isCaseSensitive ) )
{
return false;
}
patIdxStart++;
strIdxStart++;
}
if ( strIdxStart > strIdxEnd )
{
// String is exhausted
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( !patDirs[i].equals( "**" ) )
{
return false;
}
}
return true;
}
else
{
if ( patIdxStart > patIdxEnd )
{
// String not exhausted, but pattern is. Failure.
return false;
}
}
// up to last '**'
while ( patIdxStart <= patIdxEnd && strIdxStart <= strIdxEnd )
{
String patDir = patDirs[patIdxEnd];
if ( patDir.equals( "**" ) )
{
break;
}
if ( !match( patDir, strDirs[strIdxEnd], isCaseSensitive ) )
{
return false;
}
patIdxEnd--;
strIdxEnd--;
}
if ( strIdxStart > strIdxEnd )
{
// String is exhausted
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( !patDirs[i].equals( "**" ) )
{
return false;
}
}
return true;
}
while ( patIdxStart != patIdxEnd && strIdxStart <= strIdxEnd )
{
int patIdxTmp = -1;
for ( int i = patIdxStart + 1; i <= patIdxEnd; i++ )
{
if ( patDirs[i].equals( "**" ) )
{
patIdxTmp = i;
break;
}
}
if ( patIdxTmp == patIdxStart + 1 )
{
// '**/**' situation, so skip one
patIdxStart++;
continue;
}
// Find the pattern between padIdxStart & padIdxTmp in str between
// strIdxStart & strIdxEnd
int patLength = ( patIdxTmp - patIdxStart - 1 );
int strLength = ( strIdxEnd - strIdxStart + 1 );
int foundIdx = -1;
strLoop: for ( int i = 0; i <= strLength - patLength; i++ )
{
for ( int j = 0; j < patLength; j++ )
{
String subPat = patDirs[patIdxStart + j + 1];
String subStr = strDirs[strIdxStart + i + j];
if ( !match( subPat, subStr, isCaseSensitive ) )
{
continue strLoop;
}
}
foundIdx = strIdxStart + i;
break;
}
if ( foundIdx == -1 )
{
return false;
}
patIdxStart = patIdxTmp;
strIdxStart = foundIdx + patLength;
}
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( !patDirs[i].equals( "**" ) )
{
return false;
}
}
return true;
}
static boolean matchAntPathPattern( char[][] patDirs, char[][] strDirs, boolean isCaseSensitive )
{
int patIdxStart = 0;
int patIdxEnd = patDirs.length - 1;
int strIdxStart = 0;
int strIdxEnd = strDirs.length - 1;
// up to first '**'
while ( patIdxStart <= patIdxEnd && strIdxStart <= strIdxEnd )
{
char[] patDir = patDirs[patIdxStart];
if ( isDoubleStar( patDir ) )
{
break;
}
if ( !match( patDir, strDirs[strIdxStart], isCaseSensitive ) )
{
return false;
}
patIdxStart++;
strIdxStart++;
}
if ( strIdxStart > strIdxEnd )
{
// String is exhausted
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( !isDoubleStar( patDirs[i] ) )
{
return false;
}
}
return true;
}
else
{
if ( patIdxStart > patIdxEnd )
{
// String not exhausted, but pattern is. Failure.
