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colvar_utils.F
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colvar_utils.F
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!--------------------------------------------------------------------------------------------------!
! CP2K: A general program to perform molecular dynamics simulations !
! Copyright 2000-2024 CP2K developers group <https://cp2k.org> !
! !
! SPDX-License-Identifier: GPL-2.0-or-later !
!--------------------------------------------------------------------------------------------------!
! **************************************************************************************************
!> \brief evaluations of colvar for internal coordinates schemes
!> \par History
!> 05-2007 created [tlaino]
!> \author Teodoro Laino - Zurich University (2007) [tlaino]
! **************************************************************************************************
MODULE colvar_utils
USE cell_types, ONLY: cell_type
USE colvar_methods, ONLY: colvar_eval_mol_f
USE colvar_types, ONLY: &
colvar_counters, colvar_setup, colvar_type, coord_colvar_id, distance_from_path_colvar_id, &
gyration_colvar_id, mindist_colvar_id, population_colvar_id, reaction_path_colvar_id, &
rmsd_colvar_id
USE cp_subsys_types, ONLY: cp_subsys_get,&
cp_subsys_type
USE distribution_1d_types, ONLY: distribution_1d_type
USE force_env_types, ONLY: force_env_get,&
force_env_type
USE input_constants, ONLY: rmsd_all,&
rmsd_list
USE kinds, ONLY: dp
USE mathlib, ONLY: invert_matrix
USE memory_utilities, ONLY: reallocate
USE molecule_kind_list_types, ONLY: molecule_kind_list_type
USE molecule_kind_types, ONLY: colvar_constraint_type,&
fixd_constraint_type,&
get_molecule_kind,&
molecule_kind_type
USE molecule_list_types, ONLY: molecule_list_type
USE molecule_types, ONLY: get_molecule,&
global_constraint_type,&
local_colvar_constraint_type,&
molecule_type
USE particle_list_types, ONLY: particle_list_type
USE particle_types, ONLY: particle_type
USE rmsd, ONLY: rmsd3
USE string_utilities, ONLY: uppercase
USE util, ONLY: sort
#include "./base/base_uses.f90"
IMPLICIT NONE
PRIVATE
PUBLIC :: number_of_colvar, &
eval_colvar, &
set_colvars_target, &
get_clv_force, &
post_process_colvar
CHARACTER(len=*), PARAMETER, PRIVATE :: moduleN = 'colvar_utils'
CONTAINS
! **************************************************************************************************
!> \brief Gives back the number of colvar defined for a force_eval
!> \param force_env ...
!> \param only_intra_colvar ...
!> \param unique ...
!> \return ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
FUNCTION number_of_colvar(force_env, only_intra_colvar, unique) RESULT(ntot)
TYPE(force_env_type), POINTER :: force_env
LOGICAL, INTENT(IN), OPTIONAL :: only_intra_colvar, unique
INTEGER :: ntot
CHARACTER(LEN=*), PARAMETER :: routineN = 'number_of_colvar'
INTEGER :: handle, ikind, imol
LOGICAL :: my_unique, skip_inter_colvar
TYPE(colvar_counters) :: ncolv
TYPE(cp_subsys_type), POINTER :: subsys
TYPE(global_constraint_type), POINTER :: gci
TYPE(molecule_kind_list_type), POINTER :: molecule_kinds
TYPE(molecule_kind_type), POINTER :: molecule_kind, molecule_kind_set(:)
TYPE(molecule_list_type), POINTER :: molecules
TYPE(molecule_type), POINTER :: molecule, molecule_set(:)
NULLIFY (subsys, molecules, molecule_kind, molecule, molecule_set, gci)
CALL timeset(routineN, handle)
skip_inter_colvar = .FALSE.
my_unique = .FALSE.
