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903 lines
24 KiB
Fortran
903 lines
24 KiB
Fortran
module map_module
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! A map is an array of maps (cache_maps)
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! A cache map is an array of keys and values sorted by keys
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! A cache map has its own OpenMP lock
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! To access a (key,value) pair in the map, the
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! index of the cache_map in the map array is obtained
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! by removing the first 15 bits of the key.
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! The key in the cache_map is composed of the first
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! 15 bits of the key. Therefore, it can be stored
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! as integer*2 and is found by applying the map_mask
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! to the initial key. The element are found in the
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! cache_map using a binary search
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!
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! When using the map_update subroutine to build the map,
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! the map_merge subroutine
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! should be called before getting data from the map.
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use omp_lib
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integer, parameter :: integral_kind = 8
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integer, parameter :: cache_key_kind = 2
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integer, parameter :: cache_map_size_kind = 4
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integer, parameter :: key_kind = 8
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integer, parameter :: map_size_kind = 8
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integer, parameter :: map_shift = 15
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integer*8, parameter :: map_mask = ibset(0_8,15)-1_8
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type cache_map_type
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real(integral_kind), pointer :: value(:)
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integer(cache_key_kind), pointer :: key(:)
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logical :: sorted
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integer(cache_map_size_kind) :: map_size
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integer(cache_map_size_kind) :: n_elements
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integer(omp_lock_kind) :: lock
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end type cache_map_type
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type map_type
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type(cache_map_type), allocatable :: map(:)
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real(integral_kind), pointer :: consolidated_value(:)
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integer(cache_key_kind), pointer :: consolidated_key(:)
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integer*8, pointer :: consolidated_idx(:)
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logical :: sorted
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logical :: consolidated
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integer(map_size_kind) :: map_size
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integer(map_size_kind) :: n_elements
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integer(omp_lock_kind) :: lock
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end type map_type
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end module map_module
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double precision function map_mb(map)
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use map_module
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use omp_lib
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implicit none
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type (map_type), intent(in) :: map
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integer(map_size_kind) :: i
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map_mb = dble(8+map_size_kind+map_size_kind+omp_lock_kind+4)
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do i=0,map%map_size
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map_mb = map_mb + dble(map%map(i)%map_size*(cache_key_kind+integral_kind) +&
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8+8+4+cache_map_size_kind+cache_map_size_kind+omp_lock_kind)
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enddo
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map_mb = map_mb / (1024.d0*1024.d0)
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end
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subroutine cache_map_init(map,sze)
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use map_module
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implicit none
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type (cache_map_type), intent(inout) :: map
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integer(cache_map_size_kind) :: sze
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call omp_set_lock(map%lock)
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map%n_elements = 0_8
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map%map_size = 0_8
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map%sorted = .True.
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NULLIFY(map%value, map%key)
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call cache_map_reallocate(map,sze)
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call omp_unset_lock(map%lock)
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end
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subroutine map_init(map,keymax)
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use map_module
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implicit none
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integer*8, intent(in) :: keymax
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type (map_type), intent(inout) :: map
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integer(map_size_kind) :: i
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integer(cache_map_size_kind) :: sze
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integer :: err
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call omp_init_lock(map%lock)
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call omp_set_lock(map%lock)
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map%n_elements = 0_8
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map%map_size = shiftr(keymax,map_shift)
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map%consolidated = .False.
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allocate(map%map(0_8:map%map_size),stat=err)
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if (err /= 0) then
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print *, 'Unable to allocate map'
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stop 5
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endif
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sze = 2
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do i=0_8,map%map_size
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call omp_init_lock(map%map(i)%lock)
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enddo
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!$OMP PARALLEL DEFAULT(NONE) SHARED(map,sze) PRIVATE(i)
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!$OMP DO SCHEDULE(STATIC,512)
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do i=0_8,map%map_size
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call cache_map_init(map%map(i),sze)
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enddo
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!$OMP ENDDO
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!$OMP END PARALLEL
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map%sorted = .True.
