source: LMDZ5/branches/IPSLCM5A2.1/libf/phylmd/cosp/cosp_modis_simulator.F90 @ 5451

Last change on this file since 5451 was 2432, checked in by idelkadi, 9 years ago

Correction : rajout de fichiers manquants pour les simulateurs Modis, Cloudsat, Misr et Isccp

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1! (c) 2009, Regents of the Unversity of Colorado
2!   Author: Robert Pincus, Cooperative Institute for Research in the Environmental Sciences
3! All rights reserved.
4! $Revision: 88 $, $Date: 2013-11-13 15:08:38 +0100 (mer. 13 nov. 2013) $
5! $URL: http://cfmip-obs-sim.googlecode.com/svn/stable/v1.4.0/cosp_modis_simulator.F90 $
6!
7! Redistribution and use in source and binary forms, with or without modification, are permitted
8! provided that the following conditions are met:
9!
10!     * Redistributions of source code must retain the above copyright notice, this list
11!       of conditions and the following disclaimer.
12!     * Redistributions in binary form must reproduce the above copyright notice, this list
13!       of conditions and the following disclaimer in the documentation and/or other materials
14!       provided with the distribution.
15!     * Neither the name of the Met Office nor the names of its contributors may be used
16!       to endorse or promote products derived from this software without specific prior written
17!       permission.
18!
19! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR
20! IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
21! FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22! CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
23! DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24! DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
25! IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
26! OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27!
28
29!
30! History:
31!   May 2009 - Robert Pincus - Initial version
32!   Dec 2009 - Robert Pincus - Tiny revisions
33!
34MODULE MOD_COSP_Modis_Simulator
35  USE MOD_COSP_CONSTANTS
36  USE MOD_COSP_TYPES
37  use mod_modis_sim, numModisTauBins      => numTauHistogramBins,      &
38                     numModisPressureBins => numPressureHistogramBins, &
39                     MODIS_TAU      => nominalTauHistogramCenters,     &
40                     MODIS_TAU_BNDS => nominalTauHistogramBoundaries,  &
41                     MODIS_PC       => nominalPressureHistogramCenters, &
42                     MODIS_PC_BNDS  => nominalPressureHistogramBoundaries                     
43  implicit none
44  !------------------------------------------------------------------------------------------------
45  ! Public type
46  !
47  ! Summary statistics from MODIS retrievals
48  type COSP_MODIS
49     ! Dimensions
50     integer :: Npoints   ! Number of gridpoints
51     
52     !
53     ! Grid means; dimension nPoints
54     !
55     real, dimension(:),       pointer :: &
56       Cloud_Fraction_Total_Mean,       Cloud_Fraction_Water_Mean,       Cloud_Fraction_Ice_Mean,       &
57       Cloud_Fraction_High_Mean,        Cloud_Fraction_Mid_Mean,         Cloud_Fraction_Low_Mean,       &
58       Optical_Thickness_Total_Mean,    Optical_Thickness_Water_Mean,    Optical_Thickness_Ice_Mean,    &
59       Optical_Thickness_Total_LogMean, Optical_Thickness_Water_LogMean, Optical_Thickness_Ice_LogMean, &
60                                        Cloud_Particle_Size_Water_Mean,  Cloud_Particle_Size_Ice_Mean,  &
61       Cloud_Top_Pressure_Total_Mean,                                                                   &
62                                        Liquid_Water_Path_Mean,          Ice_Water_Path_Mean
63     !
64     ! Also need the ISCCP-type optical thickness/cloud top pressure histogram
65     !
