Working on changing phase convention. #143

src/determinants/configuration_CI_sigma_helpers.irp.f

@@ -228,149 +228,6 @@
 
   end subroutine
 
-subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI, nconnectedI, excitationIds, excitationTypes)
-  implicit none
-  use bitmasks
-  BEGIN_DOC
-  ! Documentation for obtain_connected_I_foralpha
-  ! This function returns all those selected configurations
-  ! which are connected to the input configuration
-  ! Ialpha by a single excitation.
-  !
-  ! The type of excitations are ordered as follows:
-  ! Type 1 - SOMO -> SOMO
-  ! Type 2 - DOMO -> VMO
-  ! Type 3 - SOMO -> VMO
-  ! Type 4 - DOMO -> SOMO
-  !
-  ! Order of operators
-  ! \alpha> = a^\dag_p a_q |I> = E_pq |I>
-  END_DOC
-  integer          ,intent(in)             :: idxI
-  integer(bit_kind),intent(in)             :: Ialpha(N_int,2)
-  integer(bit_kind),intent(out)            :: connectedI(N_int,2,*)
-  integer          ,intent(out)            :: idxs_connectedI(*)
-  integer,intent(out)                      :: nconnectedI
-  integer,intent(out)                      :: excitationIds(2,*)
-  integer,intent(out)                      :: excitationTypes(*)
-  integer*8                                :: Idomo
-  integer*8                                :: Isomo
-  integer*8                                :: Jdomo
-  integer*8                                :: Jsomo
-  integer*8                                :: IJsomo
-  integer*8                                :: diffSOMO
-  integer*8                                :: diffDOMO
-  integer                                  :: ndiffSOMO
-  integer                                  :: ndiffDOMO
-  integer :: i,j,k,l,p,q,nsomoJ,nsomoalpha,starti,endi,extyp,nholes
-  integer :: listholes(mo_num)
-  integer :: holetype(mo_num)
-
-  ! find out all pq holes possible
-  nholes = 0
-  ! holes in SOMO
-  Isomo = psi_configuration(1,1,idxI)
-  Idomo = psi_configuration(1,2,idxI)
-  do i = n_core_orb+1,n_core_orb + n_act_orb
-     if(POPCNT(IAND(Isomo,IBSET(0_8,i-1))) .EQ. 1) then
-        nholes += 1
-        listholes(nholes) = i
-        holetype(nholes) = 1
-     endif
-  end do
-  ! holes in DOMO
-  do i = n_core_orb+1,n_core_orb + n_act_orb
-     if(POPCNT(IAND(Idomo,IBSET(0_8,i-1))) .EQ. 1) then
-        nholes += 1
-        listholes(nholes) = i
-        holetype(nholes) = 2
-     endif
-  end do
-
-  nconnectedI = 0
-
-  p = 0
-  q = 0
-  do i=idxI,N_configuration
-     Isomo = Ialpha(1,1)
-     Idomo = Ialpha(1,2)
-     Jsomo = psi_configuration(1,1,i)
-     Jdomo = psi_configuration(1,2,i)
-     !call debug_spindet(Isomo,1)
-     !call debug_spindet(Idomo,1)
-     !print *,"-J--i=",i,Idomo,Jdomo,">",N_configuration
-     !call debug_spindet(Jsomo,1)
-     !call debug_spindet(Jdomo,1)
-     diffSOMO = IEOR(Isomo,Jsomo)
-     diffDOMO = IEOR(Idomo,Jdomo)
-     ndiffSOMO = POPCNT(diffSOMO)
-     ndiffDOMO = POPCNT(diffDOMO)
-     if((ndiffSOMO + ndiffDOMO) .EQ. 0) cycle
-     !print *,"-I--i=",i,diffSOMO,diffDOMO!Isomo,Jsomo,ndiffSOMO,ndiffDOMO
-     !print *,POPCNT(IEOR(diffSOMO,diffDOMO)), ndiffDOMO
-     if(POPCNT(IEOR(diffSOMO,diffDOMO)) .LE. 1 .AND. ndiffDOMO .LT. 3) then
-     call debug_spindet(Isomo,1)
-     call debug_spindet(Idomo,1)
-     print *,"-J--i=",i,Idomo,Jdomo,">",N_configuration
-     call debug_spindet(Jsomo,1)
-     call debug_spindet(Jdomo,1)
-        select case(ndiffDOMO)
-        case (0)
-           ! SOMO -> VMO
-           !print *,"obt SOMO -> VMO"
-           extyp = 3
-           IJsomo = IEOR(Isomo, Jsomo)
-           p = TRAILZ(IAND(Isomo,IJsomo)) + 1
-           IJsomo = IBCLR(IJsomo,p-1)
-           q = TRAILZ(IJsomo) + 1
-        case (1)
-           ! DOMO -> VMO
-           ! or
-           ! SOMO -> SOMO
-           nsomoJ = POPCNT(Jsomo)
-           nsomoalpha = POPCNT(Isomo)
-           if(nsomoJ .GT. nsomoalpha) then
-              ! DOMO -> VMO
-              !print *,"obt DOMO -> VMO"
-              extyp = 2
-              p = TRAILZ(IEOR(Idomo,Jdomo)) + 1
-              Isomo = IEOR(Isomo, Jsomo)
-              Isomo = IBCLR(Isomo,p-1)
-              q = TRAILZ(Isomo) + 1
-           else
-              ! SOMO -> SOMO
-              !print *,"obt SOMO -> SOMO"
-              extyp = 1
-              q = TRAILZ(IEOR(Idomo,Jdomo)) + 1
-              Isomo = IEOR(Isomo, Jsomo)
-              Isomo = IBCLR(Isomo,q-1)
-              p = TRAILZ(Isomo) + 1
-           end if
-        case (2)
-           ! DOMO -> SOMO
-           !print *,"obt DOMO -> SOMO"
-           extyp = 4
-           IJsomo = IEOR(Isomo, Jsomo)
-           p = TRAILZ(IAND(Jsomo,IJsomo)) + 1
-           IJsomo = IBCLR(IJsomo,p-1)
-           q = TRAILZ(IJsomo) + 1
-        case default
-           print *,"something went wront in get connectedI"
-        end select
-        starti = psi_config_data(i,1)
-        endi   = psi_config_data(i,2)
-        nconnectedI += 1
-        connectedI(:,:,nconnectedI) = psi_configuration(:,:,i)
-        idxs_connectedI(nconnectedI)=starti
-        excitationIds(1,nconnectedI)=p
-        excitationIds(2,nconnectedI)=q
-        excitationTypes(nconnectedI) = extyp
-        print *,"------ > output p,q in obt=",p,q
-     endif
-  end do
-
-end subroutine obtain_connected_I_foralpha
-
   function getNSOMO(Icfg) result(NSOMO)
     implicit none
     integer(bit_kind),intent(in)   :: Icfg(N_int,2)

