# Smallest Integer Greater than Very Large Number

I am trying to find the smallest integer greater than a very large number (for example, exp(5000000)). How would I go about doing this? If not programmatically (because this evaluates to infinity or overflow in MATLAB or my calculator), then mathematically? (Already tried exp(floor(log(exp(5000*1024)))) but that will just give infinity).

• what exactly do you mean by finding it mathematically? are you looking for a function that gives its nth digit, for example? – vlsd Oct 28 '11 at 6:41
• just to give you an idea how big this number is, I tried the following in MATLAB with the Symbolic Toolbox: `ceil( sym('exp(5000000)') )` the result is enormous: pastebin.com/BXDbPydL – Amro Oct 28 '11 at 15:59
• Yes. It has roughly 2.17 million digits. Enormous. – user85109 Oct 28 '11 at 22:04
• I don't see why the size of the number should be an issue. Even if one use a whole byte to write a single digit, the file containing this number still wouldn't be bigger than 3Mb. – vlsd Oct 31 '11 at 22:18

You want something to provide variable-precision arithmetic, such as the Symbolic Math Toolbox, and the ceiling function.

If you want to compute all the digits of a large number, the easiest solution is probably to use Maple or Mathematica. If you just want something simple and free, you can use Wolfram Alpha.

For example:

You need to use a library that handles big numbers.

My google karma seems to point to Symbolic Math Toolbox,

• But N is the integer, not the number. exp(5000000) may not necessarily be an integer. – Justin M Oct 28 '11 at 16:32
• @JustinM You are right. I have removed the incorrect statement. – Klas Lindbäck May 25 '15 at 7:24

Like Klas sais. If you integer i N then the smallest larger integer is N+1. To calculate this using for example C you could write a function like

``````unsigned long smallestLargerInteger(unsigned long startNum) {
return startNum +1;
}
``````

To make sure you don't overflow the long you could have something like

``````#define __HALF_MAX_SIGNED(type) ((type)1 << (sizeof(type)*8-2))
#define __MAX_SIGNED(type) (__HALF_MAX_SIGNED(type) - 1 + __HALF_MAX_SIGNED(type))
#define __MIN_SIGNED(type) (-1 - __MAX_SIGNED(type))

#define __MIN(type) ((type)-1 < 1?__MIN_SIGNED(type):(type)0)
#define __MAX(type) ((type)~__MIN(type))

unsigned long smallestLargerInteger(unsigned long startNum) {
if(__MAX(long) == startNum) {
// handle overflow error messaging here
}

return startNum +1;
}
``````