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RandomAccessFile is quite slow for random access to a file. You often read about implementing a buffered layer over it, but code doing this isn't possible to find online.

So my question is: would you guys who know any opensource implementation of this class share a pointer or share your own implementation?

It would be nice if this question would turn out as a collection of useful links and code about this problem, which I'm sure, is shared by many and never addressed properly by SUN.

Please, no reference to MemoryMapping, as files can be way bigger than Integer.MAX_VALUE.

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1  
Let me see if I understand, you mean that java.nio.MemoryByteBuffer is not good enough because it can only hold Integer.MAX_VALUE bytes. Is that so? –  Edwin Dalorzo Apr 10 '11 at 19:57
    
That's around 2 gygabytes of memory in a buffer. How big is your file and how much memory do you have available? –  Edwin Dalorzo Apr 10 '11 at 20:08
1  
What/how do you want to buffer? Usually you are buffering a stream, but if you want to access an arbitrary point in a multi-gig file, what data exactly do you want to store? My guess is that the answer to that will give you your solution (e.g. "I always want to preload the 1K of data after the random point). –  Will Iverson Apr 10 '11 at 20:45
    
@edalorzo: yes, that's the problem. My files are tens of GIGs. –  marcorossi Apr 10 '11 at 22:04
    
@Will: Yes, that's the most typical idea. A read-ahead kind of behavior. I have records that are composed of a header and some payload. So I can read ints, longs and shorts for the fields composing my header, and some of these fields contain the size of the chunks of payload that come next. So it's many read*() and some read(byte[])s. It's mostly header+payload scenario. The kind of implementation I have in mind is not that different from adding BufferInputStream kind of behavior. –  marcorossi Apr 10 '11 at 22:08

5 Answers 5

Well, I do not see a reason not to use java.nio.MappedByteBuffer even if the files are bigger the Integer.MAX_VALUE.

Evidently you will not be allowed to define a single MappedByteBuffer for the whole file. But you could have several MappedByteBuffers accessing different regions of the file.

The definition of position and size in FileChannenel.map are of type long, which implies you can provide values over Integer.MAX_VALUE, the only thing you have to take care of is that the size of your buffer will not be bigger than Integer.MAX_VALUE.

Therefore, you could define several maps like this:

buffer[0] = fileChannel.map(FileChannel.MapMode.READ_WRITE,0,2147483647L);
buffer[1] = fileChannel.map(FileChannel.MapMode.READ_WRITE,2147483647L, Integer.MAX_VALUE);
buffer[2] = fileChannel.map(FileChannel.MapMode.READ_WRITE, 4294967294L, Integer.MAX_VALUE);
...

In summary, the size cannot be bigger than Integer.MAX_VALUE, but the start position can be anywhere in your file.

In the Book Java NIO, the author Ron Hitchens states:

Accessing a file through the memory-mapping mechanism can be far more efficient than reading or writing data by conventional means, even when using channels. No explicit system calls need to be made, which can be time-consuming. More importantly, the virtual memory system of the operating system automatically caches memory pages. These pages will be cached using system memory andwill not consume space from the JVM's memory heap.

Once a memory page has been made valid (brought in from disk), it can be accessed again at full hardware speed without the need to make another system call to get the data. Large, structured files that contain indexes or other sections that are referenced or updated frequently can benefit tremendously from memory mapping. When combined with file locking to protect critical sections and control transactional atomicity, you begin to see how memory mapped buffers can be put to good use.

I really doubt that you will find a third-party API doing something better than that. Perhaps you may find an API written on top of this architecture to simplify the work.

Don't you think that this approach ought to work for you?

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Good approach, but you should have overlapping buffers so that you can read records that are on a 2G boundary. –  Anon Apr 11 '11 at 16:05
    
that is a possible solution and was going to ask in another question. an efficient way to wrap multiple mappedbytebuffers for big files. here i was more looking for a buffered approach, something like github.com/apache/cassandra/blob/trunk/src/java/org/apache/… or minddumped.blogspot.com/2009/01/… –  marcorossi Apr 15 '11 at 10:47

You can make a BufferedInputStream from a RandomAccessFile with code like,

 RandomAccessFile raf = ...
 FileInputStream fis = new FileInputStream(raf.getFD());
 BufferedInputStream bis = new BufferedInputStream(fis);

