What does InputStream.available() do in Java? I read the documentation, but I still cannot make it out.

The doc says:

Returns the number of bytes that can be read (or skipped over) from this input stream without blocking by the next caller of a method for this input stream. The next caller might be the same thread or or another thread.

The available method for class InputStream always returns 0.

What do they mean by blocking? Does it just mean a synchronized call?

And most of all, what is the purpose of the available() method?

  • 1
    There are very few genuinely useful uses of available(). One of them is for reading from System in. – user207421 Sep 13 '10 at 0:24

Blocking doesn't relate to threading or synchronisation here. Instead it relates to blocking IO (see this for more info). If you issue a request to read, and the channel has none available, a blocking call will wait (or block) until data is available (or the channel is closed, throws an exception etc.)

So why use available() ? So you can determine how many bytes to read, or determine whether you're going to block.

Note that Java has non-blocking IO capabilities as well. See here for more details

  • I stumbled upon this question and am now wondering, can I use available() to solve my own problem, without resorting to NIO. My question: stackoverflow.com/questions/3867042/… – Bart van Heukelom Oct 5 '10 at 20:40
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    This answer is not correct. A blocking call will block while there is no data available. If you ask for four and there are three, you get three. – user207421 Jun 21 '13 at 13:29

In InputStreams, read() calls are said to be "blocking" method calls. That means that if no data is available at the time of the method call, the method will wait for data to be made available.

The available() method tells you how many bytes can be read until the read() call will block the execution flow of your program. On most of the input streams, all call to read() are blocking, that's why available returns 0 by default.

However, on some streams (such as BufferedInputStream, that have an internal buffer), some bytes are read and kept in memory, so you can read them without blocking the program flow. In this case, the available() method tells you how many bytes are kept in the buffer.

  • 8
    BufferedInputStream.available() tells you how many bytes can be read without blocking. This is the sum of the number of bytes already in the buffer and the avaiable() result of the nested input stream. Note also that available() always returns zero for an SSL socket. – user207421 Sep 13 '10 at 0:22
  • What I didn't quite understand is what is the use of knowing this. I really, can't see why should I care, i.e. I can't see where and when in mu app I could find it some use. Of course, it's pretty obvious, that I am being ignorant, but that's is for my lack of experience. – Albus Dumbledore Sep 13 '10 at 5:30
  • As I said above, there are very few useful uses. You have to know you're dealing with a stream that will deliver a non-zero answer and then you have to have a use for the result. – user207421 Sep 13 '10 at 8:27
  • Can you please explain what do you mean by if no data is available at the time of the method call, the method will wait for data to be made available? Say I have a file with no content. If I invoke that in the FileInputStream, will it forever wait for data to come from the file? Does that mean that whatever followed the invocation of the stream in the original code will be put on hold indefinitely? – SexyBeast Jan 9 '13 at 21:06
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    @Cupidvogel: No, for a file with no content, the stream will return -1 immediately to indicate that there's no data. If you have a network-based stream, however, where the other end of the connection is holding it open but not sending any data, then that would indeed block forever. – Jon Skeet Jan 15 '13 at 7:22

One of possibly-practical usages of available() is using it for choosing a reasonable buffer length.

static final int LEN = 4096;

long copy(InputStream in, OutputStream out) throws IOException {
    int count = 0L;
    int avl = in.available();
    if (avl == 0) {
        // 0 returned without IOException? possibly mean eof?
        return 0L;
    //byte[] buf = new byte[avl == 0 ? LEN : Math.min(avl, LEN)];
    byte[] buf = new byte[Math.min(avl, LEN)];
    for (int len; (len = in.read(buf)) != -1; count+= len) {
        out.write(buf, 0, len);
    return count;

The document says,

Returns: an estimate of the number of bytes that can be read (or skipped over) from this input stream without blocking or 0 when it reaches the end of the input stream.


A subclass' implementation of this method may choose to throw an IOException if this input stream has been closed by invoking the close() method.


I already know the idea is not recommended. I've known that risk even before the JDK doc warned. (I once tried to allocated a buffer from the available of few GB sized FileInputStream.)


It is never correct to use the return value of this method to allocate a buffer intended to hold all data in this stream.


But, in programming, there should no never or always wrong code. That's what I'm believing.

  • 3
    No,no, and no. Read the javadoc. "It is never correct to use the return value of this method to allocate a buffer intended to hold all data in this stream." – Gordon Sep 21 '16 at 16:37
  • @Gordon I've already read the javadoc. And that's why I said possibly-practical and used Math#min. – Jin Kwon Sep 22 '16 at 3:18
  • 2
    Key word "NEVER". It doesn't matter if you think it is "possibly-practical". Don't use it that way. Say you have 16777216 bytes (16 MiB) to read. available() could return 4 at the time you allocated your buffer. You've now allocated a 4 byte buffer and will be running that loop 4194304 times. When the javadoc says "never", it means DON'T DO THAT. – Gordon Oct 14 '16 at 19:10
  • @Gordon The specific scenario you described is just a scenario. So Math.max(Math.min(LEN, in.available()), LEN) might make you happy, isn't it? – Jin Kwon Oct 15 '16 at 13:17
  • It's pointless. Just use a large enough buffer and do the actual read. That will tell you how many bytes were really available. there is simply no need to call available() here. I found a correct use of it once but it's so long ago I've forgotten it, and this is not it. – user207421 Apr 29 '17 at 1:32

Consider if you write software VERY BADLY.. and you write an operating system.

This operating system takes keyboard input amongst other things.

So you ask your OS to go and get some keyboard input, but there are no keys pressed and none in the buffer. your Whole OS will then HANG DEAD until it gets a keyboard input.

Contrast this with 'look ahead', you ask if the KB has any characters BEFORE making the call. You get the answer NO, so your OS then goes and does something else.

That is WHY you should care, now if you then multiply that by every other potentially blocking task, you can see why 'look ahead' is critical.

Because It also applies to OUTPUT: A memory to a disk-drive interface can also flood data to the disk-drive faster than it can process it. if you do not know the drive buffer is flooded with data, then the task will block until the buffer can accept more data.

This also highlights the nonsense of 'there are very few useful uses.'

  • No it doesn't. I wasn't talking about writing software very badly; I wasn't talking about writing operating systems; I wasn't talking about writing to a disk-drive interface: available() doesn't help you with writing. I was talking about InputStream.available() in Java, which was multithreaded last time I looked. The one valid example you give here is the same as the exception I mentioned: reading from the keyboard. – user207421 Sep 15 '13 at 4:20

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