C     SUBROUTINE E3V88 COMPUTES NEARBY LAYER TRANSMISSIVITIES FOR
C  H2O USING A TABLE LOOKUP OF THE PRE-COMPUTED E3 FUNCTION
C ( DESCRIBED IN REF. (4)).
C         INPUTS:                 (COMMON BLOCKS,ARGS.)
C       TV,AV                      ARGUMENT LIST
C       EM3                        TABCOM
C          OUTPUTS:
C       EMV                        ARGUMENT LIST
C
C       CALLED BY  :    FST88
C       CALLS      :    ALOG10H,ALOG10V
C
      SUBROUTINE E3V88(EMV,TV,AV)
C
      COMMON/PHYCON/AMOLWT,CSUBP,DIFFCTR,G,GRAVDR,O3DIFCTR,P0,
     *            P0XZP2,P0XZP8,P0X2,RADCON,RGAS,RGASSP,SECPDA
      COMMON/PHYCON/RATCO2MW,RATH2OMW
      COMMON/PHYCON/RADCON1
      COMMON/PHYCON/GINV,P0INV,GP0INV
      COMMON/HCON/HUNDRED,HNINETY,SIXTY,FIFTY,TEN,EIGHT,FIVE,
     *            FOUR,THREE,TWO,ONE,HAF,QUARTR,ZERO
      COMMON/HCON/H83E26,H71E26,H1E15,H1E13,H1E11,H1E8,H4E5,
     *            H165E5,H5725E4,H488E4,H1E4,H24E3,H20788E3,
     *            H2075E3,H1224E3,H5E2,H3082E2,H3E2,H2945E2,
     *            H23E2,H15E2,H35E1,H3P6,H181E1,H18E1,H2P9,H2P8,
     *            H2P5,H1P8,H1P4387,H1P4,H1P25892,HP8,HP518,
     *            HP369,HP1
      COMMON/HCON/H44871M2,H559M3,H1M3,H987M4,H285M4,H1M4,
     *            H6938M5,H394M5,H37412M5,H1439M5,H128M5,H1M5,
     *            H7M6,H4999M6,H25452M6,H1M6,H391M7,H1174M7,
     *            H8725M8,H327M8,H257M8,H1M8,H23M10,H14M10,
     *            H11M10,H1M10,H83M11,H82M11,H8M11,H77M11,
     *            H72M11,H53M11,H48M11,H44M11,H42M11,H37M11,
     *            H35M11,H32M11,H3M11,H28M11,H24M11,H23M11,
     *            H2M11,H18M11,H15M11,H14M11,H114M11,H11M11,
     *            H1M11,H96M12,H93M12,H77M12,H74M12,H65M12,
     *            H62M12,H6M12,H45M12,H44M12,H4M12,H38M12,
     *            H37M12,H3M12,H29M12,H28M12,H24M12,H21M12,
     *            H16M12,H14M12,H12M12,H8M13,H46M13,H36M13,
     *            H135M13,H12M13,H1M13,H3M14,H15M14,H14M14,
     *            H1M17,H1M18,H1M19,H1M20,H1M21,H1M22,H1M23,
     *            H1M24,H26M30,H14M30,H25M31,H21M31,H12M31,
     *            H9M32,H55M32,H45M32,H4M33,H62M34,H1M60
      COMMON/HCON/HMP575,HM13EZ,HM19EZ,HM1E1,HM181E1,HM1E2
      COMMON/HCON/H1E6,H2E6,H1M2,HMP66667,HM6666M2,HP166666,
     *            H41666M2,HMP5,HM2M2,H29316E2,H1226E1,H3116E1,
     *            H9P94,HP6,H625M2,HP228,HP60241,HM1797E1,
     *            H8121E1,H2E2,HM1EZ,H26E2,H44194M2,H1P41819
      COMMON/HCON/HP219,HP144,HP816,H69766E5,H235M3,HP26,
     *            H129M2,H75826M4,H1P082,HP805,H1386E2,
     *            H658M2,H1036E2,H2118M2,H42M2,H323M4,
     *            H67390E2,HP3795,HP5048,H102M5,H451M6
      COMMON/HCON/H16E1,HM161E1,H161E1,H3M3,H101M16,
     *            HM1597E1,H25E2,HP118666,H15M5,H3P5,H18E3,
     *            H6P08108,HMP805,HP602409,HP526315,
     *            H28571M2,H1M16
      COMMON/HCON/H3M4
      COMMON/HCON/HM8E1
      COMMON/HCON/H28E1
C-----------------------------------------------------------------------
       INCLUDE "parmeta"
       INCLUDE "mpp.h"
#include "sp.h"
C-----------------------------------------------------------------------
C     PARAMETER SETTINGS FOR THE LONGWAVE AND SHORTWAVE RADIATION CODE:
C          IMAX   =  NO. POINTS ALONG THE LAT. CIRCLE USED IN CALCS.
