/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
package org.apache.tools.ant;
import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.Vector;
import org.apache.tools.ant.taskdefs.condition.Os;
import org.apache.tools.ant.types.Resource;
import org.apache.tools.ant.types.ResourceFactory;
import org.apache.tools.ant.types.resources.FileResource;
import org.apache.tools.ant.types.selectors.FileSelector;
import org.apache.tools.ant.types.selectors.SelectorScanner;
import org.apache.tools.ant.types.selectors.SelectorUtils;
import org.apache.tools.ant.util.FileUtils;
/**
* Class for scanning a directory for files/directories which match certain
* criteria.
* <p>
* 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.
* <p>
* 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.
* <p>
* 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.
* <p>
* 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
* <code>File.separator</code> ('/' 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.
* <p>
* 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.
* <p>
* There is a special case regarding the use of <code>File.separator</code>s
* at the beginning of the pattern and the string to match:<br>
* When a pattern starts with a <code>File.separator</code>, the string
* to match must also start with a <code>File.separator</code>.
* When a pattern does not start with a <code>File.separator</code>, the
* string to match may not start with a <code>File.separator</code>.
* When one of these rules is not obeyed, the string will not
* match.
* <p>
* When a name path segment is matched against a pattern path segment, the
* following special characters can be used:<br>
* '*' matches zero or more characters<br>
* '?' matches one character.
* <p>
* Examples:
* <p>
* "**\*.class" matches all .class files/dirs in a directory tree.
* <p>
* "test\a??.java" matches all files/dirs which start with an 'a', then two
* more characters and then ".java", in a directory called test.
* <p>
* "**" matches everything in a directory tree.
* <p>
* "**\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").
* <p>
* Case sensitivity may be turned off if necessary. By default, it is
* turned on.
* <p>
* Example of usage:
* <pre>
* 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]);
* }
* </pre>
* This will scan a directory called test for .class files, but excludes all
* files in all proper subdirectories of a directory called "modules"
*
*/
public class DirectoryScanner
implements FileScanner, SelectorScanner, ResourceFactory {
/** Is OpenVMS the operating system we're running on? */
private static final boolean ON_VMS = Os.isFamily("openvms");
/**
* Patterns which should be excluded by default.
*
* <p>Note that you can now add patterns to the list of default
* excludes. Added patterns will not become part of this array
* that has only been kept around for backwards compatibility
* reasons.</p>
*
* @deprecated since 1.6.x.
* Use the {@link #getDefaultExcludes getDefaultExcludes}
* method instead.
*/
protected static final String[] DEFAULTEXCLUDES = {
// Miscellaneous typical temporary files
"**/*~",
"**/#*#",
"**/.#*",
"**/%*%",
"**/._*",
// CVS
"**/CVS",
"**/CVS/**",
"**/.cvsignore",
// SCCS
"**/SCCS",
"**/SCCS/**",
// Visual SourceSafe
"**/vssver.scc",
// Subversion
"**/.svn",
"**/.svn/**",
// Mac
"**/.DS_Store"
};
/** Helper. */
private static final FileUtils FILE_UTILS = FileUtils.getFileUtils();
/** iterations for case-sensitive scanning. */
private static final boolean[] CS_SCAN_ONLY = new boolean[] {true};
/** iterations for non-case-sensitive scanning. */
private static final boolean[] CS_THEN_NON_CS = new boolean[] {true, false};
/**
* Patterns which should be excluded by default.
*
* @see #addDefaultExcludes()
*/
private static Vector defaultExcludes = new Vector();
static {
resetDefaultExcludes();
}
// CheckStyle:VisibilityModifier OFF - bc
/** The base directory to be scanned. */
protected File basedir;
/** The patterns for the files to be included. */
protected String[] includes;
/** The patterns for the files to be excluded. */
protected String[] excludes;
/** Selectors that will filter which files are in our candidate list. */
protected FileSelector[] selectors = null;
/**
* 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 the file system should be treated as a case sensitive
* one.
*/
protected boolean isCaseSensitive = true;
/**
* Whether a missing base directory is an error.
* @since Ant 1.7.1
*/
protected boolean errorOnMissingDir = true;
/**
* 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;
// CheckStyle:VisibilityModifier ON
/**
* Temporary table to speed up the various scanning methods.
*
* @since Ant 1.6
*/
private Map fileListMap = new HashMap();
/**
* List of all scanned directories.
*
* @since Ant 1.6
*/
private Set scannedDirs = new HashSet();
/**
* Set of all include patterns that are full file names and don't
* contain any wildcards.
*
* <p>If this instance is not case sensitive, the file names get
* turned to lower case.</p>
*
* <p>Gets lazily initialized on the first invocation of
* isIncluded or isExcluded and cleared at the end of the scan
* method (cleared in clearCaches, actually).</p>
*
* @since Ant 1.6.3
*/
private Set includeNonPatterns = new HashSet();
/**
* Set of all include patterns that are full file names and don't
* contain any wildcards.
