public bool isInTree(ModelParameterGroupClass Target) { bool found = false; if (isGroupNode) { if (ThisGroup.ID == Target.ID) { found = true; } } else { foreach (TreeNode node in Nodes) { if (node is ParmTreeNode) { if ((node as ParmTreeNode).isInTree(Target)) { found = true; break; } } } } return(found); }
///------------------------------------------------------------------------------------------------- /// <summary> Constructor. </summary> /// /// <param name="TheModelParam"> the model parameter to create item from. </param> ///------------------------------------------------------------------------------------------------- public ModelParamItem(ModelParameterClass TheModelParam) { FModelParam = TheModelParam.ModelParam; FModelParamName = eModelParam.Names(TheModelParam.ModelParam); FFieldname = TheModelParam.Fieldname;; FLabel = TheModelParam.Label; if (TheModelParam.isExtended) { FDescrip = TheModelParam.Description; FUnitsShort = TheModelParam.Units; FUnitsLong = TheModelParam.UnitsLong; if (TheModelParam.TopicGroups != null) { if (TheModelParam.TopicGroups.Count > 0) { foreach (ModelParameterGroupClass MPG in TheModelParam.TopicGroups) { FTopics.Add(MPG); } } } } FMax = TheModelParam.HighRange; FMin = TheModelParam.LowRange; FRangeType = TheModelParam.RangeCheckType; FDepends = TheModelParam.DerivedFrom; //int Default = 0; FParamType = TheModelParam.ParamType; if ((TheModelParam.isProviderParam) && (TheModelParam.ProviderProperty != null)) { FProvAgMode = TheModelParam.ProviderProperty.AggregateMode; FProviderPropertyName = TheModelParam.ProviderProperty.GetType().FullName; } }
void Add(ModelParameterGroupClass aGroup) { // Create new node ParmTreeNode Temp = new ParmTreeNode(aGroup, FPM); Nodes.Add(Temp); }
internal void BuildTree() { ModelParameterGroupClass AllParmsGroup = new ModelParameterGroupClass("All Parameters"); ParmTreeNode AllParms = new ParmTreeNode(AllParmsGroup, FParamManager); foreach (ModelParamItem MPI in FParamItems) { // get groups if (MPI.TopicsGroup.Count > 0) { foreach (ModelParameterGroupClass MPG in MPI.TopicsGroup) { if (FAllGroups.Find(delegate(ModelParameterGroupClass item) { return(item.ID == MPG.ID); }) == null) { FAllGroups.Add(MPG); ParmTreeNode temp = new ParmTreeNode(MPG, FParamManager); TheParmNodes.Add(temp); } } } AllParms.Nodes.Add(new ParmTreeNode(MPI, FParamManager)); } foreach (ParmTreeNode Node in TheParmNodes) { treeViewParameters.Nodes.Add(Node); } treeViewParameters.Nodes.Add(AllParms); }
public ParmTreeNode(ModelParameterGroupClass aGroup, ParameterManagerClass aPM) : base(aGroup.Name) { FPM = aPM; ThisGroup = aGroup; ImageIndex = 4; SelectedImageIndex = 5; foreach (ModelParameterGroupClass groupitem in aGroup.Groups()) { Add(groupitem); } foreach (int parmcode in aGroup.ModelParameters()) { Add(parmcode); } }
static void AddGroupToParameterTopics(ParameterManagerClass PM, ModelParameterGroupClass TheGroup) { foreach (int eModCode in TheGroup.ModelParameters()) { try { ModelParameterClass MP = PM.Model_Parameter(eModCode); if (MP != null) { MP.TopicGroups.Add(TheGroup); } } finally { } } }
partial void initialize_Sustainable_ModelParameters() { Percent_Deficit = new providerArrayProperty(_pm, eModelParam.epPCT_Deficit, get_PCT_Deficit, eProviderAggregateMode.agWeighted); Percent_Reclaimed_of_Total = new providerArrayProperty(_pm, eModelParam.epPctRecOfTotal, get_PCT_Reclaimed_Of_Total, eProviderAggregateMode.agWeighted); FutureYearsSustainedPumping = new providerArrayProperty(_pm, eModelParam.epGWYrsSustain, get_FutureYearsSustainedPumping, eProviderAggregateMode.agWeighted); // //RunningGWregional = new providerArrayProperty(_pm, eModelParam.epRegGWpctInitial, get_PCT_RegGWfromInitial, eProviderAggregateMode.agWeighted); // ModelParameterGroupClass SINYRGW_Group = new ModelParameterGroupClass("Sustainable