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1 /*
2  * Copyright (c) 2007, 2013, Oracle and/or its affiliates. All rights reserved.
3  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4  *
5  * This code is free software; you can redistribute it and/or modify it
6  * under the terms of the GNU General Public License version 2 only, as
7  * published by the Free Software Foundation.  Oracle designates this
8  * particular file as subject to the "Classpath" exception as provided
9  * by Oracle in the LICENSE file that accompanied this code.
10  *
11  * This code is distributed in the hope that it will be useful, but WITHOUT
12  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
14  * version 2 for more details (a copy is included in the LICENSE file that
15  * accompanied this code).
16  *
17  * You should have received a copy of the GNU General Public License version
18  * 2 along with this work; if not, write to the Free Software Foundation,
19  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20  *
21  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
22  * or visit www.oracle.com if you need additional information or have any
23  * questions.
24  */
25 
26 package java.nio.file;
27 
28 import java.io.BufferedReader;
29 import java.io.BufferedWriter;
30 import java.io.Closeable;
31 import java.io.File;
32 import java.io.IOException;
33 import java.io.InputStream;
34 import java.io.InputStreamReader;
35 import java.io.OutputStream;
36 import java.io.OutputStreamWriter;
37 import java.io.Reader;
38 import java.io.UncheckedIOException;
39 import java.io.Writer;
40 import java.nio.channels.Channels;
41 import java.nio.channels.FileChannel;
42 import java.nio.channels.SeekableByteChannel;
43 import java.nio.charset.Charset;
44 import java.nio.charset.CharsetDecoder;
45 import java.nio.charset.CharsetEncoder;
46 import java.nio.charset.StandardCharsets;
47 import java.nio.file.attribute.BasicFileAttributeView;
48 import java.nio.file.attribute.BasicFileAttributes;
49 import java.nio.file.attribute.DosFileAttributes;   // javadoc
50 import java.nio.file.attribute.FileAttribute;
51 import java.nio.file.attribute.FileAttributeView;
52 import java.nio.file.attribute.FileOwnerAttributeView;
53 import java.nio.file.attribute.FileStoreAttributeView;
54 import java.nio.file.attribute.FileTime;
55 import java.nio.file.attribute.PosixFileAttributeView;
56 import java.nio.file.attribute.PosixFileAttributes;
57 import java.nio.file.attribute.PosixFilePermission;
58 import java.nio.file.attribute.UserPrincipal;
59 import java.nio.file.spi.FileSystemProvider;
60 import java.nio.file.spi.FileTypeDetector;
61 import java.security.AccessController;
62 import java.security.PrivilegedAction;
63 import java.util.ArrayList;
64 import java.util.Arrays;
65 import java.util.Collections;
66 import java.util.EnumSet;
67 import java.util.HashSet;
68 import java.util.Iterator;
69 import java.util.List;
70 import java.util.Map;
71 import java.util.Objects;
72 import java.util.ServiceLoader;
73 import java.util.Set;
74 import java.util.Spliterator;
75 import java.util.Spliterators;
76 import java.util.function.BiPredicate;
77 import java.util.stream.Stream;
78 import java.util.stream.StreamSupport;
79 
80 /**
81  * This class consists exclusively of static methods that operate on files,
82  * directories, or other types of files.
83  *
84  * <p> In most cases, the methods defined here will delegate to the associated
85  * file system provider to perform the file operations.
86  *
87  * @since 1.7
88  */
89 
90 public final class Files {
Files()91     private Files() { }
92 
93     /**
94      * Returns the {@code FileSystemProvider} to delegate to.
95      */
provider(Path path)96     private static FileSystemProvider provider(Path path) {
97         return path.getFileSystem().provider();
98     }
99 
100     /**
101      * Convert a Closeable to a Runnable by converting checked IOException
102      * to UncheckedIOException
103      */
asUncheckedRunnable(Closeable c)104     private static Runnable asUncheckedRunnable(Closeable c) {
105         return () -> {
106             try {
107                 c.close();
108             } catch (IOException e) {
109                 throw new UncheckedIOException(e);
110             }
111         };
112     }
113 
114     // -- File contents --
115 
116     /**
117      * Opens a file, returning an input stream to read from the file. The stream
118      * will not be buffered, and is not required to support the {@link
119      * InputStream#mark mark} or {@link InputStream#reset reset} methods. The
120      * stream will be safe for access by multiple concurrent threads. Reading
121      * commences at the beginning of the file. Whether the returned stream is
122      * <i>asynchronously closeable</i> and/or <i>interruptible</i> is highly
123      * file system provider specific and therefore not specified.
124      *
125      * <p> The {@code options} parameter determines how the file is opened.
126      * If no options are present then it is equivalent to opening the file with
127      * the {@link StandardOpenOption#READ READ} option. In addition to the {@code
128      * READ} option, an implementation may also support additional implementation
129      * specific options.
130      *
131      * @param   path
132      *          the path to the file to open
133      * @param   options
134      *          options specifying how the file is opened
135      *
136      * @return  a new input stream
137      *
138      * @throws  IllegalArgumentException
139      *          if an invalid combination of options is specified
140      * @throws  UnsupportedOperationException
141      *          if an unsupported option is specified
142      * @throws  IOException
143      *          if an I/O error occurs
144      * @throws  SecurityException
145      *          In the case of the default provider, and a security manager is
146      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
147      *          method is invoked to check read access to the file.
148      */
149     public static InputStream newInputStream(Path path, OpenOption... options)
150         throws IOException
151     {
152         return provider(path).newInputStream(path, options);
153     }
154 
155     /**
156      * Opens or creates a file, returning an output stream that may be used to
157      * write bytes to the file. The resulting stream will not be buffered. The
158      * stream will be safe for access by multiple concurrent threads. Whether
159      * the returned stream is <i>asynchronously closeable</i> and/or
160      * <i>interruptible</i> is highly file system provider specific and
161      * therefore not specified.
162      *
163      * <p> This method opens or creates a file in exactly the manner specified
164      * by the {@link #newByteChannel(Path,Set,FileAttribute[]) newByteChannel}
165      * method with the exception that the {@link StandardOpenOption#READ READ}
166      * option may not be present in the array of options. If no options are
167      * present then this method works as if the {@link StandardOpenOption#CREATE
168      * CREATE}, {@link StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING},
169      * and {@link StandardOpenOption#WRITE WRITE} options are present. In other
170      * words, it opens the file for writing, creating the file if it doesn't
171      * exist, or initially truncating an existing {@link #isRegularFile
172      * regular-file} to a size of {@code 0} if it exists.
173      *
174      * <p> <b>Usage Examples:</b>
175      * <pre>
176      *     Path path = ...
177      *
178      *     // truncate and overwrite an existing file, or create the file if
179      *     // it doesn't initially exist
180      *     OutputStream out = Files.newOutputStream(path);
181      *
182      *     // append to an existing file, fail if the file does not exist
183      *     out = Files.newOutputStream(path, APPEND);
184      *
185      *     // append to an existing file, create file if it doesn't initially exist
186      *     out = Files.newOutputStream(path, CREATE, APPEND);
187      *
188      *     // always create new file, failing if it already exists
189      *     out = Files.newOutputStream(path, CREATE_NEW);
190      * </pre>
191      *
192      * @param   path
193      *          the path to the file to open or create
194      * @param   options
195      *          options specifying how the file is opened
196      *
197      * @return  a new output stream
198      *
199      * @throws  IllegalArgumentException
200      *          if {@code options} contains an invalid combination of options
201      * @throws  UnsupportedOperationException
202      *          if an unsupported option is specified
203      * @throws  IOException
204      *          if an I/O error occurs
205      * @throws  SecurityException
206      *          In the case of the default provider, and a security manager is
207      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
208      *          method is invoked to check write access to the file. The {@link
209      *          SecurityManager#checkDelete(String) checkDelete} method is
210      *          invoked to check delete access if the file is opened with the
211      *          {@code DELETE_ON_CLOSE} option.
212      */
213     public static OutputStream newOutputStream(Path path, OpenOption... options)
214         throws IOException
215     {
216         return provider(path).newOutputStream(path, options);
217     }
218 
219     /**
220      * Opens or creates a file, returning a seekable byte channel to access the
221      * file.
222      *
223      * <p> The {@code options} parameter determines how the file is opened.
224      * The {@link StandardOpenOption#READ READ} and {@link
225      * StandardOpenOption#WRITE WRITE} options determine if the file should be
226      * opened for reading and/or writing. If neither option (or the {@link
227      * StandardOpenOption#APPEND APPEND} option) is present then the file is
228      * opened for reading. By default reading or writing commence at the
229      * beginning of the file.
230      *
231      * <p> In the addition to {@code READ} and {@code WRITE}, the following
232      * options may be present:
233      *
234      * <table border=1 cellpadding=5 summary="Options">
235      * <tr> <th>Option</th> <th>Description</th> </tr>
236      * <tr>
237      *   <td> {@link StandardOpenOption#APPEND APPEND} </td>
238      *   <td> If this option is present then the file is opened for writing and
239      *     each invocation of the channel's {@code write} method first advances
240      *     the position to the end of the file and then writes the requested
241      *     data. Whether the advancement of the position and the writing of the
242      *     data are done in a single atomic operation is system-dependent and
243      *     therefore unspecified. This option may not be used in conjunction
244      *     with the {@code READ} or {@code TRUNCATE_EXISTING} options. </td>
245      * </tr>
246      * <tr>
247      *   <td> {@link StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING} </td>
248      *   <td> If this option is present then the existing file is truncated to
249      *   a size of 0 bytes. This option is ignored when the file is opened only
250      *   for reading. </td>
251      * </tr>
252      * <tr>
253      *   <td> {@link StandardOpenOption#CREATE_NEW CREATE_NEW} </td>
254      *   <td> If this option is present then a new file is created, failing if
255      *   the file already exists or is a symbolic link. When creating a file the
256      *   check for the existence of the file and the creation of the file if it
257      *   does not exist is atomic with respect to other file system operations.
258      *   This option is ignored when the file is opened only for reading. </td>
259      * </tr>
260      * <tr>
261      *   <td > {@link StandardOpenOption#CREATE CREATE} </td>
262      *   <td> If this option is present then an existing file is opened if it
263      *   exists, otherwise a new file is created. This option is ignored if the
264      *   {@code CREATE_NEW} option is also present or the file is opened only
265      *   for reading. </td>
266      * </tr>
267      * <tr>
268      *   <td > {@link StandardOpenOption#DELETE_ON_CLOSE DELETE_ON_CLOSE} </td>
269      *   <td> When this option is present then the implementation makes a
270      *   <em>best effort</em> attempt to delete the file when closed by the
271      *   {@link SeekableByteChannel#close close} method. If the {@code close}
272      *   method is not invoked then a <em>best effort</em> attempt is made to
273      *   delete the file when the Java virtual machine terminates. </td>
274      * </tr>
275      * <tr>
276      *   <td>{@link StandardOpenOption#SPARSE SPARSE} </td>
277      *   <td> When creating a new file this option is a <em>hint</em> that the
278      *   new file will be sparse. This option is ignored when not creating
279      *   a new file. </td>
280      * </tr>
281      * <tr>
282      *   <td> {@link StandardOpenOption#SYNC SYNC} </td>
283      *   <td> Requires that every update to the file's content or metadata be
284      *   written synchronously to the underlying storage device. (see <a
285      *   href="package-summary.html#integrity"> Synchronized I/O file
286      *   integrity</a>). </td>
287      * </tr>
288      * <tr>
289      *   <td> {@link StandardOpenOption#DSYNC DSYNC} </td>
290      *   <td> Requires that every update to the file's content be written
291      *   synchronously to the underlying storage device. (see <a
292      *   href="package-summary.html#integrity"> Synchronized I/O file
293      *   integrity</a>). </td>
294      * </tr>
295      * </table>
296      *
297      * <p> An implementation may also support additional implementation specific
298      * options.
299      *
300      * <p> The {@code attrs} parameter is optional {@link FileAttribute
301      * file-attributes} to set atomically when a new file is created.
302      *
303      * <p> In the case of the default provider, the returned seekable byte channel
304      * is a {@link java.nio.channels.FileChannel}.
305      *
306      * <p> <b>Usage Examples:</b>
307      * <pre>
308      *     Path path = ...
309      *
310      *     // open file for reading
311      *     ReadableByteChannel rbc = Files.newByteChannel(path, EnumSet.of(READ)));
312      *
313      *     // open file for writing to the end of an existing file, creating
314      *     // the file if it doesn't already exist
315      *     WritableByteChannel wbc = Files.newByteChannel(path, EnumSet.of(CREATE,APPEND));
316      *
317      *     // create file with initial permissions, opening it for both reading and writing
318      *     {@code FileAttribute<Set<PosixFilePermission>> perms = ...}
319      *     SeekableByteChannel sbc = Files.newByteChannel(path, EnumSet.of(CREATE_NEW,READ,WRITE), perms);
320      * </pre>
321      *
322      * @param   path
323      *          the path to the file to open or create
324      * @param   options
325      *          options specifying how the file is opened
326      * @param   attrs
327      *          an optional list of file attributes to set atomically when
328      *          creating the file
329      *
330      * @return  a new seekable byte channel
331      *
332      * @throws  IllegalArgumentException
333      *          if the set contains an invalid combination of options
334      * @throws  UnsupportedOperationException
335      *          if an unsupported open option is specified or the array contains
336      *          attributes that cannot be set atomically when creating the file
337      * @throws  FileAlreadyExistsException
338      *          if a file of that name already exists and the {@link
339      *          StandardOpenOption#CREATE_NEW CREATE_NEW} option is specified
340      *          <i>(optional specific exception)</i>
341      * @throws  IOException
342      *          if an I/O error occurs
343      * @throws  SecurityException
344      *          In the case of the default provider, and a security manager is
345      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
346      *          method is invoked to check read access to the path if the file is
347      *          opened for reading. The {@link SecurityManager#checkWrite(String)
348      *          checkWrite} method is invoked to check write access to the path
349      *          if the file is opened for writing. The {@link
350      *          SecurityManager#checkDelete(String) checkDelete} method is
351      *          invoked to check delete access if the file is opened with the
352      *          {@code DELETE_ON_CLOSE} option.
353      *
354      * @see java.nio.channels.FileChannel#open(Path,Set,FileAttribute[])
355      */
356     public static SeekableByteChannel newByteChannel(Path path,
357                                                      Set<? extends OpenOption> options,
358                                                      FileAttribute<?>... attrs)
359         throws IOException
360     {
361         return provider(path).newByteChannel(path, options, attrs);
362     }
363 
364     /**
365      * Opens or creates a file, returning a seekable byte channel to access the
366      * file.
367      *
368      * <p> This method opens or creates a file in exactly the manner specified
369      * by the {@link #newByteChannel(Path,Set,FileAttribute[]) newByteChannel}
370      * method.
371      *
372      * @param   path
373      *          the path to the file to open or create
374      * @param   options
375      *          options specifying how the file is opened
376      *
377      * @return  a new seekable byte channel
378      *
379      * @throws  IllegalArgumentException
380      *          if the set contains an invalid combination of options
381      * @throws  UnsupportedOperationException
382      *          if an unsupported open option is specified
383      * @throws  FileAlreadyExistsException
384      *          if a file of that name already exists and the {@link
385      *          StandardOpenOption#CREATE_NEW CREATE_NEW} option is specified
386      *          <i>(optional specific exception)</i>
387      * @throws  IOException
388      *          if an I/O error occurs
389      * @throws  SecurityException
390      *          In the case of the default provider, and a security manager is
391      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
392      *          method is invoked to check read access to the path if the file is
393      *          opened for reading. The {@link SecurityManager#checkWrite(String)
394      *          checkWrite} method is invoked to check write access to the path
395      *          if the file is opened for writing. The {@link
396      *          SecurityManager#checkDelete(String) checkDelete} method is
397      *          invoked to check delete access if the file is opened with the
398      *          {@code DELETE_ON_CLOSE} option.
399      *
400      * @see java.nio.channels.FileChannel#open(Path,OpenOption[])
401      */
402     public static SeekableByteChannel newByteChannel(Path path, OpenOption... options)
403         throws IOException
404     {
405         Set<OpenOption> set = new HashSet<OpenOption>(options.length);
406         Collections.addAll(set, options);
407         return newByteChannel(path, set);
408     }
409 
410     // -- Directories --
411 
412     private static class AcceptAllFilter
413         implements DirectoryStream.Filter<Path>
414     {
415         private AcceptAllFilter() { }
416 
417         @Override
418         public boolean accept(Path entry) { return true; }
419 
420         static final AcceptAllFilter FILTER = new AcceptAllFilter();
421     }
422 
423     /**
424      * Opens a directory, returning a {@link DirectoryStream} to iterate over
425      * all entries in the directory. The elements returned by the directory
426      * stream's {@link DirectoryStream#iterator iterator} are of type {@code
427      * Path}, each one representing an entry in the directory. The {@code Path}
428      * objects are obtained as if by {@link Path#resolve(Path) resolving} the
429      * name of the directory entry against {@code dir}.
430      *
431      * <p> When not using the try-with-resources construct, then directory
432      * stream's {@code close} method should be invoked after iteration is
433      * completed so as to free any resources held for the open directory.
434      *
435      * <p> When an implementation supports operations on entries in the
436      * directory that execute in a race-free manner then the returned directory
437      * stream is a {@link SecureDirectoryStream}.
438      *
439      * @param   dir
440      *          the path to the directory
441      *
442      * @return  a new and open {@code DirectoryStream} object
443      *
444      * @throws  NotDirectoryException
445      *          if the file could not otherwise be opened because it is not
446      *          a directory <i>(optional specific exception)</i>
447      * @throws  IOException
448      *          if an I/O error occurs
449      * @throws  SecurityException
450      *          In the case of the default provider, and a security manager is
451      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
452      *          method is invoked to check read access to the directory.
453      */
454     public static DirectoryStream<Path> newDirectoryStream(Path dir)
455         throws IOException
456     {
457         return provider(dir).newDirectoryStream(dir, AcceptAllFilter.FILTER);
458     }
459 
460     /**
461      * Opens a directory, returning a {@link DirectoryStream} to iterate over
462      * the entries in the directory. The elements returned by the directory
463      * stream's {@link DirectoryStream#iterator iterator} are of type {@code
464      * Path}, each one representing an entry in the directory. The {@code Path}
465      * objects are obtained as if by {@link Path#resolve(Path) resolving} the
466      * name of the directory entry against {@code dir}. The entries returned by
467      * the iterator are filtered by matching the {@code String} representation
468      * of their file names against the given <em>globbing</em> pattern.
