/usr/include/gromacs/utility/classhelpers.h is in libgromacs-dev 2016.1-2.
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* This file is part of the GROMACS molecular simulation package.
*
* Copyright (c) 2012,2013,2014,2015,2016, by the GROMACS development team, led by
* Mark Abraham, David van der Spoel, Berk Hess, and Erik Lindahl,
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/*! \file
* \brief
* Declares common utility classes and macros.
*
* This header contains helpers used to implement classes in the library.
* It is installed, because the helpers are used in installed headers, but
* typically users of the library should not need to be aware of these helpers.
*
* \author Teemu Murtola <teemu.murtola@gmail.com>
* \inlibraryapi
* \ingroup module_utility
*/
#ifndef GMX_UTILITY_CLASSHELPERS_H
#define GMX_UTILITY_CLASSHELPERS_H
#include <memory>
namespace gmx
{
/*! \brief
* Macro to declare a class non-copyable and non-assignable.
*
* For consistency, should appear last in the class declaration.
*
* \ingroup module_utility
*/
#define GMX_DISALLOW_COPY_AND_ASSIGN(ClassName) \
ClassName &operator=(const ClassName &) = delete; \
ClassName(const ClassName &) = delete
/*! \brief
* Macro to declare a class non-assignable.
*
* For consistency, should appear last in the class declaration.
*
* \ingroup module_utility
*/
#define GMX_DISALLOW_ASSIGN(ClassName) \
ClassName &operator=(const ClassName &) = delete
#ifdef DOXYGEN
/*! \brief
* Macro to declare default constructors
*
* Intended for copyable interfaces or bases classes which require to create custom
* destructor (e.g. protected or virtual) but need the default constructors.
*
* \ingroup module_utility
*/
#define GMX_DEFAULT_CONSTRUCTORS(ClassName)
#else
#define GMX_DEFAULT_CONSTRUCTORS(ClassName) \
ClassName() = default; \
ClassName &operator=(const ClassName &) = default; \
ClassName(const ClassName &) = default; \
ClassName &operator=(ClassName &&) = default; \
ClassName(ClassName &&) = default
#endif
/*! \brief
* Helper class to manage a pointer to a private implementation class.
*
* This helper provides the following benefits (all but the last could also be
* achieved with std::unique_ptr):
* - Automatic memory management: the implementation pointer is freed in
* the destructor automatically. If the destructor is not declared or is
* defined inline in the header file, a compilation error occurs instead
* of a memory leak or undefined behavior.
* - Exception safety in constructors: the implementation pointer is freed
* correctly even if the constructor of the containing class throws after
* the implementation class is constructed.
* - Copy and/or assignment is automatically disallowed if explicit copy
* constructor and/or assignment operator is not provided.
* - Compiler helps to manage const-correctness: in const methods, it is not
* possible to change the implementation class.
*
* Move construction and assignment are also disallowed, but can be enabled by
* providing explicit move constructor and/or assignment.
*
* Intended use:
* \code
// In exampleclass.h
class ExampleClass
{
public:
ExampleClass();
~ExampleClass(); // Must not be defined inline
// <...>
private:
class Impl;
PrivateImplPointer<Impl> impl_;
};
// In exampleclass.cpp
// <definition of ExampleClass::Impl>
ExampleClass::ExampleClass()
: impl_(new Impl)
{
}
ExampleClass::~ExampleClass()
{
}
\endcode
*
* \inlibraryapi
* \ingroup module_utility
*/
template <class Impl>
class PrivateImplPointer
{
public:
//! Allow implicit initialization from nullptr to support comparison.
PrivateImplPointer(std::nullptr_t) : ptr_(nullptr) {}
//! Initialize with the given implementation class.
explicit PrivateImplPointer(Impl *ptr) : ptr_(ptr) {}
//! \cond
// Explicitly declared to work around MSVC problems.
PrivateImplPointer(PrivateImplPointer &&other) : ptr_(std::move(other.ptr_)) {}
PrivateImplPointer &operator=(PrivateImplPointer &&other)
{
ptr_ = std::move(other.ptr_);
return *this;
}
//! \endcond
/*! \brief
* Sets a new implementation class and destructs the previous one.
*
* Needed, e.g., to implement lazily initializable or copy-assignable
* classes.
*/
void reset(Impl *ptr) { ptr_.reset(ptr); }
//! Access the raw pointer.
Impl *get() { return ptr_.get(); }
//! Access the implementation class as with a raw pointer.
Impl *operator->() { return ptr_.get(); }
//! Access the implementation class as with a raw pointer.
Impl &operator*() { return *ptr_; }
//! Access the implementation class as with a raw pointer.
const Impl *operator->() const { return ptr_.get(); }
//! Access the implementation class as with a raw pointer.
const Impl &operator*() const { return *ptr_; }
//! Allows testing whether the implementation is initialized.
explicit operator bool() const { return ptr_ != nullptr; }
//! Tests for equality (mainly useful against nullptr).
bool operator==(const PrivateImplPointer &other) const { return ptr_ == other.ptr_; }
//! Tests for inequality (mainly useful against nullptr).
bool operator!=(const PrivateImplPointer &other) const { return ptr_ != other.ptr_; }
private:
std::unique_ptr<Impl> ptr_;
// Copy construction and assignment disabled by the unique_ptr member.
};
} // namespace gmx
#endif
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