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HMC_Module_Data_Static_Gridded.f90
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HMC_Module_Data_Static_Gridded.f90
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!------------------------------------------------------------------------------------------
! File: HMC_Module_Data_Static_Gridded.f90
! Author(s): Fabio Delogu, Francesco Silvestro, Simone Gabellani
!
! Created on April 30, 2015, 9:45 AM
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Module Header
module HMC_Module_Data_Static_Gridded
!------------------------------------------------------------------------------------
! External module(s) and implicit none
#ifdef LIB_NC
use netcdf
#endif
use HMC_Module_Namelist, only: oHMC_Namelist
use HMC_Module_Vars_Loader, only: oHMC_Vars
use HMC_Module_Tools_Debug
#ifdef LIB_NC
use HMC_Module_Tools_IO, only: HMC_Tools_IO_Get1d_ASCII, &
HMC_Tools_IO_GetArcGrid_ASCII, &
HMC_Tools_IO_Get1D_NC, &
HMC_Tools_IO_Get2d_NC, &
check
#else
use HMC_Module_Tools_IO, only: HMC_Tools_IO_Get1d_ASCII, &
HMC_Tools_IO_GetArcGrid_ASCII
#endif
use HMC_Module_Tools_Generic, only: nullborder2DVar, check2Dvar
implicit none
!------------------------------------------------------------------------------------
contains
!------------------------------------------------------------------------------------
! Subroutine to compute static data gridded
subroutine HMC_Data_Static_Gridded_Cpl(iID, iRows, iCols)
!------------------------------------------------------------------------------------
! Variable(s) declaration
integer(kind = 4) :: iID, iRows, iCols
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Info start
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded ... ' )
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Calling subroutine to compute static data land
call HMC_Data_Static_Gridded_Land(iID, iRows, iCols)
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Calling subroutine to compute extra derived model parameter(s)
call HMC_Data_Static_Gridded_Params(iID, iRows, iCols)
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Calling subroutine to compute water-table
call HMC_Data_Static_Gridded_WTable(iID, iRows, iCols)
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Calling subroutine to compute channel fraction
call HMC_Data_Static_Gridded_ChannelFraction(iID, iRows, iCols)
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Info end
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded ... OK' )
!------------------------------------------------------------------------------------
end subroutine
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Subroutine to define model derived parameter(s)
subroutine HMC_Data_Static_Gridded_Params(iID, iRows, iCols)
!------------------------------------------------------------------------------------
! Variable(s)
integer(kind = 4) :: iID, iRows, iCols
integer(kind = 4) :: iFlagSnow
real(kind = 4) :: dBFMax, dBFMin, dCPI
real(kind = 4) :: dBc
real(kind = 4) :: dKb1, dKc1, dKb2, dKc2
real(kind = 4) :: dDxM, dDyM, dVarDEMMax
integer(kind = 4), dimension (iRows, iCols) :: a2iVarMask
real(kind = 4), dimension (iRows, iCols) :: a2dVarDEM, a2dVarS
real(kind = 4), dimension (iRows, iCols) :: a2dVarCt, a2dVarCf, a2dVarUc, a2dVarUh
real(kind = 4), dimension (iRows, iCols) :: a2dVarVTot
real(kind = 4), dimension (iRows, iCols) :: a2dVarExpRhoLow, a2dVarExpRhoHigh, a2dVarArctUp
real(kind = 4), dimension (iRows, iCols) :: a2dVarCtWP, a2dVarKb1, a2dVarKc1
real(kind = 4), dimension (iRows, iCols) :: a2dVarKb2, a2dVarKc2
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Variable(s) initialization
dCPI = 0.0; dBc = 0.0; dBFMax = 0.0; dBFMin = 0.0; dDxM = 0.0; dDyM = 0.0; dVarDEMMax = 0.0
a2dVarDEM = 0.0; a2dVarS = 0.0; a2dVarVTot = 0.0;
