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I used to use the following code to make sure that the include file is not loaded more than once.

#ifndef _STRING_
#include <string>
#endif

// use std::string here
std::string str;
...

This trick is illustrated in the book "API Design for C++".

Now my co-work told me that this is not necessary in Visual Studio because if the implementation head file of string contains #pragma once, the include guard is not required to improve the compilation speed.

Is that correct?

Quote from original book:

7.2.3 Redundant #include Guards
Another way to reduce the overhead of parsing too many include files is to add redundant preprocessor
guards at the point of inclusion. For example, if you have an include file, bigfile.h, that looks
like this
#ifndef BIGFILE_H
#define BIGFILE_H
// lots and lots of code
#endif
then you might include this file from another header by doing the following:
#ifndef BIGFILE_H
#include "bigfile.h"
#endif
This saves the cost of pointlessly opening and parsing the entire include file if you’ve already
included it.
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books.google.com/… –  q0987 Feb 27 '13 at 19:02

4 Answers 4

You don't ever need to do that because any header file written by a competent developer will have its own guard. You can assume the standard library headers were written by competent engineers, and if you ever find yourself using a third party header without include guards... well, that third party is now highly suspect...

As for writing your own headers, you can use the standard:

#ifndef MY_HEADER_H
#define MY_HEADER_H

// ...code

#endif

Or just use:

#pragma once

Note that this is not standard C or C++, it is a compiler extension. It won't work on every compiler out there, but using it is your decision and depends on your expected use.

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1  
@q0987: No. Your book is just wrong. Since the header already has an include guard it will never be included twice. Heck, the author himself says it is redundant! How can something which is redundant be helpful in any way? By definition it does nothing at all. –  Ed S. Feb 27 '13 at 18:22
1  
I'd not recommend using #pragma once, it leads to non portable code ... –  πάντα ῥεῖ Feb 27 '13 at 18:23
1  
@q0987: Yes, we are; you're describing redundant systems in the anticipation of a failure. That is not this. I don't know where your numbers came from, but I will say it again; the book is wrong. I don't care what it is "rated". Do you understand the claimed performance benefit? Why do you think that checking a constant in location A is any faster than doing so in location B? You asked the question, this is my answer. The only thing I can think of is it may prevent the file from being read from disk, but it may also be cached already. –  Ed S. Feb 27 '13 at 18:35
1  
@q0987: I can tell you that, in ~10 years of writing production C and C++ code, I have never seen that idiom used. Ever. –  Ed S. Feb 27 '13 at 18:37
1  
Who really cares about compile time at all? We have nightly builds ;o) ... –  πάντα ῥεῖ Feb 27 '13 at 18:39

Usually the term 'include guard' means that this #ifdef,#define,#endif sequence is put around the contents of a particular header file inside this file.

A number of C++ compilers provide the #pragma once statement that guarantees the same behavior externally. But I would discourage using it for sake of portable C/C++ code.

UPDATE (according the OP's edit)
Additionally putting the #ifdef,#endif around the #include statement in another file might prevent the preprocessor from opening the include file itself (and thus reducing compile time and memory usage slightly). I'd expect#pragma once would do this automatically, but can't tell for sure (this might be implementation specific).

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1  
This is exact what I feel the book author tries to convey! –  q0987 Feb 27 '13 at 18:47
2  
@q0987 But this behavior might be specific for compiler implementation though. I'd expect a well implemented preprocessor to cache the already opened and parsed include files somehow, thus making this trick irrelevant ... –  πάντα ῥεῖ Feb 27 '13 at 18:54

The #pragma once is a nicer form of an include guard. If you use it, you don't need the include guard based on #define.

In general, this is a better approach, since it prevents name clashes from being able to break an include guard.

That being said, the include guard should be in the header file, not wrapping the include. Wrapping the include should be completely unnecessary (and will likely confuse other people down the road).


Edit:

I think we are talking about two different things. My question is whether we should use include guard when we use a pre-existing head file that has either #pragma once or #ifndef xxx

In that case, no. If the header has a proper guard, there is no reason to try to avoid including it. This just adds confusion and complexity.

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I'd not recommend using #pragma once, it leads to non portable code ... –  πάντα ῥεῖ Feb 27 '13 at 18:22
    
@g-makulik What compilers are you using that don't support it? It's supported by pretty much all major, modern C++ compilers. –  Reed Copsey Feb 27 '13 at 18:25
    
I'm working with embedded stuff primarily. –  πάντα ῥεῖ Feb 27 '13 at 18:33
    
I do the same as @g-makulik. I work on embedded systems as well, I don't use compiler extensions. That said, it comes down to your use case. Sometimes you know that your code will only ever be compiled by a specific subset of compilers. –  Ed S. Feb 27 '13 at 18:36

That's not how include guards are used. You don't wrap your #includes in an include guard. A header file should wrap its own contents in an include guard. Whenever you write a file that will likely be included in others, you should do:

#ifndef _SOME_GUARD_
#define _SOME_GUARD_

// Content here

#endif

With Visual Studio's implementation of the C++ library, that might be done by the string header having #pragma once or by checking #ifndef _STRING_.

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And, of course, you don't give your include guards names like _SOME_GUARD, because names that begin with an underscore followed by a capital letter and names that contain two sequential underscores are reserved to the implementation. –  Pete Becker Feb 27 '13 at 19:56

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