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QuantumPackage/src/determinants/connected_to_ref.irp.f

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Fortran
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integer*8 function det_search_key(det,Nint)
use bitmasks
implicit none
BEGIN_DOC
! Return an integer*8 corresponding to a determinant index for searching
END_DOC
integer, intent(in) :: Nint
integer(bit_kind), intent(in) :: det(Nint,2)
integer :: i
i = shiftr(elec_alpha_num, bit_kind_shift)+1
det_search_key = int(shiftr(ior(det(i,1),det(i,2)),1)+sum(det),8)
end
logical function is_in_wavefunction(key,Nint)
use bitmasks
implicit none
BEGIN_DOC
! |true| if the determinant ``det`` is in the wave function
END_DOC
integer, intent(in) :: Nint
integer(bit_kind), intent(in) :: key(Nint,2)
integer, external :: get_index_in_psi_det_sorted_bit
!DIR$ FORCEINLINE
is_in_wavefunction = get_index_in_psi_det_sorted_bit(key,Nint) > 0
end
integer function get_index_in_psi_det_sorted_bit(key,Nint)
use bitmasks
BEGIN_DOC
! Returns the index of the determinant in the ``psi_det_sorted_bit`` array
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! using a binary search
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END_DOC
implicit none
integer, intent(in) :: Nint
integer(bit_kind), intent(in) :: key(Nint,2)
integer :: i, ibegin, iend, istep, l
integer*8 :: det_ref, det_search
integer*8, external :: det_search_key
logical :: in_wavefunction
in_wavefunction = .False.
get_index_in_psi_det_sorted_bit = 0
ibegin = 1
iend = N_det+1
!DIR$ FORCEINLINE
det_ref = det_search_key(key,Nint)
!DIR$ FORCEINLINE
det_search = det_search_key(psi_det_sorted_bit(1,1,1),Nint)
istep = shiftr(iend-ibegin,1)
i=ibegin+istep
do while (istep > 0)
!DIR$ FORCEINLINE
det_search = det_search_key(psi_det_sorted_bit(1,1,i),Nint)
if ( det_search > det_ref ) then
iend = i
else if ( det_search == det_ref ) then
exit
else
ibegin = i
endif
istep = shiftr(iend-ibegin,1)
i = ibegin + istep
end do
!DIR$ FORCEINLINE
do while (det_search_key(psi_det_sorted_bit(1,1,i),Nint) == det_ref)
i = i-1
if (i == 0) then
exit
endif
enddo
if (i >= N_det) then
return
endif
i += 1
!DIR$ FORCEINLINE
do while (det_search_key(psi_det_sorted_bit(1,1,i),Nint) == det_ref)
if ( (key(1,1) /= psi_det_sorted_bit(1,1,i)).or. &
(key(1,2) /= psi_det_sorted_bit(1,2,i)) ) then
continue
else
in_wavefunction = .True.
do l=2,Nint
if ( (key(l,1) /= psi_det_sorted_bit(l,1,i)).or. &
(key(l,2) /= psi_det_sorted_bit(l,2,i)) ) then
in_wavefunction = .False.
endif
enddo
if (in_wavefunction) then
get_index_in_psi_det_sorted_bit = i
return
endif
endif
i += 1
if (i > N_det) then
return
endif
enddo
! DEBUG is_in_wf
! if (in_wavefunction) then
! degree = 1
! do i=1,N_det
! integer :: degree
! call get_excitation_degree(key,psi_det(1,1,i),degree,N_int)
! if (degree == 0) then
! exit
! endif
! enddo
! if (degree /=0) then
! stop 'pouet 1'
! endif
! else
! do i=1,N_det
! call get_excitation_degree(key,psi_det(1,1,i),degree,N_int)
! if (degree == 0) then
! stop 'pouet 2'
! endif
! enddo
! endif
! END DEBUG is_in_wf
end
logical function is_connected_to(key,keys,Nint,Ndet)
use bitmasks
implicit none
BEGIN_DOC
! Returns |true| if determinant ``key`` is connected to ``keys``
END_DOC
integer, intent(in) :: Nint, Ndet
integer(bit_kind), intent(in) :: keys(Nint,2,Ndet)
integer(bit_kind), intent(in) :: key(Nint,2)
integer :: i, l
integer :: degree_x2
ASSERT (Nint > 0)
ASSERT (Nint == N_int)
is_connected_to = .false.
do i=1,Ndet
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i)))
do l=2,Nint
degree_x2 = degree_x2 + popcnt(xor( key(l,1), keys(l,1,i))) +&
popcnt(xor( key(l,2), keys(l,2,i)))
enddo
if (degree_x2 > 4) then
cycle
else
is_connected_to = .true.
return
endif
enddo
end
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logical function is_connected_to_by_single(key,keys,Nint,Ndet)
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use bitmasks
implicit none
BEGIN_DOC
! Returns |true| is ``key`` is connected to ``keys`` by a single excitation.
END_DOC
integer, intent(in) :: Nint, Ndet
integer(bit_kind), intent(in) :: keys(Nint,2,Ndet)
integer(bit_kind), intent(in) :: key(Nint,2)
integer :: i, l
integer :: degree_x2
ASSERT (Nint > 0)
ASSERT (Nint == N_int)
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is_connected_to_by_single = .false.