a2dVarCt = 0.0; a2dVarCf = 0.0; a2dVarUh = 0.0; a2dVarUc = 0.0
a2dVarExpRhoLow = 0.0; a2dVarExpRhoHigh = 0.0; a2dVarArctUp = 0.0;
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Extracting information
iFlagSnow = oHMC_Namelist(iID)%iFlagSnow
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Extracting parameters
dCPI = oHMC_Namelist(iID)%dCPI
dBc = oHMC_Namelist(iID)%dBc
dBFMax = oHMC_Namelist(iID)%dBFMax
dBFMin = oHMC_Namelist(iID)%dBFMin
dDxM = oHMC_Vars(iID)%dDxM
dDyM = oHMC_Vars(iID)%dDyM
dVarDEMMax = oHMC_Vars(iID)%dDEMMax
a2dVarDEM = oHMC_Vars(iID)%a2dDem
a2dVarS = oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dVTot
a2iVarMask = oHMC_Vars(iID)%a2iMask
a2dVarCt = oHMC_Vars(iID)%a2dCt
a2dVarCtWP = oHMC_Vars(iID)%a2dCtWP
a2dVarCf = oHMC_Vars(iID)%a2dCf
a2dVarUh = oHMC_Vars(iID)%a2dUh
a2dVarUc = oHMC_Vars(iID)%a2dUc
! Info start
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded :: Get parameter(s) information ... ' )
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' ========= STATIC GRIDDED PARAMS BEGIN =========== ')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVTot, a2iVarMask, 'VTOT ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarS, a2iVarMask, 'S ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarDEM, a2iVarMask, 'DEM ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarUc, a2iVarMask, 'UC ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarUh, a2iVarMask, 'UH ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarCtWP, a2iVarMask, 'CTWP ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKb1, a2iVarMask, 'KB1 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKc1, a2iVarMask, 'KC1 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKb2, a2iVarMask, 'KB2 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKc2, a2iVarMask, 'KC2 ') )
call mprintf(.true., iINFO_Extra, ' ')
endif
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Change units the surface flow parameters in the one used in the code
where (a2dVarDEM.gt.0.0 .and. a2dVarUh.lt.0.05)
a2dVarUh = a2dVarUh*3600 !from 1/s to 1/h
a2dVarUc = a2dVarUc*(3600*1000)/(sqrt(dDxM*dDyM)*1000**(dBc + 1)) !from m^0.5/s to 1/(h*mm^0.5)
endwhere
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Total Volume initial conditions
where( (a2dVarDEM.gt.0.0) .and. (a2dVarS.gt.0.0) )
a2dVarVTot = dCPI/2*a2dVarS + dCPI/2*a2dVarS*(dVarDEMMax - a2dVarDEM)/dVarDEMMax
elsewhere
a2dVarVTot = 0.0
endwhere
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Define snow static variable(s)
if (iFlagSnow.eq.1) then
where( a2dVarDEM .le. oHMC_Namelist(iID)%a1dAltRange(1) )
a2dVarExpRhoLow = oHMC_Namelist(iID)%a1dExpRhoLow(1)
a2dVarExpRhoHigh = oHMC_Namelist(iID)%a1dExpRhoHigh(1)
a2dVarArctUp = oHMC_Namelist(iID)%a1dArctUp(1)
endwhere
where( (a2dVarDEM .gt. oHMC_Namelist(iID)%a1dAltRange(1)) .and. &
(a2dVarDEM .le. oHMC_Namelist(iID)%a1dAltRange(2)) )
a2dVarExpRhoLow = oHMC_Namelist(iID)%a1dExpRhoLow(2)
a2dVarExpRhoHigh = oHMC_Namelist(iID)%a1dExpRhoHigh(2)
a2dVarArctUp = oHMC_Namelist(iID)%a1dArctUp(2)
endwhere
where( (a2dVarDEM .gt. oHMC_Namelist(iID)%a1dAltRange(2)) .and. &
(a2dVarDEM .le. oHMC_Namelist(iID)%a1dAltRange(3)) )
a2dVarExpRhoLow = oHMC_Namelist(iID)%a1dExpRhoLow(3)
a2dVarExpRhoHigh = oHMC_Namelist(iID)%a1dExpRhoHigh(3)
a2dVarArctUp = oHMC_Namelist(iID)%a1dArctUp(3)
endwhere
where( a2dVarDem .gt. oHMC_Namelist(iID)%a1dAltRange(4))
a2dVarExpRhoLow = oHMC_Namelist(iID)%a1dExpRhoLow(4)
a2dVarExpRhoHigh = oHMC_Namelist(iID)%a1dExpRhoHigh(4)
a2dVarArctUp = oHMC_Namelist(iID)%a1dArctUp(4)
endwhere
else
a2dVarExpRhoLow = -9999.0
a2dVarExpRhoHigh = -9999.0
a2dVarArctUp = -9999.0
endif
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Define Beta Function parameters
where(a2dVarDEM.gt.0.0)
! Calculate parameters (straight line slopes)
