/[MITgcm]/MITgcm/model/src/config_summary.F
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revision 1.2 by cnh, Fri Apr 24 02:05:40 1998 UTC revision 1.36 by adcroft, Thu Oct 10 20:07:37 2002 UTC
# Line 1  Line 1 
1  C $Header$  C $Header$
2    C $Name$
3    
4  #include "CPP_EEOPTIONS.h"  #include "CPP_OPTIONS.h"
5    
6  CStartOfInterface  CBOP
7    C     !ROUTINE: CONFIG_SUMMARY
8    C     !INTERFACE:
9        SUBROUTINE CONFIG_SUMMARY( myThid )        SUBROUTINE CONFIG_SUMMARY( myThid )
10  C     /==========================================================\  C     !DESCRIPTION: \bv
11  C     | SUBROUTINE CONFIG_SUMMARY                                |  C     *=========================================================*
12  C     | o Summarize model prognostic variables.                  |  C     | SUBROUTINE CONFIG_SUMMARY                                
13  C     |==========================================================|  C     | o Summarize model parameter settings.                    
14  C     | This routine writes a tabulated summary of the model     |  C     *=========================================================*
15  C     | configuration.                                           |  C     | This routine writes a tabulated summary of the kernel    
16  C     | Note                                                     |  C     | model configuration. Information describes all the
17  C     |  1. Under multi-process parallelism the summary          |  C     | parameter setting in force and the meaning and units of
18  C     |     is only given for the per-process data.              |  C     | those parameters. Individal packages report a similar
19  C     |  2. Under multi-threading the summary is produced by     |  C     | table for each package using the same format as employed
20  C     |     the master thread. This threads reads data managed by|  C     | here. If parameters are missing or incorrectly described
21  C     |     other threads.                                       |  C     | or dimensioned please contact support@mitgcm.org
22  C     \==========================================================/  C     *=========================================================*
23    C     \ev
24    
25    C     !USES:
26          IMPLICIT NONE
27  C     === Global variables ===  C     === Global variables ===
28  #include "SIZE.h"  #include "SIZE.h"
29  #include "EEPARAMS.h"  #include "EEPARAMS.h"
30  #include "PARAMS.h"  #include "PARAMS.h"
31    #include "EOS.h"
32  #include "GRID.h"  #include "GRID.h"
33  #include "DYNVARS.h"  #include "DYNVARS.h"
