__gnu_parallel(3cxx) | __gnu_parallel(3cxx) |
NAME¶
__gnu_parallel - GNU parallel code for public use.
SYNOPSIS¶
Classes¶
struct __accumulate_binop_reduct
General reduction, using a binary operator. struct
__accumulate_selector
std::accumulate() selector. struct __adjacent_difference_selector
Selector that returns the difference between two adjacent __elements. struct
__adjacent_find_selector
Test predicate on two adjacent elements. class __binder1st
Similar to std::binder1st, but giving the argument types explicitly. class
__binder2nd
Similar to std::binder2nd, but giving the argument types explicitly. struct
__count_if_selector
std::count_if () selector. struct __count_selector
std::count() selector. struct __fill_selector
std::fill() selector. struct __find_first_of_selector
Test predicate on several elements. struct __find_if_selector
Test predicate on a single element, used for std::find() and std::find_if ().
struct __for_each_selector
std::for_each() selector. struct __generate_selector
std::generate() selector. struct __generic_find_selector
Base class of all __gnu_parallel::__find_template selectors. struct
__generic_for_each_selector
Generic __selector for embarrassingly parallel functions. struct
__identity_selector
Selector that just returns the passed iterator. struct
__inner_product_selector
std::inner_product() selector. struct __max_element_reduct
Reduction for finding the maximum element, using a comparator. struct
__min_element_reduct
Reduction for finding the maximum element, using a comparator. struct
__mismatch_selector
Test inverted predicate on a single element. struct
__multiway_merge_3_variant_sentinel_switch
Switch for 3-way merging with __sentinels turned off. struct
__multiway_merge_3_variant_sentinel_switch< true, _RAIterIterator,
_RAIter3, _DifferenceTp, _Compare >
Switch for 3-way merging with __sentinels turned on. struct
__multiway_merge_4_variant_sentinel_switch
Switch for 4-way merging with __sentinels turned off. struct
__multiway_merge_4_variant_sentinel_switch< true, _RAIterIterator,
_RAIter3, _DifferenceTp, _Compare >
Switch for 4-way merging with __sentinels turned on. struct
__multiway_merge_k_variant_sentinel_switch
Switch for k-way merging with __sentinels turned on. struct
__multiway_merge_k_variant_sentinel_switch< false, __stable,
_RAIterIterator, _RAIter3, _DifferenceTp, _Compare >
Switch for k-way merging with __sentinels turned off. struct
__replace_if_selector
std::replace() selector. struct __replace_selector
std::replace() selector. struct __transform1_selector
std::transform() __selector, one input sequence variant. struct
__transform2_selector
std::transform() __selector, two input sequences variant. class
__unary_negate
Similar to std::unary_negate, but giving the argument types explicitly. struct
_DRandomShufflingGlobalData
Data known to every thread participating in
__gnu_parallel::__parallel_random_shuffle(). struct _DRSSorterPU
Local data for a thread participating in
__gnu_parallel::__parallel_random_shuffle(). struct _DummyReduct
Reduction function doing nothing. class _EqualFromLess
Constructs predicate for equality from strict weak ordering predicate. struct
_EqualTo
Similar to std::equal_to, but allows two different types. class
_GuardedIterator
_Iterator wrapper supporting an implicit supremum at the end of the sequence,
dominating all comparisons. class _IteratorPair
A pair of iterators. The usual iterator operations are applied to both child
iterators. class _IteratorTriple
A triple of iterators. The usual iterator operations are applied to all three
child iterators. struct _Job
One __job for a certain thread. struct _Less
Similar to std::less, but allows two different types. class
_Lexicographic
Compare __a pair of types lexicographically, ascending. class
_LexicographicReverse
Compare __a pair of types lexicographically, descending. class
_LoserTree
Stable _LoserTree variant. class _LoserTree< false, _Tp, _Compare
>
Unstable _LoserTree variant. class _LoserTreeBase
Guarded loser/tournament tree. class _LoserTreePointer
Stable _LoserTree implementation. class _LoserTreePointer< false, _Tp,
_Compare >
Unstable _LoserTree implementation. class _LoserTreePointerBase
Base class of _Loser Tree implementation using pointers. class
_LoserTreePointerUnguarded
Stable unguarded _LoserTree variant storing pointers. class
_LoserTreePointerUnguarded< false, _Tp, _Compare >
Unstable unguarded _LoserTree variant storing pointers. class
_LoserTreePointerUnguardedBase
Unguarded loser tree, keeping only pointers to the elements in the tree
structure. struct _LoserTreeTraits
Traits for determining whether the loser tree should use pointers or copies.
class _LoserTreeUnguarded
Stable implementation of unguarded _LoserTree. class
_LoserTreeUnguarded< false, _Tp, _Compare >
Non-Stable implementation of unguarded _LoserTree. class
_LoserTreeUnguardedBase
Base class for unguarded _LoserTree implementation. struct _Multiplies
Similar to std::multiplies, but allows two different types. struct
_Nothing
Functor doing nothing. struct _Piece
Subsequence description. struct _Plus
Similar to std::plus, but allows two different types. struct
_PMWMSSortingData
Data accessed by all threads. class _PseudoSequence
Sequence that conceptually consists of multiple copies of the same element.
The copies are not stored explicitly, of course. class
_PseudoSequenceIterator
_Iterator associated with __gnu_parallel::_PseudoSequence. If features the
usual random-access iterator functionality. struct _QSBThreadLocal
Information local to one thread in the parallel quicksort run. class
_RandomNumber
Random number generator, based on the Mersenne twister. class
_RestrictedBoundedConcurrentQueue
Double-ended queue of bounded size, allowing lock-free atomic access.
push_front() and pop_front() must not be called concurrently to each other,
while pop_back() can be called concurrently at all times. empty(),
size(), and top() are intentionally not provided. Calling them would
not make sense in a concurrent setting. struct _SamplingSorter
Stable sorting functor. struct _SamplingSorter< false, _RAIter,
_StrictWeakOrdering >
Non-__stable sorting functor. struct _Settings
class _Settings Run-time settings for the parallel mode including all tunable
parameters. struct _SplitConsistently
Split consistently. struct _SplitConsistently< false, _RAIter, _Compare,
_SortingPlacesIterator >
Split by sampling. struct _SplitConsistently< true, _RAIter, _Compare,
_SortingPlacesIterator >
Split by exact splitting. struct balanced_quicksort_tag
Forces parallel sorting using balanced quicksort at compile time. struct
balanced_tag
Recommends parallel execution using dynamic load-balancing at compile time.
struct constant_size_blocks_tag
Selects the constant block size variant for std::find(). struct
default_parallel_tag
Recommends parallel execution using the default parallel algorithm. struct
equal_split_tag
Selects the equal splitting variant for std::find(). struct exact_tag
Forces parallel merging with exact splitting, at compile time. struct
find_tag
Base class for for std::find() variants. struct growing_blocks_tag
Selects the growing block size variant for std::find(). struct
multiway_mergesort_exact_tag
Forces parallel sorting using multiway mergesort with exact splitting at
compile time. struct multiway_mergesort_sampling_tag
Forces parallel sorting using multiway mergesort with splitting by sampling at
compile time. struct multiway_mergesort_tag
Forces parallel sorting using multiway mergesort at compile time. struct
omp_loop_static_tag
Recommends parallel execution using OpenMP static load-balancing at compile
time. struct omp_loop_tag
Recommends parallel execution using OpenMP dynamic load-balancing at compile
time. struct parallel_tag
Recommends parallel execution at compile time, optionally using a
user-specified number of threads. struct quicksort_tag
Forces parallel sorting using unbalanced quicksort at compile time. struct
sampling_tag
Forces parallel merging with exact splitting, at compile time. struct
sequential_tag
Forces sequential execution at compile time. struct unbalanced_tag
Recommends parallel execution using static load-balancing at compile time.
Typedefs¶
typedef unsigned short _BinIndex
Type to hold the index of a bin. typedef int64_t _CASable
Longest compare-and-swappable integer type on this platform. typedef uint64_t
_SequenceIndex
Unsigned integer to index __elements. The total number of elements for each
algorithm must fit into this type. typedef uint16_t _ThreadIndex
Unsigned integer to index a thread number. The maximum thread number (for each
processor) must fit into this type.
Enumerations¶
enum _AlgorithmStrategy { heuristic,
force_sequential, force_parallel } Strategies for run-time
algorithm selection: "
enum _FindAlgorithm { GROWING_BLOCKS,
CONSTANT_SIZE_BLOCKS, EQUAL_SPLIT } Find algorithms: "
enum _MultiwayMergeAlgorithm { LOSER_TREE } Merging algorithms:
"
enum _Parallelism { sequential, parallel_unbalanced,
parallel_balanced, parallel_omp_loop,
parallel_omp_loop_static, parallel_taskqueue } Run-time
equivalents for the compile-time tags. "
enum _PartialSumAlgorithm { RECURSIVE, LINEAR } Partial
sum algorithms: recursive, linear. "
enum _SortAlgorithm { MWMS, QS, QS_BALANCED }
Sorting algorithms: "
enum _SplittingAlgorithm { SAMPLING, EXACT }
Sorting/merging algorithms: sampling, __exact. "
Functions¶
template<typename _Tp > _Tp __add_omp (volatile _Tp
*__ptr, _Tp __addend)
template<typename _RAIter , typename _DifferenceTp > void
__calc_borders (_RAIter __elements, _DifferenceTp __length,
_DifferenceTp *__off)
Precalculate __advances for Knuth-Morris-Pratt algorithm. template<typename
_Tp > bool __cas_omp (volatile _Tp *__ptr, _Tp __comparand, _Tp
__replacement)
template<typename _Tp > bool __compare_and_swap (volatile _Tp
*__ptr, _Tp __comparand, _Tp __replacement)
Compare-and-swap. template<typename _IIter , typename _OutputIterator >
_OutputIterator __copy_tail (std::pair< _IIter, _IIter >
__b, std::pair< _IIter, _IIter > __e, _OutputIterator __r)
void __decode2 (_CASable __x, int &__a, int &__b)
Decode two integers from one gnu_parallel::_CASable. template<typename
_RAIter , typename _DifferenceTp > void __determine_samples
(_PMWMSSortingData< _RAIter > *__sd, _DifferenceTp
__num_samples)
Select _M_samples from a sequence. _CASable __encode2 (int __a,
int __b)
Encode two integers into one gnu_parallel::_CASable. template<typename
_DifferenceType , typename _OutputIterator > _OutputIterator
__equally_split (_DifferenceType __n, _ThreadIndex
__num_threads, _OutputIterator __s)
function to split a sequence into parts of almost equal size.