a2dVarKb1 = (dBFMax - dBFMin)/(a2dVarCt - a2dVarCtWP)
a2dVarKc1 = dBFMin - (dBFMax - dBFMin)/(a2dVarCt - a2dVarCtWP)*a2dVarCtWP
a2dVarKb2 = (1 - dBFMax)/(1 - a2dVarCt)
a2dVarKc2 = 1 - a2dVarKb2
elsewhere
a2dVarCtWP = 0.0
a2dVarKb1 = 0.0
a2dVarKc1 = 0.0
a2dVarKb2 = 0.0
a2dVarKc2 = 0.0
endwhere
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVTot, a2iVarMask, 'VTOT ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarUc, a2iVarMask, 'UC ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarUh, a2iVarMask, 'UH ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarCtWP, a2iVarMask, 'CTWP ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKb1, a2iVarMask, 'KB1 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKc1, a2iVarMask, 'KC1 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKb2, a2iVarMask, 'KB2 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarKc2, a2iVarMask, 'KC2 ') )
call mprintf(.true., iINFO_Extra, ' ========= STATIC GRIDDED PARAMS END =========== ')
endif
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Passing parameter(s) to global declaration
oHMC_Vars(iID)%a2dUc = a2dVarUc
oHMC_Vars(iID)%a2dUh = a2dVarUh
! Energy balance parameter(s)
oHMC_Vars(iID)%a2dCtWP = a2dVarCtWP
oHMC_Vars(iID)%a2dKb1 = a2dVarKb1
oHMC_Vars(iID)%a2dKc1 = a2dVarKc1
oHMC_Vars(iID)%a2dKb2 = a2dVarKb2
oHMC_Vars(iID)%a2dKc2 = a2dVarKc2
! Total volume (initialization)
oHMC_Vars(iID)%a2dVTot = a2dVarVTot
! Snow static variable(s)
oHMC_Vars(iID)%a2dExpRhoLow = a2dVarExpRhoLow;
oHMC_Vars(iID)%a2dExpRhoHigh = a2dVarExpRhoHigh;
oHMC_Vars(iID)%a2dArctUp = a2dVarArctUp;
! Info end
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded :: Get parameter(s) information ... OK' )
!------------------------------------------------------------------------------------
end subroutine HMC_Data_Static_Gridded_Params
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Subroutine for loading and initializing channel fraction parameter(s)
subroutine HMC_Data_Static_Gridded_ChannelFraction(iID, iRows, iCols)
!------------------------------------------------------------------------------------
! Variable(s)
integer(kind = 4) :: iID, iRows, iCols
real(kind = 4) :: dMaxW, dMinW
real(kind = 4) :: dMinW_Thr ! Min fraction of cellsize devoted to Channel width
real(kind = 4) :: dMaxW_Thr ! Max fraction of cellsize devoted to Channel width
integer(kind = 4), dimension (iRows, iCols) :: a2iVarMask
real(kind = 4), dimension (iRows, iCols) :: a2dVarSizeCell, a2dVarArea
real(kind = 4), dimension (iRows, iCols) :: a2dVarWidthC, a2dVarWidthH
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Variable(s) initialization
dMaxW = 0.0; dMinW = 0.0; ! [m]
dMinW_Thr = 0.005 ! [-]
dMaxW_Thr = 0.8 ! [-]
a2iVarMask = 0;
a2dVarWidthC = -9999.0; a2dVarWidthH = -9999.0
a2dVarSizeCell = 0.0
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Info start
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded :: Get channel fraction information ... ' )
! Check channel type
if (oHMC_Namelist(iID)%iFlagCType .eq. 2) then
!------------------------------------------------------------------------------------
! Extracting parameters
a2dVarArea = float(oHMC_Vars(iID)%a2iArea)
! a2dVarArea = oHMC_Vars(iID)%a2dArea
a2dVarSizeCell = (oHMC_Vars(iID)%a2dAreaCell)**0.5
a2dVarWidthC = oHMC_Vars(iID)%a2dWidthC
a2dVarWidthH = oHMC_Vars(iID)%a2dWidthH
a2iVarMask = oHMC_Vars(iID)%a2iMask
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' ========= STATIC GRIDDED CHANNEL FRACTION BEGIN =========== ')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarWidthC, a2iVarMask, 'WIDTHC ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarWidthH, a2iVarMask, 'WIDTHH ') )
call mprintf(.true., iINFO_Extra, ' ')
endif
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Channel width
dMaxW = MAXVAL(MAXVAL(a2dVarWidthC, dim=1, &
