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initialize.f90
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initialize.f90
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! initialize.f90
! Sets up initial configuration for MD or MC
PROGRAM initialize
!------------------------------------------------------------------------------------------------!
! This software was written in 2016/17 !
! by Michael P. Allen <[email protected]>/<[email protected]> !
! and Dominic J. Tildesley <[email protected]> ("the authors"), !
! to accompany the book "Computer Simulation of Liquids", second edition, 2017 ("the text"), !
! published by Oxford University Press ("the publishers"). !
! !
! LICENCE !
! Creative Commons CC0 Public Domain Dedication. !
! To the extent possible under law, the authors have dedicated all copyright and related !
! and neighboring rights to this software to the PUBLIC domain worldwide. !
! This software is distributed without any warranty. !
! You should have received a copy of the CC0 Public Domain Dedication along with this software. !
! If not, see <http://creativecommons.org/publicdomain/zero/1.0/>. !
! !
! DISCLAIMER !
! The authors and publishers make no warranties about the software, and disclaim liability !
! for all uses of the software, to the fullest extent permitted by applicable law. !
! The authors and publishers do not recommend use of this software for any purpose. !
! It is made freely available, solely to clarify points made in the text. When using or citing !
! the software, you should not imply endorsement by the authors or publishers. !
!------------------------------------------------------------------------------------------------!
! Reads several variables and options from standard input using a namelist nml
! Leave namelist empty to accept supplied defaults
USE, INTRINSIC :: iso_fortran_env, ONLY : input_unit, output_unit, error_unit, iostat_end, iostat_eor, &
& COMPILER_VERSION, COMPILER_OPTIONS
USE config_io_module, ONLY : write_cnf_atoms, write_cnf_mols
USE maths_module, ONLY : lowercase
USE initialize_module, ONLY : allocate_arrays, deallocate_arrays, &
& fcc_positions, ran_positions, ran_velocities, &
& chain_positions, chain_velocities, &
& n, r, e, v, w
IMPLICIT NONE
! Most important variables
INTEGER :: nc ! Number of fcc unit cells in each coordinate direction; n = 4*nc**3
REAL :: temperature ! Specified temperature (used in generating velocities)
REAL :: inertia ! Specified moment of inertia (for linear and nonlinear molecules)
REAL :: density ! Specified number density (ignored for chain molecules)
LOGICAL :: velocities ! User option requiring velocities for MD (otherwise just positions)
LOGICAL :: lattice ! User option for lattice positions (otherwise placed randomly)
REAL :: length ! Spherocylinder length (linear molecules, overlap check)
REAL :: bond ! Bond length (only used for chain molecules)
REAL :: box ! Box length (ignored for chain molecules)
LOGICAL :: soft ! Option for soft interactions (i.e. ignore overlaps)
LOGICAL :: constraints ! Option to apply constraints on chain velocities
CHARACTER(len=10) :: molecules ! Character string, input, used to specify molecule_option
INTEGER :: molecule_option ! User option for atoms, linear, or nonlinear molecule, or chain
INTEGER, PARAMETER :: atom = 0, linear = 1, nonlinear = 2, chain = 3
