/*
 * Copyright (c) 2007, 2018, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package java.nio.file;

import java.io.BufferedReader;
import java.io.BufferedWriter;
import java.io.Closeable;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.Reader;
import java.io.UncheckedIOException;
import java.io.Writer;
import java.nio.channels.Channels;
import java.nio.channels.FileChannel;
import java.nio.channels.SeekableByteChannel;
import java.nio.charset.Charset;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.CharsetEncoder;
import java.nio.charset.StandardCharsets;
import java.nio.file.attribute.BasicFileAttributeView;
import java.nio.file.attribute.BasicFileAttributes;
import java.nio.file.attribute.DosFileAttributes;   // javadoc
import java.nio.file.attribute.FileAttribute;
import java.nio.file.attribute.FileAttributeView;
import java.nio.file.attribute.FileOwnerAttributeView;
import java.nio.file.attribute.FileStoreAttributeView;
import java.nio.file.attribute.FileTime;
import java.nio.file.attribute.PosixFileAttributeView;
import java.nio.file.attribute.PosixFileAttributes;
import java.nio.file.attribute.PosixFilePermission;
import java.nio.file.attribute.UserPrincipal;
import java.nio.file.spi.FileSystemProvider;
import java.nio.file.spi.FileTypeDetector;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.ServiceLoader;
import java.util.Set;
import java.util.Spliterator;
import java.util.Spliterators;
import java.util.function.BiPredicate;
import java.util.stream.Stream;
import java.util.stream.StreamSupport;

import sun.nio.ch.FileChannelImpl;
import sun.nio.fs.AbstractFileSystemProvider;

This class consists exclusively of static methods that operate on files, directories, or other types of files.

In most cases, the methods defined here will delegate to the associated file system provider to perform the file operations.

Since:1.7
/** * This class consists exclusively of static methods that operate on files, * directories, or other types of files. * * <p> In most cases, the methods defined here will delegate to the associated * file system provider to perform the file operations. * * @since 1.7 */
public final class Files { // buffer size used for reading and writing private static final int BUFFER_SIZE = 8192; private Files() { }
Returns the FileSystemProvider to delegate to.
/** * Returns the {@code FileSystemProvider} to delegate to. */
private static FileSystemProvider provider(Path path) { return path.getFileSystem().provider(); }
Convert a Closeable to a Runnable by converting checked IOException to UncheckedIOException
/** * Convert a Closeable to a Runnable by converting checked IOException * to UncheckedIOException */
private static Runnable asUncheckedRunnable(Closeable c) { return () -> { try { c.close(); } catch (IOException e) { throw new UncheckedIOException(e); } }; } // -- File contents --
Opens a file, returning an input stream to read from the file. The stream will not be buffered, and is not required to support the mark or reset methods. The stream will be safe for access by multiple concurrent threads. Reading commences at the beginning of the file. Whether the returned stream is asynchronously closeable and/or interruptible is highly file system provider specific and therefore not specified.

The options parameter determines how the file is opened. If no options are present then it is equivalent to opening the file with the READ option. In addition to the READ option, an implementation may also support additional implementation specific options.

Params:
  • path – the path to the file to open
  • options – options specifying how the file is opened
Throws:
Returns: a new input stream
/** * Opens a file, returning an input stream to read from the file. The stream * will not be buffered, and is not required to support the {@link * InputStream#mark mark} or {@link InputStream#reset reset} methods. The * stream will be safe for access by multiple concurrent threads. Reading * commences at the beginning of the file. Whether the returned stream is * <i>asynchronously closeable</i> and/or <i>interruptible</i> is highly * file system provider specific and therefore not specified. * * <p> The {@code options} parameter determines how the file is opened. * If no options are present then it is equivalent to opening the file with * the {@link StandardOpenOption#READ READ} option. In addition to the {@code * READ} option, an implementation may also support additional implementation * specific options. * * @param path * the path to the file to open * @param options * options specifying how the file is opened * * @return a new input stream * * @throws IllegalArgumentException * if an invalid combination of options is specified * @throws UnsupportedOperationException * if an unsupported option is specified * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. */
public static InputStream newInputStream(Path path, OpenOption... options) throws IOException { return provider(path).newInputStream(path, options); }
Opens or creates a file, returning an output stream that may be used to write bytes to the file. The resulting stream will not be buffered. The stream will be safe for access by multiple concurrent threads. Whether the returned stream is asynchronously closeable and/or interruptible is highly file system provider specific and therefore not specified.

This method opens or creates a file in exactly the manner specified by the newByteChannel method with the exception that the READ option may not be present in the array of options. If no options are present then this method works as if the CREATE, TRUNCATE_EXISTING, and WRITE options are present. In other words, it opens the file for writing, creating the file if it doesn't exist, or initially truncating an existing regular-file to a size of 0 if it exists.

Usage Examples:

    Path path = ...
    // truncate and overwrite an existing file, or create the file if
    // it doesn't initially exist
    OutputStream out = Files.newOutputStream(path);
    // append to an existing file, fail if the file does not exist
    out = Files.newOutputStream(path, APPEND);
    // append to an existing file, create file if it doesn't initially exist
    out = Files.newOutputStream(path, CREATE, APPEND);
    // always create new file, failing if it already exists
    out = Files.newOutputStream(path, CREATE_NEW);
Params:
  • path – the path to the file to open or create
  • options – options specifying how the file is opened
Throws:
Returns: a new output stream
/** * Opens or creates a file, returning an output stream that may be used to * write bytes to the file. The resulting stream will not be buffered. The * stream will be safe for access by multiple concurrent threads. Whether * the returned stream is <i>asynchronously closeable</i> and/or * <i>interruptible</i> is highly file system provider specific and * therefore not specified. * * <p> This method opens or creates a file in exactly the manner specified * by the {@link #newByteChannel(Path,Set,FileAttribute[]) newByteChannel} * method with the exception that the {@link StandardOpenOption#READ READ} * option may not be present in the array of options. If no options are * present then this method works as if the {@link StandardOpenOption#CREATE * CREATE}, {@link StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, * and {@link StandardOpenOption#WRITE WRITE} options are present. In other * words, it opens the file for writing, creating the file if it doesn't * exist, or initially truncating an existing {@link #isRegularFile * regular-file} to a size of {@code 0} if it exists. * * <p> <b>Usage Examples:</b> * <pre> * Path path = ... * * // truncate and overwrite an existing file, or create the file if * // it doesn't initially exist * OutputStream out = Files.newOutputStream(path); * * // append to an existing file, fail if the file does not exist * out = Files.newOutputStream(path, APPEND); * * // append to an existing file, create file if it doesn't initially exist * out = Files.newOutputStream(path, CREATE, APPEND); * * // always create new file, failing if it already exists * out = Files.newOutputStream(path, CREATE_NEW); * </pre> * * @param path * the path to the file to open or create * @param options * options specifying how the file is opened * * @return a new output stream * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws UnsupportedOperationException * if an unsupported option is specified * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. */
public static OutputStream newOutputStream(Path path, OpenOption... options) throws IOException { return provider(path).newOutputStream(path, options); }
Opens or creates a file, returning a seekable byte channel to access the file.

The options parameter determines how the file is opened. The READ and WRITE options determine if the file should be opened for reading and/or writing. If neither option (or the APPEND option) is present then the file is opened for reading. By default reading or writing commence at the beginning of the file.

In the addition to READ and WRITE, the following options may be present:

Options
Option Description
APPEND If this option is present then the file is opened for writing and each invocation of the channel's write method first advances the position to the end of the file and then writes the requested data. Whether the advancement of the position and the writing of the data are done in a single atomic operation is system-dependent and therefore unspecified. This option may not be used in conjunction with the READ or TRUNCATE_EXISTING options.
TRUNCATE_EXISTING If this option is present then the existing file is truncated to a size of 0 bytes. This option is ignored when the file is opened only for reading.
CREATE_NEW If this option is present then a new file is created, failing if the file already exists or is a symbolic link. When creating a file the check for the existence of the file and the creation of the file if it does not exist is atomic with respect to other file system operations. This option is ignored when the file is opened only for reading.
CREATE If this option is present then an existing file is opened if it exists, otherwise a new file is created. This option is ignored if the CREATE_NEW option is also present or the file is opened only for reading.
DELETE_ON_CLOSE When this option is present then the implementation makes a best effort attempt to delete the file when closed by the close method. If the close method is not invoked then a best effort attempt is made to delete the file when the Java virtual machine terminates.
SPARSE When creating a new file this option is a hint that the new file will be sparse. This option is ignored when not creating a new file.
SYNC Requires that every update to the file's content or metadata be written synchronously to the underlying storage device. (see Synchronized I/O file integrity).
DSYNC Requires that every update to the file's content be written synchronously to the underlying storage device. (see Synchronized I/O file integrity).

An implementation may also support additional implementation specific options.

The attrs parameter is optional file-attributes to set atomically when a new file is created.

In the case of the default provider, the returned seekable byte channel is a FileChannel.

Usage Examples:


    Path path = ...
    // open file for reading
    ReadableByteChannel rbc = Files.newByteChannel(path, EnumSet.of(READ)));
    // open file for writing to the end of an existing file, creating
    // the file if it doesn't already exist
    WritableByteChannel wbc = Files.newByteChannel(path, EnumSet.of(CREATE,APPEND));
    // create file with initial permissions, opening it for both reading and writing
    FileAttribute<Set<PosixFilePermission>> perms = ...
    SeekableByteChannel sbc =
        Files.newByteChannel(path, EnumSet.of(CREATE_NEW,READ,WRITE), perms);
Params:
  • path – the path to the file to open or create
  • options – options specifying how the file is opened
  • attrs – an optional list of file attributes to set atomically when creating the file
Throws:
  • IllegalArgumentException – if the set contains an invalid combination of options
  • UnsupportedOperationException – if an unsupported open option is specified or the array contains attributes that cannot be set atomically when creating the file
  • FileAlreadyExistsException – if a file of that name already exists and the CREATE_NEW option is specified (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the path if the file is opened for reading. The checkWrite method is invoked to check write access to the path if the file is opened for writing. The checkDelete method is invoked to check delete access if the file is opened with the DELETE_ON_CLOSE option.
See Also:
Returns: a new seekable byte channel
/** * Opens or creates a file, returning a seekable byte channel to access the * file. * * <p> The {@code options} parameter determines how the file is opened. * The {@link StandardOpenOption#READ READ} and {@link * StandardOpenOption#WRITE WRITE} options determine if the file should be * opened for reading and/or writing. If neither option (or the {@link * StandardOpenOption#APPEND APPEND} option) is present then the file is * opened for reading. By default reading or writing commence at the * beginning of the file. * * <p> In the addition to {@code READ} and {@code WRITE}, the following * options may be present: * * <table class="striped"> * <caption style="display:none">Options</caption> * <thead> * <tr> <th scope="col">Option</th> <th scope="col">Description</th> </tr> * </thead> * <tbody> * <tr> * <th scope="row"> {@link StandardOpenOption#APPEND APPEND} </th> * <td> If this option is present then the file is opened for writing and * each invocation of the channel's {@code write} method first advances * the position to the end of the file and then writes the requested * data. Whether the advancement of the position and the writing of the * data are done in a single atomic operation is system-dependent and * therefore unspecified. This option may not be used in conjunction * with the {@code READ} or {@code TRUNCATE_EXISTING} options. </td> * </tr> * <tr> * <th scope="row"> {@link StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING} </th> * <td> If this option is present then the existing file is truncated to * a size of 0 bytes. This option is ignored when the file is opened only * for reading. </td> * </tr> * <tr> * <th scope="row"> {@link StandardOpenOption#CREATE_NEW CREATE_NEW} </th> * <td> If this option is present then a new file is created, failing if * the file already exists or is a symbolic link. When creating a file the * check for the existence of the file and the creation of the file if it * does not exist is atomic with respect to other file system operations. * This option is ignored when the file is opened only for reading. </td> * </tr> * <tr> * <th scope="row" > {@link StandardOpenOption#CREATE CREATE} </th> * <td> If this option is present then an existing file is opened if it * exists, otherwise a new file is created. This option is ignored if the * {@code CREATE_NEW} option is also present or the file is opened only * for reading. </td> * </tr> * <tr> * <th scope="row" > {@link StandardOpenOption#DELETE_ON_CLOSE DELETE_ON_CLOSE} </th> * <td> When this option is present then the implementation makes a * <em>best effort</em> attempt to delete the file when closed by the * {@link SeekableByteChannel#close close} method. If the {@code close} * method is not invoked then a <em>best effort</em> attempt is made to * delete the file when the Java virtual machine terminates. </td> * </tr> * <tr> * <th scope="row">{@link StandardOpenOption#SPARSE SPARSE} </th> * <td> When creating a new file this option is a <em>hint</em> that the * new file will be sparse. This option is ignored when not creating * a new file. </td> * </tr> * <tr> * <th scope="row"> {@link StandardOpenOption#SYNC SYNC} </th> * <td> Requires that every update to the file's content or metadata be * written synchronously to the underlying storage device. (see <a * href="package-summary.html#integrity"> Synchronized I/O file * integrity</a>). </td> * </tr> * <tr> * <th scope="row"> {@link StandardOpenOption#DSYNC DSYNC} </th> * <td> Requires that every update to the file's content be written * synchronously to the underlying storage device. (see <a * href="package-summary.html#integrity"> Synchronized I/O file * integrity</a>). </td> * </tr> * </tbody> * </table> * * <p> An implementation may also support additional implementation specific * options. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * file-attributes} to set atomically when a new file is created. * * <p> In the case of the default provider, the returned seekable byte channel * is a {@link java.nio.channels.FileChannel}. * * <p> <b>Usage Examples:</b> * <pre>{@code * Path path = ... * * // open file for reading * ReadableByteChannel rbc = Files.newByteChannel(path, EnumSet.of(READ))); * * // open file for writing to the end of an existing file, creating * // the file if it doesn't already exist * WritableByteChannel wbc = Files.newByteChannel(path, EnumSet.of(CREATE,APPEND)); * * // create file with initial permissions, opening it for both reading and writing * FileAttribute<Set<PosixFilePermission>> perms = ... * SeekableByteChannel sbc = * Files.newByteChannel(path, EnumSet.of(CREATE_NEW,READ,WRITE), perms); * }</pre> * * @param path * the path to the file to open or create * @param options * options specifying how the file is opened * @param attrs * an optional list of file attributes to set atomically when * creating the file * * @return a new seekable byte channel * * @throws IllegalArgumentException * if the set contains an invalid combination of options * @throws UnsupportedOperationException * if an unsupported open option is specified or the array contains * attributes that cannot be set atomically when creating the file * @throws FileAlreadyExistsException * if a file of that name already exists and the {@link * StandardOpenOption#CREATE_NEW CREATE_NEW} option is specified * <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the path if the file is * opened for reading. The {@link SecurityManager#checkWrite(String) * checkWrite} method is invoked to check write access to the path * if the file is opened for writing. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @see java.nio.channels.FileChannel#open(Path,Set,FileAttribute[]) */
public static SeekableByteChannel newByteChannel(Path path, Set<? extends OpenOption> options, FileAttribute<?>... attrs) throws IOException { return provider(path).newByteChannel(path, options, attrs); }
Opens or creates a file, returning a seekable byte channel to access the file.

This method opens or creates a file in exactly the manner specified by the newByteChannel method.

Params:
  • path – the path to the file to open or create
  • options – options specifying how the file is opened
Throws:
  • IllegalArgumentException – if the set contains an invalid combination of options
  • UnsupportedOperationException – if an unsupported open option is specified
  • FileAlreadyExistsException – if a file of that name already exists and the CREATE_NEW option is specified (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the path if the file is opened for reading. The checkWrite method is invoked to check write access to the path if the file is opened for writing. The checkDelete method is invoked to check delete access if the file is opened with the DELETE_ON_CLOSE option.
See Also:
Returns: a new seekable byte channel
/** * Opens or creates a file, returning a seekable byte channel to access the * file. * * <p> This method opens or creates a file in exactly the manner specified * by the {@link #newByteChannel(Path,Set,FileAttribute[]) newByteChannel} * method. * * @param path * the path to the file to open or create * @param options * options specifying how the file is opened * * @return a new seekable byte channel * * @throws IllegalArgumentException * if the set contains an invalid combination of options * @throws UnsupportedOperationException * if an unsupported open option is specified * @throws FileAlreadyExistsException * if a file of that name already exists and the {@link * StandardOpenOption#CREATE_NEW CREATE_NEW} option is specified * <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the path if the file is * opened for reading. The {@link SecurityManager#checkWrite(String) * checkWrite} method is invoked to check write access to the path * if the file is opened for writing. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @see java.nio.channels.FileChannel#open(Path,OpenOption[]) */
public static SeekableByteChannel newByteChannel(Path path, OpenOption... options) throws IOException { Set<OpenOption> set; if (options.length == 0) { set = Collections.emptySet(); } else { set = new HashSet<>(); Collections.addAll(set, options); } return newByteChannel(path, set); } // -- Directories -- private static class AcceptAllFilter implements DirectoryStream.Filter<Path> { private AcceptAllFilter() { } @Override public boolean accept(Path entry) { return true; } static final AcceptAllFilter FILTER = new AcceptAllFilter(); }
Opens a directory, returning a DirectoryStream to iterate over all entries in the directory. The elements returned by the directory stream's iterator are of type Path, each one representing an entry in the directory. The Path objects are obtained as if by resolving the name of the directory entry against dir.

When not using the try-with-resources construct, then directory stream's close method should be invoked after iteration is completed so as to free any resources held for the open directory.

When an implementation supports operations on entries in the directory that execute in a race-free manner then the returned directory stream is a SecureDirectoryStream.

Params:
  • dir – the path to the directory
Throws:
  • NotDirectoryException – if the file could not otherwise be opened because it is not a directory (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the directory.
Returns: a new and open DirectoryStream object
/** * Opens a directory, returning a {@link DirectoryStream} to iterate over * all entries in the directory. The elements returned by the directory * stream's {@link DirectoryStream#iterator iterator} are of type {@code * Path}, each one representing an entry in the directory. The {@code Path} * objects are obtained as if by {@link Path#resolve(Path) resolving} the * name of the directory entry against {@code dir}. * * <p> When not using the try-with-resources construct, then directory * stream's {@code close} method should be invoked after iteration is * completed so as to free any resources held for the open directory. * * <p> When an implementation supports operations on entries in the * directory that execute in a race-free manner then the returned directory * stream is a {@link SecureDirectoryStream}. * * @param dir * the path to the directory * * @return a new and open {@code DirectoryStream} object * * @throws NotDirectoryException * if the file could not otherwise be opened because it is not * a directory <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the directory. */
public static DirectoryStream<Path> newDirectoryStream(Path dir) throws IOException { return provider(dir).newDirectoryStream(dir, AcceptAllFilter.FILTER); }
Opens a directory, returning a DirectoryStream to iterate over the entries in the directory. The elements returned by the directory stream's iterator are of type Path, each one representing an entry in the directory. The Path objects are obtained as if by resolving the name of the directory entry against dir. The entries returned by the iterator are filtered by matching the String representation of their file names against the given globbing pattern.

For example, suppose we want to iterate over the files ending with ".java" in a directory:

    Path dir = ...
    try (DirectoryStream<Path> stream = Files.newDirectoryStream(dir, "*.java")) {
        :
    }

The globbing pattern is specified by the getPathMatcher method.

When not using the try-with-resources construct, then directory stream's close method should be invoked after iteration is completed so as to free any resources held for the open directory.

When an implementation supports operations on entries in the directory that execute in a race-free manner then the returned directory stream is a SecureDirectoryStream.

Params:
  • dir – the path to the directory
  • glob – the glob pattern
Throws:
Returns: a new and open DirectoryStream object
/** * Opens a directory, returning a {@link DirectoryStream} to iterate over * the entries in the directory. The elements returned by the directory * stream's {@link DirectoryStream#iterator iterator} are of type {@code * Path}, each one representing an entry in the directory. The {@code Path} * objects are obtained as if by {@link Path#resolve(Path) resolving} the * name of the directory entry against {@code dir}. The entries returned by * the iterator are filtered by matching the {@code String} representation * of their file names against the given <em>globbing</em> pattern. * * <p> For example, suppose we want to iterate over the files ending with * ".java" in a directory: * <pre> * Path dir = ... * try (DirectoryStream&lt;Path&gt; stream = Files.newDirectoryStream(dir, "*.java")) { * : * } * </pre> * * <p> The globbing pattern is specified by the {@link * FileSystem#getPathMatcher getPathMatcher} method. * * <p> When not using the try-with-resources construct, then directory * stream's {@code close} method should be invoked after iteration is * completed so as to free any resources held for the open directory. * * <p> When an implementation supports operations on entries in the * directory that execute in a race-free manner then the returned directory * stream is a {@link SecureDirectoryStream}. * * @param dir * the path to the directory * @param glob * the glob pattern * * @return a new and open {@code DirectoryStream} object * * @throws java.util.regex.PatternSyntaxException * if the pattern is invalid * @throws NotDirectoryException * if the file could not otherwise be opened because it is not * a directory <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the directory. */
public static DirectoryStream<Path> newDirectoryStream(Path dir, String glob) throws IOException { // avoid creating a matcher if all entries are required. if (glob.equals("*")) return newDirectoryStream(dir); // create a matcher and return a filter that uses it. FileSystem fs = dir.getFileSystem(); final PathMatcher matcher = fs.getPathMatcher("glob:" + glob); DirectoryStream.Filter<Path> filter = new DirectoryStream.Filter<>() { @Override public boolean accept(Path entry) { return matcher.matches(entry.getFileName()); } }; return fs.provider().newDirectoryStream(dir, filter); }
Opens a directory, returning a DirectoryStream to iterate over the entries in the directory. The elements returned by the directory stream's iterator are of type Path, each one representing an entry in the directory. The Path objects are obtained as if by resolving the name of the directory entry against dir. The entries returned by the iterator are filtered by the given filter.