mask=oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0))
dMinW = MINVAL(MINVAL(a2dVarWidthC, dim=1, &
mask=oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0))
! Build channel width with area function
where( (oHMC_Vars(iID)%a2iChoice.ge.0.0) .and. (oHMC_Vars(iID)%a2dDem.gt.0.0) .and. (a2dVarWidthC.lt.0.0) )
a2dVarWidthC = 0.005*(a2dVarArea*oHMC_Vars(iID)%a2dAreaCell/1000000)**0.4*1000 ! width in m
endwhere
! Check max and min of witdhc
dMaxW = MAXVAL(MAXVAL(a2dVarWidthC, dim=1, &
mask=oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0))
dMinW = MINVAL(MINVAL(a2dVarWidthC, dim=1, &
mask=oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0))
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Verify maximum values for numerical stability
where(a2dVarWidthC .ge. dMaxW_Thr*a2dVarSizeCell)
a2dVarWidthC = dMaxW_Thr*a2dVarSizeCell
endwhere
where(a2dVarWidthC .lt. dMinW_Thr*a2dVarSizeCell)
a2dVarWidthC = dMinW_Thr*a2dVarSizeCell
endwhere
! Check max and min of witdhc
dMaxW = MAXVAL(MAXVAL(a2dVarWidthC, dim=1, &
mask=oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0))
dMinW = MINVAL(MINVAL(a2dVarWidthC, dim=1, &
mask=oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0))
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Hillslope width
where(oHMC_Vars(iID)%a2iChoice.ge.0 .and. oHMC_Vars(iID)%a2dDem.gt.0)
a2dVarWidthH = a2dVarSizeCell - a2dVarWidthC
endwhere
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' ')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarWidthC, a2iVarMask, 'WIDTHC ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarWidthH, a2iVarMask, 'WIDTHH ') )
call mprintf(.true., iINFO_Extra, ' ========= STATIC GRIDDED CHANNEL FRACTION END =========== ')
endif
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Passing parameter(s) to global declaration
oHMC_Vars(iID)%a2dWidthC = a2dVarWidthC
oHMC_Vars(iID)%a2dWidthH = a2dVarWidthH
! Info end
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded :: Get channel fraction information ... OK' )
!------------------------------------------------------------------------------------
else
!------------------------------------------------------------------------------------
! Initialize with undefined values
oHMC_Vars(iID)%a2dWidthC = -9999.0
oHMC_Vars(iID)%a2dWidthH = -9999.0
! Info end
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded :: Get channel fraction information ... SKIPPED' )
!------------------------------------------------------------------------------------
endif
!------------------------------------------------------------------------------------
end subroutine HMC_Data_Static_Gridded_ChannelFraction
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Subroutine for loading and initializing land variable(s)
subroutine HMC_Data_Static_Gridded_Land(iID, iRows, iCols)
!------------------------------------------------------------------------------------------
! Variable(s)
integer(kind = 4) :: iTypeData
character(len = 256) :: sDomainName, sPathData, sFileName
integer(kind = 4) :: iID, iI, iJ, iRows, iCols
integer(kind = 4) :: iPixCount
integer(kind = 4) :: iFileID, iErr
integer(kind = 4) :: iDomainPixels, iTc, iTcSeconds, iTcMax, iETime, iNTime
integer(kind = 4) :: iFlagCoeffRes
integer(kind = 4) :: iFlagWS, iFlagWDL, iFlagFrac
integer(kind = 4) :: iFlagCType, iFlagDynVeg, iFlagFlood
real(kind = 4) :: dDxM, dDyM, dDEMMax, dDEMMin, dDEMStepMean
real(kind = 4) :: dDomainArea
real(kind = 4) :: dDtDataForcing
real(kind = 4) :: dUc, dUh, dCt, dCf
real(kind = 4) :: dCN, dWS, dWDL, dFrac
real(kind = 4) :: dWTLossMax
character(len = 256) :: sVarName
character(len = 256) :: sVarUnits
real(kind = 4), dimension (100) :: a1dVar
real(kind = 4), dimension (iCols, iRows) :: a2dVar
real(kind = 4), dimension (iRows, iCols) :: a2dVarCon
