Reference documentation for deal.II version 9.0.0
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#include <deal.II/base/aligned_vector.h>
Public Member Functions | |
AlignedVectorCopy (const T *const source_begin, const T *const source_end, T *const destination) | |
virtual void | apply_to_subrange (const std::size_t begin, const std::size_t end) const |
Additional Inherited Members | |
Private Member Functions inherited from parallel::ParallelForInteger | |
virtual | ~ParallelForInteger ()=default |
void | apply_parallel (const std::size_t begin, const std::size_t end, const std::size_t minimum_parallel_grain_size) const |
A class that actually issues the copy commands in AlignedVector. This class is based on the specialized for loop base class ParallelForLoop in parallel.h whose purpose is the following: When calling a parallel for loop on AlignedVector with apply_to_subranges, it generates different code for every different argument we might choose (as it is templated). This gives a lot of code (e.g. it triples the memory required for compiling the file matrix_free.cc and the final object size is several times larger) which is completely useless. Therefore, this class channels all copy commands through one call to apply_to_subrange for all possible types, which makes the copy operation much cleaner (thanks to a virtual function, whose cost is negligible in this context).
Definition at line 345 of file aligned_vector.h.
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inline |
Constructor. Issues a parallel call if there are sufficiently many elements, otherwise works in serial. Copies the data from the half-open interval between source_begin
and source_end
to array starting at destination
(by calling the copy constructor with placement new).
The elements from the source array are simply copied via the placement new copy constructor.
Definition at line 358 of file aligned_vector.h.
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inlinevirtual |
This method moves elements from the source to the destination given in the constructor on a subrange given by two integers.
Implements parallel::ParallelForInteger.
Definition at line 378 of file aligned_vector.h.