evaluate_add_spacetime_scalarByCoordinate Subroutine

public recursive subroutine evaluate_add_spacetime_scalarByCoordinate(fun, varSys, point, time, tree, nPnts, res)

This subroutine add multiple spacetime function for given coordinate points. Spacetime function are evaluated only on the coordinate which belong to st_fun shape.

Arguments

Type IntentOptional Attributes Name
class(tem_varSys_op_type), intent(in) :: fun

Description of the method to obtain the variables, here some preset values might be stored, like the space time function to use or the required variables.

type(tem_varSys_type), intent(in) :: varSys

The variable system to obtain the variable from.

real(kind=rk), intent(in) :: point(:,:)

Three-dimensional coordinates at which the variable should be evaluated. Only useful for variables provided as space-time functions.

type(tem_time_type), intent(in) :: time

Point in time at which to evaluate the variable.

type(treelmesh_type), intent(in) :: tree

global treelm mesh info

integer, intent(in) :: nPnts

Number of values to obtain for this variable (vectorized access).

real(kind=rk), intent(out) :: res(:)

Resulting values for the requested variable.

Dimension: n requested entries x nComponents of this variable Access: (iElem-1)*fun%nComponents + iComp


Calls

proc~~evaluate_add_spacetime_scalarbycoordinate~~CallsGraph proc~evaluate_add_spacetime_scalarbycoordinate evaluate_add_spacetime_scalarByCoordinate interface~tem_spacetime_for tem_spacetime_for proc~evaluate_add_spacetime_scalarbycoordinate->interface~tem_spacetime_for proc~tem_coordofreal tem_CoordOfReal proc~evaluate_add_spacetime_scalarbycoordinate->proc~tem_coordofreal proc~tem_idofcoord tem_IdOfCoord proc~evaluate_add_spacetime_scalarbycoordinate->proc~tem_idofcoord proc~tem_posofid tem_PosOfId proc~evaluate_add_spacetime_scalarbycoordinate->proc~tem_posofid tem_positioninsorted tem_positioninsorted proc~evaluate_add_spacetime_scalarbycoordinate->tem_positioninsorted proc~tem_spacetime_for_coord tem_spacetime_for_coord interface~tem_spacetime_for->proc~tem_spacetime_for_coord proc~tem_spacetime_for_stcoord tem_spacetime_for_stcoord interface~tem_spacetime_for->proc~tem_spacetime_for_stcoord proc~tem_spacetime_for_treeids tem_spacetime_for_treeIDs interface~tem_spacetime_for->proc~tem_spacetime_for_treeids proc~tem_spacetime_scalar_for_index tem_spacetime_scalar_for_index interface~tem_spacetime_for->proc~tem_spacetime_scalar_for_index proc~tem_spacetime_vector_for_coord tem_spacetime_vector_for_coord interface~tem_spacetime_for->proc~tem_spacetime_vector_for_coord proc~tem_spacetime_vector_for_index tem_spacetime_vector_for_index interface~tem_spacetime_for->proc~tem_spacetime_vector_for_index proc~tem_spacetime_vector_for_treeids tem_spacetime_vector_for_treeIDs interface~tem_spacetime_for->proc~tem_spacetime_vector_for_treeids proc~tem_pathcomparison tem_PathComparison proc~tem_posofid->proc~tem_pathcomparison proc~tem_pathof tem_PathOf proc~tem_posofid->proc~tem_pathof interface~tem_spacetime_lua_for tem_spacetime_lua_for proc~tem_spacetime_for_coord->interface~tem_spacetime_lua_for interface~tem_spatial_for tem_spatial_for proc~tem_spacetime_for_coord->interface~tem_spatial_for proc~tem_abort tem_abort proc~tem_spacetime_for_coord->proc~tem_abort proc~tem_eval_acoustic_pulse tem_eval_acoustic_pulse proc~tem_spacetime_for_coord->proc~tem_eval_acoustic_pulse proc~tem_eval_cylindricalwave tem_eval_cylindricalWave proc~tem_spacetime_for_coord->proc~tem_eval_cylindricalwave proc~tem_eval_miescatter_displz tem_eval_miescatter_displz proc~tem_spacetime_for_coord->proc~tem_eval_miescatter_displz proc~tem_eval_miescatter_magnx tem_eval_miescatter_magnx proc~tem_spacetime_for_coord->proc~tem_eval_miescatter_magnx proc~tem_eval_miescatter_magny tem_eval_miescatter_magny proc~tem_spacetime_for_coord->proc~tem_eval_miescatter_magny proc~tem_polygon_material_movement_multi tem_polygon_material_movement_multi proc~tem_spacetime_for_coord->proc~tem_polygon_material_movement_multi proc~tem_polygon_material_movement_single tem_polygon_material_movement_single proc~tem_spacetime_for_coord->proc~tem_polygon_material_movement_single proc~tem_temporal_for tem_temporal_for proc~tem_spacetime_for_coord->proc~tem_temporal_for proc~tem_spacetime_for_stcoord->proc~tem_spacetime_for_coord proc~tem_spacetime_for_treeids->interface~tem_spacetime_lua_for proc~tem_spacetime_for_treeids->interface~tem_spatial_for proc~tem_spacetime_for_treeids->proc~tem_abort proc~tem_spacetime_for_treeids->proc~tem_temporal_for proc~tem_spacetime_scalar_for_index->proc~tem_spacetime_for_coord ids ids proc~tem_spacetime_scalar_for_index->ids proc~tem_spacetime_scalar_for_index->interface~tem_spacetime_lua_for proc~tem_spacetime_scalar_for_index->interface~tem_spatial_for posids posids proc~tem_spacetime_scalar_for_index->posids proc~tem_spacetime_scalar_for_index->proc~tem_temporal_for tem_precice_read tem_precice_read proc~tem_spacetime_scalar_for_index->tem_precice_read proc~tem_spacetime_vector_for_coord->interface~tem_spacetime_lua_for proc~tem_spacetime_vector_for_coord->interface~tem_spatial_for proc~tem_spacetime_vector_for_coord->proc~tem_abort proc~tem_spacetime_vector_for_coord->proc~tem_temporal_for proc~tem_spacetime_vector_for_index->proc~tem_spacetime_vector_for_coord proc~tem_spacetime_vector_for_index->ids proc~tem_spacetime_vector_for_index->interface~tem_spacetime_lua_for proc~tem_spacetime_vector_for_index->interface~tem_spatial_for proc~tem_spacetime_vector_for_index->posids proc~tem_spacetime_vector_for_index->proc~tem_temporal_for proc~tem_spacetime_vector_for_index->tem_precice_read proc~tem_spacetime_vector_for_treeids->interface~tem_spacetime_lua_for proc~tem_spacetime_vector_for_treeids->interface~tem_spatial_for proc~tem_spacetime_vector_for_treeids->proc~tem_abort proc~tem_spacetime_vector_for_treeids->proc~tem_temporal_for

