I had thought that this would be an easy question resolve via Google, but I can't seem to find a definitive (or even speculative) answer:
When using a comparator statement, in which order does implicit casting occur?
int i = -1; size_t t = 1; bool result = i < t;
Is this equivalent to:
bool result = i < int(t); // equals true
bool result = size_t(i) < t; // equals false
That is the easy part of the question - the second part is "what is the general rule", as it could be:
- The 'simpler' argument is always converted into the 'more complex' argument (i.e. size_t->int), or
- The first (or second) argument is always converted to the type of the second (or first) argument, or
- The inbuilt primitives such as size_t and ints have specific comparator operators which specify the casting case-by-case.
All three seem reasonable, although the second would yield significantly different behaviour to what most people would intuitively expect.
The VC++ compiler seems to think it's worth a level 3 warning when you compare an int with a size_t - and yet it only gives a level 4 warning when you return a negative number from a function that returns a size_t (which results in a number just over half the maximum integer being returned).
In an effort to get rid of all level 4 warnings, I now explicitly cast everything anyway, but I wanted to know "the truth". This must be defined somewhere...