469      *
470      * <p> For example, suppose we want to iterate over the files ending with
471      * ".java" in a directory:
472      * <pre>
473      *     Path dir = ...
474      *     try (DirectoryStream&lt;Path&gt; stream = Files.newDirectoryStream(dir, "*.java")) {
475      *         :
476      *     }
477      * </pre>
478      *
479      * <p> The globbing pattern is specified by the {@link
480      * FileSystem#getPathMatcher getPathMatcher} method.
481      *
482      * <p> When not using the try-with-resources construct, then directory
483      * stream's {@code close} method should be invoked after iteration is
484      * completed so as to free any resources held for the open directory.
485      *
486      * <p> When an implementation supports operations on entries in the
487      * directory that execute in a race-free manner then the returned directory
488      * stream is a {@link SecureDirectoryStream}.
489      *
490      * @param   dir
491      *          the path to the directory
492      * @param   glob
493      *          the glob pattern
494      *
495      * @return  a new and open {@code DirectoryStream} object
496      *
497      * @throws  java.util.regex.PatternSyntaxException
498      *          if the pattern is invalid
499      * @throws  NotDirectoryException
500      *          if the file could not otherwise be opened because it is not
501      *          a directory <i>(optional specific exception)</i>
502      * @throws  IOException
503      *          if an I/O error occurs
504      * @throws  SecurityException
505      *          In the case of the default provider, and a security manager is
506      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
507      *          method is invoked to check read access to the directory.
508      */
509     public static DirectoryStream<Path> newDirectoryStream(Path dir, String glob)
510         throws IOException
511     {
512         // avoid creating a matcher if all entries are required.
513         if (glob.equals("*"))
514             return newDirectoryStream(dir);
515 
516         // create a matcher and return a filter that uses it.
517         FileSystem fs = dir.getFileSystem();
518         final PathMatcher matcher = fs.getPathMatcher("glob:" + glob);
519         DirectoryStream.Filter<Path> filter = new DirectoryStream.Filter<Path>() {
520             @Override
521             public boolean accept(Path entry)  {
522                 return matcher.matches(entry.getFileName());
523             }
524         };
525         return fs.provider().newDirectoryStream(dir, filter);
526     }
527 
528     /**
529      * Opens a directory, returning a {@link DirectoryStream} to iterate over
530      * the entries in the directory. The elements returned by the directory
531      * stream's {@link DirectoryStream#iterator iterator} are of type {@code
532      * Path}, each one representing an entry in the directory. The {@code Path}
533      * objects are obtained as if by {@link Path#resolve(Path) resolving} the
534      * name of the directory entry against {@code dir}. The entries returned by
535      * the iterator are filtered by the given {@link DirectoryStream.Filter
536      * filter}.
537      *
538      * <p> When not using the try-with-resources construct, then directory
539      * stream's {@code close} method should be invoked after iteration is
540      * completed so as to free any resources held for the open directory.
541      *
542      * <p> Where the filter terminates due to an uncaught error or runtime
543      * exception then it is propagated to the {@link Iterator#hasNext()
544      * hasNext} or {@link Iterator#next() next} method. Where an {@code
545      * IOException} is thrown, it results in the {@code hasNext} or {@code
546      * next} method throwing a {@link DirectoryIteratorException} with the
547      * {@code IOException} as the cause.
548      *
549      * <p> When an implementation supports operations on entries in the
550      * directory that execute in a race-free manner then the returned directory
551      * stream is a {@link SecureDirectoryStream}.
552      *
553      * <p> <b>Usage Example:</b>
554      * Suppose we want to iterate over the files in a directory that are
555      * larger than 8K.
556      * <pre>
557      *     DirectoryStream.Filter&lt;Path&gt; filter = new DirectoryStream.Filter&lt;Path&gt;() {
558      *         public boolean accept(Path file) throws IOException {
559      *             return (Files.size(file) &gt; 8192L);
560      *         }
561      *     };
562      *     Path dir = ...
563      *     try (DirectoryStream&lt;Path&gt; stream = Files.newDirectoryStream(dir, filter)) {
564      *         :
565      *     }
566      * </pre>
567      *
568      * @param   dir
569      *          the path to the directory
570      * @param   filter
571      *          the directory stream filter
572      *
573      * @return  a new and open {@code DirectoryStream} object
574      *
575      * @throws  NotDirectoryException
576      *          if the file could not otherwise be opened because it is not
577      *          a directory <i>(optional specific exception)</i>
578      * @throws  IOException
579      *          if an I/O error occurs
580      * @throws  SecurityException
581      *          In the case of the default provider, and a security manager is
582      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
583      *          method is invoked to check read access to the directory.
584      */
585     public static DirectoryStream<Path> newDirectoryStream(Path dir,
586                                                            DirectoryStream.Filter<? super Path> filter)
587         throws IOException
588     {
589         return provider(dir).newDirectoryStream(dir, filter);
590     }
591 
592     // -- Creation and deletion --
593 
594     /**
595      * Creates a new and empty file, failing if the file already exists. The
596      * check for the existence of the file and the creation of the new file if
597      * it does not exist are a single operation that is atomic with respect to
598      * all other filesystem activities that might affect the directory.
599      *
600      * <p> The {@code attrs} parameter is optional {@link FileAttribute
601      * file-attributes} to set atomically when creating the file. Each attribute
602      * is identified by its {@link FileAttribute#name name}. If more than one
603      * attribute of the same name is included in the array then all but the last
604      * occurrence is ignored.
605      *
606      * @param   path
607      *          the path to the file to create
608      * @param   attrs
609      *          an optional list of file attributes to set atomically when
610      *          creating the file
611      *
612      * @return  the file
613      *
614      * @throws  UnsupportedOperationException
615      *          if the array contains an attribute that cannot be set atomically
616      *          when creating the file
617      * @throws  FileAlreadyExistsException
618      *          if a file of that name already exists
619      *          <i>(optional specific exception)</i>
620      * @throws  IOException
621      *          if an I/O error occurs or the parent directory does not exist
622      * @throws  SecurityException
623      *          In the case of the default provider, and a security manager is
624      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
625      *          method is invoked to check write access to the new file.
626      */
627     public static Path createFile(Path path, FileAttribute<?>... attrs)
628         throws IOException
629     {
630         EnumSet<StandardOpenOption> options =
631             EnumSet.<StandardOpenOption>of(StandardOpenOption.CREATE_NEW, StandardOpenOption.WRITE);
632         newByteChannel(path, options, attrs).close();
633         return path;
634     }
635 
636     /**
637      * Creates a new directory. The check for the existence of the file and the
638      * creation of the directory if it does not exist are a single operation
639      * that is atomic with respect to all other filesystem activities that might
640      * affect the directory. The {@link #createDirectories createDirectories}
641      * method should be used where it is required to create all nonexistent
642      * parent directories first.
643      *
644      * <p> The {@code attrs} parameter is optional {@link FileAttribute
645      * file-attributes} to set atomically when creating the directory. Each
646      * attribute is identified by its {@link FileAttribute#name name}. If more
647      * than one attribute of the same name is included in the array then all but
648      * the last occurrence is ignored.
649      *
650      * @param   dir
651      *          the directory to create
652      * @param   attrs
653      *          an optional list of file attributes to set atomically when
654      *          creating the directory
655      *
656      * @return  the directory
657      *
658      * @throws  UnsupportedOperationException
659      *          if the array contains an attribute that cannot be set atomically
660      *          when creating the directory
661      * @throws  FileAlreadyExistsException
662      *          if a directory could not otherwise be created because a file of
663      *          that name already exists <i>(optional specific exception)</i>
664      * @throws  IOException
665      *          if an I/O error occurs or the parent directory does not exist
666      * @throws  SecurityException
667      *          In the case of the default provider, and a security manager is
668      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
669      *          method is invoked to check write access to the new directory.
670      */
671     public static Path createDirectory(Path dir, FileAttribute<?>... attrs)
672         throws IOException
673     {
674         provider(dir).createDirectory(dir, attrs);
675         return dir;
676     }
677 
678     /**
679      * Creates a directory by creating all nonexistent parent directories first.
680      * Unlike the {@link #createDirectory createDirectory} method, an exception
681      * is not thrown if the directory could not be created because it already
682      * exists.
683      *
684      * <p> The {@code attrs} parameter is optional {@link FileAttribute
685      * file-attributes} to set atomically when creating the nonexistent
686      * directories. Each file attribute is identified by its {@link
687      * FileAttribute#name name}. If more than one attribute of the same name is
688      * included in the array then all but the last occurrence is ignored.
689      *
690      * <p> If this method fails, then it may do so after creating some, but not
691      * all, of the parent directories.
692      *
693      * @param   dir
694      *          the directory to create
695      *
696      * @param   attrs
697      *          an optional list of file attributes to set atomically when
698      *          creating the directory
699      *
700      * @return  the directory
701      *
702      * @throws  UnsupportedOperationException
703      *          if the array contains an attribute that cannot be set atomically
704      *          when creating the directory
705      * @throws  FileAlreadyExistsException
706      *          if {@code dir} exists but is not a directory <i>(optional specific
707      *          exception)</i>
708      * @throws  IOException
709      *          if an I/O error occurs
710      * @throws  SecurityException
711      *          in the case of the default provider, and a security manager is
712      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
713      *          method is invoked prior to attempting to create a directory and
714      *          its {@link SecurityManager#checkRead(String) checkRead} is
715      *          invoked for each parent directory that is checked. If {@code
716      *          dir} is not an absolute path then its {@link Path#toAbsolutePath
717      *          toAbsolutePath} may need to be invoked to get its absolute path.
718      *          This may invoke the security manager's {@link
719      *          SecurityManager#checkPropertyAccess(String) checkPropertyAccess}
720      *          method to check access to the system property {@code user.dir}
721      */
722     public static Path createDirectories(Path dir, FileAttribute<?>... attrs)
723         throws IOException
724     {
725         // attempt to create the directory
726         try {
727             createAndCheckIsDirectory(dir, attrs);
728             return dir;
729         } catch (FileAlreadyExistsException x) {
730             // file exists and is not a directory
731             throw x;
732         } catch (IOException x) {
733             // parent may not exist or other reason
734         }
735         SecurityException se = null;
736         try {
737             dir = dir.toAbsolutePath();
738         } catch (SecurityException x) {
739             // don't have permission to get absolute path
740             se = x;
741         }
742         // find a decendent that exists
743         Path parent = dir.getParent();
744         while (parent != null) {
745             try {
746                 provider(parent).checkAccess(parent);
747                 break;
748             } catch (NoSuchFileException x) {
749                 // does not exist
750             }
751             parent = parent.getParent();
752         }
753         if (parent == null) {
754             // unable to find existing parent
755             if (se == null) {
756                 throw new FileSystemException(dir.toString(), null,
757                     "Unable to determine if root directory exists");
758             } else {
759                 throw se;
760             }
761         }
762 
763         // create directories
764         Path child = parent;
765         for (Path name: parent.relativize(dir)) {
766             child = child.resolve(name);
767             createAndCheckIsDirectory(child, attrs);
768         }
769         return dir;
770     }
771 
772     /**
773      * Used by createDirectories to attempt to create a directory. A no-op
774      * if the directory already exists.
775      */
776     private static void createAndCheckIsDirectory(Path dir,
777                                                   FileAttribute<?>... attrs)
778         throws IOException
779     {
780         try {
781             createDirectory(dir, attrs);
782         } catch (FileAlreadyExistsException x) {
783             if (!isDirectory(dir, LinkOption.NOFOLLOW_LINKS))
784                 throw x;
785         }
786     }
787 
788     /**
789      * Creates a new empty file in the specified directory, using the given
790      * prefix and suffix strings to generate its name. The resulting
791      * {@code Path} is associated with the same {@code FileSystem} as the given
792      * directory.
793      *
794      * <p> The details as to how the name of the file is constructed is
795      * implementation dependent and therefore not specified. Where possible
796      * the {@code prefix} and {@code suffix} are used to construct candidate
797      * names in the same manner as the {@link
798      * java.io.File#createTempFile(String,String,File)} method.
799      *
800      * <p> As with the {@code File.createTempFile} methods, this method is only
801      * part of a temporary-file facility. Where used as a <em>work files</em>,
802      * the resulting file may be opened using the {@link
803      * StandardOpenOption#DELETE_ON_CLOSE DELETE_ON_CLOSE} option so that the
804      * file is deleted when the appropriate {@code close} method is invoked.
805      * Alternatively, a {@link Runtime#addShutdownHook shutdown-hook}, or the
806      * {@link java.io.File#deleteOnExit} mechanism may be used to delete the
807      * file automatically.
808      *
809      * <p> The {@code attrs} parameter is optional {@link FileAttribute
810      * file-attributes} to set atomically when creating the file. Each attribute
811      * is identified by its {@link FileAttribute#name name}. If more than one
812      * attribute of the same name is included in the array then all but the last
813      * occurrence is ignored. When no file attributes are specified, then the
814      * resulting file may have more restrictive access permissions to files
815      * created by the {@link java.io.File#createTempFile(String,String,File)}
816      * method.
817      *
818      * @param   dir
819      *          the path to directory in which to create the file
820      * @param   prefix
821      *          the prefix string to be used in generating the file's name;
822      *          may be {@code null}
823      * @param   suffix
824      *          the suffix string to be used in generating the file's name;
825      *          may be {@code null}, in which case "{@code .tmp}" is used
826      * @param   attrs
827      *          an optional list of file attributes to set atomically when
828      *          creating the file
829      *
830      * @return  the path to the newly created file that did not exist before
831      *          this method was invoked
832      *
833      * @throws  IllegalArgumentException
834      *          if the prefix or suffix parameters cannot be used to generate
835      *          a candidate file name
836      * @throws  UnsupportedOperationException
837      *          if the array contains an attribute that cannot be set atomically
838      *          when creating the directory
839      * @throws  IOException
840      *          if an I/O error occurs or {@code dir} does not exist
841      * @throws  SecurityException
842      *          In the case of the default provider, and a security manager is
843      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
844      *          method is invoked to check write access to the file.
845      */
846     public static Path createTempFile(Path dir,
847                                       String prefix,
848                                       String suffix,
849                                       FileAttribute<?>... attrs)
850         throws IOException
851     {
852         return TempFileHelper.createTempFile(Objects.requireNonNull(dir),
853                                              prefix, suffix, attrs);
854     }
855 
856     /**
857      * Creates an empty file in the default temporary-file directory, using
858      * the given prefix and suffix to generate its name. The resulting {@code
859      * Path} is associated with the default {@code FileSystem}.
860      *
861      * <p> This method works in exactly the manner specified by the
862      * {@link #createTempFile(Path,String,String,FileAttribute[])} method for
863      * the case that the {@code dir} parameter is the temporary-file directory.
864      *
865      * @param   prefix
866      *          the prefix string to be used in generating the file's name;
867      *          may be {@code null}
868      * @param   suffix
869      *          the suffix string to be used in generating the file's name;
870      *          may be {@code null}, in which case "{@code .tmp}" is used
871      * @param   attrs
872      *          an optional list of file attributes to set atomically when
873      *          creating the file
874      *
875      * @return  the path to the newly created file that did not exist before
876      *          this method was invoked
877      *
878      * @throws  IllegalArgumentException
879      *          if the prefix or suffix parameters cannot be used to generate
880      *          a candidate file name
881      * @throws  UnsupportedOperationException
882      *          if the array contains an attribute that cannot be set atomically
883      *          when creating the directory
884      * @throws  IOException
885      *          if an I/O error occurs or the temporary-file directory does not
886      *          exist
887      * @throws  SecurityException
888      *          In the case of the default provider, and a security manager is
889      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
890      *          method is invoked to check write access to the file.
891      */
892     public static Path createTempFile(String prefix,
893                                       String suffix,
894                                       FileAttribute<?>... attrs)
895         throws IOException
896     {
897         return TempFileHelper.createTempFile(null, prefix, suffix, attrs);
898     }
899 
900     /**
901      * Creates a new directory in the specified directory, using the given
902      * prefix to generate its name.  The resulting {@code Path} is associated
903      * with the same {@code FileSystem} as the given directory.
904      *
905      * <p> The details as to how the name of the directory is constructed is
906      * implementation dependent and therefore not specified. Where possible
907      * the {@code prefix} is used to construct candidate names.
908      *
909      * <p> As with the {@code createTempFile} methods, this method is only
910      * part of a temporary-file facility. A {@link Runtime#addShutdownHook
911      * shutdown-hook}, or the {@link java.io.File#deleteOnExit} mechanism may be
912      * used to delete the directory automatically.
913      *
914      * <p> The {@code attrs} parameter is optional {@link FileAttribute
915      * file-attributes} to set atomically when creating the directory. Each
916      * attribute is identified by its {@link FileAttribute#name name}. If more
917      * than one attribute of the same name is included in the array then all but
918      * the last occurrence is ignored.
919      *
920      * @param   dir
921      *          the path to directory in which to create the directory
922      * @param   prefix
923      *          the prefix string to be used in generating the directory's name;
924      *          may be {@code null}
925      * @param   attrs
926      *          an optional list of file attributes to set atomically when
927      *          creating the directory
928      *
929      * @return  the path to the newly created directory that did not exist before
930      *          this method was invoked
931      *
932      * @throws  IllegalArgumentException
933      *          if the prefix cannot be used to generate a candidate directory name
934      * @throws  UnsupportedOperationException
935      *          if the array contains an attribute that cannot be set atomically
936      *          when creating the directory
937      * @throws  IOException
938      *          if an I/O error occurs or {@code dir} does not exist
939      * @throws  SecurityException
940      *          In the case of the default provider, and a security manager is
941      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
942      *          method is invoked to check write access when creating the
943      *          directory.
944      */
945     public static Path createTempDirectory(Path dir,
946                                            String prefix,
947                                            FileAttribute<?>... attrs)
948         throws IOException
949     {
950         return TempFileHelper.createTempDirectory(Objects.requireNonNull(dir),
951                                                   prefix, attrs);
952     }
953 
954     /**
955      * Creates a new directory in the default temporary-file directory, using
956      * the given prefix to generate its name. The resulting {@code Path} is
957      * associated with the default {@code FileSystem}.
958      *
959      * <p> This method works in exactly the manner specified by {@link
960      * #createTempDirectory(Path,String,FileAttribute[])} method for the case
961      * that the {@code dir} parameter is the temporary-file directory.
