updates and reorganisation of input
Ian P King
5 years ago
parent
3876d0b8e3
commit
e2cf7fccea
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SED SETTLING
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IOV
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TRANSIT
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LINE=LINE+1
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WRITE(DATALIN(LINE),6091) helpint(95)
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6091 FORMAT('TAB-END',t70,a96)
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LINE=LINE+1
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WRITE(DATALIN(LINE),6092) helpint(96)
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6092 FORMAT('ENDGEO',t70,a96)
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DO J=1,JT
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LINE=LINE+1
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IF(DELT(J) .EQ. 0 .AND. DELTM(J) .EQ. 0. .OR. DELT(J) .GT. 0.) THEN
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WRITE(DATALIN(LINE),6100) DELT(J),HELPTIME(1)
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ELSE
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WRITE(DATALIN(LINE),6101) DELTM(J),HELPTIME(2)
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ENDIF
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6100 FORMAT('DELTA-HR',F12.4,T70,A162)
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6101 FORMAT('DELTA-MN',F12.4,T70,A162)
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IF(DATENDST(J) .NE. ' ' .AND. J .GT. 1) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6102) DATENDST(J),HELPTIME(3)
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6102 FORMAT('DATE-END',4X,A16,T70,A162)
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ENDIF
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IF(IITYPE(J) .EQ. 1) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6103),HELPTIME(4)
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6103 FORMAT('Q-ITR',T70,A162)
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ELSEIF(IITYPE(J) .EQ. 2) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6104),HELPTIME(5)
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6104 FORMAT('QSL-ITR',T70,A162)
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ELSEIF(IITYPE(J) .EQ. 3) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6105),HELPTIME(6)
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6105 FORMAT('QTM-ITR',T70,A162)
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ELSEIF(IITYPE(J) .EQ. 4) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6106),HELPTIME(7)
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6106 FORMAT('QSD-ITR',T70,A162)
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ELSEIF(IITYPE(J) .EQ. 5) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6107),HELPTIME(8)
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6107 FORMAT('QST-ITR',T70,A162)
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ENDIF
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KH=NHLIN(J)
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KQ=NQLIN(J)
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KE=NELIN(J)
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DO K=1,KH
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LINE=LINE+1
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IF(HLIN1(K,J) .GT. -9000.) THEN
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IF(HCKLIN(K,J) .EQ. 1 ) THEN
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WRITE(DATALIN(LINE),6108) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),HLIN1(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(9)
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6108 FORMAT('FL-ELEVI',2I8,2F8.4,3F8.3,T70,A162)
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ELSE
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WRITE(DATALIN(LINE),6109) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),HLIN1(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(10)
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6109 FORMAT('CN-ELEVI',2I8,2F8.4,3F8.3,T70,A162)
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ENDIF
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ELSE
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IF(HCKLIN(K,J) .EQ. 1 ) THEN
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WRITE(DATALIN(LINE),6110) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(11)
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6110 FORMAT('FL-ELEVC',2I8,F8.4,3F8.3,T70,A162)
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ELSE
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WRITE(DATALIN(LINE),6111) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(12)
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6111 FORMAT('CN-ELEVC',2I8,F8.4,3F8.3,T70,A162)
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ENDIF
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ENDIF
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ENDDO
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IF(KHCN(J) .GT. 0) THEN
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DO K=1,KHCN(J)
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L1=MIN(IHCN(K,J),9)
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LINE=LINE+1
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WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=1,L1)
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61111 FORMAT('HCN',5X,9F8.3)
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IF(IHCN(K,J) .LE. 9) CYCLE
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L1=MIN(IHCN(K,J),18)
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LINE=LINE+1
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WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=10,L1)
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IF(IHCN(K,J) .LE. 18) CYCLE
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L1=MIN(IHCN(K,J),27)
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LINE=LINE+1
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WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=19,L1)
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IF(IHCN(K,J) .LE. 27) CYCLE
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L1=MIN(IHCN(K,J),36)
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LINE=LINE+1
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WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=28,L1)
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ENDDO
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ENDIF
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IF(WVEL(J) .NE. 0.) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),61112) WVEL(J),WDIR(J)
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61112 FORMAT('GBWIND ',1X,2F8.3)
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ENDIF
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DO K=1,KQ
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LINE=LINE+1
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IF(IQLIN1(K,J) .EQ. 1) ALAB='C'
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IF(IQLIN1(K,J) .EQ. 2) ALAB='F'
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IF(IQLIN1(K,J) .EQ. 3) ALAB='H'
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IF(QCKLIN(K,J) .EQ. 0) THEN
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BLAB='CN'
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ELSE
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BLAB='FL'
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ENDIF
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IF(ALAB .EQ. 'C') THEN
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IHP=13
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ELSEIF(ALAB .EQ. 'F') THEN
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IHP=14
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ELSE
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IHP=15
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ENDIF
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WRITE(DATALIN(LINE),6112) BLAB,ALAB,IQLIN(K,J),LAYNUMQ(K,J),QLIN(K,J),QDLIN(K,J),(QUALKQ(K,J,KK),KK=1,3),HELPTIME(IHP)
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6112 FORMAT(A2,'-Q',A1,3X,2I8,2F10.2,3F8.3,T70,A162)
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ENDDO
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DO K=1,KE
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IF(ECKLIN(K,J) .EQ. 1) THEN
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BLAB='FL'
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ELSE
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BLAB='CN'
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ENDIF
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LINE=LINE+1
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IF(IETP(K,J) .EQ. 4) THEN
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WRITE(DATALIN(LINE),6113) BLAB,ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(16)
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6113 FORMAT(A2,'-RAIN ',F8.4,3F8.3,T70,A162)
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ELSEIF(IETP(K,J) .EQ. 1) THEN
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IF(IELIN(K,J) .GT. 0) THEN
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IF(ECKLIN1(K,J) .EQ. 1) THEN
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WRITE(DATALIN(LINE),6116) BLAB,IELIN(K,J),LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(19)
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6116 FORMAT(A2,'-ELMET',2I8,F8.4,3F8.3,T70,A162)
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ELSE
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WRITE(DATALIN(LINE),6117) BLAB,IELIN(K,J),LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(20)
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6117 FORMAT(A2,'-ELMED',2I8,F8.4,3F8.3,T70,A162)
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ENDIF
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ELSE
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IF(ECKLIN1(K,J) .EQ. 1) THEN
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WRITE(DATALIN(LINE),6115) BLAB,LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(18)
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6115 FORMAT(A2,'-ELMGT',I8,F8.4,3F8.3,T70,A162)
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ELSE
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WRITE(DATALIN(LINE),6114) BLAB,LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(17)
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6114 FORMAT(A2,'-ELMGD',I8,F8.4,3F8.3,T70,A162)
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ENDIF
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ENDIF
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ELSEIF(IETP(K,J) .EQ. 6) THEN
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WRITE(DATALIN(LINE),6118) BLAB,IELIN(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(21)
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6118 FORMAT(A2,'-GRAIN',I8,F8.4,3F8.3,T70,A162)
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ENDIF
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ENDDO
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IF(NSND(J) .GT. 0) THEN
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DO K=1,NSND(J)
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IF(NODSND(K,J) .GT. 0) THEN
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LINE=LINE+1