template<typename _DifferenceType > _DifferenceType
__equally_split_point (_DifferenceType __n, _ThreadIndex
__num_threads, _ThreadIndex __thread_no)
function to split a sequence into parts of almost equal size.
template<typename _Tp > _Tp __fetch_and_add (volatile _Tp
*__ptr, _Tp __addend)
Add a value to a variable, atomically. template<typename _RAIter1 ,
typename _RAIter2 , typename _Pred , typename _Selector >
std::pair< _RAIter1, _RAIter2 > __find_template
(_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred,
_Selector __selector)
Parallel std::find, switch for different algorithms. template<typename
_RAIter1 , typename _RAIter2 , typename _Pred , typename _Selector >
std::pair< _RAIter1, _RAIter2 > __find_template
(_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred,
_Selector __selector, equal_split_tag)
Parallel std::find, equal splitting variant. template<typename _RAIter1 ,
typename _RAIter2 , typename _Pred , typename _Selector >
std::pair< _RAIter1, _RAIter2 > __find_template
(_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred,
_Selector __selector, growing_blocks_tag)
Parallel std::find, growing block size variant. template<typename _RAIter1
, typename _RAIter2 , typename _Pred , typename _Selector >
std::pair< _RAIter1, _RAIter2 > __find_template
(_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred,
_Selector __selector, constant_size_blocks_tag)
Parallel std::find, constant block size variant. template<typename _IIter ,
typename _UserOp , typename _Functionality , typename _Red , typename
_Result > _UserOp __for_each_template_random_access (_IIter
__begin, _IIter __end, _UserOp __user_op, _Functionality
&__functionality, _Red __reduction, _Result __reduction_start, _Result
&__output, typename std::iterator_traits< _IIter
>::difference_type __bound, _Parallelism __parallelism_tag)
Chose the desired algorithm by evaluating __parallelism_tag.
template<typename _RAIter , typename _Op , typename _Fu , typename _Red ,
typename _Result > _Op __for_each_template_random_access_ed
(_RAIter __begin, _RAIter __end, _Op __o, _Fu &__f, _Red __r, _Result
__base, _Result &__output, typename std::iterator_traits< _RAIter
>::difference_type __bound)
Embarrassingly parallel algorithm for random access iterators, using
hand-crafted parallelization by equal splitting the work.
template<typename _RAIter , typename _Op , typename _Fu , typename _Red ,
typename _Result > _Op __for_each_template_random_access_omp_loop
(_RAIter __begin, _RAIter __end, _Op __o, _Fu &__f, _Red __r, _Result
__base, _Result &__output, typename std::iterator_traits< _RAIter
>::difference_type __bound)
Embarrassingly parallel algorithm for random access iterators, using an OpenMP
for loop. template<typename _RAIter , typename _Op , typename _Fu ,
typename _Red , typename _Result > _Op
__for_each_template_random_access_omp_loop_static (_RAIter __begin,
_RAIter __end, _Op __o, _Fu &__f, _Red __r, _Result __base, _Result
&__output, typename std::iterator_traits< _RAIter
>::difference_type __bound)
Embarrassingly parallel algorithm for random access iterators, using an OpenMP
for loop with static scheduling. template<typename _RAIter , typename _Op
, typename _Fu , typename _Red , typename _Result > _Op
__for_each_template_random_access_workstealing (_RAIter __begin,
_RAIter __end, _Op __op, _Fu &__f, _Red __r, _Result __base, _Result
&__output, typename std::iterator_traits< _RAIter
>::difference_type __bound)
Work stealing algorithm for random access iterators. _ThreadIndex
__get_max_threads ()
bool __is_parallel (const _Parallelism __p)
template<typename _IIter , typename _Compare > bool __is_sorted
(_IIter __begin, _IIter __end, _Compare __comp)
Check whether [__begin, __end) is sorted according to __comp.
template<typename _RAIter , typename _Compare > _RAIter
__median_of_three_iterators (_RAIter __a, _RAIter __b, _RAIter __c,
_Compare __comp)
Compute the median of three referenced elements, according to __comp.
template<typename _RAIter1 , typename _RAIter2 , typename _OutputIterator
, typename _DifferenceTp , typename _Compare > _OutputIterator
__merge_advance (_RAIter1 &__begin1, _RAIter1 __end1, _RAIter2
&__begin2, _RAIter2 __end2, _OutputIterator __target, _DifferenceTp
__max_length, _Compare __comp)
Merge routine being able to merge only the __max_length smallest elements.
template<typename _RAIter1 , typename _RAIter2 , typename
_OutputIterator , typename _DifferenceTp , typename _Compare >
_OutputIterator __merge_advance_movc (_RAIter1 &__begin1,
_RAIter1 __end1, _RAIter2 &__begin2, _RAIter2 __end2, _OutputIterator
__target, _DifferenceTp __max_length, _Compare __comp)
Merge routine being able to merge only the __max_length smallest elements.
template<typename _RAIter1 , typename _RAIter2 , typename
_OutputIterator , typename _DifferenceTp , typename _Compare >
_OutputIterator __merge_advance_usual (_RAIter1 &__begin1,
_RAIter1 __end1, _RAIter2 &__begin2, _RAIter2 __end2, _OutputIterator
__target, _DifferenceTp __max_length, _Compare __comp)
Merge routine being able to merge only the __max_length smallest elements.
template<typename _RAIter1 , typename _RAIter2 , typename _RAIter3 ,
typename _Compare > _RAIter3 __parallel_merge_advance (_RAIter1
&__begin1, _RAIter1 __end1, _RAIter2 &__begin2, _RAIter2 __end2,
_RAIter3 __target, typename std::iterator_traits< _RAIter1
>::difference_type __max_length, _Compare __comp)
Merge routine fallback to sequential in case the iterators of the two input
sequences are of different type. template<typename _RAIter1 , typename
_RAIter3 , typename _Compare > _RAIter3 __parallel_merge_advance
(_RAIter1 &__begin1, _RAIter1 __end1, _RAIter1 &__begin2, _RAIter1
__end2, _RAIter3 __target, typename std::iterator_traits< _RAIter1
>::difference_type __max_length, _Compare __comp)
Parallel merge routine being able to merge only the __max_length smallest
elements. template<typename _RAIter , typename _Compare > void
__parallel_nth_element (_RAIter __begin, _RAIter __nth, _RAIter
__end, _Compare __comp)
Parallel implementation of std::nth_element(). template<typename _RAIter ,
typename _Compare > void __parallel_partial_sort (_RAIter __begin,
_RAIter __middle, _RAIter __end, _Compare __comp)
Parallel implementation of std::partial_sort(). template<typename _IIter ,
typename _OutputIterator , typename _BinaryOperation > _OutputIterator
__parallel_partial_sum (_IIter __begin, _IIter __end, _OutputIterator
__result, _BinaryOperation __bin_op)
Parallel partial sum front-__end. template<typename _IIter , typename
_OutputIterator , typename _BinaryOperation > _OutputIterator
__parallel_partial_sum_basecase (_IIter __begin, _IIter __end,
_OutputIterator __result, _BinaryOperation __bin_op, typename
std::iterator_traits< _IIter >::value_type __value)
Base case prefix sum routine. template<typename _IIter , typename
_OutputIterator , typename _BinaryOperation > _OutputIterator
__parallel_partial_sum_linear (_IIter __begin, _IIter __end,
_OutputIterator __result, _BinaryOperation __bin_op, typename
std::iterator_traits< _IIter >::difference_type __n)
Parallel partial sum implementation, two-phase approach, no recursion.
template<typename _RAIter , typename _Predicate >
std::iterator_traits< _RAIter >::difference_type
__parallel_partition (_RAIter __begin, _RAIter __end, _Predicate
__pred, _ThreadIndex __num_threads)
Parallel implementation of std::partition. template<typename _RAIter ,
typename _RandomNumberGenerator > void __parallel_random_shuffle
(_RAIter __begin, _RAIter __end, _RandomNumberGenerator
__rng=_RandomNumber())
Parallel random public call. template<typename _RAIter , typename
_RandomNumberGenerator > void __parallel_random_shuffle_drs
(_RAIter __begin, _RAIter __end, typename std::iterator_traits< _RAIter
>::difference_type __n, _ThreadIndex __num_threads,
_RandomNumberGenerator &__rng)
Main parallel random shuffle step. template<typename _RAIter , typename
_RandomNumberGenerator > void __parallel_random_shuffle_drs_pu
(_DRSSorterPU< _RAIter, _RandomNumberGenerator > *__pus)
Random shuffle code executed by each thread. template<typename _IIter ,
typename _OutputIterator , typename _Compare > _OutputIterator
__parallel_set_difference (_IIter __begin1, _IIter __end1, _IIter
__begin2, _IIter __end2, _OutputIterator __result, _Compare __comp)
template<typename _IIter , typename _OutputIterator , typename _Compare
> _OutputIterator __parallel_set_intersection (_IIter __begin1,
_IIter __end1, _IIter __begin2, _IIter __end2, _OutputIterator __result,
_Compare __comp)
template<typename _IIter , typename _OutputIterator , typename _Operation
> _OutputIterator __parallel_set_operation (_IIter __begin1,
_IIter __end1, _IIter __begin2, _IIter __end2, _OutputIterator __result,
_Operation __op)
template<typename _IIter , typename _OutputIterator , typename _Compare
> _OutputIterator __parallel_set_symmetric_difference (_IIter
__begin1, _IIter __end1, _IIter __begin2, _IIter __end2, _OutputIterator
__result, _Compare __comp)
template<typename _IIter , typename _OutputIterator , typename _Compare
> _OutputIterator __parallel_set_union (_IIter __begin1, _IIter
__end1, _IIter __begin2, _IIter __end2, _OutputIterator __result, _Compare
__comp)
template<bool __stable, typename _RAIter , typename _Compare , typename
_Parallelism > void __parallel_sort (_RAIter __begin, _RAIter
__end, _Compare __comp, _Parallelism __parallelism)
template<bool __stable, typename _RAIter , typename _Compare > void
__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp,
multiway_mergesort_tag __parallelism)
Choose multiway mergesort, splitting variant at run-time, for parallel
sorting. template<bool __stable, typename _RAIter , typename _Compare
> void __parallel_sort (_RAIter __begin, _RAIter __end, _Compare
__comp, multiway_mergesort_exact_tag __parallelism)
Choose multiway mergesort with exact splitting, for parallel sorting.
