Changeset 13189 for NEMO/branches/2020/dev_r12472_ASINTER-05_Masson_CurrentFeedback/tests/STATION_ASF/MY_SRC/stpctl.F90
- Timestamp:
- 2020-07-01T11:27:25+02:00 (4 years ago)
- Location:
- NEMO/branches/2020/dev_r12472_ASINTER-05_Masson_CurrentFeedback
- Files:
-
- 2 edited
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NEMO/branches/2020/dev_r12472_ASINTER-05_Masson_CurrentFeedback
- Property svn:externals
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old new 8 8 9 9 # SETTE 10 ^/utils/CI/sette@ HEADsette10 ^/utils/CI/sette@12931 sette
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- Property svn:externals
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NEMO/branches/2020/dev_r12472_ASINTER-05_Masson_CurrentFeedback/tests/STATION_ASF/MY_SRC/stpctl.F90
r12254 r13189 19 19 USE dom_oce ! ocean space and time domain variables 20 20 USE sbc_oce ! surface fluxes and stuff 21 ! 21 22 USE diawri ! Standard run outputs (dia_wri_state routine) 22 !23 23 USE in_out_manager ! I/O manager 24 24 USE lbclnk ! ocean lateral boundary conditions (or mpp link) 25 25 USE lib_mpp ! distributed memory computing 26 26 ! 27 27 USE netcdf ! NetCDF library 28 28 IMPLICIT NONE … … 31 31 PUBLIC stp_ctl ! routine called by step.F90 32 32 33 INTEGER :: idrun, idtime, idtau, idqns, idemp, istatus34 LOGICAL :: lsomeoce33 INTEGER :: nrunid ! netcdf file id 34 INTEGER, DIMENSION(3) :: nvarid ! netcdf variable id 35 35 !!---------------------------------------------------------------------- 36 36 !! NEMO/SAS 4.0 , NEMO Consortium (2018) … … 40 40 CONTAINS 41 41 42 SUBROUTINE stp_ctl( kt, K bb, Kmm, kindic)42 SUBROUTINE stp_ctl( kt, Kmm ) 43 43 !!---------------------------------------------------------------------- 44 44 !! *** ROUTINE stp_ctl *** 45 !! 45 !! 46 46 !! ** Purpose : Control the run 47 47 !! 48 48 !! ** Method : - Save the time step in numstp 49 49 !! - Print it each 50 time steps 50 !! - Stop the run IF problem encountered by setting indic=-3 50 !! - Stop the run IF problem encountered by setting nstop > 0 51 !! Problems checked: wind stress module max larger than 5 N/m^2 52 !! non-solar heat flux max larger than 2000 W/m^2 53 !! Evaporation-Precip max larger than 1.E-3 kg/m^2/s 51 54 !! 52 55 !! ** Actions : "time.step" file = last ocean time-step 53 56 !! "run.stat" file = run statistics 54 !! nstop indicator sheared among all local domain (lk_mpp=T)57 !! nstop indicator sheared among all local domain 55 58 !!---------------------------------------------------------------------- 56 59 INTEGER, INTENT(in ) :: kt ! ocean time-step index 57 INTEGER, INTENT(in ) :: Kbb, Kmm ! ocean time level index 58 INTEGER, INTENT(inout) :: kindic ! error indicator 59 !! 