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jmc |
1.6 |
C $Header: /u/gcmpack/MITgcm/pkg/diagnostics/diagstats_fill.F,v 1.5 2009/09/03 20:41:37 jmc Exp $ |
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jmc |
1.1 |
C $Name: $ |
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#include "DIAG_OPTIONS.h" |
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1.5 |
C-- File diagstats_fill.F: |
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C-- Contents: |
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C-- o DIAGSTATS_FILL |
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C-- o DIAGSTATS_TO_RL |
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C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
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1.1 |
CBOP |
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C !ROUTINE: DIAGSTATS_FILL |
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C !INTERFACE: |
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1.2 |
SUBROUTINE DIAGSTATS_FILL( |
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jmc |
1.5 |
I inpFldRL, fracFldRL, |
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#ifndef REAL4_IS_SLOW |
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I inpFldRS, fracFldRS, |
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#endif |
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I scaleFact, power, arrType, nLevFract, |
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1.3 |
I ndId, kInQSd, region2fill, kLev, nLevs, |
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1.6 |
I bibjFlg, biArg, bjArg, myThid ) |
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1.1 |
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C !DESCRIPTION: |
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C*********************************************************************** |
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1.2 |
C compute statistics over 1 tile |
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C and increment the diagnostics array |
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1.3 |
C using a scaling factor & square option (power=2), |
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1.2 |
C and with the option to use a fraction-weight (assumed |
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C to be the counter-mate of the current diagnostics) |
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1.1 |
C*********************************************************************** |
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C !USES: |
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IMPLICIT NONE |
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C == Global variables === |
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#include "EEPARAMS.h" |
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#include "SIZE.h" |
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#include "DIAGNOSTICS_SIZE.h" |
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#include "DIAGNOSTICS.h" |
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C !INPUT PARAMETERS: |
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C*********************************************************************** |
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C Arguments Description |
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C ---------------------- |
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1.5 |
C inpFldRL :: Field to increment diagnostics array (arrType=0,1) |
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C fracFldRL :: fraction used for weighted average diagnostics (arrType=0,2) |
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C inpFldRS :: Field to increment diagnostics array (arrType=2,3) |
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C fracFldRS :: fraction used for weighted average diagnostics (arrType=1,3) |
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jmc |
1.3 |
C scaleFact :: scaling factor |
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C power :: option to fill-in with the field square (power=2) |
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jmc |
1.5 |
C arrType :: select which array & fraction (RL/RS) to process: |
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C 0: both RL ; 1: inpRL & fracRS ; 2: inpRS,fracRL ; 3: both RS |
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C nLevFract :: number of levels of the fraction field, =0: do not use fraction |
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jmc |
1.3 |
C ndId :: Diagnostics Id Number (in available diag list) of diag to process |
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C kInQSd :: Pointer to the slot in qSdiag to fill |
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C region2fill :: array, indicates whether to compute statistics over region |
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1.1 |
C "j" (if region2fill(j)=1) or not (if region2fill(j)=0) |
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1.3 |
C kLev :: Integer flag for vertical levels: |
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1.1 |
C > 0 (any integer): WHICH single level to increment in qSdiag. |
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C 0,-1 to increment "nLevs" levels in qSdiag, |
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C 0 : fill-in in the same order as the input array |
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1.1 |
C -1: fill-in in reverse order. |
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1.3 |
C nLevs :: indicates Number of levels of the input field array |
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1.1 |
C (whether to fill-in all the levels (kLev<1) or just one (kLev>0)) |
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1.6 |
C bibjFlg :: Integer flag to indicate instructions for bi bj loop |
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1.1 |
C 0 indicates that the bi-bj loop must be done here |
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C 1 indicates that the bi-bj loop is done OUTSIDE |
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C 2 indicates that the bi-bj loop is done OUTSIDE |
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C AND that we have been sent a local array (with overlap regions) |