template<bool __stable, typename _RAIter , typename _Compare > void
__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp,
multiway_mergesort_sampling_tag __parallelism)
Choose multiway mergesort with splitting by sampling, for parallel sorting.
template<bool __stable, typename _RAIter , typename _Compare > void
__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp,
quicksort_tag __parallelism)
Choose quicksort for parallel sorting. template<bool __stable, typename
_RAIter , typename _Compare > void __parallel_sort (_RAIter
__begin, _RAIter __end, _Compare __comp, balanced_quicksort_tag
__parallelism)
Choose balanced quicksort for parallel sorting. template<bool __stable,
typename _RAIter , typename _Compare > void __parallel_sort
(_RAIter __begin, _RAIter __end, _Compare __comp,
default_parallel_tag __parallelism)
Choose multiway mergesort with exact splitting, for parallel sorting.
template<bool __stable, typename _RAIter , typename _Compare > void
__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp,
parallel_tag __parallelism)
Choose a parallel sorting algorithm. template<typename _RAIter , typename
_Compare > void __parallel_sort_qs (_RAIter __begin, _RAIter
__end, _Compare __comp, _ThreadIndex __num_threads)
Unbalanced quicksort main call. template<typename _RAIter , typename
_Compare > void __parallel_sort_qs_conquer (_RAIter __begin,
_RAIter __end, _Compare __comp, _ThreadIndex __num_threads)
Unbalanced quicksort conquer step. template<typename _RAIter , typename
_Compare > std::iterator_traits< _RAIter >::difference_type
__parallel_sort_qs_divide (_RAIter __begin, _RAIter __end, _Compare
__comp, typename std::iterator_traits< _RAIter >::difference_type
__pivot_rank, typename std::iterator_traits< _RAIter
>::difference_type __num_samples, _ThreadIndex __num_threads)
Unbalanced quicksort divide step. template<typename _RAIter , typename
_Compare > void __parallel_sort_qsb (_RAIter __begin, _RAIter
__end, _Compare __comp, _ThreadIndex __num_threads)
Top-level quicksort routine. template<typename _IIter , class
_OutputIterator , class _BinaryPredicate > _OutputIterator
__parallel_unique_copy (_IIter __first, _IIter __last,
_OutputIterator __result, _BinaryPredicate __binary_pred)
Parallel std::unique_copy(), w/__o explicit equality predicate.
template<typename _IIter , class _OutputIterator > _OutputIterator
__parallel_unique_copy (_IIter __first, _IIter __last,
_OutputIterator __result)
Parallel std::unique_copy(), without explicit equality predicate.
template<typename _RAIter , typename _Compare > void
__qsb_conquer (_QSBThreadLocal< _RAIter > **__tls,
_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __iam,
_ThreadIndex __num_threads, bool __parent_wait)
Quicksort conquer step. template<typename _RAIter , typename _Compare >
std::iterator_traits< _RAIter >::difference_type __qsb_divide
(_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex
__num_threads)
Balanced quicksort divide step. template<typename _RAIter , typename
_Compare > void __qsb_local_sort_with_helping
(_QSBThreadLocal< _RAIter > **__tls, _Compare &__comp,
_ThreadIndex __iam, bool __wait)
Quicksort step doing load-balanced local sort. template<typename
_RandomNumberGenerator > int __random_number_pow2 (int __logp,
_RandomNumberGenerator &__rng)
Generate a random number in [0,2^__logp). template<typename _Size
> _Size __rd_log2 (_Size __n)
Calculates the rounded-down logarithm of __n for base 2.
template<typename _Tp > _Tp __round_up_to_pow2 (_Tp __x)
Round up to the next greater power of 2. template<typename __RAIter1 ,
typename __RAIter2 , typename _Pred > __RAIter1 __search_template
(__RAIter1 __begin1, __RAIter1 __end1, __RAIter2 __begin2, __RAIter2 __end2,
_Pred __pred)
Parallel std::search. template<bool __stable, bool __sentinels, typename
_RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename
_Compare > _RAIter3 __sequential_multiway_merge (_RAIterIterator
__seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, const typename
std::iterator_traits< typename std::iterator_traits< _RAIterIterator
>::value_type::first_type >::value_type &__sentinel, _DifferenceTp
__length, _Compare __comp)
Sequential multi-way merging switch. template<typename _RAIter , typename
_RandomNumberGenerator > void __sequential_random_shuffle (_RAIter
__begin, _RAIter __end, _RandomNumberGenerator &__rng)
Sequential cache-efficient random shuffle. template<typename _IIter >
void __shrink (std::vector< _IIter > &__os_starts,
size_t &__count_to_two, size_t &__range_length)
Combines two ranges into one and thus halves the number of ranges.
template<typename _IIter > void __shrink_and_double
(std::vector< _IIter > &__os_starts, size_t
&__count_to_two, size_t &__range_length, const bool __make_twice)
Shrinks and doubles the ranges. void __yield ()
Yield control to another thread, without waiting for the end of the time
slice. template<typename _IIter , typename _FunctorType > size_t
list_partition (const _IIter __begin, const _IIter __end, _IIter
*__starts, size_t *__lengths, const int __num_parts, _FunctorType &__f,
int __oversampling=0)
Splits a sequence given by input iterators into parts of almost equal size.
template<typename _Tp > const _Tp & max (const _Tp
&__a, const _Tp &__b)
Equivalent to std::max. template<typename _Tp > const _Tp &
min (const _Tp &__a, const _Tp &__b)
Equivalent to std::min. template<typename _RanSeqs , typename _RankType ,
typename _RankIterator , typename _Compare > 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 sequence. The sequences are passed via a sequence
of random-access iterator pairs, none of the sequences may be empty. If
there are several equal elements across the split, the ones on the __left
side will be chosen from sequences with smaller number. template<typename
_Tp , typename _RanSeqs , typename _RankType , typename _Compare > _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.
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut multiway_merge
(_RAIterPairIterator __seqs_begin, _RAIterPairIterator __seqs_end,
_RAIterOut __target, _DifferenceTp __length, _Compare __comp,
__gnu_parallel::sequential_tag)
Multiway Merge Frontend. template<typename _RAIterPairIterator , typename
_RAIterOut , typename _DifferenceTp , typename _Compare > _RAIterOut
multiway_merge (_RAIterPairIterator __seqs_begin, _RAIterPairIterator
__seqs_end, _RAIterOut __target, _DifferenceTp __length, _Compare __comp,
__gnu_parallel::exact_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut multiway_merge
(_RAIterPairIterator __seqs_begin, _RAIterPairIterator __seqs_end,
_RAIterOut __target, _DifferenceTp __length, _Compare __comp,
__gnu_parallel::sampling_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut multiway_merge
(_RAIterPairIterator __seqs_begin, _RAIterPairIterator __seqs_end,
_RAIterOut __target, _DifferenceTp __length, _Compare __comp,
parallel_tag __tag=parallel_tag(0))
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut multiway_merge
(_RAIterPairIterator __seqs_begin, _RAIterPairIterator __seqs_end,
_RAIterOut __target, _DifferenceTp __length, _Compare __comp,
default_parallel_tag __tag)
template<template< typename RAI, typename C > class iterator,
typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp ,
typename _Compare > _RAIter3 multiway_merge_3_variant
(_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3
__target, _DifferenceTp __length, _Compare __comp)
Highly efficient 3-way merging procedure. template<template< typename
RAI, typename C > class iterator, typename _RAIterIterator , typename
_RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3
multiway_merge_4_variant (_RAIterIterator __seqs_begin,
_RAIterIterator __seqs_end, _RAIter3 __target, _DifferenceTp __length,
_Compare __comp)
Highly efficient 4-way merging procedure. template<bool __stable, typename
_RAIterIterator , typename _Compare , typename _DifferenceType > void
multiway_merge_exact_splitting (_RAIterIterator __seqs_begin,
_RAIterIterator __seqs_end, _DifferenceType __length, _DifferenceType
__total_length, _Compare __comp, std::vector< std::pair<
_DifferenceType, _DifferenceType > > *__pieces)
Exact splitting for parallel multiway-merge routine. template<typename _LT
, typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp ,
typename _Compare > _RAIter3 multiway_merge_loser_tree
(_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3
__target, _DifferenceTp __length, _Compare __comp)
Multi-way merging procedure for a high branching factor, guarded case.
template<typename UnguardedLoserTree , typename _RAIterIterator ,
typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3
multiway_merge_loser_tree_sentinel (_RAIterIterator __seqs_begin,
_RAIterIterator __seqs_end, _RAIter3 __target, const typename
std::iterator_traits< typename std::iterator_traits< _RAIterIterator
>::value_type::first_type >::value_type &__sentinel, _DifferenceTp
__length, _Compare __comp)
Multi-way merging procedure for a high branching factor, requiring sentinels
to exist. template<typename _LT , typename _RAIterIterator , typename
_RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3
multiway_merge_loser_tree_unguarded (_RAIterIterator __seqs_begin,
_RAIterIterator __seqs_end, _RAIter3 __target, const typename
std::iterator_traits< typename std::iterator_traits< _RAIterIterator
>::value_type::first_type >::value_type &__sentinel, _DifferenceTp
__length, _Compare __comp)
Multi-way merging procedure for a high branching factor, unguarded case.
template<bool __stable, typename _RAIterIterator , typename _Compare ,
typename _DifferenceType > void multiway_merge_sampling_splitting
(_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _DifferenceType
__length, _DifferenceType __total_length, _Compare __comp,
std::vector< std::pair< _DifferenceType, _DifferenceType
> > *__pieces)
Sampling based splitting for parallel multiway-merge routine.