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WRITE(DATALIN(LINE),6119) NODSND(K,J),NCODE(K,J),(BCSND(K,J,L),L=1,6)
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6119 FORMAT('SN',8X,2I7,2f10.5,4F8.3)
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ELSE
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LINE=LINE+1
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WRITE(DATALIN(LINE),61191) NCODE(K,J),(BCSND(K,J,L),L=1,6)
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61191 FORMAT('SD'15X,I7,2F10.5,4F8.2)
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ENDIF
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ENDDO
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ENDIF
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LINE=LINE+1
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WRITE(DATALIN(LINE),6200)
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6200 FORMAT('ENDSTEP')
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ENDDO
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LINE=LINE+1
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WRITE(DATALIN(LINE),6999)
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6999 FORMAT('ENDDATA')
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filter="r10 file *.r10|*.R10|"
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IOUT=66
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CALL WSelectFile(Filter,SaveDialog+PromptOn+AppendExt+DirChange,NAMEFL,'Save R10 File for Execution')
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IF (WInfoDialog(ExitButtonCommon).EQ.CommonOpen) THEN
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go to 500
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else
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RETURN
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endif
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500 CONTINUE
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OPEN(IOUT,FILE=NAMEFL,FORM='FORMATTED')
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DO K=1,LINE
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WRITE(IOUT,'(A230)') DATALIN(K)
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ENDDO
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CLOSE(IOUT)
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RETURN
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END
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@ -0,0 +1,937 @@
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SUBROUTINE FORMFILE
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use winteracter
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USE BLKRM10
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USE RESID
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INTEGER ICROSREF(45)
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CHARACTER*8 LABELF(44),LABELC(26),LABELFL(21),LABELCE,LABELFE,LIMITL(8),LABELNDL
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CHARACTER(LEN=255) :: filter
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character*137 helpint(98)
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character*162 helptime(43)
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character*89 helpfile(45)
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CHARACTER*1 ILAB(4),ALAB
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CHARACTER*2 BLAB
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DATA ILAB/'C','F','G','H'/
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DATA ICROSREF/21,17,18,52,13,22,16,45, 1, 3, 4,14, 2,42,10,25,57,58,44,37&
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,38,39,40,15,31,30,19,20,53,54,55,56,11,12, 9,32,33,34,26,27&
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,59,36,60,61,62/
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! DATA LABELF/'INBNGEO ','INBNRST ','INRM1 ','INELEV ','INHYD ','INELTFL ','OUTFIL ','OUTBNRMA','OUTBNRST','TIMFIL ','OUTSMS ','OUTSPL ','OUTCON ','INCROS ','INSRCORD','INSTRESS','INBNSTRS','INWGT ','INBNWGT ','OUTWGT ','OUTBNWGT','OUTBNSTR','WEIRDATA','AWINDIN ','BWINDIN ','OUTFLOW ','INHARM ','OUTBN3GE'/
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DATA LABELF/&
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'INBNGEO ','INRM1 ','INBNRST ','INCROS ','INHYD ','INELEV ','INELTFL ','INBNELF ','INHARM ','INLAYDAT','METFIL '&
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,'OUTFIL ','OUTBNRMA','OUTBNRST','OUTBN3GE','OUTCON ','OUTMET ','TIMFIL ','BWINDIN ','AWINDIN ','OUTBNXTR'&
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,'OUTASXTR','OUTBNELF','INSRCORD','INBNWGT ','INBNSTRS','OUTBNWGT','OUTWGT ','GROUPNUM','STFLFIL ','INASTRAT'&
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,'BCFIL ','VOLFIL ','OUTBNRES','VELBNFIL','IN3DBNGE','OUTBN2GE','INSMSGN ','OUTSMS '&
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,'OUTSMS1 ','OUTFLOW ','INBC ','INBNBC ','OUTBNICE'/
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! DATA LIMITL/ 'MAXFRONT','BUFFSIZL','MAXSTEPS','MAXPBUFR','MAXCROSS','MAXCPTS ','MAXQINPT','MAXHINPT','MAXEINPT','MAXQPTS ','MAXHPTS ','MAXELPTS','BUFFSIZ '/
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DATA LIMITL/ 'MAXFRONT','BUFFSIZL','MAXLAY ','MAXCROSS','MAXCPTS ','MAXQINPT','MAXHINPT','MAXEINPT'/
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DATA LABELC/ 'STARTIM ','ENDTIM ','PRTOPT ','SSITN ','TRITN ','MARSHOPT','TIMPROJ ','ITERINTV','1DTYP ','MESSRWND','TRSTEPS ','HALF-TIM','HALF-HOL','GRAVITY ','OVERLAYT','WRTINIT ','EDDYTYPE','DRYSW ','HIGH-ORD','9-NODE ','RSTOPT ','STBIN ','FRQBIN ','FRQRST ','NUMRST ','SOLVER '/
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DATA LABELFL/'ELEV ','OMEGA ','CONV-VEL','CONV-DEP','MARSH-SH','MARSH-RG','MARSH-PR','MARSH-LM','TBFACT ','TBMIN ','HALF-TOL','X-SCALE ','Y-SCALE ','V-SCALE ','DSET ','DSETD ','UNOM ','HMIN ',' ','DPCUTOF1','DPCUTOF2'/
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DATA LABELCE/'ENDGEO '/,LABELFE/'ENDFIL '/,LABELNDL/'ENDLIMIT'/
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DATA HELPINT/&
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'& Starting date and time ',&
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'& Ending date and time ',&
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'& Ending year ',&
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'& Ending month ',&
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'& Ending day ',&
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'& Ending hour ',&
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'& Vertical turbulence option ',&
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'& Marsh option 0=inactive -2 = input marsh parameters ',&
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'& Eddy type 0 = fixed, 1= scaled, 2 = Smagorinsky ',&
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'& Turbulence factor when Smagorinsky is active ',&
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'& Turbulence minimum when Smagorinsky is active ',&
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'& Time projection switch 1= no projection, 0 = use time derivative (least stable), 2 = project using straight line ',&
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'& 2-d model approximation ',&
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'& 3-d model with a fixed number of layers, number of layers ',&
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'& 3-d model with type LD1 input that is define number of layers for all nodes ',&
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'& 3-d model with type LD2 input ',&
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'& 3-d model with type LD3 input ',&
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'& Units switch 1 = metric 0 = english ',&
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'& Force zero bed velocity 1 = at all bed levels 2 = limited by bed level input ',&
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'& Bed level below which zero bed level in applied ',&
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'& Ignore influence of salinity on water density ',&
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'& Ignore influence of temperature on water density ',&
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'& Ignore influence of sediment on water density ',&
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'& Force zero velocity on water surface ',&
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'& Save binary file for all iterations 0 = ignore, 1 =save ',&
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'& Option for vertical density model 0 = standard 1 = revised method ',&
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'& Latitude (degrees) positive in northern hemisphere ',&
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'& Reference level for vertical transformation / Starting water level ',&
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'& x scale factor (0.0 equivalent to 1.0) ',&
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'& y scale factor (0.0 equivalent to 1.0) ',&
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'& z sacle factor (0.0 equivalent to 1.0) ',&
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'& Defines constant associated with vertical constituent distribution at boundary ',&
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'& Defines power associated with vertical constituent distribution at boundary ',&
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'& Nominal water velocity at startup ',&
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'& Nominal current direction in radians c-clockwise from horzontal ',&
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'& Minimum depth as startup (ignored if set = 0.0) Use with care can cause initial instabilty ',&
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'& Depth at which drying (element removal) is initiated when drying ',&
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'& Depth at which rewetting (element return) occurs when flooding ',&
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'& Switch that forces boundary conditions to be applied regardless of direction ',&
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'& Number of vertical velocity equations to switch to PARDISO (Default=20000) ',&
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'& Initial salinity when no restart file specified ',&
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'& Initial temperature when no restart file specified ',&
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'& Initial sediment concentration when no restart file specified ',&
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'& Bed x-velocity used to compute resistance to flow for initial conditions regardless of initial velocity ',&
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'& Bed y-velocity used to compute resistance to flow for initial conditions regardless of initial velocity ',&
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'& Percent of outflowing average concentration returned on next tidal inflow ',&
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'& Depth of surface mixing (associated with free water surface local turbulence ',&
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'& Number of steady state iteration cycles to be applied ',&
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'& Number of time transient iteration cycles to be applied per time step ',&
