Esempio n. 1
0
        public void TestCrossValidationMacroWithNonDefaultNames()
        {
            string dataPath = GetDataPath(@"adult.tiny.with-schema.txt");

            using (var env = new TlcEnvironment(42))
            {
                var subGraph = env.CreateExperiment();

                var textToKey = new Legacy.Transforms.TextToKeyConverter();
                textToKey.Column = new[] { new Legacy.Transforms.TermTransformColumn()
                                           {
                                               Name = "Label1", Source = "Label"
                                           } };
                var textToKeyOutput = subGraph.Add(textToKey);

                var hash = new Legacy.Transforms.HashConverter();
                hash.Column = new[] { new Legacy.Transforms.HashJoinTransformColumn()
                                      {
                                          Name = "GroupId1", Source = "Workclass"
                                      } };
                hash.Data = textToKeyOutput.OutputData;
                var hashOutput = subGraph.Add(hash);

                var learnerInput = new Legacy.Trainers.FastTreeRanker
                {
                    TrainingData  = hashOutput.OutputData,
                    NumThreads    = 1,
                    LabelColumn   = "Label1",
                    GroupIdColumn = "GroupId1"
                };
                var learnerOutput = subGraph.Add(learnerInput);

                var modelCombine = new Legacy.Transforms.ManyHeterogeneousModelCombiner
                {
                    TransformModels = new ArrayVar <ITransformModel>(textToKeyOutput.Model, hashOutput.Model),
                    PredictorModel  = learnerOutput.PredictorModel
                };
                var modelCombineOutput = subGraph.Add(modelCombine);

                var experiment  = env.CreateExperiment();
                var importInput = new Legacy.Data.TextLoader(dataPath);
                importInput.Arguments.HasHeader = true;
                importInput.Arguments.Column    = new TextLoaderColumn[]
                {
                    new TextLoaderColumn {
                        Name = "Label", Source = new[] { new TextLoaderRange(0) }
                    },
                    new TextLoaderColumn {
                        Name = "Workclass", Source = new[] { new TextLoaderRange(1) }, Type = Legacy.Data.DataKind.Text
                    },
                    new TextLoaderColumn {
                        Name = "Features", Source = new[] { new TextLoaderRange(9, 14) }
                    }
                };
                var importOutput = experiment.Add(importInput);

                var crossValidate = new Legacy.Models.CrossValidator
                {
                    Data           = importOutput.Data,
                    Nodes          = subGraph,
                    TransformModel = null,
                    LabelColumn    = "Label1",
                    GroupColumn    = "GroupId1",
                    NameColumn     = "Workclass",
                    Kind           = Legacy.Models.MacroUtilsTrainerKinds.SignatureRankerTrainer
                };
                crossValidate.Inputs.Data            = textToKey.Data;
                crossValidate.Outputs.PredictorModel = modelCombineOutput.PredictorModel;
                var crossValidateOutput = experiment.Add(crossValidate);
                experiment.Compile();
                experiment.SetInput(importInput.InputFile, new SimpleFileHandle(env, dataPath, false, false));
                experiment.Run();
                var data = experiment.GetOutput(crossValidateOutput.OverallMetrics);

                var schema = data.Schema;
                var b      = schema.TryGetColumnIndex("NDCG", out int metricCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("Fold Index", out int foldCol);
                Assert.True(b);
                using (var cursor = data.GetRowCursor(col => col == metricCol || col == foldCol))
                {
                    var    getter     = cursor.GetGetter <VBuffer <double> >(metricCol);
                    var    foldGetter = cursor.GetGetter <DvText>(foldCol);
                    DvText fold       = default;

                    // Get the verage.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    var avg = default(VBuffer <double>);
                    getter(ref avg);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Average"));