*
* <p>If this instance is not case sensitive, the file names get
* turned to lower case.</p>
*
* <p>Gets lazily initialized on the first invocation of
* isIncluded or isExcluded and cleared at the end of the scan
* method (cleared in clearCaches, actually).</p>
*
* @since Ant 1.6.3
*/
private Set excludeNonPatterns = new HashSet();
/**
* Array of all include patterns that contain wildcards.
*
* <p>Gets lazily initialized on the first invocation of
* isIncluded or isExcluded and cleared at the end of the scan
* method (cleared in clearCaches, actually).</p>
*
* @since Ant 1.6.3
*/
private String[] includePatterns;
/**
* Array of all exclude patterns that contain wildcards.
*
* <p>Gets lazily initialized on the first invocation of
* isIncluded or isExcluded and cleared at the end of the scan
* method (cleared in clearCaches, actually).</p>
*
* @since Ant 1.6.3
*/
private String[] excludePatterns;
/**
* Have the non-pattern sets and pattern arrays for in- and
* excludes been initialized?
*
* @since Ant 1.6.3
*/
private boolean areNonPatternSetsReady = false;
/**
* Scanning flag.
*
* @since Ant 1.6.3
*/
private boolean scanning = false;
/**
* Scanning lock.
*
* @since Ant 1.6.3
*/
private Object scanLock = new Object();
/**
* Slow scanning flag.
*
* @since Ant 1.6.3
*/
private boolean slowScanning = false;
/**
* Slow scanning lock.
*
* @since Ant 1.6.3
*/
private Object slowScanLock = new Object();
/**
* Exception thrown during scan.
*
* @since Ant 1.6.3
*/
private IllegalStateException illegal = null;
/**
* Sole constructor.
*/
public DirectoryScanner() {
}
/**
* Test whether or not a given path matches the start of a given
* pattern up to the first "**".
* <p>
* This is not a general purpose test and should only be used if you
* can live with false positives. For example, <code>pattern=**\a</code>
* and <code>str=b</code> will yield <code>true</code>.
*
* @param pattern The pattern to match against. Must not be
* <code>null</code>.
* @param str The path to match, as a String. Must not be
* <code>null</code>.
*
* @return whether or not a given path matches the start of a given
* pattern up to the first "**".
*/
protected static boolean matchPatternStart(String pattern, String str) {
return SelectorUtils.matchPatternStart(pattern, str);
}
/**
* Test whether or not a given path matches the start of a given
* pattern up to the first "**".
* <p>
* This is not a general purpose test and should only be used if you
* can live with false positives. For example, <code>pattern=**\a</code>
* and <code>str=b</code> will yield <code>true</code>.
*
* @param pattern The pattern to match against. Must not be
* <code>null</code>.
* @param str The path to match, as a String. Must not be
* <code>null</code>.
* @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 "**".
*/
protected static boolean matchPatternStart(String pattern, String str,
boolean isCaseSensitive) {
return SelectorUtils.matchPatternStart(pattern, str, isCaseSensitive);
}
/**
* Test whether or not a given path matches a given pattern.
*
* @param pattern The pattern to match against. Must not be
* <code>null</code>.
* @param str The path to match, as a String. Must not be
* <code>null</code>.
*
* @return <code>true</code> if the pattern matches against the string,
* or <code>false</code> otherwise.
*/
protected static boolean matchPath(String pattern, String str) {
return SelectorUtils.matchPath(pattern, str);
}
/**
* Test whether or not a given path matches a given pattern.
*
* @param pattern The pattern to match against. Must not be
* <code>null</code>.
* @param str The path to match, as a String. Must not be
* <code>null</code>.
* @param isCaseSensitive Whether or not matching should be performed
* case sensitively.
*
* @return <code>true</code> if the pattern matches against the string,
* or <code>false</code> otherwise.
*/
protected static boolean matchPath(String pattern, String str,
boolean isCaseSensitive) {
return SelectorUtils.matchPath(pattern, str, isCaseSensitive);
}
/**
* Test whether or not a string matches against a pattern.
* The pattern may contain two special characters:<br>
* '*' means zero or more characters<br>
* '?' means one and only one character
*
* @param pattern The pattern to match against.
* Must not be <code>null</code>.
* @param str The string which must be matched against the pattern.
* Must not be <code>null</code>.
*
* @return <code>true</code> if the string matches against the pattern,
* or <code>false</code> otherwise.
*/
public static boolean match(String pattern, String str) {
return SelectorUtils.match(pattern, str);
}
/**
* Test whether or not a string matches against a pattern.
* The pattern may contain two special characters:<br>
* '*' means zero or more characters<br>
* '?' means one and only one character
*
* @param pattern The pattern to match against.
* Must not be <code>null</code>.
* @param str The string which must be matched against the pattern.
* Must not be <code>null</code>.
* @param isCaseSensitive Whether or not matching should be performed
* case sensitively.
*
*
* @return <code>true</code> if the string matches against the pattern,
* or <code>false</code> otherwise.
*/
protected static boolean match(String pattern, String str,
boolean isCaseSensitive) {
return SelectorUtils.match(pattern, str, isCaseSensitive);
}
/**
* Get the list of patterns that should be excluded by default.