When not using the try-with-resources construct, then directory stream's close method should be invoked after iteration is completed so as to free any resources held for the open directory.

Where the filter terminates due to an uncaught error or runtime exception then it is propagated to the hasNext or next method. Where an IOException is thrown, it results in the hasNext or next method throwing a DirectoryIteratorException with the IOException as the cause.

When an implementation supports operations on entries in the directory that execute in a race-free manner then the returned directory stream is a SecureDirectoryStream.

Usage Example: Suppose we want to iterate over the files in a directory that are larger than 8K.

    DirectoryStream.Filter<Path> filter = new DirectoryStream.Filter<Path>() {
        public boolean accept(Path file) throws IOException {
            return (Files.size(file) > 8192L);
        }
    };
    Path dir = ...
    try (DirectoryStream<Path> stream = Files.newDirectoryStream(dir, filter)) {
        :
    }
Params:
  • dir – the path to the directory
  • filter – the directory stream filter
Throws:
  • NotDirectoryException – if the file could not otherwise be opened because it is not a directory (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the directory.
Returns: a new and open DirectoryStream object
/** * Opens a directory, returning a {@link DirectoryStream} to iterate over * the entries in the directory. The elements returned by the directory * stream's {@link DirectoryStream#iterator iterator} are of type {@code * Path}, each one representing an entry in the directory. The {@code Path} * objects are obtained as if by {@link Path#resolve(Path) resolving} the * name of the directory entry against {@code dir}. The entries returned by * the iterator are filtered by the given {@link DirectoryStream.Filter * filter}. * * <p> When not using the try-with-resources construct, then directory * stream's {@code close} method should be invoked after iteration is * completed so as to free any resources held for the open directory. * * <p> Where the filter terminates due to an uncaught error or runtime * exception then it is propagated to the {@link Iterator#hasNext() * hasNext} or {@link Iterator#next() next} method. Where an {@code * IOException} is thrown, it results in the {@code hasNext} or {@code * next} method throwing a {@link DirectoryIteratorException} with the * {@code IOException} as the cause. * * <p> When an implementation supports operations on entries in the * directory that execute in a race-free manner then the returned directory * stream is a {@link SecureDirectoryStream}. * * <p> <b>Usage Example:</b> * Suppose we want to iterate over the files in a directory that are * larger than 8K. * <pre> * DirectoryStream.Filter&lt;Path&gt; filter = new DirectoryStream.Filter&lt;Path&gt;() { * public boolean accept(Path file) throws IOException { * return (Files.size(file) &gt; 8192L); * } * }; * Path dir = ... * try (DirectoryStream&lt;Path&gt; stream = Files.newDirectoryStream(dir, filter)) { * : * } * </pre> * * @param dir * the path to the directory * @param filter * the directory stream filter * * @return a new and open {@code DirectoryStream} object * * @throws NotDirectoryException * if the file could not otherwise be opened because it is not * a directory <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the directory. */
public static DirectoryStream<Path> newDirectoryStream(Path dir, DirectoryStream.Filter<? super Path> filter) throws IOException { return provider(dir).newDirectoryStream(dir, filter); } // -- Creation and deletion -- private static final Set<OpenOption> DEFAULT_CREATE_OPTIONS = Set.of(StandardOpenOption.CREATE_NEW, StandardOpenOption.WRITE);
Creates a new and empty file, failing if the file already exists. The check for the existence of the file and the creation of the new file if it does not exist are a single operation that is atomic with respect to all other filesystem activities that might affect the directory.

The attrs parameter is optional file-attributes to set atomically when creating the file. Each attribute is identified by its name. If more than one attribute of the same name is included in the array then all but the last occurrence is ignored.

Params:
  • path – the path to the file to create
  • attrs – an optional list of file attributes to set atomically when creating the file
Throws:
Returns: the file
/** * Creates a new and empty file, failing if the file already exists. The * check for the existence of the file and the creation of the new file if * it does not exist are a single operation that is atomic with respect to * all other filesystem activities that might affect the directory. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * file-attributes} to set atomically when creating the file. Each attribute * is identified by its {@link FileAttribute#name name}. If more than one * attribute of the same name is included in the array then all but the last * occurrence is ignored. * * @param path * the path to the file to create * @param attrs * an optional list of file attributes to set atomically when * creating the file * * @return the file * * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the file * @throws FileAlreadyExistsException * if a file of that name already exists * <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs or the parent directory does not exist * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the new file. */
public static Path createFile(Path path, FileAttribute<?>... attrs) throws IOException { newByteChannel(path, DEFAULT_CREATE_OPTIONS, attrs).close(); return path; }
Creates a new directory. The check for the existence of the file and the creation of the directory if it does not exist are a single operation that is atomic with respect to all other filesystem activities that might affect the directory. The createDirectories method should be used where it is required to create all nonexistent parent directories first.

The attrs parameter is optional file-attributes to set atomically when creating the directory. Each attribute is identified by its name. If more than one attribute of the same name is included in the array then all but the last occurrence is ignored.

Params:
  • dir – the directory to create
  • attrs – an optional list of file attributes to set atomically when creating the directory
Throws:
  • UnsupportedOperationException – if the array contains an attribute that cannot be set atomically when creating the directory
  • FileAlreadyExistsException – if a directory could not otherwise be created because a file of that name already exists (optional specific exception)
  • IOException – if an I/O error occurs or the parent directory does not exist
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the new directory.
Returns: the directory
/** * Creates a new directory. The check for the existence of the file and the * creation of the directory if it does not exist are a single operation * that is atomic with respect to all other filesystem activities that might * affect the directory. The {@link #createDirectories createDirectories} * method should be used where it is required to create all nonexistent * parent directories first. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * file-attributes} to set atomically when creating the directory. Each * attribute is identified by its {@link FileAttribute#name name}. If more * than one attribute of the same name is included in the array then all but * the last occurrence is ignored. * * @param dir * the directory to create * @param attrs * an optional list of file attributes to set atomically when * creating the directory * * @return the directory * * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the directory * @throws FileAlreadyExistsException * if a directory could not otherwise be created because a file of * that name already exists <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs or the parent directory does not exist * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the new directory. */
public static Path createDirectory(Path dir, FileAttribute<?>... attrs) throws IOException { provider(dir).createDirectory(dir, attrs); return dir; }
Creates a directory by creating all nonexistent parent directories first. Unlike the createDirectory method, an exception is not thrown if the directory could not be created because it already exists.

The attrs parameter is optional file-attributes to set atomically when creating the nonexistent directories. Each file attribute is identified by its name. If more than one attribute of the same name is included in the array then all but the last occurrence is ignored.

If this method fails, then it may do so after creating some, but not all, of the parent directories.

Params:
  • dir – the directory to create
  • attrs – an optional list of file attributes to set atomically when creating the directory
Throws:
  • UnsupportedOperationException – if the array contains an attribute that cannot be set atomically when creating the directory
  • FileAlreadyExistsException – if dir exists but is not a directory (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – in the case of the default provider, and a security manager is installed, the checkWrite method is invoked prior to attempting to create a directory and its checkRead is invoked for each parent directory that is checked. If dir is not an absolute path then its toAbsolutePath may need to be invoked to get its absolute path. This may invoke the security manager's checkPropertyAccess method to check access to the system property user.dir
Returns: the directory
/** * Creates a directory by creating all nonexistent parent directories first. * Unlike the {@link #createDirectory createDirectory} method, an exception * is not thrown if the directory could not be created because it already * exists. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * file-attributes} to set atomically when creating the nonexistent * directories. Each file attribute is identified by its {@link * FileAttribute#name name}. If more than one attribute of the same name is * included in the array then all but the last occurrence is ignored. * * <p> If this method fails, then it may do so after creating some, but not * all, of the parent directories. * * @param dir * the directory to create * * @param attrs * an optional list of file attributes to set atomically when * creating the directory * * @return the directory * * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the directory * @throws FileAlreadyExistsException * if {@code dir} exists but is not a directory <i>(optional specific * exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * in the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked prior to attempting to create a directory and * its {@link SecurityManager#checkRead(String) checkRead} is * invoked for each parent directory that is checked. If {@code * dir} is not an absolute path then its {@link Path#toAbsolutePath * toAbsolutePath} may need to be invoked to get its absolute path. * This may invoke the security manager's {@link * SecurityManager#checkPropertyAccess(String) checkPropertyAccess} * method to check access to the system property {@code user.dir} */
public static Path createDirectories(Path dir, FileAttribute<?>... attrs) throws IOException { // attempt to create the directory try { createAndCheckIsDirectory(dir, attrs); return dir; } catch (FileAlreadyExistsException x) { // file exists and is not a directory throw x; } catch (IOException x) { // parent may not exist or other reason } SecurityException se = null; try { dir = dir.toAbsolutePath(); } catch (SecurityException x) { // don't have permission to get absolute path se = x; } // find a descendant that exists Path parent = dir.getParent(); while (parent != null) { try { provider(parent).checkAccess(parent); break; } catch (NoSuchFileException x) { // does not exist } parent = parent.getParent(); } if (parent == null) { // unable to find existing parent if (se == null) { throw new FileSystemException(dir.toString(), null, "Unable to determine if root directory exists"); } else { throw se; } } // create directories Path child = parent; for (Path name: parent.relativize(dir)) { child = child.resolve(name); createAndCheckIsDirectory(child, attrs); } return dir; }
Used by createDirectories to attempt to create a directory. A no-op if the directory already exists.
/** * Used by createDirectories to attempt to create a directory. A no-op * if the directory already exists. */
private static void createAndCheckIsDirectory(Path dir, FileAttribute<?>... attrs) throws IOException { try { createDirectory(dir, attrs); } catch (FileAlreadyExistsException x) { if (!isDirectory(dir, LinkOption.NOFOLLOW_LINKS)) throw x; } }
Creates a new empty file in the specified directory, using the given prefix and suffix strings to generate its name. The resulting Path is associated with the same FileSystem as the given directory.

The details as to how the name of the file is constructed is implementation dependent and therefore not specified. Where possible the prefix and suffix are used to construct candidate names in the same manner as the File.createTempFile(String, String, File) method.

As with the File.createTempFile methods, this method is only part of a temporary-file facility. Where used as a work files, the resulting file may be opened using the DELETE_ON_CLOSE option so that the file is deleted when the appropriate close method is invoked. Alternatively, a shutdown-hook, or the File.deleteOnExit mechanism may be used to delete the file automatically.

The attrs parameter is optional file-attributes to set atomically when creating the file. Each attribute is identified by its name. If more than one attribute of the same name is included in the array then all but the last occurrence is ignored. When no file attributes are specified, then the resulting file may have more restrictive access permissions to files created by the File.createTempFile(String, String, File) method.

Params:
  • dir – the path to directory in which to create the file
  • prefix – the prefix string to be used in generating the file's name; may be null
  • suffix – the suffix string to be used in generating the file's name; may be null, in which case ".tmp" is used
  • attrs – an optional list of file attributes to set atomically when creating the file
Throws:
  • IllegalArgumentException – if the prefix or suffix parameters cannot be used to generate a candidate file name
  • UnsupportedOperationException – if the array contains an attribute that cannot be set atomically when creating the directory
  • IOException – if an I/O error occurs or dir does not exist
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file.
Returns: the path to the newly created file that did not exist before this method was invoked
/** * Creates a new empty file in the specified directory, using the given * prefix and suffix strings to generate its name. The resulting * {@code Path} is associated with the same {@code FileSystem} as the given * directory. * * <p> The details as to how the name of the file is constructed is * implementation dependent and therefore not specified. Where possible * the {@code prefix} and {@code suffix} are used to construct candidate * names in the same manner as the {@link * java.io.File#createTempFile(String,String,File)} method. * * <p> As with the {@code File.createTempFile} methods, this method is only * part of a temporary-file facility. Where used as a <em>work files</em>, * the resulting file may be opened using the {@link * StandardOpenOption#DELETE_ON_CLOSE DELETE_ON_CLOSE} option so that the * file is deleted when the appropriate {@code close} method is invoked. * Alternatively, a {@link Runtime#addShutdownHook shutdown-hook}, or the * {@link java.io.File#deleteOnExit} mechanism may be used to delete the * file automatically. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * file-attributes} to set atomically when creating the file. Each attribute * is identified by its {@link FileAttribute#name name}. If more than one * attribute of the same name is included in the array then all but the last * occurrence is ignored. When no file attributes are specified, then the * resulting file may have more restrictive access permissions to files * created by the {@link java.io.File#createTempFile(String,String,File)} * method. * * @param dir * the path to directory in which to create the file * @param prefix * the prefix string to be used in generating the file's name; * may be {@code null} * @param suffix * the suffix string to be used in generating the file's name; * may be {@code null}, in which case "{@code .tmp}" is used * @param attrs * an optional list of file attributes to set atomically when * creating the file * * @return the path to the newly created file that did not exist before * this method was invoked * * @throws IllegalArgumentException * if the prefix or suffix parameters cannot be used to generate * a candidate file name * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the directory * @throws IOException * if an I/O error occurs or {@code dir} does not exist * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. */
public static Path createTempFile(Path dir, String prefix, String suffix, FileAttribute<?>... attrs) throws IOException { return TempFileHelper.createTempFile(Objects.requireNonNull(dir), prefix, suffix, attrs); }
Creates an empty file in the default temporary-file directory, using the given prefix and suffix to generate its name. The resulting Path is associated with the default FileSystem.

This method works in exactly the manner specified by the createTempFile(Path, String, String, FileAttribute<?>[]) method for the case that the dir parameter is the temporary-file directory.

Params:
  • prefix – the prefix string to be used in generating the file's name; may be null
  • suffix – the suffix string to be used in generating the file's name; may be null, in which case ".tmp" is used
  • attrs – an optional list of file attributes to set atomically when creating the file
Throws:
  • IllegalArgumentException – if the prefix or suffix parameters cannot be used to generate a candidate file name
  • UnsupportedOperationException – if the array contains an attribute that cannot be set atomically when creating the directory
  • IOException – if an I/O error occurs or the temporary-file directory does not exist
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file.
Returns: the path to the newly created file that did not exist before this method was invoked
/** * Creates an empty file in the default temporary-file directory, using * the given prefix and suffix to generate its name. The resulting {@code * Path} is associated with the default {@code FileSystem}. * * <p> This method works in exactly the manner specified by the * {@link #createTempFile(Path,String,String,FileAttribute[])} method for * the case that the {@code dir} parameter is the temporary-file directory. * * @param prefix * the prefix string to be used in generating the file's name; * may be {@code null} * @param suffix * the suffix string to be used in generating the file's name; * may be {@code null}, in which case "{@code .tmp}" is used * @param attrs * an optional list of file attributes to set atomically when * creating the file * * @return the path to the newly created file that did not exist before * this method was invoked * * @throws IllegalArgumentException * if the prefix or suffix parameters cannot be used to generate * a candidate file name * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the directory * @throws IOException * if an I/O error occurs or the temporary-file directory does not * exist * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. */
public static Path createTempFile(String prefix, String suffix, FileAttribute<?>... attrs) throws IOException { return TempFileHelper.createTempFile(null, prefix, suffix, attrs); }
Creates a new directory in the specified directory, using the given prefix to generate its name. The resulting Path is associated with the same FileSystem as the given directory.

The details as to how the name of the directory is constructed is implementation dependent and therefore not specified. Where possible the prefix is used to construct candidate names.

As with the createTempFile methods, this method is only part of a temporary-file facility. A shutdown-hook, or the File.deleteOnExit mechanism may be used to delete the directory automatically.

The attrs parameter is optional file-attributes to set atomically when creating the directory. Each attribute is identified by its name. If more than one attribute of the same name is included in the array then all but the last occurrence is ignored.

Params:
  • dir – the path to directory in which to create the directory
  • prefix – the prefix string to be used in generating the directory's name; may be null
  • attrs – an optional list of file attributes to set atomically when creating the directory
Throws:
  • IllegalArgumentException – if the prefix cannot be used to generate a candidate directory name
  • UnsupportedOperationException – if the array contains an attribute that cannot be set atomically when creating the directory
  • IOException – if an I/O error occurs or dir does not exist
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access when creating the directory.
Returns: the path to the newly created directory that did not exist before this method was invoked
/** * Creates a new directory in the specified directory, using the given * prefix to generate its name. The resulting {@code Path} is associated * with the same {@code FileSystem} as the given directory. * * <p> The details as to how the name of the directory is constructed is * implementation dependent and therefore not specified. Where possible * the {@code prefix} is used to construct candidate names. * * <p> As with the {@code createTempFile} methods, this method is only * part of a temporary-file facility. A {@link Runtime#addShutdownHook * shutdown-hook}, or the {@link java.io.File#deleteOnExit} mechanism may be * used to delete the directory automatically. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * file-attributes} to set atomically when creating the directory. Each * attribute is identified by its {@link FileAttribute#name name}. If more * than one attribute of the same name is included in the array then all but * the last occurrence is ignored. * * @param dir * the path to directory in which to create the directory * @param prefix * the prefix string to be used in generating the directory's name; * may be {@code null} * @param attrs * an optional list of file attributes to set atomically when * creating the directory * * @return the path to the newly created directory that did not exist before * this method was invoked * * @throws IllegalArgumentException * if the prefix cannot be used to generate a candidate directory name * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the directory * @throws IOException * if an I/O error occurs or {@code dir} does not exist * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access when creating the * directory. */
public static Path createTempDirectory(Path dir, String prefix, FileAttribute<?>... attrs) throws IOException { return TempFileHelper.createTempDirectory(Objects.requireNonNull(dir), prefix, attrs); }
Creates a new directory in the default temporary-file directory, using the given prefix to generate its name. The resulting Path is associated with the default FileSystem.

This method works in exactly the manner specified by createTempDirectory(Path, String, FileAttribute<?>[]) method for the case that the dir parameter is the temporary-file directory.

Params:
  • prefix – the prefix string to be used in generating the directory's name; may be null
  • attrs – an optional list of file attributes to set atomically when creating the directory
Throws:
  • IllegalArgumentException – if the prefix cannot be used to generate a candidate directory name
  • UnsupportedOperationException – if the array contains an attribute that cannot be set atomically when creating the directory
  • IOException – if an I/O error occurs or the temporary-file directory does not exist
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access when creating the directory.
Returns: the path to the newly created directory that did not exist before this method was invoked
/** * Creates a new directory in the default temporary-file directory, using * the given prefix to generate its name. The resulting {@code Path} is * associated with the default {@code FileSystem}. * * <p> This method works in exactly the manner specified by {@link * #createTempDirectory(Path,String,FileAttribute[])} method for the case * that the {@code dir} parameter is the temporary-file directory. * * @param prefix * the prefix string to be used in generating the directory's name; * may be {@code null} * @param attrs * an optional list of file attributes to set atomically when * creating the directory * * @return the path to the newly created directory that did not exist before * this method was invoked * * @throws IllegalArgumentException * if the prefix cannot be used to generate a candidate directory name * @throws UnsupportedOperationException * if the array contains an attribute that cannot be set atomically * when creating the directory * @throws IOException * if an I/O error occurs or the temporary-file directory does not * exist * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access when creating the * directory. */
public static Path createTempDirectory(String prefix, FileAttribute<?>... attrs) throws IOException { return TempFileHelper.createTempDirectory(null, prefix, attrs); }
Creates a symbolic link to a target (optional operation).

The target parameter is the target of the link. It may be an absolute or relative path and may not exist. When the target is a relative path then file system operations on the resulting link are relative to the path of the link.

The attrs parameter is optional attributes to set atomically when creating the link. Each attribute is identified by its name. If more than one attribute of the same name is included in the array then all but the last occurrence is ignored.

Where symbolic links are supported, but the underlying FileStore does not support symbolic links, then this may fail with an IOException. Additionally, some operating systems may require that the Java virtual machine be started with implementation specific privileges to create symbolic links, in which case this method may throw IOException.

Params:
  • link – the path of the symbolic link to create
  • target – the target of the symbolic link
  • attrs – the array of attributes to set atomically when creating the symbolic link
Throws:
Returns: the path to the symbolic link
/** * Creates a symbolic link to a target <i>(optional operation)</i>. * * <p> The {@code target} parameter is the target of the link. It may be an * {@link Path#isAbsolute absolute} or relative path and may not exist. When * the target is a relative path then file system operations on the resulting * link are relative to the path of the link. * * <p> The {@code attrs} parameter is optional {@link FileAttribute * attributes} to set atomically when creating the link. Each attribute is * identified by its {@link FileAttribute#name name}. If more than one attribute * of the same name is included in the array then all but the last occurrence * is ignored. * * <p> Where symbolic links are supported, but the underlying {@link FileStore} * does not support symbolic links, then this may fail with an {@link * IOException}. Additionally, some operating systems may require that the * Java virtual machine be started with implementation specific privileges to * create symbolic links, in which case this method may throw {@code IOException}. * * @param link * the path of the symbolic link to create * @param target * the target of the symbolic link * @param attrs * the array of attributes to set atomically when creating the * symbolic link * * @return the path to the symbolic link * * @throws UnsupportedOperationException * if the implementation does not support symbolic links or the * array contains an attribute that cannot be set atomically when * creating the symbolic link * @throws FileAlreadyExistsException * if a file with the name already exists <i>(optional specific * exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager * is installed, it denies {@link LinkPermission}{@code ("symbolic")} * or its {@link SecurityManager#checkWrite(String) checkWrite} * method denies write access to the path of the symbolic link. */
public static Path createSymbolicLink(Path link, Path target, FileAttribute<?>... attrs) throws IOException { provider(link).createSymbolicLink(link, target, attrs); return link; }
Creates a new link (directory entry) for an existing file (optional operation).

The link parameter locates the directory entry to create. The existing parameter is the path to an existing file. This method creates a new directory entry for the file so that it can be accessed using link as the path. On some file systems this is known as creating a "hard link". Whether the file attributes are maintained for the file or for each directory entry is file system specific and therefore not specified. Typically, a file system requires that all links (directory entries) for a file be on the same file system. Furthermore, on some platforms, the Java virtual machine may require to be started with implementation specific privileges to create hard links or to create links to directories.