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C 3 indicates that the bi-bj loop is done OUTSIDE |
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C AND that we have been sent a local array |
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C AND that the array has no overlap region (interior only) |
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C NOTE - bibjFlg can be NEGATIVE to indicate not to increment counter |
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C biArg :: X-direction tile number - used for bibjFlg=1-3 |
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C bjArg :: Y-direction tile number - used for bibjFlg=1-3 |
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1.3 |
C myThid :: my thread Id number |
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1.1 |
C*********************************************************************** |
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C NOTE: User beware! If a local (1 tile only) array |
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1.6 |
C is sent here, bibjFlg MUST NOT be set to 0 |
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1.1 |
C or there will be out of bounds problems! |
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C*********************************************************************** |
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1.5 |
_RL inpFldRL(*) |
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_RL fracFldRL(*) |
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#ifndef REAL4_IS_SLOW |
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_RS inpFldRS(*) |
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_RS fracFldRS(*) |
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#endif |
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jmc |
1.2 |
_RL scaleFact |
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jmc |
1.3 |
INTEGER power |
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jmc |
1.5 |
INTEGER arrType |
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jmc |
1.2 |
INTEGER nLevFract |
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jmc |
1.1 |
INTEGER ndId, kInQSd |
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INTEGER region2fill(0:nRegions) |
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1.6 |
INTEGER kLev, nLevs, bibjFlg, biArg, bjArg |
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1.1 |
INTEGER myThid |
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CEOP |
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C !LOCAL VARIABLES: |
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C =============== |
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C useFract :: flag to increment (or not) with fraction-weigted inpFld |
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1.2 |
LOGICAL useFract |
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INTEGER sizF |
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1.1 |
INTEGER sizI1,sizI2,sizJ1,sizJ2 |
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INTEGER sizTx,sizTy |
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INTEGER iRun, jRun, k, bi, bj |
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INTEGER kFirst, kLast |
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INTEGER kd, kd0, ksgn, kStore |
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CHARACTER*8 parms1 |
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CHARACTER*(MAX_LEN_MBUF) msgBuf |
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INTEGER km, km0 |
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jmc |
1.5 |
#ifndef REAL4_IS_SLOW |
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_RL tmpFldRL( sNx+1,sNy+1) |
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_RL tmpFracRL(sNx+1,sNy+1) |
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#endif |
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C If-sequence to see if we are a valid and an active diagnostic |
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c IF ( ndId.NE.0 .AND. kInQSd.NE.0 ) THEN |
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C- select range for 1rst & 2nd indices to accumulate |
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1.2 |
C depending on variable location on C-grid, |
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1.1 |
parms1 = gdiag(ndId)(1:8) |
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IF ( parms1(2:2).EQ.'Z' ) THEN |
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iRun = sNx+1 |
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jRun = sNy+1 |
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c ELSEIF ( parms1(2:2).EQ.'U' ) THEN |
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c iRun = sNx+1 |
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c jRun = sNy |
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c ELSEIF ( parms1(2:2).EQ.'V' ) THEN |
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c iRun = sNx |
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c jRun = sNy+1 |
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ELSE |
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iRun = sNx |
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jRun = sNy |
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ENDIF |
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C- Dimension of the input array: |
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1.6 |
IF (ABS(bibjFlg).EQ.3) THEN |
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1.1 |
sizI1 = 1 |
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sizI2 = sNx |
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sizJ1 = 1 |
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sizJ2 = sNy |
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iRun = sNx |
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jRun = sNy |
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ELSE |
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sizI1 = 1-OLx |
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sizI2 = sNx+OLx |
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sizJ1 = 1-OLy |
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sizJ2 = sNy+OLy |
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ENDIF |
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1.6 |
IF (ABS(bibjFlg).GE.2) THEN |
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1.1 |
sizTx = 1 |