962      *
963      * @param   prefix
964      *          the prefix string to be used in generating the directory's name;
965      *          may be {@code null}
966      * @param   attrs
967      *          an optional list of file attributes to set atomically when
968      *          creating the directory
969      *
970      * @return  the path to the newly created directory that did not exist before
971      *          this method was invoked
972      *
973      * @throws  IllegalArgumentException
974      *          if the prefix cannot be used to generate a candidate directory name
975      * @throws  UnsupportedOperationException
976      *          if the array contains an attribute that cannot be set atomically
977      *          when creating the directory
978      * @throws  IOException
979      *          if an I/O error occurs or the temporary-file directory does not
980      *          exist
981      * @throws  SecurityException
982      *          In the case of the default provider, and a security manager is
983      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
984      *          method is invoked to check write access when creating the
985      *          directory.
986      */
987     public static Path createTempDirectory(String prefix,
988                                            FileAttribute<?>... attrs)
989         throws IOException
990     {
991         return TempFileHelper.createTempDirectory(null, prefix, attrs);
992     }
993 
994     /**
995      * Creates a symbolic link to a target <i>(optional operation)</i>.
996      *
997      * <p> The {@code target} parameter is the target of the link. It may be an
998      * {@link Path#isAbsolute absolute} or relative path and may not exist. When
999      * the target is a relative path then file system operations on the resulting
1000      * link are relative to the path of the link.
1001      *
1002      * <p> The {@code attrs} parameter is optional {@link FileAttribute
1003      * attributes} to set atomically when creating the link. Each attribute is
1004      * identified by its {@link FileAttribute#name name}. If more than one attribute
1005      * of the same name is included in the array then all but the last occurrence
1006      * is ignored.
1007      *
1008      * <p> Where symbolic links are supported, but the underlying {@link FileStore}
1009      * does not support symbolic links, then this may fail with an {@link
1010      * IOException}. Additionally, some operating systems may require that the
1011      * Java virtual machine be started with implementation specific privileges to
1012      * create symbolic links, in which case this method may throw {@code IOException}.
1013      *
1014      * @param   link
1015      *          the path of the symbolic link to create
1016      * @param   target
1017      *          the target of the symbolic link
1018      * @param   attrs
1019      *          the array of attributes to set atomically when creating the
1020      *          symbolic link
1021      *
1022      * @return  the path to the symbolic link
1023      *
1024      * @throws  UnsupportedOperationException
1025      *          if the implementation does not support symbolic links or the
1026      *          array contains an attribute that cannot be set atomically when
1027      *          creating the symbolic link
1028      * @throws  FileAlreadyExistsException
1029      *          if a file with the name already exists <i>(optional specific
1030      *          exception)</i>
1031      * @throws  IOException
1032      *          if an I/O error occurs
1033      * @throws  SecurityException
1034      *          In the case of the default provider, and a security manager
1035      *          is installed, it denies {@link LinkPermission}<tt>("symbolic")</tt>
1036      *          or its {@link SecurityManager#checkWrite(String) checkWrite}
1037      *          method denies write access to the path of the symbolic link.
1038      */
1039     public static Path createSymbolicLink(Path link, Path target,
1040                                           FileAttribute<?>... attrs)
1041         throws IOException
1042     {
1043         provider(link).createSymbolicLink(link, target, attrs);
1044         return link;
1045     }
1046 
1047     /**
1048      * Creates a new link (directory entry) for an existing file <i>(optional
1049      * operation)</i>.
1050      *
1051      * <p> The {@code link} parameter locates the directory entry to create.
1052      * The {@code existing} parameter is the path to an existing file. This
1053      * method creates a new directory entry for the file so that it can be
1054      * accessed using {@code link} as the path. On some file systems this is
1055      * known as creating a "hard link". Whether the file attributes are
1056      * maintained for the file or for each directory entry is file system
1057      * specific and therefore not specified. Typically, a file system requires
1058      * that all links (directory entries) for a file be on the same file system.
1059      * Furthermore, on some platforms, the Java virtual machine may require to
1060      * be started with implementation specific privileges to create hard links
1061      * or to create links to directories.
1062      *
1063      * @param   link
1064      *          the link (directory entry) to create
1065      * @param   existing
1066      *          a path to an existing file
1067      *
1068      * @return  the path to the link (directory entry)
1069      *
1070      * @throws  UnsupportedOperationException
1071      *          if the implementation does not support adding an existing file
1072      *          to a directory
1073      * @throws  FileAlreadyExistsException
1074      *          if the entry could not otherwise be created because a file of
1075      *          that name already exists <i>(optional specific exception)</i>
1076      * @throws  IOException
1077      *          if an I/O error occurs
1078      * @throws  SecurityException
1079      *          In the case of the default provider, and a security manager
1080      *          is installed, it denies {@link LinkPermission}<tt>("hard")</tt>
1081      *          or its {@link SecurityManager#checkWrite(String) checkWrite}
1082      *          method denies write access to either the link or the
1083      *          existing file.
1084      */
1085     public static Path createLink(Path link, Path existing) throws IOException {
1086         provider(link).createLink(link, existing);
1087         return link;
1088     }
1089 
1090     /**
1091      * Deletes a file.
1092      *
1093      * <p> An implementation may require to examine the file to determine if the
1094      * file is a directory. Consequently this method may not be atomic with respect
1095      * to other file system operations.  If the file is a symbolic link then the
1096      * symbolic link itself, not the final target of the link, is deleted.
1097      *
1098      * <p> If the file is a directory then the directory must be empty. In some
1099      * implementations a directory has entries for special files or links that
1100      * are created when the directory is created. In such implementations a
1101      * directory is considered empty when only the special entries exist.
1102      * This method can be used with the {@link #walkFileTree walkFileTree}
1103      * method to delete a directory and all entries in the directory, or an
1104      * entire <i>file-tree</i> where required.
1105      *
1106      * <p> On some operating systems it may not be possible to remove a file when
1107      * it is open and in use by this Java virtual machine or other programs.
1108      *
1109      * @param   path
1110      *          the path to the file to delete
1111      *
1112      * @throws  NoSuchFileException
1113      *          if the file does not exist <i>(optional specific exception)</i>
1114      * @throws  DirectoryNotEmptyException
1115      *          if the file is a directory and could not otherwise be deleted
1116      *          because the directory is not empty <i>(optional specific
1117      *          exception)</i>
1118      * @throws  IOException
1119      *          if an I/O error occurs
1120      * @throws  SecurityException
1121      *          In the case of the default provider, and a security manager is
1122      *          installed, the {@link SecurityManager#checkDelete(String)} method
1123      *          is invoked to check delete access to the file
1124      */
1125     public static void delete(Path path) throws IOException {
1126         provider(path).delete(path);
1127     }
1128 
1129     /**
1130      * Deletes a file if it exists.
1131      *
1132      * <p> As with the {@link #delete(Path) delete(Path)} method, an
1133      * implementation may need to examine the file to determine if the file is a
1134      * directory. Consequently this method may not be atomic with respect to
1135      * other file system operations.  If the file is a symbolic link, then the
1136      * symbolic link itself, not the final target of the link, is deleted.
1137      *
1138      * <p> If the file is a directory then the directory must be empty. In some
1139      * implementations a directory has entries for special files or links that
1140      * are created when the directory is created. In such implementations a
1141      * directory is considered empty when only the special entries exist.
1142      *
1143      * <p> On some operating systems it may not be possible to remove a file when
1144      * it is open and in use by this Java virtual machine or other programs.
1145      *
1146      * @param   path
1147      *          the path to the file to delete
1148      *
1149      * @return  {@code true} if the file was deleted by this method; {@code
1150      *          false} if the file could not be deleted because it did not
1151      *          exist
1152      *
1153      * @throws  DirectoryNotEmptyException
1154      *          if the file is a directory and could not otherwise be deleted
1155      *          because the directory is not empty <i>(optional specific
1156      *          exception)</i>
1157      * @throws  IOException
1158      *          if an I/O error occurs
1159      * @throws  SecurityException
1160      *          In the case of the default provider, and a security manager is
1161      *          installed, the {@link SecurityManager#checkDelete(String)} method
1162      *          is invoked to check delete access to the file.
1163      */
1164     public static boolean deleteIfExists(Path path) throws IOException {
1165         return provider(path).deleteIfExists(path);
1166     }
1167 
1168     // -- Copying and moving files --
1169 
1170     /**
1171      * Copy a file to a target file.
1172      *
1173      * <p> This method copies a file to the target file with the {@code
1174      * options} parameter specifying how the copy is performed. By default, the
1175      * copy fails if the target file already exists or is a symbolic link,
1176      * except if the source and target are the {@link #isSameFile same} file, in
1177      * which case the method completes without copying the file. File attributes
1178      * are not required to be copied to the target file. If symbolic links are
1179      * supported, and the file is a symbolic link, then the final target of the
1180      * link is copied. If the file is a directory then it creates an empty
1181      * directory in the target location (entries in the directory are not
1182      * copied). This method can be used with the {@link #walkFileTree
1183      * walkFileTree} method to copy a directory and all entries in the directory,
1184      * or an entire <i>file-tree</i> where required.
1185      *
1186      * <p> The {@code options} parameter may include any of the following:
1187      *
1188      * <table border=1 cellpadding=5 summary="">
1189      * <tr> <th>Option</th> <th>Description</th> </tr>
1190      * <tr>
1191      *   <td> {@link StandardCopyOption#REPLACE_EXISTING REPLACE_EXISTING} </td>
1192      *   <td> If the target file exists, then the target file is replaced if it
1193      *     is not a non-empty directory. If the target file exists and is a
1194      *     symbolic link, then the symbolic link itself, not the target of
1195      *     the link, is replaced. </td>
1196      * </tr>
1197      * <tr>
1198      *   <td> {@link StandardCopyOption#COPY_ATTRIBUTES COPY_ATTRIBUTES} </td>
1199      *   <td> Attempts to copy the file attributes associated with this file to
1200      *     the target file. The exact file attributes that are copied is platform
1201      *     and file system dependent and therefore unspecified. Minimally, the
1202      *     {@link BasicFileAttributes#lastModifiedTime last-modified-time} is
1203      *     copied to the target file if supported by both the source and target
1204      *     file stores. Copying of file timestamps may result in precision
1205      *     loss. </td>
1206      * </tr>
1207      * <tr>
1208      *   <td> {@link LinkOption#NOFOLLOW_LINKS NOFOLLOW_LINKS} </td>
1209      *   <td> Symbolic links are not followed. If the file is a symbolic link,
1210      *     then the symbolic link itself, not the target of the link, is copied.
1211      *     It is implementation specific if file attributes can be copied to the
1212      *     new link. In other words, the {@code COPY_ATTRIBUTES} option may be
1213      *     ignored when copying a symbolic link. </td>
1214      * </tr>
1215      * </table>
1216      *
1217      * <p> An implementation of this interface may support additional
1218      * implementation specific options.
1219      *
1220      * <p> Copying a file is not an atomic operation. If an {@link IOException}
1221      * is thrown, then it is possible that the target file is incomplete or some
1222      * of its file attributes have not been copied from the source file. When
1223      * the {@code REPLACE_EXISTING} option is specified and the target file
1224      * exists, then the target file is replaced. The check for the existence of
1225      * the file and the creation of the new file may not be atomic with respect
1226      * to other file system activities.
1227      *
1228      * <p> <b>Usage Example:</b>
1229      * Suppose we want to copy a file into a directory, giving it the same file
1230      * name as the source file:
1231      * <pre>
1232      *     Path source = ...
1233      *     Path newdir = ...
1234      *     Files.copy(source, newdir.resolve(source.getFileName());
1235      * </pre>
1236      *
1237      * @param   source
1238      *          the path to the file to copy
1239      * @param   target
1240      *          the path to the target file (may be associated with a different
1241      *          provider to the source path)
1242      * @param   options
1243      *          options specifying how the copy should be done
1244      *
1245      * @return  the path to the target file
1246      *
1247      * @throws  UnsupportedOperationException
1248      *          if the array contains a copy option that is not supported
1249      * @throws  FileAlreadyExistsException
1250      *          if the target file exists but cannot be replaced because the
1251      *          {@code REPLACE_EXISTING} option is not specified <i>(optional
1252      *          specific exception)</i>
1253      * @throws  DirectoryNotEmptyException
1254      *          the {@code REPLACE_EXISTING} option is specified but the file
1255      *          cannot be replaced because it is a non-empty directory
1256      *          <i>(optional specific exception)</i>
1257      * @throws  IOException
1258      *          if an I/O error occurs
1259      * @throws  SecurityException
1260      *          In the case of the default provider, and a security manager is
1261      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
1262      *          method is invoked to check read access to the source file, the
1263      *          {@link SecurityManager#checkWrite(String) checkWrite} is invoked
1264      *          to check write access to the target file. If a symbolic link is
1265      *          copied the security manager is invoked to check {@link
1266      *          LinkPermission}{@code ("symbolic")}.
1267      */
1268     public static Path copy(Path source, Path target, CopyOption... options)
1269         throws IOException
1270     {
1271         FileSystemProvider provider = provider(source);
1272         if (provider(target) == provider) {
1273             // same provider
1274             provider.copy(source, target, options);
1275         } else {
1276             // different providers
1277             CopyMoveHelper.copyToForeignTarget(source, target, options);
1278         }
1279         return target;
1280     }
1281 
1282     /**
1283      * Move or rename a file to a target file.
1284      *
1285      * <p> By default, this method attempts to move the file to the target
1286      * file, failing if the target file exists except if the source and
1287      * target are the {@link #isSameFile same} file, in which case this method
1288      * has no effect. If the file is a symbolic link then the symbolic link
1289      * itself, not the target of the link, is moved. This method may be
1290      * invoked to move an empty directory. In some implementations a directory
1291      * has entries for special files or links that are created when the
1292      * directory is created. In such implementations a directory is considered
1293      * empty when only the special entries exist. When invoked to move a
1294      * directory that is not empty then the directory is moved if it does not
1295      * require moving the entries in the directory.  For example, renaming a
1296      * directory on the same {@link FileStore} will usually not require moving
1297      * the entries in the directory. When moving a directory requires that its
1298      * entries be moved then this method fails (by throwing an {@code
1299      * IOException}). To move a <i>file tree</i> may involve copying rather
1300      * than moving directories and this can be done using the {@link
1301      * #copy copy} method in conjunction with the {@link
1302      * #walkFileTree Files.walkFileTree} utility method.
1303      *
1304      * <p> The {@code options} parameter may include any of the following:
1305      *
1306      * <table border=1 cellpadding=5 summary="">
1307      * <tr> <th>Option</th> <th>Description</th> </tr>
1308      * <tr>
1309      *   <td> {@link StandardCopyOption#REPLACE_EXISTING REPLACE_EXISTING} </td>
1310      *   <td> If the target file exists, then the target file is replaced if it
1311      *     is not a non-empty directory. If the target file exists and is a
1312      *     symbolic link, then the symbolic link itself, not the target of
1313      *     the link, is replaced. </td>
1314      * </tr>
1315      * <tr>
1316      *   <td> {@link StandardCopyOption#ATOMIC_MOVE ATOMIC_MOVE} </td>
1317      *   <td> The move is performed as an atomic file system operation and all
1318      *     other options are ignored. If the target file exists then it is
1319      *     implementation specific if the existing file is replaced or this method
1320      *     fails by throwing an {@link IOException}. If the move cannot be
1321      *     performed as an atomic file system operation then {@link
1322      *     AtomicMoveNotSupportedException} is thrown. This can arise, for
1323      *     example, when the target location is on a different {@code FileStore}
1324      *     and would require that the file be copied, or target location is
1325      *     associated with a different provider to this object. </td>
1326      * </table>
1327      *
1328      * <p> An implementation of this interface may support additional
1329      * implementation specific options.
1330      *
1331      * <p> Moving a file will copy the {@link
1332      * BasicFileAttributes#lastModifiedTime last-modified-time} to the target
1333      * file if supported by both source and target file stores. Copying of file
1334      * timestamps may result in precision loss. An implementation may also
1335      * attempt to copy other file attributes but is not required to fail if the
1336      * file attributes cannot be copied. When the move is performed as
1337      * a non-atomic operation, and an {@code IOException} is thrown, then the
1338      * state of the files is not defined. The original file and the target file
1339      * may both exist, the target file may be incomplete or some of its file
1340      * attributes may not been copied from the original file.
1341      *
1342      * <p> <b>Usage Examples:</b>
1343      * Suppose we want to rename a file to "newname", keeping the file in the
1344      * same directory:
1345      * <pre>
1346      *     Path source = ...
1347      *     Files.move(source, source.resolveSibling("newname"));
1348      * </pre>
1349      * Alternatively, suppose we want to move a file to new directory, keeping
1350      * the same file name, and replacing any existing file of that name in the
1351      * directory:
1352      * <pre>
1353      *     Path source = ...
1354      *     Path newdir = ...
1355      *     Files.move(source, newdir.resolve(source.getFileName()), REPLACE_EXISTING);
1356      * </pre>
1357      *
1358      * @param   source
1359      *          the path to the file to move
1360      * @param   target
1361      *          the path to the target file (may be associated with a different
1362      *          provider to the source path)
1363      * @param   options
1364      *          options specifying how the move should be done
1365      *
1366      * @return  the path to the target file
1367      *
1368      * @throws  UnsupportedOperationException
1369      *          if the array contains a copy option that is not supported
1370      * @throws  FileAlreadyExistsException
1371      *          if the target file exists but cannot be replaced because the
1372      *          {@code REPLACE_EXISTING} option is not specified <i>(optional
1373      *          specific exception)</i>
1374      * @throws  DirectoryNotEmptyException
1375      *          the {@code REPLACE_EXISTING} option is specified but the file
1376      *          cannot be replaced because it is a non-empty directory
1377      *          <i>(optional specific exception)</i>
1378      * @throws  AtomicMoveNotSupportedException
1379      *          if the options array contains the {@code ATOMIC_MOVE} option but
1380      *          the file cannot be moved as an atomic file system operation.
1381      * @throws  IOException
1382      *          if an I/O error occurs
1383      * @throws  SecurityException
1384      *          In the case of the default provider, and a security manager is
1385      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
1386      *          method is invoked to check write access to both the source and
1387      *          target file.
1388      */
1389     public static Path move(Path source, Path target, CopyOption... options)
1390         throws IOException
1391     {
1392         FileSystemProvider provider = provider(source);
1393         if (provider(target) == provider) {
1394             // same provider
1395             provider.move(source, target, options);
1396         } else {
1397             // different providers
1398             CopyMoveHelper.moveToForeignTarget(source, target, options);
1399         }
1400         return target;
1401     }
1402 
1403     // -- Miscellenous --
1404 
1405     /**
1406      * Reads the target of a symbolic link <i>(optional operation)</i>.