Params:
  • link – the link (directory entry) to create
  • existing – a path to an existing file
Throws:
Returns: the path to the link (directory entry)
/** * Creates a new link (directory entry) for an existing file <i>(optional * operation)</i>. * * <p> The {@code link} parameter locates the directory entry to create. * The {@code existing} parameter is the path to an existing file. This * method creates a new directory entry for the file so that it can be * accessed using {@code link} as the path. On some file systems this is * known as creating a "hard link". Whether the file attributes are * maintained for the file or for each directory entry is file system * specific and therefore not specified. Typically, a file system requires * that all links (directory entries) for a file be on the same file system. * Furthermore, on some platforms, the Java virtual machine may require to * be started with implementation specific privileges to create hard links * or to create links to directories. * * @param link * the link (directory entry) to create * @param existing * a path to an existing file * * @return the path to the link (directory entry) * * @throws UnsupportedOperationException * if the implementation does not support adding an existing file * to a directory * @throws FileAlreadyExistsException * if the entry could not otherwise be created because a file of * that name already exists <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager * is installed, it denies {@link LinkPermission}{@code ("hard")} * or its {@link SecurityManager#checkWrite(String) checkWrite} * method denies write access to either the link or the * existing file. */
public static Path createLink(Path link, Path existing) throws IOException { provider(link).createLink(link, existing); return link; }
Deletes a file.

An implementation may require to examine the file to determine if the file is a directory. Consequently this method may not be atomic with respect to other file system operations. If the file is a symbolic link then the symbolic link itself, not the final target of the link, is deleted.

If the file is a directory then the directory must be empty. In some implementations a directory has entries for special files or links that are created when the directory is created. In such implementations a directory is considered empty when only the special entries exist. This method can be used with the walkFileTree method to delete a directory and all entries in the directory, or an entire file-tree where required.

On some operating systems it may not be possible to remove a file when it is open and in use by this Java virtual machine or other programs.

Params:
  • path – the path to the file to delete
Throws:
/** * Deletes a file. * * <p> An implementation may require to examine the file to determine if the * file is a directory. Consequently this method may not be atomic with respect * to other file system operations. If the file is a symbolic link then the * symbolic link itself, not the final target of the link, is deleted. * * <p> If the file is a directory then the directory must be empty. In some * implementations a directory has entries for special files or links that * are created when the directory is created. In such implementations a * directory is considered empty when only the special entries exist. * This method can be used with the {@link #walkFileTree walkFileTree} * method to delete a directory and all entries in the directory, or an * entire <i>file-tree</i> where required. * * <p> On some operating systems it may not be possible to remove a file when * it is open and in use by this Java virtual machine or other programs. * * @param path * the path to the file to delete * * @throws NoSuchFileException * if the file does not exist <i>(optional specific exception)</i> * @throws DirectoryNotEmptyException * if the file is a directory and could not otherwise be deleted * because the directory is not empty <i>(optional specific * exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkDelete(String)} method * is invoked to check delete access to the file */
public static void delete(Path path) throws IOException { provider(path).delete(path); }
Deletes a file if it exists.

As with the delete(Path) method, an implementation may need to examine the file to determine if the file is a directory. Consequently this method may not be atomic with respect to other file system operations. If the file is a symbolic link, then the symbolic link itself, not the final target of the link, is deleted.

If the file is a directory then the directory must be empty. In some implementations a directory has entries for special files or links that are created when the directory is created. In such implementations a directory is considered empty when only the special entries exist.

On some operating systems it may not be possible to remove a file when it is open and in use by this Java virtual machine or other programs.

Params:
  • path – the path to the file to delete
Throws:
Returns: true if the file was deleted by this method; false if the file could not be deleted because it did not exist
/** * Deletes a file if it exists. * * <p> As with the {@link #delete(Path) delete(Path)} method, an * implementation may need to examine the file to determine if the file is a * directory. Consequently this method may not be atomic with respect to * other file system operations. If the file is a symbolic link, then the * symbolic link itself, not the final target of the link, is deleted. * * <p> If the file is a directory then the directory must be empty. In some * implementations a directory has entries for special files or links that * are created when the directory is created. In such implementations a * directory is considered empty when only the special entries exist. * * <p> On some operating systems it may not be possible to remove a file when * it is open and in use by this Java virtual machine or other programs. * * @param path * the path to the file to delete * * @return {@code true} if the file was deleted by this method; {@code * false} if the file could not be deleted because it did not * exist * * @throws DirectoryNotEmptyException * if the file is a directory and could not otherwise be deleted * because the directory is not empty <i>(optional specific * exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkDelete(String)} method * is invoked to check delete access to the file. */
public static boolean deleteIfExists(Path path) throws IOException { return provider(path).deleteIfExists(path); } // -- Copying and moving files --
Copy a file to a target file.

This method copies a file to the target file with the options parameter specifying how the copy is performed. By default, the copy fails if the target file already exists or is a symbolic link, except if the source and target are the same file, in which case the method completes without copying the file. File attributes are not required to be copied to the target file. If symbolic links are supported, and the file is a symbolic link, then the final target of the link is copied. If the file is a directory then it creates an empty directory in the target location (entries in the directory are not copied). This method can be used with the walkFileTree method to copy a directory and all entries in the directory, or an entire file-tree where required.

The options parameter may include any of the following:

Options
Option Description
REPLACE_EXISTING If the target file exists, then the target file is replaced if it is not a non-empty directory. If the target file exists and is a symbolic link, then the symbolic link itself, not the target of the link, is replaced.
COPY_ATTRIBUTES Attempts to copy the file attributes associated with this file to the target file. The exact file attributes that are copied is platform and file system dependent and therefore unspecified. Minimally, the last-modified-time is copied to the target file if supported by both the source and target file stores. Copying of file timestamps may result in precision loss.
NOFOLLOW_LINKS Symbolic links are not followed. If the file is a symbolic link, then the symbolic link itself, not the target of the link, is copied. It is implementation specific if file attributes can be copied to the new link. In other words, the COPY_ATTRIBUTES option may be ignored when copying a symbolic link.

An implementation of this interface may support additional implementation specific options.

Copying a file is not an atomic operation. If an IOException is thrown, then it is possible that the target file is incomplete or some of its file attributes have not been copied from the source file. When the REPLACE_EXISTING option is specified and the target file exists, then the target file is replaced. The check for the existence of the file and the creation of the new file may not be atomic with respect to other file system activities.

Usage Example: Suppose we want to copy a file into a directory, giving it the same file name as the source file:

    Path source = ...
    Path newdir = ...
    Files.copy(source, newdir.resolve(source.getFileName());
Params:
  • source – the path to the file to copy
  • target – the path to the target file (may be associated with a different provider to the source path)
  • options – options specifying how the copy should be done
Throws:
  • UnsupportedOperationException – if the array contains a copy option that is not supported
  • FileAlreadyExistsException – if the target file exists but cannot be replaced because the REPLACE_EXISTING option is not specified (optional specific exception)
  • DirectoryNotEmptyException – the REPLACE_EXISTING option is specified but the file cannot be replaced because it is a non-empty directory (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the source file, the checkWrite is invoked to check write access to the target file. If a symbolic link is copied the security manager is invoked to check LinkPermission("symbolic").
Returns: the path to the target file
/** * Copy a file to a target file. * * <p> This method copies a file to the target file with the {@code * options} parameter specifying how the copy is performed. By default, the * copy fails if the target file already exists or is a symbolic link, * except if the source and target are the {@link #isSameFile same} file, in * which case the method completes without copying the file. File attributes * are not required to be copied to the target file. If symbolic links are * supported, and the file is a symbolic link, then the final target of the * link is copied. If the file is a directory then it creates an empty * directory in the target location (entries in the directory are not * copied). This method can be used with the {@link #walkFileTree * walkFileTree} method to copy a directory and all entries in the directory, * or an entire <i>file-tree</i> where required. * * <p> The {@code options} parameter may include any of the following: * * <table class="striped"> * <caption style="display:none">Options</caption> * <thead> * <tr> <th scope="col">Option</th> <th scope="col">Description</th> </tr> * </thead> * <tbody> * <tr> * <th scope="row"> {@link StandardCopyOption#REPLACE_EXISTING REPLACE_EXISTING} </th> * <td> If the target file exists, then the target file is replaced if it * is not a non-empty directory. If the target file exists and is a * symbolic link, then the symbolic link itself, not the target of * the link, is replaced. </td> * </tr> * <tr> * <th scope="row"> {@link StandardCopyOption#COPY_ATTRIBUTES COPY_ATTRIBUTES} </th> * <td> Attempts to copy the file attributes associated with this file to * the target file. The exact file attributes that are copied is platform * and file system dependent and therefore unspecified. Minimally, the * {@link BasicFileAttributes#lastModifiedTime last-modified-time} is * copied to the target file if supported by both the source and target * file stores. Copying of file timestamps may result in precision * loss. </td> * </tr> * <tr> * <th scope="row"> {@link LinkOption#NOFOLLOW_LINKS NOFOLLOW_LINKS} </th> * <td> Symbolic links are not followed. If the file is a symbolic link, * then the symbolic link itself, not the target of the link, is copied. * It is implementation specific if file attributes can be copied to the * new link. In other words, the {@code COPY_ATTRIBUTES} option may be * ignored when copying a symbolic link. </td> * </tr> * </tbody> * </table> * * <p> An implementation of this interface may support additional * implementation specific options. * * <p> Copying a file is not an atomic operation. If an {@link IOException} * is thrown, then it is possible that the target file is incomplete or some * of its file attributes have not been copied from the source file. When * the {@code REPLACE_EXISTING} option is specified and the target file * exists, then the target file is replaced. The check for the existence of * the file and the creation of the new file may not be atomic with respect * to other file system activities. * * <p> <b>Usage Example:</b> * Suppose we want to copy a file into a directory, giving it the same file * name as the source file: * <pre> * Path source = ... * Path newdir = ... * Files.copy(source, newdir.resolve(source.getFileName()); * </pre> * * @param source * the path to the file to copy * @param target * the path to the target file (may be associated with a different * provider to the source path) * @param options * options specifying how the copy should be done * * @return the path to the target file * * @throws UnsupportedOperationException * if the array contains a copy option that is not supported * @throws FileAlreadyExistsException * if the target file exists but cannot be replaced because the * {@code REPLACE_EXISTING} option is not specified <i>(optional * specific exception)</i> * @throws DirectoryNotEmptyException * the {@code REPLACE_EXISTING} option is specified but the file * cannot be replaced because it is a non-empty directory * <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the source file, the * {@link SecurityManager#checkWrite(String) checkWrite} is invoked * to check write access to the target file. If a symbolic link is * copied the security manager is invoked to check {@link * LinkPermission}{@code ("symbolic")}. */
public static Path copy(Path source, Path target, CopyOption... options) throws IOException { FileSystemProvider provider = provider(source); if (provider(target) == provider) { // same provider provider.copy(source, target, options); } else { // different providers CopyMoveHelper.copyToForeignTarget(source, target, options); } return target; }
Move or rename a file to a target file.

By default, this method attempts to move the file to the target file, failing if the target file exists except if the source and target are the same file, in which case this method has no effect. If the file is a symbolic link then the symbolic link itself, not the target of the link, is moved. This method may be invoked to move an empty directory. In some implementations a directory has entries for special files or links that are created when the directory is created. In such implementations a directory is considered empty when only the special entries exist. When invoked to move a directory that is not empty then the directory is moved if it does not require moving the entries in the directory. For example, renaming a directory on the same FileStore will usually not require moving the entries in the directory. When moving a directory requires that its entries be moved then this method fails (by throwing an IOException). To move a file tree may involve copying rather than moving directories and this can be done using the copy method in conjunction with the Files.walkFileTree utility method.

The options parameter may include any of the following:

Options
Option Description
REPLACE_EXISTING If the target file exists, then the target file is replaced if it is not a non-empty directory. If the target file exists and is a symbolic link, then the symbolic link itself, not the target of the link, is replaced.
ATOMIC_MOVE The move is performed as an atomic file system operation and all other options are ignored. If the target file exists then it is implementation specific if the existing file is replaced or this method fails by throwing an IOException. If the move cannot be performed as an atomic file system operation then AtomicMoveNotSupportedException is thrown. This can arise, for example, when the target location is on a different FileStore and would require that the file be copied, or target location is associated with a different provider to this object.

An implementation of this interface may support additional implementation specific options.

Moving a file will copy the last-modified-time to the target file if supported by both source and target file stores. Copying of file timestamps may result in precision loss. An implementation may also attempt to copy other file attributes but is not required to fail if the file attributes cannot be copied. When the move is performed as a non-atomic operation, and an IOException is thrown, then the state of the files is not defined. The original file and the target file may both exist, the target file may be incomplete or some of its file attributes may not been copied from the original file.

Usage Examples: Suppose we want to rename a file to "newname", keeping the file in the same directory:

    Path source = ...
    Files.move(source, source.resolveSibling("newname"));
Alternatively, suppose we want to move a file to new directory, keeping the same file name, and replacing any existing file of that name in the directory:
    Path source = ...
    Path newdir = ...
    Files.move(source, newdir.resolve(source.getFileName()), REPLACE_EXISTING);
Params:
  • source – the path to the file to move
  • target – the path to the target file (may be associated with a different provider to the source path)
  • options – options specifying how the move should be done
Throws:
  • UnsupportedOperationException – if the array contains a copy option that is not supported
  • FileAlreadyExistsException – if the target file exists but cannot be replaced because the REPLACE_EXISTING option is not specified (optional specific exception)
  • DirectoryNotEmptyException – the REPLACE_EXISTING option is specified but the file cannot be replaced because it is a non-empty directory, or the source is a non-empty directory containing entries that would be required to be moved (optional specific exceptions)
  • AtomicMoveNotSupportedException – if the options array contains the ATOMIC_MOVE option but the file cannot be moved as an atomic file system operation.
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to both the source and target file.
Returns: the path to the target file
/** * Move or rename a file to a target file. * * <p> By default, this method attempts to move the file to the target * file, failing if the target file exists except if the source and * target are the {@link #isSameFile same} file, in which case this method * has no effect. If the file is a symbolic link then the symbolic link * itself, not the target of the link, is moved. This method may be * invoked to move an empty directory. In some implementations a directory * has entries for special files or links that are created when the * directory is created. In such implementations a directory is considered * empty when only the special entries exist. When invoked to move a * directory that is not empty then the directory is moved if it does not * require moving the entries in the directory. For example, renaming a * directory on the same {@link FileStore} will usually not require moving * the entries in the directory. When moving a directory requires that its * entries be moved then this method fails (by throwing an {@code * IOException}). To move a <i>file tree</i> may involve copying rather * than moving directories and this can be done using the {@link * #copy copy} method in conjunction with the {@link * #walkFileTree Files.walkFileTree} utility method. * * <p> The {@code options} parameter may include any of the following: * * <table class="striped"> * <caption style="display:none">Options</caption> * <thead> * <tr> <th scope="col">Option</th> <th scope="col">Description</th> </tr> * </thead> * <tbody> * <tr> * <th scope="row"> {@link StandardCopyOption#REPLACE_EXISTING REPLACE_EXISTING} </th> * <td> If the target file exists, then the target file is replaced if it * is not a non-empty directory. If the target file exists and is a * symbolic link, then the symbolic link itself, not the target of * the link, is replaced. </td> * </tr> * <tr> * <th scope="row"> {@link StandardCopyOption#ATOMIC_MOVE ATOMIC_MOVE} </th> * <td> The move is performed as an atomic file system operation and all * other options are ignored. If the target file exists then it is * implementation specific if the existing file is replaced or this method * fails by throwing an {@link IOException}. If the move cannot be * performed as an atomic file system operation then {@link * AtomicMoveNotSupportedException} is thrown. This can arise, for * example, when the target location is on a different {@code FileStore} * and would require that the file be copied, or target location is * associated with a different provider to this object. </td> * </tbody> * </table> * * <p> An implementation of this interface may support additional * implementation specific options. * * <p> Moving a file will copy the {@link * BasicFileAttributes#lastModifiedTime last-modified-time} to the target * file if supported by both source and target file stores. Copying of file * timestamps may result in precision loss. An implementation may also * attempt to copy other file attributes but is not required to fail if the * file attributes cannot be copied. When the move is performed as * a non-atomic operation, and an {@code IOException} is thrown, then the * state of the files is not defined. The original file and the target file * may both exist, the target file may be incomplete or some of its file * attributes may not been copied from the original file. * * <p> <b>Usage Examples:</b> * Suppose we want to rename a file to "newname", keeping the file in the * same directory: * <pre> * Path source = ... * Files.move(source, source.resolveSibling("newname")); * </pre> * Alternatively, suppose we want to move a file to new directory, keeping * the same file name, and replacing any existing file of that name in the * directory: * <pre> * Path source = ... * Path newdir = ... * Files.move(source, newdir.resolve(source.getFileName()), REPLACE_EXISTING); * </pre> * * @param source * the path to the file to move * @param target * the path to the target file (may be associated with a different * provider to the source path) * @param options * options specifying how the move should be done * * @return the path to the target file * * @throws UnsupportedOperationException * if the array contains a copy option that is not supported * @throws FileAlreadyExistsException * if the target file exists but cannot be replaced because the * {@code REPLACE_EXISTING} option is not specified <i>(optional * specific exception)</i> * @throws DirectoryNotEmptyException * the {@code REPLACE_EXISTING} option is specified but the file * cannot be replaced because it is a non-empty directory, or the * source is a non-empty directory containing entries that would * be required to be moved <i>(optional specific exceptions)</i> * @throws AtomicMoveNotSupportedException * if the options array contains the {@code ATOMIC_MOVE} option but * the file cannot be moved as an atomic file system operation. * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to both the source and * target file. */
public static Path move(Path source, Path target, CopyOption... options) throws IOException { FileSystemProvider provider = provider(source); if (provider(target) == provider) { // same provider provider.move(source, target, options); } else { // different providers CopyMoveHelper.moveToForeignTarget(source, target, options); } return target; } // -- Miscellaneous --
Reads the target of a symbolic link (optional operation).

If the file system supports symbolic links then this method is used to read the target of the link, failing if the file is not a symbolic link. The target of the link need not exist. The returned Path object will be associated with the same file system as link.

Params:
  • link – the path to the symbolic link
Throws:
  • UnsupportedOperationException – if the implementation does not support symbolic links
  • NotLinkException – if the target could otherwise not be read because the file is not a symbolic link (optional specific exception)
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, it checks that FilePermission has been granted with the "readlink" action to read the link.
Returns: a Path object representing the target of the link
/** * Reads the target of a symbolic link <i>(optional operation)</i>. * * <p> If the file system supports <a href="package-summary.html#links">symbolic * links</a> then this method is used to read the target of the link, failing * if the file is not a symbolic link. The target of the link need not exist. * The returned {@code Path} object will be associated with the same file * system as {@code link}. * * @param link * the path to the symbolic link * * @return a {@code Path} object representing the target of the link * * @throws UnsupportedOperationException * if the implementation does not support symbolic links * @throws NotLinkException * if the target could otherwise not be read because the file * is not a symbolic link <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager * is installed, it checks that {@code FilePermission} has been * granted with the "{@code readlink}" action to read the link. */
public static Path readSymbolicLink(Path link) throws IOException { return provider(link).readSymbolicLink(link); }
Returns the FileStore representing the file store where a file is located.

Once a reference to the FileStore is obtained it is implementation specific if operations on the returned FileStore, or FileStoreAttributeView objects obtained from it, continue to depend on the existence of the file. In particular the behavior is not defined for the case that the file is deleted or moved to a different file store.

Params:
  • path – the path to the file
Throws:
Returns: the file store where the file is stored
/** * Returns the {@link FileStore} representing the file store where a file * is located. * * <p> Once a reference to the {@code FileStore} is obtained it is * implementation specific if operations on the returned {@code FileStore}, * or {@link FileStoreAttributeView} objects obtained from it, continue * to depend on the existence of the file. In particular the behavior is not * defined for the case that the file is deleted or moved to a different * file store. * * @param path * the path to the file * * @return the file store where the file is stored * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file, and in * addition it checks * {@link RuntimePermission}{@code ("getFileStoreAttributes")} */
public static FileStore getFileStore(Path path) throws IOException { return provider(path).getFileStore(path); }
Tests if two paths locate the same file.

If both Path objects are equal then this method returns true without checking if the file exists. If the two Path objects are associated with different providers then this method returns false. Otherwise, this method checks if both Path objects locate the same file, and depending on the implementation, may require to open or access both files.

If the file system and files remain static, then this method implements an equivalence relation for non-null Paths.

  • It is reflexive: for Path f, isSameFile(f,f) should return true.
  • It is symmetric: for two Paths f and g, isSameFile(f,g) will equal isSameFile(g,f).
  • It is transitive: for three Paths f, g, and h, if isSameFile(f,g) returns true and isSameFile(g,h) returns true, then isSameFile(f,h) will return true.
Params:
  • path – one path to the file
  • path2 – the other path
Throws:
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to both files.
See Also:
Returns: true if, and only if, the two paths locate the same file
/** * Tests if two paths locate the same file. * * <p> If both {@code Path} objects are {@link Path#equals(Object) equal} * then this method returns {@code true} without checking if the file exists. * If the two {@code Path} objects are associated with different providers * then this method returns {@code false}. Otherwise, this method checks if * both {@code Path} objects locate the same file, and depending on the * implementation, may require to open or access both files. * * <p> If the file system and files remain static, then this method implements * an equivalence relation for non-null {@code Paths}. * <ul> * <li>It is <i>reflexive</i>: for {@code Path} {@code f}, * {@code isSameFile(f,f)} should return {@code true}. * <li>It is <i>symmetric</i>: for two {@code Paths} {@code f} and {@code g}, * {@code isSameFile(f,g)} will equal {@code isSameFile(g,f)}. * <li>It is <i>transitive</i>: for three {@code Paths} * {@code f}, {@code g}, and {@code h}, if {@code isSameFile(f,g)} returns * {@code true} and {@code isSameFile(g,h)} returns {@code true}, then * {@code isSameFile(f,h)} will return {@code true}. * </ul> * * @param path * one path to the file * @param path2 * the other path * * @return {@code true} if, and only if, the two paths locate the same file * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to both files. * * @see java.nio.file.attribute.BasicFileAttributes#fileKey */
public static boolean isSameFile(Path path, Path path2) throws IOException { return provider(path).isSameFile(path, path2); }
Finds and returns the position of the first mismatched byte in the content of two files, or -1L if there is no mismatch. The position will be in the inclusive range of 0L up to the size (in bytes) of the smaller file.