60 REAL(wp), DIMENSION(3) :: zmax 61 LOGICAL :: ll_wrtstp, ll_colruns, ll_wrtruns 62 CHARACTER(len=20) :: clname 63 !!---------------------------------------------------------------------- 64 ! 65 ll_wrtstp = ( MOD( kt, sn_cfctl%ptimincr ) == 0 ) .OR. ( kt == nitend ) 66 ll_colruns = ll_wrtstp .AND. ( sn_cfctl%l_runstat ) 67 ll_wrtruns = ll_colruns .AND. lwm 68 IF( kt == nit000 .AND. lwp ) THEN 69 WRITE(numout,*) 70 WRITE(numout,*) 'stp_ctl : time-stepping control' 71 WRITE(numout,*) '~~~~~~~' 72 ! ! open time.step file 73 IF( lwm ) CALL ctl_opn( numstp, 'time.step', 'REPLACE', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp, narea ) 74 ! ! open run.stat file(s) at start whatever 75 ! ! the value of sn_cfctl%ptimincr 76 IF( lwm .AND. ( sn_cfctl%l_runstat ) ) THEN 60 INTEGER, INTENT(in ) :: Kmm ! ocean time level index 61 !! 62 INTEGER :: ji ! dummy loop indices 63 INTEGER :: idtime, istatus 64 INTEGER , DIMENSION(4) :: iareasum, iareamin, iareamax 65 INTEGER , DIMENSION(3,3) :: iloc ! min/max loc indices 66 REAL(wp) :: zzz ! local real 67 REAL(wp), DIMENSION(4) :: zmax, zmaxlocal 68 LOGICAL :: ll_wrtstp, ll_colruns, ll_wrtruns 69 LOGICAL, DIMENSION(jpi,jpj) :: llmsk 70 CHARACTER(len=20) :: clname 71 !!---------------------------------------------------------------------- 72 IF( nstop > 0 .AND. ngrdstop > -1 ) RETURN ! stpctl was already called by a child grid 73 ! 74 ll_wrtstp = ( MOD( kt-nit000, sn_cfctl%ptimincr ) == 0 ) .OR. ( kt == nitend ) 75 ll_colruns = ll_wrtstp .AND. sn_cfctl%l_runstat .AND. jpnij > 1 76 ll_wrtruns = ( ll_colruns .OR. jpnij == 1 ) .AND. lwm 77 ! 78 IF( kt == nit000 ) THEN 79 ! 80 IF( lwp ) THEN 81 WRITE(numout,*) 82 WRITE(numout,*) 'stp_ctl : time-stepping control' 83 WRITE(numout,*) '~~~~~~~' 84 ENDIF 85 ! ! open time.step ascii file, done only by 1st subdomain 86 IF( lwm ) CALL ctl_opn( numstp, 'time.step', 'REPLACE', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp, narea ) 87 ! 88 IF( ll_wrtruns ) THEN 89 ! ! open run.stat ascii file, done only by 1st subdomain 77 90 CALL ctl_opn( numrun, 'run.stat', 'REPLACE', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp, narea ) 91 ! ! open run.stat.nc netcdf file, done only by 1st subdomain 78 92 clname = 'run.stat.nc' 79 93 IF( .NOT. Agrif_Root() ) clname = TRIM(Agrif_CFixed())//"_"//TRIM(clname) 80 istatus = NF90_CREATE( TRIM(clname), NF90_CLOBBER, idrun ) 81 istatus = NF90_DEF_DIM( idrun, 'time', NF90_UNLIMITED, idtime ) 82 istatus = NF90_DEF_VAR( idrun, 'tau_max', NF90_DOUBLE, (/ idtime /), idtau ) 83 istatus = NF90_DEF_VAR( idrun, 'qns_max', NF90_DOUBLE, (/ idtime /), idqns ) 84 istatus = NF90_DEF_VAR( idrun, 'emp_max', NF90_DOUBLE, (/ idtime /), idemp ) 85 istatus = NF90_ENDDEF(idrun) 86 ENDIF 87 ENDIF 88 IF( kt == nit000 ) lsomeoce = COUNT( ssmask(:,:) == 1._wp ) > 0 89 ! 