model/src/write_state.F

C $Header: /u/gcmpack/MITgcm/model/src/write_state.F,v 1.48 2004/10/19 02:39:58 jmc Exp $
C $Name:  $

#include "PACKAGES_CONFIG.h"
#include "CPP_OPTIONS.h"

#undef  MULTIPLE_RECORD_STATE_FILES

C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
CBOP
C     !ROUTINE: WRITE_STATE 

C     !INTERFACE:
      SUBROUTINE WRITE_STATE ( myTime, myIter, myThid )

C     !DESCRIPTION:
C     This is the controlling routine for writing mid-level IO.  It
C     includes code for diagnosing W and RHO for output.

C     The CPP flag (MULTIPLE_RECORD_STATE_FILES) is #define/#undefed
C     here since it is specific to this routine and very user-preference
C     specific. If #undefed (default) the state files are written as in
C     all versions prior to checkpoint32, where a file is created per
C     variable, per time and per tile. This *has* to be the default
C     because most users use this mode and all utilities and scripts
C     (diagnostic) assume this form.  It is also robust, as explained
C     below.
C     
C     If #defined, subsequent snap-shots are written as records in the
C     same file (no iteration number in filenames). The main advantage
C     is fewer files.  The disadvantages are that:
C       (1) it breaks a lot of diagnostic scripts,
C       (2) for large or long problems this creates huge files,
C       (3) its an unexpected, unsolicited change in behaviour which 
C           came as a surprise (in c32) and is an inconvenience to 
C           several users
C       (4) it can not accomodate changing the frequency of output
C           after a pickup (this is trivial in previous method but 
C           needs new code and parameters in this new method)
C
C      Known Bugs include: 
C       (1) if the length of integration is not exactly an integer
C           times the output frequency then the last record written
C           (at end of integration) overwrites a previously written
C           record corresponding to an earier time. *BE WARNED*

C     !USES:
      IMPLICIT NONE
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#ifdef ALLOW_MNC
#include "MNC_PARAMS.h"
#endif
#include "DYNVARS.h"
#include "GRID.h" 
#include "EOS.h"

      LOGICAL  DIFFERENT_MULTIPLE
      EXTERNAL DIFFERENT_MULTIPLE
      INTEGER  IO_ERRCOUNT
      EXTERNAL IO_ERRCOUNT

C     !INPUT/OUTPUT PARAMETERS:
C     myThid - Thread number for this instance of the routine.
C     myIter - Iteration number
C     myTime - Current time of simulation ( s )
      _RL     myTime
      INTEGER myThid
      INTEGER myIter

C     !LOCAL VARIABLES:
      CHARACTER*(MAX_LEN_MBUF) suff
      INTEGER iRec
CEOP

      IF ( 
     &     DIFFERENT_MULTIPLE(dumpFreq,myTime,
     &     myTime-deltaTClock) .OR. 
     &     myTime.EQ.endTime .OR.
     &     myTime.EQ.startTime
     &     ) THEN
        IF ( dumpFreq .EQ. 0.0 ) THEN
          iRec = 1
        ELSE
          iRec = int ( (myTime-startTime) / dumpFreq +1.5 )
        ENDIF
         
C       Going to really do some IO. Make everyone except master thread wait.
        _BARRIER
        _BEGIN_MASTER( myThid )

C       Write model fields
        IF (snapshot_mdsio) THEN

#ifdef MULTIPLE_RECORD_STATE_FILES

C         Write each snap-shot as a new record in one file per variable
C         - creates relatively few files but these files can become huge
          CALL WRITE_REC_XYZ_RL( 'U',  uVel,iRec,myIter,myThid)
          CALL WRITE_REC_XYZ_RL( 'V',  vVel,iRec,myIter,myThid)
          CALL WRITE_REC_XYZ_RL( 'T', theta,iRec,myIter,myThid)
          CALL WRITE_REC_XYZ_RL( 'S',  salt,iRec,myIter,myThid)
          CALL WRITE_REC_XY_RL('Eta',etaN,iRec,myIter,myThid)
          CALL WRITE_REC_XYZ_RL( 'W',wVel,iRec,myIter,myThid)
#ifdef ALLOW_NONHYDROSTATIC
          IF (nonHydroStatic) THEN
            CALL WRITE_REC_XYZ_RL( 'PNH',phi_nh,iRec,myIter,myThid)
          ENDIF
#endif /* ALLOW_NONHYDROSTATIC */
#ifdef NONLIN_FRSURF
c         CALL WRITE_REC_XYZ_RS('hFacC.',hFacC,iRec,myIter,myThid)
c         CALL WRITE_REC_XYZ_RS('hFacW.',hFacW,iRec,myIter,myThid)
c         CALL WRITE_REC_XYZ_RS('hFacS.',hFacS,iRec,myIter,myThid)
#endif /* NONLIN_FRSURF */