Two files are considered to match if they satisfy one of the following conditions:

  • The two paths locate the same file, even if two equal paths locate a file does not exist, or
  • The two files are the same size, and every byte in the first file is identical to the corresponding byte in the second file.

Otherwise there is a mismatch between the two files and the value returned by this method is:

  • The position of the first mismatched byte, or
  • The size of the smaller file (in bytes) when the files are different sizes and every byte of the smaller file is identical to the corresponding byte of the larger file.

This method may not be atomic with respect to other file system operations. This method is always reflexive (for Path f, mismatch(f,f) returns -1L). If the file system and files remain static, then this method is symmetric (for two Paths f and g, mismatch(f,g) will return the same value as mismatch(g,f)).

Params:
  • path – the path to the first file
  • path2 – the path to the second file
Throws:
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to both files.
Returns: the position of the first mismatch or -1L if no mismatch
Since:12
/** * Finds and returns the position of the first mismatched byte in the content * of two files, or {@code -1L} if there is no mismatch. The position will be * in the inclusive range of {@code 0L} up to the size (in bytes) of the * smaller file. * * <p> Two files are considered to match if they satisfy one of the following * conditions: * <ul> * <li> The two paths locate the {@linkplain #isSameFile(Path, Path) same file}, * even if two {@linkplain Path#equals(Object) equal} paths locate a file * does not exist, or </li> * <li> The two files are the same size, and every byte in the first file * is identical to the corresponding byte in the second file. </li> * </ul> * * <p> Otherwise there is a mismatch between the two files and the value * returned by this method is: * <ul> * <li> The position of the first mismatched byte, or </li> * <li> The size of the smaller file (in bytes) when the files are different * sizes and every byte of the smaller file is identical to the * corresponding byte of the larger file. </li> * </ul> * * <p> This method may not be atomic with respect to other file system * operations. This method is always <i>reflexive</i> (for {@code Path f}, * {@code mismatch(f,f)} returns {@code -1L}). If the file system and files * remain static, then this method is <i>symmetric</i> (for two {@code Paths f} * and {@code g}, {@code mismatch(f,g)} will return the same value as * {@code mismatch(g,f)}). * * @param path * the path to the first file * @param path2 * the path to the second file * * @return the position of the first mismatch or {@code -1L} if no mismatch * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to both files. * * @since 12 */
public static long mismatch(Path path, Path path2) throws IOException { if (isSameFile(path, path2)) { return -1; } byte[] buffer1 = new byte[BUFFER_SIZE]; byte[] buffer2 = new byte[BUFFER_SIZE]; try (InputStream in1 = Files.newInputStream(path); InputStream in2 = Files.newInputStream(path2);) { long totalRead = 0; while (true) { int nRead1 = in1.readNBytes(buffer1, 0, BUFFER_SIZE); int nRead2 = in2.readNBytes(buffer2, 0, BUFFER_SIZE); int i = Arrays.mismatch(buffer1, 0, nRead1, buffer2, 0, nRead2); if (i > -1) { return totalRead + i; } if (nRead1 < BUFFER_SIZE) { // we've reached the end of the files, but found no mismatch return -1; } totalRead += nRead1; } } }
Tells whether or not a file is considered hidden. The exact definition of hidden is platform or provider dependent. On UNIX for example a file is considered to be hidden if its name begins with a period character ('.'). On Windows a file is considered hidden if it isn't a directory and the DOS hidden attribute is set.

Depending on the implementation this method may require to access the file system to determine if the file is considered hidden.

Params:
  • path – the path to the file to test
Throws:
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
Returns: true if the file is considered hidden
/** * Tells whether or not a file is considered <em>hidden</em>. The exact * definition of hidden is platform or provider dependent. On UNIX for * example a file is considered to be hidden if its name begins with a * period character ('.'). On Windows a file is considered hidden if it * isn't a directory and the DOS {@link DosFileAttributes#isHidden hidden} * attribute is set. * * <p> Depending on the implementation this method may require to access * the file system to determine if the file is considered hidden. * * @param path * the path to the file to test * * @return {@code true} if the file is considered hidden * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. */
public static boolean isHidden(Path path) throws IOException { return provider(path).isHidden(path); } // lazy loading of default and installed file type detectors private static class FileTypeDetectors{ static final FileTypeDetector defaultFileTypeDetector = createDefaultFileTypeDetector(); static final List<FileTypeDetector> installedDetectors = loadInstalledDetectors(); // creates the default file type detector private static FileTypeDetector createDefaultFileTypeDetector() { return AccessController .doPrivileged(new PrivilegedAction<>() { @Override public FileTypeDetector run() { return sun.nio.fs.DefaultFileTypeDetector.create(); }}); } // loads all installed file type detectors private static List<FileTypeDetector> loadInstalledDetectors() { return AccessController .doPrivileged(new PrivilegedAction<>() { @Override public List<FileTypeDetector> run() { List<FileTypeDetector> list = new ArrayList<>(); ServiceLoader<FileTypeDetector> loader = ServiceLoader .load(FileTypeDetector.class, ClassLoader.getSystemClassLoader()); for (FileTypeDetector detector: loader) { list.add(detector); } return list; }}); } }
Probes the content type of a file.

This method uses the installed FileTypeDetector implementations to probe the given file to determine its content type. Each file type detector's probeContentType is invoked, in turn, to probe the file type. If the file is recognized then the content type is returned. If the file is not recognized by any of the installed file type detectors then a system-default file type detector is invoked to guess the content type.

A given invocation of the Java virtual machine maintains a system-wide list of file type detectors. Installed file type detectors are loaded using the service-provider loading facility defined by the ServiceLoader class. Installed file type detectors are loaded using the system class loader. If the system class loader cannot be found then the platform class loader is used. File type detectors are typically installed by placing them in a JAR file on the application class path, the JAR file contains a provider-configuration file named java.nio.file.spi.FileTypeDetector in the resource directory META-INF/services, and the file lists one or more fully-qualified names of concrete subclass of FileTypeDetector that have a zero argument constructor. If the process of locating or instantiating the installed file type detectors fails then an unspecified error is thrown. The ordering that installed providers are located is implementation specific.

The return value of this method is the string form of the value of a Multipurpose Internet Mail Extension (MIME) content type as defined by RFC 2045: Multipurpose Internet Mail Extensions (MIME) Part One: Format of Internet Message Bodies. The string is guaranteed to be parsable according to the grammar in the RFC.

Params:
  • path – the path to the file to probe
Throws:
  • IOException – if an I/O error occurs
  • SecurityException – If a security manager is installed and it denies an unspecified permission required by a file type detector implementation.
Returns: The content type of the file, or null if the content type cannot be determined
/** * Probes the content type of a file. * * <p> This method uses the installed {@link FileTypeDetector} implementations * to probe the given file to determine its content type. Each file type * detector's {@link FileTypeDetector#probeContentType probeContentType} is * invoked, in turn, to probe the file type. If the file is recognized then * the content type is returned. If the file is not recognized by any of the * installed file type detectors then a system-default file type detector is * invoked to guess the content type. * * <p> A given invocation of the Java virtual machine maintains a system-wide * list of file type detectors. Installed file type detectors are loaded * using the service-provider loading facility defined by the {@link ServiceLoader} * class. Installed file type detectors are loaded using the system class * loader. If the system class loader cannot be found then the platform class * loader is used. File type detectors are typically installed * by placing them in a JAR file on the application class path, * the JAR file contains a provider-configuration file * named {@code java.nio.file.spi.FileTypeDetector} in the resource directory * {@code META-INF/services}, and the file lists one or more fully-qualified * names of concrete subclass of {@code FileTypeDetector } that have a zero * argument constructor. If the process of locating or instantiating the * installed file type detectors fails then an unspecified error is thrown. * The ordering that installed providers are located is implementation * specific. * * <p> The return value of this method is the string form of the value of a * Multipurpose Internet Mail Extension (MIME) content type as * defined by <a href="http://www.ietf.org/rfc/rfc2045.txt"><i>RFC&nbsp;2045: * Multipurpose Internet Mail Extensions (MIME) Part One: Format of Internet * Message Bodies</i></a>. The string is guaranteed to be parsable according * to the grammar in the RFC. * * @param path * the path to the file to probe * * @return The content type of the file, or {@code null} if the content * type cannot be determined * * @throws IOException * if an I/O error occurs * @throws SecurityException * If a security manager is installed and it denies an unspecified * permission required by a file type detector implementation. */
public static String probeContentType(Path path) throws IOException { // try installed file type detectors for (FileTypeDetector detector: FileTypeDetectors.installedDetectors) { String result = detector.probeContentType(path); if (result != null) return result; } // fallback to default return FileTypeDetectors.defaultFileTypeDetector.probeContentType(path); } // -- File Attributes --
Returns a file attribute view of a given type.

A file attribute view provides a read-only or updatable view of a set of file attributes. This method is intended to be used where the file attribute view defines type-safe methods to read or update the file attributes. The type parameter is the type of the attribute view required and the method returns an instance of that type if supported. The BasicFileAttributeView type supports access to the basic attributes of a file. Invoking this method to select a file attribute view of that type will always return an instance of that class.

The options array may be used to indicate how symbolic links are handled by the resulting file attribute view for the case that the file is a symbolic link. By default, symbolic links are followed. If the option NOFOLLOW_LINKS is present then symbolic links are not followed. This option is ignored by implementations that do not support symbolic links.

Usage Example: Suppose we want read or set a file's ACL, if supported:

    Path path = ...
    AclFileAttributeView view = Files.getFileAttributeView(path, AclFileAttributeView.class);
    if (view != null) {
        List<AclEntry> acl = view.getAcl();
        :
    }
Params:
  • path – the path to the file
  • type – the Class object corresponding to the file attribute view
  • options – options indicating how symbolic links are handled
Type parameters:
  • <V> – The FileAttributeView type
Returns: a file attribute view of the specified type, or null if the attribute view type is not available
/** * Returns a file attribute view of a given type. * * <p> A file attribute view provides a read-only or updatable view of a * set of file attributes. This method is intended to be used where the file * attribute view defines type-safe methods to read or update the file * attributes. The {@code type} parameter is the type of the attribute view * required and the method returns an instance of that type if supported. * The {@link BasicFileAttributeView} type supports access to the basic * attributes of a file. Invoking this method to select a file attribute * view of that type will always return an instance of that class. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled by the resulting file attribute view for the case that the * file is a symbolic link. By default, symbolic links are followed. If the * option {@link LinkOption#NOFOLLOW_LINKS NOFOLLOW_LINKS} is present then * symbolic links are not followed. This option is ignored by implementations * that do not support symbolic links. * * <p> <b>Usage Example:</b> * Suppose we want read or set a file's ACL, if supported: * <pre> * Path path = ... * AclFileAttributeView view = Files.getFileAttributeView(path, AclFileAttributeView.class); * if (view != null) { * List&lt;AclEntry&gt; acl = view.getAcl(); * : * } * </pre> * * @param <V> * The {@code FileAttributeView} type * @param path * the path to the file * @param type * the {@code Class} object corresponding to the file attribute view * @param options * options indicating how symbolic links are handled * * @return a file attribute view of the specified type, or {@code null} if * the attribute view type is not available */
public static <V extends FileAttributeView> V getFileAttributeView(Path path, Class<V> type, LinkOption... options) { return provider(path).getFileAttributeView(path, type, options); }
Reads a file's attributes as a bulk operation.

The type parameter is the type of the attributes required and this method returns an instance of that type if supported. All implementations support a basic set of file attributes and so invoking this method with a type parameter of BasicFileAttributes.class will not throw UnsupportedOperationException.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

It is implementation specific if all file attributes are read as an atomic operation with respect to other file system operations.

Usage Example: Suppose we want to read a file's attributes in bulk:

   Path path = ...
   BasicFileAttributes attrs = Files.readAttributes(path, BasicFileAttributes.class);
Alternatively, suppose we want to read file's POSIX attributes without following symbolic links:
   PosixFileAttributes attrs =
       Files.readAttributes(path, PosixFileAttributes.class, NOFOLLOW_LINKS);
Params:
  • path – the path to the file
  • type – the Class of the file attributes required to read
  • options – options indicating how symbolic links are handled
Type parameters:
  • <A> – The BasicFileAttributes type
Throws:
  • UnsupportedOperationException – if an attributes of the given type are not supported
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, a security manager is installed, its checkRead method is invoked to check read access to the file. If this method is invoked to read security sensitive attributes then the security manager may be invoke to check for additional permissions.
Returns: the file attributes
/** * Reads a file's attributes as a bulk operation. * * <p> The {@code type} parameter is the type of the attributes required * and this method returns an instance of that type if supported. All * implementations support a basic set of file attributes and so invoking * this method with a {@code type} parameter of {@code * BasicFileAttributes.class} will not throw {@code * UnsupportedOperationException}. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> It is implementation specific if all file attributes are read as an * atomic operation with respect to other file system operations. * * <p> <b>Usage Example:</b> * Suppose we want to read a file's attributes in bulk: * <pre> * Path path = ... * BasicFileAttributes attrs = Files.readAttributes(path, BasicFileAttributes.class); * </pre> * Alternatively, suppose we want to read file's POSIX attributes without * following symbolic links: * <pre> * PosixFileAttributes attrs = * Files.readAttributes(path, PosixFileAttributes.class, NOFOLLOW_LINKS); * </pre> * * @param <A> * The {@code BasicFileAttributes} type * @param path * the path to the file * @param type * the {@code Class} of the file attributes required * to read * @param options * options indicating how symbolic links are handled * * @return the file attributes * * @throws UnsupportedOperationException * if an attributes of the given type are not supported * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. If this * method is invoked to read security sensitive attributes then the * security manager may be invoke to check for additional permissions. */
public static <A extends BasicFileAttributes> A readAttributes(Path path, Class<A> type, LinkOption... options) throws IOException { return provider(path).readAttributes(path, type, options); }
Sets the value of a file attribute.

The attribute parameter identifies the attribute to be set and takes the form:

[view-name:]attribute-name
where square brackets [...] delineate an optional component and the character ':' stands for itself.

view-name is the name of a FileAttributeView that identifies a set of file attributes. If not specified then it defaults to "basic", the name of the file attribute view that identifies the basic set of file attributes common to many file systems. attribute-name is the name of the attribute within the set.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is set. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Usage Example: Suppose we want to set the DOS "hidden" attribute:

   Path path = ...
   Files.setAttribute(path, "dos:hidden", true);
Params:
  • path – the path to the file
  • attribute – the attribute to set
  • value – the attribute value
  • options – options indicating how symbolic links are handled
Throws:
  • UnsupportedOperationException – if the attribute view is not available
  • IllegalArgumentException – if the attribute name is not specified, or is not recognized, or the attribute value is of the correct type but has an inappropriate value
  • ClassCastException – if the attribute value is not of the expected type or is a collection containing elements that are not of the expected type
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkWrite method denies write access to the file. If this method is invoked to set security sensitive attributes then the security manager may be invoked to check for additional permissions.
Returns: the given path
/** * Sets the value of a file attribute. * * <p> The {@code attribute} parameter identifies the attribute to be set * and takes the form: * <blockquote> * [<i>view-name</i><b>:</b>]<i>attribute-name</i> * </blockquote> * where square brackets [...] delineate an optional component and the * character {@code ':'} stands for itself. * * <p> <i>view-name</i> is the {@link FileAttributeView#name name} of a {@link * FileAttributeView} that identifies a set of file attributes. If not * specified then it defaults to {@code "basic"}, the name of the file * attribute view that identifies the basic set of file attributes common to * many file systems. <i>attribute-name</i> is the name of the attribute * within the set. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is set. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> <b>Usage Example:</b> * Suppose we want to set the DOS "hidden" attribute: * <pre> * Path path = ... * Files.setAttribute(path, "dos:hidden", true); * </pre> * * @param path * the path to the file * @param attribute * the attribute to set * @param value * the attribute value * @param options * options indicating how symbolic links are handled * * @return the given path * * @throws UnsupportedOperationException * if the attribute view is not available * @throws IllegalArgumentException * if the attribute name is not specified, or is not recognized, or * the attribute value is of the correct type but has an * inappropriate value * @throws ClassCastException * if the attribute value is not of the expected type or is a * collection containing elements that are not of the expected * type * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkWrite(String) checkWrite} * method denies write access to the file. If this method is invoked * to set security sensitive attributes then the security manager * may be invoked to check for additional permissions. */
public static Path setAttribute(Path path, String attribute, Object value, LinkOption... options) throws IOException { provider(path).setAttribute(path, attribute, value, options); return path; }
Reads the value of a file attribute.

The attribute parameter identifies the attribute to be read and takes the form:

[view-name:]attribute-name
where square brackets [...] delineate an optional component and the character ':' stands for itself.

view-name is the name of a FileAttributeView that identifies a set of file attributes. If not specified then it defaults to "basic", the name of the file attribute view that identifies the basic set of file attributes common to many file systems. attribute-name is the name of the attribute.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Usage Example: Suppose we require the user ID of the file owner on a system that supports a "unix" view:

   Path path = ...
   int uid = (Integer)Files.getAttribute(path, "unix:uid");
Params:
  • path – the path to the file
  • attribute – the attribute to read
  • options – options indicating how symbolic links are handled
Throws:
  • UnsupportedOperationException – if the attribute view is not available
  • IllegalArgumentException – if the attribute name is not specified or is not recognized
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file. If this method is invoked to read security sensitive attributes then the security manager may be invoked to check for additional permissions.
Returns: the attribute value
/** * Reads the value of a file attribute. * * <p> The {@code attribute} parameter identifies the attribute to be read * and takes the form: * <blockquote> * [<i>view-name</i><b>:</b>]<i>attribute-name</i> * </blockquote> * where square brackets [...] delineate an optional component and the * character {@code ':'} stands for itself. * * <p> <i>view-name</i> is the {@link FileAttributeView#name name} of a {@link * FileAttributeView} that identifies a set of file attributes. If not * specified then it defaults to {@code "basic"}, the name of the file * attribute view that identifies the basic set of file attributes common to * many file systems. <i>attribute-name</i> is the name of the attribute. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> <b>Usage Example:</b> * Suppose we require the user ID of the file owner on a system that * supports a "{@code unix}" view: * <pre> * Path path = ... * int uid = (Integer)Files.getAttribute(path, "unix:uid"); * </pre> * * @param path * the path to the file * @param attribute * the attribute to read * @param options * options indicating how symbolic links are handled * * @return the attribute value * * @throws UnsupportedOperationException * if the attribute view is not available * @throws IllegalArgumentException * if the attribute name is not specified or is not recognized * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. If this method is invoked * to read security sensitive attributes then the security manager * may be invoked to check for additional permissions. */
public static Object getAttribute(Path path, String attribute, LinkOption... options) throws IOException { // only one attribute should be read if (attribute.indexOf('*') >= 0 || attribute.indexOf(',') >= 0) throw new IllegalArgumentException(attribute); Map<String,Object> map = readAttributes(path, attribute, options); assert map.size() == 1; String name; int pos = attribute.indexOf(':'); if (pos == -1) { name = attribute; } else { name = (pos == attribute.length()) ? "" : attribute.substring(pos+1); } return map.get(name); }
Reads a set of file attributes as a bulk operation.

The attributes parameter identifies the attributes to be read and takes the form:

[view-name:]attribute-list
where square brackets [...] delineate an optional component and the character ':' stands for itself.

view-name is the name of a FileAttributeView that identifies a set of file attributes. If not specified then it defaults to "basic", the name of the file attribute view that identifies the basic set of file attributes common to many file systems.

The attribute-list component is a comma separated list of one or more names of attributes to read. If the list contains the value "*" then all attributes are read. Attributes that are not supported are ignored and will not be present in the returned map. It is implementation specific if all attributes are read as an atomic operation with respect to other file system operations.

