41 #ifndef _GLIBCXX_PARALLEL_MULTISEQ_SELECTION_H
42 #define _GLIBCXX_PARALLEL_MULTISEQ_SELECTION_H 1
49 namespace __gnu_parallel
52 template<
typename _T1,
typename _T2,
typename _Compare>
55 std::pair<_T1, _T2>, bool>
79 template<
typename _T1,
typename _T2,
typename _Compare>
119 template<
typename _RanSeqs,
typename _RankType,
typename _RankIterator,
124 _RankIterator __begin_offsets,
126 typename std::iterator_traits<
typename
127 std::iterator_traits<_RanSeqs>::value_type::
128 first_type>::value_type>())
132 typedef typename std::iterator_traits<_RanSeqs>::value_type::first_type
134 typedef typename std::iterator_traits<_RanSeqs>::difference_type
136 typedef typename std::iterator_traits<_It>::difference_type
138 typedef typename std::iterator_traits<_It>::value_type _ValueType;
145 _DifferenceType __m =
std::distance(__begin_seqs, __end_seqs), __nn = 0,
148 for (_SeqNumber __i = 0; __i < __m; __i++)
151 __begin_seqs[__i].second);
152 _GLIBCXX_PARALLEL_ASSERT(
154 __begin_seqs[__i].second) > 0);
159 for (_SeqNumber __i = 0; __i < __m; __i++)
160 __begin_offsets[__i] = __begin_seqs[__i].second;
165 _GLIBCXX_PARALLEL_ASSERT(__m != 0);
166 _GLIBCXX_PARALLEL_ASSERT(__nn != 0);
167 _GLIBCXX_PARALLEL_ASSERT(__rank >= 0);
168 _GLIBCXX_PARALLEL_ASSERT(__rank < __nn);
170 _DifferenceType* __ns =
new _DifferenceType[__m];
171 _DifferenceType* __a =
new _DifferenceType[__m];
172 _DifferenceType* __b =
new _DifferenceType[__m];
175 __ns[0] =
std::distance(__begin_seqs[0].first, __begin_seqs[0].second);
177 for (_SeqNumber __i = 0; __i < __m; __i++)
180 __begin_seqs[__i].second);
181 __nmax =
std::max(__nmax, __ns[__i]);
188 __l = (1ULL << __r) - 1;
190 for (_SeqNumber __i = 0; __i < __m; __i++)
200 #define __S(__i) (__begin_seqs[__i].first)
205 for (_SeqNumber __i = 0; __i < __m; __i++)
208 __gnu_sequential::sort(__sample.
begin(), __sample.
end(), __lcomp);
210 for (_SeqNumber __i = 0; __i < __m; __i++)
211 if (__n >= __ns[__i])
215 _DifferenceType __localrank = __rank / __l;
219 __j < __localrank && ((__n + 1) <= __ns[__sample[__j].second]);
221 __a[__sample[__j].second] += __n + 1;
222 for (; __j < __m; __j++)
223 __b[__sample[__j].second] -= __n + 1;
230 _SeqNumber __lmax_seq = -1;
231 const _ValueType* __lmax = 0;
232 for (_SeqNumber __i = 0; __i < __m; __i++)
238 __lmax = &(__S(__i)[__a[__i] - 1]);
244 if (!__comp(__S(__i)[__a[__i] - 1], *__lmax))
246 __lmax = &(__S(__i)[__a[__i] - 1]);
254 for (__i = 0; __i < __m; __i++)
256 _DifferenceType __middle = (__b[__i] + __a[__i]) / 2;
257 if (__lmax && __middle < __ns[__i] &&
260 __a[__i] =
std::min(__a[__i] + __n + 1, __ns[__i]);
265 _DifferenceType __leftsize = 0;
266 for (_SeqNumber __i = 0; __i < __m; __i++)
267 __leftsize += __a[__i] / (__n + 1);
269 _DifferenceType __skew = __rank / (__n + 1) - __leftsize;
279 for (_SeqNumber __i = 0; __i < __m; __i++)
280 if (__b[__i] < __ns[__i])
283 for (; __skew != 0 && !__pq.
