# Java: signed long to unsigned long string

Is there an easy and fast way to convert a Java signed long to an unsigned long string?

``````-1                    ->  "18446744073709551615"
-9223372036854775808  ->  "09223372036854775808"
9223372036854775807  ->  "09223372036854775807"
0                    ->  "00000000000000000000"
``````
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–  JohnS Aug 11 '11 at 18:54

Here is a solution using BigInteger:

``````/** the constant 2^64 */
private static final BigInteger TWO_64 = BigInteger.ONE.shiftLeft(64);

public String asUnsignedDecimalString(long l) {
BigInteger b = BigInteger.valueOf(l);
if(b.signum() < 0) {
}
return b.toString();
}
``````

This works since the unsigned value of a (signed) number in two-s complement is just 2(number of bits) more than the signed value, and Java's `long` has 64 bits.

And BigInteger has this nice `toString()` method which we can use here.

-

## 1

Based on @Paŭlo Ebermann solution I came up with this one:

``````public static String convert(long x) {
return new BigInteger(1, new byte[] { (byte) (x >> 56),
(byte) (x >> 48), (byte) (x >> 40), (byte) (x >> 32),
(byte) (x >> 24), (byte) (x >> 16), (byte) (x >> 8),
(byte) (x >> 0) }).toString();
}
``````

Using `new BigInteger(int signum, byte[] bytes);` makes BigInteger to read bytes as positive number (unsigned) and apply signum to it.

## 2

Based on @Chris Jester-Young solution I found this one:

``````private static DecimalFormat zero = new DecimalFormat("0000000000000000000");

public static String convert(long x) {
if (x >= 0) // this is positive
return "0" + zero.format(x);

// unsigned value + Long.MAX_VALUE + 1
x &= Long.MAX_VALUE;
long low = x % 10 + Long.MAX_VALUE % 10 + 1;
long high = x / 10 + Long.MAX_VALUE / 10 + low / 10;
return zero.format(high) + low % 10;
}
``````

## 3

Yet another way to do it:

``````private static DecimalFormat zero19 = new DecimalFormat("0000000000000000000");

public static String convert(long x) {
if (x >= 0) {
return "0" + zero19.format(x);
} else if (x >= -8446744073709551616L) {
// if:   x + 18446744073709551616 >= 10000000000000000000
// then: x + 18446744073709551616 = "1" + (x + 8446744073709551616)
return "1" + zero19.format(x + 8446744073709551616L);
} else {
// if:   x + 18446744073709551616 < 10000000000000000000
// then: x + 18446744073709551616 = "09" + (x + 9446744073709551616)
// so:   9446744073709551616 == -9000000000000000000L
return "09" + (x - 9000000000000000000L);
}
}
``````
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I'd love to see whether the "no-`BigInteger`" version is faster than both versions, too. :-) (If I find some time today, I'll do some testing and post my results.) –  Chris Jester-Young Aug 11 '11 at 20:44
@Chris see my no-BigInteger version! :) –  JohnS Aug 11 '11 at 20:49
+1 Very nice (re divide-by-10). That's probably the most straightforward way to do it. –  Chris Jester-Young Aug 11 '11 at 20:51
I thought about writing something like your first version, but it was too complicated for my lazyness :-) –  Paŭlo Ebermann Aug 11 '11 at 21:02
@Paŭlo :) . . . –  JohnS Aug 11 '11 at 21:10

I also have a non-`BigInteger`-based version (since having to reach out for `BigInteger` did bug me for a while); I've retained my `main` function for your ease of testing:

``````public class UlongToString {
private static final String MIN_VALUE = "" + Long.MIN_VALUE;

public static String ulongToString(long value) {
long pos = value & Long.MAX_VALUE;
if (value == pos)
return String.valueOf(pos);

char[] chars = MIN_VALUE.toCharArray();
chars[0] = '0';
for (int i = chars.length - 1; i != 0 && pos != 0; --i) {
if ((chars[i] += pos % 10) > '9') {
chars[i] -= 10;
++chars[i - 1];
}
pos /= 10;
}
int strip = '1' - chars[0];
return new String(chars, strip, chars.length - strip);
}

public static void main(String... args) {
for (String arg : args) {
System.out.println(ulongToString(Long.parseLong(arg)));
}
}
}
``````
-

Two years late, but here is a very compact solution that avoids `BigInteger` and byte arrays.
Basically it emulates unsigned division to extract one digit, and then it offloads the rest to the library function.

``````public static String unsignedToString(long n) {
long temp = (n >>> 1) / 5;  // Unsigned divide by 10 and floor
return String.format("%019d", temp) + (n - temp * 10);
}
``````

Alternatively, if you'd like to avoid temporary strings and library functions altogether, then we can compute all the digits from first principles:

``````public static String unsignedToString(long n) {
char[] buffer = new char[20];
int i = buffer.length - 1;

// Do first iteration specially
long temp = (n >>> 1) / 5;  // Unsigned divide by 10
buffer[i] = (char)(n - temp * 10 + '0');
n = temp;

// Do rest of iterations the normal way
for (i--; i >= 0; i--) {
buffer[i] = (char)(n % 10 + '0');
n /= 10;
}

return new String(buffer);
}
``````

Both implementations above are functionally equivalent, so you can pick the one you like best.

-

I just had this problem and solved it using this code:

``````String.format("%016x", x);
``````

I am not sure if I am missing something but it seems a lot simpler this way.

-
so what does it output for -1l? –  JohnS Mar 4 '13 at 17:24
ffffffffffffffff ; I just realised that the original poster wanted a decimal string and not a hexadecimal string - my bad! –  Karl Dudfield Mar 4 '13 at 18:21