66     real, dimension(:, :, :), pointer :: Optical_Thickness_vs_Cloud_Top_Pressure
67  end type COSP_MODIS
68 
69contains
70  !------------------------------------------------------------------------------------------------
71  subroutine COSP_Modis_Simulator(gridBox, subCols, subcolHydro, isccpSim, modisSim)
72    ! Arguments
73    type(cosp_gridbox), intent(in   ) :: gridBox     ! Gridbox info
74    type(cosp_subgrid), intent(in   ) :: subCols     ! subCol indicators of convective/stratiform
75    type(cosp_sghydro), intent(in   ) :: subcolHydro ! subcol hydrometeor contens
76    type(cosp_isccp),   intent(in   ) :: isccpSim    ! ISCCP simulator output
77    type(cosp_modis),   intent(  out) :: modisSim    ! MODIS simulator subcol output
78   
79    ! ------------------------------------------------------------
80    ! Local variables
81    !   Leave space only for sunlit points
82   
83    integer :: nPoints, nSubCols, nLevels, nSunlit, i, j, k
84   
85    ! Grid-mean quanties;  dimensions nPoints, nLevels
86    real, &
87      dimension(count(gridBox%sunlit(:) > 0),                  gridBox%nLevels) :: &
88        temperature, pressureLayers
89    real, &
90      dimension(count(gridBox%sunlit(:) > 0),                  gridBox%nLevels + 1) :: &
91        pressureLevels
92   
93    ! Subcol quantities, dimension nPoints, nSubCols, nLevels
94    real, &
95      dimension(count(gridBox%sunlit(:) > 0), subCols%nColumns, gridBox%nLevels) :: &
96        opticalThickness, cloudWater, cloudIce, waterSize, iceSize
97   
98    ! Vertically-integrated subcol quantities; dimensions nPoints, nSubcols
99    integer, &
100      dimension(count(gridBox%sunlit(:) > 0), subCols%nColumns) :: &
101        retrievedPhase
102    real, &
103      dimension(count(gridBox%sunlit(:) > 0), subCols%nColumns) :: &
104        isccpTau, isccpCloudTopPressure, retrievedCloudTopPressure, retrievedTau, retrievedSize 
105   
106    ! Vertically-integrated results
107    real, dimension(count(gridBox%sunlit(:) > 0)) :: &
108        cfTotal, cfLiquid, cfIce,                &
109        cfHigh,  cfMid,    cfLow,                &
110        meanTauTotal, meanTauLiquid, meanTauIce, &
111        meanLogTauTotal, meanLogTauLiquid, meanLogTauIce , &
112        meanSizeLiquid, meanSizeIce,             &
113        meanCloudTopPressure,                    &
114        meanLiquidWaterPath, meanIceWaterPath
115       
116    real, dimension(count(gridBox%sunlit(:) > 0), numModisTauBins, numModisPressureBins) :: &
117       jointHistogram
118   
119    integer, dimension(count(gridBox%sunlit(:) >  0)) :: sunlit
120    integer, dimension(count(gridBox%sunlit(:) <= 0)) :: notSunlit
121    ! ------------------------------------------------------------
122   
123    !
124    ! Are there any sunlit points?
125    !
126    nSunlit = count(gridBox%sunlit(:) > 0)
127    if(nSunlit > 0) then
128      nLevels  = gridBox%Nlevels
129      nPoints  = gridBox%Npoints
130      nSubCols = subCols%Ncolumns
131      !
132      ! This is a vector index indicating which points are sunlit
133      !
134      sunlit(:)    = pack((/ (i, i = 1, nPoints ) /), mask =       gridBox%sunlit(:) > 0)
135      notSunlit(:) = pack((/ (i, i = 1, nPoints ) /), mask = .not. gridBox%sunlit(:) > 0)
136               
137      !
138      ! Copy needed quantities, reversing vertical order and removing points with no sunlight
139      !
140      pressureLevels(:, 1) = 0.0 ! Top of model, following ISCCP sim
141      temperature(:, :)     = gridBox%T (sunlit(:), nLevels:1:-1)
142      pressureLayers(:, :)  = gridBox%p (sunlit(:), nLevels:1:-1)
143      pressureLevels(:, 2:) = gridBox%ph(sunlit(:), nLevels:1:-1)
144     
145      !
146      ! Subcolumn properties - first stratiform cloud...
147      !