return false;
}
}
// up to last '**'
while ( patIdxStart <= patIdxEnd && strIdxStart <= strIdxEnd )
{
char[] patDir = patDirs[patIdxEnd];
if ( isDoubleStar( patDir ) )
{
break;
}
if ( !match( patDir, strDirs[strIdxEnd], isCaseSensitive ) )
{
return false;
}
patIdxEnd--;
strIdxEnd--;
}
if ( strIdxStart > strIdxEnd )
{
// String is exhausted
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( !isDoubleStar( patDirs[i] ) )
{
return false;
}
}
return true;
}
while ( patIdxStart != patIdxEnd && strIdxStart <= strIdxEnd )
{
int patIdxTmp = -1;
for ( int i = patIdxStart + 1; i <= patIdxEnd; i++ )
{
if ( isDoubleStar( patDirs[i] ) )
{
patIdxTmp = i;
break;
}
}
if ( patIdxTmp == patIdxStart + 1 )
{
// '**/**' situation, so skip one
patIdxStart++;
continue;
}
// Find the pattern between padIdxStart & padIdxTmp in str between
// strIdxStart & strIdxEnd
int patLength = ( patIdxTmp - patIdxStart - 1 );
int strLength = ( strIdxEnd - strIdxStart + 1 );
int foundIdx = -1;
strLoop: for ( int i = 0; i <= strLength - patLength; i++ )
{
for ( int j = 0; j < patLength; j++ )
{
char[] subPat = patDirs[patIdxStart + j + 1];
char[] subStr = strDirs[strIdxStart + i + j];
if ( !match( subPat, subStr, isCaseSensitive ) )
{
continue strLoop;
}
}
foundIdx = strIdxStart + i;
break;
}
if ( foundIdx == -1 )
{
return false;
}
patIdxStart = patIdxTmp;
strIdxStart = foundIdx + patLength;
}
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( !isDoubleStar( patDirs[i] ) )
{
return false;
}
}
return true;
}
private static boolean isDoubleStar( char[] patDir )
{
return patDir != null && patDir.length == 2 && patDir[0] == '*' && patDir[1] == '*';
}
/**
* Tests whether or not a string matches against a pattern. The pattern may contain two special characters:
* '*' means zero or more characters
* '?' means one and only one character
*
* @param pattern The pattern to match against. Must not be null.
* @param str The string which must be matched against the pattern. Must not be null.
* @return true if the string matches against the pattern, or false otherwise.
*/
public static boolean match( String pattern, String str )
{
return match( pattern, str, true );
}
/**
* Tests whether or not a string matches against a pattern. The pattern may contain two special characters:
* '*' means zero or more characters
* '?' means one and only one character
*
* @param pattern The pattern to match against. Must not be null.
* @param str The string which must be matched against the pattern. Must not be null.
* @param isCaseSensitive Whether or not matching should be performed case sensitively.
* @return true if the string matches against the pattern, or false otherwise.
*/
public static boolean match( String pattern, String str, boolean isCaseSensitive )
{
char[] patArr = pattern.toCharArray();
char[] strArr = str.toCharArray();
return match( patArr, strArr, isCaseSensitive );
}
public static boolean match( char[] patArr, char[] strArr, boolean isCaseSensitive )
{
int patIdxStart = 0;
int patIdxEnd = patArr.length - 1;
int strIdxStart = 0;
int strIdxEnd = strArr.length - 1;
char ch;
boolean containsStar = false;
for ( char aPatArr : patArr )
{
if ( aPatArr == '*' )
{
containsStar = true;
break;
}
}
if ( !containsStar )
{
// No '*'s, so we make a shortcut
if ( patIdxEnd != strIdxEnd )
{
return false; // Pattern and string do not have the same size
}
for ( int i = 0; i <= patIdxEnd; i++ )
{
ch = patArr[i];
if ( ch != '?' && !equals( ch, strArr[i], isCaseSensitive ) )
{
return false; // Character mismatch
}
}
return true; // String matches against pattern
}
if ( patIdxEnd == 0 )
{
return true; // Pattern contains only '*', which matches anything
}
// Process characters before first star
while ( ( ch = patArr[patIdxStart] ) != '*' && strIdxStart <= strIdxEnd )
{
if ( ch != '?' && !equals( ch, strArr[strIdxStart], isCaseSensitive ) )
{
return false; // Character mismatch
}
patIdxStart++;
strIdxStart++;
}
if ( strIdxStart > strIdxEnd )
{
// All characters in the string are used. Check if only '*'s are
// left in the pattern. If so, we succeeded. Otherwise failure.
