Taken from http://www.ocf.berkeley.edu/~wwu/riddles/cs.shtml

It looks very compiler specific to me. Don't know where to look for?

10 Answers 10


Simple enough.

#include <stdio.h>
int main(int argc, char ** argv) {
#ifdef __cplusplus
return 0;

Or is there a requirement to do this without the official standard?

  • 2
    Just made the output agree with the question. – anon Jan 10 '10 at 19:21
  • 2
    That's correct. The C++ 1998 standard says: "The name __cplusplus is defined to the value 199711L when compiling a C++ translation unit". (Section 16.8: [cpp.predefined]) – stakx - no longer contributing Jan 10 '10 at 19:21
  • 9
    Of course, a really nasty C implementation could define __cplusplus. – anon Jan 10 '10 at 19:22
  • 4
    __cplusplus is defined to be 199711L only when the compiler is completely conforming. gcc, for example, still defines __cplusplus to be 1. – kennytm Jan 10 '10 at 19:33
  • 6
    @Neil, in the C99 standard, section explicitly forbid the implementation from defining __cplusplus. But nothing of the sort in C89. – Nicolas Goy Jan 10 '10 at 22:07

We had to do a similar assignment at school. We were not allowed to use preprocessor (except for #include of course). The following code uses the fact that in C, type names and structure names form separate namespaces whereas in C++ they don't.

#include <stdio.h>
typedef int X;
int main()
    struct X { int ch[2]; };
    if (sizeof(X) != sizeof(struct X))
  • 2
    It is not true that in C++ they don't form separate namespaces, they are kept separate by the compiler, but the compiler will lookup symbols in both namespaces (first in the non-user defined types, then on the user defined types). There are a few ways of testing it, the simplest of which is typedef struct X {} Y; void X(); compiles, but if you add void Y(); you will get a compiler error: the symbol Y, in the non-user-defined namespaces is already used by the typedef. – David Rodríguez - dribeas Jun 25 '11 at 16:25

I know of 7 approaches:

1. Abuse C++ automatic typedefs

(Note that the struct needs to be declared in an inner scope so that it takes precedence over the outer name in C++.)

char x;
    struct x { char dummy[2]; };
    printf("%s\n", sizeof (x) == 1 ? "C" : "C++");

A similar version that doesn't rely on the ambiguity between sizeof (type) and sizeof (variable), using only types:

typedef char t;
    struct t { char dummy[2]; };
    printf("%s\n", sizeof (t) == 1 ? "C" : "C++");

2. Abuse C++ struct/class equivalence, automatic typedefs, and automatically-generated default constructors

/* Global*/
int isC = 0;
void Foo() { isC = 1; }

/* In some function */
struct Foo { int dummy; };
printf("%s\n", isC ? "C" : "C++");

3. Abuse nested struct declarations in C

Also see Symbol clashing of inner and outer structs, C++ vs C

typedef struct inner { int dummy; } t;
    struct outer { struct inner { t dummy[2]; } dummy; };
           sizeof (struct inner) == sizeof (t)
           ? "C++"
           : "C");

4. Abuse // comments

This won't work with C99 or with C89 compilers that support // as an extension.

       0 //* */
       ? "C++"
       : "C");

or alternatively:

       1 //* */ 2
       ? "C++"
       : "C");

5. sizeof differences with char literals

Note that this isn't guaranteed to be portable since it's possible that some hypothetical platform could use bytes with more than 8 bits, in which case sizeof(char) could be the same as sizeof(int). (Also see Can sizeof(int) ever be 1 on a hosted implementation?)

printf("%s\n", sizeof 'a' == 1 ? "C++" : "C");

6. Abuse differences in when lvalue⇒rvalue conversions are performed

This is based off of the 5.16, 5.17, 5.18 example in the ISO C++03 standard, and it works in gcc but not in MSVC (possibly due to a compiler bug?).

void* array[2];
       (sizeof (((void) 0), array) / sizeof (void*) == 1)
       ? "C"
       : "C++");

7. Abuse differences in the way C and C++'s grammars parse the ternary operator

This one isn't strictly legal, but some compilers are lax.

int isCPP = 1;
printf("%s\n", (1 ? isCPP : isCPP = 0) ? "C++" : "C");

(You also could check for the __cplusplus preprocessor macro (or various other macros), but I think that doesn't follow the spirit of the question.)