INTEGER :: ioerr
REAL, PARAMETER :: tol = 1.0e-6
CHARACTER(len=7), PARAMETER :: filename = 'cnf.inp' ! Will be used as an input file by later simulations
NAMELIST /nml/ nc, n, temperature, inertia, density, length, velocities, molecules, lattice, soft, constraints
WRITE ( unit=output_unit, fmt='(a)' ) 'initialize'
WRITE ( unit=output_unit, fmt='(2a)' ) 'Compiler: ', COMPILER_VERSION()
WRITE ( unit=output_unit, fmt='(2a/)' ) 'Options: ', COMPILER_OPTIONS()
WRITE ( unit=output_unit, fmt='(a)' ) 'Sets up initial configuration file for various simulations'
WRITE ( unit=output_unit, fmt='(a)' ) 'Options for molecules are "atom", "linear", "nonlinear", "chain"'
WRITE ( unit=output_unit, fmt='(a)' ) 'Particle mass m=1 throughout'
CALL RANDOM_INIT ( .FALSE., .TRUE. ) ! Initialize random number generator
! Set default parameters
n = 0 ! nc takes precedence unless n is explicitly specified
nc = 4 ! Default is N = 4*(4**3) = 256 on a fcc lattice, a small system
temperature = 1.0 ! Should lie in the liquid region for density > 0.7 or so
inertia = 1.0 ! Only relevant for linear and nonlinear molecules
density = 0.75 ! Should lie in the liquid region for temperature > 0.9 or so
length = 0.0 ! By default, atoms are spherical
bond = 1.122462 ! Bond length for chain molecules
velocities = .FALSE. ! By default, produce positions only, for MC simulations
molecules = 'atoms' ! Options are 'atoms', 'chain', 'linear', 'nonlinear'
lattice = .TRUE. ! By default, arrange atoms on a lattice with predetermined orientations
soft = .FALSE. ! By default, check for overlaps when placing molecules
constraints = .TRUE. ! By default, constrain chain velocities relative to bonds
! Read run parameters from namelist
! Comment out, or replace, this section if you don't like namelists
READ ( unit=input_unit, nml=nml, iostat=ioerr )
IF ( ioerr /= 0 ) THEN
WRITE ( unit=error_unit, fmt='(a,i15)') 'Error reading namelist nml from standard input', ioerr
IF ( ioerr == iostat_eor ) WRITE ( unit=error_unit, fmt='(a)') 'End of record'
IF ( ioerr == iostat_end ) WRITE ( unit=error_unit, fmt='(a)') 'End of file'
STOP 'Error in initialize'
END IF
! Use molecules string to deduce molecule_option
molecules = lowercase(molecules)
IF ( INDEX ( molecules, 'nonlinear' ) /= 0 ) THEN
molecule_option = nonlinear
WRITE ( unit=output_unit, fmt='(a)' ) 'Nonlinear molecules'
ELSE IF ( INDEX ( molecules, 'linear') /= 0 ) THEN
molecule_option = linear
WRITE ( unit=output_unit, fmt='(a)' ) 'Linear molecules'
ELSE IF ( INDEX ( molecules, 'atom') /= 0 ) THEN
molecule_option = atom
WRITE ( unit=output_unit, fmt='(a)' ) 'Atoms'
ELSE IF ( INDEX ( molecules, 'chain') /= 0 ) THEN
molecule_option = chain
WRITE ( unit=output_unit, fmt='(a)' ) 'Atoms in a chain'
ELSE
WRITE ( unit=error_unit, fmt='(a,a)') 'Unrecognized molecules option: ', molecules
STOP 'Error in initialize'
END IF
IF ( n <= 0 ) THEN ! Test for unspecified N
IF ( nc <= 0 ) THEN ! Test for unphysical nc
WRITE ( unit=error_unit, fmt='(a,2i15)') 'nc must be positive', nc
STOP 'Error in initialize'
ELSE ! Deduce N from nc
WRITE ( unit=output_unit, fmt='(a,t40,i15)') 'nc = ', nc
n = 4*nc**3
WRITE ( unit=output_unit, fmt='(a,t40,i15)') 'n = ', n
END IF
ELSE ! N has been specified
WRITE ( unit=output_unit, fmt='(a,t40,i15)') 'n = ', n
END IF ! End test for unspecified N
