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Objective C has introduced a technology called ARC to free the developer from the burden of memory management. It sounds great, I think C++ developers would be very happy if g++ also has this feature.

ARC allows you to put the burden of memory management on the (Apple LLVM 3.0) compiler, and never think about retain, release and autorelease ever again

So, if LLVM3.0 can do that, I think g++ also can free C++ developers from the tough jobs of memory management, right?

Is there any difficulties to introduce ARC to C++?

What I mean is: If we don't use smart pointers, we just use new/new[], is it possible for a compiler to do something for us to prevent memory leaks? For example, change the new to a smart pointer automatically?

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I admit I don't know anything about ARC, but C++ has smart pointers (shared_ptr, unique_ptr etc) for automatic memory management. Have you checked them? – Asha Mar 16 '12 at 8:23
If you're "doing it right", you should (almost) never need to use new/delete in C++. – Mehrdad Mar 16 '12 at 8:25
@Mehrdad: new is fine, delete is the evil guy :) – orlp Mar 16 '12 at 8:29
@nightcracker: No they are equally evil.A new without a delete is evil too :) – Alok Save Mar 16 '12 at 8:31
@Als: well with a smart pointer the delete is done automatically :) – orlp Mar 16 '12 at 9:40
up vote 17 down vote accepted

C++ has the concept of Resource Allocation is Initialization(RAII) & intelligent use of this method saves you from explicit resource management.

C++ already provides shared_ptr which provides reference counting.

Also, there are a host of other Smart pointers which employ RAII to make your life easier in C++.

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Also: you should prefer values and automatic variables to dynamic allocation, and reserve the latter for when it's really needed. – Cat Plus Plus Mar 16 '12 at 8:27
@Camino: What Cat said isa valuable piece of advice, Do follow that. This C++-Faq Entry is a good read for you in this regards. – Alok Save Mar 16 '12 at 8:30
But the OP's question is about Automatic RC. The point of ARC is that the compiler introduces the correct lifecycle/ownership instructions where they should belong. That is, the source code will not have any management instructions other than the equivalent of new - and the question is thus, if LLVM can do it for Objective-C, would it be technically feasible as a compiler option in C++? If not, what's the difference between C++ and OC that makes it so? – entonio May 6 '13 at 19:15
shared_ptr however always uses a mutex/critical section, even when you don't pass a pointer to another thread. – sashoalm Jan 7 '14 at 10:46
@entonio What's the functional difference between ARC and shared_ptr? In both cases, the compiler adds in the reference counting instructions... – weberc2 Nov 20 '15 at 20:47

This is a good question. ARC is much more than just an implementation of smart pointers. It is also different from garbage collection, in that it does give you full control over memory management.

In ARC you know exactly when objects are going to be released. The reason people think is isn't true, is that there's no explicit "release" call that you write. But you know when the compiler will insert one. And it's not in some garbage collection step, it's inline when objects are considered no longer needed.

It contains a compiler step that analyzes the code and tries to find any redundant sequences of incrementing and decrementing reference counts. This could probably be achieved by an optimizing C++ compiler if it was given a smart pointer implementation that its optimizer could see through.

ARC also relies on the semantics of objective c. Firstly, pointers are annotated to say whether they are strong or weak. This could also be done in C++, just by having two different pointer classes (or using smart and vanilla pointers). Secondly, it relies on naming conventions for objective c methods to know whether their return values should be implicitly weak or strong, which means it can work alongside non-ARC code (ARC needs to know if your non-ARC code intended to return an object with a +1 reference count, for example). If your "C ARC" didn't sit alongside non-"C ARC" code you wouldn't need this.

The last thing that ARC gives you, is really good analysis of your code to say where it thinks leaks may be, at compile time. This would be difficult to add to C++ code, but could be added into the C++ compiler.

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+1 for the first two paragraphs and bonus notional +1 for the last two. Thanks for the wonderful explanation! – Iain Collins Jun 2 '14 at 19:28

There's no need. We have shared pointers that do this for us. In fact, we have a range of pointer types for a variety of different circumstances, but shared pointers mimic exactly what ARC is doing.




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I wonder if they do? I don't know anything about ARC, so I can't say for sure. But anything using reference counting systematically has to have some sort of special handling for cycles. Otherwise, it will cause more harm than good. (After all, it's only a very small minority of cases where you'd use std::shared_ptr<>.) – James Kanze Mar 16 '12 at 8:37
@JamesKanze, I likened shared_ptr's more due to the reference counting semantics mentioned in the OP. unique_ptr has no need of this, though it is true that all these smart pointer classes mean we're free to not worry about the delete. – Moo-Juice Mar 16 '12 at 8:38
what puzzled me is ARC is a feature of complier , but smart pointer has no relation-ship to complier ,right? – camino Mar 16 '12 at 8:52
@Camino, correct. The C++ compiler has no concept of smart pointers, reference counting, etc. These are features provided by libraries such as STL, Boost, et al. – Moo-Juice Mar 16 '12 at 8:54
@Moo-Juice, do you have any idea that why LLVM3.0 can help to improve memory-management? I mean ARC declare it was a compiler feature, but I have no idea how compiler can solve the memory-managament issue. – camino Mar 16 '12 at 9:06

What's the advantage of using ARC rather than full garbage collection? There was a concrete proposal for garbage collection before the committee; in the end, it wasn't handled because of lack of time, but there seems to be a majority of the committee (if not truly a consensus) in favor of adding garbage collection to C++.