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call omp_unset_lock(map%lock)
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end
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subroutine cache_map_reallocate(map,sze)
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use map_module
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implicit none
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integer(cache_map_size_kind), intent(in) :: sze
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type (cache_map_type), intent(inout) :: map
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integer(cache_key_kind), pointer :: key_new(:)
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real(integral_kind), pointer :: value_new(:)
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integer(map_size_kind) :: i
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integer :: err
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!DIR$ ATTRIBUTES ALIGN : 64 :: key_new, value_new
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if (sze < map%n_elements) then
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print *, 'Unable to resize map : map too large'
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stop 3
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endif
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! Resize keys
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allocate( key_new(sze), stat=err )
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if (err /= 0) then
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print *, 'Unable to allocate map', sze
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stop 1
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endif
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if (associated(map%key)) then
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do i=1_8,min(size(map%key),map%n_elements)
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key_new(i) = map%key(i)
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enddo
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deallocate(map%key)
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endif
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! Resize values
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allocate( value_new(sze), stat=err )
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if (err /= 0) then
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print *, 'Unable to allocate map', sze
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stop 2
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endif
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if (associated(map%value)) then
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do i=1_8,min(size(map%key),map%n_elements)
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value_new(i) = map%value(i)
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enddo
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deallocate(map%value)
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endif
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! Set new pointers
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map%key => key_new
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map%value => value_new
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map%map_size = sze
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end
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subroutine cache_map_deinit(map)
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use map_module
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implicit none
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type (cache_map_type), intent(inout) :: map
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integer :: err
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if (associated( map % value )) then
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deallocate( map % value, stat=err )
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if (err /= 0) then
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print *, 'Unable to deallocate map'
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stop 2
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endif
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NULLIFY(map%value)
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endif
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if (associated( map % key )) then
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deallocate( map % key, stat=err )
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if (err /= 0) then
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print *, 'Unable to deallocate map'
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stop 4
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endif
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NULLIFY(map%key)
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endif
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map%n_elements = 0_8
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map%map_size = 0_8
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call omp_destroy_lock(map%lock)
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end
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subroutine map_deinit(map)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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integer :: err
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integer(map_size_kind) :: i
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if (allocated( map % map )) then
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do i=0_8, map%map_size
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call cache_map_deinit(map%map(i))
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enddo
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deallocate( map % map, stat=err )
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if (err /= 0) then
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print *, 'Unable to deallocate map'
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stop 6
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endif
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endif
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map%n_elements = 0_8
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map%map_size = 0_8
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call omp_destroy_lock(map%lock)
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end
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subroutine cache_map_sort(map)
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use map_module
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implicit none
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type (cache_map_type), intent(inout) :: map
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integer(cache_map_size_kind), allocatable :: iorder(:)
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integer(cache_map_size_kind) :: i
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!DIR$ ATTRIBUTES ALIGN : 64 :: iorder
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if (.not.map%sorted) then
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allocate(iorder(map%n_elements))
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do i=1,map%n_elements
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iorder(i) = i
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enddo
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if (cache_key_kind == 2) then
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call i2radix_sort(map%key,iorder,map%n_elements,-1)
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else if (cache_key_kind == 4) then
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call iradix_sort(map%key,iorder,map%n_elements,-1)
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else if (cache_key_kind == 8) then
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call i8radix_sort(map%key,iorder,map%n_elements,-1)
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endif
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if (integral_kind == 4) then
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call set_order(map%value,iorder,map%n_elements)
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else if (integral_kind == 8) then
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call dset_order(map%value,iorder,map%n_elements)
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endif
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deallocate(iorder)
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map%sorted = .True.
