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I was testing a simple program to overload integer parameters:

class Program
    public static void Foo(Int16 value)

    public static void Foo(Int32 value)

    public static void Foo(Int64 value)

    static void Main(string[] args)

Now I know that the capacity of these types is this:

Type      Capacity

Int16 -- (-32,768 to +32,767)

Int32 -- (-2,147,483,648 to +2,147,483,647)

Int64 -- (-9,223,372,036,854,775,808 to +9,223,372,036,854,775,807)

Now Foo(10) calls the Int32 overload. Why? Can't the value of 10 fit in an Int16?

What confuses me more, is that when I remove the Int32 overload, the Int16 overload is called. Why is that?

marked as duplicate by Peter Duniho c# Mar 3 '17 at 9:09

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    "If the literal has no suffix, it has the first of these types in which its value can be represented: int, uint, long, ulong." msdn.microsoft.com/en-us/library/… I can't find a duplicate that quick, but I'm sure this has been answered before. – CodeCaster Mar 3 '17 at 6:54
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    @J.H. yes, that's what everyone would expect. Read Hans' link and Eric Lippert's comment to that. – CodeCaster Mar 3 '17 at 8:45
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    @J.H.Bonarius Not so. The literal Int32 can hold the value, so the type of the literal is Int32. But it is a constant value, so the compiler can use the Int16 overload, even though it couldn't with a variable. – Luaan Mar 3 '17 at 8:46
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    @CodeCaster Ach ja, Carvanal is net geweest. Oh nee, je bent van boven de rivieren. – JHBonarius Mar 3 '17 at 9:45

If you specify an integer literal in code without a suffix, according to the C# specification chapter, "Integer literals", it gets the type int, uint or long, depending on which type can hold its value.

So your 10 is an Int32s, and nothing will change that.

Now interestingly enough, if you remove the Int32 overload, the 10 is still an Int32s, but the overload with the smallest type that can hold that value is being called, in this case Int16.

I cannot find that quickly where this is specified, but you can see it in the resulting IL:

.method public hidebysig static void  Main(string[] args) cil managed
    .maxstack  8
    IL_0000:  nop
    IL_0001:  ldc.i4.s   10
    IL_0003:  call       void Program::Foo(int16)
    IL_0008:  nop
    IL_0009:  ret
  } // end of method Program::Main

The compiler can do this, because 10 is a constant, hence the information is known at compile-time (as opposed to if it were a variable). As Eric Lippert states it:

It is implicitly convertible to all the built-in numeric types. Therefore when asked to make a choice of the best overload, overload resolution will first choose the exact match -- int -- if available. If not, then it will choose the unique most specific type available, if there is one. short is more specific than long because all shorts are convertible to long but not all longs are convertible to short.

See also:

  • What about assigning a decimal number to var? Will it be Int32 or Int16 – Sabyasachi Mishra Mar 3 '17 at 7:02
  • An integer can by definition not hold a decimal. See the "Integer literals" link. – CodeCaster Mar 3 '17 at 7:03
  • " I don't know why it prefers Int16 over Int64, but probably because fewer bytes is better." This seems to be explained by Eric Lippert: You can put a Int16 in a Int64 with no problems. Vice versa can give a warning or more. – JHBonarius Mar 3 '17 at 9:37
  • @J.H.Bonarius but 10 is an Int32. The compiler could go the safe way, and choose the Int64 overload, because you can always safely implicitly convert an Int32 to an Int64. But then again, it would not compile if only the Int16 overload was present. So the compiler knows math, or rather, knows the limits of built-in integral types and can deduct that 10 fits in an Int16. – CodeCaster Mar 3 '17 at 10:33

Default mapping is explained here

As Hans Passant says, what happend when you remove the Int32 overload is explained here

Foo.Bar(10) means 10 is const int instead of int. It makes sense now. const int goes to the smallest size the compiler can fix that int into i.e [short=Int16] in case of 10. Whereas int will got it's own size or larger i.e. long [= Int64] – basarat


The reasoning is: a constant integer is implicitly convertible to any integral type that it will fit into, therefore all three methods are applicable. We must now determine which of the three applicable methods is best. It is the one with the most specific parameter type. Type X is more specific than type Y if it is true that "all X can be converted to Y but not all Y can be converted to X". That is, Giraffe is more specific than Animal because all Giraffes are Animals but not vice versa. [short=Int16] is more specific than long[=Int64], so it wins. – Eric Lippert

Eric probably knows about this, as he was on the Microsoft C# language development team...

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