! $Id$ ! ! Initial condition for sin(kz) or cos(kz) magnetic field. ! !** AUTOMATIC CPARAM.INC GENERATION **************************** ! Declare (for generation of cparam.inc) the number of f array ! variables and auxiliary variables added by this module ! ! CPARAM logical, parameter :: linitial_condition = .true. ! !*************************************************************** ! ! module InitialCondition ! use Cparam use Cdata use General, only: keep_compiler_quiet use Messages ! implicit none ! include '../initial_condition.h' ! ! k = wave vector ! initaa = implitude of the field real :: k = 2.0, initaa = 1.0 character (len=10) :: profile = 'cos' namelist /initial_condition_pars/ & k, initaa, profile ! contains !*********************************************************************** subroutine register_initial_condition() ! ! Register variables associated with this module; likely none. ! ! 29-june-11/simon: coded ! if (lroot) call svn_id( & "$Id$") ! endsubroutine register_initial_condition !*********************************************************************** subroutine initialize_initial_condition(f) ! ! Initialize any module variables which are parameter dependent. ! ! 07-may-09/wlad: coded ! real, dimension (mx,my,mz,mfarray) :: f ! call keep_compiler_quiet(f) ! endsubroutine initialize_initial_condition !*********************************************************************** subroutine initial_condition_uu(f) ! ! Initialize the velocity field. ! ! 07-may-09/wlad: coded ! real, dimension (mx,my,mz,mfarray), intent(inout) :: f ! ! SAMPLE IMPLEMENTATION ! call keep_compiler_quiet(f) ! endsubroutine initial_condition_uu !*********************************************************************** subroutine initial_condition_lnrho(f) ! ! Initialize logarithmic density. init_lnrho ! will take care of converting it to linear ! density if you use ldensity_nolog ! ! 07-may-09/wlad: coded ! real, dimension (mx,my,mz,mfarray), intent(inout) :: f ! ! SAMPLE IMPLEMENTATION ! call keep_compiler_quiet(f) ! endsubroutine initial_condition_lnrho !*********************************************************************** subroutine initial_condition_aa(f) ! ! Initialize the magnetic vector potential. ! ! 29-jun-11/simon: coded ! ! Simple wave configuration in z-direction ! ! Created 2011-06-29 by Simon Candelaresi (Iomsn) ! use Mpicomm, only: stop_it use Sub real, dimension (mx,my,mz,mfarray) :: f ! f(:,:,:,iax) = 0. f(:,:,:,iaz) = 0. do n = n1, n2, 1 select case (profile) case ('sin') f(:,:,n,iay) = initaa * cos(k*z(n))/k case ('cos') f(:,:,n,iay) = -initaa * sin(k*z(n))/k endselect enddo ! endsubroutine initial_condition_aa !*********************************************************************** subroutine initial_condition_ss(f) ! ! Initialize entropy. ! ! 07-may-09/wlad: coded ! real, dimension (mx,my,mz,mfarray), intent(inout) :: f ! ! SAMPLE IMPLEMENTATION ! call keep_compiler_quiet(f) ! endsubroutine initial_condition_ss !*********************************************************************** subroutine read_initial_condition_pars(iostat) ! use File_io, only: parallel_unit ! integer, intent(out) :: iostat ! read(parallel_unit, NML=initial_condition_pars, IOSTAT=iostat) ! endsubroutine read_initial_condition_pars !*********************************************************************** subroutine write_initial_condition_pars(unit) ! integer, intent(in) :: unit ! write(unit, NML=initial_condition_pars) ! endsubroutine write_initial_condition_pars !*********************************************************************** ! !******************************************************************** !************ DO NOT DELETE THE FOLLOWING ************** !******************************************************************** !** This is an automatically generated include file that creates ** !** copies dummy routines from noinitial_condition.f90 for any ** !** InitialCondition routines not implemented in this file ** !** ** include '../initial_condition_dummies.inc' !******************************************************************** endmodule InitialCondition