30 |
_RL myTime |
_RL myTime |
31 |
INTEGER myIter, myThid |
INTEGER myIter, myThid |
32 |
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33 |
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C !FUNCTIONS: |
34 |
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LOGICAL DIFF_PHASE_MULTIPLE |
35 |
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EXTERNAL DIFF_PHASE_MULTIPLE |
36 |
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#ifdef ALLOW_FIZHI |
37 |
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LOGICAL ALARM2 |
38 |
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EXTERNAL ALARM2 |
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#endif |
40 |
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41 |
c Local variables |
c Local variables |
42 |
c =============== |
c =============== |
43 |
INTEGER n |
INTEGER n |
45 |
LOGICAL dump2fileNow, write2file |
LOGICAL dump2fileNow, write2file |
46 |
_RL phiSec, freqSec, wrTime |
_RL phiSec, freqSec, wrTime |
47 |
#ifdef ALLOW_FIZHI |
#ifdef ALLOW_FIZHI |
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LOGICAL alarm2 |
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48 |
CHARACTER *9 tagname |
CHARACTER *9 tagname |
49 |
#endif |
#endif |
50 |
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LOGICAL DIFF_PHASE_MULTIPLE |
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EXTERNAL DIFF_PHASE_MULTIPLE |
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51 |
IF ( myIter.NE.nIter0 ) THEN |
IF ( myIter.NE.nIter0 ) THEN |
52 |
myItM1 = myIter - 1 |
myItM1 = myIter - 1 |
53 |
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68 |
C-- write snap-shot with suffix = myIter-1 to be consistent with |
C-- write snap-shot with suffix = myIter-1 to be consistent with |
69 |
C state-variable time-step: |
C state-variable time-step: |
70 |
wrIter = myItM1 |
wrIter = myItM1 |
71 |
wrTime = myTime - deltaTclock |
wrTime = myTime - deltaTClock |
72 |
ELSE |
ELSE |
73 |
wrIter = myIter |
wrIter = myIter |
74 |
wrTime = myTime |
wrTime = myTime |
75 |
ENDIF |
ENDIF |
76 |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
77 |
& wrTime, deltaTclock ) |
& wrTime, deltaTClock ) |
78 |
#ifdef ALLOW_FIZHI |
#ifdef ALLOW_FIZHI |
79 |
IF ( useFIZHI ) THEN |
IF ( useFIZHI ) THEN |
80 |
WRITE(tagname,'(A,I2.2)')'diagtag',n |
WRITE(tagname,'(A,I2.2)')'diagtag',n |
81 |
dump2fileNow = alarm2(tagname) |
dump2fileNow = ALARM2(tagname) |
82 |
ENDIF |
ENDIF |
83 |
#endif |
#endif |
84 |
#ifdef ALLOW_CAL |
#ifdef ALLOW_CAL |
110 |
C-- write snap-shot with suffix = myIter-1 to be consistent with |
C-- write snap-shot with suffix = myIter-1 to be consistent with |
111 |
C state-variable time-step: |
C state-variable time-step: |
112 |
wrIter = myItM1 |
wrIter = myItM1 |
113 |
wrTime = myTime - deltaTclock |
wrTime = myTime - deltaTClock |
114 |
ELSE |
ELSE |
115 |
wrIter = myIter |
wrIter = myIter |
116 |
wrTime = myTime |
wrTime = myTime |
117 |
ENDIF |
ENDIF |
118 |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
119 |
& wrTime, deltaTclock ) |
& wrTime, deltaTClock ) |
120 |
#ifdef ALLOW_FIZHI |
#ifdef ALLOW_FIZHI |
121 |
IF ( useFIZHI ) THEN |
IF ( useFIZHI ) THEN |
122 |
WRITE(tagname,'(A,I2.2)')'diagStg',n |
WRITE(tagname,'(A,I2.2)')'diagStg',n |
