8 |
C !ROUTINE: DIAGNOSTICS_OUT |
C !ROUTINE: DIAGNOSTICS_OUT |
9 |
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10 |
C !INTERFACE: |
C !INTERFACE: |
11 |
SUBROUTINE DIAGNOSTICS_OUT( |
SUBROUTINE DIAGNOSTICS_OUT( |
12 |
I listId, |
I listId, |
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I myIter, |
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13 |
I myTime, |
I myTime, |
14 |
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I myIter, |
15 |
I myThid ) |
I myThid ) |
16 |
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17 |
C !DESCRIPTION: |
C !DESCRIPTION: |
38 |
INTEGER listId, myIter, myThid |
INTEGER listId, myIter, myThid |
39 |
CEOP |
CEOP |
40 |
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41 |
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C !FUNCTIONS: |
42 |
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INTEGER ILNBLNK |
43 |
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EXTERNAL ILNBLNK |
44 |
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#ifdef ALLOW_FIZHI |
45 |
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_RL getcon |
46 |
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EXTERNAL getcon |
47 |
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#endif |
48 |
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49 |
C !LOCAL VARIABLES: |
C !LOCAL VARIABLES: |
50 |
C i,j,k :: loop indices |
C i,j,k :: loop indices |
51 |
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C bi,bj :: tile indices |
52 |
C lm :: loop index (averageCycle) |
C lm :: loop index (averageCycle) |
53 |
C md :: field number in the list "listId". |
C md :: field number in the list "listId". |
54 |
C ndId :: diagnostics Id number (in available diagnostics list) |
C ndId :: diagnostics Id number (in available diagnostics list) |
55 |
C mate :: counter mate Id number (in available diagnostics list) |
C mate :: counter mate Id number (in available diagnostics list) |
56 |
C ip :: diagnostics pointer to storage array |
C ip :: diagnostics pointer to storage array |
57 |
C im :: counter-mate pointer to storage array |
C im :: counter-mate pointer to storage array |
58 |
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C nLevOutp :: number of levels to write in output file |
59 |
C |
C |
60 |
C-- COMMON /LOCAL_DIAGNOSTICS_OUT/ local common block (for multi-threaded) |
C-- COMMON /LOCAL_DIAGNOSTICS_OUT/ local common block (for multi-threaded) |
61 |
C qtmp1 :: thread-shared temporary array (needs to be in common block): |
C qtmp1 :: thread-shared temporary array (needs to be in common block): |
69 |
INTEGER md, ndId, ip, im |
INTEGER md, ndId, ip, im |
70 |
INTEGER mate, mVec |
INTEGER mate, mVec |
71 |
CHARACTER*10 gcode |
CHARACTER*10 gcode |
72 |
_RL undef, getcon |
_RL undef |
73 |
_RL tmpLev |
_RL tmpLev |
74 |
EXTERNAL getcon |
INTEGER iLen |
75 |
INTEGER ILNBLNK |
INTEGER nLevOutp |
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EXTERNAL ILNBLNK |
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INTEGER ilen |
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76 |
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77 |
INTEGER ioUnit |
INTEGER ioUnit |
78 |
CHARACTER*(MAX_LEN_FNAM) fn |
CHARACTER*(MAX_LEN_FNAM) fn |
79 |
CHARACTER*(MAX_LEN_MBUF) suff |
CHARACTER*(MAX_LEN_MBUF) suff |
80 |
CHARACTER*(MAX_LEN_MBUF) msgBuf |
CHARACTER*(MAX_LEN_MBUF) msgBuf |
81 |
INTEGER prec, nRec |
INTEGER prec, nRec, nTimRec |
82 |
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_RL timeRec(2) |
83 |
#ifdef ALLOW_MDSIO |
#ifdef ALLOW_MDSIO |
84 |
LOGICAL glf |
LOGICAL glf |
85 |
#endif |
#endif |
86 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
87 |
INTEGER ii |
INTEGER ll, llMx, jj, jjMx |
88 |
CHARACTER*(MAX_LEN_FNAM) diag_mnc_bn |
CHARACTER*(MAX_LEN_FNAM) diag_mnc_bn |
89 |
INTEGER CW_DIMS, NLEN |
LOGICAL useMissingValue |
90 |
PARAMETER ( CW_DIMS = 10 ) |
REAL*8 misValLoc |
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PARAMETER ( NLEN = 80 ) |
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INTEGER dim(CW_DIMS), ib(CW_DIMS), ie(CW_DIMS) |
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CHARACTER*(NLEN) dn(CW_DIMS) |
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CHARACTER*(NLEN) d_cw_name |
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CHARACTER*(NLEN) dn_blnk |
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#ifdef DIAG_MNC_COORD_NEEDSWORK |
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CHARACTER*(5) ctmp |
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_RS ztmp(NrMax) |
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#endif |
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91 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
92 |
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93 |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
94 |
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95 |
