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vers-w committed Dec 10, 2024
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"href": "user_guide/required_files.html#the-configuration-file-settings.toml",
"title": "Required files",
"section": "The configuration file (settings.toml)",
"text": "The configuration file (settings.toml)\nThe configuration file contains all relevant settings for running wflow, such as the simulation period, the model settings, the mapping between input files and (internal) model parameters. More details and explanations can be found here. An example configuration file is presented below.\n\n\nClick to show example .toml file\n\n\n# This is a TOML configuration file for Wflow.\n# Relative file paths are interpreted as being relative to this TOML file.\n# Wflow documentation https://deltares.github.io/Wflow.jl/dev/\n# TOML documentation: https://github.com/toml-lang/toml\n\nendtime = 2000-01-10T00:00:00\ndir_input = \"data/input\"\ndir_output = \"data/output\"\nloglevel = \"info\"\n\n[input]\npath_forcing = \"forcing-moselle.nc\"\npath_static = \"staticmaps-moselle.nc\"\n\n# these are not directly part of the model\nldd = \"wflow_ldd\"\nriver_location = \"wflow_river\"\nsubcatchment = \"wflow_subcatch\"\n\natmosphere_air__snowfall_temperature_threshold = \"TT\"\natmosphere_air__snowfall_temperature_interval = \"TTI\"\nsnowpack__melting_temperature_threshold = \"TTM\"\nsnowpack__degree-day_coefficient = \"Cfmax\"\n\n# specify the internal IDs of the parameters which vary over time\n# the external name mapping needs to be below together with the other mappings\nforcing = [\n \"vertical.atmospheric_forcing.precipitation\",\n \"vertical.atmospheric_forcing.temperature\",\n \"vertical.atmospheric_forcing.potential_evaporation\",\n]\n\ncyclic = [\"vertical.vegetation_parameter_set.leaf_area_index\"]\n\n[input.vertical.vegetation_parameter_set]\nleaf_area_index = \"LAI\"\nkext = \"Kext\"\nstorage_specific_leaf = \"Sl\"\nstorage_wood = \"Swood\"\nrootingdepth = \"RootingDepth\"\n\n[input.vertical.interception.parameters]\ne_r = \"EoverR\"\n\n[input.vertical.atmospheric_forcing]\npotential_evaporation = \"pet\"\nprecipitation = \"precip\"\ntemperature = \"temp\"\n\n[input.vertical.runoff.parameters]\nwaterfrac = \"WaterFrac\"\n\n[input.vertical.soil.parameters]\nc = \"c\"\ncf_soil = \"cf_soil\"\nf = \"f\"\ninfiltcappath = \"InfiltCapPath\"\ninfiltcapsoil = \"InfiltCapSoil\"\ntheta_r = \"thetaR\"\ntheta_s = \"thetaS\"\nmaxleakage = \"MaxLeakage\"\npathfrac = \"PathFrac\"\nrootdistpar = \"rootdistpar\"\nsoilthickness = \"SoilThickness\"\nkv_0 = \"KsatVer\"\n\n[input.lateral.river]\nlength = \"wflow_riverlength\"\nn = \"N_River\"\nslope = \"RiverSlope\"\nwidth = \"wflow_riverwidth\"\n\n[input.lateral.river.reservoir]\narea = \"ResSimpleArea\"\nareas = \"wflow_reservoirareas\"\ndemand = \"ResDemand\"\nlocs = \"wflow_reservoirlocs\"\nmaxrelease = \"ResMaxRelease\"\nmaxvolume = \"ResMaxVolume\"\ntargetfullfrac = \"ResTargetFullFrac\"\ntargetminfrac = \"ResTargetMinFrac\"\n\n[input.lateral.subsurface]\nksathorfrac = \"KsatHorFrac\"\n\n[input.lateral.land]\nn = \"N\"\nslope = \"Slope\"\n\n[model]\nthicknesslayers = [100, 300, 800]\ntype = \"sbm\"\n\n[csv]\npath = \"output_moselle_simple.csv\"\n\n[[csv.column]]\ncoordinate.x = 7.378\ncoordinate.y = 50.204\nheader = \"Q\"\nparameter = \"lateral.river.variables.q\"\n\n[[csv.column]]\nheader = \"recharge\"\nparameter = \"vertical.soil.variables.recharge\"\nreducer = \"mean\"",