IF (PRESENT(only_intra_colvar)) skip_inter_colvar = only_intra_colvar
IF (PRESENT(unique)) my_unique = unique
ntot = 0
CALL force_env_get(force_env=force_env, subsys=subsys)
CALL cp_subsys_get(subsys=subsys, molecules=molecules, gci=gci, &
molecule_kinds=molecule_kinds)
molecule_set => molecules%els
! Intramolecular Colvar
IF (my_unique) THEN
molecule_kind_set => molecule_kinds%els
DO ikind = 1, molecule_kinds%n_els
molecule_kind => molecule_kind_set(ikind)
CALL get_molecule_kind(molecule_kind, ncolv=ncolv)
ntot = ntot + ncolv%ntot
END DO
ELSE
MOL: DO imol = 1, SIZE(molecule_set)
molecule => molecule_set(imol)
molecule_kind => molecule%molecule_kind
CALL get_molecule_kind(molecule_kind, &
ncolv=ncolv)
ntot = ntot + ncolv%ntot
END DO MOL
END IF
! Intermolecular Colvar
IF (.NOT. skip_inter_colvar) THEN
IF (ASSOCIATED(gci)) THEN
ntot = ntot + gci%ncolv%ntot
END IF
END IF
CALL timestop(handle)
END FUNCTION number_of_colvar
! **************************************************************************************************
!> \brief Set the value of target for constraints/restraints
!> \param targets ...
!> \param force_env ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
SUBROUTINE set_colvars_target(targets, force_env)
REAL(KIND=dp), DIMENSION(:), INTENT(IN) :: targets
TYPE(force_env_type), POINTER :: force_env
CHARACTER(LEN=*), PARAMETER :: routineN = 'set_colvars_target'
INTEGER :: handle, i, ikind, ind, nkind
TYPE(cell_type), POINTER :: cell
TYPE(colvar_constraint_type), DIMENSION(:), &
POINTER :: colv_list
TYPE(colvar_counters) :: ncolv
TYPE(cp_subsys_type), POINTER :: subsys
TYPE(global_constraint_type), POINTER :: gci
TYPE(molecule_kind_list_type), POINTER :: molecule_kinds
TYPE(molecule_kind_type), POINTER :: molecule_kind
NULLIFY (cell, subsys, molecule_kinds, molecule_kind, gci, colv_list)
CALL timeset(routineN, handle)
CALL force_env_get(force_env=force_env, subsys=subsys, cell=cell)
CALL cp_subsys_get(subsys=subsys, gci=gci, molecule_kinds=molecule_kinds)
nkind = molecule_kinds%n_els
! Set Target for Intramolecular Colvars
MOL: DO ikind = 1, nkind
molecule_kind => molecule_kinds%els(ikind)
CALL get_molecule_kind(molecule_kind, &
colv_list=colv_list, &
ncolv=ncolv)
IF (ncolv%ntot /= 0) THEN
DO i = 1, SIZE(colv_list)
ind = colv_list(i)%inp_seq_num
colv_list(i)%expected_value = targets(ind)
END DO
END IF
END DO MOL
! Set Target for Intermolecular Colvars
IF (ASSOCIATED(gci)) THEN
IF (gci%ncolv%ntot /= 0) THEN
colv_list => gci%colv_list
DO i = 1, SIZE(colv_list)
ind = colv_list(i)%inp_seq_num
colv_list(i)%expected_value = targets(ind)
END DO
END IF
END IF
CALL timestop(handle)
END SUBROUTINE set_colvars_target
! **************************************************************************************************
!> \brief Computes the values of colvars and the Wilson matrix B and its invers A
!> \param force_env ...
!> \param coords ...
!> \param cvalues ...
!> \param Bmatrix ...
!> \param MassI ...