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C--- set file properties |
96 |
ioUnit= standardMessageUnit |
ioUnit= standardMessageUnit |
97 |
undef = getcon('UNDEF') |
undef = UNSET_RL |
98 |
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#ifdef ALLOW_FIZHI |
99 |
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IF ( useFIZHI ) undef = getcon('UNDEF') |
100 |
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#endif |
101 |
WRITE(suff,'(I10.10)') myIter |
WRITE(suff,'(I10.10)') myIter |
102 |
ilen = ILNBLNK(fnames(listId)) |
iLen = ILNBLNK(fnames(listId)) |
103 |
WRITE( fn, '(A,A,A)' ) fnames(listId)(1:ilen),'.',suff(1:10) |
WRITE( fn, '(A,A,A)' ) fnames(listId)(1:iLen),'.',suff(1:10) |
104 |
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C- for now, if integrate vertically, output field has just 1 level: |
105 |
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nLevOutp = nlevels(listId) |
106 |
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IF ( fflags(listId)(2:2).EQ.'I' ) nLevOutp = 1 |
107 |
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108 |
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C-- Set time information: |
109 |
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IF ( freq(listId).LT.0. ) THEN |
110 |
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C- Snap-shot: store a unique time (which is consistent with State-Var timing) |
111 |
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nTimRec = 1 |
112 |
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timeRec(1) = myTime |
113 |
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ELSE |
114 |
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C- Time-average: store the 2 edges of the time-averaging interval. |
115 |
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C this time is consitent with intermediate Var (i.e., non-state, e.g, flux, |
116 |
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C tendencies) timing. For State-Var, this is shifted by + halt time-step. |
117 |
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nTimRec = 2 |
118 |
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119 |
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C- end of time-averaging interval: |
120 |
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timeRec(2) = myTime |
121 |
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122 |
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C- begining of time-averaging interval: |
123 |
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c timeRec(1) = myTime - freq(listId) |
124 |
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C a) find the time of the previous multiple of output freq: |
125 |
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timeRec(1) = myTime-deltaTClock*0.5 _d 0 |
126 |
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timeRec(1) = (timeRec(1)-phase(listId))/freq(listId) |
127 |
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i = INT( timeRec(1) ) |
128 |
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IF ( timeRec(1).LT.0. ) THEN |
129 |
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tmpLev = FLOAT(i) |
130 |
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IF ( timeRec(1).NE.tmpLev ) i = i - 1 |
131 |
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ENDIF |
132 |
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timeRec(1) = phase(listId) + freq(listId)*FLOAT(i) |
133 |
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c if ( listId.eq.2 ) write(0,*) 'f',i,timeRec(1)/deltaTClock |
134 |
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timeRec(1) = MAX( timeRec(1), startTime ) |
135 |
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136 |
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C b) round off to nearest multiple of time-step: |
137 |
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timeRec(1) = (timeRec(1)-baseTime)/deltaTClock |
138 |
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i = NINT( timeRec(1) ) |
139 |
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C if just half way, NINT will return the next time-step: correct this |
140 |
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tmpLev = FLOAT(i) - 0.5 _d 0 |
141 |
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IF ( timeRec(1).EQ.tmpLev ) i = i - 1 |
142 |
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timeRec(1) = baseTime + deltaTClock*FLOAT(i) |
143 |
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c if ( listId.eq.2 ) write(0,*) i,timeRec(1)/deltaTClock |
144 |
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ENDIF |
145 |
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C-- Convert time to iteration number (debug) |
146 |
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c DO i=1,nTimRec |
147 |
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c timeRec(i) = timeRec(i)/deltaTClock |
148 |
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c ENDDO |
