pstl/include/pstl/internal/parallel_backend_utils.h - external/github.com/llvm/llvm-project - Git at Google

 // -*- C++ -*-
 //===-- parallel_backend_utils.h ------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef _PSTL_PARALLEL_BACKEND_UTILS_H
 #define _PSTL_PARALLEL_BACKEND_UTILS_H

 #include <iterator>
 #include <utility>
 #include <cassert>
 #include "utils.h"

 namespace __pstl
 {
 namespace __par_backend
 {

 //! Destroy sequence [xs,xe)
 struct __serial_destroy
 {
     template <typename _RandomAccessIterator>
     void
     operator()(_RandomAccessIterator __zs, _RandomAccessIterator __ze)
     {
         typedef typename std::iterator_traits<_RandomAccessIterator>::value_type _ValueType;
         while (__zs != __ze)
         {
             --__ze;
             (*__ze).~_ValueType();
         }
     }
 };

 //! Merge sequences [__xs,__xe) and [__ys,__ye) to output sequence [__zs,(__xe-__xs)+(__ye-__ys)), using std::move
 struct __serial_move_merge
 {
     const std::size_t _M_nmerge;

     explicit __serial_move_merge(std::size_t __nmerge) : _M_nmerge(__nmerge) {}
     template <class _RandomAccessIterator1, class _RandomAccessIterator2, class _RandomAccessIterator3, class _Compare,
               class _MoveValueX, class _MoveValueY, class _MoveSequenceX, class _MoveSequenceY>
     void
     operator()(_RandomAccessIterator1 __xs, _RandomAccessIterator1 __xe, _RandomAccessIterator2 __ys,
                _RandomAccessIterator2 __ye, _RandomAccessIterator3 __zs, _Compare __comp, _MoveValueX __move_value_x,
                _MoveValueY __move_value_y, _MoveSequenceX __move_sequence_x, _MoveSequenceY __move_sequence_y)
     {
         constexpr bool __same_move_val = std::is_same<_MoveValueX, _MoveValueY>::value;
         constexpr bool __same_move_seq = std::is_same<_MoveSequenceX, _MoveSequenceY>::value;

         auto __n = _M_nmerge;
         assert(__n > 0);

         auto __nx = __xe - __xs;
         //auto __ny = __ye - __ys;
         _RandomAccessIterator3 __zs_beg = __zs;

         if (__xs != __xe)
         {
             if (__ys != __ye)
             {
                 for (;;)
                 {
                     if (__comp(*__ys, *__xs))
                     {
                         const auto __i = __zs - __zs_beg;
                         if (__i < __nx)
                             __move_value_x(__ys, __zs);
                         else
                             __move_value_y(__ys, __zs);
                         ++__zs, --__n;
                         if (++__ys == __ye)
                         {
                             break;
                         }
                         else if (__n == 0)
                         {
                             const auto __i = __zs - __zs_beg;
                             if (__same_move_seq || __i < __nx)
                                 __zs = __move_sequence_x(__ys, __ye, __zs);
                             else
                                 __zs = __move_sequence_y(__ys, __ye, __zs);
                             break;
                         }
                     }
                     else
                     {
                         const auto __i = __zs - __zs_beg;
                         if (__same_move_val || __i < __nx)
                             __move_value_x(__xs, __zs);
                         else
                             __move_value_y(__xs, __zs);
                         ++__zs, --__n;
                         if (++__xs == __xe)
                         {
                             const auto __i = __zs - __zs_beg;
                             if (__same_move_seq || __i < __nx)
                                 __move_sequence_x(__ys, __ye, __zs);
                             else
                                 __move_sequence_y(__ys, __ye, __zs);
                             return;
                         }
                         else if (__n == 0)
                         {
                             const auto i = __zs - __zs_beg;
                             if (__same_move_seq || __i < __nx)
                             {
                                 __zs = __move_sequence_x(__xs, __xe, __zs);
                                 __move_sequence_x(__ys, __ye, __zs);
                             }
                             else
                             {
                                 __zs = __move_sequence_y(__xs, __xe, __zs);
                                 __move_sequence_y(__ys, __ye, __zs);
                             }
                             return;
                         }
                     }
                 }
             }
             __ys = __xs;
             __ye = __xe;
         }
         const auto __i = __zs - __zs_beg;
         if (__same_move_seq || __i < __nx)
             __move_sequence_x(__ys, __ye, __zs);
         else
             __move_sequence_y(__ys, __ye, __zs);
     }
 };

 template <typename _RandomAccessIterator1, typename _OutputIterator>
 void
 __init_buf(_RandomAccessIterator1 __xs, _RandomAccessIterator1 __xe, _OutputIterator __zs, bool __bMove)
 {
     const _OutputIterator __ze = __zs + (__xe - __xs);
     typedef typename std::iterator_traits<_OutputIterator>::value_type _ValueType;
     if (__bMove)
     {
         // Initialize the temporary buffer and move keys to it.
         for (; __zs != __ze; ++__xs, ++__zs)
             new (&*__zs) _ValueType(std::move(*__xs));
     }
     else
     {
         // Initialize the temporary buffer
         for (; __zs != __ze; ++__zs)
             new (&*__zs) _ValueType;
     }
 }