90 IF(lwm .AND. ll_wrtstp) THEN !== current time step ==! ("time.step" file) 94 istatus = NF90_CREATE( TRIM(clname), NF90_CLOBBER, nrunid ) 95 istatus = NF90_DEF_DIM( nrunid, 'time', NF90_UNLIMITED, idtime ) 96 istatus = NF90_DEF_VAR( nrunid, 'tau_max', NF90_DOUBLE, (/ idtime /), nvarid(1) ) 97 istatus = NF90_DEF_VAR( nrunid, 'qns_max', NF90_DOUBLE, (/ idtime /), nvarid(2) ) 98 istatus = NF90_DEF_VAR( nrunid, 'emp_max', NF90_DOUBLE, (/ idtime /), nvarid(3) ) 99 istatus = NF90_ENDDEF(nrunid) 100 ENDIF 101 ! 102 ENDIF 103 ! 104 ! !== write current time step ==! 105 ! !== done only by 1st subdomain at writting timestep ==! 106 IF( lwm .AND. ll_wrtstp ) THEN 91 107 WRITE ( numstp, '(1x, i8)' ) kt 92 108 REWIND( numstp ) 93 109 ENDIF 94 ! 95 ! !== test of extrema ==! 96 zmax(1) = MAXVAL( taum(:,:) , mask = tmask(:,:,1) == 1._wp ) ! max wind stress module 97 zmax(2) = MAXVAL( ABS( qns(:,:) ) , mask = tmask(:,:,1) == 1._wp ) ! max non-solar heat flux 98 zmax(3) = MAXVAL( ABS( emp(:,:) ) , mask = tmask(:,:,1) == 1._wp ) ! max E-P 99 ! 110 ! !== test of local extrema ==! 111 ! !== done by all processes at every time step ==! 112 llmsk(:,:) = tmask(:,:,1) == 1._wp 113 IF( COUNT( llmsk(:,:) ) > 0 ) THEN ! avoid huge values sent back for land processors... 114 zmax(1) = MAXVAL( taum(:,:) , mask = llmsk ) ! max wind stress module 115 zmax(2) = MAXVAL( ABS( qns(:,:) ) , mask = llmsk ) ! max non-solar heat flux 116 zmax(3) = MAXVAL( ABS( emp(:,:) ) , mask = llmsk ) ! max E-P 117 ELSE 118 IF( ll_colruns ) THEN ! default value: must not be kept when calling mpp_max -> must be as small as possible 119 zmax(1:3) = -HUGE(1._wp) 120 ELSE ! default value: must not give true for any of the tests bellow (-> avoid manipulating HUGE...) 121 zmax(1:3) = 0._wp 122 ENDIF 123 ENDIF 124 zmax(4) = REAL( nstop, wp ) ! stop indicator 125 ! !== get global extrema ==! 126 ! !== done by all processes if writting run.stat ==! 100 127 IF( ll_colruns ) THEN 128 zmaxlocal(:) = zmax(:) 101 129 CALL mpp_max( "stpctl", zmax ) ! max over the global domain 102 nstop = NINT( zmax(3) ) ! nstop indicator sheared among all local domains 103 ENDIF 104 ! !== run statistics ==! ("run.stat" files) 130 nstop = NINT( zmax(4) ) ! update nstop indicator (now sheared among all local domains) 131 ENDIF 132 ! !== write "run.stat" files ==! 133 ! !== done only by 1st subdomain at writting timestep ==! 