I'm currently working on a safe integer library for C++. I've come across some issues when implementing subtraction.

Here's what I start with:

```
#include <limits>
#include <stdexcept>
template<typename I>
class safe_int
{
I val;
public:
typedef I value_type;
static constexpr I max = std::numeric_limits<I>::max();
static constexpr I min = std::numeric_limits<I>::min();
safe_int(I i) : val { i } { };
safe_int &operator+=(I rhs)
{
if( val > 0 && rhs > max - val )
throw std::overflow_error("");
else if( val < 0 && rhs < min - val )
throw std::underflow_error("");
val += rhs;
return *this;
}
};
```

I first attempted to write `operator-=`

like this:

```
safe_int &operator-=(I rhs)
{
return operator+=(-rhs);
}
```

but obviously this will fail with input of `-0x80000000`

on a two's complement system.

I then attempted to do it like this:

```
safe_int &operator-=(I rhs)
{
if(rhs < -max)
throw std::overflow_error("");
return operator+=(-rhs);
}
```

But this doesn't work for anything less than `0`

(e.x. `-1 - -0x80000000`

should be `0x7fffffff`

but instead reports overflow).

I then tried this:

```
safe_int &operator-=(I rhs)
{
if( rhs < -max && val > 0 )
throw std::overflow_error("");
return operator+=(-rhs);
}
```

But now even though it correctly catches a case where overflow would occur, it itself causes overflow in a valid case (e.x. `-1 - -0x80000000`

, where `- -0x80000000`

overflows).

At this point I believe that there's no way to reuse code from the addition while catching all of the corner cases. Therefore, I should probably write different code for the subtraction.

How can I correctly check that integer overflow will not happen before subtraction?

Here's a little test program:

```
int main(void)
{
safe_int<int> i = -1;
i -= -2147483648;
return 0;
}
```

Assume no particular size of integer. Do not rely on undefined behavior.