34    
35    C     !INPUT/OUTPUT PARAMETERS:
36  C     == Routine arguments ==  C     == Routine arguments ==
37  C     myThid -  Number of this instance of CONFIG_SUMMARY  C     myThid -  Number of this instance of CONFIG_SUMMARY
38        INTEGER myThid        INTEGER myThid
39  CEndOfInterface  CEndOfInterface
40    
41    C     !LOCAL VARIABLES:
42  C     == Local variables ==  C     == Local variables ==
43    C     msgBuf :: Temp. for building output string.
44    C     I,J,K  :: Loop counters.
45    C     bi,bj  :: Tile loop counters.
46    C     xcoord :: Temps. for building lists of values for uni-dimensionally
47    C     ycoord :: varying parameters.
48    C     zcoord ::
49        CHARACTER*(MAX_LEN_MBUF) msgBuf        CHARACTER*(MAX_LEN_MBUF) msgBuf
50          INTEGER                  I,J,K
51          INTEGER                  bi, bj
52          _RL                     xcoord(Nx)
53          _RL                     ycoord(Ny)
54          _RL                     rcoord(Nr+1)
55          INTEGER coordLine
56          INTEGER tileLine
57    CEOP
58    
       _BARRIER  
59    
60          _BARRIER
61        _BEGIN_MASTER(myThid)        _BEGIN_MASTER(myThid)
62        WRITE(msgBuf,100) '// '  
       CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, SQUEEZE_RIGHT , 1)  
63        WRITE(msgBuf,'(A)')        WRITE(msgBuf,'(A)')
64       &'// ======================================================='       &'// ======================================================='
65        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, SQUEEZE_RIGHT , 1)        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
66         &                    SQUEEZE_RIGHT , 1)
67        WRITE(msgBuf,'(A)') '// Model configuration'        WRITE(msgBuf,'(A)') '// Model configuration'
68        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, SQUEEZE_RIGHT , 1)        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
69         &                    SQUEEZE_RIGHT , 1)
70        WRITE(msgBuf,'(A)')        WRITE(msgBuf,'(A)')
71       &'// ======================================================='       &'// ======================================================='
72        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
73       &  SQUEEZE_RIGHT , 1)       &  SQUEEZE_RIGHT , 1)
74    
75          WRITE(msgBuf,'(A)') '//  '
76          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
77         &                    SQUEEZE_RIGHT , 1)
78          WRITE(msgBuf,'(A)')
79         & '// "Physical" paramters ( PARM01 in namelist ) '
80          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
81         &                    SQUEEZE_RIGHT , 1)
82          WRITE(msgBuf,'(A)') '//  '
83          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
84         &                    SQUEEZE_RIGHT , 1)
85          CALL WRITE_1D_R8( tRef, Nr, INDEX_K,'tRef =',
86         &'   /* Reference temperature profile ( oC or oK ) */')
87          CALL WRITE_1D_R8( sRef, Nr, INDEX_K,'sRef =',
88         &'   /* Reference salinity profile ( ppt ) */')
89          CALL WRITE_0D_R8( viscAh, INDEX_NONE,'viscAh =',
90         &'   /* Lateral eddy viscosity ( m^2/s ) */')
91          CALL WRITE_0D_R8( viscA4, INDEX_NONE,'viscAh =',
92         &'   /* Lateral biharmonic viscosity ( m^4/s ) */')
93          CALL WRITE_0D_L( no_slip_sides, INDEX_NONE,
94         & 'no_slip_sides =', '  /* Viscous BCs: No-slip sides */')
95          IF ( viscAz .NE. UNSET_RL ) THEN
96           CALL WRITE_0D_R8( viscAz, INDEX_NONE,'viscAz =',
97         & '   /* Vertical eddy viscosity ( m^2/s ) */')
98          ENDIF
99          IF ( viscAp .NE. UNSET_RL ) THEN
100           CALL WRITE_0D_R8( viscAp, INDEX_NONE,'viscAp =',
101         & '   /* Vertical eddy viscosity ( Pa^2/s ) */')
102          ENDIF
103          CALL WRITE_0D_R8( viscAr,  INDEX_NONE,'viscAr =',
104         &'   /* Vertical eddy viscosity ( units of r^2/s ) */')