!> \param Amatrix ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
SUBROUTINE eval_colvar(force_env, coords, cvalues, Bmatrix, MassI, Amatrix)
TYPE(force_env_type), POINTER :: force_env
REAL(KIND=dp), DIMENSION(:), INTENT(IN), OPTIONAL :: coords
REAL(KIND=dp), DIMENSION(:), INTENT(OUT) :: cvalues
REAL(KIND=dp), DIMENSION(:, :), OPTIONAL, POINTER :: Bmatrix
REAL(KIND=dp), DIMENSION(:), OPTIONAL, POINTER :: MassI
REAL(KIND=dp), DIMENSION(:, :), OPTIONAL, POINTER :: Amatrix
CHARACTER(LEN=*), PARAMETER :: routineN = 'eval_colvar'
INTEGER :: handle, i, ikind, imol, n_tot, natom, &
nkind, nmol_per_kind, offset
INTEGER, DIMENSION(:), POINTER :: map, wrk
LOGICAL :: check
REAL(KIND=dp) :: inv_error
REAL(KIND=dp), ALLOCATABLE, DIMENSION(:, :) :: bwrk, Gmatrix, Gmatrix_i
REAL(KIND=dp), DIMENSION(:), POINTER :: rwrk
TYPE(cell_type), POINTER :: cell
TYPE(colvar_counters) :: ncolv
TYPE(cp_subsys_type), POINTER :: subsys
TYPE(distribution_1d_type), POINTER :: local_molecules
TYPE(global_constraint_type), POINTER :: gci
TYPE(molecule_kind_list_type), POINTER :: molecule_kinds
TYPE(molecule_kind_type), POINTER :: molecule_kind
TYPE(molecule_list_type), POINTER :: molecules
TYPE(molecule_type), POINTER :: molecule, molecule_set(:)
TYPE(particle_list_type), POINTER :: particles
TYPE(particle_type), POINTER :: particle_set(:)
NULLIFY (cell, subsys, local_molecules, molecule_kinds, &
molecules, molecule_kind, molecule, &
molecule_set, particles, particle_set, gci)
IF (PRESENT(Bmatrix)) THEN
check = ASSOCIATED(Bmatrix)
CPASSERT(check)
Bmatrix = 0.0_dp
END IF
CALL timeset(routineN, handle)
ALLOCATE (map(SIZE(cvalues)))
map = HUGE(0) ! init all, since used in a sort, but not all set in parallel.
CALL force_env_get(force_env=force_env, subsys=subsys, cell=cell)
n_tot = 0
cvalues = 0.0_dp
CALL cp_subsys_get(subsys=subsys, &
particles=particles, &
molecules=molecules, &
local_molecules=local_molecules, &
gci=gci, &
molecule_kinds=molecule_kinds)
nkind = molecule_kinds%n_els
particle_set => particles%els
molecule_set => molecules%els
! Intramolecular Colvars
IF (number_of_colvar(force_env, only_intra_colvar=.TRUE.) /= 0) THEN
MOL: DO ikind = 1, nkind
nmol_per_kind = local_molecules%n_el(ikind)
DO imol = 1, nmol_per_kind
i = local_molecules%list(ikind)%array(imol)
molecule => molecule_set(i)
molecule_kind => molecule%molecule_kind
CALL get_molecule_kind(molecule_kind, &
ncolv=ncolv)
offset = get_colvar_offset(i, molecule_set)
! Collective variables
IF (ncolv%ntot /= 0) THEN
CALL eval_colv_int(molecule, particle_set, coords, cell, cvalues, &
Bmatrix, offset, n_tot, map)
END IF
END DO
END DO MOL
CALL force_env%para_env%sum(n_tot)
CALL force_env%para_env%sum(cvalues)
IF (PRESENT(Bmatrix)) CALL force_env%para_env%sum(Bmatrix)
END IF
offset = n_tot
! Intermolecular Colvars
IF (ASSOCIATED(gci)) THEN
IF (gci%ncolv%ntot /= 0) THEN
CALL eval_colv_ext(gci, particle_set, coords, cell, cvalues, &
Bmatrix, offset, n_tot, map)
END IF
END IF
CPASSERT(n_tot == SIZE(cvalues))
! Sort values of Collective Variables according the order of the input
! sections
ALLOCATE (wrk(SIZE(cvalues)))
ALLOCATE (rwrk(SIZE(cvalues)))
CALL sort(map, SIZE(map), wrk)
rwrk = cvalues
DO i = 1, SIZE(wrk)
cvalues(i) = rwrk(wrk(i))
END DO
! check and sort on Bmatrix
IF (PRESENT(Bmatrix)) THEN
check = n_tot == SIZE(Bmatrix, 2)
CPASSERT(check)
ALLOCATE (bwrk(SIZE(Bmatrix, 1), SIZE(Bmatrix, 2)))
bwrk(:, :) = Bmatrix
DO i = 1, SIZE(wrk)
Bmatrix(:, i) = bwrk(:, wrk(i))
END DO
DEALLOCATE (bwrk)
END IF
DEALLOCATE (rwrk)
DEALLOCATE (wrk)
DEALLOCATE (map)
! Construction of the Amatrix
IF (PRESENT(Bmatrix) .AND. PRESENT(Amatrix)) THEN
CPASSERT(ASSOCIATED(Amatrix))
check = SIZE(Bmatrix, 1) == SIZE(Amatrix, 2)
CPASSERT(check)
check = SIZE(Bmatrix, 2) == SIZE(Amatrix, 1)
CPASSERT(check)
ALLOCATE (Gmatrix(n_tot, n_tot))
ALLOCATE (Gmatrix_i(n_tot, n_tot))
Gmatrix(:, :) = MATMUL(TRANSPOSE(Bmatrix), Bmatrix)
CALL invert_matrix(Gmatrix, Gmatrix_i, inv_error)
IF (ABS(inv_error) > 1.0E-8_dp) THEN
CPWARN("Error in inverting the Gmatrix larger than 1.0E-8!")