*
* @return An array of <code>String</code> based on the current
* contents of the <code>defaultExcludes</code>
* <code>Vector</code>.
*
* @since Ant 1.6
*/
public static String[] getDefaultExcludes() {
return (String[]) defaultExcludes.toArray(new String[defaultExcludes
.size()]);
}
/**
* Add a pattern to the default excludes unless it is already a
* default exclude.
*
* @param s A string to add as an exclude pattern.
* @return <code>true</code> if the string was added;
* <code>false</code> if it already existed.
*
* @since Ant 1.6
*/
public static boolean addDefaultExclude(String s) {
if (defaultExcludes.indexOf(s) == -1) {
defaultExcludes.add(s);
return true;
}
return false;
}
/**
* Remove a string if it is a default exclude.
*
* @param s The string to attempt to remove.
* @return <code>true</code> if <code>s</code> was a default
* exclude (and thus was removed);
* <code>false</code> if <code>s</code> was not
* in the default excludes list to begin with.
*
* @since Ant 1.6
*/
public static boolean removeDefaultExclude(String s) {
return defaultExcludes.remove(s);
}
/**
* Go back to the hardwired default exclude patterns.
*
* @since Ant 1.6
*/
public static void resetDefaultExcludes() {
defaultExcludes = new Vector();
for (int i = 0; i < DEFAULTEXCLUDES.length; i++) {
defaultExcludes.add(DEFAULTEXCLUDES[i]);
}
}
/**
* Set the base directory to be scanned. This is the directory which is
* scanned recursively. All '/' and '\' characters are replaced by
* <code>File.separatorChar</code>, so the separator used need not match
* <code>File.separatorChar</code>.
*
* @param basedir The base directory to scan.
*/
public void setBasedir(String basedir) {
setBasedir(basedir == null ? (File) null
: new File(basedir.replace('/', File.separatorChar).replace(
'\\', File.separatorChar)));
}
/**
* Set the base directory to be scanned. This is the directory which is
* scanned recursively.
*
* @param basedir The base directory for scanning.
*/
public synchronized void setBasedir(File basedir) {
this.basedir = basedir;
}
/**
* Return the base directory to be scanned.
* This is the directory which is scanned recursively.
*
* @return the base directory to be scanned.
*/
public synchronized File getBasedir() {
return basedir;
}
/**
* Find out whether include exclude patterns are matched in a
* case sensitive way.
* @return whether or not the scanning is case sensitive.
* @since Ant 1.6
*/
public synchronized boolean isCaseSensitive() {
return isCaseSensitive;
}
/**
* Set whether or not include and exclude patterns are matched
* in a case sensitive way.
*
* @param isCaseSensitive whether or not the file system should be
* regarded as a case sensitive one.
*/
public synchronized void setCaseSensitive(boolean isCaseSensitive) {
this.isCaseSensitive = isCaseSensitive;
}
/**
* Sets whether or not a missing base directory is an error
*
* @param errorOnMissingDir whether or not a missing base directory
* is an error
* @since Ant 1.7.1
*/
public void setErrorOnMissingDir(boolean errorOnMissingDir) {
this.errorOnMissingDir = errorOnMissingDir;
}
/**
* Get whether or not a DirectoryScanner follows symbolic links.
*
* @return flag indicating whether symbolic links should be followed.
*
* @since Ant 1.6
*/
public synchronized boolean isFollowSymlinks() {
return followSymlinks;
}
/**
* Set whether or not symbolic links should be followed.
*
* @param followSymlinks whether or not symbolic links should be followed.
*/
public synchronized void setFollowSymlinks(boolean followSymlinks) {
this.followSymlinks = followSymlinks;
}
/**
* Set the list of include patterns to use. All '/' and '\' characters
* are replaced by <code>File.separatorChar</code>, so the separator used
* need not match <code>File.separatorChar</code>.
* <p>
* When a pattern ends with a '/' or '\', "**" is appended.
*
* @param includes A list of include patterns.
* May be <code>null</code>, indicating that all files
* should be included. If a non-<code>null</code>
* list is given, all elements must be
* non-<code>null</code>.
*/
public synchronized void setIncludes(String[] includes) {
if (includes == null) {
this.includes = null;
} else {
this.includes = new String[includes.length];
for (int i = 0; i < includes.length; i++) {
this.includes[i] = normalizePattern(includes[i]);
}
}
}
/**
* Set the list of exclude patterns to use. All '/' and '\' characters
* are replaced by <code>File.separatorChar</code>, so the separator used
* need not match <code>File.separatorChar</code>.
* <p>
* When a pattern ends with a '/' or '\', "**" is appended.
*
* @param excludes A list of exclude patterns.
* May be <code>null</code>, indicating that no files
* should be excluded. If a non-<code>null</code> list is
* given, all elements must be non-<code>null</code>.
*/
public synchronized void setExcludes(String[] excludes) {
if (excludes == null) {
this.excludes = null;
} else {
this.excludes = new String[excludes.length];
for (int i = 0; i < excludes.length; i++) {
this.excludes[i] = normalizePattern(excludes[i]);
}
}
}
/**
* Add to the list of exclude patterns to use. All '/' and '\'
* characters are replaced by <code>File.separatorChar</code>, so
* the separator used need not match <code>File.separatorChar</code>.
