!!$ !!$ Parallel Sparse BLAS v2.0 !!$ (C) Copyright 2006 Salvatore Filippone University of Rome Tor Vergata !!$ Alfredo Buttari CNRS-IRIT, Toulouse !!$ !!$ Redistribution and use in source and binary forms, with or without !!$ modification, are permitted provided that the following conditions !!$ are met: !!$ 1. Redistributions of source code must retain the above copyright !!$ notice, this list of conditions and the following disclaimer. !!$ 2. Redistributions in binary form must reproduce the above copyright !!$ notice, this list of conditions, and the following disclaimer in the !!$ documentation and/or other materials provided with the distribution. !!$ 3. The name of the PSBLAS group or the names of its contributors may !!$ not be used to endorse or promote products derived from this !!$ software without specific written permission. !!$ !!$ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS !!$ ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED !!$ TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR !!$ PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS !!$ BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR !!$ CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF !!$ SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS !!$ INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN !!$ CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) !!$ ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE !!$ POSSIBILITY OF SUCH DAMAGE. !!$ !!$ ! ! package: psb_hash_mod ! ! This module implements a very simple minded hash table. ! The hash is based on the idea of open addressing with double hashing; ! the primary hash function h1(K) is simply the remainder modulo 2^N, while ! the secondary hash function is 1 if H1(k) == 0, otherwise IOR((2^N-H1(k)),1) ! (See Knuth: TAOCP, Vol. 3, sec. 6.4) ! These hash functions are not very smart; however they are very simple and fast. ! The intended usage of this hash table is to store indices of halo points, which ! are supposed to be few compared to the internal indices (which are stored elsewhere). ! Therefore, either the table has a very low occupancy, and this scheme will work, ! or we have lots more to worry about in parallel performance than the efficiency ! of this hashing scheme. ! ! ! module psb_hash_mod use psb_const_mod ! ! For us a hash is a Nx2 table. ! Note: we are assuming that the keys are positive numbers. ! Allocatable scalars would be a nice solution... ! type psb_hash_type integer :: nbits, hsize, hmask, nk integer, allocatable :: table(:,:) integer(psb_long_int_k_) :: nsrch, nacc end type psb_hash_type integer, parameter :: HashDuplicate = 123, HashOK=0, HashOutOfMemory=-512,& & HashFreeEntry = -1, HashNotFound = -256 interface psb_hash_init module procedure psb_hash_init_v, psb_hash_init_n end interface interface psb_sizeof module procedure psb_sizeof_hash_type end interface interface psb_move_alloc module procedure HashTransfer end interface interface psb_hash_copy module procedure HashCopy end interface interface psb_free module procedure HashFree end interface contains function hashval(key) result(val) integer, intent(in) :: key integer, parameter :: ival=5381, mask=2147483647 integer :: key_, val, i key_ = key val = ival do i=1, 4 val = val * 33 + iand(key_,255) key_ = ishft(key_,-8) end do val = val + ishft(val,-5) val = iand(val,mask) end function hashval function psb_Sizeof_hash_type(hash) result(val) type(psb_hash_type) :: hash integer(psb_long_int_k_) :: val val = 4*psb_sizeof_int + 2*psb_sizeof_long_int if (allocated(hash%table)) & & val = val + psb_sizeof_int * size(hash%table) end function psb_Sizeof_hash_type function psb_hash_avg_acc(hash) type(psb_hash_type), intent(in) :: hash real(psb_dpk_) :: psb_hash_avg_acc psb_hash_avg_acc = dble(hash%nacc)/dble(hash%nsrch) end function psb_hash_avg_acc subroutine HashFree(hashin,info) use psb_realloc_mod type(psb_hash_type) :: hashin info = psb_success_ if (allocated(hashin%table)) then deallocate(hashin%table,stat=info) end if hashin%nbits = 0 hashin%hsize = 0 hashin%hmask = 0 hashin%nk = 0 end subroutine HashFree subroutine HashTransfer(hashin,hashout,info) use psb_realloc_mod type(psb_hash_type) :: hashin type(psb_hash_type) :: hashout integer, intent(out) :: info info = HashOk hashout%nbits = hashin%nbits hashout%hsize = hashin%hsize hashout%hmask = hashin%hmask hashout%nk = hashin%nk hashout%nsrch = hashin%nsrch hashout%nacc = hashin%nacc call psb_move_alloc(hashin%table, hashout%table,info) end subroutine HashTransfer subroutine HashCopy(hashin,hashout,info) use