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, __gnu_parallel::sequential_tag)
Multiway Merge Frontend. template<typename _RAIterPairIterator , typename
_RAIterOut , typename _DifferenceTp , typename _Compare > _RAIterOut
multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, __gnu_parallel::exact_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, sampling_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, parallel_tag __tag=parallel_tag(0))
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, default_parallel_tag __tag)
template<bool __stable, bool __sentinels, typename _RAIterIterator ,
typename _RAIter3 , typename _DifferenceTp , typename _Splitter , typename
_Compare > _RAIter3 parallel_multiway_merge (_RAIterIterator
__seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, _Splitter
__splitter, _DifferenceTp __length, _Compare __comp, _ThreadIndex
__num_threads)
Parallel multi-way merge routine. template<bool __stable, bool __exact,
typename _RAIter , typename _Compare > void parallel_sort_mwms
(_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex
__num_threads)
PMWMS main call. template<bool __stable, bool __exact, typename _RAIter ,
typename _Compare > void parallel_sort_mwms_pu
(_PMWMSSortingData< _RAIter > *__sd, _Compare &__comp)
PMWMS code executed by each thread. template<typename _RAIterPairIterator ,
typename _RAIterOut , typename _DifferenceTp , typename _Compare >
_RAIterOut stable_multiway_merge (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, __gnu_parallel::sequential_tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, __gnu_parallel::exact_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, sampling_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, parallel_tag __tag=parallel_tag(0))
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, default_parallel_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, __gnu_parallel::sequential_tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, __gnu_parallel::exact_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, sampling_tag __tag)
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, parallel_tag __tag=parallel_tag(0))
template<typename _RAIterPairIterator , typename _RAIterOut , typename
_DifferenceTp , typename _Compare > _RAIterOut
stable_multiway_merge_sentinels (_RAIterPairIterator __seqs_begin,
_RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length,
_Compare __comp, default_parallel_tag __tag)
Variables¶
static const int _CASable_bits
Number of bits of _CASable. static const _CASable _CASable_mask
_CASable with the right half of bits set to 1.
Detailed Description¶
GNU parallel code for public use.
Typedef Documentation¶
typedef unsigned short __gnu_parallel::_BinIndex¶
Type to hold the index of a bin. Since many variables of this type are allocated, it should be chosen as small as possible.
Definition at line 47 of file random_shuffle.h.
typedef int64_t __gnu_parallel::_CASable¶
Longest compare-and-swappable integer type on this platform.
Definition at line 127 of file types.h.
typedef uint64_t __gnu_parallel::_SequenceIndex¶
Unsigned integer to index __elements. The total number of elements for each algorithm must fit into this type.
Definition at line 117 of file types.h.
typedef uint16_t __gnu_parallel::_ThreadIndex¶
Unsigned integer to index a thread number. The maximum thread number (for each processor) must fit into this type.
Definition at line 123 of file types.h.
Enumeration Type Documentation¶
enum __gnu_parallel::_AlgorithmStrategy¶
Strategies for run-time algorithm selection:
Definition at line 67 of file types.h.
enum __gnu_parallel::_FindAlgorithm¶
Find algorithms:
Definition at line 106 of file types.h.
enum __gnu_parallel::_MultiwayMergeAlgorithm¶
Merging algorithms:
Definition at line 85 of file types.h.
enum __gnu_parallel::_Parallelism¶
Run-time equivalents for the compile-time tags.
Enumerator
- sequential
- Not parallel.
- parallel_unbalanced
- Parallel unbalanced (equal-sized chunks).
- parallel_balanced
- Parallel balanced (work-stealing).
- parallel_omp_loop
- Parallel with OpenMP dynamic load-balancing.
- parallel_omp_loop_static
- Parallel with OpenMP static load-balancing.
- parallel_taskqueue
- Parallel with OpenMP taskqueue construct.
Definition at line 44 of file types.h.
enum __gnu_parallel::_PartialSumAlgorithm¶
Partial sum algorithms: recursive, linear.
Definition at line 91 of file types.h.
enum __gnu_parallel::_SortAlgorithm¶
Sorting algorithms:
Definition at line 76 of file types.h.
enum __gnu_parallel::_SplittingAlgorithm¶
Sorting/merging algorithms: sampling, __exact.
Definition at line 98 of file types.h.
Function Documentation¶
template<typename _RAIter , typename _DifferenceTp > void __gnu_parallel::__calc_borders (_RAIter __elements, _DifferenceTp __length, _DifferenceTp * __off)¶
Precalculate __advances for Knuth-Morris-Pratt algorithm.
Parameters:
__length Length of sequence to search for.
__off Returned __offsets.
Definition at line 51 of file search.h.
Referenced by __search_template().
template<typename _Tp > bool __gnu_parallel::__compare_and_swap (volatile _Tp * __ptr, _Tp __comparand, _Tp __replacement) [inline]¶
Compare-and-swap. Compare *__ptr and __comparand. If equal, let *__ptr=__replacement and return true, return false otherwise.
Parameters:
__comparand Compare value.
__replacement Replacement value.
Definition at line 108 of file parallel/compatibility.h.
Referenced by __parallel_partition(), __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::pop_back(), and __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::pop_front().
void __gnu_parallel::__decode2 (_CASable __x, int & __a, int & __b) [inline]¶
Decode two integers from one gnu_parallel::_CASable.
Parameters:
__a First integer, to be decoded from the most-significant _CASable_bits/2 bits of __x.
__b Second integer, to be encoded in the least-significant _CASable_bits/2 bits of __x.
See also:
Definition at line 133 of file parallel/base.h.
References _CASable_bits, and _CASable_mask.
Referenced by __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::pop_back(), __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::pop_front(), and __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::push_front().
template<typename _RAIter , typename _DifferenceTp > void __gnu_parallel::__determine_samples (_PMWMSSortingData< _RAIter > * __sd, _DifferenceTp __num_samples)¶
Select _M_samples from a sequence.
Parameters:
__num_samples Number of _M_samples to select.
Definition at line 97 of file multiway_mergesort.h.
References __equally_split(), __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_samples, __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_source, and __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_starts.
_CASable __gnu_parallel::__encode2 (int __a, int __b) [inline]¶
Encode two integers into one gnu_parallel::_CASable.
Parameters:
__b Second integer, to be encoded in the least-significant _CASable_bits/2 bits.
Returns:
See also:
Definition at line 119 of file parallel/base.h.
References _CASable_bits.
Referenced by __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::_RestrictedBoundedConcurrentQueue(), __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::pop_back(), and __gnu_parallel::_RestrictedBoundedConcurrentQueue< pair< _RAIter, _RAIter > >::pop_front().
template<typename _DifferenceType , typename _OutputIterator > _OutputIterator __gnu_parallel::__equally_split (_DifferenceType __n, _ThreadIndex __num_threads, _OutputIterator __s)¶
function to split a sequence into parts of almost equal size. The resulting sequence __s of length __num_threads+1 contains the splitting positions when splitting the range [0,__n) into parts of almost equal size (plus minus 1). The first entry is 0, the last one n. There may result empty parts.
Parameters:
__num_threads Number of parts
__s Splitters
Returns:
Definition at line 48 of file equally_split.h.
Referenced by __determine_samples(), __find_template(), __parallel_partial_sum_linear(), and __search_template().
template<typename _DifferenceType > _DifferenceType __gnu_parallel::__equally_split_point (_DifferenceType __n, _ThreadIndex __num_threads, _ThreadIndex __thread_no)¶
function to split a sequence into parts of almost equal size. Returns the position of the splitting point between thread number __thread_no (included) and thread number __thread_no+1 (excluded).
Parameters:
__num_threads Number of parts
__thread_no Number of threads
Returns:
Definition at line 75 of file equally_split.h.
template<typename _Tp > _Tp __gnu_parallel::__fetch_and_add (volatile _Tp * __ptr, _Tp __addend) [inline]¶
Add a value to a variable, atomically.
Parameters:
__addend Value to add.
Definition at line 74 of file parallel/compatibility.h.
Referenced by __parallel_partition().
template<typename _RAIter1 , typename _RAIter2 , typename _Pred , typename _Selector > std::pair<_RAIter1, _RAIter2> __gnu_parallel::__find_template (_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred, _Selector __selector) [inline]¶
Parallel std::find, switch for different algorithms.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence. Must have same length as first sequence.
__pred Find predicate.
__selector _Functionality (e. g. std::find_if(), std::equal(),...)
Returns:
Definition at line 60 of file find.h.
References __gnu_parallel::_Settings::get().
template<typename _RAIter1 , typename _RAIter2 , typename _Pred , typename _Selector > std::pair<_RAIter1, _RAIter2> __gnu_parallel::__find_template (_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred, _Selector __selector, equal_split_tag)¶
Parallel std::find, equal splitting variant.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence. Second __sequence must have same length as first sequence.
__pred Find predicate.
__selector _Functionality (e. g. std::find_if(), std::equal(),...)
Returns:
Definition at line 97 of file find.h.
References __equally_split(), and _GLIBCXX_CALL.
template<typename _RAIter1 , typename _RAIter2 , typename _Pred , typename _Selector > std::pair<_RAIter1, _RAIter2> __gnu_parallel::__find_template (_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred, _Selector __selector, growing_blocks_tag)¶
Parallel std::find, growing block size variant.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence. Second __sequence must have same length as first sequence.
__pred Find predicate.
__selector _Functionality (e. g. std::find_if(), std::equal(),...)
Returns:
See also:
__gnu_parallel::_Settings::find_scale_factor
There are two main differences between the growing blocks and the constant-size blocks variants. 1. For GB, the block size grows; for CSB, the block size is fixed. 2. For GB, the blocks are allocated dynamically; for CSB, the blocks are allocated in a predetermined manner, namely spacial round-robin.
Definition at line 185 of file find.h.
References _GLIBCXX_CALL, __gnu_parallel::_Settings::find_scale_factor, __gnu_parallel::_Settings::find_sequential_search_size, and __gnu_parallel::_Settings::get().
template<typename _RAIter1 , typename _RAIter2 , typename _Pred , typename _Selector > std::pair<_RAIter1, _RAIter2> __gnu_parallel::__find_template (_RAIter1 __begin1, _RAIter1 __end1, _RAIter2 __begin2, _Pred __pred, _Selector __selector, constant_size_blocks_tag)¶
Parallel std::find, constant block size variant.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence. Second __sequence must have same length as first sequence.
__pred Find predicate.
__selector _Functionality (e. g. std::find_if(), std::equal(),...)
Returns:
See also:
__gnu_parallel::_Settings::find_block_size There are two main differences between the growing blocks and the constant-size blocks variants. 1. For GB, the block size grows; for CSB, the block size is fixed. 2. For GB, the blocks are allocated dynamically; for CSB, the blocks are allocated in a predetermined manner, namely spacial round-robin.
