R(Period: IMsPeriod;
Code: String;
Inputs: Array): Variant;
R(Period: Prognoz.Platform.Interop.Ms.IMsPeriod;
Code: string;
Inputs: System.Array;
Context: Prognoz.Platform.Interop.Fore.ForeRuntimeContext): object;
Period. Period, at which the method is calculated. If the parameter is set to Null, the method is calculated at the entire time period.
Code. Expression for method calculation.
Inputs. Array of input variables.
Context. Context. The parameter is used only in Fore.NET.
The R method transforms data using R package methods.
Integration with R must be set up in the repository to use this method. For details about integration setup see the How to Set Up Integration with R? section.
Features of working with the Code parameter:
Expression is set in the R language. For more detailed description of R language see R documentation.
Input variables in an expression are indicated as X1, X2 and so on, where 1, 2 is the index of the variable in the Inputs array. Indexing in the array is continuous and starts with zero.
Executing the example requires that the repository contains a modeling container with the MS identifier. A model with the MODEL_D identifier calculated by the method of determinate equation and containing at least one input variable must be available in this container.
Integration with R must be set up in the repository. For details about integration setup see the How to Set Up Integration with R? section.
Add links to the Metabase, Ms system assemblies.
Sub UserR;
Var
Mb: IMetabase;
ModelSpace, ModelObj: IMetabaseObject;
Transf: IMsFormulaTransform;
Formula: IMsFormula;
Model: IMsModel;
Determ: IMsDeterministicTransform;
TransVar: IMsFormulaTransformVariable;
Slice: IMsFormulaTransformSlice;
TermInfo: IMsFormulaTermInfo;
Expr: IExpression;
Begin
// Get repository
Mb := MetabaseClass.Active;
// Get modeling container
ModelSpace := Mb.ItemById("MS").Bind;
// Get model
ModelObj := Mb.ItemByIdNamespace("MODEL_D", ModelSpace.Key).Edit;
Model := ModelObj As IMsModel;
// Get model calculation parameters
Transf := Model.Transform;
Formula := Transf.FormulaItem(0);
Determ := Formula.Method As IMsDeterministicTransform;
// Get the first input variable
TransVar := Transf.Inputs.Item(0);
Slice := TransVar.Slices.Item(0);
TermInfo := Transf.CreateTermInfo;
TermInfo.Slice := Slice;
// Set mode of passing variable into calculation
TermInfo.Type := MsFormulaTermType.Pointwise;
// Get model calculation expression
Expr := Determ.Expression;
Expr.References := "Ms;Stat";
// Set model calculation expression
Expr.AsString := "R(SetPeriod(" +
"""" + "01.01.2000" + """" + "," + """" + "01.01.2015" + """" + ")," +
"""" + "Y <- X1 + 1;" + """" + "," + TermInfo.TermInnerText + ") ";
// Check if the expression is correct
If Expr.Valid
// If the expression is set correctly, save the model
Then ModelObj.Save;
// If the expression is incorrect, display a message to the console window
Else Debug.WriteLine("Model is not saved: error in the formula");
End If;
End Sub UserR;
After executing the example the determinate equation model is calculated using R.
The requirements and result of the Fore.NET example execution match with those in the Fore example.
Imports Prognoz.Platform.Interop.ForeSystem;
Imports Prognoz.Platform.Interop.Ms;
…
Public Shared Sub Main(Params: StartParams);
Var
Mb: IMetabase;
ModelSpace, ModelObj: IMetabaseObject;
Transf: IMsFormulaTransform;
Formula: IMsFormula;
Model: IMsModel;
Determ: IMsDeterministicTransform;
TransVar: IMsFormulaTransformVariable;
Slice: IMsFormulaTransformSlice;
TermInfo: IMsFormulaTermInfo;
Expr: IExpression;
Begin
// Get repository
Mb := Params.Metabase;
// Get modeling container
ModelSpace := Mb.ItemById["MS"].Bind();
// Get model
ModelObj := Mb.ItemByIdNamespace["MODEL_D", ModelSpace.Key].Edit();
Model := ModelObj As IMsModel;
// Get model calculation parameters
Transf := Model.Transform;
Formula := Transf.FormulaItem[0];
Determ := Formula.Method As IMsDeterministicTransform;
// Get the first input variable
TransVar := Transf.Inputs.Item[0];
Slice := TransVar.Slices.Item[0];
TermInfo := Transf.CreateTermInfo();
TermInfo.Slice := Slice;
// Set mode of passing variable into calculation
TermInfo.Type := MsFormulaTermType.mfttPointwise;
// Get model calculation expression
Expr := Determ.Expression;
Expr.References := "Ms;Stat";
// Set model calculation expression
Expr.AsString := "R(SetPeriod(" +
"""" + "01.01.2000" + """" + "," + """" + "01.01.2015" + """" + ")," +
"""" + "Y <- X1 + 1;" + """" + "," + TermInfo.TermInnerText + ") ";
// Check if the expression is correct
If Expr.Valid
// If the expression is set correctly, save the model
Then ModelObj.Save();
// If the expression is incorrect, display a message to the console window
Else System.Diagnostics.Debug.WriteLine("Model is not saved: error in the formula");
End If;
End Sub;
Expression 1:
r(setperiod("01.01.2000", "01.01.2015"), "Y <- X1 + 1;", {Chicago - population[t]})
Result: values of the Chicago - population time series are increased by one using the R package.
Use: it can be used in formulas of calculated series of time series database and in formulas of attribute-based models.
Expression 2:
R(SetPeriod("01.01.2000", "01.01.2015"), "Y <- X1 + 1;", X1, X2)
Result: value of the X1 variable is increased by one using methods of the R package.
Use: it can be used in model formulas of modeling container.
See also:
IModelling | Time Series Database: R methods Modeling Container: The R Model