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package org.codehaus.plexus.util;

/*
 * The Apache Software License, Version 1.1
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 * Copyright (c) 2000-2003 The Apache Software Foundation.  All rights
 * reserved.
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 * 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.
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 * ====================================================================
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 * 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
 * .
 */

import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Vector;

/**
 * Class for scanning a directory for files/directories which match certain criteria.
 * 

* These criteria consist of selectors and patterns which have been specified. With the selectors you can select which * files you want to have included. Files which are not selected are excluded. With patterns you can include or exclude * files based on their filename. *

* The idea is simple. A given directory is recursively scanned for all files and directories. Each file/directory is * matched against a set of selectors, including special support for matching against filenames with include and and * exclude patterns. Only files/directories which match at least one pattern of the include pattern list or other file * selector, and don't match any pattern of the exclude pattern list or fail to match against a required selector will * be placed in the list of files/directories found. *

* When no list of include patterns is supplied, "**" will be used, which means that everything will be matched. When no * list of exclude patterns is supplied, an empty list is used, such that nothing will be excluded. When no selectors * are supplied, none are applied. *

* The filename pattern matching is done as follows: The name to be matched is split up in path segments. A path segment * is the name of a directory or file, which is bounded by File.separator ('/' under UNIX, '\' under * Windows). For example, "abc/def/ghi/xyz.java" is split up in the segments "abc", "def","ghi" and "xyz.java". The same * is done for the pattern against which should be matched. *

* The segments of the name and the pattern are then matched against each other. When '**' is used for a path segment in * the pattern, it matches zero or more path segments of the name. *

* There is a special case regarding the use of File.separators at the beginning of the pattern and the * string to match:
* When a pattern starts with a File.separator, the string to match must also start with a * File.separator. When a pattern does not start with a File.separator, the string to match * may not start with a File.separator. When one of these rules is not obeyed, the string will not match. *

* When a name path segment is matched against a pattern path segment, the following special characters can be used:
* '*' matches zero or more characters
* '?' matches one character. *

* Examples: *

* "**\*.class" matches all .class files/dirs in a directory tree. *

* "test\a??.java" matches all files/dirs which start with an 'a', then two more characters and then ".java", in a * directory called test. *

* "**" matches everything in a directory tree. *

* "**\test\**\XYZ*" matches all files/dirs which start with "XYZ" and where there is a parent directory called test * (e.g. "abc\test\def\ghi\XYZ123"). *

* Case sensitivity may be turned off if necessary. By default, it is turned on. *