END IF
Amatrix = MATMUL(Gmatrix_i, TRANSPOSE(Bmatrix))
DEALLOCATE (Gmatrix_i)
DEALLOCATE (Gmatrix)
END IF
IF (PRESENT(MassI)) THEN
natom = SIZE(particle_set)
CPASSERT(ASSOCIATED(MassI))
CPASSERT(SIZE(MassI) == natom*3)
DO i = 1, natom
MassI((i - 1)*3 + 1) = 1.0_dp/particle_set(i)%atomic_kind%mass
MassI((i - 1)*3 + 2) = 1.0_dp/particle_set(i)%atomic_kind%mass
MassI((i - 1)*3 + 3) = 1.0_dp/particle_set(i)%atomic_kind%mass
END DO
END IF
CALL timestop(handle)
END SUBROUTINE eval_colvar
! **************************************************************************************************
!> \brief Computes the offset of the colvar for the specific molecule
!> \param i ...
!> \param molecule_set ...
!> \return ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
FUNCTION get_colvar_offset(i, molecule_set) RESULT(offset)
INTEGER, INTENT(IN) :: i
TYPE(molecule_type), POINTER :: molecule_set(:)
INTEGER :: offset
INTEGER :: j
TYPE(colvar_counters) :: ncolv
TYPE(molecule_kind_type), POINTER :: molecule_kind
TYPE(molecule_type), POINTER :: molecule
offset = 0
DO j = 1, i - 1
molecule => molecule_set(j)
molecule_kind => molecule%molecule_kind
CALL get_molecule_kind(molecule_kind, &
ncolv=ncolv)
offset = offset + ncolv%ntot
END DO
END FUNCTION get_colvar_offset
! **************************************************************************************************
!> \brief Computes Intramolecular colvar
!> \param molecule ...
!> \param particle_set ...
!> \param coords ...
!> \param cell ...
!> \param cvalues ...
!> \param Bmatrix ...
!> \param offset ...
!> \param n_tot ...
!> \param map ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
SUBROUTINE eval_colv_int(molecule, particle_set, coords, cell, cvalues, &
Bmatrix, offset, n_tot, map)
TYPE(molecule_type), POINTER :: molecule
TYPE(particle_type), POINTER :: particle_set(:)
REAL(KIND=dp), DIMENSION(:), INTENT(IN), OPTIONAL :: coords
TYPE(cell_type), POINTER :: cell
REAL(KIND=dp), DIMENSION(:), INTENT(INOUT) :: cvalues
REAL(KIND=dp), DIMENSION(:, :), OPTIONAL, POINTER :: Bmatrix
INTEGER, INTENT(IN) :: offset
INTEGER, INTENT(INOUT) :: n_tot
INTEGER, DIMENSION(:), POINTER :: map
TYPE(colvar_constraint_type), POINTER :: colv_list(:)
TYPE(fixd_constraint_type), DIMENSION(:), POINTER :: fixd_list
TYPE(local_colvar_constraint_type), POINTER :: lcolv(:)
TYPE(molecule_kind_type), POINTER :: molecule_kind
NULLIFY (fixd_list)
molecule_kind => molecule%molecule_kind
CALL get_molecule_kind(molecule_kind, colv_list=colv_list, fixd_list=fixd_list)
CALL get_molecule(molecule, lcolv=lcolv)
CALL eval_colv_low(colv_list, fixd_list, lcolv, particle_set, &
coords, cell, cvalues, Bmatrix, offset, n_tot, map)
END SUBROUTINE eval_colv_int
! **************************************************************************************************
!> \brief Computes Intermolecular colvar
!> \param gci ...
