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In C++ binary operators for intrinsic types, both operands should have the same type, if not, one of the operands get converted to the other operand's type based on a hierarchy:

long double
unsigned long long int
long long int
unsigned long int
long int
unsigned int

My Question is: Why unsigned T is in a higher level than T . is it just an arbitrary choice or there is some advantages in converting T to Unsigned T and not the other way around.


//where `unsigned int` to `int` work better.
int a=-3;
unsigned int b=3;
cout << a+b; /* this will output the right result if b get converted to int,
which is not what really happen.*/

//where `int` to `unsigned int` work better.
int a=3;
unsigned int b=pow(2,20);
cout << a+b; /* this will output the right result if a get converted to unsigned int,
which is fortunately what really happen.*/

So I dont see how convering T to Unsigned T has more advantages than the other way around.

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up vote 4 down vote accepted

It is essentially an arbitrary choice that goes back to the early days of C.

As far as I can determine, in pre-standard K&R C the rule basically was that if an operand of a operator had a unsigned type, then the result would also be unsigned (this is called unsigned-preserving).

When C got standardized, this rule was changed to the rule currently used by both C and C++, which allows the unsigned property to get dropped, as long as the value can be represented in the target type (this is called value-preserving). The reason was that the new rules provide fewer surprises for the unsuspecting programmers when doing mixed signed/unsigned arithmetic.

The conversion from T to unsigned T can have two interpretations:

  1. It is a hold-over from the old (unsigned preserving) rules.
  2. It is the only sane thing to do that does not require a type larger than unsigned long long for stuff like: 1ULL > -1LL, because the signed to unsigned conversion is always defined (by virtue of the wrap-around feature of unsigned integers), but the reverse conversion is not.
share|improve this answer

I would guess that the logic is that the actual size of int is 1 bit less than of unsigned int since the MSB is used for sign. Thus the range of absolute values of signed variable is half the range of the unsigned one.

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that's not true, they both can represent pow(2,32)-1 different values. – AlexDan Dec 22 '12 at 16:18
@AlexDan of course, that's why I was referring to absolute values (and I wrote "I would guess that the logic...") – SomeWittyUsername Dec 22 '12 at 16:19

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