C          L      =  NO. VERTICAL LEVELS (ALSO LAYERS) IN MODEL
C***NOTE: THE USER NORMALLY WILL MODIFY ONLY THE IMAX AND L PARAMETERS
C          NBLW   =  NO. FREQ. BANDS FOR APPROX COMPUTATIONS. SEE
C                      BANDTA FOR DEFINITION
C          NBLX   =  NO. FREQ BANDS FOR APPROX CTS COMPUTATIONS
C          NBLY   =  NO. FREQ. BANDS FOR EXACT CTS COMPUTATIONS. SEE
C                      BDCOMB FOR DEFINITION
C          INLTE  =  NO. LEVELS USED FOR NLTE CALCS.
C          NNLTE  =  INDEX NO. OF FREQ. BAND IN NLTE CALCS.
C          NB,KO2 ARE SHORTWAVE PARAMETERS; OTHER QUANTITIES ARE DERIVED
C                    FROM THE ABOVE PARAMETERS.
      PARAMETER (L=LM)
      PARAMETER (IMAX=IM,NCOL=IMAX)
      PARAMETER (NBLW=163,NBLX=47,NBLY=15)
      PARAMETER (NBLM=NBLY-1)
      PARAMETER (LP1=L+1,LP2=L+2,LP3=L+3)
      PARAMETER (LM1=L-1,LM2=L-2,LM3=L-3)
      PARAMETER (LL=2*L,LLP1=LL+1,LLP2=LL+2,LLP3=LL+3)
      PARAMETER (LLM1=LL-1,LLM2=LL-2,LLM3=LL-3)
      PARAMETER (LP1M=LP1*LP1,LP1M1=LP1M-1)
      PARAMETER (LP1V=LP1*(1+2*L/2))
      PARAMETER (LP121=LP1*NBLY)
      PARAMETER (LL3P=3*L+2)
      PARAMETER (NB=12)
      PARAMETER (INLTE=3,INLTEP=INLTE+1,NNLTE=56)
      PARAMETER (LP1I=IMAX*LP1,LLP1I=IMAX*LLP1,LL3PI=IMAX*LL3P)
      PARAMETER (NB1=NB-1)
      PARAMETER (KO2=12)
      PARAMETER (KO21=KO2+1,KO2M=KO2-1)
C     PARAMETER SETTINGS FOR THE LONGWAVE AND SHORTWAVE RADIATION CODE:
C          IMAX   =  NO. POINTS SENT TO RADFS
C          L      =  NO. VERTICAL LEVELS (ALSO LAYERS) IN MODEL
C***NOTE: THE USER NORMALLY WILL MODIFY ONLY THE IMAX AND L PARAMETERS
C          NBLW   =  NO. FREQ. BANDS FOR APPROX COMPUTATIONS. SEE
C                      BANDTA FOR DEFINITION
C          NBLX   =  NO. FREQ BANDS FOR APPROX CTS COMPUTATIONS
C          NBLY   =  NO. FREQ. BANDS FOR EXACT CTS COMPUTATIONS. SEE
C                      BDCOMB FOR DEFINITION
C          INLTE  =  NO. LEVELS USED FOR NLTE CALCS.
C          NNLTE  =  INDEX NO. OF FREQ. BAND IN NLTE CALCS.
C          NB,KO2 ARE SHORTWAVE PARAMETERS; OTHER QUANTITIES ARE DERIVED
C                    FROM THE ABOVE PARAMETERS.
