In C, comma operator doesn't produce an lvalue, consequently the array
arr which is an lvalue decays into a pointer type which is a rvalue (in this case). So
sizeof(0,arr) becomes equivalent to
sizeof(char*), due to lvalue-to-rvalue conversion.
But in C++, comma operator produces an lvalue. There is no lvalue-to-rvalue conversion. So
sizeof(0,arr) remains same, which is equivalent to
By the way,
sizeof is not a function, its an operator. So the following is completely valid C++ (and C, if you imagine
printf instead of
int a, b, c, d;
cout << sizeof(a,b,c,d) << endl;
Demo : http://www.ideone.com/CtEhn
You might think that I've passed 4 operands to
sizeof but that is wrong.
sizeof operates on the result of the comma operators. And its because of the many comma operators you see many operands.
4 operands <=> 3 comma operators; just like in
1+2+3+4, there're 3 operators, 4 operands.
The above is equivalent to the following (valid in C++0x):
auto & result = (a,b,c,d); //first all comma operators operate on the operands.
cout << sizeof (result) << endl; //sizeof operates on the result
Demo : http://www.ideone.com/07VNf
So its the comma operator which makes you feel that there are many arguments. Here comma is an operator, but in function call, comma is NOT an operator, its simply argument separator.
function(a,b,c,d); //here comma acts a separator, not operator.
sizeof(a,b,c,d) operates on the type of the result of
, operators, exactly in the same way,
sizeof(1+2+3+4) operates on the type of the result of
Also note that you cannot write
sizeof(int, char, short), precisely because comma operator cannot operate on types. It operates on value only. I think,
sizeof is the only operator in C and C++, which can operate on types as well. In C++, there is one more operator which can operates on types. Its name is