Definition at line 315 of file find.h.
References _GLIBCXX_CALL, __gnu_parallel::_Settings::find_initial_block_size, __gnu_parallel::_Settings::find_sequential_search_size, and __gnu_parallel::_Settings::get().
template<typename _IIter , typename _UserOp , typename _Functionality , typename _Red , typename _Result > _UserOp __gnu_parallel::__for_each_template_random_access (_IIter __begin, _IIter __end, _UserOp __user_op, _Functionality & __functionality, _Red __reduction, _Result __reduction_start, _Result & __output, typename std::iterator_traits< _IIter >::difference_type __bound, _Parallelism __parallelism_tag)¶
Chose the desired algorithm by evaluating __parallelism_tag.
Parameters:
__end End iterator of input sequence.
__user_op A user-specified functor (comparator, predicate, associative operator,...)
__functionality functor to process an element with __user_op (depends on desired functionality, e. g. accumulate, for_each,...
__reduction Reduction functor.
__reduction_start Initial value for reduction.
__output Output iterator.
__bound Maximum number of elements processed.
__parallelism_tag Parallelization method
Definition at line 61 of file for_each.h.
References __for_each_template_random_access_ed(), __for_each_template_random_access_omp_loop(), __for_each_template_random_access_workstealing(), parallel_omp_loop, parallel_omp_loop_static, and parallel_unbalanced.
template<typename _RAIter , typename _Op , typename _Fu , typename _Red , typename _Result > _Op __gnu_parallel::__for_each_template_random_access_ed (_RAIter __begin, _RAIter __end, _Op __o, _Fu & __f, _Red __r, _Result __base, _Result & __output, typename std::iterator_traits< _RAIter >::difference_type __bound)¶
Embarrassingly parallel algorithm for random access iterators, using hand-crafted parallelization by equal splitting the work.
Parameters:
__end End iterator of element sequence.
__o User-supplied functor (comparator, predicate, adding functor, ...)
__f Functor to 'process' an element with __op (depends on desired functionality, e. g. for std::for_each(), ...).
__r Functor to 'add' a single __result to the already processed elements (depends on functionality).
__base Base value for reduction.
__output Pointer to position where final result is written to
__bound Maximum number of elements processed (e. g. for std::count_n()).
Returns:
Definition at line 67 of file par_loop.h.
Referenced by __for_each_template_random_access().
template<typename _RAIter , typename _Op , typename _Fu , typename _Red , typename _Result > _Op __gnu_parallel::__for_each_template_random_access_omp_loop (_RAIter __begin, _RAIter __end, _Op __o, _Fu & __f, _Red __r, _Result __base, _Result & __output, typename std::iterator_traits< _RAIter >::difference_type __bound)¶
Embarrassingly parallel algorithm for random access iterators, using an OpenMP for loop.
Parameters:
__end End iterator of element sequence.
__o User-supplied functor (comparator, predicate, adding functor, etc.).
__f Functor to process an element with __op (depends on desired functionality, e. g. for std::for_each(), ...).
__r Functor to add a single __result to the already processed elements (depends on functionality).
__base Base value for reduction.
__output Pointer to position where final result is written to
__bound Maximum number of elements processed (e. g. for std::count_n()).
Returns:
Definition at line 67 of file omp_loop.h.
Referenced by __for_each_template_random_access().
template<typename _RAIter , typename _Op , typename _Fu , typename _Red , typename _Result > _Op __gnu_parallel::__for_each_template_random_access_omp_loop_static (_RAIter __begin, _RAIter __end, _Op __o, _Fu & __f, _Red __r, _Result __base, _Result & __output, typename std::iterator_traits< _RAIter >::difference_type __bound)¶
Embarrassingly parallel algorithm for random access iterators, using an OpenMP for loop with static scheduling.
Parameters:
__end End iterator of element sequence.
__o User-supplied functor (comparator, predicate, adding functor, ...).
__f Functor to process an element with __op (depends on desired functionality, e. g. for std::for_each(), ...).
__r Functor to add a single __result to the already processed __elements (depends on functionality).
__base Base value for reduction.
__output Pointer to position where final result is written to
__bound Maximum number of elements processed (e. g. for std::count_n()).
Returns:
Definition at line 66 of file omp_loop_static.h.
template<typename _RAIter , typename _Op , typename _Fu , typename _Red , typename _Result > _Op __gnu_parallel::__for_each_template_random_access_workstealing (_RAIter __begin, _RAIter __end, _Op __op, _Fu & __f, _Red __r, _Result __base, _Result & __output, typename std::iterator_traits< _RAIter >::difference_type __bound)¶
Work stealing algorithm for random access iterators. Uses O(1) additional memory. Synchronization at job lists is done with atomic operations.
Parameters:
__end End iterator of element sequence.
__op User-supplied functor (comparator, predicate, adding functor, ...).
__f Functor to process an element with __op (depends on desired functionality, e. g. for std::for_each(), ...).
__r Functor to add a single __result to the already processed elements (depends on functionality).
__base Base value for reduction.
__output Pointer to position where final result is written to
__bound Maximum number of elements processed (e. g. for std::count_n()).
Returns:
Definition at line 99 of file workstealing.h.
Referenced by __for_each_template_random_access().
template<typename _IIter , typename _Compare > bool __gnu_parallel::__is_sorted (_IIter __begin, _IIter __end, _Compare __comp)¶
Check whether [__begin, __end) is sorted according to __comp.
Parameters:
__end End iterator of sequence.
__comp Comparator.
Returns:
Definition at line 51 of file checkers.h.
template<typename _RAIter , typename _Compare > _RAIter __gnu_parallel::__median_of_three_iterators (_RAIter __a, _RAIter __b, _RAIter __c, _Compare __comp)¶
Compute the median of three referenced elements, according to __comp.
Parameters:
__b Second iterator.
__c Third iterator.
__comp Comparator.
Definition at line 398 of file parallel/base.h.
template<typename _RAIter1 , typename _RAIter2 , typename _OutputIterator , typename _DifferenceTp , typename _Compare > _OutputIterator __gnu_parallel::__merge_advance (_RAIter1 & __begin1, _RAIter1 __end1, _RAIter2 & __begin2, _RAIter2 __end2, _OutputIterator __target, _DifferenceTp __max_length, _Compare __comp) [inline]¶
Merge routine being able to merge only the __max_length smallest elements. The __begin iterators are advanced accordingly, they might not reach __end, in contrast to the usual variant. Static switch on whether to use the conditional-move variant.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence.
__end2 End iterator of second sequence.
__target Target begin iterator.
__max_length Maximum number of elements to merge.
__comp Comparator.
Returns:
Definition at line 171 of file merge.h.
References __merge_advance_movc(), and _GLIBCXX_CALL.
Referenced by __parallel_merge_advance().
template<typename _RAIter1 , typename _RAIter2 , typename _OutputIterator , typename _DifferenceTp , typename _Compare > _OutputIterator __gnu_parallel::__merge_advance_movc (_RAIter1 & __begin1, _RAIter1 __end1, _RAIter2 & __begin2, _RAIter2 __end2, _OutputIterator __target, _DifferenceTp __max_length, _Compare __comp)¶
Merge routine being able to merge only the __max_length smallest elements. The __begin iterators are advanced accordingly, they might not reach __end, in contrast to the usual variant. Specially designed code should allow the compiler to generate conditional moves instead of branches.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence.
__end2 End iterator of second sequence.
__target Target begin iterator.
__max_length Maximum number of elements to merge.
__comp Comparator.
Returns:
Definition at line 105 of file merge.h.
Referenced by __merge_advance().
template<typename _RAIter1 , typename _RAIter2 , typename _OutputIterator , typename _DifferenceTp , typename _Compare > _OutputIterator __gnu_parallel::__merge_advance_usual (_RAIter1 & __begin1, _RAIter1 __end1, _RAIter2 & __begin2, _RAIter2 __end2, _OutputIterator __target, _DifferenceTp __max_length, _Compare __comp)¶
Merge routine being able to merge only the __max_length smallest elements. The __begin iterators are advanced accordingly, they might not reach __end, in contrast to the usual variant.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence.
__end2 End iterator of second sequence.
__target Target begin iterator.
__max_length Maximum number of elements to merge.
__comp Comparator.
Returns:
Definition at line 57 of file merge.h.
template<typename _RAIter1 , typename _RAIter2 , typename _RAIter3 , typename _Compare > _RAIter3 __gnu_parallel::__parallel_merge_advance (_RAIter1 & __begin1, _RAIter1 __end1, _RAIter2 & __begin2, _RAIter2 __end2, _RAIter3 __target, typename std::iterator_traits< _RAIter1 >::difference_type __max_length, _Compare __comp) [inline]¶
Merge routine fallback to sequential in case the iterators of the two input sequences are of different type.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence.
__end2 End iterator of second sequence.
__target Target begin iterator.
__max_length Maximum number of elements to merge.
__comp Comparator.
Returns:
Definition at line 195 of file merge.h.
References __merge_advance().
template<typename _RAIter1 , typename _RAIter3 , typename _Compare > _RAIter3 __gnu_parallel::__parallel_merge_advance (_RAIter1 & __begin1, _RAIter1 __end1, _RAIter1 & __begin2, _RAIter1 __end2, _RAIter3 __target, typename std::iterator_traits< _RAIter1 >::difference_type __max_length, _Compare __comp) [inline]¶
Parallel merge routine being able to merge only the __max_length smallest elements. The __begin iterators are advanced accordingly, they might not reach __end, in contrast to the usual variant. The functionality is projected onto parallel_multiway_merge.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence.
__end2 End iterator of second sequence.
__target Target begin iterator.
__max_length Maximum number of elements to merge.
__comp Comparator.
Returns:
Definition at line 223 of file merge.h.
References std::make_pair(), multiway_merge_exact_splitting(), and parallel_multiway_merge().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_nth_element (_RAIter __begin, _RAIter __nth, _RAIter __end, _Compare __comp)¶
Parallel implementation of std::nth_element().
Parameters:
__nth _Iterator of element that must be in position afterwards.
__end End iterator of input sequence.
__comp Comparator.
Definition at line 332 of file partition.h.