1407      *
1408      * <p> If the file system supports <a href="package-summary.html#links">symbolic
1409      * links</a> then this method is used to read the target of the link, failing
1410      * if the file is not a symbolic link. The target of the link need not exist.
1411      * The returned {@code Path} object will be associated with the same file
1412      * system as {@code link}.
1413      *
1414      * @param   link
1415      *          the path to the symbolic link
1416      *
1417      * @return  a {@code Path} object representing the target of the link
1418      *
1419      * @throws  UnsupportedOperationException
1420      *          if the implementation does not support symbolic links
1421      * @throws  NotLinkException
1422      *          if the target could otherwise not be read because the file
1423      *          is not a symbolic link <i>(optional specific exception)</i>
1424      * @throws  IOException
1425      *          if an I/O error occurs
1426      * @throws  SecurityException
1427      *          In the case of the default provider, and a security manager
1428      *          is installed, it checks that {@code FilePermission} has been
1429      *          granted with the "{@code readlink}" action to read the link.
1430      */
1431     public static Path readSymbolicLink(Path link) throws IOException {
1432         return provider(link).readSymbolicLink(link);
1433     }
1434 
1435     /**
1436      * Returns the {@link FileStore} representing the file store where a file
1437      * is located.
1438      *
1439      * <p> Once a reference to the {@code FileStore} is obtained it is
1440      * implementation specific if operations on the returned {@code FileStore},
1441      * or {@link FileStoreAttributeView} objects obtained from it, continue
1442      * to depend on the existence of the file. In particular the behavior is not
1443      * defined for the case that the file is deleted or moved to a different
1444      * file store.
1445      *
1446      * @param   path
1447      *          the path to the file
1448      *
1449      * @return  the file store where the file is stored
1450      *
1451      * @throws  IOException
1452      *          if an I/O error occurs
1453      * @throws  SecurityException
1454      *          In the case of the default provider, and a security manager is
1455      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
1456      *          method is invoked to check read access to the file, and in
1457      *          addition it checks {@link RuntimePermission}<tt>
1458      *          ("getFileStoreAttributes")</tt>
1459      */
1460     public static FileStore getFileStore(Path path) throws IOException {
1461         return provider(path).getFileStore(path);
1462     }
1463 
1464     /**
1465      * Tests if two paths locate the same file.
1466      *
1467      * <p> If both {@code Path} objects are {@link Path#equals(Object) equal}
1468      * then this method returns {@code true} without checking if the file exists.
1469      * If the two {@code Path} objects are associated with different providers
1470      * then this method returns {@code false}. Otherwise, this method checks if
1471      * both {@code Path} objects locate the same file, and depending on the
1472      * implementation, may require to open or access both files.
1473      *
1474      * <p> If the file system and files remain static, then this method implements
1475      * an equivalence relation for non-null {@code Paths}.
1476      * <ul>
1477      * <li>It is <i>reflexive</i>: for {@code Path} {@code f},
1478      *     {@code isSameFile(f,f)} should return {@code true}.
1479      * <li>It is <i>symmetric</i>: for two {@code Paths} {@code f} and {@code g},
1480      *     {@code isSameFile(f,g)} will equal {@code isSameFile(g,f)}.
1481      * <li>It is <i>transitive</i>: for three {@code Paths}
1482      *     {@code f}, {@code g}, and {@code h}, if {@code isSameFile(f,g)} returns
1483      *     {@code true} and {@code isSameFile(g,h)} returns {@code true}, then
1484      *     {@code isSameFile(f,h)} will return return {@code true}.
1485      * </ul>
1486      *
1487      * @param   path
1488      *          one path to the file
1489      * @param   path2
1490      *          the other path
1491      *
1492      * @return  {@code true} if, and only if, the two paths locate the same file
1493      *
1494      * @throws  IOException
1495      *          if an I/O error occurs
1496      * @throws  SecurityException
1497      *          In the case of the default provider, and a security manager is
1498      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
1499      *          method is invoked to check read access to both files.
1500      *
1501      * @see java.nio.file.attribute.BasicFileAttributes#fileKey
1502      */
1503     public static boolean isSameFile(Path path, Path path2) throws IOException {
1504         return provider(path).isSameFile(path, path2);
1505     }
1506 
1507     /**
1508      * Tells whether or not a file is considered <em>hidden</em>. The exact
1509      * definition of hidden is platform or provider dependent. On UNIX for
1510      * example a file is considered to be hidden if its name begins with a
1511      * period character ('.'). On Windows a file is considered hidden if it
1512      * isn't a directory and the DOS {@link DosFileAttributes#isHidden hidden}
1513      * attribute is set.
1514      *
1515      * <p> Depending on the implementation this method may require to access
1516      * the file system to determine if the file is considered hidden.
1517      *
1518      * @param   path
1519      *          the path to the file to test
1520      *
1521      * @return  {@code true} if the file is considered hidden
1522      *
1523      * @throws  IOException
1524      *          if an I/O error occurs
1525      * @throws  SecurityException
1526      *          In the case of the default provider, and a security manager is
1527      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
1528      *          method is invoked to check read access to the file.
1529      */
1530     public static boolean isHidden(Path path) throws IOException {
1531         return provider(path).isHidden(path);
1532     }
1533 
1534     // lazy loading of default and installed file type detectors
1535     private static class FileTypeDetectors{
1536         static final FileTypeDetector defaultFileTypeDetector =
1537             createDefaultFileTypeDetector();
1538         static final List<FileTypeDetector> installeDetectors =
1539             loadInstalledDetectors();
1540 
1541         // creates the default file type detector
1542         private static FileTypeDetector createDefaultFileTypeDetector() {
1543             return AccessController
1544                 .doPrivileged(new PrivilegedAction<FileTypeDetector>() {
1545                     @Override public FileTypeDetector run() {
1546                         return sun.nio.fs.DefaultFileTypeDetector.create();
1547                 }});
1548         }
1549 
1550         // loads all installed file type detectors
1551         private static List<FileTypeDetector> loadInstalledDetectors() {
1552             return AccessController
1553                 .doPrivileged(new PrivilegedAction<List<FileTypeDetector>>() {
1554                     @Override public List<FileTypeDetector> run() {
1555                         List<FileTypeDetector> list = new ArrayList<>();
1556                         ServiceLoader<FileTypeDetector> loader = ServiceLoader
1557                             .load(FileTypeDetector.class, ClassLoader.getSystemClassLoader());
1558                         for (FileTypeDetector detector: loader) {
1559                             list.add(detector);
1560                         }
1561                         return list;
1562                 }});
1563         }
1564     }
1565 
1566     /**
1567      * Probes the content type of a file.
1568      *
1569      * <p> This method uses the installed {@link FileTypeDetector} implementations
1570      * to probe the given file to determine its content type. Each file type
1571      * detector's {@link FileTypeDetector#probeContentType probeContentType} is
1572      * invoked, in turn, to probe the file type. If the file is recognized then
1573      * the content type is returned. If the file is not recognized by any of the
1574      * installed file type detectors then a system-default file type detector is
1575      * invoked to guess the content type.
1576      *
1577      * <p> A given invocation of the Java virtual machine maintains a system-wide
1578      * list of file type detectors. Installed file type detectors are loaded
1579      * using the service-provider loading facility defined by the {@link ServiceLoader}
1580      * class. Installed file type detectors are loaded using the system class
1581      * loader. If the system class loader cannot be found then the extension class
1582      * loader is used; If the extension class loader cannot be found then the
1583      * bootstrap class loader is used. File type detectors are typically installed
1584      * by placing them in a JAR file on the application class path or in the
1585      * extension directory, the JAR file contains a provider-configuration file
1586      * named {@code java.nio.file.spi.FileTypeDetector} in the resource directory
1587      * {@code META-INF/services}, and the file lists one or more fully-qualified
1588      * names of concrete subclass of {@code FileTypeDetector } that have a zero
1589      * argument constructor. If the process of locating or instantiating the
1590      * installed file type detectors fails then an unspecified error is thrown.
1591      * The ordering that installed providers are located is implementation
1592      * specific.
1593      *
1594      * <p> The return value of this method is the string form of the value of a
1595      * Multipurpose Internet Mail Extension (MIME) content type as
1596      * defined by <a href="http://www.ietf.org/rfc/rfc2045.txt"><i>RFC&nbsp;2045:
1597      * Multipurpose Internet Mail Extensions (MIME) Part One: Format of Internet
1598      * Message Bodies</i></a>. The string is guaranteed to be parsable according
1599      * to the grammar in the RFC.
1600      *
1601      * @param   path
1602      *          the path to the file to probe
1603      *
1604      * @return  The content type of the file, or {@code null} if the content
1605      *          type cannot be determined
1606      *
1607      * @throws  IOException
1608      *          if an I/O error occurs
1609      * @throws  SecurityException
1610      *          If a security manager is installed and it denies an unspecified
1611      *          permission required by a file type detector implementation.
1612      */
1613     public static String probeContentType(Path path)
1614         throws IOException
1615     {
1616         // try installed file type detectors
1617         for (FileTypeDetector detector: FileTypeDetectors.installeDetectors) {
1618             String result = detector.probeContentType(path);
1619             if (result != null)
1620                 return result;
1621         }
1622 
1623         // fallback to default
1624         return FileTypeDetectors.defaultFileTypeDetector.probeContentType(path);
1625     }
1626 
1627     // -- File Attributes --
1628 
1629     /**
1630      * Returns a file attribute view of a given type.
1631      *
1632      * <p> A file attribute view provides a read-only or updatable view of a
1633      * set of file attributes. This method is intended to be used where the file
1634      * attribute view defines type-safe methods to read or update the file
1635      * attributes. The {@code type} parameter is the type of the attribute view
1636      * required and the method returns an instance of that type if supported.
1637      * The {@link BasicFileAttributeView} type supports access to the basic
1638      * attributes of a file. Invoking this method to select a file attribute
1639      * view of that type will always return an instance of that class.
1640      *
1641      * <p> The {@code options} array may be used to indicate how symbolic links
1642      * are handled by the resulting file attribute view for the case that the
1643      * file is a symbolic link. By default, symbolic links are followed. If the
1644      * option {@link LinkOption#NOFOLLOW_LINKS NOFOLLOW_LINKS} is present then
1645      * symbolic links are not followed. This option is ignored by implementations
1646      * that do not support symbolic links.
1647      *
1648      * <p> <b>Usage Example:</b>
1649      * Suppose we want read or set a file's ACL, if supported:
1650      * <pre>
1651      *     Path path = ...
1652      *     AclFileAttributeView view = Files.getFileAttributeView(path, AclFileAttributeView.class);
1653      *     if (view != null) {
1654      *         List&lt;AclEntry&gt; acl = view.getAcl();
1655      *         :
1656      *     }
1657      * </pre>
1658      *
1659      * @param   <V>
1660      *          The {@code FileAttributeView} type
1661      * @param   path
1662      *          the path to the file
1663      * @param   type
1664      *          the {@code Class} object corresponding to the file attribute view
1665      * @param   options
1666      *          options indicating how symbolic links are handled
1667      *
1668      * @return  a file attribute view of the specified type, or {@code null} if
1669      *          the attribute view type is not available
1670      */
1671     public static <V extends FileAttributeView> V getFileAttributeView(Path path,
1672                                                                        Class<V> type,
1673                                                                        LinkOption... options)
1674     {
1675         return provider(path).getFileAttributeView(path, type, options);
1676     }
1677 
1678     /**
1679      * Reads a file's attributes as a bulk operation.
1680      *
1681      * <p> The {@code type} parameter is the type of the attributes required
1682      * and this method returns an instance of that type if supported. All
1683      * implementations support a basic set of file attributes and so invoking
1684      * this method with a  {@code type} parameter of {@code
1685      * BasicFileAttributes.class} will not throw {@code
1686      * UnsupportedOperationException}.
1687      *
1688      * <p> The {@code options} array may be used to indicate how symbolic links
1689      * are handled for the case that the file is a symbolic link. By default,
1690      * symbolic links are followed and the file attribute of the final target
1691      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
1692      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
1693      *
1694      * <p> It is implementation specific if all file attributes are read as an
1695      * atomic operation with respect to other file system operations.
1696      *
1697      * <p> <b>Usage Example:</b>
1698      * Suppose we want to read a file's attributes in bulk:
1699      * <pre>
1700      *    Path path = ...
1701      *    BasicFileAttributes attrs = Files.readAttributes(path, BasicFileAttributes.class);
1702      * </pre>
1703      * Alternatively, suppose we want to read file's POSIX attributes without
1704      * following symbolic links:
1705      * <pre>
1706      *    PosixFileAttributes attrs = Files.readAttributes(path, PosixFileAttributes.class, NOFOLLOW_LINKS);
1707      * </pre>
1708      *
1709      * @param   <A>
1710      *          The {@code BasicFileAttributes} type
1711      * @param   path
1712      *          the path to the file
1713      * @param   type
1714      *          the {@code Class} of the file attributes required
1715      *          to read
1716      * @param   options
1717      *          options indicating how symbolic links are handled
1718      *
1719      * @return  the file attributes
1720      *
1721      * @throws  UnsupportedOperationException
1722      *          if an attributes of the given type are not supported
1723      * @throws  IOException
1724      *          if an I/O error occurs
1725      * @throws  SecurityException
1726      *          In the case of the default provider, a security manager is
1727      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
1728      *          method is invoked to check read access to the file. If this
1729      *          method is invoked to read security sensitive attributes then the
1730      *          security manager may be invoke to check for additional permissions.
1731      */
1732     public static <A extends BasicFileAttributes> A readAttributes(Path path,
1733                                                                    Class<A> type,
1734                                                                    LinkOption... options)
1735         throws IOException
1736     {
1737         return provider(path).readAttributes(path, type, options);
1738     }
1739 
1740     /**
1741      * Sets the value of a file attribute.
1742      *
1743      * <p> The {@code attribute} parameter identifies the attribute to be set
1744      * and takes the form:
1745      * <blockquote>
1746      * [<i>view-name</i><b>:</b>]<i>attribute-name</i>
1747      * </blockquote>
1748      * where square brackets [...] delineate an optional component and the
1749      * character {@code ':'} stands for itself.
1750      *
1751      * <p> <i>view-name</i> is the {@link FileAttributeView#name name} of a {@link
1752      * FileAttributeView} that identifies a set of file attributes. If not
1753      * specified then it defaults to {@code "basic"}, the name of the file
1754      * attribute view that identifies the basic set of file attributes common to
1755      * many file systems. <i>attribute-name</i> is the name of the attribute
1756      * within the set.
1757      *
1758      * <p> The {@code options} array may be used to indicate how symbolic links
1759      * are handled for the case that the file is a symbolic link. By default,
1760      * symbolic links are followed and the file attribute of the final target
1761      * of the link is set. If the option {@link LinkOption#NOFOLLOW_LINKS
1762      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
1763      *
1764      * <p> <b>Usage Example:</b>
1765      * Suppose we want to set the DOS "hidden" attribute:
1766      * <pre>
1767      *    Path path = ...
1768      *    Files.setAttribute(path, "dos:hidden", true);
1769      * </pre>
1770      *
1771      * @param   path
1772      *          the path to the file
1773      * @param   attribute
1774      *          the attribute to set
1775      * @param   value
1776      *          the attribute value
1777      * @param   options
1778      *          options indicating how symbolic links are handled
1779      *
1780      * @return  the {@code path} parameter
1781      *
1782      * @throws  UnsupportedOperationException
1783      *          if the attribute view is not available
1784      * @throws  IllegalArgumentException
1785      *          if the attribute name is not specified, or is not recognized, or
1786      *          the attribute value is of the correct type but has an
1787      *          inappropriate value
1788      * @throws  ClassCastException
1789      *          if the attribute value is not of the expected type or is a
1790      *          collection containing elements that are not of the expected
1791      *          type
1792      * @throws  IOException
1793      *          if an I/O error occurs
1794      * @throws  SecurityException
1795      *          In the case of the default provider, and a security manager is
1796      *          installed, its {@link SecurityManager#checkWrite(String) checkWrite}
1797      *          method denies write access to the file. If this method is invoked
1798      *          to set security sensitive attributes then the security manager
1799      *          may be invoked to check for additional permissions.
1800      */
1801     public static Path setAttribute(Path path, String attribute, Object value,
1802                                     LinkOption... options)
1803         throws IOException
1804     {
1805         provider(path).setAttribute(path, attribute, value, options);
1806         return path;
1807     }
1808 
1809     /**
1810      * Reads the value of a file attribute.
1811      *
1812      * <p> The {@code attribute} parameter identifies the attribute to be read
1813      * and takes the form:
1814      * <blockquote>
1815      * [<i>view-name</i><b>:</b>]<i>attribute-name</i>
1816      * </blockquote>
1817      * where square brackets [...] delineate an optional component and the
1818      * character {@code ':'} stands for itself.
1819      *
1820      * <p> <i>view-name</i> is the {@link FileAttributeView#name name} of a {@link
1821      * FileAttributeView} that identifies a set of file attributes. If not
1822      * specified then it defaults to {@code "basic"}, the name of the file
1823      * attribute view that identifies the basic set of file attributes common to
1824      * many file systems. <i>attribute-name</i> is the name of the attribute.
1825      *
1826      * <p> The {@code options} array may be used to indicate how symbolic links
1827      * are handled for the case that the file is a symbolic link. By default,
1828      * symbolic links are followed and the file attribute of the final target
1829      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
1830      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
1831      *
1832      * <p> <b>Usage Example:</b>
1833      * Suppose we require the user ID of the file owner on a system that
1834      * supports a "{@code unix}" view:
1835      * <pre>
1836      *    Path path = ...
1837      *    int uid = (Integer)Files.getAttribute(path, "unix:uid");
1838      * </pre>
1839      *
1840      * @param   path
1841      *          the path to the file
1842      * @param   attribute
1843      *          the attribute to read
1844      * @param   options
1845      *          options indicating how symbolic links are handled
1846      *
1847      * @return  the attribute value
1848      *
1849      * @throws  UnsupportedOperationException
1850      *          if the attribute view is not available
1851      * @throws  IllegalArgumentException
1852      *          if the attribute name is not specified or is not recognized
1853      * @throws  IOException
1854      *          if an I/O error occurs
1855      * @throws  SecurityException
1856      *          In the case of the default provider, and a security manager is
1857      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
1858      *          method denies read access to the file. If this method is invoked
1859      *          to read security sensitive attributes then the security manager
1860      *          may be invoked to check for additional permissions.