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'& Number of transient steps to be simulated ',&
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'& Skip element and node data and initial conditions in echo print ',&
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||||||
|
'& Skip element and node data show initial conditions in echoprint ',&
|
||||||
|
'& Show element and node data in echo print ',&
|
||||||
|
'& Iteration frequency for ASCII output. Skip if = 0 ',&
|
||||||
|
'& Time step frequency for ASCII output ',&
|
||||||
|
'& Save startup to binary results file ',&
|
||||||
|
'& Switch to initiate element elimination ',&
|
||||||
|
'& Time step frequency for binary output ',&
|
||||||
|
'& Time step frequency for individual binary restart file ',&
|
||||||
|
'& Time step frequency for restarting ASCII results file (saves file size for very large number of steps) ',&
|
||||||
|
'& 1-D cross section type (see users manual for more details) ',&
|
||||||
|
'& Equation solver type 0=FRONT > 0 PARDISO SOLVER ',&
|
||||||
|
'& Switch to initiate out of local memory (disk) version of PARDISO for very large prblems ',&
|
||||||
|
'& Time step frequency for restarting ASCII message file (saves file size for very large number of steps) ',&
|
||||||
|
'& Initial water surface elevation, Required if different from tra nsformation reference level ',&
|
||||||
|
'& Convergence limit for velocities ',&
|
||||||
|
'& Convergence limit for depth ',&
|
||||||
|
'& Convergence limit for salinity ',&
|
||||||
|
'& Convergence limit for temperature ',&
|
||||||
|
'& Convergence limit for sediment concentration ',&
|
||||||
|
'& Transition depth for collapse from 3-D to 2-D approximation ',&
|
||||||
|
'& Save flows in continuity line output ',&
|
||||||
|
'& Save depths in continuity line output ',&
|
||||||
|
'& Save average water surface elevations in continuity line output ',&
|
||||||
|
'& Save average salinity in continuity line output ',&
|
||||||
|
'& Save average temperature in continuity line output ',&
|
||||||
|
'& Save average sediment concentration in continuity line output ',&
|
||||||
|
'& Horizontal turbulent eddy coefficient ',&
|
||||||
|
'& Vertical turbulent eddy coefficient ',&
|
||||||
|
'& Horizontal turbulent diffusion coefficient ',&
|
||||||
|
'& Vertical turbulent diffusion coefficient ',&
|
||||||
|
'& Manning/Chezy bed friction coefficient >1.0 is Chezy coefficient ',&
|
||||||
|
'& Bank Manning coefficient if appropriate ',&
|
||||||
|
'& Water surface Manning coefficient if appropriate ',&
|
||||||
|
'& Marsh factor when drying applied to friction coefficient ',&
|
||||||
|
'& Eqn for vertical distribution factor for horizontal eddy coefficient F=a+z*(b+c*z) ',&
|
||||||
|
'& Boundary velocity vertical distribution constant ',&
|
||||||
|
'& Boundary velocity vertical distribution power ',&
|
||||||
|
'& 2-D to 3-D velocity vertical distribution constant ',&
|
||||||
|
'& 2-D to 3-D velocity vertical distribution power ',&
|
||||||
|
'& Marsh coefficient depth shift ',&
|
||||||
|
'& Marsh coefficient range ',&
|
||||||
|
'& Marsh coefficient porosity ',&
|
||||||
|
'& Marsh coefficient limit ',&
|
||||||
|
'& Indicator of end of tabular data set ',&
|
||||||
|
'& Indicator of end of end control and geometry data ',&
|
||||||
|
'& Overlay input time/date onto restart file ',&
|
||||||
|
' '/
|
||||||
|
DATA HELPTIME/&
|
||||||
|
'& Time step in minutes ',&
|
||||||
|
'& Time step in hours ',&
|
||||||
|
'& Ending time for the time step block ',&
|
||||||
|
'& Iterate on flow/depth alone ',&
|
||||||
|
'& iterate on flow/depth and salinity -2- flow/depth and -1- salinty iterations per cycle ',&
|
||||||
|
'& iterate on flow/depth and temperature -2- flow/depth and -1- salinty iterations per cycle ',&
|
||||||
|
'& iterate on flow/depth and sediment -2- flow/depth and- 1- salinty iterations per cycle ',&
|
||||||
|
'& iterate on flow/depth salinity and temperature -2- flow/depth and- 1- salinty -1- temperature iterations per cycle ',&
|
||||||
|
'& Continuity line elevation FL-ELEVI is elevation specified as tapered between two end values (subs values from file)- CCLINE, Elev1, Elev2,bc-sal,bc-temp,bc-sed',&
|
||||||
|
'& Continuity line elevation CN-ELEVI is elevation specified as tapered between two end values- CCLINE, Elev1, Elev2 ,bc-sal,bc-temp,bc-sed ',&
|
||||||
|
'& Continuity line elevation FL-ELEVC is elevation specified as constant along a line (subs values from file)- CCLINE, Elevation ,bc-sal,bc-temp,bc-sed ',&
|
||||||
|
'& Continuity line elevation CN-ELEVC is elevation specified as constant along a line - CCLINE, Elevation ,bc-sal,bc-temp,bc-sed ',&
|
||||||
|
'& Continuity line inflow CN-QC is standard inflow , CCLINE, Total Flow, Dir, bc-sal,bc-temp,bc-sed FL-QC means subsequent steps from file ',&
|
||||||
|
'& Continuity line inflow CN-QF is inflow tapered to zero at end element, flow parallel allowed - CCLINE, Total Flow, dir,bc-sal ,bc-temp,bc-sed -FL means file ',&
|
||||||
|
'& Continuity line inflow CN-QH is specified inflow distribution - CCLINE, Total Flow, dir,bc-sal ,bc-temp,bc-sed -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow treated as a rainfall rate (in mm/day) over all surface elementa. flow rate,salinity,temp,sediment -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow treated as a total rate over all given layer of elements. Lay num,flow rate,salinity,temp,sediment -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow treated as a spcific rate over all given layer of elements. Lay num,flow rate,salinity,temp,sediment -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow listing element number and total inflow into element. Elt num, Lay num,flow rate,salinity,temp,sediment -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow listing element number and spec flow into element. Elt num, Lay num,flow rate,salinity,temp,sediment -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow listing element inflow for a given group and rainfall into element. Grp num,flow rate,salinity,temp,sed -FL means subsequent values from file ',&
|
||||||
|
'& Element Inflow listing element inflow for a given type and specific flow entering element. ',&
|
||||||
|
'& Element Inflow listing element inflow for a given group and specific flow entering element. ',&
|
||||||
|
'& Element Inflow listing element number and specific flow entering element. SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow listing element inflow for a given type and specific flow entering element. SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow listing element inflow for a given type treated as a rainfall rate (in mm/day) and rainfall entering element. (SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow listing element inflow for a given group and specific flow entering element. (SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow listing rainfall entering all elements (in mm/day) . Element number ',&
|
||||||
|
'& Continuity line elevation FL-ELVHM is elevation specified as constant along a line (Computes values from harmonic file)- CCLINE, Elevation ',&
|
||||||
|
'& Element Inflow listing element inflow for a given type treated as a rainfall rate (in mm/day) and rainfall entering element. ) ',&
|
||||||
|
'& Element Inflow listing rainfall entering a single elements (in mm/day) . Element number = 0 apply globally ',&
|
||||||
|
'& Element Inflow listing element inflow treated as a rainfall rate (in mm/day) and rainfall entering all elements. (SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow listing element inflow for a given group and rainfall entering element. (SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Stage-Flow boundary condition. See line type SQC of user document ',&
|
||||||
|
'& Flag to identify units of wind vel = 0, then values are given in miles/hour = 1, then values are given in meters/second ',&
|
||||||
|
'& Wind velocity applied at all nodes. ',&
|
||||||
|
'& The angle between the wind velocity and the x-axis for all nodes (degrees measured anti-clockwise). ',&
|
||||||
|
'& Flow controller identifier, Flow controller type AJ1, BJ1, CJ1, GAM1, QD1, DJ1, TRCCE in flow controller equation for line type FC in the user document ',&
|
||||||
|
'& Element Inflow and total flow entering element. SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow and specific flow entering element. SUBSQT VALUES FROM A FILE) ',&
|
||||||
|
'& Element Inflow and total flow entering element. ',&
|
||||||
|
'& Element Inflow and specific flow entering element. ',&
|
||||||
|
'& '/
|
||||||
|
|
||||||
|
DATA HELPFILE/&
|
||||||
|
'& Input binary file with geometric data',&
|
||||||
|
'& Input ASCII file with geometric data',&
|
||||||
|
'& Input binary file with restart data',&
|
||||||
|
'& Input ASCII file with cross-section data',&
|
||||||
|
'& Input ASCII file with boundary flow data',&
|
||||||
|
'& Input ASCII file with elevation boundary data',&
|
||||||
|
'& Input ASCII file with element inflow data',&
|
||||||
|
'& Input binary element inflow data',&
|
||||||
|
'& Input ASCII file with elevation harmonic boundary data',&
|
||||||
|
'& Input ASCII file with layer data',&
|
||||||
|
'& Input ASCII file with meteorological data',&
|
||||||
|
'& Output ASCII results',&
|
||||||
|
'& Output binary file with new format results data',&
|
||||||
|
'& Output binary file with restart data',&
|
||||||
|
'& Output binary file with 3-D geometry data',&
|
||||||
|
'& Output ASCII file with continuity line flow data',&
|
||||||
|
'& Output ASCII file with summary meteorological input',&
|
||||||
|
'& Output ASCII file with cpu timing data',&
|
||||||
|
'& Input binary file with wind data',&
|
||||||
|
'& Input ASCII file with wind data',&
|
||||||
|
'& Output binary file listing extracted results for specified nodes',&
|
||||||
|
'& Output ASCII file listing extracted results for specified nodes',&
|
||||||
|
'& Output binary element inflow data',&
|
||||||
|
'& Input coordinates for surface stresses',&
|
||||||
|
'& Input binary weighting file for surface stresses',&
|
||||||
|
'& Input binary file for surface stresses',&
|
||||||
|
'& Output binary weighting file for surface stresses',&
|
||||||
|
'& Output ASCII weighting file for surface stresses',&
|
||||||
|
'& Input ASCII file with group number data',&
|
||||||
|
'& Input ASCII file with stage flow data for continuity lines',&
|
||||||
|
'& Input ASCII temperature stratification data file',&
|
||||||
|
'& Input ASCII file with continuation transient step data',&
|
||||||
|
'& Output ASCII file with average salinity/total flow',&
|
||||||
|
'& Output binary file with old format results data',&
|
||||||
|
'& Input binary file with velocity/depth data',&
|
||||||
|
'& Input binary file with 3-D geometry data',&
|
||||||
|
'& Output binary file with 2-D geometry data',&
|
||||||
|
'& Input SMS format geometry file',&
|
||||||
|
'& Output SMS RMA-2 format file with horizontal velocity and depth data',&
|
||||||
|
'& Output SMS RMA4 format file with salinity, temperate and sediment data',&
|
||||||
|
'& Output binary RMA-11 format file listing 1-d flows as a pseudo WQ constituent',&
|
||||||
|
'& Input ASCII file containing nodal boundary condition data',&
|
||||||
|
'& Input binary file containing nodal boundary condition data',&
|
||||||
|
'& Output ice results',&
|
||||||
|
'& '/
|
||||||
|
|
||||||
|
LINE=0
|
||||||
|
CALL WMessageBox(YesNo,QuestionIcon,CommonYes, &
|
||||||
|
'Do you wish to save all data lines(YES) or skip default values (NO) ?', 'OUTPUT DEFAULT VALUES?')
