/usr/include/trilinos/Teuchos_Handle.hpp is in libtrilinos-teuchos-dev 12.10.1-3.
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// ***********************************************************************
//
// Teuchos: Common Tools Package
// Copyright (2004) Sandia Corporation
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// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
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// met:
//
// 1. Redistributions of source code must retain the above copyright
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// 2. Redistributions in binary form must reproduce the above copyright
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// documentation and/or other materials provided with the distribution.
//
// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
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// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
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// @HEADER
#ifndef TEUCHOS_HANDLE_HPP
#define TEUCHOS_HANDLE_HPP
#include "Teuchos_ConfigDefs.hpp"
#include "Teuchos_RCP.hpp"
#include "Teuchos_Describable.hpp"
#include "Teuchos_Handleable.hpp"
namespace Teuchos
{
/** \brief Templated handle class with strong const protection.
*
* In writing derived types, it is usually simplest to use the
* TEUCHOS_CONST_HANDLE_CTORS macro to generate boilerplate constructor
* code.
*
* There are two modes of construction:
* construction from an existing RCP,
* \code
* RCP<const Base> r = rcp(new Derived(blahblah));
* ConstHandle<Base> h = r;
* \endcode
* and construction from a raw pointer,
* \code
* ConstHandle<Base> h = new Derived(blahblah);
* \endcode
* The second form makes the code slightly cleaner. Note that to use this
* second form, it is necessary that Derived implement the ConstHandleable
* interface; this is necessary to avoid any implicit conversions from just
* any raw pointer to a smart pointer.
*
* Note that the first form with rcp() must be used whenever the object
* being handled has been allocated on the stack (using rcp(ptr,false) of
* course).
*/
template <typename PointerType>
class ConstHandle : public virtual Describable
{
public:
/** \brief Construct with an existing RCP. */
ConstHandle(const RCP<const PointerType>& ptr) : ptr_(ptr) {;}
/** \brief Construct with a raw pointer to a ConstHandleable. This will make
* a call to rcp(), thus removing that call from the user interface. */
explicit ConstHandle(const ConstHandleable<PointerType>* ptr) : ptr_(ptr->getConstRcp()) {;}
/** \brief Read-only access to the underlying smart pointer. */
const RCP<const PointerType>& constPtr() const {return ptr_;}
/** \brief Access to raw pointer */
const PointerType * const rawPtr() {return this->constPtr().get();}
protected:
/** \brief The empty ctor will only be called by Handle ctors */
explicit ConstHandle() : ptr_() {;}
/** \brief This function is needed in Handle ctors.
*
* The Handle ctors call the empty ConstHandle ctor and then set the
* pointer in the ConstHandle with a call to setRcp(). */
void setRcp(const RCP<PointerType>& ptr)
{ptr_=rcp_const_cast<const PointerType>(ptr);}
/** \brief Protected non-const access to the underlying smart pointer.
*
* This will be called by the nonConstPtr() method of the non-const Handle
* subclass */
RCP<PointerType> nonConstPtr() const
{return rcp_const_cast<PointerType>(ptr_);}
private:
/** \brief . */
RCP<const PointerType> ptr_;
};
/** \brief Generic templated handle class.
*
* In writing derived types, it is usually simplest to use the
* TEUCHOS_HANDLE_CTORS macro to generate boilerplate constructor code.
*
* There are two modes of construction:
* construction from an existing RCP,
* \code
* RCP<Base> r = rcp(new Derived(blahblah));
* Handle<Base> h = r;
* \endcode
* and construction from a raw pointer,
* \code
* Handle<Base> h = new Derived(blahblah);
* \endcode
* The second form makes the code slightly cleaner.
* Note that to use this second form, it is necessary that Derived implement the
* Handleable interface; this is necessary to avoid any implicit conversions
* from raw pointers to smart pointers.
*
* Note that the first form must be used whenever the object being handled has
* been allocated on the stack.
*/
template <typename PointerType>
class Handle : public virtual ConstHandle<PointerType>
{
public:
/** \brief . */
Handle()
: ConstHandle<PointerType>() {}
/** \brief Construct with an existing RCP */
Handle(const RCP<PointerType>& smartPtr)
: ConstHandle<PointerType>()
{
/* \brief We need to set the rcp in the base class */
setRcp(smartPtr);
}
/** \brief Construct with a raw pointer to a Handleable.
*
* This will make a call to rcp() internally, thus removing that call from the
* user interface.
*/
explicit Handle(Handleable<PointerType>* rawPtr)
: ConstHandle<PointerType>()
{
/* \brief We need to set the rcp in the base class. */
setRcp(rawPtr->getRcp());
}
/** \brief Read/write access to the underlying smart pointer.
*/
RCP<PointerType> ptr() const {return this->nonConstPtr();}
/** \brief Access to non-const raw pointer. */
PointerType* rawPtr() const {return this->nonConstPtr().get();}
};
} // namespace Teuchos
/** \brief This helper macro defines boilerplate constructors for classes
* deriving from Handle.
*
* If class MyHandle is a handle to a type MyType, simply
* put
* \code
* TEUCHOS_HANDLE_CTORS(MyHandle, MyType);
* \endcode
* in the class declaration of MyHandle and the macro will create
* an empty ctor, a ctor from a smart ptr, and a ctor from a raw pointer.
* The macro will also create appropriate doxygen for the handle ctors */
#define TEUCHOS_HANDLE_CTORS(handle, contents) \
handle() : Teuchos::Handle<contents >() {;} \
handle(Teuchos::Handleable<contents >* rawPtr) : Teuchos::Handle<contents >(rawPtr) {;} \
handle(const Teuchos::RCP<contents >& smartPtr) : Teuchos::Handle<contents >(smartPtr){;}
/** \brief. This helper macro defines boilerplate constructors for classes
* deriving from ConstHandle.
*
* If class MyHandle is a const handle to a type MyType, simply
* put
* \code
* TEUCHOS_CONST_HANDLE_CTORS(MyHandle, MyType);
* \endcode
* in the class declaration of MyHandle and the macro will create
* an empty ctor, a ctor from a smart ptr, and a ctor from a raw pointer.
* The macro will also create appropriate doxygen for the handle ctors */
#define TEUCHOS_CONST_HANDLE_CTORS(handle, contents) \
handle( Teuchos::ENull _null = Teuchos::null ) : Teuchos::ConstHandle<contents >() {;} \
handle(const Teuchos::ConstHandleable<contents >* rawPtr) : Teuchos::ConstHandle<contents >(rawPtr) {;} \
handle(const Teuchos::RCP<const contents >& smartPtr) : Teuchos::ConstHandle<contents >(smartPtr){;}
#endif // TEUCHOS_CONSTHANDLE_HPP
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