105 134 IF( ll_wrtruns ) THEN 106 135 WRITE(numrun,9500) kt, zmax(1), zmax(2), zmax(3) 107 istatus = NF90_PUT_VAR( idrun, idtau, (/ zmax(1)/), (/kt/), (/1/) ) 108 istatus = NF90_PUT_VAR( idrun, idqns, (/ zmax(2)/), (/kt/), (/1/) ) 109 istatus = NF90_PUT_VAR( idrun, idemp, (/ zmax(3)/), (/kt/), (/1/) ) 110 IF( MOD( kt , 100 ) == 0 ) istatus = NF90_SYNC(idrun) 111 IF( kt == nitend ) istatus = NF90_CLOSE(idrun) 136 istatus = NF90_PUT_VAR( nrunid, nvarid(1), (/ zmax(1)/), (/kt/), (/1/) ) 137 istatus = NF90_PUT_VAR( nrunid, nvarid(2), (/ zmax(2)/), (/kt/), (/1/) ) 138 istatus = NF90_PUT_VAR( nrunid, nvarid(3), (/ zmax(3)/), (/kt/), (/1/) ) 139 IF( kt == nitend ) istatus = NF90_CLOSE(nrunid) 112 140 END IF 113 ! !== error handling ==! 114 IF( ( sn_cfctl%l_glochk .OR. lsomeoce ) .AND. ( & ! domain contains some ocean points, check for sensible ranges 115 & zmax(1) > 5._wp .OR. & ! too large wind stress ( > 5 N/m^2 ) 116 & zmax(2) > 2000._wp .OR. & ! too large non-solar heat flux ( > 2000 W/m^2) 117 & zmax(3) > 1.E-3_wp .OR. & ! too large net freshwater flux ( kg/m^2/s) 118 & ISNAN( zmax(1) + zmax(2) + zmax(3) ) ) ) THEN ! NaN encounter in the tests 119 120 !! We are 1D so no need to find a spatial location of the rogue point. 121 141 ! !== error handling ==! 142 ! !== done by all processes at every time step ==! 143 ! 144 IF( zmax(1) > 5._wp .OR. & ! too large wind stress ( > 5 N/m^2 ) 145 & zmax(2) > 2000._wp .OR. & ! too large non-solar heat flux ( > 2000 W/m^2 ) 146 & zmax(3) > 1.E-3_wp .OR. & ! too large net freshwater flux ( > 1.E-3 kg/m^2/s ) 147 & ISNAN( zmax(1) + zmax(2) + zmax(3) ) .OR. & ! NaN encounter in the tests 148 & ABS( zmax(1) + zmax(2) + zmax(3) ) > HUGE(1._wp) ) THEN ! Infinity encounter in the tests 149 ! 150 iloc(:,:) = 0 151 IF( ll_colruns ) THEN ! zmax is global, so it is the same on all subdomains -> no dead lock with mpp_maxloc 152 ! first: close the netcdf file, so we can read it 153 IF( lwm .AND. kt /= nitend ) istatus = NF90_CLOSE(nrunid) 154 ! get global loc on the min/max 155 CALL mpp_maxloc( 'stpctl', taum(:,:) , tmask(:,:,1), zzz, iloc(1:2,1) ) ! mpp_maxloc ok if mask = F 156 CALL mpp_maxloc( 'stpctl',ABS( qns(:,:) ), tmask(:,:,1), zzz, iloc(1:2,2) ) 157 CALL mpp_minloc( 'stpctl',ABS( emp(:,:) ), tmask(:,:,1), zzz, iloc(1:2,3) ) 158 ! find which subdomain has the max. 159 iareamin(:) = jpnij+1 ; iareamax(:) = 0 ; iareasum(:) = 0 160 DO ji = 1, 4 161 IF( zmaxlocal(ji) == zmax(ji) ) THEN 162 iareamin(ji) = narea ; iareamax(ji) = narea ; iareasum(ji) = 1 163 ENDIF 164 END DO 165 CALL mpp_min( "stpctl", iareamin ) ! min over the global domain 166 CALL mpp_max( "stpctl", iareamax ) ! max over the global domain 167 CALL mpp_sum( "stpctl", iareasum ) ! sum over the global domain 168 ELSE ! find local min and max locations: 169 ! if we are here, this means that the subdomain contains some oce points -> no need to test the mask used in maxloc 170 iloc(1:2,1) = MAXLOC( taum(:,:) , mask = llmsk ) + (/ nimpp - 1, njmpp - 1/) 171 iloc(1:2,2) = MAXLOC( ABS( qns(:,:) ), mask = llmsk ) + (/ nimpp - 1, njmpp - 1/) 172 iloc(1:2,3) = MINLOC( ABS( emp(:,:) ), mask = llmsk ) + (/ nimpp - 1, njmpp - 1/) 173 iareamin(:) = narea ; iareamax(:) = narea ; iareasum(:) = 1 ! this is local information 174 ENDIF 175 ! 