Some things to note

  1. Closing the FileInputStream will close the RandomAccessFile and vice versa
  2. The RandomAccessFile and FileInputStream point to the same position, so reading from the FileInputStream will advance the file pointer for the RandomAccessFile, and vice versa

Probably the way you want to use this would be something like,

RandomAccessFile raf = ...
FileInputStream fis = new FileInputStream(raf.getFD());
BufferedInputStream bis = new BufferedInputStream(fis);

//do some reads with buffer
bis.read(...);
bis.read(...);

//seek to a a different section of the file, so discard the previous buffer
raf.seek(...);
bis = new BufferedInputStream(fis);
bis.read(...);
bis.read(...);
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1  
I took a similar approach, using the getFD method. But instead of building a BufferedInputStream, I built a FileReader and then a BufferedReader. That gives me access to a readLine method that is faster (and maybe more UTF friendly?) than the one provided by RandomAccessFile. –  Jeff Terrell Ph.D. Jul 13 at 14:40

If you're running on a 64-bit machine, then memory-mapped files are your best approach. Simply map the entire file into an array of equal-sized buffers, then pick a buffer for each record as needed (ie, edalorzo's answer, however you want overlapping buffers so that you don't have records that span boundaries).

If you're running on a 32-bit JVM, then you're stuck with RandomAccessFile. However, you can use it to read a byte[] that contains your entire record, then use a ByteBuffer to retrieve individual values from that array. At worst you should need to make two file accesses: one to retrieve the position/size of the record, and one to retrieve the record itself.

However, be aware that you can start stressing the garbage collector if you create lots of byte[]s, and you'll remain IO-bound if you bounce all over the file.

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@Anon I am certainly not an expert on the subject and therefore I feel really intrigued on why you say that if it is 64-bit machine memory-mapped files are the best approach. Do you say it because of the memory addressing limitations of a 32-bit hardware architecture or any other particular reason? –  Edwin Dalorzo Apr 11 '11 at 16:54
1  
@edalorzo - it's due to the limitations of 32-bit hardware. On a 64-bit machine your virtual address space is large enough to map the entire file. On a 32-bit machine you'd have to constantly remap potions of the file, and you may run into GC issues (mapped files are unmapped by the garbage collector, which should unmap one file so that you have room to map another, but may do a full collection while doing so). –  Anon Apr 11 '11 at 17:52
    
yes, i was exactly looking for something like your 32-bit solution. look at my comment to edalorzo. the first one is kind of a problem mmmapping many different locations for small reads (compared to the size and cost of mmapping) doesn't make much sense. –  marcorossi Apr 15 '11 at 10:52
    
@marcorossi: you wouldn't map portions of the file when you read them, you'd map the whole file. This might help you: kdgcommons.svn.sourceforge.net/viewvc/kdgcommons/trunk/src/main/… –  kdgregory Apr 15 '11 at 13:27
    
@kdgregory: that looks interestin, though i can't memorymap 100+GIG files. Plus, how do you handle overlapping data between buffers? It doesn't seam like you handle that case. –  marcorossi May 2 '11 at 21:29

Originally I thought to use the code based on the http://www.javaworld.com/article/2077523/build-ci-sdlc/java-tip-26--how-to-improve-java-s-i-o-performance.html article, but then I figured out that there are quite some bugs in (e.g: the interaction between truncate and the buffer; or the computation of the filePointer which was not correct either) and above all that there was no possibility to buffer writes. Making the software, aside from being a nice article, not particularly useful. Therefore, I drafted my own.

public class BufferedRandomAccessFile extends RandomAccessFile
{
    boolean reading=true;
    private byte buffer[];
    private int bufferSize = 0;

    private long filePos=0;  
    private long fileLength=0;
    private long bufferStart=0;

    public BufferedRandomAccessFile(String filename, String mode, int bufsize) throws IOException 
    {
        this(new File(filename),mode,bufsize);
    }

    public BufferedRandomAccessFile(File file, String mode, int bufsize) throws IOException 
    {
        super(file, mode);
        fileLength=file.length();
        buffer = new byte[bufsize];
    }

    public final int read() throws IOException 
    {
        if (!reading) switchToReadBuffer();
        while(true)
        {
            if (filePos==fileLength) return -1;
            // read the data
            int readAtIdx=(int) (filePos-bufferStart);
            if (readAtIdx<0 || readAtIdx>=bufferSize)
                updateReadBuffer();
            else
            {
                ++filePos;
                return ((int)buffer[readAtIdx]) & 0xff;
            }
        }
    }

