/[MITgcm]/MITgcm/pkg/diagnostics/diagnostics_switch_onoff.F
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Revision 1.14 - (hide annotations) (download)
Mon Jun 5 18:17:22 2006 UTC (17 years, 11 months ago) by jmc
Branch: MAIN
CVS Tags: checkpoint58l_post, mitgcm_mapl_00, checkpoint58u_post, checkpoint58w_post, checkpoint58r_post, checkpoint58n_post, checkpoint58x_post, checkpoint58t_post, checkpoint58h_post, checkpoint58q_post, checkpoint58j_post, checkpoint59e, checkpoint59d, checkpoint59f, checkpoint59a, checkpoint59c, checkpoint59b, checkpoint59, checkpoint58i_post, checkpoint58g_post, checkpoint58o_post, checkpoint58y_post, checkpoint58k_post, checkpoint58v_post, checkpoint58s_post, checkpoint58p_post, checkpoint58m_post
Changes since 1.13: +51 -10 lines 
Implement periodic averaging diagnostics (e.g., mean seasonal cycle,
 mean diurnal cycle)
1 jmc 1.14 C $Header: /u/gcmpack/MITgcm/pkg/diagnostics/diagnostics_switch_onoff.F,v 1.13 2005/10/16 18:38:55 molod Exp $
2 jmc 1.1 C $Name: $
3    
4     #include "DIAG_OPTIONS.h"
5    
6     C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
7     CBOP 0
8     C !ROUTINE: DIAGNOSTICS_SWITCH_ONOFF
9    
10     C !INTERFACE:
11 jmc 1.5 SUBROUTINE DIAGNOSTICS_SWITCH_ONOFF( myTime, myIter, myThid )
12 jmc 1.1
13     C !DESCRIPTION:
14     C-----
15     C Called at the beginning of the time-step,
16     C to switch on/off diagnostics for snap-shot output
17     C-----
18     C during iterations that are multiple of |freq|,
19     C switch ON diagnostics (ndiag>=0) that will become active
20     C and then can be written at the end of the time-step ;
21     C otherwise, put diagnostics in non-active mode (ndiag=-1)
22     C-----
23    
24     C !USES:
25     IMPLICIT NONE
26     #include "SIZE.h"
27     #include "EEPARAMS.h"
28     #include "PARAMS.h"
29     #include "DIAGNOSTICS_SIZE.h"
30     #include "DIAGNOSTICS.h"
31    
32     C !INPUT PARAMETERS:
33 jmc 1.5 C myTime :: current Time of simulation ( s )
34 jmc 1.1 C myIter :: current Iteration number
35     C myThid :: my Thread Id number
36 jmc 1.6 _RL myTime
37 jmc 1.1 INTEGER myIter
38     INTEGER myThid
39     CEOP
40    
41     C !LOCAL VARIABLES:
42     C newIter :: future iteration number
43     C j,m,n :: loop index
44 jmc 1.14 CHARACTER*(MAX_LEN_MBUF) msgBuf
45 jmc 1.5 c INTEGER newIter
46 jmc 1.12 INTEGER m, n, nd
47     INTEGER bi, bj, ip, iSp
48 jmc 1.5 LOGICAL time4SnapShot
49     _RL phiSec, freqSec
50 jmc 1.14 INTEGER nInterval
51     _RL xInterval
52 jmc 1.9 LOGICAL dBugFlag
53 jmc 1.5 #ifdef ALLOW_FIZHI
54 jmc 1.14 LOGICAL alarm2, alarm2next
55     CHARACTER *9 tagname
56 jmc 1.5 #endif
57    
58     LOGICAL DIFF_PHASE_MULTIPLE
59     EXTERNAL DIFF_PHASE_MULTIPLE
60 jmc 1.1
61     C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
62    
63 jmc 1.14 dBugFlag = debugLevel.GT.debLevB .AND. myThid.EQ.1
64    
65 jmc 1.5 c newIter = 1 + myIter
66 jmc 1.1 DO n = 1,nlists
67 jmc 1.5
68     IF ( freq(n).LT.0. ) THEN
69     C-- Select diagnostics list that uses instantaneous output
70    
71     freqSec = freq(n)
72     phiSec = phase(n)
73 molod 1.7 time4SnapShot = DIFF_PHASE_MULTIPLE( phiSec, freqSec,
74     & myTime, deltaTclock )
75 molod 1.3 #ifdef ALLOW_FIZHI
76 jmc 1.14 IF ( useFIZHI ) THEN
77     WRITE(tagname,'(A,I2.2)')'diagtag',n
78 molod 1.11 time4SnapShot = alarm2next(tagname,deltaT)
79 jmc 1.14 ENDIF
80 molod 1.3 #endif
81    
82 jmc 1.12 DO bj=myByLo(myThid), myByHi(myThid)
83     DO bi=myBxLo(myThid), myBxHi(myThid)
84     IF ( time4SnapShot ) THEN
85     C-- switch ON diagnostics of output-stream # n
86     DO m=1,nActive(n)
87     c nd = jdiag(m,n)
88     c IF (ndiag(nd).NE.0) WRITE(0,*) myIter,nd,ndiag(nd),' ->',0
89     ip = idiag(m,n)
90     IF (ip.GT.0) ndiag(ip,bi,bj) = 0
91     ENDDO
