# int to unsigned int conversion

I'm just amazed to know that I can't convert signed to unsigned int by casting!

``````int i = -62;
unsigned int j = (unsigned int)i;
``````

I thought I already knew this since I started to use casts, but I can't do it!

• what would you logically expect this cast to do? – tenfour Feb 12 '11 at 0:17
• My bad guys, But I appreciate the explanation. I was trying to convert signed char -62 to unsigned int and expecting to get a value of 194 (x.x) – John Feb 12 '11 at 0:43
• Um... Casting? Conversions between integer types do not require casts in C++. They are standard conversions, and they are performed implicitly. In your case you could simply do `unsigned int j = i;` for exactly the same effect. – AnT Jan 24 '17 at 0:37
• Your code compiles just fine (live on godbolt). Could you edit the question so that it does not imply, that it does not compile? It's misleading. – Dr. Gut Apr 24 '20 at 12:40

You can convert an `int` to an `unsigned int`. The conversion is valid and well-defined.

Since the value is negative, `UINT_MAX + 1` is added to it so that the value is a valid unsigned quantity. (Technically, 2N is added to it, where N is the number of bits used to represent the unsigned type.)

In this case, since `int` on your platform has a width of 32 bits, 62 is subtracted from 232, yielding 4,294,967,234.

• Why 62 subtracted from 232? – SIFE Feb 13 '13 at 17:07
• @SIFE: The 32 is in superscript, so 2^32. – James McNellis Feb 13 '13 at 17:45
• @SIFE the integer being converted is -62... so when you add UINT_MAX (which is 2^32) to it, it becomes a subtraction of 62. – Luke Apr 12 '13 at 10:14

Edit: As has been noted in the other answers, the standard actually guarantees that "the resulting value is the least unsigned integer congruent to the source integer (modulo 2n where n is the number of bits used to represent the unsigned type)". So even if your platform did not store signed ints as two's complement, the behavior would be the same.

Apparently your signed integer -62 is stored in two's complement (Wikipedia) on your platform:

62 as a 32-bit integer written in binary is

``````0000 0000 0000 0000 0000 0000 0011 1110
``````

To compute the two's complement (for storing -62), first invert all the bits

``````1111 1111 1111 1111 1111 1111 1100 0001
``````

``````1111 1111 1111 1111 1111 1111 1100 0010
``````

And if you interpret this as an unsigned 32-bit integer (as your computer will do if you cast it), you'll end up with 4294967234 :-)

This conversion is well defined and will yield the value `UINT_MAX - 61`. On a platform where `unsigned int` is a 32-bit type (most common platforms, these days), this is precisely the value that others are reporting. Other values are possible, however.

The actual language in the standard is

If the destination type is unsigned, the resulting value is the least unsigned integer congruent to the source integer (modulo 2^n where n is the number of bits used to represent the unsigned type).

i=-62 . If you want to convert it to a unsigned representation. It would be 4294967234 for a 32 bit integer. A simple way would be to

``````num=-62
unsigned int n;
n = num
cout<<n;
``````

4294967234

with a little help of math

``````#include <math.h>
int main(){
int a = -1;
unsigned int b;
b = abs(a);
}
``````
• @chad: There's absolutely no difference in specification of signed -> unsigned conversion between C and C++. It works identically in both languages. – AnT Jan 24 '17 at 0:39
• Oh man, I accidentally just deleted my comment. Sorry! It originally said something along the lines of this wouldn't work because the difference in twos compliment representation. I have no idea what I was thinking when I wrote this, you're absolutely correct. – chad Apr 13 '17 at 20:26

Since we know that `i` is an `int`, you can just go ahead and unsigneding it!

This would do the trick:

``````int i = -62;
unsigned int j = unsigned(i);
``````