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endif
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end
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subroutine map_sort(map)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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integer(map_size_kind) :: i
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if (.not.map%sorted) then
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!$OMP PARALLEL DO SCHEDULE(static,1024) DEFAULT(SHARED) PRIVATE(i)
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do i=0_8,map%map_size
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call omp_set_lock(map%map(i)%lock)
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call cache_map_sort(map%map(i))
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call omp_unset_lock(map%map(i)%lock)
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enddo
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!$OMP END PARALLEL DO
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map%sorted = .True.
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endif
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end
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subroutine cache_map_merge(map)
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use map_module
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implicit none
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type (cache_map_type), intent(inout) :: map
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integer(cache_key_kind) :: prev_key
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integer(cache_map_size_kind) :: i, j
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call cache_map_sort(map)
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prev_key = -1_8
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j=0
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do i=1,map%n_elements
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if (map%key(i) /= prev_key) then
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j = j+1
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map%value(j) = map%value(i)
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map%key(j) = map%key(i)
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prev_key = map%key(i)
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else
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map%value(j) = map%value(j)+map%value(i)
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endif
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enddo
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map%n_elements = j
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end
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subroutine cache_map_unique(map)
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use map_module
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implicit none
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type (cache_map_type), intent(inout) :: map
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integer(cache_key_kind) :: prev_key
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integer(cache_map_size_kind) :: i, j
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call cache_map_sort(map)
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prev_key = -1_8
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j=0
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do i=1,map%n_elements
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if (map%key(i) /= prev_key) then
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j = j+1
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map%value(j) = map%value(i)
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map%key(j) = map%key(i)
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prev_key = map%key(i)
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endif
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enddo
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map%n_elements = j
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end
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subroutine cache_map_shrink(map,thr)
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use map_module
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implicit none
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type (cache_map_type), intent(inout) :: map
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real(integral_kind) , intent(in) :: thr
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integer(cache_map_size_kind) :: i,j
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j=0
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do i=1,map%n_elements
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if (abs(map%value(i)) > thr) then
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j = j+1
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map%value(j) = map%value(i)
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map%key(j) = map%key(i)
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endif
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enddo
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map%n_elements = j
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end
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subroutine map_unique(map)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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integer(map_size_kind) :: i
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integer(map_size_kind) :: icount
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icount = 0_8
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!$OMP PARALLEL DO SCHEDULE(dynamic,1000) DEFAULT(SHARED) PRIVATE(i)&
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!$OMP REDUCTION(+:icount)
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do i=0_8,map%map_size
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call omp_set_lock(map%map(i)%lock)
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call cache_map_unique(map%map(i))
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call omp_unset_lock(map%map(i)%lock)
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icount = icount + map%map(i)%n_elements
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enddo
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!$OMP END PARALLEL DO
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map%n_elements = icount
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end
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subroutine map_merge(map)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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integer(map_size_kind) :: i
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integer(map_size_kind) :: icount
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icount = 0_8
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!$OMP PARALLEL DO SCHEDULE(dynamic,1000) DEFAULT(SHARED) PRIVATE(i)&
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!$OMP REDUCTION(+:icount)
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do i=0_8,map%map_size
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call omp_set_lock(map%map(i)%lock)
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call cache_map_merge(map%map(i))
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call omp_unset_lock(map%map(i)%lock)
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icount = icount + map%map(i)%n_elements
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enddo
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!$OMP END PARALLEL DO
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map%n_elements = icount
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end
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subroutine map_shrink(map,thr)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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real(integral_kind), intent(in) :: thr
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integer(map_size_kind) :: i
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integer(map_size_kind) :: icount
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icount = 0_8
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!$OMP PARALLEL DO SCHEDULE(dynamic,1000) DEFAULT(SHARED) PRIVATE(i)&
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!$OMP REDUCTION(+:icount)
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do i=0_8,map%map_size
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call omp_set_lock(map%map(i)%lock)
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call cache_map_shrink(map%map(i),thr)
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call omp_unset_lock(map%map(i)%lock)
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icount = icount + map%map(i)%n_elements
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enddo
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!$OMP END PARALLEL DO
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map%n_elements = icount
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end
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subroutine map_update(map, key, value, sze, thr)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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integer, intent(in) :: sze
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integer(key_kind), intent(inout) :: key(sze)
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real(integral_kind), intent(inout) :: value(sze)
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real(integral_kind), intent(in) :: thr
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integer :: i
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integer(map_size_kind) :: idx_cache, idx_cache_new
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integer(cache_map_size_kind) :: idx
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integer :: sze2
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integer(cache_key_kind) :: cache_key
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integer(map_size_kind) :: n_elements_temp
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type (cache_map_type) :: local_map
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logical :: map_sorted
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sze2 = sze
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map_sorted = .True.
