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Does anyone know of an open-source, standalone implementation of TR1 shared_ptr (and maybe other smart pointers) that I can use in my programs?


Note:

"Standalone implementation of shared_ptr" means shared_ptr itself needs to be standalone.
Not just the including library.

So please, no Boost!

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Have you checked your compiler implementation? It might have shared_ptr already implemented inside the std::tr1 namespace. –  David Rodríguez - dribeas Aug 29 '11 at 8:10
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You will then have to check what implementations of shared_ptr (tr1 or boost libs) can actually be compiled in that environment. Not all old compilers can process templates correctly (or the atomic operations that are present in shared_ptr for the reference counts...) –  David Rodríguez - dribeas Aug 29 '11 at 8:20
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Before you complain about the 2MB worth of Boost headers, please consider that the Boost shared pointer offers you a significant amount of quality; in particular, it is thread-safe. Since all the atomic primitives that are required for that are also taken from Boost, the code naturally grows, but this shouldn't be a problem in the compiled result. If you wanted to write something of similar quality and with the same generality (type-erasing allocators and deleters), you'd have a lot of work, and code, on your hands. So why duplicate efforts? –  Kerrek SB Aug 29 '11 at 10:53
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@David: "Take at least the effort to read the links"? I not only did that, but I used the program, that's how I knew its result is too bloated. Also note: I never said Boost is not standalone. I said its shared_ptr implementation is not standalone, which is a fact -- there are 230 other headers providing support to shared_ptr. Did I really deserve downvotes for saying this? Or did people get offended that I said I didn't want Boost? –  Mehrdad Aug 29 '11 at 11:53
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@David: Yes, I believe you. No, I don't believe that means anything. Notice I said nothing about the binary. Why? Because I feel like source code is part of a program, and if someone needs to compile my program with the same compiler, they need 3 MB worth of extra baggage, so in effect my program is 3 MB big. Simply put, I do not want this, that's all. –  Mehrdad Aug 29 '11 at 12:15

5 Answers 5

The boost implementation of shared_ptr is entirely header-only, so installing boost to use it is as simple as downloading boost and adding it to your compiler's header search paths. This is no harder with boost than with any other stand-alone implementation. If you want to extract just the shared_ptr component to make a separate distribution, then you can use Boost BCP.

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You are joking, right? I need to copy 1.94 MB worth of headers (that's 231 files) just to used scoped_ptr? It seems like you missed the word standalone in my question. :( –  Mehrdad Aug 29 '11 at 9:17
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You forgot about the multiple megabytes worth of compiler and linker binaries. Something else you don't ship along with your program. The argument is nonsense of course :) –  Hans Passant Aug 29 '11 at 9:32
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@David: The fact that "it will only impact your development box (or that of the people developing)" is "not a problem"? Maybe not for you, but it is a problem for me. And when I'm asking for a requirement that Boost can't meet, it doesn't matter how gorgeous Boost is -- it's simply irrelevant to my question. –  Mehrdad Aug 29 '11 at 12:11
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"Use bcp to take only what you need"? With Boost, that's not actually possible. I've seen things as basic as, say, optional (that can be easily implemented as a piece of code from the Wikibooks on idioms) include about half of the rest of Boost code, including things like Preprocessor... –  Luis Machuca Apr 30 '12 at 21:22
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@LuisMachuca: Sure -- it's not ideal, but in exchange you get code which is highly tested and complete, and which works with virtually any C++ compiler (no surprise that Preprocessor is useful for that). Could you provide a link to the page(s) on Wikibooks which include an implementation of Optional; I couldn't find it. –  Mankarse May 1 '12 at 0:09

You can use Boost BCP to extract components from Boost.