!> \param particle_set ...
!> \param coords ...
!> \param cell ...
!> \param cvalues ...
!> \param Bmatrix ...
!> \param offset ...
!> \param n_tot ...
!> \param map ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
SUBROUTINE eval_colv_ext(gci, particle_set, coords, cell, cvalues, &
Bmatrix, offset, n_tot, map)
TYPE(global_constraint_type), POINTER :: gci
TYPE(particle_type), POINTER :: particle_set(:)
REAL(KIND=dp), DIMENSION(:), INTENT(IN), OPTIONAL :: coords
TYPE(cell_type), POINTER :: cell
REAL(KIND=dp), DIMENSION(:), INTENT(INOUT) :: cvalues
REAL(KIND=dp), DIMENSION(:, :), OPTIONAL, POINTER :: Bmatrix
INTEGER, INTENT(IN) :: offset
INTEGER, INTENT(INOUT) :: n_tot
INTEGER, DIMENSION(:), POINTER :: map
TYPE(colvar_constraint_type), POINTER :: colv_list(:)
TYPE(fixd_constraint_type), DIMENSION(:), POINTER :: fixd_list
TYPE(local_colvar_constraint_type), POINTER :: lcolv(:)
colv_list => gci%colv_list
fixd_list => gci%fixd_list
lcolv => gci%lcolv
CALL eval_colv_low(colv_list, fixd_list, lcolv, particle_set, &
coords, cell, cvalues, Bmatrix, offset, n_tot, map)
END SUBROUTINE eval_colv_ext
! **************************************************************************************************
!> \brief Real evaluation of colvar and of the Wilson-Eliashevich Matrix
!> B_ik : i: internal coordinates
!> k: cartesian coordinates
!> \param colv_list ...
!> \param fixd_list ...
!> \param lcolv ...
!> \param particle_set ...
!> \param coords ...
!> \param cell ...
!> \param cvalues ...
!> \param Bmatrix ...
!> \param offset ...
!> \param n_tot ...
!> \param map ...
!> \author Teodoro Laino 05.2007 [tlaino] - Zurich University
! **************************************************************************************************
SUBROUTINE eval_colv_low(colv_list, fixd_list, lcolv, particle_set, coords, &
cell, cvalues, Bmatrix, offset, n_tot, map)
TYPE(colvar_constraint_type), POINTER :: colv_list(:)
TYPE(fixd_constraint_type), DIMENSION(:), POINTER :: fixd_list
TYPE(local_colvar_constraint_type), POINTER :: lcolv(:)
TYPE(particle_type), POINTER :: particle_set(:)
REAL(KIND=dp), DIMENSION(:), INTENT(IN), OPTIONAL :: coords
TYPE(cell_type), POINTER :: cell
REAL(KIND=dp), DIMENSION(:), INTENT(INOUT) :: cvalues
REAL(KIND=dp), DIMENSION(:, :), OPTIONAL, POINTER :: Bmatrix
INTEGER, INTENT(IN) :: offset
INTEGER, INTENT(INOUT) :: n_tot
INTEGER, DIMENSION(:), POINTER :: map
INTEGER :: iatm, iconst, ind, ival
ival = offset
DO iconst = 1, SIZE(colv_list)
n_tot = n_tot + 1
ival = ival + 1
! Update colvar
IF (PRESENT(coords)) THEN
CALL colvar_eval_mol_f(lcolv(iconst)%colvar, cell, particles=particle_set, &
pos=RESHAPE(coords, (/3, SIZE(particle_set)/)), fixd_list=fixd_list)
ELSE
CALL colvar_eval_mol_f(lcolv(iconst)%colvar, cell, particles=particle_set, &
fixd_list=fixd_list)
END IF
cvalues(ival) = lcolv(iconst)%colvar%ss
map(ival) = colv_list(iconst)%inp_seq_num
! Build the Wilson-Eliashevich Matrix
IF (PRESENT(Bmatrix)) THEN
DO iatm = 1, SIZE(lcolv(iconst)%colvar%i_atom)
ind = (lcolv(iconst)%colvar%i_atom(iatm) - 1)*3
Bmatrix(ind + 1, ival) = lcolv(iconst)%colvar%dsdr(1, iatm)
Bmatrix(ind + 2, ival) = lcolv(iconst)%colvar%dsdr(2, iatm)
Bmatrix(ind + 3, ival) = lcolv(iconst)%colvar%dsdr(3, iatm)
END DO
END IF
END DO
END SUBROUTINE eval_colv_low
! **************************************************************************************************
!> \brief Computes the forces in the frame of collective variables, and additional
!> also the local metric tensor
!> \param force_env ...