* Example of usage: * *

 * String[] includes = { "**\\*.class" };
 * String[] excludes = { "modules\\*\\**" };
 * ds.setIncludes( includes );
 * ds.setExcludes( excludes );
 * ds.setBasedir( new File( "test" ) );
 * ds.setCaseSensitive( true );
 * ds.scan();
 *
 * System.out.println( "FILES:" );
 * String[] files = ds.getIncludedFiles();
 * for ( int i = 0; i < files.length; i++ )
 * {
 *     System.out.println( files[i] );
 * }
 * 
* * This will scan a directory called test for .class files, but excludes all files in all proper subdirectories of a * directory called "modules" * * @author Arnout J. Kuiper [email protected] * @author Magesh Umasankar * @author Bruce Atherton * @author Antoine Levy-Lambert */ public class DirectoryScanner extends AbstractScanner { /** * The base directory to be scanned. */ protected File basedir; /** * The files which matched at least one include and no excludes and were selected. */ protected Vector filesIncluded; /** * The files which did not match any includes or selectors. */ protected Vector filesNotIncluded; /** * The files which matched at least one include and at least one exclude. */ protected Vector filesExcluded; /** * The directories which matched at least one include and no excludes and were selected. */ protected Vector dirsIncluded; /** * The directories which were found and did not match any includes. */ protected Vector dirsNotIncluded; /** * The directories which matched at least one include and at least one exclude. */ protected Vector dirsExcluded; /** * The files which matched at least one include and no excludes and which a selector discarded. */ protected Vector filesDeselected; /** * The directories which matched at least one include and no excludes but which a selector discarded. */ protected Vector dirsDeselected; /** * Whether or not our results were built by a slow scan. */ protected boolean haveSlowResults = false; /** * Whether or not symbolic links should be followed. * * @since Ant 1.5 */ private boolean followSymlinks = true; /** * Whether or not everything tested so far has been included. */ protected boolean everythingIncluded = true; private final String[] tokenizedEmpty = MatchPattern.tokenizePathToString( "", File.separator ); /** * Sole constructor. */ public DirectoryScanner() { } /** * Sets the base directory to be scanned. This is the directory which is scanned recursively. All '/' and '\' * characters are replaced by File.separatorChar, so the separator used need not match * File.separatorChar. * * @param basedir The base directory to scan. Must not be null. */ public void setBasedir( String basedir ) { setBasedir( new File( basedir.replace( '/', File.separatorChar ).replace( '\\', File.separatorChar ) ) ); } /** * Sets the base directory to be scanned. This is the directory which is scanned recursively. * * @param basedir The base directory for scanning. Should not be null. */ public void setBasedir( File basedir ) { this.basedir = basedir; } /** * Returns the base directory to be scanned. This is the directory which is scanned recursively. * * @return the base directory to be scanned */ public File getBasedir() { return basedir; } /** * Sets whether or not symbolic links should be followed. * * @param followSymlinks whether or not symbolic links should be followed */ public void setFollowSymlinks( boolean followSymlinks ) { this.followSymlinks = followSymlinks; } /** * Returns whether or not the scanner has included all the files or directories it has come across so far. * * @return true if all files and directories which have been found so far have been included. */ public boolean isEverythingIncluded() { return everythingIncluded; } /** * Scans the base directory for files which match at least one include pattern and don't match any exclude patterns. * If there are selectors then the files must pass muster there, as well. * * @throws IllegalStateException if the base directory was set incorrectly (i.e. if it is null, doesn't * exist, or isn't a directory). */ public void scan() throws IllegalStateException { if ( basedir == null ) { throw new IllegalStateException( "No basedir set" ); } if ( !basedir.exists() ) { throw new IllegalStateException( "basedir " + basedir + " does not exist" ); } if ( !basedir.isDirectory() ) { throw new IllegalStateException( "basedir " + basedir + " is not a directory" ); } setupDefaultFilters(); setupMatchPatterns(); filesIncluded = new Vector(); filesNotIncluded = new Vector(); filesExcluded = new Vector(); filesDeselected = new Vector(); dirsIncluded = new Vector(); dirsNotIncluded = new Vector(); dirsExcluded = new Vector(); dirsDeselected = new Vector(); if ( isIncluded( "", tokenizedEmpty ) ) { if ( !isExcluded( "", tokenizedEmpty ) ) { if ( isSelected( "", basedir ) ) { dirsIncluded.addElement( "" ); } else { dirsDeselected.addElement( "" ); } } else { dirsExcluded.addElement( "" ); } } else { dirsNotIncluded.addElement( "" ); } scandir( basedir, "", true ); } /** * Top level invocation for a slow scan. A slow scan builds up a full list of excluded/included files/directories, * whereas a fast scan will only have full results for included files, as it ignores directories which can't * possibly hold any included files/directories. *

