I have to read a binary file in a legacy format with Java.

In a nutshell the file has a header consisting of several integers, bytes and fixed-length char arrays, followed by a list of records which also consist of integers and chars.

In any other language I would create structs (C/C++) or records (Pascal/Delphi) which are byte-by-byte representations of the header and the record. Then I'd read sizeof(header) bytes into a header variable and do the same for the records.

Something like this: (Delphi)

  THeader = record
    Version: Integer;
    Type: Byte;
    BeginOfData: Integer;
    ID: array[0..15] of Char;


procedure ReadData(S: TStream);
  Header: THeader;
  S.ReadBuffer(Header, SizeOf(THeader));

What is the best way to do something similar with Java? Do I have to read every single value on its own or is there any other way to do this kind of "block-read"?

12 Answers 12


To my knowledge, Java forces you to read a file as bytes rather than being able to block read. If you were serializing Java objects, it'd be a different story.

The other examples shown use the DataInputStream class with a File, but you can also use a shortcut: The RandomAccessFile class:

RandomAccessFile in = new RandomAccessFile("filename", "r");
int version = in.readInt();
byte type = in.readByte();
int beginOfData = in.readInt();
byte[] tempId;
in.read(tempId, 0, 16);
String id = new String(tempId);

Note that you could turn the responce objects into a class, if that would make it easier.

  • 1
    This answer has not any votes (yet) but it contains all I wanted to now. Thank you. – Daniel Rikowski Nov 10 '08 at 17:43
  • This also assumes that you wanted to turn the char array into a String, which may not be the case. – Powerlord Nov 12 '08 at 14:36
  • 4
    DataInputStream+BufferedInputStream could be better because RandomAccessFile do issue too many smaller io request to OS – Dennis C Jan 13 '11 at 3:41

If you would be using Preon, then all you would have to do is this:

public class Header {
    @BoundNumber int version;
    @BoundNumber byte type;
    @BoundNumber int beginOfData;
    @BoundString(size="15") String id;

Once you have this, you create Codec using a single line:

Codec<Header> codec = Codecs.create(Header.class);

And you use the Codec like this:

Header header = Codecs.decode(codec, file);
  • are you still supporting preon and it's development? – dwerner Jan 16 '14 at 21:29
  • I'd totally be supporting it, if it would help me to pay my mortgage. ;-) Happy to discuss the options. – Wilfred Springer Jan 17 '14 at 7:34
  • 1
    The Preon link is dead – Derek Feb 18 '15 at 13:32

You could use the DataInputStream class as follows:

DataInputStream in = new DataInputStream(new BufferedInputStream(
                         new FileInputStream("filename")));
int x = in.readInt();
double y = in.readDouble();


Once you get these values you can do with them as you please. Look up the java.io.DataInputStream class in the API for more info.

  • That's what I feared but since someone pointed out portability issues with the general approach of reading whole structs/records I think it's a good think it cannot be done in Java. – Daniel Rikowski Nov 10 '08 at 17:45
  • Could you please tell me why wrraping the FileInputStream in a BufferedInputStream? why not just using the DataInputStream in = new DataInputStream(new FileInputStream("filename")); ? – Tarik Jul 1 '15 at 12:39
  • 1
    The BufferedInputStream provides buffering to the stream. That is, it reads a larger chunk of data from disk and stores it in a buffer for access. This results in less disk reads hence better efficiency. – Vincent Ramdhanie Jul 1 '15 at 20:32

I may have misunderstood you, but it seems to me you're creating in-memory structures you hope will be a byte-per-byte accurate representation of what you want to read from hard-disk, then copy the whole stuff onto memory and manipulate thence?

If that's indeed the case, you're playing a very dangerous game. At least in C, the standard doesn't enforce things like padding or aligning of members of a struct. Not to mention things like big/small endianness or parity bits... So even if your code happens to run it's very non-portable and risky - you depend on the compiler's creator not changing its mind on future versions.