References __parallel_partition(), _GLIBCXX_CALL, __gnu_parallel::_Settings::get(), std::max(), __gnu_parallel::_Settings::nth_element_minimal_n, and __gnu_parallel::_Settings::partition_minimal_n.
Referenced by __parallel_partial_sort().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_partial_sort (_RAIter __begin, _RAIter __middle, _RAIter __end, _Compare __comp)¶
Parallel implementation of std::partial_sort().
Parameters:
__middle Sort until this position.
__end End iterator of input sequence.
__comp Comparator.
Definition at line 422 of file partition.h.
References __parallel_nth_element().
template<typename _IIter , typename _OutputIterator , typename _BinaryOperation > _OutputIterator __gnu_parallel::__parallel_partial_sum (_IIter __begin, _IIter __end, _OutputIterator __result, _BinaryOperation __bin_op)¶
Parallel partial sum front-__end.
Parameters:
__end End iterator of input sequence.
__result Begin iterator of output sequence.
__bin_op Associative binary function.
Returns:
Definition at line 205 of file partial_sum.h.
References __parallel_partial_sum_linear(), _GLIBCXX_CALL, and __gnu_parallel::_Settings::get().
template<typename _IIter , typename _OutputIterator , typename _BinaryOperation > _OutputIterator __gnu_parallel::__parallel_partial_sum_basecase (_IIter __begin, _IIter __end, _OutputIterator __result, _BinaryOperation __bin_op, typename std::iterator_traits< _IIter >::value_type __value)¶
Base case prefix sum routine.
Parameters:
__end End iterator of input sequence.
__result Begin iterator of output sequence.
__bin_op Associative binary function.
__value Start value. Must be passed since the neutral element is unknown in general.
Returns:
Definition at line 58 of file partial_sum.h.
Referenced by __parallel_partial_sum_linear().
template<typename _IIter , typename _OutputIterator , typename _BinaryOperation > _OutputIterator __gnu_parallel::__parallel_partial_sum_linear (_IIter __begin, _IIter __end, _OutputIterator __result, _BinaryOperation __bin_op, typename std::iterator_traits< _IIter >::difference_type __n)¶
Parallel partial sum implementation, two-phase approach, no recursion.
Parameters:
__end End iterator of input sequence.
__result Begin iterator of output sequence.
__bin_op Associative binary function.
__n Length of sequence.
Returns:
Definition at line 89 of file partial_sum.h.
References __equally_split(), __parallel_partial_sum_basecase(), std::accumulate(), __gnu_parallel::_Settings::get(), and __gnu_parallel::_Settings::partial_sum_dilation.
Referenced by __parallel_partial_sum().
template<typename _RAIter , typename _Predicate > std::iterator_traits<_RAIter>::difference_type __gnu_parallel::__parallel_partition (_RAIter __begin, _RAIter __end, _Predicate __pred, _ThreadIndex __num_threads)¶
Parallel implementation of std::partition.
Parameters:
__end End iterator of input sequence to split.
__pred Partition predicate, possibly including some kind of pivot.
__num_threads Maximum number of threads to use for this task.
Returns:
Definition at line 56 of file partition.h.
References __compare_and_swap(), __fetch_and_add(), _GLIBCXX_CALL, _GLIBCXX_VOLATILE, __gnu_parallel::_Settings::get(), __gnu_parallel::_Settings::partition_chunk_share, and __gnu_parallel::_Settings::partition_chunk_size.
Referenced by __parallel_nth_element().
template<typename _RAIter , typename _RandomNumberGenerator > void __gnu_parallel::__parallel_random_shuffle (_RAIter __begin, _RAIter __end, _RandomNumberGenerator __rng = _RandomNumber()) [inline]¶
Parallel random public call.
Parameters:
__end End iterator of sequence.
__rng Random number generator to use.
Definition at line 522 of file random_shuffle.h.
References __parallel_random_shuffle_drs().
template<typename _RAIter , typename _RandomNumberGenerator > void __gnu_parallel::__parallel_random_shuffle_drs (_RAIter __begin, _RAIter __end, typename std::iterator_traits< _RAIter >::difference_type __n, _ThreadIndex __num_threads, _RandomNumberGenerator & __rng)¶
Main parallel random shuffle step.
Parameters:
__end End iterator of sequence.
__n Length of sequence.
__num_threads Number of threads to use.
__rng Random number generator to use.
Definition at line 265 of file random_shuffle.h.
References __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::__bins_end, __parallel_random_shuffle_drs_pu(), __rd_log2(), __round_up_to_pow2(), __sequential_random_shuffle(), _GLIBCXX_CALL, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_bin_proc, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_bins_begin, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_dist, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_num_bins, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_num_bits, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_num_threads, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_sd, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_seed, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_starts, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_temporaries, __gnu_parallel::_Settings::get(), __gnu_parallel::_Settings::L2_cache_size, std::min(), and __gnu_parallel::_Settings::TLB_size.
Referenced by __parallel_random_shuffle().
template<typename _RAIter , typename _RandomNumberGenerator > void __gnu_parallel::__parallel_random_shuffle_drs_pu (_DRSSorterPU< _RAIter, _RandomNumberGenerator > * __pus)¶
Random shuffle code executed by each thread.
Parameters:
Definition at line 122 of file random_shuffle.h.
References __random_number_pow2(), __sequential_random_shuffle(), __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_dist, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_num_bins, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_num_bits, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_num_threads, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_sd, __gnu_parallel::_DRSSorterPU< _RAIter, _RandomNumberGenerator >::_M_seed, __gnu_parallel::_DRandomShufflingGlobalData< _RAIter >::_M_starts, and std::partial_sum().
Referenced by __parallel_random_shuffle_drs().
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, multiway_mergesort_tag __parallelism) [inline]¶
Choose multiway mergesort, splitting variant at run-time, for parallel sorting.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 75 of file sort.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), _GLIBCXX_CALL, and __gnu_parallel::_Settings::get().
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, multiway_mergesort_exact_tag __parallelism) [inline]¶
Choose multiway mergesort with exact splitting, for parallel sorting.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 99 of file sort.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), and _GLIBCXX_CALL.
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, multiway_mergesort_sampling_tag __parallelism) [inline]¶
Choose multiway mergesort with splitting by sampling, for parallel sorting.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 120 of file sort.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), and _GLIBCXX_CALL.
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, quicksort_tag __parallelism) [inline]¶
Choose quicksort for parallel sorting.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 140 of file sort.h.
References _GLIBCXX_CALL.
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, balanced_quicksort_tag __parallelism) [inline]¶
Choose balanced quicksort for parallel sorting.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 161 of file sort.h.
References _GLIBCXX_CALL.
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, default_parallel_tag __parallelism) [inline]¶
Choose multiway mergesort with exact splitting, for parallel sorting.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 183 of file sort.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), and _GLIBCXX_CALL.
template<bool __stable, typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort (_RAIter __begin, _RAIter __end, _Compare __comp, parallel_tag __parallelism) [inline]¶
Choose a parallel sorting algorithm.
Parameters:
__end End iterator of input sequence.
__comp Comparator.
Template Parameters:
Definition at line 203 of file sort.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), __parallel_sort_qs(), __parallel_sort_qsb(), _GLIBCXX_CALL, and __gnu_parallel::_Settings::get().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort_qs (_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __num_threads)¶
Unbalanced quicksort main call.
Parameters:
__end End iterator input sequence, ignored.
__comp Comparator.
__num_threads Number of threads that are allowed to work on this part.
Definition at line 154 of file quicksort.h.
References __parallel_sort_qs_conquer(), and _GLIBCXX_CALL.
Referenced by __parallel_sort().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort_qs_conquer (_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __num_threads)¶
Unbalanced quicksort conquer step.
Parameters:
__end End iterator of subsequence.
__comp Comparator.
__num_threads Number of threads that are allowed to work on this part.
Definition at line 101 of file quicksort.h.
Referenced by __parallel_sort_qs().
template<typename _RAIter , typename _Compare > std::iterator_traits<_RAIter>::difference_type __gnu_parallel::__parallel_sort_qs_divide (_RAIter __begin, _RAIter __end, _Compare __comp, typename std::iterator_traits< _RAIter >::difference_type __pivot_rank, typename std::iterator_traits< _RAIter >::difference_type __num_samples, _ThreadIndex __num_threads)¶
Unbalanced quicksort divide step.
Parameters:
__end End iterator of subsequence.
__comp Comparator.
__pivot_rank Desired __rank of the pivot.
__num_samples Choose pivot from that many samples.
__num_threads Number of threads that are allowed to work on this part.
Definition at line 51 of file quicksort.h.
References std::min().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__parallel_sort_qsb (_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __num_threads)¶
Top-level quicksort routine.
Parameters:
__end End iterator of sequence.
__comp Comparator.
__num_threads Number of threads that are allowed to work on this part.
Definition at line 433 of file balanced_quicksort.h.
References __qsb_conquer(), __rd_log2(), _GLIBCXX_CALL, __gnu_parallel::_QSBThreadLocal< _RAIter >::_M_elements_leftover, and std::make_pair().
Referenced by __parallel_sort().
template<typename _IIter , class _OutputIterator , class _BinaryPredicate > _OutputIterator __gnu_parallel::__parallel_unique_copy (_IIter __first, _IIter __last, _OutputIterator __result, _BinaryPredicate __binary_pred)¶
Parallel std::unique_copy(), w/__o explicit equality predicate.
Parameters:
__last End iterator of input sequence.
__result Begin iterator of result __sequence.
__binary_pred Equality predicate.
Returns:
Definition at line 50 of file unique_copy.h.
References _GLIBCXX_CALL.
Referenced by __parallel_unique_copy().
template<typename _IIter , class _OutputIterator > _OutputIterator __gnu_parallel::__parallel_unique_copy (_IIter __first, _IIter __last, _OutputIterator __result) [inline]¶
Parallel std::unique_copy(), without explicit equality predicate.
Parameters:
__last End iterator of input sequence.
__result Begin iterator of result __sequence.
Returns:
Definition at line 186 of file unique_copy.h.
References __parallel_unique_copy().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__qsb_conquer (_QSBThreadLocal< _RAIter > ** __tls, _RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __iam, _ThreadIndex __num_threads, bool __parent_wait)¶
Quicksort conquer step.
Parameters:
__begin Begin iterator of subsequence.
__end End iterator of subsequence.
__comp Comparator.
__iam Number of the thread processing this function.
__num_threads Number of threads that are allowed to work on this part.
Definition at line 174 of file balanced_quicksort.h.
