internal SaturatedZoneSubCatchment(PFSSection Section) { _pfsHandle = Section; for (int i = 1; i <= Section.GetSectionsNo(); i++) { PFSSection sub = Section.GetSection(i); switch (sub.Name) { case "SZShallowGWRoutingZones": _sZShallowGWRoutingZones = new Subcatchments(sub); break; case "SZDeepGWRoutingZones": _sZDeepGWRoutingZones = new Subcatchments(sub); break; case "Well": _well = new RiverMF(sub); break; default: _unMappedSections.Add(sub.Name); break; } } }
internal SaturatedZone(PFSSection Section) { _pfsHandle = Section; for (int i = 1; i <= Section.GetSectionsNo(); i++) { PFSSection sub = Section.GetSection(i); switch (sub.Name) { case "GeoUnitsSZProperties": _geoUnitsSZProperties = new GeoUnitsSZProperties(sub); break; case "GeoLayersSZ": _geoLayersSZ = new GeoLayersSZ(sub); break; case "GeoLensesSZ": _geoLensesSZ = new GeoLensesSZ(sub); break; case "SatWQLayers": _satWQLayers = new SatWQLayers(sub); break; case "CompLayersSZ": _compLayersSZ = new CompLayersSZ(sub); break; case "CompLayersGeoSZ": _compLayersGeoSZ = new CompLayersGeoSZ(sub); break; case "Drainage": _drainage = new Drainage(sub); break; case "Drainage_Modflow": _drainage_Modflow = new Background(sub); break; case "Well": _well = new RiverMF(sub); break; case "HeadElevationUsedForAirFlow": _headElevationUsedForAirFlow = new Topography(sub); break; default: _unMappedSections.Add(sub.Name); break; } } }
internal MIKESHE_FLOWMODEL(PFSSection Section) { _pfsHandle = Section; for (int i = 1; i <= Section.GetSectionsNo(); i++) { PFSSection sub = Section.GetSection(i); switch (sub.Name) { case "FlowModelDocVersion": _flowModelDocVersion = new FlowModelDocVersion(sub); break; case "ViewSettings": _viewSettings = new ViewSettings(sub); break; case "Overlays": _overlays = new Overlays(sub); break; case "SimSpec": _simSpec = new SimSpec(sub); break; case "ModelCompWQ": _modelCompWQ = new ModelCompWQ(sub); break; case "Species": _species = new Species(sub); break; case "Processes": _processes = new Processes(sub); break; case "Catchment": _catchment = new Catchment(sub); break; case "Subcatchments": _subcatchments = new Subcatchments(sub); break; case "Topography": _topography = new Topography(sub); break; case "Climate": _climate = new Climate(sub); break; case "LandUse": _landUse = new LandUse(sub); break; case "River": _river = new River(sub); break; case "RiverMF": _riverMF = new RiverMF(sub); break; case "Overland": _overland = new Overland(sub); break; case "OverlandSubcatchment": _overlandSubcatchment = new Subcatchments(sub); break; case "Unsatzone": _unsatzone = new Unsatzone(sub); break; case "SaturatedZone": _saturatedZone = new SaturatedZone(sub); break; case "SaturatedZoneSubCatchment": _saturatedZoneSubCatchment = new SaturatedZoneSubCatchment(sub); break; case "GroundwaterTable": _groundwaterTable = new Bathymetry(sub); break; case "Sources": _sources = new Sources1(sub); break; case "StoringOfResults": _storingOfResults = new StoringOfResults(sub); break; case "OutputModflow": _outputModflow = new OutputModflow(sub); break; case "ExtraParams": _extraParams = new ExtraParams(sub); break; case "ExecuteEngineFlagsPfs": _executeEngineFlagsPfs = new ExecuteEngineFlagsPfs(sub); break; case "Result": _result = new Result(sub); break; case "Overview": _overview = new STRESSPERIOD_PROPPAGE(sub); break; case "GeoScene3D": _geoScene3D = new GeoScene3D(sub); break; default: _unMappedSections.Add(sub.Name); break; } } }