# interpret a negative number as unsigned with BigInteger java

Is it possible to parse a negative number into an unsigned value with java's BigInteger?

So for instance, I'd to interpret `-1` as `FFFFFFFFFFFFFFFF`.

Is this possible?

Thanks

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BigInteger has unbounded length. On which criterion -1 would be intepreted as FFFFFFFFFFFFFFFF instead of, say, FFFFFFFF or FF ? –  leonbloy Jun 4 '12 at 20:09

If you are thinking of a two's complement, you must specify a working bit length. A Java long has 64 bits, but a BigInteger is not bounded.

You could do something as this:

``````// Two's complement reference: 2^n .
// In this case, 2^64 (so as to emulate a unsigned long)
private static final BigInteger TWO_COMPL_REF = BigInteger.ONE.shiftLeft(64);

public static BigInteger parseBigIntegerPositive(String num) {
BigInteger b = new BigInteger(num);
if (b.compareTo(BigInteger.ZERO) < 0)
return b;
}

public static void main(String[] args) {
System.out.println(parseBigIntegerPositive("-1").toString(16));
}
``````

But this would implicitly mean that you are working with BigIntegers in the 0 - 2^64-1 range.

Or, more general:

``````public static BigInteger parseBigIntegerPositive(String num,int bitlen) {
BigInteger b = new BigInteger(num);
if (b.compareTo(BigInteger.ZERO) < 0)
return b;
}
``````

To make it more fooproof, you could add some checks, eg

``````public static BigInteger parseBigIntegerPositive(String num, int bitlen) {
if (bitlen < 1)
throw new RuntimeException("Bad bit length:" + bitlen);
BigInteger bref = BigInteger.ONE.shiftLeft(bitlen);
BigInteger b = new BigInteger(num);
if (b.compareTo(BigInteger.ZERO) < 0)
if (b.compareTo(bref) >= 0 || b.compareTo(BigInteger.ZERO) < 0 )
throw new RuntimeException("Out of range: " + num);
return b;
}
``````
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You can always manually do two's complement. If the number is smaller than 0, then inverse all the bits and add one.

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Try using the constructor

``````public BigInteger(int signum, byte[] magnitude)
``````

The first parameter should be set to 1 to specify you want to create a positive number. The byte array is the number you are parsing in BIG ENDIAN ORDER. It should be interpreted as an unsigned number if you set the first parameter to 1. The only trick is getting your number into a byte array, but that shouldn't bee too difficult.

EDIT: Looks like you have to do some manual bit arithmetic here. If I understand your problem correctly, you need to interpret a String as a Long and then interpret that long as unsigned and store that in the BigInteger class. I would do this.

``````public BigInteger getValue(String numberString)
{
Long longValue = Long.valueOf(numberString);
byte [] numberAsArray = new byte[8];
for(int i = 0; i < 8; i++)
{
numberAsArray[7 - i] = (byte)((longValue >>> (i * 8)) & 0xFF);
}
return new BigInteger(1, numberAsArray);
}
``````
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Actually, getting the number into a byte array is the whole point. I'm given a numeric string, and asked to interpret it as an unsigned. –  One Two Three Jun 4 '12 at 19:25
Ok, let me think about that for a second. You are given a String object and want to convert it to an unsigned BigInteger? In this case, do you know if your String object is representing an int or a long? –  Akron Jun 4 '12 at 19:26
Was going to create my own answer... but toByteArray() is probably what you are looking for. –  NominSim Jun 4 '12 at 19:29

Is it what you what?

``````public static void main(String[] args) {

BigInteger bg =  BigInteger.valueOf(-1);
System.out.println(Integer.toHexString(bg.intValue()));
}
``````
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One Liner(however don't forget to consider endiness issues with the source, which can be handled using ByteBuffer.byteOrder):

``````new BigInteger(1, ByteBuffer.allocate(Long.SIZE/Byte.SIZE).putLong(Long.parseLong("-1")).array());
``````
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You can use this utility to convert to an unsigned integer. Since BigIntegers have unlimited size, a size must be specified to determine how much sign extension to keep in the translation:

``````public static BigInteger toPositive(BigInteger num, int sizeInBytes) {
return num.andNot(BigInteger.valueOf(-1).shiftLeft(sizeInBytes * 8));
}
``````
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