#else /* MULTIPLE_RECORD_STATE_FILES */

C         Write each snap-shot as a new file (original and default
C         method) -- creates many files but for large configurations is
C         easier to transfer analyse a particular snap-shots
          WRITE(suff,'(I10.10)') myIter
          CALL WRITE_FLD_XYZ_RL( 'U.',suff,uVel,myIter,myThid)
          CALL WRITE_FLD_XYZ_RL( 'V.',suff,vVel,myIter,myThid)
          CALL WRITE_FLD_XYZ_RL( 'T.',suff,theta,myIter,myThid)
          CALL WRITE_FLD_XYZ_RL( 'S.',suff,salt,myIter,myThid)
          CALL WRITE_FLD_XY_RL('Eta.',suff,etaN,myIter,myThid)
          CALL WRITE_FLD_XYZ_RL( 'W.',suff,wVel,myIter,myThid)
          IF ( useDynP_inEos_Zc .OR. myIter.NE.nIter0 ) THEN
            CALL WRITE_FLD_XYZ_RL('PH.',suff,totPhiHyd,myIter,myThid)
          ENDIF
          IF ( fluidIsWater .AND. (myIter.NE.nIter0) ) THEN
            CALL WRITE_FLD_XY_RL('PHL.',suff,phiHydLow,myIter,myThid)
          ENDIF
#ifdef ALLOW_NONHYDROSTATIC
          IF (nonHydroStatic) THEN
            CALL WRITE_FLD_XYZ_RL( 'PNH.',suff,phi_nh,myIter,myThid)
          ENDIF
#endif /* ALLOW_NONHYDROSTATIC */
#ifdef NONLIN_FRSURF
c         CALL WRITE_FLD_XYZ_RS('hFacC.',suff,hFacC,myIter,myThid)
c         CALL WRITE_FLD_XYZ_RS('hFacW.',suff,hFacW,myIter,myThid)
c         CALL WRITE_FLD_XYZ_RS('hFacS.',suff,hFacS,myIter,myThid)
#endif /* NONLIN_FRSURF */

#endif /* MULTIPLE_RECORD_STATE_FILES */

        ENDIF
        
        _END_MASTER( myThid )
        _BARRIER

#ifdef ALLOW_MNC
        IF (useMNC .AND. snapshot_mnc) THEN
C         Write dynvars using the MNC package
          CALL MNC_CW_SET_UDIM('state', -1, myThid)
          CALL MNC_CW_I_W_S('I','state',0,0,'iter', myIter, myThid)
          CALL MNC_CW_SET_UDIM('state', 0, myThid)
          CALL MNC_CW_RL_W_S('D','state',0,0,'model_time',myTime,myThid)
          CALL MNC_CW_RL_W('D','state',0,0,'U', uVel, myThid)
          CALL MNC_CW_RL_W('D','state',0,0,'V', vVel, myThid)
          CALL MNC_CW_RL_W('D','state',0,0,'Temp', theta, myThid)
          CALL MNC_CW_RL_W('D','state',0,0,'S', salt, myThid)
          CALL MNC_CW_RL_W('D','state',0,0,'Eta', etaN, myThid)
          CALL MNC_CW_RL_W('D','state',0,0,'W', wVel, myThid)
          IF ( useDynP_inEos_Zc .OR. myIter.NE.nIter0 ) THEN
            CALL MNC_CW_SET_UDIM('phiHyd', -1, myThid)
            CALL MNC_CW_I_W_S('I','phiHyd',0,0,'iter',myIter,myThid)
            CALL MNC_CW_SET_UDIM('phiHyd', 0, myThid)
            CALL MNC_CW_RL_W('D','phiHyd',0,0,'phiHyd',
     &           totPhiHyd, myThid)
          ENDIF
          IF ( fluidIsWater .AND. (myIter .NE. nIter0) ) THEN
            CALL MNC_CW_SET_UDIM('phiHydLow', -1, myThid)
            CALL MNC_CW_I_W_S('I','phiHydLow',0,0,'iter',myIter,myThid)
            CALL MNC_CW_SET_UDIM('phiHydLow', 0, myThid)
            CALL MNC_CW_RL_W('D','phiHydLow',0,0,'phiHydLow',
     &           phiHydLow, myThid)
          ENDIF
#ifdef ALLOW_NONHYDROSTATIC
          IF (nonHydroStatic) THEN
            CALL MNC_CW_RL_W('D','state',0,0,'phi_nh',phi_nh,myThid)
          ENDIF
#endif /* ALLOW_NONHYDROSTATIC */
        ENDIF
#endif /*  ALLOW_MNC  */
        
