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I am confused about the evaluation time of sizeof operator.
When does the sizeof operator get evaluated?

Does its evaluation time[compile-time or run-time] depend on the language[C? C++?]?

Can we use sizeof in case of objects created at runtime[in C++]?

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3 Answers 3

up vote 16 down vote accepted

In almost all cases, sizeof is evaluated based on static type information (at compile-time, basically).

One exception (the only one, I think) is in the case of C99's variable-length arrays (VLAs).

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An excellent proof of what a ridiculous perversion VLAs are. IMHO explicit variable-length stack consumtion (alloca) is very much better. –  valdo Jun 24 '12 at 17:34
@valdo, I don't see what this is supposed to prove. It seems normal that sizeof an object that is sized dynamically at execution time has to be evaluated at execution time. And comparing to other mechanisms such as alloca (that isn't even standardized and has no scoping) or malloc that both don't know anything about the size of the objects that they create is not very helpful. –  Jens Gustedt Jun 24 '12 at 17:44
@Jens Gustedt: Sorry, I meant example, not a proof. alloca doesn't need an explicit freeing/scope. The generated code is (more or less) identical to VLAs - moving the stack pointer + probing the stack memory upon page boundary crossing. I personally use sizeof very aggressively in meta-programming (temapltes and etc.), and I'd like to be 100% sure whatever is inside sizeof will never be evaluated at run-time. –  valdo Jun 24 '12 at 22:10
@valdo, doesn't need a freeing scope, but doesn't provide one, too. I find the idea of an allocation that lasts until the function terminates quite counter-intuitive. I do a lot of meta programming in C with macros, and up to now I didn't encounter a major problem because of VLA. And don't exaggerate the run-time aspect of sizeof for VLA. It is just the evaluation of some hidden variable that holds the size. But the compiler is doing the work for you and can optimize in many places. –  Jens Gustedt Jun 24 '12 at 22:30
@Jens Gustedt: alloca doesn't provide the "freeing scope" because of exactly the same reasons VLAs don't provide this. A stack variable (either fixed-size or not) may not be freed without affecting the consequently allocated ones. So you say the (explicit) allocation that lasts till the function terminates is counter-intuitive, OTOH I believe that enforcing a compile-time operator to silently do things in runtime counter-intuitive. It's not just a "hidden variable", sometimes this variable demands evaluation. Such as sizeof of a function call's retval (which isn't called normally). –  valdo Jun 25 '12 at 8:41

Almost always compile time. But the following examples might be of interest to you:

char c[100];
sizeof(c); // 100

char* d = malloc(100);
sizeof(d); //probably 4 or 8.  tells you the size of the pointer!

BaseClass* b = new DerivedClass();
sizeof(b); //probably 4 or 8 as above.

void foo(char[100] x) {
    sizeof(x); //probably 4 or 8.  I hate this.  Don't use this style for this reason.

struct Foo {
    char a[100];
    char b[200];

sizeof(struct Foo); //probably 300.  Technically architecture dependent but it will be
//the # of bytes the compiler needs to make a Foo.

struct Foo foo;
sizeof(foo); //same as sizeof(struct Foo)

struct Foo* fooP;
sizeof(fooP); //probably 4 or 8

class ForwardDeclaredClass;

ForwardDeclaredClass* p;
sizeof(p); //4 or 8
ForwardDeclaredClass fdc; //compile time error.  Compiler
//doesn't know how many bytes to allocate

sizeof(ForwardDeclaredClass); //compile time error, same reason
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Excellent list... thank you! –  Homer6 May 21 '13 at 1:53

Compile time , because it's calculate size at compile time."Compile time" is when you build your code - when the compiler converts your source code into IL.

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