!> \param forces ...
!> \param coords ...
!> \param nsize_xyz ...
!> \param nsize_int ...
!> \param cvalues ...
!> \param Mmatrix ...
!> \author Teodoro Laino 05.2007
! **************************************************************************************************
SUBROUTINE get_clv_force(force_env, forces, coords, nsize_xyz, nsize_int, cvalues, &
Mmatrix)
TYPE(force_env_type), POINTER :: force_env
REAL(KIND=dp), DIMENSION(:), INTENT(INOUT), &
OPTIONAL :: forces, coords
INTEGER, INTENT(IN) :: nsize_xyz, nsize_int
REAL(KIND=dp), DIMENSION(:), INTENT(OUT) :: cvalues, Mmatrix
INTEGER :: i, j, k
REAL(KIND=dp) :: tmp
REAL(KIND=dp), DIMENSION(:), POINTER :: MassI, wrk
REAL(KIND=dp), DIMENSION(:, :), POINTER :: Amatrix, Bmatrix
ALLOCATE (Bmatrix(nsize_xyz, nsize_int))
ALLOCATE (MassI(nsize_xyz))
! Transform gradients if requested
IF (PRESENT(forces)) THEN
ALLOCATE (wrk(nsize_int))
ALLOCATE (Amatrix(nsize_int, nsize_xyz))
! Compute the transformation matrices and the inverse mass diagonal Matrix
CALL eval_colvar(force_env, coords, cvalues, Bmatrix, MassI, Amatrix)
wrk = MATMUL(Amatrix, forces)
forces = 0.0_dp
forces(1:nsize_int) = wrk
DEALLOCATE (Amatrix)
DEALLOCATE (wrk)
ELSE
! Compute the transformation matrices and the inverse mass diagonal Matrix
CALL eval_colvar(force_env, coords, cvalues, Bmatrix, MassI)
END IF
! Compute the Metric Tensor
DO i = 1, nsize_int
DO j = 1, i
tmp = 0.0_dp
DO k = 1, nsize_xyz
tmp = tmp + Bmatrix(k, j)*MassI(k)*Bmatrix(k, i)
END DO
Mmatrix((i - 1)*nsize_int + j) = tmp
Mmatrix((j - 1)*nsize_int + i) = tmp
END DO
END DO
DEALLOCATE (MassI)
DEALLOCATE (Bmatrix)
END SUBROUTINE get_clv_force
! **************************************************************************************************
!> \brief Complete the description of the COORDINATION colvar when
!> defined using KINDS
!> \param colvar ...
!> \param particles ...
!> \par History
!> 1.2009 Fabio Sterpone : Added a part for population
!> 10.2014 Moved out of colvar_types.F [Ole Schuett]
!> \author Teodoro Laino - 07.2007
! **************************************************************************************************
SUBROUTINE post_process_colvar(colvar, particles)
TYPE(colvar_type), POINTER :: colvar
TYPE(particle_type), DIMENSION(:), OPTIONAL, &
POINTER :: particles
CHARACTER(len=3) :: name_kind
INTEGER :: i, ii, j, natoms, nkinds, nr_frame, stat
REAL(KIND=dp) :: mtot
natoms = SIZE(particles)
IF (colvar%type_id == coord_colvar_id) THEN
IF (colvar%coord_param%use_kinds_from .OR. colvar%coord_param%use_kinds_to) THEN
! Atoms from
IF (colvar%coord_param%use_kinds_from) THEN
colvar%coord_param%use_kinds_from = .FALSE.