148      where(subCols%frac_out(sunlit(:), :, :) == I_LSC)
149        !opticalThickness(:, :, :) = &
150        !               spread(gridBox%dtau_s      (sunlit(:),    :), dim = 2, nCopies = nSubCols)
151        cloudWater(:, :, :) = subcolHydro%mr_hydro(sunlit(:), :, :, I_LSCLIQ)
152        waterSize (:, :, :) = subcolHydro%reff    (sunlit(:), :, :, I_LSCLIQ)
153        cloudIce  (:, :, :) = subcolHydro%mr_hydro(sunlit(:), :, :, I_LSCICE)
154        iceSize   (:, :, :) = subcolHydro%reff    (sunlit(:), :, :, I_LSCICE)
155      elsewhere
156        opticalThickness(:, :, :) = 0.
157        cloudWater      (:, :, :) = 0.
158        cloudIce        (:, :, :) = 0.
159        waterSize       (:, :, :) = 0.
160        iceSize         (:, :, :) = 0.
161      end where
162
163      ! Loop version of spread above - intrinsic doesn't work on certain platforms.
164      do k = 1, nLevels
165        do j = 1, nSubCols
166          do i = 1, nSunlit
167            if(subCols%frac_out(sunlit(i), j, k) == I_LSC) then
168              opticalThickness(i, j, k) = gridBox%dtau_s(sunlit(i), k)
169            else
170              opticalThickness(i, j, k) = 0.   
171            end if
172          end do
173        end do
174      end do
175
176      !
177      ! .. then add convective cloud...
178      !
179      where(subCols%frac_out(sunlit(:), :, :) == I_CVC)
180        !opticalThickness(:, :, :) = &
181        !               spread(gridBox%dtau_c(      sunlit(:),    :), dim = 2, nCopies = nSubCols)
182        cloudWater(:, :, :) = subcolHydro%mr_hydro(sunlit(:), :, :, I_CVCLIQ)
183        waterSize (:, :, :) = subcolHydro%reff    (sunlit(:), :, :, I_CVCLIQ)
184        cloudIce  (:, :, :) = subcolHydro%mr_hydro(sunlit(:), :, :, I_CVCICE)
185        iceSize   (:, :, :) = subcolHydro%reff    (sunlit(:), :, :, I_CVCICE)
186      end where
187
188      ! Loop version of spread above - intrinsic doesn't work on certain platforms.
189      do k = 1, nLevels
190        do j = 1, nSubCols
191          do i = 1, nSunlit
192            if(subCols%frac_out(sunlit(i), j, k) == I_CVC) opticalThickness(i, j, k) = gridBox%dtau_c(sunlit(i), k)
193          end do
194        end do
195      end do
196
197      !
198      ! Reverse vertical order
199      !
200      opticalThickness(:, :, :)  = opticalThickness(:, :, nLevels:1:-1)
201      cloudWater      (:, :, :)  = cloudWater      (:, :, nLevels:1:-1)
202      waterSize       (:, :, :)  = waterSize       (:, :, nLevels:1:-1)
203      cloudIce        (:, :, :)  = cloudIce        (:, :, nLevels:1:-1)
204      iceSize         (:, :, :)  = iceSize         (:, :, nLevels:1:-1)
205     
206      isccpTau(:, :)              = isccpSim%boxtau (sunlit(:), :)
207      isccpCloudTopPressure(:, :) = isccpSim%boxptop(sunlit(:), :)
208     
209      do i = 1, nSunlit
210        call modis_L2_simulator(temperature(i, :), pressureLayers(i, :), pressureLevels(i, :),     &
211                                opticalThickness(i, :, :), cloudWater(i, :, :), cloudIce(i, :, :), &
212                                waterSize(i, :, :), iceSize(i, :, :),                       &
213                                isccpTau(i, :), isccpCloudTopPressure(i, :),                &
214                                retrievedPhase(i, :), retrievedCloudTopPressure(i, :),      &
215                                retrievedTau(i, :), retrievedSize(i, :))
216      end do
217      call modis_L3_simulator(retrievedPhase,              &
218                              retrievedCloudTopPressure,   &
219                              retrievedTau, retrievedSize, &
220                              cfTotal,         cfLiquid,         cfIce,         &
221                              cfHigh,          cfMid,            cfLow,         &
222                              meanTauTotal,    meanTauLiquid,    meanTauIce,    &
223                              meanLogTauTotal, meanLogTauLiquid, meanLogTauIce, &
224                                               meanSizeLiquid,   meanSizeIce,   &
225                              meanCloudTopPressure,                             &
226                                               meanLiquidWaterPath, meanIceWaterPath, &
227                              jointHistogram)
228      !
