Does C++ support 'finally' blocks?
What is the RAII idiom?
What is the difference between C++'s RAII idiom and C#'s 'using' statement?
No, C++ does not support 'finally' blocks. The reason is that C++ instead supports RAII: "Resource Acquisition Is Initialization" -- a poor name† for a really useful concept.
The idea is that an object's destructor is responsible for freeing resources. When the object has automatic storage duration, the object's destructor will be called when the block in which it was created exits -- even when that block is exited in the presence of an exception. Here is Bjarne Stroustrup's explanation of the topic.
A common use for RAII is locking a mutex:
RAII also simplifies using objects in as members of other classes. When the owning class' is destructed, the resource managed by the RAII class gets released because the destructor for the RAII-managed class gets called as a result. This means that when you use RAII for all members in a class that manage resources, you can get away with a using a very simple, maybe even the default, destructor for the owner class since it doesn't need to manually manage its member resource lifetimes. (Thanks to Mike B for pointing this out.)
For those familliar with C# or VB.NET, you may recognize that RAII is similar to .NET deterministic destruction using IDisposable and 'using' statements. Indeed, the two methods are very similar. The main difference is that RAII will deterministically release any type of resource -- including memory. When implementing IDisposable in .NET (even the .NET language C++/CLI), resources will be deterministically released except for memory. In .NET, memory is not be deterministically released; memory is only released during garbage collection cycles.
† Some people believe that "Destruction is Resource Relinquishment" is a more accurate name for the RAII idiom.
In C++ the finally is NOT required because of RAII.
RAII moves the responsibility of exception safety from the user of the object to the designer (and implementer) of the object. I would argue this is the correct place as you then only need to get exception safety correct once (in the design/implementation). By using finally you need to get exception safety correct every time you use an object.
Also IMO the code looks neater (see below).
A database object. To make sure the DB connection is used it must be opened and closed. By using RAII this can be done in the constructor/destructor.
C++ Like RAII
The use of RAII makes using a DB object correctly very easy. The DB object will correctly close itself by the use of a destructor no matter how we try and abuse it.
Java Like Finally
When using finally the correct use of the object is delegated to the user of the object. i.e. It is the responsibility of the object user to correctly to explicitly close the DB connection. Now you could argue that this can be done in the finaliser, but resources may have limited availability or other constraints and thus you generally do want to control the release of the object and not rely on the non deterministic behavior of the garbage collector.
Also this is a simple example.
A more detailed analysis can be found here: http://accu.org/index.php/journals/236
Beyond making clean up easy with stack-based objects, RAII is also useful because the same 'automatic' clean up occurs when the object is a member of another class. When the owning class is destructed, the resource managed by the RAII class gets cleaned up because the dtor for that class gets called as a result.
This means that when you reach RAII nirvana and all members in a class use RAII (like smart pointers), you can get away with a very simple (maybe even default) dtor for the owner class since it doesn't need to manually manage its member resource lifetimes.
Actually, languages based on Garbage collectors need "finally" more. A garbage collector does not destroy your objects in a timely manner, so it can not be relied upon to clean up non-memory related issues correctly.
In terms of dynamically-allocated data, many would argue that you should be using smart-pointers.
Sadly this is its own downfall. Old C programming habits die hard. When you're using a library written in C or a very C style, RAII won't have been used. Short of re-writing the entire API front-end, that's just what you have to work with. Then the lack of "finally" really bites.
Sorry for digging up such an old thread, but there is a major error in the following reasoning:
More often than not, you have to deal with dynamically allocated objects, dynamic numbers of objects etc. Within the try-block, some code might create many objects (how many is determined at runtime) and store pointers to them in a list. Now, this is not an exotic scenario, but very common. In this case, you'd want to write stuff like
Of course the list itself will be destroyed when going out of scope, but that wouldn't clean up the temporary objects you have created.
Instead, you have to go the ugly route:
Also: why is it that even managed lanuages provide a finally-block despite resources being deallocated automatically by the garbage collector anyway?
Hint: there's more you can do with "finally" than just memory deallocation.
FWIW, Microsoft Visual C++ does support try,finally and it has historically been used in MFC apps as a method of catching serious exceptions that would otherwise result in a crash. For example;
I've used this in the past to do things like save backups of open files prior to exit. Certain JIT debugging settings will break this mechanism though.
Not really, but you can emulate them to some extend, for example:
Note that the finally-block might itself throw an exception before the original exception is re-thrown, thereby discarding the original exception. This is the exact same behavior as in a Java finally-block. Also, you cannot use
As many people have stated, the solution is to use C++11 features to avoid finally blocks. One of the features is
Here is Mephane's answer written using RAII patterns.
Some more introduction to using unique_ptr with C++ Standard Library containers is here