1861      */
1862     public static Object getAttribute(Path path, String attribute,
1863                                       LinkOption... options)
1864         throws IOException
1865     {
1866         // only one attribute should be read
1867         if (attribute.indexOf('*') >= 0 || attribute.indexOf(',') >= 0)
1868             throw new IllegalArgumentException(attribute);
1869         Map<String,Object> map = readAttributes(path, attribute, options);
1870         assert map.size() == 1;
1871         String name;
1872         int pos = attribute.indexOf(':');
1873         if (pos == -1) {
1874             name = attribute;
1875         } else {
1876             name = (pos == attribute.length()) ? "" : attribute.substring(pos+1);
1877         }
1878         return map.get(name);
1879     }
1880 
1881     /**
1882      * Reads a set of file attributes as a bulk operation.
1883      *
1884      * <p> The {@code attributes} parameter identifies the attributes to be read
1885      * and takes the form:
1886      * <blockquote>
1887      * [<i>view-name</i><b>:</b>]<i>attribute-list</i>
1888      * </blockquote>
1889      * where square brackets [...] delineate an optional component and the
1890      * character {@code ':'} stands for itself.
1891      *
1892      * <p> <i>view-name</i> is the {@link FileAttributeView#name name} of a {@link
1893      * FileAttributeView} that identifies a set of file attributes. If not
1894      * specified then it defaults to {@code "basic"}, the name of the file
1895      * attribute view that identifies the basic set of file attributes common to
1896      * many file systems.
1897      *
1898      * <p> The <i>attribute-list</i> component is a comma separated list of
1899      * zero or more names of attributes to read. If the list contains the value
1900      * {@code "*"} then all attributes are read. Attributes that are not supported
1901      * are ignored and will not be present in the returned map. It is
1902      * implementation specific if all attributes are read as an atomic operation
1903      * with respect to other file system operations.
1904      *
1905      * <p> The following examples demonstrate possible values for the {@code
1906      * attributes} parameter:
1907      *
1908      * <blockquote>
1909      * <table border="0" summary="Possible values">
1910      * <tr>
1911      *   <td> {@code "*"} </td>
1912      *   <td> Read all {@link BasicFileAttributes basic-file-attributes}. </td>
1913      * </tr>
1914      * <tr>
1915      *   <td> {@code "size,lastModifiedTime,lastAccessTime"} </td>
1916      *   <td> Reads the file size, last modified time, and last access time
1917      *     attributes. </td>
1918      * </tr>
1919      * <tr>
1920      *   <td> {@code "posix:*"} </td>
1921      *   <td> Read all {@link PosixFileAttributes POSIX-file-attributes}. </td>
1922      * </tr>
1923      * <tr>
1924      *   <td> {@code "posix:permissions,owner,size"} </td>
1925      *   <td> Reads the POSX file permissions, owner, and file size. </td>
1926      * </tr>
1927      * </table>
1928      * </blockquote>
1929      *
1930      * <p> The {@code options} array may be used to indicate how symbolic links
1931      * are handled for the case that the file is a symbolic link. By default,
1932      * symbolic links are followed and the file attribute of the final target
1933      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
1934      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
1935      *
1936      * @param   path
1937      *          the path to the file
1938      * @param   attributes
1939      *          the attributes to read
1940      * @param   options
1941      *          options indicating how symbolic links are handled
1942      *
1943      * @return  a map of the attributes returned; The map's keys are the
1944      *          attribute names, its values are the attribute values
1945      *
1946      * @throws  UnsupportedOperationException
1947      *          if the attribute view is not available
1948      * @throws  IllegalArgumentException
1949      *          if no attributes are specified or an unrecognized attributes is
1950      *          specified
1951      * @throws  IOException
1952      *          if an I/O error occurs
1953      * @throws  SecurityException
1954      *          In the case of the default provider, and a security manager is
1955      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
1956      *          method denies read access to the file. If this method is invoked
1957      *          to read security sensitive attributes then the security manager
1958      *          may be invoke to check for additional permissions.
1959      */
1960     public static Map<String,Object> readAttributes(Path path, String attributes,
1961                                                     LinkOption... options)
1962         throws IOException
1963     {
1964         return provider(path).readAttributes(path, attributes, options);
1965     }
1966 
1967     /**
1968      * Returns a file's POSIX file permissions.
1969      *
1970      * <p> The {@code path} parameter is associated with a {@code FileSystem}
1971      * that supports the {@link PosixFileAttributeView}. This attribute view
1972      * provides access to file attributes commonly associated with files on file
1973      * systems used by operating systems that implement the Portable Operating
1974      * System Interface (POSIX) family of standards.
1975      *
1976      * <p> The {@code options} array may be used to indicate how symbolic links
1977      * are handled for the case that the file is a symbolic link. By default,
1978      * symbolic links are followed and the file attribute of the final target
1979      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
1980      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
1981      *
1982      * @param   path
1983      *          the path to the file
1984      * @param   options
1985      *          options indicating how symbolic links are handled
1986      *
1987      * @return  the file permissions
1988      *
1989      * @throws  UnsupportedOperationException
1990      *          if the associated file system does not support the {@code
1991      *          PosixFileAttributeView}
1992      * @throws  IOException
1993      *          if an I/O error occurs
1994      * @throws  SecurityException
1995      *          In the case of the default provider, a security manager is
1996      *          installed, and it denies {@link RuntimePermission}<tt>("accessUserInformation")</tt>
1997      *          or its {@link SecurityManager#checkRead(String) checkRead} method
1998      *          denies read access to the file.
1999      */
2000     public static Set<PosixFilePermission> getPosixFilePermissions(Path path,
2001                                                                    LinkOption... options)
2002         throws IOException
2003     {
2004         return readAttributes(path, PosixFileAttributes.class, options).permissions();
2005     }
2006 
2007     /**
2008      * Sets a file's POSIX permissions.
2009      *
2010      * <p> The {@code path} parameter is associated with a {@code FileSystem}
2011      * that supports the {@link PosixFileAttributeView}. This attribute view
2012      * provides access to file attributes commonly associated with files on file
2013      * systems used by operating systems that implement the Portable Operating
2014      * System Interface (POSIX) family of standards.
2015      *
2016      * @param   path
2017      *          The path to the file
2018      * @param   perms
2019      *          The new set of permissions
2020      *
2021      * @return  The path
2022      *
2023      * @throws  UnsupportedOperationException
2024      *          if the associated file system does not support the {@code
2025      *          PosixFileAttributeView}
2026      * @throws  ClassCastException
2027      *          if the sets contains elements that are not of type {@code
2028      *          PosixFilePermission}
2029      * @throws  IOException
2030      *          if an I/O error occurs
2031      * @throws  SecurityException
2032      *          In the case of the default provider, and a security manager is
2033      *          installed, it denies {@link RuntimePermission}<tt>("accessUserInformation")</tt>
2034      *          or its {@link SecurityManager#checkWrite(String) checkWrite}
2035      *          method denies write access to the file.
2036      */
2037     public static Path setPosixFilePermissions(Path path,
2038                                                Set<PosixFilePermission> perms)
2039         throws IOException
2040     {
2041         PosixFileAttributeView view =
2042             getFileAttributeView(path, PosixFileAttributeView.class);
2043         if (view == null)
2044             throw new UnsupportedOperationException();
2045         view.setPermissions(perms);
2046         return path;
2047     }
2048 
2049     /**
2050      * Returns the owner of a file.
2051      *
2052      * <p> The {@code path} parameter is associated with a file system that
2053      * supports {@link FileOwnerAttributeView}. This file attribute view provides
2054      * access to a file attribute that is the owner of the file.
2055      *
2056      * @param   path
2057      *          The path to the file
2058      * @param   options
2059      *          options indicating how symbolic links are handled
2060      *
2061      * @return  A user principal representing the owner of the file
2062      *
2063      * @throws  UnsupportedOperationException
2064      *          if the associated file system does not support the {@code
2065      *          FileOwnerAttributeView}
2066      * @throws  IOException
2067      *          if an I/O error occurs
2068      * @throws  SecurityException
2069      *          In the case of the default provider, and a security manager is
2070      *          installed, it denies {@link RuntimePermission}<tt>("accessUserInformation")</tt>
2071      *          or its {@link SecurityManager#checkRead(String) checkRead} method
2072      *          denies read access to the file.
2073      */
2074     public static UserPrincipal getOwner(Path path, LinkOption... options) throws IOException {
2075         FileOwnerAttributeView view =
2076             getFileAttributeView(path, FileOwnerAttributeView.class, options);
2077         if (view == null)
2078             throw new UnsupportedOperationException();
2079         return view.getOwner();
2080     }
2081 
2082     /**
2083      * Updates the file owner.
2084      *
2085      * <p> The {@code path} parameter is associated with a file system that
2086      * supports {@link FileOwnerAttributeView}. This file attribute view provides
2087      * access to a file attribute that is the owner of the file.
2088      *
2089      * <p> <b>Usage Example:</b>
2090      * Suppose we want to make "joe" the owner of a file:
2091      * <pre>
2092      *     Path path = ...
2093      *     UserPrincipalLookupService lookupService =
2094      *         provider(path).getUserPrincipalLookupService();
2095      *     UserPrincipal joe = lookupService.lookupPrincipalByName("joe");
2096      *     Files.setOwner(path, joe);
2097      * </pre>
2098      *
2099      * @param   path
2100      *          The path to the file
2101      * @param   owner
2102      *          The new file owner
2103      *
2104      * @return  The path
2105      *
2106      * @throws  UnsupportedOperationException
2107      *          if the associated file system does not support the {@code
2108      *          FileOwnerAttributeView}
2109      * @throws  IOException
2110      *          if an I/O error occurs
2111      * @throws  SecurityException
2112      *          In the case of the default provider, and a security manager is
2113      *          installed, it denies {@link RuntimePermission}<tt>("accessUserInformation")</tt>
2114      *          or its {@link SecurityManager#checkWrite(String) checkWrite}
2115      *          method denies write access to the file.
2116      *
2117      * @see FileSystem#getUserPrincipalLookupService
2118      * @see java.nio.file.attribute.UserPrincipalLookupService
2119      */
2120     public static Path setOwner(Path path, UserPrincipal owner)
2121         throws IOException
2122     {
2123         FileOwnerAttributeView view =
2124             getFileAttributeView(path, FileOwnerAttributeView.class);
2125         if (view == null)
2126             throw new UnsupportedOperationException();
2127         view.setOwner(owner);
2128         return path;
2129     }
2130 
2131     /**
2132      * Tests whether a file is a symbolic link.
2133      *
2134      * <p> Where it is required to distinguish an I/O exception from the case
2135      * that the file is not a symbolic link then the file attributes can be
2136      * read with the {@link #readAttributes(Path,Class,LinkOption[])
2137      * readAttributes} method and the file type tested with the {@link
2138      * BasicFileAttributes#isSymbolicLink} method.
2139      *
2140      * @param   path  The path to the file
2141      *
2142      * @return  {@code true} if the file is a symbolic link; {@code false} if
2143      *          the file does not exist, is not a symbolic link, or it cannot
2144      *          be determined if the file is a symbolic link or not.
2145      *
2146      * @throws  SecurityException
2147      *          In the case of the default provider, and a security manager is
2148      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
2149      *          method denies read access to the file.
2150      */
2151     public static boolean isSymbolicLink(Path path) {
2152         try {
2153             return readAttributes(path,
2154                                   BasicFileAttributes.class,
2155                                   LinkOption.NOFOLLOW_LINKS).isSymbolicLink();
2156         } catch (IOException ioe) {
2157             return false;
2158         }
2159     }
2160 
2161     /**
2162      * Tests whether a file is a directory.
2163      *
2164      * <p> The {@code options} array may be used to indicate how symbolic links
2165      * are handled for the case that the file is a symbolic link. By default,
2166      * symbolic links are followed and the file attribute of the final target
2167      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
2168      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
2169      *
2170      * <p> Where it is required to distinguish an I/O exception from the case
2171      * that the file is not a directory then the file attributes can be
2172      * read with the {@link #readAttributes(Path,Class,LinkOption[])
2173      * readAttributes} method and the file type tested with the {@link
2174      * BasicFileAttributes#isDirectory} method.
2175      *
2176      * @param   path
2177      *          the path to the file to test
2178      * @param   options
2179      *          options indicating how symbolic links are handled
2180      *
2181      * @return  {@code true} if the file is a directory; {@code false} if
2182      *          the file does not exist, is not a directory, or it cannot
2183      *          be determined if the file is a directory or not.
2184      *
2185      * @throws  SecurityException
2186      *          In the case of the default provider, and a security manager is
2187      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
2188      *          method denies read access to the file.
2189      */
2190     public static boolean isDirectory(Path path, LinkOption... options) {
2191         try {
2192             return readAttributes(path, BasicFileAttributes.class, options).isDirectory();
2193         } catch (IOException ioe) {
2194             return false;
2195         }
2196     }
2197 
2198     /**
2199      * Tests whether a file is a regular file with opaque content.
2200      *
2201      * <p> The {@code options} array may be used to indicate how symbolic links
2202      * are handled for the case that the file is a symbolic link. By default,
2203      * symbolic links are followed and the file attribute of the final target
2204      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
2205      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
2206      *
2207      * <p> Where it is required to distinguish an I/O exception from the case
2208      * that the file is not a regular file then the file attributes can be
2209      * read with the {@link #readAttributes(Path,Class,LinkOption[])
2210      * readAttributes} method and the file type tested with the {@link
2211      * BasicFileAttributes#isRegularFile} method.
2212      *
2213      * @param   path
2214      *          the path to the file
2215      * @param   options
2216      *          options indicating how symbolic links are handled
2217      *
2218      * @return  {@code true} if the file is a regular file; {@code false} if
2219      *          the file does not exist, is not a regular file, or it
2220      *          cannot be determined if the file is a regular file or not.
2221      *
2222      * @throws  SecurityException
2223      *          In the case of the default provider, and a security manager is
2224      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
2225      *          method denies read access to the file.
2226      */
2227     public static boolean isRegularFile(Path path, LinkOption... options) {
2228         try {
2229             return readAttributes(path, BasicFileAttributes.class, options).isRegularFile();
2230         } catch (IOException ioe) {
2231             return false;
2232         }
2233     }
2234 
2235     /**
2236      * Returns a file's last modified time.
2237      *
2238      * <p> The {@code options} array may be used to indicate how symbolic links
2239      * are handled for the case that the file is a symbolic link. By default,
2240      * symbolic links are followed and the file attribute of the final target
2241      * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS
2242      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
2243      *
2244      * @param   path
2245      *          the path to the file
2246      * @param   options
2247      *          options indicating how symbolic links are handled
2248      *
2249      * @return  a {@code FileTime} representing the time the file was last
2250      *          modified, or an implementation specific default when a time
2251      *          stamp to indicate the time of last modification is not supported
2252      *          by the file system
2253      *
2254      * @throws  IOException
2255      *          if an I/O error occurs
2256      * @throws  SecurityException
2257      *          In the case of the default provider, and a security manager is
2258      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
2259      *          method denies read access to the file.
2260      *
2261      * @see BasicFileAttributes#lastModifiedTime
2262      */
2263     public static FileTime getLastModifiedTime(Path path, LinkOption... options)
2264         throws IOException
2265     {
2266         return readAttributes(path, BasicFileAttributes.class, options).lastModifiedTime();
2267     }
2268 
2269     /**
2270      * Updates a file's last modified time attribute. The file time is converted
2271      * to the epoch and precision supported by the file system. Converting from
2272      * finer to coarser granularities result in precision loss. The behavior of
2273      * this method when attempting to set the last modified time when it is not
2274      * supported by the file system or is outside the range supported by the
2275      * underlying file store is not defined. It may or not fail by throwing an
2276      * {@code IOException}.
2277      *
2278      * <p> <b>Usage Example:</b>
2279      * Suppose we want to set the last modified time to the current time:
2280      * <pre>
2281      *    Path path = ...
2282      *    FileTime now = FileTime.fromMillis(System.currentTimeMillis());
2283      *    Files.setLastModifiedTime(path, now);
2284      * </pre>
2285      *
2286      * @param   path
2287      *          the path to the file
2288      * @param   time
2289      *          the new last modified time
2290      *
2291      * @return  the path
2292      *
2293      * @throws  IOException
2294      *          if an I/O error occurs
2295      * @throws  SecurityException
2296      *          In the case of the default provider, the security manager's {@link
2297      *          SecurityManager#checkWrite(String) checkWrite} method is invoked
2298      *          to check write access to file
2299      *
2300      * @see BasicFileAttributeView#setTimes
2301      */
2302     public static Path setLastModifiedTime(Path path, FileTime time)
2303         throws IOException
2304     {
2305         getFileAttributeView(path, BasicFileAttributeView.class)
2306             .setTimes(time, null, null);
2307         return path;
2308     }
2309 
2310     /**
2311      * Returns the size of a file (in bytes). The size may differ from the
2312      * actual size on the file system due to compression, support for sparse
2313      * files, or other reasons. The size of files that are not {@link
2314      * #isRegularFile regular} files is implementation specific and
2315      * therefore unspecified.
2316      *
2317      * @param   path
2318      *          the path to the file
2319      *
2320      * @return  the file size, in bytes
2321      *
2322      * @throws  IOException
2323      *          if an I/O error occurs
2324      * @throws  SecurityException
2325      *          In the case of the default provider, and a security manager is
2326      *          installed, its {@link SecurityManager#checkRead(String) checkRead}
2327      *          method denies read access to the file.
2328      *
2329      * @see BasicFileAttributes#size
2330      */
2331     public static long size(Path path) throws IOException {
2332         return readAttributes(path, BasicFileAttributes.class).size();
2333     }
2334 
2335     // -- Accessibility --
2336 
2337     /**
2338      * Returns {@code false} if NOFOLLOW_LINKS is present.
2339      */
2340     private static boolean followLinks(LinkOption... options) {
2341         boolean followLinks = true;
2342         for (LinkOption opt: options) {
2343             if (opt == LinkOption.NOFOLLOW_LINKS) {
2344                 followLinks = false;
2345                 continue;
2346             }
2347             if (opt == null)
2348                 throw new NullPointerException();
2349             throw new AssertionError("Should not get here");
2350         }
2351         return followLinks;
2352     }
2353 
2354     /**
2355      * Tests whether a file exists.
2356      *
2357      * <p> The {@code options} parameter may be used to indicate how symbolic links
2358      * are handled for the case that the file is a symbolic link. By default,
2359      * symbolic links are followed. If the option {@link LinkOption#NOFOLLOW_LINKS
2360      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
2361      *
2362      * <p> Note that the result of this method is immediately outdated. If this
2363      * method indicates the file exists then there is no guarantee that a
2364      * subsequence access will succeed. Care should be taken when using this
2365      * method in security sensitive applications.
2366      *
2367      * @param   path
2368      *          the path to the file to test
2369      * @param   options
2370      *          options indicating how symbolic links are handled
2371      * .
