Teuchos::RCP< T > Class Template Reference

Smart reference counting pointer class for automatic garbage collection. More...

#include <Teuchos_RCPDecl.hpp>

Inheritance diagram for Teuchos::RCP< T >:
[legend]

List of all members.

Public Types

typedef T element_type
 

Public Member Functions

 RCP (ENull null_arg=null)
 Initialize RCP<T> to NULL.
 RCP (T *p, bool has_ownership=false)
 Construct from a raw pointer.
 RCP (const RCP< T > &r_ptr)
 Initialize from another RCP<T> object.
template<class T2 >
 RCP (const RCP< T2 > &r_ptr)
 Initialize from another RCP<T2> object (implicit conversion only).
 ~RCP ()
 Removes a reference to a dynamically allocated object and possibly deletes the object if owned.
RCP< T > & operator= (const RCP< T > &r_ptr)
 Copy the pointer to the referenced object and increment the reference count.
T * operator-> () const
 Pointer (->) access to members of underlying object.
T & operator* () const
 Dereference the underlying object.
T * get () const
 Get the raw C++ pointer to the underlying object.
T * getRawPtr () const
 Get the raw C++ pointer to the underlying object.
Ptr< T > ptr () const
 Get a safer wrapper raw C++ pointer to the underlying object.
Ptr< T > release ()
 Release the ownership of the underlying dynamically allocated object.
int count () const
 Return the number of RCP<> objects that have a reference to the underlying pointer that is being shared.
void set_has_ownership ()
 Give this and other RCP<> objects ownership of the referenced object this->get().
bool has_ownership () const
 Returns true if this has ownership of object pointed to by this->get() in order to delete it.
template<class T2 >
bool shares_resource (const RCP< T2 > &r_ptr) const
 Returns true if the smart pointers share the same underlying reference-counted object.
const RCP< T > & assert_not_null () const
 Throws NullReferenceError if this->get()==NULL, otherwise returns reference to *this.
template<class Dealloc_T >
REFCOUNTPTR_INLINE RCP (T *p, Dealloc_T dealloc, bool has_ownership_in)
template<class T>
 RCP (T *p, RCPNode *node)

Private Attributes

T * ptr_
RCPNodenode_

Related Functions

(Note that these are not member functions.)



enum  ENull { null }
 

Used to initialize a RCP object to NULL using an implicit conversion!

More...
template<class T >
RCP< T > rcp (T *p, bool owns_mem=true)
 Create a RCP object properly typed.
template<class T , class Dealloc_T >
RCP< T > rcp (T *p, Dealloc_T dealloc, bool owns_mem)
 Initialize from a raw pointer with a deallocation policy.
template<class T >
Teuchos::RCP< T > rcpFromRef (T &r)
 Return a non-owning RCP object from a raw object reference.
template<class T2 , class T1 >
RCP< T2 > rcp_implicit_cast (const RCP< T1 > &p1)
 Implicit cast of underlying RCP type from T1* to T2*.
template<class T2 , class T1 >
RCP< T2 > rcp_static_cast (const RCP< T1 > &p1)
 Static cast of underlying RCP type from T1* to T2*.
template<class T2 , class T1 >
RCP< T2 > rcp_const_cast (const RCP< T1 > &p1)
 Constant cast of underlying RCP type from T1* to T2*.
template<class T2 , class T1 >
RCP< T2 > rcp_dynamic_cast (const RCP< T1 > &p1, bool throw_on_fail=false)
 Dynamic cast of underlying RCP type from T1* to T2*.
template<class T1 , class T2 >
T1 & get_nonconst_extra_data (const RCP< T2 > &p, const std::string &name)
 Get a non-const reference to extra data associated with a RCP object.
template<class T1 , class T2 >
Ptr< T1 > get_optional_nonconst_extra_data (const RCP< T2 > &p, const std::string &name)
 Get a pointer to non-const extra data (if it exists) associated with a RCP object.

Detailed Description

template<class T>
class Teuchos::RCP< T >

Smart reference counting pointer class for automatic garbage collection.

For a carefully written discussion about what this class is and basic details on how to use it see the beginners guide.

Quickstart for RCP

Here we present a short, but fairly comprehensive, quick-start for the use of RCP<>. The use cases described here should cover the overwhelming majority of the use instances of RCP<> in a typical program.

