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Why does the below code compile

shared_ptr<parent> p(new parent);

while the below one doesn't

shared_ptr<parent> p2 = new parent;

Is there any reason for not allowing '=' symbol for shared_ptr?

Generally, if a pointer like

int *p = new int;

should be same as that of

int *p(new int);

isn't it?

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possible duplicate of Missing unique_ptr and friends operator= overload – user1233963 Aug 19 '13 at 8:39

std::shared_ptr's "pointer receiving" constructor is declared explicit.

template< class Y >
explicit shared_ptr( Y* ptr );

With that, you can't use copy initialization (shared_ptr<parent> p2 = new parent;).

The best reason that I can think why std::shared_ptr's constructor is made explicit is that you would less likely to make mistakes passing a raw, unmanaged by std::shared_ptr object, to a function receiving a std::shared_ptr.

#include <memory>

void func(std::shared_ptr<int> ptr) { /* ... */}

int main() {
    auto iptr = std::make_shared<int>();
    func(iptr);  // OK

    int* iptr = new int;
    func(iptr);  // Unclear who would eventually manage (delete) the pointer
    // ...
    delete iptr; // Undefined behavior!

If the constructor wasn't made explicit, then you could do the commented-out code.

Also, as what @R. Martinho Fernandes has suggested, you can have a problem if non-newed pointers are being passed.

int myint;
int* iptr = &myint;
func(iptr);  // iptr doesn't point to a newed (dynamically-allocated) object
             //   std::shared_ptr, by default, uses delete on its managed pointer
             //   if there are no more references to that pointer

Still you could do it wrong if you aren't careful when you're using two separate std::shared_ptrs to manage a raw pointer.

int* riptr = new int;
std::shared_ptr<int> iptr(riptr);
std::shared_ptr<int> iptr2(riptr); // WRONG!

With your questions about raw pointers, the two are essentially the same, but that isn't necessarily applicable to std::shared_ptr.

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Mark Garcia: Thank you for the answer. I knew about explicit constructor. But, I want to know why is it made explicit?? Is there any reason for it? – Saran-san Aug 19 '13 at 3:56
@Saran-san Please see my edit. – Mark Garcia Aug 19 '13 at 4:05
@Saran wrong question. As a rule of thumb for API design, when you have a one-argument constructor, start with explicit and find reasons to make it implicit, not the other way around. Implicit conversions cause problems often and do so silently on top. – R. Martinho Fernandes Aug 19 '13 at 4:07
Mark Garcia: Great explanation. Thank you :) – Saran-san Aug 19 '13 at 4:10

Because the constructor taking a pointer as single argument is explicit, you can’t use the assignment notation here because that is considered to be an implicit conversion.

You can also use the convenience function make_shared() here:

std::shared_ptr<parent> p2 = std::make_shared<parent>();

This way of creation is faster and safer because it uses one instead of two allocations: one for the object and one for the shared data the shared pointer uses to control the object.

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