"text": "The configuration file (settings.toml)\nThe configuration file contains all relevant settings for running wflow, such as the simulation period, the model settings, the mapping between input files and (internal) model parameters. More details and explanations can be found here. An example configuration file is presented below.\n\n\nClick to show example .toml file\n\n\n# This is a TOML configuration file for Wflow.\n# Relative file paths are interpreted as being relative to this TOML file.\n# Wflow documentation https://deltares.github.io/Wflow.jl/dev/\n# TOML documentation: https://github.com/toml-lang/toml\n\nendtime = 2000-01-10T00:00:00\ndir_input = \"data/input\"\ndir_output = \"data/output\"\nloglevel = \"info\"\n\n[input]\npath_forcing = \"forcing-moselle.nc\"\npath_static = \"staticmaps-moselle.nc\"\n\n# these are not directly part of the model\nldd = \"wflow_ldd\"\nriver_location = \"wflow_river\"\nsubcatchment = \"wflow_subcatch\"\n\natmosphere_air__snowfall_temperature_threshold = \"TT\"\natmosphere_air__snowfall_temperature_interval = \"TTI\"\nsnowpack__melting_temperature_threshold = \"TTM\"\nsnowpack__degree-day_coefficient = \"Cfmax\"\n\nsoil_water__brooks-corey_epsilon_parameter = \"c\"\nsoil_surface_water__infiltration_reduction_parameter = \"cf_soil\"\nsoil_surface_water__vertical_saturated_hydraulic_conductivity = \"KsatVer\"\nsoil_water__vertical_saturated_hydraulic_conductivity_scale_parameter = \"f\"\n\"soil~compacted_surface_water__infiltration_capacity\" = \"InfiltCapPath\"\n\"soil~non-compacted_surface_water__infiltration_capacity\" = \"InfiltCapSoil\"\nsoil_water__residual_volume_fraction = \"thetaR\"\nsoil_water__saturated_volume_fraction = \"thetaS\"\nsoil_water_sat-zone_bottom__max_leakage_volume_flux = \"MaxLeakage\"\n\"soil~compacted__area_fraction\" = \"PathFrac\"\n\"soil_root~wet__sigmoid_function_shape_parameter\" = \"rootdistpar\"\nsoil__thickness = \"SoilThickness\"\n\n# specify the internal IDs of the parameters which vary over time\n# the external name mapping needs to be below together with the other mappings\nforcing = [\n \"vertical.atmospheric_forcing.precipitation\",\n \"vertical.atmospheric_forcing.temperature\",\n \"vertical.atmospheric_forcing.potential_evaporation\",\n]\n\ncyclic = [\"vertical.vegetation_parameter_set.leaf_area_index\"]\n\n[input.vertical.vegetation_parameter_set]\nleaf_area_index = \"LAI\"\nkext = \"Kext\"\nstorage_specific_leaf = \"Sl\"\nstorage_wood = \"Swood\"\nrootingdepth = \"RootingDepth\"\n\n[input.vertical.interception.parameters]\ne_r = \"EoverR\"\n\n[input.vertical.atmospheric_forcing]\npotential_evaporation = \"pet\"\nprecipitation = \"precip\"\ntemperature = \"temp\"\n\n[input.vertical.runoff.parameters]\nwaterfrac = \"WaterFrac\"\n\n[input.lateral.river]\nlength = \"wflow_riverlength\"\nn = \"N_River\"\nslope = \"RiverSlope\"\nwidth = \"wflow_riverwidth\"\n\n[input.lateral.river.reservoir]\narea = \"ResSimpleArea\"\nareas = \"wflow_reservoirareas\"\ndemand = \"ResDemand\"\nlocs = \"wflow_reservoirlocs\"\nmaxrelease = \"ResMaxRelease\"\nmaxvolume = \"ResMaxVolume\"\ntargetfullfrac = \"ResTargetFullFrac\"\ntargetminfrac = \"ResTargetMinFrac\"\n\n[input.lateral.subsurface]\nksathorfrac = \"KsatHorFrac\"\n\n[input.lateral.land]\nn = \"N\"\nslope = \"Slope\"\n\n[model]\nthicknesslayers = [100, 300, 800]\ntype = \"sbm\"\n\n[csv]\npath = \"output_moselle_simple.csv\"\n\n[[csv.column]]\ncoordinate.x = 7.378\ncoordinate.y = 50.204\nheader = \"Q\"\nparameter = \"lateral.river.variables.q\"\n\n[[csv.column]]\nheader = \"recharge\"\nparameter = \"vertical.soil.variables.recharge\"\nreducer = \"mean\"",
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"User guide",
"Required files"
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