The following examples demonstrate possible values for the attributes parameter:

Possible values
Example Description
"*" Read all basic-file-attributes.
"size,lastModifiedTime,lastAccessTime" Reads the file size, last modified time, and last access time attributes.
"posix:*" Read all POSIX-file-attributes.
"posix:permissions,owner,size" Reads the POSIX file permissions, owner, and file size.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Params:
  • path – the path to the file
  • attributes – the attributes to read
  • options – options indicating how symbolic links are handled
Throws:
  • UnsupportedOperationException – if the attribute view is not available
  • IllegalArgumentException – if no attributes are specified or an unrecognized attribute is specified
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file. If this method is invoked to read security sensitive attributes then the security manager may be invoke to check for additional permissions.
Returns: a map of the attributes returned; The map's keys are the attribute names, its values are the attribute values
/** * Reads a set of file attributes as a bulk operation. * * <p> The {@code attributes} parameter identifies the attributes to be read * and takes the form: * <blockquote> * [<i>view-name</i><b>:</b>]<i>attribute-list</i> * </blockquote> * where square brackets [...] delineate an optional component and the * character {@code ':'} stands for itself. * * <p> <i>view-name</i> is the {@link FileAttributeView#name name} of a {@link * FileAttributeView} that identifies a set of file attributes. If not * specified then it defaults to {@code "basic"}, the name of the file * attribute view that identifies the basic set of file attributes common to * many file systems. * * <p> The <i>attribute-list</i> component is a comma separated list of * one or more names of attributes to read. If the list contains the value * {@code "*"} then all attributes are read. Attributes that are not supported * are ignored and will not be present in the returned map. It is * implementation specific if all attributes are read as an atomic operation * with respect to other file system operations. * * <p> The following examples demonstrate possible values for the {@code * attributes} parameter: * * <table class="striped" style="text-align: left; margin-left:2em"> * <caption style="display:none">Possible values</caption> * <thead> * <tr> * <th scope="col">Example * <th scope="col">Description * </thead> * <tbody> * <tr> * <th scope="row"> {@code "*"} </th> * <td> Read all {@link BasicFileAttributes basic-file-attributes}. </td> * </tr> * <tr> * <th scope="row"> {@code "size,lastModifiedTime,lastAccessTime"} </th> * <td> Reads the file size, last modified time, and last access time * attributes. </td> * </tr> * <tr> * <th scope="row"> {@code "posix:*"} </th> * <td> Read all {@link PosixFileAttributes POSIX-file-attributes}. </td> * </tr> * <tr> * <th scope="row"> {@code "posix:permissions,owner,size"} </th> * <td> Reads the POSIX file permissions, owner, and file size. </td> * </tr> * </tbody> * </table> * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * @param path * the path to the file * @param attributes * the attributes to read * @param options * options indicating how symbolic links are handled * * @return a map of the attributes returned; The map's keys are the * attribute names, its values are the attribute values * * @throws UnsupportedOperationException * if the attribute view is not available * @throws IllegalArgumentException * if no attributes are specified or an unrecognized attribute is * specified * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. If this method is invoked * to read security sensitive attributes then the security manager * may be invoke to check for additional permissions. */
public static Map<String,Object> readAttributes(Path path, String attributes, LinkOption... options) throws IOException { return provider(path).readAttributes(path, attributes, options); }
Returns a file's POSIX file permissions.

The path parameter is associated with a FileSystem that supports the PosixFileAttributeView. This attribute view provides access to file attributes commonly associated with files on file systems used by operating systems that implement the Portable Operating System Interface (POSIX) family of standards.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Params:
  • path – the path to the file
  • options – options indicating how symbolic links are handled
Throws:
Returns: the file permissions
/** * Returns a file's POSIX file permissions. * * <p> The {@code path} parameter is associated with a {@code FileSystem} * that supports the {@link PosixFileAttributeView}. This attribute view * provides access to file attributes commonly associated with files on file * systems used by operating systems that implement the Portable Operating * System Interface (POSIX) family of standards. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * @param path * the path to the file * @param options * options indicating how symbolic links are handled * * @return the file permissions * * @throws UnsupportedOperationException * if the associated file system does not support the {@code * PosixFileAttributeView} * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, a security manager is * installed, and it denies * {@link RuntimePermission}{@code ("accessUserInformation")} * or its {@link SecurityManager#checkRead(String) checkRead} method * denies read access to the file. */
public static Set<PosixFilePermission> getPosixFilePermissions(Path path, LinkOption... options) throws IOException { return readAttributes(path, PosixFileAttributes.class, options).permissions(); }
Sets a file's POSIX permissions.

The path parameter is associated with a FileSystem that supports the PosixFileAttributeView. This attribute view provides access to file attributes commonly associated with files on file systems used by operating systems that implement the Portable Operating System Interface (POSIX) family of standards.

Params:
  • path – The path to the file
  • perms – The new set of permissions
Throws:
Returns: The given path
/** * Sets a file's POSIX permissions. * * <p> The {@code path} parameter is associated with a {@code FileSystem} * that supports the {@link PosixFileAttributeView}. This attribute view * provides access to file attributes commonly associated with files on file * systems used by operating systems that implement the Portable Operating * System Interface (POSIX) family of standards. * * @param path * The path to the file * @param perms * The new set of permissions * * @return The given path * * @throws UnsupportedOperationException * if the associated file system does not support the {@code * PosixFileAttributeView} * @throws ClassCastException * if the sets contains elements that are not of type {@code * PosixFilePermission} * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, it denies * {@link RuntimePermission}{@code ("accessUserInformation")} * or its {@link SecurityManager#checkWrite(String) checkWrite} * method denies write access to the file. */
public static Path setPosixFilePermissions(Path path, Set<PosixFilePermission> perms) throws IOException { PosixFileAttributeView view = getFileAttributeView(path, PosixFileAttributeView.class); if (view == null) throw new UnsupportedOperationException(); view.setPermissions(perms); return path; }
Returns the owner of a file.

The path parameter is associated with a file system that supports FileOwnerAttributeView. This file attribute view provides access to a file attribute that is the owner of the file.

Params:
  • path – The path to the file
  • options – options indicating how symbolic links are handled
Throws:
Returns: A user principal representing the owner of the file
/** * Returns the owner of a file. * * <p> The {@code path} parameter is associated with a file system that * supports {@link FileOwnerAttributeView}. This file attribute view provides * access to a file attribute that is the owner of the file. * * @param path * The path to the file * @param options * options indicating how symbolic links are handled * * @return A user principal representing the owner of the file * * @throws UnsupportedOperationException * if the associated file system does not support the {@code * FileOwnerAttributeView} * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, it denies * {@link RuntimePermission}{@code ("accessUserInformation")} * or its {@link SecurityManager#checkRead(String) checkRead} method * denies read access to the file. */
public static UserPrincipal getOwner(Path path, LinkOption... options) throws IOException { FileOwnerAttributeView view = getFileAttributeView(path, FileOwnerAttributeView.class, options); if (view == null) throw new UnsupportedOperationException(); return view.getOwner(); }
Updates the file owner.

The path parameter is associated with a file system that supports FileOwnerAttributeView. This file attribute view provides access to a file attribute that is the owner of the file.

Usage Example: Suppose we want to make "joe" the owner of a file:

    Path path = ...
    UserPrincipalLookupService lookupService =
        provider(path).getUserPrincipalLookupService();
    UserPrincipal joe = lookupService.lookupPrincipalByName("joe");
    Files.setOwner(path, joe);
Params:
  • path – The path to the file
  • owner – The new file owner
Throws:
See Also:
Returns: The given path
/** * Updates the file owner. * * <p> The {@code path} parameter is associated with a file system that * supports {@link FileOwnerAttributeView}. This file attribute view provides * access to a file attribute that is the owner of the file. * * <p> <b>Usage Example:</b> * Suppose we want to make "joe" the owner of a file: * <pre> * Path path = ... * UserPrincipalLookupService lookupService = * provider(path).getUserPrincipalLookupService(); * UserPrincipal joe = lookupService.lookupPrincipalByName("joe"); * Files.setOwner(path, joe); * </pre> * * @param path * The path to the file * @param owner * The new file owner * * @return The given path * * @throws UnsupportedOperationException * if the associated file system does not support the {@code * FileOwnerAttributeView} * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, it denies * {@link RuntimePermission}{@code ("accessUserInformation")} * or its {@link SecurityManager#checkWrite(String) checkWrite} * method denies write access to the file. * * @see FileSystem#getUserPrincipalLookupService * @see java.nio.file.attribute.UserPrincipalLookupService */
public static Path setOwner(Path path, UserPrincipal owner) throws IOException { FileOwnerAttributeView view = getFileAttributeView(path, FileOwnerAttributeView.class); if (view == null) throw new UnsupportedOperationException(); view.setOwner(owner); return path; }
Tests whether a file is a symbolic link.

Where it is required to distinguish an I/O exception from the case that the file is not a symbolic link then the file attributes can be read with the readAttributes method and the file type tested with the BasicFileAttributes.isSymbolicLink method.

Params:
  • path – The path to the file
Throws:
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file.
Returns: true if the file is a symbolic link; false if the file does not exist, is not a symbolic link, or it cannot be determined if the file is a symbolic link or not.
/** * Tests whether a file is a symbolic link. * * <p> Where it is required to distinguish an I/O exception from the case * that the file is not a symbolic link then the file attributes can be * read with the {@link #readAttributes(Path,Class,LinkOption[]) * readAttributes} method and the file type tested with the {@link * BasicFileAttributes#isSymbolicLink} method. * * @param path The path to the file * * @return {@code true} if the file is a symbolic link; {@code false} if * the file does not exist, is not a symbolic link, or it cannot * be determined if the file is a symbolic link or not. * * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. */
public static boolean isSymbolicLink(Path path) { try { return readAttributes(path, BasicFileAttributes.class, LinkOption.NOFOLLOW_LINKS).isSymbolicLink(); } catch (IOException ioe) { return false; } }
Tests whether a file is a directory.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Where it is required to distinguish an I/O exception from the case that the file is not a directory then the file attributes can be read with the readAttributes method and the file type tested with the BasicFileAttributes.isDirectory method.

Params:
  • path – the path to the file to test
  • options – options indicating how symbolic links are handled
Throws:
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file.
Returns: true if the file is a directory; false if the file does not exist, is not a directory, or it cannot be determined if the file is a directory or not.
/** * Tests whether a file is a directory. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> Where it is required to distinguish an I/O exception from the case * that the file is not a directory then the file attributes can be * read with the {@link #readAttributes(Path,Class,LinkOption[]) * readAttributes} method and the file type tested with the {@link * BasicFileAttributes#isDirectory} method. * * @param path * the path to the file to test * @param options * options indicating how symbolic links are handled * * @return {@code true} if the file is a directory; {@code false} if * the file does not exist, is not a directory, or it cannot * be determined if the file is a directory or not. * * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. */
public static boolean isDirectory(Path path, LinkOption... options) { if (options.length == 0) { FileSystemProvider provider = provider(path); if (provider instanceof AbstractFileSystemProvider) return ((AbstractFileSystemProvider)provider).isDirectory(path); } try { return readAttributes(path, BasicFileAttributes.class, options).isDirectory(); } catch (IOException ioe) { return false; } }
Tests whether a file is a regular file with opaque content.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Where it is required to distinguish an I/O exception from the case that the file is not a regular file then the file attributes can be read with the readAttributes method and the file type tested with the BasicFileAttributes.isRegularFile method.

Params:
  • path – the path to the file
  • options – options indicating how symbolic links are handled
Throws:
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file.
Returns: true if the file is a regular file; false if the file does not exist, is not a regular file, or it cannot be determined if the file is a regular file or not.
/** * Tests whether a file is a regular file with opaque content. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> Where it is required to distinguish an I/O exception from the case * that the file is not a regular file then the file attributes can be * read with the {@link #readAttributes(Path,Class,LinkOption[]) * readAttributes} method and the file type tested with the {@link * BasicFileAttributes#isRegularFile} method. * * @param path * the path to the file * @param options * options indicating how symbolic links are handled * * @return {@code true} if the file is a regular file; {@code false} if * the file does not exist, is not a regular file, or it * cannot be determined if the file is a regular file or not. * * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. */
public static boolean isRegularFile(Path path, LinkOption... options) { if (options.length == 0) { FileSystemProvider provider = provider(path); if (provider instanceof AbstractFileSystemProvider) return ((AbstractFileSystemProvider)provider).isRegularFile(path); } try { return readAttributes(path, BasicFileAttributes.class, options).isRegularFile(); } catch (IOException ioe) { return false; } }
Returns a file's last modified time.

The options array may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed and the file attribute of the final target of the link is read. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Params:
  • path – the path to the file
  • options – options indicating how symbolic links are handled
Throws:
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file.
See Also:
Returns: a FileTime representing the time the file was last modified, or an implementation specific default when a time stamp to indicate the time of last modification is not supported by the file system
/** * Returns a file's last modified time. * * <p> The {@code options} array may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed and the file attribute of the final target * of the link is read. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * @param path * the path to the file * @param options * options indicating how symbolic links are handled * * @return a {@code FileTime} representing the time the file was last * modified, or an implementation specific default when a time * stamp to indicate the time of last modification is not supported * by the file system * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. * * @see BasicFileAttributes#lastModifiedTime */
public static FileTime getLastModifiedTime(Path path, LinkOption... options) throws IOException { return readAttributes(path, BasicFileAttributes.class, options).lastModifiedTime(); }
Updates a file's last modified time attribute. The file time is converted to the epoch and precision supported by the file system. Converting from finer to coarser granularities result in precision loss. The behavior of this method when attempting to set the last modified time when it is not supported by the file system or is outside the range supported by the underlying file store is not defined. It may or not fail by throwing an IOException.

Usage Example: Suppose we want to set the last modified time to the current time:

   Path path = ...
   FileTime now = FileTime.fromMillis(System.currentTimeMillis());
   Files.setLastModifiedTime(path, now);
Params:
  • path – the path to the file
  • time – the new last modified time
Throws:
See Also:
Returns: the given path
/** * Updates a file's last modified time attribute. The file time is converted * to the epoch and precision supported by the file system. Converting from * finer to coarser granularities result in precision loss. The behavior of * this method when attempting to set the last modified time when it is not * supported by the file system or is outside the range supported by the * underlying file store is not defined. It may or not fail by throwing an * {@code IOException}. * * <p> <b>Usage Example:</b> * Suppose we want to set the last modified time to the current time: * <pre> * Path path = ... * FileTime now = FileTime.fromMillis(System.currentTimeMillis()); * Files.setLastModifiedTime(path, now); * </pre> * * @param path * the path to the file * @param time * the new last modified time * * @return the given path * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkWrite(String) * checkWrite} method denies write access to the file. * * @see BasicFileAttributeView#setTimes */
public static Path setLastModifiedTime(Path path, FileTime time) throws IOException { getFileAttributeView(path, BasicFileAttributeView.class) .setTimes(Objects.requireNonNull(time), null, null); return path; }
Returns the size of a file (in bytes). The size may differ from the actual size on the file system due to compression, support for sparse files, or other reasons. The size of files that are not regular files is implementation specific and therefore unspecified.
Params:
  • path – the path to the file
Throws:
  • IOException – if an I/O error occurs
  • SecurityException – In the case of the default provider, and a security manager is installed, its checkRead method denies read access to the file.
See Also:
Returns: the file size, in bytes
/** * Returns the size of a file (in bytes). The size may differ from the * actual size on the file system due to compression, support for sparse * files, or other reasons. The size of files that are not {@link * #isRegularFile regular} files is implementation specific and * therefore unspecified. * * @param path * the path to the file * * @return the file size, in bytes * * @throws IOException * if an I/O error occurs * @throws SecurityException * In the case of the default provider, and a security manager is * installed, its {@link SecurityManager#checkRead(String) checkRead} * method denies read access to the file. * * @see BasicFileAttributes#size */
public static long size(Path path) throws IOException { return readAttributes(path, BasicFileAttributes.class).size(); } // -- Accessibility --
Returns false if NOFOLLOW_LINKS is present.
/** * Returns {@code false} if NOFOLLOW_LINKS is present. */
private static boolean followLinks(LinkOption... options) { boolean followLinks = true; for (LinkOption opt: options) { if (opt == LinkOption.NOFOLLOW_LINKS) { followLinks = false; continue; } if (opt == null) throw new NullPointerException(); throw new AssertionError("Should not get here"); } return followLinks; }
Tests whether a file exists.

The options parameter may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Note that the result of this method is immediately outdated. If this method indicates the file exists then there is no guarantee that a subsequent access will succeed. Care should be taken when using this method in security sensitive applications.

Params:
  • path – the path to the file to test
  • options – options indicating how symbolic links are handled .
Throws:
See Also:
Returns: true if the file exists; false if the file does not exist or its existence cannot be determined.
/** * Tests whether a file exists. * * <p> The {@code options} parameter may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> Note that the result of this method is immediately outdated. If this * method indicates the file exists then there is no guarantee that a * subsequent access will succeed. Care should be taken when using this * method in security sensitive applications. * * @param path * the path to the file to test * @param options * options indicating how symbolic links are handled * . * @return {@code true} if the file exists; {@code false} if the file does * not exist or its existence cannot be determined. * * @throws SecurityException * In the case of the default provider, the {@link * SecurityManager#checkRead(String)} is invoked to check * read access to the file. * * @see #notExists */
public static boolean exists(Path path, LinkOption... options) { if (options.length == 0) { FileSystemProvider provider = provider(path); if (provider instanceof AbstractFileSystemProvider) return ((AbstractFileSystemProvider)provider).exists(path); } try { if (followLinks(options)) { provider(path).checkAccess(path); } else { // attempt to read attributes without following links readAttributes(path, BasicFileAttributes.class, LinkOption.NOFOLLOW_LINKS); } // file exists return true; } catch (IOException x) { // does not exist or unable to determine if file exists return false; } }
Tests whether the file located by this path does not exist. This method is intended for cases where it is required to take action when it can be confirmed that a file does not exist.

The options parameter may be used to indicate how symbolic links are handled for the case that the file is a symbolic link. By default, symbolic links are followed. If the option NOFOLLOW_LINKS is present then symbolic links are not followed.

Note that this method is not the complement of the exists method. Where it is not possible to determine if a file exists or not then both methods return false. As with the exists method, the result of this method is immediately outdated. If this method indicates the file does exist then there is no guarantee that a subsequent attempt to create the file will succeed. Care should be taken when using this method in security sensitive applications.

Params:
  • path – the path to the file to test
  • options – options indicating how symbolic links are handled
Throws:
Returns: true if the file does not exist; false if the file exists or its existence cannot be determined
/** * Tests whether the file located by this path does not exist. This method * is intended for cases where it is required to take action when it can be * confirmed that a file does not exist. * * <p> The {@code options} parameter may be used to indicate how symbolic links * are handled for the case that the file is a symbolic link. By default, * symbolic links are followed. If the option {@link LinkOption#NOFOLLOW_LINKS * NOFOLLOW_LINKS} is present then symbolic links are not followed. * * <p> Note that this method is not the complement of the {@link #exists * exists} method. Where it is not possible to determine if a file exists * or not then both methods return {@code false}. As with the {@code exists} * method, the result of this method is immediately outdated. If this * method indicates the file does exist then there is no guarantee that a * subsequent attempt to create the file will succeed. Care should be taken * when using this method in security sensitive applications. * * @param path * the path to the file to test * @param options * options indicating how symbolic links are handled * * @return {@code true} if the file does not exist; {@code false} if the * file exists or its existence cannot be determined * * @throws SecurityException * In the case of the default provider, the {@link * SecurityManager#checkRead(String)} is invoked to check * read access to the file. */
public static boolean notExists(Path path, LinkOption... options) { try { if (followLinks(options)) { provider(path).checkAccess(path); } else { // attempt to read attributes without following links readAttributes(path, BasicFileAttributes.class, LinkOption.NOFOLLOW_LINKS); } // file exists return false; } catch (NoSuchFileException x) { // file confirmed not to exist return true; } catch (IOException x) { return false; } }
Used by isReadable, isWritable, isExecutable to test access to a file.
/** * Used by isReadable, isWritable, isExecutable to test access to a file. */
private static boolean isAccessible(Path path, AccessMode... modes) { try { provider(path).checkAccess(path, modes); return true; } catch (IOException x) { return false; } }
Tests whether a file is readable. This method checks that a file exists and that this Java virtual machine has appropriate privileges that would allow it open the file for reading. Depending on the implementation, this method may require to read file permissions, access control lists, or other file attributes in order to check the effective access to the file. Consequently, this method may not be atomic with respect to other file system operations.

Note that the result of this method is immediately outdated, there is no guarantee that a subsequent attempt to open the file for reading will succeed (or even that it will access the same file). Care should be taken when using this method in security sensitive applications.

Params:
  • path – the path to the file to check
Throws:
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead is invoked to check read access to the file.
Returns: true if the file exists and is readable; false if the file does not exist, read access would be denied because the Java virtual machine has insufficient privileges, or access cannot be determined
/** * Tests whether a file is readable. This method checks that a file exists * and that this Java virtual machine has appropriate privileges that would * allow it open the file for reading. Depending on the implementation, this * method may require to read file permissions, access control lists, or * other file attributes in order to check the effective access to the file. * Consequently, this method may not be atomic with respect to other file * system operations. * * <p> Note that the result of this method is immediately outdated, there is * no guarantee that a subsequent attempt to open the file for reading will * succeed (or even that it will access the same file). Care should be taken * when using this method in security sensitive applications. * * @param path * the path to the file to check * * @return {@code true} if the file exists and is readable; {@code false} * if the file does not exist, read access would be denied because * the Java virtual machine has insufficient privileges, or access * cannot be determined * * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * is invoked to check read access to the file. */
public static boolean isReadable(Path path) { return isAccessible(path, AccessMode.READ); }
Tests whether a file is writable. This method checks that a file exists and that this Java virtual machine has appropriate privileges that would allow it open the file for writing. Depending on the implementation, this method may require to read file permissions, access control lists, or other file attributes in order to check the effective access to the file. Consequently, this method may not be atomic with respect to other file system operations.

Note that result of this method is immediately outdated, there is no guarantee that a subsequent attempt to open the file for writing will succeed (or even that it will access the same file). Care should be taken when using this method in security sensitive applications.

Params:
  • path – the path to the file to check
Throws:
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite is invoked to check write access to the file.
Returns: true if the file exists and is writable; false if the file does not exist, write access would be denied because the Java virtual machine has insufficient privileges, or access cannot be determined
/** * Tests whether a file is writable. This method checks that a file exists * and that this Java virtual machine has appropriate privileges that would * allow it open the file for writing. Depending on the implementation, this * method may require to read file permissions, access control lists, or * other file attributes in order to check the effective access to the file. * Consequently, this method may not be atomic with respect to other file * system operations. * * <p> Note that result of this method is immediately outdated, there is no * guarantee that a subsequent attempt to open the file for writing will * succeed (or even that it will access the same file). Care should be taken * when using this method in security sensitive applications. * * @param path * the path to the file to check * * @return {@code true} if the file exists and is writable; {@code false} * if the file does not exist, write access would be denied because * the Java virtual machine has insufficient privileges, or access * cannot be determined * * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * is invoked to check write access to the file. */
public static boolean isWritable(Path path) { return isAccessible(path, AccessMode.WRITE); }
Tests whether a file is executable. This method checks that a file exists and that this Java virtual machine has appropriate privileges to execute the file. The semantics may differ when checking access to a directory. For example, on UNIX systems, checking for execute access checks that the Java virtual machine has permission to search the directory in order to access file or subdirectories.