                    // Get the standard deviation.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    var stdev = default(VBuffer <double>);
                    getter(ref stdev);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Standard Deviation"));
                    Assert.Equal(2.462, stdev.Values[0], 3);
                    Assert.Equal(2.763, stdev.Values[1], 3);
                    Assert.Equal(3.273, stdev.Values[2], 3);

                    var sumBldr = new BufferBuilder <double>(R8Adder.Instance);
                    sumBldr.Reset(avg.Length, true);
                    var val = default(VBuffer <double>);
                    for (int f = 0; f < 2; f++)
                    {
                        b = cursor.MoveNext();
                        Assert.True(b);
                        getter(ref val);
                        foldGetter(ref fold);
                        sumBldr.AddFeatures(0, ref val);
                        Assert.True(fold.EqualsStr("Fold " + f));
                    }
                    var sum = default(VBuffer <double>);
                    sumBldr.GetResult(ref sum);
                    for (int i = 0; i < avg.Length; i++)
                    {
                        Assert.Equal(avg.Values[i], sum.Values[i] / 2);
                    }
                    b = cursor.MoveNext();
                    Assert.False(b);
                }

                data = experiment.GetOutput(crossValidateOutput.PerInstanceMetrics);
                Assert.True(data.Schema.TryGetColumnIndex("Instance", out int nameCol));
                using (var cursor = data.GetRowCursor(col => col == nameCol))
                {
                    var getter = cursor.GetGetter <DvText>(nameCol);
                    while (cursor.MoveNext())
                    {
                        DvText name = default;
                        getter(ref name);
                        Assert.Subset(new HashSet <DvText>()
                        {
                            new DvText("Private"), new DvText("?"), new DvText("Federal-gov")
                        }, new HashSet <DvText>()
                        {
                            name
                        });
                        if (cursor.Position > 4)
                        {
                            break;
                        }
                    }
                }
            }
        }
Esempio n. 2
0
        public void TestCrossValidationMacroWithStratification()
        {
            var dataPath = GetDataPath(@"breast-cancer.txt");

            using (var env = new TlcEnvironment(42))
            {
                var subGraph = env.CreateExperiment();

                var nop       = new Legacy.Transforms.NoOperation();
                var nopOutput = subGraph.Add(nop);

                var learnerInput = new Legacy.Trainers.StochasticDualCoordinateAscentBinaryClassifier
                {
                    TrainingData = nopOutput.OutputData,
                    NumThreads   = 1
                };
                var learnerOutput = subGraph.Add(learnerInput);

                var modelCombine = new Legacy.Transforms.ManyHeterogeneousModelCombiner
                {
                    TransformModels = new ArrayVar <ITransformModel>(nopOutput.Model),
                    PredictorModel  = learnerOutput.PredictorModel
                };
                var modelCombineOutput = subGraph.Add(modelCombine);

                var experiment  = env.CreateExperiment();
                var importInput = new Legacy.Data.TextLoader(dataPath);
                importInput.Arguments.Column = new Legacy.Data.TextLoaderColumn[]
                {
                    new Legacy.Data.TextLoaderColumn {
                        Name = "Label", Source = new[] { new Legacy.Data.TextLoaderRange(0) }
                    },
                    new Legacy.Data.TextLoaderColumn {
                        Name = "Strat", Source = new[] { new Legacy.Data.TextLoaderRange(1) }
                    },
                    new Legacy.Data.TextLoaderColumn {
                        Name = "Features", Source = new[] { new Legacy.Data.TextLoaderRange(2, 9) }
                    }
                };
                var importOutput = experiment.Add(importInput);

                var crossValidate = new Legacy.Models.CrossValidator
                {
                    Data                 = importOutput.Data,
                    Nodes                = subGraph,
                    TransformModel       = null,
                    StratificationColumn = "Strat"
                };
                crossValidate.Inputs.Data            = nop.Data;
                crossValidate.Outputs.PredictorModel = modelCombineOutput.PredictorModel;
                var crossValidateOutput = experiment.Add(crossValidate);
                experiment.Compile();
                experiment.SetInput(importInput.InputFile, new SimpleFileHandle(env, dataPath, false, false));
                experiment.Run();
                var data = experiment.GetOutput(crossValidateOutput.OverallMetrics);

                var schema = data.Schema;
                var b      = schema.TryGetColumnIndex("AUC", out int metricCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("Fold Index", out int foldCol);
                Assert.True(b);
                using (var cursor = data.GetRowCursor(col => col == metricCol || col == foldCol))
                {
                    var    getter     = cursor.GetGetter <double>(metricCol);
                    var    foldGetter = cursor.GetGetter <DvText>(foldCol);
                    DvText fold       = default;

                    // Get the verage.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    double avg = 0;
                    getter(ref avg);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Average"));

