You can detect overflow in advance by dividing the maximum value representable by the unsigned type by one of the multiplicands; if the result is less than the other multiplicand, then multiplying them would result in a value exceeding the range of the unsigned type.

For example, in C++ (using the C++0x exact-width numeric types):

```
std::uint64_t left = 12;
std::uint64_t right = 42;
if (left != 0 && (std::numeric_limits<std::uint64_t>::max() / left) < right)
{
// multiplication would exceed range of unsigned
}
```

In C, you can use `uint64_t`

for the type and `UINT64_MAX`

for the maximum value. Or, if you only care that the type is *at least* 64 bits wide and not necessarily *exactly* 64 bits wide, you can use `unsigned long long`

and `ULLONG_MAX`

.