References __qsb_divide(), __qsb_local_sort_with_helping(), __gnu_parallel::_QSBThreadLocal< _RAIter >::_M_initial, std::pair< _T1, _T2 >::first, and std::pair< _T1, _T2 >::second.
Referenced by __parallel_sort_qsb().
template<typename _RAIter , typename _Compare > std::iterator_traits<_RAIter>::difference_type __gnu_parallel::__qsb_divide (_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __num_threads)¶
Balanced quicksort divide step.
Parameters:
__end End iterator of subsequence.
__comp Comparator.
__num_threads Number of threads that are allowed to work on this part.
Precondition:
Definition at line 103 of file balanced_quicksort.h.
Referenced by __qsb_conquer().
template<typename _RAIter , typename _Compare > void __gnu_parallel::__qsb_local_sort_with_helping (_QSBThreadLocal< _RAIter > ** __tls, _Compare & __comp, _ThreadIndex __iam, bool __wait)¶
Quicksort step doing load-balanced local sort.
Parameters:
__comp Comparator.
__iam Number of the thread processing this function.
Definition at line 250 of file balanced_quicksort.h.
References __gnu_parallel::_QSBThreadLocal< _RAIter >::_M_initial, __gnu_parallel::_QSBThreadLocal< _RAIter >::_M_num_threads, __gnu_parallel::_Settings::get(), and __gnu_parallel::_Settings::sort_qsb_base_case_maximal_n.
Referenced by __qsb_conquer().
template<typename _RandomNumberGenerator > int __gnu_parallel::__random_number_pow2 (int __logp, _RandomNumberGenerator & __rng) [inline]¶
Generate a random number in [0,2^__logp).
Parameters:
__rng Random number generator to use.
Definition at line 115 of file random_shuffle.h.
Referenced by __parallel_random_shuffle_drs_pu(), and __sequential_random_shuffle().
template<typename _Size > _Size __gnu_parallel::__rd_log2 (_Size __n) [inline]¶
Calculates the rounded-down logarithm of __n for base 2.
Parameters:
Returns:
Definition at line 102 of file parallel/base.h.
Referenced by __parallel_random_shuffle_drs(), __parallel_sort_qsb(), __round_up_to_pow2(), __sequential_random_shuffle(), __gnu_parallel::_LoserTreeBase< _Tp, _Compare >::_LoserTreeBase(), and multiseq_selection().
template<typename _Tp > _Tp __gnu_parallel::__round_up_to_pow2 (_Tp __x)¶
Round up to the next greater power of 2.
Parameters:
Definition at line 248 of file random_shuffle.h.
References __rd_log2().
Referenced by __parallel_random_shuffle_drs(), __sequential_random_shuffle(), and multiseq_selection().
template<typename __RAIter1 , typename __RAIter2 , typename _Pred > __RAIter1 __gnu_parallel::__search_template (__RAIter1 __begin1, __RAIter1 __end1, __RAIter2 __begin2, __RAIter2 __end2, _Pred __pred)¶
Parallel std::search.
Parameters:
__end1 End iterator of first sequence.
__begin2 Begin iterator of second sequence.
__end2 End iterator of second sequence.
__pred Find predicate.
Returns:
Definition at line 81 of file search.h.
References __calc_borders(), __equally_split(), _GLIBCXX_CALL, and std::min().
template<bool __stable, bool __sentinels, typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3 __gnu_parallel::__sequential_multiway_merge (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, const typename std::iterator_traits< typename std::iterator_traits< _RAIterIterator >::value_type::first_type >::value_type & __sentinel, _DifferenceTp __length, _Compare __comp)¶
Sequential multi-way merging switch. The _GLIBCXX_PARALLEL_DECISION is based on the branching factor and runtime settings.
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, possibly larger than the number of elements available.
__sentinel The sequences have __a __sentinel element.
Returns:
Definition at line 920 of file multiway_merge.h.
References _GLIBCXX_CALL.
Referenced by multiway_merge(), and multiway_merge_sentinels().
template<typename _RAIter , typename _RandomNumberGenerator > void __gnu_parallel::__sequential_random_shuffle (_RAIter __begin, _RAIter __end, _RandomNumberGenerator & __rng)¶
Sequential cache-efficient random shuffle.
Parameters:
__end End iterator of sequence.
__rng Random number generator to use.
Definition at line 410 of file random_shuffle.h.
References __random_number_pow2(), __rd_log2(), __round_up_to_pow2(), __gnu_parallel::_Settings::get(), __gnu_parallel::_Settings::L2_cache_size, std::min(), std::partial_sum(), and __gnu_parallel::_Settings::TLB_size.
Referenced by __parallel_random_shuffle_drs(), and __parallel_random_shuffle_drs_pu().
template<typename _IIter > void __gnu_parallel::__shrink (std::vector< _IIter > & __os_starts, size_t & __count_to_two, size_t & __range_length)¶
Combines two ranges into one and thus halves the number of ranges.
Parameters:
__count_to_two Counts up to 2.
__range_length Current length of a chunk.
Definition at line 70 of file list_partition.h.
References std::vector< _Tp, _Alloc >::size().
Referenced by __shrink_and_double().
template<typename _IIter > void __gnu_parallel::__shrink_and_double (std::vector< _IIter > & __os_starts, size_t & __count_to_two, size_t & __range_length, const bool __make_twice)¶
Shrinks and doubles the ranges.
Parameters:
__count_to_two Counts up to 2.
__range_length Current length of a chunk.
__make_twice Whether the __os_starts is allowed to be grown or not
Definition at line 50 of file list_partition.h.
References __shrink(), std::vector< _Tp, _Alloc >::resize(), and std::vector< _Tp, _Alloc >::size().
Referenced by list_partition().
void __gnu_parallel::__yield () [inline]¶
Yield control to another thread, without waiting for the end of the time slice.
Definition at line 121 of file parallel/compatibility.h.
template<typename _IIter , typename _FunctorType > size_t __gnu_parallel::list_partition (const _IIter __begin, const _IIter __end, _IIter * __starts, size_t * __lengths, const int __num_parts, _FunctorType & __f, int __oversampling = 0)¶
Splits a sequence given by input iterators into parts of almost equal size. The function needs only one pass over the sequence.
Parameters:
__end End iterator of input sequence.
__starts Start iterators for the resulting parts, dimension __num_parts+1. For convenience, __starts [__num_parts] contains the end iterator of the sequence.
__lengths Length of the resulting parts.
__num_parts Number of parts to split the sequence into.
__f Functor to be applied to each element by traversing __it
__oversampling Oversampling factor. If 0, then the partitions will differ in at most $rt{thrm{end} - thrm{begin}}$ elements. Otherwise, the ratio between the longest and the shortest part is bounded by $1/(thrm{oversampling} dot thrm{num_parts})$
Returns:
Definition at line 101 of file list_partition.h.
References __shrink_and_double(), and std::vector< _Tp, _Alloc >::size().
template<typename _Tp > const _Tp& __gnu_parallel::max (const _Tp & __a, const _Tp & __b) [inline]¶
Equivalent to std::max.
Definition at line 150 of file parallel/base.h.
template<typename _Tp > const _Tp& __gnu_parallel::min (const _Tp & __a, const _Tp & __b) [inline]¶
Equivalent to std::min.
Definition at line 144 of file parallel/base.h.
template<typename _RanSeqs , typename _RankType , typename _RankIterator , typename _Compare > void __gnu_parallel::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 sequence. The sequences are passed via a sequence of random-access iterator pairs, none of the sequences may be empty. If there are several equal elements across the split, the ones on the __left side will be chosen from sequences with smaller number.
Parameters:
__end_seqs End of the sequence of iterator pairs.
__rank The global rank to partition at.
__begin_offsets A random-access __sequence __begin where the __result will be stored in. Each element of the sequence is an iterator that points to the first element on the greater part of the respective __sequence.
__comp The ordering functor, defaults to std::less<_Tp>.
Definition at line 122 of file multiseq_selection.h.
References _GLIBCXX_CALL, and std::distance().
template<typename _Tp , typename _RanSeqs , typename _RankType , typename _Compare > _Tp __gnu_parallel::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. The sequences are passed via a sequence of random-access iterator pairs, none of the sequences may be empty.
Parameters:
__end_seqs End of the sequence of iterator pairs.
__rank The global rank to partition at.
__offset The rank of the selected element in the global subsequence of elements equal to the selected element. If the selected element is unique, this number is 0.
__comp The ordering functor, defaults to std::less.
Definition at line 388 of file multiseq_selection.h.
References __rd_log2(), __round_up_to_pow2(), std::__sample(), _GLIBCXX_CALL, std::distance(), std::make_pair(), std::max(), and std::vector< _Tp, _Alloc >::push_back().
template<typename _RAIterPairIterator , typename _RAIterOut , typename _DifferenceTp , typename _Compare > _RAIterOut __gnu_parallel::multiway_merge (_RAIterPairIterator __seqs_begin, _RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length, _Compare __comp, __gnu_parallel::sequential_tag)¶
Multiway Merge Frontend. Merge the sequences specified by seqs_begin and __seqs_end into __target. __seqs_begin and __seqs_end must point to a sequence of pairs. These pairs must contain an iterator to the beginning of a sequence in their first entry and an iterator the _M_end of the same sequence in their second entry.
Ties are broken arbitrarily. See stable_multiway_merge for a variant that breaks ties by sequence number but is slower.
The first entries of the pairs (i.e. the begin iterators) will be moved forward.
The output sequence has to provide enough space for all elements that are written to it.
This function will merge the input sequences:
- not stable
- parallel, depending on the input size and Settings
- using sampling for splitting
- not using sentinels
Example:
int sequences[10][10];
for (int __i = 0; __i < 10; ++__i)
for (int __j = 0; __i < 10; ++__j)
sequences[__i][__j] = __j;
int __out[33];
std::vector<std::pair<int*> > seqs;
for (int __i = 0; __i < 10; ++__i)
{ seqs.push(std::make_pair<int*>(sequences[__i],
sequences[__i] + 10)) }
multiway_merge(seqs.begin(), seqs.end(), __target, std::less<int>(), 33);
See also:
Precondition:
Target must provide enough space to merge out length elements or the number of elements in all sequences, whichever is smaller.