149 |
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150 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
151 |
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C-- this is a trick to reverse the order of the loops on md (= field) |
152 |
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C and lm (= averagePeriod): binary output: lm loop inside md loop ; |
153 |
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C mnc ouput: md loop inside lm loop. |
154 |
IF (useMNC .AND. diag_mnc) THEN |
IF (useMNC .AND. diag_mnc) THEN |
155 |
DO i = 1,MAX_LEN_FNAM |
jjMx = averageCycle(listId) |
156 |
diag_mnc_bn(i:i) = ' ' |
llMx = 1 |
157 |
ENDDO |
ELSE |
158 |
DO i = 1,NLEN |
jjMx = 1 |
159 |
dn_blnk(i:i) = ' ' |
llMx = averageCycle(listId) |
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ENDDO |
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WRITE( diag_mnc_bn, '(A)' ) fnames(listId)(1:ilen) |
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C Update the record dimension by writing the iteration number |
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CALL MNC_CW_SET_UDIM(diag_mnc_bn, -1, myThid) |
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CALL MNC_CW_RL_W_S('D',diag_mnc_bn,0,0,'T',myTime,myThid) |
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CALL MNC_CW_SET_UDIM(diag_mnc_bn, 0, myThid) |
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CALL MNC_CW_I_W_S('I',diag_mnc_bn,0,0,'iter',myIter,myThid) |
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C NOTE: at some point it would be a good idea to add a time_bounds |
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C variable that has dimension (2,T) and clearly denotes the |
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C beginning and ending times for each diagnostics period |
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dn(1)(1:NLEN) = dn_blnk(1:NLEN) |
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WRITE(dn(1),'(a,i6.6)') 'Zmd', nlevels(listId) |
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dim(1) = nlevels(listId) |
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ib(1) = 1 |
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ie(1) = nlevels(listId) |
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CALL MNC_CW_ADD_GNAME('diag_levels', 1, |
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& dim, dn, ib, ie, myThid) |
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CALL MNC_CW_ADD_VNAME('diag_levels', 'diag_levels', |
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& 0,0, myThid) |
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CALL MNC_CW_ADD_VATTR_TEXT('diag_levels','description', |
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& 'Idicies of vertical levels within the source arrays', |
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& myThid) |
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CALL MNC_CW_RL_W('D',diag_mnc_bn,0,0, |
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& 'diag_levels', levs(1,listId), myThid) |
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CALL MNC_CW_DEL_VNAME('diag_levels', myThid) |
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CALL MNC_CW_DEL_GNAME('diag_levels', myThid) |
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#ifdef DIAG_MNC_COORD_NEEDSWORK |
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C This part has been placed in an #ifdef because, as its currently |
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C written, it will only work with variables defined on a dynamics |
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C grid. As we start using diagnostics for physics grids, ice |
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C levels, land levels, etc. the different vertical coordinate |
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C dimensions will have to be taken into account. |
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C 20051021 JMC & EH3 : We need to extend this so that a few |
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C variables each defined on different grids do not have the same |
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C vertical dimension names so we should be using a pattern such |
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C as: Z[uml]td000000 where the 't' is the type as specified by |
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C gdiag(10) |
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C Now define: Zmdxxxxxx, Zudxxxxxx, Zldxxxxxx |
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ctmp(1:5) = 'mul ' |
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DO i = 1,3 |
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dn(1)(1:NLEN) = dn_blnk(1:NLEN) |
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WRITE(dn(1),'(3a,i6.6)') 'Z',ctmp(i:i),'d',nlevels(listId) |
