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As we know, C++11 allows GC, but none of the mainstream compilers supports that.

Is there any discussion when this can be implemented in mainstream compilers like GCC, MSVC, Intel Compilers, Clang, etc.

I am looking forward using this feature.

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closed as not constructive by KillianDS, Mat, BЈовић, ildjarn, Nicol Bolas May 14 '12 at 17:23

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Can't cite anything on this, but I believe everything GC related ended up removed from the standard. Edit: Quick google shows that a few things were put into place so that garbage collection would be less hampered, but that it is by no means required or expected (i.e. implementation defined). –  Corbin May 14 '12 at 6:54
If you are really really looking forward to using a GC, then maybe you should be using a different language. Take a look at D –  Preet Kukreti May 14 '12 at 6:56
What's stopping you using the GCs already available for C++03? (Not saying there aren't some potentially valid reasons, but asking what your problems have been...) –  Tony D May 14 '12 at 6:56
Why exactly do you want GC? C++11 has decent solutions for automatically managed dynamic memory. –  KillianDS May 14 '12 at 6:57
Just speculation, but I believe that none of the mainstream C++ compilers will ever implement GC. It was never intended to be included in the base language, and there's by no means a high demand for it. (Especially since, as KillianDS mentioned, there are already decent solutions other than GC.) –  Corbin May 14 '12 at 6:59

3 Answers 3

up vote 4 down vote accepted

An implementation that incorporates garbage collection probably can't conform to C++98 or C++03. C++11 adds enough to allow conformance, and goes just a baby step beyond that to try to make it marginally reasonable.

There was a proposal to add more comprehensive GC support to the standard, but it was rejected. I think the rejection was quite reasonable. The proposal had around 40 pages of changes to the standard, but in the end all of it was to support one non-normative footnote saying something like: "It is expected that quality implementations will attempt to maximize the memory available to programs."

As far as implementations go, at one time (in the egcs days) there was talk of incorporating (a modified version of) the Boehm-Demers-Weiser collector into egcs. I seem to recall that there was at least one version that did so, to at least some degree (though I don't remember whether it was ever considered a "release" version or not). That, however, was a long time ago, and as far as I know nobody's worked on it in years. Gcc has changed enough in the meantime that if somebody wanted to do it today, they'd probably have to start over from the beginning.

I suppose this gets rid of at least one area in which Microsoft's C++/CLI didn't used to conform with the standard, so depending on how much conformance you want elsewhere, you could (sort of) treat C++/CLI as C++ with garbage collection. Most people think of it in less complimentary terms though (and even Microsoft recommends it only for linking interop between .NET and real C++).

Clang targets LLVM, which includes hooks to support GC (that have been used and proven in other projects). As such, it probably stands the best chance of producing a working implementation some time relatively soon.

Although I could obviously be wrong, I wouldn't expect Intel to incorporate a garbage collector any time soon. Intel concentrates on producing the best output code, and GC probably wouldn't help that a whole lot. The major reason they'd be likely to do so would be to simplify multithreading, another area where Intel puts a lot of effort (but more in libraries than the compiler itself, at least so far).

If you're primarily interested in a proof of concept to play with, my guess would be that somebody will put together a package of Clang/LLVM/GC within 3-5 years. For something that might be all right for at least some released code, I'd estimate closer to 10. As for GC coming into mainstream use in most released C++ code, I think that's too far out to even attempt to estimate.

