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!! |
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!! Copyright (c) 2005 The University of Notre Dame. All Rights Reserved. |
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!! |
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!! The University of Notre Dame grants you ("Licensee") a |
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!! non-exclusive, royalty free, license to use, modify and |
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!! redistribute this software in source and binary code form, provided |
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!! that the following conditions are met: |
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!! |
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!! 1. Acknowledgement of the program authors must be made in any |
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!! publication of scientific results based in part on use of the |
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!! program. An acceptable form of acknowledgement is citation of |
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!! the article in which the program was described (Matthew |
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!! A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher |
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!! J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented |
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!! Parallel Simulation Engine for Molecular Dynamics," |
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!! J. Comput. Chem. 26, pp. 252-271 (2005)) |
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!! |
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!! 2. Redistributions of source code must retain the above copyright |
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!! notice, this list of conditions and the following disclaimer. |
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!! |
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!! 3. Redistributions in binary form must reproduce the above copyright |
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!! notice, this list of conditions and the following disclaimer in the |
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!! documentation and/or other materials provided with the |
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!! distribution. |
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!! |
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!! This software is provided "AS IS," without a warranty of any |
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!! kind. All express or implied conditions, representations and |
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!! warranties, including any implied warranty of merchantability, |
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!! fitness for a particular purpose or non-infringement, are hereby |
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!! excluded. The University of Notre Dame and its licensors shall not |
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!! be liable for any damages suffered by licensee as a result of |
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!! using, modifying or distributing the software or its |
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!! derivatives. In no event will the University of Notre Dame or its |
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!! licensors be liable for any lost revenue, profit or data, or for |
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!! direct, indirect, special, consequential, incidental or punitive |
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!! damages, however caused and regardless of the theory of liability, |
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!! arising out of the use of or inability to use software, even if the |
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!! University of Notre Dame has been advised of the possibility of |
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!! such damages. |
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!! |
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|
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!! doForces.F90 |
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!! module doForces |
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!! Calculates Long Range forces. |
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!! @author Charles F. Vardeman II |
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!! @author Matthew Meineke |
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!! @version $Id: doForces.F90,v 1.5 2004-10-26 22:24:44 gezelter Exp $, $Date: 2004-10-26 22:24:44 $, $Name: not supported by cvs2svn $, $Revision: 1.5 $ |
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!! @version $Id: doForces.F90,v 1.44 2005-09-15 22:05:17 gezelter Exp $, $Date: 2005-09-15 22:05:17 $, $Name: not supported by cvs2svn $, $Revision: 1.44 $ |
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module doForces |
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use force_globals |
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use simulation |
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use switcheroo |
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use neighborLists |
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use lj |
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use sticky_pair |
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use dipole_dipole |
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use charge_charge |
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use reaction_field |
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use sticky |
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use electrostatic_module |
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use reaction_field_module |
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use gb_pair |
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use shapes |
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use vector_class |
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|
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#define __FORTRAN90 |
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#include "UseTheForce/fSwitchingFunction.h" |
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#include "UseTheForce/fCutoffPolicy.h" |
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#include "UseTheForce/DarkSide/fInteractionMap.h" |
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|
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|
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INTEGER, PARAMETER:: PREPAIR_LOOP = 1 |
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INTEGER, PARAMETER:: PAIR_LOOP = 2 |
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|
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logical, save :: haveRlist = .false. |
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logical, save :: haveNeighborList = .false. |
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logical, save :: haveSIMvariables = .false. |
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logical, save :: havePropertyMap = .false. |
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logical, save :: haveSaneForceField = .false. |
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|
86 |
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logical, save :: haveInteractionHash = .false. |
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logical, save :: haveGtypeCutoffMap = .false. |
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logical, save :: haveRlist = .false. |
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|
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logical, save :: FF_uses_DirectionalAtoms |
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logical, save :: FF_uses_LennardJones |
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logical, save :: FF_uses_Electrostatic |
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logical, save :: FF_uses_charges |
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logical, save :: FF_uses_dipoles |
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logical, save :: FF_uses_sticky |
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logical, save :: FF_uses_Dipoles |
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logical, save :: FF_uses_GayBerne |
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logical, save :: FF_uses_EAM |
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logical, save :: FF_uses_Shapes |
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logical, save :: FF_uses_FLARB |
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logical, save :: FF_uses_RF |
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|
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logical, save :: SIM_uses_DirectionalAtoms |
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logical, save :: SIM_uses_LennardJones |
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logical, save :: SIM_uses_Electrostatics |
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logical, save :: SIM_uses_Charges |
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logical, save :: SIM_uses_Dipoles |
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logical, save :: SIM_uses_Sticky |
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logical, save :: SIM_uses_GayBerne |
