I'm reading a binary file like this:

InputStream in = new FileInputStream( file );
byte[] buffer = new byte[1024];
while( ( in.read(buffer ) > -1 ) {

   int a = // ??? 
}

What I want to do it to read up to 4 bytes and create a int value from those but, I don't know how to do it.

I kind of feel like I have to grab 4 bytes at a time, and perform one "byte" operation ( like >> << >> & FF and stuff like that ) to create the new int

What's the idiom for this?

EDIT

Ooops this turn out to be a bit more complex ( to explain )

What I'm trying to do is, read a file ( may be ascii, binary, it doesn't matter ) and extract the integers it may have.

For instance suppose the binary content ( in base 2 ) :

00000000 00000000 00000000 00000001
00000000 00000000 00000000 00000010

The integer representation should be 1 , 2 right? :- / 1 for the first 32 bits, and 2 for the remaining 32 bits.

11111111 11111111 11111111 11111111

Would be -1

and

01111111 11111111 11111111 11111111

Would be Integer.MAX_VALUE ( 2147483647 )

ByteBuffer has this capability, and is able to work with both little and big endian integers.

Consider this example:


//  read the file into a byte array
File file = new File("file.bin");
FileInputStream fis = new FileInputStream(file);
byte [] arr = new byte[(int)file.length()];
fis.read(arr);

//  create a byte buffer and wrap the array
ByteBuffer bb = ByteBuffer.wrap(arr);

//  if the file uses little endian as apposed to network
//  (big endian, Java's native) format,
//  then set the byte order of the ByteBuffer
if(use_little_endian)
    bb.order(ByteOrder.LITTLE_ENDIAN);

//  read your integers using ByteBuffer's getInt().
//  four bytes converted into an integer!
System.out.println(bb.getInt());

Hope this helps.

You should put it into a function like this:

public static int toInt(byte[] bytes, int offset) {
  int ret = 0;
  for (int i=0; i<4 && i+offset<bytes.length; i++) {
    ret <<= 8;
    ret |= (int)bytes[i] & 0xFF;
  }
  return ret;
}

Example:

byte[] bytes = new byte[]{-2, -4, -8, -16};
System.out.println(Integer.toBinaryString(toInt(bytes, 0)));

Output:

11111110111111001111100011110000

This takes care of running out of bytes and correctly handling negative byte values.

I'm unaware of a standard function for doing this.

Issues to consider:

  1. Endianness: different CPU architectures put the bytes that make up an int in different orders. Depending on how you come up with the byte array to begin with you may have to worry about this; and

  2. Buffering: if you grab 1024 bytes at a time and start a sequence at element 1022 you will hit the end of the buffer before you get 4 bytes. It's probably better to use some form of buffered input stream that does the buffered automatically so you can just use readByte() repeatedly and not worry about it otherwise;

  3. Trailing Buffer: the end of the input may be an uneven number of bytes (not a multiple of 4 specifically) depending on the source. But if you create the input to begin with and being a multiple of 4 is "guaranteed" (or at least a precondition) you may not need to concern yourself with it.

to further elaborate on the point of buffering, consider the BufferedInputStream:

InputStream in = new BufferedInputStream(new FileInputStream(file), 1024);

Now you have an InputStream that automatically buffers 1024 bytes at a time, which is a lot less awkward to deal with. This way you can happily read 4 bytes at a time and not worry about too much I/O.

Secondly you can also use DataInputStream:

InputStream in = new DataInputStream(new BufferedInputStream(
                     new FileInputStream(file), 1024));
byte b = in.readByte();

or even:

int i = in.readInt();

and not worry about constructing ints at all.

