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sint.F @ 1

Last change on this file since 1 was 1, checked in by lfita, 10 years ago

-- --- Opening of the WRF+LMDZ coupling repository --- -- -

WRF: version v3.3
LMDZ: version v1818

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File size: 19.9 KB

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1
2	SUBROUTINE SINT(XF, &
3	ims, ime, jms, jme, icmask , &
4	its, ite, jts, jte, nf, xstag, ystag )
5	IMPLICIT NONE
6	INTEGER ims, ime, jms, jme, &
7	its, ite, jts, jte
8
9	LOGICAL icmask( ims:ime, jms:jme )
10	LOGICAL xstag, ystag
11
12	INTEGER nf, ior
13	REAL one12, one24, ep
14	PARAMETER(one12=1./12.,one24=1./24.)
15	PARAMETER(ior=2)
16	!
17	REAL XF(ims:ime,jms:jme,NF)
18	!
19	REAL Y(ims:ime,jms:jme,-IOR:IOR), &
20	Z(ims:ime,jms:jme,-IOR:IOR), &
21	F(ims:ime,jms:jme,0:1)
22	!
23	INTEGER I,J,II,JJ,IIM
24	INTEGER N2STAR, N2END, N1STAR, N1END
25	!
26	DATA EP/ 1.E-10/
27
28	REAL W(ims:ime,jms:jme),OV(ims:ime,jms:jme),UN(ims:ime,jms:jme)
29	REAL MXM(ims:ime,jms:jme),MN(ims:ime,jms:jme)
30	REAL FL(ims:ime,jms:jme,0:1)
31	REAL XIG(NFNF), XJG(NFNF) ! NF is parent to child grid refinement ratio
32	integer rr
33
34	REAL rioff, rjoff
35	!
36	REAL donor, y1, y2, a
37	DONOR(Y1,Y2,A)=(Y1AMAX1(0.,SIGN(1.,A))-Y2AMIN1(0.,SIGN(1.,A)))*A
38	REAL tr4, ym1, y0, yp1, yp2
39	TR4(YM1,Y0,YP1,YP2,A)=AONE12(7.*(YP1+Y0)-(YP2+YM1)) &
40	-AAONE24(15.(YP1-Y0)-(YP2-YM1))-AAAONE12((YP1+Y0) &
41	-(YP2+YM1))+AAAAONE24(3.(YP1-Y0)-(YP2-YM1))
42	REAL pp, pn, x
43	PP(X)=AMAX1(0.,X)
44	PN(X)=AMIN1(0.,X)
45
46	rr = nint(sqrt(float(nf)))
47	!! write(6,*) ' nf, rr are ',nf,rr
48
49	rioff = 0
50	rjoff = 0
51	if(xstag .and. (mod(rr,2) .eq. 0)) rioff = 1.
52	if(ystag .and. (mod(rr,2) .eq. 0)) rjoff = 1.
53
54	DO I=1,rr
55	DO J=1,rr
56	XIG(J+(I-1)rr)=(float(rr)-1.-rioff)/float(2rr)-FLOAT(J-1)*1./float(rr)
57	XJG(J+(I-1)rr)=(float(rr)-1.-rjoff)/float(2rr)-FLOAT(I-1)*1./float(rr)
58	ENDDO
59	ENDDO
60
61	N2STAR = jts
62	N2END = jte
63	N1STAR = its
64	N1END = ite
65
66	DO 2000 IIM=1,NF
67	!
68	! HERE STARTS RESIDUAL ADVECTION
69	!
