include guard

In the C and C++ programming languages, an #include guard, sometimes called a macro guard, header guard or file guard, is a way to avoid the problem of double inclusion when dealing with the include directive.

The C preprocessor processes inclusion directives like #include "foo.h" to include "foo.h" and transcludes the code of that file into a copy of the main file often called the translation unit.

However, if an #include directive for a given file appears multiple times during compilation, often times constructs are then defined twice, and the resulting translation unit is invalid. #include guards prevent this by defining a preprocessor macro when a header is first included, and detecting its presence to ignore the file's contents next time it is included.

The addition of #include guards to a header file is one way to make that file idempotent and the program safer. Another construct to combat double inclusion is #pragma once, which is non-standard but nearly universally supported directive among C and C++ compilers.

Double inclusion

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Example

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The following C code demonstrates a real problem that can arise if #include guards are missing:

File "grandparent.h"

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struct foo {     int member; }; 

File "parent.h"

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#include "grandparent.h" 

File "child.c"

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#include "grandparent.h" #include "parent.h" 

Result

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struct foo {     int member; }; struct foo {     int member; }; 

Here, the file "child.c" has indirectly included two copies of the text in the header file "grandparent.h". This causes a compilation error, since the structure type foo will thus be defined twice. In C++, this would be called a violation of the one definition rule.

Use of #include guards

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Example

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The same code as the previous section is used with the addition of #include guards. The C preprocessor preprocesses the header files, including and further preprocessing them recursively. This will result in a working source file.

File "grandparent.h"

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#ifndef GRANDPARENT_H #define GRANDPARENT_H  struct foo {     int member; };  #endif /* GRANDPARENT_H */ 

File "parent.h"

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#include "grandparent.h" 

File "child.c"

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#include "grandparent.h" #include "parent.h" 

Result

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struct foo {     int member; }; 

Here, the first inclusion of "grandparent.h" has the macro GRANDPARENT_H defined. When "child.c" includes "grandparent.h" at the second time (while including "parent.h"), as the #ifndef test returns false, the preprocessor skips down to the #endif, thus avoiding the second definition of struct foo. The program compiles correctly.

Discussion

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Different naming conventions for the guard macro may be used by different programmers. Other common forms of the above example include GRANDPARENT_INCLUDED, CREATORSNAME_YYYYMMDD_HHMMSS (with the appropriate time information substituted), and names generated from a UUID. (However, names starting with one underscore and a capital letter (C and C++) or any name containing double underscore (C++ only), such as _GRANDPARENT_H and GRANDPARENT__H, are reserved to the language implementation and should not be used by the user.[1][2])

Of course, it is important to avoid duplicating the same include-guard macro name in different header files, as including the 1st will prevent the 2nd from being included, leading to the loss of any declarations, inline definitions, or other #includes in the 2nd header.

Difficulties

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For #include guards to work properly, each guard must test and conditionally set a different preprocessor macro. Therefore, a project using #include guards must work out a coherent naming scheme for its include guards, and make sure its scheme doesn't conflict with that of any third-party headers it uses, or with the names of any globally visible macros.

For this reason, most C and C++ implementations provide a non-standard #pragma once directive. This directive, inserted at the top of a header file, will ensure that the file is included only once. The Objective-C language (which is a superset of C) has an #import directive, which works exactly like #include, except that it includes each file only once, thus obviating the need for #include guards.[3]

Other languages

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Some languages support specifying that the code should be included only once, in the including file, rather than in the included one (as with C/C++ include guards and #pragma once):

  • PL/I uses the %INCLUDE statement as the equivalent to C's #include directive. IBM Enterprise PL/I also supports the %XINCLUDE statement which will "incorporate external text into the source program if it has not previously been included." (It also offers an XPROCEDURE statement, similar to a PROCEDURE statement, which will ignore the second and subsequent occurrences of an XPROCEDURE with the same name.) [4]
  • Objective-C's #import directive (see above)
  • PHP's include_once[5]

See also

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References

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  1. ^ C++ standard (ISO/IEC 14882) section 17.4.3.1.2/1
  2. ^ C standard (ISO/IEC 9899) section 7.1.3/1.
  3. ^ "Objective C: Defining Classes". developer.apple.com. 2014-09-17. Retrieved 2018-10-03.
  4. ^ IBM Corporation (August 2017). Enterprise PL/I for z/OS PL/I for AIX Enterprise PL/I for z/OS Language Reference Version 5 Release 1 (PDF). p. 257. Retrieved Apr 7, 2022.
  5. ^ "include_once (PHP Language Reference)".
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