[framework]
outputformat = 1

# Model parameters and settings
[model]
AnnualDischarge=2290
# Alpha for wiver-width estimation 5 for mountain stream 60 for the river rhine
Alpha=120
ModelSnow=1
ScalarInput=1
InputSeries=1
InterpolationMethod=inv
Tslice=1
UpdMaxDist=300000.0
P_style = 1
L_IRURFR = 0
L_URFR = 0
L_FR = 0
maxTransitTime = 9
DistForcing = 3
maxGaugeId = 10
Ks = 0.0004
spinUp_time = 5
NSEbreak = 0

#W=wetland(0) H=hillslope(1)  P=plateau(2)  WD = drained wetland(3) 
classes = ['W','H']
timestepsecs = 3600

#selection of reservoir configuration - '0' means reservoir should not be modelled for this class
selectSi = interception_overflow2, interception_overflow2
selectSu= unsatZone_LP_beta, unsatZone_LP_beta
selectSus=None,None 
selectSf=fastRunoff_lag2, fastRunoff_lag2
selectSr=None,None 

#input time series
# J.S., deze kunnen weg, zie [modelparameters] sectie
Pfile_1 = intss\1_P.tss
Efile_1 = intss\1_PET.tss
Tfile_1 = intss\1_T.tss
#Qfile_1 = D:/TEuser/Onderzoek/Promotie/modellen/OpenStreams/wflow/wflow_orientale_topoflex/intss/1_Qobs.tss
#Pfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_rain_10H.tss
#Efile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_Ep_10H.tss
#TDMfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_tempDMean_10H.tss
#RNfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_radNet_10H.tss
#RSfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_radSI_10H.tss
#SGfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_sgamma_10H.tss
#VPDfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_vpd_10H.tss
#Wfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_wind_10H.tss
#DSfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_dayS_10H.tss
#DEfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_dayE_10H.tss
#LAIfile_2 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_lai_10H.tss
#rst_lai_0 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_rstMin_laiEff_W4.tss
#rst_lai_1 = /u/euser/WFLOW/wflow/wflow_ourthe_testStructure/intss/2_rstMin_laiEff_HPPPA4.tss

#wflow maps with percentages
wflow_percent_0 = staticmaps/wflow_percentW4.map
wflow_percent_1 = staticmaps/wflow_percentHPPPA4.map

#constant model parameters - some are catchment dependent 
Ks = 0.0004
lamda = 2.45e6
Cp = 1.01e-3
rhoA = 1.29
rhoW = 1000
gamma = 0.066
JC_Topt = 301

#parameters for fluxes and storages
sumax = [140, 300]
beta = [0.1, 0.1]
D = [0, 0.10]
Kf = [0.1, 0.006]
Tf = [1, 3]
imax = [1.2, 2]
perc = [0, 0.000]
cap = [0.09, 0]
LP = [0.5, 0.8]
Ce = [1, 1]

#Jarvis stressfunctions
JC_D05 = [1.5,1.5] 
JC_cd1 = [3,3]
JC_cd2 = [0.1,0.1]
JC_cr = [100,100]
JC_cuz = [0.07,0.07]
SuFC = [0.98,0.98]
SuWP = [0.1,0.1]
JC_rstmin = [150,250]

#parameters not used for this configuration
samax = [0,0]
famax = [0,0]
sumin = [0,0]
susmax1 = [0,0]
susmax2 = [0,0]
susmax3 = [0,0]
srmax = [0,0]
Co = [1,1]
Kd = [0,0]
Kr =[0,0]



[layout]
# if set to zero the cell-size is given in lat/long (the default)
sizeinmetres = 0

[outputmaps]
#self.Si_diff=sidiff
#self.Pe=pe
#self.Ei=Ei
#self.Si=si
#self.Qfin=Qfin
#self.QfinLag=QfinLag
#self.RunoffLaged=runlag
#self.Su=Su
#self.Qu=Qu
#self.evaporation=act
#self.Su_diff=sudiff




[modelparameters]
# Format:
# name=stack,type,default,verbose[lookupmap_1],[lookupmap_2],lookupmap_n]
# example:
# RootingDepth=monthlyclim/ROOT,monthyclim,100,1

# - name - Name of the parameter (internal variable)
# - stack - Name of the mapstack (representation on disk or in mem) relative to case
# - type - Type of parameter (default = static)
# - default - Default value if map/tbl is not present
# - set to 1 to be verbose if a map is missing
# - lookupmap - maps to be used in the lookuptable in the case the type is statictbl

#Possible types are::
# - staticmap: Read at startup from map 
# - statictbl: Read at startup from tbl
# - tbl: Read each timestep from tbl and at startup
# - timeseries: read map for each timestep
# - monthlyclim: read a map corresponding to the current month (12 maps in total)
# - dailyclim: read a map corresponding to the current day of the year
# - hourlyclim: read a map corresponding to the current hour of the day (24 in total) (not implemented yet)
# - tss: read a tss file and link to lookupmap (only one allowed) a map using timeinputscalar
Temperature=intss/1_T.tss,tss,0.0,1,staticmaps/wflow_mgauges.map
Precipitation=intss/1_P.tss,tss,0.0,1,staticmaps/wflow_mgauges.map
PotEvaporation=intss/1_PET.tss,tss,0.0,1,staticmaps/wflow_mgauges.map


[outputtss_0]
samplemap=staticmaps/wflow_mgauges.map
#stages
self.Si[0]=SiW.tss
self.Si[1]=SiH.tss
self.Sf[1]=SfH.tss
self.Sf[0]=SfW.tss
self.Su[1]=SuH.tss
self.Su[0]=SuW.tss
#fluxen
self.Precipitation=Prec.tss
self.Qu_[0]=QuW.tss
self.Qu_[1]=QuH.tss
#self.Ei_[1]=EiH.tss
self.Eu_[0]=EuW.tss
self.Eu_[1]=EuH.tss
self.Pe_[0]=peW.tss
self.Pe_[1]=peH.tss
self.Perc_[1]=PercH.tss
self.Cap_[0]=CapW.tss
self.Qf_[1] = QfH.tss
self.Qf_[0] = QfW.tss
self.Qfcub = Qfcub.tss
self.Qtlag = Qtlag.tss
#waterbalance