Depending on the implementation, this method may require to read file permissions, access control lists, or other file attributes in order to check the effective access to the file. Consequently, this method may not be atomic with respect to other file system operations.

Note that the result of this method is immediately outdated, there is no guarantee that a subsequent attempt to execute the file will succeed (or even that it will access the same file). Care should be taken when using this method in security sensitive applications.

Params:
  • path – the path to the file to check
Throws:
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkExec is invoked to check execute access to the file.
Returns: true if the file exists and is executable; false if the file does not exist, execute access would be denied because the Java virtual machine has insufficient privileges, or access cannot be determined
/** * Tests whether a file is executable. This method checks that a file exists * and that this Java virtual machine has appropriate privileges to {@link * Runtime#exec execute} the file. The semantics may differ when checking * access to a directory. For example, on UNIX systems, checking for * execute access checks that the Java virtual machine has permission to * search the directory in order to access file or subdirectories. * * <p> Depending on the implementation, this method may require to read file * permissions, access control lists, or other file attributes in order to * check the effective access to the file. Consequently, this method may not * be atomic with respect to other file system operations. * * <p> Note that the result of this method is immediately outdated, there is * no guarantee that a subsequent attempt to execute the file will succeed * (or even that it will access the same file). Care should be taken when * using this method in security sensitive applications. * * @param path * the path to the file to check * * @return {@code true} if the file exists and is executable; {@code false} * if the file does not exist, execute access would be denied because * the Java virtual machine has insufficient privileges, or access * cannot be determined * * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkExec(String) * checkExec} is invoked to check execute access to the file. */
public static boolean isExecutable(Path path) { return isAccessible(path, AccessMode.EXECUTE); } // -- Recursive operations --
Walks a file tree.

This method walks a file tree rooted at a given starting file. The file tree traversal is depth-first with the given FileVisitor invoked for each file encountered. File tree traversal completes when all accessible files in the tree have been visited, or a visit method returns a result of TERMINATE. Where a visit method terminates due an IOException, an uncaught error, or runtime exception, then the traversal is terminated and the error or exception is propagated to the caller of this method.

For each file encountered this method attempts to read its BasicFileAttributes. If the file is not a directory then the visitFile method is invoked with the file attributes. If the file attributes cannot be read, due to an I/O exception, then the visitFileFailed method is invoked with the I/O exception.

Where the file is a directory, and the directory could not be opened, then the visitFileFailed method is invoked with the I/O exception, after which, the file tree walk continues, by default, at the next sibling of the directory.

Where the directory is opened successfully, then the entries in the directory, and their descendants are visited. When all entries have been visited, or an I/O error occurs during iteration of the directory, then the directory is closed and the visitor's postVisitDirectory method is invoked. The file tree walk then continues, by default, at the next sibling of the directory.

By default, symbolic links are not automatically followed by this method. If the options parameter contains the FOLLOW_LINKS option then symbolic links are followed. When following links, and the attributes of the target cannot be read, then this method attempts to get the BasicFileAttributes of the link. If they can be read then the visitFile method is invoked with the attributes of the link (otherwise the visitFileFailed method is invoked as specified above).

If the options parameter contains the FOLLOW_LINKS option then this method keeps track of directories visited so that cycles can be detected. A cycle arises when there is an entry in a directory that is an ancestor of the directory. Cycle detection is done by recording the file-key of directories, or if file keys are not available, by invoking the isSameFile method to test if a directory is the same file as an ancestor. When a cycle is detected it is treated as an I/O error, and the visitFileFailed method is invoked with an instance of FileSystemLoopException.

The maxDepth parameter is the maximum number of levels of directories to visit. A value of 0 means that only the starting file is visited, unless denied by the security manager. A value of MAX_VALUE may be used to indicate that all levels should be visited. The visitFile method is invoked for all files, including directories, encountered at maxDepth, unless the basic file attributes cannot be read, in which case the visitFileFailed method is invoked.

If a visitor returns a result of null then NullPointerException is thrown.

When a security manager is installed and it denies access to a file (or directory), then it is ignored and the visitor is not invoked for that file (or directory).

Params:
  • start – the starting file
  • options – options to configure the traversal
  • maxDepth – the maximum number of directory levels to visit
  • visitor – the file visitor to invoke for each file
Throws:
  • IllegalArgumentException – if the maxDepth parameter is negative
  • SecurityException – If the security manager denies access to the starting file. In the case of the default provider, the checkRead method is invoked to check read access to the directory.
  • IOException – if an I/O error is thrown by a visitor method
Returns: the starting file
/** * Walks a file tree. * * <p> This method walks a file tree rooted at a given starting file. The * file tree traversal is <em>depth-first</em> with the given {@link * FileVisitor} invoked for each file encountered. File tree traversal * completes when all accessible files in the tree have been visited, or a * visit method returns a result of {@link FileVisitResult#TERMINATE * TERMINATE}. Where a visit method terminates due an {@code IOException}, * an uncaught error, or runtime exception, then the traversal is terminated * and the error or exception is propagated to the caller of this method. * * <p> For each file encountered this method attempts to read its {@link * java.nio.file.attribute.BasicFileAttributes}. If the file is not a * directory then the {@link FileVisitor#visitFile visitFile} method is * invoked with the file attributes. If the file attributes cannot be read, * due to an I/O exception, then the {@link FileVisitor#visitFileFailed * visitFileFailed} method is invoked with the I/O exception. * * <p> Where the file is a directory, and the directory could not be opened, * then the {@code visitFileFailed} method is invoked with the I/O exception, * after which, the file tree walk continues, by default, at the next * <em>sibling</em> of the directory. * * <p> Where the directory is opened successfully, then the entries in the * directory, and their <em>descendants</em> are visited. When all entries * have been visited, or an I/O error occurs during iteration of the * directory, then the directory is closed and the visitor's {@link * FileVisitor#postVisitDirectory postVisitDirectory} method is invoked. * The file tree walk then continues, by default, at the next <em>sibling</em> * of the directory. * * <p> By default, symbolic links are not automatically followed by this * method. If the {@code options} parameter contains the {@link * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then symbolic links are * followed. When following links, and the attributes of the target cannot * be read, then this method attempts to get the {@code BasicFileAttributes} * of the link. If they can be read then the {@code visitFile} method is * invoked with the attributes of the link (otherwise the {@code visitFileFailed} * method is invoked as specified above). * * <p> If the {@code options} parameter contains the {@link * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then this method keeps * track of directories visited so that cycles can be detected. A cycle * arises when there is an entry in a directory that is an ancestor of the * directory. Cycle detection is done by recording the {@link * java.nio.file.attribute.BasicFileAttributes#fileKey file-key} of directories, * or if file keys are not available, by invoking the {@link #isSameFile * isSameFile} method to test if a directory is the same file as an * ancestor. When a cycle is detected it is treated as an I/O error, and the * {@link FileVisitor#visitFileFailed visitFileFailed} method is invoked with * an instance of {@link FileSystemLoopException}. * * <p> The {@code maxDepth} parameter is the maximum number of levels of * directories to visit. A value of {@code 0} means that only the starting * file is visited, unless denied by the security manager. A value of * {@link Integer#MAX_VALUE MAX_VALUE} may be used to indicate that all * levels should be visited. The {@code visitFile} method is invoked for all * files, including directories, encountered at {@code maxDepth}, unless the * basic file attributes cannot be read, in which case the {@code * visitFileFailed} method is invoked. * * <p> If a visitor returns a result of {@code null} then {@code * NullPointerException} is thrown. * * <p> When a security manager is installed and it denies access to a file * (or directory), then it is ignored and the visitor is not invoked for * that file (or directory). * * @param start * the starting file * @param options * options to configure the traversal * @param maxDepth * the maximum number of directory levels to visit * @param visitor * the file visitor to invoke for each file * * @return the starting file * * @throws IllegalArgumentException * if the {@code maxDepth} parameter is negative * @throws SecurityException * If the security manager denies access to the starting file. * In the case of the default provider, the {@link * SecurityManager#checkRead(String) checkRead} method is invoked * to check read access to the directory. * @throws IOException * if an I/O error is thrown by a visitor method */
public static Path walkFileTree(Path start, Set<FileVisitOption> options, int maxDepth, FileVisitor<? super Path> visitor) throws IOException { /** * Create a FileTreeWalker to walk the file tree, invoking the visitor * for each event. */ try (FileTreeWalker walker = new FileTreeWalker(options, maxDepth)) { FileTreeWalker.Event ev = walker.walk(start); do { FileVisitResult result; switch (ev.type()) { case ENTRY : IOException ioe = ev.ioeException(); if (ioe == null) { assert ev.attributes() != null; result = visitor.visitFile(ev.file(), ev.attributes()); } else { result = visitor.visitFileFailed(ev.file(), ioe); } break; case START_DIRECTORY : result = visitor.preVisitDirectory(ev.file(), ev.attributes()); // if SKIP_SIBLINGS and SKIP_SUBTREE is returned then // there shouldn't be any more events for the current // directory. if (result == FileVisitResult.SKIP_SUBTREE || result == FileVisitResult.SKIP_SIBLINGS) walker.pop(); break; case END_DIRECTORY : result = visitor.postVisitDirectory(ev.file(), ev.ioeException()); // SKIP_SIBLINGS is a no-op for postVisitDirectory if (result == FileVisitResult.SKIP_SIBLINGS) result = FileVisitResult.CONTINUE; break; default : throw new AssertionError("Should not get here"); } if (Objects.requireNonNull(result) != FileVisitResult.CONTINUE) { if (result == FileVisitResult.TERMINATE) { break; } else if (result == FileVisitResult.SKIP_SIBLINGS) { walker.skipRemainingSiblings(); } } ev = walker.next(); } while (ev != null); } return start; }
Walks a file tree.

This method works as if invoking it were equivalent to evaluating the expression:

walkFileTree(start, EnumSet.noneOf(FileVisitOption.class), Integer.MAX_VALUE, visitor)
In other words, it does not follow symbolic links, and visits all levels of the file tree.
Params:
  • start – the starting file
  • visitor – the file visitor to invoke for each file
Throws:
  • SecurityException – If the security manager denies access to the starting file. In the case of the default provider, the checkRead method is invoked to check read access to the directory.
  • IOException – if an I/O error is thrown by a visitor method
Returns: the starting file
/** * Walks a file tree. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <blockquote><pre> * walkFileTree(start, EnumSet.noneOf(FileVisitOption.class), Integer.MAX_VALUE, visitor) * </pre></blockquote> * In other words, it does not follow symbolic links, and visits all levels * of the file tree. * * @param start * the starting file * @param visitor * the file visitor to invoke for each file * * @return the starting file * * @throws SecurityException * If the security manager denies access to the starting file. * In the case of the default provider, the {@link * SecurityManager#checkRead(String) checkRead} method is invoked * to check read access to the directory. * @throws IOException * if an I/O error is thrown by a visitor method */
public static Path walkFileTree(Path start, FileVisitor<? super Path> visitor) throws IOException { return walkFileTree(start, EnumSet.noneOf(FileVisitOption.class), Integer.MAX_VALUE, visitor); } // -- Utility methods for simple usages --
Opens a file for reading, returning a BufferedReader that may be used to read text from the file in an efficient manner. Bytes from the file are decoded into characters using the specified charset. Reading commences at the beginning of the file.

The Reader methods that read from the file throw IOException if a malformed or unmappable byte sequence is read.

Params:
  • path – the path to the file
  • cs – the charset to use for decoding
Throws:
  • IOException – if an I/O error occurs opening the file
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
See Also:
Returns: a new buffered reader, with default buffer size, to read text from the file
/** * Opens a file for reading, returning a {@code BufferedReader} that may be * used to read text from the file in an efficient manner. Bytes from the * file are decoded into characters using the specified charset. Reading * commences at the beginning of the file. * * <p> The {@code Reader} methods that read from the file throw {@code * IOException} if a malformed or unmappable byte sequence is read. * * @param path * the path to the file * @param cs * the charset to use for decoding * * @return a new buffered reader, with default buffer size, to read text * from the file * * @throws IOException * if an I/O error occurs opening the file * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @see #readAllLines */
public static BufferedReader newBufferedReader(Path path, Charset cs) throws IOException { CharsetDecoder decoder = cs.newDecoder(); Reader reader = new InputStreamReader(newInputStream(path), decoder); return new BufferedReader(reader); }
Opens a file for reading, returning a BufferedReader to read text from the file in an efficient manner. Bytes from the file are decoded into characters using the UTF-8 charset.

This method works as if invoking it were equivalent to evaluating the expression:


Files.newBufferedReader(path, StandardCharsets.UTF_8)
Params:
  • path – the path to the file
Throws:
  • IOException – if an I/O error occurs opening the file
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
Returns: a new buffered reader, with default buffer size, to read text from the file
Since:1.8
/** * Opens a file for reading, returning a {@code BufferedReader} to read text * from the file in an efficient manner. Bytes from the file are decoded into * characters using the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset * charset}. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <pre>{@code * Files.newBufferedReader(path, StandardCharsets.UTF_8) * }</pre> * * @param path * the path to the file * * @return a new buffered reader, with default buffer size, to read text * from the file * * @throws IOException * if an I/O error occurs opening the file * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @since 1.8 */
public static BufferedReader newBufferedReader(Path path) throws IOException { return newBufferedReader(path, StandardCharsets.UTF_8); }
Opens or creates a file for writing, returning a BufferedWriter that may be used to write text to the file in an efficient manner. The options parameter specifies how the file is created or opened. If no options are present then this method works as if the CREATE, TRUNCATE_EXISTING, and WRITE options are present. In other words, it opens the file for writing, creating the file if it doesn't exist, or initially truncating an existing regular-file to a size of 0 if it exists.

The Writer methods to write text throw IOException if the text cannot be encoded using the specified charset.

Params:
  • path – the path to the file
  • cs – the charset to use for encoding
  • options – options specifying how the file is opened
Throws:
See Also:
Returns: a new buffered writer, with default buffer size, to write text to the file
/** * Opens or creates a file for writing, returning a {@code BufferedWriter} * that may be used to write text to the file in an efficient manner. * The {@code options} parameter specifies how the file is created or * opened. If no options are present then this method works as if the {@link * StandardOpenOption#CREATE CREATE}, {@link * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link * StandardOpenOption#WRITE WRITE} options are present. In other words, it * opens the file for writing, creating the file if it doesn't exist, or * initially truncating an existing {@link #isRegularFile regular-file} to * a size of {@code 0} if it exists. * * <p> The {@code Writer} methods to write text throw {@code IOException} * if the text cannot be encoded using the specified charset. * * @param path * the path to the file * @param cs * the charset to use for encoding * @param options * options specifying how the file is opened * * @return a new buffered writer, with default buffer size, to write text * to the file * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs opening or creating the file * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @see #write(Path,Iterable,Charset,OpenOption[]) */
public static BufferedWriter newBufferedWriter(Path path, Charset cs, OpenOption... options) throws IOException { CharsetEncoder encoder = cs.newEncoder(); Writer writer = new OutputStreamWriter(newOutputStream(path, options), encoder); return new BufferedWriter(writer); }
Opens or creates a file for writing, returning a BufferedWriter to write text to the file in an efficient manner. The text is encoded into bytes for writing using the UTF-8 charset.

This method works as if invoking it were equivalent to evaluating the expression:


Files.newBufferedWriter(path, StandardCharsets.UTF_8, options)
Params:
  • path – the path to the file
  • options – options specifying how the file is opened
Throws:
Returns: a new buffered writer, with default buffer size, to write text to the file
Since:1.8
/** * Opens or creates a file for writing, returning a {@code BufferedWriter} * to write text to the file in an efficient manner. The text is encoded * into bytes for writing using the {@link StandardCharsets#UTF_8 UTF-8} * {@link Charset charset}. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <pre>{@code * Files.newBufferedWriter(path, StandardCharsets.UTF_8, options) * }</pre> * * @param path * the path to the file * @param options * options specifying how the file is opened * * @return a new buffered writer, with default buffer size, to write text * to the file * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs opening or creating the file * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @since 1.8 */
public static BufferedWriter newBufferedWriter(Path path, OpenOption... options) throws IOException { return newBufferedWriter(path, StandardCharsets.UTF_8, options); }
Copies all bytes from an input stream to a file. On return, the input stream will be at end of stream.

By default, the copy fails if the target file already exists or is a symbolic link. If the REPLACE_EXISTING option is specified, and the target file already exists, then it is replaced if it is not a non-empty directory. If the target file exists and is a symbolic link, then the symbolic link is replaced. In this release, the REPLACE_EXISTING option is the only option required to be supported by this method. Additional options may be supported in future releases.

If an I/O error occurs reading from the input stream or writing to the file, then it may do so after the target file has been created and after some bytes have been read or written. Consequently the input stream may not be at end of stream and may be in an inconsistent state. It is strongly recommended that the input stream be promptly closed if an I/O error occurs.

This method may block indefinitely reading from the input stream (or writing to the file). The behavior for the case that the input stream is asynchronously closed or the thread interrupted during the copy is highly input stream and file system provider specific and therefore not specified.

Usage example: Suppose we want to capture a web page and save it to a file:

    Path path = ...
    URI u = URI.create("http://www.example.com/");
    try (InputStream in = u.toURL().openStream()) {
        Files.copy(in, path);
    }
Params:
  • in – the input stream to read from
  • target – the path to the file
  • options – options specifying how the copy should be done
Throws:
  • IOException – if an I/O error occurs when reading or writing
  • FileAlreadyExistsException – if the target file exists but cannot be replaced because the REPLACE_EXISTING option is not specified (optional specific exception)
  • DirectoryNotEmptyException – the REPLACE_EXISTING option is specified but the file cannot be replaced because it is a non-empty directory (optional specific exception) *
  • UnsupportedOperationException – if options contains a copy option that is not supported
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file. Where the REPLACE_EXISTING option is specified, the security manager's checkDelete method is invoked to check that an existing file can be deleted.
Returns: the number of bytes read or written
/** * Copies all bytes from an input stream to a file. On return, the input * stream will be at end of stream. * * <p> By default, the copy fails if the target file already exists or is a * symbolic link. If the {@link StandardCopyOption#REPLACE_EXISTING * REPLACE_EXISTING} option is specified, and the target file already exists, * then it is replaced if it is not a non-empty directory. If the target * file exists and is a symbolic link, then the symbolic link is replaced. * In this release, the {@code REPLACE_EXISTING} option is the only option * required to be supported by this method. Additional options may be * supported in future releases. * * <p> If an I/O error occurs reading from the input stream or writing to * the file, then it may do so after the target file has been created and * after some bytes have been read or written. Consequently the input * stream may not be at end of stream and may be in an inconsistent state. * It is strongly recommended that the input stream be promptly closed if an * I/O error occurs. * * <p> This method may block indefinitely reading from the input stream (or * writing to the file). The behavior for the case that the input stream is * <i>asynchronously closed</i> or the thread interrupted during the copy is * highly input stream and file system provider specific and therefore not * specified. * * <p> <b>Usage example</b>: Suppose we want to capture a web page and save * it to a file: * <pre> * Path path = ... * URI u = URI.create("http://www.example.com/"); * try (InputStream in = u.toURL().openStream()) { * Files.copy(in, path); * } * </pre> * * @param in * the input stream to read from * @param target * the path to the file * @param options * options specifying how the copy should be done * * @return the number of bytes read or written * * @throws IOException * if an I/O error occurs when reading or writing * @throws FileAlreadyExistsException * if the target file exists but cannot be replaced because the * {@code REPLACE_EXISTING} option is not specified <i>(optional * specific exception)</i> * @throws DirectoryNotEmptyException * the {@code REPLACE_EXISTING} option is specified but the file * cannot be replaced because it is a non-empty directory * <i>(optional specific exception)</i> * * @throws UnsupportedOperationException * if {@code options} contains a copy option that is not supported * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. Where the * {@code REPLACE_EXISTING} option is specified, the security * manager's {@link SecurityManager#checkDelete(String) checkDelete} * method is invoked to check that an existing file can be deleted. */
public static long copy(InputStream in, Path target, CopyOption... options) throws IOException { // ensure not null before opening file Objects.requireNonNull(in); // check for REPLACE_EXISTING boolean replaceExisting = false; for (CopyOption opt: options) { if (opt == StandardCopyOption.REPLACE_EXISTING) { replaceExisting = true; } else { if (opt == null) { throw new NullPointerException("options contains 'null'"); } else { throw new UnsupportedOperationException(opt + " not supported"); } } } // attempt to delete an existing file SecurityException se = null; if (replaceExisting) { try { deleteIfExists(target); } catch (SecurityException x) { se = x; } } // attempt to create target file. If it fails with // FileAlreadyExistsException then it may be because the security // manager prevented us from deleting the file, in which case we just // throw the SecurityException. OutputStream ostream; try { ostream = newOutputStream(target, StandardOpenOption.CREATE_NEW, StandardOpenOption.WRITE); } catch (FileAlreadyExistsException x) { if (se != null) throw se; // someone else won the race and created the file throw x; } // do the copy try (OutputStream out = ostream) { return in.transferTo(out); } }
Copies all bytes from a file to an output stream.

If an I/O error occurs reading from the file or writing to the output stream, then it may do so after some bytes have been read or written. Consequently the output stream may be in an inconsistent state. It is strongly recommended that the output stream be promptly closed if an I/O error occurs.

This method may block indefinitely writing to the output stream (or reading from the file). The behavior for the case that the output stream is asynchronously closed or the thread interrupted during the copy is highly output stream and file system provider specific and therefore not specified.

Note that if the given output stream is Flushable then its flush method may need to invoked after this method completes so as to flush any buffered output.