105          CALL WRITE_0D_R8( diffKhT, INDEX_NONE,'diffKhT =',
106         &'   /* Laplacian diffusion of heat laterally ( m^2/s ) */')
107          CALL WRITE_0D_R8( diffK4T, INDEX_NONE,'diffK4T =',
108         &'   /* Bihaarmonic diffusion of heat laterally ( m^4/s ) */')
109          CALL WRITE_0D_R8( diffKzT, INDEX_NONE,'diffKzT =',
110         &'   /* Laplacian diffusion of heat vertically ( m^2/s ) */')
111          CALL WRITE_0D_R8( diffKrT, INDEX_NONE,'diffKrT =',
112         &'   /* Laplacian diffusion of heat vertically ( m^2/s ) */')
113          CALL WRITE_0D_R8( diffKhS, INDEX_NONE,'diffKhS =',
114         &'   /* Laplacian diffusion of salt laterally ( m^2/s ) */')
115          CALL WRITE_0D_R8( diffK4S, INDEX_NONE,'diffK4S =',
116         &'   /* Bihaarmonic diffusion of salt laterally ( m^4/s ) */')
117          CALL WRITE_0D_R8( diffKzS, INDEX_NONE,'diffKzS =',
118         &'   /* Laplacian diffusion of salt vertically ( m^2/s ) */')
119          CALL WRITE_0D_R8( diffKrS, INDEX_NONE,'diffKrS =',
120         &'   /* Laplacian diffusion of salt vertically ( m^2/s ) */')
121          CALL WRITE_0D_R8( tAlpha,  INDEX_NONE,'tAlpha =',
122         &'   /* Linear EOS thermal expansion coefficient ( 1/degree ) */')
123          CALL WRITE_0D_R8( sBeta,   INDEX_NONE,'sBeta =',
124         &'   /* Linear EOS haline contraction coefficient ( 1/ppt ) */')
125          IF ( eosType .EQ. 'POLY3' ) THEN
126            WRITE(msgBuf,'(A)')
127         &   '// Polynomial EQS parameters ( from POLY3.COEFFS ) '
128            DO K = 1, Nr
129             WRITE(msgBuf,'(I3,13F8.3)')
130         &   K,eosRefT(K),eosRefS(K),eosSig0(K), (eosC(I,K),I=1,9)
131             CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
132         &                    SQUEEZE_RIGHT , 1)
133            ENDDO
134          ENDIF
135          CALL WRITE_0D_R8( rhonil,  INDEX_NONE,'rhonil =',
136         &'   /* Reference density ( kg/m^3 ) */')
137          CALL WRITE_0D_R8( rhoConst, INDEX_NONE,'rhoConst =',
138         &'   /* Reference density ( kg/m^3 ) */')
139          CALL WRITE_0D_R8( rhoConstFresh, INDEX_NONE,'rhoConstFresh =',
140         &'   /* Reference density ( kg/m^3 ) */')
141          CALL WRITE_0D_R8( gravity, INDEX_NONE,'gravity =',
142         &'   /* Gravitational acceleration ( m/s^2 ) */')
143          CALL WRITE_0D_R8( gBaro,   INDEX_NONE,'gBaro =',
144         &'   /* Barotropic gravity ( m/s^2 ) */')
145          CALL WRITE_0D_R8( f0,      INDEX_NONE,'f0 =',
146         &'   /* Reference coriolis parameter ( 1/s ) */')
147          CALL WRITE_0D_R8( beta,    INDEX_NONE,'beta =',
148         &'   /* Beta ( 1/(m.s) ) */')
149    
150          CALL WRITE_0D_R8( freeSurfFac, INDEX_NONE,'freeSurfFac =',
151         &'   /* Implicit free surface factor */')
152          CALL WRITE_0D_L( implicitFreeSurface, INDEX_NONE,
153         &                 'implicitFreeSurface =',
154         &'   /* Implicit free surface on/off flag */')
155          CALL WRITE_0D_L( rigidLid, INDEX_NONE,
156         &                 'rigidLid =',
157         &'   /* Rigid lid on/off flag */')
158          CALL WRITE_0D_R8( implicSurfPress, INDEX_NONE,
159         &'implicSurfPress =',
160         &'   /* Surface Pressure implicit factor (0-1)*/')
161          CALL WRITE_0D_R8( implicDiv2Dflow, INDEX_NONE,
162         &'implicDiv2Dflow =',
163         &'   /* Barot. Flow Div. implicit factor (0-1)*/')
164          CALL WRITE_0D_L( exactConserv, INDEX_NONE,
165         &'exactConserv =',
166         &'   /* Exact Volume Conservation on/off flag*/')
167          CALL WRITE_0D_L( uniformLin_PhiSurf, INDEX_NONE,
168         &'uniformLin_PhiSurf =',
169         &'   /* use uniform Bo_surf on/off flag*/')
170          CALL WRITE_0D_I( nonlinFreeSurf, INDEX_NONE,
171         &'nonlinFreeSurf =',
172         &'   /* Non-linear Free Surf. options (-1,0,1,2,3)*/')
173          WRITE(msgBuf,'(2A)') '     -1,0= Off ; 1,2,3= On,',
174         &  ' 2=+rescale gU,gV, 3=+update cg2d solv.'