The following class hierarchy will be used in the C++ examples given below.

class A { public: virtual ~A(){} virtual void f(){} };
class B1 : virtual public A {};
class B2 : virtual public A {};
class C : virtual public B1, virtual public B2 {};

class D {};
class E : public D {};

All of the following code examples used in this quickstart are assumed to be in the namespace Teuchos or have appropriate using Teuchos::... declarations. This removes the need to explicitly use Teuchos:: to qualify classes, functions and other declarations from the Teuchos namespace. Note that some of the runtime checks are denoted as "debug runtime checked" which means that checking will only be performed in a debug build (that is one where the macro TEUCHOS_REFCOUNTPTR_ASSERT_NONNULL, or TEUCHOS_DEBUG is defined at compile time).

  1. Creation of RCP<> objects

    1. Creating a RCP<> object using new

      RCP<C> c_ptr = rcp(new C);
      

    2. Creating a RCP<> object to an array allocated using new[n] : Teuchos::DeallocArrayDelete

      RCP<C> c_ptr = rcp(new C[n],DeallocArrayDelete<C>(),true);
      

    3. Creating a RCP<> object equipped with a specialized deallocator function : Teuchos::DeallocFunctorDelete

      void someDeallocFunction(C* c_ptr);
      
      RCP<C> c_ptr = rcp(new deallocFunctorDelete<C>(someDeallocFunction),true);
      

    4. Initializing a RCP<> object to NULL

      RCP<C> c_ptr;
      

      or

      RCP<C> c_ptr = null;
      

    5. Initializing a RCP<> object to an object {not} allocated with new

      C              c;
      RCP<C> c_ptr = rcp(&c,false);
      

    6. Copy constructor (implicit casting)

      RCP<C>       c_ptr  = rcp(new C); // No cast
      RCP<A>       a_ptr  = c_ptr;      // Cast to base class
      RCP<const A> ca_ptr = a_ptr;      // Cast from non-const to const
      

    7. Representing constantness and non-constantness

      1. Non-constant pointer to non-constant object

        RCP<C> c_ptr;
        

      2. Constant pointer to non-constant object

        const RCP<C> c_ptr;
        

      3. Non-Constant pointer to constant object

        RCP<const C> c_ptr;
        

      4. Constant pointer to constant object

        const RCP<const C> c_ptr;
        

  2. Reinitialization of RCP<> objects (using assignment operator)

    1. Resetting from a raw pointer

      RCP<A> a_ptr;
      a_ptr = rcp(new C());
      

    2. Resetting to null

      RCP<A> a_ptr = rcp(new C());
      a_ptr = null; // The C object will be deleted here
      

    3. Assigning from a RCP<> object

      RCP<A> a_ptr1;
      RCP<A> a_ptr2 = rcp(new C());
      a_ptr1 = a_ptr2; // Now a_ptr1 and a_ptr2 point to same C object
      

  3. Accessing the reference-counted object

    1. Access to object reference (debug runtime checked) : Teuchos::RCP::operator*()

      C &c_ref = *c_ptr;
      

    2. Access to object pointer (unchecked, may return NULL) : Teuchos::RCP::get()

      C *c_rptr = c_ptr.get();
      

      or

      C *c_rptr = c_ptr.getRawPtr();
      

    3. Access to object pointer (debug runtime checked, will not return NULL) : Teuchos::RCP::operator*()

      C *c_rptr = &*c_ptr;
      

    4. Access of object's member (debug runtime checked) : Teuchos::RCP::operator->()

      c_ptr->f();
      

    5. Testing for non-null : Teuchos::RCP::get(), Teuchos::operator==(), Teuchos::operator!=()

      if( a_ptr.get() ) std::cout << "a_ptr is not null!\n";
      

      or

      if( a_ptr != null ) std::cout << "a_ptr is not null!\n";
      

      or

    6. Testing for null

      if( !a_ptr.get() ) std::cout << "a_ptr is null!\n";
      

      or

      if( a_ptr == null ) std::cout << "a_ptr is null!\n";
      

      or

      if( is_null(a_ptr) ) std::cout << "a_ptr is null!\n";
      

  4. Casting

    1. Implicit casting (see copy constructor above)

      1. Using copy constructor (see above)

      2. Using conversion function

        RCP<C>       c_ptr  = rcp(new C);                       // No cast
        RCP<A>       a_ptr  = rcp_implicit_cast<A>(c_ptr);      // To base
        RCP<const A> ca_ptr = rcp_implicit_cast<const A>(a_ptr);// To const
        

    2. Casting away const : rcp_const_cast()

      RCP<const A>  ca_ptr = rcp(new C);
      RCP<A>        a_ptr  = rcp_const_cast<A>(ca_ptr); // cast away const!
      

