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Is it possible to write a smart pointer which allocates the object itself in its constructor - instead of the developer having to call new? In other words, instead of writing:

std::unique_ptr<myClass> my_ptr(new myClass(arg1, arg2))

...one could write:

std::smarter_ptr<myClass> my_ptr(arg1, arg2)

Is the language syntax capable of expressing this? Would this be desirable? Hideous? I'm thinking in particular of protecting against this mistake (which I've made myself, of course):

myFunction(std::unique_ptr<myClass>(new myClass()), std::unique_ptr<myClass>(new myClass()))

...which risks leaking whichever object is allocated first if the second allocation happens and throws before the first object is safely ensconced in its smart pointer. But would a smarter pointer actually make this safe?

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@Joe: It is a concern; it's quite possible for the generated code to execute the two new expressions before using either result to initialise a smart pointer; in which case you will get a leak if the second one throws. – Mike Seymour Jul 27 '12 at 13:47
@Joe: You're wrong. tmp1 = new myClass(); tmp2 = new myClass(); arg1 = std::unique_ptr(tmp1); arg2 = std::unique_ptr(tmp2); myFunction(arg1, arg2); is a perfectly legal execution order. – Ben Voigt Jul 27 '12 at 13:47
Fair enough, I was probing to prove myself incorrect. Thanks. – Joe Jul 27 '12 at 13:48
@Joe, see GOTW #56 – Jonathan Wakely Jul 27 '12 at 13:51
@JonathanWakely: let's update the references GotW #102 – Matthieu M. Jul 27 '12 at 17:44
up vote 17 down vote accepted

Look at the implementation of make_shared(). It does this allocates a new object and creates a shared_ptr out of it.

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Excellent - it even saves an allocation. Thanks. :-) – bythescruff Jul 28 '12 at 14:35

In general, this can't be done with a smart pointer's constructor; there would be an ambiguity over whether a pointer argument should be used to initalise the smart pointer, or forwarded to create a new object.

It can be done with a factory function, for example:

template <typename T, typename... Args>
std::unique_ptr<T> make_unique(Args&&... args) {
    return std::unique_ptr<T>(new T(std::forward<Args>(args)...));

If you're using std::shared_ptr, then you can use std::make_shared. This also gives the advantage of only requiring one memory allocation, where std::shared_ptr<T>(new T) will require one for the object and a second for the shared reference count.

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Surely the ambiguity would only exist if the feature were added to existing smart pointers, no? I'm still curious about why they weren't implemented like make_shared() to start with; there's an asymmetry that bugs me in having the smart pointer call delete but having to call new oneself. – bythescruff Aug 12 '12 at 12:48

It's essentially the same problem that necessitate std::find and std::find_if. You can't distinguish this ctor from the existing ctors of shared_ptr in the new myClass(arg1) case. The number of arguments is equal, and arg1 can have any type.

Therefore, you need another name, and that's make_shared

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This is easily solvable with tag types, like shared_ptr<T>(std::inplace_args, args...), which is also what the standard does for passing allocator arguments to certain variadic functions. – Xeo Jul 27 '12 at 13:54
@Xeo, true, so make_shared isn't essential, it could have been done as the OP suggests, but make_shared<T>(args...) is less typing anyway :) – Jonathan Wakely Jul 27 '12 at 13:56
@Xeo: Indeed. There are many possible solutions, and C++ isn't entirely consistent. – MSalters Jul 27 '12 at 13:57

This is newly possible with C++11 which added perfect forwarding and variadic templates.

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