2372      * @return  {@code true} if the file exists; {@code false} if the file does
2373      *          not exist or its existence cannot be determined.
2374      *
2375      * @throws  SecurityException
2376      *          In the case of the default provider, the {@link
2377      *          SecurityManager#checkRead(String)} is invoked to check
2378      *          read access to the file.
2379      *
2380      * @see #notExists
2381      */
2382     public static boolean exists(Path path, LinkOption... options) {
2383         try {
2384             if (followLinks(options)) {
2385                 provider(path).checkAccess(path);
2386             } else {
2387                 // attempt to read attributes without following links
2388                 readAttributes(path, BasicFileAttributes.class,
2389                                LinkOption.NOFOLLOW_LINKS);
2390             }
2391             // file exists
2392             return true;
2393         } catch (IOException x) {
2394             // does not exist or unable to determine if file exists
2395             return false;
2396         }
2397 
2398     }
2399 
2400     /**
2401      * Tests whether the file located by this path does not exist. This method
2402      * is intended for cases where it is required to take action when it can be
2403      * confirmed that a file does not exist.
2404      *
2405      * <p> The {@code options} parameter may be used to indicate how symbolic links
2406      * are handled for the case that the file is a symbolic link. By default,
2407      * symbolic links are followed. If the option {@link LinkOption#NOFOLLOW_LINKS
2408      * NOFOLLOW_LINKS} is present then symbolic links are not followed.
2409      *
2410      * <p> Note that this method is not the complement of the {@link #exists
2411      * exists} method. Where it is not possible to determine if a file exists
2412      * or not then both methods return {@code false}. As with the {@code exists}
2413      * method, the result of this method is immediately outdated. If this
2414      * method indicates the file does exist then there is no guarantee that a
2415      * subsequence attempt to create the file will succeed. Care should be taken
2416      * when using this method in security sensitive applications.
2417      *
2418      * @param   path
2419      *          the path to the file to test
2420      * @param   options
2421      *          options indicating how symbolic links are handled
2422      *
2423      * @return  {@code true} if the file does not exist; {@code false} if the
2424      *          file exists or its existence cannot be determined
2425      *
2426      * @throws  SecurityException
2427      *          In the case of the default provider, the {@link
2428      *          SecurityManager#checkRead(String)} is invoked to check
2429      *          read access to the file.
2430      */
2431     public static boolean notExists(Path path, LinkOption... options) {
2432         try {
2433             if (followLinks(options)) {
2434                 provider(path).checkAccess(path);
2435             } else {
2436                 // attempt to read attributes without following links
2437                 readAttributes(path, BasicFileAttributes.class,
2438                                LinkOption.NOFOLLOW_LINKS);
2439             }
2440             // file exists
2441             return false;
2442         } catch (NoSuchFileException x) {
2443             // file confirmed not to exist
2444             return true;
2445         } catch (IOException x) {
2446             return false;
2447         }
2448     }
2449 
2450     /**
2451      * Used by isReadbale, isWritable, isExecutable to test access to a file.
2452      */
2453     private static boolean isAccessible(Path path, AccessMode... modes) {
2454         try {
2455             provider(path).checkAccess(path, modes);
2456             return true;
2457         } catch (IOException x) {
2458             return false;
2459         }
2460     }
2461 
2462     /**
2463      * Tests whether a file is readable. This method checks that a file exists
2464      * and that this Java virtual machine has appropriate privileges that would
2465      * allow it open the file for reading. Depending on the implementation, this
2466      * method may require to read file permissions, access control lists, or
2467      * other file attributes in order to check the effective access to the file.
2468      * Consequently, this method may not be atomic with respect to other file
2469      * system operations.
2470      *
2471      * <p> Note that the result of this method is immediately outdated, there is
2472      * no guarantee that a subsequent attempt to open the file for reading will
2473      * succeed (or even that it will access the same file). Care should be taken
2474      * when using this method in security sensitive applications.
2475      *
2476      * @param   path
2477      *          the path to the file to check
2478      *
2479      * @return  {@code true} if the file exists and is readable; {@code false}
2480      *          if the file does not exist, read access would be denied because
2481      *          the Java virtual machine has insufficient privileges, or access
2482      *          cannot be determined
2483      *
2484      * @throws  SecurityException
2485      *          In the case of the default provider, and a security manager is
2486      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
2487      *          is invoked to check read access to the file.
2488      */
2489     public static boolean isReadable(Path path) {
2490         return isAccessible(path, AccessMode.READ);
2491     }
2492 
2493     /**
2494      * Tests whether a file is writable. This method checks that a file exists
2495      * and that this Java virtual machine has appropriate privileges that would
2496      * allow it open the file for writing. Depending on the implementation, this
2497      * method may require to read file permissions, access control lists, or
2498      * other file attributes in order to check the effective access to the file.
2499      * Consequently, this method may not be atomic with respect to other file
2500      * system operations.
2501      *
2502      * <p> Note that result of this method is immediately outdated, there is no
2503      * guarantee that a subsequent attempt to open the file for writing will
2504      * succeed (or even that it will access the same file). Care should be taken
2505      * when using this method in security sensitive applications.
2506      *
2507      * @param   path
2508      *          the path to the file to check
2509      *
2510      * @return  {@code true} if the file exists and is writable; {@code false}
2511      *          if the file does not exist, write access would be denied because
2512      *          the Java virtual machine has insufficient privileges, or access
2513      *          cannot be determined
2514      *
2515      * @throws  SecurityException
2516      *          In the case of the default provider, and a security manager is
2517      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
2518      *          is invoked to check write access to the file.
2519      */
2520     public static boolean isWritable(Path path) {
2521         return isAccessible(path, AccessMode.WRITE);
2522     }
2523 
2524     /**
2525      * Tests whether a file is executable. This method checks that a file exists
2526      * and that this Java virtual machine has appropriate privileges to {@link
2527      * Runtime#exec execute} the file. The semantics may differ when checking
2528      * access to a directory. For example, on UNIX systems, checking for
2529      * execute access checks that the Java virtual machine has permission to
2530      * search the directory in order to access file or subdirectories.
2531      *
2532      * <p> Depending on the implementation, this method may require to read file
2533      * permissions, access control lists, or other file attributes in order to
2534      * check the effective access to the file. Consequently, this method may not
2535      * be atomic with respect to other file system operations.
2536      *
2537      * <p> Note that the result of this method is immediately outdated, there is
2538      * no guarantee that a subsequent attempt to execute the file will succeed
2539      * (or even that it will access the same file). Care should be taken when
2540      * using this method in security sensitive applications.
2541      *
2542      * @param   path
2543      *          the path to the file to check
2544      *
2545      * @return  {@code true} if the file exists and is executable; {@code false}
2546      *          if the file does not exist, execute access would be denied because
2547      *          the Java virtual machine has insufficient privileges, or access
2548      *          cannot be determined
2549      *
2550      * @throws  SecurityException
2551      *          In the case of the default provider, and a security manager is
2552      *          installed, the {@link SecurityManager#checkExec(String)
2553      *          checkExec} is invoked to check execute access to the file.
2554      */
2555     public static boolean isExecutable(Path path) {
2556         return isAccessible(path, AccessMode.EXECUTE);
2557     }
2558 
2559     // -- Recursive operations --
2560 
2561     /**
2562      * Walks a file tree.
2563      *
2564      * <p> This method walks a file tree rooted at a given starting file. The
2565      * file tree traversal is <em>depth-first</em> with the given {@link
2566      * FileVisitor} invoked for each file encountered. File tree traversal
2567      * completes when all accessible files in the tree have been visited, or a
2568      * visit method returns a result of {@link FileVisitResult#TERMINATE
2569      * TERMINATE}. Where a visit method terminates due an {@code IOException},
2570      * an uncaught error, or runtime exception, then the traversal is terminated
2571      * and the error or exception is propagated to the caller of this method.
2572      *
2573      * <p> For each file encountered this method attempts to read its {@link
2574      * java.nio.file.attribute.BasicFileAttributes}. If the file is not a
2575      * directory then the {@link FileVisitor#visitFile visitFile} method is
2576      * invoked with the file attributes. If the file attributes cannot be read,
2577      * due to an I/O exception, then the {@link FileVisitor#visitFileFailed
2578      * visitFileFailed} method is invoked with the I/O exception.
2579      *
2580      * <p> Where the file is a directory, and the directory could not be opened,
2581      * then the {@code visitFileFailed} method is invoked with the I/O exception,
2582      * after which, the file tree walk continues, by default, at the next
2583      * <em>sibling</em> of the directory.
2584      *
2585      * <p> Where the directory is opened successfully, then the entries in the
2586      * directory, and their <em>descendants</em> are visited. When all entries
2587      * have been visited, or an I/O error occurs during iteration of the
2588      * directory, then the directory is closed and the visitor's {@link
2589      * FileVisitor#postVisitDirectory postVisitDirectory} method is invoked.
2590      * The file tree walk then continues, by default, at the next <em>sibling</em>
2591      * of the directory.
2592      *
2593      * <p> By default, symbolic links are not automatically followed by this
2594      * method. If the {@code options} parameter contains the {@link
2595      * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then symbolic links are
2596      * followed. When following links, and the attributes of the target cannot
2597      * be read, then this method attempts to get the {@code BasicFileAttributes}
2598      * of the link. If they can be read then the {@code visitFile} method is
2599      * invoked with the attributes of the link (otherwise the {@code visitFileFailed}
2600      * method is invoked as specified above).
2601      *
2602      * <p> If the {@code options} parameter contains the {@link
2603      * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then this method keeps
2604      * track of directories visited so that cycles can be detected. A cycle
2605      * arises when there is an entry in a directory that is an ancestor of the
2606      * directory. Cycle detection is done by recording the {@link
2607      * java.nio.file.attribute.BasicFileAttributes#fileKey file-key} of directories,
2608      * or if file keys are not available, by invoking the {@link #isSameFile
2609      * isSameFile} method to test if a directory is the same file as an
2610      * ancestor. When a cycle is detected it is treated as an I/O error, and the
2611      * {@link FileVisitor#visitFileFailed visitFileFailed} method is invoked with
2612      * an instance of {@link FileSystemLoopException}.
2613      *
2614      * <p> The {@code maxDepth} parameter is the maximum number of levels of
2615      * directories to visit. A value of {@code 0} means that only the starting
2616      * file is visited, unless denied by the security manager. A value of
2617      * {@link Integer#MAX_VALUE MAX_VALUE} may be used to indicate that all
2618      * levels should be visited. The {@code visitFile} method is invoked for all
2619      * files, including directories, encountered at {@code maxDepth}, unless the
2620      * basic file attributes cannot be read, in which case the {@code
2621      * visitFileFailed} method is invoked.
2622      *
2623      * <p> If a visitor returns a result of {@code null} then {@code
2624      * NullPointerException} is thrown.
2625      *
2626      * <p> When a security manager is installed and it denies access to a file
2627      * (or directory), then it is ignored and the visitor is not invoked for
2628      * that file (or directory).
2629      *
2630      * @param   start
2631      *          the starting file
2632      * @param   options
2633      *          options to configure the traversal
2634      * @param   maxDepth
2635      *          the maximum number of directory levels to visit
2636      * @param   visitor
2637      *          the file visitor to invoke for each file
2638      *
2639      * @return  the starting file
2640      *
2641      * @throws  IllegalArgumentException
2642      *          if the {@code maxDepth} parameter is negative
2643      * @throws  SecurityException
2644      *          If the security manager denies access to the starting file.
2645      *          In the case of the default provider, the {@link
2646      *          SecurityManager#checkRead(String) checkRead} method is invoked
2647      *          to check read access to the directory.
2648      * @throws  IOException
2649      *          if an I/O error is thrown by a visitor method
2650      */
2651     public static Path walkFileTree(Path start,
2652                                     Set<FileVisitOption> options,
2653                                     int maxDepth,
2654                                     FileVisitor<? super Path> visitor)
2655         throws IOException
2656     {
2657         /**
2658          * Create a FileTreeWalker to walk the file tree, invoking the visitor
2659          * for each event.
2660          */
2661         try (FileTreeWalker walker = new FileTreeWalker(options, maxDepth)) {
2662             FileTreeWalker.Event ev = walker.walk(start);
2663             do {
2664                 FileVisitResult result;
2665                 switch (ev.type()) {
2666                     case ENTRY :
2667                         IOException ioe = ev.ioeException();
2668                         if (ioe == null) {
2669                             assert ev.attributes() != null;
2670                             result = visitor.visitFile(ev.file(), ev.attributes());
2671                         } else {
2672                             result = visitor.visitFileFailed(ev.file(), ioe);
2673                         }
2674                         break;
2675 
2676                     case START_DIRECTORY :
2677                         result = visitor.preVisitDirectory(ev.file(), ev.attributes());
2678 
2679                         // if SKIP_SIBLINGS and SKIP_SUBTREE is returned then
2680                         // there shouldn't be any more events for the current
2681                         // directory.
2682                         if (result == FileVisitResult.SKIP_SUBTREE ||
2683                             result == FileVisitResult.SKIP_SIBLINGS)
2684                             walker.pop();
2685                         break;
2686 
2687                     case END_DIRECTORY :
2688                         result = visitor.postVisitDirectory(ev.file(), ev.ioeException());
2689 
2690                         // SKIP_SIBLINGS is a no-op for postVisitDirectory
2691                         if (result == FileVisitResult.SKIP_SIBLINGS)
2692                             result = FileVisitResult.CONTINUE;
2693                         break;
2694 
2695                     default :
2696                         throw new AssertionError("Should not get here");
2697                 }
2698 
2699                 if (Objects.requireNonNull(result) != FileVisitResult.CONTINUE) {
2700                     if (result == FileVisitResult.TERMINATE) {
2701                         break;
2702                     } else if (result == FileVisitResult.SKIP_SIBLINGS) {
2703                         walker.skipRemainingSiblings();
2704                     }
2705                 }
2706                 ev = walker.next();
2707             } while (ev != null);
2708         }
2709 
2710         return start;
2711     }
2712 
2713     /**
2714      * Walks a file tree.
2715      *
2716      * <p> This method works as if invoking it were equivalent to evaluating the
2717      * expression:
2718      * <blockquote><pre>
2719      * walkFileTree(start, EnumSet.noneOf(FileVisitOption.class), Integer.MAX_VALUE, visitor)
2720      * </pre></blockquote>
2721      * In other words, it does not follow symbolic links, and visits all levels
2722      * of the file tree.
2723      *
2724      * @param   start
2725      *          the starting file
2726      * @param   visitor
2727      *          the file visitor to invoke for each file
2728      *
2729      * @return  the starting file
2730      *
2731      * @throws  SecurityException
2732      *          If the security manager denies access to the starting file.
2733      *          In the case of the default provider, the {@link
2734      *          SecurityManager#checkRead(String) checkRead} method is invoked
2735      *          to check read access to the directory.
2736      * @throws  IOException
2737      *          if an I/O error is thrown by a visitor method
2738      */
2739     public static Path walkFileTree(Path start, FileVisitor<? super Path> visitor)
2740         throws IOException
2741     {
2742         return walkFileTree(start,
2743                             EnumSet.noneOf(FileVisitOption.class),
2744                             Integer.MAX_VALUE,
2745                             visitor);
2746     }
2747 
2748 
2749     // -- Utility methods for simple usages --
2750 
2751     // buffer size used for reading and writing
2752     private static final int BUFFER_SIZE = 8192;
2753 
2754     /**
2755      * Opens a file for reading, returning a {@code BufferedReader} that may be
2756      * used to read text from the file in an efficient manner. Bytes from the
2757      * file are decoded into characters using the specified charset. Reading
2758      * commences at the beginning of the file.
2759      *
2760      * <p> The {@code Reader} methods that read from the file throw {@code
2761      * IOException} if a malformed or unmappable byte sequence is read.
2762      *
2763      * @param   path
2764      *          the path to the file
2765      * @param   cs
2766      *          the charset to use for decoding
2767      *
2768      * @return  a new buffered reader, with default buffer size, to read text
2769      *          from the file
2770      *
2771      * @throws  IOException
2772      *          if an I/O error occurs opening the file
2773      * @throws  SecurityException
2774      *          In the case of the default provider, and a security manager is
2775      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
2776      *          method is invoked to check read access to the file.
2777      *
2778      * @see #readAllLines
2779      */
2780     public static BufferedReader newBufferedReader(Path path, Charset cs)
2781         throws IOException
2782     {
2783         CharsetDecoder decoder = cs.newDecoder();
2784         Reader reader = new InputStreamReader(newInputStream(path), decoder);
2785         return new BufferedReader(reader);
2786     }
2787 
2788     /**
2789      * Opens a file for reading, returning a {@code BufferedReader} to read text
2790      * from the file in an efficient manner. Bytes from the file are decoded into
2791      * characters using the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset
2792      * charset}.
2793      *
2794      * <p> This method works as if invoking it were equivalent to evaluating the
2795      * expression:
2796      * <pre>{@code
2797      * Files.newBufferedReader(path, StandardCharsets.UTF_8)
2798      * }</pre>
2799      *
2800      * @param   path
2801      *          the path to the file
2802      *
2803      * @return  a new buffered reader, with default buffer size, to read text
2804      *          from the file
2805      *
2806      * @throws  IOException
2807      *          if an I/O error occurs opening the file
2808      * @throws  SecurityException
2809      *          In the case of the default provider, and a security manager is
2810      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
2811      *          method is invoked to check read access to the file.
2812      *
2813      * @since 1.8
2814      */
2815     public static BufferedReader newBufferedReader(Path path) throws IOException {
2816         return newBufferedReader(path, StandardCharsets.UTF_8);
2817     }
2818 
2819     /**
2820      * Opens or creates a file for writing, returning a {@code BufferedWriter}
2821      * that may be used to write text to the file in an efficient manner.
2822      * The {@code options} parameter specifies how the the file is created or
2823      * opened. If no options are present then this method works as if the {@link
2824      * StandardOpenOption#CREATE CREATE}, {@link
2825      * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link
2826      * StandardOpenOption#WRITE WRITE} options are present. In other words, it
2827      * opens the file for writing, creating the file if it doesn't exist, or
2828      * initially truncating an existing {@link #isRegularFile regular-file} to
2829      * a size of {@code 0} if it exists.
2830      *
2831      * <p> The {@code Writer} methods to write text throw {@code IOException}
2832      * if the text cannot be encoded using the specified charset.
