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Memory usage is quite critical in my application. Therefore I have specific asserts that check for the memory size at compile time and give a static_assert if the size is different from what we considered correct before.

I have defined a macro like this:

#define CHECKMEM(mytype, size) static_assert((sizeof(objectType) == size)), "Size incorrect for " #mytype "!");

This macro makes it very easy to write this:

CHECKMEM(Book,144);
CHECKMEM(Library,80);

The problem is that when this static_assert goes off, it might be quite difficult to find out what the new size should be (e.g. by using the hidden compiler option "/d1 reportAllClassLayout"). It would be much handier if I could include the actual size, so instead of:

Size incorrect for Book!

It would show

Size incorrect for Book! (expected 144, size is 152)

I tried writing something like this:

#define CHECKMEM(mytype, size) static_assert((sizeof(objectType) == size)), "Size incorrect for " #mytype "! (expected" #size ", size is " #sizeof(mytype) ")");

But you can't use the stringize (#) operator on a function call.

I also tried adding the double-stringize trick, like this:

#define STR1(x) #x 
#define STR2(x) STR1(x) 
#define CHECKMEM(mytype, size) static_assert((sizeof(objectType) == size)), "Size incorrect for " #mytype "! (expected" #size ", size is " STR2(sizeof(mytype)) ")");

But instead of printing size is 152 it prints size is sizeof(Book).

Is there a way to stringify the result of sizeof in a static_assert?

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2  
Note that sizeof is not a function call –  Konrad Rudolph Jul 17 '12 at 16:13
2  
The trouble is that the second argument to static_assert must be a string literal and you cannot build such it in the preprocessor, as you can't use sizeof there. –  pmr Jul 17 '12 at 16:27

3 Answers 3

up vote 7 down vote accepted

I'd use dispatching on a function template to do the checking:

#include <cstddef>

template <typename ToCheck, std::size_t ExpectedSize, std::size_t RealSize = sizeof(ToCheck)>
void check_size() {
  static_assert(ExpectedSize == RealSize, "Size is off!");
}

struct foo
{
  char bla[16];
};

int main()
{
  check_size<foo, 8>();
  return 0;
}

Results in:

In instantiation of ‘void check_size() [with ToCheck = foo; long unsigned int ExpectedSize = 8ul; long unsigned int RealSize = 16ul]’:
bla.cpp:15:22:   required from here
bla.cpp:5:1: error: static assertion failed: Size is off!

The debugging information is in the template parameters of the back-trace.

If this is truly better, you will have to decide and it also depends on the compiler. It also enables you to hide the expected size with a template map, to sum up to a max size and other fancy things.

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Depending on your compiler, templates may be able to help:

template<int s, int t> struct check_size {
  static_assert(s == t, "wrong size");
};
check_size<2+2, 5> doubleplusungood;

gcc outputs:

prog.cpp: In instantiation of 'check_size<4, 5>':
prog.cpp:5:20:   instantiated from here
prog.cpp:2:3: error: static assertion failed: "wrong size"
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As you discovered, the problem is here (also see this very similar question) :

#define CHECKMEM(mytype, size)  #sizeof(mytype)

It is not possible to do, because the stringification is done by the preprocessor, and sizeof is evaluated during the compilation.

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