nkinds = SIZE(colvar%coord_param%c_kinds_from)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%coord_param%c_kinds_from(j)) == name_kind) THEN
CALL reallocate(colvar%coord_param%i_at_from, 1, colvar%coord_param%n_atoms_from + 1)
colvar%coord_param%n_atoms_from = colvar%coord_param%n_atoms_from + 1
colvar%coord_param%i_at_from(colvar%coord_param%n_atoms_from) = i
END IF
END DO
END DO
stat = colvar%coord_param%n_atoms_from
CPASSERT(stat /= 0)
END IF
! Atoms to
IF (colvar%coord_param%use_kinds_to) THEN
colvar%coord_param%use_kinds_to = .FALSE.
nkinds = SIZE(colvar%coord_param%c_kinds_to)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%coord_param%c_kinds_to(j)) == name_kind) THEN
CALL reallocate(colvar%coord_param%i_at_to, 1, colvar%coord_param%n_atoms_to + 1)
colvar%coord_param%n_atoms_to = colvar%coord_param%n_atoms_to + 1
colvar%coord_param%i_at_to(colvar%coord_param%n_atoms_to) = i
END IF
END DO
END DO
stat = colvar%coord_param%n_atoms_to
CPASSERT(stat /= 0)
END IF
! Atoms to b
IF (colvar%coord_param%use_kinds_to_b) THEN
colvar%coord_param%use_kinds_to_b = .FALSE.
nkinds = SIZE(colvar%coord_param%c_kinds_to_b)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%coord_param%c_kinds_to_b(j)) == name_kind) THEN
CALL reallocate(colvar%coord_param%i_at_to_b, 1, colvar%coord_param%n_atoms_to_b + 1)
colvar%coord_param%n_atoms_to_b = colvar%coord_param%n_atoms_to_b + 1
colvar%coord_param%i_at_to_b(colvar%coord_param%n_atoms_to_b) = i
END IF
END DO
END DO
stat = colvar%coord_param%n_atoms_to_b
CPASSERT(stat /= 0)
END IF
! Setup the colvar
CALL colvar_setup(colvar)
END IF
END IF
IF (colvar%type_id == mindist_colvar_id) THEN
IF (colvar%mindist_param%use_kinds_from .OR. colvar%mindist_param%use_kinds_to) THEN
! Atoms from
IF (colvar%mindist_param%use_kinds_from) THEN
colvar%mindist_param%use_kinds_from = .FALSE.
nkinds = SIZE(colvar%mindist_param%k_coord_from)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%mindist_param%k_coord_from(j)) == name_kind) THEN
CALL reallocate(colvar%mindist_param%i_coord_from, 1, colvar%mindist_param%n_coord_from + 1)
colvar%mindist_param%n_coord_from = colvar%mindist_param%n_coord_from + 1
colvar%mindist_param%i_coord_from(colvar%mindist_param%n_coord_from) = i
END IF
END DO
END DO
stat = colvar%mindist_param%n_coord_from
CPASSERT(stat /= 0)
END IF
! Atoms to
IF (colvar%mindist_param%use_kinds_to) THEN
colvar%mindist_param%use_kinds_to = .FALSE.
nkinds = SIZE(colvar%mindist_param%k_coord_to)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%mindist_param%k_coord_to(j)) == name_kind) THEN
CALL reallocate(colvar%mindist_param%i_coord_to, 1, colvar%mindist_param%n_coord_to + 1)
colvar%mindist_param%n_coord_to = colvar%mindist_param%n_coord_to + 1
colvar%mindist_param%i_coord_to(colvar%mindist_param%n_coord_to) = i
END IF
END DO
END DO
stat = colvar%mindist_param%n_coord_to
CPASSERT(stat /= 0)
END IF
! Setup the colvar
CALL colvar_setup(colvar)
END IF
END IF
IF (colvar%type_id == population_colvar_id) THEN
IF (colvar%population_param%use_kinds_from .OR. colvar%population_param%use_kinds_to) THEN
! Atoms from
IF (colvar%population_param%use_kinds_from) THEN
colvar%population_param%use_kinds_from = .FALSE.