|
||||||
|
IF(WInfoDialog(4) .eq. 1) then
|
||||||
|
ISHOWSW=1
|
||||||
|
ELSE
|
||||||
|
ISHOWSW=0
|
||||||
|
ENDIF
|
||||||
|
|
||||||
|
DO K=1,44
|
||||||
|
IF(FNAME(K)(1:16) .NE. ' ') THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
DO KK=1,43
|
||||||
|
IF(FNAME(K)(KK:KK) .NE. ' ') THEN
|
||||||
|
DO KKK=1,72-KK
|
||||||
|
FNAME(K)(KKK:KKK)=FNAME(K)(KK-1+KKK:KK-1+KKK)
|
||||||
|
ENDDO
|
||||||
|
EXIT
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
WRITE(DATALIN(LINE),6000) LABELF(K),FNAME(K)(1:69),helpfile(k)
|
||||||
|
6000 FORMAT(A8,3X,A69,a89)
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6000) LABELFE
|
||||||
|
|
||||||
|
DO K=1,8
|
||||||
|
IF(LIMITVAL(K) .NE. LIMITDFT(K)) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
IF(K .EQ. 2) THEN
|
||||||
|
WRITE(DATALIN(LINE),'(A8,I16)') LIMITL(K),LIMITVAL(K)
|
||||||
|
ELSE
|
||||||
|
WRITE(DATALIN(LINE),'(A8,I8)') LIMITL(K),LIMITVAL(K)
|
||||||
|
ENDIF
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6000) LABELNDL
|
||||||
|
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60001) TITLEHEAD
|
||||||
|
60001 FORMAT('TI',6X,A72)
|
||||||
|
|
||||||
|
IF(NLAYTYP .NE. NLAYTYPDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
IF(NLAYTYP .EQ. 0) WRITE(DATALIN(LINE),6011) helpint(13)
|
||||||
|
6011 FORMAT('2DMODEL ',t70,a96)
|
||||||
|
IF(NLAYTYP .EQ. 1) WRITE(DATALIN(LINE),6012) helpint(14)
|
||||||
|
6012 FORMAT('3DFIXLAY',t70,a96)
|
||||||
|
IF(NLAYTYP .EQ. 2) WRITE(DATALIN(LINE),6013) helpint(15)
|
||||||
|
6013 FORMAT('3DTYPLD1',t70,a96)
|
||||||
|
IF(NLAYTYP .EQ. 3) WRITE(DATALIN(LINE),6014) helpint(16)
|
||||||
|
6014 FORMAT('3DTYPLD2',t70,a96)
|
||||||
|
IF(NLAYTYP .EQ. 4) WRITE(DATALIN(LINE),6015) helpint(17)
|
||||||
|
6015 FORMAT('3DTYPLD3',t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ID1DND .NE. ID1DNDDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6056) ID1DND,helpint(61)
|
||||||
|
6056 FORMAT('1DTYP ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ELEV .NE. ELEVDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6026) ELEV,helpint(28)
|
||||||
|
6026 FORMAT('ELEV ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60002) LABELC(1),DATEST,helpint(1)
|
||||||
|
60002 FORMAT(A8,3X,A16,t70,a96)
|
||||||
|
IF(JT .GT. 1 .OR. DELT(1) .GT. 0. .OR. DELTM(1) .GT. 0. .or. DELT(2) .GT. 0. .OR. DELTM(2) .GT. 0.) THEN
|
||||||
|
IF(DATEND .NE. ' ') THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60002) LABELC(2),DATEND,helpint(2)
|
||||||
|
ENDIF
|
||||||
|
ENDIF
|
||||||
|
IF(IOV .NE. 0) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60003) helpint(97)
|
||||||
|
60003 FORMAT('OVERLAYT',t70,a96)
|
||||||
|
ENDIF
|
||||||
|
|
||||||
|
IF(NITI .NE. NITIDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6046) NITI,helpint(48)
|
||||||
|
6046 FORMAT('SSITN ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(NITN .NE. NITNDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6047) NITN,helpint(49)
|
||||||
|
6047 FORMAT('TRITN ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(NCYC .NE. NCYCDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6048) NCYC,helpint(50)
|
||||||
|
6048 FORMAT('TRSTEPS ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IPROJ .NE. IPROJDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6010) IPROJ,helpint(12)
|
||||||
|
6010 FORMAT('TIMPROJ ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ICPU .NE. ICPUDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6057) ICPU,helpint(62)
|
||||||
|
6057 FORMAT('SOLVER ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IEQSWT .NE. IEQSWTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6038) IEQSWT,helpint(40)
|
||||||
|
6038 FORMAT('VERTEQSW',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IOOC .NE. IOOCDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6058) IOOC,helpint(63)
|
||||||
|
6058 FORMAT('SLVERDSK',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IOPTZD .NE. IOPTZDDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6005) IOPTZD,helpint(7)
|
||||||
|
6005 FORMAT('VERTTURB',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IEDSW .NE. IEDSWDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6007) IEDSW,helpint(9)
|
||||||
|
6007 FORMAT('EDDYTYPE',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(TBFACT .NE. TBFACTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6008) TBFACT,helpint(10)
|
||||||
|
6008 FORMAT('TBFACT ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(TBMIN .NE. TBMINDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6009) TBMIN,helpint(11)
|
||||||
|
6009 FORMAT('TBMIN ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IVERTDEN .NE. IVERTDENDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6024) IVERTDEN,helpint(26)
|
||||||
|
6024 FORMAT('REVRTDEN',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(DMIX .NE. DMIXDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6045) DMIX,helpint(47)
|
||||||
|
6045 FORMAT('SURFMIX ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ITRANSIT .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60651) TRANSIT,helpint(71)
|
||||||
|
60651 FORMAT('TRANSIT',1X,F8.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IGRV .NE. IGRVDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6016) IGRV,helpint(18)
|
||||||
|
6016 FORMAT('GRAVITY ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(OMEGA1 .NE. OMEGA1DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6025) OMEGA1,helpint(27)
|
||||||
|
6025 FORMAT('OMEGA ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IPASS1 .NE. IPASS1DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6018) IPASS1,helpint(21)
|
||||||
|
6018 FORMAT('PASSSAL ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IPASS2 .NE. IPASS2DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6019) IPASS2,helpint(22)
|
||||||
|
6019 FORMAT('PASSTMP ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IPASS3 .NE. IPASS3DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6020) IPASS3,helpint(23)
|
||||||
|
6020 FORMAT('PASSSED ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IZB .NE. IZBDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6017) IZB,helpint(19)
|
||||||
|
6017 FORMAT('ZEROBED ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ZERBED .NE. ZERBEDDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6022) ZERBED,helpint(20)
|
||||||
|
6022 FORMAT('ZERBELLV',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IZERS .NE. IZERSDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6021) IZERS,helpint(24)
|
||||||
|
6021 FORMAT('ZEROSURF',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ELEV1 .NE. ELEV .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6060) ELEV1,helpint(65)
|
||||||
|
6060 FORMAT('INITWSRF',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(SALI .NE. SALIDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6039) SALI,helpint(41)
|
||||||
|
6039 FORMAT('INITSAL ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(TEMPI .NE. TEMPIDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6040) TEMPI,helpint(42)
|
||||||
|
6040 FORMAT('INITTEMP',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(SEDI .NE. SEDIDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6041) SEDI,helpint(43)
|
||||||
|
6041 FORMAT('INITSED ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(UINP .NE. UINPDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6042) UINP,helpint(44)