* <p>
* When a pattern ends with a '/' or '\', "**" is appended.
*
* @param excludes A list of exclude patterns.
* May be <code>null</code>, in which case the
* exclude patterns don't get changed at all.
*
* @since Ant 1.6.3
*/
public synchronized void addExcludes(String[] excludes) {
if (excludes != null && excludes.length > 0) {
if (this.excludes != null && this.excludes.length > 0) {
String[] tmp = new String[excludes.length
+ this.excludes.length];
System.arraycopy(this.excludes, 0, tmp, 0,
this.excludes.length);
for (int i = 0; i < excludes.length; i++) {
tmp[this.excludes.length + i] =
normalizePattern(excludes[i]);
}
this.excludes = tmp;
} else {
setExcludes(excludes);
}
}
}
/**
* All '/' and '\' characters are replaced by
* <code>File.separatorChar</code>, so the separator used need not
* match <code>File.separatorChar</code>.
*
* <p> When a pattern ends with a '/' or '\', "**" is appended.
*
* @since Ant 1.6.3
*/
private static String normalizePattern(String p) {
String pattern = p.replace('/', File.separatorChar)
.replace('\\', File.separatorChar);
if (pattern.endsWith(File.separator)) {
pattern += "**";
}
return pattern;
}
/**
* Set the selectors that will select the filelist.
*
* @param selectors specifies the selectors to be invoked on a scan.
*/
public synchronized void setSelectors(FileSelector[] selectors) {
this.selectors = selectors;
}
/**
* Return whether or not the scanner has included all the files or
* directories it has come across so far.
*
* @return <code>true</code> if all files and directories which have
* been found so far have been included.
*/
public synchronized boolean isEverythingIncluded() {
return everythingIncluded;
}
/**
* Scan 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. Scans under basedir, if set; otherwise the
* include patterns without leading wildcards specify the absolute paths of
* the files that may be included.
*
* @exception IllegalStateException if the base directory was set
* incorrectly (i.e. if it doesn't exist or isn't a directory).
*/
public void scan() throws IllegalStateException {
synchronized (scanLock) {
if (scanning) {
while (scanning) {
try {
scanLock.wait();
} catch (InterruptedException e) {
continue;
}
}
if (illegal != null) {
throw illegal;
}
return;
}
scanning = true;
}
try {
synchronized (this) {
illegal = null;
clearResults();
// set in/excludes to reasonable defaults if needed:
boolean nullIncludes = (includes == null);
includes = nullIncludes ? new String[] {"**"} : includes;
boolean nullExcludes = (excludes == null);
excludes = nullExcludes ? new String[0] : excludes;
if (basedir == null) {
// if no basedir and no includes, nothing to do:
if (nullIncludes) {
return;
}
} else {
if (!basedir.exists()) {
if (errorOnMissingDir) {
illegal = new IllegalStateException(
"basedir " + basedir + " does not exist");
} else {
// Nothing to do - basedir does not exist
return;
}
}
if (!basedir.isDirectory()) {
illegal = new IllegalStateException("basedir " + basedir
+ " is not a directory");
}
if (illegal != null) {
throw illegal;
}
}
if (isIncluded("")) {
if (!isExcluded("")) {
if (isSelected("", basedir)) {
dirsIncluded.addElement("");
} else {
dirsDeselected.addElement("");
}
} else {
dirsExcluded.addElement("");
}
} else {
dirsNotIncluded.addElement("");
}
checkIncludePatterns();
clearCaches();
includes = nullIncludes ? null : includes;
excludes = nullExcludes ? null : excludes;
}
} finally {
synchronized (scanLock) {
scanning = false;
scanLock.notifyAll();
}
}
}
/**
* This routine is actually checking all the include patterns in
* order to avoid scanning everything under base dir.
* @since Ant 1.6
*/
private void checkIncludePatterns() {
Map newroots = new HashMap();
// put in the newroots map the include patterns without
// wildcard tokens
for (int i = 0; i < includes.length; i++) {
if (FileUtils.isAbsolutePath(includes[i])) {
//skip abs. paths not under basedir, if set:
if (basedir != null
&& !SelectorUtils.matchPatternStart(includes[i],
basedir.getAbsolutePath(), isCaseSensitive())) {
continue;
}
} else if (basedir == null) {
//skip non-abs. paths if basedir == null:
continue;
}
newroots.put(SelectorUtils.rtrimWildcardTokens(
includes[i]), includes[i]);
}
if (newroots.containsKey("") && basedir != null) {
// we are going to scan everything anyway
scandir(basedir, "", true);
} else {
// only scan directories that can include matched files or
// directories
Iterator it = newroots.entrySet().iterator();
File canonBase = null;
if (basedir != null) {
try {
canonBase = basedir.getCanonicalFile();
} catch (IOException ex) {
throw new BuildException(ex);
}
}
while (it.hasNext()) {
Map.Entry entry = (Map.Entry) it.next();
String currentelement = (String) entry.getKey();
if (basedir == null && !FileUtils.isAbsolutePath(currentelement)) {
continue;
}
String originalpattern = (String) entry.getValue();
File myfile = new File(basedir, currentelement);
if (myfile.exists()) {
// may be on a case insensitive file system. We want
// the results to show what's really on the disk, so
// we need to double check.