Globally, reference counting is a poor substitute for true garbage collection: it's expensive in terms of run time, and it needs special code to handle cycles. It's applicable in specific limited cases, however, and C++ offers it via std::shared_ptr, at the request of the programmer, when he knows it's applicable.

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My understanding is that the people at Apple weren't thrilled with the GC performance (hence, its absence on iOS), but realized that if they knew enough to perform garbage collection at run time, that they could implement similar logic at compile time and obviate the need for GC. ARC resulted from that shift. – Clay Dec 20 '12 at 17:31
@Clay I don't know about that; I've never worked at Apple. But depending on what the program is doing, GC can outperform manual memory management; in other cases, it gives a significant appearence of better performance, because the runtime costs can be scheduled to occur when the program isn't doing anything else. – James Kanze Dec 21 '12 at 8:51
@JamesKanze One of the rare case is soft-realtime interactive animation. If you want constant 60fps, you need to control CPU load for each frame. Trivial GC implementation defers load to a specific time point, and this make GC impossible to be used on those kind of application. This is especially more important on user devices which can't be scaled over multiple machines. And demand for 60fps is a lot more trivial unlike trivial engineers expect. – Eonil Jan 24 '13 at 14:08
Incremental GC can make this a little better by trying to distribute load over time instead of deferring it, but you still absent control, and the load is unpredictable. So spikes may happen eventually. (it mostly happens) Real-time GC may solve this problem theoretically, but nothing is well known and proven. And also, still unpredictable. And I don't think realtime GC will perform better than RC. – Eonil Jan 24 '13 at 14:14
@Eonil Actually, I think interactive animation is a case where garbage collection would shine. You trigger the collector once you've finiehed each frame, under optimal conditions (that's when you have the least number of active pointers); the total time it takes will be less than the time required for freeing memory otherwise. (Of course, depending on the actual allocation patterns, there may be solutions which are superior to both garbage collection and classical malloc/free.) – James Kanze Jan 24 '13 at 17:25

One of the reasons C++ is used at all is full control over memory management. If you don't want that in a particular situation there are smart pointers to do the managing for you.

Managed memory solutions exist, but in the situation C++ is chosen rightfully (for large-scale big applications), it is not a viable option.

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If you ever call delete manually, you're doing it wrong. – Cat Plus Plus Mar 16 '12 at 8:25
@Cat Plus Plus: perhaps, but in the absolutely most performance critical sections of code (read: standard containers, for example) the overhead of managed pointers (how miminal that is) may not be wanted. But in 99% of the scenario's you're right of course. – orlp Mar 16 '12 at 8:26
There's no overhead to unique_ptr, which should be the default choice of a pointer. – Cat Plus Plus Mar 16 '12 at 8:28
@Cat Plus Plus: then please disregard what I said, sometimes I'm being stupid (being the C++ noob I am :)). – orlp Mar 16 '12 at 8:29
@JamesKanze: boost::scoped_ptr then. unique_ptr models exclusive ownership, not temporary ownership, whatever that would be. It differs from raw pointers only by safety level (you can extract non-owning pointer via get and pass it along wherever you please). You should never have an owning raw pointer, and this is a statement of every C++ expert I know. – Cat Plus Plus Mar 16 '12 at 11:09

Take a look of Qt. Qt has implemented this feature by leverage the hierarchy chain. You can new a pointer and assign a parent to it, Qt will help you to manage the memory.

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  1. There are already some implementations of similar technologies for C++; e.g., Boehm-Demers-Weiser garbage collector.
  2. C++11 has a special Application Binary Interface for anyone wishing to add her own garbage collection.
  3. In the vast majority of cases, techniques like smart pointers can do the job of painless memory management for C++ developers.
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Re 3: I'd say that in the vast majority of cases, there isn't any real memory management problem to solve. C++ has value semantics, which means that dynamic allocation is used either for entity objects with externally specified lifetimes (in which case, when to call delete is specified by the requirements, and you can't use any sort of reference counting), or to implement dynamically sized structures (like std::vector), in which case, the data structure has its own destructor, which can take care of freeing memory. – James Kanze Mar 16 '12 at 8:45
@JamesKanze Yes and no. Not all smart pointers have a notion of reference counting and most have methods that release their resource on request; e.g. shared_ptr::reset. I'd use a smart pointer, like scoper_ptr even in an objects with, as you said, "externally specified lifetime", and just call reset if I was asked to release the memory. – FireAphis Mar 16 '12 at 8:51
When "initializing" an entity object (in the larger sense), it may be necessary to keep it in a auto_ptr until the initialization has finished, and the object is able to take on it's full responsibilities (typically, registering itself for various types of notifications and events). This is only necessary if the object can't be fully initialized in the constructor, however, which isn't the case that often. (In a lot of cases, I'll just do new, ignoring the pointer it returns.) – James Kanze Mar 16 '12 at 10:12

Recently I wrote some Objective-C++ code using Clang and was surprised to find that Objective-C pointers were actually handled as non-POD types in C++ that I could use in my C++ classes without issues.
They were actually freed automatically in my destructors!
I used this to store weak references in std::vectors because I couldn't think of a way to hold an NSArrary of weak references..
Anyways, it seems to me like Clang implements ARC in Objective-C by emulating C++ RAII and smart pointers in Objective-C. When you think about it, every NSObject* in ARC is just a smart pointer (intrusive_ptr from Boost) in C++.
The only difference I can see between ARC and smart pointers is that ARC is built into the language. They have the same semantics besides that.

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