|
||||||
|
6042 FORMAT('INITUBED',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(VINP .NE. VINPDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6043) VINP,helpint(45)
|
||||||
|
6043 FORMAT('INITVBED',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(PRCNT .NE. PRCNTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6044) PRCNT,helpint(46)
|
||||||
|
6044 FORMAT('RETRNPCT',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(CONV(1) .NE. CONVDF(1) .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6061) CONV(1),helpint(66)
|
||||||
|
6061 FORMAT('CONV-VEL',F8.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(CONV(3) .NE. CONVDF(3) .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6062) CONV(3),helpint(67)
|
||||||
|
6062 FORMAT('CONV-DEP',F8.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(CONV(4) .NE. CONVDF(4) .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6063) CONV(4),helpint(68)
|
||||||
|
6063 FORMAT('CONV-SAL',F8.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(CONV(5) .NE. CONVDF(5) .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6064) CONV(5),helpint(69)
|
||||||
|
6064 FORMAT('CONV-TMP',F8.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(CONV(6) .NE. CONVDF(6) .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6065) CONV(6),helpint(70)
|
||||||
|
6065 FORMAT('CONV-SED',F8.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IPRT .EQ. 0) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60481) helpint(51)
|
||||||
|
60481 FORMAT('ECHSVNON',t70,a96)
|
||||||
|
ELSEIF(IPRT .EQ. 2) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60482) helpint(52)
|
||||||
|
60482 FORMAT('ECHSVINI',t70,a96)
|
||||||
|
ELSEIF(ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60483) helpint(53)
|
||||||
|
60483 FORMAT('ECHSVALL',t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(NPRTI .NE. NPRTIDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6049) NPRTI,helpint(54)
|
||||||
|
6049 FORMAT('ITERINTV',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(NPRTF .NE. NPRTFDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6050) NPRTF,helpint(55)
|
||||||
|
6050 FORMAT('ASCSVFRQ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IRSAV .NE. IRSAVDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6051) IRSAV,helpint(56)
|
||||||
|
6051 FORMAT('STBIN ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IOUTFREQ .NE. IOUTFREQDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6053) IOUTFREQ,helpint(58)
|
||||||
|
6053 FORMAT('FRQBIN ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IOUTRST .NE. IOUTRSTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6054) IOUTRST,helpint(59)
|
||||||
|
6054 FORMAT('FRQRST ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IREWOUT .NE. IREWOUTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6055) IREWOUT,helpint(60)
|
||||||
|
6055 FORMAT('RWDASFRQ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IREWMES .NE. IREWMESDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6059) IREWMES,helpint(64)
|
||||||
|
6059 FORMAT('MESSRWND',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ISAVITR .NE. ISAVITRDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6023) ISAVITR,helpint(25)
|
||||||
|
6023 FORMAT('SAVITR',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(JSPLPT .GT. 0) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60861)
|
||||||
|
60861 FORMAT(30X,'& Nodes for extraction of all constiuents to a time series file')
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60862) (NSPLPT(J),J=1,JSPLPT)
|
||||||
|
60862 FORMAT('SPR-NOD ',1X,10I7)
|
||||||
|
ENDIF
|
||||||
|
IF(ICTOTC .GT. 0) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6066)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60661) (NCSPLPT(J),J=1,ICTOTC)
|
||||||
|
6066 FORMAT(40X,'& Continuity lines for selective output')
|
||||||
|
60661 FORMAT('CCLINOUT',20I7)
|
||||||
|
ENDIF
|
||||||
|
|
||||||
|
DO J=1,6
|
||||||
|
IF(ICCOMP(J) .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6067) helpint(72)
|
||||||
|
6067 FORMAT('CONT-FLW',t70,a96)
|
||||||
|
ELSEIF(ICCOMP(J) .EQ. 2) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6068) helpint(73)
|
||||||
|
6068 FORMAT('CONT-DEP',t70,a96)
|
||||||
|
ELSEIF(ICCOMP(J) .EQ. 3) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6069) helpint(74)
|
||||||
|
6069 FORMAT('CONT-ELV',t70,a96)
|
||||||
|
ELSEIF(ICCOMP(J) .EQ. 4) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6070) helpint(75)
|
||||||
|
6070 FORMAT('CONT-SAL',t70,a96)
|
||||||
|
ELSEIF(ICCOMP(J) .EQ. 5) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6071) helpint(76)
|
||||||
|
6071 FORMAT('CONT-TMP',t70,a96)
|
||||||
|
ELSEIF(ICCOMP(J) .EQ. 6) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6072) helpint(77)
|
||||||
|
6072 FORMAT('CONT-SED',t70,a96)
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
IF(XSCALE .NE. XSCALEDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6027) XSCALE,helpint(29)
|
||||||
|
6027 FORMAT('X-SCALE ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(YSCALE .NE. YSCALEDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6028) YSCALE,helpint(30)
|
||||||
|
6028 FORMAT('Y-SCALE ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ZSCALE .NE. ZSCALEDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6029) ZSCALE,helpint(31)
|
||||||
|
6029 FORMAT('Z-SCALE ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IDSWT .NE. IDSWTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6052) IDSWT,helpint(57)
|
||||||
|
6052 FORMAT('DRYSW ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(DSET .NE. DSETDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6035) DSET,helpint(37)
|
||||||
|
6035 FORMAT('DSET ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(DSETD .NE. DSETDDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6036) DSETD,helpint(38)
|
||||||
|
6036 FORMAT('DSETD ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(IFXBC .NE. IFXBCDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6037) IFXBC,helpint(39)
|
||||||
|
6037 FORMAT('FIXBC ',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(UNOM .NE. UNOMDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6032) UNOM,helpint(34)
|
||||||
|
6032 FORMAT('UNOM ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(UDIR .NE. UDIRDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6033) UDIR,helpint(35)
|
||||||
|
6033 FORMAT('UDIR ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(HMIN .NE. HMINDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6034) HMIN,helpint(36)
|
||||||
|
6034 FORMAT('HMIN ',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
DO K=1,NMAT
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6073) K,ORT(K,1),helpint(78)
|
||||||
|
6073 FORMAT('EDDY-MAT',I8,F10.5,t70,a96)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6074) K,ORT(K,6),helpint(79)
|
||||||
|
6074 FORMAT('EDDY-VRT',I8,1PE12.3,t70,a96)
|
||||||
|
IF(ORT(K,8) .NE. 0. .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6075) K,ORT(K,8),helpint(80)
|
||||||
|
6075 FORMAT('DIFF-MAT',I8,F10.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ORT(K,10) .NE. 0. .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6076) K,ORT(K,10),helpint(81)
|
||||||
|