psb_realloc_mod type(psb_hash_type) :: hashin type(psb_hash_type) :: hashout integer, intent(out) :: info info = HashOk hashout%nbits = hashin%nbits hashout%hsize = hashin%hsize hashout%hmask = hashin%hmask hashout%nk = hashin%nk hashout%nsrch = hashin%nsrch hashout%nacc = hashin%nacc call psb_safe_ab_cpy(hashin%table, hashout%table,info) end subroutine HashCopy subroutine CloneHashTable(hashin,hashout,info) type(psb_hash_type), pointer :: hashin type(psb_hash_type), pointer :: hashout integer, intent(out) :: info if (associated(hashout)) then deallocate(hashout,stat=info) !if (info /= psb_success_) return end if if (associated(hashin)) then allocate(hashout,stat=info) if (info /= psb_success_) return call HashCopy(hashin,hashout,info) end if end subroutine CloneHashTable subroutine psb_hash_init_V(v,hash,info) integer, intent(in) :: v(:) type(psb_hash_type), intent(out) :: hash integer, intent(out) :: info integer :: i,j,k,hsize,nbits, nv info = psb_success_ nv = size(v) call psb_hash_init(nv,hash,info) if (info /= psb_success_) return do i=1,nv call psb_hash_searchinskey(v(i),j,i,hash,info) if ((j /= i).or.(info /= HashOK)) then write(psb_err_unit,*) 'Error from hash_ins',i,v(i),j,info info = HashNotFound return end if end do end subroutine psb_hash_init_V subroutine psb_hash_init_n(nv,hash,info) integer, intent(in) :: nv type(psb_hash_type), intent(out) :: hash integer, intent(out) :: info integer :: i,j,k,hsize,nbits info = psb_success_ nbits = 12 hsize = 2**nbits ! ! Figure out the smallest power of 2 bigger than NV ! do if (hsize < 0) then write(psb_err_unit,*) 'Error: hash size overflow ',hsize,nbits info = -2 return end if if (hsize > nv) exit nbits = nbits + 1 hsize = hsize * 2 end do hash%nbits = nbits hash%hsize = hsize hash%hmask = hsize-1 hash%nsrch = 0 hash%nacc = 0 allocate(hash%table(0:hsize-1,2),stat=info) if (info /= psb_success_) then write(psb_err_unit,*) 'Error: memory allocation failure ',hsize info = HashOutOfMemory return end if hash%table = HashFreeEntry hash%nk = 0 end subroutine psb_hash_init_n subroutine psb_hash_realloc(hash,info) type(psb_hash_type), intent(inout) :: hash integer, intent(out) :: info type(psb_hash_type) :: nhash integer :: nk, key, val, nextval,i info = HashOk call psb_hash_init((hash%hsize+1),nhash,info) if (info /= HashOk) then info = HashOutOfMemory return endif do i=0, hash%hsize-1 key = hash%table(i,1) nextval = hash%table(i,2) if (key /= HashFreeEntry) then call psb_hash_searchinskey(key,val,nextval,nhash,info) if (info /= psb_success_) then info = HashOutOfMemory return end if end if end do call HashTransfer(nhash,hash,info) end subroutine psb_hash_realloc recursive subroutine psb_hash_searchinskey(key,val,nextval,hash,info) integer, intent(in) :: key,nextval type(psb_hash_type) :: hash integer, intent(out) :: val, info integer :: i,j,k,hsize,hmask, hk, hd info = HashOK hsize = hash%hsize hmask = hash%hmask hk = iand(hashval(key),hmask) if (hk == 0) then hd = 1 else hd = hsize - hk hd = ior(hd,1) end if hash%nsrch = hash%nsrch + 1 do hash%nacc = hash%nacc + 1 if (hash%table(hk,1) == key) then val = hash%table(hk,2) info = HashDuplicate return end if if (hash%table(hk,1) == HashFreeEntry) then if (hash%nk == hash%hsize -1) then ! ! Note: because of the way we allocate things at CDALL ! time this is really unlikely; if we get here, we ! have at least as many halo indices as internals, which ! means we're already in trouble. But we try to keep going. ! call psb_hash_realloc(hash,info) if (info /= HashOk) then info = HashOutOfMemory return else call psb_hash_searchinskey(key,val,nextval,hash,info) return end if else hash%nk = hash%nk + 1 hash%table(hk,1) = key hash%table(hk,2) = nextval val = nextval return end if end if hk = hk - hd if (hk < 0) hk = hk + hsize end do end subroutine psb_hash_searchinskey subroutine psb_hash_searchkey(key,val,hash,info) integer, intent(in) :: key type(psb_hash_type) :: hash integer, intent(out) :: val, info integer :: i,j,k,hsize,hmask, hk, hd info = HashOK if (.not.allocated(hash%table) ) then val = HashFreeEntry return end if hsize = hash%hsize hmask = hash%hmask hk = iand(hashval(key),hmask) if (hk == 0) then hd = 1 else hd = hsize - hk hd = ior(hd,1) end if hash%nsrch = hash%nsrch + 1 do hash%nacc = hash%nacc + 1 if (hash%table(hk,1) == key) then val = hash%table(hk,2) return end if if (hash%table(hk,1) == HashFreeEntry) then val = HashFreeEntry !!$ info = HashNotFound return end if hk = hk - hd if (hk < 0) hk = hk + hsize end do end subroutine psb_hash_searchkey end module psb_hash_mod