Is it possible to determine the size of a C++ class at compile-time?

I seem to remember a template meta-programming method, but I could be mistaken...

sorry for not being clearer - I want the size to be printed in the build output window


13 Answers 13


If you really need to to get sizeof(X) in the compiler output, you can use it as a parameter for an incomplete template type:

template<int s> struct Wow;
struct foo {
    int a,b;
Wow<sizeof(foo)> wow;

$ g++ -c test.cpp
test.cpp:5: error: aggregate ‘Wow<8> wow’ has incomplete type and cannot be defined
  • 3
    And if you don't want an error, but merely a warning, use it as the template parameter for a complete type, and subsequently define an otherwise unused object of that type. I.e. Wow<sizeof(foo)> unused_warning;.
    – MSalters
    Commented Jan 6, 2010 at 9:43
  • For VS2010, don't forget to look at the 'Output' window, because the 'Error List' only contains a condensed message that doesn't show the size value.
    – Coder_Dan
    Commented Sep 13, 2012 at 13:38
  • 1
    Also don't be fooled by VS2010's IntelliSense, which can report a different number that shown by cl.
    – chappjc
    Commented Mar 20, 2014 at 0:05
  • Note: I had to define a local variable to observe any useful message on gcc4.6. In other words, I had no luck with member variables. Commented Aug 22, 2014 at 13:01
  • error: use of undeclared identifier 'wow'; did you mean 'pow'? No but thanks anyway, clang.
    – screwnut
    Commented Oct 24, 2022 at 15:24

To answer the updated question -- this may be overkill, but it will print out the sizes of your classes at compile time. There is an undocumented command-line switch in the Visual C++ compiler which will display the complete layouts of classes, including their sizes:

That switch is /d1reportSingleClassLayoutXXX, where XXX performs substring matches against the class name.


  • 1
    Of course, I should have said that only applies to Visual C++, since the original question didn't specify a platform. I only work on Windows these days, hence my bias.
    – aalpern
    Commented Jan 5, 2010 at 19:49
  • Would be interesting to know which versions of the compiler support this switch. Commented Feb 20, 2016 at 16:53

EDITED (3jun2020) This trick works IN ALL C COMPILERS. For Visual C++:

struct X {
    int a,b;
    int c[10];
int _tmain(int argc, _TCHAR* argv[])
    int dummy;

    switch (dummy) {
    case sizeof(X):
    case sizeof(X):
    return 0;

Example output:

------ Build started: Project: cpptest, Configuration: Debug Win32 ------
cpptest.cpp c:\work\cpptest\cpptest\cpptest.cpp(29): error C2196: case value '48' already used
========== Build: 0 succeeded, 1 failed, 0 up-to-date, 0 skipped ==========

For other compilers that only print "duplicate case value", see my answer to this question: How can I print the result of sizeof() at compile time in C?

  • I got a different error code, where the compiler (avrgcc) did not replace the sizeof() expression with its value. The workaround is to write once sizeof(dummy) and then provide other cases (like 1, 2, 4, 8, etc). This works for simple types but it's going to be painful to implement with something more complex, like a struct or a class. Commented Jun 7, 2016 at 19:42
  • I have added another answer illustrating another C code compatible trick. Not sure if it works for your compiler or not
    – JavaMan
    Commented Aug 11, 2016 at 7:31
  • just try different ways of using a compile time integer incorrectly and replace that integer with sizeof() which is evaluated at compile time, too
    – JavaMan
    Commented Aug 11, 2016 at 7:34
  • GCC 5 does not print the value though. Just says "duplicate case value".
    – rustyx
    Commented Sep 11, 2016 at 20:48
  • see my edit for gcc or any other compilers that only print "duplicate case value"
    – JavaMan
    Commented Jun 3, 2020 at 9:06

Whats wrong with sizeof? This should work on objects and classes.

void foo( bar* b )
  int i = sizeof bar;
  int j = sizeof *b;

  // please remember, that not always i==j !!!


This is the example I was thinking of, but for some reason it's not working. Can anyone tell me what's wrong?