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n_elements_temp = 0_8
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n_elements_temp = n_elements_temp + 1_8
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do while (sze2>0)
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i=1
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do while (i<=sze)
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if (key(i) /= 0_8) then
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idx_cache = shiftr(key(i),map_shift)
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if (omp_test_lock(map%map(idx_cache)%lock)) then
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local_map%key => map%map(idx_cache)%key
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local_map%value => map%map(idx_cache)%value
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local_map%sorted = map%map(idx_cache)%sorted
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local_map%map_size = map%map(idx_cache)%map_size
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local_map%n_elements = map%map(idx_cache)%n_elements
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do
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!DIR$ FORCEINLINE
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call search_key_big_interval(key(i),local_map%key, local_map%n_elements, idx, 1, local_map%n_elements)
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if (idx > 0_8) then
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local_map%value(idx) = local_map%value(idx) + value(i)
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else
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! Assert that the map has a proper size
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if (local_map%n_elements == local_map%map_size) then
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call cache_map_merge(local_map)
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call cache_map_reallocate(local_map, local_map%n_elements + local_map%n_elements)
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call cache_map_shrink(local_map,thr)
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endif
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cache_key = int(iand(key(i),map_mask),2)
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local_map%n_elements = local_map%n_elements + 1
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local_map%value(local_map%n_elements) = value(i)
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local_map%key(local_map%n_elements) = cache_key
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local_map%sorted = .False.
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n_elements_temp = n_elements_temp + 1_8
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endif ! idx > 0
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key(i) = 0_8
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i = i+1
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sze2 = sze2-1
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if (i>sze) then
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i=1
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endif
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if ( (shiftr(key(i),map_shift) /= idx_cache).or.(key(i)==0_8)) then
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exit
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endif
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enddo
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map%map(idx_cache)%key => local_map%key
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map%map(idx_cache)%value => local_map%value
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map%map(idx_cache)%sorted = local_map%sorted
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map%map(idx_cache)%n_elements = local_map%n_elements
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map%map(idx_cache)%map_size = local_map%map_size
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map_sorted = map_sorted .and. local_map%sorted
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call omp_unset_lock(map%map(idx_cache)%lock)
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endif ! omp_test_lock
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else
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i=i+1
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endif ! key = 0