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1  
You are joking, right? That's in no way "standalone". I need to copy 1.94 MB worth of headers (that's 231 files) just to used scoped_ptr? It seems like you missed the word standalone in my question. :( –  Mehrdad Aug 29 '11 at 9:18
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@Mehrdad: It is standalone. You might be able to reduce the file count manually, but given that 2MB are laughable today i don't see why it would matter. –  Georg Fritzsche Aug 29 '11 at 11:44
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@Mehrdad: It extracts shared_ptr and it's dependencies for you so you can use it without the whole of Boost. What else is your definition of stand-alone? Wether it does do the job as good as it could is a different matter. –  Georg Fritzsche Aug 29 '11 at 12:39
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My definition of "standalone" is literally that it should stand alone. The fact that shared_ptr (the class) or shared_ptr.hpp (the file) can't stand alone in my project by definition makes it not standalone. Sorry if this feels complicated, English is my second language but either way, I definitely didn't think it would be so confusing... –  Mehrdad Aug 29 '11 at 12:44

You can hack the sharedptr.h header in wxWidgets pretty easily to remove the few macro dependencies (assert, "explicit" keyword, etc.). You then need to replace or remove the atomic inc/dec of the internal reference counting variable. Rename the template and stick it in a namespace. Then you'll have a single-file stand-along version of shared_ptr.

This has the advantage that the source you are modifying has had some wide usage and peer review.

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Huh, I guess something I made myself might be even better than shared_ptr:

template<typename T>
class auto_
{
    T *pValue;
    mutable const auto_<T> *pPrev, *pNext;

public:
    auto_()           : pValue(new T()),  pPrev(NULL), pNext(NULL) { }
    auto_(T *pValue)  : pValue(pValue),   pPrev(NULL), pNext(NULL) { }
    auto_(const T &v) : pValue(new T(v)), pPrev(NULL), pNext(NULL) { }

    auto_(const auto_<T> &o) : pValue(o.pValue), pPrev(&o), pNext(NULL)
    { o.pNext = this; }

    virtual ~auto_()
    {
        const auto_<T> *const pPrev = this->pPrev, *const pNext = this->pNext;
        if (pPrev != NULL) { pPrev->pNext = pNext; }
        if (pNext != NULL) { pNext->pPrev = pPrev; }
        if (pPrev == NULL && pNext == NULL) { delete this->pValue; }
        this->pPrev = this->pNext = NULL;
        this->pValue = NULL;
    }

    auto_<T>& operator=(const auto_<T>& other)
    {
        if (this != &other)
        {
            this->~auto_();
            this->pValue = other.pValue;
            this->pPrev = &other;
            this->pNext = other.pNext;
            if (other.pNext != NULL) { other.pNext->pPrev = this; }
            other.pNext = this;
        }
        return *this;
    }

    operator   T&() { return *this->pValue; }
    operator   T*() { return  this->pValue; }
    T* operator->() { return  this->pValue; }
    T& operator *() { return *this->pValue; }

    operator   const T&() const { return *this->pValue; }
    operator   const T*() const { return  this->pValue; }
    const T* operator->() const { return  this->pValue; }
    const T& operator *() const { return *this->pValue; }

};

Sample usage:

template<typename T>
T recurse(T value, int depth)
{
    if (depth > 0) { T result = recurse(value, depth - 1); return result; }
    else { return value; }
}

auto_<int> test()
{
    printf("Value: %d\n", *recurse(auto_<int>(10), 3));
    auto_<int> p1 = recurse<auto_<int> >(5, 3);
    printf("Value: %d\n", *p1);
    auto_<int> p2 = 3;
    p1 = p2;
    p2 = p1;
    return p2;
}

It looks easier to use than shared_ptr, IMHO.

Does it have any pitfalls which I missed (aside from the obvious thread-unsafety)?

Any (constructive) criticism appreciated.

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2  
Might try Code Review. –  Michael Myers Aug 29 '11 at 17:04
    
@Michael: Yeah, I just thought I'd also post it here because it's also a (partial) answer for my question. Might try that later, after I refine it a bit; thanks. –  Mehrdad Aug 29 '11 at 17:37

I've been looking for such a thing myself --- like you, I have a project where including huge wads of Boost is totally unacceptable.

I've found this:

http://www.lri.fr/~marc/EO/eo/doc/html/shared__ptr_8h-source.html

I have no idea of the code quality, as it's GPL2 which means I can't use it in my proprietary code, but it seems to have no dependencies. But it does seem to be an answer to your question.

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