                    // Get the standard deviation.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    double stdev = 0;
                    getter(ref stdev);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Standard Deviation"));
                    Assert.Equal(0.00485, stdev, 5);

                    double sum = 0;
                    double val = 0;
                    for (int f = 0; f < 2; f++)
                    {
                        b = cursor.MoveNext();
                        Assert.True(b);
                        getter(ref val);
                        foldGetter(ref fold);
                        sum += val;
                        Assert.True(fold.EqualsStr("Fold " + f));
                    }
                    Assert.Equal(avg, sum / 2);
                    b = cursor.MoveNext();
                    Assert.False(b);
                }
            }
        }
Esempio n. 3
0
        public void TestCrossValidationMacroWithMultiClass()
        {
            var dataPath = GetDataPath(@"Train-Tiny-28x28.txt");

            using (var env = new TlcEnvironment(42))
            {
                var subGraph = env.CreateExperiment();

                var nop       = new Legacy.Transforms.NoOperation();
                var nopOutput = subGraph.Add(nop);

                var learnerInput = new Legacy.Trainers.StochasticDualCoordinateAscentClassifier
                {
                    TrainingData = nopOutput.OutputData,
                    NumThreads   = 1
                };
                var learnerOutput = subGraph.Add(learnerInput);

                var modelCombine = new Legacy.Transforms.ManyHeterogeneousModelCombiner
                {
                    TransformModels = new ArrayVar <ITransformModel>(nopOutput.Model),
                    PredictorModel  = learnerOutput.PredictorModel
                };
                var modelCombineOutput = subGraph.Add(modelCombine);

                var experiment   = env.CreateExperiment();
                var importInput  = new Legacy.Data.TextLoader(dataPath);
                var importOutput = experiment.Add(importInput);

                var crossValidate = new Legacy.Models.CrossValidator
                {
                    Data           = importOutput.Data,
                    Nodes          = subGraph,
                    Kind           = Legacy.Models.MacroUtilsTrainerKinds.SignatureMultiClassClassifierTrainer,
                    TransformModel = null
                };
                crossValidate.Inputs.Data            = nop.Data;
                crossValidate.Outputs.PredictorModel = modelCombineOutput.PredictorModel;
                var crossValidateOutput = experiment.Add(crossValidate);

                experiment.Compile();
                importInput.SetInput(env, experiment);
                experiment.Run();
                var data = experiment.GetOutput(crossValidateOutput.OverallMetrics);

                var schema = data.Schema;
                var b      = schema.TryGetColumnIndex("Accuracy(micro-avg)", out int metricCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("Fold Index", out int foldCol);
                Assert.True(b);
                using (var cursor = data.GetRowCursor(col => col == metricCol || col == foldCol))
                {
                    var    getter     = cursor.GetGetter <double>(metricCol);
                    var    foldGetter = cursor.GetGetter <DvText>(foldCol);
                    DvText fold       = default;

                    // Get the verage.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    double avg = 0;
                    getter(ref avg);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Average"));

                    // Get the standard deviation.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    double stdev = 0;
                    getter(ref stdev);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Standard Deviation"));
                    Assert.Equal(0.025, stdev, 3);

                    double sum = 0;
                    double val = 0;
                    for (int f = 0; f < 2; f++)
                    {
                        b = cursor.MoveNext();
                        Assert.True(b);
                        getter(ref val);
                        foldGetter(ref fold);
                        sum += val;
                        Assert.True(fold.EqualsStr("Fold " + f));
                    }
                    Assert.Equal(avg, sum / 2);
                    b = cursor.MoveNext();
                    Assert.False(b);
                }