Source Code

  recursive subroutine evaluate_add_spacetime_scalarByCoordinate( fun, varsys, &
    & point, time, tree, nPnts, res                                            )
    !--------------------------------------------------------------------------!
    !> Description of the method to obtain the variables, here some preset
    !! values might be stored, like the space time function to use or the
    !! required variables.
    class(tem_varSys_op_type), intent(in) :: fun

    !> The variable system to obtain the variable from.
    type(tem_varSys_type), intent(in) :: varSys

    !> Three-dimensional coordinates at which the variable should be
    !! evaluated. Only useful for variables provided as space-time functions.
    real(kind=rk), intent(in) :: point(:,:)

    !> Point in time at which to evaluate the variable.
    type(tem_time_type), intent(in)  :: time

    !> global treelm mesh info
    type(treelmesh_type), intent(in) :: tree

    !> Number of values to obtain for this variable (vectorized access).
    integer, intent(in) :: nPnts

    !> Resulting values for the requested variable.
    !!
    !! Dimension: n requested entries x nComponents of this variable
    !! Access: (iElem-1)*fun%nComponents + iComp
    real(kind=rk), intent(out) :: res(:)
    !--------------------------------------------------------------------------!
    ! --------------------------------------------------------------------------
    integer :: iStFun, iPoint, elemPos, pos
    type(tem_st_fun_listElem_type), pointer :: fPtr
    integer :: coord(4)
    integer(kind=long_k):: treeID
    real(kind=rk) :: st_res(1)
    ! --------------------------------------------------------------------------
    !call C_F_POINTER( fun%method_Data, fPtr )
    ! Avoid compiler warning about unused varsys
    call C_F_POINTER( varsys%method%val(fun%mypos)%method_Data, fPtr )
    res = 0.0_rk

    ! The space time function has a custom shape, thus we have to check
    ! whether the coordinates are covered by the space time function.
    ! As we are dealing with vectorial access here, we have to loop over all
    ! requested points.
    stLoop: do iStFun = 1, fPtr%nVals
      if(fPtr%val(iStFun)%subTree%useGlobalMesh) then
        res = res + tem_spacetime_for( me      = fPtr%val(iStFun), &
          &                            coord   = point,            &
          &                            time    = time,             &
          &                            n       = nPnts             )
      else
        do iPoint = 1, nPnts
          ! The space time function has a custom shape, thus we have to check
          ! whether the coordinates are covered by the space time function.
          coord =  tem_CoordOfReal(tree, point(iPoint,:), &
            &                      tree%global%maxLevel)
          treeId = tem_IdOfCoord(coord)
          elemPos = tem_PosofId(treeId, tree%treeID)
          pos = tem_PositionInSorted(                      &
            & me    = fPtr%val(iStFun)%subTree%map2global, &
            & val   = elemPos                              )
          ! When the elemenet is covered by the space time function's shape,
          ! we evaluate it at the given coordinates.
          if (pos > 0) then
            st_res = tem_spacetime_for(                            &
              & me      = fPtr%val(iStFun),                        &
              & coord   = reshape( source = (/ point(iPoint,1),    &
              &                                point(iPoint,2),    &
              &                                point(iPoint,3) /), &
              &                    shape  = (/ 1, 3 /) ),          &
              & time    = time,                                    &
              & n       = 1                                        )

            res(iPoint) = res(iPoint) + st_res(1)
          end if ! point part of subtree
        end do !iPoint
      end if ! global mesh
    end do stLoop

  end subroutine evaluate_add_spacetime_scalarByCoordinate