integer(kind = 4), dimension (iRows, iCols) :: a2iVarPNT, a2iVarMask, a2iVarChoice, a2iVarArea
integer(kind = 4), dimension (iRows, iCols) :: a2iVarNature
real(kind = 4), dimension (iRows, iCols) :: a2dVarLon, a2dVarLat
real(kind = 4), dimension (iRows, iCols) :: a2dVarDEM, a2dVarCN, a2dVarS, a2dVarVTotWP
real(kind = 4), dimension (iRows, iCols) :: a2dVarAreaCell
real(kind = 4), dimension (iRows, iCols) :: a2dVarAlpha, a2dVarBeta, a2dVarWTMax
real(kind = 4), dimension (iRows, iCols) :: a2dVarC1, a2dVarF2
real(kind = 4), dimension (iRows, iCols) :: a2dVarCostF, a2dVarCostF1, a2dVarCostChFix
real(kind = 4), dimension (iRows, iCols) :: a2dVarCt, a2dVarCtWP, a2dVarCf, a2dVarUc, a2dVarUh
real(kind = 4), dimension (iRows, iCols) :: a2dVarCoeffResol, a2dVarCoeffWS, a2dVarCoeffWDL
real(kind = 4), dimension (100) :: a1dVarFCN
!vegetation static parameters
real(kind = 4), dimension (iRows, iCols) :: a2dVarGd, a2dVarRSmin, a2dVarHveg, a2dVarBareSoil
!flooding static parameters
real(kind = 4), dimension (iRows, iCols) :: a2dVarLevBankR, a2dVarLevBankL, a2dVarFirst
real(kind = 4), dimension (iRows, iCols) :: a2dVarWidthC, a2dVarFrac
logical :: bFileExist
character(len = 256) :: sStrDomPix, sStrDomArea, sStrTc, sStrDemMax
character(len = 256) :: sPixCount, sParDefault
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Variable(s) initialization
bFileExist = .false.
sVarName = ''; sVarUnits = ''; iNTime = 0;
sDomainName = ''; sPathData = ''; sFileName = '';
iTypeData = 0; iI = 0; iJ = 0; iFileID = 0; iErr = 0; iDomainPixels = 0; iTc = 0; iTcMax = 0;
dDxM = 0.0; dDyM = 0.0; dDEMMax = 0.0; dDEMMin = 0.0; dDEMStepMean = 0.0; dDomainArea = 0.0;
a2dVarCon = 0.0; a1dVar = 0.0; a2dVar = 0.0
a2iVarPNT = 0; a2iVarMask = 0; a2iVarChoice = 0; a2iVarArea = 0;
a2dVarLon = 0.0; a2dVarLat = 0.0;
a2dVarDEM = 0.0; a2dVarCN = 0.0; a2dVarS = 0.0; a2dVarVTotWP = 0.0;
a2dVarAreaCell = 0.0;
a2dVarAlpha = 0.0; a2dVarBeta = 0.0; a2dVarWTMax = -9999.0;
a2dVarC1 = 0.0; a2dVarF2 = 0.0;
a2dVarCostF = 0.0; a2dVarCostF1 = 0.0; a2dVarCostChFix = 0.0;
a2dVarCt = 0.0; a2dVarCf = 0.0; a2dVarUc = 0.0; a2dVarUh = 0.0;
a2dVarCoeffResol = 0.0; a2dVarCoeffWS = 0.0; a2dVarCoeffWDL = 0.0;
a1dVarFCN = 0.0
a2dVarFrac = 0.0; a2dVarWidthC = -9999.0;
a2dVarCtWP = 0.0; a2dVarGd = 0.0; a2dVarRSmin = 0.0; a2dVarHveg = 0.0; a2dVarBareSoil = 0.0;
a2dVarLevBankR = -9999.0; a2dVarLevBankL = -9999.0; a2dVarFirst = -9999.0;
dUc = -9999.0; dUh = -9999.0; dCt = -9999.0; dCf = -9999.0; dCN = -9999.0;
dWS = -9999.0; dWDL = -9999.0; dFrac = -9999.0;
iFlagCoeffRes = -9999;
iFlagWS = -9999; iFlagWDL = -9999; iFlagFrac = -9999;
iFlagCType = -9999; iFlagDynVeg = -9999; iFlagFlood = -9999;
iPixCount = 0
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Get global info
iNTime = oHMC_Namelist(iID)%iNTime
sDomainName = oHMC_Namelist(iID)%sDomainName
sPathData = oHMC_Namelist(iID)%sPathData_Static_Gridded
iTypeData = oHMC_Namelist(iID)%iFlagTypeData_Static
! Get the corrivation time and the forcing dt
iTcMax = oHMC_Namelist(iID)%iTcMax
dDtDataForcing = dble(oHMC_Namelist(iID)%iDtData_Forcing)
! Get mean parameter(s)
dCt = oHMC_Namelist(iID)%dCt
dCf = oHMC_Namelist(iID)%dCf
dUh = oHMC_Namelist(iID)%dUh
dUc = oHMC_Namelist(iID)%dUc
dCN = oHMC_Namelist(iID)%dCN
dWS = oHMC_Namelist(iID)%dWS
dWDL = oHMC_Namelist(iID)%dWDL
dFrac = oHMC_Namelist(iID)%dFrac
dWTLossMax = oHMC_Namelist(iID)%dWTLossMax
! Flag to set coeff resolution map default mode
iFlagCoeffRes = oHMC_Namelist(iID)%iFlagCoeffRes
! Flag to activate/deactivate water sources map
iFlagWS = oHMC_Namelist(iID)%iFlagWS
! Flag to activate/deactivate groundwater bedrock fracturation map
iFlagFrac = oHMC_Namelist(iID)%iFlagFrac
! Flag to activate/deactivate channel fraction map
iFlagCType = oHMC_Namelist(iID)%iFlagCType
! Flag to activate/deactivate dynamic vegetation for ET computation