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CALL MNC_CW_ADD_GNAME(dn(1), 1, dim, dn, ib, ie, myThid) |
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CALL MNC_CW_ADD_VNAME(dn(1), dn(1), 0,0, myThid) |
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C The following three ztmp() loops should eventually be modified |
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C to reflect the fractional nature of levs(j,l) -- they should |
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C do something like: |
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C ztmp(j) = rC(INT(FLOOR(levs(j,l)))) |
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C + ( rC(INT(FLOOR(levs(j,l)))) |
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C + rC(INT(CEIL(levs(j,l)))) ) |
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C / ( levs(j,l) - FLOOR(levs(j,l)) ) |
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C for averaged levels. |
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IF (i .EQ. 1) THEN |
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DO j = 1,nlevels(listId) |
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ztmp(j) = rC(NINT(levs(j,listId))) |
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ENDDO |
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CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description', |
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& 'Dimensional coordinate value at the mid point', |
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& myThid) |
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ELSEIF (i .EQ. 2) THEN |
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DO j = 1,nlevels(listId) |
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ztmp(j) = rF(NINT(levs(j,listId)) + 1) |
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ENDDO |
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CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description', |
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& 'Dimensional coordinate value at the upper point', |
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& myThid) |
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ELSEIF (i .EQ. 3) THEN |
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DO j = 1,nlevels(listId) |
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ztmp(j) = rF(NINT(levs(j,listId))) |
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ENDDO |
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CALL MNC_CW_ADD_VATTR_TEXT(dn(1),'description', |
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& 'Dimensional coordinate value at the lower point', |
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& myThid) |
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ENDIF |
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CALL MNC_CW_RS_W('D',diag_mnc_bn,0,0, dn(1), ztmp, myThid) |
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CALL MNC_CW_DEL_VNAME(dn(1), myThid) |
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CALL MNC_CW_DEL_GNAME(dn(1), myThid) |
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ENDDO |
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#endif /* DIAG_MNC_COORD_NEEDSWORK */ |
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160 |
ENDIF |
ENDIF |
161 |
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DO jj=1,jjMx |
162 |
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163 |
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IF (useMNC .AND. diag_mnc) THEN |
164 |
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misValLoc = undef |
165 |
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IF ( misvalFlt(listId).NE.UNSET_RL ) |
166 |
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& misValLoc = misvalFlt(listId) |
167 |
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CALL DIAGNOSTICS_MNC_SET( |
168 |
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I nLevOutp, listId, jj, |
169 |
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O diag_mnc_bn, useMissingValue, |
170 |
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I misValLoc, myTime, myIter, myThid ) |
171 |
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ENDIF |
172 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
173 |
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174 |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
175 |
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|
176 |
DO md = 1,nfields(listId) |
DO md = 1,nfields(listId) |
177 |
ndId = jdiag(md,listId) |
ndId = jdiag(md,listId) |
178 |
gcode = gdiag(ndId)(1:10) |
gcode = gdiag(ndId)(1:10) |
179 |
mate = 0 |
mate = 0 |
183 |
mate = hdiag(ndId) |
mate = hdiag(ndId) |
184 |
ELSEIF ( gcode(1:1).EQ.'U' .OR. gcode(1:1).EQ.'V' ) THEN |
ELSEIF ( gcode(1:1).EQ.'U' .OR. gcode(1:1).EQ.'V' ) THEN |
185 |
C- Check for Mate of a Vector Diagnostic |
C- Check for Mate of a Vector Diagnostic |
186 |
mate = hdiag(ndId) |