                var confusion = experiment.GetOutput(crossValidateOutput.ConfusionMatrix);
                schema = confusion.Schema;
                b      = schema.TryGetColumnIndex("Count", out int countCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("Fold Index", out foldCol);
                Assert.True(b);
                var type = schema.GetMetadataTypeOrNull(MetadataUtils.Kinds.SlotNames, countCol);
                Assert.True(type != null && type.ItemType.IsText && type.VectorSize == 10);
                var slotNames = default(VBuffer <DvText>);
                schema.GetMetadata(MetadataUtils.Kinds.SlotNames, countCol, ref slotNames);
                Assert.True(slotNames.Values.Select((s, i) => s.EqualsStr(i.ToString())).All(x => x));
                using (var curs = confusion.GetRowCursor(col => true))
                {
                    var countGetter = curs.GetGetter <VBuffer <double> >(countCol);
                    var foldGetter  = curs.GetGetter <DvText>(foldCol);
                    var confCount   = default(VBuffer <double>);
                    var foldIndex   = default(DvText);
                    int rowCount    = 0;
                    var foldCur     = "Fold 0";
                    while (curs.MoveNext())
                    {
                        countGetter(ref confCount);
                        foldGetter(ref foldIndex);
                        rowCount++;
                        Assert.True(foldIndex.EqualsStr(foldCur));
                        if (rowCount == 10)
                        {
                            rowCount = 0;
                            foldCur  = "Fold 1";
                        }
                    }
                    Assert.Equal(0, rowCount);
                }

                var warnings = experiment.GetOutput(crossValidateOutput.Warnings);
                using (var cursor = warnings.GetRowCursor(col => true))
                    Assert.False(cursor.MoveNext());
            }
        }
Esempio n. 4
0
        public void TestCrossValidationMacro()
        {
            var dataPath = GetDataPath(TestDatasets.winequalitymacro.trainFilename);

            using (var env = new TlcEnvironment(42))
            {
                var subGraph = env.CreateExperiment();

                var nop       = new Legacy.Transforms.NoOperation();
                var nopOutput = subGraph.Add(nop);

                var generate = new Legacy.Transforms.RandomNumberGenerator();
                generate.Column = new[] { new Legacy.Transforms.GenerateNumberTransformColumn()
                                          {
                                              Name = "Weight1"
                                          } };
                generate.Data = nopOutput.OutputData;
                var generateOutput = subGraph.Add(generate);

                var learnerInput = new Legacy.Trainers.PoissonRegressor
                {
                    TrainingData = generateOutput.OutputData,
                    NumThreads   = 1,
                    WeightColumn = "Weight1"
                };
                var learnerOutput = subGraph.Add(learnerInput);

                var modelCombine = new Legacy.Transforms.ManyHeterogeneousModelCombiner
                {
                    TransformModels = new ArrayVar <ITransformModel>(nopOutput.Model, generateOutput.Model),
                    PredictorModel  = learnerOutput.PredictorModel
                };
                var modelCombineOutput = subGraph.Add(modelCombine);

                var experiment  = env.CreateExperiment();
                var importInput = new Legacy.Data.TextLoader(dataPath)
                {
                    Arguments = new Legacy.Data.TextLoaderArguments
                    {
                        Separator = new[] { ';' },
                        HasHeader = true,
                        Column    = new[]
                        {
                            new TextLoaderColumn()
                            {
                                Name   = "Label",
                                Source = new [] { new TextLoaderRange(11) },
                                Type   = Legacy.Data.DataKind.Num
                            },

                            new TextLoaderColumn()
                            {
                                Name   = "Features",
                                Source = new [] { new TextLoaderRange(0, 10) },
                                Type   = Legacy.Data.DataKind.Num
                            }
                        }
                    }
                };
                var importOutput = experiment.Add(importInput);

                var crossValidate = new Legacy.Models.CrossValidator
                {
                    Data           = importOutput.Data,
                    Nodes          = subGraph,
                    Kind           = Legacy.Models.MacroUtilsTrainerKinds.SignatureRegressorTrainer,
                    TransformModel = null,
                    WeightColumn   = "Weight1"
                };
                crossValidate.Inputs.Data            = nop.Data;
                crossValidate.Outputs.PredictorModel = modelCombineOutput.PredictorModel;
                var crossValidateOutput = experiment.Add(crossValidate);

                experiment.Compile();
                importInput.SetInput(env, experiment);
                experiment.Run();
                var data = experiment.GetOutput(crossValidateOutput.OverallMetrics);

                var schema = data.Schema;
                var b      = schema.TryGetColumnIndex("L1(avg)", out int metricCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("Fold Index", out int foldCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("IsWeighted", out int isWeightedCol);
                using (var cursor = data.GetRowCursor(col => col == metricCol || col == foldCol || col == isWeightedCol))
                {
                    var    getter           = cursor.GetGetter <double>(metricCol);
                    var    foldGetter       = cursor.GetGetter <DvText>(foldCol);
                    var    isWeightedGetter = cursor.GetGetter <DvBool>(isWeightedCol);
                    DvText fold             = default;
                    DvBool isWeighted       = default;