175          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
176         &                    SQUEEZE_RIGHT , 1)
177          CALL WRITE_0D_R8( hFacInf, INDEX_NONE,
178         &'hFacInf =',
179         &'   /* lower threshold for hFac (nonlinFreeSurf only)*/')
180          CALL WRITE_0D_R8( hFacSup, INDEX_NONE,
181         &'hFacSup =',
182         &'   /* upper threshold for hFac (nonlinFreeSurf only)*/')
183          CALL WRITE_0D_L( useRealFreshWaterFlux, INDEX_NONE,
184         &'useRealFreshWaterFlux =',
185         &'   /* Real Fresh Water Flux on/off flag*/')
186          IF (useRealFreshWaterFlux .AND. nonlinFreeSurf.GT.0) THEN
187          CALL WRITE_0D_R8( temp_EvPrRn, INDEX_NONE,
188         &'temp_EvPrRn =',
189         &' /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/')
190          CALL WRITE_0D_R8( salt_EvPrRn, INDEX_NONE,
191         &'salt_EvPrRn =',
192         &' /* Salin. of Evap/Prec/R (UNSET=use local S)(ppt)*/')
193          CALL WRITE_0D_R8( trac_EvPrRn, INDEX_NONE,
194         &'trac_EvPrRn =',
195         &' /* Tracer in Evap/Prec/R (UNSET=use local Tr)*/')
196          ELSE
197          CALL WRITE_0D_R8( convertFW2Salt, INDEX_NONE,
198         &'convertFW2Salt =',
199         &' /* convert F.W. Flux to Salt Flux (-1=use local S)(ppt)*/')
200          ENDIF
201    
202          CALL WRITE_0D_L( multiDimAdvection, INDEX_NONE,
203         & 'multiDimAdvection =',
204         &'   /* enable/disable Multi-Dim Advection */')
205          CALL WRITE_0D_L( staggerTimeStep, INDEX_NONE,
206         &                 'staggerTimeStep =',
207         &'   /* Stagger time stepping on/off flag */')
208          CALL WRITE_0D_L( momStepping,  INDEX_NONE,
209         & 'momStepping =', '  /* Momentum equation on/off flag */')
210          CALL WRITE_0D_L( momAdvection, INDEX_NONE,
211         & 'momAdvection =', '  /* Momentum advection on/off flag */')
212          CALL WRITE_0D_L( momViscosity, INDEX_NONE,
213         & 'momViscosity =', '  /* Momentum viscosity on/off flag */')
214          CALL WRITE_0D_L( useCoriolis,  INDEX_NONE,
215         & 'useCoriolis =', '  /* Coriolis on/off flag */')
216          CALL WRITE_0D_L( momForcing,   INDEX_NONE,
217         & 'momForcing =', '  /* Momentum forcing on/off flag */')
218          CALL WRITE_0D_L( momPressureForcing, INDEX_NONE,
219         & 'momPressureForcing =',  
220         & '  /* Momentum pressure term on/off flag */')
221          CALL WRITE_0D_L( tempStepping,  INDEX_NONE,
222         & 'tempStepping =', '  /* Temperature equation on/off flag */')
223          CALL WRITE_0D_L( tempAdvection,  INDEX_NONE,
224         & 'tempAdvection=', '  /* Temperature advection on/off flag */')
225          CALL WRITE_0D_L( tempForcing,  INDEX_NONE,
226         & 'tempForcing  =', '  /* Temperature forcing on/off flag */')
227          CALL WRITE_0D_L( saltStepping,  INDEX_NONE,
228         & 'saltStepping =', '  /* Salinity equation on/off flag */')
229          CALL WRITE_0D_L( saltAdvection,  INDEX_NONE,
230         & 'saltAdvection=', '  /* Salinity advection on/off flag */')
231          CALL WRITE_0D_L( saltForcing,  INDEX_NONE,
232         & 'saltForcing  =', '  /* Salinity forcing on/off flag */')
233          CALL WRITE_0D_L( nonHydrostatic, INDEX_NONE,
234         & 'nonHydrostatic =', '  /* Non-Hydrostatic on/off flag */')
235          WRITE(msgBuf,'(A)') '//  '
236          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