Params:
  • source – the path to the file
  • out – the output stream to write to
Throws:
  • IOException – if an I/O error occurs when reading or writing
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
Returns: the number of bytes read or written
/** * Copies all bytes from a file to an output stream. * * <p> If an I/O error occurs reading from the file or writing to the output * stream, then it may do so after some bytes have been read or written. * Consequently the output stream may be in an inconsistent state. It is * strongly recommended that the output stream be promptly closed if an I/O * error occurs. * * <p> This method may block indefinitely writing to the output stream (or * reading from the file). The behavior for the case that the output stream * is <i>asynchronously closed</i> or the thread interrupted during the copy * is highly output stream and file system provider specific and therefore * not specified. * * <p> Note that if the given output stream is {@link java.io.Flushable} * then its {@link java.io.Flushable#flush flush} method may need to invoked * after this method completes so as to flush any buffered output. * * @param source * the path to the file * @param out * the output stream to write to * * @return the number of bytes read or written * * @throws IOException * if an I/O error occurs when reading or writing * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. */
public static long copy(Path source, OutputStream out) throws IOException { // ensure not null before opening file Objects.requireNonNull(out); try (InputStream in = newInputStream(source)) { return in.transferTo(out); } }
The maximum size of array to allocate. Some VMs reserve some header words in an array. Attempts to allocate larger arrays may result in OutOfMemoryError: Requested array size exceeds VM limit
/** * The maximum size of array to allocate. * Some VMs reserve some header words in an array. * Attempts to allocate larger arrays may result in * OutOfMemoryError: Requested array size exceeds VM limit */
private static final int MAX_BUFFER_SIZE = Integer.MAX_VALUE - 8; private static final jdk.internal.access.JavaLangAccess JLA = jdk.internal.access.SharedSecrets.getJavaLangAccess();
Reads all the bytes from an input stream. Uses initialSize as a hint about how many bytes the stream will have.
Params:
  • source – the input stream to read from
  • initialSize – the initial size of the byte array to allocate
Throws:
  • IOException – if an I/O error occurs reading from the stream
  • OutOfMemoryError – if an array of the required size cannot be allocated
Returns: a byte array containing the bytes read from the file
/** * Reads all the bytes from an input stream. Uses {@code initialSize} as a hint * about how many bytes the stream will have. * * @param source * the input stream to read from * @param initialSize * the initial size of the byte array to allocate * * @return a byte array containing the bytes read from the file * * @throws IOException * if an I/O error occurs reading from the stream * @throws OutOfMemoryError * if an array of the required size cannot be allocated */
private static byte[] read(InputStream source, int initialSize) throws IOException { int capacity = initialSize; byte[] buf = new byte[capacity]; int nread = 0; int n; for (;;) { // read to EOF which may read more or less than initialSize (eg: file // is truncated while we are reading) while ((n = source.read(buf, nread, capacity - nread)) > 0) nread += n; // if last call to source.read() returned -1, we are done // otherwise, try to read one more byte; if that failed we're done too if (n < 0 || (n = source.read()) < 0) break; // one more byte was read; need to allocate a larger buffer if (capacity <= MAX_BUFFER_SIZE - capacity) { capacity = Math.max(capacity << 1, BUFFER_SIZE); } else { if (capacity == MAX_BUFFER_SIZE) throw new OutOfMemoryError("Required array size too large"); capacity = MAX_BUFFER_SIZE; } buf = Arrays.copyOf(buf, capacity); buf[nread++] = (byte)n; } return (capacity == nread) ? buf : Arrays.copyOf(buf, nread); }
Reads all the bytes from a file. The method ensures that the file is closed when all bytes have been read or an I/O error, or other runtime exception, is thrown.

Note that this method is intended for simple cases where it is convenient to read all bytes into a byte array. It is not intended for reading in large files.

Params:
  • path – the path to the file
Throws:
  • IOException – if an I/O error occurs reading from the stream
  • OutOfMemoryError – if an array of the required size cannot be allocated, for example the file is larger that 2GB
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
Returns: a byte array containing the bytes read from the file
/** * Reads all the bytes from a file. The method ensures that the file is * closed when all bytes have been read or an I/O error, or other runtime * exception, is thrown. * * <p> Note that this method is intended for simple cases where it is * convenient to read all bytes into a byte array. It is not intended for * reading in large files. * * @param path * the path to the file * * @return a byte array containing the bytes read from the file * * @throws IOException * if an I/O error occurs reading from the stream * @throws OutOfMemoryError * if an array of the required size cannot be allocated, for * example the file is larger that {@code 2GB} * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. */
public static byte[] readAllBytes(Path path) throws IOException { try (SeekableByteChannel sbc = Files.newByteChannel(path); InputStream in = Channels.newInputStream(sbc)) { if (sbc instanceof FileChannelImpl) ((FileChannelImpl) sbc).setUninterruptible(); long size = sbc.size(); if (size > (long) MAX_BUFFER_SIZE) throw new OutOfMemoryError("Required array size too large"); return read(in, (int)size); } }
Reads all content from a file into a string, decoding from bytes to characters using the UTF-8 charset. The method ensures that the file is closed when all content have been read or an I/O error, or other runtime exception, is thrown.

This method is equivalent to: readString(path, StandardCharsets.UTF_8)

Params:
  • path – the path to the file
Throws:
  • IOException – if an I/O error occurs reading from the file or a malformed or unmappable byte sequence is read
  • OutOfMemoryError – if the file is extremely large, for example larger than 2GB
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
Returns: a String containing the content read from the file
Since:11
/** * Reads all content from a file into a string, decoding from bytes to characters * using the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset charset}. * The method ensures that the file is closed when all content have been read * or an I/O error, or other runtime exception, is thrown. * * <p> This method is equivalent to: * {@code readString(path, StandardCharsets.UTF_8) } * * @param path the path to the file * * @return a String containing the content read from the file * * @throws IOException * if an I/O error occurs reading from the file or a malformed or * unmappable byte sequence is read * @throws OutOfMemoryError * if the file is extremely large, for example larger than {@code 2GB} * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @since 11 */
public static String readString(Path path) throws IOException { return readString(path, StandardCharsets.UTF_8); }
Reads all characters from a file into a string, decoding from bytes to characters using the specified charset. The method ensures that the file is closed when all content have been read or an I/O error, or other runtime exception, is thrown.

This method reads all content including the line separators in the middle and/or at the end. The resulting string will contain line separators as they appear in the file.

Params:
  • path – the path to the file
  • cs – the charset to use for decoding
Throws:
  • IOException – if an I/O error occurs reading from the file or a malformed or unmappable byte sequence is read
  • OutOfMemoryError – if the file is extremely large, for example larger than 2GB
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
API Note: This method is intended for simple cases where it is appropriate and convenient to read the content of a file into a String. It is not intended for reading very large files.
Returns: a String containing the content read from the file
Since:11
/** * Reads all characters from a file into a string, decoding from bytes to characters * using the specified {@linkplain Charset charset}. * The method ensures that the file is closed when all content have been read * or an I/O error, or other runtime exception, is thrown. * * <p> This method reads all content including the line separators in the middle * and/or at the end. The resulting string will contain line separators as they * appear in the file. * * @apiNote * This method is intended for simple cases where it is appropriate and convenient * to read the content of a file into a String. It is not intended for reading * very large files. * * * * @param path the path to the file * @param cs the charset to use for decoding * * @return a String containing the content read from the file * * @throws IOException * if an I/O error occurs reading from the file or a malformed or * unmappable byte sequence is read * @throws OutOfMemoryError * if the file is extremely large, for example larger than {@code 2GB} * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @since 11 */
public static String readString(Path path, Charset cs) throws IOException { Objects.requireNonNull(path); Objects.requireNonNull(cs); byte[] ba = readAllBytes(path); return JLA.newStringNoRepl(ba, cs); }
Read all lines from a file. This method ensures that the file is closed when all bytes have been read or an I/O error, or other runtime exception, is thrown. Bytes from the file are decoded into characters using the specified charset.

This method recognizes the following as line terminators:

  • \u000D followed by \u000A, CARRIAGE RETURN followed by LINE FEED
  • \u000A, LINE FEED
  • \u000D, CARRIAGE RETURN

Additional Unicode line terminators may be recognized in future releases.

Note that this method is intended for simple cases where it is convenient to read all lines in a single operation. It is not intended for reading in large files.

Params:
  • path – the path to the file
  • cs – the charset to use for decoding
Throws:
  • IOException – if an I/O error occurs reading from the file or a malformed or unmappable byte sequence is read
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
See Also:
Returns: the lines from the file as a List; whether the List is modifiable or not is implementation dependent and therefore not specified
/** * Read all lines from a file. This method ensures that the file is * closed when all bytes have been read or an I/O error, or other runtime * exception, is thrown. Bytes from the file are decoded into characters * using the specified charset. * * <p> This method recognizes the following as line terminators: * <ul> * <li> <code>&#92;u000D</code> followed by <code>&#92;u000A</code>, * CARRIAGE RETURN followed by LINE FEED </li> * <li> <code>&#92;u000A</code>, LINE FEED </li> * <li> <code>&#92;u000D</code>, CARRIAGE RETURN </li> * </ul> * <p> Additional Unicode line terminators may be recognized in future * releases. * * <p> Note that this method is intended for simple cases where it is * convenient to read all lines in a single operation. It is not intended * for reading in large files. * * @param path * the path to the file * @param cs * the charset to use for decoding * * @return the lines from the file as a {@code List}; whether the {@code * List} is modifiable or not is implementation dependent and * therefore not specified * * @throws IOException * if an I/O error occurs reading from the file or a malformed or * unmappable byte sequence is read * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @see #newBufferedReader */
public static List<String> readAllLines(Path path, Charset cs) throws IOException { try (BufferedReader reader = newBufferedReader(path, cs)) { List<String> result = new ArrayList<>(); for (;;) { String line = reader.readLine(); if (line == null) break; result.add(line); } return result; } }
Read all lines from a file. Bytes from the file are decoded into characters using the UTF-8 charset.

This method works as if invoking it were equivalent to evaluating the expression:


Files.readAllLines(path, StandardCharsets.UTF_8)
Params:
  • path – the path to the file
Throws:
  • IOException – if an I/O error occurs reading from the file or a malformed or unmappable byte sequence is read
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
Returns: the lines from the file as a List; whether the List is modifiable or not is implementation dependent and therefore not specified
Since:1.8
/** * Read all lines from a file. Bytes from the file are decoded into characters * using the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset charset}. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <pre>{@code * Files.readAllLines(path, StandardCharsets.UTF_8) * }</pre> * * @param path * the path to the file * * @return the lines from the file as a {@code List}; whether the {@code * List} is modifiable or not is implementation dependent and * therefore not specified * * @throws IOException * if an I/O error occurs reading from the file or a malformed or * unmappable byte sequence is read * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @since 1.8 */
public static List<String> readAllLines(Path path) throws IOException { return readAllLines(path, StandardCharsets.UTF_8); }
Writes bytes to a file. The options parameter specifies how the file is created or opened. If no options are present then this method works as if the CREATE, TRUNCATE_EXISTING, and WRITE options are present. In other words, it opens the file for writing, creating the file if it doesn't exist, or initially truncating an existing regular-file to a size of 0. All bytes in the byte array are written to the file. The method ensures that the file is closed when all bytes have been written (or an I/O error or other runtime exception is thrown). If an I/O error occurs then it may do so after the file has been created or truncated, or after some bytes have been written to the file.

Usage example: By default the method creates a new file or overwrites an existing file. Suppose you instead want to append bytes to an existing file:

    Path path = ...
    byte[] bytes = ...
    Files.write(path, bytes, StandardOpenOption.APPEND);
Params:
  • path – the path to the file
  • bytes – the byte array with the bytes to write
  • options – options specifying how the file is opened
Throws:
Returns: the path
/** * Writes bytes to a file. The {@code options} parameter specifies how * the file is created or opened. If no options are present then this method * works as if the {@link StandardOpenOption#CREATE CREATE}, {@link * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link * StandardOpenOption#WRITE WRITE} options are present. In other words, it * opens the file for writing, creating the file if it doesn't exist, or * initially truncating an existing {@link #isRegularFile regular-file} to * a size of {@code 0}. All bytes in the byte array are written to the file. * The method ensures that the file is closed when all bytes have been * written (or an I/O error or other runtime exception is thrown). If an I/O * error occurs then it may do so after the file has been created or * truncated, or after some bytes have been written to the file. * * <p> <b>Usage example</b>: By default the method creates a new file or * overwrites an existing file. Suppose you instead want to append bytes * to an existing file: * <pre> * Path path = ... * byte[] bytes = ... * Files.write(path, bytes, StandardOpenOption.APPEND); * </pre> * * @param path * the path to the file * @param bytes * the byte array with the bytes to write * @param options * options specifying how the file is opened * * @return the path * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs writing to or creating the file * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. */
public static Path write(Path path, byte[] bytes, OpenOption... options) throws IOException { // ensure bytes is not null before opening file Objects.requireNonNull(bytes); try (OutputStream out = Files.newOutputStream(path, options)) { int len = bytes.length; int rem = len; while (rem > 0) { int n = Math.min(rem, BUFFER_SIZE); out.write(bytes, (len-rem), n); rem -= n; } } return path; }
Write lines of text to a file. Each line is a char sequence and is written to the file in sequence with each line terminated by the platform's line separator, as defined by the system property line.separator. Characters are encoded into bytes using the specified charset.

The options parameter specifies how the file is created or opened. If no options are present then this method works as if the CREATE, TRUNCATE_EXISTING, and WRITE options are present. In other words, it opens the file for writing, creating the file if it doesn't exist, or initially truncating an existing regular-file to a size of 0. The method ensures that the file is closed when all lines have been written (or an I/O error or other runtime exception is thrown). If an I/O error occurs then it may do so after the file has been created or truncated, or after some bytes have been written to the file.

Params:
  • path – the path to the file
  • lines – an object to iterate over the char sequences
  • cs – the charset to use for encoding
  • options – options specifying how the file is opened
Throws:
  • IllegalArgumentException – if options contains an invalid combination of options
  • IOException – if an I/O error occurs writing to or creating the file, or the text cannot be encoded using the specified charset
  • UnsupportedOperationException – if an unsupported option is specified
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file. The checkDelete method is invoked to check delete access if the file is opened with the DELETE_ON_CLOSE option.
Returns: the path
/** * Write lines of text to a file. Each line is a char sequence and is * written to the file in sequence with each line terminated by the * platform's line separator, as defined by the system property {@code * line.separator}. Characters are encoded into bytes using the specified * charset. * * <p> The {@code options} parameter specifies how the file is created * or opened. If no options are present then this method works as if the * {@link StandardOpenOption#CREATE CREATE}, {@link * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link * StandardOpenOption#WRITE WRITE} options are present. In other words, it * opens the file for writing, creating the file if it doesn't exist, or * initially truncating an existing {@link #isRegularFile regular-file} to * a size of {@code 0}. The method ensures that the file is closed when all * lines have been written (or an I/O error or other runtime exception is * thrown). If an I/O error occurs then it may do so after the file has * been created or truncated, or after some bytes have been written to the * file. * * @param path * the path to the file * @param lines * an object to iterate over the char sequences * @param cs * the charset to use for encoding * @param options * options specifying how the file is opened * * @return the path * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs writing to or creating the file, or the * text cannot be encoded using the specified charset * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. */
public static Path write(Path path, Iterable<? extends CharSequence> lines, Charset cs, OpenOption... options) throws IOException { // ensure lines is not null before opening file Objects.requireNonNull(lines); CharsetEncoder encoder = cs.newEncoder(); OutputStream out = newOutputStream(path, options); try (BufferedWriter writer = new BufferedWriter(new OutputStreamWriter(out, encoder))) { for (CharSequence line: lines) { writer.append(line); writer.newLine(); } } return path; }
Write lines of text to a file. Characters are encoded into bytes using the UTF-8 charset.

This method works as if invoking it were equivalent to evaluating the expression:


Files.write(path, lines, StandardCharsets.UTF_8, options);
Params:
  • path – the path to the file
  • lines – an object to iterate over the char sequences
  • options – options specifying how the file is opened
Throws:
  • IllegalArgumentException – if options contains an invalid combination of options
  • IOException – if an I/O error occurs writing to or creating the file, or the text cannot be encoded as UTF-8
  • UnsupportedOperationException – if an unsupported option is specified
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file. The checkDelete method is invoked to check delete access if the file is opened with the DELETE_ON_CLOSE option.
Returns: the path
Since:1.8
/** * Write lines of text to a file. Characters are encoded into bytes using * the {@link StandardCharsets#UTF_8 UTF-8} {@link Charset charset}. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <pre>{@code * Files.write(path, lines, StandardCharsets.UTF_8, options); * }</pre> * * @param path * the path to the file * @param lines * an object to iterate over the char sequences * @param options * options specifying how the file is opened * * @return the path * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs writing to or creating the file, or the * text cannot be encoded as {@code UTF-8} * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @since 1.8 */
public static Path write(Path path, Iterable<? extends CharSequence> lines, OpenOption... options) throws IOException { return write(path, lines, StandardCharsets.UTF_8, options); }
Write a CharSequence to a file. Characters are encoded into bytes using the UTF-8 charset.

This method is equivalent to: writeString(path, test, StandardCharsets.UTF_8, options)

Params:
  • path – the path to the file
  • csq – the CharSequence to be written
  • options – options specifying how the file is opened
Throws:
  • IllegalArgumentException – if options contains an invalid combination of options
  • IOException – if an I/O error occurs writing to or creating the file, or the text cannot be encoded using the specified charset
  • UnsupportedOperationException – if an unsupported option is specified
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file. The checkDelete method is invoked to check delete access if the file is opened with the DELETE_ON_CLOSE option.
Returns: the path
Since:11
/** * Write a {@linkplain java.lang.CharSequence CharSequence} to a file. * Characters are encoded into bytes using the * {@link StandardCharsets#UTF_8 UTF-8} {@link Charset charset}. * * <p> This method is equivalent to: * {@code writeString(path, test, StandardCharsets.UTF_8, options) } * * @param path * the path to the file * @param csq * the CharSequence to be written * @param options * options specifying how the file is opened * * @return the path * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs writing to or creating the file, or the * text cannot be encoded using the specified charset * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @since 11 */
public static Path writeString(Path path, CharSequence csq, OpenOption... options) throws IOException { return writeString(path, csq, StandardCharsets.UTF_8, options); }
Write a CharSequence to a file. Characters are encoded into bytes using the specified charset.

All characters are written as they are, including the line separators in the char sequence. No extra characters are added.

The options parameter specifies how the file is created or opened. If no options are present then this method works as if the CREATE, TRUNCATE_EXISTING, and WRITE options are present. In other words, it opens the file for writing, creating the file if it doesn't exist, or initially truncating an existing regular-file to a size of 0.

Params:
  • path – the path to the file
  • csq – the CharSequence to be written
  • cs – the charset to use for encoding
  • options – options specifying how the file is opened
Throws:
  • IllegalArgumentException – if options contains an invalid combination of options
  • IOException – if an I/O error occurs writing to or creating the file, or the text cannot be encoded using the specified charset
  • UnsupportedOperationException – if an unsupported option is specified
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkWrite method is invoked to check write access to the file. The checkDelete method is invoked to check delete access if the file is opened with the DELETE_ON_CLOSE option.
Returns: the path
Since:11
/** * Write a {@linkplain java.lang.CharSequence CharSequence} to a file. * Characters are encoded into bytes using the specified * {@linkplain java.nio.charset.Charset charset}. * * <p> All characters are written as they are, including the line separators in * the char sequence. No extra characters are added. * * <p> The {@code options} parameter specifies how the file is created * or opened. If no options are present then this method works as if the * {@link StandardOpenOption#CREATE CREATE}, {@link * StandardOpenOption#TRUNCATE_EXISTING TRUNCATE_EXISTING}, and {@link * StandardOpenOption#WRITE WRITE} options are present. In other words, it * opens the file for writing, creating the file if it doesn't exist, or * initially truncating an existing {@link #isRegularFile regular-file} to * a size of {@code 0}. * * * @param path * the path to the file * @param csq * the CharSequence to be written * @param cs * the charset to use for encoding * @param options * options specifying how the file is opened * * @return the path * * @throws IllegalArgumentException * if {@code options} contains an invalid combination of options * @throws IOException * if an I/O error occurs writing to or creating the file, or the * text cannot be encoded using the specified charset * @throws UnsupportedOperationException * if an unsupported option is specified * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkWrite(String) checkWrite} * method is invoked to check write access to the file. The {@link * SecurityManager#checkDelete(String) checkDelete} method is * invoked to check delete access if the file is opened with the * {@code DELETE_ON_CLOSE} option. * * @since 11 */
public static Path writeString(Path path, CharSequence csq, Charset cs, OpenOption... options) throws IOException { // ensure the text is not null before opening file Objects.requireNonNull(path); Objects.requireNonNull(csq); Objects.requireNonNull(cs); byte[] bytes = JLA.getBytesNoRepl(String.valueOf(csq), cs); write(path, bytes, options); return path; } // -- Stream APIs --
Return a lazily populated Stream, the elements of which are the entries in the directory. The listing is not recursive.

The elements of the stream are Path objects that are obtained as if by resolving the name of the directory entry against dir. Some file systems maintain special links to the directory itself and the directory's parent directory. Entries representing these links are not included.

The stream is weakly consistent. It is thread safe but does not freeze the directory while iterating, so it may (or may not) reflect updates to the directory that occur after returning from this method.

The returned stream contains a reference to an open directory. The directory is closed by closing the stream.

Operating on a closed stream behaves as if the end of stream has been reached. Due to read-ahead, one or more elements may be returned after the stream has been closed.

If an IOException is thrown when accessing the directory after this method has returned, it is wrapped in an UncheckedIOException which will be thrown from the method that caused the access to take place.