#include <iostream>
using namespace std;
class bar {
public: int i;
        bar( int ii ) { i = ii; }
        virtual ~bar(){ i = 0; }
        virtual void d() = 0;

class bar2: public bar {
public: long long j;
        bar2( int ii, long long jj ):bar(ii){ j=jj; }
        ~bar2() { j = 0; }
        virtual void d() { cout <<  "virtual" << endl; };

void foo( bar *b )
        int i = sizeof (bar);
        int j = sizeof *b;
        cout << "Size of bar = " << i << endl;
        cout << "Size of *b  = " << j << endl;

int main( int arcc, char *argv[] )
        bar2 *b = new bar2( 100, 200 );
        foo( b );
        delete b;
        return 0;

The application been run on linux (gcc 4.4.2):

[elcuco@pinky ~/tmp] ./sizeof_test
Size of bar = 8
Size of *b  = 8
  • @elcuco - the second line should be sizeof(*b) Commented Jan 5, 2010 at 19:08
  • @R Samuel: Or just sizeof *b. sizeof is an operator not requiring brackets, except that type names have to be surrounded by brackets, similar to casting syntax. Commented Jan 5, 2010 at 19:11
  • 5
    When would i!=j? sizeof calculates at compile time, and all that's known is the type of the argument - in both cases this is bar. If you have a child class of bar that is larger, and you pass a pointer to an instance of the child into this function, you still just get the size of bar - polymorphism doesn't work at this level. Commented Jan 5, 2010 at 19:32
  • That's a good point. You need a virtual method in the derived classes to return their own size. Commented Jan 5, 2010 at 19:57
  • 1
    Aside: Seeing sizeof used "as a function" is a serious peeve of mine. It's not a function; it's an operator. If you declare int i, both sizeof i and sizeof (int) should yield identical results. (I make a point to put a space after sizeof so nobody thinks it's a function, just as I do after if, while, or for.) Commented Jan 5, 2010 at 20:51

This macro is based off grep's answer. Define the macro like below:

#define COMPILE_TIME_SIZEOF(t)      template<int s> struct SIZEOF_ ## t ## _IS; \
                                    struct foo { \
                                        int a,b; \
                                    }; \
                                    SIZEOF_ ## t ## _IS<sizeof(t)> SIZEOF_ ## t ## _IS;

Then use it like this:


And you'll get an output similar to below:

error: 'SIZEOF_long_IS<4> SIZEOF_long_IS' redeclared as different kind of symbol
                                         SIZEOF_ ## t ## _IS<sizeof(t)> SIZEOF_ ## t ## _IS;

Still a bit of a workaround, but easy enough to use.


sizeof() determines the size at compile time.

It doesn't work until compile time, so you can't use it with the preprocessor.

  • This doesn't quite answer the question though. Better suited as a comment.
    – rustyx
    Commented Nov 28, 2015 at 19:37

Compile-time sizeof as a Warning so Compilation can Continue

Here is a version which produces a warning rather than an error:

    /** Compile-time sizeof as a warning so
        compilation can continue */

    struct TestStruct
      int i1;
      float f1;
      const char* pchar1;
      double d1;
      char c1;
      void* pv1;
      bool b1;

    template<unsigned int n>
    struct PrintNum {
        enum { value = n };

    template<int number> 
    struct _{ operator char() { return number + 256; } };

    #define PRINT_AS_WARNING(constant) char(_<constant>())    

    int main() 
        return 0;

See it running on Godbolt. As an aside, you can read the size(48) right out of the assembly there:

leaq    -1(%rbp), %rax
movq    %rax, %rdi
call    _<48>::operator char()
movl    $0, %eax

In g++ one can use option "-fdump-lang-class". Then g++ creates a new output file with extension .class, which contains the sizes of all classes defined in the compiled unit.


There is operator sizeof( int ), sizeof( char ) so I think that it is possible and call probably look like sizeof( MyClass )

  • 1
    sizeof is an operator, not a function. You can't take the address of sizeof (whereas you can take the address of functions). :-P Commented Jan 5, 2010 at 19:09

Yet, another trick causing the VC++2010 compiler to complain about incorrect use of compile time integer:

// cpptest.cpp : Defines the entry point for the console application.