I have implementations for all of these at: http://www.taenarum.com/csua/fun-with-c/c-or-cpp.c

  • 1
    I'm pretty sure the standard requires a char to be 1 byte, and a byte to be 8 bits. – jalf Jan 10 '10 at 20:42
  • 5
    No, char by definition is 1 byte, and a byte must be at least 8 bits, but it can be more. That's why CHAR_BIT exists. – jamesdlin Jan 10 '10 at 20:46
  • 2
    It requires char to be 1 byte. The number of bits in a byte is implementation-defined. – avakar Jan 10 '10 at 20:48
  • 1
    +1. Gotta love an answer where one option is non-portable and the other six are described as abuse :-) – paxdiablo Jun 12 '12 at 1:19
puts(sizeof('a') == sizeof(int) ? "C" : "C++");
  • 6
    This is actually not guaranteed to work. sizeof(int) can be 1 if CHAR_BIT is at least 16. – avakar Jan 10 '10 at 19:29
  • 7
    Oak, in C, character literals are of type int, in C++ they're of type char. – avakar Jan 10 '10 at 19:33

Here's the program:

#include <stdio.h>

int main(int argc, char *argv[])
    printf("This is %s\n", sizeof 'a' == sizeof(char) ? "C++" : "C");
    return 0;

And here is some nice reading on C and C++ differences.


Just look to see if the __STDC__ and __cplusplus compiler macros are defined.


One word, __cplusplus.


I'm guessing the intent is to write something that depends on differences between the languages themselves, not just predefined macros. Though it's technically not absolutely guaranteed to work, something like this is probably closer to what's desired:

int main() { 
    char *names[] = { "C", "C++"};

    printf("%s\n", names[sizeof(char)==sizeof('C')]);
    return 0;
  • 1
    Same rant as for Matthew Slattery, this may not work on all platforms. – avakar Jan 10 '10 at 19:29
  • @avakar:Theoretically sort of true -- that's why I said It's not absolutely guaranteed to work. At the same time, the basic design of the C I/O library depends on EOF being different from any value of unsigned char. That implies that sizeof(int)>sizeof(unsigned char). Even though there was an idea that sizeof(char)==sizeof(int) should be allowed, it's really impossible to make C work that way, so the code above really does work dependably. – Jerry Coffin Jan 10 '10 at 19:44
  • Don't confuse the result of sizeof with the type's allowed range of values. – jamesdlin Jan 10 '10 at 19:55
  • 1
    @avakar is correct in that this is not guaranteed to work: it is possible to have sizeof(int) == 1 and have all int values be valid character returns from getchar(), in which case EOF can also be a valid character, and testing whether EOF indicates end-of-file needs to be performed with feof() (and testing for error with ferror()). And Crays are an example of sizeof(int) == 1: they used to have all the integer types be 64 bits wide. – JaakkoK Jan 10 '10 at 23:11
  • 1
    @jlk:Like I said, in theory, it's sort of correct. In reality, an implementation chars the same size as ints would break so much code nobody would ever use it. As far as Crays go, the idea of all integer types having the same size is an urban legend -- a rumor that remains widespread despite repeated testing showing that if it was ever true, it was only with a compiler that was never released to the outside world (and no evidence that it ever existed internally either). – Jerry Coffin Jan 11 '10 at 6:14

For what it's worth, here's another answer:

char x[sizeof(char *)+2], y[1];
printf("%.*s\n", sizeof(1?x:y)-sizeof(char *)+1, "C++");
  • I tried compiling using gcc and g++ following code pastebin.com/zsxX1NNN The files were saves as foo.c and foo.cpp respectively. It printed C both times. I don't think that the way you did it should work, because size of pointers depends on the architecture. – Xolve Jun 25 '11 at 20:56
  • Perhaps my idea was wrong. I thought the array would not decay to a pointer in C++ in this context... – R.. GitHub STOP HELPING ICE Jun 25 '11 at 21:05

You could try preprocessor directives, but that might not be what they are looking for.

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