# Setting an int to Infinity in C++

I have an `int a` that needs to be equal to "infinity". This means that if

``````int b = anyValue;
``````

`a>b` is always true.

Is there any feature of C++ that could make this possible?

• You could just use `float`s, which have a value that represents infinity.
– Xeo
Commented Dec 31, 2011 at 21:15
• @jozefg - Okay, so it isn't a check the user is after, just the `Max Value` implementation of the language. Commented Dec 31, 2011 at 21:19
• @jozefg Ha, I figured you were going to implement A*. I was so close! Commented Dec 31, 2011 at 21:21
• @jozefg - That makes sense. I thought OP wanted to actually perform the `a>b` check :) Commented Dec 31, 2011 at 21:23
• @Hikari: No, I'm saying that there is no way to represent infinity in an integer type. You could create a class with overloaded operators. Commented Apr 20, 2016 at 17:49

Integers are inherently finite. The closest you can get is by setting `a` to `int`'s maximum value:

``````#include <limits>

// ...

int a = std::numeric_limits<int>::max();
``````

Which would be `2^31 - 1` (or `2 147 483 647`) if `int` is 32 bits wide on your implementation.

If you really need infinity, use a floating point number type, like `float` or `double`. You can then get infinity with:

``````double a = std::numeric_limits<double>::infinity();
``````
• And if you really need infinity as an int, write a wrapper class that overloads the comparison operators and has a boolean variable named "is_infinity".
– user142019
Commented Dec 31, 2011 at 21:22
• @WTP Considering he needs that for an Dijkstra's algorithm implementation, I doubt that would be necessary. But it's the most sensible choice otherwise. Commented Dec 31, 2011 at 21:25
• I added the comment for future visitors who don't implement Dijkstra's algorithm, but need it for something else. :)
– user142019
Commented Dec 31, 2011 at 21:28
• Note that if you use the `int` solution, you must be very careful with arithmetic: adding a positive number to "infinity" will yield a very unexpected result. Commented Aug 1, 2014 at 5:56
• Wrapper class would come in handy for comparing vectors. Commented Sep 17, 2017 at 4:24

Integers are finite, so sadly you can't have set it to a true infinity. However you can set it to the max value of an int, this would mean that it would be greater or equal to any other int, ie:

``````a>=b
``````

is always true.

You would do this by

``````#include <limits>

int a = std::numeric_limits<int>::max();

//go off and lead a happy and productive life
``````

This will normally be equal to 2,147,483,647

If you really need a true "infinite" value, you would have to use a double or a float. Then you can simply do this

``````float a = std::numeric_limits<float>::infinity();
``````

Additional explanations of numeric limits can be found here

Happy Coding!

Note: As WTP mentioned, if it is absolutely necessary to have an int that is "infinite" you would have to write a wrapper class for an int and overload the comparison operators, though this is probably not necessary for most projects.

• ...and if you want to use `max()` or `infinity()` in a template where the numeric type is unknown you will need to use `+/-infinity()` iff `std::numeric_limits<T>::has_infinity` and otherwise `min()` and `max()` Commented Dec 31, 2011 at 22:06

This is a message for me in the future:

Just use: `(unsigned)!((int)0)`

It creates the largest possible number in any machine by assigning all bits to 1s (ones) and then casts it to unsigned

Even better

``````#define INF (unsigned)!((int)0)
``````

And then just use INF in your code

• I think you mean `#define INF ((unsigned) ~0)`, see here. Commented Jun 21, 2018 at 23:10
• This is very interesting but I needed something I could store in an array with other normal integers, I would up just changing everything to doubles and using the numeric limits infinity Commented Aug 19, 2021 at 12:34
• Casting 0 to int is unnecessary since 0 is already an int. Also !0 == 1, which is hardly near infinity. Even the definition by Paul Sanders is an unsigned integer, and using it to compare with signed ones will likely cause trouble.
– Ale
Commented Aug 2, 2022 at 23:08

`int` is inherently finite; there's no value that satisfies your requirements.

If you're willing to change the type of `b`, though, you can do this with operator overrides:

``````class infinitytype {};

template<typename T>
bool operator>(const T &, const infinitytype &) {
return false;
}

template<typename T>
bool operator<(const T &, const infinitytype &) {
return true;
}

bool operator<(const infinitytype &, const infinitytype &) {
return false;
}

bool operator>(const infinitytype &, const infinitytype &) {
return false;
}

// add operator==, operator!=, operator>=, operator<=...

int main() {
std::cout << ( INT_MAX < infinitytype() ); // true
}
``````
• Or... you could just use float and `std::numeric_limits<float>::infinity()`.
– Xeo
Commented Dec 31, 2011 at 21:16
• @Xeo, sure, that's an option too :) Commented Dec 31, 2011 at 21:20

You can also use INT_MAX:

http://www.cplusplus.com/reference/climits/

it's equivalent to using numeric_limits.

I think that a macro `INFINITY` is defined in header "`<cmath>`".

It is defined as follows,

``````#define INFINITY ((float)(1e+300 * 1e+300))
``````

This is such a large number that no other number (at least in c++) can be greater than it. But obviously since we are converting to a type (`int`), which at max can hold a value `2147483647`. So then it would implicitly convert to that value.