Class FileSystem

java.lang.Object
java.nio.file.FileSystem
All Implemented Interfaces:
Closeable, AutoCloseable

public abstract class FileSystem extends Object implements Closeable
Provides an interface to a file system and is the factory for objects to access files and other objects in the file system.

The default file system, obtained by invoking the FileSystems.getDefault method, provides access to the file system that is accessible to the Java virtual machine. The FileSystems class defines methods to create file systems that provide access to other types of (custom) file systems.

A file system is the factory for several types of objects:

File systems vary greatly. In some cases the file system is a single hierarchy of files with one top-level root directory. In other cases it may have several distinct file hierarchies, each with its own top-level root directory. The getRootDirectories method may be used to iterate over the root directories in the file system. A file system is typically composed of one or more underlying file-stores that provide the storage for the files. These file stores can also vary in the features they support, and the file attributes or meta-data that they associate with files.

A file system is open upon creation and can be closed by invoking its close method. Once closed, any further attempt to access objects in the file system cause ClosedFileSystemException to be thrown. File systems created by the default provider cannot be closed.

A FileSystem can provide read-only or read-write access to the file system. Whether or not a file system provides read-only access is established when the FileSystem is created and can be tested by invoking its isReadOnly method. Attempts to write to file stores by means of an object associated with a read-only file system throws ReadOnlyFileSystemException.

File systems are safe for use by multiple concurrent threads. The close method may be invoked at any time to close a file system but whether a file system is asynchronously closeable is provider specific and therefore unspecified. In other words, if a thread is accessing an object in a file system, and another thread invokes the close method then it may require to block until the first operation is complete. Closing a file system causes all open channels, watch services, and other closeable objects associated with the file system to be closed.

Since:
1.7
  • Constructor Details

    • FileSystem

      protected FileSystem()
      Initializes a new instance of this class.
  • Method Details

    • provider

      public abstract FileSystemProvider provider()
      Returns the provider that created this file system.
      Returns:
      The provider that created this file system.
    • close

      public abstract void close() throws IOException
      Closes this file system.

      After a file system is closed then all subsequent access to the file system, either by methods defined by this class or on objects associated with this file system, throw ClosedFileSystemException. If the file system is already closed then invoking this method has no effect.

      Closing a file system will close all open channels, directory-streams, watch-service, and other closeable objects associated with this file system. The default file system cannot be closed.

      Specified by:
      close in interface AutoCloseable
      Specified by:
      close in interface Closeable
      Throws:
      IOException - If an I/O error occurs
      UnsupportedOperationException - Thrown in the case of the default file system
    • isOpen

      public abstract boolean isOpen()
      Tells whether or not this file system is open.

      File systems created by the default provider are always open.

      Returns:
      true if, and only if, this file system is open
    • isReadOnly

      public abstract boolean isReadOnly()
      Tells whether or not this file system allows only read-only access to its file stores.
      Returns:
      true if, and only if, this file system provides read-only access
    • getSeparator

      public abstract String getSeparator()
      Returns the name separator, represented as a string.

      The name separator is used to separate names in a path string. An implementation may support multiple name separators in which case this method returns an implementation specific default name separator. This separator is used when creating path strings by invoking the toString() method.

      In the case of the default provider, this method returns the same separator as File.separator.

      Returns:
      The name separator
    • getRootDirectories

      public abstract Iterable<Path> getRootDirectories()
      Returns an object to iterate over the paths of the root directories.

      A file system provides access to a file store that may be composed of a number of distinct file hierarchies, each with its own top-level root directory. Unless denied by the security manager, each element in the returned iterator corresponds to the root directory of a distinct file hierarchy. The order of the elements is not defined. The file hierarchies may change during the lifetime of the Java virtual machine. For example, in some implementations, the insertion of removable media may result in the creation of a new file hierarchy with its own top-level directory. There is no guarantee that a root directory can be accessed.

