2

Even though it sounds simple, C# makes it a hard job to add a signed integer (an offset) to an unsigned value:

unsigned uintValue;
int offset;
// ...
uintValue += offset; // causes error CS0266

This can be done by converting the offset to a signed value, but this looks somewhat unsafe and hakish to me, and it is risky if the offset is of a smaller type than uintValue. Is there an elegant solution for this simple problem, without using tons of ugly type conversions?

In my application, offset can either be a positive or a negative number, otherwise the solution would be trivial.

  • 2
    "This can be done by converting the offset to a signed value" It already is. – Boann Dec 27 '14 at 10:02
  • No, and type conversions aren't hacky at, just do with uintValue based on the value of offset. – Sombrero Chicken Dec 27 '14 at 10:06
1

A cast is necessary here. Concider the following:

uIntValue = ( offset < 0 ?
               uIntValue - (uint)(offset * (-1)) :
               uIntValue + (uint)(offset) );

It means that if offset is negative, it will make it positive and reduce it from uIntValue, and if offset is positive, it will simply add it

1

I can think of two ways of doing it safely; unfortunately, neither one is particularly elegant:

  • Convert both operands to long to guarantee enough bits, perform an operation, and cast the result back to unsigned, or
  • Make a conditional based on the sign of offset, and use + or - with the absolute value of the offset, appropriately cast to unsigned.

The first approach is easier to code, but slightly more wasteful, because it takes an extra four bytes:

uintValue = (unsigned)((long)uintValue + offset);

However, it is free of conditionals, so it may be faster in the end.

Note: It goes without saying that this scheme produces an invalid result when the result of addition is negative.

  • In a checked arithmetic context the above will fail if the unsigned value wraps around. Depending upon what it's used for that could be good or bad. It's too bad the bitwise & operator doesn't have overloads for UInt32 & UInt64 -> Uint32, UInt32 & Int64 -> Uint32, UInt64 & UInt32 -> UInt32, and Int64 & UInt32 -> Uint32, since such overloads would avoid a silly cast when bit-masking the computational result. – supercat May 14 '15 at 19:53
0

You need to cast the operand to the same type, compensating for possible negative values:

        uint uintValue = 1000;
        int offset = -1000;
        uintValue = (offset < 0 ? uintValue - (uint)(-1 * offset) : uintValue + (uint)offset);

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