Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is it ever useful to include a header file more than once in C or C++?

If the mechanism is never used, why would the compiler ever worry about including a file twice; if it really were useless, wouldn't it be more convenient if newer compilers made sure every header is included only once?

Edit:

I understand that there are standard ways of doing things like include guards and pragma once, but why should you have to specify even that? Shouldn't it be the default behavior of the compiler to include files only once?

share|improve this question
8  
Yes, it should be the default behaviour, because it is the common case (they could have defined a new preprocessor-directive #multipleincludes or something, for the rare case that you want multiple-inclusion). But C was designed to make a compiler easy to write from scratch, not easy to program for. This made sense in the 1970's, when there were many common architectures, no easily modifiable open-source compilers like gcc, and programs rarely went over 100k lines. It doesn't make sense for 2012. Always make the common case the default! –  BlueRaja - Danny Pflughoeft Jun 4 '12 at 17:14
3  
possible duplicate of Is there any situation where you wouldn't want include guards? –  finnw Jun 7 '12 at 10:29

6 Answers 6

up vote 28 down vote accepted

Yes, it's useful when generating code with the preprocessor, or doing tricks like Boost.PP does.

For an example, see X Macros. The basic idea is that the file contains the body of the macro and you #define the arguments and then #include it. Here's a contrived example:

macro.xpp

std::cout << MESSAGE;
#undef MESSAGE

file.cpp:

int main() {
# define MESSAGE "hello world"
# include "macro.xpp"
}

This also allows you to use #if and friends on the arguments, something that normal macros can't do.

share|improve this answer

Yes, including a header more than once can be useful (though it is fairly unusual). The canonical example is <assert.h>, which defines asssert differently depending on whether NDEBUG is defined or not. As such, it can make sense to include it, then have a (usually conditional) definition of NDEBUG, followed by including it again, with (at least potentially) different definitions of assert:

The assert macro is redefined according to the current state of NDEBUG each time that <assert.h> is included1.

Most headers, however, go to some pains to be idempotent (i.e., to have the same effects no matter how often they're included).


1C99, §7.2/1.

share|improve this answer

A typical example (untested) - point being that it factors a list of enumerations so they appear consistently in an enum and in streaming code:

// states.h
X(Uninitialised)
X(Initialised)
X(Running)
X(Complete)
X(Shutdown)

// app.c++
#if defined(X)
# error X is already defined
#endif

enum States {
    #define X(TAG) TAG,
    #include "states.h"
    #undef X
    Extra_So_Trailing_Comma_Ignored
};

std::ostream& operator<<(std::ostream& os, const States& state)
{
    #define X(TAG) if (state == TAG) return os << #TAG;
    #include "states.h"
    #undef X
    return os << "<Invalid-State>";
}
share|improve this answer
    
In C, trailing commas in enumerator lists are allowed (for exactly this case). Is this really different in C++? –  undur_gongor Jun 4 '12 at 9:28
    
@undur_gongor: dug around a bit - seems it's not allowed in C++03 and earlier, but tolerance is added in C++11. Of course specific compilers may have been more tolerant even under C++03. –  Tony D Jun 4 '12 at 11:30
2  
+1 interesting example. –  Nawaz Jun 4 '12 at 16:16

Yes it would be more convenient only to include it once and that is why you use #pragma once . in C++ :)

Edit:

Note: #pragma once is non-portable. You can use

#ifndef FILENAME_H
#define FILENAME_H

in top of your header files instead if you want it to be portable.

share|improve this answer
12  
/me never understood why people would choose a non-portable solution, when some ifdef's aren't much harder. –  Benjamin Bannier Jun 4 '12 at 7:07
2  
In C++ you use header guards. In nonportable C++, you use #pragma once –  jalf Jun 4 '12 at 7:09
4  
/me also never understood the compulsive use of starting underscores in include guards ;) –  Benjamin Bannier Jun 4 '12 at 7:10
5  
Underscore capital is reserved. Just start with the name of your project. –  Pubby Jun 4 '12 at 7:13
3  
@Als: I know it is supported by newer MSVC, GCC and clang compilers, but it still isn't standard C++ and include guards aren't much harder. As for #pragma once being more effective, I would be curious to see some comparison, since at least GCC and clang recognize include guards and treat them pretty similar to the #pragma. –  Benjamin Bannier Jun 4 '12 at 7:29

Multiple inclusion can be used whenever you need some "boring" code generation that you don't want to maintain by hand, again and again.

The classic example would be a C/C++ enum and the corresponding strings, which more or less looks like this:

// MYENUM_VALUES.H
MYENUMVALUE(a)
MYENUMVALUE(b)
MYENUMVALUE(c)
MYENUMVALUE(d)

// MYENUM.H
#define MYENUMVALUE(x) x,
enum MyEnum
{
#include "MYENUM_VALUES.H"
}
#undef MYENUMVALUE

// MYENUMTOSTRING.C
#define MYENUMVALUE(x) case x : return #x;

const char * MyEnumToString(MyEnum val)
{
    switch (val)
    {
    #include "MYENUM_VALUES.H"
    default return "unknown";
    }
} 
#undef MYENUMVALUE
share|improve this answer
#ifndef _INC_HEADER_
#define _INC_HEADER_

//header code

#endif

Where HEADER is the header's name

eg. main_win.h will be _INC_MAIN_WIN_

share|improve this answer
9  
Underscore capital is reserved and shouldn't be used. –  Benjamin Bannier Jun 4 '12 at 7:18

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.