5 |
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6 |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
7 |
|
|
8 |
SUBROUTINE MNC_CW_RX_WRITES_YY( |
SUBROUTINE MNC_CW_RX_W_YY( |
9 |
I myThid, |
I myThid, |
10 |
I fbname, bi,bj, |
I fbname, bi,bj, |
11 |
I vtype, |
I vtype, |
30 |
integer IFNBLNK, ILNBLNK |
integer IFNBLNK, ILNBLNK |
31 |
|
|
32 |
C Local Variables |
C Local Variables |
33 |
integer i,j, indv,nvf,nvl, n1,n2, igrid, ntot |
integer i,j,k, indv,nvf,nvl, n1,n2, igrid, ntot |
34 |
integer bis,bie, bjs,bje, uniq_tnum, nfname, fid, idv, indvids |
integer bis,bie, bjs,bje, uniq_tnum, nfname, fid, idv, indvids |
35 |
integer ndim, indf, err, lbi,lbj |
integer ndim, indf, err, lbi,lbj, bidim,bjdim, unlim_sz, kr |
36 |
integer p(9),s(9),e(9), dimnc(9), vstart(9),vcount(9), kr |
integer p(9),s(9),e(9), dimnc(9), vstart(9),vcount(9), udo(9) |
37 |
integer j1,j2,j3,j4,j5, k1,k2,k3,k4,k5 |
integer j1,j2,j3,j4,j5,j6,j7, k1,k2,k3,k4,k5,k6,k7 |
38 |
character*(MAX_LEN_MBUF) msgbuf |
character*(MAX_LEN_MBUF) msgbuf |
39 |
character*(MNC_MAX_CHAR) fname |
character*(MNC_MAX_CHAR) fname |
40 |
|
|
62 |
ENDIF |
ENDIF |
63 |
igrid = mnc_cw_vgind(indv) |
igrid = mnc_cw_vgind(indv) |
64 |
|
|
65 |
|
C |
66 |
bis = bi |
bis = bi |
67 |
bie = bi |
bie = bi |
68 |
IF (bi .LT. 1) THEN |
IF (bi .LT. 1) THEN |
79 |
DO lbj = bjs,bje |
DO lbj = bjs,bje |
80 |
DO lbi = bis,bie |
DO lbi = bis,bie |
81 |
|
|
82 |
|
write(*,*) 'lbi,lbj = ',lbi,lbj, ' ', vtype(nvf:nvl) |
83 |
|
|
84 |
C Create the file name |
C Create the file name |
85 |
CALL MNC_CW_GET_TILE_NUM(myThid, lbi,lbj, uniq_tnum) |
CALL MNC_CW_GET_TILE_NUM(myThid, lbi,lbj, uniq_tnum) |
86 |
fname(1:MNC_MAX_CHAR) = mnc_blank_name(1:MNC_MAX_CHAR) |
fname(1:MNC_MAX_CHAR) = mnc_blank_name(1:MNC_MAX_CHAR) |
97 |
CALL MNC_CW_FILE_AORC(myThid, fname, indf) |
CALL MNC_CW_FILE_AORC(myThid, fname, indf) |
98 |
fid = mnc_f_info(indf,2) |
fid = mnc_f_info(indf,2) |
99 |
|
|
100 |
C Ensure that all the NetCDF dims are defined and create a local |
C Ensure that all the NetCDF dimensions are defined and create a |
101 |
C copy |
C local copy of them |
102 |
DO i = 1,9 |
DO i = 1,9 |
103 |
dimnc(i) = 1 |
dimnc(i) = 1 |
104 |
ENDDO |
ENDDO |
105 |
DO i = 1,mnc_cw_ndim(igrid) |
DO i = 1,mnc_cw_ndim(igrid) |
106 |
dimnc(i) = mnc_cw_ie(i,igrid) - mnc_cw_is(i,igrid) + 1 |
IF (mnc_cw_dims(i,igrid) .EQ. -1) THEN |
107 |
|
dimnc(i) = -1 |
108 |
|
ELSE |
109 |
|
dimnc(i) = mnc_cw_ie(i,igrid) - mnc_cw_is(i,igrid) + 1 |
110 |
|
ENDIF |
111 |
CALL MNC_DIM_INIT(myThid,fname, |
CALL MNC_DIM_INIT(myThid,fname, |
112 |
& mnc_cw_dn(i,igrid), dimnc(i) ) |
& mnc_cw_dn(i,igrid), dimnc(i) ) |
113 |
ENDDO |
ENDDO |
138 |
