T
- The type of element returned by the iteratorpublic interface DirectoryStream<T> extends Closeable, Iterable<T>
While DirectoryStream
extends Iterable
, it is not a
general-purpose Iterable
as it supports only a single Iterator
; invoking the iterator
method to obtain a second
or subsequent iterator throws IllegalStateException
.
An important property of the directory stream's Iterator
is that
its hasNext
method is guaranteed to read-ahead by
at least one element. If hasNext
method returns true
, and is
followed by a call to the next
method, it is guaranteed that the
next
method will not throw an exception due to an I/O error, or
because the stream has been closed
. The Iterator
does
not support the remove
operation.
A DirectoryStream
is opened upon creation and is closed by
invoking the close
method. Closing a directory stream releases any
resources associated with the stream. Failure to close the stream may result
in a resource leak. The try-with-resources statement provides a useful
construct to ensure that the stream is closed:
Path dir = ... try (DirectoryStream<Path> stream = Files.newDirectoryStream(dir)) { for (Path entry: stream) { ... } }
Once a directory stream is closed, then further access to the directory,
using the Iterator
, behaves as if the end of stream has been reached.
Due to read-ahead, the Iterator
may return one or more elements
after the directory stream has been closed. Once these buffered elements
have been read, then subsequent calls to the hasNext
method returns
false
, and subsequent calls to the next
method will throw
NoSuchElementException
.
A directory stream is not required to be asynchronously closeable.
If a thread is blocked on the directory stream's iterator reading from the
directory, and another thread invokes the close
method, then the
second thread may block until the read operation is complete.
If an I/O error is encountered when accessing the directory then it
causes the Iterator
's hasNext
or next
methods to
throw DirectoryIteratorException
with the IOException
as the
cause. As stated above, the hasNext
method is guaranteed to
read-ahead by at least one element. This means that if hasNext
method
returns true
, and is followed by a call to the next
method,
then it is guaranteed that the next
method will not fail with a
DirectoryIteratorException
.
The elements returned by the iterator are in no specific order. Some file systems maintain special links to the directory itself and the directory's parent directory. Entries representing these links are not returned by the iterator.
The iterator 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 the DirectoryStream
is created.
Usage Examples: Suppose we want a list of the source files in a directory. This example uses both the for-each and try-with-resources constructs.
List<Path> listSourceFiles(Path dir) throws IOException { List<Path> result = new ArrayList<>(); try (DirectoryStream<Path> stream = Files.newDirectoryStream(dir, "*.{c,h,cpp,hpp,java}")) { for (Path entry: stream) { result.add(entry); } } catch (DirectoryIteratorException ex) { // I/O error encounted during the iteration, the cause is an IOException throw ex.getCause(); } return result; }
Files.newDirectoryStream(Path)
Modifier and Type | Interface and Description |
---|---|
static interface |
DirectoryStream.Filter<T>
An interface that is implemented by objects that decide if a directory
entry should be accepted or filtered.
|
Modifier and Type | Method and Description |
---|---|
Iterator<T> |
iterator()
Returns the iterator associated with this
DirectoryStream . |
forEach, spliterator
Iterator<T> iterator()
DirectoryStream
.iterator
in interface Iterable<T>
DirectoryStream
IllegalStateException
- if this directory stream is closed or the iterator has already
been returned Submit a bug or feature
For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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