2833      *
2834      * @param   path
2835      *          the path to the file
2836      * @param   cs
2837      *          the charset to use for encoding
2838      * @param   options
2839      *          options specifying how the file is opened
2840      *
2841      * @return  a new buffered writer, with default buffer size, to write text
2842      *          to the file
2843      *
2844      * @throws  IOException
2845      *          if an I/O error occurs opening or creating the file
2846      * @throws  UnsupportedOperationException
2847      *          if an unsupported option is specified
2848      * @throws  SecurityException
2849      *          In the case of the default provider, and a security manager is
2850      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
2851      *          method is invoked to check write access to the file.
2852      *
2853      * @see #write(Path,Iterable,Charset,OpenOption[])
2854      */
2855     public static BufferedWriter newBufferedWriter(Path path, Charset cs,
2856                                                    OpenOption... options)
2857         throws IOException
2858     {
2859         CharsetEncoder encoder = cs.newEncoder();
2860         Writer writer = new OutputStreamWriter(newOutputStream(path, options), encoder);
2861         return new BufferedWriter(writer);
2862     }
2863 
2864     /**
2865      * Opens or creates a file for writing, returning a {@code BufferedWriter}
2866      * to write text to the file in an efficient manner. The text is encoded
2867      * into bytes for writing using the {@link StandardCharsets#UTF_8 UTF-8}
2868      * {@link Charset charset}.
2869      *
2870      * <p> This method works as if invoking it were equivalent to evaluating the
2871      * expression:
2872      * <pre>{@code
2873      * Files.newBufferedWriter(path, StandardCharsets.UTF_8, options)
2874      * }</pre>
2875      *
2876      * @param   path
2877      *          the path to the file
2878      * @param   options
2879      *          options specifying how the file is opened
2880      *
2881      * @return  a new buffered writer, with default buffer size, to write text
2882      *          to the file
2883      *
2884      * @throws  IOException
2885      *          if an I/O error occurs opening or creating the file
2886      * @throws  UnsupportedOperationException
2887      *          if an unsupported option is specified
2888      * @throws  SecurityException
2889      *          In the case of the default provider, and a security manager is
2890      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
2891      *          method is invoked to check write access to the file.
2892      *
2893      * @since 1.8
2894      */
2895     public static BufferedWriter newBufferedWriter(Path path, OpenOption... options) throws IOException {
2896         return newBufferedWriter(path, StandardCharsets.UTF_8, options);
2897     }
2898 
2899     /**
2900      * Reads all bytes from an input stream and writes them to an output stream.
2901      */
2902     private static long copy(InputStream source, OutputStream sink)
2903         throws IOException
2904     {
2905         long nread = 0L;
2906         byte[] buf = new byte[BUFFER_SIZE];
2907         int n;
2908         while ((n = source.read(buf)) > 0) {
2909             sink.write(buf, 0, n);
2910             nread += n;
2911         }
2912         return nread;
2913     }
2914 
2915     /**
2916      * Copies all bytes from an input stream to a file. On return, the input
2917      * stream will be at end of stream.
2918      *
2919      * <p> By default, the copy fails if the target file already exists or is a
2920      * symbolic link. If the {@link StandardCopyOption#REPLACE_EXISTING
2921      * REPLACE_EXISTING} option is specified, and the target file already exists,
2922      * then it is replaced if it is not a non-empty directory. If the target
2923      * file exists and is a symbolic link, then the symbolic link is replaced.
2924      * In this release, the {@code REPLACE_EXISTING} option is the only option
2925      * required to be supported by this method. Additional options may be
2926      * supported in future releases.
2927      *
2928      * <p>  If an I/O error occurs reading from the input stream or writing to
2929      * the file, then it may do so after the target file has been created and
2930      * after some bytes have been read or written. Consequently the input
2931      * stream may not be at end of stream and may be in an inconsistent state.
2932      * It is strongly recommended that the input stream be promptly closed if an
2933      * I/O error occurs.
2934      *
2935      * <p> This method may block indefinitely reading from the input stream (or
2936      * writing to the file). The behavior for the case that the input stream is
2937      * <i>asynchronously closed</i> or the thread interrupted during the copy is
2938      * highly input stream and file system provider specific and therefore not
2939      * specified.
2940      *
2941      * <p> <b>Usage example</b>: Suppose we want to capture a web page and save
2942      * it to a file:
2943      * <pre>
2944      *     Path path = ...
2945      *     URI u = URI.create("http://java.sun.com/");
2946      *     try (InputStream in = u.toURL().openStream()) {
2947      *         Files.copy(in, path);
2948      *     }
2949      * </pre>
2950      *
2951      * @param   in
2952      *          the input stream to read from
2953      * @param   target
2954      *          the path to the file
2955      * @param   options
2956      *          options specifying how the copy should be done
2957      *
2958      * @return  the number of bytes read or written
2959      *
2960      * @throws  IOException
2961      *          if an I/O error occurs when reading or writing
2962      * @throws  FileAlreadyExistsException
2963      *          if the target file exists but cannot be replaced because the
2964      *          {@code REPLACE_EXISTING} option is not specified <i>(optional
2965      *          specific exception)</i>
2966      * @throws  DirectoryNotEmptyException
2967      *          the {@code REPLACE_EXISTING} option is specified but the file
2968      *          cannot be replaced because it is a non-empty directory
2969      *          <i>(optional specific exception)</i>     *
2970      * @throws  UnsupportedOperationException
2971      *          if {@code options} contains a copy option that is not supported
2972      * @throws  SecurityException
2973      *          In the case of the default provider, and a security manager is
2974      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
2975      *          method is invoked to check write access to the file. Where the
2976      *          {@code REPLACE_EXISTING} option is specified, the security
2977      *          manager's {@link SecurityManager#checkDelete(String) checkDelete}
2978      *          method is invoked to check that an existing file can be deleted.
2979      */
2980     public static long copy(InputStream in, Path target, CopyOption... options)
2981         throws IOException
2982     {
2983         // ensure not null before opening file
2984         Objects.requireNonNull(in);
2985 
2986         // check for REPLACE_EXISTING
2987         boolean replaceExisting = false;
2988         for (CopyOption opt: options) {
2989             if (opt == StandardCopyOption.REPLACE_EXISTING) {
2990                 replaceExisting = true;
2991             } else {
2992                 if (opt == null) {
2993                     throw new NullPointerException("options contains 'null'");
2994                 }  else {
2995                     throw new UnsupportedOperationException(opt + " not supported");
2996                 }
2997             }
2998         }
2999 
3000         // attempt to delete an existing file
3001         SecurityException se = null;
3002         if (replaceExisting) {
3003             try {
3004                 deleteIfExists(target);
3005             } catch (SecurityException x) {
3006                 se = x;
3007             }
3008         }
3009 
3010         // attempt to create target file. If it fails with
3011         // FileAlreadyExistsException then it may be because the security
3012         // manager prevented us from deleting the file, in which case we just
3013         // throw the SecurityException.
3014         OutputStream ostream;
3015         try {
3016             ostream = newOutputStream(target, StandardOpenOption.CREATE_NEW,
3017                                               StandardOpenOption.WRITE);
3018         } catch (FileAlreadyExistsException x) {
3019             if (se != null)
3020                 throw se;
3021             // someone else won the race and created the file
3022             throw x;
3023         }
3024 
3025         // do the copy
3026         try (OutputStream out = ostream) {
3027             return copy(in, out);
3028         }
3029     }
3030 
3031     /**
3032      * Copies all bytes from a file to an output stream.
3033      *
3034      * <p> If an I/O error occurs reading from the file or writing to the output
3035      * stream, then it may do so after some bytes have been read or written.
3036      * Consequently the output stream may be in an inconsistent state. It is
3037      * strongly recommended that the output stream be promptly closed if an I/O
3038      * error occurs.
3039      *
3040      * <p> This method may block indefinitely writing to the output stream (or
3041      * reading from the file). The behavior for the case that the output stream
3042      * is <i>asynchronously closed</i> or the thread interrupted during the copy
3043      * is highly output stream and file system provider specific and therefore
3044      * not specified.
3045      *
3046      * <p> Note that if the given output stream is {@link java.io.Flushable}
3047      * then its {@link java.io.Flushable#flush flush} method may need to invoked
3048      * after this method completes so as to flush any buffered output.
3049      *
3050      * @param   source
3051      *          the  path to the file
3052      * @param   out
3053      *          the output stream to write to
3054      *
3055      * @return  the number of bytes read or written
3056      *
3057      * @throws  IOException
3058      *          if an I/O error occurs when reading or writing
3059      * @throws  SecurityException
3060      *          In the case of the default provider, and a security manager is
3061      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3062      *          method is invoked to check read access to the file.
3063      */
3064     public static long copy(Path source, OutputStream out) throws IOException {
3065         // ensure not null before opening file
3066         Objects.requireNonNull(out);
3067 
3068         try (InputStream in = newInputStream(source)) {
3069             return copy(in, out);
3070         }
3071     }
3072 
3073     /**
3074      * The maximum size of array to allocate.
3075      * Some VMs reserve some header words in an array.
3076      * Attempts to allocate larger arrays may result in
3077      * OutOfMemoryError: Requested array size exceeds VM limit
3078      */
3079     private static final int MAX_BUFFER_SIZE = Integer.MAX_VALUE - 8;
3080 
3081     /**
3082      * Reads all the bytes from an input stream. Uses {@code initialSize} as a hint
3083      * about how many bytes the stream will have.
3084      *
3085      * @param   source
3086      *          the input stream to read from
3087      * @param   initialSize
3088      *          the initial size of the byte array to allocate
3089      *
3090      * @return  a byte array containing the bytes read from the file
3091      *
3092      * @throws  IOException
3093      *          if an I/O error occurs reading from the stream
3094      * @throws  OutOfMemoryError
3095      *          if an array of the required size cannot be allocated
3096      */
3097     private static byte[] read(InputStream source, int initialSize) throws IOException {
3098         int capacity = initialSize;
3099         byte[] buf = new byte[capacity];
3100         int nread = 0;
3101         int n;
3102         for (;;) {
3103             // read to EOF which may read more or less than initialSize (eg: file
3104             // is truncated while we are reading)
3105             while ((n = source.read(buf, nread, capacity - nread)) > 0)
3106                 nread += n;
3107 
3108             // if last call to source.read() returned -1, we are done
3109             // otherwise, try to read one more byte; if that failed we're done too
3110             if (n < 0 || (n = source.read()) < 0)
3111                 break;
3112 
3113             // one more byte was read; need to allocate a larger buffer
3114             if (capacity <= MAX_BUFFER_SIZE - capacity) {
3115                 capacity = Math.max(capacity << 1, BUFFER_SIZE);
3116             } else {
3117                 if (capacity == MAX_BUFFER_SIZE)
3118                     throw new OutOfMemoryError("Required array size too large");
3119                 capacity = MAX_BUFFER_SIZE;
3120             }
3121             buf = Arrays.copyOf(buf, capacity);
3122             buf[nread++] = (byte)n;
3123         }
3124         return (capacity == nread) ? buf : Arrays.copyOf(buf, nread);
3125     }
3126 
3127     /**
3128      * Reads all the bytes from a file. The method ensures that the file is
3129      * closed when all bytes have been read or an I/O error, or other runtime
3130      * exception, is thrown.
3131      *
3132      * <p> Note that this method is intended for simple cases where it is
3133      * convenient to read all bytes into a byte array. It is not intended for
3134      * reading in large files.
3135      *
3136      * @param   path
3137      *          the path to the file
3138      *
3139      * @return  a byte array containing the bytes read from the file
3140      *
3141      * @throws  IOException
3142      *          if an I/O error occurs reading from the stream
3143      * @throws  OutOfMemoryError
3144      *          if an array of the required size cannot be allocated, for
3145      *          example the file is larger that {@code 2GB}
3146      * @throws  SecurityException
3147      *          In the case of the default provider, and a security manager is
3148      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3149      *          method is invoked to check read access to the file.
3150      */
3151     public static byte[] readAllBytes(Path path) throws IOException {
3152         try (SeekableByteChannel sbc = Files.newByteChannel(path);
3153              InputStream in = Channels.newInputStream(sbc)) {
3154             long size = sbc.size();
3155             if (size > (long)MAX_BUFFER_SIZE)
3156                 throw new OutOfMemoryError("Required array size too large");
3157 
3158             return read(in, (int)size);
3159         }
3160     }
3161 
3162     /**
3163      * Read all lines from a file. This method ensures that the file is
3164      * closed when all bytes have been read or an I/O error, or other runtime
3165      * exception, is thrown. Bytes from the file are decoded into characters
3166      * using the specified charset.
3167      *
3168      * <p> This method recognizes the following as line terminators:
3169      * <ul>
3170      *   <li> <code>&#92;u000D</code> followed by <code>&#92;u000A</code>,
3171      *     CARRIAGE RETURN followed by LINE FEED </li>
3172      *   <li> <code>&#92;u000A</code>, LINE FEED </li>
3173      *   <li> <code>&#92;u000D</code>, CARRIAGE RETURN </li>
3174      * </ul>
3175      * <p> Additional Unicode line terminators may be recognized in future
3176      * releases.
3177      *
3178      * <p> Note that this method is intended for simple cases where it is
3179      * convenient to read all lines in a single operation. It is not intended
3180      * for reading in large files.
3181      *
3182      * @param   path
3183      *          the path to the file
3184      * @param   cs
3185      *          the charset to use for decoding
3186      *
3187      * @return  the lines from the file as a {@code List}; whether the {@code
3188      *          List} is modifiable or not is implementation dependent and
3189      *          therefore not specified
3190      *
3191      * @throws  IOException
3192      *          if an I/O error occurs reading from the file or a malformed or
3193      *          unmappable byte sequence is read
3194      * @throws  SecurityException
3195      *          In the case of the default provider, and a security manager is
3196      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3197      *          method is invoked to check read access to the file.
3198      *
3199      * @see #newBufferedReader
3200      */
3201     public static List<String> readAllLines(Path path, Charset cs) throws IOException {
3202         try (BufferedReader reader = newBufferedReader(path, cs)) {
3203             List<String> result = new ArrayList<>();
3204             for (;;) {
3205                 String line = reader.readLine();
3206                 if (line == null)
3207                     break;
3208                 result.add(line);
3209             }
3210             return result;
3211         }
3212     }
3213 
3214     /**
3215      * Read all lines from a file. Bytes from the file are decoded into characters
3216      * using the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset charset}.
3217      *
3218      * <p> This method works as if invoking it were equivalent to evaluating the
3219      * expression:
3220      * <pre>{@code
3221      * Files.readAllLines(path, StandardCharsets.UTF_8)
3222      * }</pre>
3223      *
3224      * @param   path
3225      *          the path to the file
3226      *
3227      * @return  the lines from the file as a {@code List}; whether the {@code
3228      *          List} is modifiable or not is implementation dependent and
3229      *          therefore not specified
3230      *
3231      * @throws  IOException
3232      *          if an I/O error occurs reading from the file or a malformed or
3233      *          unmappable byte sequence is read
3234      * @throws  SecurityException
3235      *          In the case of the default provider, and a security manager is
3236      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3237      *          method is invoked to check read access to the file.
3238      *
3239      * @since 1.8
3240      */
3241     public static List<String> readAllLines(Path path) throws IOException {
3242         return readAllLines(path, StandardCharsets.UTF_8);
3243     }
3244 
3245     /**
3246      * Writes bytes to a file. The {@code options} parameter specifies how the
3247      * the file is created or opened. If no options are present then this method
3248      * works as if the {@link StandardOpenOption#CREATE CREATE}, {@link
3249      * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link
3250      * StandardOpenOption#WRITE WRITE} options are present. In other words, it
3251      * opens the file for writing, creating the file if it doesn't exist, or
3252      * initially truncating an existing {@link #isRegularFile regular-file} to
3253      * a size of {@code 0}. All bytes in the byte array are written to the file.
3254      * The method ensures that the file is closed when all bytes have been
3255      * written (or an I/O error or other runtime exception is thrown). If an I/O
3256      * error occurs then it may do so after the file has created or truncated,
3257      * or after some bytes have been written to the file.
3258      *
3259      * <p> <b>Usage example</b>: By default the method creates a new file or
3260      * overwrites an existing file. Suppose you instead want to append bytes
3261      * to an existing file:
3262      * <pre>
3263      *     Path path = ...
3264      *     byte[] bytes = ...
3265      *     Files.write(path, bytes, StandardOpenOption.APPEND);
3266      * </pre>
3267      *
3268      * @param   path
3269      *          the path to the file
3270      * @param   bytes
3271      *          the byte array with the bytes to write
3272      * @param   options
3273      *          options specifying how the file is opened
3274      *
3275      * @return  the path
3276      *
3277      * @throws  IOException
3278      *          if an I/O error occurs writing to or creating the file
3279      * @throws  UnsupportedOperationException
3280      *          if an unsupported option is specified
3281      * @throws  SecurityException
3282      *          In the case of the default provider, and a security manager is
3283      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
3284      *          method is invoked to check write access to the file.
3285      */
3286     public static Path write(Path path, byte[] bytes, OpenOption... options)
3287         throws IOException
3288     {
3289         // ensure bytes is not null before opening file
3290         Objects.requireNonNull(bytes);
3291 
3292         try (OutputStream out = Files.newOutputStream(path, options)) {
3293             int len = bytes.length;
3294             int rem = len;
3295             while (rem > 0) {
3296                 int n = Math.min(rem, BUFFER_SIZE);
3297                 out.write(bytes, (len-rem), n);
3298                 rem -= n;
3299             }
3300         }
3301         return path;
3302     }
3303 
3304     /**
3305      * Write lines of text to a file. Each line is a char sequence and is
3306      * written to the file in sequence with each line terminated by the
3307      * platform's line separator, as defined by the system property {@code
3308      * line.separator}. Characters are encoded into bytes using the specified
3309      * charset.
3310      *
3311      * <p> The {@code options} parameter specifies how the the file is created
3312      * or opened. If no options are present then this method works as if the
3313      * {@link StandardOpenOption#CREATE CREATE}, {@link
3314      * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link
3315      * StandardOpenOption#WRITE WRITE} options are present. In other words, it
3316      * opens the file for writing, creating the file if it doesn't exist, or
3317      * initially truncating an existing {@link #isRegularFile regular-file} to
3318      * a size of {@code 0}. The method ensures that the file is closed when all
3319      * lines have been written (or an I/O error or other runtime exception is
3320      * thrown). If an I/O error occurs then it may do so after the file has
3321      * created or truncated, or after some bytes have been written to the file.