stop 'ABNORMAL END: package MNC' |
stop 'ABNORMAL END: package MNC' |
139 |
10 CONTINUE |
10 CONTINUE |
140 |
|
|
141 |
|
C Check for bi,bj indicies |
142 |
|
bidim = mnc_cw_vbij(1,indv) |
143 |
|
bjdim = mnc_cw_vbij(2,indv) |
144 |
|
|
145 |
C Set the dimensions for the in-memory array |
C Set the dimensions for the in-memory array |
146 |
ndim = mnc_cw_ndim(igrid) |
ndim = mnc_cw_ndim(igrid) |
147 |
p(1) = mnc_cw_dims(1,igrid) |
k = mnc_cw_dims(1,igrid) |
148 |
|
IF (k .GT. 0) THEN |
149 |
|
p(1) = k |
150 |
|
ELSE |
151 |
|
p(1) = 1 |
152 |
|
ENDIF |
153 |
DO i = 2,9 |
DO i = 2,9 |
154 |
p(i) = mnc_cw_dims(i,igrid) * p(i-1) |
k = mnc_cw_dims(i,igrid) |
155 |
|
IF (k .LT. 1) THEN |
156 |
|
k = 1 |
157 |
|
ENDIF |
158 |
|
IF ((bidim .GT. 0) .AND. (i .EQ. bidim)) THEN |
159 |
|
p(i) = nSx * p(i-1) |
160 |
|
ELSEIF ((bjdim .GT. 0) .AND. (i .EQ. bjdim)) THEN |
161 |
|
p(i) = nSy * p(i-1) |
162 |
|
ELSE |
163 |
|
p(i) = k * p(i-1) |
164 |
|
ENDIF |
165 |
ENDDO |
ENDDO |
166 |
|
|
167 |
C Set the starting and ending indicies |
C Set starting and ending indicies for the in-memory array and |
168 |
|
C the unlimited dimension offset for the NetCDF array |
169 |
DO i = 1,9 |
DO i = 1,9 |
170 |
IF (i .GT. ndim) THEN |
udo(i) = 0 |
171 |
s(i) = 1 |
s(i) = 1 |
172 |
e(i) = 1 |
e(i) = 1 |
173 |
ELSE |
IF (i .LE. ndim) THEN |
174 |
IF ((i .EQ. ndim) |
s(i) = mnc_cw_is(i,igrid) |
175 |
& .AND. (mnc_cw_dims(i,igrid) .EQ. -1)) THEN |
e(i) = mnc_cw_ie(i,igrid) |
176 |
s(i) = indu |
ENDIF |
177 |
e(i) = indu |
C Check for the unlimited dimension |
178 |
|
IF ((i .EQ. ndim) |
179 |
|
& .AND. (mnc_cw_dims(i,igrid) .EQ. -1)) THEN |
180 |
|
IF (indu .GT. 0) THEN |
181 |
|
C Use the indu value |
182 |
|
udo(i) = indu - 1 |
183 |
|
ELSEIF (indu .EQ. -1) THEN |
184 |
|
C Append one to the current unlimited dim size |
185 |
|
CALL MNC_DIM_UNLIM_SIZE(myThid, fname, unlim_sz) |
186 |
|
udo(i) = unlim_sz |
187 |
ELSE |
ELSE |
188 |
s(i) = mnc_cw_is(i,igrid) |
C Use the current unlimited dim size |
189 |
e(i) = mnc_cw_ie(i,igrid) |
CALL MNC_DIM_UNLIM_SIZE(myThid, fname, unlim_sz) |
190 |
|
udo(i) = unlim_sz - 1 |
191 |
ENDIF |
ENDIF |
192 |
ENDIF |
ENDIF |
193 |
ENDDO |
ENDDO |
194 |
|
IF (bidim .GT. 0) THEN |
195 |
|
s(bidim) = lbi |
196 |
|
e(bidim) = lbi |
197 |
|
ENDIF |
198 |
|
IF (bjdim .GT. 0) THEN |
199 |
|
s(bjdim) = lbj |
200 |
|
e(bjdim) = lbj |
201 |
|
ENDIF |
202 |
|
CEH3 DO i = 1,7 |
203 |
|
CEH3 write(*,*) 'i,s(i),e(i) = ', i,s(i),e(i) |
204 |
|
CEH3 ENDDO |
205 |
|
|
206 |
|
C Add the global attributes |
207 |
|
CALL MNC_CW_SET_GATTR(myThid, fname, lbi,lbj, uniq_tnum) |
208 |
|
|
209 |
|
C Add the per-variable attributes |
210 |
|
DO i = 1,mnc_cw_vnat(1,indv) |
211 |
|
