source: LMDZ6/trunk/libf/dyn3d_common/extrapol.f90 @ 5456

Last change on this file since 5456 was 5246, checked in by abarral, 2 months ago

Convert fixed-form to free-form sources .F -> .{f,F}90
(WIP: some .F remain, will be handled in subsequent commits)

  • Property copyright set to
    Name of program: LMDZ
    Creation date: 1984
    Version: LMDZ5
    License: CeCILL version 2
    Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
    See the license file in the root directory
  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 4.6 KB
RevLine 
[524]1!
[1403]2! $Id: extrapol.f90 5246 2024-10-21 12:58:45Z aborella $
[524]3!
[5246]4!
5!
6SUBROUTINE extrapol (pfild, kxlon, kylat, pmask, &
7        norsud, ldper, knbor, pwork)
8  IMPLICIT none
9  !
10  ! OASIS routine (Adaptation: Laurent Li, le 14 mars 1997)
11  ! Fill up missed values by using the neighbor points
12  !
13  INTEGER :: kxlon, kylat ! longitude and latitude dimensions (Input)
14  INTEGER :: knbor ! minimum neighbor number (Input)
15  LOGICAL :: norsud ! True if field is from North to South (Input)
16  LOGICAL :: ldper ! True if take into account the periodicity (Input)
17  REAL :: pmask ! mask value (Input)
18  REAL :: pfild(kxlon,kylat) ! field to be extrapolated (Input/Output)
19  REAL :: pwork(kxlon,kylat) ! working space
20  !
21  REAL :: zwmsk
22  INTEGER :: incre, idoit, i, j, k, inbor, ideb, ifin, ilon, jlat
23  INTEGER :: ix(9), jy(9) ! index arrays for the neighbors coordinates
24  REAL :: zmask(9)
25  !
26  !  We search over the eight closest neighbors
27  !
28  !        j+1  7  8  9
29  !          j  4  5  6    Current point 5 --> (i,j)
30  !        j-1  1  2  3
31  !            i-1 i i+1
32  !
33  !
34  IF (norsud) THEN
35     DO j = 1, kylat
36     DO i = 1, kxlon
37        pwork(i,j) = pfild(i,kylat-j+1)
38     ENDDO
39     ENDDO
40     DO j = 1, kylat
41     DO i = 1, kxlon
42        pfild(i,j) = pwork(i,j)
43     ENDDO
44     ENDDO
45  ENDIF
46  !
47  incre = 0
48  !
49  DO j = 1, kylat
50  DO i = 1, kxlon
51     pwork(i,j) = pfild(i,j)
52  ENDDO
53  ENDDO
54  !
55  !* To avoid problems in floating point tests
56  zwmsk = pmask - 1.0
57  !
[524]58200   CONTINUE
[5246]59  incre = incre + 1
60  DO j = 1, kylat
61  DO i = 1, kxlon
62  IF (pfild(i,j).GT. zwmsk) THEN
63     pwork(i,j) = pfild(i,j)
64     inbor = 0
65     ideb = 1
66     ifin = 9
67  !
68  !* Fill up ix array
69     ix(1) = MAX (1,i-1)
70     ix(2) = i
71     ix(3) = MIN (kxlon,i+1)
72     ix(4) = MAX (1,i-1)
73     ix(5) = i
74     ix(6) = MIN (kxlon,i+1)
75     ix(7) = MAX (1,i-1)
76     ix(8) = i
77     ix(9) = MIN (kxlon,i+1)
78  !
79  !* Fill up iy array
80     jy(1) = MAX (1,j-1)
81     jy(2) = MAX (1,j-1)
82     jy(3) = MAX (1,j-1)
83     jy(4) = j
84     jy(5) = j
85     jy(6) = j
86     jy(7) = MIN (kylat,j+1)
87     jy(8) = MIN (kylat,j+1)
88     jy(9) = MIN (kylat,j+1)
89  !
90  !* Correct latitude bounds if southernmost or northernmost points
91     IF (j .EQ. 1) ideb = 4
92     IF (j .EQ. kylat) ifin = 6
93  !
94  !* Account for periodicity in longitude
95  !
96     IF (ldper) THEN
97        IF (i .EQ. kxlon) THEN
98           ix(3) = 1
99           ix(6) = 1
100           ix(9) = 1
101        ELSE IF (i .EQ. 1) THEN
102           ix(1) = kxlon
103           ix(4) = kxlon
104           ix(7) = kxlon
105        ENDIF
106     ELSE
107        IF (i .EQ. 1) THEN
108           ix(1) = i
109           ix(2) = i + 1
110           ix(3) = i
111           ix(4) = i + 1
112           ix(5) = i
113           ix(6) = i + 1
114        ENDIF
115        IF (i .EQ. kxlon) THEN
116           ix(1) = i -1
117           ix(2) = i
118           ix(3) = i - 1
119           ix(4) = i
120           ix(5) = i - 1
121           ix(6) = i
122        ENDIF
123  !
124        IF (i .EQ. 1 .OR. i .EQ. kxlon) THEN
125           jy(1) = MAX (1,j-1)
126           jy(2) = MAX (1,j-1)
127           jy(3) = j
128           jy(4) = j
129           jy(5) = MIN (kylat,j+1)
130           jy(6) = MIN (kylat,j+1)
131  !
132           ideb = 1
133           ifin = 6
134           IF (j .EQ. 1) ideb = 3
135           IF (j .EQ. kylat) ifin = 4
136        ENDIF
137     ENDIF ! end for ldper test
138  !
139  !* Find unmasked neighbors
140  !
141     DO k = ideb, ifin
142        zmask(k) = 0.
143        ilon = ix(k)
144        jlat = jy(k)
145        IF (pfild(ilon,jlat) .LT. zwmsk) THEN
146           zmask(k) = 1.
147           inbor = inbor + 1
148        ENDIF
149     END DO
150  !
151  !* Not enough points around point P are unmasked; interpolation on P
152  !  will be done in a future call to extrap.
153  !
154     IF (inbor .GE. knbor) THEN
155        pwork(i,j) = 0.
156        DO k = ideb, ifin
157           ilon = ix(k)
158           jlat = jy(k)
159           pwork(i,j) = pwork(i,j) &
160                 + pfild(ilon,jlat) * zmask(k)/ REAL(inbor)
161        ENDDO
162     ENDIF
163  !
164  ENDIF
165  END DO
166  END DO
167  !
168  !*    3. Writing back unmasked field in pfild
169  !    ------------------------------------
170  !
171  !* pfild then contains:
172  ! - Values which were not masked
173  ! - Interpolated values from the inbor neighbors
174  ! - Values which are not yet interpolated
175  !
176  idoit = 0
177  DO j = 1, kylat
178  DO i = 1, kxlon
179     IF (pwork(i,j) .GT. zwmsk) idoit = idoit + 1
180     pfild(i,j) = pwork(i,j)
181  ENDDO
182  ENDDO
183  !
184  IF (idoit .ne. 0) GOTO 200
185  !cc      PRINT*, "Number of extrapolation steps incre =", incre
186  !
187  IF (norsud) THEN
188     DO j = 1, kylat
189     DO i = 1, kxlon
190        pwork(i,j) = pfild(i,kylat-j+1)
191     ENDDO
192     ENDDO
193     DO j = 1, kylat
194     DO i = 1, kxlon
195        pfild(i,j) = pwork(i,j)
196     ENDDO
197     ENDDO
198  ENDIF
199  !
200  RETURN
201END SUBROUTINE extrapol
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