! ! $Id $ ! SUBROUTINE criterion_ice_stop_water_slope(cell_area,ini_surf,qsurf,STOPPING,ngrid,initial_h2o_ice) USE temps_mod_evol, ONLY: alpha_criterion use comslope_mod, ONLY: subslope_dist,nslope IMPLICIT NONE !======================================================================= ! ! Routine that checks if the criterion to stop the PEM is reached ! !======================================================================= ! arguments: ! ---------- ! INPUT INTEGER, intent(in) :: ngrid ! # of grid physical grid points REAL, intent(in) :: cell_area(ngrid) ! physical point field : Area of the cells REAL, intent(in) :: qsurf(ngrid,nslope) ! physical point field : Actual density of water ice REAL, intent(in) :: ini_surf REAL, intent(in) :: initial_h2o_ice(ngrid,nslope) ! OUTPUT LOGICAL, intent(out) :: STOPPING ! Logical : is the criterion reached? ! local: ! ----- INTEGER :: i,islope ! Loop REAL :: present_surf ! Initial/Actual surface of water ice !======================================================================= ! initialisation to false STOPPING=.FALSE. ! computation of the actual surface present_surf=0. do i=1,ngrid do islope=1, nslope if (initial_h2o_ice(i,islope).GT.0.5 .and. qsurf(i,islope).GT.0.) then ! print *, "i", i ! print *, "initial_h2o_ice(i,islope)", initial_h2o_ice(i,islope) ! print *, "qsurf(i,islope)", qsurf(i,islope) ! print *, "cell_area(i)", cell_area(i) ! print *, "present_surf",present_surf present_surf=present_surf+cell_area(i)*subslope_dist(i,islope) endif enddo enddo ! print *, "initial_h2o_ice", initial_h2o_ice ! print *, "qsurf", qsurf ! print *, "present_surf", present_surf ! print *, "ini_surf", ini_surf ! print *, "ini_surf*0.8", ini_surf*(1-alpha_criterion) ! check of the criterion if(present_surf.LT.ini_surf*(1-alpha_criterion) .OR. & present_surf.GT.ini_surf*(1+alpha_criterion)) then STOPPING=.TRUE. endif if (ini_surf.LT. 1E-5 .and. ini_surf.GT. -1E-5) then STOPPING=.FALSE. endif END SUBROUTINE criterion_ice_stop_water_slope