empty(); --__skew)
285 _SeqNumber __source = __pq.
top().second;
289 =
std::min(__a[__source] + __n + 1, __ns[__source]);
290 __b[__source] += __n + 1;
292 if (__b[__source] < __ns[__source])
305 for (_SeqNumber __i = 0; __i < __m; __i++)
309 for (; __skew != 0; ++__skew)
311 _SeqNumber __source = __pq.
top().second;
314 __a[__source] -= __n + 1;
315 __b[__source] -= __n + 1;
317 if (__a[__source] > 0)
319 __S(__source)[__a[__source] - 1], __source));
333 _ValueType* __maxleft = 0;
334 _ValueType* __minright = 0;
335 for (_SeqNumber __i = 0; __i < __m; __i++)
340 __maxleft = &(__S(__i)[__a[__i] - 1]);
344 if (!__comp(__S(__i)[__a[__i] - 1], *__maxleft))
345 __maxleft = &(__S(__i)[__a[__i] - 1]);
348 if (__b[__i] < __ns[__i])
351 __minright = &(__S(__i)[__b[__i]]);
355 if (__comp(__S(__i)[__b[__i]], *__minright))
356 __minright = &(__S(__i)[__b[__i]]);
361 _SeqNumber __seq = 0;
362 for (_SeqNumber __i = 0; __i < __m; __i++)
363 __begin_offsets[__i] = __S(__i) + __a[__i];
385 template<
typename _Tp,
typename _RanSeqs,
typename _RankType,
394 typedef typename std::iterator_traits<_RanSeqs>::value_type::first_type
396 typedef typename std::iterator_traits<_RanSeqs>::difference_type
398 typedef typename std::iterator_traits<_It>::difference_type
406 _DifferenceType __m =
std::distance(__begin_seqs, __end_seqs);
407 _DifferenceType __nn = 0;
408 _DifferenceType __nmax, __n, __r;
410 for (_SeqNumber __i = 0; __i < __m; __i++)
412 __begin_seqs[__i].second);
414 if (__m == 0 || __nn == 0 || __rank < 0 || __rank >= __nn)
421 _DifferenceType* __ns =
new _DifferenceType[__m];
422 _DifferenceType* __a =
new _DifferenceType[__m];
423 _DifferenceType* __b =
new _DifferenceType[__m];
426 __ns[0] =
std::distance(__begin_seqs[0].first, __begin_seqs[0].second);
428 for (_SeqNumber __i = 0; __i < __m; ++__i)
431 __begin_seqs[__i].second);
432 __nmax =
std::max(__nmax, __ns[__i]);
441 for (_SeqNumber __i = 0; __i < __m; ++__i)
451 #define __S(__i) (__begin_seqs[__i].first)
456 for (_SeqNumber __i = 0; __i < __m; __i++)
459 __gnu_sequential::sort(__sample.
begin(), __sample.
end(),
463 for (_SeqNumber __i = 0; __i < __m; __i++)
464 if (__n >= __ns[__i])
468 _DifferenceType __localrank = __rank / __l;
472 __j < __localrank && ((__n + 1) <= __ns[__sample[__j].second]);
474 __a[__sample[__j].second] += __n + 1;
475 for (; __j < __m; ++__j)
476 __b[__sample[__j].second] -= __n + 1;
483 const _Tp* __lmax = 0;
484 for (_SeqNumber __i = 0; __i < __m; ++__i)
489 __lmax = &(__S(__i)[__a[__i] - 1]);
492 if (__comp(*__lmax, __S(__i)[__a[__i] - 1]))
493 __lmax = &(__S(__i)[__a[__i] - 1]);
499 for (__i = 0; __i < __m; __i++)
501 _DifferenceType __middle = (__b[__i] + __a[__i]) / 2;
502 if (__lmax && __middle < __ns[__i]
503 && __comp(__S(__i)[__middle], *__lmax))
504 __a[__i] =
std::min(__a[__i] + __n + 1, __ns[__i]);
509 _DifferenceType __leftsize = 0;
510 for (_SeqNumber __i = 0; __i < __m; ++__i)
511 __leftsize += __a[__i] / (__n + 1);
513 _DifferenceType __skew = __rank / (__n + 1) - __leftsize;
523 for (_SeqNumber __i = 0; __i < __m; ++__i)
524 if (__b[__i] < __ns[__i])
527 for (; __skew != 0 && !__pq.
