LearningPipelineExtensions.WithOnFitDelegate<TTransformer> 方法

定義

命名空間:

Microsoft.ML

組件:

Microsoft.ML.Data.dll

套件:

Microsoft.ML v2.0.0

假設有估算器，則會傳回包裝物件，一旦 Fit(IDataView) 呼叫委派即可。 估算器通常必須傳回符合專案的相關資訊，這就是方法 Fit(IDataView) 傳回特定型別物件的原因，而不是只傳回一般 ITransformer 。 不過，同時 IEstimator<TTransformer> ，通常會形成具有許多物件的管線，因此我們可能需要透過 EstimatorChain<TLastTransformer> 建置估算器的鏈結，而我們想要取得轉換器的估算器會在此鏈結的某處被隱藏。 在該案例中，我們可以透過此方法附加呼叫一次將會呼叫的委派。

public static Microsoft.ML.IEstimator<TTransformer> WithOnFitDelegate<TTransformer> (this Microsoft.ML.IEstimator<TTransformer> estimator, Action<TTransformer> onFit) where TTransformer : class, Microsoft.ML.ITransformer;

static member WithOnFitDelegate : Microsoft.ML.IEstimator<'ransformer (requires 'ransformer : null and 'ransformer :> Microsoft.ML.ITransformer)> * Action<'ransformer (requires 'ransformer : null and 'ransformer :> Microsoft.ML.ITransformer)> -> Microsoft.ML.IEstimator<'ransformer (requires 'ransformer : null and 'ransformer :> Microsoft.ML.ITransformer)> (requires 'ransformer : null and 'ransformer :> Microsoft.ML.ITransformer)

<Extension()>
Public Function WithOnFitDelegate(Of TTransformer As {Class, ITransformer}) (estimator As IEstimator(Of TTransformer), onFit As Action(Of TTransformer)) As IEstimator(Of TTransformer)

類型參數

TTransformer

所傳回的 ITransformer 型別 estimator

參數

estimator

IEstimator<TTransformer>

要包裝的估算器

onFit

Action<TTransformer>

呼叫後，會以產生的 TTransformer 實例 Fit(IDataView) 呼叫的委派。 因為 Fit(IDataView) 可以多次呼叫，所以這個委派也可能呼叫多次。

傳回

IEstimator<TTransformer>

包裝估算器，每當呼叫 fit 時呼叫指定的委派

範例

using System;
using System.Collections.Generic;
using System.Collections.Immutable;
using System.Linq;
using Microsoft.ML;
using Microsoft.ML.Data;
using Microsoft.ML.Transforms;
using static Microsoft.ML.Transforms.NormalizingTransformer;

namespace Samples.Dynamic
{
    public class WithOnFitDelegate
    {
        public static void Example()
        {
            // Create a new ML context, for ML.NET operations. It can be used for
            // exception tracking and logging, as well as the source of randomness.
            var mlContext = new MLContext();
            var samples = new List<DataPoint>()
            {
                new DataPoint(){ Features = new float[4] { 8, 1, 3, 0},
                    Label = true },

                new DataPoint(){ Features = new float[4] { 6, 2, 2, 0},
                    Label = true },

                new DataPoint(){ Features = new float[4] { 4, 0, 1, 0},
                    Label = false },

                new DataPoint(){ Features = new float[4] { 2,-1,-1, 1},
                    Label = false }

            };
            // Convert training data to IDataView, the general data type used in
            // ML.NET.
            var data = mlContext.Data.LoadFromEnumerable(samples);

            // Create a pipeline to normalize the features and train a binary
            // classifier. We use WithOnFitDelegate for the intermediate binning
            // normalization step, so that we can inspect the properties of the
            // normalizer after fitting.
            NormalizingTransformer binningTransformer = null;
            var pipeline =
                mlContext.Transforms
                .NormalizeBinning("Features", maximumBinCount: 3)
                .WithOnFitDelegate(
                fittedTransformer => binningTransformer = fittedTransformer)
                .Append(mlContext.BinaryClassification.Trainers
                .LbfgsLogisticRegression());

            Console.WriteLine(binningTransformer == null);
            // Expected Output:
            //   True

            var model = pipeline.Fit(data);

            // During fitting binningTransformer will get assigned a new value
            Console.WriteLine(binningTransformer == null);
            // Expected Output:
            //   False

            // Inspect some of the properties of the binning transformer
            var binningParam = binningTransformer.GetNormalizerModelParameters(0) as
                BinNormalizerModelParameters<ImmutableArray<float>>;

            for (int i = 0; i < binningParam.UpperBounds.Length; i++)
            {
                var upperBounds = string.Join(", ", binningParam.UpperBounds[i]);
                Console.WriteLine(
                    $"Bin {i}: Density = {binningParam.Density[i]}, " +
                    $"Upper-bounds = {upperBounds}");

            }
            // Expected output:
            //   Bin 0: Density = 2, Upper-bounds = 3, 7, Infinity
            //   Bin 1: Density = 2, Upper-bounds = -0.5, 1.5, Infinity
            //   Bin 2: Density = 2, Upper-bounds = 0, 2.5, Infinity
            //   Bin 3: Density = 1, Upper-bounds = 0.5, Infinity
        }

        private class DataPoint
        {
            [VectorType(4)]
            public float[] Features { get; set; }
            public bool Label { get; set; }
        }
    }
}