      When a security manager is installed, it is invoked to check access to the each root directory. If denied, the root directory is not returned by the iterator. In the case of the default provider, the SecurityManager.checkRead(String) method is invoked to check read access to each root directory. It is system dependent if the permission checks are done when the iterator is obtained or during iteration.

      Returns:
      An object to iterate over the root directories
    • getFileStores

      public abstract Iterable<FileStore> getFileStores()
      Returns an object to iterate over the underlying file stores.

      The elements of the returned iterator are the FileStores for this file system. The order of the elements is not defined and the file stores may change during the lifetime of the Java virtual machine. When an I/O error occurs, perhaps because a file store is not accessible, then it is not returned by the iterator.

      In the case of the default provider, and a security manager is installed, the security manager is invoked to check RuntimePermission("getFileStoreAttributes"). If denied, then no file stores are returned by the iterator. In addition, the security manager's SecurityManager.checkRead(String) method is invoked to check read access to the file store's top-most directory. If denied, the file store is not returned by the iterator. It is system dependent if the permission checks are done when the iterator is obtained or during iteration.

      Usage Example: Suppose we want to print the space usage for all file stores:

          for (FileStore store: FileSystems.getDefault().getFileStores()) {
              long total = store.getTotalSpace() / 1024;
              long used = (store.getTotalSpace() - store.getUnallocatedSpace()) / 1024;
              long avail = store.getUsableSpace() / 1024;
              System.out.format("%-20s %12d %12d %12d%n", store, total, used, avail);
          }
      

      Returns:
      An object to iterate over the backing file stores
    • supportedFileAttributeViews

      public abstract Set<String> supportedFileAttributeViews()
      Returns the set of the names of the file attribute views supported by this FileSystem.

      The BasicFileAttributeView is required to be supported and therefore the set contains at least one element, "basic".

      The supportsFileAttributeView(String) method may be used to test if an underlying FileStore supports the file attributes identified by a file attribute view.

      Returns:
      An unmodifiable set of the names of the supported file attribute views
    • getPath

      public abstract Path getPath(String first, String... more)
      Converts a path string, or a sequence of strings that when joined form a path string, to a Path. If more does not specify any elements then the value of the first parameter is the path string to convert. If more specifies one or more elements then each non-empty string, including first, is considered to be a sequence of name elements (see Path) and is joined to form a path string. The details as to how the Strings are joined is provider specific but typically they will be joined using the name-separator as the separator. For example, if the name separator is "/" and getPath("/foo","bar","gus") is invoked, then the path string "/foo/bar/gus" is converted to a Path. A Path representing an empty path is returned if first is the empty string and more does not contain any non-empty strings.

      The parsing and conversion to a path object is inherently implementation dependent. In the simplest case, the path string is rejected, and InvalidPathException thrown, if the path string contains characters that cannot be converted to characters that are legal to the file store. For example, on UNIX systems, the NUL (\u0000) character is not allowed to be present in a path. An implementation may choose to reject path strings that contain names that are longer than those allowed by any file store, and where an implementation supports a complex path syntax, it may choose to reject path strings that are badly formed.

      In the case of the default provider, path strings are parsed based on the definition of paths at the platform or virtual file system level. For example, an operating system may not allow specific characters to be present in a file name, but a specific underlying file store may impose different or additional restrictions on the set of legal characters.

      This method throws InvalidPathException when the path string cannot be converted to a path. Where possible, and where applicable, the exception is created with an index value indicating the first position in the path parameter that caused the path string to be rejected.

      Parameters:
      first - the path string or initial part of the path string
      more - additional strings to be joined to form the path string
      Returns:
      the resulting Path
      Throws:
      InvalidPathException - If the path string cannot be converted
    • getPathMatcher

      public abstract PathMatcher getPathMatcher(String syntaxAndPattern)
      Returns a PathMatcher that performs match operations on the String representation of Path objects by interpreting a given pattern. The syntaxAndPattern parameter identifies the syntax and the pattern and takes the form:
       syntax:pattern
       
      where syntax is the non-empty name of the syntax, pattern is a possibly-empty pattern string, and ':' stands for itself.