mVec = hdiag(ndId) |
187 |
ENDIF |
ENDIF |
188 |
IF ( idiag(md,listId).NE.0 .AND. gcode(5:5).NE.'D' ) THEN |
IF ( idiag(md,listId).NE.0 .AND. gcode(5:5).NE.'D' ) THEN |
189 |
C-- Start processing 1 Fld : |
C-- Start processing 1 Fld : |
190 |
|
#ifdef ALLOW_MNC |
191 |
|
DO ll=1,llMx |
192 |
|
lm = jj+ll-1 |
193 |
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#else |
194 |
DO lm=1,averageCycle(listId) |
DO lm=1,averageCycle(listId) |
195 |
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#endif |
196 |
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|
197 |
ip = ABS(idiag(md,listId)) + kdiag(ndId)*(lm-1) |
ip = ABS(idiag(md,listId)) + kdiag(ndId)*(lm-1) |
198 |
im = mdiag(md,listId) |
im = mdiag(md,listId) |
230 |
_END_MASTER( myThid ) |
_END_MASTER( myThid ) |
231 |
DO bj = myByLo(myThid), myByHi(myThid) |
DO bj = myByLo(myThid), myByHi(myThid) |
232 |
DO bi = myBxLo(myThid), myBxHi(myThid) |
DO bi = myBxLo(myThid), myBxHi(myThid) |
233 |
DO k = 1,nlevels(listId) |
DO k = 1,nLevOutp |
234 |
DO j = 1-OLy,sNy+OLy |
DO j = 1-OLy,sNy+OLy |
235 |
DO i = 1-OLx,sNx+OLx |
DO i = 1-OLx,sNx+OLx |
236 |
qtmp1(i,j,k,bi,bj) = 0. _d 0 |
qtmp1(i,j,k,bi,bj) = 0. _d 0 |
243 |
ELSE |
ELSE |
244 |
C- diagnostics is not empty : |
C- diagnostics is not empty : |
245 |
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|
246 |
IF ( debugLevel.GE.debLevA .AND. myThid.EQ.1 ) THEN |
IF ( debugLevel.GE.debLevB .AND. myThid.EQ.1 ) THEN |
247 |
WRITE(ioUnit,'(A,I6,3A,I8,2A)') |
WRITE(ioUnit,'(A,I6,3A,I8,2A)') |
248 |
& ' Computing Diagnostic # ', ndId, ' ', cdiag(ndId), |
& ' Computing Diagnostic # ', ndId, ' ', cdiag(ndId), |
249 |
& ' Counter:',ndiag(ip,1,1),' Parms: ',gdiag(ndId) |
& ' Counter:',ndiag(ip,1,1),' Parms: ',gdiag(ndId) |
266 |
ENDIF |
ENDIF |
267 |
ENDIF |
ENDIF |
268 |
|
|
269 |
IF ( fflags(listId)(2:2).EQ.'P' ) THEN |
IF ( fflags(listId)(2:2).NE.' ' ) THEN |
270 |
C- get all the levels (for vertical interpolation) |
C- get all the levels (for vertical post-processing) |
271 |
DO bj = myByLo(myThid), myByHi(myThid) |
DO bj = myByLo(myThid), myByHi(myThid) |
272 |
DO bi = myBxLo(myThid), myBxHi(myThid) |
DO bi = myBxLo(myThid), myBxHi(myThid) |
273 |
DO k = 1,kdiag(ndId) |
DO k = 1,kdiag(ndId) |
293 |
ENDDO |
ENDDO |
294 |
ENDIF |
ENDIF |
295 |
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|
|
C- end of empty diag / not empty block |
|
|
ENDIF |
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|
296 |
C----------------------------------------------------------------------- |
C----------------------------------------------------------------------- |
297 |
C Check to see if we need to interpolate before output |
C-- Apply specific post-processing (e.g., interpolate) before output |
298 |
C----------------------------------------------------------------------- |
C----------------------------------------------------------------------- |
299 |
IF ( fflags(listId)(2:2).EQ.'P' ) THEN |
IF ( fflags(listId)(2:2).EQ.'P' ) THEN |
300 |
C- Do vertical interpolation: |
C- Do vertical interpolation: |
301 |
IF ( fluidIsAir ) THEN |
IF ( fluidIsAir ) THEN |
302 |
C jmc: for now, this can only work in an atmospheric set-up (fluidIsAir); |
C jmc: for now, this can only work in an atmospheric set-up (fluidIsAir); |
303 |
CALL DIAGNOSTICS_INTERP_VERT( |
CALL DIAGNOSTICS_INTERP_VERT( |
304 |
I listId, md, ndId, ip, im, lm, |
I listId, md, ndId, ip, im, lm, |
305 |
U qtmp1, |
U qtmp1, |
306 |
I undef, myTime, myIter, myThid ) |
I undef, myTime, myIter, myThid ) |
307 |
ELSE |
ELSE |
308 |
WRITE(msgBuf,'(2A)') 'DIAGNOSTICS_OUT: ', |
WRITE(msgBuf,'(2A)') 'DIAGNOSTICS_OUT: ', |
309 |
& 'INTERP_VERT not allowed in this config' |
& 'INTERP_VERT not allowed in this config' |
310 |
CALL PRINT_ERROR( msgBuf , myThid ) |
CALL PRINT_ERROR( msgBuf , myThid ) |
311 |
STOP 'ABNORMAL END: S/R DIAGNOSTICS_OUT' |
STOP 'ABNORMAL END: S/R DIAGNOSTICS_OUT' |
312 |
ENDIF |
ENDIF |
313 |
|
ENDIF |
314 |
|
IF ( fflags(listId)(2:2).EQ.'I' ) THEN |
315 |
|
C- Integrate vertically: for now, output field has just 1 level: |
316 |
|
CALL DIAGNOSTICS_SUM_LEVELS( |
317 |
|
I listId, md, ndId, ip, im, lm, |
318 |
|
U qtmp1, |
319 |
|
I undef, myTime, myIter, myThid ) |
320 |
|
ENDIF |
321 |
|
|
322 |
|
C-- End of empty diag / not-empty diag block |
323 |
ENDIF |
ENDIF |
324 |
|
|
325 |
C-- Ready to write field "md", element "lm" in averageCycle(listId) |
C-- Ready to write field "md", element "lm" in averageCycle(listId) |
326 |
|
|
327 |
C- write to binary file, using MDSIO pkg: |
C- write to binary file, using MDSIO pkg: |
328 |
IF ( diag_mdsio ) THEN |
IF ( diag_mdsio ) THEN |
335 |
C a hack not to write meta files now: pass -nRec < 0 to MDS_WRITE S/R |
C a hack not to write meta files now: pass -nRec < 0 to MDS_WRITE S/R |
336 |
CALL WRITE_REC_LEV_RL( |
CALL WRITE_REC_LEV_RL( |
337 |
I fn, prec, |
I fn, prec, |
338 |
I NrMax, 1, nlevels(listId), |
I NrMax, 1, nLevOutp, |
339 |
I qtmp1, -nRec, myIter, myThid ) |
