Solely considering lifetime management, these are the same: a
shared_ptr<T> holds a strong (owning) reference to a
T object; a
T^ does the same.
make_shared<T> is roughly equivalent to
ref new T in C++/CX.
If everywhere you see a
T^ you think
CComPtr<T>, then that's okay--the lifetime management is roughly the same.
How lifetime management works under the hood is different, though: every
T type for which
T^ is well-formed is a Windows Runtime reference type that implements the
IUnknown interface, so the
T object is internally reference counted(*).
shared_ptr<T> supports arbitrary types and uses external reference counting (i.e., it allocates its own reference counting mechanism to control the lifetime of the object).
For weak references,
WeakReference is not strongly-typed, but you can easily write a strongly-typed reference wrapper around it. Otherwise, weak references work as you would expect them to. Support for weak references is optional: not all reference types support weak references, but most do.
(*) There is one exception:
Platform::String^, which is not a Windows Runtime reference type, but is handled specially for a variety of reasons. You can think of it as being the same as any other
T^ with respect to lifetime management, though.
So, why do Windows Runtime types wear hats in C++/CX? Why isn't a library solution like
It's because you never really have a pointer (or a hat) to a concrete runtime type: you can only interact with an object via a pointer to one of the interfaces that its type implements. Windows Runtime also does not support interface or class inheritance: every interface must derive directly from
IInspectable, and class inheritance is emulated through the use of COM aggregation.
In short, there's no library solution that would result in natural looking C++ code with static type safety. Function calls, derived-to-base conversions, and interface conversions usually require a call to
QueryInterface to get the right interface pointer.
You can do this with a library solution (see, for example, the WRL library, or pretty much any COM code), but you can't support C++ language features like implicit conversions or
dynamic_cast. Without the hats, you're stuck dealing solely with interface pointers and having to call
(If you're interested in the rationale behind why the C++/CX language extension were developed and how the C++/CLI syntax ended up being selected for reuse, I'd recommend Jim Springfield's post on this blog from last year, "Inside the C++/CX Design". Also of note is episode 3 of GoingNative, in which Marian Luparu discusses C++/CX.)