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Considering :

double data; 
double array[10]; 
std::vector<int> vec(4, 100); 
MyClass myclass;   

Is there a difference between :




Are the two syntaxes different or strictly equivalent ? Are all of them evaluated at compile-time ? If not, which one is evaluated at run-time ?

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The size of a type can't change at runtime. sizeof always yields its value at compile-time. – Xeo Oct 10 '12 at 3:54
Did you try it? – Adrian Cornish Oct 10 '12 at 3:55
Not really relevant, since you're asking about C++; But the only time sizeof is evaluated at runtime, as far as I know, is in C, with variable length arrays. But those aren't legal in C++, though they are allowed with GCC as an extension. – Benjamin Lindley Oct 10 '12 at 4:02
I know that the result is the same, my question is : is there any difference in the assembly code ? – Vincent Oct 10 '12 at 4:02
No, there is no difference. By definition the size of the variable is the size of its type. When someone less lazy quotes chapter and verse of the spec, accept their answer – Nemo Oct 10 '12 at 4:04

3 Answers 3

up vote 10 down vote accepted

The only differences are in syntax and convenience.

Syntactically, you're allowed to leave out the parentheses in one case, but not the other:

double d;

sizeof(double); // compiles
sizeof(d);      // compiles
sizeof d;       // compiles
sizeof double;  // does NOT compile

As far as convenience goes, consider something like:

float a;

x = sizeof(float);

y = sizeof(a);

If, for example, you sometime end up changing a from a float to a double, you'd also need to change sizeof(float) to sizeof(double) to match. If you use sizeof(a) throughout, when you change a from a float to a double, all your uses of sizeof will automatically change too, without any editing. The latter is more often a problem in C than C++, such as when calling malloc:

float *a = malloc(10 * sizeof(float));


float *a = malloc(10 * sizeof(*a));

In the first case, changing the first float to double will produce code that compiles, but has a buffer overrun. In the second case, changing the (only) float to double works fine.

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It's also neat to note that the Linux kernel code guidelines cover this, suggesting to use sizeof(*variable) for determining the struct size of a pointer-to-struct. It's probably a good idea to do that, if you end up in such a situation (though in C++ it should be rare.) – John Chadwick Oct 10 '12 at 4:11

The latter is defined in terms of the former. Given an expression, it returns the size of the type of the expression. So sizeof(vec) translates to sizeof(std::vector<int>).

Both are evaluated at compile-time; the only run-time sizeof is in C, not C++, with variable-length arrays. The operand to sizeof is unevaluated, so there isn't any real possibly the expression itself could generate code anyway.

I prefer to use expressions over types, because chances are stating the type is redundant in some fashion.

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I prefer expression as well. Because they make mainenance easier. If you change the type of a variable you only need to change it in one place rather than track down how the type is used (ie in sizeof()). – Loki Astari Oct 10 '12 at 4:15
@LokiAstari: Yup, it matches better conceptually as well: why deduce the type and size that? We want the size of the expression so type it! – GManNickG Oct 10 '12 at 4:16

Whenever you use sizeof(<whatever>), it is always evaluated at compile time. It is the datatype of the parameter that sizeof is concerned with.

However, you can pass values, and even expressions as parameter. But the sizeof function will only consider the dataype of the passed parameter.

You can also pass expressions as sizeof(x = x+1);. Say x was int. In this case this sizeof will return 4(as on my machine) and the value of x will remain unchanged. This is because sizeof is always evaluated at compile time.

The two set of syntax you provide, will return the same result, but you cannot say they are equivalent. But yes, latter is defined in terms of former.

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