229      ! Copy results into COSP structure
230      !
231      modisSim%Cloud_Fraction_Total_Mean(sunlit(:)) = cfTotal(:)
232      modisSim%Cloud_Fraction_Water_Mean(sunlit(:)) = cfLiquid
233      modisSim%Cloud_Fraction_Ice_Mean  (sunlit(:)) = cfIce
234 
235      modisSim%Cloud_Fraction_High_Mean(sunlit(:)) = cfHigh
236      modisSim%Cloud_Fraction_Mid_Mean (sunlit(:)) = cfMid
237      modisSim%Cloud_Fraction_Low_Mean (sunlit(:)) = cfLow
238 
239      modisSim%Optical_Thickness_Total_Mean(sunlit(:)) = meanTauTotal
240      modisSim%Optical_Thickness_Water_Mean(sunlit(:)) = meanTauLiquid
241      modisSim%Optical_Thickness_Ice_Mean  (sunlit(:)) = meanTauIce
242 
243      modisSim%Optical_Thickness_Total_LogMean(sunlit(:)) = meanLogTauTotal
244      modisSim%Optical_Thickness_Water_LogMean(sunlit(:)) = meanLogTauLiquid
245      modisSim%Optical_Thickness_Ice_LogMean  (sunlit(:)) = meanLogTauIce
246 
247      modisSim%Cloud_Particle_Size_Water_Mean(sunlit(:)) = meanSizeLiquid
248      modisSim%Cloud_Particle_Size_Ice_Mean  (sunlit(:)) = meanSizeIce
249 
250      modisSim%Cloud_Top_Pressure_Total_Mean(sunlit(:)) = meanCloudTopPressure
251 
252      modisSim%Liquid_Water_Path_Mean(sunlit(:)) = meanLiquidWaterPath
253      modisSim%Ice_Water_Path_Mean   (sunlit(:)) = meanIceWaterPath
254     
255      modisSim%Optical_Thickness_vs_Cloud_Top_Pressure(sunlit(:), 2:numModisTauBins+1, :) = jointHistogram(:, :, :)
256      !
257      ! Reorder pressure bins in joint histogram to go from surface to TOA
258      !
259      modisSim%Optical_Thickness_vs_Cloud_Top_Pressure(:,:,:) = &
260        modisSim%Optical_Thickness_vs_Cloud_Top_Pressure(:, :, numModisPressureBins:1:-1)
261      if(nSunlit < nPoints) then
262        !
263        ! Where it's night and we haven't done the retrievals the values are undefined
264        !
265        modisSim%Cloud_Fraction_Total_Mean(notSunlit(:)) = R_UNDEF
266        modisSim%Cloud_Fraction_Water_Mean(notSunlit(:)) = R_UNDEF
267        modisSim%Cloud_Fraction_Ice_Mean  (notSunlit(:)) = R_UNDEF
268   
269        modisSim%Cloud_Fraction_High_Mean(notSunlit(:)) = R_UNDEF
270        modisSim%Cloud_Fraction_Mid_Mean (notSunlit(:)) = R_UNDEF
271        modisSim%Cloud_Fraction_Low_Mean (notSunlit(:)) = R_UNDEF
272
273        modisSim%Optical_Thickness_Total_Mean(notSunlit(:)) = R_UNDEF
274        modisSim%Optical_Thickness_Water_Mean(notSunlit(:)) = R_UNDEF
275        modisSim%Optical_Thickness_Ice_Mean  (notSunlit(:)) = R_UNDEF
276   
277        modisSim%Optical_Thickness_Total_LogMean(notSunlit(:)) = R_UNDEF
278        modisSim%Optical_Thickness_Water_LogMean(notSunlit(:)) = R_UNDEF
279        modisSim%Optical_Thickness_Ice_LogMean  (notSunlit(:)) = R_UNDEF
280   
281        modisSim%Cloud_Particle_Size_Water_Mean(notSunlit(:)) = R_UNDEF
282        modisSim%Cloud_Particle_Size_Ice_Mean  (notSunlit(:)) = R_UNDEF
283   
284        modisSim%Cloud_Top_Pressure_Total_Mean(notSunlit(:)) = R_UNDEF
285   
286        modisSim%Liquid_Water_Path_Mean(notSunlit(:)) = R_UNDEF
287        modisSim%Ice_Water_Path_Mean   (notSunlit(:)) = R_UNDEF
288 
289        modisSim%Optical_Thickness_vs_Cloud_Top_Pressure(notSunlit(:), :, :) = R_UNDEF
290      end if
291    else
292      !
