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◆ vg6d_c2a()
subroutine, public volgrid6d_class::vg6d_c2a |
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type(volgrid6d), dimension(:), intent(inout) |
this | ) |
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Convert grids type C to type A.
Use this to interpolate data from grid type C to grid type A Grids type are defined by Arakawa.
We need to find these types of area in a vg6d array T area of points with temterature etc. U area of points with u components of winds V area of points with v components of winds
this method works if it finds two volumes: 1) volume U and volume V: compute H and traslate on it 2) volume U/V and volume H : translate U/V on H three volumes: translate U and V on H
try to work well on more datasets at once
- Parametri
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[in,out] | this | vettor of volumes volgrid6d to elaborate |
Definizione alla linea 3147 del file volgrid6d_class.F90.
3147 step_lat=(ymax-ymin)/dble(this%griddim%dim%ny-1) 3148 ymin=ymin-step_lat/2.d0 3149 ymax=ymax-step_lat/2.d0 3150 call set_val(this%griddim, ymin=ymin, ymax=ymax) 3152 CALL griddim_setsteps(this%griddim) 3156 call l4f_category_log(this%category,l4f_fatal, "C grid type not known") 3157 call raise_fatal_error () 3164 call griddim_unproj(this%griddim) 3167 end subroutine vg6d_c2a_grid 3170 subroutine vg6d_c2a_mat(this,cgrid) 3172 type(volgrid6d), intent(inout) :: this 3173 integer, intent(in) :: cgrid 3175 INTEGER :: i, j, k, iv, stallo 3176 REAL, ALLOCATABLE :: tmp_arr(:,:) 3177 REAL, POINTER :: voldatiuv(:,:) 3180 IF (cgrid == 0) RETURN 3181 IF (cgrid /= 1 .AND. cgrid /= 2) THEN 3182 CALL l4f_category_log(this%category,l4f_fatal, "C grid type "// & 3183 trim(to_char(cgrid))// " not known") 3189 ALLOCATE(tmp_arr(this%griddim%dim%nx, this%griddim%dim%ny),stat=stallo) 3191 call l4f_log(l4f_fatal, "allocating memory") 3192 call raise_fatal_error() 3196 IF (.NOT. ASSOCIATED(this%voldati)) THEN 3197 ALLOCATE(voldatiuv(this%griddim%dim%nx, this%griddim%dim%ny), stat=stallo) 3198 IF (stallo /= 0) THEN 3199 CALL l4f_log(l4f_fatal, "allocating memory") 3200 CALL raise_fatal_error() 3204 IF (cgrid == 1) THEN 3205 DO iv = 1, SIZE(this%var) 3206 DO k = 1, SIZE(this%timerange) 3207 DO j = 1, SIZE(this%time) 3208 DO i = 1, SIZE(this%level) 3209 tmp_arr(:,:) = rmiss 3210 CALL volgrid_get_vol_2d(this, i, j, k, iv, voldatiuv) 3213 WHERE(voldatiuv(1,:) /= rmiss .AND. voldatiuv(2,:) /= rmiss) 3214 tmp_arr(1,:) = voldatiuv(1,:) - (voldatiuv(2,:) - voldatiuv(1,:)) / 2. 3218 WHERE(voldatiuv(1:this%griddim%dim%nx-1,:) /= rmiss .AND. & 3219 voldatiuv(2:this%griddim%dim%nx,:) /= rmiss) 3220 tmp_arr(2:this%griddim%dim%nx,:) = & 3221 (voldatiuv(1:this%griddim%dim%nx-1,:) + & 3222 voldatiuv(2:this%griddim%dim%nx,:)) / 2. 3225 voldatiuv(:,:) = tmp_arr 3226 CALL volgrid_set_vol_2d(this, i, j, k, iv, voldatiuv) 3232 ELSE IF (cgrid == 2) THEN 3233 DO iv = 1, SIZE(this%var) 3234 DO k = 1, SIZE(this%timerange) 3235 DO j = 1, SIZE(this%time) 3236 DO i = 1, SIZE(this%level) 3237 tmp_arr(:,:) = rmiss 3238 CALL volgrid_get_vol_2d(this, i, j, k, iv, voldatiuv) 3241 WHERE(voldatiuv(:,1) /= rmiss .AND. voldatiuv(:,2) /= rmiss) 3242 tmp_arr(:,1) = voldatiuv(:,1) - (voldatiuv(:,2) - voldatiuv(:,1)) / 2. 3246 WHERE(voldatiuv(:,1:this%griddim%dim%ny-1) /= rmiss .AND. & 3247 voldatiuv(:,2:this%griddim%dim%ny) /= rmiss) 3248 tmp_arr(:,2:this%griddim%dim%ny) = & 3249 (voldatiuv(:,1:this%griddim%dim%ny-1) + & 3250 voldatiuv(:,2:this%griddim%dim%ny)) / 2. 3253 voldatiuv(:,:) = tmp_arr 3254 CALL volgrid_set_vol_2d(this, i, j, k, iv, voldatiuv) 3261 IF (.NOT. ASSOCIATED(this%voldati)) THEN 3262 DEALLOCATE(voldatiuv) 3264 DEALLOCATE (tmp_arr) 3266 end subroutine vg6d_c2a_mat
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