122 176 WRITE(ctmp1,*) ' stp_ctl: |tau_mod| > 5 N/m2 or |qns| > 2000 W/m2 or |emp| > 1.E-3 or NaN encounter in the tests' 123 WRITE(ctmp2,9500) kt, zmax(1), zmax(2), zmax(3) 124 WRITE(ctmp6,*) ' ===> output of last computed fields in output.abort.nc file' 125 177 CALL wrt_line( ctmp2, kt, '|tau| max', zmax(1), iloc(:,1), iareasum(1), iareamin(1), iareamax(1) ) 178 CALL wrt_line( ctmp3, kt, '|qns| max', zmax(2), iloc(:,2), iareasum(2), iareamin(2), iareamax(2) ) 179 CALL wrt_line( ctmp4, kt, 'emp max', zmax(3), iloc(:,3), iareasum(3), iareamin(3), iareamax(3) ) 180 IF( Agrif_Root() ) THEN 181 WRITE(ctmp6,*) ' ===> output of last computed fields in output.abort* files' 182 ELSE 183 WRITE(ctmp6,*) ' ===> output of last computed fields in '//TRIM(Agrif_CFixed())//'_output.abort* files' 184 ENDIF 185 ! 126 186 CALL dia_wri_state( Kmm, 'output.abort' ) ! create an output.abort file 127 128 IF( .NOT. sn_cfctl%l_glochk ) THEN 129 WRITE(ctmp8,*) 'E R R O R message from sub-domain: ', narea 130 CALL ctl_stop( 'STOP', ctmp1, ' ', ctmp2, ' ', ctmp6, ' ' ) 131 ELSE 132 CALL ctl_stop( ctmp1, ' ', ctmp2, ' ', ctmp6, ' ' ) 133 ENDIF 134 135 kindic = -3 136 ! 187 ! 188 IF( ll_colruns .or. jpnij == 1 ) THEN ! all processes synchronized -> use lwp to print in opened ocean.output files 189 IF(lwp) THEN ; CALL ctl_stop( ctmp1, ' ', ctmp2, ctmp3, ctmp4, ctmp5, ' ', ctmp6 ) 190 ELSE ; nstop = MAX(1, nstop) ! make sure nstop > 0 (automatically done when calling ctl_stop) 191 ENDIF 192 ELSE ! only mpi subdomains with errors are here -> STOP now 193 CALL ctl_stop( 'STOP', ctmp1, ' ', ctmp2, ctmp3, ctmp4, ctmp5, ' ', ctmp6 ) 194 ENDIF 195 ! 196 ENDIF 197 ! 198 IF( nstop > 0 ) THEN ! an error was detected and we did not abort yet... 199 ngrdstop = Agrif_Fixed() ! store which grid got this error 200 IF( .NOT. ll_colruns .AND. jpnij > 1 ) CALL ctl_stop( 'STOP' ) ! we must abort here to avoid MPI deadlock 137 201 ENDIF 138 202 ! … … 140 204 ! 141 205 END SUBROUTINE stp_ctl 206 207 208 SUBROUTINE wrt_line( cdline, kt, cdprefix, pval, kloc, ksum, kmin, kmax ) 209 !!---------------------------------------------------------------------- 210 !! *** ROUTINE wrt_line *** 211 !! 212 !! ** Purpose : write information line 213 !! 214 !!---------------------------------------------------------------------- 215 CHARACTER(len=*), INTENT( out) :: cdline 216 CHARACTER(len=*), INTENT(in ) :: cdprefix 217 REAL(wp), INTENT(in ) :: pval 218 INTEGER, DIMENSION(3), INTENT(in ) :: kloc 219 INTEGER, INTENT(in ) :: kt, ksum, kmin, kmax 220 ! 