6076 FORMAT('DIFF-VRT',I8,1PE12.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6077) K,ORT(K,5),helpint(82)
|
||||||
|
6077 FORMAT('MANN-MAT',I8,F10.5,t70,a96)
|
||||||
|
IF(ORT(K,11) .NE. 0. .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6078) K,ORT(K,11),helpint(83)
|
||||||
|
6078 FORMAT('MANN-BNK',I8,F10.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ORT(K,13) .NE. 0. .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6079) K,ORT(K,13),helpint(84)
|
||||||
|
6079 FORMAT('MANN-SRF',I8,F10.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ORT(K,12) .NE. 0. .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6080) K,ORT(K,12),helpint(85)
|
||||||
|
6080 FORMAT('MARSH-FR',I8,F10.5,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(EDD1(K) .NE. 0. .OR. EDD2(K) .NE. 0. .OR. EDD3(K) .NE. 0 .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60811) K,EDD1(K),EDD2(K),EDD3(K),helpint(86)
|
||||||
|
60811 FORMAT('ED-VTVAR',I8,3F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
IF(IDNOPT .NE. IDNOPTDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6006) IDNOPT,helpint(8)
|
||||||
|
6006 FORMAT('MARSHOPT',I8,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ACT1 .NE. ACT1DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6087) ACT1,helpint(91)
|
||||||
|
6087 FORMAT('MARSH-SH',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ACT2 .NE. ACT2DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6088) ACT2,helpint(92)
|
||||||
|
6088 FORMAT('MARSH-RG',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ACT3 .NE. ACT3DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6089) ACT3,helpint(93)
|
||||||
|
6089 FORMAT('MARSH-PR',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(ACT4 .NE. ACT4DF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6090) ACT4,helpint(94)
|
||||||
|
6090 FORMAT('MARSH-LM',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(L3DTYP .EQ. 2) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60841)
|
||||||
|
60841 FORMAT(30X,'& Nodal layer data type LD2, 0 = apply to all nodes, number of layers Proportional factors')
|
||||||
|
DO K=1,L3DCNT
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6085) JND(K),KKLAY(K),(L3DDAT(K,J),J=1,KKLAY(K))
|
||||||
|
6085 FORMAT('LD2 ',2I8,20F8.3)
|
||||||
|
ENDDO
|
||||||
|
ELSEIF(L3DTYP .EQ. 3) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),60851)
|
||||||
|
60851 FORMAT(30X,'& Nodal layer data type LD3, 0 = apply to all nodes, number of layers Layer elevations')
|
||||||
|
LINE=LINE+1
|
||||||
|
DO K=1,L3DCNT
|
||||||
|
WRITE(DATALIN(LINE),6086) JND(K),KKLAY(K),(L3DDAT(K,J),J=1,KKLAY(K))
|
||||||
|
6086 FORMAT('LD3 ',2I8,20F8.3)
|
||||||
|
ENDDO
|
||||||
|
endif
|
||||||
|
IF(CMIN .NE. CMINDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6030) CMIN,helpint(32)
|
||||||
|
6030 FORMAT('BOUNDCMN',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(CPR .NE. CPRDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6031) CPR,helpint(33)
|
||||||
|
6031 FORMAT('BOUNDCPW',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(VMIN .NE. UMINDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6081) VMIN,helpint(87)
|
||||||
|
6081 FORMAT('BN-V-MIN',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(POWER .NE. POWERDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6082) POWER,helpint(88)
|
||||||
|
6082 FORMAT('BN-V-PWR',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(UMIN .NE. UMINDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6083) UMIN,helpint(89)
|
||||||
|
6083 FORMAT('TR-V-MIN',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
IF(PWERIN .NE. PWERINDF .OR. ISHOWSW .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6084) PWERIN,helpint(90)
|
||||||
|
6084 FORMAT('TR-V-PWR',F8.3,t70,a96)
|
||||||
|
ENDIF
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6091) helpint(95)
|
||||||
|
6091 FORMAT('TAB-END',t70,a96)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6092) helpint(96)
|
||||||
|
6092 FORMAT('ENDGEO',t70,a96)
|
||||||
|
|
||||||
|
DO J=1,JT
|
||||||
|
LINE=LINE+1
|
||||||
|
IF(DELT(J) .EQ. 0 .AND. DELTM(J) .EQ. 0. .OR. DELT(J) .GT. 0.) THEN
|
||||||
|
WRITE(DATALIN(LINE),6100) DELT(J),HELPTIME(1)
|
||||||
|
ELSE
|
||||||
|
WRITE(DATALIN(LINE),6101) DELTM(J),HELPTIME(2)
|
||||||
|
ENDIF
|
||||||
|
6100 FORMAT('DELTA-HR',F12.4,T70,A162)
|
||||||
|
6101 FORMAT('DELTA-MN',F12.4,T70,A162)
|
||||||
|
IF(DATENDST(J) .NE. ' ' .AND. J .GT. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6102) DATENDST(J),HELPTIME(3)
|
||||||
|
6102 FORMAT('DATE-END',4X,A16,T70,A162)
|
||||||
|
ENDIF
|
||||||
|
IF(IITYPE(J) .EQ. 1) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6103),HELPTIME(4)
|
||||||
|
6103 FORMAT('Q-ITR',T70,A162)
|
||||||
|
ELSEIF(IITYPE(J) .EQ. 2) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6104),HELPTIME(5)
|
||||||
|
6104 FORMAT('QSL-ITR',T70,A162)
|
||||||
|
ELSEIF(IITYPE(J) .EQ. 3) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6105),HELPTIME(6)
|
||||||
|
6105 FORMAT('QTM-ITR',T70,A162)
|
||||||
|
ELSEIF(IITYPE(J) .EQ. 4) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6106),HELPTIME(7)
|
||||||
|
6106 FORMAT('QSD-ITR',T70,A162)
|
||||||
|
ELSEIF(IITYPE(J) .EQ. 5) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6107),HELPTIME(8)
|
||||||
|
6107 FORMAT('QST-ITR',T70,A162)
|
||||||
|
ENDIF
|
||||||
|
KH=NHLIN(J)
|
||||||
|
KQ=NQLIN(J)
|
||||||
|
KE=NELIN(J)
|
||||||
|
DO K=1,KH
|
||||||
|
LINE=LINE+1
|
||||||
|
IF(HLIN1(K,J) .GT. -9000.) THEN
|
||||||
|
IF(HCKLIN(K,J) .EQ. 1 ) THEN
|
||||||
|
WRITE(DATALIN(LINE),6108) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),HLIN1(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(9)
|
||||||
|
6108 FORMAT('FL-ELEVI',2I8,2F8.4,3F8.3,T70,A162)
|
||||||
|
ELSE
|
||||||
|
WRITE(DATALIN(LINE),6109) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),HLIN1(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(10)
|
||||||
|
6109 FORMAT('CN-ELEVI',2I8,2F8.4,3F8.3,T70,A162)
|
||||||
|
ENDIF
|
||||||
|
ELSE
|
||||||
|
IF(HCKLIN(K,J) .EQ. 1 ) THEN
|
||||||
|
WRITE(DATALIN(LINE),6110) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(11)
|
||||||
|
6110 FORMAT('FL-ELEVC',2I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ELSE
|
||||||
|
WRITE(DATALIN(LINE),6111) IHLIN(K,J),LAYNUMH(K,J),HLIN(K,J),(QUALKH(K,J,KK),KK=1,3),HELPTIME(12)
|
||||||
|
6111 FORMAT('CN-ELEVC',2I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ENDIF
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
|
||||||
|
IF(KHCN(J) .GT. 0) THEN
|
||||||
|
DO K=1,KHCN(J)
|
||||||
|
L1=MIN(IHCN(K,J),9)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=1,L1)
|
||||||
|
61111 FORMAT('HCN',5X,9F8.3)
|
||||||
|
IF(IHCN(K,J) .LE. 9) CYCLE
|
||||||
|
L1=MIN(IHCN(K,J),18)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=10,L1)
|
||||||
|
IF(IHCN(K,J) .LE. 18) CYCLE
|
||||||
|
L1=MIN(IHCN(K,J),27)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=19,L1)
|
||||||
|
IF(IHCN(K,J) .LE. 27) CYCLE
|
||||||
|
L1=MIN(IHCN(K,J),36)
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),61111) (FHCN(K,J,L),L=28,L1)
|
||||||
|
ENDDO
|
||||||
|
ENDIF
|
||||||
|
|
||||||
|
IF(WVEL(J) .NE. 0.) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),61112) WVEL(J),WDIR(J)
|
||||||
|
61112 FORMAT('GBWIND ',1X,2F8.3)
|
||||||
|
ENDIF
|
||||||
|
|
||||||
|
DO K=1,KQ
|
||||||
|
LINE=LINE+1
|
||||||