      ENDIF

      RETURN
      END
1	mlosch	1.49	C $Header: /u/gcmpack/MITgcm/model/src/write_state.F,v 1.48 2004/10/19 02:39:58 jmc Exp $
2	mlosch	1.19	C $Name: $
3	edhill	1.25
4			#include "PACKAGES_CONFIG.h"
5	adcroft	1.1	#include "CPP_OPTIONS.h"
6
7	adcroft	1.5	#undef MULTIPLE_RECORD_STATE_FILES
8
9	edhill	1.42	C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-\|--+----\|
10	cnh	1.15	CBOP
11			C !ROUTINE: WRITE_STATE
12	edhill	1.42
13	cnh	1.15	C !INTERFACE:
14	adcroft	1.17	SUBROUTINE WRITE_STATE ( myTime, myIter, myThid )
15	edhill	1.42
16			C !DESCRIPTION:
17			C This is the controlling routine for writing mid-level IO. It
18			C includes code for diagnosing W and RHO for output.
19
20			C The CPP flag (MULTIPLE_RECORD_STATE_FILES) is #define/#undefed
21			C here since it is specific to this routine and very user-preference
22			C specific. If #undefed (default) the state files are written as in
23			C all versions prior to checkpoint32, where a file is created per
24			C variable, per time and per tile. This has to be the default
25			C because most users use this mode and all utilities and scripts
26			C (diagnostic) assume this form. It is also robust, as explained
27			C below.
28			C
29			C If #defined, subsequent snap-shots are written as records in the
30			C same file (no iteration number in filenames). The main advantage
31			C is fewer files. The disadvantages are that:
32			C (1) it breaks a lot of diagnostic scripts,
33			C (2) for large or long problems this creates huge files,
34			C (3) its an unexpected, unsolicited change in behaviour which
35			C came as a surprise (in c32) and is an inconvenience to
36			C several users
37			C (4) it can not accomodate changing the frequency of output
38			C after a pickup (this is trivial in previous method but
39			C needs new code and parameters in this new method)
40			C
41			C Known Bugs include:
42			C (1) if the length of integration is not exactly an integer
43			C times the output frequency then the last record written
44			C (at end of integration) overwrites a previously written
45			C record corresponding to an earier time. BE WARNED
46	adcroft	1.5
47	cnh	1.15	C !USES:
48	adcroft	1.1	IMPLICIT NONE
49			#include "SIZE.h"
50			#include "EEPARAMS.h"
51			#include "PARAMS.h"
52	edhill	1.47	#ifdef ALLOW_MNC
53			#include "MNC_PARAMS.h"
54			#endif
55	adcroft	1.1	#include "DYNVARS.h"
56	jmc	1.16	#include "GRID.h"
57	mlosch	1.18	#include "EOS.h"
58	heimbach	1.43
59	adcroft	1.1	LOGICAL DIFFERENT_MULTIPLE
60			EXTERNAL DIFFERENT_MULTIPLE
61			INTEGER IO_ERRCOUNT
62			EXTERNAL IO_ERRCOUNT
63
64	cnh	1.15	C !INPUT/OUTPUT PARAMETERS:
65	adcroft	1.1	C myThid - Thread number for this instance of the routine.
66			C myIter - Iteration number
67	adcroft	1.17	C myTime - Current time of simulation ( s )
68			_RL myTime
69	adcroft	1.1	INTEGER myThid
70			INTEGER myIter
71
72	cnh	1.15	C !LOCAL VARIABLES:
73	adcroft	1.5	CHARACTER*(MAX_LEN_MBUF) suff
74	heimbach	1.4	INTEGER iRec
75	cnh	1.15	CEOP
76	adcroft	1.1
77			IF (
78	adcroft	1.17	& DIFFERENT_MULTIPLE(dumpFreq,myTime,
79			& myTime-deltaTClock) .OR.
80			& myTime.EQ.endTime .OR.
81			& myTime.EQ.startTime
82	heimbach	1.4	& ) THEN
83	edhill	1.42	IF ( dumpFreq .EQ. 0.0 ) THEN
84			iRec = 1
85			ELSE
86			iRec = int ( (myTime-startTime) / dumpFreq +1.5 )
87			ENDIF
88	heimbach	1.4
89	edhill	1.42	C Going to really do some IO. Make everyone except master thread wait.
90			_BARRIER
91			_BEGIN_MASTER( myThid )
92	adcroft	1.1
93	edhill	1.42	C Write model fields
94			IF (snapshot_mdsio) THEN
95	jmc	1.16
96	adcroft	1.5	#ifdef MULTIPLE_RECORD_STATE_FILES
97	jmc	1.16
98	edhill	1.42	C Write each snap-shot as a new record in one file per variable
99			C - creates relatively few files but these files can become huge
100			CALL WRITE_REC_XYZ_RL( 'U', uVel,iRec,myIter,myThid)
101			CALL WRITE_REC_XYZ_RL( 'V', vVel,iRec,myIter,myThid)
102			CALL WRITE_REC_XYZ_RL( 'T', theta,iRec,myIter,myThid)
103			CALL WRITE_REC_XYZ_RL( 'S', salt,iRec,myIter,myThid)
104			CALL WRITE_REC_XY_RL('Eta',etaN,iRec,myIter,myThid)
105			CALL WRITE_REC_XYZ_RL( 'W',wVel,iRec,myIter,myThid)
106	adcroft	1.1	#ifdef ALLOW_NONHYDROSTATIC
107	edhill	1.42	IF (nonHydroStatic) THEN
108			CALL WRITE_REC_XYZ_RL( 'PNH',phi_nh,iRec,myIter,myThid)
109			ENDIF
110	adcroft	1.5	#endif /* ALLOW_NONHYDROSTATIC */
111	jmc	1.16	#ifdef NONLIN_FRSURF
112	edhill	1.42	c CALL WRITE_REC_XYZ_RS('hFacC.',hFacC,iRec,myIter,myThid)
113			c CALL WRITE_REC_XYZ_RS('hFacW.',hFacW,iRec,myIter,myThid)
114			c CALL WRITE_REC_XYZ_RS('hFacS.',hFacS,iRec,myIter,myThid)
115	jmc	1.16	#endif /* NONLIN_FRSURF */
116
117			#else /* MULTIPLE_RECORD_STATE_FILES */
118
119	edhill	1.42	C Write each snap-shot as a new file (original and default
120			C method) -- creates many files but for large configurations is
121			C easier to transfer analyse a particular snap-shots
122			WRITE(suff,'(I10.10)') myIter
123			CALL WRITE_FLD_XYZ_RL( 'U.',suff,uVel,myIter,myThid)
124			CALL WRITE_FLD_XYZ_RL( 'V.',suff,vVel,myIter,myThid)
125			CALL WRITE_FLD_XYZ_RL( 'T.',suff,theta,myIter,myThid)
126			CALL WRITE_FLD_XYZ_RL( 'S.',suff,salt,myIter,myThid)
127			CALL WRITE_FLD_XY_RL('Eta.',suff,etaN,myIter,myThid)
128			CALL WRITE_FLD_XYZ_RL( 'W.',suff,wVel,myIter,myThid)
129			IF ( useDynP_inEos_Zc .OR. myIter.NE.nIter0 ) THEN