I qtmp1, -nRec, myIter, myThid ) |
340 |
ENDIF |
ENDIF |
341 |
|
|
342 |
#ifdef ALLOW_MNC |
#ifdef ALLOW_MNC |
343 |
IF (useMNC .AND. diag_mnc) THEN |
IF (useMNC .AND. diag_mnc) THEN |
344 |
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CALL DIAGNOSTICS_MNC_OUT( |
345 |
_BEGIN_MASTER( myThid ) |
I NrMax, nLevOutp, listId, ndId, |
346 |
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I diag_mnc_bn, |
347 |
DO ii = 1,CW_DIMS |
I useMissingValue, misValLoc, |
348 |
d_cw_name(1:NLEN) = dn_blnk(1:NLEN) |
I qtmp1, |
349 |
dn(ii)(1:NLEN) = dn_blnk(1:NLEN) |
I myTime, myIter, myThid ) |
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ENDDO |
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C Note that the "d_cw_name" variable is a hack that hides a |
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C subtlety within MNC. Basically, each MNC-wrapped file is |
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C caching its own concept of what each "grid name" (that is, a |
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C dimension group name) means. So one cannot re-use the same |
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C "grid" name for different collections of dimensions within a |
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C given file. By appending the "ndId" values to each name, we |
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C guarantee uniqueness within each MNC-produced file. |
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WRITE(d_cw_name,'(a,i6.6)') 'd_cw_',ndId |
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C XY dimensions |
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dim(1) = sNx + 2*OLx |
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dim(2) = sNy + 2*OLy |
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ib(1) = OLx + 1 |
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ib(2) = OLy + 1 |
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IF (gdiag(ndId)(2:2) .EQ. 'M') THEN |
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dn(1)(1:2) = 'X' |
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ie(1) = OLx + sNx |
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dn(2)(1:2) = 'Y' |
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ie(2) = OLy + sNy |
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ELSEIF (gdiag(ndId)(2:2) .EQ. 'U') THEN |
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dn(1)(1:3) = 'Xp1' |
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ie(1) = OLx + sNx + 1 |
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dn(2)(1:2) = 'Y' |
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ie(2) = OLy + sNy |
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ELSEIF (gdiag(ndId)(2:2) .EQ. 'V') THEN |
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dn(1)(1:2) = 'X' |
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ie(1) = OLx + sNx |
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dn(2)(1:3) = 'Yp1' |
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ie(2) = OLy + sNy + 1 |
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ELSEIF (gdiag(ndId)(2:2) .EQ. 'Z') THEN |
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dn(1)(1:3) = 'Xp1' |
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ie(1) = OLx + sNx + 1 |
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dn(2)(1:3) = 'Yp1' |
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ie(2) = OLy + sNy + 1 |
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ENDIF |
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C Z is special since it varies |
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WRITE(dn(3),'(a,i6.6)') 'Zd', nlevels(listId) |
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IF ( (gdiag(ndId)(10:10) .EQ. 'R') |
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& .AND. (gdiag(ndId)(9:9) .EQ. 'M') ) THEN |
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WRITE(dn(3),'(a,i6.6)') 'Zmd', nlevels(listId) |
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ENDIF |
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IF ( (gdiag(ndId)(10:10) .EQ. 'R') |
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& .AND. (gdiag(ndId)(9:9) .EQ. 'L') ) THEN |
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WRITE(dn(3),'(a,i6.6)') 'Zld', nlevels(listId) |
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ENDIF |
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IF ( (gdiag(ndId)(10:10) .EQ. 'R') |
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& .AND. (gdiag(ndId)(9:9) .EQ. 'U') ) THEN |
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WRITE(dn(3),'(a,i6.6)') 'Zud', nlevels(listId) |
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ENDIF |
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dim(3) = NrMax |
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ib(3) = 1 |
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ie(3) = nlevels(listId) |