Better to create an automaton to both validate the structure being read (byte per byte) from HD is valid, and filling an in-memory structure if it's indeed OK. You may loose some milliseconds (not so much as it may seem for modern OSes do a lot of disk read caching) though you gain platform and compiler independence. Plus, your code will be easily ported to another language.

Post Edit: In a way I sympathize with you. In the good-ol' days of DOS/Win3.11, I once created a C program to read BMP files. And used exactly the same technique. Everything was nice until I tried to compile it for Windows - oops!! Int was now 32 bits long, rather than 16! When I tried to compile on Linux, discovered gcc had very different rules for bit fields allocation than Microsoft C (6.0!). I had to resort to macro tricks to make it portable...

  • Yes, you are 100% right. The original file is created by a Delphi application and there are some language features which assist in preventing common problems. (Padding and alignment can be controlled for example) But I will think about portability... Thanks. – Daniel Rikowski Nov 10 '08 at 17:40

I used Javolution and javastruct, both handles the conversion between bytes and objects.

Javolution provides classes that represent C types. All you need to do is to write a class that describes the C structure. For example, from the C header file,

struct Date {
    unsigned short year;
    unsigned byte month;
    unsigned byte day;

should be translated into:

public static class Date extends Struct {
    public final Unsigned16 year = new Unsigned16();
    public final Unsigned8 month = new Unsigned8();
    public final Unsigned8 day   = new Unsigned8();

Then call setByteBuffer to initialize the object:

Date date = new Date();
date.setByteBuffer(ByteBuffer.wrap(bytes), 0);

javastruct uses annotation to define fields in a C structure.

public class Foo{

    @StructField(order = 0)
    public byte b;

    @StructField(order = 1)
    public int i;

To initialize an object:

Foo f2 = new Foo();
JavaStruct.unpack(f2, b);

I guess FileInputStream lets you read in bytes. So, opening the file with FileInputStream and read in the sizeof(header). I am assuming that the header has a fixed format and size. I don't see that mentioned in the initial post, but assuming that is the case as it would get much more complex if the header has optional args and different sizes.

Once you have the info, there can be a header class in which you assign the contents of the buffer that you've already read. And then parse the records in a similar fashion.


Here is a link to read byte using a ByteBuffer (Java NIO)



As other people mention DataInputStream and Buffers are probably the low-level API's you are after for dealing with binary data in java.

However you probably want something like Construct (wiki page has good examples too: http://en.wikipedia.org/wiki/Construct_(python_library), but for Java.

I don't know of any (Java versions) off hand, but taking that approach (declaratively specifying the struct in code) would probably be the right way to go. With a suitable fluent interface in Java it would probably be quite similar to a DSL.

EDIT: bit of googling reveals this:


Which might be the kind of thing you are looking for. I have no idea whether it works or is any good, but it looks like a sensible place to start.


I would create an object that wraps around a ByteBuffer representation of the data and provide getters to read directly from the buffer. In this way, you avoid copying data from the buffer to primitive types. Furthermore, you could use a MappedByteBuffer to get the byte buffer. If your binary data is complex, you can model it using classes and give each class a sliced version of your buffer.

class SomeHeader {
    private final ByteBuffer buf;
    SomeHeader( ByteBuffer fileBuffer){
       // you may need to set limits accordingly before
       // fileBuffer.limit(...)
       this.buf = fileBuffer.slice();
       // you may need to skip the sliced region
       // fileBuffer.position(endPos)
    public short getVersion(){
        return buf.getShort(POSITION_OF_VERSION_IN_BUFFER);

Also useful are the methods for reading unsigned values from byte buffers.



I've written up a technique to do this sort of thing in java - similar to the old C-like idiom of reading bit-fields. Note it is just a start but could be expanded upon.



In the past I used DataInputStream to read data of arbitrary types in a specified order. This will not allow you to easily account for big-endian/little-endian issues.

As of 1.4 the java.nio.Buffer family might be the way to go, but it seems that the your code might actually be more complicated. These classes do have support for handling endian issues.


A while ago I found this article on using reflection and parsing to read binary data. In this case, the author is using reflection to read the java binary .class files. But if you are reading the data into a class file, it may be of some help.

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