GW Years Dependencies", SINYRGW_List); _pm.GroupManager.Add(SINYRGW_Group); _pm.AddParameter(new ModelParameterClass(eModelParam.epGWYrsSustain, "Years Pumping Can Be Sustained", "SINYRGW", FutureYearsSustainedPumping, SINYRGW_Group, 0, 100)); _pm.AddParameter(new ModelParameterClass(eModelParam.epRegGWYrsSustain, "Years Pumping Can Be Sustained", "SINYRGWR", get_Regional_FutureYearsSustainedPumping, SINYRGW_Group, 0, 100)); // _pm.AddParameter(new ModelParameterClass(eModelParam.epRegPctGWDemand, "% Demand met by Groundwater", "SINPCTGW", get_Regional_PCT_GW_of_Demand, SINYRGW_Group, 0, 100)); _pm.AddParameter(new ModelParameterClass(eModelParam.epPctRecOfTotal, "Percent Supply Reclaimed", "PCTSUPREC", Percent_Reclaimed_of_Total, 0, 100)); _pm.AddParameter(new ModelParameterClass(eModelParam.epPCT_Deficit, "Percent Demand Deficit", "PCTDEMDEF", Percent_Deficit, 0, 100)); _pm.AddParameter(new ModelParameterClass(eModelParam.epAgSustainIndicator, "Agricuture Sustainability Indicator", "SINDAG", GetAgIndicator, 0, 100)); _pm.AddParameter(new ModelParameterClass(eModelParam.epEnvSustainIndicator, "Environment Sustainability Indicator", "SINDENV", GetEnvIndicator, 0, 500)); _pm.AddParameter(new ModelParameterClass(eModelParam.epWaterUseIndicator, "Water Use Sustainability Indicator", "SINDPC", GetPersonalGPCDIndicator, 0, 100)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadDeadPool, "Lake Mead Dead Pool", "MDDPL", get_MeadDeadPool, 800, 1300)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadLowerSNWA, "Lake Mead Lower SNWA Intake", "MDLIL", get_MeadSNWALowerIntake, 800, 1300)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadShortageSharingLow, "Lake Mead Shortage Sharing Low", "MDSSL", get_MeadShortageSharingLevelLow, 800, 1300)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadShortageSharingMed, "Lake Mead Shortage Sharing Med and Minimum Power Pool", "MDSSM", get_MeadShortageSharingLevelMed, 800, 1300)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadShortageSharingHigh, "Lake Mead Shortage Sharing High", "MDSSH", get_MeadShortageSharingLevelHigh, 800, 1300)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadMinPower, "Lake Mead Minimum Power Pool", "MDMPL", get_MeadMinPowerLevel, 800, 1300)); _pm.AddParameter(new ModelParameterClass(eModelParam.epMeadCapacity, "Lake Mead Capacity", "MDCPL", get_MeadCapacity, 800, 1300)); // _pm.AddParameter(new ModelParameterClass(eModelParam.epRegGWpctInitial, "% of initial Regional GW", "SINGWPCT", get_PCT_RegGWfromInitial, 0, 150)); // GW_PCTinitial = 63152280; // GW_PCTinitial = this.Regional_Groundwater_Balance; // }
public static void AddWestParameterGroups(WaterSimManager WSim) { // Create a supply group // epP_SurfaceFresh = 1031; epP_SurfaceLake = 1032; epP_SurfaceSaline = 1033; epP_Groundwater = 1034; // epP_Effluent = 1035; epP_Augmented = 1036; epP_TotalSupplies = 1037; epP_UrbanWasteWater = 1038; int[] TempSupplies = new int[8] { eModelParam.epP_SurfaceFresh, eModelParam.epP_SurfaceLake, eModelParam.epP_SurfaceSaline, eModelParam.epP_Groundwater, eModelParam.epP_Effluent, eModelParam.epP_Augmented, eModelParam.epP_TotalSupplies, eModelParam.epP_UrbanWasteWater }; ModelParameterGroupClass MPGC = new ModelParameterGroupClass("Supplies", TempSupplies); WSim.ParamManager.GroupManager.Add(MPGC); AddGroupToParameterTopics(WSim.ParamManager, MPGC); // Create Consumer Group // epUrban = 1051;epAgriculture = 1052;epIndustrial = 1053;epPower = 1054; epP_TotalDemand = 1111; int[] TempConsumer = new int[5] { eModelParam.epP_Urban, eModelParam.epP_Agriculture, eModelParam.epP_Industrial, eModelParam.epP_Power, eModelParam.epP_TotalDemand }; MPGC = new ModelParameterGroupClass("Consumers", TempConsumer); WSim.ParamManager.GroupManager.Add(MPGC); AddGroupToParameterTopics(WSim.ParamManager, MPGC); }