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C Time dimension |
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dn(4)(1:1) = 'T' |
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dim(4) = -1 |
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ib(4) = 1 |
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ie(4) = 1 |
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CALL MNC_CW_ADD_GNAME(d_cw_name, 4, |
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& dim, dn, ib, ie, myThid) |
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CALL MNC_CW_ADD_VNAME(cdiag(ndId), d_cw_name, |
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& 4,5, myThid) |
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CALL MNC_CW_ADD_VATTR_TEXT(cdiag(ndId),'description', |
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& tdiag(ndId),myThid) |
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CALL MNC_CW_ADD_VATTR_TEXT(cdiag(ndId),'units', |
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& udiag(ndId),myThid) |
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C Per the observations of Baylor, this has been commented out |
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C until we have code that can write missing_value attributes |
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C in a way thats compatible with most of the more popular |
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C netCDF tools including ferret. Using all-zeros completely |
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C breaks ferret. |
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C CALL MNC_CW_ADD_VATTR_DBL(cdiag(ndId),'missing_value', |
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C & 0.0 _d 0,myThid) |
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IF ( ( (writeBinaryPrec .EQ. precFloat32) |
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& .AND. (fflags(listId)(1:1) .NE. 'D') |
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& .AND. (fflags(listId)(1:1) .NE. 'R') ) |
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& .OR. (fflags(listId)(1:1) .EQ. 'R')) THEN |
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CALL MNC_CW_RL_W('R',diag_mnc_bn,0,0, |
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& cdiag(ndId), qtmp1, myThid) |
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ELSEIF ( (writeBinaryPrec .EQ. precFloat64) |
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& .OR. (fflags(listId)(1:1) .EQ. 'D') ) THEN |
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CALL MNC_CW_RL_W('D',diag_mnc_bn,0,0, |
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& cdiag(ndId), qtmp1, myThid) |
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ENDIF |
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CALL MNC_CW_DEL_VNAME(cdiag(ndId), myThid) |
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CALL MNC_CW_DEL_GNAME(d_cw_name, myThid) |
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_END_MASTER( myThid ) |
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350 |
ENDIF |
ENDIF |
351 |
#endif /* ALLOW_MNC */ |
#endif /* ALLOW_MNC */ |
352 |
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353 |
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C-- end loop on lm (or ll if ALLOW_MNC) counter |
354 |
ENDDO |
ENDDO |
355 |
C-- end of Processing Fld # md |
C-- end of Processing Fld # md |
356 |
ENDIF |
ENDIF |
357 |
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ENDDO |
358 |
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359 |
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#ifdef ALLOW_MNC |
360 |
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C-- end loop on jj counter |
361 |
ENDDO |
ENDDO |
362 |
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#endif |
363 |
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364 |
#ifdef ALLOW_MDSIO |
#ifdef ALLOW_MDSIO |
365 |
IF (diag_mdsio) THEN |
IF (diag_mdsio) THEN |
366 |
C- Note: temporary: since it's a pain to add more arguments to |
C- Note: temporary: since it is a pain to add more arguments to |
367 |
C all MDSIO S/R, uses instead this specific S/R to write only |
C all MDSIO S/R, uses instead this specific S/R to write only |
368 |
C meta files but with more informations in it. |
C meta files but with more informations in it. |
369 |
glf = globalFiles |
glf = globalFiles |
370 |
nRec = nfields(listId)*averageCycle(listId) |
nRec = nfields(listId)*averageCycle(listId) |
371 |
CALL MDS_WR_METAFILES(fn, prec, glf, .FALSE., |
CALL MDS_WR_METAFILES(fn, prec, glf, .FALSE., |
372 |
& 0, 0, nlevels(listId), ' ', |
& 0, 0, nLevOutp, ' ', |
373 |
& nfields(listId), flds(1,listId), 1, myTime, |
& nfields(listId), flds(1,listId), nTimRec, timeRec, |
374 |
& nRec, myIter, myThid) |
& nRec, myIter, myThid) |
375 |
ENDIF |
ENDIF |
376 |
#endif /* ALLOW_MDSIO */ |
#endif /* ALLOW_MDSIO */ |