CALL MNC_VAR_ADD_ATTR_STR(myThid, fname, vtype, |
212 |
|
& mnc_cw_vtnm(i,indv), mnc_cw_vtat(i,indv)) |
213 |
|
ENDDO |
214 |
|
DO i = 1,mnc_cw_vnat(2,indv) |
215 |
|
CALL MNC_VAR_ADD_ATTR_INT(myThid, fname, vtype, |
216 |
|
& mnc_cw_vinm(i,indv), 1, mnc_cw_viat(i,indv)) |
217 |
|
ENDDO |
218 |
|
DO i = 1,mnc_cw_vnat(3,indv) |
219 |
|
CALL MNC_VAR_ADD_ATTR_DBL(myThid, fname, vtype, |
220 |
|
& mnc_cw_vdnm(i,indv), 1, mnc_cw_vdat(i,indv)) |
221 |
|
ENDDO |
222 |
|
|
223 |
CALL MNC_FILE_ENDDEF(myThid,fname) |
CALL MNC_FILE_ENDDEF(myThid,fname) |
224 |
|
|
225 |
C Write the variable one vector at a time |
C Write the variable one vector at a time |
226 |
DO j5 = s(5),e(5) |
DO j7 = s(7),e(7) |
227 |
k5 = (j5 - s(5))*p(4) |
k7 = (j7 - s(7))*p(6) |
228 |
vstart(5) = j5 - s(5) + 1 |
vstart(7) = udo(7) + j7 - s(7) + 1 |
229 |
vcount(5) = 1 |
vcount(7) = 1 |
230 |
DO j4 = s(4),e(4) |
DO j6 = s(6),e(6) |
231 |
k4 = (j4 - s(4))*p(3) + k5 |
k6 = (j6 - s(6))*p(5) + k7 |
232 |
vstart(4) = j4 - s(4) + 1 |
vstart(6) = udo(6) + j6 - s(6) + 1 |
233 |
vcount(4) = 1 |
vcount(6) = 1 |
234 |
DO j3 = s(3),e(3) |
DO j5 = s(5),e(5) |
235 |
k3 = (j3 - s(3))*p(2) + k4 |
k5 = (j5 - s(5))*p(4) + k6 |
236 |
vstart(3) = j3 - s(3) + 1 |
vstart(5) = udo(5) + j5 - s(5) + 1 |
237 |
vcount(3) = 1 |
vcount(5) = 1 |
238 |
DO j2 = s(2),e(2) |
DO j4 = s(4),e(4) |
239 |
k2 = (j2 - s(2))*p(1) + k3 |
k4 = (j4 - s(4))*p(3) + k5 |
240 |
vstart(2) = j2 - s(2) + 1 |
vstart(4) = udo(4) + j4 - s(4) + 1 |
241 |
vcount(2) = 1 |
vcount(4) = 1 |
242 |
|
DO j3 = s(3),e(3) |
243 |
kr = 0 |
k3 = (j3 - s(3))*p(2) + k4 |
244 |
DO j1 = s(1),e(1) |
vstart(3) = udo(3) + j3 - s(3) + 1 |
245 |
k1 = k2 + j1 |
vcount(3) = 1 |
246 |
kr = kr + 1 |
DO j2 = s(2),e(2) |
247 |
resh(kr) = var(k1) |
k2 = (j2 - s(2))*p(1) + k3 |
248 |
ENDDO |
vstart(2) = udo(2) + j2 - s(2) + 1 |
249 |
|
vcount(2) = 1 |
250 |
|
|
251 |
vstart(1) = 1 |
CEH3 write(*,*) 's/e: ', k2+s(1), k2+e(1) |
252 |
vcount(1) = e(1) - s(1) + 1 |
|
253 |
|
kr = 0 |
254 |
CEH3 write(*,*) ' # ', j2,j3,j4,j5, ' # ', |
DO j1 = s(1),e(1) |
255 |
CEH3 & (vstart(i),vcount(i),i=1,5) |
k1 = k2 + j1 |
256 |
|
kr = kr + 1 |
257 |
|
resh(kr) = var(k1) |
258 |
|
ENDDO |
259 |
|
|
260 |
|
vstart(1) = udo(1) + 1 |
261 |
|
vcount(1) = e(1) - s(1) + 1 |
262 |
|
|
263 |
#ifdef mnc_rtype_D |
#ifdef mnc_rtype_D |
264 |
err = NF_PUT_VARA_DOUBLE(fid, idv, vstart, vcount, resh) |
err = NF_PUT_VARA_DOUBLE(fid, idv, vstart, vcount, resh) |
267 |
err = NF_PUT_VARA_REAL(fid, idv, vstart, vcount, resh) |
err = NF_PUT_VARA_REAL(fid, idv, vstart, vcount, resh) |
268 |
#endif |
#endif |
269 |
|
|
270 |
|
ENDDO |
271 |
|
ENDDO |
272 |
ENDDO |
ENDDO |
273 |
ENDDO |
ENDDO |
274 |
ENDDO |
ENDDO |