Params:
  • dir – The path to the directory
Throws:
  • NotDirectoryException – if the file could not otherwise be opened because it is not a directory (optional specific exception)
  • IOException – if an I/O error occurs when opening the directory
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the directory.
See Also:
API Note: This method must be used within a try-with-resources statement or similar control structure to ensure that the stream's open directory is closed promptly after the stream's operations have completed.
Returns: The Stream describing the content of the directory
Since: 1.8
/** * Return a lazily populated {@code Stream}, the elements of * which are the entries in the directory. The listing is not recursive. * * <p> The elements of the stream are {@link Path} objects that are * obtained as if by {@link Path#resolve(Path) resolving} the name of the * directory entry against {@code dir}. Some file systems maintain special * links to the directory itself and the directory's parent directory. * Entries representing these links are not included. * * <p> The stream is <i>weakly consistent</i>. It is thread safe but does * not freeze the directory while iterating, so it may (or may not) * reflect updates to the directory that occur after returning from this * method. * * <p> The returned stream contains a reference to an open directory. * The directory is closed by closing the stream. * * <p> Operating on a closed stream behaves as if the end of stream * has been reached. Due to read-ahead, one or more elements may be * returned after the stream has been closed. * * <p> If an {@link IOException} is thrown when accessing the directory * after this method has returned, it is wrapped in an {@link * UncheckedIOException} which will be thrown from the method that caused * the access to take place. * * @apiNote * This method must be used within a try-with-resources statement or similar * control structure to ensure that the stream's open directory is closed * promptly after the stream's operations have completed. * * @param dir The path to the directory * * @return The {@code Stream} describing the content of the * directory * * @throws NotDirectoryException * if the file could not otherwise be opened because it is not * a directory <i>(optional specific exception)</i> * @throws IOException * if an I/O error occurs when opening the directory * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the directory. * * @see #newDirectoryStream(Path) * @since 1.8 */
public static Stream<Path> list(Path dir) throws IOException { DirectoryStream<Path> ds = Files.newDirectoryStream(dir); try { final Iterator<Path> delegate = ds.iterator(); // Re-wrap DirectoryIteratorException to UncheckedIOException Iterator<Path> iterator = new Iterator<>() { @Override public boolean hasNext() { try { return delegate.hasNext(); } catch (DirectoryIteratorException e) { throw new UncheckedIOException(e.getCause()); } } @Override public Path next() { try { return delegate.next(); } catch (DirectoryIteratorException e) { throw new UncheckedIOException(e.getCause()); } } }; Spliterator<Path> spliterator = Spliterators.spliteratorUnknownSize(iterator, Spliterator.DISTINCT); return StreamSupport.stream(spliterator, false) .onClose(asUncheckedRunnable(ds)); } catch (Error|RuntimeException e) { try { ds.close(); } catch (IOException ex) { try { e.addSuppressed(ex); } catch (Throwable ignore) {} } throw e; } }
Return a Stream that is lazily populated with Path by walking the file tree rooted at a given starting file. The file tree is traversed depth-first, the elements in the stream are Path objects that are obtained as if by resolving the relative path against start.

The stream walks the file tree as elements are consumed. The Stream returned is guaranteed to have at least one element, the starting file itself. For each file visited, the stream attempts to read its BasicFileAttributes. If the file is a directory and can be opened successfully, entries in the directory, and their descendants will follow the directory in the stream as they are encountered. When all entries have been visited, then the directory is closed. The file tree walk then continues at the next sibling of the directory.

The stream is weakly consistent. It does not freeze the file tree while iterating, so it may (or may not) reflect updates to the file tree that occur after returned from this method.

By default, symbolic links are not automatically followed by this method. If the options parameter contains the FOLLOW_LINKS option then symbolic links are followed. When following links, and the attributes of the target cannot be read, then this method attempts to get the BasicFileAttributes of the link.

If the options parameter contains the FOLLOW_LINKS option then the stream keeps track of directories visited so that cycles can be detected. A cycle arises when there is an entry in a directory that is an ancestor of the directory. Cycle detection is done by recording the file-key of directories, or if file keys are not available, by invoking the isSameFile method to test if a directory is the same file as an ancestor. When a cycle is detected it is treated as an I/O error with an instance of FileSystemLoopException.

The maxDepth parameter is the maximum number of levels of directories to visit. A value of 0 means that only the starting file is visited, unless denied by the security manager. A value of MAX_VALUE may be used to indicate that all levels should be visited.

When a security manager is installed and it denies access to a file (or directory), then it is ignored and not included in the stream.

The returned stream contains references to one or more open directories. The directories are closed by closing the stream.

If an IOException is thrown when accessing the directory after this method has returned, it is wrapped in an UncheckedIOException which will be thrown from the method that caused the access to take place.

Params:
  • start – the starting file
  • maxDepth – the maximum number of directory levels to visit
  • options – options to configure the traversal
Throws:
  • IllegalArgumentException – if the maxDepth parameter is negative
  • SecurityException – If the security manager denies access to the starting file. In the case of the default provider, the checkRead method is invoked to check read access to the directory.
  • IOException – if an I/O error is thrown when accessing the starting file.
API Note: This method must be used within a try-with-resources statement or similar control structure to ensure that the stream's open directories are closed promptly after the stream's operations have completed.
Returns: the Stream of Path
Since: 1.8
/** * Return a {@code Stream} that is lazily populated with {@code * Path} by walking the file tree rooted at a given starting file. The * file tree is traversed <em>depth-first</em>, the elements in the stream * are {@link Path} objects that are obtained as if by {@link * Path#resolve(Path) resolving} the relative path against {@code start}. * * <p> The {@code stream} walks the file tree as elements are consumed. * The {@code Stream} returned is guaranteed to have at least one * element, the starting file itself. For each file visited, the stream * attempts to read its {@link BasicFileAttributes}. If the file is a * directory and can be opened successfully, entries in the directory, and * their <em>descendants</em> will follow the directory in the stream as * they are encountered. When all entries have been visited, then the * directory is closed. The file tree walk then continues at the next * <em>sibling</em> of the directory. * * <p> The stream is <i>weakly consistent</i>. It does not freeze the * file tree while iterating, so it may (or may not) reflect updates to * the file tree that occur after returned from this method. * * <p> By default, symbolic links are not automatically followed by this * method. If the {@code options} parameter contains the {@link * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then symbolic links are * followed. When following links, and the attributes of the target cannot * be read, then this method attempts to get the {@code BasicFileAttributes} * of the link. * * <p> If the {@code options} parameter contains the {@link * FileVisitOption#FOLLOW_LINKS FOLLOW_LINKS} option then the stream keeps * track of directories visited so that cycles can be detected. A cycle * arises when there is an entry in a directory that is an ancestor of the * directory. Cycle detection is done by recording the {@link * java.nio.file.attribute.BasicFileAttributes#fileKey file-key} of directories, * or if file keys are not available, by invoking the {@link #isSameFile * isSameFile} method to test if a directory is the same file as an * ancestor. When a cycle is detected it is treated as an I/O error with * an instance of {@link FileSystemLoopException}. * * <p> The {@code maxDepth} parameter is the maximum number of levels of * directories to visit. A value of {@code 0} means that only the starting * file is visited, unless denied by the security manager. A value of * {@link Integer#MAX_VALUE MAX_VALUE} may be used to indicate that all * levels should be visited. * * <p> When a security manager is installed and it denies access to a file * (or directory), then it is ignored and not included in the stream. * * <p> The returned stream contains references to one or more open directories. * The directories are closed by closing the stream. * * <p> If an {@link IOException} is thrown when accessing the directory * after this method has returned, it is wrapped in an {@link * UncheckedIOException} which will be thrown from the method that caused * the access to take place. * * @apiNote * This method must be used within a try-with-resources statement or similar * control structure to ensure that the stream's open directories are closed * promptly after the stream's operations have completed. * * @param start * the starting file * @param maxDepth * the maximum number of directory levels to visit * @param options * options to configure the traversal * * @return the {@link Stream} of {@link Path} * * @throws IllegalArgumentException * if the {@code maxDepth} parameter is negative * @throws SecurityException * If the security manager denies access to the starting file. * In the case of the default provider, the {@link * SecurityManager#checkRead(String) checkRead} method is invoked * to check read access to the directory. * @throws IOException * if an I/O error is thrown when accessing the starting file. * @since 1.8 */
public static Stream<Path> walk(Path start, int maxDepth, FileVisitOption... options) throws IOException { FileTreeIterator iterator = new FileTreeIterator(start, maxDepth, options); try { Spliterator<FileTreeWalker.Event> spliterator = Spliterators.spliteratorUnknownSize(iterator, Spliterator.DISTINCT); return StreamSupport.stream(spliterator, false) .onClose(iterator::close) .map(entry -> entry.file()); } catch (Error|RuntimeException e) { iterator.close(); throw e; } }
Return a Stream that is lazily populated with Path by walking the file tree rooted at a given starting file. The file tree is traversed depth-first, the elements in the stream are Path objects that are obtained as if by resolving the relative path against start.

This method works as if invoking it were equivalent to evaluating the expression:

walk(start, Integer.MAX_VALUE, options)
In other words, it visits all levels of the file tree.

The returned stream contains references to one or more open directories. The directories are closed by closing the stream.

Params:
  • start – the starting file
  • options – options to configure the traversal
Throws:
  • SecurityException – If the security manager denies access to the starting file. In the case of the default provider, the checkRead method is invoked to check read access to the directory.
  • IOException – if an I/O error is thrown when accessing the starting file.
See Also:
API Note: This method must be used within a try-with-resources statement or similar control structure to ensure that the stream's open directories are closed promptly after the stream's operations have completed.
Returns: the Stream of Path
Since: 1.8
/** * Return a {@code Stream} that is lazily populated with {@code * Path} by walking the file tree rooted at a given starting file. The * file tree is traversed <em>depth-first</em>, the elements in the stream * are {@link Path} objects that are obtained as if by {@link * Path#resolve(Path) resolving} the relative path against {@code start}. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <blockquote><pre> * walk(start, Integer.MAX_VALUE, options) * </pre></blockquote> * In other words, it visits all levels of the file tree. * * <p> The returned stream contains references to one or more open directories. * The directories are closed by closing the stream. * * @apiNote * This method must be used within a try-with-resources statement or similar * control structure to ensure that the stream's open directories are closed * promptly after the stream's operations have completed. * * @param start * the starting file * @param options * options to configure the traversal * * @return the {@link Stream} of {@link Path} * * @throws SecurityException * If the security manager denies access to the starting file. * In the case of the default provider, the {@link * SecurityManager#checkRead(String) checkRead} method is invoked * to check read access to the directory. * @throws IOException * if an I/O error is thrown when accessing the starting file. * * @see #walk(Path, int, FileVisitOption...) * @since 1.8 */
public static Stream<Path> walk(Path start, FileVisitOption... options) throws IOException { return walk(start, Integer.MAX_VALUE, options); }
Return a Stream that is lazily populated with Path by searching for files in a file tree rooted at a given starting file.

This method walks the file tree in exactly the manner specified by the walk method. For each file encountered, the given BiPredicate is invoked with its Path and BasicFileAttributes. The Path object is obtained as if by resolving the relative path against start and is only included in the returned Stream if the BiPredicate returns true. Compare to calling filter on the Stream returned by walk method, this method may be more efficient by avoiding redundant retrieval of the BasicFileAttributes.

The returned stream contains references to one or more open directories. The directories are closed by closing the stream.

If an IOException is thrown when accessing the directory after returned from this method, it is wrapped in an UncheckedIOException which will be thrown from the method that caused the access to take place.

Params:
  • start – the starting file
  • maxDepth – the maximum number of directory levels to search
  • matcher – the function used to decide whether a file should be included in the returned stream
  • options – options to configure the traversal
Throws:
  • IllegalArgumentException – if the maxDepth parameter is negative
  • SecurityException – If the security manager denies access to the starting file. In the case of the default provider, the checkRead method is invoked to check read access to the directory.
  • IOException – if an I/O error is thrown when accessing the starting file.
See Also:
API Note: This method must be used within a try-with-resources statement or similar control structure to ensure that the stream's open directories are closed promptly after the stream's operations have completed.
Returns: the Stream of Path
Since: 1.8
/** * Return a {@code Stream} that is lazily populated with {@code * Path} by searching for files in a file tree rooted at a given starting * file. * * <p> This method walks the file tree in exactly the manner specified by * the {@link #walk walk} method. For each file encountered, the given * {@link BiPredicate} is invoked with its {@link Path} and {@link * BasicFileAttributes}. The {@code Path} object is obtained as if by * {@link Path#resolve(Path) resolving} the relative path against {@code * start} and is only included in the returned {@link Stream} if * the {@code BiPredicate} returns true. Compare to calling {@link * java.util.stream.Stream#filter filter} on the {@code Stream} * returned by {@code walk} method, this method may be more efficient by * avoiding redundant retrieval of the {@code BasicFileAttributes}. * * <p> The returned stream contains references to one or more open directories. * The directories are closed by closing the stream. * * <p> If an {@link IOException} is thrown when accessing the directory * after returned from this method, it is wrapped in an {@link * UncheckedIOException} which will be thrown from the method that caused * the access to take place. * * @apiNote * This method must be used within a try-with-resources statement or similar * control structure to ensure that the stream's open directories are closed * promptly after the stream's operations have completed. * * @param start * the starting file * @param maxDepth * the maximum number of directory levels to search * @param matcher * the function used to decide whether a file should be included * in the returned stream * @param options * options to configure the traversal * * @return the {@link Stream} of {@link Path} * * @throws IllegalArgumentException * if the {@code maxDepth} parameter is negative * @throws SecurityException * If the security manager denies access to the starting file. * In the case of the default provider, the {@link * SecurityManager#checkRead(String) checkRead} method is invoked * to check read access to the directory. * @throws IOException * if an I/O error is thrown when accessing the starting file. * * @see #walk(Path, int, FileVisitOption...) * @since 1.8 */
public static Stream<Path> find(Path start, int maxDepth, BiPredicate<Path, BasicFileAttributes> matcher, FileVisitOption... options) throws IOException { FileTreeIterator iterator = new FileTreeIterator(start, maxDepth, options); try { Spliterator<FileTreeWalker.Event> spliterator = Spliterators.spliteratorUnknownSize(iterator, Spliterator.DISTINCT); return StreamSupport.stream(spliterator, false) .onClose(iterator::close) .filter(entry -> matcher.test(entry.file(), entry.attributes())) .map(entry -> entry.file()); } catch (Error|RuntimeException e) { iterator.close(); throw e; } }
Read all lines from a file as a Stream. Unlike readAllLines, this method does not read all lines into a List, but instead populates lazily as the stream is consumed.

Bytes from the file are decoded into characters using the specified charset and the same line terminators as specified by readAllLines are supported.

The returned stream contains a reference to an open file. The file is closed by closing the stream.

The file contents should not be modified during the execution of the terminal stream operation. Otherwise, the result of the terminal stream operation is undefined.

After this method returns, then any subsequent I/O exception that occurs while reading from the file or when a malformed or unmappable byte sequence is read, is wrapped in an UncheckedIOException that will be thrown from the Stream method that caused the read to take place. In case an IOException is thrown when closing the file, it is also wrapped as an UncheckedIOException.

Params:
  • path – the path to the file
  • cs – the charset to use for decoding
Throws:
  • IOException – if an I/O error occurs opening the file
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
See Also:
API Note: This method must be used within a try-with-resources statement or similar control structure to ensure that the stream's open file is closed promptly after the stream's operations have completed.
Implementation Note: This implementation supports good parallel stream performance for the standard charsets UTF-8, US-ASCII and ISO-8859-1. Such line-optimal charsets have the property that the encoded bytes of a line feed ('\n') or a carriage return ('\r') are efficiently identifiable from other encoded characters when randomly accessing the bytes of the file.

For non-line-optimal charsets the stream source's spliterator has poor splitting properties, similar to that of a spliterator associated with an iterator or that associated with a stream returned from BufferedReader.lines(). Poor splitting properties can result in poor parallel stream performance.

For line-optimal charsets the stream source's spliterator has good splitting properties, assuming the file contains a regular sequence of lines. Good splitting properties can result in good parallel stream performance. The spliterator for a line-optimal charset takes advantage of the charset properties (a line feed or a carriage return being efficient identifiable) such that when splitting it can approximately divide the number of covered lines in half.

Returns: the lines from the file as a Stream
Since: 1.8
/** * Read all lines from a file as a {@code Stream}. Unlike {@link * #readAllLines(Path, Charset) readAllLines}, this method does not read * all lines into a {@code List}, but instead populates lazily as the stream * is consumed. * * <p> Bytes from the file are decoded into characters using the specified * charset and the same line terminators as specified by {@code * readAllLines} are supported. * * <p> The returned stream contains a reference to an open file. The file * is closed by closing the stream. * * <p> The file contents should not be modified during the execution of the * terminal stream operation. Otherwise, the result of the terminal stream * operation is undefined. * * <p> After this method returns, then any subsequent I/O exception that * occurs while reading from the file or when a malformed or unmappable byte * sequence is read, is wrapped in an {@link UncheckedIOException} that will * be thrown from the * {@link java.util.stream.Stream} method that caused the read to take * place. In case an {@code IOException} is thrown when closing the file, * it is also wrapped as an {@code UncheckedIOException}. * * @apiNote * This method must be used within a try-with-resources statement or similar * control structure to ensure that the stream's open file is closed promptly * after the stream's operations have completed. * * @implNote * This implementation supports good parallel stream performance for the * standard charsets {@link StandardCharsets#UTF_8 UTF-8}, * {@link StandardCharsets#US_ASCII US-ASCII} and * {@link StandardCharsets#ISO_8859_1 ISO-8859-1}. Such * <em>line-optimal</em> charsets have the property that the encoded bytes * of a line feed ('\n') or a carriage return ('\r') are efficiently * identifiable from other encoded characters when randomly accessing the * bytes of the file. * * <p> For non-<em>line-optimal</em> charsets the stream source's * spliterator has poor splitting properties, similar to that of a * spliterator associated with an iterator or that associated with a stream * returned from {@link BufferedReader#lines()}. Poor splitting properties * can result in poor parallel stream performance. * * <p> For <em>line-optimal</em> charsets the stream source's spliterator * has good splitting properties, assuming the file contains a regular * sequence of lines. Good splitting properties can result in good parallel * stream performance. The spliterator for a <em>line-optimal</em> charset * takes advantage of the charset properties (a line feed or a carriage * return being efficient identifiable) such that when splitting it can * approximately divide the number of covered lines in half. * * @param path * the path to the file * @param cs * the charset to use for decoding * * @return the lines from the file as a {@code Stream} * * @throws IOException * if an I/O error occurs opening the file * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @see #readAllLines(Path, Charset) * @see #newBufferedReader(Path, Charset) * @see java.io.BufferedReader#lines() * @since 1.8 */
public static Stream<String> lines(Path path, Charset cs) throws IOException { // Use the good splitting spliterator if: // 1) the path is associated with the default file system; // 2) the character set is supported; and // 3) the file size is such that all bytes can be indexed by int values // (this limitation is imposed by ByteBuffer) if (path.getFileSystem() == FileSystems.getDefault() && FileChannelLinesSpliterator.SUPPORTED_CHARSET_NAMES.contains(cs.name())) { FileChannel fc = FileChannel.open(path, StandardOpenOption.READ); Stream<String> fcls = createFileChannelLinesStream(fc, cs); if (fcls != null) { return fcls; } fc.close(); } return createBufferedReaderLinesStream(Files.newBufferedReader(path, cs)); } private static Stream<String> createFileChannelLinesStream(FileChannel fc, Charset cs) throws IOException { try { // Obtaining the size from the FileChannel is much faster // than obtaining using path.toFile().length() long length = fc.size(); // FileChannel.size() may in certain circumstances return zero // for a non-zero length file so disallow this case. if (length > 0 && length <= Integer.MAX_VALUE) { Spliterator<String> s = new FileChannelLinesSpliterator(fc, cs, 0, (int) length); return StreamSupport.stream(s, false) .onClose(Files.asUncheckedRunnable(fc)); } } catch (Error|RuntimeException|IOException e) { try { fc.close(); } catch (IOException ex) { try { e.addSuppressed(ex); } catch (Throwable ignore) { } } throw e; } return null; } private static Stream<String> createBufferedReaderLinesStream(BufferedReader br) { try { return br.lines().onClose(asUncheckedRunnable(br)); } catch (Error|RuntimeException e) { try { br.close(); } catch (IOException ex) { try { e.addSuppressed(ex); } catch (Throwable ignore) { } } throw e; } }
Read all lines from a file as a Stream. Bytes from the file are decoded into characters using the UTF-8 charset.

The returned stream contains a reference to an open file. The file is closed by closing the stream.

The file contents should not be modified during the execution of the terminal stream operation. Otherwise, the result of the terminal stream operation is undefined.

This method works as if invoking it were equivalent to evaluating the expression:


Files.lines(path, StandardCharsets.UTF_8)
Params:
  • path – the path to the file
Throws:
  • IOException – if an I/O error occurs opening the file
  • SecurityException – In the case of the default provider, and a security manager is installed, the checkRead method is invoked to check read access to the file.
API Note: This method must be used within a try-with-resources statement or similar control structure to ensure that the stream's open file is closed promptly after the stream's operations have completed.
Returns: the lines from the file as a Stream
Since:1.8
/** * Read all lines from a file as a {@code Stream}. Bytes from the file are * decoded into characters using the {@link StandardCharsets#UTF_8 UTF-8} * {@link Charset charset}. * * <p> The returned stream contains a reference to an open file. The file * is closed by closing the stream. * * <p> The file contents should not be modified during the execution of the * terminal stream operation. Otherwise, the result of the terminal stream * operation is undefined. * * <p> This method works as if invoking it were equivalent to evaluating the * expression: * <pre>{@code * Files.lines(path, StandardCharsets.UTF_8) * }</pre> * * @apiNote * This method must be used within a try-with-resources statement or similar * control structure to ensure that the stream's open file is closed promptly * after the stream's operations have completed. * * @param path * the path to the file * * @return the lines from the file as a {@code Stream} * * @throws IOException * if an I/O error occurs opening the file * @throws SecurityException * In the case of the default provider, and a security manager is * installed, the {@link SecurityManager#checkRead(String) checkRead} * method is invoked to check read access to the file. * * @since 1.8 */
public static Stream<String> lines(Path path) throws IOException { return lines(path, StandardCharsets.UTF_8); } }