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enddo ! i
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enddo ! sze2 > 0
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call omp_set_lock(map%lock)
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map%n_elements = map%n_elements + n_elements_temp
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map%sorted = map%sorted .and. map_sorted
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call omp_unset_lock(map%lock)
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end
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subroutine map_append(map, key, value, sze)
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use map_module
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implicit none
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type (map_type), intent(inout) :: map
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integer, intent(in) :: sze
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integer(key_kind), intent(inout) :: key(sze)
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real(integral_kind), intent(inout) :: value(sze)
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integer :: i
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integer(cache_map_size_kind) :: n_elements
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integer(map_size_kind) :: idx_cache
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integer(cache_key_kind) :: cache_key
|
|
|
|
do i=1,sze
|
|
idx_cache = shiftr(key(i),map_shift)
|
|
call omp_set_lock(map%map(idx_cache)%lock)
|
|
n_elements = map%map(idx_cache)%n_elements + 1
|
|
! Assert that the map has a proper size
|
|
if (n_elements == map%map(idx_cache)%map_size) then
|
|
call cache_map_reallocate(map%map(idx_cache), n_elements+ shiftr(n_elements,1))
|
|
endif
|
|
cache_key = int(iand(key(i),map_mask),2)
|
|
map%map(idx_cache)%value(n_elements) = value(i)
|
|
map%map(idx_cache)%key(n_elements) = cache_key
|
|
map%map(idx_cache)%n_elements = n_elements
|
|
if (map%map(idx_cache)%sorted.and.n_elements > 1) then
|
|
map%map(idx_cache)%sorted = (map%map(idx_cache)%key(n_elements-1) <= cache_key)
|
|
map%sorted = map%sorted .and. map%map(idx_cache)%sorted
|
|
endif
|
|
call omp_unset_lock(map%map(idx_cache)%lock)
|
|
enddo
|
|
call omp_set_lock(map%lock)
|
|
map%n_elements = map%n_elements + sze
|
|
call omp_unset_lock(map%lock)
|
|
|
|
end
|
|
|
|
subroutine map_get(map, key, value)
|
|
use map_module
|
|
implicit none
|
|
type (map_type), intent(inout) :: map
|
|
integer(key_kind), intent(in) :: key
|
|
real(integral_kind), intent(out) :: value
|
|
integer(map_size_kind) :: idx_cache
|
|
integer(cache_map_size_kind) :: idx
|
|
|
|
! index in tha pointers array
|
|
idx_cache = shiftr(key,map_shift)
|
|
!DIR$ FORCEINLINE
|
|
call cache_map_get_interval(map%map(idx_cache), key, value, 1, map%map(idx_cache)%n_elements,idx)
|
|
end
|
|
|
|
subroutine cache_map_get_interval(map, key, value, ibegin, iend, idx)
|
|
use map_module
|
|
implicit none
|
|
type (cache_map_type), intent(inout) :: map
|
|
integer(key_kind), intent(in) :: key
|
|
integer(cache_map_size_kind), intent(in) :: ibegin, iend
|
|
real(integral_kind), intent(out) :: value
|
|
integer(cache_map_size_kind), intent(inout) :: idx
|
|
double precision, pointer :: v(:)
|
|
integer :: i
|
|
|
|
call search_key_big_interval(key,map%key, map%n_elements, idx, ibegin, iend)
|
|
if (idx > 0) then
|
|
value = map%value(idx)
|
|
else
|
|
value = 0._integral_kind
|
|
endif
|
|
! call search_key_value_big_interval(key, value, map%key, map%value, map%n_elements, idx, ibegin, iend)
|
|
end
|
|
|
|
|
|
subroutine map_get_many(map, key, value, sze)
|
|
use map_module
|
|
implicit none
|
|
type (map_type), intent(inout) :: map
|
|
integer, intent(in) :: sze
|
|
integer(key_kind), intent(in) :: key(sze)
|
|
real(integral_kind), intent(out) :: value(sze)
|
|
integer :: i
|
|
integer(map_size_kind) :: idx_cache
|
|
integer(cache_map_size_kind) :: ibegin, iend
|
|
integer(cache_map_size_kind), allocatable :: idx(:)
|
|
!DIR$ ATTRIBUTES ALIGN : 64 :: idx
|
|
|
|
allocate(idx(sze))
|
|
do i=1,sze
|
|
idx_cache = shiftr(key(i),map_shift)
|
|
iend = map%map(idx_cache)%n_elements
|
|
!DIR$ FORCEINLINE
|
|
call search_key_big_interval(key(i),map%map(idx_cache)%key, iend, idx(i), 1, iend)
|
|
enddo
|
|
do i=1,sze
|
|
idx_cache = shiftr(key(i),map_shift)
|
|
if (idx(i) > 0) then
|
|
value(i) = map%map(idx_cache)%value(idx(i))
|
|
else
|
|
value(i) = 0.