3322      *
3323      * @param   path
3324      *          the path to the file
3325      * @param   lines
3326      *          an object to iterate over the char sequences
3327      * @param   cs
3328      *          the charset to use for encoding
3329      * @param   options
3330      *          options specifying how the file is opened
3331      *
3332      * @return  the path
3333      *
3334      * @throws  IOException
3335      *          if an I/O error occurs writing to or creating the file, or the
3336      *          text cannot be encoded using the specified charset
3337      * @throws  UnsupportedOperationException
3338      *          if an unsupported option is specified
3339      * @throws  SecurityException
3340      *          In the case of the default provider, and a security manager is
3341      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
3342      *          method is invoked to check write access to the file.
3343      */
3344     public static Path write(Path path, Iterable<? extends CharSequence> lines,
3345                              Charset cs, OpenOption... options)
3346         throws IOException
3347     {
3348         // ensure lines is not null before opening file
3349         Objects.requireNonNull(lines);
3350         CharsetEncoder encoder = cs.newEncoder();
3351         OutputStream out = newOutputStream(path, options);
3352         try (BufferedWriter writer = new BufferedWriter(new OutputStreamWriter(out, encoder))) {
3353             for (CharSequence line: lines) {
3354                 writer.append(line);
3355                 writer.newLine();
3356             }
3357         }
3358         return path;
3359     }
3360 
3361     /**
3362      * Write lines of text to a file. Characters are encoded into bytes using
3363      * the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset charset}.
3364      *
3365      * <p> This method works as if invoking it were equivalent to evaluating the
3366      * expression:
3367      * <pre>{@code
3368      * Files.write(path, lines, StandardCharsets.UTF_8, options);
3369      * }</pre>
3370      *
3371      * @param   path
3372      *          the path to the file
3373      * @param   lines
3374      *          an object to iterate over the char sequences
3375      * @param   options
3376      *          options specifying how the file is opened
3377      *
3378      * @return  the path
3379      *
3380      * @throws  IOException
3381      *          if an I/O error occurs writing to or creating the file, or the
3382      *          text cannot be encoded as {@code UTF-8}
3383      * @throws  UnsupportedOperationException
3384      *          if an unsupported option is specified
3385      * @throws  SecurityException
3386      *          In the case of the default provider, and a security manager is
3387      *          installed, the {@link SecurityManager#checkWrite(String) checkWrite}
3388      *          method is invoked to check write access to the file.
3389      *
3390      * @since 1.8
3391      */
3392     public static Path write(Path path,
3393                              Iterable<? extends CharSequence> lines,
3394                              OpenOption... options)
3395         throws IOException
3396     {
3397         return write(path, lines, StandardCharsets.UTF_8, options);
3398     }
3399 
3400     // -- Stream APIs --
3401 
3402     /**
3403      * Return a lazily populated {@code Stream}, the elements of
3404      * which are the entries in the directory.  The listing is not recursive.
3405      *
3406      * <p> The elements of the stream are {@link Path} objects that are
3407      * obtained as if by {@link Path#resolve(Path) resolving} the name of the
3408      * directory entry against {@code dir}. Some file systems maintain special
3409      * links to the directory itself and the directory's parent directory.
3410      * Entries representing these links are not included.
3411      *
3412      * <p> The stream is <i>weakly consistent</i>. It is thread safe but does
3413      * not freeze the directory while iterating, so it may (or may not)
3414      * reflect updates to the directory that occur after returning from this
3415      * method.
3416      *
3417      * <p> The returned stream encapsulates a {@link DirectoryStream}.
3418      * If timely disposal of file system resources is required, the
3419      * {@code try}-with-resources construct should be used to ensure that the
3420      * stream's {@link Stream#close close} method is invoked after the stream
3421      * operations are completed.
3422      *
3423      * <p> Operating on a closed stream behaves as if the end of stream
3424      * has been reached. Due to read-ahead, one or more elements may be
3425      * returned after the stream has been closed.
3426      *
3427      * <p> If an {@link IOException} is thrown when accessing the directory
3428      * after this method has returned, it is wrapped in an {@link
3429      * UncheckedIOException} which will be thrown from the method that caused
3430      * the access to take place.
3431      *
3432      * @param   dir  The path to the directory
3433      *
3434      * @return  The {@code Stream} describing the content of the
3435      *          directory
3436      *
3437      * @throws  NotDirectoryException
3438      *          if the file could not otherwise be opened because it is not
3439      *          a directory <i>(optional specific exception)</i>
3440      * @throws  IOException
3441      *          if an I/O error occurs when opening the directory
3442      * @throws  SecurityException
3443      *          In the case of the default provider, and a security manager is
3444      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3445      *          method is invoked to check read access to the directory.
3446      *
3447      * @see     #newDirectoryStream(Path)
3448      * @since   1.8
3449      */
3450     public static Stream<Path> list(Path dir) throws IOException {
3451         DirectoryStream<Path> ds = Files.newDirectoryStream(dir);
3452         try {
3453             final Iterator<Path> delegate = ds.iterator();
3454 
3455             // Re-wrap DirectoryIteratorException to UncheckedIOException
3456             Iterator<Path> it = new Iterator<Path>() {
3457                 @Override
3458                 public boolean hasNext() {
3459                     try {
3460                         return delegate.hasNext();
3461                     } catch (DirectoryIteratorException e) {
3462                         throw new UncheckedIOException(e.getCause());
3463                     }
3464                 }
3465                 @Override
3466                 public Path next() {
3467                     try {
3468                         return delegate.next();
3469                     } catch (DirectoryIteratorException e) {
3470                         throw new UncheckedIOException(e.getCause());
3471                     }
3472                 }
3473             };
3474 
3475             return StreamSupport.stream(Spliterators.spliteratorUnknownSize(it, Spliterator.DISTINCT), false)
3476                                 .onClose(asUncheckedRunnable(ds));
3477         } catch (Error|RuntimeException e) {
3478             try {
3479                 ds.close();
3480             } catch (IOException ex) {
3481                 try {
3482                     e.addSuppressed(ex);
3483                 } catch (Throwable ignore) {}
3484             }
3485             throw e;
3486         }
3487     }
3488 
3489     /**
3490      * Return a {@code Stream} that is lazily populated with {@code
3491      * Path} by walking the file tree rooted at a given starting file.  The
3492      * file tree is traversed <em>depth-first</em>, the elements in the stream
3493      * are {@link Path} objects that are obtained as if by {@link
3494      * Path#resolve(Path) resolving} the relative path against {@code start}.
3495      *
3496      * <p> The {@code stream} walks the file tree as elements are consumed.
3497      * The {@code Stream} returned is guaranteed to have at least one
3498      * element, the starting file itself. For each file visited, the stream
3499      * attempts to read its {@link BasicFileAttributes}. If the file is a
3500      * directory and can be opened successfully, entries in the directory, and
3501      * their <em>descendants</em> will follow the directory in the stream as
3502      * they are encountered. When all entries have been visited, then the
3503      * directory is closed. The file tree walk then continues at the next
3504      * <em>sibling</em> of the directory.
3505      *
3506      * <p> The stream is <i>weakly consistent</i>. It does not freeze the
3507      * file tree while iterating, so it may (or may not) reflect updates to
3508      * the file tree that occur after returned from this method.
3509      *
3510      * <p> By default, symbolic links are not automatically followed by this
3511      * method. If the {@code options} parameter contains the {@link
3512      * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then symbolic links are
3513      * followed. When following links, and the attributes of the target cannot
3514      * be read, then this method attempts to get the {@code BasicFileAttributes}
3515      * of the link.
3516      *
3517      * <p> If the {@code options} parameter contains the {@link
3518      * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then the stream keeps
3519      * track of directories visited so that cycles can be detected. A cycle
3520      * arises when there is an entry in a directory that is an ancestor of the
3521      * directory. Cycle detection is done by recording the {@link
3522      * java.nio.file.attribute.BasicFileAttributes#fileKey file-key} of directories,
3523      * or if file keys are not available, by invoking the {@link #isSameFile
3524      * isSameFile} method to test if a directory is the same file as an
3525      * ancestor. When a cycle is detected it is treated as an I/O error with
3526      * an instance of {@link FileSystemLoopException}.
3527      *
3528      * <p> The {@code maxDepth} parameter is the maximum number of levels of
3529      * directories to visit. A value of {@code 0} means that only the starting
3530      * file is visited, unless denied by the security manager. A value of
3531      * {@link Integer#MAX_VALUE MAX_VALUE} may be used to indicate that all
3532      * levels should be visited.
3533      *
3534      * <p> When a security manager is installed and it denies access to a file
3535      * (or directory), then it is ignored and not included in the stream.
3536      *
3537      * <p> The returned stream encapsulates one or more {@link DirectoryStream}s.
3538      * If timely disposal of file system resources is required, the
3539      * {@code try}-with-resources construct should be used to ensure that the
3540      * stream's {@link Stream#close close} method is invoked after the stream
3541      * operations are completed.  Operating on a closed stream will result in an
3542      * {@link java.lang.IllegalStateException}.
3543      *
3544      * <p> If an {@link IOException} is thrown when accessing the directory
3545      * after this method has returned, it is wrapped in an {@link
3546      * UncheckedIOException} which will be thrown from the method that caused
3547      * the access to take place.
3548      *
3549      * @param   start
3550      *          the starting file
3551      * @param   maxDepth
3552      *          the maximum number of directory levels to visit
3553      * @param   options
3554      *          options to configure the traversal
3555      *
3556      * @return  the {@link Stream} of {@link Path}
3557      *
3558      * @throws  IllegalArgumentException
3559      *          if the {@code maxDepth} parameter is negative
3560      * @throws  SecurityException
3561      *          If the security manager denies access to the starting file.
3562      *          In the case of the default provider, the {@link
3563      *          SecurityManager#checkRead(String) checkRead} method is invoked
3564      *          to check read access to the directory.
3565      * @throws  IOException
3566      *          if an I/O error is thrown when accessing the starting file.
3567      * @since   1.8
3568      */
3569     public static Stream<Path> walk(Path start,
3570                                     int maxDepth,
3571                                     FileVisitOption... options)
3572         throws IOException
3573     {
3574         FileTreeIterator iterator = new FileTreeIterator(start, maxDepth, options);
3575         try {
3576             return StreamSupport.stream(Spliterators.spliteratorUnknownSize(iterator, Spliterator.DISTINCT), false)
3577                                 .onClose(iterator::close)
3578                                 .map(entry -> entry.file());
3579         } catch (Error|RuntimeException e) {
3580             iterator.close();
3581             throw e;
3582         }
3583     }
3584 
3585     /**
3586      * Return a {@code Stream} that is lazily populated with {@code
3587      * Path} by walking the file tree rooted at a given starting file.  The
3588      * file tree is traversed <em>depth-first</em>, the elements in the stream
3589      * are {@link Path} objects that are obtained as if by {@link
3590      * Path#resolve(Path) resolving} the relative path against {@code start}.
3591      *
3592      * <p> This method works as if invoking it were equivalent to evaluating the
3593      * expression:
3594      * <blockquote><pre>
3595      * walk(start, Integer.MAX_VALUE, options)
3596      * </pre></blockquote>
3597      * In other words, it visits all levels of the file tree.
3598      *
3599      * <p> The returned stream encapsulates one or more {@link DirectoryStream}s.
3600      * If timely disposal of file system resources is required, the
3601      * {@code try}-with-resources construct should be used to ensure that the
3602      * stream's {@link Stream#close close} method is invoked after the stream
3603      * operations are completed.  Operating on a closed stream will result in an
3604      * {@link java.lang.IllegalStateException}.
3605      *
3606      * @param   start
3607      *          the starting file
3608      * @param   options
3609      *          options to configure the traversal
3610      *
3611      * @return  the {@link Stream} of {@link Path}
3612      *
3613      * @throws  SecurityException
3614      *          If the security manager denies access to the starting file.
3615      *          In the case of the default provider, the {@link
3616      *          SecurityManager#checkRead(String) checkRead} method is invoked
3617      *          to check read access to the directory.
3618      * @throws  IOException
3619      *          if an I/O error is thrown when accessing the starting file.
3620      *
3621      * @see     #walk(Path, int, FileVisitOption...)
3622      * @since   1.8
3623      */
3624     public static Stream<Path> walk(Path start, FileVisitOption... options) throws IOException {
3625         return walk(start, Integer.MAX_VALUE, options);
3626     }
3627 
3628     /**
3629      * Return a {@code Stream} that is lazily populated with {@code
3630      * Path} by searching for files in a file tree rooted at a given starting
3631      * file.
3632      *
3633      * <p> This method walks the file tree in exactly the manner specified by
3634      * the {@link #walk walk} method. For each file encountered, the given
3635      * {@link BiPredicate} is invoked with its {@link Path} and {@link
3636      * BasicFileAttributes}. The {@code Path} object is obtained as if by
3637      * {@link Path#resolve(Path) resolving} the relative path against {@code
3638      * start} and is only included in the returned {@link Stream} if
3639      * the {@code BiPredicate} returns true. Compare to calling {@link
3640      * java.util.stream.Stream#filter filter} on the {@code Stream}
3641      * returned by {@code walk} method, this method may be more efficient by
3642      * avoiding redundant retrieval of the {@code BasicFileAttributes}.
3643      *
3644      * <p> The returned stream encapsulates one or more {@link DirectoryStream}s.
3645      * If timely disposal of file system resources is required, the
3646      * {@code try}-with-resources construct should be used to ensure that the
3647      * stream's {@link Stream#close close} method is invoked after the stream
3648      * operations are completed.  Operating on a closed stream will result in an
3649      * {@link java.lang.IllegalStateException}.
3650      *
3651      * <p> If an {@link IOException} is thrown when accessing the directory
3652      * after returned from this method, it is wrapped in an {@link
3653      * UncheckedIOException} which will be thrown from the method that caused
3654      * the access to take place.
3655      *
3656      * @param   start
3657      *          the starting file
3658      * @param   maxDepth
3659      *          the maximum number of directory levels to search
3660      * @param   matcher
3661      *          the function used to decide whether a file should be included
3662      *          in the returned stream
3663      * @param   options
3664      *          options to configure the traversal
3665      *
3666      * @return  the {@link Stream} of {@link Path}
3667      *
3668      * @throws  IllegalArgumentException
3669      *          if the {@code maxDepth} parameter is negative
3670      * @throws  SecurityException
3671      *          If the security manager denies access to the starting file.
3672      *          In the case of the default provider, the {@link
3673      *          SecurityManager#checkRead(String) checkRead} method is invoked
3674      *          to check read access to the directory.
3675      * @throws  IOException
3676      *          if an I/O error is thrown when accessing the starting file.
3677      *
3678      * @see     #walk(Path, int, FileVisitOption...)
3679      * @since   1.8
3680      */
3681     public static Stream<Path> find(Path start,
3682                                     int maxDepth,
3683                                     BiPredicate<Path, BasicFileAttributes> matcher,
3684                                     FileVisitOption... options)
3685         throws IOException
3686     {
3687         FileTreeIterator iterator = new FileTreeIterator(start, maxDepth, options);
3688         try {
3689             return StreamSupport.stream(Spliterators.spliteratorUnknownSize(iterator, Spliterator.DISTINCT), false)
3690                                 .onClose(iterator::close)
3691                                 .filter(entry -> matcher.test(entry.file(), entry.attributes()))
3692                                 .map(entry -> entry.file());
3693         } catch (Error|RuntimeException e) {
3694             iterator.close();
3695             throw e;
3696         }
3697     }
3698 
3699     /**
3700      * Read all lines from a file as a {@code Stream}. Unlike {@link
3701      * #readAllLines(Path, Charset) readAllLines}, this method does not read
3702      * all lines into a {@code List}, but instead populates lazily as the stream
3703      * is consumed.
3704      *
3705      * <p> Bytes from the file are decoded into characters using the specified
3706      * charset and the same line terminators as specified by {@code
3707      * readAllLines} are supported.
3708      *
3709      * <p> After this method returns, then any subsequent I/O exception that
3710      * occurs while reading from the file or when a malformed or unmappable byte
3711      * sequence is read, is wrapped in an {@link UncheckedIOException} that will
3712      * be thrown from the
3713      * {@link java.util.stream.Stream} method that caused the read to take
3714      * place. In case an {@code IOException} is thrown when closing the file,
3715      * it is also wrapped as an {@code UncheckedIOException}.
3716      *
3717      * <p> The returned stream encapsulates a {@link Reader}.  If timely
3718      * disposal of file system resources is required, the try-with-resources
3719      * construct should be used to ensure that the stream's
3720      * {@link Stream#close close} method is invoked after the stream operations
3721      * are completed.
3722      *
3723      *
3724      * @param   path
3725      *          the path to the file
3726      * @param   cs
3727      *          the charset to use for decoding
3728      *
3729      * @return  the lines from the file as a {@code Stream}
3730      *
3731      * @throws  IOException
3732      *          if an I/O error occurs opening the file
3733      * @throws  SecurityException
3734      *          In the case of the default provider, and a security manager is
3735      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3736      *          method is invoked to check read access to the file.
3737      *
3738      * @see     #readAllLines(Path, Charset)
3739      * @see     #newBufferedReader(Path, Charset)
3740      * @see     java.io.BufferedReader#lines()
3741      * @since   1.8
3742      */
3743     public static Stream<String> lines(Path path, Charset cs) throws IOException {
3744         BufferedReader br = Files.newBufferedReader(path, cs);
3745         try {
3746             return br.lines().onClose(asUncheckedRunnable(br));
3747         } catch (Error|RuntimeException e) {
3748             try {
3749                 br.close();
3750             } catch (IOException ex) {
3751                 try {
3752                     e.addSuppressed(ex);
3753                 } catch (Throwable ignore) {}
3754             }
3755             throw e;
3756         }
3757     }
3758 
3759     /**
3760      * Read all lines from a file as a {@code Stream}. Bytes from the file are
3761      * decoded into characters using the {@link StandardCharsets#UTF_8 UTF-8}
3762      * {@link Charset charset}.
3763      *
3764      * <p> This method works as if invoking it were equivalent to evaluating the
3765      * expression:
3766      * <pre>{@code
3767      * Files.lines(path, StandardCharsets.UTF_8)
3768      * }</pre>
3769      *
3770      * @param   path
3771      *          the path to the file
3772      *
3773      * @return  the lines from the file as a {@code Stream}
3774      *
3775      * @throws  IOException
3776      *          if an I/O error occurs opening the file
3777      * @throws  SecurityException
3778      *          In the case of the default provider, and a security manager is
3779      *          installed, the {@link SecurityManager#checkRead(String) checkRead}
3780      *          method is invoked to check read access to the file.
3781      *
3782      * @since 1.8
3783      */
3784     public static Stream<String> lines(Path path) throws IOException {
3785         return lines(path, StandardCharsets.UTF_8);
3786     }
3787 }
3788