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logical, save :: SIM_uses_EAM |
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logical, save :: SIM_uses_Shapes |
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logical, save :: SIM_uses_FLARB |
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logical, save :: SIM_uses_RF |
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logical, save :: SIM_requires_postpair_calc |
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logical, save :: SIM_requires_prepair_calc |
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logical, save :: SIM_uses_PBC |
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logical, save :: SIM_uses_molecular_cutoffs |
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|
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real(kind=dp), save :: rlist, rlistsq |
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> |
integer, save :: corrMethod |
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|
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public :: init_FF |
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public :: setDefaultCutoffs |
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public :: do_force_loop |
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public :: setRlistDF |
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public :: createInteractionHash |
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public :: createGtypeCutoffMap |
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public :: getStickyCut |
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public :: getStickyPowerCut |
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public :: getGayBerneCut |
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public :: getEAMCut |
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public :: getShapeCut |
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|
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#ifdef PROFILE |
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public :: getforcetime |
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real :: forceTimeInitial, forceTimeFinal |
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integer :: nLoops |
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#endif |
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|
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!! Variables for cutoff mapping and interaction mapping |
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! Bit hash to determine pair-pair interactions. |
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integer, dimension(:,:), allocatable :: InteractionHash |
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real(kind=dp), dimension(:), allocatable :: atypeMaxCutoff |
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real(kind=dp), dimension(:), allocatable :: groupMaxCutoff |
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integer, dimension(:), allocatable :: groupToGtype |
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real(kind=dp), dimension(:), allocatable :: gtypeMaxCutoff |
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type ::gtypeCutoffs |
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real(kind=dp) :: rcut |
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real(kind=dp) :: rcutsq |
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real(kind=dp) :: rlistsq |
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end type gtypeCutoffs |
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type(gtypeCutoffs), dimension(:,:), allocatable :: gtypeCutoffMap |
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|
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type :: Properties |
138 |
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logical :: is_Directional = .false. |
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logical :: is_LennardJones = .false. |
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logical :: is_Electrostatic = .false. |
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logical :: is_Charge = .false. |
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logical :: is_Dipole = .false. |
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logical :: is_Sticky = .false. |
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logical :: is_GayBerne = .false. |
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logical :: is_EAM = .false. |
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logical :: is_Shape = .false. |
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< |
logical :: is_FLARB = .false. |
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end type Properties |
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|
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type(Properties), dimension(:),allocatable :: PropertyMap |
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|
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> |
integer, save :: cutoffPolicy = TRADITIONAL_CUTOFF_POLICY |
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> |
real(kind=dp),save :: defaultRcut, defaultRsw, defaultRlist |
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real(kind=dp),save :: rcuti |
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|
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contains |
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subroutine setRlistDF( this_rlist ) |
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|
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real(kind=dp) :: this_rlist |
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|
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rlist = this_rlist |
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rlistsq = rlist * rlist |
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|
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haveRlist = .true. |
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|
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end subroutine setRlistDF |
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|
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subroutine createPropertyMap(status) |
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subroutine createInteractionHash(status) |
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integer :: nAtypes |
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integer :: status |
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integer, intent(out) :: status |
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integer :: i |
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logical :: thisProperty |
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real (kind=DP) :: thisDPproperty |
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integer :: j |
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integer :: iHash |
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!! Test Types |
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logical :: i_is_LJ |
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logical :: i_is_Elect |
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logical :: i_is_Sticky |
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logical :: i_is_StickyP |
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logical :: i_is_GB |
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logical :: i_is_EAM |
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logical :: i_is_Shape |
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logical :: j_is_LJ |
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logical :: j_is_Elect |
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logical :: j_is_Sticky |
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logical :: j_is_StickyP |
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logical :: j_is_GB |
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logical :: j_is_EAM |
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logical :: j_is_Shape |
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real(kind=dp) :: myRcut |
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|
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status = 0 |
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status = 0 |
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if (.not. associated(atypes)) then |
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call handleError("atype", "atypes was not present before call of createInteractionHash!") |
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status = -1 |
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return |
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endif |
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|
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nAtypes = getSize(atypes) |
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|
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|
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if (nAtypes == 0) then |
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status = -1 |
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return |
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end if |
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|
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if (.not. allocated(PropertyMap)) then |
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allocate(PropertyMap(nAtypes)) |
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|
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if (.not. allocated(InteractionHash)) then |
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allocate(InteractionHash(nAtypes,nAtypes)) |