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sizTy = 1 |
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ELSE |
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sizTx = nSx |
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sizTy = nSy |
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ENDIF |
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C- Which part of inpFld to add : k = 3rd index, |
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C and do the loop >> do k=kFirst,kLast << |
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IF (kLev.LE.0) THEN |
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kFirst = 1 |
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kLast = nLevs |
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ELSEIF ( nLevs.EQ.1 ) THEN |
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kFirst = 1 |
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kLast = 1 |
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ELSEIF ( kLev.LE.nLevs ) THEN |
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kFirst = kLev |
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kLast = kLev |
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ELSE |
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STOP 'ABNORMAL END in DIAGSTATS_FILL: kLev > nLevs > 0' |
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ENDIF |
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jmc |
1.2 |
C- Which part of qSdiag to update: kd = 3rd index, |
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jmc |
1.1 |
C and do the loop >> do k=kFirst,kLast ; kd = kd0 + k*ksgn << |
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jmc |
1.2 |
C 1rst try this: for the mask: km = km0 + k*ksgn so that kd= km + kInQSd - 1 |
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jmc |
1.1 |
IF ( kLev.EQ.-1 ) THEN |
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ksgn = -1 |
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kd0 = kInQSd + nLevs |
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km0 = 1 + nLevs |
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ELSEIF ( kLev.EQ.0 ) THEN |
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ksgn = 1 |
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kd0 = kInQSd - 1 |
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km0 = 0 |
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ELSE |
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ksgn = 0 |
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kd0 = kInQSd + kLev - 1 |
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km0 = kLev |
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ENDIF |
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jmc |
1.2 |
C- Set fraction-weight option : |
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useFract = nLevFract.GT.0 |
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IF ( useFract ) THEN |
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sizF = nLevFract |
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ELSE |
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sizF = 1 |
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ENDIF |
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jmc |
1.1 |
|
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C- Check for consistency with Nb of levels reserved in storage array |
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kStore = kd0 + MAX(ksgn*kFirst,ksgn*kLast) - kInQSd + 1 |
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IF ( kStore.GT.kdiag(ndId) ) THEN |
199 |
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_BEGIN_MASTER(myThid) |
200 |
jmc |
1.4 |
WRITE(msgBuf,'(2A,I4,A)') 'DIAGSTATS_FILL: ', |
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jmc |
1.1 |
& 'exceed Nb of levels(=',kdiag(ndId),' ) reserved ' |
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CALL PRINT_ERROR( msgBuf , myThid ) |
203 |
jmc |
1.4 |
WRITE(msgBuf,'(2A,I6,2A)') 'DIAGSTATS_FILL: ', |
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jmc |
1.1 |
& 'for Diagnostics #', ndId, ' : ', cdiag(ndId) |
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CALL PRINT_ERROR( msgBuf , myThid ) |
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WRITE(msgBuf,'(2A,2I4,I3)') 'calling DIAGSTATS_FILL ', |
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I 'with kLev,nLevs,bibjFlg=', kLev,nLevs,bibjFlg |
208 |
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CALL PRINT_ERROR( msgBuf , myThid ) |
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WRITE(msgBuf,'(2A,I6,A)') 'DIAGSTATS_FILL: ', |
210 |
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I '==> trying to store up to ', kStore, ' levels' |
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CALL PRINT_ERROR( msgBuf , myThid ) |
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STOP 'ABNORMAL END: S/R DIAGSTATS_FILL' |
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_END_MASTER(myThid) |
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ENDIF |
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216 |
jmc |
1.5 |
#ifndef REAL4_IS_SLOW |
217 |
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IF ( arrType.EQ.0 .OR. ( arrType.EQ.1 .AND. .NOT.useFract ) ) THEN |
218 |
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#endif |
219 |
jmc |
1.6 |
IF ( bibjFlg.EQ.0 ) THEN |
220 |
jmc |
1.1 |
DO bj=myByLo(myThid), myByHi(myThid) |
221 |
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DO bi=myBxLo(myThid), myBxHi(myThid) |
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DO k = kFirst,kLast |
223 |
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kd = kd0 + ksgn*k |
224 |
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km = km0 + ksgn*k |
225 |
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CALL DIAGSTATS_LOCAL( |
226 |
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U qSdiag(0,0,kd,bi,bj), |
227 |
jmc |
1.5 |
I inpFldRL, fracFldRL, |
228 |
jmc |
1.3 |
I scaleFact, power, useFract, sizF, |
229 |
jmc |
1.1 |
I sizI1,sizI2,sizJ1,sizJ2,nLevs,sizTx,sizTy, |
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I iRun,jRun,k,bi,bj, |
231 |
jmc |
1.6 |
I km, bi, bj, bibjFlg, region2fill, |
232 |
jmc |
1.1 |
I ndId, gdiag(ndId), myThid ) |
233 |
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ENDDO |
234 |
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ENDDO |
