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My component is handed a long value that I later use as a key into a cache. The key itself is a string representation of the long value as if it were unsigned 64-bit value. That is, when my component is handed -2944827264075010823L, I need to convert that into the string key "15501916809634540793".

I have a solution, but it seems brute force and it makes me a bit queasy. Essentially, I convert the long into a hexadecimal string representation (so -2944827264075010823L becomes "d721df34a7ec6cf9") and convert the hexadecimal string into a BigInteger:

String longValueAsHexString = convertLongToHexString(longValue);
BigInteger bi = new BigInteger(longValueAsHexString, 16);
String longValueString = bi.toString();

I then use longValueString as the key into the cache.

I cannot use Long.toString(longValue,16), because it returns the hex string for the absolute value, prefixed by a "-".

So my convertLongToHexString looks like this:

long mask = 0x00000000ffffffffL;
long bottomHalf = number & mask;
long upperHalf = (number >> 32) & mask;
String bottomHalfString = Long.toString(bottomHalf, 16);
if (bottomHalfString.length() != 8) {
    String zeroes = "0000000000000000";
    bottomHalfString = zeroes.substring(16-bottomHalfString.length()) + bottomHalfString;
}
return Long.toString(upperHalf,16)+bottomHalfString;

There must be a more elegant way of doing this. Any suggestions?

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You can use Long.toHexString() instead of your convertLongToHexString –  Adam Rosenfield Oct 20 '08 at 5:11
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4 Answers

Here's my implementation. I've refactored it to have a function taking a long and returning a string. :-)

import java.math.BigInteger;

class UInt64Test {
    public static void main(String[] args) {
        for (String arg : args)
            System.out.println(toUnsignedString(Long.parseLong(arg)));
    }

    private static final BigInteger B64 = BigInteger.ZERO.setBit(64);
    public static String toUnsignedString(long num) {
        if (num >= 0)
            return String.valueOf(num);
        return BigInteger.valueOf(num).add(B64).toString();
    }
}
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I think Chris's answer is better, but here's another just for fun.

public static String longUnsignedString(long l) {
  byte[] bytes = new byte[9];

  for (int i = 1; i < 9; i++) {
     bytes[i] = (byte) ((l >> ((8 - i) * 8)) & 255);
  }

  return (new BigInteger(bytes)).toString();
}
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Five years late, but here is an implementation that doesn't use BigInteger or byte arrays.
Instead, it emulates unsigned division for one step and offloads the rest to the standard library function:

public static String unsignedToString(long n) {
    long temp = (n >>> 1) / 5;  // Unsigned divide by 10 and floor
    if (temp == 0)
        return Integer.toString((int)n);  // Single digit
    else
        return Long.toString(temp) + (n - temp * 10);  // Multiple digits
}
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Bitless implementations:

    byte[] bytes = ByteBuffer.allocate(8).putLong(1023L).array();
    System.out.println(new BigInteger(bytes).toString(2));

regards, Alex

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