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endif |
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if (.not. allocated(atypeMaxCutoff)) then |
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allocate(atypeMaxCutoff(nAtypes)) |
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endif |
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|
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do i = 1, nAtypes |
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call getElementProperty(atypes, i, "is_Directional", thisProperty) |
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PropertyMap(i)%is_Directional = thisProperty |
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> |
call getElementProperty(atypes, i, "is_LennardJones", i_is_LJ) |
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call getElementProperty(atypes, i, "is_Electrostatic", i_is_Elect) |
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call getElementProperty(atypes, i, "is_Sticky", i_is_Sticky) |
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call getElementProperty(atypes, i, "is_StickyPower", i_is_StickyP) |
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call getElementProperty(atypes, i, "is_GayBerne", i_is_GB) |
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call getElementProperty(atypes, i, "is_EAM", i_is_EAM) |
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call getElementProperty(atypes, i, "is_Shape", i_is_Shape) |
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|
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< |
call getElementProperty(atypes, i, "is_LennardJones", thisProperty) |
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PropertyMap(i)%is_LennardJones = thisProperty |
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|
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call getElementProperty(atypes, i, "is_Electrostatic", thisProperty) |
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PropertyMap(i)%is_Electrostatic = thisProperty |
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do j = i, nAtypes |
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|
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< |
call getElementProperty(atypes, i, "is_Charge", thisProperty) |
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PropertyMap(i)%is_Charge = thisProperty |
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|
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< |
call getElementProperty(atypes, i, "is_Dipole", thisProperty) |
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PropertyMap(i)%is_Dipole = thisProperty |
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> |
iHash = 0 |
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myRcut = 0.0_dp |
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|
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> |
call getElementProperty(atypes, j, "is_LennardJones", j_is_LJ) |
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call getElementProperty(atypes, j, "is_Electrostatic", j_is_Elect) |
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> |
call getElementProperty(atypes, j, "is_Sticky", j_is_Sticky) |
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> |
call getElementProperty(atypes, j, "is_StickyPower", j_is_StickyP) |
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> |
call getElementProperty(atypes, j, "is_GayBerne", j_is_GB) |
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> |
call getElementProperty(atypes, j, "is_EAM", j_is_EAM) |
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> |
call getElementProperty(atypes, j, "is_Shape", j_is_Shape) |
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|
211 |
< |
call getElementProperty(atypes, i, "is_Sticky", thisProperty) |
212 |
< |
PropertyMap(i)%is_Sticky = thisProperty |
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> |
if (i_is_LJ .and. j_is_LJ) then |
212 |
> |
iHash = ior(iHash, LJ_PAIR) |
213 |
> |
endif |
214 |
> |
|
215 |
> |
if (i_is_Elect .and. j_is_Elect) then |
216 |
> |
iHash = ior(iHash, ELECTROSTATIC_PAIR) |
217 |
> |
endif |
218 |
> |
|
219 |
> |
if (i_is_Sticky .and. j_is_Sticky) then |
220 |
> |
iHash = ior(iHash, STICKY_PAIR) |
221 |
> |
endif |
222 |
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|
223 |
< |
call getElementProperty(atypes, i, "is_GayBerne", thisProperty) |
224 |
< |
PropertyMap(i)%is_GayBerne = thisProperty |
223 |
> |
if (i_is_StickyP .and. j_is_StickyP) then |
224 |
> |
iHash = ior(iHash, STICKYPOWER_PAIR) |
225 |
> |
endif |
226 |
|
|
227 |
< |
call getElementProperty(atypes, i, "is_EAM", thisProperty) |
228 |
< |
PropertyMap(i)%is_EAM = thisProperty |
227 |
> |
if (i_is_EAM .and. j_is_EAM) then |
228 |
> |
iHash = ior(iHash, EAM_PAIR) |
229 |
> |
endif |
230 |
|
|
231 |
< |
call getElementProperty(atypes, i, "is_Shape", thisProperty) |
232 |
< |
PropertyMap(i)%is_Shape = thisProperty |
231 |
> |
if (i_is_GB .and. j_is_GB) iHash = ior(iHash, GAYBERNE_PAIR) |
232 |
> |
if (i_is_GB .and. j_is_LJ) iHash = ior(iHash, GAYBERNE_LJ) |
233 |
> |
if (i_is_LJ .and. j_is_GB) iHash = ior(iHash, GAYBERNE_LJ) |
234 |
|
|
235 |
< |
call getElementProperty(atypes, i, "is_FLARB", thisProperty) |
236 |
< |
PropertyMap(i)%is_FLARB = thisProperty |
235 |
> |
if (i_is_Shape .and. j_is_Shape) iHash = ior(iHash, SHAPE_PAIR) |
236 |
> |
if (i_is_Shape .and. j_is_LJ) iHash = ior(iHash, SHAPE_LJ) |
237 |
> |
if (i_is_LJ .and. j_is_Shape) iHash = ior(iHash, SHAPE_LJ) |
238 |
> |
|
239 |
> |
|
240 |
> |
InteractionHash(i,j) = iHash |
241 |
> |
InteractionHash(j,i) = iHash |
242 |
> |
|
243 |
> |
end do |
244 |
> |
|
245 |
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end do |
246 |
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|
247 |
< |
havePropertyMap = .true. |
247 |
> |
haveInteractionHash = .true. |
248 |
> |
end subroutine createInteractionHash |
249 |
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|
250 |
< |
end subroutine createPropertyMap |
250 |
> |
subroutine createGtypeCutoffMap(stat) |
251 |
> |
|
252 |
> |
integer, intent(out), optional :: stat |
253 |
> |
logical :: i_is_LJ |
254 |
> |
logical :: i_is_Elect |
255 |
> |
logical :: i_is_Sticky |
256 |
> |
logical :: i_is_StickyP |
257 |
> |
logical :: i_is_GB |
258 |
> |
logical :: i_is_EAM |
259 |
> |
logical :: i_is_Shape |
260 |
> |
logical :: GtypeFound |
261 |
> |
|
262 |
> |
integer :: myStatus, nAtypes, i, j, istart, iend, jstart, jend |
263 |
> |
integer :: n_in_i, me_i, ia, g, atom1, nGroupTypes |
264 |
> |
integer :: nGroupsInRow |
265 |
> |
real(kind=dp):: thisSigma, bigSigma, thisRcut, tol, skin |
266 |
> |
real(kind=dp) :: biggestAtypeCutoff |
267 |
> |
|
268 |
> |
stat = 0 |
269 |
> |
if (.not. haveInteractionHash) then |
270 |
> |
call createInteractionHash(myStatus) |
271 |
> |
if (myStatus .ne. 0) then |
272 |
> |
write(default_error, *) 'createInteractionHash failed in doForces!' |
273 |
> |
stat = -1 |
274 |
> |
return |
275 |
> |
endif |
276 |
> |
endif |
277 |
> |
#ifdef IS_MPI |
278 |
> |
nGroupsInRow = getNgroupsInRow(plan_group_row) |
279 |
> |
#endif |
280 |
> |
nAtypes = getSize(atypes) |
281 |
> |
! Set all of the initial cutoffs to zero. |
282 |
> |
atypeMaxCutoff = 0.0_dp |
283 |
> |
do i = 1, nAtypes |
284 |
> |
if (SimHasAtype(i)) then |
285 |
> |
call getElementProperty(atypes, i, "is_LennardJones", i_is_LJ) |
286 |
> |
call getElementProperty(atypes, i, "is_Electrostatic", i_is_Elect) |
287 |
> |
call getElementProperty(atypes, i, "is_Sticky", i_is_Sticky) |
288 |
> |
call getElementProperty(atypes, i, "is_StickyPower", i_is_StickyP) |
289 |
> |
call getElementProperty(atypes, i, "is_GayBerne", i_is_GB) |
290 |
> |
call getElementProperty(atypes, i, "is_EAM", i_is_EAM) |
291 |
> |
call getElementProperty(atypes, i, "is_Shape", i_is_Shape) |
292 |
> |
|
293 |
> |
|
294 |
> |
if (i_is_LJ) then |
295 |
> |
thisRcut = getSigma(i) * 2.5_dp |
296 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
297 |
> |
endif |
298 |
> |
if (i_is_Elect) then |
299 |
> |
thisRcut = defaultRcut |
300 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
301 |
> |
endif |
302 |
> |
if (i_is_Sticky) then |
303 |
> |
thisRcut = getStickyCut(i) |
304 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
305 |
> |
endif |
306 |
> |
if (i_is_StickyP) then |
307 |
> |
thisRcut = getStickyPowerCut(i) |
308 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
309 |
> |
endif |
310 |
> |
if (i_is_GB) then |
311 |
> |
thisRcut = getGayBerneCut(i) |
312 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
313 |
> |
endif |
314 |
> |
if (i_is_EAM) then |
315 |
> |
thisRcut = getEAMCut(i) |
316 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
317 |
> |
endif |
318 |
> |
if (i_is_Shape) then |
319 |
> |
thisRcut = getShapeCut(i) |
320 |
> |
if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut |
321 |
> |
endif |
322 |
> |
|
323 |
> |
if (atypeMaxCutoff(i).gt.biggestAtypeCutoff) then |
324 |
> |
biggestAtypeCutoff = atypeMaxCutoff(i) |
325 |
> |
endif |
326 |
> |
endif |
327 |
> |
enddo |
328 |
> |
|
329 |
> |
nGroupTypes = 0 |
330 |
> |
|
331 |
> |
istart = 1 |
332 |
> |
#ifdef IS_MPI |
333 |
> |
iend = nGroupsInRow |
334 |
> |
#else |
335 |
> |
iend = nGroups |
336 |
> |
#endif |
337 |
> |
|
338 |
> |
!! allocate the groupToGtype and gtypeMaxCutoff here. |
339 |
> |
if(.not.allocated(groupToGtype)) then |
340 |
> |
allocate(groupToGtype(iend)) |
341 |
> |
allocate(groupMaxCutoff(iend)) |
342 |
> |
allocate(gtypeMaxCutoff(iend)) |
343 |
> |
groupMaxCutoff = 0.0_dp |
344 |
> |
gtypeMaxCutoff = 0.0_dp |
345 |
> |
endif |
346 |
> |