      A FileSystem implementation supports the "glob" and "regex" syntaxes, and may support others. The value of the syntax component is compared without regard to case.

      When the syntax is "glob" then the String representation of the path is matched using a limited pattern language that resembles regular expressions but with a simpler syntax. For example:

      Pattern Language
      Example Description
      *.java Matches a path that represents a file name ending in .java
      *.* Matches file names containing a dot
      *.{java,class} Matches file names ending with .java or .class
      foo.? Matches file names starting with foo. and a single character extension
      /home/*/* Matches /home/gus/data on UNIX platforms
      /home/** Matches /home/gus and /home/gus/data on UNIX platforms
      C:\\* Matches C:\foo and C:\bar on the Windows platform (note that the backslash is escaped; as a string literal in the Java Language the pattern would be "C:\\\\*")

      The following rules are used to interpret glob patterns:

      • The * character matches zero or more characters of a name component without crossing directory boundaries.

      • The ** characters matches zero or more characters crossing directory boundaries.

      • The ? character matches exactly one character of a name component.

      • The backslash character (\) is used to escape characters that would otherwise be interpreted as special characters. The expression \\ matches a single backslash and "\{" matches a left brace for example.

      • The [ ] characters are a bracket expression that match a single character of a name component out of a set of characters. For example, [abc] matches "a", "b", or "c". The hyphen (-) may be used to specify a range so [a-z] specifies a range that matches from "a" to "z" (inclusive). These forms can be mixed so [abce-g] matches "a", "b", "c", "e", "f" or "g". If the character after the [ is a ! then it is used for negation so [!a-c] matches any character except "a", "b", or "c".

        Within a bracket expression the *, ? and \ characters match themselves. The (-) character matches itself if it is the first character within the brackets, or the first character after the ! if negating.

      • The { } characters are a group of subpatterns, where the group matches if any subpattern in the group matches. The "," character is used to separate the subpatterns. Groups cannot be nested.

      • Leading period/dot characters in file name are treated as regular characters in match operations. For example, the "*" glob pattern matches file name ".login". The Files.isHidden(java.nio.file.Path) method may be used to test whether a file is considered hidden.

      • All other characters match themselves in an implementation dependent manner. This includes characters representing any name-separators.

      • The matching of root components is highly implementation-dependent and is not specified.

      When the syntax is "regex" then the pattern component is a regular expression as defined by the Pattern class.

      For both the glob and regex syntaxes, the matching details, such as whether the matching is case sensitive, are implementation-dependent and therefore not specified.

      Parameters:
      syntaxAndPattern - The syntax and pattern
      Returns:
      A path matcher that may be used to match paths against the pattern
      Throws:
      IllegalArgumentException - If the parameter does not take the form: syntax:pattern
      PatternSyntaxException - If the pattern is invalid
      UnsupportedOperationException - If the pattern syntax is not known to the implementation
      See Also:
    • getUserPrincipalLookupService

      public abstract UserPrincipalLookupService getUserPrincipalLookupService()
      Returns the UserPrincipalLookupService for this file system (optional operation). The resulting lookup service may be used to lookup user or group names.

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

          UserPrincipalLookupService lookupService = FileSystems.getDefault().getUserPrincipalLookupService();
          Files.setOwner(path, lookupService.lookupPrincipalByName("joe"));
      

      Returns:
      The UserPrincipalLookupService for this file system
      Throws:
      UnsupportedOperationException - If this FileSystem does not does have a lookup service
    • newWatchService

      public abstract WatchService newWatchService() throws IOException
      Constructs a new WatchService (optional operation).

      This method constructs a new watch service that may be used to watch registered objects for changes and events.

      Returns:
      a new watch service
      Throws:
      UnsupportedOperationException - If this FileSystem does not support watching file system objects for changes and events. This exception is not thrown by FileSystems created by the default provider.
      IOException - If an I/O error occurs