                    double avg         = 0;
                    double weightedAvg = 0;
                    for (int w = 0; w < 2; w++)
                    {
                        // Get the average.
                        b = cursor.MoveNext();
                        Assert.True(b);
                        if (w == 1)
                        {
                            getter(ref weightedAvg);
                        }
                        else
                        {
                            getter(ref avg);
                        }
                        foldGetter(ref fold);
                        Assert.True(fold.EqualsStr("Average"));
                        isWeightedGetter(ref isWeighted);
                        Assert.True(isWeighted.IsTrue == (w == 1));

                        // Get the standard deviation.
                        b = cursor.MoveNext();
                        Assert.True(b);
                        double stdev = 0;
                        getter(ref stdev);
                        foldGetter(ref fold);
                        Assert.True(fold.EqualsStr("Standard Deviation"));
                        if (w == 1)
                        {
                            Assert.Equal(0.004557, stdev, 6);
                        }
                        else
                        {
                            Assert.Equal(0.000393, stdev, 6);
                        }
                        isWeightedGetter(ref isWeighted);
                        Assert.True(isWeighted.IsTrue == (w == 1));
                    }
                    double sum         = 0;
                    double weightedSum = 0;
                    for (int f = 0; f < 2; f++)
                    {
                        for (int w = 0; w < 2; w++)
                        {
                            b = cursor.MoveNext();
                            Assert.True(b);
                            double val = 0;
                            getter(ref val);
                            foldGetter(ref fold);
                            if (w == 1)
                            {
                                weightedSum += val;
                            }
                            else
                            {
                                sum += val;
                            }
                            Assert.True(fold.EqualsStr("Fold " + f));
                            isWeightedGetter(ref isWeighted);
                            Assert.True(isWeighted.IsTrue == (w == 1));
                        }
                    }
                    Assert.Equal(weightedAvg, weightedSum / 2);
                    Assert.Equal(avg, sum / 2);
                    b = cursor.MoveNext();
                    Assert.False(b);
                }
            }
        }
        public void TestCrossValidationMacro()
        {
            var dataPath = GetDataPath(TestDatasets.winequality.trainFilename);

            using (var env = new TlcEnvironment(42))
            {
                var subGraph = env.CreateExperiment();

                var nop       = new ML.Transforms.NoOperation();
                var nopOutput = subGraph.Add(nop);

                var learnerInput = new ML.Trainers.StochasticDualCoordinateAscentRegressor
                {
                    TrainingData = nopOutput.OutputData,
                    NumThreads   = 1
                };
                var learnerOutput = subGraph.Add(learnerInput);

                var modelCombine = new ML.Transforms.ManyHeterogeneousModelCombiner
                {
                    TransformModels = new ArrayVar <ITransformModel>(nopOutput.Model),
                    PredictorModel  = learnerOutput.PredictorModel
                };
                var modelCombineOutput = subGraph.Add(modelCombine);

                var experiment  = env.CreateExperiment();
                var importInput = new ML.Data.TextLoader(dataPath)
                {
                    Arguments = new TextLoaderArguments
                    {
                        Separator = new[] { ';' },
                        HasHeader = true,
                        Column    = new[]
                        {
                            new TextLoaderColumn()
                            {
                                Name   = "Label",
                                Source = new [] { new TextLoaderRange(11) },
                                Type   = DataKind.Num
                            },

                            new TextLoaderColumn()
                            {
                                Name   = "Features",
                                Source = new [] { new TextLoaderRange(0, 10) },
                                Type   = DataKind.Num
                            }
                        }
                    }
                };
                var importOutput = experiment.Add(importInput);

                var crossValidate = new ML.Models.CrossValidator
                {
                    Data           = importOutput.Data,
                    Nodes          = subGraph,
                    Kind           = ML.Models.MacroUtilsTrainerKinds.SignatureRegressorTrainer,
                    TransformModel = null
                };
                crossValidate.Inputs.Data            = nop.Data;
                crossValidate.Outputs.PredictorModel = modelCombineOutput.PredictorModel;
                var crossValidateOutput = experiment.Add(crossValidate);