!! first we do a single loop over the cutoff groups to find the |
347 |
> |
!! largest cutoff for any atypes present in this group. We also |
348 |
> |
!! create gtypes at this point. |
349 |
> |
|
350 |
> |
tol = 1.0d-6 |
351 |
> |
|
352 |
> |
do i = istart, iend |
353 |
> |
n_in_i = groupStartRow(i+1) - groupStartRow(i) |
354 |
> |
groupMaxCutoff(i) = 0.0_dp |
355 |
> |
do ia = groupStartRow(i), groupStartRow(i+1)-1 |
356 |
> |
atom1 = groupListRow(ia) |
357 |
> |
#ifdef IS_MPI |
358 |
> |
me_i = atid_row(atom1) |
359 |
> |
#else |
360 |
> |
me_i = atid(atom1) |
361 |
> |
#endif |
362 |
> |
if (atypeMaxCutoff(me_i).gt.groupMaxCutoff(i)) then |
363 |
> |
groupMaxCutoff(i)=atypeMaxCutoff(me_i) |
364 |
> |
endif |
365 |
> |
enddo |
366 |
> |
|
367 |
> |
if (nGroupTypes.eq.0) then |
368 |
> |
nGroupTypes = nGroupTypes + 1 |
369 |
> |
gtypeMaxCutoff(nGroupTypes) = groupMaxCutoff(i) |
370 |
> |
groupToGtype(i) = nGroupTypes |
371 |
> |
else |
372 |
> |
GtypeFound = .false. |
373 |
> |
do g = 1, nGroupTypes |
374 |
> |
if ( abs(groupMaxCutoff(i) - gtypeMaxCutoff(g)).lt.tol) then |
375 |
> |
groupToGtype(i) = g |
376 |
> |
GtypeFound = .true. |
377 |
> |
endif |
378 |
> |
enddo |
379 |
> |
if (.not.GtypeFound) then |
380 |
> |
nGroupTypes = nGroupTypes + 1 |
381 |
> |
gtypeMaxCutoff(nGroupTypes) = groupMaxCutoff(i) |
382 |
> |
groupToGtype(i) = nGroupTypes |
383 |
> |
endif |
384 |
> |
endif |
385 |
> |
enddo |
386 |
> |
|
387 |
> |
!! allocate the gtypeCutoffMap here. |
388 |
> |
allocate(gtypeCutoffMap(nGroupTypes,nGroupTypes)) |
389 |
> |
!! then we do a double loop over all the group TYPES to find the cutoff |
390 |
> |
!! map between groups of two types |
391 |
> |
|
392 |
> |
do i = 1, nGroupTypes |
393 |
> |
do j = 1, nGroupTypes |
394 |
> |
|
395 |
> |
select case(cutoffPolicy) |
396 |
> |
case(TRADITIONAL_CUTOFF_POLICY) |
397 |
> |
thisRcut = maxval(gtypeMaxCutoff) |
398 |
> |
case(MIX_CUTOFF_POLICY) |
399 |
> |
thisRcut = 0.5_dp * (gtypeMaxCutoff(i) + gtypeMaxCutoff(j)) |
400 |
> |
case(MAX_CUTOFF_POLICY) |
401 |
> |
thisRcut = max(gtypeMaxCutoff(i), gtypeMaxCutoff(j)) |
402 |
> |
case default |
403 |
> |
call handleError("createGtypeCutoffMap", "Unknown Cutoff Policy") |
404 |
> |
return |
405 |
> |
end select |
406 |
> |
gtypeCutoffMap(i,j)%rcut = thisRcut |
407 |
> |
gtypeCutoffMap(i,j)%rcutsq = thisRcut*thisRcut |
408 |
> |
skin = defaultRlist - defaultRcut |
409 |
> |
gtypeCutoffMap(i,j)%rlistsq = (thisRcut + skin)**2 |
410 |
|
|
411 |
+ |
enddo |
412 |
+ |
enddo |
413 |
+ |
|
414 |
+ |
haveGtypeCutoffMap = .true. |
415 |
+ |
end subroutine createGtypeCutoffMap |
416 |
+ |
|
417 |
+ |
subroutine setDefaultCutoffs(defRcut, defRsw, defRlist, cutPolicy) |
418 |
+ |
real(kind=dp),intent(in) :: defRcut, defRsw, defRlist |
419 |
+ |
integer, intent(in) :: cutPolicy |
420 |
+ |
|
421 |
+ |
defaultRcut = defRcut |
422 |
+ |
defaultRsw = defRsw |
423 |
+ |
defaultRlist = defRlist |
424 |
+ |
cutoffPolicy = cutPolicy |
425 |
+ |
rcuti = 1.0_dp / defaultRcut |
426 |
+ |
end subroutine setDefaultCutoffs |
427 |
+ |
|
428 |
+ |
subroutine setCutoffPolicy(cutPolicy) |
429 |
+ |
|
430 |
+ |
integer, intent(in) :: cutPolicy |
431 |
+ |
cutoffPolicy = cutPolicy |
432 |
+ |
call createGtypeCutoffMap() |
433 |
+ |
end subroutine setCutoffPolicy |
434 |
+ |
|
435 |
+ |
|
436 |
|
subroutine setSimVariables() |
437 |
|
SIM_uses_DirectionalAtoms = SimUsesDirectionalAtoms() |
172 |
– |
SIM_uses_LennardJones = SimUsesLennardJones() |
173 |
– |
SIM_uses_Electrostatics = SimUsesElectrostatics() |
174 |
– |
SIM_uses_Charges = SimUsesCharges() |
175 |
– |
SIM_uses_Dipoles = SimUsesDipoles() |
176 |
– |
SIM_uses_Sticky = SimUsesSticky() |
177 |
– |
SIM_uses_GayBerne = SimUsesGayBerne() |
438 |
|
SIM_uses_EAM = SimUsesEAM() |
179 |
– |
SIM_uses_Shapes = SimUsesShapes() |
180 |
– |
SIM_uses_FLARB = SimUsesFLARB() |
181 |
– |
SIM_uses_RF = SimUsesRF() |
439 |
|
SIM_requires_postpair_calc = SimRequiresPostpairCalc() |
440 |
|
SIM_requires_prepair_calc = SimRequiresPrepairCalc() |
441 |
|
SIM_uses_PBC = SimUsesPBC() |
442 |
+ |
SIM_uses_RF = SimUsesRF() |
443 |
|
|
444 |
|
haveSIMvariables = .true. |
445 |
|
|
452 |
|
integer :: myStatus |
453 |
|
|
454 |
|
error = 0 |
197 |
– |
|
198 |
– |
if (.not. havePropertyMap) then |
455 |
|
|
456 |
< |
myStatus = 0 |
456 |
> |
if (.not. haveInteractionHash) then |
457 |
> |
myStatus = 0 |
458 |
> |
call createInteractionHash(myStatus) |
459 |
> |
if (myStatus .ne. 0) then |
460 |
> |
write(default_error, *) 'createInteractionHash failed in doForces!' |
461 |
> |
error = -1 |
462 |
> |
return |
463 |
> |
endif |
464 |
> |
endif |
465 |
|
|
466 |
< |
call createPropertyMap(myStatus) |
467 |
< |
|
466 |
> |
if (.not. haveGtypeCutoffMap) then |
467 |
> |
myStatus = 0 |
468 |
> |
call createGtypeCutoffMap(myStatus) |
469 |
|
if (myStatus .ne. 0) then |
470 |
< |
write(default_error, *) 'createPropertyMap failed in doForces!' |
470 |
> |
write(default_error, *) 'createGtypeCutoffMap failed in doForces!' |
471 |
|
error = -1 |
472 |
|
return |
473 |
|
endif |
477 |
|
call setSimVariables() |
478 |
|
endif |
479 |
|
|
480 |
< |
if (.not. haveRlist) then |
481 |
< |
write(default_error, *) 'rList has not been set in doForces!' |
482 |
< |
error = -1 |
483 |
< |
return |
484 |
< |
endif |
480 |
> |
! if (.not. haveRlist) then |
481 |
> |
! write(default_error, *) 'rList has not been set in doForces!' |
482 |
> |
! error = -1 |
483 |
> |
! return |
484 |
> |
! endif |
485 |
|
|
486 |
|
if (.not. haveNeighborList) then |
487 |
|
write(default_error, *) 'neighbor list has not been initialized in doForces!' |
504 |
|
#endif |
505 |
|
return |
506 |
|
end subroutine doReadyCheck |
242 |
– |
|
507 |
|
|
244 |
– |
subroutine init_FF(use_RF_c, thisStat) |
508 |
|
|
509 |
< |
logical, intent(in) :: use_RF_c |
509 |
> |
subroutine init_FF(use_RF, correctionMethod, dampingAlpha, thisStat) |
510 |
|
|
511 |
+ |
logical, intent(in) :: use_RF |
512 |
+ |
integer, intent(in) :: correctionMethod |
513 |
+ |
real(kind=dp), intent(in) :: dampingAlpha |
514 |
|
integer, intent(out) :: thisStat |
515 |
|
integer :: my_status, nMatches |
516 |
|
integer, pointer :: MatchList(:) => null() |
520 |
|
thisStat = 0 |
521 |
|
|
522 |
|
!! Fortran's version of a cast: |
523 |
< |
FF_uses_RF = use_RF_c |
524 |
< |
|
523 |
> |
FF_uses_RF = use_RF |
524 |
> |
|
525 |
> |
|
526 |
|
!! init_FF is called *after* all of the atom types have been |
527 |
|
!! defined in atype_module using the new_atype subroutine. |
528 |
|
!! |
529 |
|
!! this will scan through the known atypes and figure out what |
530 |
|
!! interactions are used by the force field. |
531 |
< |
|
531 |
> |
|
532 |
|
FF_uses_DirectionalAtoms = .false. |
266 |
– |
FF_uses_LennardJones = .false. |
267 |
– |
FF_uses_Electrostatic = .false. |
268 |
– |
FF_uses_Charges = .false. |
533 |
|
FF_uses_Dipoles = .false. |
270 |
– |
FF_uses_Sticky = .false. |
534 |
|
FF_uses_GayBerne = .false. |
535 |
|
FF_uses_EAM = .false. |
536 |
< |
FF_uses_Shapes = .false. |
274 |
< |
FF_uses_FLARB = .false. |
275 |
< |
|
536 |
> |
|
537 |
|
call getMatchingElementList(atypes, "is_Directional", .true., & |
538 |
|
nMatches, MatchList) |
539 |
|
if (nMatches .gt. 0) FF_uses_DirectionalAtoms = .true. |
540 |
|
|
280 |
– |
call getMatchingElementList(atypes, "is_LennardJones", .true., & |
281 |
– |
nMatches, MatchList) |
282 |
– |
if (nMatches .gt. 0) FF_uses_LennardJones = .true. |
283 |
– |
|
284 |
– |
call getMatchingElementList(atypes, "is_Electrostatic", .true., & |
285 |
– |
nMatches, MatchList) |
286 |
– |
if (nMatches .gt. 0) then |
287 |
– |
FF_uses_Electrostatic = .true. |
288 |
– |
endif |
289 |
– |
|
290 |
– |
call getMatchingElementList(atypes, "is_Charge", .true., & |
291 |
– |
nMatches, MatchList) |
292 |
– |
if (nMatches .gt. 0) then |
293 |
– |
FF_uses_charges = .true. |
294 |
– |
FF_uses_electrostatic = .true. |
295 |
– |
endif |
296 |
– |
|
541 |
|
call getMatchingElementList(atypes, "is_Dipole", .true., & |
542 |
|
nMatches, MatchList) |
543 |
< |
if (nMatches .gt. 0) then |
300 |
< |
FF_uses_dipoles = .true. |
301 |
< |
FF_uses_electrostatic = .true. |
302 |
< |
FF_uses_DirectionalAtoms = .true. |
303 |
< |
endif |
543 |
> |
if (nMatches .gt. 0) FF_uses_Dipoles = .true. |
544 |
|
|
305 |
– |
call getMatchingElementList(atypes, "is_Sticky", .true., nMatches, & |
306 |
– |
MatchList) |
307 |
– |
if (nMatches .gt. 0) then |
308 |
– |
FF_uses_Sticky = .true. |
309 |
– |
FF_uses_DirectionalAtoms = .true. |
310 |
– |
endif |
311 |
– |
|
545 |
|
call getMatchingElementList(atypes, "is_GayBerne", .true., & |
546 |
|
nMatches, MatchList) |
547 |
< |
if (nMatches .gt. 0) then |
548 |
< |
FF_uses_GayBerne = .true. |
316 |
< |
FF_uses_DirectionalAtoms = .true. |
317 |
< |
endif |
318 |
< |
|
547 |
> |
if (nMatches .gt. 0) FF_uses_GayBerne = .true. |
548 |
> |
|
549 |
|
call getMatchingElementList(atypes, "is_EAM", .true., nMatches, MatchList) |
550 |
|
if (nMatches .gt. 0) FF_uses_EAM = .true. |
321 |
– |
|
322 |
– |
call getMatchingElementList(atypes, "is_Shape", .true., & |
323 |
– |
nMatches, MatchList) |
324 |
– |
if (nMatches .gt. 0) then |
325 |
– |
FF_uses_Shapes = .true. |
326 |
– |
FF_uses_DirectionalAtoms = .true. |
327 |
– |
endif |
551 |
|
|
329 |
– |
call getMatchingElementList(atypes, "is_FLARB", .true., & |
330 |
– |
nMatches, MatchList) |
331 |
– |
if (nMatches .gt. 0) FF_uses_FLARB = .true. |
552 |
|
|
333 |
– |
!! Assume sanity (for the sake of argument) |
553 |
|
haveSaneForceField = .true. |
554 |
< |
|
554 |
> |
|
555 |
|
!! check to make sure the FF_uses_RF setting makes sense |
556 |
< |
|
557 |
< |
if (FF_uses_dipoles) then |
556 |
> |
|
557 |
> |
if (FF_uses_Dipoles) then |
558 |
|
if (FF_uses_RF) then |
559 |
|