Postcondition:
return __value - __target = min(__length, number of elements in all sequences).
Template Parameters:
_RAIterOut iterator over target sequence
_DifferenceTp difference type for the sequence
_Compare strict weak ordering type to compare elements in sequences
Parameters:
__seqs_end _M_end of sequence __sequence
__target target sequence to merge to.
__comp strict weak ordering to use for element comparison.
__length Maximum length to merge, possibly larger than the number of elements available.
Returns:
Definition at line 1418 of file multiway_merge.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), __sequential_multiway_merge(), _GLIBCXX_CALL, _GLIBCXX_PARALLEL_CONDITION, __gnu_parallel::_Settings::get(), multiway_merge_exact_splitting(), multiway_merge_sampling_splitting(), and parallel_multiway_merge().
template<template< typename RAI, typename C > class iterator, typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3 __gnu_parallel::multiway_merge_3_variant (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, _DifferenceTp __length, _Compare __comp)¶
Highly efficient 3-way merging procedure. Merging is done with the algorithm implementation described by Peter Sanders. Basically, the idea is to minimize the number of necessary comparison after merging an element. The implementation trick that makes this fast is that the order of the sequences is stored in the instruction pointer (translated into labels in C++).
This works well for merging up to 4 sequences.
Note that making the merging stable does not come at a performance hit.
Whether the merging is done guarded or unguarded is selected by the used iterator class.
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, less equal than the total number of elements available.
Returns:
Definition at line 241 of file multiway_merge.h.
References _GLIBCXX_CALL.
template<template< typename RAI, typename C > class iterator, typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3 __gnu_parallel::multiway_merge_4_variant (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, _DifferenceTp __length, _Compare __comp)¶
Highly efficient 4-way merging procedure. Merging is done with the algorithm implementation described by Peter Sanders. Basically, the idea is to minimize the number of necessary comparison after merging an element. The implementation trick that makes this fast is that the order of the sequences is stored in the instruction pointer (translated into goto labels in C++).
This works well for merging up to 4 sequences.
Note that making the merging stable does not come at a performance hit.
Whether the merging is done guarded or unguarded is selected by the used iterator class.
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, less equal than the total number of elements available.
Returns:
Definition at line 360 of file multiway_merge.h.
References _GLIBCXX_CALL.
template<bool __stable, typename _RAIterIterator , typename _Compare , typename _DifferenceType > void __gnu_parallel::multiway_merge_exact_splitting (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _DifferenceType __length, _DifferenceType __total_length, _Compare __comp, std::vector< std::pair< _DifferenceType, _DifferenceType > > * __pieces)¶
Exact splitting for parallel multiway-merge routine. None of the passed sequences may be empty.
Definition at line 1120 of file multiway_merge.h.
Referenced by __parallel_merge_advance(), multiway_merge(), and multiway_merge_sentinels().
template<typename _LT , typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3 __gnu_parallel::multiway_merge_loser_tree (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, _DifferenceTp __length, _Compare __comp)¶
Multi-way merging procedure for a high branching factor, guarded case. This merging variant uses a LoserTree class as selected by _LT.
Stability is selected through the used LoserTree class _LT.
At least one non-empty sequence is required.
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, less equal than the total number of elements available.
Returns:
Definition at line 491 of file multiway_merge.h.
References _GLIBCXX_CALL, and _GLIBCXX_PARALLEL_LENGTH.
template<typename UnguardedLoserTree , typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3 __gnu_parallel::multiway_merge_loser_tree_sentinel (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, const typename std::iterator_traits< typename std::iterator_traits< _RAIterIterator >::value_type::first_type >::value_type & __sentinel, _DifferenceTp __length, _Compare __comp)¶
Multi-way merging procedure for a high branching factor, requiring sentinels to exist.
Template Parameters:
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, less equal than the total number of elements available.
Returns:
Definition at line 662 of file multiway_merge.h.
References _GLIBCXX_CALL.
template<typename _LT , typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Compare > _RAIter3 __gnu_parallel::multiway_merge_loser_tree_unguarded (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, const typename std::iterator_traits< typename std::iterator_traits< _RAIterIterator >::value_type::first_type >::value_type & __sentinel, _DifferenceTp __length, _Compare __comp)¶
Multi-way merging procedure for a high branching factor, unguarded case. Merging is done using the LoserTree class _LT.
Stability is selected by the used LoserTrees.
Precondition:
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, less equal than the total number of elements available.
Returns:
Definition at line 574 of file multiway_merge.h.
References _GLIBCXX_CALL.
template<bool __stable, typename _RAIterIterator , typename _Compare , typename _DifferenceType > void __gnu_parallel::multiway_merge_sampling_splitting (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _DifferenceType __length, _DifferenceType __total_length, _Compare __comp, std::vector< std::pair< _DifferenceType, _DifferenceType > > * __pieces)¶
Sampling based splitting for parallel multiway-merge routine.
Definition at line 1035 of file multiway_merge.h.
References _GLIBCXX_PARALLEL_LENGTH, __gnu_parallel::_Settings::get(), and __gnu_parallel::_Settings::merge_oversampling.
Referenced by multiway_merge(), and multiway_merge_sentinels().
template<typename _RAIterPairIterator , typename _RAIterOut , typename _DifferenceTp , typename _Compare > _RAIterOut __gnu_parallel::multiway_merge_sentinels (_RAIterPairIterator __seqs_begin, _RAIterPairIterator __seqs_end, _RAIterOut __target, _DifferenceTp __length, _Compare __comp, __gnu_parallel::sequential_tag)¶
Multiway Merge Frontend. Merge the sequences specified by seqs_begin and __seqs_end into __target. __seqs_begin and __seqs_end must point to a sequence of pairs. These pairs must contain an iterator to the beginning of a sequence in their first entry and an iterator the _M_end of the same sequence in their second entry.
Ties are broken arbitrarily. See stable_multiway_merge for a variant that breaks ties by sequence number but is slower.
The first entries of the pairs (i.e. the begin iterators) will be moved forward accordingly.
The output sequence has to provide enough space for all elements that are written to it.
This function will merge the input sequences:
- not stable
- parallel, depending on the input size and Settings
- using sampling for splitting
- using sentinels
You have to take care that the element the _M_end iterator points to is readable and contains a value that is greater than any other non-sentinel value in all sequences.
Example:
int sequences[10][11];
for (int __i = 0; __i < 10; ++__i)
for (int __j = 0; __i < 11; ++__j)
sequences[__i][__j] = __j; // __last one is sentinel!
int __out[33];
std::vector<std::pair<int*> > seqs;
for (int __i = 0; __i < 10; ++__i)
{ seqs.push(std::make_pair<int*>(sequences[__i],
sequences[__i] + 10)) }
multiway_merge(seqs.begin(), seqs.end(), __target, std::less<int>(), 33);
Precondition:
Target must provide enough space to merge out length elements or the number of elements in all sequences, whichever is smaller.
For each __i, __seqs_begin[__i].second must be the end marker of the sequence, but also reference the one more __sentinel element.
Postcondition:
return __value - __target = min(__length, number of elements in all sequences).
See also:
Template Parameters:
_RAIterOut iterator over target sequence
_DifferenceTp difference type for the sequence
_Compare strict weak ordering type to compare elements in sequences
Parameters:
__seqs_end _M_end of sequence __sequence
__target target sequence to merge to.
__comp strict weak ordering to use for element comparison.
__length Maximum length to merge, possibly larger than the number of elements available.
Returns:
Definition at line 1782 of file multiway_merge.h.
References __gnu_parallel::parallel_tag::__get_num_threads(), __sequential_multiway_merge(), _GLIBCXX_CALL, _GLIBCXX_PARALLEL_CONDITION, __gnu_parallel::_Settings::get(), multiway_merge_exact_splitting(), multiway_merge_sampling_splitting(), and parallel_multiway_merge().
template<bool __stable, bool __sentinels, typename _RAIterIterator , typename _RAIter3 , typename _DifferenceTp , typename _Splitter , typename _Compare > _RAIter3 __gnu_parallel::parallel_multiway_merge (_RAIterIterator __seqs_begin, _RAIterIterator __seqs_end, _RAIter3 __target, _Splitter __splitter, _DifferenceTp __length, _Compare __comp, _ThreadIndex __num_threads)¶
Parallel multi-way merge routine. The _GLIBCXX_PARALLEL_DECISION is based on the branching factor and runtime settings.
Must not be called if the number of sequences is 1.
Template Parameters:
__stable Stable merging incurs a performance penalty.
__sentinel Ignored.
Parameters:
__seqs_end End iterator of iterator pair input sequence.
__target Begin iterator of output sequence.
__comp Comparator.
__length Maximum length to merge, possibly larger than the number of elements available.
Returns:
Definition at line 1225 of file multiway_merge.h.
Referenced by __parallel_merge_advance(), multiway_merge(), and multiway_merge_sentinels().
template<bool __stable, bool __exact, typename _RAIter , typename _Compare > void __gnu_parallel::parallel_sort_mwms (_RAIter __begin, _RAIter __end, _Compare __comp, _ThreadIndex __num_threads)¶
PMWMS main call.
Parameters:
__end End iterator of sequence.
__comp Comparator.
__num_threads Number of threads to use.
Definition at line 395 of file multiway_mergesort.h.
References _GLIBCXX_CALL.
template<bool __stable, bool __exact, typename _RAIter , typename _Compare > void __gnu_parallel::parallel_sort_mwms_pu (_PMWMSSortingData< _RAIter > * __sd, _Compare & __comp)¶
PMWMS code executed by each thread.
Parameters:
__comp Comparator.
Definition at line 308 of file multiway_mergesort.h.
References __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_num_threads, __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_pieces, __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_source, __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_starts, __gnu_parallel::_PMWMSSortingData< _RAIter >::_M_temporary, __gnu_parallel::_Settings::get(), std::make_pair(), __gnu_parallel::_Settings::sort_mwms_oversampling, and std::uninitialized_copy().
Variable Documentation¶
const int __gnu_parallel::_CASable_bits [static]¶
Number of bits of _CASable.
Definition at line 130 of file types.h.
Referenced by __decode2(), and __encode2().
const _CASable __gnu_parallel::_CASable_mask [static]¶
_CASable with the right half of bits set to 1.
Definition at line 133 of file types.h.
Referenced by __decode2().
Author¶
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Tue Jul 2 2019 | libstdc++ |