|
IF(IQLIN1(K,J) .EQ. 1) ALAB='C'
|
||||||
|
IF(IQLIN1(K,J) .EQ. 2) ALAB='F'
|
||||||
|
IF(IQLIN1(K,J) .EQ. 3) ALAB='H'
|
||||||
|
IF(QCKLIN(K,J) .EQ. 0) THEN
|
||||||
|
BLAB='CN'
|
||||||
|
ELSE
|
||||||
|
BLAB='FL'
|
||||||
|
ENDIF
|
||||||
|
IF(ALAB .EQ. 'C') THEN
|
||||||
|
IHP=13
|
||||||
|
ELSEIF(ALAB .EQ. 'F') THEN
|
||||||
|
IHP=14
|
||||||
|
ELSE
|
||||||
|
IHP=15
|
||||||
|
ENDIF
|
||||||
|
WRITE(DATALIN(LINE),6112) BLAB,ALAB,IQLIN(K,J),LAYNUMQ(K,J),QLIN(K,J),QDLIN(K,J),(QUALKQ(K,J,KK),KK=1,3),HELPTIME(IHP)
|
||||||
|
6112 FORMAT(A2,'-Q',A1,3X,2I8,2F10.2,3F8.3,T70,A162)
|
||||||
|
ENDDO
|
||||||
|
|
||||||
|
DO K=1,KE
|
||||||
|
IF(ECKLIN(K,J) .EQ. 1) THEN
|
||||||
|
BLAB='FL'
|
||||||
|
ELSE
|
||||||
|
BLAB='CN'
|
||||||
|
ENDIF
|
||||||
|
LINE=LINE+1
|
||||||
|
IF(IETP(K,J) .EQ. 4) THEN
|
||||||
|
WRITE(DATALIN(LINE),6113) BLAB,ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(16)
|
||||||
|
6113 FORMAT(A2,'-RAIN ',F8.4,3F8.3,T70,A162)
|
||||||
|
ELSEIF(IETP(K,J) .EQ. 1) THEN
|
||||||
|
IF(IELIN(K,J) .GT. 0) THEN
|
||||||
|
IF(ECKLIN1(K,J) .EQ. 1) THEN
|
||||||
|
WRITE(DATALIN(LINE),6116) BLAB,IELIN(K,J),LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(19)
|
||||||
|
6116 FORMAT(A2,'-ELMET',2I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ELSE
|
||||||
|
WRITE(DATALIN(LINE),6117) BLAB,IELIN(K,J),LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(20)
|
||||||
|
6117 FORMAT(A2,'-ELMED',2I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ENDIF
|
||||||
|
ELSE
|
||||||
|
IF(ECKLIN1(K,J) .EQ. 1) THEN
|
||||||
|
WRITE(DATALIN(LINE),6115) BLAB,LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(18)
|
||||||
|
6115 FORMAT(A2,'-ELMGT',I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ELSE
|
||||||
|
WRITE(DATALIN(LINE),6114) BLAB,LAYNUME(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(17)
|
||||||
|
6114 FORMAT(A2,'-ELMGD',I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ENDIF
|
||||||
|
ENDIF
|
||||||
|
ELSEIF(IETP(K,J) .EQ. 6) THEN
|
||||||
|
WRITE(DATALIN(LINE),6118) BLAB,IELIN(K,J),ELIN(K,J),(QUALKE(K,J,KK),KK=1,3),HELPTIME(21)
|
||||||
|
6118 FORMAT(A2,'-GRAIN',I8,F8.4,3F8.3,T70,A162)
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
|
||||||
|
IF(NSND(J) .GT. 0) THEN
|
||||||
|
DO K=1,NSND(J)
|
||||||
|
IF(NODSND(K,J) .GT. 0) THEN
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6119) NODSND(K,J),NCODE(K,J),(BCSND(K,J,L),L=1,6)
|
||||||
|
6119 FORMAT('SN',8X,2I7,2f10.5,4F8.3)
|
||||||
|
ELSE
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),61191) NCODE(K,J),(BCSND(K,J,L),L=1,6)
|
||||||
|
61191 FORMAT('SD'15X,I7,2F10.5,4F8.2)
|
||||||
|
ENDIF
|
||||||
|
ENDDO
|
||||||
|
ENDIF
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6200)
|
||||||
|
6200 FORMAT('ENDSTEP')
|
||||||
|
|
||||||
|
ENDDO
|
||||||
|
|
||||||
|
LINE=LINE+1
|
||||||
|
WRITE(DATALIN(LINE),6999)
|
||||||
|
6999 FORMAT('ENDDATA')
|
||||||
|
|
||||||
|
filter="r10 file *.r10|*.R10|"
|
||||||
|
IOUT=66
|
||||||
|
|
||||||
|
CALL WSelectFile(Filter,SaveDialog+PromptOn+AppendExt+DirChange,NAMEFL,'Save R10 File for Execution')
|
||||||
|
|
||||||
|
IF (WInfoDialog(ExitButtonCommon).EQ.CommonOpen) THEN
|
||||||
|
go to 500
|
||||||
|
else
|
||||||
|
RETURN
|
||||||
|
endif
|
||||||
|
|
||||||
|
500 CONTINUE
|
||||||
|
OPEN(IOUT,FILE=NAMEFL,FORM='FORMATTED')
|
||||||
|
DO K=1,LINE
|
||||||
|
WRITE(IOUT,'(A230)') DATALIN(K)
|
||||||
|
ENDDO
|
||||||
|
CLOSE(IOUT)
|
||||||
|
RETURN
|
||||||
|
END
|
||||||
Binary file not shown.
@ -0,0 +1,52 @@
|
|||||||
|
INBNGEO MESH.GEO & Input binary file with geometric data
|
||||||
|
OUTFIL RESULTS.OUT & Output ASCII results
|
||||||
|
OUTBNRMA BRESULTS.RMA & Output binary file with new format results data
|
||||||
|
OUTBNRST BRESULTS.RST & Output binary file with restart data
|
||||||
|
OUTCON CONTIN.DAT & Output ASCII file with continuity line flow data
|
||||||
|
OUTASXTR EXTRACT.DAT & Output ASCII file listing extracted results for specified nodes
|
||||||
|
ENDFIL
|
||||||
|
ENDLIMIT
|
||||||
|
TI TEST ESTUARY
|
||||||
|
3DTYPLD2 & 3-d model with type LD2 input
|
||||||
|
STARTIM 01/01/2019 00.00 & Starting date and time
|
||||||
|
OVERLAYT & Overlay input time/date onto restart file
|
||||||
|
SSITN 5 & Number of steady state iteration cycles to be applied
|
||||||
|
TRITN 5 & Number of time transient iteration cycles to be applied per time step
|
||||||
|
TRSTEPS 4 & Number of transient steps to be simulated
|
||||||
|
SURFMIX 0.400 & Depth of surface mixing (associated with free water surface local turbulence
|
||||||
|
TRANSIT 0.50000 & Transition depth for collapse from 3-D to 2-D approximation
|
||||||
|
& Nodes for extraction of all constiuents to a time series file
|
||||||
|
SPR-NOD 23 45 56
|
||||||
|
& Continuity lines for selective output
|
||||||
|
CCLINOUT 1
|
||||||
|
CONT-FLW & Save flows in continuity line output
|
||||||
|
CONT-DEP & Save depths in continuity line output
|
||||||
|
CONT-ELV & Save average water surface elevations in continuity line output
|
||||||
|
CONT-SAL & Save average salinity in continuity line output
|
||||||
|
CONT-TMP & Save average temperature in continuity line output
|
||||||
|
CONT-SED & Save average sediment concentration in continuity line output
|
||||||
|
EDDY-MAT 1 0.20000 & Horizontal turbulent eddy coefficient
|
||||||
|
EDDY-VRT 1 1.000E-01 & Vertical turbulent eddy coefficient
|
||||||
|
DIFF-MAT 1 0.10000 & Horizontal turbulent diffusion coefficient
|
||||||
|
DIFF-VRT 1 1.000E-03 & Vertical turbulent diffusion coefficient
|
||||||
|
MANN-MAT 1 0.02000 & Manning/Chezy bed friction coefficient >1.0 is Chezy coefficient
|
||||||
|
MARSH-FR 1 10.00000 & Marsh factor when drying applied to friction coefficient
|
||||||
|
ED-VTVAR 1 1.000 0.000 0.000 & Eqn for vertical distribution factor for horizontal eddy coefficient F=a+z*(b+c*z)
|
||||||
|
MARSHOPT -2 & Marsh option 0=inactive -2 = input marsh parameters
|
||||||
|
MARSH-SH 2.000 & Marsh coefficient depth shift
|
||||||
|
MARSH-RG 0.500 & Marsh coefficient range
|
||||||
|
MARSH-PR 0.010 & Marsh coefficient porosity
|
||||||
|
& Nodal layer data type LD2, 0 = apply to all nodes, number of layers Proportional factors
|
||||||
|
LD2 0 4 1.000 2.000 3.000 4.000
|
||||||
|
TAB-END & Indicator of end of tabular data set
|
||||||
|
ENDGEO & Indicator of end of end control and geometry data
|
||||||
|
DELTA-HR 0.0000 & Time step in minutes
|
||||||
|
CN-ELEVC 2 0 0.0000 0.000 0.000 0.000 & Continuity line elevation CN-ELEVC is elevation specified as constant along a line - CCLINE, Elevation ,bc-sal,bc-temp,bc-sed
|
||||||
|
CN-QC 1 0 50.00 0.00 0.000 0.000 0.000 & Continuity line inflow CN-QC is standard inflow , CCLINE, Total Flow, Dir, bc-sal,bc-temp,bc-sed FL-QC means subsequent steps from file
|
||||||
|
ENDSTEP
|
||||||
|
DELTA-MN 15.0000 & Time step in hours
|
||||||
|
DATE-END 31/01/2019 12.00 & Ending time for the time step block
|
||||||
|
CN-ELEVC 2 0 0.0000 0.000 0.000 0.000 & Continuity line elevation CN-ELEVC is elevation specified as constant along a line - CCLINE, Elevation ,bc-sal,bc-temp,bc-sed
|
||||||
|
CN-QC 1 0 50.00 0.00 0.000 0.000 0.000 & Continuity line inflow CN-QC is standard inflow , CCLINE, Total Flow, Dir, bc-sal,bc-temp,bc-sed FL-QC means subsequent steps from file
|
||||||
|
ENDSTEP
|
||||||
|
ENDDATA
|
||||||
@ -0,0 +1,94 @@
|
|||||||
|