123 |
dump2fileNow = alarm2(tagname) |
dump2fileNow = ALARM2(tagname) |
124 |
ENDIF |
ENDIF |
125 |
#endif |
#endif |
126 |
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#ifdef ALLOW_CAL |
127 |
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IF ( useCAL ) THEN |
128 |
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CALL CAL_TIME2DUMP( freqSec, deltaTClock, |
129 |
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U dump2fileNow, |
130 |
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I myTime, myIter, myThid ) |
131 |
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ENDIF |
132 |
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#endif /* ALLOW_CAL */ |
133 |
IF ( dumpAtLast .AND. modelEnd |
IF ( dumpAtLast .AND. modelEnd |
134 |
& .AND. freqSec.GE.0. ) dump2fileNow = .TRUE. |
& .AND. freqSec.GE.0. ) dump2fileNow = .TRUE. |
135 |
IF ( dump2fileNow ) THEN |
IF ( dump2fileNow ) THEN |
159 |
phiSec = phase(n) |
phiSec = phase(n) |
160 |
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161 |
wrTime = myTime |
wrTime = myTime |
162 |
IF ( freqSec.LT.0. ) wrTime = myTime - deltaTclock |
IF ( freqSec.LT.0. ) wrTime = myTime - deltaTClock |
163 |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
164 |
& wrTime, deltaTclock ) |
& wrTime, deltaTClock ) |
165 |
#ifdef ALLOW_FIZHI |
#ifdef ALLOW_FIZHI |
166 |
IF ( useFIZHI ) THEN |
IF ( useFIZHI ) THEN |
167 |
WRITE(tagname,'(A,I2.2)')'diagtag',n |
WRITE(tagname,'(A,I2.2)')'diagtag',n |
168 |
dump2fileNow = alarm2(tagname) |
dump2fileNow = ALARM2(tagname) |
169 |
ENDIF |
ENDIF |
170 |
#endif |
#endif |
171 |
#ifdef ALLOW_CAL |
#ifdef ALLOW_CAL |
184 |
freqSec = diagSt_freq(n) |
freqSec = diagSt_freq(n) |
185 |
phiSec = diagSt_phase(n) |
phiSec = diagSt_phase(n) |
186 |
wrTime = myTime |
wrTime = myTime |
187 |
IF ( freqSec.LT.0. ) wrTime = myTime - deltaTclock |
IF ( freqSec.LT.0. ) wrTime = myTime - deltaTClock |
188 |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
dump2fileNow = DIFF_PHASE_MULTIPLE( phiSec, freqSec, |
189 |
& wrTime, deltaTclock ) |
& wrTime, deltaTClock ) |
190 |
#ifdef ALLOW_FIZHI |
#ifdef ALLOW_FIZHI |
191 |
IF ( useFIZHI ) THEN |
IF ( useFIZHI ) THEN |
192 |
WRITE(tagname,'(A,I2.2)')'diagStg',n |
WRITE(tagname,'(A,I2.2)')'diagStg',n |
193 |
dump2fileNow = alarm2(tagname) |
dump2fileNow = ALARM2(tagname) |
194 |
ENDIF |
ENDIF |
195 |
#endif |
#endif |
196 |
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#ifdef ALLOW_CAL |
197 |
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IF ( useCAL ) THEN |
198 |
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CALL CAL_TIME2DUMP( freqSec, deltaTClock, |
199 |
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U dump2fileNow, |
200 |
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I myTime, myIter, myThid ) |
201 |
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ENDIF |
202 |
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#endif /* ALLOW_CAL */ |
203 |
IF ( dumpAtLast .AND. modelEnd |
IF ( dumpAtLast .AND. modelEnd |
204 |
& .AND. freqSec.GE.0. ) dump2fileNow = .TRUE. |
& .AND. freqSec.GE.0. ) dump2fileNow = .TRUE. |
205 |
IF ( dump2fileNow ) CALL DIAGSTATS_CLEAR( n, myThid ) |
IF ( dump2fileNow ) CALL DIAGSTATS_CLEAR( n, myThid ) |