235 |
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ENDDO |
236 |
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ELSE |
237 |
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bi = MIN(biArg,sizTx) |
238 |
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bj = MIN(bjArg,sizTy) |
239 |
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DO k = kFirst,kLast |
240 |
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kd = kd0 + ksgn*k |
241 |
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km = km0 + ksgn*k |
242 |
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CALL DIAGSTATS_LOCAL( |
243 |
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U qSdiag(0,0,kd,biArg,bjArg), |
244 |
jmc |
1.5 |
I inpFldRL, fracFldRL, |
245 |
jmc |
1.3 |
I scaleFact, power, useFract, sizF, |
246 |
jmc |
1.1 |
I sizI1,sizI2,sizJ1,sizJ2,nLevs,sizTx,sizTy, |
247 |
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I iRun,jRun,k,bi,bj, |
248 |
jmc |
1.6 |
I km, biArg, bjArg, bibjFlg, region2fill, |
249 |
jmc |
1.1 |
I ndId, gdiag(ndId), myThid ) |
250 |
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ENDDO |
251 |
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ENDIF |
252 |
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253 |
jmc |
1.5 |
#ifndef REAL4_IS_SLOW |
254 |
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ELSE |
255 |
jmc |
1.6 |
IF ( bibjFlg.EQ.0 ) THEN |
256 |
jmc |
1.5 |
DO bj=myByLo(myThid), myByHi(myThid) |
257 |
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DO bi=myBxLo(myThid), myBxHi(myThid) |
258 |
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DO k = kFirst,kLast |
259 |
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kd = kd0 + ksgn*k |
260 |
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km = km0 + ksgn*k |
261 |
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CALL DIAGSTATS_TO_RL( |
262 |
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I inpFldRL, fracFldRL, inpFldRS, fracFldRS, |
263 |
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O tmpFldRL, tmpFracRL, |
264 |
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I arrType, useFract, sizF, |
265 |
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I sizI1,sizI2,sizJ1,sizJ2,nLevs,sizTx,sizTy, |
266 |
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I iRun,jRun,k,bi,bj, myThid ) |
267 |
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CALL DIAGSTATS_LOCAL( |
268 |
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U qSdiag(0,0,kd,bi,bj), |
269 |
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I tmpFldRL, tmpFracRL, |
270 |
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I scaleFact, power, useFract, 1, |
271 |
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I 1, iRun, 1, jRun, 1, 1, 1, |
272 |
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I iRun, jRun, 1, 1, 1, |
273 |
jmc |
1.6 |
I km, bi, bj, bibjFlg, region2fill, |
274 |
jmc |
1.5 |
I ndId, gdiag(ndId), myThid ) |
275 |
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ENDDO |
276 |
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ENDDO |
277 |
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ENDDO |
278 |
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ELSE |
279 |
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bi = MIN(biArg,sizTx) |
280 |
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bj = MIN(bjArg,sizTy) |
281 |
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DO k = kFirst,kLast |
282 |
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kd = kd0 + ksgn*k |
283 |
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km = km0 + ksgn*k |
284 |
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CALL DIAGSTATS_TO_RL( |
285 |
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I inpFldRL, fracFldRL, inpFldRS, fracFldRS, |
286 |
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O tmpFldRL, tmpFracRL, |
287 |
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I arrType, useFract, sizF, |
288 |
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I sizI1,sizI2,sizJ1,sizJ2,nLevs,sizTx,sizTy, |
289 |
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I iRun,jRun,k,bi,bj, myThid ) |
290 |
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CALL DIAGSTATS_LOCAL( |
291 |
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U qSdiag(0,0,kd,biArg,bjArg), |
292 |
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I tmpFldRL, tmpFracRL, |
293 |
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I scaleFact, power, useFract, 1, |
294 |
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I 1, iRun, 1, jRun, 1, 1, 1, |
295 |
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I iRun, jRun, 1, 1, 1, |
296 |
jmc |
1.6 |
I km, biArg, bjArg, bibjFlg, region2fill, |
297 |
jmc |
1.5 |
I ndId, gdiag(ndId), myThid ) |
298 |
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ENDDO |
299 |
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ENDIF |
300 |
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ENDIF |
301 |
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#endif /* ndef REAL4_IS_SLOW */ |
302 |
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303 |
jmc |
1.1 |
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
304 |
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c ELSE |
305 |
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306 |
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c ENDIF |
307 |
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308 |
jmc |
1.2 |
RETURN |
309 |
jmc |
1.1 |
END |
310 |
jmc |
1.5 |
|
311 |
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#ifndef REAL4_IS_SLOW |
312 |
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C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
313 |
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314 |
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CBOP |
315 |
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C !ROUTINE: DIAGSTATS_TO_RL |
316 |
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C !INTERFACE: |
317 |
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SUBROUTINE DIAGSTATS_TO_RL( |
318 |
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I inpFldRL, inpFrcRL, inpFldRS, inpFrcRS, |
319 |
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O outFldRL, outFrcRL, |
320 |
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I arrType, useFract, sizF, |