dielect = getDielect() |
560 |
|
call initialize_rf(dielect) |
561 |
|
endif |
562 |
|
else |
563 |
< |
if (FF_uses_RF) then |
563 |
> |
if ((corrMethod == 3) .or. FF_uses_RF) then |
564 |
|
write(default_error,*) 'Using Reaction Field with no dipoles? Huh?' |
565 |
|
thisStat = -1 |
566 |
|
haveSaneForceField = .false. |
567 |
|
return |
568 |
|
endif |
350 |
– |
endif |
351 |
– |
|
352 |
– |
if (FF_uses_sticky) then |
353 |
– |
call check_sticky_FF(my_status) |
354 |
– |
if (my_status /= 0) then |
355 |
– |
thisStat = -1 |
356 |
– |
haveSaneForceField = .false. |
357 |
– |
return |
358 |
– |
end if |
569 |
|
endif |
570 |
|
|
571 |
|
if (FF_uses_EAM) then |
572 |
< |
call init_EAM_FF(my_status) |
572 |
> |
call init_EAM_FF(my_status) |
573 |
|
if (my_status /= 0) then |
574 |
|
write(default_error, *) "init_EAM_FF returned a bad status" |
575 |
|
thisStat = -1 |
587 |
|
endif |
588 |
|
endif |
589 |
|
|
380 |
– |
if (FF_uses_GayBerne .and. FF_uses_LennardJones) then |
381 |
– |
endif |
382 |
– |
|
590 |
|
if (.not. haveNeighborList) then |
591 |
|
!! Create neighbor lists |
592 |
|
call expandNeighborList(nLocal, my_status) |
596 |
|
return |
597 |
|
endif |
598 |
|
haveNeighborList = .true. |
599 |
< |
endif |
600 |
< |
|
599 |
> |
endif |
600 |
> |
|
601 |
|
end subroutine init_FF |
395 |
– |
|
602 |
|
|
603 |
+ |
|
604 |
|
!! Does force loop over i,j pairs. Calls do_pair to calculates forces. |
605 |
|
!-------------------------------------------------------------> |
606 |
< |
subroutine do_force_loop(q, q_group, A, u_l, f, t, tau, pot, & |
606 |
> |
subroutine do_force_loop(q, q_group, A, eFrame, f, t, tau, pot, & |
607 |
|
do_pot_c, do_stress_c, error) |
608 |
|
!! Position array provided by C, dimensioned by getNlocal |
609 |
|
real ( kind = dp ), dimension(3, nLocal) :: q |
612 |
|
!! Rotation Matrix for each long range particle in simulation. |
613 |
|
real( kind = dp), dimension(9, nLocal) :: A |
614 |
|
!! Unit vectors for dipoles (lab frame) |
615 |
< |
real( kind = dp ), dimension(3,nLocal) :: u_l |
615 |
> |
real( kind = dp ), dimension(9,nLocal) :: eFrame |
616 |
|
!! Force array provided by C, dimensioned by getNlocal |
617 |
|
real ( kind = dp ), dimension(3,nLocal) :: f |
618 |
|
!! Torsion array provided by C, dimensioned by getNlocal |
650 |
|
integer :: localError |
651 |
|
integer :: propPack_i, propPack_j |
652 |
|
integer :: loopStart, loopEnd, loop |
653 |
< |
|
653 |
> |
integer :: iHash |
654 |
|
real(kind=dp) :: listSkin = 1.0 |
655 |
< |
|
655 |
> |
|
656 |
|
!! initialize local variables |
657 |
< |
|
657 |
> |
|
658 |
|
#ifdef IS_MPI |
659 |
|
pot_local = 0.0_dp |
660 |
|
nAtomsInRow = getNatomsInRow(plan_atom_row) |
664 |
|
#else |
665 |
|
natoms = nlocal |
666 |
|
#endif |
667 |
< |
|
667 |
> |
|
668 |
|
call doReadyCheck(localError) |
669 |
|
if ( localError .ne. 0 ) then |
670 |
|
call handleError("do_force_loop", "Not Initialized") |
672 |
|
return |
673 |
|
end if |
674 |
|
call zero_work_arrays() |
675 |
< |
|
675 |
> |
|
676 |
|
do_pot = do_pot_c |
677 |
|
do_stress = do_stress_c |
678 |
< |
|
678 |
> |
|
679 |
|
! Gather all information needed by all force loops: |
680 |
< |
|
680 |
> |
|
681 |
|
#ifdef IS_MPI |
682 |
< |
|
682 |
> |
|
683 |
|
call gather(q, q_Row, plan_atom_row_3d) |
684 |
|
call gather(q, q_Col, plan_atom_col_3d) |
685 |
|
|
686 |
|
call gather(q_group, q_group_Row, plan_group_row_3d) |
687 |
|
call gather(q_group, q_group_Col, plan_group_col_3d) |
688 |
< |
|
688 |
> |
|
689 |
|
if (FF_UsesDirectionalAtoms() .and. SIM_uses_DirectionalAtoms) then |
690 |
< |
call gather(u_l, u_l_Row, plan_atom_row_3d) |
691 |
< |
call gather(u_l, u_l_Col, plan_atom_col_3d) |
692 |
< |
|
690 |
> |
call gather(eFrame, eFrame_Row, plan_atom_row_rotation) |
691 |
> |
call gather(eFrame, eFrame_Col, plan_atom_col_rotation) |
692 |
> |
|
693 |
|
call gather(A, A_Row, plan_atom_row_rotation) |
694 |
|
call gather(A, A_Col, plan_atom_col_rotation) |
695 |
|
endif |
696 |
< |
|
696 |
> |
|
697 |
|
#endif |
698 |
< |
|
698 |
> |
|
699 |
|
!! Begin force loop timing: |
700 |
|
#ifdef PROFILE |
701 |
|
call cpu_time(forceTimeInitial) |
702 |
|
nloops = nloops + 1 |
703 |
|
#endif |
704 |
< |
|
704 |
> |
|
705 |
|
loopEnd = PAIR_LOOP |
706 |
|
if (FF_RequiresPrepairCalc() .and. SIM_requires_prepair_calc) then |
707 |
|
loopStart = PREPAIR_LOOP |
716 |
|
if (loop .eq. loopStart) then |
717 |
|
#ifdef IS_MPI |
718 |
|
call checkNeighborList(nGroupsInRow, q_group_row, listSkin, & |
719 |
< |
update_nlist) |
719 |
> |
update_nlist) |
720 |
|
#else |
721 |
|
call checkNeighborList(nGroups, q_group, listSkin, & |
722 |
< |
update_nlist) |
722 |
> |
update_nlist) |
723 |
|
#endif |
724 |
|
endif |
725 |
< |
|
725 |
> |
|
726 |
|
if (update_nlist) then |
727 |
|
!! save current configuration and construct neighbor list |
728 |
|
#ifdef IS_MPI |
733 |
|
neighborListSize = size(list) |
734 |
|
nlist = 0 |
735 |
|
endif |
736 |
< |
|
736 |
> |
|
737 |
|
istart = 1 |
738 |
|
#ifdef IS_MPI |
739 |
|
iend = nGroupsInRow |
743 |
|
outer: do i = istart, iend |
744 |
|
|
745 |
|
if (update_nlist) point(i) = nlist + 1 |
746 |
< |
|
746 |
> |
|
747 |
|
n_in_i = groupStartRow(i+1) - groupStartRow(i) |
748 |
< |
|
748 |
> |
|
749 |
|
if (update_nlist) then |
750 |
|
#ifdef IS_MPI |
751 |
|
jstart = 1 |
760 |
|
! make sure group i has neighbors |
761 |
|
if (jstart .gt. jend) cycle outer |
762 |
|
endif |
763 |
< |
|
763 |
> |
|
764 |
|
do jnab = jstart, jend |
765 |
|
if (update_nlist) then |
766 |
|
j = jnab |
769 |
|
endif |
770 |
|
|
771 |
|
#ifdef IS_MPI |
772 |
+ |
me_j = atid_col(j) |
773 |
|
call get_interatomic_vector(q_group_Row(:,i), & |
774 |
|
q_group_Col(:,j), d_grp, rgrpsq) |
775 |
|
#else |
776 |
+ |
me_j = atid(j) |
777 |
|
call get_interatomic_vector(q_group(:,i), & |
778 |
|
q_group(:,j), d_grp, rgrpsq) |
779 |
|
#endif |
780 |
|
|
781 |
< |
if (rgrpsq < rlistsq) then |
781 |
> |
if (rgrpsq < gtypeCutoffMap(groupToGtype(i),groupToGtype(j))%rListsq) then |
782 |
|
if (update_nlist) then |
783 |
|
nlist = nlist + 1 |
784 |
< |
|
784 |
> |
|
785 |
|
if (nlist > neighborListSize) then |
786 |
|
#ifdef IS_MPI |
787 |
|
call expandNeighborList(nGroupsInRow, listerror) |
795 |
|
end if |
796 |
|
neighborListSize = size(list) |
797 |
|
endif |
798 |
< |
|
798 |
> |
|
799 |
|
list(nlist) = j |
800 |
|
endif |
801 |
< |
|
801 |
> |
|
802 |
|
if (loop .eq. PAIR_LOOP) then |
803 |
|
vij = 0.0d0 |
804 |
|
fij(1:3) = 0.0d0 |
805 |
|
endif |
806 |
< |
|
806 |
> |
|
807 |
|
call get_switch(rgrpsq, sw, dswdr, rgrp, group_switch, & |
808 |
|
in_switching_region) |
809 |
< |
|
809 |
> |
|
810 |
|
n_in_j = groupStartCol(j+1) - groupStartCol(j) |
811 |
< |
|
811 |
> |
|
812 |
|
do ia = groupStartRow(i), groupStartRow(i+1)-1 |
813 |
< |
|
813 |
> |
|
814 |
|
atom1 = groupListRow(ia) |
815 |
< |
|
815 |
> |
|
816 |
|
inner: do jb = groupStartCol(j), groupStartCol(j+1)-1 |
817 |
< |
|
817 |
> |
|
818 |
|
atom2 = groupListCol(jb) |
819 |
< |
|
819 |
> |
|
820 |
|
if (skipThisPair(atom1, atom2)) cycle inner |
821 |
|
|
822 |
|
if ((n_in_i .eq. 1).and.(n_in_j .eq. 1)) then |
836 |
|
#ifdef IS_MPI |
837 |
|
call do_prepair(atom1, atom2, ratmsq, d_atm, sw, & |
838 |
|
rgrpsq, d_grp, do_pot, do_stress, & |
839 |
< |
u_l, A, f, t, pot_local) |
839 |
> |
eFrame, A, f, t, pot_local) |
840 |
|
#else |
841 |
|
call do_prepair(atom1, atom2, ratmsq, d_atm, sw, & |
842 |
|
rgrpsq, d_grp, do_pot, do_stress, & |
843 |
< |
u_l, A, f, t, pot) |
843 |
> |
eFrame, A, f, t, pot) |
844 |
|
#endif |
845 |
|
else |
846 |
|
#ifdef IS_MPI |
847 |
|
call do_pair(atom1, atom2, ratmsq, d_atm, sw, & |
848 |
|
do_pot, & |
849 |
< |
u_l, A, f, t, pot_local, vpair, fpair) |
849 |
> |
eFrame, A, f, t, pot_local, vpair, fpair) |
850 |
|
#else |
851 |
|
call do_pair(atom1, atom2, ratmsq, d_atm, sw, & |
852 |
|
do_pot, & |
853 |
< |
u_l, A, f, t, pot, vpair, fpair) |
853 |
> |
eFrame, A, f, t, pot, vpair, fpair) |
854 |
|
#endif |
855 |
|
|
856 |
|
vij = vij + vpair |
858 |
|
endif |
859 |
|
enddo inner |
860 |
|
enddo |
861 |
< |
|
861 |
> |
|
862 |
|
if (loop .eq. PAIR_LOOP) then |
863 |
|
if (in_switching_region) then |
864 |
|
swderiv = vij*dswdr/rgrp |
865 |
|
fij(1) = fij(1) + swderiv*d_grp(1) |
866 |
|
fij(2) = fij(2) + swderiv*d_grp(2) |
867 |
|
fij(3) = fij(3) + swderiv*d_grp(3) |
868 |
< |
|
868 |
> |
|
869 |
|
do ia=groupStartRow(i), groupStartRow(i+1)-1 |
870 |
|
atom1=groupListRow(ia) |
871 |
|
mf = mfactRow(atom1) |
879 |
|
f(3,atom1) = f(3,atom1) + swderiv*d_grp(3)*mf |
880 |
|
#endif |
881 |
|
enddo |
882 |
< |
|
882 |
> |
|
883 |
|
do jb=groupStartCol(j), groupStartCol(j+1)-1 |
884 |
|
atom2=groupListCol(jb) |
885 |
|
mf = mfactCol(atom2) |
894 |
|
#endif |
895 |
|
enddo |
896 |
|
endif |
897 |
< |
|
897 |
> |
|
898 |
|
if (do_stress) call add_stress_tensor(d_grp, fij) |
899 |
|
endif |
900 |
|
end if |
901 |
|
enddo |
902 |
|
enddo outer |
903 |
< |
|
903 |
> |
|
904 |
|
if (update_nlist) then |
905 |
|
#ifdef IS_MPI |
906 |
|
point(nGroupsInRow + 1) = nlist + 1 |
914 |
|
update_nlist = .false. |
915 |
|
endif |
916 |
|
endif |
917 |
< |
|
917 |
> |
|
918 |
|
if (loop .eq. PREPAIR_LOOP) then |
919 |
|
call do_preforce(nlocal, pot) |
920 |
|
endif |
921 |
< |
|
921 |
> |
|
922 |
|
enddo |
923 |
< |
|
923 |
> |
|
924 |
|
!! Do timing |
925 |
|
#ifdef PROFILE |
926 |
|
call cpu_time(forceTimeFinal) |
927 |
|
forceTime = forceTime + forceTimeFinal - forceTimeInitial |
928 |
|
#endif |
929 |
< |
|
929 |
> |
|
930 |
|
#ifdef IS_MPI |
931 |
|
!!distribute forces |
932 |
< |
|
932 |
> |
|
933 |
|
f_temp = 0.0_dp |
934 |
|
call scatter(f_Row,f_temp,plan_atom_row_3d) |
935 |
|
do i = 1,nlocal |
936 |
|
f(1:3,i) = f(1:3,i) + f_temp(1:3,i) |
937 |
|
end do |
938 |
< |
|