  • 1
    +1, Watch out for endianness! – Carl Norum Mar 4 '10 at 22:45
  • I just have to consider the fact my array might not read exact % 4 bytes right? – OscarRyz Mar 4 '10 at 22:46
  • 3
    One MAJOR problem with your code -- java's byte type is SIGNED, so if the top bit of any byte is set, your code will also set all the upper bits in the resulting int. You need to mask off the upper bits of each byte before shifting and oring, eg (bytes[0] & 0xff) | ((bytes[1] & 0xff) << 8) | ... – Chris Dodd Mar 4 '10 at 23:19
  • 1
    I hate to say this, but your offset support is completely broken. See ideone.com/uCpovu, where I also have the fix. – quantum Dec 2 '12 at 21:10
  • 1
    Thanks for the code snippet, i should point out a bug here - ret |= (int)bytes[i] & 0xFF; should really be ret |= (int)bytes[i + offset] & 0xFF; - otherwise the offset param is ignored completely. – Ying Feb 9 '17 at 0:23

If you have them already in a byte[] array, you can use:

int result = ByteBuffer.wrap(bytes).getInt();

source: here

just see how DataInputStream.readInt() is implemented;

    int ch1 = in.read();
    int ch2 = in.read();
    int ch3 = in.read();
    int ch4 = in.read();
    if ((ch1 | ch2 | ch3 | ch4) < 0)
        throw new EOFException();
    return ((ch1 << 24) + (ch2 << 16) + (ch3 << 8) + (ch4 << 0));
  • 7
    It should be noted that this is for big-endian ordered bytes, where as support for little only takes a small change: return ((ch4 << 24) + (ch3 << 16) + (ch2 << 8) + (ch1 << 0)); – Paul Gregoire Sep 16 '11 at 20:57
  • It is no correct. E.g., if 4th byte equals -1, and others are 0, your result is -1, but should be 255. int k = ((byte)-1) << 0; System.err.println(k); // -1 – Mikhail Ionkin Mar 18 at 14:51
  • @MikhailIonkin Your comment is wrong, and this code is correct. in.read() does not return a byte. If it did, sign extension would occur when it was stored in an int variable. But in.read() returns the next byte of the stream converted to int WITHOUT sign extension. So If the next byte of the stream is 0xFF, in.read() would return 0x000000FF. The only way in.read() will return -1 is when you reach the end of the stream. – Craig Parton Aug 25 at 13:21
  • @CraigParton yes, but question is how to convert 4 bytes, not 4 ints – Mikhail Ionkin Aug 26 at 11:12

The easiest way is:

RandomAccessFile in = new RandomAccessFile("filename", "r"); 
int i = in.readInt();

-- or --

DataInputStream in = new DataInputStream(new BufferedInputStream(
    new FileInputStream("filename"))); 
int i = in.readInt();
  • 1
    assuming that his binary file contains big endian signed ints. otherwise it'll fail. horribly. :) – stmax Mar 4 '10 at 22:54

try something like this:

a = buffer[3];
a = a*256 + buffer[2];
a = a*256 + buffer[1];
a = a*256 + buffer[0];

this is assuming that the lowest byte comes first. if the highest byte comes first you might have to swap the indices (go from 0 to 3).

basically for each byte you want to add, you first multiply a by 256 (which equals a shift to the left by 8 bits) and then add the new byte.

  • 2
    +1 except you should use << instead of multiplication – Andrey Mar 4 '10 at 22:51
  • Although I conceptually agree with Andrey, I'd hope any descent compiler would figure that out and fix it for you. However, << IS clearer for this purpose. – Bill K Mar 4 '10 at 22:57
  • @Andrey: to be fair, the Java compiler will probably translate x * 256 into x << 8 automatically. – cletus Mar 4 '10 at 22:57
  • depends on quality of compiler :) – Andrey Mar 5 '10 at 10:49
  • It's not because of the "faster" code that you should use <<, it's because of readability. By using <<, it is clear that we are doing bit operations rather than multiplication. In fact, I'd even change the +s to |s – Justin Jul 31 '14 at 23:26
for (int i = 0; i < buffer.length; i++)
{
   a = (a << 8) | buffer[i];
   if (i % 3 == 0)
   {
      //a is ready
      a = 0;
   }       
}

You can also use BigInteger for variable length bytes. You can convert it to Long, Integer or Short, whichever suits your needs.

new BigInteger(bytes).intValue();

or to denote polarity:

new BigInteger(1, bytes).intValue();

For reading unsigned 4 bytes as integer we should use a long variable, because the sign bit is considered as part of the unsigned number.

long result = (((bytes[0] << 8 & bytes[1]) << 8 & bytes[2]) << 8) & bytes[3]; 
result = result & 0xFFFFFFFF;

This is tested well worked function

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