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do i=1,Ndet
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i)))
do l=2,Nint
degree_x2 = degree_x2 + popcnt(xor( key(l,1), keys(l,1,i))) +&
popcnt(xor( key(l,2), keys(l,2,i)))
enddo
if (degree_x2 > 2) then
cycle
else
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is_connected_to_by_single = .true.
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return
endif
enddo
end
integer function connected_to_ref(key,keys,Nint,N_past_in,Ndet)
use bitmasks
implicit none
integer, intent(in) :: Nint, N_past_in, Ndet
integer(bit_kind), intent(in) :: keys(Nint,2,Ndet)
integer(bit_kind), intent(in) :: key(Nint,2)
integer :: N_past
integer :: i, l
integer :: degree_x2
logical :: t
double precision :: hij_elec
BEGIN_DOC
! input : key : a given Slater determinant
!
! : keys: a list of Slater determinants
!
! : Ndet: the number of Slater determinants in keys
!
! : N_past_in the number of Slater determinants for the connectivity research
!
! output : 0 : key not connected to the N_past_in first Slater determinants in keys
!
! i : key is connected to determinant i of keys
!
! -i : key is the ith determinant of the reference wf keys
END_DOC
ASSERT (Nint > 0)
ASSERT (Nint == N_int)
connected_to_ref = 0
N_past = max(1,N_past_in)
if (Nint == 1) then
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i)))
if (degree_x2 > 4) then
cycle
else
connected_to_ref = i
return
endif
enddo
return
else if (Nint==2) then
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i))) + &
popcnt(xor( key(2,1), keys(2,1,i))) + &
popcnt(xor( key(2,2), keys(2,2,i)))
if (degree_x2 > 4) then
cycle
else
connected_to_ref = i
return
endif
enddo
return
else if (Nint==3) then
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i))) + &
popcnt(xor( key(2,1), keys(2,1,i))) + &
popcnt(xor( key(2,2), keys(2,2,i))) + &
popcnt(xor( key(3,1), keys(3,1,i))) + &
popcnt(xor( key(3,2), keys(3,2,i)))
if (degree_x2 > 4) then
cycle
else
connected_to_ref = i
return
endif
enddo
return
else
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i)))
do l=2,Nint
degree_x2 = degree_x2 + popcnt(xor( key(l,1), keys(l,1,i))) +&
popcnt(xor( key(l,2), keys(l,2,i)))
if (degree_x2 > 4) then
exit
endif
enddo
if (degree_x2 > 4) then
cycle
else
connected_to_ref = i
return
endif
enddo
endif
end
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integer function connected_to_ref_by_single(key,keys,Nint,N_past_in,Ndet)
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use bitmasks
implicit none
BEGIN_DOC
! Returns |true| is ``key`` is connected to the reference by a single excitation.
END_DOC
integer, intent(in) :: Nint, N_past_in, Ndet
integer(bit_kind), intent(in) :: keys(Nint,2,Ndet)
integer(bit_kind), intent(in) :: key(Nint,2)
integer :: N_past
integer :: i, l
integer :: degree_x2
logical :: t
double precision :: hij_elec
BEGIN_DOC
! input : key : a given Slater determinant
!
! : keys: a list of Slater determinants
!
! : Ndet: the number of Slater determinants in keys
!
! : N_past_in the number of Slater determinants for the connectivity research
!
! output : 0 : key not connected by a MONO EXCITATION to the N_past_in first Slater determinants in keys
!
! i : key is connected by a MONO EXCITATION to determinant i of keys
!
! -i : key is the ith determinant of the reference wf keys
END_DOC
ASSERT (Nint > 0)
ASSERT (Nint == N_int)
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connected_to_ref_by_single = 0
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N_past = max(1,N_past_in)
if (Nint == 1) then
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i)))
if (degree_x2 > 3.and. degree_x2 <5) then
cycle
else if (degree_x2 == 4)then
cycle
else if(degree_x2 == 2)then
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connected_to_ref_by_single = i
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return
endif
enddo
return
else if (Nint==2) then
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i))) + &
popcnt(xor( key(2,1), keys(2,1,i))) + &
popcnt(xor( key(2,2), keys(2,2,i)))
if (degree_x2 > 3.and. degree_x2 <5) then
cycle
else if (degree_x2 == 4)then
cycle
else if(degree_x2 == 2)then
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connected_to_ref_by_single = i
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return
endif
enddo
return
else if (Nint==3) then
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i))) + &
popcnt(xor( key(2,1), keys(2,1,i))) + &
popcnt(xor( key(2,2), keys(2,2,i))) + &
popcnt(xor( key(3,1), keys(3,1,i))) + &
popcnt(xor( key(3,2), keys(3,2,i)))
if (degree_x2 > 3.and. degree_x2 <5) then
cycle
else if (degree_x2 == 4)then
cycle
else if(degree_x2 == 2)then
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connected_to_ref_by_single = i
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return
endif
enddo
return
else
do i=N_past-1,1,-1
degree_x2 = popcnt(xor( key(1,1), keys(1,1,i))) + &
popcnt(xor( key(1,2), keys(1,2,i)))
do l=2,Nint
degree_x2 = degree_x2 + popcnt(xor( key(l,1), keys(l,1,i))) +&
popcnt(xor( key(l,2), keys(l,2,i)))
enddo
if (degree_x2 > 3.and. degree_x2 <5) then
cycle
else if (degree_x2 == 4)then
cycle
else if(degree_x2 == 2)then
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connected_to_ref_by_single = i
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return
endif
enddo
endif
end