src/determinants/configuration_CI_sigma_helpers.org

@@ -252,7 +252,7 @@ the input determinant \(|D_I\rangle\).
 Next step is to obtain the connected CFGs \(|I\rangle\) that belong to the selected space
 given a RI configuration \(|\alpha\rangle\).
 
-#+begin_src f90 :main no :tangle configuration_CI_sigma_helpers.irp.f
+#+begin_src f90 :main no :tangle ../cfgCI/obtain_I_foralpha.irp.f
 subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI, nconnectedI, excitationIds, excitationTypes)
   implicit none
   use bitmasks
@@ -316,7 +316,7 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
 
   p = 0
   q = 0
-  do i=idxI,N_configuration
+  do i=idxI+1,N_configuration
      Isomo = Ialpha(1,1)
      Idomo = Ialpha(1,2)
      Jsomo = psi_configuration(1,1,i)
@@ -334,11 +334,11 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
      !print *,"-I--i=",i,diffSOMO,diffDOMO!Isomo,Jsomo,ndiffSOMO,ndiffDOMO
      !print *,POPCNT(IEOR(diffSOMO,diffDOMO)), ndiffDOMO
      if(POPCNT(IEOR(diffSOMO,diffDOMO)) .LE. 1 .AND. ndiffDOMO .LT. 3) then
-     call debug_spindet(Isomo,1)
+     !call debug_spindet(Isomo,1)
-     call debug_spindet(Idomo,1)
+     !call debug_spindet(Idomo,1)
-     print *,"-J--i=",i,Idomo,Jdomo,">",N_configuration
+     !print *,"-J--i=",i,Idomo,Jdomo,">",N_configuration
-     call debug_spindet(Jsomo,1)
+     !call debug_spindet(Jsomo,1)
-     call debug_spindet(Jdomo,1)
+     !call debug_spindet(Jdomo,1)
         select case(ndiffDOMO)
         case (0)
            ! SOMO -> VMO