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What will be solution in the following code

Class A{}
void func(){}

printf("%d,%d",sizeof(A),sizeof(func));
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plz give the reasons for the same also –  Prashant Dubey Jun 20 '10 at 11:33
3  
Have you tried it yourself? BTW, you can edit your own question so no need to leave a comment. –  Troubadour Jun 20 '10 at 11:35
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That's not how a class is declared, why are you using printf in C++, and sizeof isn't guaranteed to fit into %d anyway. –  Mark Rushakoff Jun 20 '10 at 11:36
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@Prashant: You are using incorrect format specifier in printf, using incorrect format specifier in printf in UB. You must use %zu for sizeof –  Satish Jun 20 '10 at 11:43
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-1 Please only post code that compiles. Then, whence it compiles and you are able to run it what is the point of your question? –  Jens Gustedt Jun 20 '10 at 11:48

3 Answers 3

up vote 6 down vote accepted

Size of an empty class is non zero(most probably 1), so as to have two objects of the class at different addresses.

http://www2.research.att.com/~bs/bs_faq2.html#sizeof-empty explains it better

 class A{};
 void func(){}

 std::cout<<sizeof(A)<<std::endl<<sizeof(&func));// prints 1 and 4 on my 32 bit system
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You are taking the size of a function which cannot be done. You need to preceede the name with a & to take the size of a pointer to that function. You also need to cast the sizeof value to be of type int, which is what printf expects for the d specifier

printf("%d,%d", (int)sizeof(A), (int)sizeof(&func));

As for the concrete values ---- It's not known what they are beyond that are greater or equal to 1. It depends on the compiler.

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By sizeof(func), you probably mean sizeof(&func), which is the size of a function pointer in bytes.

As far as what the size of an A object is, the standard only says:

Complete objects and member subobjects of class type shall have nonzero size.

which is qualified by footnote 94:

Base class subobjects are not so constrained.

The reason for the footnote is to allow for a compiler optimization known as empty member optimization, which is commonly used in template libraries to access routines of a class type (e.g. allocator routines of an allocator class type) without needing a member object of that class type.

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1  
Pointers to differing types aren't guaranteed to be the same size (although they usually are in practice). –  Oliver Charlesworth Jun 20 '10 at 14:11
    
@Oli Charlesworth: Wow, I was unaware that pointer sizes can be different. Indeed, looking through the C and C++ standards, I can't find anything that forces the sizes of two pointer types to be equal. There was, however, this line from [5.2.10] Reinterpret cast: "A pointer to a function can be explicitly converted to a pointer to a function of a different type". I think that this means the sizes of two function pointer types are the same at least. –  Daniel Trebbien Jun 20 '10 at 18:52
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One example of where the size of a data pointer and a function pointer might differ is on a platform with a Harvard architecture (i.e. separate instruction and data memories). –  Oliver Charlesworth Jun 20 '10 at 20:07
    
@Oli Charlesworth: Interesting info. Thank you. –  Daniel Trebbien Jun 20 '10 at 20:23

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