 // TODO is this actually used anywhere?
 template <typename _Buf>
 class __stack
 {
     typedef typename std::iterator_traits<decltype(_Buf(0).get())>::value_type _ValueType;
     typedef typename std::iterator_traits<_ValueType*>::difference_type _DifferenceType;

     _Buf _M_buf;
     _ValueType* _M_ptr;
     _DifferenceType _M_maxsize;

     __stack(const __stack&) = delete;
     void
     operator=(const __stack&) = delete;

   public:
     __stack(_DifferenceType __max_size) : _M_buf(__max_size), _M_maxsize(__max_size) { _M_ptr = _M_buf.get(); }

     ~__stack()
     {
         assert(size() <= _M_maxsize);
         while (!empty())
             pop();
     }

     const _Buf&
     buffer() const
     {
         return _M_buf;
     }
     size_t
     size() const
     {
         assert(_M_ptr - _M_buf.get() <= _M_maxsize);
         assert(_M_ptr - _M_buf.get() >= 0);
         return _M_ptr - _M_buf.get();
     }
     bool
     empty() const
     {
         assert(_M_ptr >= _M_buf.get());
         return _M_ptr == _M_buf.get();
     }
     void
     push(const _ValueType& __v)
     {
         assert(size() < _M_maxsize);
         new (_M_ptr) _ValueType(__v);
         ++_M_ptr;
     }
     const _ValueType&
     top() const
     {
         return *(_M_ptr - 1);
     }
     void
     pop()
     {
         assert(_M_ptr > _M_buf.get());
         --_M_ptr;
         (*_M_ptr).~_ValueType();
     }
 };

 } // namespace __par_backend
 } // namespace __pstl

 #endif /* _PSTL_PARALLEL_BACKEND_UTILS_H */
	// -- C++ --
	//===-- parallel_backend_utils.h ------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef _PSTL_PARALLEL_BACKEND_UTILS_H
	#define _PSTL_PARALLEL_BACKEND_UTILS_H

	#include <iterator>
	#include <utility>
	#include <cassert>
	#include "utils.h"

	namespace __pstl
	{
	namespace __par_backend
	{

	//! Destroy sequence [xs,xe)
	struct __serial_destroy
	{
	template <typename _RandomAccessIterator>
	void
	operator()(_RandomAccessIterator __zs, _RandomAccessIterator __ze)
	{
	typedef typename std::iterator_traits<_RandomAccessIterator>::value_type _ValueType;
	while (__zs != __ze)
	{
	--__ze;
	(*__ze).~_ValueType();
	}
	}
	};

	//! Merge sequences [__xs,__xe) and [__ys,__ye) to output sequence [__zs,(__xe-__xs)+(__ye-__ys)), using std::move
	struct __serial_move_merge
	{
	const std::size_t _M_nmerge;

	explicit __serial_move_merge(std::size_t __nmerge) : _M_nmerge(__nmerge) {}
	template <class _RandomAccessIterator1, class _RandomAccessIterator2, class _RandomAccessIterator3, class _Compare,
	class _MoveValueX, class _MoveValueY, class _MoveSequenceX, class _MoveSequenceY>
	void
	operator()(_RandomAccessIterator1 __xs, _RandomAccessIterator1 __xe, _RandomAccessIterator2 __ys,
	_RandomAccessIterator2 __ye, _RandomAccessIterator3 __zs, _Compare __comp, _MoveValueX __move_value_x,
	_MoveValueY __move_value_y, _MoveSequenceX __move_sequence_x, _MoveSequenceY __move_sequence_y)
	{
	constexpr bool __same_move_val = std::is_same<_MoveValueX, _MoveValueY>::value;
	constexpr bool __same_move_seq = std::is_same<_MoveSequenceX, _MoveSequenceY>::value;

	auto __n = _M_nmerge;
	assert(__n > 0);

	auto __nx = __xe - __xs;
	//auto __ny = __ye - __ys;
	_RandomAccessIterator3 __zs_beg = __zs;