237         &                    SQUEEZE_RIGHT , 1)
238    
239          WRITE(msgBuf,'(A)')
240         & '// Elliptic solver(s) paramters ( PARM02 in namelist ) '
241          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
242         &                    SQUEEZE_RIGHT , 1)
243          WRITE(msgBuf,'(A)') '//  '
244          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
245         &                    SQUEEZE_RIGHT , 1)
246          CALL WRITE_0D_I( cg2dMaxIters,   INDEX_NONE,'cg2dMaxIters =',
247         &'   /* Upper limit on 2d con. grad iterations  */')
248          CALL WRITE_0D_I( cg2dChkResFreq, INDEX_NONE,'cg2dChkResFreq =',
249         &'   /* 2d con. grad convergence test frequency */')
250          CALL WRITE_0D_R8( cg2dTargetResidual, INDEX_NONE,
251         & 'cg2dTargetResidual =',
252         &'   /* 2d con. grad target residual  */')
253    
254          WRITE(msgBuf,'(A)') '//  '
255          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
256         &                    SQUEEZE_RIGHT , 1)
257          WRITE(msgBuf,'(A)')
258         & '// Time stepping paramters ( PARM03 in namelist ) '
259          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
260         &                    SQUEEZE_RIGHT , 1)
261          WRITE(msgBuf,'(A)') '//  '
262          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
263         &                    SQUEEZE_RIGHT , 1)
264          CALL WRITE_0D_I( nIter0, INDEX_NONE,'nIter0 =',
265         &'   /* Base timestep number  */')
266          CALL WRITE_0D_I( nTimeSteps, INDEX_NONE,'nTimeSteps =',
267         &'   /* Number of timesteps */')
268          CALL WRITE_0D_R8( deltaTmom, INDEX_NONE,'deltatTmom =',
269         &'   /* Momentum equation timestep ( s ) */')
270          CALL WRITE_0D_R8( deltaTtracer, INDEX_NONE,'deltatTtracer =',
271         &'   /* Tracer equation timestep ( s ) */')
272          CALL WRITE_0D_R8( deltaTClock, INDEX_NONE,'deltatTClock  =',
273         &'   /* Model clock timestep ( s ) */')
274          CALL WRITE_0D_R8( cAdjFreq, INDEX_NONE,'cAdjFreq =',
275         &'   /* Convective adjustment interval ( s ) */')
276          CALL WRITE_0D_L( forcing_In_AB,INDEX_NONE,'forcing_In_AB =',
277         &'   /* put T,S Forcing in Adams-Bash. stepping */')
278          CALL WRITE_0D_R8( abeps, INDEX_NONE,'abeps =',
279         &'   /* Adams-Bashforth stabilizing weight */')
280          CALL WRITE_0D_R8( tauCD, INDEX_NONE,'tauCD =',
281         &'   /* CD coupling time-scale ( s ) */')
282          CALL WRITE_0D_R8( rCD, INDEX_NONE,'rCD =',
283         &'   /* Normalised CD coupling parameter */')
284          CALL WRITE_0D_R8( startTime, INDEX_NONE,'startTime =',
285         &'   /* Run start time ( s ). */')
286          CALL WRITE_0D_R8( endTime, INDEX_NONE,'endTime =',
287         &'   /* Integration ending time ( s ). */')
288          CALL WRITE_0D_R8( pChkPtFreq, INDEX_NONE,'pChkPtFreq =',
289         &'   /* Permanent restart/checkpoint file interval ( s ). */')
290          CALL WRITE_0D_R8( chkPtFreq, INDEX_NONE,'chkPtFreq =',
291         &'   /* Rolling restart/checkpoint file interval ( s ). */')
292          CALL WRITE_0D_R8( dumpFreq, INDEX_NONE,'dumpFreq =',
293         &'   /* Model state write out interval ( s ). */')
294    
295          WRITE(msgBuf,'(A)') '//  '
296          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
