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Is there any template available in boost for RAII. There are classes like scoped_ptr, shared_ptr which basically work on pointer. Can those classes be used for any other resources other than pointers. Is there any template which works with a general resources.

Take for example some resource which is acquired in the beginning of a scope and has to be somehow released at the end of scope. Both acquire and release take some steps. We could write a template which takes two(or maybe one object) functors which do this task. I havent thought it through how this can be achieved, i was just wondering are there any existing methods to do it

Edit: How about one in C++0x with support for lambda functions

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It's lambda, not lambada :) Fixed it for you. ;) –  jalf Jan 23 '10 at 3:03
Shouldn't it be called C++1x now? –  LiraNuna Jan 23 '10 at 3:22
@LiraNuna: Not really, because it's a placeholder name. Its only purpose is to be convenient and ensure that everyone knows what is meant. C++1x is ambiguous because 1) we're not used to the name, and 2) more than one revision of the standard may occur during this decade. C++0x is the one everyone's used to, and there's nothing else it can mean. –  jalf Jan 23 '10 at 16:28

6 Answers 6

up vote 11 down vote accepted

shared_ptr provides the possibility to specify a custom deleter. When the pointer needs to be destroyed, the deleter will be invoked and can do whatever cleanup actions are necessary. This way more complicated resources than simple pointers can be managed with this smart pointer class.

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so does std::unique_ptr. –  sellibitze Sep 11 '10 at 13:45

The most generic approach is the ScopeGuard one (basic idea in this ddj article, implemented e.g. with convenience macros in Boost.ScopeExit), and lets you execute functions or clean up resources at scope exit.

But to be honest, i don't see why you'd want that. While i understand that its a bit annoying to write a class every time for a one-step-aquire and one-step-release pattern, you are talking about multi-step-aquire and -release.
If its taken multiple steps, it, in my opinion, belongs in an appropiately named utility class so that the details are hidden and the code in place (thus reducing error probability).
If you weigh it against the gains, those few additional lines are not really something to worry about.

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life would be so much easier if Stroustrop would allow finally into c++ (he flatly refuses to allow it, he feels you should have a class every time) –  pm100 Jan 23 '10 at 1:35
To be honest, i rarely feel the need for what the OP mentions because every repeated resource usage pattern should be in a utility class. Added bonus - you don't have to remember the resource handling details. –  Georg Fritzsche Jan 23 '10 at 1:42
@pm100: No, you've got it upside down. Finally would mean I'd have to write cleanup code every time I use the class. RAII, relying on the destructor, means I can write the cleanup code once per class. How is finally a good idea again? –  jalf Jan 23 '10 at 1:43
@jalf: Amen! Finally is an abomination! –  Drew Hall Jan 23 '10 at 2:34
Finally is a good idea when you want to write cleanup code that only occurs in one place, and is inconsistent between different users of the same resource. i.e, never. No, I mean: e.g, when you want to add some quick tracing to something, or write a transaction (which is almost always unique and used in only one place). Obviously you can write a class to represent your transaction, but it can get a bit enterprise-y if you have to do that, hence various scope guards, which are fine (better, even) unless you're used to finally and uncomfortable with learning coding styles. –  Steve Jessop Jan 23 '10 at 3:40

A more generic and more efficient (no call through function pointer) version is as follows:

#include <boost/type_traits.hpp>

template<typename FuncType, FuncType * Func>
class RAIIFunc
   typedef typename boost::function_traits<FuncType>::arg1_type arg_type;
   RAIIFunc(arg_type p) : p_(p) {}
   ~RAIIFunc() { Func(p_); }
   arg_type & getValue() { return p_; }
   arg_type const & getValue() const { return p_; }
   arg_type p_;

Example use:

RAIIFunc<int (int), ::close> f = ::open("...");
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I put this solution through an actual compile and like it. I did have to make some minor changes but nothing horrible. –  Chris Cleeland Feb 16 '12 at 16:08

I have to admit I don't really see the point. Writing a RAII wrapper from scratch is ridiculously simple already. There's just not much work to be saved by using some kind of predefined wrapper:

struct scoped_foo : private boost::noncopyable {
  scoped_foo() : f(...) {}
  ~scoped_foo() {...}

  foo& get_foo() { return f; }

  foo f;

Now, the ...'s are essentially the bits that'd have to be filled out manually if you used some kind of general RAII template: creation and destruction of our foo resource. And without them there's really not much left. A few lines of boilerplate code, but it's so little it just doesn't seem worth it to extract it into a reusable template, at least not at the moment. With the addition of lambdas in C++0x, we could write the functors for creation and destruction so concisely that it might be worth it to write those and plug them into a reusable template. But until then, it seems like it'd be more trouble than worth. If you were to define two functors to plug into a RAII template, you'd have already written most of this boilerplate code twice.

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lambdas, yes thats what i was thinking about . sorry for not mentioning this in my question ( it was in my mind though) –  Yogesh Arora Jan 23 '10 at 2:20
As far as I know, C++0x doesn't define such a template. Perhaps because it's so simple to do there's not much point. Perhaps they're waiting for Boost or other third parties to define one, and let it prove itself in the real world before standardizing it. At the moment, we don't yet know if 1) it's worth the effort and 2) if there are any non-obvious gotchas that the template should be able to handle. –  jalf Jan 23 '10 at 2:25

I was thinking about something similar:

template <typename T>
class RAII {
        T (*constructor)();
        void (*destructor)(T);
        T value;
        RAII(T (*constructor)(), void (*destructor)(T)) : 
                    destructor(destructor) {
            value = constructor();
        ~RAII() {

and to be used like this (using OpenGL's GLUquadric as an example):

RAII<GLUquadric*> quad = RAII<GLUquadric*>(gluNewQuadric, gluDeleteQuadric);
gluSphere(quad.value, 3, 20, 20)
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Here's yet another C++11 RAII helper: https://code.google.com/p/libglim/source/browse/trunk/raii.hpp

It runs a C++ functor at destruction:

auto unmap = raiiFun ([&]() {munmap (fd, size);});
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