92     ELSE
93     C-- switch OFF diagnostics of output-stream # n
94     DO m=1,nActive(n)
95     c nd = jdiag(m,n)
96     c IF (ndiag(nd).NE.-1) WRITE(0,*) myIter,nd,ndiag(nd),' ->',-1
97     ip = idiag(m,n)
98     IF (ip.GT.0) ndiag(ip,bi,bj) = -1
99     ENDDO
100     ENDIF
101     ENDDO
102     ENDDO
103 jmc 1.1
104 jmc 1.14 C-- list with instantaneous output: end
105 jmc 1.1 ENDIF
106 jmc 1.14
107     IF ( averageCycle(n).GT.1 ) THEN
108     C-- Select diagnostics list that uses periodic averaging
109     xInterval = myTime + deltaTclock*0.5 _d 0 - averagePhase(n)
110     xInterval = xInterval / averageFreq(n)
111     IF ( xInterval.GE.0. ) THEN
112     nInterval = INT(xInterval)
113     ELSE
114     nInterval = 1 + INT( -xInterval/FLOAT(averageCycle(n)) )
115     nInterval = nInterval*averageCycle(n) + INT(xInterval) - 1
116     ENDIF
117     nInterval = MOD(nInterval,averageCycle(n))
118    
119     C- check future value of pdiag:
120     IF (dBugFlag.AND.pdiag(n,1,1).NE.nInterval)
121     & WRITE(0,'(A,I8,3(A,I3),F17.6)') 'DIAG_SWITCH_ONOFF: at it=',
122     & myIter, ', list:', n, ' switch',
123     & pdiag(n,1,1),' ->', nInterval, xInterval
124     IF ( nInterval.LT.0 .OR. nInterval.GE.averageCycle(n) ) THEN
125     WRITE(msgBuf,'(2A,I2,A,I4)') 'DIAGNOSTICS_SWITCH_ONOFF:',
126     & ' error setting pdiag(n=',n,') to:', nInterval
127     CALL PRINT_ERROR( msgBuf , myThid )
128     WRITE(msgBuf,'(2A,I3,A,F17.6)') 'DIAGNOSTICS_SWITCH_ONOFF:',
129     & ' cycle=', averageCycle(n), ', xInt=', xInterval
130     CALL PRINT_ERROR( msgBuf , myThid )
131     STOP 'ABNORMAL END: S/R DIAGNOSTICS_SWITCH_ONOFF'
132     ENDIF
133    
134     DO bj=myByLo(myThid), myByHi(myThid)
135     DO bi=myBxLo(myThid), myBxHi(myThid)
136     pdiag(n,bi,bj) = nInterval
137     ENDDO
138     ENDDO
139     C-- list with periodic averaging: end
140     ENDIF
141    
142 jmc 1.1 ENDDO
143    
144 jmc 1.9 C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
145    
146     DO n = 1,diagSt_nbLists
147    
148     IF ( diagSt_freq(n).LT.0. ) THEN
149     C-- Select diagnostics list that uses instantaneous output
150    
151     dBugFlag = debugLevel.GT.debLevB
152    
153     freqSec = diagSt_freq(n)
154     phiSec = diagSt_phase(n)
155     time4SnapShot = DIFF_PHASE_MULTIPLE( phiSec, freqSec,
156     & myTime, deltaTclock )
157    
158 jmc 1.10 #ifdef ALLOW_FIZHI
159 jmc 1.14 IF ( useFIZHI ) THEN
160     WRITE(tagname,'(A,I2.2)')'diagStg',n
161 molod 1.13 time4SnapShot = alarm2next(tagname,deltaT)
162 jmc 1.14 ENDIF
163 jmc 1.10 #endif
164    
165 jmc 1.9 DO bj=myByLo(myThid), myByHi(myThid)
166     DO bi=myBxLo(myThid), myBxHi(myThid)
167     dBugFlag = dBugFlag.AND.(bi.EQ.1.AND.bj.EQ.1.AND.myThid.EQ.1)
168     IF ( time4SnapShot ) THEN
169     C-- switch ON diagnostics of output-stream # n
170     DO m=1,diagSt_nbActv(n)
171 jmc 1.12 iSp = iSdiag(m,n)
172     IF (iSp.GT.0) THEN
173     nd = jSdiag(m,n)
174     IF (dBugFlag.AND.qSdiag(0,0,iSp,bi,bj).NE. 0.)
175 jmc 1.9 & WRITE(0,'(I8,I4,3A,1PE10.3,A,I3)') myIter,
176 jmc 1.12 & nd,' ',cdiag(nd),' :',qSdiag(0,0,iSp,bi,bj),' ->', 0
177     qSdiag(0,0,iSp,bi,bj) = 0.
178     ENDIF
179 jmc 1.9 ENDDO
180     ELSE
181     C-- switch OFF diagnostics of output-stream # n
182     DO m=1,diagSt_nbActv(n)
183 jmc 1.12 iSp = iSdiag(m,n)
184     IF (iSp.GT.0) THEN
185     nd = jSdiag(m,n)
186     IF (dBugFlag.AND.qSdiag(0,0,iSp,bi,bj).NE.-1.)
187 jmc 1.9 & WRITE(0,'(I8,I4,3A,1PE10.3,A,I3)') myIter,
188 jmc 1.12 & nd,' ',cdiag(nd),' :',qSdiag(0,0,iSp,bi,bj),' ->',-1
189     qSdiag(0,0,iSp,bi,bj) = -1.
190     ENDIF
191 jmc 1.9 ENDDO
192     ENDIF
193     ENDDO
194     ENDDO
195    
196     ENDIF
197     ENDDO
198    
199 jmc 1.1 RETURN
200     END
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