130			CALL WRITE_FLD_XYZ_RL('PH.',suff,totPhiHyd,myIter,myThid)
131			ENDIF
132	jmc	1.48	IF ( fluidIsWater .AND. (myIter.NE.nIter0) ) THEN
133	edhill	1.42	CALL WRITE_FLD_XY_RL('PHL.',suff,phiHydLow,myIter,myThid)
134			ENDIF
135	adcroft	1.5	#ifdef ALLOW_NONHYDROSTATIC
136	edhill	1.42	IF (nonHydroStatic) THEN
137			CALL WRITE_FLD_XYZ_RL( 'PNH.',suff,phi_nh,myIter,myThid)
138			ENDIF
139	adcroft	1.5	#endif /* ALLOW_NONHYDROSTATIC */
140	jmc	1.16	#ifdef NONLIN_FRSURF
141	edhill	1.42	c CALL WRITE_FLD_XYZ_RS('hFacC.',suff,hFacC,myIter,myThid)
142			c CALL WRITE_FLD_XYZ_RS('hFacW.',suff,hFacW,myIter,myThid)
143			c CALL WRITE_FLD_XYZ_RS('hFacS.',suff,hFacS,myIter,myThid)
144	jmc	1.16	#endif /* NONLIN_FRSURF */
145
146	adcroft	1.5	#endif /* MULTIPLE_RECORD_STATE_FILES */
147	adcroft	1.1
148	edhill	1.42	ENDIF
149
150			_END_MASTER( myThid )
151			_BARRIER
152	edhill	1.26
153			#ifdef ALLOW_MNC
154	edhill	1.42	IF (useMNC .AND. snapshot_mnc) THEN
155			C Write dynvars using the MNC package
156			CALL MNC_CW_SET_UDIM('state', -1, myThid)
157	edhill	1.45	CALL MNC_CW_I_W_S('I','state',0,0,'iter', myIter, myThid)
158	edhill	1.42	CALL MNC_CW_SET_UDIM('state', 0, myThid)
159	edhill	1.45	CALL MNC_CW_RL_W_S('D','state',0,0,'model_time',myTime,myThid)
160	edhill	1.42	CALL MNC_CW_RL_W('D','state',0,0,'U', uVel, myThid)
161			CALL MNC_CW_RL_W('D','state',0,0,'V', vVel, myThid)
162	edhill	1.44	CALL MNC_CW_RL_W('D','state',0,0,'Temp', theta, myThid)
163	edhill	1.42	CALL MNC_CW_RL_W('D','state',0,0,'S', salt, myThid)
164			CALL MNC_CW_RL_W('D','state',0,0,'Eta', etaN, myThid)
165			CALL MNC_CW_RL_W('D','state',0,0,'W', wVel, myThid)
166			IF ( useDynP_inEos_Zc .OR. myIter.NE.nIter0 ) THEN
167			CALL MNC_CW_SET_UDIM('phiHyd', -1, myThid)
168	edhill	1.45	CALL MNC_CW_I_W_S('I','phiHyd',0,0,'iter',myIter,myThid)
169	edhill	1.42	CALL MNC_CW_SET_UDIM('phiHyd', 0, myThid)
170			CALL MNC_CW_RL_W('D','phiHyd',0,0,'phiHyd',
171			& totPhiHyd, myThid)
172			ENDIF
173	jmc	1.48	IF ( fluidIsWater .AND. (myIter .NE. nIter0) ) THEN
174	edhill	1.42	CALL MNC_CW_SET_UDIM('phiHydLow', -1, myThid)
175	edhill	1.45	CALL MNC_CW_I_W_S('I','phiHydLow',0,0,'iter',myIter,myThid)
176	edhill	1.42	CALL MNC_CW_SET_UDIM('phiHydLow', 0, myThid)
177			CALL MNC_CW_RL_W('D','phiHydLow',0,0,'phiHydLow',
178			& phiHydLow, myThid)
179			ENDIF
180	edhill	1.32	#ifdef ALLOW_NONHYDROSTATIC
181	edhill	1.42	IF (nonHydroStatic) THEN
182			CALL MNC_CW_RL_W('D','state',0,0,'phi_nh',phi_nh,myThid)
183			ENDIF
184			#endif /* ALLOW_NONHYDROSTATIC */
185	edhill	1.36	ENDIF
186	edhill	1.32	#endif /* ALLOW_MNC */
187	edhill	1.42
188	adcroft	1.1	ENDIF
189
190			RETURN
191			END