|
|
endif
|
|
enddo
|
|
deallocate(idx)
|
|
end
|
|
|
|
subroutine map_exists_many(map, key, sze)
|
|
use map_module
|
|
implicit none
|
|
type (map_type), intent(inout) :: map
|
|
integer, intent(in) :: sze
|
|
integer(key_kind), intent(inout) :: key(sze)
|
|
integer :: i
|
|
integer(map_size_kind) :: idx_cache, idx_cache_prev
|
|
integer(cache_map_size_kind) :: ibegin, iend
|
|
integer(cache_map_size_kind), allocatable :: idx(:)
|
|
!DIR$ ATTRIBUTES ALIGN : 64 :: idx
|
|
|
|
idx_cache_prev = -1_map_size_kind
|
|
allocate(idx(sze))
|
|
do i=1,sze
|
|
idx_cache = shiftr(key(i),map_shift)
|
|
iend = map%map(idx_cache)%n_elements
|
|
if (idx_cache == idx_cache_prev) then
|
|
if ((idx(i-1) > 0_cache_map_size_kind).and.(idx(i-1) < iend)) then
|
|
if ((key(i) == key(i-1)+1).and.(map%map(idx_cache)%key(idx(i-1))+1) == key(i)) then
|
|
idx(i) = idx(i-1)+1
|
|
cycle
|
|
endif
|
|
endif
|
|
endif
|
|
!DIR$ FORCEINLINE
|
|
call search_key_big_interval(key(i),map%map(idx_cache)%key, iend, idx(i), 1, iend)
|
|
idx_cache_prev = idx_cache
|
|
enddo
|
|
do i=1,sze
|
|
idx_cache = shiftr(key(i),map_shift)
|
|
if (idx(i) <= 0) then
|
|
key(i) = 0_key_kind
|
|
endif
|
|
enddo
|
|
deallocate(idx)
|
|
end
|
|
|
|
subroutine search_key_big(key,X,sze,idx)
|
|
use map_module
|
|
implicit none
|
|
integer(cache_map_size_kind), intent(in) :: sze
|
|
integer(key_kind) , intent(in) :: key
|
|
integer(cache_key_kind) , intent(in) :: X(sze)
|
|
integer(cache_map_size_kind), intent(out) :: idx
|
|
|
|
call search_key_big_interval(key,X,sze,idx,1,sze)
|
|
end
|
|
|
|
|
|
subroutine search_key_big_interval(key,X,sze,idx,ibegin_in,iend_in)
|
|
use map_module
|
|
implicit none
|
|
integer(cache_map_size_kind), intent(in) :: sze
|
|
integer(key_kind) , intent(in) :: key
|
|
integer(cache_key_kind) , intent(in) :: X(sze)
|
|
integer(cache_map_size_kind), intent(in) :: ibegin_in, iend_in
|
|
integer(cache_map_size_kind), intent(out) :: idx
|
|
|
|
integer(cache_map_size_kind) :: istep, ibegin, iend, i
|
|
integer(cache_key_kind) :: cache_key
|
|
|
|
if (sze /= 0) then
|
|
continue
|
|
else
|
|
idx = -1
|
|
return
|
|
endif
|
|
cache_key = int(iand(key,map_mask),2)
|
|
ibegin = min(ibegin_in,sze)
|
|
iend = min(iend_in,sze)
|
|
if ((cache_key > X(ibegin)) .and. (cache_key < X(iend))) then
|
|
|
|
istep = shiftr(iend-ibegin,1)
|
|
idx = ibegin + istep
|
|
do while (istep > 4)
|
|
idx = ibegin + istep
|
|
! TODO : Cache misses
|
|
if (cache_key < X(idx)) then
|
|
iend = idx
|
|
istep = shiftr(idx-ibegin,1)
|
