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I came across this article written by Andrei Alexandrescu and Petru Marginean many years ago, which presents and discusses a utility class called ScopeGuard for writing exception-safe code. I'd like to know if coding with these objects truly leads to better code or if it obfuscates error handling, in that perhaps the guard's callback would be better presented in a catch block? Does anyone have any experience using these in actual production code?

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C++0x/C++11 does that now with "shared_ptr". –  Lilian A. Moraru Mar 15 '13 at 22:44
    
I do see it giving you more power. The example with the database is pretty good. Using shared_ptr only it will call the destructor which usually only closes the connection while using ScopedGuard you can actually Rollback in case of an exception... –  Lilian A. Moraru Mar 15 '13 at 22:51

4 Answers 4

up vote 52 down vote accepted

It definitely improves your code. Your tentatively formulated claim, that it's obscure and that code would merit from a catch block is simply not true in C++ because RAII is an established idiom. Resource handling in C++ is done by resource acquisition and garbage collection is done by implicit destructor calls.

On the other hand, explicit catch blocks would bloat the code and introduce subtle errors because the code flow gets much more complex and resource handling has to be done explicitly.

RAII (including ScopeGuards) isn't an obscure technique in C++ but firmly established best-practice.

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+1 for sticking up for modern c++ techniques. It should also be noted that Alexandrescu presented a new version of ScopeGuard here: channel9.msdn.com/Shows/Going+Deep/… which is much easier to use. Micht be worth an edit. –  PorkyBrain Feb 17 '13 at 23:34

Yes.

If there is one single piece of C++ code that I could recommend every C++ programmer spend 10 minutes learning, it is ScopeGuard (now part of the freely available Loki library).

I decided to try using a (slightly modified) version of ScopeGuard for a smallish Win32 GUI program I was working on. Win32 as you may know has many different types of resources that need to be closed in different ways (e.g. kernel handles are usually closed with CloseHandle(), GDI BeginPaint() needs to be paired with EndPaint(), etc.) I used ScopeGuard with all these resources, and also for allocating working buffers with new (e.g. for character set conversions to/from Unicode).

What amazed me was how much shorter the program was. Basically, it's a win-win: your code gets shorter and more robust at the same time. Future code changes can't leak anything. They just can't. How cool is that?

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I often use it for guarding memory usage, things that need to be freed that were returned from the OS. For example:

DATA_BLOB blobIn, blobOut;
blobIn.pbData=const_cast<BYTE*>(data);
blobIn.cbData=length;

CryptUnprotectData(&blobIn, NULL, NULL, NULL, NULL, CRYPTPROTECT_UI_FORBIDDEN, &blobOut);
Guard guardBlob=guardFn(::LocalFree, blobOut.pbData);
// do stuff with blobOut.pbData
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I haven't used this particular template but I've used something similar before. Yes, it does lead to clearer code when compared to equally robust code implemented in different ways.

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