    3. Static cast (no runtime check) : rcp_static_cast()

      RCP<D>     d_ptr = rcp(new E);
      RCP<E>     e_ptr = rcp_static_cast<E>(d_ptr); // Unchecked, unsafe?
      

    4. Dynamic cast (runtime checked, failed cast allowed) : rcp_dynamic_cast()

      RCP<A>     a_ptr  = rcp(new C);
      RCP<B1>    b1_ptr = rcp_dynamic_cast<B1>(a_ptr);  // Checked, safe!
      RCP<B2>    b2_ptr = rcp_dynamic_cast<B2>(b1_ptr); // Checked, safe!
      RCP<C>     c_ptr  = rcp_dynamic_cast<C>(b2_ptr);  // Checked, safe!
      

    5. Dynamic cast (runtime checked, failed cast not allowed) : rcp_dynamic_cast()

      RCP<A>     a_ptr1  = rcp(new C);
      RCP<A>     a_ptr2  = rcp(new A);
      RCP<B1>    b1_ptr1 = rcp_dynamic_cast<B1>(a_ptr1,true);  // Success!
      RCP<B1>    b1_ptr2 = rcp_dynamic_cast<B1>(a_ptr2,true);  // Throw std::bad_cast!
      

  5. Customized deallocators

    1. Creating a RCP<> object with a custom deallocator : Teuchos::DeallocArrayDelete

      RCP<C> c_ptr = rcp(new C[N],DeallocArrayDelete<C>(),true);
      

    2. Access customized deallocator (runtime checked, throws on failure) : Teuchos::get_dealloc()

      const DeallocArrayDelete<C>
        &dealloc = get_dealloc<DeallocArrayDelete<C> >(c_ptr);
      

    3. Access optional customized deallocator : Teuchos::get_optional_dealloc()

      const DeallocArrayDelete<C>
        *dealloc = get_optional_dealloc<DeallocArrayDelete<C> >(c_ptr);
      if(dealloc) std::cout << "This deallocator exits!\n";
      

  6. Managing extra data

    1. Adding extra data (post destruction of extra data) : Teuchos::set_extra_data()

      set_extra_data(rcp(new B1),"A:B1",&a_ptr);
      

    2. Adding extra data (pre destruction of extra data) : Teuchos::get_extra_data()

      set_extra_data(rcp(new B1),"A:B1",&a_ptr,PRE_DESTORY);
      

    3. Retrieving extra data : Teuchos::get_extra_data()

      get_extra_data<RCP<B1> >(a_ptr,"A:B1")->f();
      

    4. Resetting extra data : Teuchos::get_extra_data()

      get_extra_data<RCP<B1> >(a_ptr,"A:B1") = rcp(new C);
      

    5. Retrieving optional extra data : Teuchos::get_optional_extra_data()

      const RCP<B1>
        *b1 = get_optional_extra_data<RCP<B1> >(a_ptr,"A:B1");
      if(b1) (*b1)->f();
      

Type T requirements:

Definition at line 405 of file Teuchos_RCPDecl.hpp.


Member Typedef Documentation

template<class T>
typedef T Teuchos::RCP< T >::element_type

Definition at line 408 of file Teuchos_RCPDecl.hpp.


Constructor & Destructor Documentation

template<class T >
Teuchos::RCP< T >::RCP ( ENull  null_arg = null  )  [inline]

Initialize RCP<T> to NULL.

This allows clients to write code like:

   RCP<int> p = null;

or

   RCP<int> p;

and construct to NULL

Definition at line 65 of file Teuchos_RCP.hpp.

template<class T>
Teuchos::RCP< T >::RCP ( T *  p,
bool  has_ownership = false 
) [inline, explicit]

Construct from a raw pointer.

Note that this constructor is declared explicit so there is no implicit conversion from a raw pointer to an RCP allowed. If has_ownership==false, then no attempt to delete the object will occur.