293      ! It's nightime everywhere - everything is undefined
294      !
295      modisSim%Cloud_Fraction_Total_Mean(:) = R_UNDEF
296      modisSim%Cloud_Fraction_Water_Mean(:) = R_UNDEF
297      modisSim%Cloud_Fraction_Ice_Mean  (:) = R_UNDEF
298 
299      modisSim%Cloud_Fraction_High_Mean(:) = R_UNDEF
300      modisSim%Cloud_Fraction_Mid_Mean (:) = R_UNDEF
301      modisSim%Cloud_Fraction_Low_Mean (:) = R_UNDEF
302
303      modisSim%Optical_Thickness_Total_Mean(:) = R_UNDEF
304      modisSim%Optical_Thickness_Water_Mean(:) = R_UNDEF
305      modisSim%Optical_Thickness_Ice_Mean  (:) = R_UNDEF
306 
307      modisSim%Optical_Thickness_Total_LogMean(:) = R_UNDEF
308      modisSim%Optical_Thickness_Water_LogMean(:) = R_UNDEF
309      modisSim%Optical_Thickness_Ice_LogMean  (:) = R_UNDEF
310 
311      modisSim%Cloud_Particle_Size_Water_Mean(:) = R_UNDEF
312      modisSim%Cloud_Particle_Size_Ice_Mean  (:) = R_UNDEF
313 
314      modisSim%Cloud_Top_Pressure_Total_Mean(:) = R_UNDEF
315 
316      modisSim%Liquid_Water_Path_Mean(:) = R_UNDEF
317      modisSim%Ice_Water_Path_Mean   (:) = R_UNDEF
318 
319      modisSim%Optical_Thickness_vs_Cloud_Top_Pressure(:, :, :) = R_UNDEF
320    end if
321
322  end subroutine COSP_Modis_Simulator
323  !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
324  !------------- SUBROUTINE CONSTRUCT_COSP_MODIS ------------------
325  !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
326  SUBROUTINE CONSTRUCT_COSP_MODIS(cfg, nPoints, x)
327    type(cosp_config), intent(in)  :: cfg ! Configuration options
328    integer,           intent(in)  :: Npoints  ! Number of sampled points
329    type(cosp_MODIS),  intent(out) :: x
330    !
331    ! Allocate minumum storage if simulator not used
332    !