|
idx = ibegin + istep
|
|
if (cache_key < X(idx)) then
|
|
iend = idx
|
|
istep = shiftr(idx-ibegin,1)
|
|
cycle
|
|
else if (cache_key > X(idx)) then
|
|
ibegin = idx
|
|
istep = shiftr(iend-idx,1)
|
|
cycle
|
|
else
|
|
return
|
|
endif
|
|
else if (cache_key > X(idx)) then
|
|
ibegin = idx
|
|
istep = shiftr(iend-idx,1)
|
|
idx = idx + istep
|
|
if (cache_key < X(idx)) then
|
|
iend = idx
|
|
istep = shiftr(idx-ibegin,1)
|
|
cycle
|
|
else if (cache_key > X(idx)) then
|
|
ibegin = idx
|
|
istep = shiftr(iend-idx,1)
|
|
cycle
|
|
else
|
|
return
|
|
endif
|
|
else
|
|
return
|
|
endif
|
|
enddo
|
|
idx = ibegin
|
|
if (min(iend_in,sze) > ibegin+4) then
|
|
iend = ibegin+4
|
|
!DIR$ LOOP COUNT MAX(4)
|
|
do while (cache_key > X(idx))
|
|
idx = idx+1
|
|
end do
|
|
else
|
|
!DIR$ LOOP COUNT MAX(4)
|
|
do while (cache_key > X(idx))
|
|
idx = idx+1
|
|
if (idx == iend) then
|
|
exit
|
|
endif
|
|
end do
|
|
endif
|
|
if (cache_key /= X(idx)) then
|
|
idx = 1-idx
|
|
endif
|
|
return
|
|
|
|
else
|
|
|
|
if (cache_key < X(ibegin)) then
|
|
idx = -ibegin
|
|
return
|
|
endif
|
|
if (cache_key > X(iend)) then
|
|
idx = -iend
|
|
return
|
|
endif
|
|
if (cache_key == X(ibegin)) then
|
|
idx = ibegin
|
|
return
|
|
endif
|
|
if (cache_key == X(iend)) then
|
|
idx = iend
|
|
return
|
|
endif
|
|
endif
|
|
|
|
end
|
|
|
|
subroutine search_key_value_big_interval(key,value,X,Y,sze,idx,ibegin_in,iend_in)
|
|
use map_module
|
|
implicit none
|
|
integer(cache_map_size_kind), intent(in) :: sze
|
|
integer(key_kind) , intent(in) :: key
|
|
real(integral_kind) , intent(out) :: value
|
|
integer(cache_key_kind) , intent(in) :: X(sze)
|
|
real(integral_kind) , intent(in) :: Y(sze)
|
|
integer(cache_map_size_kind), intent(in) :: ibegin_in, iend_in
|
|
integer(cache_map_size_kind), intent(out) :: idx
|
|
|
|
integer(cache_map_size_kind) :: istep, ibegin, iend, i
|
|
integer(cache_key_kind) :: cache_key
|
|
|
|
if (sze /= 0) then
|
|
continue
|
|
else
|
|
idx = -1
|
|
value = 0.d0
|
|
return
|
|
endif
|
|
cache_key = int(iand(key,map_mask),2)
|
|
ibegin = min(ibegin_in,sze)
|
|
iend = min(iend_in,sze)
|
|
if ((cache_key > X(ibegin)) .and. (cache_key < X(iend))) then
|
|
|
|
istep = shiftr(iend+ibegin,1)
|
|
idx = ibegin + istep
|
|
do while (istep > 4)
|
|
idx = ibegin + istep
|
|
! TODO : Cache misses
|
|
if (cache_key < X(idx)) then
|
|
iend = idx
|
|
istep = shiftr(idx-ibegin,1)
|
|
idx = ibegin + istep
|
|
if (cache_key < X(idx)) then
|
|
iend = idx
|
|
istep = shiftr(idx-ibegin,1)