297         &                    SQUEEZE_RIGHT , 1)
298          WRITE(msgBuf,'(A)')
299         & '// Gridding paramters ( PARM04 in namelist ) '
300          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
301         &                    SQUEEZE_RIGHT , 1)
302          WRITE(msgBuf,'(A)') '//  '
303          CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
304         &                    SQUEEZE_RIGHT , 1)
305          CALL WRITE_0D_L( usingCartesianGrid, INDEX_NONE,
306         & 'usingCartesianGrid =',
307         &'   /* Cartesian coordinates flag ( True / False ) */')
308          CALL WRITE_0D_L( usingSphericalPolarGrid, INDEX_NONE,
309         & 'usingSphericalPolarGrid =',
310         &'   /* Spherical coordinates flag ( True / False ) */')
311          CALL WRITE_0D_L( groundAtK1, INDEX_NONE, 'groundAtK1 =',
312         &'   /* Lower Boundary (ground) at the surface(k=1) ( T / F ) */')
313          CALL WRITE_0D_R8( Ro_SeaLevel, INDEX_NONE,'Ro_SeaLevel =',
314         &'   /* r(1) ( units of r ) */')
315          CALL WRITE_0D_R8( rkFac, INDEX_NONE,'rkFac =',
316         &'   /* minus Vertical index orientation  */')
317          CALL WRITE_0D_R8( horiVertRatio, INDEX_NONE,'horiVertRatio =',
318         &'   /* Ratio on units : Horiz - Vertical */')
319    c     CALL WRITE_1D_R8( delZ,Nr, INDEX_K,'delZ = ',
320    c    &'   /* W spacing ( m ) */')
321    c     CALL WRITE_1D_R8( delP,Nr, INDEX_K,'delP = ',
322    c    &'   /* W spacing ( Pa ) */')
323    c     CALL WRITE_1D_R8( delR,Nr, INDEX_K,'delR = ',
324    c    &'   /* W spacing ( units of r ) */')
325          CALL WRITE_1D_R8( drC,Nr, INDEX_K,'drC = ',
326         &'   /* C spacing ( units of r ) */')
327          CALL WRITE_1D_R8( drF,Nr, INDEX_K,'drF = ',
328         &'   /* W spacing ( units of r ) */')
329          CALL WRITE_1D_R8( delX, Nx, INDEX_I,'delX = ',
330         &'   /* U spacing ( m - cartesian, degrees - spherical ) */')
331          CALL WRITE_1D_R8( delY, Ny, INDEX_J,'delY = ',
332         &'   /* V spacing ( m - cartesian, degrees - spherical ) */')
333          CALL WRITE_0D_R8( phiMin, INDEX_NONE,'phiMin = ',
334         &'   /* South edge (ignored - cartesian, degrees - spherical ) */')
335          CALL WRITE_0D_R8( thetaMin, INDEX_NONE,'thetaMin = ',
336         &'   /* West edge ( ignored - cartesian, degrees - spherical ) */')
337          CALL WRITE_0D_R8( rSphere, INDEX_NONE,'rSphere = ',
338         &'   /* Radius ( ignored - cartesian, m - spherical ) */')
339          DO bi=1,nSx
340           DO I=1,sNx
341            xcoord((bi-1)*sNx+I) = xC(I,1,bi,1)
342           ENDDO
343          ENDDO
344          CALL WRITE_1D_R8( xcoord, sNx*nSx, INDEX_I,'xcoord = ',
345         &'   /* P-point X coord ( m - cartesian, degrees - spherical ) */')
346          DO bj=1,nSy
347           DO J=1,sNy
348            ycoord((bj-1)*sNy+J) = yC(1,J,1,bj)
349           ENDDO
350          ENDDO
351          CALL WRITE_1D_R8( ycoord, sNy*nSy, INDEX_J,'ycoord = ',
352         &'   /* P-point Y coord ( m - cartesian, degrees - spherical ) */')
353          DO K=1,Nr
354           rcoord(K) = rC(K)
355          ENDDO
356          CALL WRITE_1D_R8( rcoord, Nr, INDEX_K,'rcoord = ',
357         &'   /* P-point R coordinate (  units of r ) */')
358          DO K=1,Nr+1
359           rcoord(K) = rF(K)
360          ENDDO
361          CALL WRITE_1D_R8( rcoord, Nr+1, INDEX_K,'rF = ',
362         &'   /* W-Interf. R coordinate (  units of r ) */')