try {
String path = (basedir == null)
? myfile.getCanonicalPath()
: FILE_UTILS.removeLeadingPath(canonBase,
myfile.getCanonicalFile());
if (!path.equals(currentelement) || ON_VMS) {
myfile = findFile(basedir, currentelement, true);
if (myfile != null && basedir != null) {
currentelement = FILE_UTILS.removeLeadingPath(
basedir, myfile);
}
}
} catch (IOException ex) {
throw new BuildException(ex);
}
}
if ((myfile == null || !myfile.exists()) && !isCaseSensitive()) {
File f = findFile(basedir, currentelement, false);
if (f != null && f.exists()) {
// adapt currentelement to the case we've
// actually found
currentelement = (basedir == null)
? f.getAbsolutePath()
: FILE_UTILS.removeLeadingPath(basedir, f);
myfile = f;
}
}
if (myfile != null && myfile.exists()) {
if (!followSymlinks
&& isSymlink(basedir, currentelement)) {
continue;
}
if (myfile.isDirectory()) {
if (isIncluded(currentelement)
&& currentelement.length() > 0) {
accountForIncludedDir(currentelement, myfile, true);
} else {
if (currentelement.length() > 0) {
if (currentelement.charAt(currentelement
.length() - 1)
!= File.separatorChar) {
currentelement =
currentelement + File.separatorChar;
}
}
scandir(myfile, currentelement, true);
}
} else {
boolean included = isCaseSensitive()
? originalpattern.equals(currentelement)
: originalpattern.equalsIgnoreCase(currentelement);
if (included) {
accountForIncludedFile(currentelement, myfile);
}
}
}
}
}
}
/**
* Clear the result caches for a scan.
*/
protected synchronized void clearResults() {
filesIncluded = new Vector();
filesNotIncluded = new Vector();
filesExcluded = new Vector();
filesDeselected = new Vector();
dirsIncluded = new Vector();
dirsNotIncluded = new Vector();
dirsExcluded = new Vector();
dirsDeselected = new Vector();
everythingIncluded = (basedir != null);
scannedDirs.clear();
}
/**
* 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.
* <p>
* Returns immediately if a slow scan has already been completed.
*/
protected void slowScan() {
synchronized (slowScanLock) {
if (haveSlowResults) {
return;
}
if (slowScanning) {
while (slowScanning) {
try {
slowScanLock.wait();
} catch (InterruptedException e) {
// Empty
}
}
return;
}
slowScanning = true;
}
try {
synchronized (this) {
// set in/excludes to reasonable defaults if needed:
boolean nullIncludes = (includes == null);
includes = nullIncludes ? new String[] {"**"} : includes;
boolean nullExcludes = (excludes == null);
excludes = nullExcludes ? new String[0] : excludes;
String[] excl = new String[dirsExcluded.size()];
dirsExcluded.copyInto(excl);
String[] notIncl = new String[dirsNotIncluded.size()];
dirsNotIncluded.copyInto(notIncl);
processSlowScan(excl);
processSlowScan(notIncl);
clearCaches();
includes = nullIncludes ? null : includes;
excludes = nullExcludes ? null : excludes;
}
} finally {
synchronized (slowScanLock) {
haveSlowResults = true;
slowScanning = false;
slowScanLock.notifyAll();
}
}
}
private void processSlowScan(String[] arr) {
for (int i = 0; i < arr.length; i++) {
if (!couldHoldIncluded(arr[i])) {
scandir(new File(basedir, arr[i]),
arr[i] + File.separator, false);
}
}
}
/**
* Scan 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 <code>null</code>.
* @param vpath The path relative to the base directory (needed to
* prevent problems with an absolute path when using
* dir). Must not be <code>null</code>.