#include "stdafx.h"
struct X {
    int a[11];
    char c[2];
void proc1(void* s[1]) {
int _tmain(int argc, _TCHAR* argv[])
    int b[sizeof(X)];
    return 0;

1>------ Build started: Project: cpptest, Configuration: Release Win32 ------ 1> cpptest.cpp 1>cpptest.cpp(14): error C2664: 'proc1' : cannot convert parameter 1 from 'int [48]' to 'void *[]' 1>
Types pointed to are unrelated; conversion requires reinterpret_cast, C-style cast or function-style cast ========== Build: 0 succeeded, 1 failed, 0 up-to-date, 0 skipped ==========

Hence sizeof (struct X) is 48. This also works for C code.


This is the snippet, that I use:

template <typename T>
void get_sizeof() {
    switch (*((int*)0x1234)) { case sizeof(T): case sizeof(T):; }

To get the size, instantiate the function anywhere in the code, for example, within a statement:

struct S { long long int ill; };

The error will look like:

error: duplicate case value '8'
switch (*((int*)0x1234)) { case sizeof(T): case sizeof(T):; }

I developed a tool, named compile-time printer, to output values and types during compilation.

You can try it online under: https://viatorus.github.io/compile-time-printer/

The repository can be found here: https://github.com/Viatorus/compile-time-printer

To get the size of any type as output would be:

constexpr auto unused = ctp::print(sizeof(YourType));

In both C and C++, you can also use an enum and switch case based technique.

See my full answer here: Printing the size of (sizeof()) a type or variable in an error message at compile time in both C and C++.

It allows you to do stuff like this, using my COMPILE_TIME_PRINT_SIZEOF_GLOBAL() and COMPILE_TIME_PRINT_SIZEOF_LOCAL() macros:

#include "sizeof_compile_time_lib.h"

#include <stdbool.h> // For `true` (`1`) and `false` (`0`) macros in C
#include <stdint.h>  // For `uint8_t`, `int8_t`, etc.
#include <stdio.h>   // For `printf()`

typedef struct My_struct_s
              // For my X86-64 Linux machine:
    bool b;   // 1 byte + 3 padding bytes
    int i;    // 4 bytes
    float f;  // 4 bytes
    char c;   // 1 byte + 3 padding bytes
    double d; // 8 bytes
} My_struct;  // 24 bytes total

struct My_struct2_s
              // For my X86-64 Linux machine:
    bool b;   // 1 byte + 3 padding bytes
    int i;    // 4 bytes
};            // 8 bytes total

COMPILE_TIME_PRINT_SIZEOF_GLOBAL(My_struct);                // 24
COMPILE_TIME_PRINT_SIZEOF_GLOBAL(struct My_struct2_s);      // 8

int main()
    printf("Testing 'sizeof_compile_time_lib.h'.\n\n");

    My_struct my_structs[10];
    COMPILE_TIME_PRINT_SIZEOF_LOCAL(My_struct);             // 24
    COMPILE_TIME_PRINT_SIZEOF_LOCAL(struct My_struct2_s);   // 8
    COMPILE_TIME_PRINT_SIZEOF_LOCAL(my_structs);            // 240

    return 0;

The output contains lines like this. Notice that This_is_the_size_of_your_type_on__line_82’ contains the line number, and error: case value ‘240’ not in enumerated type contains the size of the type in bytes (240 in this case):

sizeof_compile_time_lib.h:68:13: error: case value ‘240’ not in enumerated type ‘enum This_is_the_size_of_your_type_on__line_82’ [-Werror=switch]
   68 |             case sizeof(variable_or_data_type): \
      |             ^~~~
sizeof_compile_time_lib_test_BEST.c:82:5: note: in expansion of macro ‘COMPILE_TIME_PRINT_SIZEOF_LOCAL’
   82 |     COMPILE_TIME_PRINT_SIZEOF_LOCAL(my_structs);
      |     ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

See my full answer for details and definitions of the COMPILE_TIME_PRINT_SIZEOF_GLOBAL() and COMPILE_TIME_PRINT_SIZEOF_LOCAL() macros.

And a reminder: in C++, struct is a class, just with all members defaulting to public instead of private is all, so this should work fine with classes too.

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