70	DO 9000 JJ=N2STAR,N2END
71	DO 50 J=-IOR,IOR
72
73	DO 51 I=-IOR,IOR
74	DO 511 II=N1STAR,N1END
75	IF ( icmask(II,JJ) ) Y(II,JJ,I)=XF(II+I,JJ+J,IIM)
76	511 CONTINUE
77	51 CONTINUE
78
79	DO 811 II=N1STAR,N1END
80	IF ( icmask(II,JJ) ) THEN
81	FL(II,JJ,0)=DONOR(Y(II,JJ,-1),Y(II,JJ,0),XIG(IIM))
82	FL(II,JJ,1)=DONOR(Y(II,JJ,0),Y(II,JJ,1),XIG(IIM))
83	ENDIF
84	811 CONTINUE
85	DO 812 II=N1STAR,N1END
86	IF ( icmask(II,JJ) ) W(II,JJ)=Y(II,JJ,0)-(FL(II,JJ,1)-FL(II,JJ,0))
87	812 CONTINUE
88	DO 813 II=N1STAR,N1END
89	IF ( icmask(II,JJ) ) THEN
90	MXM(II,JJ)= &
91	AMAX1(Y(II,JJ,-1),Y(II,JJ,0),Y(II,JJ,1), &
92	W(II,JJ))
93	MN(II,JJ)=AMIN1(Y(II,JJ,-1),Y(II,JJ,0),Y(II,JJ,1),W(II,JJ))
94	ENDIF
95	813 CONTINUE
96	DO 312 II=N1STAR,N1END
97	IF ( icmask(II,JJ) ) THEN
98	F(II,JJ,0)= &
99	TR4(Y(II,JJ,-2),Y(II,JJ,-1),Y(II,JJ,0), &
100	Y(II,JJ,1),XIG(IIM))
101	F(II,JJ,1)= &
102	TR4(Y(II,JJ,-1),Y(II,JJ,0),Y(II,JJ,1),Y(II,JJ,2),&
103	XIG(IIM))
104	ENDIF
105	312 CONTINUE
106	DO 822 II=N1STAR,N1END
107	IF ( icmask(II,JJ) ) THEN
108	F(II,JJ,0)=F(II,JJ,0)-FL(II,JJ,0)
109	F(II,JJ,1)=F(II,JJ,1)-FL(II,JJ,1)
110	ENDIF
111	822 CONTINUE
112	DO 823 II=N1STAR,N1END
113	IF ( icmask(II,JJ) ) THEN
114	OV(II,JJ)=(MXM(II,JJ)-W(II,JJ))/(-PN(F(II,JJ,1))+ &
115	PP(F(II,JJ,0))+EP)
116	UN(II,JJ)=(W(II,JJ)-MN(II,JJ))/(PP(F(II,JJ,1))- &
117	PN(F(II,JJ,0))+EP)
118	ENDIF
119	823 CONTINUE
120	DO 824 II=N1STAR,N1END
121	IF ( icmask(II,JJ) ) THEN
122	F(II,JJ,0)=PP(F(II,JJ,0))*AMIN1(1.,OV(II,JJ))+ &
123	PN(F(II,JJ,0))*AMIN1(1.,UN(II,JJ))
124	F(II,JJ,1)=PP(F(II,JJ,1))*AMIN1(1.,UN(II,JJ))+ &
125	PN(F(II,JJ,1))*AMIN1(1.,OV(II,JJ))
126	ENDIF
127	824 CONTINUE
128	DO 825 II=N1STAR,N1END
129	IF ( icmask(II,JJ) ) THEN
130	Y(II,JJ,0)=W(II,JJ)-(F(II,JJ,1)-F(II,JJ,0))
131	ENDIF
132	825 CONTINUE
133	DO 361 II=N1STAR,N1END
134	IF ( icmask(II,JJ) ) Z(II,JJ,J)=Y(II,JJ,0)
135	361 CONTINUE
136	!
137	! END IF FIRST J LOOP
138	!