* Returns immediately if a slow scan has already been completed. */ protected void slowScan() { if ( haveSlowResults ) { return; } String[] excl = new String[dirsExcluded.size()]; dirsExcluded.copyInto( excl ); String[] notIncl = new String[dirsNotIncluded.size()]; dirsNotIncluded.copyInto( notIncl ); for ( String anExcl : excl ) { if ( !couldHoldIncluded( anExcl ) ) { scandir( new File( basedir, anExcl ), anExcl + File.separator, false ); } } for ( String aNotIncl : notIncl ) { if ( !couldHoldIncluded( aNotIncl ) ) { scandir( new File( basedir, aNotIncl ), aNotIncl + File.separator, false ); } } haveSlowResults = true; } /** * Scans the given directory for files and directories. Found files and directories are placed in their respective * collections, based on the matching of includes, excludes, and the selectors. When a directory is found, it is * scanned recursively. * * @param dir The directory to scan. Must not be null. * @param vpath The path relative to the base directory (needed to prevent problems with an absolute path when using * dir). Must not be null. * @param fast Whether or not this call is part of a fast scan. * @see #filesIncluded * @see #filesNotIncluded * @see #filesExcluded * @see #dirsIncluded * @see #dirsNotIncluded * @see #dirsExcluded * @see #slowScan */ protected void scandir( File dir, String vpath, boolean fast ) { String[] newfiles = dir.list(); if ( newfiles == null ) { /* * two reasons are mentioned in the API docs for File.list (1) dir is not a directory. This is impossible as * we wouldn't get here in this case. (2) an IO error occurred (why doesn't it throw an exception then???) */ /* * [jdcasey] (2) is apparently happening to me, as this is killing one of my tests... this is affecting the * assembly plugin, fwiw. I will initialize the newfiles array as zero-length for now. NOTE: I can't find * the problematic code, as it appears to come from a native method in UnixFileSystem... */ /* * [bentmann] A null array will also be returned from list() on NTFS when dir refers to a soft link or * junction point whose target is not existent. */ newfiles = new String[0]; // throw new IOException( "IO error scanning directory " + dir.getAbsolutePath() ); } if ( !followSymlinks ) { ArrayList noLinks = new ArrayList(); for ( String newfile : newfiles ) { try { if ( isParentSymbolicLink( dir, newfile ) ) { String name = vpath + newfile; File file = new File( dir, newfile ); if ( file.isDirectory() ) { dirsExcluded.addElement( name ); } else { filesExcluded.addElement( name ); } } else { noLinks.add( newfile ); } } catch ( IOException ioe ) { String msg = "IOException caught while checking " + "for links, couldn't get canonical path!"; // will be caught and redirected to Ant's logging system System.err.println( msg ); noLinks.add( newfile ); } } newfiles = noLinks.toArray( new String[noLinks.size()] ); } for ( String newfile : newfiles ) { String name = vpath + newfile; String[] tokenizedName = MatchPattern.tokenizePathToString( name, File.separator ); File file = new File( dir, newfile ); if ( file.isDirectory() ) { if ( isIncluded( name, tokenizedName ) ) { if ( !isExcluded( name, tokenizedName ) ) { if ( isSelected( name, file ) ) { dirsIncluded.addElement( name ); if ( fast ) { scandir( file, name + File.separator, fast ); } } else { everythingIncluded = false; dirsDeselected.addElement( name ); if ( fast && couldHoldIncluded( name ) ) { scandir( file, name + File.separator, fast ); } } } else { everythingIncluded = false; dirsExcluded.addElement( name ); if ( fast && couldHoldIncluded( name ) ) { scandir( file, name + File.separator, fast ); } } } else { everythingIncluded = false; dirsNotIncluded.addElement( name ); if ( fast && couldHoldIncluded( name ) ) { scandir( file, name + File.separator, fast ); } } if ( !fast ) { scandir( file, name + File.separator, fast ); } } else if ( file.isFile() ) { if ( isIncluded( name, tokenizedName ) ) { if ( !isExcluded( name, tokenizedName ) ) { if ( isSelected( name, file ) ) { filesIncluded.addElement( name ); } else { everythingIncluded = false; filesDeselected.addElement( name ); } } else { everythingIncluded = false; filesExcluded.addElement( name ); } } else { everythingIncluded = false; filesNotIncluded.addElement( name ); } } } } /** * Tests whether a name should be selected. * * @param name the filename to check for selecting * @param file the java.io.File object for this filename * @return false when the selectors says that the file should not be selected, true * otherwise. */ protected boolean isSelected( String name, File file ) { return true; } /** * Returns the names of the files which matched at least one of the include patterns and none of the exclude * patterns. The names are relative to the base directory. * * @return the names of the files which matched at least one of the include patterns and none of the exclude * patterns. */ public String[] getIncludedFiles() { String[] files = new String[filesIncluded.size()]; filesIncluded.copyInto( files ); return files; } /** * Returns the names of the files which matched none of the include patterns. The names are relative to the base * directory. This involves performing a slow scan if one has not already been completed. * * @return the names of the files which matched none of the include patterns. * @see #slowScan */ public String[] getNotIncludedFiles() { slowScan(); String[] files = new String[filesNotIncluded.size()]; filesNotIncluded.copyInto( files ); return files; } /** * Returns the names of the files which matched at least one of the include patterns and at least one of the exclude * patterns. The names are relative to the base directory. This involves performing a slow scan if one has not * already been completed. * * @return the names of the files which matched at least one of the include patterns and at at least one of the * exclude patterns. * @see #slowScan */ public String[] getExcludedFiles() { slowScan(); String[] files = new String[filesExcluded.size()]; filesExcluded.copyInto( files ); return files; } /** *