|
|
cycle
|
|
else if (cache_key > X(idx)) then
|
|
ibegin = idx
|
|
istep = shiftr(iend-idx,1)
|
|
cycle
|
|
else
|
|
value = Y(idx)
|
|
return
|
|
endif
|
|
else if (cache_key > X(idx)) then
|
|
ibegin = idx
|
|
istep = shiftr(iend-idx,1)
|
|
idx = idx + istep
|
|
if (cache_key < X(idx)) then
|
|
iend = idx
|
|
istep = shiftr(idx-ibegin,1)
|
|
cycle
|
|
else if (cache_key > X(idx)) then
|
|
ibegin = idx
|
|
istep = shiftr(iend-idx,1)
|
|
cycle
|
|
else
|
|
value = Y(idx)
|
|
return
|
|
endif
|
|
else
|
|
value = Y(idx)
|
|
return
|
|
endif
|
|
enddo
|
|
idx = ibegin
|
|
if (min(iend_in,sze) > ibegin+4) then
|
|
iend = ibegin+4
|
|
!DIR$ LOOP COUNT MAX(4)
|
|
do while (cache_key > X(idx))
|
|
idx = idx+1
|
|
end do
|
|
else
|
|
!DIR$ LOOP COUNT MAX(4)
|
|
do while (cache_key > X(idx))
|
|
idx = idx+1
|
|
if (idx == iend) then
|
|
exit
|
|
endif
|
|
end do
|
|
endif
|
|
if (cache_key /= X(idx)) then
|
|
idx = 1-idx
|
|
value = 0.d0
|
|
else
|
|
value = Y(idx)
|
|
endif
|
|
return
|
|
|
|
else
|
|
|
|
if (cache_key < X(ibegin)) then
|
|
idx = -ibegin
|
|
value = 0.d0
|
|
return
|
|
endif
|
|
if (cache_key > X(iend)) then
|
|
idx = -iend
|
|
value = 0.d0
|
|
return
|
|
endif
|
|
if (cache_key == X(ibegin)) then
|
|
idx = ibegin
|
|
value = Y(idx)
|
|
return
|
|
endif
|
|
if (cache_key == X(iend)) then
|
|
idx = iend
|
|
value = Y(idx)
|
|
return
|
|
endif
|
|
endif
|
|
|
|
end
|
|
|
|
|
|
subroutine get_cache_map_n_elements_max(map,n_elements_max)
|
|
use map_module
|
|
implicit none
|
|
! Returns the size of the largest cache_map
|
|
type (map_type), intent(in) :: map
|
|
integer(cache_map_size_kind), intent(out) :: n_elements_max
|
|
integer(map_size_kind) :: i
|
|
n_elements_max = 0_cache_map_size_kind
|
|
do i=0_8,map%map_size
|
|
n_elements_max = max(n_elements_max, map%map(i)%n_elements)
|
|
enddo
|
|
end
|
|
|
|
|
|
|
|
subroutine get_cache_map(map,map_idx,keys,values,n_elements)
|
|
use map_module
|
|
implicit none
|
|
type (map_type), intent(in) :: map
|
|
integer(map_size_kind), intent(in) :: map_idx
|
|
integer(cache_map_size_kind), intent(inout) :: n_elements
|
|
integer(key_kind), intent(out) :: keys(n_elements)
|
|
double precision, intent(out) :: values(n_elements)
|
|
integer(cache_map_size_kind) :: i
|
|
integer(key_kind) :: shift
|
|
|
|
shift = shiftl(map_idx,map_shift)
|
|
|
|
n_elements = map%map(map_idx)%n_elements
|
|
do i=1,n_elements
|
|
keys(i) = map%map(map_idx)%key(i) + shift
|
|
values(i) = map%map(map_idx)%value(i)
|
|
enddo
|
|
|
|
end
|
|
|