nkinds = SIZE(colvar%population_param%c_kinds_from)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%population_param%c_kinds_from(j)) == name_kind) THEN
CALL reallocate(colvar%population_param%i_at_from, 1, colvar%population_param%n_atoms_from + 1)
colvar%population_param%n_atoms_from = colvar%population_param%n_atoms_from + 1
colvar%population_param%i_at_from(colvar%population_param%n_atoms_from) = i
END IF
END DO
END DO
stat = colvar%population_param%n_atoms_from
CPASSERT(stat /= 0)
END IF
! Atoms to
IF (colvar%population_param%use_kinds_to) THEN
colvar%population_param%use_kinds_to = .FALSE.
nkinds = SIZE(colvar%population_param%c_kinds_to)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%population_param%c_kinds_to(j)) == name_kind) THEN
CALL reallocate(colvar%population_param%i_at_to, 1, colvar%population_param%n_atoms_to + 1)
colvar%population_param%n_atoms_to = colvar%population_param%n_atoms_to + 1
colvar%population_param%i_at_to(colvar%population_param%n_atoms_to) = i
END IF
END DO
END DO
stat = colvar%population_param%n_atoms_to
CPASSERT(stat /= 0)
END IF
! Setup the colvar
CALL colvar_setup(colvar)
END IF
END IF
IF (colvar%type_id == gyration_colvar_id) THEN
IF (colvar%gyration_param%use_kinds) THEN
! Atoms from
IF (colvar%gyration_param%use_kinds) THEN
colvar%gyration_param%use_kinds = .FALSE.
nkinds = SIZE(colvar%gyration_param%c_kinds)
DO i = 1, natoms
DO j = 1, nkinds
name_kind = TRIM(particles(i)%atomic_kind%name)
CALL uppercase(name_kind)
IF (TRIM(colvar%gyration_param%c_kinds(j)) == name_kind) THEN
CALL reallocate(colvar%gyration_param%i_at, 1, colvar%gyration_param%n_atoms + 1)
colvar%gyration_param%n_atoms = colvar%gyration_param%n_atoms + 1
colvar%gyration_param%i_at(colvar%gyration_param%n_atoms) = i
END IF
END DO
END DO
stat = colvar%gyration_param%n_atoms
CPASSERT(stat /= 0)
END IF
! Setup the colvar
CALL colvar_setup(colvar)
END IF
END IF
IF (colvar%type_id == rmsd_colvar_id) THEN
IF (colvar%rmsd_param%subset == rmsd_all) THEN
! weights are masses
DO i = 1, SIZE(colvar%rmsd_param%i_rmsd)
ii = colvar%rmsd_param%i_rmsd(i)
colvar%rmsd_param%weights(ii) = particles(ii)%atomic_kind%mass
END DO
mtot = MINVAL(colvar%rmsd_param%weights)
colvar%rmsd_param%weights = colvar%rmsd_param%weights/mtot
ELSE IF (colvar%rmsd_param%subset == rmsd_list) THEN
! all weights are = 1
DO i = 1, SIZE(colvar%rmsd_param%i_rmsd)
ii = colvar%rmsd_param%i_rmsd(i)
colvar%rmsd_param%weights(ii) = 1.0_dp ! particles(ii)%atomic_kind%mass
END DO
END IF
IF (colvar%rmsd_param%align_frames) THEN
nr_frame = SIZE(colvar%rmsd_param%r_ref, 2)
DO i = 2, nr_frame
CALL rmsd3(particles, colvar%rmsd_param%r_ref(:, i), colvar%rmsd_param%r_ref(:, 1), -1, &
rotate=.TRUE.)
END DO
END IF
END IF
IF (colvar%type_id == distance_from_path_colvar_id .OR. colvar%type_id == reaction_path_colvar_id) THEN
IF (colvar%reaction_path_param%dist_rmsd .OR. colvar%reaction_path_param%rmsd) THEN
IF (colvar%reaction_path_param%align_frames) THEN
nr_frame = colvar%reaction_path_param%nr_frames
DO i = 2, nr_frame
CALL rmsd3(particles, colvar%reaction_path_param%r_ref(:, i), colvar%reaction_path_param%r_ref(:, 1), -1, &
rotate=.TRUE.)
END DO
END IF
END IF
END IF
END SUBROUTINE post_process_colvar
END MODULE colvar_utils