938 |
> |
|
939 |
|
f_temp = 0.0_dp |
940 |
|
call scatter(f_Col,f_temp,plan_atom_col_3d) |
941 |
|
do i = 1,nlocal |
942 |
|
f(1:3,i) = f(1:3,i) + f_temp(1:3,i) |
943 |
|
end do |
944 |
< |
|
944 |
> |
|
945 |
|
if (FF_UsesDirectionalAtoms() .and. SIM_uses_DirectionalAtoms) then |
946 |
|
t_temp = 0.0_dp |
947 |
|
call scatter(t_Row,t_temp,plan_atom_row_3d) |
950 |
|
end do |
951 |
|
t_temp = 0.0_dp |
952 |
|
call scatter(t_Col,t_temp,plan_atom_col_3d) |
953 |
< |
|
953 |
> |
|
954 |
|
do i = 1,nlocal |
955 |
|
t(1:3,i) = t(1:3,i) + t_temp(1:3,i) |
956 |
|
end do |
957 |
|
endif |
958 |
< |
|
958 |
> |
|
959 |
|
if (do_pot) then |
960 |
|
! scatter/gather pot_row into the members of my column |
961 |
|
call scatter(pot_Row, pot_Temp, plan_atom_row) |
962 |
< |
|
962 |
> |
|
963 |
|
! scatter/gather pot_local into all other procs |
964 |
|
! add resultant to get total pot |
965 |
|
do i = 1, nlocal |
966 |
|
pot_local = pot_local + pot_Temp(i) |
967 |
|
enddo |
968 |
< |
|
968 |
> |
|
969 |
|
pot_Temp = 0.0_DP |
970 |
< |
|
970 |
> |
|
971 |
|
call scatter(pot_Col, pot_Temp, plan_atom_col) |
972 |
|
do i = 1, nlocal |
973 |
|
pot_local = pot_local + pot_Temp(i) |
974 |
|
enddo |
975 |
< |
|
975 |
> |
|
976 |
|
endif |
977 |
|
#endif |
978 |
< |
|
978 |
> |
|
979 |
|
if (FF_RequiresPostpairCalc() .and. SIM_requires_postpair_calc) then |
980 |
< |
|
981 |
< |
if (FF_uses_RF .and. SIM_uses_RF) then |
982 |
< |
|
980 |
> |
|
981 |
> |
if ((FF_uses_RF .and. SIM_uses_RF) .or. (corrMethod == 3)) then |
982 |
> |
|
983 |
|
#ifdef IS_MPI |
984 |
|
call scatter(rf_Row,rf,plan_atom_row_3d) |
985 |
|
call scatter(rf_Col,rf_Temp,plan_atom_col_3d) |
987 |
|
rf(1:3,i) = rf(1:3,i) + rf_Temp(1:3,i) |
988 |
|
end do |
989 |
|
#endif |
990 |
< |
|
990 |
> |
|
991 |
|
do i = 1, nLocal |
992 |
< |
|
992 |
> |
|
993 |
|
rfpot = 0.0_DP |
994 |
|
#ifdef IS_MPI |
995 |
|
me_i = atid_row(i) |
996 |
|
#else |
997 |
|
me_i = atid(i) |
998 |
|
#endif |
999 |
+ |
iHash = InteractionHash(me_i,me_j) |
1000 |
|
|
1001 |
< |
if (PropertyMap(me_i)%is_Dipole) then |
1002 |
< |
|
1001 |
> |
if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then |
1002 |
> |
|
1003 |
|
mu_i = getDipoleMoment(me_i) |
1004 |
< |
|
1004 |
> |
|
1005 |
|
!! The reaction field needs to include a self contribution |
1006 |
|
!! to the field: |
1007 |
< |
call accumulate_self_rf(i, mu_i, u_l) |
1007 |
> |
call accumulate_self_rf(i, mu_i, eFrame) |
1008 |
|
!! Get the reaction field contribution to the |
1009 |
|
!! potential and torques: |
1010 |
< |
call reaction_field_final(i, mu_i, u_l, rfpot, t, do_pot) |
1010 |
> |
call reaction_field_final(i, mu_i, eFrame, rfpot, t, do_pot) |
1011 |
|
#ifdef IS_MPI |
1012 |
|
pot_local = pot_local + rfpot |
1013 |
|
#else |
1014 |
|
pot = pot + rfpot |
1015 |
< |
|
1015 |
> |
|
1016 |
|
#endif |
1017 |
< |
endif |
1017 |
> |
endif |
1018 |
|
enddo |
1019 |
|
endif |
1020 |
|
endif |
1021 |
< |
|
1022 |
< |
|
1021 |
> |
|
1022 |
> |
|
1023 |
|
#ifdef IS_MPI |
1024 |
< |
|
1024 |
> |
|
1025 |
|
if (do_pot) then |
1026 |
|
pot = pot + pot_local |
1027 |
|
!! we assume the c code will do the allreduce to get the total potential |
1028 |
|
!! we could do it right here if we needed to... |
1029 |
|
endif |
1030 |
< |
|
1030 |
> |
|
1031 |
|
if (do_stress) then |
1032 |
|
call mpi_allreduce(tau_Temp, tau, 9,mpi_double_precision,mpi_sum, & |
1033 |
|
mpi_comm_world,mpi_err) |
1034 |
|
call mpi_allreduce(virial_Temp, virial,1,mpi_double_precision,mpi_sum, & |
1035 |
|
mpi_comm_world,mpi_err) |
1036 |
|
endif |
1037 |
< |
|
1037 |
> |
|
1038 |
|
#else |
1039 |
< |
|
1039 |
> |
|
1040 |
|
if (do_stress) then |
1041 |
|
tau = tau_Temp |
1042 |
|
virial = virial_Temp |
1043 |
|
endif |
1044 |
< |
|
1044 |
> |
|
1045 |
|
#endif |
1046 |
< |
|
1046 |
> |
|
1047 |
|
end subroutine do_force_loop |
1048 |
< |
|
1048 |
> |
|
1049 |
|
subroutine do_pair(i, j, rijsq, d, sw, do_pot, & |
1050 |
< |
u_l, A, f, t, pot, vpair, fpair) |
1050 |
> |
eFrame, A, f, t, pot, vpair, fpair) |
1051 |
|
|
1052 |
|
real( kind = dp ) :: pot, vpair, sw |
1053 |
|
real( kind = dp ), dimension(3) :: fpair |
1054 |
|
real( kind = dp ), dimension(nLocal) :: mfact |
1055 |
< |
real( kind = dp ), dimension(3,nLocal) :: u_l |
1055 |
> |
real( kind = dp ), dimension(9,nLocal) :: eFrame |
1056 |
|
real( kind = dp ), dimension(9,nLocal) :: A |
1057 |
|
real( kind = dp ), dimension(3,nLocal) :: f |
1058 |
|
real( kind = dp ), dimension(3,nLocal) :: t |
1064 |
|
real ( kind = dp ), intent(inout) :: d(3) |
1065 |
|
integer :: me_i, me_j |
1066 |
|
|
1067 |
+ |
integer :: iHash |
1068 |
+ |
|
1069 |
|
r = sqrt(rijsq) |
1070 |
|
vpair = 0.0d0 |
1071 |
|
fpair(1:3) = 0.0d0 |
1077 |
|
me_i = atid(i) |
1078 |
|
me_j = atid(j) |
1079 |
|
#endif |
868 |
– |
|
869 |
– |
if (FF_uses_LennardJones .and. SIM_uses_LennardJones) then |
870 |
– |
|
871 |
– |
if ( PropertyMap(me_i)%is_LennardJones .and. & |
872 |
– |
PropertyMap(me_j)%is_LennardJones ) then |
873 |
– |
call do_lj_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot, f, do_pot) |
874 |
– |
endif |
875 |
– |
|
876 |
– |
endif |
877 |
– |
|
878 |
– |
if (FF_uses_charges .and. SIM_uses_charges) then |
879 |
– |
|
880 |
– |
if (PropertyMap(me_i)%is_Charge .and. PropertyMap(me_j)%is_Charge) then |
881 |
– |
call do_charge_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
882 |
– |
pot, f, do_pot) |
883 |
– |
endif |
884 |
– |
|
885 |
– |
endif |
886 |
– |
|
887 |
– |
if (FF_uses_dipoles .and. SIM_uses_dipoles) then |
888 |
– |
|
889 |
– |
if ( PropertyMap(me_i)%is_Dipole .and. PropertyMap(me_j)%is_Dipole) then |
890 |
– |
call do_dipole_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
891 |
– |
pot, u_l, f, t, do_pot) |
892 |
– |
if (FF_uses_RF .and. SIM_uses_RF) then |
893 |
– |
call accumulate_rf(i, j, r, u_l, sw) |
894 |
– |
call rf_correct_forces(i, j, d, r, u_l, sw, f, fpair) |
895 |
– |
endif |
896 |
– |
endif |
1080 |
|
|
1081 |
+ |
iHash = InteractionHash(me_i, me_j) |
1082 |
+ |
|
1083 |
+ |
if ( iand(iHash, LJ_PAIR).ne.0 ) then |
1084 |
+ |
call do_lj_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot, f, do_pot) |
1085 |
|
endif |
1086 |
|
|
1087 |
< |
if (FF_uses_Sticky .and. SIM_uses_sticky) then |
1087 |
> |
if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then |
1088 |
> |
call doElectrostaticPair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1089 |
> |
pot, eFrame, f, t, do_pot, corrMethod, rcuti) |
1090 |
|
|
1091 |
< |
if ( PropertyMap(me_i)%is_Sticky .and. PropertyMap(me_j)%is_Sticky) then |
1092 |
< |
call do_sticky_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1093 |
< |
pot, A, f, t, do_pot) |
1091 |
> |
if ((FF_uses_RF .and. SIM_uses_RF) .or. (corrMethod == 3)) then |
1092 |
> |
|
1093 |
> |
! CHECK ME (RF needs to know about all electrostatic types) |
1094 |
> |
call accumulate_rf(i, j, r, eFrame, sw) |
1095 |
> |
call rf_correct_forces(i, j, d, r, eFrame, sw, f, fpair) |
1096 |
|
endif |
1097 |
< |
|
1097 |
> |
|
1098 |
|
endif |
1099 |
|
|
1100 |
+ |
if ( iand(iHash, STICKY_PAIR).ne.0 ) then |
1101 |
+ |
call do_sticky_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1102 |
+ |
pot, A, f, t, do_pot) |
1103 |
+ |
endif |
1104 |
|
|
1105 |
< |
if (FF_uses_GayBerne .and. SIM_uses_GayBerne) then |
1106 |
< |
|
1107 |
< |
if ( PropertyMap(me_i)%is_GayBerne .and. & |
913 |
< |
PropertyMap(me_j)%is_GayBerne) then |
914 |
< |
call do_gb_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
915 |
< |
pot, u_l, f, t, do_pot) |
916 |
< |
endif |
917 |
< |
|
1105 |
> |
if ( iand(iHash, STICKYPOWER_PAIR).ne.0 ) then |
1106 |
> |
call do_sticky_power_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1107 |
> |
pot, A, f, t, do_pot) |
1108 |
|
endif |
1109 |
+ |
|
1110 |
+ |
if ( iand(iHash, GAYBERNE_PAIR).ne.0 ) then |
1111 |
+ |
call do_gb_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1112 |
+ |
pot, A, f, t, do_pot) |
1113 |
+ |
endif |
1114 |
|
|
1115 |
< |
if (FF_uses_EAM .and. SIM_uses_EAM) then |
1116 |
< |
|
1117 |
< |
if ( PropertyMap(me_i)%is_EAM .and. PropertyMap(me_j)%is_EAM) then |
923 |
< |
call do_eam_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot, f, & |
924 |
< |
do_pot) |
925 |
< |
endif |
926 |
< |
|
1115 |
> |
if ( iand(iHash, GAYBERNE_LJ).ne.0 ) then |
1116 |
> |
! call do_gblj_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1117 |
> |
! pot, A, f, t, do_pot) |
1118 |
|
endif |
1119 |
|
|
1120 |
< |
if (FF_uses_Shapes .and. SIM_uses_Shapes) then |
1121 |
< |
|
1122 |
< |
if ( PropertyMap(me_i)%is_Shape .and. & |
932 |
< |
PropertyMap(me_j)%is_Shape ) then |
933 |
< |
call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
934 |
< |
pot, A, f, t, do_pot) |
935 |
< |
endif |
936 |
< |
|
1120 |
> |
if ( iand(iHash, EAM_PAIR).ne.0 ) then |
1121 |
> |
call do_eam_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot, f, & |
1122 |
> |
do_pot) |
1123 |
|
endif |
1124 |
+ |
|
1125 |
+ |
if ( iand(iHash, SHAPE_PAIR).ne.0 ) then |
1126 |
+ |
call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1127 |
+ |
pot, A, f, t, do_pot) |
1128 |
+ |
endif |
1129 |
+ |
|
1130 |
+ |
if ( iand(iHash, SHAPE_LJ).ne.0 ) then |
1131 |
+ |
call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, & |
1132 |
+ |
pot, A, f, t, do_pot) |
1133 |
+ |
endif |
1134 |
|
|
1135 |
|
end subroutine do_pair |
1136 |
|
|
1137 |
|
subroutine do_prepair(i, j, rijsq, d, sw, rcijsq, dc, & |
1138 |
< |
do_pot, do_stress, u_l, A, f, t, pot) |
1138 |
> |
do_pot, do_stress, eFrame, A, f, t, pot) |
1139 |
|
|
1140 |
< |
real( kind = dp ) :: pot, sw |
1141 |
< |
real( kind = dp ), dimension(3,nLocal) :: u_l |
1142 |
< |
real (kind=dp), dimension(9,nLocal) :: A |
1143 |
< |
real (kind=dp), dimension(3,nLocal) :: f |
