assuming two arbitrary timestamps:

```
uint32_t timestamp1;
uint32_t timestamp2;
```

Is there a standard conform way to get a signed difference of the two beside the obvious variants of converting into bigger signed type and the rather verbose if-else.

Beforehand it is not known which one is larger, but its known that the difference is not greater than max 20bit, so it will fit into 32 bit signed.

```
int32_t difference = (int32_t)( (int64_t)timestamp1 - (int64_t)timestamp2 );
```

This variant has the disadvantage that using 64bit arithmetic may not be supported by hardware and is possible of course only if a larger type exists (what if the timestamp already is 64bit).

The other version

```
int32_t difference;
if (timestamp1 > timestamp2) {
difference = (int32_t)(timestamp1 - timestamp2);
} else {
difference = - ((int32_t)(timestamp2 - timestamp1));
}
```

is quite verbose and involves conditional jumps.

That is with

```
int32_t difference = (int32_t)(timestamp1 - timestamp2);
```

Is this guaranteed to work from standards perspective?

`(int32_t) (timestamp1 + 1048576 - timestamp2) - 1048576`

is guaranteed to compute the difference without overflow, and Apple LLVM 10.0.1 with Clang 1001.0.46.4 compiles it to a single`subl`

instruction for x86_64.