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I used the random.nextBytes() method and it generate random bytes. But i want every byte to have a fixed length of 8 bits. How do i do that?

    SecureRandom random=new SecureRandom(); 
    byte[] data=new byte[2];


This is the output i get



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What do you mean by that? A byte is 8 bits. –  delnan Nov 23 '13 at 18:55
A byte is 8 bit, by definition. You can't have anything else. Can you provide an example of what you mean? –  Peter Lawrey Nov 23 '13 at 18:57
Every byte does have a fixed length of 8 bits. Do you mean positive value? You can cast to int and add 128. –  Elliott Frisch Nov 23 '13 at 18:58
@ElliottFrisch Or you can do x & 0xFF –  Peter Lawrey Nov 23 '13 at 18:59
My favorite is Integer.toBinaryString(256+theByte).substring(1). –  Hot Licks Nov 23 '13 at 21:59

3 Answers 3

up vote 3 down vote accepted

The bytes in the array are already a fixed length of 8 bits. If what you really mean is that you want to print them with a fixed length of 8 bits you can do this:

System.out.println(String.format("%8s", Integer.toBinaryString(data[0] & 0xFF)).replace(' ', '0'));
System.out.println(String.format("%8s", Integer.toBinaryString(data[1] & 0xFF)).replace(' ', '0'));

will print


The other suggestions will not work properly for values > 128 (or < 0) unless you add 512 and mask properly, then is is actually nicer:


I am adding this last part, giving credit to Hot Licks since it is the best I have seen. It works with all types accepted by Integer.toBinaryString().

Integer.toBinaryString(0x300+b).substring(2) //for b < 256

If you want a 16 bit result you can do:

Integer.toBinaryString(0x30000+bb).substring(2)  //for bb < 65536

Generalized for 1 to 62 bits for n < 2^62:

int bits = 8;
Long mask =  (1L << bits) - 1;
Long.toBinaryString((3L << bits) + (mask & n)).substring(2);

63 bits is a special case:

Long.toBinaryString((1L << bits) + (mask & n)).substring(1);
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The original scheme DID work for > 128. –  Hot Licks Nov 24 '13 at 15:26
Did you try it when the number 129 was cast to a byte? In that case the result is "0000001" instead of "10000001". Integer.toBinaryString(256+theByte).substring(1) only works correctly when theByte is an int or a short. –  dansalmo Nov 24 '13 at 15:48
OK, that's just a part of it not working for negative numbers. –  Hot Licks Nov 24 '13 at 19:27
(It is confusing having byte signed, since we rarely think of them that way.) –  Hot Licks Nov 24 '13 at 19:31

Slightly simpler: Integer.toBinaryString(768+b).substring(2)

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I guess this is a difference between binary and decimal. Normally, we think of a byte by definition as having 8 bits. Whereas, an ordinary 8 digit number must start with a non-zero digit (unless it is a business number like an ISBN), an 8-bit byte can start with a 0.

So it seems that you want the most significant bit to be 1 - I think.

Well there is a simple way to "fix" that: number | 128. And it shouldn't harm the randomness.

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But decimal rarely exists in computers. Hasn't been a decimal computer built in 40 years, probably. (Granted, several hardware architectures include "decimal" instructions, but their use is restricted to RPG, COBOL, and a few other ancient languages.) –  Hot Licks Nov 23 '13 at 21:57
Sure, but I was just talking about decimal as it is used by humans. –  Robin Green Nov 23 '13 at 21:57
Which is an important thing to remember. When you do Integer.toBinaryString you're not converting from decimal to binary, but rather you're converting from binary to a character representation of that binary. –  Hot Licks Nov 23 '13 at 22:01

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