139	8000 CONTINUE
140	50 CONTINUE
141
142	DO 911 II=N1STAR,N1END
143	IF ( icmask(II,JJ) ) THEN
144	FL(II,JJ,0)=DONOR(Z(II,JJ,-1),Z(II,JJ,0),XJG(IIM))
145	FL(II,JJ,1)=DONOR(Z(II,JJ,0),Z(II,JJ,1),XJG(IIM))
146	ENDIF
147	911 CONTINUE
148	DO 912 II=N1STAR,N1END
149	IF ( icmask(II,JJ) ) W(II,JJ)=Z(II,JJ,0)-(FL(II,JJ,1)-FL(II,JJ,0))
150	912 CONTINUE
151	DO 913 II=N1STAR,N1END
152	IF ( icmask(II,JJ) ) THEN
153	MXM(II,JJ)=AMAX1(Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1),W(II,JJ))
154	MN(II,JJ)=AMIN1(Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1),W(II,JJ))
155	ENDIF
156	913 CONTINUE
157	DO 412 II=N1STAR,N1END
158	IF ( icmask(II,JJ) ) THEN
159	F(II,JJ,0)= &
160	TR4(Z(II,JJ,-2),Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1)&
161	,XJG(IIM))
162	F(II,JJ,1)= &
163	TR4(Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1),Z(II,JJ,2), &
164	XJG(IIM))
165	ENDIF
166	412 CONTINUE
167	DO 922 II=N1STAR,N1END
168	IF ( icmask(II,JJ) ) THEN
169	F(II,JJ,0)=F(II,JJ,0)-FL(II,JJ,0)
170	F(II,JJ,1)=F(II,JJ,1)-FL(II,JJ,1)
171	ENDIF
172	922 CONTINUE
173	DO 923 II=N1STAR,N1END
174	IF ( icmask(II,JJ) ) THEN
175	OV(II,JJ)=(MXM(II,JJ)-W(II,JJ))/(-PN(F(II,JJ,1))+ &
176	PP(F(II,JJ,0))+EP)
177	UN(II,JJ)=(W(II,JJ)-MN(II,JJ))/(PP(F(II,JJ,1))-PN(F(II,JJ,0))+ &
178	EP)
179	ENDIF
180	923 CONTINUE
181	DO 924 II=N1STAR,N1END
182	IF ( icmask(II,JJ) ) THEN
183	F(II,JJ,0)=PP(F(II,JJ,0))*AMIN1(1.,OV(II,JJ))+PN(F(II,JJ,0)) &
184	*AMIN1(1.,UN(II,JJ))
185	F(II,JJ,1)=PP(F(II,JJ,1))*AMIN1(1.,UN(II,JJ))+PN(F(II,JJ,1)) &
186	*AMIN1(1.,OV(II,JJ))
187	ENDIF
188	924 CONTINUE
189	9000 CONTINUE
190	DO 925 JJ=N2STAR,N2END
191	DO 925 II=N1STAR,N1END
192	IF ( icmask(II,JJ) ) XF(II,JJ,IIM)=W(II,JJ)-(F(II,JJ,1)-F(II,JJ,0))
193	925 CONTINUE
194
195	!
196	2000 CONTINUE
197	RETURN
198	END
199
200	! Version of sint that replaces mask with detailed ranges for avoiding boundaries
201	! may help performance by getting the conditionals out of innner loops
202
203	SUBROUTINE SINTB(XF1, XF , &
204	ims, ime, jms, jme, icmask , &
205	its, ite, jts, jte, nf, xstag, ystag )
206	IMPLICIT NONE
207	INTEGER ims, ime, jms, jme, &
208	its, ite, jts, jte
209
210	LOGICAL icmask( ims:ime, jms:jme )
211	LOGICAL xstag, ystag
212
213	INTEGER nf, ior
214	REAL one12, one24, ep
215	PARAMETER(one12=1./12.,one24=1./24.)
216	PARAMETER(ior=2)
217	!
218	REAL XF(ims:ime,jms:jme,NF)
219	REAL XF1(ims:ime,jms:jme,NF)
220	!
221	REAL Y(ims:ime,jms:jme,-IOR:IOR), &
222	Z(ims:ime,jms:jme,-IOR:IOR), &
223	F(ims:ime,jms:jme,0:1)
224	!
225	INTEGER I,J,II,JJ,IIM
226	INTEGER N2STAR, N2END, N1STAR, N1END
227	!
228	DATA EP/ 1.E-10/
229	!
230	! PARAMETER(NONOS=1)
231	! PARAMETER(N1OS=N1NONOS+1-NONOS,N2OS=N2NONOS+1-NONOS)
232	!