                experiment.Compile();
                importInput.SetInput(env, experiment);
                experiment.Run();
                var data = experiment.GetOutput(crossValidateOutput.OverallMetrics);

                var schema = data.Schema;
                var b      = schema.TryGetColumnIndex("L1(avg)", out int metricCol);
                Assert.True(b);
                b = schema.TryGetColumnIndex("Fold Index", out int foldCol);
                Assert.True(b);
                using (var cursor = data.GetRowCursor(col => col == metricCol || col == foldCol))
                {
                    var    getter     = cursor.GetGetter <double>(metricCol);
                    var    foldGetter = cursor.GetGetter <DvText>(foldCol);
                    DvText fold       = default;

                    // Get the verage.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    double avg = 0;
                    getter(ref avg);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Average"));

                    // Get the standard deviation.
                    b = cursor.MoveNext();
                    Assert.True(b);
                    double stdev = 0;
                    getter(ref stdev);
                    foldGetter(ref fold);
                    Assert.True(fold.EqualsStr("Standard Deviation"));
                    Assert.Equal(0.0013, stdev, 4);

                    double sum = 0;
                    double val = 0;
                    for (int f = 0; f < 2; f++)
                    {
                        b = cursor.MoveNext();
                        Assert.True(b);
                        getter(ref val);
                        foldGetter(ref fold);
                        sum += val;
                        Assert.True(fold.EqualsStr("Fold " + f));
                    }
                    Assert.Equal(avg, sum / 2);
                    b = cursor.MoveNext();
                    Assert.False(b);
                }
            }
        }
        public static CommonOutputs.TransformOutput RenameBinaryPredictionScoreColumns(IHostEnvironment env,
                                                                                       RenameBinaryPredictionScoreColumnsInput input)
        {
            Contracts.CheckValue(env, nameof(env));
            var host = env.Register("ScoreModel");

            host.CheckValue(input, nameof(input));
            EntryPointUtils.CheckInputArgs(host, input);

            if (input.PredictorModel.Predictor.PredictionKind == PredictionKind.BinaryClassification)
            {
                ColumnType labelType;
                var        labelNames = input.PredictorModel.GetLabelInfo(host, out labelType);
                if (labelNames != null && labelNames.Length == 2)
                {
                    var positiveClass = labelNames[1];

                    // Rename all the score columns.
                    int colMax;
                    var maxScoreId = input.Data.Schema.GetMaxMetadataKind(out colMax, MetadataUtils.Kinds.ScoreColumnSetId);
                    var copyCols   = new List <CopyColumnsTransform.Column>();
                    for (int i = 0; i < input.Data.Schema.ColumnCount; i++)
                    {
                        if (input.Data.Schema.IsHidden(i))
                        {
                            continue;
                        }
                        if (!ShouldAddColumn(input.Data.Schema, i, null, maxScoreId))
                        {
                            continue;
                        }
                        // Do not rename the PredictedLabel column.
                        DvText tmp = default(DvText);
                        if (input.Data.Schema.TryGetMetadata(TextType.Instance, MetadataUtils.Kinds.ScoreValueKind, i,
                                                             ref tmp) &&
                            tmp.EqualsStr(MetadataUtils.Const.ScoreValueKind.PredictedLabel))
                        {
                            continue;
                        }
                        var source = input.Data.Schema.GetColumnName(i);
                        var name   = source + "." + positiveClass;
                        copyCols.Add(new CopyColumnsTransform.Column()
                        {
                            Name = name, Source = source
                        });
                    }

                    var copyColumn = new CopyColumnsTransform(env, new CopyColumnsTransform.Arguments()
                    {
                        Column = copyCols.ToArray()
                    }, input.Data);
                    var dropColumn = new DropColumnsTransform(env, new DropColumnsTransform.Arguments()
                    {
                        Column = copyCols.Select(c => c.Source).ToArray()
                    }, copyColumn);
                    return(new CommonOutputs.TransformOutput {
                        Model = new TransformModel(env, dropColumn, input.Data), OutputData = dropColumn
                    });
                }
            }

            var newView = NopTransform.CreateIfNeeded(env, input.Data);

            return(new CommonOutputs.TransformOutput {
                Model = new TransformModel(env, newView, input.Data), OutputData = newView
            });
        }