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"An implementation that incorporates garbage collection probably can't conform to C++98 or C++03". Indeed it can't implement GC for all objects allocated with new, because of the risk that someone might store a pointer to a collected object as the 3DES-encrypted result of casting to intptr_t, then later decode and cast back. C++11 has the definition of a "safely-derived pointer". The effect is that code that would break a garbage collector has undefined behavior on an implementation that documents itself as having so-called "strict pointer safety", hence is not portable C++11. –  Steve Jessop May 14 '12 at 8:36
@SteveJessop: Right -- I only used "probably" to avoid arguments about "a sufficiently intelligent compiler might be able to track the data flow and figure out that what's being stored will eventually be restored to a pointer to X" (which I've run into in the past when I said it simply wasn't possible). –  Jerry Coffin May 14 '12 at 8:47
heh. I used the example of 3DES-encrypting your pointers for exactly the same reason. That'd be some smart compiler. You could have a pessimistic GC, though, where any conversion to intptr_t (followed by data escape) converts the GC object that the pointer points into, to a GC root until it's freed. It just would not then GC all objects allocated with new. –  Steve Jessop May 14 '12 at 8:49
@SteveJessop: Yeah -- I argued then that no matter how smart you make the compiler, somebody can out-smart it. I thought writing it to a USB drive, which was then removed from the system for an arbitrary length of time, but eventually plugged back worked pretty well too. If that's memory mapped, it might not be visible to the program that any transformation to the pointer has taken place at all -- it's just copying the pointer into another location that then disappears for a while. –  Jerry Coffin May 14 '12 at 8:52
Good point about the memory mapping, that beats my suggested GC implementation above unless it also treats writes to mapped memory (and IPC-shared memory) in the same way as conversions to intptr_t. That would be very inefficient short of some non-standard hardware support, and there's a problem in general with GC implementations that surprisingly don't collect your memory, as I learned at a past employer when there was a bug in our JVM implementation. People's apps ran out of memory and crashed. –  Steve Jessop May 14 '12 at 8:54

The C++11 standard added language support for implementing garbage collection, but no actual working garbage collector. The most prominent example of a working gc library for C++ is Hans Boehm's implementation. To my knowledge, there are no plans to integrate this library with any of the major compilers at the moment, but it has been hinted several times that the standard's committee is very much interested(*) in integrating a garbage collector with the next version of C++.

(*) See, for example, the expert panel at Going Native 2012

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More accurately, a couple of specific members are interested. Bjarne has said implied that the current situation (optional GC) is what he wants. Herb seems to want mandatory GC -- but he seems to be nearly the only one who's strongly in favor of it. Most others I've talked to don't care much, and a few are opposed to some degree. –  Jerry Coffin May 14 '12 at 8:43

You misunderstood a bit.

C++11 has support for better integration with GC, thanks to a few key functions to help them better analyze what is reachable and what is not. If you check the new <memory> header you will notice:

  • declare_reachable: declares that an object can not be recycled
  • undeclare_reachable: declares that an object can be recycled
  • declare_no_pointers: declares that a memory area does not contain traceable pointers
  • undeclare_no_pointers: cancels the effect of std::declare_no_pointers

This does not mean however that C++11 recommends using a GC or pushes compilers to integrate a GC.

Some GCs, such as Boehm-Demers-Weiser's, already exist. This new API is just a standardization of the interface to interact with them both for:

  • correctness: declare_reachable may help in some situations, though it should be automatic in most cases
  • performance: such GC are not type-aware and might mistakenly detect pointers in memory areas that contain integers, for example; declare_no_pointers eliminates the need to scan some memory areas, increasing performance and reducing false-positives (which in turn increase performance some more)

So you can already use the Boehm's garbage collector if you wish, C++11 merely improves on it with a standard API so that you can more easily switch from one GC to another.

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Your answer explains what I wanted to convey in my answer and it does so better than my answer,deleting mine and upvoting yours :) –  Alok Save May 14 '12 at 7:07
@MatthieuM, I would think integration into compiler can potentially generate better GC code than a library, in terms of performance, correctness, etc. Compilers can do static analysis, can insert code at needed places to record some information. It can even generate data structures that help GC track references between objects. So merely a library implementation is less useful. –  icando May 14 '12 at 7:28
@icando: Yes, but that is not what C++11 is about. C++11 is about supporting libraries, not integrating GC code into compilers. As a consequence, no compiler implementors that I know of expressed any intention of implementing GC runtimes and integrated support. –  Matthieu M. May 14 '12 at 8:51

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