1144 |
< |
real (kind=dp), dimension(3,nLocal) :: t |
949 |
< |
|
950 |
< |
logical, intent(inout) :: do_pot, do_stress |
951 |
< |
integer, intent(in) :: i, j |
952 |
< |
real ( kind = dp ), intent(inout) :: rijsq, rcijsq |
953 |
< |
real ( kind = dp ) :: r, rc |
954 |
< |
real ( kind = dp ), intent(inout) :: d(3), dc(3) |
955 |
< |
|
956 |
< |
logical :: is_EAM_i, is_EAM_j |
957 |
< |
|
958 |
< |
integer :: me_i, me_j |
959 |
< |
|
1140 |
> |
real( kind = dp ) :: pot, sw |
1141 |
> |
real( kind = dp ), dimension(9,nLocal) :: eFrame |
1142 |
> |
real (kind=dp), dimension(9,nLocal) :: A |
1143 |
> |
real (kind=dp), dimension(3,nLocal) :: f |
1144 |
> |
real (kind=dp), dimension(3,nLocal) :: t |
1145 |
|
|
1146 |
+ |
logical, intent(inout) :: do_pot, do_stress |
1147 |
+ |
integer, intent(in) :: i, j |
1148 |
+ |
real ( kind = dp ), intent(inout) :: rijsq, rcijsq |
1149 |
+ |
real ( kind = dp ) :: r, rc |
1150 |
+ |
real ( kind = dp ), intent(inout) :: d(3), dc(3) |
1151 |
+ |
|
1152 |
+ |
integer :: me_i, me_j, iHash |
1153 |
+ |
|
1154 |
|
r = sqrt(rijsq) |
962 |
– |
if (SIM_uses_molecular_cutoffs) then |
963 |
– |
rc = sqrt(rcijsq) |
964 |
– |
else |
965 |
– |
rc = r |
966 |
– |
endif |
967 |
– |
|
1155 |
|
|
1156 |
|
#ifdef IS_MPI |
1157 |
< |
me_i = atid_row(i) |
1158 |
< |
me_j = atid_col(j) |
1157 |
> |
me_i = atid_row(i) |
1158 |
> |
me_j = atid_col(j) |
1159 |
|
#else |
1160 |
< |
me_i = atid(i) |
1161 |
< |
me_j = atid(j) |
1160 |
> |
me_i = atid(i) |
1161 |
> |
me_j = atid(j) |
1162 |
|
#endif |
1163 |
< |
|
1164 |
< |
if (FF_uses_EAM .and. SIM_uses_EAM) then |
1165 |
< |
|
1166 |
< |
if (PropertyMap(me_i)%is_EAM .and. PropertyMap(me_j)%is_EAM) & |
1167 |
< |
call calc_EAM_prepair_rho(i, j, d, r, rijsq ) |
1168 |
< |
|
1169 |
< |
endif |
1170 |
< |
|
1171 |
< |
end subroutine do_prepair |
1172 |
< |
|
1173 |
< |
|
1174 |
< |
subroutine do_preforce(nlocal,pot) |
1175 |
< |
integer :: nlocal |
1176 |
< |
real( kind = dp ) :: pot |
1177 |
< |
|
1178 |
< |
if (FF_uses_EAM .and. SIM_uses_EAM) then |
1179 |
< |
call calc_EAM_preforce_Frho(nlocal,pot) |
1180 |
< |
endif |
1181 |
< |
|
1182 |
< |
|
1183 |
< |
end subroutine do_preforce |
1184 |
< |
|
1185 |
< |
|
1186 |
< |
subroutine get_interatomic_vector(q_i, q_j, d, r_sq) |
1187 |
< |
|
1188 |
< |
real (kind = dp), dimension(3) :: q_i |
1189 |
< |
real (kind = dp), dimension(3) :: q_j |
1190 |
< |
real ( kind = dp ), intent(out) :: r_sq |
1191 |
< |
real( kind = dp ) :: d(3), scaled(3) |
1192 |
< |
integer i |
1193 |
< |
|
1194 |
< |
d(1:3) = q_j(1:3) - q_i(1:3) |
1195 |
< |
|
1196 |
< |
! Wrap back into periodic box if necessary |
1197 |
< |
if ( SIM_uses_PBC ) then |
1198 |
< |
|
1199 |
< |
if( .not.boxIsOrthorhombic ) then |
1200 |
< |
! calc the scaled coordinates. |
1201 |
< |
|
1202 |
< |
scaled = matmul(HmatInv, d) |
1203 |
< |
|
1204 |
< |
! wrap the scaled coordinates |
1205 |
< |
|
1206 |
< |
scaled = scaled - anint(scaled) |
1207 |
< |
|
1208 |
< |
|
1209 |
< |
! calc the wrapped real coordinates from the wrapped scaled |
1210 |
< |
! coordinates |
1211 |
< |
|
1212 |
< |
d = matmul(Hmat,scaled) |
1213 |
< |
|
1214 |
< |
else |
1215 |
< |
! calc the scaled coordinates. |
1216 |
< |
|
1217 |
< |
do i = 1, 3 |
1218 |
< |
scaled(i) = d(i) * HmatInv(i,i) |
1219 |
< |
|
1220 |
< |
! wrap the scaled coordinates |
1221 |
< |
|
1222 |
< |
scaled(i) = scaled(i) - anint(scaled(i)) |
1223 |
< |
|
1224 |
< |
! calc the wrapped real coordinates from the wrapped scaled |
1225 |
< |
! coordinates |
1226 |
< |
|
1227 |
< |
d(i) = scaled(i)*Hmat(i,i) |
1228 |
< |
enddo |
1229 |
< |
endif |
1230 |
< |
|
1231 |
< |
endif |
1232 |
< |
|
1233 |
< |
r_sq = dot_product(d,d) |
1234 |
< |
|
1235 |
< |
end subroutine get_interatomic_vector |
1236 |
< |
|
1237 |
< |
subroutine zero_work_arrays() |
1051 |
< |
|
1163 |
> |
|
1164 |
> |
iHash = InteractionHash(me_i, me_j) |
1165 |
> |
|
1166 |
> |
if ( iand(iHash, EAM_PAIR).ne.0 ) then |
1167 |
> |
call calc_EAM_prepair_rho(i, j, d, r, rijsq ) |
1168 |
> |
endif |
1169 |
> |
|
1170 |
> |
end subroutine do_prepair |
1171 |
> |
|
1172 |
> |
|
1173 |
> |
subroutine do_preforce(nlocal,pot) |
1174 |
> |
integer :: nlocal |
1175 |
> |
real( kind = dp ) :: pot |
1176 |
> |
|
1177 |
> |
if (FF_uses_EAM .and. SIM_uses_EAM) then |
1178 |
> |
call calc_EAM_preforce_Frho(nlocal,pot) |
1179 |
> |
endif |
1180 |
> |
|
1181 |
> |
|
1182 |
> |
end subroutine do_preforce |
1183 |
> |
|
1184 |
> |
|
1185 |
> |
subroutine get_interatomic_vector(q_i, q_j, d, r_sq) |
1186 |
> |
|
1187 |
> |
real (kind = dp), dimension(3) :: q_i |
1188 |
> |
real (kind = dp), dimension(3) :: q_j |
1189 |
> |
real ( kind = dp ), intent(out) :: r_sq |
1190 |
> |
real( kind = dp ) :: d(3), scaled(3) |
1191 |
> |
integer i |
1192 |
> |
|
1193 |
> |
d(1:3) = q_j(1:3) - q_i(1:3) |
1194 |
> |
|
1195 |
> |
! Wrap back into periodic box if necessary |
1196 |
> |
if ( SIM_uses_PBC ) then |
1197 |
> |
|
1198 |
> |
if( .not.boxIsOrthorhombic ) then |
1199 |
> |
! calc the scaled coordinates. |
1200 |
> |
|
1201 |
> |
scaled = matmul(HmatInv, d) |
1202 |
> |
|
1203 |
> |
! wrap the scaled coordinates |
1204 |
> |
|
1205 |
> |
scaled = scaled - anint(scaled) |
1206 |
> |
|
1207 |
> |
|
1208 |
> |
! calc the wrapped real coordinates from the wrapped scaled |
1209 |
> |
! coordinates |
1210 |
> |
|
1211 |
> |
d = matmul(Hmat,scaled) |
1212 |
> |
|
1213 |
> |
else |
1214 |
> |
! calc the scaled coordinates. |
1215 |
> |
|
1216 |
> |
do i = 1, 3 |
1217 |
> |
scaled(i) = d(i) * HmatInv(i,i) |
1218 |
> |
|
1219 |
> |
! wrap the scaled coordinates |
1220 |
> |
|
1221 |
> |
scaled(i) = scaled(i) - anint(scaled(i)) |
1222 |
> |
|
1223 |
> |
! calc the wrapped real coordinates from the wrapped scaled |
1224 |
> |
! coordinates |
1225 |
> |
|
1226 |
> |
d(i) = scaled(i)*Hmat(i,i) |
1227 |
> |
enddo |
1228 |
> |
endif |
1229 |
> |
|
1230 |
> |
endif |
1231 |
> |
|
1232 |
> |
r_sq = dot_product(d,d) |
1233 |
> |
|
1234 |
> |
end subroutine get_interatomic_vector |
1235 |
> |
|
1236 |
> |
subroutine zero_work_arrays() |
1237 |
> |
|
1238 |
|
#ifdef IS_MPI |
1053 |
– |
|
1054 |
– |
q_Row = 0.0_dp |
1055 |
– |
q_Col = 0.0_dp |
1239 |
|
|
1240 |
< |
q_group_Row = 0.0_dp |
1241 |
< |
q_group_Col = 0.0_dp |
1242 |
< |
|
1243 |
< |
u_l_Row = 0.0_dp |
1244 |
< |
u_l_Col = 0.0_dp |
1245 |
< |
|
1246 |
< |
A_Row = 0.0_dp |
1247 |
< |
A_Col = 0.0_dp |
1248 |
< |
|
1249 |
< |
f_Row = 0.0_dp |
1250 |
< |
f_Col = 0.0_dp |
1251 |
< |
f_Temp = 0.0_dp |
1252 |
< |
|
1253 |
< |
t_Row = 0.0_dp |
1254 |
< |
t_Col = 0.0_dp |
1255 |
< |
t_Temp = 0.0_dp |
1256 |
< |
|
1257 |
< |
pot_Row = 0.0_dp |
1258 |
< |
pot_Col = 0.0_dp |
1259 |
< |
pot_Temp = 0.0_dp |
1260 |
< |
|
1261 |
< |
rf_Row = 0.0_dp |
1262 |
< |
rf_Col = 0.0_dp |
1263 |
< |
rf_Temp = 0.0_dp |
1264 |
< |
|
1240 |
> |
q_Row = 0.0_dp |
1241 |
> |
q_Col = 0.0_dp |
1242 |
> |
|
1243 |
> |
q_group_Row = 0.0_dp |
1244 |
> |
q_group_Col = 0.0_dp |
1245 |
> |
|
1246 |
> |
eFrame_Row = 0.0_dp |
1247 |
> |
eFrame_Col = 0.0_dp |
1248 |
> |
|
1249 |
> |
A_Row = 0.0_dp |
1250 |
> |
A_Col = 0.0_dp |
1251 |
> |
|
1252 |
> |
f_Row = 0.0_dp |
1253 |
> |
f_Col = 0.0_dp |
1254 |
> |
f_Temp = 0.0_dp |
1255 |
> |
|
1256 |
> |
t_Row = 0.0_dp |
1257 |
> |
t_Col = 0.0_dp |
1258 |
> |
t_Temp = 0.0_dp |
1259 |
> |
|
1260 |
> |
pot_Row = 0.0_dp |
1261 |
> |
pot_Col = 0.0_dp |
1262 |
> |
pot_Temp = 0.0_dp |
1263 |
> |
|
1264 |
> |
rf_Row = 0.0_dp |
1265 |
> |
rf_Col = 0.0_dp |
1266 |
> |
rf_Temp = 0.0_dp |
1267 |
> |
|
1268 |
|
#endif |
1269 |
< |
|
1270 |
< |
if (FF_uses_EAM .and. SIM_uses_EAM) then |
1271 |
< |
call clean_EAM() |
1272 |
< |
endif |
1273 |
< |
|
1274 |
< |
rf = 0.0_dp |
1275 |
< |
tau_Temp = 0.0_dp |
1276 |
< |
virial_Temp = 0.0_dp |
1277 |
< |
end subroutine zero_work_arrays |
1278 |
< |
|
1279 |
< |
function skipThisPair(atom1, atom2) result(skip_it) |
1280 |
< |
integer, intent(in) :: atom1 |
1281 |
< |
integer, intent(in), optional :: atom2 |
1282 |
< |
logical :: skip_it |
1283 |
< |
integer :: unique_id_1, unique_id_2 |
1284 |
< |
integer :: me_i,me_j |
1285 |
< |
integer :: i |
1286 |
< |
|
1287 |
< |
skip_it = .false. |
1288 |
< |
|
1289 |
< |
!! there are a number of reasons to skip a pair or a particle |
1290 |
< |
!! mostly we do this to exclude atoms who are involved in short |
1291 |
< |
!! range interactions (bonds, bends, torsions), but we also need |
1292 |
< |
!! to exclude some overcounted interactions that result from |
1293 |
< |
!! the parallel decomposition |
1294 |
< |
|
1269 |
> |
|
1270 |
> |
if (FF_uses_EAM .and. SIM_uses_EAM) then |
1271 |
> |
call clean_EAM() |
1272 |
> |
endif |
1273 |
> |
|
1274 |
> |
rf = 0.0_dp |
1275 |
> |
tau_Temp = 0.0_dp |
1276 |
> |
virial_Temp = 0.0_dp |
1277 |
> |
end subroutine zero_work_arrays |
1278 |
> |
|
1279 |
> |
function skipThisPair(atom1, atom2) result(skip_it) |
1280 |
> |
integer, intent(in) :: atom1 |
1281 |
> |
integer, intent(in), optional :: atom2 |
1282 |
> |
logical :: skip_it |
1283 |
> |
integer :: unique_id_1, unique_id_2 |
1284 |
> |
integer :: me_i,me_j |
1285 |
> |
integer :: i |
1286 |
> |
|
1287 |
> |
skip_it = .false. |
1288 |
> |
|
1289 |
> |
!! there are a number of reasons to skip a pair or a particle |
1290 |
> |
!! mostly we do this to exclude atoms who are involved in short |
1291 |
> |
!! range interactions (bonds, bends, torsions), but we also need |
1292 |
> |
!! to exclude some overcounted interactions that result from |
1293 |
> |
!! the parallel decomposition |
1294 |
> |
|
1295 |
|
#ifdef IS_MPI |
1296 |
< |
!! in MPI, we have to look up the unique IDs for each atom |
1297 |
< |
unique_id_1 = AtomRowToGlobal(atom1) |
1296 |
> |
!! in MPI, we have to look up the unique IDs for each atom |
