TextCatalog.ProduceNgrams Metoda

Definicja

Przestrzeń nazw:

Microsoft.ML

Zestaw:

Microsoft.ML.Transforms.dll

Pakiet:

Microsoft.ML v2.0.0

Tworzy element NgramExtractingEstimator , który tworzy wektor liczby n-gramów (sekwencje kolejnych wyrazów) napotkanych w tekście wejściowym.

public static Microsoft.ML.Transforms.Text.NgramExtractingEstimator ProduceNgrams (this Microsoft.ML.TransformsCatalog.TextTransforms catalog, string outputColumnName, string inputColumnName = default, int ngramLength = 2, int skipLength = 0, bool useAllLengths = true, int maximumNgramsCount = 10000000, Microsoft.ML.Transforms.Text.NgramExtractingEstimator.WeightingCriteria weighting = Microsoft.ML.Transforms.Text.NgramExtractingEstimator+WeightingCriteria.Tf);

static member ProduceNgrams : Microsoft.ML.TransformsCatalog.TextTransforms * string * string * int * int * bool * int * Microsoft.ML.Transforms.Text.NgramExtractingEstimator.WeightingCriteria -> Microsoft.ML.Transforms.Text.NgramExtractingEstimator

<Extension()>
Public Function ProduceNgrams (catalog As TransformsCatalog.TextTransforms, outputColumnName As String, Optional inputColumnName As String = Nothing, Optional ngramLength As Integer = 2, Optional skipLength As Integer = 0, Optional useAllLengths As Boolean = true, Optional maximumNgramsCount As Integer = 10000000, Optional weighting As NgramExtractingEstimator.WeightingCriteria = Microsoft.ML.Transforms.Text.NgramExtractingEstimator+WeightingCriteria.Tf) As NgramExtractingEstimator

Parametry

catalog

TransformsCatalog.TextTransforms

Wykaz przekształcenia związanego z tekstem.

outputColumnName

String

Nazwa kolumny wynikającej z przekształcenia elementu inputColumnName. Typ danych tej kolumny będzie wektorem .Single

inputColumnName

String

Nazwa kolumny do przekształcenia. W przypadku ustawienia wartości nullwartość parametru outputColumnName będzie używana jako źródło. Ten narzędzie do szacowania działa na wektorach typu danych kluczy.

ngramLength

Int32

Długość Ngramu.

skipLength

Int32

Liczba tokenów do pominięcia między poszczególnymi n-gramami. Domyślnie token nie jest pomijany.

useAllLengths

Boolean

Określa, czy mają być uwzględniane wszystkie długości n-gramowe do ngramLength lub tylko ngramLength.

maximumNgramsCount

Int32

Maksymalna liczba n-gramów do przechowywania w słowniku.

weighting

NgramExtractingEstimator.WeightingCriteria

Miara statystyczna używana do oceny, jak ważne jest słowo lub n-gram dla dokumentu w korpusie. Gdy maximumNgramsCount jest mniejsza niż całkowita liczba napotkanych n-gramów, ta miara jest używana do określenia, które n-gramy zachować.

Zwraca

NgramExtractingEstimator

Przykłady

using System;
using System.Collections.Generic;
using Microsoft.ML;
using Microsoft.ML.Data;
using Microsoft.ML.Transforms.Text;

namespace Samples.Dynamic
{
    public static class ProduceNgrams
    {
        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();

            // Create a small dataset as an IEnumerable.
            var samples = new List<TextData>()
            {
                new TextData(){ Text = "This is an example to compute n-grams." },
                new TextData(){ Text = "N-gram is a sequence of 'N' consecutive " +
                    "words/tokens." },

                new TextData(){ Text = "ML.NET's ProduceNgrams API produces " +
                    "vector of n-grams." },

                new TextData(){ Text = "Each position in the vector corresponds " +
                    "to a particular n-gram." },

                new TextData(){ Text = "The value at each position corresponds " +
                    "to," },

                new TextData(){ Text = "the number of times n-gram occurred in " +
                    "the data (Tf), or" },

                new TextData(){ Text = "the inverse of the number of documents " +
                    "that contain the n-gram (Idf)," },

                new TextData(){ Text = "or compute both and multiply together " +
                    "(Tf-Idf)." },
            };

            // Convert training data to IDataView.
            var dataview = mlContext.Data.LoadFromEnumerable(samples);

            // A pipeline for converting text into numeric n-gram features.
            // The following call to 'ProduceNgrams' requires the tokenized
            // text /string as input. This is achieved by calling 
            // 'TokenizeIntoWords' first followed by 'ProduceNgrams'. Please note
            // that the length of the output feature vector depends on the n-gram
            // settings.
            var textPipeline = mlContext.Transforms.Text.TokenizeIntoWords("Tokens",
                "Text")
                // 'ProduceNgrams' takes key type as input. Converting the tokens
                // into key type using 'MapValueToKey'.
                .Append(mlContext.Transforms.Conversion.MapValueToKey("Tokens"))
                .Append(mlContext.Transforms.Text.ProduceNgrams("NgramFeatures",
                    "Tokens",
                    ngramLength: 3,
                    useAllLengths: false,
                    weighting: NgramExtractingEstimator.WeightingCriteria.Tf));

            // Fit to data.
            var textTransformer = textPipeline.Fit(dataview);
            var transformedDataView = textTransformer.Transform(dataview);

            // Create the prediction engine to get the n-gram features extracted
            // from the text.
            var predictionEngine = mlContext.Model.CreatePredictionEngine<TextData,
                TransformedTextData>(textTransformer);

            // Convert the text into numeric features.
            var prediction = predictionEngine.Predict(samples[0]);

            // Print the length of the feature vector.
            Console.WriteLine("Number of Features: " + prediction.NgramFeatures
                .Length);

            // Preview of the produced n-grams.
            // Get the slot names from the column's metadata.
            // The slot names for a vector column corresponds to the names
            // associated with each position in the vector.
            VBuffer<ReadOnlyMemory<char>> slotNames = default;
            transformedDataView.Schema["NgramFeatures"].GetSlotNames(ref slotNames);
            var NgramFeaturesColumn = transformedDataView.GetColumn<VBuffer<
                float>>(transformedDataView.Schema["NgramFeatures"]);
            var slots = slotNames.GetValues();
            Console.Write("N-grams: ");
            foreach (var featureRow in NgramFeaturesColumn)
            {
                foreach (var item in featureRow.Items())
                    Console.Write($"{slots[item.Key]}  ");
                Console.WriteLine();
            }

            // Print the first 10 feature values.
            Console.Write("Features: ");
            for (int i = 0; i < 10; i++)
                Console.Write($"{prediction.NgramFeatures[i]:F4}  ");

            //  Expected output:
            //   Number of Features: 52
            //   N-grams:   This|is|an  is|an|example  an|example|to  example|to|compute  to|compute|n-grams.  N-gram|is|a  is|a|sequence  a|sequence|of  sequence|of|'N'  of|'N'|consecutive  ...
            //   Features:     1.0000      1.0000          1.0000           1.0000             1.0000            0.0000      0.0000          0.0000          0.0000          0.0000          ...
        }

        private class TextData
        {
            public string Text { get; set; }
        }

        private class TransformedTextData : TextData
        {
            public float[] NgramFeatures { get; set; }
        }
    }
}