Explanatories: IMsCompositeFormulaTermSetList;
The Explanatories property returns the set of explanatory series.
Executing the example requires that the modeling container (CONT_MODEL) contains a model (BinReg) that uses binary regression method for calculation.
Sub Main;
Var
MB: IMetabase;
SpaceDescr: IMetabaseObjectDescriptor;
MObj: IMetabaseObject;
Model: IMsModel;
Trans: IMsFormulaTransform;
VarTrans: IMsFormulaTransformVariable;
Tree: IMsFormulaTransformSlicesTree;
Slice: IMsFormulaTransformSlice;
Selector: IMsFormulaTransformSelector;
Formula: IMsFormula;
Binary: IMsBinaryRegressionTransform;
Explained: IMsFormulaTermSet;
Explanatories: IMsCompositeFormulaTermSetList;
i, j: Integer;
Term: IMsFormulaTerm;
TermSet: IMsCompositeFormulaTermSet;
CompTerm: IMsCompositeFormulaTerm;
Begin
MB := MetabaseClass.Active;
SpaceDescr := mb.ItemById("CONT_MODEL");
MObj := MB.ItemByIdNamespace("BinReg", SpaceDescr.Key).Bind;
Model := MObj As IMsModel;
Trans := Model.Transform;
VarTrans := Trans.Outputs.Item(0);
Tree := VarTrans.SlicesTree(VarTrans);
Slice := Tree.CreateSlice(1);
Selector := Model.Transform.CreateSelector;
Selector.Slice := Slice;
Formula := Model.Transform.Transform(Selector);
Binary := Formula.Method As IMsBinaryRegressionTransform;
Explained := Binary.Explained;
Debug.WriteLine(output series terms:);
For i := 0 To Explained.Count - 1 Do
Term := Explained.Item(i);
Debug.WriteLine(" " + Term.TermToText);
End For;
Explanatories := Binary.Explanatories;
Debug.WriteLine(Terms of explaining numbers:);
For i := 0 To Explanatories.Count - 1 Do
TermSet := Explanatories.Item(i);
For j := 0 To TermSet.Count - 1 Do
CompTerm := TermSet.Item(j);
Debug.WriteLine(" " + CompTerm.ExpressionText);
End For;
End For;
End Sub Main;
After executing the example terms of output and explained series are displayed in the console window.
See also: