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Changed determinant generation function for matching ordering. #143.

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v1j4y 2021-02-06 18:19:38 +01:00
parent 72507ae723
commit 6c64607b56
1 changed files with 139 additions and 1 deletions
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140
src/determinants/configurations.irp.f
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@ -182,6 +182,144 @@ subroutine configuration_to_dets(o,d,sze,n_alpha,Nint)
endif
end
subroutine configuration_to_dets_tree_addressing(o,d,sze,n_alpha,Nint)
use bitmasks
implicit none
BEGIN_DOC
! Generate all possible determinants for a given configuration
!
! This function preserves the tree addressing i.e.
! the time-reversal determinants are at the opposite ends
! and not one after the other as in the parent function.
!
! Input :
! o : configuration : (doubly occupied, singly occupied)
! sze : Number of produced determinants, computed by `configuration_to_dets_size`
! n_alpha : Number of $\alpha$ electrons
! Nint : N_int
!
! Output:
! d : determinants
!
END_DOC
integer ,intent(in) :: Nint
integer ,intent(in) :: n_alpha ! Number of alpha electrons
integer ,intent(inout) :: sze ! Dimension of the output dets
integer(bit_kind),intent(in) :: o(Nint,2) ! Configurations
integer(bit_kind),intent(out) :: d(Nint,2,sze) ! Output determinants
integer :: i, k, n, ispin, ispin2
! Extract list of singly occupied MOs as (int,pos) pairs
! ------------------------------------------------------
integer :: iint(2*n_alpha), ipos(2*n_alpha)
integer(bit_kind) :: v, t, tt, diff, v_prev
integer :: n_alpha_in_single
n=0
n_alpha_in_single = n_alpha
do i=1,Nint
v = o(i,1)
do while(v /= 0_bit_kind)
n = n+1
iint(n) = i
ipos(n) = trailz(v)
v = iand(v,v-1)
enddo
n_alpha_in_single = n_alpha_in_single - popcnt( o(i,2) )
enddo
v = shiftl(1,n_alpha_in_single) - 1
! Initialize first determinant
d(:,1,1) = o(:,2)
d(:,2,1) = o(:,2)
do k=1,n_alpha_in_single
d(iint(k),1,1) = ibset( d(iint(k),1,1), ipos(k) )
enddo
do k=n_alpha_in_single+1,n
d(iint(k),2,1) = ibset( d(iint(k),2,1), ipos(k) )
enddo
sze = int(binom_int(n,n_alpha_in_single),4)
if ( (shiftl(n_alpha_in_single,1) == n).and.n>0 ) then
! Time reversal symmetry
d(:,1,sze) = d(:,2,1)
d(:,2,sze) = d(:,1,1)
do i=2,sze/2,1
! Generate next permutation with Anderson's algorithm
v_prev = v
t = ior(v,v-1)
tt = t+1
v = ior(tt, shiftr( and(not(t),tt) - 1, trailz(v)+1) )
! Find what has changed between v_prev and v
diff = ieor(v,v_prev)
! Initialize with previous determinant
d(:,1,i) = d(:,1,i-1)
d(:,2,i) = d(:,2,i-1)
! Swap bits only where they have changed from v_prev to v
do while (diff /= 0_bit_kind)
k = trailz(diff)+1
if (btest(v,k-1)) then
d(iint(k),1,i) = ibset( d(iint(k),1,i), ipos(k) )
d(iint(k),2,i) = ibclr( d(iint(k),2,i), ipos(k) )
else
d(iint(k),1,i) = ibclr( d(iint(k),1,i), ipos(k) )
d(iint(k),2,i) = ibset( d(iint(k),2,i), ipos(k) )
endif
diff = iand(diff,diff-1_bit_kind)
enddo
! Time reversal symmetry
d(:,1,sze-i+1) = d(:,2,i)
d(:,2,sze-i+1) = d(:,1,i)
enddo
else
do i=2,sze
! Generate next permutation with Anderson's algorithm
v_prev = v
t = ior(v,v-1)
tt = t+1
v = ior(tt, shiftr( and(not(t),tt) - 1, trailz(v)+1) )
! Find what has changed between v_prev and v
diff = ieor(v,v_prev)
! Initialize with previous determinant
d(:,1,i) = d(:,1,i-1)
d(:,2,i) = d(:,2,i-1)
! Swap bits only where they have changed from v_prev to v
do while (diff /= 0_bit_kind)
k = trailz(diff)+1
if (btest(v,k-1)) then
d(iint(k),1,i) = ibset( d(iint(k),1,i), ipos(k) )
d(iint(k),2,i) = ibclr( d(iint(k),2,i), ipos(k) )
else
d(iint(k),1,i) = ibclr( d(iint(k),1,i), ipos(k) )
d(iint(k),2,i) = ibset( d(iint(k),2,i), ipos(k) )
endif
diff = iand(diff,diff-1_bit_kind)
enddo
enddo
endif
end
@ -647,7 +785,7 @@ END_PROVIDER
endif
sze = nmax
call configuration_to_dets( &
call configuration_to_dets_tree_addressing( &
psi_configuration(1,1,k), &
dets, sze, elec_alpha_num, N_int)