221 CHARACTER(len=80) :: clsuff 222 CHARACTER(len=9 ) :: clkt, clsum, clmin, clmax 223 CHARACTER(len=9 ) :: cli, clj, clk 224 CHARACTER(len=1 ) :: clfmt 225 CHARACTER(len=4 ) :: cl4 ! needed to be able to compile with Agrif, I don't know why 226 INTEGER :: ifmtk 227 !!---------------------------------------------------------------------- 228 WRITE(clkt , '(i9)') kt 229 230 WRITE(clfmt, '(i1)') INT(LOG10(REAL(jpnij ,wp))) + 1 ! how many digits to we need to write ? (we decide max = 9) 231 !!! WRITE(clsum, '(i'//clfmt//')') ksum ! this is creating a compilation error with AGRIF 232 cl4 = '(i'//clfmt//')' ; WRITE(clsum, cl4) ksum 233 WRITE(clfmt, '(i1)') INT(LOG10(REAL(MAX(1,jpnij-1),wp))) + 1 ! how many digits to we need to write ? (we decide max = 9) 234 cl4 = '(i'//clfmt//')' ; WRITE(clmin, cl4) kmin-1 235 WRITE(clmax, cl4) kmax-1 236 ! 237 WRITE(clfmt, '(i1)') INT(LOG10(REAL(jpiglo,wp))) + 1 ! how many digits to we need to write jpiglo? (we decide max = 9) 238 cl4 = '(i'//clfmt//')' ; WRITE(cli, cl4) kloc(1) ! this is ok with AGRIF 239 WRITE(clfmt, '(i1)') INT(LOG10(REAL(jpjglo,wp))) + 1 ! how many digits to we need to write jpjglo? (we decide max = 9) 240 cl4 = '(i'//clfmt//')' ; WRITE(clj, cl4) kloc(2) ! this is ok with AGRIF 241 ! 242 IF( ksum == 1 ) THEN ; WRITE(clsuff,9100) TRIM(clmin) 243 ELSE ; WRITE(clsuff,9200) TRIM(clsum), TRIM(clmin), TRIM(clmax) 244 ENDIF 245 IF(kloc(3) == 0) THEN 246 ifmtk = INT(LOG10(REAL(jpk,wp))) + 1 ! how many digits to we need to write jpk? (we decide max = 9) 247 clk = REPEAT(' ', ifmtk) ! create the equivalent in blank string 248 WRITE(cdline,9300) TRIM(ADJUSTL(clkt)), TRIM(ADJUSTL(cdprefix)), pval, TRIM(cli), TRIM(clj), clk(1:ifmtk), TRIM(clsuff) 249 ELSE 250 WRITE(clfmt, '(i1)') INT(LOG10(REAL(jpk,wp))) + 1 ! how many digits to we need to write jpk? (we decide max = 9) 251 !!! WRITE(clk, '(i'//clfmt//')') kloc(3) ! this is creating a compilation error with AGRIF 252 cl4 = '(i'//clfmt//')' ; WRITE(clk, cl4) kloc(3) ! this is ok with AGRIF 253 WRITE(cdline,9400) TRIM(ADJUSTL(clkt)), TRIM(ADJUSTL(cdprefix)), pval, TRIM(cli), TRIM(clj), TRIM(clk), TRIM(clsuff) 254 ENDIF 255 ! 256 9100 FORMAT('MPI rank ', a) 257 9200 FORMAT('found in ', a, ' MPI tasks, spread out among ranks ', a, ' to ', a) 258 9300 FORMAT('kt ', a, ' ', a, ' ', 1pg11.4, ' at i j ', a, ' ', a, ' ', a, ' ', a) 259 9400 FORMAT('kt ', a, ' ', a, ' ', 1pg11.4, ' at i j k ', a, ' ', a, ' ', a, ' ', a) 260 ! 261 END SUBROUTINE wrt_line 262 142 263 143 264 !!======================================================================
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