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( patArr[i] != '*' )
{
return false;
}
}
return true;
}
// Process characters after last star
while ( ( ch = patArr[patIdxEnd] ) != '*' && strIdxStart <= strIdxEnd )
{
if ( ch != '?' && !equals( ch, strArr[strIdxEnd], isCaseSensitive ) )
{
return false; // Character mismatch
}
patIdxEnd--;
strIdxEnd--;
}
if ( strIdxStart > strIdxEnd )
{
// All characters in the string are used. Check if only '*'s are
// left in the pattern. If so, we succeeded. Otherwise failure.
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( patArr[i] != '*' )
{
return false;
}
}
return true;
}
// process pattern between stars. padIdxStart and patIdxEnd point
// always to a '*'.
while ( patIdxStart != patIdxEnd && strIdxStart <= strIdxEnd )
{
int patIdxTmp = -1;
for ( int i = patIdxStart + 1; i <= patIdxEnd; i++ )
{
if ( patArr[i] == '*' )
{
patIdxTmp = i;
break;
}
}
if ( patIdxTmp == patIdxStart + 1 )
{
// Two stars next to each other, skip the first one.
patIdxStart++;
continue;
}
// Find the pattern between padIdxStart & padIdxTmp in str between
// strIdxStart & strIdxEnd
int patLength = ( patIdxTmp - patIdxStart - 1 );
int strLength = ( strIdxEnd - strIdxStart + 1 );
int foundIdx = -1;
strLoop: for ( int i = 0; i <= strLength - patLength; i++ )
{
for ( int j = 0; j < patLength; j++ )
{
ch = patArr[patIdxStart + j + 1];
if ( ch != '?' && !equals( ch, strArr[strIdxStart + i + j], isCaseSensitive ) )
{
continue strLoop;
}
}
foundIdx = strIdxStart + i;
break;
}
if ( foundIdx == -1 )
{
return false;
}
patIdxStart = patIdxTmp;
strIdxStart = foundIdx + patLength;
}
// All characters in the string are used. Check if only '*'s are left
// in the pattern. If so, we succeeded. Otherwise failure.
for ( int i = patIdxStart; i <= patIdxEnd; i++ )
{
if ( patArr[i] != '*' )
{
return false;
}
}
return true;
}
/**
* Tests whether two characters are equal.
*/
private static boolean equals( char c1, char c2, boolean isCaseSensitive )
{
if ( c1 == c2 )
{
return true;
}
if ( !isCaseSensitive )
{
// NOTE: Try both upper case and lower case as done by String.equalsIgnoreCase()
if ( Character.toUpperCase( c1 ) == Character.toUpperCase( c2 )
|| Character.toLowerCase( c1 ) == Character.toLowerCase( c2 ) )
{
return true;
}
}
return false;
}
private static String[] tokenizePathToString( String path, String separator )
{
List ret = new ArrayList();
StringTokenizer st = new StringTokenizer( path, separator );
while ( st.hasMoreTokens() )
{
ret.add( st.nextToken() );
}
return ret.toArray( new String[ret.size()] );
}
/**
* Returns dependency information on these two files. If src has been modified later than target, it returns true.
* If target doesn't exist, it likewise returns true. Otherwise, target is newer than src and is not out of date,
* thus the method returns false. It also returns false if the src file doesn't even exist, since how could the
* target then be out of date.
*
* @param src the original file
* @param target the file being compared against
* @param granularity the amount in seconds of slack we will give in determining out of dateness
* @return whether the target is out of date
*/
public static boolean isOutOfDate( File src, File target, int granularity )
{
if ( !src.exists() )
{
return false;
}
if ( !target.exists() )
{
return true;
}
if ( ( src.lastModified() - granularity ) > target.lastModified() )
{
return true;
}
return false;
}
/**
* "Flattens" a string by removing all whitespace (space, tab, linefeed, carriage return, and formfeed). This uses
* StringTokenizer and the default set of tokens as documented in the single argument constructor.
*
* @param input a String to remove all whitespace.
* @return a String that has had all whitespace removed.
*/
public static String removeWhitespace( String input )
{
StringBuilder result = new StringBuilder();
if ( input != null )
{
StringTokenizer st = new StringTokenizer( input );
while ( st.hasMoreTokens() )
{
result.append( st.nextToken() );
}
}
return result.toString();
}
}