struct SomethingThatsABase
    virtual bool IsChildOne() const { return false; }
    virtual bool IsChildTwo() const { return false; }

struct ChildOne : public SomethingThatsABase
    virtual bool IsChildOne() const { return true; }

struct ChildTwo : public SomethingThatsABase
    virtual bool IsChildTwo() const { return true; }

void SomeClientExpectingAChildOne(std::shared_ptr<ChildOne> const& ptrOne)
    //Does stuff

void SomeClient(std::shared_ptr<SomethingThatsABase> const& ptr)
    if (ptr->IsChildOne())
        SomeClientExpectingAChildOne(ptr); //Oops.
        //Hmm.. can't static_cast here, because we need a `shared_ptr` out of it.

(Note that I can't simply do a std::shared_ptr<ChildOne>(static_cast<ChildOne*>(ptr.get())), because then the reference counts don't get shared between the two shared_ptrs)

3 Answers 3


This ought to work:

if (ptr->IsChildOne())
  • 1
    Perfect! +1. (And probably the "green bent angle thing" soon too) Jul 22, 2011 at 20:26
  • 4
    +1 - I wasn't aware of std::static_pointer_cast! How does this work, does the returned shared_ptr act like a proxy so that the two shared pointers maintain the same reference count or so? Jul 22, 2011 at 20:29
  • 5
    @Frerich: A shared_ptr has two pointers -- one to the shared object, and one to the block with the strong and weak reference counts. Two shared_ptrs of different type can share the strong and weak reference count blocks without difficulty. My guess is that it's implemented with static_pointer_cast being a friend of shared_ptr, but of course your implementation may vary. Jul 22, 2011 at 20:38
  • 3
    I've always used shared_dynamic_cast in Boost. Apparently dynamic_pointer_cast is more generic, however, because it works with various different types of pointers (shared_ptr, raw pointers, intrusive_ptr, and potentially anything else in the future). Jul 22, 2011 at 23:11
  • @FrerichRaabe, @billy-oneal, probably it uses the aliasing constructor, (ref, ptr) create a shared_pointer copy of ref but pointing to ptr.
    – Zhen
    Oct 5, 2016 at 7:48

The shared_ptr equivalent of static_cast is static_pointer_cast, and the shared_ptr equivalent of dynamic_cast is dynamic_pointer_cast.

  • 1
    I was unaware of both of these, so I went looking for some documentation. Cool stuff! Jul 22, 2011 at 20:30

Starting from C++11, § ([util.smartptr.shared.cast]) of the C++ standard specifies the equivalents of static_cast, const_cast and dynamic_cast for std::shared_ptr to be as follows:


template <class T, class U>
shared_ptr<T> static_pointer_cast(shared_ptr<U> const & r) noexcept;

static_pointer_cast requires static_cast<T *>(r.get()) to be well formed. If r is empty, an empty shared_ptr<T> is returned, otherwise returns a pointer w sharing ownership with r where w.get() == static_cast<T *>(r.get()) and w.use_count() == r.use_count().


template <class T, class U>
shared_ptr<T> const_pointer_cast(shared_ptr<U> const & r) noexcept;

const_pointer_cast has similar requirements and semantics to static_pointer_cast, except that const_cast is used instead of static_cast.


template <class T, class U>
shared_ptr<T> dynamic_pointer_cast(shared_ptr<U> const & r) noexcept;

dynamic_pointer_cast is a bit different as it requires dynamic_cast<T *>(r.get()) to be well formed and have well defined semantics. If dynamic_cast<T *>(r.get()) is a non-zero value, returns a pointer w sharing ownership with r where w.get() == dynamic_cast<T *>(r.get()) and w.use_count() == r.use_count(), otherwise an empty shared_ptr<T> is returned.


For C++17, N3920 (adopted into Library Fundamentals TS in February 2014) also proposed a std::reinterpret_pointer_cast similar to the above, which would only require reinterpret_cast<T *>((U *) 0) to be well formed and returns shared_ptr<T>(r, reinterpret_cast<typename shared_ptr<T>::element_type *>(r.get())). Note N3920 also changed the wording for the other shared_ptr casts and extended shared_ptr to support arrays.

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