Postconditons:

Definition at line 233 of file Teuchos_RCP.hpp.

template<class T>
REFCOUNTPTR_INLINE Teuchos::RCP< T >::RCP ( const RCP< T > &  r_ptr  )  [inline]

Initialize from another RCP<T> object.

After construction, this and r_ptr will reference the same object.

This form of the copy constructor is required even though the below more general templated version is sufficient since some compilers will generate this function automatically which will give an incorrect implementation.

Postconditons:

  • this->get() == r_ptr.get()
  • this->count() == r_ptr.count()
  • this->has_ownership() == r_ptr.has_ownership()
  • If r_ptr.get() != NULL then r_ptr.count() is incremented by 1

Definition at line 73 of file Teuchos_RCP.hpp.

template<class T>
template<class T2 >
Teuchos::RCP< T >::RCP ( const RCP< T2 > &  r_ptr  )  [inline]

Initialize from another RCP<T2> object (implicit conversion only).

This function allows the implicit conversion of smart pointer objects just like with raw C++ pointers. Note that this function will only compile if the statement T1 *ptr = r_ptr.get() will compile.

Postconditons:

  • this->get() == r_ptr.get()
  • this->count() == r_ptr.count()
  • this->has_ownership() == r_ptr.has_ownership()
  • If r_ptr.get() != NULL then r_ptr.count() is incremented by 1
template<class T >
REFCOUNTPTR_INLINE Teuchos::RCP< T >::~RCP (  )  [inline]

Removes a reference to a dynamically allocated object and possibly deletes the object if owned.

Deletes the object if this->has_ownership() == true and this->count() == 1. If this->count() == 1 but this->has_ownership() == false then the object is not deleted. If this->count() > 1 then the internal reference count shared by all the other related RCP<...> objects for this shared object is deincremented by one. If this->get() == NULL then nothing happens.

Definition at line 93 of file Teuchos_RCP.hpp.

template<class T>
template<class Dealloc_T >
REFCOUNTPTR_INLINE Teuchos::RCP< T >::RCP ( T *  p,
Dealloc_T  dealloc,
bool  has_ownership_in 
) [inline]

Definition at line 254 of file Teuchos_RCP.hpp.

template<class T>
template<class T>
Teuchos::RCP< T >::RCP ( T *  p,
RCPNode node 
) [inline]

Definition at line 272 of file Teuchos_RCP.hpp.


Member Function Documentation

template<class T>
REFCOUNTPTR_INLINE RCP< T > & Teuchos::RCP< T >::operator= ( const RCP< T > &  r_ptr  )  [inline]

Copy the pointer to the referenced object and increment the reference count.

If this->has_ownership() == true and this->count() == 1 before this operation is called, then the object pointed to by this->get() will be deleted (usually using delete) prior to binding to the pointer (possibly NULL) pointed to in r_ptr. Assignment to self (i.e. this->get() == r_ptr.get()) is harmless and this function does nothing.

Postconditons:

  • this->get() == r_ptr.get()
  • this->count() == r_ptr.count()
  • this->has_ownership() == r_ptr.has_ownership()
  • If r_ptr.get() != NULL then r_ptr.count() is incremented by 1

Definition at line 107 of file Teuchos_RCP.hpp.

template<class T >
T * Teuchos::RCP< T >::operator-> (  )  const [inline]

Pointer (->) access to members of underlying object.

Preconditions:

Definition at line 126 of file Teuchos_RCP.hpp.

template<class T >
T & Teuchos::RCP< T >::operator* (  )  const [inline]

Dereference the underlying object.

Preconditions:

Definition at line 137 of file Teuchos_RCP.hpp.

template<class T >
T * Teuchos::RCP< T >::get (  )  const [inline]

Get the raw C++ pointer to the underlying object.

NOTE: Prefer to get the safer Ptr<T> object from this->ptr()!

Definition at line 148 of file Teuchos_RCP.hpp.

template<class T >
T * Teuchos::RCP< T >::getRawPtr (  )  const [inline]

Get the raw C++ pointer to the underlying object.

NOTE: Prefer to get the safer Ptr<T> object from this->ptr()!

Definition at line 156 of file Teuchos_RCP.hpp.

template<class T >
Ptr< T > Teuchos::RCP< T >::ptr (  )  const [inline]

Get a safer wrapper raw C++ pointer to the underlying object.