iFlagDynVeg = oHMC_Namelist(iID)%iFlagDynVeg
!Flooding flag
iFlagFlood = oHMC_Namelist(iID)%iFlagFlood
! Get Initialized variable(s)
a2dVarS = oHMC_Vars(iID)%a2dS
! Info start
call mprintf(.true., iINFO_Verbose, ' Data :: Static gridded :: Get land information ... ' )
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Land data type in netCDF format
if (iTypeData == 2) then
#ifdef LIB_NC
!------------------------------------------------------------------------------------------
! Info
call mprintf(.true., iINFO_Extra, ' Data static gridded in netCDF format.' )
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Filename nc
sFileName = trim(sPathData)//'hmc.staticdata.nc'
! Check file availability
inquire (file = trim(sFileName), exist = bFileExist)
if ( .not. bFileExist ) then
!------------------------------------------------------------------------------------------
! Exit code file not found
call mprintf(.true., iERROR, ' No data static gridded file found: '//trim(sFileName) )
!------------------------------------------------------------------------------------------
else
!------------------------------------------------------------------------------------------
! Open nc file
call check( nf90_open(trim(sFileName), NF90_NOWRITE, iFileID) )
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Longitude
sVarName = 'Longitude'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2dVarLon = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Latitude
sVarName = 'Latitude'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2dVarLat = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! DEM
sVarName = 'Terrain'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2dVarDEM = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! PNT
sVarName = 'Flow_Directions'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2iVarPNT = transpose(int(a2dVar))
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CHOICE
sVarName = 'Channels_Distinction'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2iVarChoice = transpose(int(a2dVar))
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CN
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' CN data not found. Initializing CN with default values.')
a2dVarCN = dCN
else
a2dVarCN = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Mask
sVarName = 'Mask'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' Mask data not found. Initializing Mask with default values.')
where(a2dVarDEM.gt.0.0)
a2iVarMask = 1
elsewhere
a2iVarMask = 0
endwhere
else
a2iVarMask = int(transpose(a2dVar))
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! AREA
sVarName = 'Drainage_Area'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2iVarArea = transpose(int(a2dVar))
! a2dVarArea = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CELLAREA
sVarName = 'Cell_Area'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2dVarAreaCell = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! WATERTABLE ALPHA
sVarName = 'Wt_Alpha'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2dVarAlpha = transpose(a2dVar)
! WATERTABLE BETA
sVarName = 'Wt_Beta'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .true., iErr)
a2dVarBeta = transpose(a2dVar)
! WATERTABLE MAX
sVarName = 'Wt_Max'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, 'WT maximum data not found. Initializing with default values.')
a2dVarWTMax = -9999.0
else
a2dVarWTMax = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CT
sVarName = 'Ct'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
a2dVarCt = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CT_WP - soil moisture wilting point
sVarName = 'Ct_wp'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, 'Soil Moisture Wilting Point data not found. Initializing with default values.')