	if (__xs != __xe)
	{
	if (__ys != __ye)
	{
	for (;;)
	{
	if (__comp(__ys, __xs))
	{
	const auto __i = __zs - __zs_beg;
	if (__i < __nx)
	__move_value_x(__ys, __zs);
	else
	__move_value_y(__ys, __zs);
	++__zs, --__n;
	if (++__ys == __ye)
	{
	break;
	}
	else if (__n == 0)
	{
	const auto __i = __zs - __zs_beg;
	if (__same_move_seq \|\| __i < __nx)
	__zs = __move_sequence_x(__ys, __ye, __zs);
	else
	__zs = __move_sequence_y(__ys, __ye, __zs);
	break;
	}
	}
	else
	{
	const auto __i = __zs - __zs_beg;
	if (__same_move_val \|\| __i < __nx)
	__move_value_x(__xs, __zs);
	else
	__move_value_y(__xs, __zs);
	++__zs, --__n;
	if (++__xs == __xe)
	{
	const auto __i = __zs - __zs_beg;
	if (__same_move_seq \|\| __i < __nx)
	__move_sequence_x(__ys, __ye, __zs);
	else
	__move_sequence_y(__ys, __ye, __zs);
	return;
	}
	else if (__n == 0)
	{
	const auto i = __zs - __zs_beg;
	if (__same_move_seq \|\| __i < __nx)
	{
	__zs = __move_sequence_x(__xs, __xe, __zs);
	__move_sequence_x(__ys, __ye, __zs);
	}
	else
	{
	__zs = __move_sequence_y(__xs, __xe, __zs);
	__move_sequence_y(__ys, __ye, __zs);
	}
	return;
	}
	}
	}
	}
	__ys = __xs;
	__ye = __xe;
	}
	const auto __i = __zs - __zs_beg;
	if (__same_move_seq \|\| __i < __nx)
	__move_sequence_x(__ys, __ye, __zs);
	else
	__move_sequence_y(__ys, __ye, __zs);
	}
	};

	template <typename _RandomAccessIterator1, typename _OutputIterator>
	void
	__init_buf(_RandomAccessIterator1 __xs, _RandomAccessIterator1 __xe, _OutputIterator __zs, bool __bMove)
	{
	const _OutputIterator __ze = __zs + (__xe - __xs);
	typedef typename std::iterator_traits<_OutputIterator>::value_type _ValueType;
	if (__bMove)
	{
	// Initialize the temporary buffer and move keys to it.
	for (; __zs != __ze; ++__xs, ++__zs)
	new (&__zs) _ValueType(std::move(__xs));
	}
	else
	{
	// Initialize the temporary buffer
	for (; __zs != __ze; ++__zs)
	new (&*__zs) _ValueType;
	}
	}

	// TODO is this actually used anywhere?
	template <typename _Buf>
	class __stack
	{
	typedef typename std::iterator_traits<decltype(_Buf(0).get())>::value_type _ValueType;
	typedef typename std::iterator_traits<_ValueType*>::difference_type _DifferenceType;

	_Buf _M_buf;
	_ValueType* _M_ptr;
	_DifferenceType _M_maxsize;

	__stack(const __stack&) = delete;
	void
	operator=(const __stack&) = delete;

	public:
	__stack(_DifferenceType __max_size) : _M_buf(__max_size), _M_maxsize(__max_size) { _M_ptr = _M_buf.get(); }

	~__stack()
	{
	assert(size() <= _M_maxsize);
	while (!empty())
	pop();
	}

	const _Buf&
	buffer() const
	{
	return _M_buf;
	}
	size_t
	size() const
	{
	assert(_M_ptr - _M_buf.get() <= _M_maxsize);
	assert(_M_ptr - _M_buf.get() >= 0);
	return _M_ptr - _M_buf.get();
	}
	bool
	empty() const
	{
	assert(_M_ptr >= _M_buf.get());
	return _M_ptr == _M_buf.get();
	}
	void
	push(const _ValueType& __v)
	{
	assert(size() < _M_maxsize);
	new (_M_ptr) _ValueType(__v);
	++_M_ptr;
	}
	const _ValueType&
	top() const
	{
	return *(_M_ptr - 1);
	}
	void
	pop()
	{
	assert(_M_ptr > _M_buf.get());
	--_M_ptr;
	(*_M_ptr).~_ValueType();
	}
	};

	} // namespace __par_backend
	} // namespace __pstl

	#endif /* _PSTL_PARALLEL_BACKEND_UTILS_H */