Definition at line 164 of file Teuchos_RCP.hpp.

template<class T >
REFCOUNTPTR_INLINE Ptr< T > Teuchos::RCP< T >::release (  )  [inline]

Release the ownership of the underlying dynamically allocated object.

WARNING! Never call delete rcp.release().get() as this can cause all kinds of segfaults. Instead, release your use of the shared object by simply assigning the RCP object to Teuchos::null.

This function should only be used as last result when all hell has broken loose and memory management control has broken down. This function is not to be used lightly!

After this function is called then the client is responsible for deallocating the shared object no matter how many ref_count_prt<T> objects have a reference to it. If this->get()== NULL, then this call is meaningless.

Note that this function does not have the exact same semantics as does auto_ptr<T>::release(). In auto_ptr<T>::release(), this is set to NULL while here in RCP<T>:: release() only an ownership flag is set and *this still points to the same object. It would be difficult to duplicate the behavior of auto_ptr<T>::release() for this class.

Postconditions:

Returns:
Returns the value of this->get()

Definition at line 172 of file Teuchos_RCP.hpp.

template<class T >
REFCOUNTPTR_INLINE int Teuchos::RCP< T >::count (  )  const [inline]

Return the number of RCP<> objects that have a reference to the underlying pointer that is being shared.

Returns:
If this->get() == NULL then this function returns 0. Otherwise, this function returns 0.

Definition at line 181 of file Teuchos_RCP.hpp.

template<class T >
REFCOUNTPTR_INLINE void Teuchos::RCP< T >::set_has_ownership (  )  [inline]

Give this and other RCP<> objects ownership of the referenced object this->get().

See ~RCP() above. This function does nothing if this->get() == NULL.

Postconditions:

Definition at line 191 of file Teuchos_RCP.hpp.

template<class T >
REFCOUNTPTR_INLINE bool Teuchos::RCP< T >::has_ownership (  )  const [inline]

Returns true if this has ownership of object pointed to by this->get() in order to delete it.

See ~RCP() above.

Returns:
If this->get() == NULL then this function always returns false. Otherwise the value returned from this function depends on which function was called most recently, if any; set_has_ownership() (true) or release() (false).

Definition at line 199 of file Teuchos_RCP.hpp.

template<class T >
template<class T2 >
REFCOUNTPTR_INLINE bool Teuchos::RCP< T >::shares_resource ( const RCP< T2 > &  r_ptr  )  const [inline]

Returns true if the smart pointers share the same underlying reference-counted object.

This method does more than just check if this->get() == r_ptr.get(). It also checks to see if the underlying reference counting machinary is the same.

Definition at line 210 of file Teuchos_RCP.hpp.

template<class T >
const RCP< T > & Teuchos::RCP< T >::assert_not_null (  )  const [inline]

Throws NullReferenceError if this->get()==NULL, otherwise returns reference to *this.

Definition at line 221 of file Teuchos_RCP.hpp.


Friends And Related Function Documentation

template<class T>
enum ENull [related]

Used to initialize a RCP object to NULL using an implicit conversion!

Enumerator:
null 

Definition at line 41 of file Teuchos_ENull.hpp.

template<class T >
RCP< T > rcp ( T *  p,
bool  owns_mem = true 
) [related]

Create a RCP object properly typed.

Parameters:
p [in] Pointer to an object to be reference counted.
owns_mem [in] If owns_mem==true then delete p will be called when the last reference to this object is removed. If owns_mem==false then nothing will happen to delete the the object pointed to by p when the last reference is removed.

Preconditions:

  • If owns_mem==true then p must have been created by calling new to create the object since delete p will be called eventually.

If the pointer p did not come from new then either the client should use the version of rcp() that that uses a deallocator policy object or should pass in owns_mem = false.

template<class T , class Dealloc_T >
RCP< T > rcp ( T *  p,
Dealloc_T  dealloc,
bool  owns_mem 
) [related]

Initialize from a raw pointer with a deallocation policy.

Parameters:
p [in] Raw C++ pointer that this will represent.
dealloc [in] Deallocator policy object (copied by value) that defines a function void Dealloc_T::free(T* p) that will free the underlying object.
owns_mem [in] If true then return is allowed to delete the underlying pointer by calling dealloc.free(p). when all references have been removed.

Preconditions:

  • The function void Dealloc_T::free(T* p) exists.