1297 |
> |
unique_id_1 = AtomRowToGlobal(atom1) |
1298 |
|
#else |
1299 |
< |
!! in the normal loop, the atom numbers are unique |
1300 |
< |
unique_id_1 = atom1 |
1299 |
> |
!! in the normal loop, the atom numbers are unique |
1300 |
> |
unique_id_1 = atom1 |
1301 |
|
#endif |
1302 |
< |
|
1303 |
< |
!! We were called with only one atom, so just check the global exclude |
1304 |
< |
!! list for this atom |
1305 |
< |
if (.not. present(atom2)) then |
1306 |
< |
do i = 1, nExcludes_global |
1307 |
< |
if (excludesGlobal(i) == unique_id_1) then |
1308 |
< |
skip_it = .true. |
1309 |
< |
return |
1310 |
< |
end if |
1311 |
< |
end do |
1312 |
< |
return |
1313 |
< |
end if |
1314 |
< |
|
1302 |
> |
|
1303 |
> |
!! We were called with only one atom, so just check the global exclude |
1304 |
> |
!! list for this atom |
1305 |
> |
if (.not. present(atom2)) then |
1306 |
> |
do i = 1, nExcludes_global |
1307 |
> |
if (excludesGlobal(i) == unique_id_1) then |
1308 |
> |
skip_it = .true. |
1309 |
> |
return |
1310 |
> |
end if |
1311 |
> |
end do |
1312 |
> |
return |
1313 |
> |
end if |
1314 |
> |
|
1315 |
|
#ifdef IS_MPI |
1316 |
< |
unique_id_2 = AtomColToGlobal(atom2) |
1316 |
> |
unique_id_2 = AtomColToGlobal(atom2) |
1317 |
|
#else |
1318 |
< |
unique_id_2 = atom2 |
1318 |
> |
unique_id_2 = atom2 |
1319 |
|
#endif |
1320 |
< |
|
1320 |
> |
|
1321 |
|
#ifdef IS_MPI |
1322 |
< |
!! this situation should only arise in MPI simulations |
1323 |
< |
if (unique_id_1 == unique_id_2) then |
1324 |
< |
skip_it = .true. |
1325 |
< |
return |
1326 |
< |
end if |
1327 |
< |
|
1328 |
< |
!! this prevents us from doing the pair on multiple processors |
1329 |
< |
if (unique_id_1 < unique_id_2) then |
1330 |
< |
if (mod(unique_id_1 + unique_id_2,2) == 0) then |
1331 |
< |
skip_it = .true. |
1332 |
< |
return |
1333 |
< |
endif |
1334 |
< |
else |
1335 |
< |
if (mod(unique_id_1 + unique_id_2,2) == 1) then |
1336 |
< |
skip_it = .true. |
1337 |
< |
return |
1338 |
< |
endif |
1339 |
< |
endif |
1322 |
> |
!! this situation should only arise in MPI simulations |
1323 |
> |
if (unique_id_1 == unique_id_2) then |
1324 |
> |
skip_it = .true. |
1325 |
> |
return |
1326 |
> |
end if |
1327 |
> |
|
1328 |
> |
!! this prevents us from doing the pair on multiple processors |
1329 |
> |
if (unique_id_1 < unique_id_2) then |
1330 |
> |
if (mod(unique_id_1 + unique_id_2,2) == 0) then |
1331 |
> |
skip_it = .true. |
1332 |
> |
return |
1333 |
> |
endif |
1334 |
> |
else |
1335 |
> |
if (mod(unique_id_1 + unique_id_2,2) == 1) then |
1336 |
> |
skip_it = .true. |
1337 |
> |
return |
1338 |
> |
endif |
1339 |
> |
endif |
1340 |
|
#endif |
1341 |
< |
|
1342 |
< |
!! the rest of these situations can happen in all simulations: |
1343 |
< |
do i = 1, nExcludes_global |
1344 |
< |
if ((excludesGlobal(i) == unique_id_1) .or. & |
1345 |
< |
(excludesGlobal(i) == unique_id_2)) then |
1346 |
< |
skip_it = .true. |
1347 |
< |
return |
1348 |
< |
endif |
1349 |
< |
enddo |
1350 |
< |
|
1351 |
< |
do i = 1, nSkipsForAtom(atom1) |
1352 |
< |
if (skipsForAtom(atom1, i) .eq. unique_id_2) then |
1353 |
< |
skip_it = .true. |
1354 |
< |
return |
1355 |
< |
endif |
1356 |
< |
end do |
1357 |
< |
|
1358 |
< |
return |
1359 |
< |
end function skipThisPair |
1360 |
< |
|
1361 |
< |
function FF_UsesDirectionalAtoms() result(doesit) |
1362 |
< |
logical :: doesit |
1363 |
< |
doesit = FF_uses_DirectionalAtoms .or. FF_uses_Dipoles .or. & |
1364 |
< |
FF_uses_Sticky .or. FF_uses_GayBerne .or. FF_uses_Shapes |
1365 |
< |
end function FF_UsesDirectionalAtoms |
1366 |
< |
|
1367 |
< |
function FF_RequiresPrepairCalc() result(doesit) |
1368 |
< |
logical :: doesit |
1369 |
< |
doesit = FF_uses_EAM |
1370 |
< |
end function FF_RequiresPrepairCalc |
1371 |
< |
|
1372 |
< |
function FF_RequiresPostpairCalc() result(doesit) |
1373 |
< |
logical :: doesit |
1374 |
< |
doesit = FF_uses_RF |
1375 |
< |
end function FF_RequiresPostpairCalc |
1376 |
< |
|
1341 |
> |
|
1342 |
> |
!! the rest of these situations can happen in all simulations: |
1343 |
> |
do i = 1, nExcludes_global |
1344 |
> |
if ((excludesGlobal(i) == unique_id_1) .or. & |
1345 |
> |
(excludesGlobal(i) == unique_id_2)) then |
1346 |
> |
skip_it = .true. |
1347 |
> |
return |
1348 |
> |
endif |
1349 |
> |
enddo |
1350 |
> |
|
1351 |
> |
do i = 1, nSkipsForAtom(atom1) |
1352 |
> |
if (skipsForAtom(atom1, i) .eq. unique_id_2) then |
1353 |
> |
skip_it = .true. |
1354 |
> |
return |
1355 |
> |
endif |
1356 |
> |
end do |
1357 |
> |
|
1358 |
> |
return |
1359 |
> |
end function skipThisPair |
1360 |
> |
|
1361 |
> |
function FF_UsesDirectionalAtoms() result(doesit) |
1362 |
> |
logical :: doesit |
1363 |
> |
doesit = FF_uses_DirectionalAtoms |
1364 |
> |
end function FF_UsesDirectionalAtoms |
1365 |
> |
|
1366 |
> |
function FF_RequiresPrepairCalc() result(doesit) |
1367 |
> |
logical :: doesit |
1368 |
> |
doesit = FF_uses_EAM |
1369 |
> |
end function FF_RequiresPrepairCalc |
1370 |
> |
|
1371 |
> |
function FF_RequiresPostpairCalc() result(doesit) |
1372 |
> |
logical :: doesit |
1373 |
> |
doesit = FF_uses_RF |
1374 |
> |
if (corrMethod == 3) doesit = .true. |
1375 |
> |
end function FF_RequiresPostpairCalc |
1376 |
> |
|
1377 |
|
#ifdef PROFILE |
1378 |
< |
function getforcetime() result(totalforcetime) |
1379 |
< |
real(kind=dp) :: totalforcetime |
1380 |
< |
totalforcetime = forcetime |
1381 |
< |
end function getforcetime |
1378 |
> |
function getforcetime() result(totalforcetime) |
1379 |
> |
real(kind=dp) :: totalforcetime |
1380 |
> |
totalforcetime = forcetime |
1381 |
> |
end function getforcetime |
1382 |
|
#endif |
1197 |
– |
|
1198 |
– |
!! This cleans componets of force arrays belonging only to fortran |
1383 |
|
|
1384 |
< |
subroutine add_stress_tensor(dpair, fpair) |
1201 |
< |
|
1202 |
< |
real( kind = dp ), dimension(3), intent(in) :: dpair, fpair |
1203 |
< |
|
1204 |
< |
! because the d vector is the rj - ri vector, and |
1205 |
< |
! because fx, fy, fz are the force on atom i, we need a |
1206 |
< |
! negative sign here: |
1207 |
< |
|
1208 |
< |
tau_Temp(1) = tau_Temp(1) - dpair(1) * fpair(1) |
1209 |
< |
tau_Temp(2) = tau_Temp(2) - dpair(1) * fpair(2) |
1210 |
< |
tau_Temp(3) = tau_Temp(3) - dpair(1) * fpair(3) |
1211 |
< |
tau_Temp(4) = tau_Temp(4) - dpair(2) * fpair(1) |
1212 |
< |
tau_Temp(5) = tau_Temp(5) - dpair(2) * fpair(2) |
1213 |
< |
tau_Temp(6) = tau_Temp(6) - dpair(2) * fpair(3) |
1214 |
< |
tau_Temp(7) = tau_Temp(7) - dpair(3) * fpair(1) |
1215 |
< |
tau_Temp(8) = tau_Temp(8) - dpair(3) * fpair(2) |
1216 |
< |
tau_Temp(9) = tau_Temp(9) - dpair(3) * fpair(3) |
1217 |
< |
|
1218 |
< |
virial_Temp = virial_Temp + & |
1219 |
< |
(tau_Temp(1) + tau_Temp(5) + tau_Temp(9)) |
1220 |
< |
|
1221 |
< |
end subroutine add_stress_tensor |
1222 |
< |
|
1223 |
< |
end module doForces |
1384 |
> |
!! This cleans componets of force arrays belonging only to fortran |
1385 |
|
|
1386 |
< |
!! Interfaces for C programs to module.... |
1386 |
> |
subroutine add_stress_tensor(dpair, fpair) |
1387 |
|
|
1388 |
< |
subroutine initFortranFF(use_RF_c, thisStat) |
1228 |
< |
use doForces, ONLY: init_FF |
1229 |
< |
logical, intent(in) :: use_RF_c |
1388 |
> |
real( kind = dp ), dimension(3), intent(in) :: dpair, fpair |
1389 |
|
|
1390 |
< |
integer, intent(out) :: thisStat |
1391 |
< |
call init_FF(use_RF_c, thisStat) |
1390 |
> |
! because the d vector is the rj - ri vector, and |
1391 |
> |
! because fx, fy, fz are the force on atom i, we need a |
1392 |
> |
! negative sign here: |
1393 |
|
|
1394 |
< |
end subroutine initFortranFF |
1394 |
> |
tau_Temp(1) = tau_Temp(1) - dpair(1) * fpair(1) |
1395 |
> |
tau_Temp(2) = tau_Temp(2) - dpair(1) * fpair(2) |
1396 |
> |
tau_Temp(3) = tau_Temp(3) - dpair(1) * fpair(3) |
1397 |
> |
tau_Temp(4) = tau_Temp(4) - dpair(2) * fpair(1) |
1398 |
> |
tau_Temp(5) = tau_Temp(5) - dpair(2) * fpair(2) |
1399 |
> |
tau_Temp(6) = tau_Temp(6) - dpair(2) * fpair(3) |
1400 |
> |
tau_Temp(7) = tau_Temp(7) - dpair(3) * fpair(1) |
1401 |
> |
tau_Temp(8) = tau_Temp(8) - dpair(3) * fpair(2) |
1402 |
> |
tau_Temp(9) = tau_Temp(9) - dpair(3) * fpair(3) |
1403 |
|
|
1404 |
< |
subroutine doForceloop(q, q_group, A, u_l, f, t, tau, pot, & |
1405 |
< |
do_pot_c, do_stress_c, error) |
1238 |
< |
|
1239 |
< |
use definitions, ONLY: dp |
1240 |
< |
use simulation |
1241 |
< |
use doForces, ONLY: do_force_loop |
1242 |
< |
!! Position array provided by C, dimensioned by getNlocal |
1243 |
< |
real ( kind = dp ), dimension(3, nLocal) :: q |
1244 |
< |
!! molecular center-of-mass position array |
1245 |
< |
real ( kind = dp ), dimension(3, nGroups) :: q_group |
1246 |
< |
!! Rotation Matrix for each long range particle in simulation. |
1247 |
< |
real( kind = dp), dimension(9, nLocal) :: A |
1248 |
< |
!! Unit vectors for dipoles (lab frame) |
1249 |
< |
real( kind = dp ), dimension(3,nLocal) :: u_l |
1250 |
< |
!! Force array provided by C, dimensioned by getNlocal |
1251 |
< |
real ( kind = dp ), dimension(3,nLocal) :: f |
1252 |
< |
!! Torsion array provided by C, dimensioned by getNlocal |
1253 |
< |
real( kind = dp ), dimension(3,nLocal) :: t |
1404 |
> |
virial_Temp = virial_Temp + & |
1405 |
> |
(tau_Temp(1) + tau_Temp(5) + tau_Temp(9)) |
1406 |
|
|
1407 |
< |
!! Stress Tensor |
1408 |
< |
real( kind = dp), dimension(9) :: tau |
1409 |
< |
real ( kind = dp ) :: pot |
1258 |
< |
logical ( kind = 2) :: do_pot_c, do_stress_c |
1259 |
< |
integer :: error |
1260 |
< |
|
1261 |
< |
call do_force_loop(q, q_group, A, u_l, f, t, tau, pot, & |
1262 |
< |
do_pot_c, do_stress_c, error) |
1263 |
< |
|
1264 |
< |
end subroutine doForceloop |
1407 |
> |
end subroutine add_stress_tensor |
1408 |
> |
|
1409 |
> |
end module doForces |