INBNGEO MESH.GEO & Input binary file with geometric data
|
||||||
|
METFIL RESULTS.OUT & Input ASCII file with meteorological data
|
||||||
|
OUTFIL BRESULTS.RMA & Output ASCII results
|
||||||
|
ENDFIL
|
||||||
|
ENDLIMIT
|
||||||
|
TI
|
||||||
|
STARTIM & Starting date and time
|
||||||
|
VERTTURB 0 & Vertical turbulence option
|
||||||
|
MARSHOPT 0 & Marsh option 0=inactive -2 = input marsh parameters
|
||||||
|
EDDYTYPE 1 & Eddy type 0 = fixed, 1= scaled, 2 = Smagorinsky
|
||||||
|
TBFACT 0.200 & Turbulence factor when Smagorinsky is active
|
||||||
|
TBMIN 1.000 & Turbulence minimum when Smagorinsky is active
|
||||||
|
TIMPROJ 1 & Time projection switch 1= no projection, 0 = use time derivative (least stable), 2 = project u
|
||||||
|
2DMODEL & 2-d model approximation
|
||||||
|
GRAVITY 1 & Units switch 1 = metric 0 = english
|
||||||
|
ZEROBED 0 & Force zero bed velocity 1 = at all bed levels 2 = limited by bed level input
|
||||||
|
ZERBELLV 0.000 & Force zero velocity on water surface
|
||||||
|
PASSSAL 0 & Bed level below which zero bed level in applied
|
||||||
|
PASSTMP 0 & Ignore influence of salinity on water density
|
||||||
|
PASSSED 0 & Ignore influence of temperature on water density
|
||||||
|
ZEROSURF 0 & Ignore influence of sediment on water density
|
||||||
|
SAVITR 0 & Save binary file for all iterations 0 = ignore, 1 =save
|
||||||
|
REVRTDEN 0.000 & Option for vertical density model 0 = standard 1 = revised method
|
||||||
|
OMEGA 0.000 & Latitude (degrees) positive in northern hemisphere
|
||||||
|
ELEV 0.000 & Reference level for vertical transformation / Starting water level
|
||||||
|
X-SCALE 1.000 & x scale factor (0.0 equivalent to 1.0)
|
||||||
|
Y-SCALE 1.000 & y scale factor (0.0 equivalent to 1.0)
|
||||||
|
Z-SCALE 1.000 & z sacle factor (0.0 equivalent to 1.0)
|
||||||
|
BOUNDCMN 1.000 & Defines constant associated with vertical constituent distribution at boundary
|
||||||
|
BOUNDCPW 1.000 & Defines power associated with vertical constituent distribution at boundary
|
||||||
|
UNOM 0.250 & Nominal water velocity at startup
|
||||||
|
UDIR 0.000 & Nominal current direction in radians c-clockwise from horzontal
|
||||||
|
HMIN 0.000 & Minimum depth as startup (ignored if set = 0.0) Use with care can cause initial instabilty
|
||||||
|
DSET 0.200 & Depth at which drying (element removal) is initiated when drying
|
||||||
|
DSETD 0.300 & Depth at which rewetting (element return) occurs when flooding
|
||||||
|
FIXBC 0 & Switch that forces boundary conditions to be applied regardless of direction
|
||||||
|
VERTEQSW 20000 & Number of vertical velocity equations to switch to PARDISO (Default=20000)
|
||||||
|
INITSAL 0.000 & Initial salinity when no restart file specified
|
||||||
|
INITTEMP 20.000 & Initial temperature when no restart file specified
|
||||||
|
INITSED 0.000 & Initial sediment concentration when no restart file specified
|
||||||
|
INITUBED 0.000 & Bed x-velocity used to compute resistance to flow for initial conditions regardless of initial
|
||||||
|
INITVBED 0.000 & Bed y-velocity used to compute resistance to flow for initial conditions regardless of initial
|
||||||
|
RETRNPCT 0.000 & Percent of outflowing average concentration returned on next tidal inflow
|
||||||
|
SURFMIX 0.500 & Depth of surface mixing (associated with free water surface local turbulence
|
||||||
|
SSITN 20 & Number of steady state iteration cycles to be applied
|
||||||
|
TRITN 20 & Number of time transient iteration cycles to be applied per time step
|
||||||
|
TRSTEPS 12 & Number of transient steps to be simulated
|
||||||
|
ECHSVALL & Show element and node data in echo print
|
||||||
|
ITERINTV 0 & Iteration frequency for ASCII output. Skip if = 0
|
||||||
|
ASCSVFRQ 1 & Time step frequency for ASCII output
|
||||||
|
STBIN 1 & Save startup to binary results file
|
||||||
|
DRYSW 0 & Switch to initiate element elimination
|
||||||
|
FRQBIN 1 & Time step frequency for binary output
|
||||||
|
FRQRST 10 & Time step frequency for individual binary restart file
|
||||||
|
RWDASFRQ 999999 & Time step frequency for restarting ASCII results file (saves file size for very large number o
|
||||||
|
1DTYP 0 & 1-D cross section type (see users manual for more details)
|
||||||
|
SOLVER 4 & Equation solver type 0=FRONT > 0 PARDISO SOLVER
|
||||||
|
SLVERDSK 0 & Switch to initiate out of local memory (disk) version of PARDISO for very large prblems
|
||||||
|
MESSRWND 999999 & Time step frequency for restarting ASCII message file (saves file size for very large number o
|
||||||
|
INITWSRF 0.000 & Initial water surface elevation, Required if different from tra nsformation reference level
|
||||||
|
CONV-VEL 0.01000 & Convergence limit for velocities
|
||||||
|
CONV-DEP 0.00100 & Convergence limit for depth
|
||||||
|
CONV-SAL 0.01000 & Convergence limit for salinity
|
||||||
|
CONV-TMP 0.01000 & Convergence limit for temperature
|
||||||
|
CONV-SED 0.01000 & Convergence limit for sediment concentration
|
||||||
|
EDDY-MAT 1 -0.20000 & Horizontal turbulent eddy coefficient
|
||||||
|
EDDY-VRT 1 0.000E+00 & Vertical turbulent eddy coefficient
|
||||||
|
DIFF-MAT 1 0.00000 & Horizontal turbulent diffusion coefficient
|
||||||
|
DIFF-VRT 1 0.000E+00 & Vertical turbulent diffusion coefficient
|
||||||
|
MANN-MAT 1 0.02000 & Manning/Chezy bed friction coefficient >1.0 is Chezy coefficient
|
||||||
|
MANN-BNK 1 0.00000 & Bank Manning coefficient if appropriate
|
||||||
|
MANN-SRF 1 0.00000 & Water surface Manning coefficient if appropriate
|
||||||
|
MARSH-FR 1 0.00000 & Marsh factor when drying applied to friction coefficient
|
||||||
|
ED-VTVAR 1 1.000 0.000 0.000 & Eqn for vertical distribution factor for horizontal eddy coefficient F=a+z*(b+c*z)
|
||||||
|
BN-V-MIN 1.000 & Boundary velocity vertical distribution constant
|
||||||
|
BN-V-PWR 1.000 & Boundary velocity vertical distribution power
|
||||||
|
TR-V-MIN 1.000 & 2-D to 3-D velocity vertical distribution constant
|
||||||
|
TR-V-PWR 1.000 & 2-D to 3-D velocity vertical distribution power
|
||||||
|
MARSH-SH 1.500 & Marsh coefficient depth shift
|
||||||
|
MARSH-RG 0.670 & Marsh coefficient range
|
||||||
|
MARSH-PR 0.040 & Marsh coefficient porosity
|
||||||
|
MARSH-LM 0.000 & Marsh coefficient limit
|
||||||
|
TAB-END & Indicator of end of tabular data set
|
||||||
|
ENDGEO & Indicator of end of end control and geometry data
|
||||||
|
DELTA-HR 0.0000 & Time step in minutes
|
||||||
|
CN-ELEVC 2 0 0.0000 0.000 0.000 0.000 & Continuity line elevation CN-ELEVC is elevation specified as constant along a line - CCLINE, Elevation ,bc-sal,bc-temp,bc-sed
|
||||||
|
CN-QC 1 0 50.00 0.00 0.000 0.000 0.000 & Continuity line inflow CN-QC is standard inflow , CCLINE, Total Flow, Dir, bc-sal,bc-temp,bc-sed FL-QC means subsequent steps from file
|
||||||
|
ENDSTEP
|
||||||
|
DELTA-MN 15.0000 & Time step in hours
|
||||||
|
DATE-END 31/01/2018 12.00 & Ending time for the time step block
|
||||||
|
CN-ELEVC 2 0 0.0000 0.000 0.000 0.000 & Continuity line elevation CN-ELEVC is elevation specified as constant along a line - CCLINE, Elevation ,bc-sal,bc-temp,bc-sed
|
||||||
|
CN-QC 1 0 50.00 0.00 0.000 0.000 0.000 & Continuity line inflow CN-QC is standard inflow , CCLINE, Total Flow, Dir, bc-sal,bc-temp,bc-sed FL-QC means subsequent steps from file
|
||||||
|
ENDSTEP
|
||||||
|
ENDDATA
|
||||||
Loading…
Reference in New Issue