321 |
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I sizI1,sizI2,sizJ1,sizJ2,sizK,sizTx,sizTy, |
322 |
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I iRun,jRun,kIn,biIn,bjIn, |
323 |
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I myThid ) |
324 |
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C !DESCRIPTION: |
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C Do a local copy with conversion to RL type array |
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C !USES: |
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IMPLICIT NONE |
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#include "EEPARAMS.h" |
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#include "SIZE.h" |
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C !INPUT/OUTPUT PARAMETERS: |
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C == Routine Arguments == |
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C inpFldRL :: input field array to convert (arrType=0,1) |
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C inpFrcRL :: input fraction array to convert (arrType=0,2) |
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C inpFldRS :: input field array to convert (arrType=2,3) |
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C inpFrcRS :: input fraction array to convert (arrType=1,3) |
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C outFldRL :: output field array |
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C outFrcRL :: output fraction array |
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C arrType :: select which array & fraction (RL/RS) to process: |
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C 0: both RL ; 1: fldRL & frcRS ; 2: fldRS,frcRL ; 3: both RS |
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C useFract :: if True, process fraction-weight |
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C sizF :: size of inpFrc array: 3rd dimension |
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C sizI1,sizI2 :: size of inpFld array: 1rst index range (min,max) |
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C sizJ1,sizJ2 :: size of inpFld array: 2nd index range (min,max) |
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C sizK :: size of inpFld array: 3rd dimension |
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C sizTx,sizTy :: size of inpFld array: tile dimensions |
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C iRun,jRun :: range of 1rst & 2nd index |
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C kIn :: level index of inpFld array to process |
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C biIn,bjIn :: tile indices of inpFld array to process |
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C myThid :: my Thread Id number |
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INTEGER sizI1,sizI2,sizJ1,sizJ2 |
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INTEGER sizF,sizK,sizTx,sizTy |
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INTEGER iRun, jRun, kIn, biIn, bjIn |
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_RL inpFldRL(sizI1:sizI2,sizJ1:sizJ2,sizK,sizTx,sizTy) |
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_RL inpFrcRL(sizI1:sizI2,sizJ1:sizJ2,sizF,sizTx,sizTy) |
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_RS inpFldRS(sizI1:sizI2,sizJ1:sizJ2,sizK,sizTx,sizTy) |
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_RS inpFrcRS(sizI1:sizI2,sizJ1:sizJ2,sizF,sizTx,sizTy) |
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_RL outFldRL(1:iRun,1:jRun) |
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_RL outFrcRL(1:iRun,1:jRun) |
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INTEGER arrType |
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LOGICAL useFract |
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INTEGER myThid |
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CEOP |
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C !LOCAL VARIABLES: |
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C i,j :: loop indices |
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INTEGER i, j, kFr |
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IF ( arrType.LE.1 ) THEN |
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DO j=1,jRun |
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DO i=1,iRun |
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outFldRL(i,j) = inpFldRL(i,j,kIn,biIn,bjIn) |
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ENDDO |
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ENDDO |
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ELSE |
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DO j=1,jRun |
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DO i=1,iRun |
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outFldRL(i,j) = inpFldRS(i,j,kIn,biIn,bjIn) |
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ENDDO |
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ENDDO |
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ENDIF |
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IF ( useFract ) THEN |
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kFr = MIN(kIn,sizF) |
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IF ( arrType.EQ.0 .OR. arrType.EQ.2 ) THEN |
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DO j=1,jRun |
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DO i=1,iRun |
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outFrcRL(i,j) = inpFrcRL(i,j,kFr,biIn,bjIn) |
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ENDDO |
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ENDDO |
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ELSE |
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DO j=1,jRun |
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DO i=1,iRun |
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outFrcRL(i,j) = inpFrcRS(i,j,kFr,biIn,bjIn) |
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ENDDO |
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ENDDO |
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ENDIF |
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ENDIF |
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RETURN |
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END |
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#endif /* ndef REAL4_IS_SLOW */ |