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I have some methods that take a reference to a given object, and some are taking boost::shared_ptr. So far in my test method I created a shared_ptr pointing to one of these objects and pass *ptr to the methods expecting a reference. Is it possible to do it the other way round, e.g. create a local object on the stack, and then create a shared pointer to it in a safe way, to arrive at the straightforward alternative to &obj operator with traditional pointers?

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Keep in mind that those methods probably expect to keep the pointer alive even after they return. If not, they should have taken a T& instead. – MSalters Feb 12 '13 at 11:00
As long as nothing ever duplicates or stores that pointer, and nothing is referencing that object after your function exits. If someone is expecting a pointer instead of a reference, it's probably for a reason - make sure none of the functions you pass this pointer to expect the object to still exist after your function exits. – user420442 Feb 12 '13 at 11:03
@MSalters, this is a test method, so everything is going to be cleaned up once this method is finished. You have a valid point though! – Grzenio Feb 12 '13 at 14:08
up vote 10 down vote accepted
#include <boost/shared_ptr.hpp>

void null_deleter(int *)

int main()
    int i = 0;
    boost::shared_ptr<int> p(&i, &null_deleter);
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If you find you need this, something is probably horribly wrong with your code.

If the functions take a shared pointer, it should be because they need to extend the lifetime of the object. If they don't need to extend the lifetime of the object, they should take a reference.

With what you're doing, they can't extend the lifetime of the object. If they need to, and can't, they may wind up accessing an object that has gone out of scope through a copy of the shared pointer you passed them. Boom.

It's slightly possible this might make sense. It may be that they need to extend the lifespan but you will make sure that the object remains valid longer than the longest they might possibly need to extend it. But I'd still strongly suggest not doing this. It's incredibly fragile and makes all the code you call dependent on exactly how the calling code behaves.

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There might be cases you'll need to do s.th. like this, if you have other interfaces (may be beyond your control) that expect shared_ptrs explicitly instead of a templated parameter with pointer behavior. +1 though, in general I agree. – πάντα ῥεῖ Feb 12 '13 at 11:11
@g-makulik: The thing is, if those interfaces expect a shared_ptr, they almost certainly also expect they can extend the object's lifetime. Otherwise, those interfaces are probably broken. (Of course, doing what the OP wants may be better than fixing them given the realities we have to work with it.) – David Schwartz Feb 12 '13 at 11:18

You can pass an appropriate deleter in the constructor of the form:

template<class Y, class D> shared_ptr(Y * p, D d);

The deleter object must do nothing in its operator()(), such as the function:

template <typename T>
void no_op(T*) {}

with which you can then construct:

boost::shared_ptr<Foo> f(&obj, no_op<Foo>);
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+1 This is a more generally usable way to declare a null_deleter as mentioned in @IgorR's answer. – πάντα ῥεῖ Feb 12 '13 at 11:08
@g-makulik well, a much more generally usable way looks like this :-) struct null_deleter { void operator()(void const *) const {} }; – Igor R. Feb 12 '13 at 11:29

You can use c++11 lambda function:

boost::shared_ptr<Foo> f(&obj, \[ ](Foo*){});
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