333    if (cfg%LMODIS_sim) then
334      x%nPoints  = nPoints
335    else
336      x%Npoints  = 1
337    endif
338   
339    ! --- Allocate arrays ---
340    allocate(x%Cloud_Fraction_Total_Mean(x%nPoints))
341    allocate(x%Cloud_Fraction_Water_Mean(x%nPoints))
342    allocate(x%Cloud_Fraction_Ice_Mean(x%nPoints))
343   
344    allocate(x%Cloud_Fraction_High_Mean(x%nPoints))
345    allocate(x%Cloud_Fraction_Mid_Mean(x%nPoints))
346    allocate(x%Cloud_Fraction_Low_Mean(x%nPoints))
347   
348    allocate(x%Optical_Thickness_Total_Mean(x%nPoints))
349    allocate(x%Optical_Thickness_Water_Mean(x%nPoints))
350    allocate(x%Optical_Thickness_Ice_Mean(x%nPoints))
351   
352    allocate(x%Optical_Thickness_Total_LogMean(x%nPoints))
353    allocate(x%Optical_Thickness_Water_LogMean(x%nPoints))
354    allocate(x%Optical_Thickness_Ice_LogMean(x%nPoints))
355   
356    allocate(x%Cloud_Particle_Size_Water_Mean(x%nPoints))
357    allocate(x%Cloud_Particle_Size_Ice_Mean(x%nPoints))
358   
359    allocate(x%Cloud_Top_Pressure_Total_Mean(x%nPoints))
360   
361    allocate(x%Liquid_Water_Path_Mean(x%nPoints))
362    allocate(x%Ice_Water_Path_Mean(x%nPoints))
363     
364    allocate(x%Optical_Thickness_vs_Cloud_Top_Pressure(nPoints, numModisTauBins+1, numModisPressureBins))
365    x%Optical_Thickness_vs_Cloud_Top_Pressure(:, :, :) = R_UNDEF
366  END SUBROUTINE CONSTRUCT_COSP_MODIS
367
368  !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
369  !------------- SUBROUTINE FREE_COSP_MODIS -----------------------
370  !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
371  SUBROUTINE FREE_COSP_MODIS(x)
372    type(cosp_MODIS),intent(inout) :: x
373    !
374    ! Free space used by cosp_modis variable.
375    !
376   
377    if(associated(x%Cloud_Fraction_Total_Mean)) deallocate(x%Cloud_Fraction_Total_Mean)
378    if(associated(x%Cloud_Fraction_Water_Mean)) deallocate(x%Cloud_Fraction_Water_Mean)
379    if(associated(x%Cloud_Fraction_Ice_Mean  )) deallocate(x%Cloud_Fraction_Ice_Mean)
380   
381    if(associated(x%Cloud_Fraction_High_Mean)) deallocate(x%Cloud_Fraction_High_Mean)
382    if(associated(x%Cloud_Fraction_Mid_Mean )) deallocate(x%Cloud_Fraction_Mid_Mean)
383    if(associated(x%Cloud_Fraction_Low_Mean )) deallocate(x%Cloud_Fraction_Low_Mean)
384   
385    if(associated(x%Optical_Thickness_Total_Mean)) deallocate(x%Optical_Thickness_Total_Mean)
386    if(associated(x%Optical_Thickness_Water_Mean)) deallocate(x%Optical_Thickness_Water_Mean)
387    if(associated(x%Optical_Thickness_Ice_Mean  )) deallocate(x%Optical_Thickness_Ice_Mean)
388   
389    if(associated(x%Optical_Thickness_Total_LogMean)) deallocate(x%Optical_Thickness_Total_LogMean)
390    if(associated(x%Optical_Thickness_Water_LogMean)) deallocate(x%Optical_Thickness_Water_LogMean)
391    if(associated(x%Optical_Thickness_Ice_LogMean  )) deallocate(x%Optical_Thickness_Ice_LogMean)
392   
393    if(associated(x%Cloud_Particle_Size_Water_Mean)) deallocate(x%Cloud_Particle_Size_Water_Mean)
394    if(associated(x%Cloud_Particle_Size_Ice_Mean  )) deallocate(x%Cloud_Particle_Size_Ice_Mean)
395   
396    if(associated(x%Cloud_Top_Pressure_Total_Mean )) deallocate(x%Cloud_Top_Pressure_Total_Mean   )
397   
398    if(associated(x%Liquid_Water_Path_Mean)) deallocate(x%Liquid_Water_Path_Mean   )
399    if(associated(x%Ice_Water_Path_Mean   )) deallocate(x%Ice_Water_Path_Mean   )
400   
401    if(associated(x%Optical_Thickness_vs_Cloud_Top_Pressure)) deallocate(x%Optical_Thickness_vs_Cloud_Top_Pressure   )
402  END SUBROUTINE FREE_COSP_MODIS
403  ! -----------------------------------------------------
404
405  !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
406  !------------- SUBROUTINE COSP_MODIS_CPSECTION -----------------
407  !%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
408  SUBROUTINE COSP_MODIS_CPSECTION(ix, iy, orig, copy)
409    integer, dimension(2), intent(in) :: ix, iy
410    type(cosp_modis),      intent(in   ) :: orig
411    type(cosp_modis),      intent(  out) :: copy
412    !
