# (Java) Specify number of bits (length) when converting binary number to string?

I'm trying to store a number as a binary string in an array but I need to specify how many bits to store it as.

For example, if I need to store 0 with two bits I need a string "00". Or 1010 with 6 bits so "001010".

Can anyone help?

EDIT: Thanks guys, as I'm rubbish at maths/programming in general I've gone with the simplest solution which was David's. Something like:

``````binaryString.append(Integer.toBinaryString(binaryNumber));
for(int n=binaryString.length(); n<numberOfBits; n++) {
binaryString.insert(0, "0");
}
``````

It seems to work fine, so unless it's very inefficient I'll go with it.

-
That won't work with negative numbers and numbers greater than 2^31, since they do not fit inside an Java Integer. BigInteger automatically resizes the number of bits it uses to store the value. You can still use your padding method to insert 0's ahead. –  Fernando Miguélez Mar 9 '09 at 11:49
If you’re using David’s solution please mark his answer as accepted. –  Bombe Mar 9 '09 at 11:53
-1: Using a solution without marking it accepted. –  S.Lott Mar 9 '09 at 12:01
Sorry, I didn't know about the mark accepted thing. Thanks for the heads up Fernando but I don't think I'm going to need to do this for any negative numbers or anything larger than 2^16 so this should be ok I guess. I will have a look at BigInteger just in case anyway. –  joinJpegs Mar 10 '09 at 10:03

Use `Integer.toBinaryString()` then check the string length and prepend it with as many zeros as you need to make your desired length.

-

This is a common homework problem. There's a cool loop that you can write that will compute the smallest power of 2 >= your target number n.

Since it's a power of 2, the base 2 logarithm is the number of bits. But the Java `math` library only offers natural logarithm.

``````math.log( n ) / math.log(2.0)
``````

is the number of bits.

-

Forget about home-made solutions. Use standard BigInteger instead. You can specify number of bits and then use toString(int radix) method to recover what you need (I assume you need radix=2).

EDIT: I would leave bit control to BigInteger. The object will internally resize its bit buffer to fit the new number dimension. Moreover arithmetic operations can be carried out by means of this object (you do not have to implement binary adders/multipliers etc.). Here is a basic example:

``````package test;

import java.math.BigInteger;

public class TestBigInteger
{
public static void main(String[] args)
{
String value = "1010";
BigInteger bi = new BigInteger(value,2);
// Arithmetic operations
System.out.println("Output: " + bi.toString(2));
bi = bi.add(bi); // 10 + 10
System.out.println("Output: " + bi.toString(2));
bi = bi.multiply(bi); // 20 * 20
System.out.println("Output: " + bi.toString(2));

/*
* Padded to the next event number of bits
*/
}

static String pad(String s, int numDigits)
{
StringBuffer sb = new StringBuffer(s);
int numZeros = numDigits - s.length();
while(numZeros-- > 0) {
sb.insert(0, "0");
}
return sb.toString();
}
}
``````
-

Here's a simple solution for `int` values; it should be obvious how to extend it to e.g. byte, etc.

``````public static String bitString(int i, int len) {
len = Math.min(32, Math.max(len, 1));
char[] cs = new char[len];
for (int j = len - 1, b = 1; 0 <= j; --j, b <<= 1) {
cs[j] = ((i & b) == 0) ? '0' : '1';
}
return new String(cs);
}
``````

Here is the output from a set of sample test cases:

``````  0   1                                0                                0
0  -1                                0                                0
0  40 00000000000000000000000000000000 00000000000000000000000000000000
13   1                                1                                1
13   2                               01                               01
13   3                              101                              101
13   4                             1101                             1101
13   5                            01101                            01101
-13   1                                1                                1
-13   2                               11                               11
-13   3                              011                              011
-13   4                             0011                             0011
-13   5                            10011                            10011
-13  -1                                1                                1
-13  40 11111111111111111111111111110011 11111111111111111111111111110011
``````

Of course, you're on your own to make the length parameter adequate to represent the entire value.

-
``````import java.util.BitSet;

public class StringifyByte {

public static void main(String[] args) {
byte myByte = (byte) 0x00;
int length = 2;
System.out.println("myByte: 0x" + String.valueOf(myByte));
System.out.println("bitString: " + stringifyByte(myByte, length));

myByte = (byte) 0x0a;
length = 6;
System.out.println("myByte: 0x" + String.valueOf(myByte));
System.out.println("bitString: " + stringifyByte(myByte, length));
}

public static String stringifyByte(byte b, int len) {
StringBuffer bitStr = new StringBuffer(len);
BitSet bits = new BitSet(len);
for (int i = 0; i < len; i++)
{
bits.set (i, (b & 1) == 1);
if (bits.get(i)) bitStr.append("1"); else bitStr.append("0");
b >>= 1;
}
return reverseIt(bitStr.toString());
}

public static String reverseIt(String source) {
int i, len = source.length();
StringBuffer dest = new StringBuffer(len);

for (i = (len - 1); i >= 0; i--)
dest.append(source.charAt(i));
return dest.toString();
}
}
``````

Output:

``````myByte: 0x0
bitString: 00
myByte: 0x10
bitString: 001010
``````
-
``````String binAddr = Integer.toBinaryString(Integer.parseInt(hexAddr, 16));
Note that you basically have to use BigInteger, because binary strings quickly overflow Integer and Long resulting in NumberFormatExceptions if you try to use `Integer.fromString()` or `Long.fromString()`.