empty(); --__skew)
529 _SeqNumber __source = __pq.
top().second;
533 =
std::min(__a[__source] + __n + 1, __ns[__source]);
534 __b[__source] += __n + 1;
536 if (__b[__source] < __ns[__source])
548 for (_SeqNumber __i = 0; __i < __m; ++__i)
552 for (; __skew != 0; ++__skew)
554 _SeqNumber __source = __pq.
top().second;
557 __a[__source] -= __n + 1;
558 __b[__source] -= __n + 1;
560 if (__a[__source] > 0)
562 __S(__source)[__a[__source] - 1], __source));
576 bool __maxleftset =
false, __minrightset =
false;
579 _Tp __maxleft, __minright;
580 for (_SeqNumber __i = 0; __i < __m; ++__i)
586 __maxleft = __S(__i)[__a[__i] - 1];
592 if (__comp(__maxleft, __S(__i)[__a[__i] - 1]))
593 __maxleft = __S(__i)[__a[__i] - 1];
596 if (__b[__i] < __ns[__i])
600 __minright = __S(__i)[__b[__i]];
601 __minrightset =
true;
606 if (__comp(__S(__i)[__b[__i]], __minright))
607 __minright = __S(__i)[__b[__i]];
614 if (!__maxleftset || __comp(__minright, __maxleft))
624 for (_SeqNumber __i = 0; __i < __m; ++__i)
627 = std::lower_bound(__S(__i), __S(__i) + __ns[__i],
630 __offset += __a[__i] - lb;
_Tp multiseq_selection(_RanSeqs __begin_seqs, _RanSeqs __end_seqs, _RankType __rank, _RankType &__offset, _Compare __comp=std::less< _Tp >())
Selects the element at a certain global __rank from several sorted sequences.
_T2 second
first is a copy of the first object
constexpr pair< typename __decay_and_strip< _T1 >::__type, typename __decay_and_strip< _T2 >::__type > make_pair(_T1 &&__x, _T2 &&__y)
A convenience wrapper for creating a pair from two objects.
void push(const value_type &__x)
Add data to the queue.
Compare __a pair of types lexicographically, ascending.
_T1 first
second_type is the second bound type
Struct holding two objects of arbitrary type.
Base class for all library exceptions.
Forces sequential execution at compile time.
_Tp __round_up_to_pow2(_Tp __x)
Round up to the next greater power of 2.
iterator_traits< _InputIterator >::difference_type distance(_InputIterator __first, _InputIterator __last)
A generalization of pointer arithmetic.
const _Tp & max(const _Tp &, const _Tp &)
This does what you think it does.
_Size __rd_log2(_Size __n)
Calculates the rounded-down logarithm of __n for base 2.
One of the comparison functors.
iterator begin() noexcept
const _Tp & min(const _Tp &, const _Tp &)
This does what you think it does.
void push_back(const value_type &__x)
Add data to the end of the vector.
void multiseq_partition(_RanSeqs __begin_seqs, _RanSeqs __end_seqs, _RankType __rank, _RankIterator __begin_offsets, _Compare __comp=std::less< typename std::iterator_traits< typename std::iterator_traits< _RanSeqs >::value_type::first_type >::value_type >())
Splits several sorted sequences at a certain global __rank, resulting in a splitting point for each s...
#define _GLIBCXX_CALL(__n)
Macro to produce log message when entering a function.
void pop()
Removes first element.
A standard container which offers fixed time access to individual elements in any order...
A standard container automatically sorting its contents.
const_reference top() const
Compare __a pair of types lexicographically, descending.