Program in C#:

short a, b;
a = 10;
b = 10;
a = a + b; // Error : Cannot implicitly convert type 'int' to 'short'.

// we can also write this code by using Arithmetic Assignment Operator as given below

a += b; // But this is running successfully, why?

  • 5
    The first fails because short + short = int as defined in the specification, just as byte + byte = int, however I would have expected the second to fail also, so I'm looking forward to seeing the reasoning here. Dec 3 '10 at 8:18
  • did you find any reason ? Sep 22 '17 at 12:23
  • This is answered as detailed as possible below by Eric Lippert, so I'm not really sure what your asking here. In short is is because a += b is the same as a = (short)(a+b) Sep 22 '17 at 21:48
  • Possible duplicate of byte + byte = int... why?
    – Mixxiphoid
    Aug 14 '18 at 12:11

There are two questions here. The first is "why is short plus short result in int?"

Well, suppose short plus short was short and see what happens:

short[] prices = { 10000, 15000, 11000 };
short average = (prices[0] + prices[1] + prices[2]) / 3;

And the average is, of course, -9845 if this calculation is done in shorts. The sum is larger than the largest possible short, so it wraps around to negative, and then you divide the negative number.

In a world where integer arithmetic wraps around it is much more sensible to do all the calculations in int, a type which is likely to have enough range for typical calculations to not overflow.

The second question is:

  • short plus short is int
  • assigning int to short is illegal
  • a +=b is the same as a = a + b
  • therefore short += short should be illegal
  • so why is this legal?

The question has an incorrect premise; the third line above is wrong. The C# specification states in section 7.17.2

Otherwise, if the selected operator is a predefined operator, if the return type of the selected operator is explicitly convertible to the type of x, and if y is implicitly convertible to the type of x or the operator is a shift operator, then the operation is evaluated as x = (T)(x op y), where T is the type of x, except that x is evaluated only once.

The compiler inserts the cast on your behalf. The correct reasoning is:

  • short plus short is int
  • assigning int to short is illegal
  • s1 += s2 is the same as s1 = (short)(s1 + s2)
  • therefore this should be legal

If it did not insert the cast for you then it would be impossible to use compound assignment on many types.

  • 12
    your first sample is not good. If you replace short with int everything will work fine, but if we put larger numbers (to make sum be greater than 2^31) it will cause int overflow. my question is why short + short = int (and for byte) and int + int = int (not long for example).
    – Andrey
    Dec 3 '10 at 17:17
  • 8
    @LBushkin: Is it really "just as likely"? I write compilers for a living and I deal every day with compiling programs that have more than, say, 2^15 types. If I am adding together the number of types in a bunch of different assemblies I could easily overflow a short. I've never had a problem in the compiler space where I could reasonably overflow an int. The compiler would run out of virtual memory long before it managed to do arithmetic involving a program that has two billion types in it. It simply is not likely in most scenarios to have 32 bit overflow. Dec 3 '10 at 17:31
  • 7
    @Eric: int is used in many computational contexts, some of which have no relation to memory/process space. As computing hardware increases in power & capacity, such boundaries are going to be surpassed fairly soon on a regular basis. But perhaps a better way of expressing my point is that if the compiler decides to widen smaller types to wider types when performing arithmetic to avoid unanticipated overflow, it should do so with all types that have an available wider type that preserves range and representational accuracy. The choice to stop at int (and not widen to long) is a bit unexpected.
    – LBushkin
    Dec 3 '10 at 17:49
  • 5
    @LBushkin: OK, so would you have us (1) say that int + int is long? Doing so is tantamount to saying that all calculations are always done in longs all the time. You don't want to make people insert casts in every integer calculation. (2) have C# have different behaviour depending on the architecture, as C does? (3) automatically widen to a larger type, as VBScript does; abandon static typing in C#. (4) something else? Each of these approaches has serious performance or portability costs. Are the costs worth it? Dec 3 '10 at 17:53
  • 4
    @Eric: Also, I was under the impression that at least on the x86 architecture, it's possible to perform move, load, and arithmetic on just the 16bit bit non-extended registers. And you could also access the low and high 8-bit subregisteres (eg. AL and AH within AX). Obviously, the behavior on non-x86 architectures could be substantively different.
    – LBushkin
    Dec 3 '10 at 19:42

Well, the += operator says you'll be increasing the value of a with a short, while = says you'll overwrite the value, with the result of an operation. The operation a + b yields an int, not knowing that it can do otherwise, and you're trying to assign that int to a short.

  • 1
    then what is the different between increase value vs add value ? Dec 3 '10 at 8:27
  • I really didn't expect this. I thought += was just a shorthand! Dec 3 '10 at 8:28
  • @jak I understand it as the = operator assigns a new value (in this case of the wrong type), but the += uses a different implementation (i.e., it adds as we expect it to). Dec 3 '10 at 8:30
  • I also always thought that a+=b was just a shorthand for a=a+b, so I would really like to see a confirmation here to be completely convinced. Dec 3 '10 at 9:02
  • @Øyvind Bråthen it seems to be like this: a+=b = a=a+b unless the += operator is overloaded, and it seems it is for type short, and there's no + for short, shortA + shortB widens and becomes (int)shortA + (int)shortB. Dec 3 '10 at 9:54

You have to use:

a = (short)(a + b);

As to the difference between the behaviours of assignment and addition assignment, I imagine it has something to do with this (from msdn)

is equivalent to
x = x + y
except that x is only evaluated once. The meaning of the + operator is
dependent on the types of x and y (addition for numeric operands, 
concatenation for string operands, and so forth).

However, it's a bit vague, so mabye someone with a deeper understanding can comment.

  • 1
    @jak: did you try it with both sets of parentheses? the code in your comment is different.
    – UpTheCreek
    Dec 3 '10 at 9:48
  • 2
    Where does it say that on MSDN? That is wrong if the + is a predefined operator, which in this case, clearly it is. In that case it is equivalent to x = (T)(x + y), as specified. If you can send me the link to the page, I'll bring it to the attention of the documentation managers. Dec 3 '10 at 17:06
  • 2
    @Eric: Sure, it's on this page: msdn.microsoft.com/en-us/library/sa7629ew.aspx
    – UpTheCreek
    Dec 4 '10 at 8:55

This happens because int is the smallest signed type for which + is defined. Anything smaller is first promoted to int. The += operator is defined with respect to +, but with a special-case rule for handling results that don't fit the target.

  • 3
    This answer is incorrect. += is not defined for each numeric type. See section 7.17.2 of the C# specification. Dec 3 '10 at 16:43

This is because += is implemented as an overloaded function (one of which is a short, and the compiler chooses the most specific overload). For the expression (a + b), the compiler widens the result to an int by default before assigning.

  • 1
    overloaded operator can only implemented with user defined operator like class , structure. but it is + an arithmetic operator, which is inbuilt.The += operator cannot be overloaded directly, but user-defined types can overload the + operator, for details visit link,,msdn.microsoft.com/en-us/library/sa7629ew(v=VS.71).aspx Dec 3 '10 at 8:39
  • 1
    jak is correct. The += operator is not an overloaded function in C#. Dec 3 '10 at 17:07

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