363    
364    C     Grid along selected grid lines
365          coordLine = 1
366          tileLine  = 1
367          CALL WRITE_XY_XLINE_RS( dxF, coordLine, tileLine,
368         I 'dxF','( m - cartesian, degrees - spherical )')
369          CALL WRITE_XY_YLINE_RS( dxF, coordLine, tileLine,
370         I 'dxF','( m - cartesian, degrees - spherical )')
371          CALL WRITE_XY_XLINE_RS( dyF, coordLine, tileLine,
372         I 'dyF','( m - cartesian, degrees - spherical )')
373          CALL WRITE_XY_YLINE_RS( dyF, coordLine, tileLine,
374         I 'dyF','( m - cartesian, degrees - spherical )')
375          CALL WRITE_XY_XLINE_RS( dxG, coordLine, tileLine,
376         I 'dxG','( m - cartesian, degrees - spherical )')
377          CALL WRITE_XY_YLINE_RS( dxG, coordLine, tileLine,
378         I 'dxG','( m - cartesian, degrees - spherical )')
379          CALL WRITE_XY_XLINE_RS( dyG, coordLine, tileLine,
380         I 'dyG','( m - cartesian, degrees - spherical )')
381          CALL WRITE_XY_YLINE_RS( dyG, coordLine, tileLine,
382         I 'dyG','( m - cartesian, degrees - spherical )')
383          CALL WRITE_XY_XLINE_RS( dxC, coordLine, tileLine,
384         I 'dxC','( m - cartesian, degrees - spherical )')
385          CALL WRITE_XY_YLINE_RS( dxC, coordLine, tileLine,
386         I 'dxC','( m - cartesian, degrees - spherical )')
387          CALL WRITE_XY_XLINE_RS( dyC, coordLine, tileLine,
388         I 'dyC','( m - cartesian, degrees - spherical )')
389          CALL WRITE_XY_YLINE_RS( dyC, coordLine, tileLine,
390         I 'dyC','( m - cartesian, degrees - spherical )')
391          CALL WRITE_XY_XLINE_RS( dxV, coordLine, tileLine,
392         I 'dxV','( m - cartesian, degrees - spherical )')
393          CALL WRITE_XY_YLINE_RS( dxV, coordLine, tileLine,
394         I 'dxV','( m - cartesian, degrees - spherical )')
395          CALL WRITE_XY_XLINE_RS( dyU, coordLine, tileLine,
396         I 'dyU','( m - cartesian, degrees - spherical )')
397          CALL WRITE_XY_YLINE_RS( dyU, coordLine, tileLine,
398         I 'dyU','( m - cartesian, degrees - spherical )')
399          CALL WRITE_XY_XLINE_RS( rA, coordLine, tileLine,
400         I 'rA','( m - cartesian, degrees - spherical )')
401          CALL WRITE_XY_YLINE_RS( rA, coordLine, tileLine,
402         I 'rA','( m - cartesian, degrees - spherical )')
403          CALL WRITE_XY_XLINE_RS( rAw, coordLine, tileLine,
404         I 'rAw','( m - cartesian, degrees - spherical )')
405          CALL WRITE_XY_YLINE_RS( rAw, coordLine, tileLine,
406         I 'rAw','( m - cartesian, degrees - spherical )')
407          CALL WRITE_XY_XLINE_RS( rAs, coordLine, tileLine,
408         I 'rAs','( m - cartesian, degrees - spherical )')
409          CALL WRITE_XY_YLINE_RS( rAs, coordLine, tileLine,
410         I 'rAs','( m - cartesian, degrees - spherical )')
411    
412        WRITE(msgBuf,'(A)') ' '        WRITE(msgBuf,'(A)') ' '
413        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,        CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
414       &  SQUEEZE_RIGHT , 1)       &  SQUEEZE_RIGHT , 1)
       _END_MASTER(myThid)  
415    
416          _END_MASTER(myThid)
417        _BARRIER        _BARRIER
418    
419    
420        RETURN        RETURN
421    100 FORMAT(A,    100 FORMAT(A,
422       &'$Id$'       &' '
423       &)       &)
424        END        END
425    
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