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I am reading in arbitrary size file in blocks of 1021 bytes, with a block size of <= 1021 bytes for the final block of the file. At the moment, I am doing this using a BufferedInputStream which is wrapped around a FileInputStream and code that looks (roughly) like the following (where reader is the BufferedInputStream and this is operating in a loop):

int availableData = reader.available();
int datalen = (availableData >= 1021) 
                ? 1021 
                : availableData;
reader.read(bufferArray, 0, datalen);

However, from reading the API docs, I note that available() only gives an "estimate" of the available size, before the call would 'block'. Printing out the value of availableData each iteration seems to give the expected values - starting with the file size and slowly getting less until it is <= 1021. Given that this is a local file, am I wrong to expect this to be a correct value - is there a situation where available() would give an incorrect answer?

EDIT: Sorry, additional information. The BufferedInputStream is wrapped around a FileInputStream. From the source code for a FIS, I think I'm safe to rely on available() as a measure of how much data is left in the case of a local file. Am I right?

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Keep in mind: the underlying stream might return available 0 (w/o blocking) and if there is no prebuffered data in the BufferedInputStream, you end up calling read w/ len = 0... which exits immediately. Make sure you don't call read w/ zero len. FileInputStream tends to return the remaining data length, however that's also a problem if you attempt to read too large file. –  bestsss Mar 15 '11 at 22:15
    
Is there a specific reason why you want to avoid blocking instead of just reading the file with a fixed buffer size of 1021? –  Jörn Horstmann Mar 16 '11 at 0:14
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2 Answers

up vote 2 down vote accepted

The question is pointless. Those four lines of code are entirely equivalent to this:

reader.read(buffer, 0, 1021);

without the timing-window problem you have introduced between the available() call and the read. Note that this code is still incorrect as you are ignoring the return value, which can be -1 at EOS, or else anything between 1 and 1021 inclusive.

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How is that equivalent? What if the amount of data left to be read is < 1021? I end up with a buffer of size 1021, but with less than 1021 bytes of data in it - how do I tell where the data ends? Right now I use the datalen variable to tell me how big the buffer should be. Do I not need to do this? –  Stephen Mar 16 '11 at 9:00
    
read() returns the number of bytes it actually read, or -1 at EOS. –  EJP Mar 21 '11 at 7:16
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It doesn't give the estimated size, it gives the remaining bytes that can be read. It's not an estimate with BufferedInputStream.

Returns the number of bytes that can be read from this input stream without blocking.

You should pass available() directly into the read() call if you want to avoid blocking, but remember to return if the return value is 0 or -1. available() might throw an exception on buffer types that don't support the operation.

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Right, thank you for the information. What exactly might cause a local file to block, and why would passing available() straight to read help prevent this? –  Stephen Mar 15 '11 at 21:06
    
Is there anything else working on the file at the same time? If there is, then available() would be unsafe to prevent blocking. –  Chris Dennett Mar 16 '11 at 2:25
    
'The number of bytes that can be read without blocking' doesn't mean 'the remaining bytes that can be read'. –  EJP Apr 16 '11 at 12:09
    
Well, you know the number of total available bytes from the file size, obviously :) –  Chris Dennett Apr 16 '11 at 17:48
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