IF ( velocities ) THEN
WRITE ( unit=output_unit, fmt='(a)' ) 'Velocities option selected'
! Inertia should be positive, even for atoms
IF ( inertia < tol ) THEN
WRITE ( unit=output_unit, fmt='(a,f15.6)' ) 'Warning, inertia = ', inertia
WRITE ( unit=output_unit, fmt='(a)' ) 'Resetting to 1 '
inertia = 1.0
END IF
ELSE
WRITE ( unit=output_unit, fmt='(a)' ) 'No velocities option selected'
END IF
SELECT CASE ( molecule_option )
CASE ( nonlinear )
WRITE ( unit=output_unit, fmt='(a)' ) 'Periodic boundary conditions'
CASE ( linear )
WRITE ( unit=output_unit, fmt='(a)' ) 'Periodic boundary conditions'
IF ( length < tol ) THEN
WRITE ( unit=output_unit, fmt='(a,f15.6)' ) 'Warning, length = ', length
END IF
CASE ( atom )
WRITE ( unit=output_unit, fmt='(a)' ) 'Periodic boundary conditions'
IF ( ABS(length) > tol ) THEN
WRITE ( unit=output_unit, fmt='(a,f15.6)' ) 'Warning, length = ', length
WRITE ( unit=output_unit, fmt='(a)' ) 'Resetting to zero'
length = 0.0
END IF
CASE ( chain )
WRITE ( unit=output_unit, fmt='(a)' ) 'NO periodic boundary conditions'
IF ( ABS(length) > tol ) THEN
WRITE ( unit=output_unit, fmt='(a,f15.6)' ) 'Warning, length = ', length
WRITE ( unit=output_unit, fmt='(a)' ) 'Resetting to zero'
length = 0.0
END IF
IF ( velocities ) THEN
IF ( constraints ) THEN
WRITE ( unit=output_unit, fmt='(a)' ) 'Velocities constrained relative to bonds'
ELSE
WRITE ( unit=output_unit, fmt='(a)' ) 'Velocities not constrained relative to bonds'
END IF
END IF
END SELECT
! Allocate arrays appropriately according to molecule_option
CALL allocate_arrays ( quaternions = ( molecule_option == nonlinear ) )
! Initialize positions and optionally velocities
IF ( soft ) WRITE ( unit=output_unit, fmt='(a)' ) 'Soft option selected - no overlap checking'
IF ( molecule_option == chain ) THEN
WRITE ( unit=output_unit, fmt='(a,t40,f15.6)' ) 'Bond length', bond
CALL chain_positions ( bond, soft ) ! Random with chosen bond length
IF ( velocities ) CALL chain_velocities ( temperature, constraints )
ELSE
! Periodic boundaries apply
! Box length is deduced from density
box = ( REAL(n) / density ) ** ( 1.0/3.0 )
WRITE ( unit=output_unit, fmt='(a,t40,f15.6)' ) 'Density', density
WRITE ( unit=output_unit, fmt='(a,t40,f15.6)' ) 'Box length', box
IF ( lattice ) THEN
CALL fcc_positions ( box, length, soft ) ! On a lattice within box
ELSE
CALL ran_positions ( box, length, soft ) ! Random within box
END IF
IF ( velocities ) CALL ran_velocities ( temperature, inertia )
END IF
! Write out configuration
WRITE ( unit=output_unit, fmt='(a,a)' ) 'Writing configuration to filename ', filename
SELECT CASE ( molecule_option )
CASE ( atom )
! Write out coordinates in same units as box
IF ( velocities ) THEN
CALL write_cnf_atoms ( filename, n, box, r, v )
ELSE
CALL write_cnf_atoms ( filename, n, box, r )
END IF
CASE ( linear, nonlinear )
! Write out coordinates in same units as box
IF ( velocities ) THEN
CALL write_cnf_mols ( filename, n, box, r, e, v, w )
ELSE
CALL write_cnf_mols ( filename, n, box, r, e )
END IF
CASE ( chain )
! We do not use periodic boundaries for this system
! Instead, use "box" variable to store bond length
IF ( velocities ) THEN
CALL write_cnf_atoms ( filename, n, bond, r, v )
ELSE
CALL write_cnf_atoms ( filename, n, bond, r )
END IF
END SELECT
CALL deallocate_arrays
END PROGRAM initialize