233	REAL W(ims:ime,jms:jme),OV(ims:ime,jms:jme),UN(ims:ime,jms:jme)
234	REAL MXM(ims:ime,jms:jme),MN(ims:ime,jms:jme)
235	REAL FL(ims:ime,jms:jme,0:1)
236	REAL XIG(NFNF), XJG(NFNF) ! NF is the parent to child grid refinement ratio
237	integer rr
238
239	REAL rioff, rjoff
240	!
241	REAL donor, y1, y2, a
242	DONOR(Y1,Y2,A)=(Y1AMAX1(0.,SIGN(1.,A))-Y2AMIN1(0.,SIGN(1.,A)))*A
243	REAL tr4, ym1, y0, yp1, yp2
244	TR4(YM1,Y0,YP1,YP2,A)=AONE12(7.*(YP1+Y0)-(YP2+YM1)) &
245	-AAONE24(15.(YP1-Y0)-(YP2-YM1))-AAAONE12((YP1+Y0) &
246	-(YP2+YM1))+AAAAONE24(3.(YP1-Y0)-(YP2-YM1))
247	REAL pp, pn, x
248	PP(X)=AMAX1(0.,X)
249	PN(X)=AMIN1(0.,X)
250
251	rr = nint(sqrt(float(nf)))
252
253	rioff = 0
254	rjoff = 0
255	if(xstag .and. (mod(rr,2) .eq. 0)) rioff = 1.
256	if(ystag .and. (mod(rr,2) .eq. 0)) rjoff = 1.
257
258	DO I=1,rr
259	DO J=1,rr
260	XIG(J+(I-1)rr)=(float(rr)-1.-rioff)/float(2rr)-FLOAT(J-1)*1./float(rr)
261	XJG(J+(I-1)rr)=(float(rr)-1.-rjoff)/float(2rr)-FLOAT(I-1)*1./float(rr)
262	ENDDO
263	ENDDO
264
265	N2STAR = jts
266	N2END = jte
267	N1STAR = its
268	N1END = ite
269
270	DO 2000 IIM=1,NF
271	!
272	! HERE STARTS RESIDUAL ADVECTION
273	!
274	DO 9000 JJ=N2STAR,N2END
275	!cdir unroll=5
276	DO 50 J=-IOR,IOR
277
278	!cdir unroll=5
279	DO 51 I=-IOR,IOR
280	DO 511 II=N1STAR,N1END
281	Y(II,JJ,I)=XF1(II+I,JJ+J,IIM)
282	511 CONTINUE
283	51 CONTINUE
284
285	DO 811 II=N1STAR,N1END
286	FL(II,JJ,0)=DONOR(Y(II,JJ,-1),Y(II,JJ,0),XIG(IIM))
287	FL(II,JJ,1)=DONOR(Y(II,JJ,0),Y(II,JJ,1),XIG(IIM))
288	811 CONTINUE
289	DO 812 II=N1STAR,N1END
290	W(II,JJ)=Y(II,JJ,0)-(FL(II,JJ,1)-FL(II,JJ,0))
291	812 CONTINUE
292	DO 813 II=N1STAR,N1END
293	MXM(II,JJ)= &
294	AMAX1(Y(II,JJ,-1),Y(II,JJ,0),Y(II,JJ,1), &
295	W(II,JJ))
296	MN(II,JJ)=AMIN1(Y(II,JJ,-1),Y(II,JJ,0),Y(II,JJ,1),W(II,JJ))
297	813 CONTINUE
298	DO 312 II=N1STAR,N1END
299	F(II,JJ,0)= &
300	TR4(Y(II,JJ,-2),Y(II,JJ,-1),Y(II,JJ,0), &
301	Y(II,JJ,1),XIG(IIM))
302	F(II,JJ,1)= &
303	TR4(Y(II,JJ,-1),Y(II,JJ,0),Y(II,JJ,1),Y(II,JJ,2),&
304	XIG(IIM))
305	312 CONTINUE
306	DO 822 II=N1STAR,N1END
307	F(II,JJ,0)=F(II,JJ,0)-FL(II,JJ,0)
308	F(II,JJ,1)=F(II,JJ,1)-FL(II,JJ,1)
309	822 CONTINUE
310	DO 823 II=N1STAR,N1END
