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Should I still use include guards when all of these compilers support #pragma once?
A lot of responses on stack overflow say to use both for compatibility, but I'm not sure if that still rings true. What compilers today don't support #pragma once?

I am not sure if using both was just a recommendation before it became widley adopted, or if there are still very good reasons to use both methods.
Any examples of when only using #pragma once will cause problems?

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Remember that older versions of the listed compilers may not support it, so if you're making an open-source program whose source is to be distributed then the pragma may not work. –  Joachim Pileborg Nov 12 '12 at 6:54
It's not only about compiler support, but also depends on how complicated the environment is. Do you trust the compiler to know for sure if two files are the same or not, including all netwowrk mounts and symbolic links? –  Bo Persson Nov 12 '12 at 7:41
also consider auxiliary tools such as indexers and analyzers. there may not be a full preprocessor or parser behind them, as there is for the compiler. –  justin Nov 12 '12 at 7:45
A lot of embedded systems use the old RVCT (or ADS) compilers. I would be very surprised if they support #pragma once. –  Leo Nov 12 '12 at 11:49
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3 Answers

up vote 8 down vote accepted

It depends on how much portable your program is expected to be.

As long as you are writing a program which is supposed to work with compilers which you know definitely support #prama once, just using #pragma once should suffice. But doing so you restrict your program to set of compilers which support the implementation defined feature.

If you need your program to work on all compilers then you should use #pragma once and include guards both.

In case a compiler does not support #pragma once it will simply ignore it[Ref#1], in such a case the header guards will serve you the purpose, so nothing wrong in using them both when you are not aware of features supported by your target compilers.

So if you want your program to be 100% portable on different compilers the ideal way is still to use only the include guards. As @CharlesBailey rightly points out since the behavior for #pragma once is implementation defined, the behavior on an unknown compiler might have a detrimental effect on your program.

Standard C++03: 16.6 Pragma directive

A preprocessing directive of the form

# pragma pp-tokensopt new-line

causes the implementation to behave in an implementation-defined manner. Any pragma that is not recognized by the implementation is ignored.

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If you want your program to be 100.00% portable you need to use include guards but you also need to avoid using #pragma once because the implementation-defined behavior on an unknown compiler might have a detrimental effect on your program. –  Charles Bailey Nov 12 '12 at 7:50
@CharlesBailey: Agreed. The answer needs modification. I will do that.Thanks for pointing out. –  Alok Save Nov 12 '12 at 7:52
#pragma once will fail if the same file is aliased by two different names at the Operating System / File System level. However, an #include-guard in the file will have the same name, regardless of the file-system reference, and will still work. –  abelenky Jun 28 '13 at 15:10
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It's non-standard so if you want to be safe use the include guards

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One of the main benefits of #pragma once is that it can speed up compilation times, where you are including the same header file more than once in the same translation unit. For example, if A.h includes B.h and C.h, and B.h includes C.h, then the preprocessor will need to open and process C.h twice (at least to the extent of evaluating your #ifndef / #endif block), and #pragma once will avoid this as the preprocessor can completely ignore the file after the first inclusion.

You can however achieve the same effect using redundant include guards e.g.:


// Primary include guard:
#ifndef C_H
#define C_H

// code



#ifndef B_H
#define B_H

// Secondary include guard:
#ifndef C_H
#include "C.h"


You still however have the other disadvantages of include guards e.g. name clashes, extra maintenance, and potential for typo bugs, as well as an extra disadvantage in that B.h and C.h are now more tightly coupled (because B.h is now aware of an implementation detail in C.h - a #define change in C.h which doesn't affect the interface will require all files which include it to be updated). This isn't usually a problem because include guards are typically based on the file name, and a change in file name will cause the same effect anyway.

Using this technique gives you one less reason to use the non-portable #pragma once (as explained in the other answers).

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