Postconditions:

  • return.get() == p
  • If p == NULL then
    • return.count() == 0
    • return.has_ownership() == false
  • else
    • return.count() == 1
    • return.has_ownership() == owns_mem

By default, return has ownership to delete the object pointed to by p when return is deleted (see ~RCP()). If owns_mem==true, it is vital that the address p passed in is the same address that was returned by new. With multiple inheritance this is not always the case. See the above discussion. This class is templated to accept a deallocator object that will free the pointer. The other functions use a default deallocator of type DeallocDelete which has a method DeallocDelete::free() which just calls delete p.

template<class T >
Teuchos::RCP< T > rcpFromRef ( T &  r  )  [related]

Return a non-owning RCP object from a raw object reference.

template<class T2 , class T1 >
RCP< T2 > rcp_implicit_cast ( const RCP< T1 > &  p1  )  [related]

Implicit cast of underlying RCP type from T1* to T2*.

The function will compile only if (T2* p2 = p1.get();) compiles.

This is to be used for conversions up an inheritance hierarchy and from non-const to const and any other standard implicit pointer conversions allowed by C++.

template<class T2 , class T1 >
RCP< T2 > rcp_static_cast ( const RCP< T1 > &  p1  )  [related]

Static cast of underlying RCP type from T1* to T2*.

The function will compile only if (static_cast<T2*>(p1.get());) compiles.

This can safely be used for conversion down an inheritance hierarchy with polymorphic types only if dynamic_cast<T2>(p1.get()) == static_cast<T2>(p1.get()). If not then you have to use rcp_dynamic_cast<T2>(p1).

template<class T2 , class T1 >
RCP< T2 > rcp_const_cast ( const RCP< T1 > &  p1  )  [related]

Constant cast of underlying RCP type from T1* to T2*.

This function will compile only if (const_cast<T2*>(p1.get());) compiles.

template<class T2 , class T1 >
RCP< T2 > rcp_dynamic_cast ( const RCP< T1 > &  p1,
bool  throw_on_fail = false 
) [related]

Dynamic cast of underlying RCP type from T1* to T2*.

Parameters:
p1 [in] The smart pointer casting from
throw_on_fail [in] If true then if the cast fails (for p1.get()!=NULL) then a std::bad_cast std::exception is thrown with a very informative error message.

Postconditions:

  • If ( p1.get()!=NULL && throw_on_fail==true && dynamic_cast<T2*>(p1.get())==NULL ) == true then an std::bad_cast std::exception is thrown with a very informative error message.
  • If ( p1.get()!=NULL && dynamic_cast<T2*>(p1.get())!=NULL ) == true then return.get() == dynamic_cast<T2*>(p1.get()).
  • If ( p1.get()!=NULL && throw_on_fail==false && dynamic_cast<T2*>(p1.get())==NULL ) == true then return.get() == NULL.
  • If ( p1.get()==NULL ) == true then return.get() == NULL.

This function will compile only if (dynamic_cast<T2*>(p1.get());) compiles.

template<class T1 , class T2 >
T1 & get_nonconst_extra_data ( const RCP< T2 > &  p,
const std::string &  name 
) [related]

Get a non-const reference to extra data associated with a RCP object.

Parameters:
p [in] Smart pointer object that extra data is being extraced from.
name [in] Name of the extra data.
Returns:
Returns a non-const reference to the extra_data object.

Preconditions:

Note, this function must be a non-member function since the client must manually select the first template argument.

template<class T1 , class T2 >
Ptr< T1 > get_optional_nonconst_extra_data ( const RCP< T2 > &  p,
const std::string &  name 
) [related]

Get a pointer to non-const extra data (if it exists) associated with a RCP object.

Parameters:
p [in] Smart pointer object that extra data is being extraced from.
name [in] Name of the extra data.
Returns:
Returns a non-const pointer to the extra_data object.

Preconditions:

Postconditions:

  • If name and T1 have been used in a previous call to set_extra_data() then return !=NULL and otherwise return == NULL.

Note, this function must be a non-member function since the client must manually select the first template argument.


Member Data Documentation

template<class T>
T* Teuchos::RCP< T >::ptr_ [private]

Definition at line 608 of file Teuchos_RCPDecl.hpp.

template<class T>
RCPNode* Teuchos::RCP< T >::node_ [private]

Definition at line 609 of file Teuchos_RCPDecl.hpp.


The documentation for this class was generated from the following files:
 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Friends Defines

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