a2dVarCtWP = 0.4*a2dVarCt
else
a2dVarCtWP = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CF
sVarName = 'Cf'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
a2dVarCf = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! UC
sVarName = 'Uc'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
a2dVarUc = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! UH
sVarName = 'Uh'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
a2dVarUh = transpose(a2dVar)
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! FCN
sVarName = 'VegetationIA'
call HMC_Tools_IO_Get1D_NC(sVarName, iFileID, a1dVar, sVarUnits, 100, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' VegIA data not found. Initializing VegIA with default values.')
a1dVarFCN = (/603.3,572.9,543.8,515.9,489.2,463.6,439.2,415.9,393.6,372.3, &
352.0,332.7,314.3,296.8,280.2,264.4,249.4,235.2,221.8,209.1,197.1, &
185.8,175.1,165.1,155.6,146.8,138.4,130.7,123.4,116.6,110.3,104.4, &
98.9,93.8,89.1,84.7,80.7,77.0,73.7,70.5,67.7,65.1,62.8,60.6,58.7,56.9, &
55.3,53.9,52.6,51.4,50.4,49.4,48.6,47.8,47.1,46.4,45.9,45.3,44.8,44.3, &
43.8,43.3,42.8,42.3,41.8,41.2,40.7,40.1,39.5,38.8,38.1,37.3,36.5,35.7, &
34.7,33.8,32.8,31.7,30.5,29.4,28.1,26.8,25.5,24.1,22.6,21.2,19.7,18.1, &
16.5,14.9,13.3,11.7,10.0,8.4,6.8,5.2,3.6,2.1,0.6,0.1/)
else
a1dVarFCN = a1dVar
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Coefficient Resolution
sVarName = 'Coeff_Resol_Map'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' CoeffRes data not found. Initializing CoeffRes with namelist flag condition.')
where(a2dVarDEM.gt.0.0)
a2dVarCoeffResol = iFlagCoeffRes
elsewhere
a2dVarCoeffResol = 0.0
endwhere
else
a2dVarCoeffResol = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Nature map
sVarName = 'Nature'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' Nature data not found. Initializing Nature with default values.')
a2iVarNature = -9999
else
a2iVarNature = int(transpose(a2dVar))
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Watertable sources map
sVarName = 'WS'
if (iFlagWS .eq. 1) then
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' CoeffWS data not found. Initializing CoeffWS with default values.')
a2dVarCoeffWS = dWS
else
a2dVarCoeffWS = transpose(a2dVar)
endif
else
call mprintf(.true., iWARN, ' Watertable sources not activated. CoeffWS is null.')
a2dVarCoeffWS = 0.0
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Watertable deep losses map
sVarName = 'WDL'
if (iFlagWDL .eq. 1) then
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' CoeffWDL data not found. Initializing CoeffDL with default values.')
a2dVarCoeffWDL = dWDL
else
a2dVarCoeffWDL = transpose(a2dVar)
endif
else
call mprintf(.true., iWARN, ' Watertable deep losses not activated. CoeffWDL is null.')
a2dVarCoeffWDL = 0.0
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Section width map
sVarName = 'SectionWidth'
if (iFlagCType .eq. 2) then
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' SectionWidth data not found. Use morphologic function.')
a2dVarWidthC = -9999.0
else
a2dVarWidthC = transpose(a2dVar)
endif
else
call mprintf(.true., iWARN, ' Channel Network activated. Initializing SectionWidth with undefined values.')
a2dVarWidthC = -9999.0
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Fracturing map
sVarName = 'Fracturation'
if (iFlagFrac .eq. 1) then
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' Fracturing data not found. Initializing Fracturing with default values.')
a2dVarFrac = dFrac
else
a2dVarFrac = transpose(a2dVar)
endif
else
call mprintf(.true., iWARN, ' Fracturing not activated. Initializing Fracturing with zero values.')
a2dVarFrac = 0.0
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Left and Right bank depths needed to compute flooding discharges
if (iFlagFlood.eq.1) then
sVarName = 'LeftBankDepth'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' Left Bank depths data not found. Flooding not activated.')
a2dVarLevBankL = -9999.0
a2dVarLevBankR = -9999.0
iFlagFlood = 0
else
a2dVarLevBankL = transpose(a2dVar)
sVarName = 'RightBankDepth'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' Right Bank depths data not found. Flooding not activated.')