* @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) {
if (dir == null) {
throw new BuildException("dir must not be null.");
}
String[] newfiles = dir.list();
if (newfiles == null) {
if (!dir.exists()) {
throw new BuildException(dir + " doesn't exist.");
} else if (!dir.isDirectory()) {
throw new BuildException(dir + " is not a directory.");
} else {
throw new BuildException("IO error scanning directory '"
+ dir.getAbsolutePath() + "'");
}
}
scandir(dir, vpath, fast, newfiles);
}
private void scandir(File dir, String vpath, boolean fast, String[] newfiles) {
// avoid double scanning of directories, can only happen in fast mode
if (fast && hasBeenScanned(vpath)) {
return;
}
if (!followSymlinks) {
Vector noLinks = new Vector();
for (int i = 0; i < newfiles.length; i++) {
try {
if (FILE_UTILS.isSymbolicLink(dir, newfiles[i])) {
String name = vpath + newfiles[i];
File file = new File(dir, newfiles[i]);
(file.isDirectory()
? dirsExcluded : filesExcluded).addElement(name);
} else {
noLinks.addElement(newfiles[i]);
}
} 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.addElement(newfiles[i]);
}
}
newfiles = (String[]) (noLinks.toArray(new String[noLinks.size()]));
}
for (int i = 0; i < newfiles.length; i++) {
String name = vpath + newfiles[i];
File file = new File(dir, newfiles[i]);
String[] children = file.list();
if (children == null) { // probably file
if (isIncluded(name)) {
accountForIncludedFile(name, file);
} else {
everythingIncluded = false;
filesNotIncluded.addElement(name);
}
} else { // dir
if (isIncluded(name)) {
accountForIncludedDir(name, file, fast, children);
} else {
everythingIncluded = false;
dirsNotIncluded.addElement(name);
if (fast && couldHoldIncluded(name)) {
scandir(file, name + File.separator, fast, children);
}
}
if (!fast) {
scandir(file, name + File.separator, fast, children);
}
}
}
}
/**
* Process included file.
* @param name path of the file relative to the directory of the FileSet.
* @param file included File.
*/
private void accountForIncludedFile(String name, File file) {
processIncluded(name, file, filesIncluded, filesExcluded, filesDeselected);
}
/**
* Process included directory.
* @param name path of the directory relative to the directory of
* the FileSet.
* @param file directory as File.
* @param fast whether to perform fast scans.
*/
private void accountForIncludedDir(String name, File file, boolean fast) {
processIncluded(name, file, dirsIncluded, dirsExcluded, dirsDeselected);
if (fast && couldHoldIncluded(name) && !contentsExcluded(name)) {
scandir(file, name + File.separator, fast);
}
}
private void accountForIncludedDir(String name, File file, boolean fast, String[] children) {
processIncluded(name, file, dirsIncluded, dirsExcluded, dirsDeselected);
if (fast && couldHoldIncluded(name) && !contentsExcluded(name)) {
scandir(file, name + File.separator, fast, children);
}
}
private void processIncluded(String name, File file, Vector inc, Vector exc, Vector des) {
if (inc.contains(name) || exc.contains(name) || des.contains(name)) { return; }
boolean included = false;
if (isExcluded(name)) {
exc.add(name);
} else if (isSelected(name, file)) {
included = true;
inc.add(name);
} else {
des.add(name);
}
everythingIncluded &= included;
}
/**
* Test whether or not a name matches against at least one include
* pattern.
*
* @param name The name to match. Must not be <code>null</code>.
* @return <code>true</code> when the name matches against at least one
* include pattern, or <code>false</code> otherwise.
*/
protected boolean isIncluded(String name) {
ensureNonPatternSetsReady();
if (isCaseSensitive()
? includeNonPatterns.contains(name)
: includeNonPatterns.contains(name.toUpperCase())) {
return true;
}
for (int i = 0; i < includePatterns.length; i++) {
if (matchPath(includePatterns[i], name, isCaseSensitive())) {
return true;
}
}
return false;
}
/**
* Test whether or not a name matches the start of at least one include
* pattern.
*
* @param name The name to match. Must not be <code>null</code>.
* @return <code>true</code> when the name matches against the start of at
* least one include pattern, or <code>false</code> otherwise.
*/
protected boolean couldHoldIncluded(String name) {
for (int i = 0; i < includes.length; i++) {
if (matchPatternStart(includes[i], name, isCaseSensitive())
&& isMorePowerfulThanExcludes(name, includes[i])
&& isDeeper(includes[i], name)) {
return true;
}
}
return false;
}
/**
* Verify that a pattern specifies files deeper
* than the level of the specified file.
* @param pattern the pattern to check.
* @param name the name to check.
* @return whether the pattern is deeper than the name.
* @since Ant 1.6.3
*/
private boolean isDeeper(String pattern, String name) {
Vector p = SelectorUtils.tokenizePath(pattern);
Vector n = SelectorUtils.tokenizePath(name);
return p.contains("**") || p.size() > n.size();
}
/**
* Find out whether one particular include pattern is more powerful
* than all the excludes.
* Note: the power comparison is based on the length of the include pattern
* and of the exclude patterns without the wildcards.
* Ideally the comparison should be done based on the depth
* of the match; that is to say how many file separators have been matched
* before the first ** or the end of the pattern.
*
* IMPORTANT : this function should return false "with care".
*
* @param name the relative path to test.
* @param includepattern one include pattern.
* @return true if there is no exclude pattern more powerful than this include pattern.
* @since Ant 1.6
*/
private boolean isMorePowerfulThanExcludes(String name, String includepattern) {
String soughtexclude = name + File.separator + "**";
for (int counter = 0; counter < excludes.length; counter++) {
if (excludes[counter].equals(soughtexclude)) {
return false;
}
}
return true;
}
/**
* Test whether all contents of the specified directory must be excluded.
* @param name the directory name to check.
* @return whether all the specified directory's contents are excluded.