413    ! Copy a set of grid points from one cosp_modis variable to another.
414    !   Should test to be sure ix and iy refer to the same number of grid points
415    !
416    integer :: orig_start, orig_end, copy_start, copy_end
417   
418    orig_start = ix(1); orig_end = ix(2)
419    copy_start = iy(1); copy_end = iy(2)
420   
421    copy%Cloud_Fraction_Total_Mean(copy_start:copy_end) = orig%Cloud_Fraction_Total_Mean(orig_start:orig_end)
422    copy%Cloud_Fraction_Water_Mean(copy_start:copy_end) = orig%Cloud_Fraction_Water_Mean(orig_start:orig_end)
423    copy%Cloud_Fraction_Ice_Mean  (copy_start:copy_end) = orig%Cloud_Fraction_Ice_Mean  (orig_start:orig_end)
424   
425    copy%Cloud_Fraction_High_Mean(copy_start:copy_end) = orig%Cloud_Fraction_High_Mean(orig_start:orig_end)
426    copy%Cloud_Fraction_Mid_Mean (copy_start:copy_end) = orig%Cloud_Fraction_Mid_Mean (orig_start:orig_end)
427    copy%Cloud_Fraction_Low_Mean (copy_start:copy_end) = orig%Cloud_Fraction_Low_Mean (orig_start:orig_end)
428   
429    copy%Optical_Thickness_Total_Mean(copy_start:copy_end) = orig%Optical_Thickness_Total_Mean(orig_start:orig_end)
430    copy%Optical_Thickness_Water_Mean(copy_start:copy_end) = orig%Optical_Thickness_Water_Mean(orig_start:orig_end)
431    copy%Optical_Thickness_Ice_Mean  (copy_start:copy_end) = orig%Optical_Thickness_Ice_Mean  (orig_start:orig_end)
432   
433    copy%Optical_Thickness_Total_LogMean(copy_start:copy_end) = &
434                                                          orig%Optical_Thickness_Total_LogMean(orig_start:orig_end)
435    copy%Optical_Thickness_Water_LogMean(copy_start:copy_end) = &
436                                                          orig%Optical_Thickness_Water_LogMean(orig_start:orig_end)
437    copy%Optical_Thickness_Ice_LogMean  (copy_start:copy_end) = &
438                                                          orig%Optical_Thickness_Ice_LogMean  (orig_start:orig_end)
439
440    copy%Cloud_Particle_Size_Water_Mean(copy_start:copy_end) = orig%Cloud_Particle_Size_Water_Mean(orig_start:orig_end)
441    copy%Cloud_Particle_Size_Ice_Mean  (copy_start:copy_end) = orig%Cloud_Particle_Size_Ice_Mean  (orig_start:orig_end)
442
443    copy%Cloud_Top_Pressure_Total_Mean(copy_start:copy_end) = orig%Cloud_Top_Pressure_Total_Mean(orig_start:orig_end)
444   
445    copy%Liquid_Water_Path_Mean(copy_start:copy_end) = orig%Liquid_Water_Path_Mean(orig_start:orig_end)
446    copy%Ice_Water_Path_Mean   (copy_start:copy_end) = orig%Ice_Water_Path_Mean  (orig_start:orig_end)
447   
448    copy%Optical_Thickness_vs_Cloud_Top_Pressure(copy_start:copy_end, :, :) = &
449                          orig%Optical_Thickness_vs_Cloud_Top_Pressure(orig_start:orig_end, :, :)
450  END SUBROUTINE COSP_MODIS_CPSECTION
451  ! -----------------------------------------------------
452
453END MODULE MOD_COSP_Modis_Simulator
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