# Java 6 - Creating and detecting the first double value above Long.MAX_VALUE

Below I attempt to assign to `value` the maximum `Long` value, then add to it the minimum positive `Double` value possible.

I then try to detect that the value is greater than the maximum `Long` value.

``````Double value = new Long(Long.MAX_VALUE).doubleValue();
value += Double.MIN_VALUE;
if (value < -(new Long(Long.MAX_VALUE).doubleValue()) || value > new Long(Long.MAX_VALUE).doubleValue()) {
// Expecting code here to execute, but it doesn't.
}
``````

Studying the values involved shows that `value` has the final value of

``````9.223372036854776E18
= 9223372036854776000
``````

while `Long.MAX_VALUE` has the value

``````9223372036854775807
``````

Comparing these shows that `value` is greater as expected:

``````9223372036854776000 (value)
9223372036854775807 (Long.MAX_VALUE)
``````

Could someone please explain why the `if` statement fails to detect this?

Sincere thanks.

-
If you want the next-higher `double` value, use `Math.nextUp((double) Long.MAX_VALUE)`. –  Louis Wasserman Sep 10 '12 at 21:20

`Long.MAX_VALUE` can't be represented exactly as a double. The closest available double value is `9223372036854775808`.

Adding `Double.MIN_VALUE` to that number (10^-1074) does not change anything because the closest double value to `9223372036854775808 + 10^-1074` still is `9223372036854775808`.

Using @PeterLawrey's code, you can see that the next available double is `9223372036854777856` (which is equal to `Long.MAX_VALUE + 2048`).

Note: your double is actually equal to `9223372036854775808`, which gets printed as `9.223372036854776E18`. You can see it with the following code:

``````double d = Long.MAX_VALUE;
BigDecimal bd= new BigDecimal(d);
System.out.println(bd);
``````
-
Thank you for editing to make your original response more thorough. Much appreciated. –  KomodoDave Sep 10 '12 at 16:47

Adding a very small value to a large value is the same as adding nothing.

I suspect what you had in mind is

``````double d = Long.MAX_VALUE;
// get the next represented value.
double d1 = Double.longBitsToDouble(Double.doubleToLongBits(d)+1);
System.out.println(d > Long.MAX_VALUE);
System.out.println(d1 > Long.MAX_VALUE);
``````

prints

``````false
true
``````
-
Thank you very much for providing the correct implementation. Strictly speaking, assylias has answered the question I asked - 'why the if fails'. But I was also silently hoping for the correct solution, so cheers :) –  KomodoDave Sep 10 '12 at 16:47
I just found a much simpler way to achieve this. The following pattern can be used when combining any floating point with any non-f.p., or combining two f.p. : `double value = (double)Long.MAX_VALUE; value += Math.ulp(value);` This is courtesy of a response I received here: stackoverflow.com/questions/12356793/… –  KomodoDave Sep 10 '12 at 18:12
A new winner: `Math.nextUp(value)`. See thread link in my comment preceding this one. –  KomodoDave Sep 11 '12 at 9:21