*/
private boolean contentsExcluded(String name) {
name = (name.endsWith(File.separator)) ? name : name + File.separator;
for (int i = 0; i < excludes.length; i++) {
String e = excludes[i];
if (e.endsWith("**") && SelectorUtils.matchPath(
e.substring(0, e.length() - 2), name, isCaseSensitive())) {
return true;
}
}
return false;
}
/**
* Test whether or not a name matches against at least one exclude
* pattern.
*
* @param name The name to match. Must not be <code>null</code>.
* @return <code>true</code> when the name matches against at least one
* exclude pattern, or <code>false</code> otherwise.
*/
protected boolean isExcluded(String name) {
ensureNonPatternSetsReady();
if (isCaseSensitive()
? excludeNonPatterns.contains(name)
: excludeNonPatterns.contains(name.toUpperCase())) {
return true;
}
for (int i = 0; i < excludePatterns.length; i++) {
if (matchPath(excludePatterns[i], name, isCaseSensitive())) {
return true;
}
}
return false;
}
/**
* Test whether a file should be selected.
*
* @param name the filename to check for selecting.
* @param file the java.io.File object for this filename.
* @return <code>false</code> when the selectors says that the file
* should not be selected, <code>true</code> otherwise.
*/
protected boolean isSelected(String name, File file) {
if (selectors != null) {
for (int i = 0; i < selectors.length; i++) {
if (!selectors[i].isSelected(basedir, name, file)) {
return false;
}
}
}
return true;
}
/**
* Return 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 synchronized String[] getIncludedFiles() {
if (filesIncluded == null) {
throw new IllegalStateException("Must call scan() first");
}
String[] files = new String[filesIncluded.size()];
filesIncluded.copyInto(files);
Arrays.sort(files);
return files;
}
/**
* Return the count of included files.
* @return <code>int</code>.
* @since Ant 1.6.3
*/
public synchronized int getIncludedFilesCount() {
if (filesIncluded == null) {
throw new IllegalStateException("Must call scan() first");
}
return filesIncluded.size();
}
/**
* Return 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 synchronized String[] getNotIncludedFiles() {
slowScan();
String[] files = new String[filesNotIncluded.size()];
filesNotIncluded.copyInto(files);
return files;
}
/**
* Return 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 least one of the exclude patterns.
*
* @see #slowScan
*/
public synchronized String[] getExcludedFiles() {
slowScan();
String[] files = new String[filesExcluded.size()];
filesExcluded.copyInto(files);
return files;
}
/**
* <p>Return the names of the files which were selected out and
* therefore not ultimately included.</p>
*
* <p>The names are relative to the base directory. This involves
* performing a slow scan if one has not already been completed.</p>
*
* @return the names of the files which were deselected.
*
* @see #slowScan
*/
public synchronized String[] getDeselectedFiles() {
slowScan();
String[] files = new String[filesDeselected.size()];
filesDeselected.copyInto(files);
return files;
}
/**
* Return 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 synchronized String[] getIncludedDirectories() {
if (dirsIncluded == null) {
throw new IllegalStateException("Must call scan() first");
}
String[] directories = new String[dirsIncluded.size()];
dirsIncluded.copyInto(directories);
Arrays.sort(directories);
return directories;
}
/**
* Return the count of included directories.
* @return <code>int</code>.
* @since Ant 1.6.3
*/
public synchronized int getIncludedDirsCount() {
if (dirsIncluded == null) {
throw new IllegalStateException("Must call scan() first");
}
return dirsIncluded.size();
}
/**
* Return 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 synchronized String[] getNotIncludedDirectories() {
slowScan();
String[] directories = new String[dirsNotIncluded.size()];
dirsNotIncluded.copyInto(directories);
return directories;
}
/**
* Return 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 synchronized String[] getExcludedDirectories() {
slowScan();
String[] directories = new String[dirsExcluded.size()];
dirsExcluded.copyInto(directories);
return directories;
}
/**
* <p>Return the names of the directories which were selected out and
* therefore not ultimately included.</p>
*
* <p>The names are relative to the base directory. This involves
* performing a slow scan if one has not already been completed.</p>
*
* @return the names of the directories which were deselected.
*
* @see #slowScan
*/
public synchronized String[] getDeselectedDirectories() {
slowScan();
String[] directories = new String[dirsDeselected.size()];
dirsDeselected.copyInto(directories);
return directories;
}
/**
* Add default exclusions to the current exclusions set.
*/
public synchronized void addDefaultExcludes() {
int excludesLength = excludes == null ? 0 : excludes.length;
String[] newExcludes;
newExcludes = new String[excludesLength + defaultExcludes.size()];
if (excludesLength > 0) {
System.arraycopy(excludes, 0, newExcludes, 0, excludesLength);
}
String[] defaultExcludesTemp = getDefaultExcludes();
for (int i = 0; i < defaultExcludesTemp.length; i++) {
newExcludes[i + excludesLength] =
defaultExcludesTemp[i].replace('/', File.separatorChar)
.replace('\\', File.separatorChar);
}
excludes = newExcludes;
}
/**
* Get the named resource.
* @param name path name of the file relative to the dir attribute.
*
* @return the resource with the given name.
