Before C was standardized, there were differences between compilers -- some followed "value preserving" rules, and others "sign preserving" rules. Sign preserving meant that if either operand was unsigned, the result was unsigned. This was simple, but at times gave rather surprising results (especially when a negative number was converted to an unsigned).

C standardized on the rather more complex "value preserving" rules. Under the value preserving rules, promotion can/does depend on the actual ranges of the types, so you can get different results on different compilers. For example, on most MS-DOS compilers, `int`

is the same size as `short`

and `long`

is different from either. On many current systems `int`

is the same size as `long`

, and `short`

is different from either. With value preserving rules, these can lead to the promoted type being different between the two.

The basic idea of value preserving rules is that it'll promote to a larger signed type if that can represent all the values of the smaller type. For example, a 16-bit `unsigned short`

can be promoted to a 32-bit `signed int`

, because every possible value of `unsigned short`

can be represented as a `signed int`

. The types will be promoted to an unsigned type if and only if that's necessary to preserve the values of the smaller type (e.g., if `unsigned short`

and `signed int`

are both 16 bits, then a `signed int`

can't represent all possible values of `unsigned short`

, so an `unsigned short`

will be promoted to `unsigned int`

).

When you assign the result as you have, the result will get converted to the destination type anyway, so most of this makes relatively little difference -- at least in most typical cases, where it'll just copy the bits into the result, and it's up to you to decide whether to interpret that as signed or unsigned.

When you *don't* assign the result such as in a comparison, things can get pretty ugly though. For example:

```
unsigned int a = 5;
signed int b = -5;
if (a > b)
printf("Of course");
else
printf("What!");
```

Under sign preserving rules, `b`

would be promoted to unsigned, and in the process become equal to `UINT_MAX - 4`

, so the "What!" leg of the `if`

would be taken. With value preserving rules, you *can* manage to produce some strange results a bit like this as well, but 1) primarily on the DOS-like systems where `int`

is the same size as `short`

, and 2) it's generally harder to do it anyway.

`std::cout << typeid(x + y).name()`

can quickly tell you the type of an expression, at least if you know what names your implementation gives to the various integer types. No need to try to figure it out from a value. – Steve Jessop Jul 21 '11 at 1:32