a2dVarLevBankR = -9999.0
a2dVarLevBankL = -9999.0
iFlagFlood = 0
else
a2dVarLevBankR = transpose(a2dVar)
endif
endif
else
call mprintf(.true., iWARN, ' Flooding not activated.')
a2dVarLevBankR = -9999.0
a2dVarLevBankL = -9999.0
iFlagFlood = 0
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Define dynamic vegetation static variable(s)
if (iFlagDynVeg.eq.1) then
!------------------------------------------------------------------------------------------
! Minimum Stomata resistance [s/m]
sVarName = 'RSmin'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iERROR,'Minimum stomatal resistance not found.' // &
'Dynamic vegetation module not applicable. Program stopped!')
else
a2dVarRSmin = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Vegetation height [m]
sVarName = 'Hveg'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iERROR, 'Vegetation Height not found. Dynamic vegetation module not applicable.' // &
'Program stopped!')
else
a2dVarHveg = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! coefficient for the dependency of canopy resistance on water vapor deficit [hPa-1]
sVarName = 'Gd'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iERROR,'Vapor deficit coefficient not found.' // &
'Dynamic vegetation module not applicable. Program stopped!')
else
a2dVarGd = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Bare soil mask layer
sVarName = 'BareSoil'
call HMC_Tools_IO_Get2d_NC(sVarName, iFileID, a2dVar, sVarUnits, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iERROR, 'Bare Soil mask not found. Dynamic vegetation module not applicable.' // &
'Program stopped!')
else
a2dVarBareSoil = transpose(a2dVar)
endif
!------------------------------------------------------------------------------------------
endif
!------------------------------------------------------------------------------------------
! Closing netcdf file
iErr = nf90_close(iFileID)
!------------------------------------------------------------------------------------------
endif
!------------------------------------------------------------------------------------------
#else
!------------------------------------------------------------------------------------------
! Redefinition of forcing data flag (if netCDF library is not linked)
iTypeData = 1
call mprintf(.true., iWARN, ' '// &
'static gridded data type selected was netCDF but library is not linked! '// &
'Will be used data in ASCII format!')
!------------------------------------------------------------------------------------------
#endif
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Land data type in binary format
if (iTypeData == 1) then
!------------------------------------------------------------------------------------------
! Info data type
call mprintf(.true., iINFO_Extra, ' Data static gridded in ASCII format')
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! DEM
sFileName = trim(sPathData)//trim(sDomainName)//'.dem.txt'
call HMC_Tools_IO_GetArcGrid_ASCII(sFileName, a2dVar, iCols, iRows, .true., iErr)
a2dVarDEM = reshape(a2dVar, (/iRows, iCols/))
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! LON
sFileName = trim(sPathData)//trim(sDomainName)//'.lon.txt'
call HMC_Tools_IO_GetArcGrid_ASCII(sFileName, a2dVar, iCols, iRows, .false., iErr)
a2dVarLon = reshape(a2dVar, (/iRows, iCols/))
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! LAT
sFileName = trim(sPathData)//trim(sDomainName)//'.lat.txt'
call HMC_Tools_IO_GetArcGrid_ASCII(sFileName, a2dVar, iCols, iRows, .false., iErr)
a2dVarLat = reshape(a2dVar, (/iRows, iCols/))
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CN
sFileName = trim(sPathData)//trim(sDomainName)//'.cn.txt'
call HMC_Tools_IO_GetArcGrid_ASCII(sFileName, a2dVar, iCols, iRows, .false., iErr)
if (iErr /= 0) then
call mprintf(.true., iWARN, ' CN data not found. Initializing CN with average value.')
where(a2dVarDEM.gt.0.0)
a2dVarCN = dCN
endwhere
else
a2dVarCN = reshape(a2dVar, (/iRows, iCols/))
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! PNT
sFileName = trim(sPathData)//trim(sDomainName)//'.pnt.txt'
call HMC_Tools_IO_GetArcGrid_ASCII(sFileName, a2dVar, iCols, iRows, .true., iErr)
a2iVarPNT = int(reshape(a2dVar, (/iRows, iCols/)))
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! CHOICE
sFileName = trim(sPathData)//trim(sDomainName)//'.choice.txt'
call HMC_Tools_IO_GetArcGrid_ASCII(sFileName, a2dVar, iCols, iRows, .true., iErr)
a2iVarChoice = int(reshape(a2dVar, (/iRows, iCols/)))