* @since Ant 1.5.2
*/
public synchronized Resource getResource(String name) {
return new FileResource(basedir, name);
}
/**
* Return a cached result of list performed on file, if
* available. Invokes the method and caches the result otherwise.
*
* @param file File (dir) to list.
* @since Ant 1.6
*/
private String[] list(File file) {
String[] files = (String[]) fileListMap.get(file);
if (files == null) {
files = file.list();
if (files != null) {
fileListMap.put(file, files);
}
}
return files;
}
/**
* From <code>base</code> traverse the filesystem in order to find
* a file that matches the given name.
*
* @param base base File (dir).
* @param path file path.
* @param cs whether to scan case-sensitively.
* @return File object that points to the file in question or null.
*
* @since Ant 1.6.3
*/
private File findFile(File base, String path, boolean cs) {
if (FileUtils.isAbsolutePath(path)) {
if (base == null) {
String[] s = FILE_UTILS.dissect(path);
base = new File(s[0]);
path = s[1];
} else {
File f = FILE_UTILS.normalize(path);
String s = FILE_UTILS.removeLeadingPath(base, f);
if (s.equals(f.getAbsolutePath())) {
//removing base from path yields no change; path not child of base
return null;
}
path = s;
}
}
return findFile(base, SelectorUtils.tokenizePath(path), cs);
}
/**
* From <code>base</code> traverse the filesystem in order to find
* a file that matches the given stack of names.
*
* @param base base File (dir).
* @param pathElements Vector of path elements (dirs...file).
* @param cs whether to scan case-sensitively.
* @return File object that points to the file in question or null.
*
* @since Ant 1.6.3
*/
private File findFile(File base, Vector pathElements, boolean cs) {
if (pathElements.size() == 0) {
return base;
}
String current = (String) pathElements.remove(0);
if (base == null) {
return findFile(new File(current), pathElements, cs);
}
if (!base.isDirectory()) {
return null;
}
String[] files = list(base);
if (files == null) {
throw new BuildException("IO error scanning directory "
+ base.getAbsolutePath());
}
boolean[] matchCase = cs ? CS_SCAN_ONLY : CS_THEN_NON_CS;
for (int i = 0; i < matchCase.length; i++) {
for (int j = 0; j < files.length; j++) {
if (matchCase[i] ? files[j].equals(current)
: files[j].equalsIgnoreCase(current)) {
return findFile(new File(base, files[j]), pathElements, cs);
}
}
}
return null;
}
/**
* Do we have to traverse a symlink when trying to reach path from
* basedir?
* @param base base File (dir).
* @param path file path.
* @since Ant 1.6
*/
private boolean isSymlink(File base, String path) {
return isSymlink(base, SelectorUtils.tokenizePath(path));
}
/**
* Do we have to traverse a symlink when trying to reach path from
* basedir?
* @param base base File (dir).
* @param pathElements Vector of path elements (dirs...file).
* @since Ant 1.6
*/
private boolean isSymlink(File base, Vector pathElements) {
if (pathElements.size() > 0) {
String current = (String) pathElements.remove(0);
try {
return FILE_UTILS.isSymbolicLink(base, current)
|| isSymlink(new File(base, current), pathElements);
} 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);
}
}
return false;
}
/**
* Has the directory with the given path relative to the base
* directory already been scanned?
*
* <p>Registers the given directory as scanned as a side effect.</p>
*
* @since Ant 1.6
*/
private boolean hasBeenScanned(String vpath) {
return !scannedDirs.add(vpath);
}
/**
* This method is of interest for testing purposes. The returned
* Set is live and should not be modified.
* @return the Set of relative directory names that have been scanned.
*/
/* package-private */ Set getScannedDirs() {
return scannedDirs;
}
/**
* Clear internal caches.
*
* @since Ant 1.6
*/
private synchronized void clearCaches() {
fileListMap.clear();
includeNonPatterns.clear();
excludeNonPatterns.clear();
includePatterns = null;
excludePatterns = null;
areNonPatternSetsReady = false;
}
/**
* Ensure that the in|exclude "patterns"
* have been properly divided up.
*
* @since Ant 1.6.3
*/
private synchronized void ensureNonPatternSetsReady() {
if (!areNonPatternSetsReady) {
includePatterns = fillNonPatternSet(includeNonPatterns, includes);
excludePatterns = fillNonPatternSet(excludeNonPatterns, excludes);
areNonPatternSetsReady = true;
}
}
/**
* Add all patterns that are not real patterns (do not contain
* wildcards) to the set and returns the real patterns.
*
* @param set Set to populate.
* @param patterns String[] of patterns.
* @since Ant 1.6.3
*/
private String[] fillNonPatternSet(Set set, String[] patterns) {
ArrayList al = new ArrayList(patterns.length);
for (int i = 0; i < patterns.length; i++) {
if (!SelectorUtils.hasWildcards(patterns[i])) {
set.add(isCaseSensitive() ? patterns[i]
: patterns[i].toUpperCase());
} else {
al.add(patterns[i]);
}
}
return set.size() == 0 ? patterns
: (String[]) al.toArray(new String[al.size()]);
}
}
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