* Returns the names of the files which were selected out and therefore not ultimately included. *

*

*

* The names are relative to the base directory. This involves performing a slow scan if one has not already been * completed. *

* * @return the names of the files which were deselected. * @see #slowScan */ public String[] getDeselectedFiles() { slowScan(); String[] files = new String[filesDeselected.size()]; filesDeselected.copyInto( files ); return files; } /** * Returns the names of the directories which matched at least one of the include patterns and none of the exclude * patterns. The names are relative to the base directory. * * @return the names of the directories which matched at least one of the include patterns and none of the exclude * patterns. */ public String[] getIncludedDirectories() { String[] directories = new String[dirsIncluded.size()]; dirsIncluded.copyInto( directories ); return directories; } /** * Returns the names of the directories which matched none of the include patterns. The names are relative to the * base directory. This involves performing a slow scan if one has not already been completed. * * @return the names of the directories which matched none of the include patterns. * @see #slowScan */ public String[] getNotIncludedDirectories() { slowScan(); String[] directories = new String[dirsNotIncluded.size()]; dirsNotIncluded.copyInto( directories ); return directories; } /** * Returns the names of the directories which matched at least one of the include patterns and at least one of the * exclude patterns. The names are relative to the base directory. This involves performing a slow scan if one has * not already been completed. * * @return the names of the directories which matched at least one of the include patterns and at least one of the * exclude patterns. * @see #slowScan */ public String[] getExcludedDirectories() { slowScan(); String[] directories = new String[dirsExcluded.size()]; dirsExcluded.copyInto( directories ); return directories; } /** *

* Returns the names of the directories which were selected out and therefore not ultimately included. *

*

*

* The names are relative to the base directory. This involves performing a slow scan if one has not already been * completed. *

* * @return the names of the directories which were deselected. * @see #slowScan */ public String[] getDeselectedDirectories() { slowScan(); String[] directories = new String[dirsDeselected.size()]; dirsDeselected.copyInto( directories ); return directories; } /** * Checks whether a given file is a symbolic link. *

*

* It doesn't really test for symbolic links but whether the canonical and absolute paths of the file are identical * - this may lead to false positives on some platforms. *

* * @param parent the parent directory of the file to test * @param name the name of the file to test. * @return true if it's a symbolic link * @throws java.io.IOException . * @since Ant 1.5 */ public boolean isSymbolicLink( File parent, String name ) throws IOException { if ( Java7Detector.isJava7() ) { return NioFiles.isSymbolicLink( new File( parent, name ) ); } File resolvedParent = new File( parent.getCanonicalPath() ); File toTest = new File( resolvedParent, name ); return !toTest.getAbsolutePath().equals( toTest.getCanonicalPath() ); } /** * Checks whether the parent of this file is a symbolic link. *

*

* For java versions prior to 7 It doesn't really test for symbolic links but whether the canonical and absolute * paths of the file are identical - this may lead to false positives on some platforms. *

* * @param parent the parent directory of the file to test * @param name the name of the file to test. * @return true if it's a symbolic link * @throws java.io.IOException . * @since Ant 1.5 */ public boolean isParentSymbolicLink( File parent, String name ) throws IOException { if ( Java7Detector.isJava7() ) { return NioFiles.isSymbolicLink( parent ); } File resolvedParent = new File( parent.getCanonicalPath() ); File toTest = new File( resolvedParent, name ); return !toTest.getAbsolutePath().equals( toTest.getCanonicalPath() ); } }




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