    @Override
    public int read(byte[] b, int off, int len) throws IOException 
    {
        if (!reading) switchToReadBuffer();

        if (filePos==fileLength) return -1;
        int idx=off;
        int stop=off+len;
        while(idx<stop)
        {
            int readAtIdx=(int) (filePos-bufferStart);
            if (readAtIdx<0 || readAtIdx>=bufferSize)
            {
                updateReadBuffer();
                continue;
            }
            int toread=stop-idx;
            int available=(int) (fileLength-filePos);
            if (toread>available) toread=available;
            int availableInBuffer=bufferSize-readAtIdx;
            if (toread>availableInBuffer) toread=availableInBuffer;
            System.arraycopy(buffer, readAtIdx, b, idx, toread);
            idx+=toread;
            filePos+=toread;
        }
        return idx-off;
    }

    @Override
    public void write(int b) throws IOException 
    {
        if (reading) 
            switchToWriteBuffer();
        while(true)
        {
            if (bufferSize==0)
                bufferStart=filePos;
            int writeAtIdx=(int) (filePos-bufferStart);
            if (writeAtIdx<0 || writeAtIdx>=buffer.length)
                flush();
            else
            {
                buffer[writeAtIdx]=(byte) b;
                if (writeAtIdx==bufferSize) bufferSize++;
                if (++filePos>fileLength) fileLength=filePos;
                return;
            }
        }
    };

    @Override
    public void write(byte[] b, int off, int len) throws IOException 
    {
        if (reading) 
            switchToWriteBuffer();
        int from=off;
        int remaining=len;
        while(remaining>0)
        {
            if (bufferSize==0)
                bufferStart=filePos;
            int writeAtIdx=(int) (filePos-bufferStart);
            if (writeAtIdx<0 || writeAtIdx>=buffer.length)
                flush();
            else
            {
                int todo=buffer.length-writeAtIdx;
                if (todo>remaining) todo=remaining;
                System.arraycopy(b, from, buffer, writeAtIdx, todo);
                writeAtIdx+=todo;
                if (writeAtIdx>bufferSize) bufferSize=writeAtIdx;
                filePos+=todo;
                if (filePos>fileLength) fileLength=filePos;
                remaining-=todo;
                from+=todo;
            }
        }
    }

    private void switchToWriteBuffer()
    {
        bufferSize=0;
        bufferStart=filePos;
        reading=false;
    }

    public void switchToReadBuffer() throws IOException
    {
        flush();
        reading=true;
    }

    private void updateReadBuffer() throws IOException
    {
        super.seek(filePos);
        bufferStart=filePos;
        int n = super.read(buffer, 0, buffer.length);
        if (n < 0) n=0;
        bufferSize = n;
    }

    @Override
    public long getFilePointer() throws IOException 
    {
        return filePos;
    }

    @Override
    public long length() throws IOException 
    {
        return fileLength;
    }

    @Override
    public void seek(long pos) throws IOException
    {
        filePos=pos;
        if (filePos>fileLength) filePos=fileLength;
        if (filePos<0) filePos=0;
    }

    public void flush() throws IOException
    {   
        if (reading) return;
        super.seek(bufferStart);
        super.write(buffer,0,bufferSize);
        bufferSize=0;
    }

    @Override
    public void setLength(long newLength) throws IOException 
    {
        flush();
        super.setLength(newLength);
        fileLength=newLength;
        seek(filePos);
    }

    @Override
    public void close() throws IOException 
    {
        flush();
        super.close();
    }
}
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RandomAccessFile is quite slow for random access to a file. You often read about implementing a buffered layer over it, but code doing this isn't possible to find online.

Well, it is possible to find online.
For one, the JAI source code in jpeg2000 has an implementation, as well as an even more non-encumbered impl at: http://www.unidata.ucar.edu/software/netcdf-java/

javadocs:

http://www.unidata.ucar.edu/software/thredds/v4.3/netcdf-java/v4.0/javadoc/ucar/unidata/io/RandomAccessFile.html

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2  
if your files are in the GB range you will certainly notice a speedup with memory mapped files. the buffered RandomAccessFile impl I mentioned is excellent for small files, and also low mem requirements. Memory mapped files take up lots of RAM to do their wizardry. –  javatothebone Jan 24 '12 at 0:01
    
with the only problem that i have to depend on a whole library for a class. that's the problem. still, thanks for the links. –  marcorossi Apr 5 '12 at 17:49

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