C     COMMON BLOCK TABCOM CONTAINS QUANTITIES PRECOMPUTED IN SUBROUTINE
C     TABLE FOR USE IN THE LONGWAVE RADIATION PROGRAM:
C          EM1     =  E1 FUNCTION, EVALUATED OVER THE 0-560 AND
C                     1200-2200 CM-1 INTERVALS
C          EM1WDE  =  E1 FUNCTION, EVALUATED OVER THE 160-560 CM-1
C                     INTERVAL
C          TABLE1  =  E2 FUNCTION, EVALUATED OVER THE 0-560 AND
C                     1200-2200 CM-1 INTERVALS
C          TABLE2  =  TEMPERATURE DERIVATIVE OF TABLE1
C          TABLE3  =  MASS DERIVATIVE OF TABLE1
C          EM3     =  E3 FUNCTION, EVALUATED OVER THE 0-560 AND
C                     1200-2200 CM-1 INTERVALS
C          SOURCE  =  PLANCK FUNCTION, EVALUATED AT SPECIFIED TEMPS. FOR
C                     BANDS USED IN CTS CALCULATIONS
C          DSRCE   =  TEMPERATURE DERIVATIVE OF SOURCE
C          IND     =  INDEX, WITH VALUE IND(I)=I. USED IN FST88
C          INDX2   =  INDEX VALUES USED IN OBTAINING "LOWER TRIANGLE"
C                     ELEMENTS OF AVEPHI,ETC.,IN FST88
C          KMAXV   =  INDEX VALUES USED IN OBTAINING "UPPER TRIANGLE"
C                     ELEMENTS OF AVEPHI,ETC.,IN FST88
C          KMAXVM  =  KMAXV(L),USED FOR DO LOOP INDICES
C
      COMMON / TABCOM / IND(IMAX),INDX2(LP1V),KMAXV(LP1),
     1     KMAXVM
      COMMON/TABCOM/EM1(28,180),EM1WDE(28,180),TABLE1(28,180),
     1 TABLE2(28,180),TABLE3(28,180),EM3(28,180),SOURCE(28,NBLY),
     2 DSRCE(28,NBLY)
C
      DIMENSION IT(IDIM1:IDIM2,LLP1),WW1(IDIM1:IDIM2,LLP1),
     1          DT(IDIM1:IDIM2,LLP1),WW2(IDIM1:IDIM2,LLP1),
     2          DU(IDIM1:IDIM2,LLP1)
C   THE FOLLOWING ARRAYS ARE EQUIVALENCED TO VTEMP ARRAYS
      DIMENSION FXO(IDIM1:IDIM2,LLP1),FYO(IDIM1:IDIM2,LLP1),
     & TMP3(IDIM1:IDIM2,LLP1)
C
C    DIMENSIONS OF ARRAYS IN ARGUMENT LIST
      DIMENSION EMV(IDIM1:IDIM2,LLP1),TV(IDIM1:IDIM2,LLP1),
     & AV(IDIM1:IDIM2,LLP1)
C
C   THE FOLLOWING ARRAY IS EQUIVALENCED TO AN ARRAY IN TABCOM.H
      DIMENSION EM3V(5040)
C
      EQUIVALENCE (EM3V(1),EM3(1,1))
      EQUIVALENCE (FXO,WW1),(FYO,WW2),(IT,TMP3)
C---THE FOLLOWING LOOP REPLACES A DOUBLE LOOP OVER I (1-IMAX) AND
C   K (1-LLP1)
      DO 203 K=1,LLP1
      DO 203 I=MYIS,MYIE
        FXO(I,K)=AINT(TV(I,K)*HP1)
        TMP3(I,K)=LOG10(AV(I,K))+H16E1
        DT(I,K)=TV(I,K)-TEN*FXO(I,K)
        FYO(I,K)=AINT(TMP3(I,K)*TEN)
        DU(I,K)=TMP3(I,K)-HP1*FYO(I,K)
C---OBTAIN INDEX FOR TABLE LOOKUP; THIS VALUE WILL HAVE TO BE
C   DECREMENTED BY 9 TO ACCOUNT FOR TABLE TEMPS STARTING AT 100K.
        IT(I,K)=FXO(I,K)+FYO(I,K)*H28E1
        WW1(I,K)=TEN-DT(I,K)
        WW2(I,K)=HP1-DU(I,K)
        EMV(I,K)=WW1(I,K)*WW2(I,K)*EM3V(IT(I,K)-9)+
     1           WW2(I,K)*DT(I,K)*EM3V(IT(I,K)-8)+
     2           WW1(I,K)*DU(I,K)*EM3V(IT(I,K)+19)+
     3           DT(I,K)*DU(I,K)*EM3V(IT(I,K)+20)
203   CONTINUE
      RETURN
      END