311	OV(II,JJ)=(MXM(II,JJ)-W(II,JJ))/(-PN(F(II,JJ,1))+ &
312	PP(F(II,JJ,0))+EP)
313	UN(II,JJ)=(W(II,JJ)-MN(II,JJ))/(PP(F(II,JJ,1))- &
314	PN(F(II,JJ,0))+EP)
315	823 CONTINUE
316	DO 824 II=N1STAR,N1END
317	F(II,JJ,0)=PP(F(II,JJ,0))*AMIN1(1.,OV(II,JJ))+ &
318	PN(F(II,JJ,0))*AMIN1(1.,UN(II,JJ))
319	F(II,JJ,1)=PP(F(II,JJ,1))*AMIN1(1.,UN(II,JJ))+ &
320	PN(F(II,JJ,1))*AMIN1(1.,OV(II,JJ))
321	824 CONTINUE
322	DO 825 II=N1STAR,N1END
323	Y(II,JJ,0)=W(II,JJ)-(F(II,JJ,1)-F(II,JJ,0))
324	825 CONTINUE
325	DO 361 II=N1STAR,N1END
326	Z(II,JJ,J)=Y(II,JJ,0)
327	361 CONTINUE
328	!
329	! END IF FIRST J LOOP
330	!
331	8000 CONTINUE
332	50 CONTINUE
333
334	DO 911 II=N1STAR,N1END
335	FL(II,JJ,0)=DONOR(Z(II,JJ,-1),Z(II,JJ,0),XJG(IIM))
336	FL(II,JJ,1)=DONOR(Z(II,JJ,0),Z(II,JJ,1),XJG(IIM))
337	911 CONTINUE
338	DO 912 II=N1STAR,N1END
339	W(II,JJ)=Z(II,JJ,0)-(FL(II,JJ,1)-FL(II,JJ,0))
340	912 CONTINUE
341	DO 913 II=N1STAR,N1END
342	MXM(II,JJ)=AMAX1(Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1),W(II,JJ))
343	MN(II,JJ)=AMIN1(Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1),W(II,JJ))
344	913 CONTINUE
345	DO 412 II=N1STAR,N1END
346	F(II,JJ,0)= &
347	TR4(Z(II,JJ,-2),Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1)&
348	,XJG(IIM))
349	F(II,JJ,1)= &
350	TR4(Z(II,JJ,-1),Z(II,JJ,0),Z(II,JJ,1),Z(II,JJ,2), &
351	XJG(IIM))
352	412 CONTINUE
353	DO 922 II=N1STAR,N1END
354	F(II,JJ,0)=F(II,JJ,0)-FL(II,JJ,0)
355	F(II,JJ,1)=F(II,JJ,1)-FL(II,JJ,1)
356	922 CONTINUE
357	DO 923 II=N1STAR,N1END
358	OV(II,JJ)=(MXM(II,JJ)-W(II,JJ))/(-PN(F(II,JJ,1))+ &
359	PP(F(II,JJ,0))+EP)
360	UN(II,JJ)=(W(II,JJ)-MN(II,JJ))/(PP(F(II,JJ,1))-PN(F(II,JJ,0))+ &
361	EP)
362	923 CONTINUE
363	DO 924 II=N1STAR,N1END
364	F(II,JJ,0)=PP(F(II,JJ,0))*AMIN1(1.,OV(II,JJ))+PN(F(II,JJ,0)) &
365	*AMIN1(1.,UN(II,JJ))
366	F(II,JJ,1)=PP(F(II,JJ,1))*AMIN1(1.,UN(II,JJ))+PN(F(II,JJ,1)) &
367	*AMIN1(1.,OV(II,JJ))
368	924 CONTINUE
369	9000 CONTINUE
370	DO 925 JJ=N2STAR,N2END
371	DO 925 II=N1STAR,N1END
372	XF(II,JJ,IIM)=W(II,JJ)-(F(II,JJ,1)-F(II,JJ,0))
373	925 CONTINUE
374
375	!
376	2000 CONTINUE
377	RETURN
378	END
379
380

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